commit afdf1d188ca92e69fb540a3b71eefa94aae1fe41 Author: DrPerkyLegit Date: Sat May 16 11:30:28 2026 -0400 removed git history diff --git a/.clang-format b/.clang-format new file mode 100644 index 0000000..a4d4a4c --- /dev/null +++ b/.clang-format @@ -0,0 +1,53 @@ +--- +BasedOnStyle: Microsoft +AccessModifierOffset: -2 +BraceWrapping: + AfterCaseLabel: false + AfterClass: true + AfterControlStatement: Always + AfterEnum: true + AfterExternBlock: true + AfterFunction: true + AfterNamespace: true + AfterObjCDeclaration: true + AfterStruct: true + AfterUnion: false + BeforeCatch: true + BeforeElse: true + BeforeLambdaBody: false + BeforeWhile: false + IndentBraces: false + SplitEmptyFunction: true + SplitEmptyRecord: true + SplitEmptyNamespace: true +ColumnLimit: 0 +IncludeBlocks: Preserve +IndentAccessModifiers: false +IndentCaseBlocks: true +IndentCaseLabels: false +IndentExportBlock: true +IndentExternBlock: AfterExternBlock +IndentGotoLabels: false +IndentPPDirectives: None +IndentWidth: 4 +InsertBraces: true +InsertNewlineAtEOF: true +NamespaceIndentation: None +PointerAlignment: Right +RemoveParentheses: Leave +RemoveSemicolon: false +SeparateDefinitionBlocks: Leave +ShortNamespaceLines: 1 +SkipMacroDefinitionBody: false +SortIncludes: CaseSensitive +SpacesInParens: Never +SpacesInParensOptions: + ExceptDoubleParentheses: false + InCStyleCasts: false + InConditionalStatements: false + InEmptyParentheses: false + Other: false +SpacesInSquareBrackets: false +Standard: Latest +TabWidth: 4 +UseTab: Never diff --git a/.clang-tidy b/.clang-tidy new file mode 100644 index 0000000..3ad1140 --- /dev/null +++ b/.clang-tidy @@ -0,0 +1,18 @@ +--- +# Enable all modernize checks, but explicitly exclude trailing return types +Checks: > + -*, + modernize-*, + google-readability-casting, + cppcoreguidelines-pro-type-cstyle-cast, + -modernize-use-trailing-return-type + +# Pass the C++14 flag to the internal Clang compiler +ExtraArgs: ['-std=c++14'] + +CheckOptions: + - key: modernize-loop-convert.MinConfidence + value: reasonable + - key: modernize-use-auto.MinTypeNameLength + value: 5 +... diff --git a/.gitattributes b/.gitattributes new file mode 100644 index 0000000..e69de29 diff --git a/.github/workflows/nightly.yml b/.github/workflows/nightly.yml new file mode 100644 index 0000000..402f3cb --- /dev/null +++ b/.github/workflows/nightly.yml @@ -0,0 +1,46 @@ +name: Nightly Release + +on: + workflow_dispatch: + push: + branches: + - 'main' + paths-ignore: + - '.gitignore' + - '*.md' + - '.github/*.md' + +jobs: + build: + name: Build Windows64 + runs-on: windows-latest + + steps: + - name: Checkout + uses: actions/checkout@v6 + + - name: Setup msbuild + uses: microsoft/setup-msbuild@v2 + + - name: Build + run: MSBuild.exe MinecraftConsoles.sln /p:Configuration=Release /p:Platform="Windows64" + + - name: Zip Build + run: 7z a -r LCEWindows64.zip ./x64/Release/* + + - name: Update release + uses: andelf/nightly-release@main + env: + GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }} + with: + tag_name: nightly + name: Nightly Release + body: | + Requires at least Windows 7 and DirectX 11 compatible GPU to run. Compiled with MSVC v14.44.35207 in Release mode with Whole Program Optimization, as well as `/O2 /Ot /Oi /Ob3 /GF /fp:precise`. + + # 🚨 First time here? 🚨 + If you've never downloaded the game before, you need to download `LCEWindows64.zip` and extract it to the folder where you'd like to keep the game. The other files are included in this `.zip` file! + files: | + LCEWindows64.zip + ./x64/Release/Minecraft.Client.exe + ./x64/Release/Minecraft.Client.pdb diff --git a/.gitignore b/.gitignore new file mode 100644 index 0000000..9abf750 --- /dev/null +++ b/.gitignore @@ -0,0 +1,439 @@ +# Created by https://www.toptal.com/developers/gitignore/api/visualstudio +# Edit at https://www.toptal.com/developers/gitignore?templates=visualstudio + +### VisualStudio ### +## Ignore Visual Studio temporary files, build results, and +## files generated by popular Visual Studio add-ons. +## +## Get latest from https://github.com/github/gitignore/blob/main/VisualStudio.gitignore + +# User-specific files +*.rsuser +*.suo +*.user +*.userosscache +*.sln.docstates + +# User-specific files (MonoDevelop/Xamarin Studio) +*.userprefs + +# Mono auto generated files +mono_crash.* + +# Build results +[Dd]ebug/ +[Dd]ebugPublic/ +[Rr]elease/ +[Rr]eleases/ +x64/ +x86/ +[Ww][Ii][Nn]32/ +[Aa][Rr][Mm]/ +[Aa][Rr][Mm]64/ +bld/ +[Bb]in/ +[Oo]bj/ +[Ll]og/ +[Ll]ogs/ + +# Visual Studio 2015/2017 cache/options directory +.vs/ +# Uncomment if you have tasks that create the project's static files in wwwroot +#wwwroot/ + +# Visual Studio 2017 auto generated files +Generated\ Files/ + +# MSTest test Results +[Tt]est[Rr]esult*/ +[Bb]uild[Ll]og.* + +# NUnit +*.VisualState.xml +TestResult.xml +nunit-*.xml + +# Build Results of an ATL Project +[Dd]ebugPS/ +[Rr]eleasePS/ +dlldata.c + +# Benchmark Results +BenchmarkDotNet.Artifacts/ + +# .NET Core +project.lock.json +project.fragment.lock.json +artifacts/ + +# ASP.NET Scaffolding +ScaffoldingReadMe.txt + +# StyleCop +StyleCopReport.xml + +# Files built by Visual Studio +*_i.c +*_p.c +*_h.h +*.ilk +*.meta +*.obj +*.iobj +*.pch +*.pdb +*.ipdb +*.pgc +*.pgd +*.rsp +*.sbr +*.tlb +*.tli +*.tlh +*.tmp +*.tmp_proj +*_wpftmp.csproj +*.log +*.tlog +*.vspscc +*.vssscc +.builds +*.pidb +*.svclog +*.scc + +# Chutzpah Test files +_Chutzpah* + +# Visual C++ cache files +ipch/ +*.aps +*.ncb +*.opendb +*.opensdf +*.sdf +*.cachefile +*.VC.db +*.VC.VC.opendb + +# Visual Studio profiler +*.psess +*.vsp +*.vspx +*.sap + +# Visual Studio Trace Files +*.e2e + +# TFS 2012 Local Workspace +$tf/ + +# Guidance Automation Toolkit +*.gpState + +# ReSharper is a .NET coding add-in +_ReSharper*/ +*.[Rr]e[Ss]harper +*.DotSettings.user + +# TeamCity is a build add-in +_TeamCity* + +# DotCover is a Code Coverage Tool +*.dotCover + +# AxoCover is a Code Coverage Tool +.axoCover/* +!.axoCover/settings.json + +# Coverlet is a free, cross platform Code Coverage Tool +coverage*.json +coverage*.xml +coverage*.info + +# Visual Studio code coverage results +*.coverage +*.coveragexml + +# NCrunch +_NCrunch_* +.*crunch*.local.xml +nCrunchTemp_* + +# MightyMoose +*.mm.* +AutoTest.Net/ + +# Web workbench (sass) +.sass-cache/ + +# Installshield output folder +[Ee]xpress/ + +# DocProject is a documentation generator add-in +DocProject/buildhelp/ +DocProject/Help/*.HxT +DocProject/Help/*.HxC +DocProject/Help/*.hhc +DocProject/Help/*.hhk +DocProject/Help/*.hhp +DocProject/Help/Html2 +DocProject/Help/html + +# Click-Once directory +publish/ + +# Publish Web Output +*.[Pp]ublish.xml +*.azurePubxml +# Note: Comment the next line if you want to checkin your web deploy settings, +# but database connection strings (with potential passwords) will be unencrypted +*.pubxml +*.publishproj + +# Microsoft Azure Web App publish settings. Comment the next line if you want to +# checkin your Azure Web App publish settings, but sensitive information contained +# in these scripts will be unencrypted +PublishScripts/ + +# NuGet Packages +*.nupkg +# NuGet Symbol Packages +*.snupkg +# The packages folder can be ignored because of Package Restore +**/[Pp]ackages/* +# except build/, which is used as an MSBuild target. +!**/[Pp]ackages/build/ +# Uncomment if necessary however generally it will be regenerated when needed +#!**/[Pp]ackages/repositories.config +# NuGet v3's project.json files produces more ignorable files +*.nuget.props +*.nuget.targets + +# Microsoft Azure Build Output +csx/ +*.build.csdef + +# Microsoft Azure Emulator +ecf/ +rcf/ + +# Windows Store app package directories and files +AppPackages/ +BundleArtifacts/ +Package.StoreAssociation.xml +_pkginfo.txt +*.appx +*.appxbundle +*.appxupload + +# Visual Studio cache files +# files ending in .cache can be ignored +*.[Cc]ache +# but keep track of directories ending in .cache +!?*.[Cc]ache/ + +# Others +ClientBin/ +~$* +*~ +*.dbmdl +*.dbproj.schemaview +*.jfm +*.pfx +*.publishsettings +orleans.codegen.cs + +# Including strong name files can present a security risk +# (https://github.com/github/gitignore/pull/2483#issue-259490424) +#*.snk + +# Since there are multiple workflows, uncomment next line to ignore bower_components +# (https://github.com/github/gitignore/pull/1529#issuecomment-104372622) +#bower_components/ + +# RIA/Silverlight projects +Generated_Code/ + +# Backup & report files from converting an old project file +# to a newer Visual Studio version. Backup files are not needed, +# because we have git ;-) +_UpgradeReport_Files/ +Backup*/ +UpgradeLog*.XML +UpgradeLog*.htm +ServiceFabricBackup/ +*.rptproj.bak + +# SQL Server files +*.mdf +*.ldf +*.ndf + +# Business Intelligence projects +*.rdl.data +*.bim.layout +*.bim_*.settings +*.rptproj.rsuser +*- [Bb]ackup.rdl +*- [Bb]ackup ([0-9]).rdl +*- [Bb]ackup ([0-9][0-9]).rdl + +# Microsoft Fakes +FakesAssemblies/ + +# GhostDoc plugin setting file +*.GhostDoc.xml + +# Node.js Tools for Visual Studio +.ntvs_analysis.dat +node_modules/ + +# Visual Studio 6 build log +*.plg + +# Visual Studio 6 workspace options file +*.opt + +# Visual Studio 6 auto-generated workspace file (contains which files were open etc.) +*.vbw + +# Visual Studio 6 auto-generated project file (contains which files were open etc.) +*.vbp + +# Visual Studio 6 workspace and project file (working project files containing files to include in project) +*.dsw +*.dsp + +# Visual Studio 6 technical files + +# Visual Studio LightSwitch build output +**/*.HTMLClient/GeneratedArtifacts +**/*.DesktopClient/GeneratedArtifacts +**/*.DesktopClient/ModelManifest.xml +**/*.Server/GeneratedArtifacts +**/*.Server/ModelManifest.xml +_Pvt_Extensions + +# Paket dependency manager +.paket/paket.exe +paket-files/ + +# FAKE - F# Make +.fake/ + +# CodeRush personal settings +.cr/personal + +# Python Tools for Visual Studio (PTVS) +__pycache__/ +*.pyc + +# Cake - Uncomment if you are using it +# tools/** +# !tools/packages.config + +# Tabs Studio +*.tss + +# Telerik's JustMock configuration file +*.jmconfig + +# BizTalk build output +*.btp.cs +*.btm.cs +*.odx.cs +*.xsd.cs + +# OpenCover UI analysis results +OpenCover/ + +# Azure Stream Analytics local run output +ASALocalRun/ + +# MSBuild Binary and Structured Log +*.binlog + +# NVidia Nsight GPU debugger configuration file +*.nvuser + +# MFractors (Xamarin productivity tool) working folder +.mfractor/ + +# Local History for Visual Studio +.localhistory/ + +# Visual Studio History (VSHistory) files +.vshistory/ + +# BeatPulse healthcheck temp database +healthchecksdb + +# Backup folder for Package Reference Convert tool in Visual Studio 2017 +MigrationBackup/ + +# Ionide (cross platform F# VS Code tools) working folder +.ionide/ + +# Fody - auto-generated XML schema +FodyWeavers.xsd + +# VS Code files for those working on multiple tools +.vscode/* +!.vscode/settings.json +!.vscode/tasks.json +!.vscode/launch.json +!.vscode/extensions.json +*.code-workspace + +# Local History for Visual Studio Code +.history/ + +# Windows Installer files from build outputs +*.cab +*.msi +*.msix +*.msm +*.msp + +# JetBrains Rider +*.sln.iml + +### VisualStudio Patch ### +# Additional files built by Visual Studio + +# End of https://www.toptal.com/developers/gitignore/api/visualstudio + +enc_temp_folder/ + +# Game data / assets +Minecraft.Client/Schematics/ +Minecraft.Client/Windows64/GameHDD/ + +# Intermediate build files (per-project) +Minecraft.Client/x64/ +Minecraft.Client/Debug/ +Minecraft.Client/x64_Debug/ +Minecraft.Client/Release/ +Minecraft.Client/x64_Release/ + +Minecraft.World/x64/ +Minecraft.World/Debug/ +Minecraft.World/x64_Debug/ +Minecraft.World/Release/ +Minecraft.World/x64_Release/ + +build/* + +# Existing build output files +!x64/**/Effects.msscmp +!x64/**/iggy_w64.dll +!x64/**/mss64.dll +!x64/**/redist64/ + +# Local saves +Minecraft.Client/Saves/ + +# Visual Studio Per-User Config +*.user +/out diff --git a/CMakeLists.txt b/CMakeLists.txt new file mode 100644 index 0000000..4df0f3d --- /dev/null +++ b/CMakeLists.txt @@ -0,0 +1,128 @@ +cmake_minimum_required(VERSION 3.24) + +project(MinecraftConsoles LANGUAGES C CXX RC ASM_MASM) +set(CMAKE_CXX_STANDARD 17) +set(CMAKE_CXX_STANDARD_REQUIRED ON) +set(CMAKE_CXX_EXTENSIONS OFF) + +if(NOT WIN32) + message(FATAL_ERROR "This CMake build currently supports Windows only.") +endif() + +if(NOT CMAKE_SIZEOF_VOID_P EQUAL 8) + message(FATAL_ERROR "Use a 64-bit generator/toolchain (x64).") +endif() + +set(CMAKE_MSVC_RUNTIME_LIBRARY "MultiThreaded$<$:Debug>") + +function(configure_msvc_target target) + target_compile_options(${target} PRIVATE + $<$>,$>:/W3> + $<$,$>:/W0> + $<$:/MP> + $<$:/FS> + $<$:/EHsc> + $<$,$>:/GL /O2 /Oi /GT /GF> + ) +endfunction() + +include("${CMAKE_CURRENT_SOURCE_DIR}/cmake/WorldSources.cmake") +include("${CMAKE_CURRENT_SOURCE_DIR}/cmake/ClientSources.cmake") +include("${CMAKE_CURRENT_SOURCE_DIR}/cmake/ServerSources.cmake") + +list(TRANSFORM MINECRAFT_WORLD_SOURCES PREPEND "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.World/") +list(TRANSFORM MINECRAFT_CLIENT_SOURCES PREPEND "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client/") +list(TRANSFORM MINECRAFT_SERVER_SOURCES PREPEND "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Server/") + +add_library(MinecraftWorld STATIC ${MINECRAFT_WORLD_SOURCES}) +target_include_directories(MinecraftWorld PRIVATE + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.World" + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.World/x64headers" +) +target_compile_definitions(MinecraftWorld PRIVATE + $<$:_LARGE_WORLDS;_DEBUG;_LIB;_CRT_NON_CONFORMING_SWPRINTFS;_CRT_SECURE_NO_WARNINGS;_WINDOWS64> + $<$>:_LARGE_WORLDS;_LIB;_CRT_NON_CONFORMING_SWPRINTFS;_CRT_SECURE_NO_WARNINGS;_WINDOWS64> +) +if(MSVC) + configure_msvc_target(MinecraftWorld) +endif() + +set(BUILDVER_SCRIPT "${CMAKE_CURRENT_SOURCE_DIR}/cmake/tools/GenerateBuildVer.cmake") +set(BUILDVER_OUTPUT "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client/Common/BuildVer.h") + +add_custom_target(GenerateBuildVer + COMMAND ${CMAKE_COMMAND} + "-DOUTPUT_FILE=${BUILDVER_OUTPUT}" + -P "${BUILDVER_SCRIPT}" + COMMENT "Generating BuildVer.h..." + VERBATIM +) + +add_library(MinecraftClient STATIC ${MINECRAFT_CLIENT_SOURCES}) +target_include_directories(MinecraftClient PRIVATE + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client" + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client/Xbox/Sentient/Include" + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.World/x64headers" + "${CMAKE_CURRENT_SOURCE_DIR}/include/" +) +target_compile_definitions(MinecraftClient PRIVATE + $<$:_LARGE_WORLDS;_DEBUG;_CRT_NON_CONFORMING_SWPRINTFS;_CRT_SECURE_NO_WARNINGS;_WINDOWS64> + $<$>:_LARGE_WORLDS;_CRT_NON_CONFORMING_SWPRINTFS;_CRT_SECURE_NO_WARNINGS;_WINDOWS64> +) +if(MSVC) + configure_msvc_target(MinecraftClient) +endif() + +target_link_libraries(MinecraftClient PRIVATE + MinecraftWorld + d3d11 + XInput9_1_0 + wsock32 + legacy_stdio_definitions + $<$: + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client/Windows64/4JLibs/libs/4J_Input_d.lib" + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client/Windows64/4JLibs/libs/4J_Storage_d.lib" + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client/Windows64/4JLibs/libs/4J_Render_PC_d.lib" + > + $<$>: + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client/Windows64/4JLibs/libs/4J_Input.lib" + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client/Windows64/4JLibs/libs/4J_Storage.lib" + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client/Windows64/4JLibs/libs/4J_Render_PC.lib" + > +) + +add_executable(MinecraftServer WIN32 ${MINECRAFT_SERVER_SOURCES}) +target_link_options(MinecraftServer PRIVATE "/SUBSYSTEM:CONSOLE") +target_include_directories(MinecraftServer PRIVATE + "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Server" +) +target_compile_definitions(MinecraftServer PRIVATE + $<$:_LARGE_WORLDS;_DEBUG;_CRT_NON_CONFORMING_SWPRINTFS;_CRT_SECURE_NO_WARNINGS;_WINDOWS64> + $<$>:_LARGE_WORLDS;_CRT_NON_CONFORMING_SWPRINTFS;_CRT_SECURE_NO_WARNINGS;_WINDOWS64> +) +if(MSVC) + configure_msvc_target(MinecraftServer) + target_link_options(MinecraftServer PRIVATE + $<$:/LTCG /INCREMENTAL:NO> + ) +endif() + +set_target_properties(MinecraftServer PROPERTIES + VS_DEBUGGER_WORKING_DIRECTORY "$" +) + +target_link_libraries(MinecraftServer PRIVATE + MinecraftClient +) + +add_dependencies(MinecraftClient GenerateBuildVer) +add_dependencies(MinecraftWorld GenerateBuildVer) +add_dependencies(MinecraftServer GenerateBuildVer) + +add_custom_command(TARGET MinecraftServer POST_BUILD + COMMAND powershell.exe -ExecutionPolicy Bypass -File "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client/postbuild.ps1" + WORKING_DIRECTORY "${CMAKE_CURRENT_SOURCE_DIR}/Minecraft.Client/" + COMMENT "Running postbuild.ps1" +) + +set_property(DIRECTORY PROPERTY VS_STARTUP_PROJECT MinecraftServer) diff --git a/CMakeSettings.json b/CMakeSettings.json new file mode 100644 index 0000000..b58599c --- /dev/null +++ b/CMakeSettings.json @@ -0,0 +1,27 @@ +{ + "configurations": [ + { + "name": "x64-Debug", + "generator": "Ninja", + "configurationType": "Debug", + "inheritEnvironments": [ "msvc_x64_x64" ], + "buildRoot": "${projectDir}\\out\\build\\${name}", + "installRoot": "${projectDir}\\out\\install\\${name}", + "cmakeCommandArgs": "", + "buildCommandArgs": "", + "ctestCommandArgs": "" + }, + { + "name": "x64-Release", + "generator": "Ninja", + "configurationType": "Release", + "buildRoot": "${projectDir}\\out\\build\\${name}", + "installRoot": "${projectDir}\\out\\install\\${name}", + "cmakeCommandArgs": "", + "buildCommandArgs": "", + "ctestCommandArgs": "", + "inheritEnvironments": [ "msvc_x64_x64" ], + "variables": [] + } + ] +} \ No newline at end of file diff --git a/CONTRIBUTING.md b/CONTRIBUTING.md new file mode 100644 index 0000000..3c7c9ff --- /dev/null +++ b/CONTRIBUTING.md @@ -0,0 +1,18 @@ +# Scope of Project +At the moment, this project's scope is generally limited to only adding stuff from neoLegacy (blocks, mobs, items). We are currently prioritizing stability, quality of life, and platform support on top of those things. + +## Current Goals +- To Be Determined + +# Scope of PRs +All Pull Requests should fully document the changes they include in their file changes. They should also be limited to one general topic and not touch all over the codebase unless its justifiable. + +For example, we would not accept a PR that reworks multiplayer code, server apis, and furnace ticking even if its a "fixup" PR as its too difficult to review a ton of code changes that are all irrelevant from each other. However, a PR focused on adding a bunch of commands or fixes several crashes that are otherwise irrelevant to each other would be accepted. + +If your PR includes any undocumented changes it will be closed. + +# Use of AI and LLMs +We currently do not accept any new code into the project that was written largely, entirely, or even noticably by an LLM. All contributions should be made by humans that understand the codebase. + +# Pull Request Template +We request that all PRs made for this repo use our PR template to the fullest extent possible. Completely wiping it out to write minimal information will likely get your PR closed. diff --git a/Minecraft.Client/.clangd b/Minecraft.Client/.clangd new file mode 100644 index 0000000..f6b7f8a --- /dev/null +++ b/Minecraft.Client/.clangd @@ -0,0 +1,30 @@ +CompileFlags: + Add: [-std=c++14, + -m64, + -Wno-unused-includes + ] + Remove: [-W*] + +Index: + StandardLibrary: true + +Diagnostics: + Suppress: unused-includes + UnusedIncludes: None + ClangTidy: + Add: [modernize-loop-convert] + +Completion: + AllScopes: Yes + ArgumentLists: Delimiters + HeaderInsertion: Never + +InlayHints: + BlockEnd: true + ParameterNames: false + DeducedTypes: false + Designators: false + DefaultArguments: false + +Hover: + ShowAKA: true diff --git a/Minecraft.Client/AbstractProjectileDispenseBehavior.cpp b/Minecraft.Client/AbstractProjectileDispenseBehavior.cpp new file mode 100644 index 0000000..5e4b888 --- /dev/null +++ b/Minecraft.Client/AbstractProjectileDispenseBehavior.cpp @@ -0,0 +1,37 @@ +#include "stdafx.h" +#include "..\Minecraft.World\net.minecraft.core.h" +#include "..\Minecraft.World\net.minecraft.world.entity.projectile.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "AbstractProjectileDispenseBehavior.h" + +shared_ptr AbstractProjectileDispenseBehavior::execute(BlockSource *source, shared_ptr dispensed) +{ + Level *world = source->getWorld(); + Position position = DispenserTile::getDispensePosition(source); + FacingEnum *facing = DispenserTile::getFacing(source->getData()); + + shared_ptr arrow = getProjectile(world, position); + arrow->shoot(facing->getStepX(), facing->getStepY() + .1f, facing->getStepZ(), getPower(), getUncertainty()); + world->addEntity(arrow); + + dispensed->remove(1); + + return dispensed; +} + +void AbstractProjectileDispenseBehavior::playSound(BlockSource *source) +{ + source->getWorld()->levelEvent(LevelEvent::SOUND_LAUNCH, source->getBlockX(), source->getBlockY(), source->getBlockZ(), 0); +} + + +float AbstractProjectileDispenseBehavior::getUncertainty() +{ + return 6; +} + +float AbstractProjectileDispenseBehavior::getPower() +{ + return 1.1f; +} diff --git a/Minecraft.Client/AbstractProjectileDispenseBehavior.h b/Minecraft.Client/AbstractProjectileDispenseBehavior.h new file mode 100644 index 0000000..30705a8 --- /dev/null +++ b/Minecraft.Client/AbstractProjectileDispenseBehavior.h @@ -0,0 +1,17 @@ +#pragma once + +#include "..\Minecraft.World\DefaultDispenseItemBehavior.h" + +class Projectile; + +class AbstractProjectileDispenseBehavior : public DefaultDispenseItemBehavior +{ +public: + shared_ptr execute(BlockSource *source, shared_ptr dispensed); + +protected: + virtual void playSound(BlockSource *source); + virtual shared_ptr getProjectile(Level *world, Position *position) = 0; + virtual float getUncertainty(); + virtual float getPower(); +}; \ No newline at end of file diff --git a/Minecraft.Client/AbstractTexturePack.cpp b/Minecraft.Client/AbstractTexturePack.cpp new file mode 100644 index 0000000..09eda0a --- /dev/null +++ b/Minecraft.Client/AbstractTexturePack.cpp @@ -0,0 +1,409 @@ +#include "stdafx.h" +#include "Textures.h" +#include "AbstractTexturePack.h" +#include "..\Minecraft.World\InputOutputStream.h" +#include "..\Minecraft.World\StringHelpers.h" + +AbstractTexturePack::AbstractTexturePack(DWORD id, File *file, const wstring &name, TexturePack *fallback) : id(id), name(name) +{ + // 4J init + textureId = -1; + m_colourTable = nullptr; + + + this->file = file; + this->fallback = fallback; + + m_iconData = nullptr; + m_iconSize = 0; + + m_comparisonData = nullptr; + m_comparisonSize = 0; + + // 4J Stu - These calls need to be in the most derived version of the class + //loadIcon(); + //loadDescription(); +} + +wstring AbstractTexturePack::trim(wstring line) +{ + if (!line.empty() && line.length() > 34) + { + line = line.substr(0, 34); + } + return line; +} + +void AbstractTexturePack::loadIcon() +{ +#ifdef _XBOX + // 4J Stu - Temporary only + const DWORD LOCATOR_SIZE = 256; // Use this to allocate space to hold a ResourceLocator string + WCHAR szResourceLocator[ LOCATOR_SIZE ]; + + const ULONG_PTR c_ModuleHandle = (ULONG_PTR)GetModuleHandle(nullptr); + swprintf(szResourceLocator, LOCATOR_SIZE ,L"section://%X,%ls#%ls",c_ModuleHandle,L"media", L"media/Graphics/TexturePackIcon.png"); + + UINT size = 0; + HRESULT hr = XuiResourceLoadAllNoLoc(szResourceLocator, &m_iconData, &size); + m_iconSize = size; +#endif +} + +void AbstractTexturePack::loadComparison() +{ +#ifdef _XBOX + // 4J Stu - Temporary only + const DWORD LOCATOR_SIZE = 256; // Use this to allocate space to hold a ResourceLocator string + WCHAR szResourceLocator[ LOCATOR_SIZE ]; + + const ULONG_PTR c_ModuleHandle = (ULONG_PTR)GetModuleHandle(nullptr); + swprintf(szResourceLocator, LOCATOR_SIZE ,L"section://%X,%ls#%ls",c_ModuleHandle,L"media", L"media/Graphics/DefaultPack_Comparison.png"); + + UINT size = 0; + HRESULT hr = XuiResourceLoadAllNoLoc(szResourceLocator, &m_comparisonData, &size); + m_comparisonSize = size; +#endif +} + +void AbstractTexturePack::loadDescription() +{ + // 4J Unused currently +#if 0 + InputStream *inputStream = nullptr; + BufferedReader *br = nullptr; + //try { + inputStream = getResourceImplementation(L"/pack.txt"); + br = new BufferedReader(new InputStreamReader(inputStream)); + desc1 = trim(br->readLine()); + desc2 = trim(br->readLine()); + //} catch (IOException ignored) { + //} finally { + // TODO [EB]: use IOUtils.closeSilently() + // try { + if (br != nullptr) + { + br->close(); + delete br; + } + if (inputStream != nullptr) + { + inputStream->close(); + delete inputStream; + } + // } catch (IOException ignored) { + // } + //} +#endif +} + +void AbstractTexturePack::loadName() +{ +} + +InputStream *AbstractTexturePack::getResource(const wstring &name, bool allowFallback) //throws IOException +{ + app.DebugPrintf("texture - %ls\n",name.c_str()); + InputStream *is = getResourceImplementation(name); + if (is == nullptr && fallback != nullptr && allowFallback) + { + is = fallback->getResource(name, true); + } + + return is; +} + +// 4J Currently removed due to override in TexturePack class +//InputStream *AbstractTexturePack::getResource(const wstring &name) //throws IOException +//{ +// return getResource(name, true); +//} + +void AbstractTexturePack::unload(Textures *textures) +{ + if (iconImage != nullptr && textureId != -1) + { + textures->releaseTexture(textureId); + } +} + +void AbstractTexturePack::load(Textures *textures) +{ + if (iconImage != nullptr) + { + if (textureId == -1) + { + textureId = textures->getTexture(iconImage); + } + glBindTexture(GL_TEXTURE_2D, textureId); + textures->clearLastBoundId(); + } + else + { + // 4J Stu - Don't do this + //textures->bindTexture(L"/gui/unknown_pack.png"); + } +} + +bool AbstractTexturePack::hasFile(const wstring &name, bool allowFallback) +{ + bool hasFile = this->hasFile(name); + + return !hasFile && (allowFallback && fallback != nullptr) ? fallback->hasFile(name, allowFallback) : hasFile; +} + +DWORD AbstractTexturePack::getId() +{ + return id; +} + +wstring AbstractTexturePack::getName() +{ + return texname; +} + +wstring AbstractTexturePack::getWorldName() +{ + return m_wsWorldName; +} + +wstring AbstractTexturePack::getDesc1() +{ + return desc1; +} + +wstring AbstractTexturePack::getDesc2() +{ + return desc2; +} + +wstring AbstractTexturePack::getAnimationString(const wstring &textureName, const wstring &path, bool allowFallback) +{ + return getAnimationString(textureName, path); +} + +wstring AbstractTexturePack::getAnimationString(const wstring &textureName, const wstring &path) +{ + wstring animationDefinitionFile = textureName + L".txt"; + + bool requiresFallback = !hasFile(L"\\" + textureName + L".png", false); + + wstring result = L""; + + InputStream *fileStream = getResource(L"\\" + path + animationDefinitionFile, requiresFallback); + + if(fileStream) + { + //Minecraft::getInstance()->getLogger().info("Found animation info for: " + animationDefinitionFile); +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("Found animation info for: %ls\n", animationDefinitionFile.c_str() ); +#endif + InputStreamReader isr(fileStream); + BufferedReader br(&isr); + + + wstring line = br.readLine(); + while (!line.empty()) + { + line = trimString(line); + if (line.length() > 0) + { + result.append(L","); + result.append(line); + } + line = br.readLine(); + } + delete fileStream; + } + + return result; +} + +BufferedImage *AbstractTexturePack::getImageResource(const wstring& File, bool filenameHasExtension /*= false*/, bool bTitleUpdateTexture /*=false*/, const wstring &drive /*=L""*/) +{ + const char *pchTexture=wstringtofilename(File); + app.DebugPrintf("AbstractTexturePack::getImageResource - %s, drive is %s\n",pchTexture, wstringtofilename(drive)); + + return new BufferedImage(TexturePack::getResource(L"/" + File),filenameHasExtension,bTitleUpdateTexture,drive); +} + +void AbstractTexturePack::loadDefaultUI() +{ +#ifdef _XBOX + // load from the .xzp file + const ULONG_PTR c_ModuleHandle = (ULONG_PTR)GetModuleHandle(nullptr); + + // Load new skin + const DWORD LOCATOR_SIZE = 256; // Use this to allocate space to hold a ResourceLocator string + WCHAR szResourceLocator[ LOCATOR_SIZE ]; + + swprintf(szResourceLocator, LOCATOR_SIZE,L"section://%X,%ls#%ls",c_ModuleHandle,L"media", L"media/skin_Minecraft.xur"); + + XuiFreeVisuals(L""); + app.LoadSkin(szResourceLocator,nullptr);//L"TexturePack"); + //CXuiSceneBase::GetInstance()->SetVisualPrefix(L"TexturePack"); + CXuiSceneBase::GetInstance()->SkinChanged(CXuiSceneBase::GetInstance()->m_hObj); +#else +#endif +} + +void AbstractTexturePack::loadColourTable() +{ + loadDefaultColourTable(); + loadDefaultHTMLColourTable(); +} + +void AbstractTexturePack::loadDefaultColourTable() +{ + // Load the file +#ifdef __PS3__ + // need to check if it's a BD build, so pass in the name + File coloursFile(AbstractTexturePack::getPath(true,app.GetBootedFromDiscPatch()?"colours.col":nullptr).append(L"res/colours.col")); + +#else + File coloursFile(AbstractTexturePack::getPath(true).append(L"res/colours.col")); +#endif + + + if(coloursFile.exists()) + { + DWORD dwLength = coloursFile.length(); + byteArray data(static_cast(dwLength)); + + FileInputStream fis(coloursFile); + fis.read(data,0,dwLength); + fis.close(); + if(m_colourTable != nullptr) delete m_colourTable; + m_colourTable = new ColourTable(data.data, dwLength); + + delete [] data.data; + } + else + { + app.DebugPrintf("Failed to load the default colours table\n"); + app.FatalLoadError(); + } +} + +void AbstractTexturePack::loadDefaultHTMLColourTable() +{ +#ifdef _XBOX + // load from the .xzp file + const ULONG_PTR c_ModuleHandle = (ULONG_PTR)GetModuleHandle(nullptr); + + const DWORD LOCATOR_SIZE = 256; // Use this to allocate space to hold a ResourceLocator string + WCHAR szResourceLocator[ LOCATOR_SIZE ]; + + // Try and load the HTMLColours.col based off the common XML first, before the deprecated xuiscene_colourtable + wsprintfW(szResourceLocator,L"section://%X,%s#%s",c_ModuleHandle,L"media", L"media/HTMLColours.col"); + BYTE *data; + UINT dataLength; + if(XuiResourceLoadAll(szResourceLocator, &data, &dataLength) == S_OK) + { + m_colourTable->loadColoursFromData(data,dataLength); + + XuiFree(data); + } + else + { + wsprintfW(szResourceLocator,L"section://%X,%s#%s",c_ModuleHandle,L"media", L"media/"); + HXUIOBJ hScene; + HRESULT hr = XuiSceneCreate(szResourceLocator,L"xuiscene_colourtable.xur", nullptr, &hScene); + + if(HRESULT_SUCCEEDED(hr)) + { + loadHTMLColourTableFromXuiScene(hScene); + } + } +#else + if(app.hasArchiveFile(L"HTMLColours.col")) + { + byteArray textColours = app.getArchiveFile(L"HTMLColours.col"); + m_colourTable->loadColoursFromData(textColours.data,textColours.length); + + delete [] textColours.data; + } +#endif +} + +#ifdef _XBOX +void AbstractTexturePack::loadHTMLColourTableFromXuiScene(HXUIOBJ hObj) +{ + HXUIOBJ child; + HRESULT hr = XuiElementGetFirstChild(hObj, &child); + + while(HRESULT_SUCCEEDED(hr) && child != nullptr) + { + LPCWSTR childName; + XuiElementGetId(child,&childName); + m_colourTable->setColour(childName,XuiTextElementGetText(child)); + + //eMinecraftTextColours colourIndex = eTextColor_NONE; + //for(int i = 0; i < (int)eTextColor_MAX; i++) + //{ + // if(wcscmp(HTMLColourTableElements[i],childName)==0) + // { + // colourIndex = (eMinecraftTextColours)i; + // break; + // } + //} + + //LPCWSTR stringValue = XuiTextElementGetText(child); + + //m_htmlColourTable[colourIndex] = XuiTextElementGetText(child); + + hr = XuiElementGetNext(child, &child); + } +} +#endif + +void AbstractTexturePack::loadUI() +{ + loadColourTable(); + +#ifdef _XBOX + CXuiSceneBase::GetInstance()->SkinChanged(CXuiSceneBase::GetInstance()->m_hObj); +#endif +} + +void AbstractTexturePack::unloadUI() +{ + // Do nothing +} + +wstring AbstractTexturePack::getXuiRootPath() +{ + const ULONG_PTR c_ModuleHandle = (ULONG_PTR)GetModuleHandle(nullptr); + + // Load new skin + const DWORD LOCATOR_SIZE = 256; // Use this to allocate space to hold a ResourceLocator string + WCHAR szResourceLocator[ LOCATOR_SIZE ]; + + swprintf(szResourceLocator, LOCATOR_SIZE,L"section://%X,%ls#%ls",c_ModuleHandle,L"media", L"media/"); + return szResourceLocator; +} + +PBYTE AbstractTexturePack::getPackIcon(DWORD &dwImageBytes) +{ + if(m_iconSize == 0 || m_iconData == nullptr) loadIcon(); + dwImageBytes = m_iconSize; + return m_iconData; +} + +PBYTE AbstractTexturePack::getPackComparison(DWORD &dwImageBytes) +{ + if(m_comparisonSize == 0 || m_comparisonData == nullptr) loadComparison(); + + dwImageBytes = m_comparisonSize; + return m_comparisonData; +} + +unsigned int AbstractTexturePack::getDLCParentPackId() +{ + return 0; +} + +unsigned char AbstractTexturePack::getDLCSubPackId() +{ + return 0; +} \ No newline at end of file diff --git a/Minecraft.Client/AbstractTexturePack.h b/Minecraft.Client/AbstractTexturePack.h new file mode 100644 index 0000000..6386ecf --- /dev/null +++ b/Minecraft.Client/AbstractTexturePack.h @@ -0,0 +1,93 @@ +#pragma once +using namespace std; + +#include "TexturePack.h" + +class BufferedImage; + +class AbstractTexturePack : public TexturePack +{ +private: + const DWORD id; + const wstring name; + +protected: + File *file; + wstring texname; + wstring m_wsWorldName; + + wstring desc1; + wstring desc2; + + PBYTE m_iconData; + DWORD m_iconSize; + + PBYTE m_comparisonData; + DWORD m_comparisonSize; + + TexturePack *fallback; + + ColourTable *m_colourTable; + +protected: + BufferedImage *iconImage; + +private: + int textureId; + +protected: + AbstractTexturePack(DWORD id, File *file, const wstring &name, TexturePack *fallback); + +private: + static wstring trim(wstring line); + +protected: + virtual void loadIcon(); + virtual void loadComparison(); + virtual void loadDescription(); + virtual void loadName(); + +public: + virtual InputStream *getResource(const wstring &name, bool allowFallback); //throws IOException + // 4J Removed do to current override in TexturePack class + //virtual InputStream *getResource(const wstring &name); //throws IOException + virtual DLCPack * getDLCPack() =0; + + +protected: + virtual InputStream *getResourceImplementation(const wstring &name) = 0; // throws IOException; +public: + virtual void unload(Textures *textures); + virtual void load(Textures *textures); + virtual bool hasFile(const wstring &name, bool allowFallback); + virtual bool hasFile(const wstring &name) = 0; + virtual DWORD getId(); + virtual wstring getName(); + virtual wstring getDesc1(); + virtual wstring getDesc2(); + virtual wstring getWorldName(); + + virtual wstring getAnimationString(const wstring &textureName, const wstring &path, bool allowFallback); + +protected: + virtual wstring getAnimationString(const wstring &textureName, const wstring &path); + void loadDefaultUI(); + void loadDefaultColourTable(); + void loadDefaultHTMLColourTable(); +#ifdef _XBOX + void loadHTMLColourTableFromXuiScene(HXUIOBJ hObj); +#endif + +public: + virtual BufferedImage *getImageResource(const wstring& File, bool filenameHasExtension = false, bool bTitleUpdateTexture=false, const wstring &drive =L""); + virtual void loadColourTable(); + virtual void loadUI(); + virtual void unloadUI(); + virtual wstring getXuiRootPath(); + virtual PBYTE getPackIcon(DWORD &dwImageBytes); + virtual PBYTE getPackComparison(DWORD &dwImageBytes); + virtual unsigned int getDLCParentPackId(); + virtual unsigned char getDLCSubPackId(); + virtual ColourTable *getColourTable() { return m_colourTable; } + virtual ArchiveFile *getArchiveFile() { return nullptr; } +}; diff --git a/Minecraft.Client/AllowAllCuller.cpp b/Minecraft.Client/AllowAllCuller.cpp new file mode 100644 index 0000000..7627af3 --- /dev/null +++ b/Minecraft.Client/AllowAllCuller.cpp @@ -0,0 +1,21 @@ +#include "stdafx.h" +#include "AllowAllCuller.h" + +bool AllowAllCuller::isVisible(AABB *bb) +{ + return true; +} + +bool AllowAllCuller::cubeInFrustum(double x0, double y0, double z0, double x1, double y1, double z1) +{ + return true; +} + +bool AllowAllCuller::cubeFullyInFrustum(double x0, double y0, double z0, double x1, double y1, double z1) +{ + return true; +} + +void AllowAllCuller::prepare(double xOff, double yOff, double zOff) +{ +} \ No newline at end of file diff --git a/Minecraft.Client/AllowAllCuller.h b/Minecraft.Client/AllowAllCuller.h new file mode 100644 index 0000000..5b86604 --- /dev/null +++ b/Minecraft.Client/AllowAllCuller.h @@ -0,0 +1,11 @@ +#pragma once +#include "Culler.h" + +class AllowAllCuller +{ +public: + virtual bool isVisible(AABB *bb); + virtual bool cubeInFrustum(double x0, double y0, double z0, double x1, double y1, double z1); + virtual bool cubeFullyInFrustum(double x0, double y0, double z0, double x1, double y1, double z1); + virtual void prepare(double xOff, double yOff, double zOff); +}; \ No newline at end of file diff --git a/Minecraft.Client/ArchiveFile.cpp b/Minecraft.Client/ArchiveFile.cpp new file mode 100644 index 0000000..608428b --- /dev/null +++ b/Minecraft.Client/ArchiveFile.cpp @@ -0,0 +1,212 @@ +#include "stdafx.h" + +#include "..\Minecraft.World\StringHelpers.h" +#include "..\Minecraft.World\compression.h" + +#include "ArchiveFile.h" + +void ArchiveFile::_readHeader(DataInputStream *dis) +{ + int numberOfFiles = dis->readInt(); + + for (int i = 0; i < numberOfFiles; i++) + { + MetaData *meta = new MetaData(); + meta->filename = dis->readUTF(); + meta->ptr = dis->readInt(); + meta->filesize = dis->readInt(); + + // Filenames preceeded by an asterisk have been compressed. + if (meta->filename[0] == '*') + { + meta->filename = meta->filename.substr(1); + meta->isCompressed = true; + } + else meta->isCompressed = false; + + m_index.insert( pair(meta->filename,meta) ); + } +} + +ArchiveFile::ArchiveFile(File file) +{ + m_cachedData = nullptr; + m_sourcefile = file; + app.DebugPrintf("Loading archive file...\n"); +#ifndef _CONTENT_PACKAGE + char buf[256]; + wcstombs(buf, file.getPath().c_str(), 256); + app.DebugPrintf("archive file - %s\n",buf); +#endif + + if(!file.exists()) + { + app.DebugPrintf("Failed to load archive file!\n");//,file.getPath()); + app.FatalLoadError(); + } + + FileInputStream fis(file); + +#if defined _XBOX_ONE || defined __ORBIS__ || defined _WINDOWS64 + byteArray readArray(static_cast(file.length())); + fis.read(readArray,0,file.length()); + + ByteArrayInputStream bais(readArray); + DataInputStream dis(&bais); + + m_cachedData = readArray.data; +#else + DataInputStream dis(&fis); +#endif + + _readHeader(&dis); + + dis.close(); + fis.close(); +#if defined _XBOX_ONE || defined __ORBIS__ || defined _WINDOWS64 + bais.reset(); +#endif + app.DebugPrintf("Finished loading archive file\n"); +} + +ArchiveFile::~ArchiveFile() +{ + delete m_cachedData; +} + +vector *ArchiveFile::getFileList() +{ + vector *out = new vector(); + + for ( const auto& it : m_index ) + out->push_back( it.first ); + + return out; +} + +bool ArchiveFile::hasFile(const wstring &filename) +{ + return m_index.find(filename) != m_index.end(); +} + +int ArchiveFile::getFileSize(const wstring &filename) +{ + return hasFile(filename) ? m_index.at(filename)->filesize : -1; +} + +byteArray ArchiveFile::getFile(const wstring &filename) +{ + byteArray out; + auto it = m_index.find(filename); + + if(it == m_index.end()) + { + app.DebugPrintf("Couldn't find file in archive\n"); + app.DebugPrintf("Failed to find file '%ls' in archive\n", filename.c_str()); +#ifndef _CONTENT_PACKAGE + __debugbreak(); +#endif + app.FatalLoadError(); + } + else + { + PMetaData data = it->second; + +#if defined _XBOX_ONE || defined __ORBIS__ || defined _WINDOWS64 + out = byteArray(data->filesize ); + + memcpy( out.data, m_cachedData + data->ptr, data->filesize ); +#else + +#ifdef _UNICODE + HANDLE hfile = CreateFile( m_sourcefile.getPath().c_str(), + GENERIC_READ, + 0, + nullptr, + OPEN_EXISTING, + FILE_ATTRIBUTE_NORMAL, + nullptr + ); +#else + app.DebugPrintf("Createfile archive\n"); + HANDLE hfile = CreateFile( wstringtofilename(m_sourcefile.getPath()), + GENERIC_READ, + 0, + nullptr, + OPEN_EXISTING, + FILE_ATTRIBUTE_NORMAL, + nullptr + ); +#endif + + if (hfile != INVALID_HANDLE_VALUE) + { + app.DebugPrintf("hfile ok\n"); + DWORD ok = SetFilePointer( hfile, + data->ptr, + nullptr, + FILE_BEGIN + ); + + if (ok != INVALID_SET_FILE_POINTER) + { + PBYTE pbData = new BYTE[ data->filesize ]; + + DWORD bytesRead = -1; + BOOL bSuccess = ReadFile( hfile, + (LPVOID) pbData, + data->filesize, + &bytesRead, + nullptr + ); + + if(bSuccess==FALSE) + { + app.FatalLoadError(); + } + assert(bytesRead == data->filesize); + out = byteArray(pbData, data->filesize); + } + else + { + app.FatalLoadError(); + } + + CloseHandle(hfile); + } + else + { + app.DebugPrintf("bad hfile\n"); + app.FatalLoadError(); + } +#endif + + // Compressed filenames are preceeded with an asterisk. + if ( data->isCompressed && out.data != nullptr ) + { + /* 4J-JEV: + * If a compressed file is accessed before compression object is + * initialized it will crash here (Compression::getCompression). + */ + ///4 279 553 556 + + ByteArrayInputStream bais(out); + DataInputStream dis(&bais); + unsigned int decompressedSize = dis.readInt(); + dis.close(); + + PBYTE uncompressedBuffer = new BYTE[decompressedSize]; + Compression::getCompression()->Decompress(uncompressedBuffer, &decompressedSize, out.data+4, out.length-4); + + delete [] out.data; + + out.data = uncompressedBuffer; + out.length = decompressedSize; + } + + assert(out.data != nullptr); // THERE IS NO FILE WITH THIS NAME! + + } + + return out; +} diff --git a/Minecraft.Client/ArchiveFile.h b/Minecraft.Client/ArchiveFile.h new file mode 100644 index 0000000..722d570 --- /dev/null +++ b/Minecraft.Client/ArchiveFile.h @@ -0,0 +1,38 @@ +#pragma once + +#include +#include + +#include "..\Minecraft.World\File.h" +#include "..\Minecraft.World\ArrayWithLength.h" + +using namespace std; + +class ArchiveFile +{ +protected: + File m_sourcefile; + BYTE *m_cachedData; + + typedef struct _MetaData + { + wstring filename; + int ptr; + int filesize; + bool isCompressed; + + } MetaData, *PMetaData; + + unordered_map m_index; + +public: + void _readHeader(DataInputStream *dis); + + ArchiveFile(File file); + ~ArchiveFile(); + + vector *getFileList(); + bool hasFile(const wstring &filename); + int getFileSize(const wstring &filename); + byteArray getFile(const wstring &filename); +}; \ No newline at end of file diff --git a/Minecraft.Client/BossMobGuiInfo.cpp b/Minecraft.Client/BossMobGuiInfo.cpp new file mode 100644 index 0000000..1cc3cae --- /dev/null +++ b/Minecraft.Client/BossMobGuiInfo.cpp @@ -0,0 +1,16 @@ +#include "stdafx.h" +#include "BossMobGuiInfo.h" +#include "../Minecraft.World/BossMob.h" + +float BossMobGuiInfo::healthProgress = 0.0f; +int BossMobGuiInfo::displayTicks = 0; +wstring BossMobGuiInfo::name = L""; +bool BossMobGuiInfo::darkenWorld = false; + +void BossMobGuiInfo::setBossHealth(shared_ptr boss, bool darkenWorld) +{ + healthProgress = (float) boss->getHealth() / (float) boss->getMaxHealth(); + displayTicks = SharedConstants::TICKS_PER_SECOND * 5; + name = boss->getAName(); + BossMobGuiInfo::darkenWorld = darkenWorld; +} \ No newline at end of file diff --git a/Minecraft.Client/BossMobGuiInfo.h b/Minecraft.Client/BossMobGuiInfo.h new file mode 100644 index 0000000..bc0d46c --- /dev/null +++ b/Minecraft.Client/BossMobGuiInfo.h @@ -0,0 +1,14 @@ +#pragma once + +class BossMob; + +class BossMobGuiInfo +{ +public: + static float healthProgress; + static int displayTicks; + static wstring name; + static bool darkenWorld; + + static void setBossHealth(shared_ptr boss, bool darkenWorld); +}; \ No newline at end of file diff --git a/Minecraft.Client/BreakingItemParticle.cpp b/Minecraft.Client/BreakingItemParticle.cpp new file mode 100644 index 0000000..8842209 --- /dev/null +++ b/Minecraft.Client/BreakingItemParticle.cpp @@ -0,0 +1,64 @@ +#include "stdafx.h" +#include "BreakingItemParticle.h" +#include "Tesselator.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\net.minecraft.world.h" + +void BreakingItemParticle::_init(Item *item, Textures *textures, int data) +{ + this->setTex(textures, item->getIcon(data)); + rCol = gCol = bCol = 1.0f; + gravity = Tile::snow->gravity; + size /= 2; +} + +BreakingItemParticle::BreakingItemParticle(Level *level, double x, double y, double z, Item *item, Textures *textures, int data) : Particle(level, x, y, z, 0, 0, 0) +{ + _init(item, textures, data); +} + +BreakingItemParticle::BreakingItemParticle(Level *level, double x, double y, double z, double xa, double ya, double za, Item *item, Textures *textures, int data) : Particle(level, x, y, z, 0, 0, 0) +{ + _init(item, textures, data); + xd *= 0.1f; + yd *= 0.1f; + zd *= 0.1f; + xd += xa; + yd += ya; + zd += za; +} + +int BreakingItemParticle::getParticleTexture() +{ + return ParticleEngine::ITEM_TEXTURE; +} + +void BreakingItemParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float u0 = (texX + uo / 4.0f) / 16.0f; + float u1 = u0 + 0.999f / 16.0f / 4; + float v0 = (texY + vo / 4.0f) / 16.0f; + float v1 = v0 + 0.999f / 16.0f / 4; + float r = 0.1f * size; + + if (tex != nullptr) + { + u0 = tex->getU((uo / 4.0f) * SharedConstants::WORLD_RESOLUTION); + u1 = tex->getU(((uo + 1) / 4.0f) * SharedConstants::WORLD_RESOLUTION); + v0 = tex->getV((vo / 4.0f) * SharedConstants::WORLD_RESOLUTION); + v1 = tex->getV(((vo + 1) / 4.0f) * SharedConstants::WORLD_RESOLUTION); + } + + float x = static_cast(xo + (this->x - xo) * a - xOff); + float y = static_cast(yo + (this->y - yo) * a - yOff); + float z = static_cast(zo + (this->z - zo) * a - zOff); + float br = SharedConstants::TEXTURE_LIGHTING ? 1 : getBrightness(a); // 4J - change brought forward from 1.8.2 + t->color(br * rCol, br * gCol, br * bCol); + + t->vertexUV((float)(x - xa * r - xa2 * r), (float)( y - ya * r), (float)( z - za * r - za2 * r), (float)( u0), (float)( v1)); + t->vertexUV((float)(x - xa * r + xa2 * r), (float)( y + ya * r), (float)( z - za * r + za2 * r), (float)( u0), (float)( v0)); + t->vertexUV((float)(x + xa * r + xa2 * r), (float)( y + ya * r), (float)( z + za * r + za2 * r), (float)( u1), (float)( v0)); + t->vertexUV((float)(x + xa * r - xa2 * r), (float)( y - ya * r), (float)( z + za * r - za2 * r), (float)( u1), (float)( v1)); + +} \ No newline at end of file diff --git a/Minecraft.Client/BreakingItemParticle.h b/Minecraft.Client/BreakingItemParticle.h new file mode 100644 index 0000000..390426d --- /dev/null +++ b/Minecraft.Client/BreakingItemParticle.h @@ -0,0 +1,15 @@ +#pragma once +#include "Particle.h" + +class BreakingItemParticle : public Particle +{ + // virtual eINSTANCEOF GetType(); // 4J-IB/JEV TODO needs implementation + +public: + virtual eINSTANCEOF GetType() { return eType_BREAKINGITEMPARTICLE; } + void _init(Item *item, Textures *textures, int data); + BreakingItemParticle(Level *level, double x, double y, double z, Item *item, Textures *textures, int data = 0); + BreakingItemParticle(Level *level, double x, double y, double z, double xa, double ya, double za, Item *item, Textures *textures, int data = 0); + virtual int getParticleTexture(); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); +}; diff --git a/Minecraft.Client/BubbleParticle.cpp b/Minecraft.Client/BubbleParticle.cpp new file mode 100644 index 0000000..29dd120 --- /dev/null +++ b/Minecraft.Client/BubbleParticle.cpp @@ -0,0 +1,41 @@ +#include "stdafx.h" +#include "BubbleParticle.h" +#include "..\Minecraft.World\Random.h" +#include "..\Minecraft.World\Mth.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.material.h" + +BubbleParticle::BubbleParticle(Level *level, double x, double y, double z, double xa, double ya, double za) : Particle(level, x, y, z, xa, ya, za) + { + rCol = 1.0f; + gCol = 1.0f; + bCol = 1.0f; + setMiscTex(32); + this->setSize(0.02f, 0.02f); + + size = size*(random->nextFloat()*0.6f+0.2f); + + xd = xa*0.2f+static_cast(Math::random() * 2 - 1)*0.02f; + yd = ya*0.2f+static_cast(Math::random() * 2 - 1)*0.02f; + zd = za*0.2f+static_cast(Math::random() * 2 - 1)*0.02f; + + lifetime = static_cast(8 / (Math::random() * 0.8 + 0.2)); +} + +void BubbleParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + yd += 0.002; + move(xd, yd, zd); + xd *= 0.85f; + yd *= 0.85f; + zd *= 0.85f; + + if (level->getMaterial(Mth::floor(x), Mth::floor(y), Mth::floor(z)) != Material::water) remove(); + + if (lifetime-- <= 0) remove(); +} \ No newline at end of file diff --git a/Minecraft.Client/BubbleParticle.h b/Minecraft.Client/BubbleParticle.h new file mode 100644 index 0000000..0e786d9 --- /dev/null +++ b/Minecraft.Client/BubbleParticle.h @@ -0,0 +1,10 @@ +#pragma once +#include "Particle.h" + +class BubbleParticle : public Particle +{ +public: + virtual eINSTANCEOF GetType() { return eType_BUBBLEPARTICLE; } + BubbleParticle(Level *level, double x, double y, double z, double xa, double ya, double za); + virtual void tick(); +}; \ No newline at end of file diff --git a/Minecraft.Client/BufferedImage.cpp b/Minecraft.Client/BufferedImage.cpp new file mode 100644 index 0000000..8777d30 --- /dev/null +++ b/Minecraft.Client/BufferedImage.cpp @@ -0,0 +1,400 @@ +#include "stdafx.h" +#include "..\Minecraft.World\StringHelpers.h" +#include "Textures.h" +#include "..\Minecraft.World\ArrayWithLength.h" +#include "BufferedImage.h" + +#ifdef _XBOX +typedef struct +{ + unsigned int filesz; + unsigned short creator1; + unsigned short creator2; + unsigned int bmp_offset; + unsigned int header_sz; + unsigned int width; + unsigned int height; + unsigned short nplanes; + unsigned short bitspp; + unsigned int compress_type; + unsigned int bmp_bytesz; + int hres; + int vres; + unsigned int ncolors; + unsigned int nimpcolors; +} BITMAPINFOHEADER; +#endif + +BufferedImage::BufferedImage(int width,int height,int type) +{ + data[0] = new int[width*height]; + + for( int i = 1 ; i < 10; i++ ) + { + data[i] = nullptr; + } + this->width = width; + this->height = height; +} + +void BufferedImage::ByteFlip4(unsigned int &data) +{ + data = ( data >> 24 ) | + ( ( data >> 8 ) & 0x0000ff00 ) | + ( ( data << 8 ) & 0x00ff0000 ) | + ( data << 24 ); +} +// Loads a bitmap into a buffered image - only currently supports the 2 types of 32-bit image that we've made so far +// and determines which of these is which by the compression method. Compression method 3 is a 32-bit image with only +// 24-bits used (ie no alpha channel) whereas method 0 is a full 32-bit image with a valid alpha channel. +BufferedImage::BufferedImage(const wstring& File, bool filenameHasExtension /*=false*/, bool bTitleUpdateTexture /*=false*/, const wstring &drive /*=L""*/) +{ + HRESULT hr; + wstring wDrive; + wstring filePath; + filePath = File; + + wDrive = drive; + if(wDrive.empty()) + { +#ifdef _XBOX + if(bTitleUpdateTexture) + { + // Make the content package point to to the UPDATE: drive is needed +#ifdef _TU_BUILD + wDrive=L"UPDATE:\\"; +#else + + wDrive=L"GAME:\\res\\TitleUpdate\\"; +#endif + } + else + { + wDrive=L"GAME:\\"; + } +#else + +#ifdef __PS3__ + + char *pchUsrDir; + if(app.GetBootedFromDiscPatch()) + { + const char *pchTextureName=wstringtofilename(File); + pchUsrDir = app.GetBDUsrDirPath(pchTextureName); + } + else + { + pchUsrDir=getUsrDirPath(); + } + + wstring wstr (pchUsrDir, pchUsrDir+strlen(pchUsrDir)); + + if(bTitleUpdateTexture) + { + // Make the content package point to to the UPDATE: drive is needed + wDrive= wstr + L"\\Common\\res\\TitleUpdate\\"; + } + else + { + wDrive= wstr + L"/Common/"; + } +#elif __PSVITA__ + + /*char *pchUsrDir=getUsrDirPath(); + + wstring wstr (pchUsrDir, pchUsrDir+strlen(pchUsrDir)); + + if(bTitleUpdateTexture) + { + // Make the content package point to to the UPDATE: drive is needed + wDrive= wstr + L"\\Common\\res\\TitleUpdate\\"; + } + else + { + wDrive= wstr + L"/Common/"; + }*/ + + if(bTitleUpdateTexture) + { + // Make the content package point to to the UPDATE: drive is needed + wDrive= L"Common\\res\\TitleUpdate\\"; + } + else + { + wDrive= L"Common/"; + } +#else + if(bTitleUpdateTexture) + { + // Make the content package point to to the UPDATE: drive is needed + wDrive= L"Common\\res\\TitleUpdate\\"; + } + else + { + wDrive= L"Common/"; + } +#endif + +#endif + } + + for( int l = 0 ; l < 10; l++ ) + { + data[l] = nullptr; + } + + for( int l = 0; l < 10; l++ ) + { + wstring name; + wstring mipMapPath = L""; + if( l != 0 ) + { + mipMapPath = L"MipMapLevel" + std::to_wstring(l+1); + } + if( filenameHasExtension ) + { + name = wDrive + L"res" + filePath.substr(0,filePath.length()); + } + else + { + name = wDrive + L"res" + filePath.substr(0,filePath.length()-4) + mipMapPath + L".png"; + } + + const char *pchTextureName=wstringtofilename(name); + +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("\n--- Loading TEXTURE - %s\n\n",pchTextureName); +#endif + + D3DXIMAGE_INFO ImageInfo; + ZeroMemory(&ImageInfo,sizeof(D3DXIMAGE_INFO)); + hr=RenderManager.LoadTextureData(pchTextureName,&ImageInfo,&data[l]); + + + if(hr!=ERROR_SUCCESS) + { + // 4J - If we haven't loaded the non-mipmap version then exit the game + if( l == 0 ) + { + app.FatalLoadError(); + } + return; + } + + if( l == 0 ) + { + width=ImageInfo.Width; + height=ImageInfo.Height; + } + } +} + +BufferedImage::BufferedImage(DLCPack *dlcPack, const wstring& File, bool filenameHasExtension /*= false*/ ) +{ + HRESULT hr; + wstring filePath = File; + BYTE *pbData = nullptr; + DWORD dwBytes = 0; + + for( int l = 0 ; l < 10; l++ ) + { + data[l] = nullptr; + } + + for( int l = 0; l < 10; l++ ) + { + wstring name; + wstring mipMapPath = L""; + if( l != 0 ) + { + mipMapPath = L"MipMapLevel" + std::to_wstring(l+1); + } + if( filenameHasExtension ) + { + name = L"res" + filePath.substr(0,filePath.length()); + } + else + { + name = L"res" + filePath.substr(0,filePath.length()-4) + mipMapPath + L".png"; + } + + if(!dlcPack->doesPackContainFile(DLCManager::e_DLCType_All, name)) + { + // 4J - If we haven't loaded the non-mipmap version then exit the game + if( l == 0 ) + { + app.FatalLoadError(); + } + return; + } + + DLCFile *dlcFile = dlcPack->getFile(DLCManager::e_DLCType_All, name); + pbData = dlcFile->getData(dwBytes); + if(pbData == nullptr || dwBytes == 0) + { + // 4J - If we haven't loaded the non-mipmap version then exit the game + if( l == 0 ) + { + app.FatalLoadError(); + } + return; + } + + D3DXIMAGE_INFO ImageInfo; + ZeroMemory(&ImageInfo,sizeof(D3DXIMAGE_INFO)); + hr=RenderManager.LoadTextureData(pbData,dwBytes,&ImageInfo,&data[l]); + + + if(hr!=ERROR_SUCCESS) + { + // 4J - If we haven't loaded the non-mipmap version then exit the game + if( l == 0 ) + { + app.FatalLoadError(); + } + return; + } + + if( l == 0 ) + { + width=ImageInfo.Width; + height=ImageInfo.Height; + } + } +} + + +BufferedImage::BufferedImage(BYTE *pbData, DWORD dwBytes) +{ + int iCurrentByte=0; + for( int l = 0 ; l < 10; l++ ) + { + data[l] = nullptr; + } + + D3DXIMAGE_INFO ImageInfo; + ZeroMemory(&ImageInfo,sizeof(D3DXIMAGE_INFO)); + HRESULT hr=RenderManager.LoadTextureData(pbData,dwBytes,&ImageInfo,&data[0]); + + if(hr==ERROR_SUCCESS) + { + width=ImageInfo.Width; + height=ImageInfo.Height; + } + else + { + app.FatalLoadError(); + } +} + +BufferedImage::~BufferedImage() +{ + for(int i = 0; i < 10; i++ ) + { + delete[] data[i]; + } +} + +int BufferedImage::getWidth() +{ + return width; +} + +int BufferedImage::getHeight() +{ + return height; +} + +void BufferedImage::getRGB(int startX, int startY, int w, int h, intArray out,int offset,int scansize, int level) +{ + int ww = width >> level; + for( int y = 0; y < h; y++ ) + { + for( int x = 0; x < w; x++ ) + { + out[ y * scansize + offset + x] = data[level][ startX + x + ww * ( startY + y ) ]; + } + } +} + +int *BufferedImage::getData() +{ + return data[0]; +} + +int *BufferedImage::getData(int level) +{ + return data[level]; +} + +Graphics *BufferedImage::getGraphics() +{ + return nullptr; +} + +//Returns the transparency. Returns either OPAQUE, BITMASK, or TRANSLUCENT. +//Specified by: +//getTransparency in interface Transparency +//Returns: +//the transparency of this BufferedImage. +int BufferedImage::getTransparency() +{ + // TODO - 4J Implement? + return 0; +} + +//Returns a subimage defined by a specified rectangular region. The returned BufferedImage shares the same data array as the original image. +//Parameters: +//x, y - the coordinates of the upper-left corner of the specified rectangular region +//w - the width of the specified rectangular region +//h - the height of the specified rectangular region +//Returns: +//a BufferedImage that is the subimage of this BufferedImage. +BufferedImage *BufferedImage::getSubimage(int x ,int y, int w, int h) +{ + // TODO - 4J Implement + + BufferedImage *img = new BufferedImage(w,h,0); + intArray arrayWrapper(img->data[0], w*h); + this->getRGB(x, y, w, h, arrayWrapper,0,w); + + int level = 1; + while(getData(level) != nullptr) + { + int ww = w >> level; + int hh = h >> level; + int xx = x >> level; + int yy = y >> level; + img->data[level] = new int[ww*hh]; + intArray arrayWrapper(img->data[level], ww*hh); + this->getRGB(xx, yy, ww, hh, arrayWrapper,0,ww,level); + + ++level; + } + + return img; +} + + +void BufferedImage::preMultiplyAlpha() +{ + int *curData = data[0]; + + int cur = 0; + int alpha = 0; + int r = 0; + int g = 0; + int b = 0; + + int total = width * height; + for(unsigned int i = 0; i < total; ++i) + { + cur = curData[i]; + alpha = (cur >> 24) & 0xff; + r = ((cur >> 16) & 0xff) * static_cast(alpha)/255; + g = ((cur >> 8) & 0xff) * static_cast(alpha)/255; + b = (cur & 0xff) * static_cast(alpha)/255; + + curData[i] = (r << 16) | (g << 8) | (b ) | (alpha << 24); + } +} diff --git a/Minecraft.Client/BufferedImage.h b/Minecraft.Client/BufferedImage.h new file mode 100644 index 0000000..3a08383 --- /dev/null +++ b/Minecraft.Client/BufferedImage.h @@ -0,0 +1,33 @@ +#pragma once +using namespace std; + +class Graphics; +class DLCPack; + +class BufferedImage +{ +private: + int *data[10]; // Arrays for mipmaps - nullptr if not used + int width; + int height; + void ByteFlip4(unsigned int &data); // 4J added +public: + static const int TYPE_INT_ARGB = 0; + static const int TYPE_INT_RGB = 1; + BufferedImage(int width,int height,int type); + BufferedImage(const wstring& File, bool filenameHasExtension = false, bool bTitleUpdateTexture=false, const wstring &drive =L""); // 4J added + BufferedImage(DLCPack *dlcPack, const wstring& File, bool filenameHasExtension = false ); // 4J Added + BufferedImage(BYTE *pbData, DWORD dwBytes); // 4J added + ~BufferedImage(); + + int getWidth(); + int getHeight(); + void getRGB(int startX, int startY, int w, int h, intArray out,int offset,int scansize, int level = 0); // 4J Added level param + int *getData(); // 4J added + int *getData(int level); // 4J added + Graphics *getGraphics(); + int getTransparency(); + BufferedImage *getSubimage(int x, int y, int w, int h); + + void preMultiplyAlpha(); +}; \ No newline at end of file diff --git a/Minecraft.Client/CallbackHelper.cpp b/Minecraft.Client/CallbackHelper.cpp new file mode 100644 index 0000000..cf9fabc --- /dev/null +++ b/Minecraft.Client/CallbackHelper.cpp @@ -0,0 +1,10 @@ +#include "stdafx.h" +#include "CallbackHelper.h" + +void CallbackHelper::OnServerPreTick() +{ +} + +void CallbackHelper::OnServerPostTick() +{ +} diff --git a/Minecraft.Client/CallbackHelper.h b/Minecraft.Client/CallbackHelper.h new file mode 100644 index 0000000..ed050c5 --- /dev/null +++ b/Minecraft.Client/CallbackHelper.h @@ -0,0 +1,8 @@ +#pragma once + + +class CallbackHelper { +public: + static void OnServerPreTick(); + static void OnServerPostTick(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Camera.cpp b/Minecraft.Client/Camera.cpp new file mode 100644 index 0000000..4de9634 --- /dev/null +++ b/Minecraft.Client/Camera.cpp @@ -0,0 +1,124 @@ +#include "stdafx.h" +#include "Camera.h" +#include "MemoryTracker.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\TilePos.h" + +float Camera::xPlayerOffs = 0.0f; +float Camera::yPlayerOffs = 0.0f; +float Camera::zPlayerOffs = 0.0f; + +//IntBuffer *Camera::viewport = MemoryTracker::createIntBuffer(16); +FloatBuffer *Camera::modelview = MemoryTracker::createFloatBuffer(16); +FloatBuffer *Camera::projection = MemoryTracker::createFloatBuffer(16); +//FloatBuffer *Camera::position = MemoryTracker::createFloatBuffer(3); + +float Camera::xa = 0.0f; +float Camera::ya = 0.0f; +float Camera::za = 0.0f; +float Camera::xa2 = 0.0f; +float Camera::za2 = 0.0f; + +void Camera::prepare(shared_ptr player, bool mirror) +{ + glGetFloat(GL_MODELVIEW_MATRIX, modelview); + glGetFloat(GL_PROJECTION_MATRIX, projection); + + /* Original java code for reference + glGetInteger(GL_VIEWPORT, viewport); + + float x = (viewport.get(0) + viewport.get(2)) / 2; + float y = (viewport.get(1) + viewport.get(3)) / 2; + gluUnProject(x, y, 0, modelview, projection, viewport, position); + + xPlayerOffs = position->get(0); + yPlayerOffs = position->get(1); + zPlayerOffs = position->get(2); + */ + + // Xbox conversion here... note that we don't bother getting the viewport as this is just working out how to get a (0,0,0) point in clip space to pass into the inverted + // combined model/view/projection matrix, so we just need to get this matrix and get its translation as an equivalent. + XMMATRIX _modelview, _proj, _final, _invert; + XMVECTOR _det; + XMFLOAT4 trans; + + memcpy( &_modelview, modelview->_getDataPointer(), 64 ); + memcpy( &_proj, projection->_getDataPointer(), 64 ); + +#if ( defined __ORBIS__ ) || ( defined __PSVITA__ ) + _modelview = transpose(_modelview); + _proj = transpose(_proj); + _final = _modelview * _proj; + _invert = sce::Vectormath::Simd::Aos::inverse(_final); + xPlayerOffs = _invert.getElem(0,3) / _invert.getElem(3,3); + yPlayerOffs = _invert.getElem(1,3) / _invert.getElem(3,3); + zPlayerOffs = _invert.getElem(2,3) / _invert.getElem(3,3); +#elif defined __PS3__ + _modelview = transpose(_modelview); + _proj = transpose(_proj); + _final = _modelview * _proj; + _invert = Vectormath::Aos::inverse(_final); + xPlayerOffs = _invert.getElem(0,3) / _invert.getElem(3,3); + yPlayerOffs = _invert.getElem(1,3) / _invert.getElem(3,3); + zPlayerOffs = _invert.getElem(2,3) / _invert.getElem(3,3); +#else + _final = XMMatrixMultiply( _modelview, _proj ); + _det = XMMatrixDeterminant(_final); + _invert = XMMatrixInverse(&_det, _final); + + XMStoreFloat4(&trans,_invert.r[3]); + + xPlayerOffs = trans.x / trans.w; + yPlayerOffs = trans.y / trans.w; + zPlayerOffs = trans.z / trans.w; +#endif + + int flipCamera = mirror ? 1 : 0; + + float xRot = player->xRot; + float yRot = player->yRot; + + xa = cosf(yRot * PI / 180.0f) * (1 - flipCamera * 2); + za = sinf(yRot * PI / 180.0f) * (1 - flipCamera * 2); + + xa2 = -za * sinf(xRot * PI / 180.0f) * (1 - flipCamera * 2); + za2 = xa * sinf(xRot * PI / 180.0f) * (1 - flipCamera * 2); + ya = cosf(xRot * PI / 180.0f); +} + +TilePos *Camera::getCameraTilePos(shared_ptr player, double alpha) +{ + return new TilePos(getCameraPos(player, alpha)); +} + +Vec3 *Camera::getCameraPos(shared_ptr player, double alpha) +{ + double xx = player->xo + (player->x - player->xo) * alpha; + double yy = player->yo + (player->y - player->yo) * alpha + player->getHeadHeight(); + double zz = player->zo + (player->z - player->zo) * alpha; + + double xt = xx + Camera::xPlayerOffs * 1; + double yt = yy + Camera::yPlayerOffs * 1; + double zt = zz + Camera::zPlayerOffs * 1; + + return Vec3::newTemp(xt, yt, zt); +} + +int Camera::getBlockAt(Level *level, shared_ptr player, float alpha) +{ + Vec3 *p = Camera::getCameraPos(player, alpha); + TilePos tp = TilePos(p); + int t = level->getTile(tp.x, tp.y, tp.z); + if (t != 0 && Tile::tiles[t]->material->isLiquid()) + { + float hh = LiquidTile::getHeight(level->getData(tp.x, tp.y, tp.z)) - 1 / 9.0f; + float h = tp.y + 1 - hh; + if (p->y >= h) + { + t = level->getTile(tp.x, tp.y + 1, tp.z); + } + } + return t; +} \ No newline at end of file diff --git a/Minecraft.Client/Camera.h b/Minecraft.Client/Camera.h new file mode 100644 index 0000000..456c885 --- /dev/null +++ b/Minecraft.Client/Camera.h @@ -0,0 +1,32 @@ +#pragma once +#include "..\Minecraft.World\FloatBuffer.h" +#include "..\Minecraft.World\IntBuffer.h" + + +class TilePos; +class Vec3; +class Player; +class Mob; + +class Camera +{ +public: + static float xPlayerOffs; + static float yPlayerOffs; + static float zPlayerOffs; + +private: +// static IntBuffer *viewport; + static FloatBuffer *modelview; + static FloatBuffer *projection; +// static FloatBuffer *position; + +public: + static float xa, ya, za, xa2, za2; + + static void prepare(shared_ptr player, bool mirror); + + static TilePos *getCameraTilePos(shared_ptr player, double alpha); + static Vec3 *getCameraPos(shared_ptr player, double alpha); + static int getBlockAt(Level *level, shared_ptr player, float alpha); +}; \ No newline at end of file diff --git a/Minecraft.Client/Chunk.cpp b/Minecraft.Client/Chunk.cpp new file mode 100644 index 0000000..1497d29 --- /dev/null +++ b/Minecraft.Client/Chunk.cpp @@ -0,0 +1,1019 @@ +#include "stdafx.h" +#include "Chunk.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.entity.h" +#include "LevelRenderer.h" + +#ifdef __PS3__ +#include "PS3\SPU_Tasks\ChunkUpdate\ChunkRebuildData.h" +#include "PS3\SPU_Tasks\ChunkUpdate\TileRenderer_SPU.h" +#include "PS3\SPU_Tasks\CompressedTile\CompressedTileStorage_SPU.h" + +#include "C4JThread_SPU.h" +#include "C4JSpursJob.h" +//#define DISABLE_SPU_CODE + +#endif + +int Chunk::updates = 0; + +#ifdef _LARGE_WORLDS +DWORD Chunk::tlsIdx = TlsAlloc(); + +void Chunk::CreateNewThreadStorage() +{ + unsigned char *tileIds = new unsigned char[16 * 16 * Level::maxBuildHeight]; + TlsSetValue(tlsIdx, tileIds); +} + +void Chunk::ReleaseThreadStorage() +{ + unsigned char *tileIds = static_cast(TlsGetValue(tlsIdx)); + delete tileIds; +} + +unsigned char *Chunk::GetTileIdsStorage() +{ + unsigned char *tileIds = static_cast(TlsGetValue(tlsIdx)); + return tileIds; +} +#else +// 4J Stu - Don't want this when multi-threaded +Tesselator *Chunk::t = Tesselator::getInstance(); +#endif +LevelRenderer *Chunk::levelRenderer; + +// TODO - 4J see how input entity vector is set up and decide what way is best to pass this to the function +Chunk::Chunk(Level *level, LevelRenderer::rteMap &globalRenderableTileEntities, CRITICAL_SECTION& globalRenderableTileEntities_cs, int x, int y, int z, ClipChunk *clipChunk) + : globalRenderableTileEntities( &globalRenderableTileEntities ), globalRenderableTileEntities_cs(&globalRenderableTileEntities_cs) +{ + clipChunk->visible = false; + bb = nullptr; + id = 0; + + this->level = level; + //this->globalRenderableTileEntities = globalRenderableTileEntities; + + assigned = false; + this->clipChunk = clipChunk; + setPos(x, y, z); +} + +void Chunk::setPos(int x, int y, int z) +{ + if(assigned && (x == this->x && y == this->y && z == this->z)) return; + + reset(); + + this->x = x; + this->y = y; + this->z = z; + xm = x + XZSIZE / 2; + ym = y + SIZE / 2; + zm = z + XZSIZE / 2; + clipChunk->xm = xm; + clipChunk->ym = ym; + clipChunk->zm = zm; + + clipChunk->globalIdx = LevelRenderer::getGlobalIndexForChunk(x, y, z, level); + +#if 1 + // 4J - we're not using offsetted renderlists anymore, so just set the full position of this chunk into x/y/zRenderOffs where + // it will be used directly in the renderlist of this chunk + xRenderOffs = x; + yRenderOffs = y; + zRenderOffs = z; + xRender = 0; + yRender = 0; + zRender = 0; +#else + xRenderOffs = x & 1023; + yRenderOffs = y; + zRenderOffs = z & 1023; + xRender = x - xRenderOffs; + yRender = y - yRenderOffs; + zRender = z - zRenderOffs; +#endif + + float g = 6.0f; + // 4J - changed to just set the value rather than make a new one, if we've already created storage + if( !bb ) + { + bb = shared_ptr(AABB::newPermanent(-g, -g, -g, XZSIZE+g, SIZE+g, XZSIZE+g)); + } + else + { + // 4J MGH - bounds are relative to the position now, so the AABB will be setup already, either above, or from the tesselator bounds. +// bb->set(-g, -g, -g, SIZE+g, SIZE+g, SIZE+g); + } + clipChunk->aabb[0] = bb->x0 + x; + clipChunk->aabb[1] = bb->y0 + y; + clipChunk->aabb[2] = bb->z0 + z; + clipChunk->aabb[3] = bb->x1 + x; + clipChunk->aabb[4] = bb->y1 + y; + clipChunk->aabb[5] = bb->z1 + z; + + assigned = true; + + EnterCriticalSection(&levelRenderer->m_csDirtyChunks); + unsigned char refCount = levelRenderer->incGlobalChunkRefCount(x, y, z, level); +// printf("\t\t [inc] refcount %d at %d, %d, %d\n",refCount,x,y,z); + +// int idx = levelRenderer->getGlobalIndexForChunk(x, y, z, level); + + // If we're the first thing to be referencing this, mark it up as dirty to get rebuilt + if( refCount == 1 ) + { +// printf("Setting %d %d %d dirty [%d]\n",x,y,z, idx); + // Chunks being made dirty in this way can be very numerous (eg the full visible area of the world at start up, or a whole edge of the world when moving). + // On account of this, don't want to stick them into our lock free queue that we would normally use for letting the render update thread know about this chunk. + // Instead, just set the flag to say this is dirty, and then pass a special value of 1 through to the lock free stack which lets that thread know that at least + // one chunk other than the ones in the stack itself have been made dirty. + levelRenderer->setGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_DIRTY ); +#ifdef _XBOX + PIXSetMarker(0,"Non-stack event pushed"); +#else + PIXSetMarkerDeprecated(0,"Non-stack event pushed"); +#endif + } + + LeaveCriticalSection(&levelRenderer->m_csDirtyChunks); + + +} + +void Chunk::translateToPos() +{ + glTranslatef(static_cast(xRenderOffs), static_cast(yRenderOffs), static_cast(zRenderOffs)); +} + + +Chunk::Chunk() +{ + bb = nullptr; +} + +void Chunk::makeCopyForRebuild(Chunk *source) +{ + this->level = source->level; + this->x = source->x; + this->y = source->y; + this->z = source->z; + this->xRender = source->xRender; + this->yRender = source->yRender; + this->zRender = source->zRender; + this->xRenderOffs = source->xRenderOffs; + this->yRenderOffs = source->yRenderOffs; + this->zRenderOffs = source->zRenderOffs; + this->xm = source->xm; + this->ym = source->ym; + this->zm = source->zm; + this->bb = source->bb; + this->clipChunk = nullptr; + this->id = source->id; + this->globalRenderableTileEntities = source->globalRenderableTileEntities; + this->globalRenderableTileEntities_cs = source->globalRenderableTileEntities_cs; +} + +void Chunk::rebuild() +{ + PIXBeginNamedEvent(0,"Rebuilding chunk %d, %d, %d", x, y, z); +#if defined __PS3__ && !defined DISABLE_SPU_CODE + rebuild_SPU(); + return; +#endif // __PS3__ + +// if (!dirty) return; + PIXBeginNamedEvent(0,"Rebuild section A"); + +#ifdef _LARGE_WORLDS + Tesselator *t = Tesselator::getInstance(); +#else + Chunk::t = Tesselator::getInstance(); // 4J - added - static initialiser being set at the wrong time +#endif + + updates++; + + int x0 = x; + int y0 = y; + int z0 = z; + int x1 = x + XZSIZE; + int y1 = y + SIZE; + int z1 = z + XZSIZE; + + LevelChunk::touchedSky = false; + +// unordered_set > oldTileEntities(renderableTileEntities.begin(),renderableTileEntities.end()); // 4J removed this & next line +// renderableTileEntities.clear(); + + vector > renderableTileEntities; // 4J - added + + int r = 1; + + int lists = levelRenderer->getGlobalIndexForChunk(this->x,this->y,this->z,level) * 2; + lists += levelRenderer->chunkLists; + + PIXEndNamedEvent(); + + PIXBeginNamedEvent(0,"Rebuild section B"); + //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// + // 4J - optimisation begins. + + // Get the data for the level chunk that this render chunk is it (level chunk is 16 x 16 x 128, + // render chunk is 16 x 16 x 16. We wouldn't have to actually get all of it if the data was ordered differently, but currently + // it is ordered by x then z then y so just getting a small range of y out of it would involve getting the whole thing into + // the cache anyway. + +#ifdef _LARGE_WORLDS + unsigned char *tileIds = GetTileIdsStorage(); +#else + static unsigned char tileIds[16 * 16 * Level::maxBuildHeight]; +#endif + byteArray tileArray = byteArray(tileIds, 16 * 16 * Level::maxBuildHeight); + level->getChunkAt(x,z)->getBlockData(tileArray); // 4J - TODO - now our data has been re-arranged, we could just extra the vertical slice of this chunk rather than the whole thing + + LevelSource *region = new Region(level, x0 - r, y0 - r, z0 - r, x1 + r, y1 + r, z1 + r, r); + + // AP - added a caching system for Chunk::rebuild to take advantage of + // Basically we're storing of copy of the tileIDs array inside the region so that calls to Region::getTile can grab data + // more quickly from this array rather than calling CompressedTileStorage. On the Vita the total thread time spent in + // Region::getTile went from 20% to 4%. +#ifdef __PSVITA__ + int xc = x >> 4; + int zc = z >> 4; + ((Region*)region)->setCachedTiles(tileIds, xc, zc); +#endif + + // We now go through the vertical section of this level chunk that we are interested in and try and establish + // (1) if it is completely empty + // (2) if any of the tiles can be quickly determined to not need rendering because they are in the middle of other tiles and + // so can't be seen. A large amount (> 60% in tests) of tiles that call tesselateInWorld in the unoptimised version + // of this function fall into this category. By far the largest category of these are tiles in solid regions of rock. + bool empty = true; + for( int yy = y0; yy < y1; yy++ ) + { + for( int zz = 0; zz < 16; zz++ ) + { + for( int xx = 0; xx < 16; xx++ ) + { + // 4J Stu - tile data is ordered in 128 blocks of full width, lower 128 then upper 128 + int indexY = yy; + int offset = 0; + if(indexY >= Level::COMPRESSED_CHUNK_SECTION_HEIGHT) + { + indexY -= Level::COMPRESSED_CHUNK_SECTION_HEIGHT; + offset = Level::COMPRESSED_CHUNK_SECTION_TILES; + } + + unsigned char tileId = tileIds[ offset + ( ( ( xx + 0 ) << 11 ) | ( ( zz + 0 ) << 7 ) | ( indexY + 0 ) ) ]; + if( tileId > 0 ) empty = false; + + // Don't bother trying to work out neighbours for this tile if we are at the edge of the chunk - apart from the very + // bottom of the world where we shouldn't ever be able to see + if( yy == (Level::maxBuildHeight - 1) ) continue; + if(( xx == 0 ) || ( xx == 15 )) continue; + if(( zz == 0 ) || ( zz == 15 )) continue; + + // Establish whether this tile and its neighbours are all made of rock, dirt, unbreakable tiles, or have already + // been determined to meet this criteria themselves and have a tile of 255 set. + if( !( ( tileId == Tile::stone_Id ) || ( tileId == Tile::dirt_Id ) || ( tileId == Tile::unbreakable_Id ) || ( tileId == 255) ) ) continue; + tileId = tileIds[ offset + ( ( ( xx - 1 ) << 11 ) | ( ( zz + 0 ) << 7 ) | ( indexY + 0 )) ]; + if( !( ( tileId == Tile::stone_Id ) || ( tileId == Tile::dirt_Id ) || ( tileId == Tile::unbreakable_Id ) || ( tileId == 255) ) ) continue; + tileId = tileIds[ offset + ( ( ( xx + 1 ) << 11 ) | ( ( zz + 0 ) << 7 ) | ( indexY + 0 )) ]; + if( !( ( tileId == Tile::stone_Id ) || ( tileId == Tile::dirt_Id ) || ( tileId == Tile::unbreakable_Id ) || ( tileId == 255) ) ) continue; + tileId = tileIds[ offset + ( ( ( xx + 0 ) << 11 ) | ( ( zz - 1 ) << 7 ) | ( indexY + 0 )) ]; + if( !( ( tileId == Tile::stone_Id ) || ( tileId == Tile::dirt_Id ) || ( tileId == Tile::unbreakable_Id ) || ( tileId == 255) ) ) continue; + tileId = tileIds[ offset + ( ( ( xx + 0 ) << 11 ) | ( ( zz + 1 ) << 7 ) | ( indexY + 0 )) ]; + if( !( ( tileId == Tile::stone_Id ) || ( tileId == Tile::dirt_Id ) || ( tileId == Tile::unbreakable_Id ) || ( tileId == 255) ) ) continue; + // Treat the bottom of the world differently - we shouldn't ever be able to look up at this, so consider tiles as invisible + // if they are surrounded on sides other than the bottom + if( yy > 0 ) + { + int indexYMinusOne = yy - 1; + int yMinusOneOffset = 0; + if(indexYMinusOne >= Level::COMPRESSED_CHUNK_SECTION_HEIGHT) + { + indexYMinusOne -= Level::COMPRESSED_CHUNK_SECTION_HEIGHT; + yMinusOneOffset = Level::COMPRESSED_CHUNK_SECTION_TILES; + } + tileId = tileIds[ yMinusOneOffset + ( ( ( xx + 0 ) << 11 ) | ( ( zz + 0 ) << 7 ) | indexYMinusOne ) ]; + if( !( ( tileId == Tile::stone_Id ) || ( tileId == Tile::dirt_Id ) || ( tileId == Tile::unbreakable_Id ) || ( tileId == 255) ) ) continue; + } + int indexYPlusOne = yy + 1; + int yPlusOneOffset = 0; + if(indexYPlusOne >= Level::COMPRESSED_CHUNK_SECTION_HEIGHT) + { + indexYPlusOne -= Level::COMPRESSED_CHUNK_SECTION_HEIGHT; + yPlusOneOffset = Level::COMPRESSED_CHUNK_SECTION_TILES; + } + tileId = tileIds[ yPlusOneOffset + ( ( ( xx + 0 ) << 11 ) | ( ( zz + 0 ) << 7 ) | indexYPlusOne ) ]; + if( !( ( tileId == Tile::stone_Id ) || ( tileId == Tile::dirt_Id ) || ( tileId == Tile::unbreakable_Id ) || ( tileId == 255) ) ) continue; + + // This tile is surrounded. Flag it as not requiring to be rendered by setting its id to 255. + tileIds[ offset + ( ( ( xx + 0 ) << 11 ) | ( ( zz + 0 ) << 7 ) | ( indexY + 0 ) ) ] = 0xff; + } + } + } + PIXEndNamedEvent(); + // Nothing at all to do for this chunk? + if( empty ) + { + // 4J - added - clear any renderer data associated with this + for (int currentLayer = 0; currentLayer < 2; currentLayer++) + { + levelRenderer->setGlobalChunkFlag(this->x, this->y, this->z, level, LevelRenderer::CHUNK_FLAG_EMPTY0, currentLayer); + RenderManager.CBuffClear(lists + currentLayer); + } + + delete region; + return; + } + // 4J - optimisation ends + //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// + + PIXBeginNamedEvent(0,"Rebuild section C"); + Tesselator::Bounds bounds; // 4J MGH - added + { + // this was the old default clip bounds for the chunk, set in Chunk::setPos. + float g = 6.0f; + bounds.boundingBox[0] = -g; + bounds.boundingBox[1] = -g; + bounds.boundingBox[2] = -g; + bounds.boundingBox[3] = XZSIZE+g; + bounds.boundingBox[4] = SIZE+g; + bounds.boundingBox[5] = XZSIZE+g; + } + for (int currentLayer = 0; currentLayer < 2; currentLayer++) + { + bool renderNextLayer = false; + bool rendered = false; + + bool started = false; + + // 4J - changed loop order here to leave y as the innermost loop for better cache performance + for (int z = z0; z < z1; z++) + { + for (int x = x0; x < x1; x++) + { + for (int y = y0; y < y1; y++) + { + // 4J Stu - tile data is ordered in 128 blocks of full width, lower 128 then upper 128 + int indexY = y; + int offset = 0; + if(indexY >= Level::COMPRESSED_CHUNK_SECTION_HEIGHT) + { + indexY -= Level::COMPRESSED_CHUNK_SECTION_HEIGHT; + offset = Level::COMPRESSED_CHUNK_SECTION_TILES; + } + + // 4J - get tile from those copied into our local array in earlier optimisation + unsigned char tileId = tileIds[ offset + ( ( ( x - x0 ) << 11 ) | ( ( z - z0 ) << 7 ) | indexY) ]; + // If flagged as not visible, drop out straight away + if( tileId == 0xff ) continue; +// int tileId = region->getTile(x,y,z); + if (tileId > 0) + { + if (!started) + { + started = true; + + MemSect(31); + glNewList(lists + currentLayer, GL_COMPILE); + MemSect(0); + glPushMatrix(); + glDepthMask(true); // 4J added + t->useCompactVertices(true); // 4J added + translateToPos(); + float ss = 1.000001f; + // 4J - have removed this scale as I don't think we should need it, and have now optimised the vertex + // shader so it doesn't do anything other than translate with this matrix anyway +#if 0 + glTranslatef(-zs / 2.0f, -ys / 2.0f, -zs / 2.0f); + glScalef(ss, ss, ss); + glTranslatef(zs / 2.0f, ys / 2.0f, zs / 2.0f); +#endif + t->begin(); + t->offset(static_cast(-this->x), static_cast(-this->y), static_cast(-this->z)); + } + + Tile *tile = Tile::tiles[tileId]; + int renderLayer = tile->getRenderLayer(); + + if (renderLayer != currentLayer) + { + renderNextLayer = true; + } + } + } + } + } + +#ifdef __PSVITA__ + if( currentLayer==0 ) + { + levelRenderer->clearGlobalChunkFlag(this->x, this->y, this->z, level, LevelRenderer::CHUNK_FLAG_CUT_OUT); + } +#endif + + if (started) + { +#ifdef __PSVITA__ + // AP - make sure we don't attempt to render chunks without cutout geometry + if( t->getCutOutFound() ) + { + levelRenderer->setGlobalChunkFlag(this->x, this->y, this->z, level, LevelRenderer::CHUNK_FLAG_CUT_OUT); + } +#endif + t->end(); + bounds.addBounds(t->bounds); // 4J MGH - added + glPopMatrix(); + glEndList(); + t->useCompactVertices(false); // 4J added + t->offset(0, 0, 0); + } + else + { + rendered = false; + } + + if (rendered) + { + levelRenderer->clearGlobalChunkFlag(this->x, this->y, this->z, level, LevelRenderer::CHUNK_FLAG_EMPTY0, currentLayer); + } + else + { + // 4J - added - clear any renderer data associated with this unused list + levelRenderer->setGlobalChunkFlag(this->x, this->y, this->z, level, LevelRenderer::CHUNK_FLAG_EMPTY0, currentLayer); + RenderManager.CBuffClear(lists + currentLayer); + } + if((currentLayer==0)&&(!renderNextLayer)) + { + levelRenderer->setGlobalChunkFlag(this->x, this->y, this->z, level, LevelRenderer::CHUNK_FLAG_EMPTY1); + RenderManager.CBuffClear(lists + 1); + break; + } + } + + // 4J MGH - added this to take the bound from the value calc'd in the tesselator + if( bb ) + { + bb->set(bounds.boundingBox[0], bounds.boundingBox[1], bounds.boundingBox[2], + bounds.boundingBox[3], bounds.boundingBox[4], bounds.boundingBox[5]); + } + + delete region; + + PIXEndNamedEvent(); + PIXBeginNamedEvent(0,"Rebuild section D"); + // 4J - have rewritten the way that tile entities are stored globally to make it work more easily with split screen. Chunks are now + // stored globally in the levelrenderer, in a hashmap with a special key made up from the dimension and chunk position (using same index + // as is used for global flags) +#if 1 + int key = levelRenderer->getGlobalIndexForChunk(this->x,this->y,this->z,level); + EnterCriticalSection(globalRenderableTileEntities_cs); + if( renderableTileEntities.size() ) + { + auto it = globalRenderableTileEntities->find(key); + if( it != globalRenderableTileEntities->end() ) + { + // We've got some renderable tile entities that we want associated with this chunk, and an existing list of things that used to be. + // We need to flag any that we don't need any more to be removed, keep those that we do, and add any new ones + + // First pass - flag everything already existing to be removed + for(auto& it2 : it->second) + { + it2->setRenderRemoveStage(TileEntity::e_RenderRemoveStageFlaggedAtChunk); + } + + // Now go through the current list. If these are already in the list, then unflag the remove flag. If they aren't, then add + for(const auto& it3 : renderableTileEntities) + { + auto it2 = find(it->second.begin(), it->second.end(), it3); + if( it2 == it->second.end() ) + { + (*globalRenderableTileEntities)[key].push_back(it3); + } + else + { + (*it2)->setRenderRemoveStage(TileEntity::e_RenderRemoveStageKeep); + } + } + } + else + { + // Easy case - nothing already existing for this chunk. Add them all in. + for( size_t i = 0; i < renderableTileEntities.size(); i++ ) + { + (*globalRenderableTileEntities)[key].push_back(renderableTileEntities[i]); + } + } + } + else + { + // Another easy case - we don't want any renderable tile entities associated with this chunk. Flag all to be removed. + auto it = globalRenderableTileEntities->find(key); + if( it != globalRenderableTileEntities->end() ) + { + for(auto& it2 : it->second) + { + it2->setRenderRemoveStage(TileEntity::e_RenderRemoveStageFlaggedAtChunk); + } + } + } + LeaveCriticalSection(globalRenderableTileEntities_cs); + PIXEndNamedEvent(); +#else + // Find the removed ones: + + // 4J - original code for this section: + /* + Set newTileEntities = new HashSet(); + newTileEntities.addAll(renderableTileEntities); + newTileEntities.removeAll(oldTileEntities); + globalRenderableTileEntities.addAll(newTileEntities); + + oldTileEntities.removeAll(renderableTileEntities); + globalRenderableTileEntities.removeAll(oldTileEntities); + */ + + + unordered_set > newTileEntities(renderableTileEntities.begin(),renderableTileEntities.end()); + + auto endIt = oldTileEntities.end(); + for( unordered_set >::iterator it = oldTileEntities.begin(); it != endIt; it++ ) + { + newTileEntities.erase(*it); + } + + // 4J - newTileEntities is now renderableTileEntities with any old ones from oldTileEntitesRemoved (so just new things added) + + EnterCriticalSection(globalRenderableTileEntities_cs); + endIt = newTileEntities.end(); + for( unordered_set >::iterator it = newTileEntities.begin(); it != endIt; it++ ) + { + globalRenderableTileEntities->push_back(*it); + } + + // 4J - All these new things added to globalRenderableTileEntities + + auto endItRTE = renderableTileEntities.end(); + for( vector >::iterator it = renderableTileEntities.begin(); it != endItRTE; it++ ) + { + oldTileEntities.erase(*it); + } + // 4J - oldTileEntities is now the removed items + vector >::iterator it = globalRenderableTileEntities->begin(); + while( it != globalRenderableTileEntities->end() ) + { + if( oldTileEntities.find(*it) != oldTileEntities.end() ) + { + it = globalRenderableTileEntities->erase(it); + } + else + { + ++it; + } + } + + LeaveCriticalSection(globalRenderableTileEntities_cs); +#endif + + // 4J - These removed items are now also removed from globalRenderableTileEntities + + if( LevelChunk::touchedSky ) + { + levelRenderer->clearGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_NOTSKYLIT); + } + else + { + levelRenderer->setGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_NOTSKYLIT); + } + levelRenderer->setGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_COMPILED); + PIXEndNamedEvent(); + return; + +} + + +#ifdef __PS3__ +ChunkRebuildData g_rebuildDataIn __attribute__((__aligned__(16))); +ChunkRebuildData g_rebuildDataOut __attribute__((__aligned__(16))); +TileCompressData_SPU g_tileCompressDataIn __attribute__((__aligned__(16))); +unsigned char* g_tileCompressDataOut = (unsigned char*)&g_rebuildDataIn.m_tileIds; + + +void RunSPURebuild() +{ + + static C4JSpursJobQueue::Port p("C4JSpursJob_ChunkUpdate"); + C4JSpursJob_CompressedTile tileJob(&g_tileCompressDataIn,g_tileCompressDataOut); + C4JSpursJob_ChunkUpdate chunkJob(&g_rebuildDataIn, &g_rebuildDataOut); + + if(g_rebuildDataIn.m_currentLayer == 0) // only need to create the tiles on the first layer + { + p.submitJob(&tileJob); + p.submitSync(); + } + + p.submitJob(&chunkJob); + p.waitForCompletion(); + + assert(g_rebuildDataIn.m_x0 == g_rebuildDataOut.m_x0); +} + +void Chunk::rebuild_SPU() +{ + +// if (!dirty) return; + Chunk::t = Tesselator::getInstance(); // 4J - added - static initialiser being set at the wrong time + updates++; + + int x0 = x; + int y0 = y; + int z0 = z; + int x1 = x + SIZE; + int y1 = y + SIZE; + int z1 = z + SIZE; + + LevelChunk::touchedSky = false; + +// unordered_set > oldTileEntities(renderableTileEntities.begin(),renderableTileEntities.end()); // 4J removed this & next line +// renderableTileEntities.clear(); + + vector > renderableTileEntities; // 4J - added + +// List newTileEntities = new ArrayList(); +// newTileEntities.clear(); +// renderableTileEntities.clear(); + + int r = 1; + + Region region(level, x0 - r, y0 - r, z0 - r, x1 + r, y1 + r, z1 + r, r); + TileRenderer tileRenderer(®ion); + + int lists = levelRenderer->getGlobalIndexForChunk(this->x,this->y,this->z,level) * 2; + lists += levelRenderer->chunkLists; + + //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// + // 4J - optimisation begins. + + // Get the data for the level chunk that this render chunk is it (level chunk is 16 x 16 x 128, + // render chunk is 16 x 16 x 16. We wouldn't have to actually get all of it if the data was ordered differently, but currently + // it is ordered by x then z then y so just getting a small range of y out of it would involve getting the whole thing into + // the cache anyway. + ChunkRebuildData* pOutData = nullptr; + g_rebuildDataIn.buildForChunk(®ion, level, x0, y0, z0); + + Tesselator::Bounds bounds; + { + // this was the old default clip bounds for the chunk, set in Chunk::setPos. + float g = 6.0f; + bounds.boundingBox[0] = -g; + bounds.boundingBox[1] = -g; + bounds.boundingBox[2] = -g; + bounds.boundingBox[3] = SIZE+g; + bounds.boundingBox[4] = SIZE+g; + bounds.boundingBox[5] = SIZE+g; + } + + for (int currentLayer = 0; currentLayer < 2; currentLayer++) + { + bool rendered = false; + + { + glNewList(lists + currentLayer, GL_COMPILE); + MemSect(0); + glPushMatrix(); + glDepthMask(true); // 4J added + t->useCompactVertices(true); // 4J added + translateToPos(); + float ss = 1.000001f; + // 4J - have removed this scale as I don't think we should need it, and have now optimised the vertex + // shader so it doesn't do anything other than translate with this matrix anyway + #if 0 + glTranslatef(-zs / 2.0f, -ys / 2.0f, -zs / 2.0f); + glScalef(ss, ss, ss); + glTranslatef(zs / 2.0f, ys / 2.0f, zs / 2.0f); + #endif + t->begin(); + t->offset((float)(-this->x), (float)(-this->y), (float)(-this->z)); + } + + g_rebuildDataIn.copyFromTesselator(); + intArray_SPU tesselatorArray((unsigned int*)g_rebuildDataIn.m_tesselator.m_PPUArray); + g_rebuildDataIn.m_tesselator._array = &tesselatorArray; + g_rebuildDataIn.m_currentLayer = currentLayer; + g_tileCompressDataIn.setForChunk(®ion, x0, y0, z0); + RunSPURebuild(); + g_rebuildDataOut.storeInTesselator(); + pOutData = &g_rebuildDataOut; + + if(pOutData->m_flags & ChunkRebuildData::e_flag_Rendered) + rendered = true; + + // 4J - changed loop order here to leave y as the innermost loop for better cache performance + for (int z = z0; z < z1; z++) + { + for (int x = x0; x < x1; x++) + { + for (int y = y0; y < y1; y++) + { + // 4J - get tile from those copied into our local array in earlier optimisation + unsigned char tileId = pOutData->getTile(x,y,z); + if (tileId > 0 && tileId != 0xff) + { + if (currentLayer == 0 && Tile::tiles[tileId] && Tile::tiles[tileId]->isEntityTile()) + { + shared_ptr et = region.getTileEntity(x, y, z); + if (TileEntityRenderDispatcher::instance->hasRenderer(et)) + { + renderableTileEntities.push_back(et); + } + } + int flags = pOutData->getFlags(x,y,z); + if(flags & ChunkRebuildData::e_flag_SPURenderCodeMissing) + { + + Tile *tile = Tile::tiles[tileId]; + if (!tile) continue; + int renderLayer = tile->getRenderLayer(); + + if (renderLayer != currentLayer) + { + // renderNextLayer = true; + } + else if (renderLayer == currentLayer) + { + //if(currentLayer == 0) + // numRenderedLayer0++; + rendered |= tileRenderer.tesselateInWorld(tile, x, y, z); + } + } + } + } + } + } + + + { + t->end(); + bounds.addBounds(t->bounds); + glPopMatrix(); + glEndList(); + t->useCompactVertices(false); // 4J added + t->offset(0, 0, 0); + } + if (rendered) + { + levelRenderer->clearGlobalChunkFlag(this->x, this->y, this->z, level, LevelRenderer::CHUNK_FLAG_EMPTY0, currentLayer); + } + else + { + // 4J - added - clear any renderer data associated with this unused list + levelRenderer->setGlobalChunkFlag(this->x, this->y, this->z, level, LevelRenderer::CHUNK_FLAG_EMPTY0, currentLayer); + RenderManager.CBuffClear(lists + currentLayer); + } + + } + + if( bb ) + { + bb->set(bounds.boundingBox[0], bounds.boundingBox[1], bounds.boundingBox[2], + bounds.boundingBox[3], bounds.boundingBox[4], bounds.boundingBox[5]); + } + + + if(pOutData->m_flags & ChunkRebuildData::e_flag_TouchedSky) + LevelChunk::touchedSky = true; + + + // 4J - have rewritten the way that tile entities are stored globally to make it work more easily with split screen. Chunks are now + // stored globally in the levelrenderer, in a hashmap with a special key made up from the dimension and chunk position (using same index + // as is used for global flags) +#if 1 + int key = levelRenderer->getGlobalIndexForChunk(this->x,this->y,this->z,level); + EnterCriticalSection(globalRenderableTileEntities_cs); + if( renderableTileEntities.size() ) + { + auto it = globalRenderableTileEntities->find(key); + if( it != globalRenderableTileEntities->end() ) + { + // We've got some renderable tile entities that we want associated with this chunk, and an existing list of things that used to be. + // We need to flag any that we don't need any more to be removed, keep those that we do, and add any new ones + + // First pass - flag everything already existing to be removed + for( auto it2 = it->second.begin(); it2 != it->second.end(); it2++ ) + { + (*it2)->setRenderRemoveStage(TileEntity::e_RenderRemoveStageFlaggedAtChunk); + } + + // Now go through the current list. If these are already in the list, then unflag the remove flag. If they aren't, then add + for( size_t i = 0; i < renderableTileEntities.size(); i++ ) + { + auto it2 = find( it->second.begin(), it->second.end(), renderableTileEntities[i] ); + if( it2 == it->second.end() ) + { + (*globalRenderableTileEntities)[key].push_back(renderableTileEntities[i]); + } + else + { + (*it2)->setRenderRemoveStage(TileEntity::e_RenderRemoveStageKeep); + } + } + } + else + { + // Easy case - nothing already existing for this chunk. Add them all in. + for( size_t i = 0; i < renderableTileEntities.size(); i++ ) + { + (*globalRenderableTileEntities)[key].push_back(renderableTileEntities[i]); + } + } + } + else + { + // Another easy case - we don't want any renderable tile entities associated with this chunk. Flag all to be removed. + auto it = globalRenderableTileEntities->find(key); + if( it != globalRenderableTileEntities->end() ) + { + for( auto it2 = it->second.begin(); it2 != it->second.end(); it2++ ) + { + (*it2)->setRenderRemoveStage(TileEntity::e_RenderRemoveStageFlaggedAtChunk); + } + } + } + LeaveCriticalSection(globalRenderableTileEntities_cs); +#else + // Find the removed ones: + + // 4J - original code for this section: + /* + Set newTileEntities = new HashSet(); + newTileEntities.addAll(renderableTileEntities); + newTileEntities.removeAll(oldTileEntities); + globalRenderableTileEntities.addAll(newTileEntities); + + oldTileEntities.removeAll(renderableTileEntities); + globalRenderableTileEntities.removeAll(oldTileEntities); + */ + + + unordered_set > newTileEntities(renderableTileEntities.begin(),renderableTileEntities.end()); + + auto endIt = oldTileEntities.end(); + for( unordered_set >::iterator it = oldTileEntities.begin(); it != endIt; it++ ) + { + newTileEntities.erase(*it); + } + + // 4J - newTileEntities is now renderableTileEntities with any old ones from oldTileEntitesRemoved (so just new things added) + + EnterCriticalSection(globalRenderableTileEntities_cs); + endIt = newTileEntities.end(); + for( unordered_set >::iterator it = newTileEntities.begin(); it != endIt; it++ ) + { + globalRenderableTileEntities.push_back(*it); + } + + // 4J - All these new things added to globalRenderableTileEntities + + auto endItRTE = renderableTileEntities.end(); + for( vector >::iterator it = renderableTileEntities.begin(); it != endItRTE; it++ ) + { + oldTileEntities.erase(*it); + } + // 4J - oldTileEntities is now the removed items + vector >::iterator it = globalRenderableTileEntities->begin(); + while( it != globalRenderableTileEntities->end() ) + { + if( oldTileEntities.find(*it) != oldTileEntities.end() ) + { + it = globalRenderableTileEntities->erase(it); + } + else + { + ++it; + } + } + + LeaveCriticalSection(globalRenderableTileEntities_cs); +#endif + + // 4J - These removed items are now also removed from globalRenderableTileEntities + + if( LevelChunk::touchedSky ) + { + levelRenderer->clearGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_NOTSKYLIT); + } + else + { + levelRenderer->setGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_NOTSKYLIT); + } + levelRenderer->setGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_COMPILED); + return; + +} +#endif // _PS3_ + + +float Chunk::distanceToSqr(shared_ptr player) const +{ + float xd = static_cast(player->x - xm); + float yd = static_cast(player->y - ym); + float zd = static_cast(player->z - zm); + return xd * xd + yd * yd + zd * zd; +} + +float Chunk::squishedDistanceToSqr(shared_ptr player) +{ + float xd = static_cast(player->x - xm); + float yd = static_cast(player->y - ym) * 2; + float zd = static_cast(player->z - zm); + return xd * xd + yd * yd + zd * zd; +} + +void Chunk::reset() +{ + if( assigned ) + { + EnterCriticalSection(&levelRenderer->m_csDirtyChunks); + unsigned char refCount = levelRenderer->decGlobalChunkRefCount(x, y, z, level); + assigned = false; +// printf("\t\t [dec] refcount %d at %d, %d, %d\n",refCount,x,y,z); + if( refCount == 0 ) + { + int lists = levelRenderer->getGlobalIndexForChunk(x, y, z, level) * 2; + if(lists >= 0) + { + lists += levelRenderer->chunkLists; + for (int i = 0; i < 2; i++) + { + // 4J - added - clear any renderer data associated with this unused list + RenderManager.CBuffClear(lists + i); + } + levelRenderer->setGlobalChunkFlags(x, y, z, level, 0); + } + } + LeaveCriticalSection(&levelRenderer->m_csDirtyChunks); + } + + clipChunk->visible = false; +} + +void Chunk::_delete() +{ + reset(); + level = nullptr; +} + +int Chunk::getList(int layer) +{ + if (!clipChunk->visible) return -1; + + int lists = levelRenderer->getGlobalIndexForChunk(x, y, z,level) * 2; + lists += levelRenderer->chunkLists; + + bool empty = levelRenderer->getGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_EMPTY0, layer); + if (!empty) return lists + layer; + return -1; +} + +void Chunk::cull(Culler *culler) +{ + clipChunk->visible = culler->isVisible(bb.get()); +} + +void Chunk::renderBB() +{ +// glCallList(lists + 2); // 4J - removed - TODO put back in +} + +bool Chunk::isEmpty() +{ + if (!levelRenderer->getGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_COMPILED)) return false; + return levelRenderer->getGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_EMPTYBOTH); +} + +void Chunk::setDirty() +{ + // 4J - not used, but if this starts being used again then we'll need to investigate how best to handle it. + __debugbreak(); + levelRenderer->setGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_DIRTY); +} + +void Chunk::clearDirty() +{ + levelRenderer->clearGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_DIRTY); +#ifdef _CRITICAL_CHUNKS + levelRenderer->clearGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_CRITICAL); +#endif +} + +Chunk::~Chunk() = default; + +bool Chunk::emptyFlagSet(int layer) +{ + return levelRenderer->getGlobalChunkFlag(x, y, z, level, LevelRenderer::CHUNK_FLAG_EMPTY0, layer); +} diff --git a/Minecraft.Client/Chunk.h b/Minecraft.Client/Chunk.h new file mode 100644 index 0000000..e0ae016 --- /dev/null +++ b/Minecraft.Client/Chunk.h @@ -0,0 +1,87 @@ +#pragma once +#include "AllowAllCuller.h" +#include "Tesselator.h" +#include "..\Minecraft.World\ArrayWithLength.h" +#include "LevelRenderer.h" + +class Level; +class TileEntity; +class Entity; +using namespace std; + +class ClipChunk +{ +public: + Chunk *chunk; + int globalIdx; + bool visible; + float aabb[6]; + int xm, ym, zm; +}; + +class Chunk +{ +private: + static const int XZSIZE = LevelRenderer::CHUNK_XZSIZE; + static const int SIZE = LevelRenderer::CHUNK_SIZE; + +public: + Level *level; + static LevelRenderer *levelRenderer; +private: +#ifndef _LARGE_WORLDS + static Tesselator *t; +#else + static DWORD tlsIdx; +public: + static void CreateNewThreadStorage(); + static void ReleaseThreadStorage(); + static unsigned char *GetTileIdsStorage(); +#endif + +public: + static int updates; + + int x, y, z; + int xRender, yRender, zRender; + int xRenderOffs, yRenderOffs, zRenderOffs; + + int xm, ym, zm; + shared_ptr bb; + ClipChunk *clipChunk; + + int id; +//public: +// vector > renderableTileEntities; // 4J - removed + +private: + LevelRenderer::rteMap *globalRenderableTileEntities; + CRITICAL_SECTION *globalRenderableTileEntities_cs; + bool assigned; +public: + Chunk(Level *level, LevelRenderer::rteMap &globalRenderableTileEntities, CRITICAL_SECTION &globalRenderableTileEntities_cs, int x, int y, int z, ClipChunk *clipChunk); + Chunk(); + + void setPos(int x, int y, int z); +private: + void translateToPos(); +public: + void makeCopyForRebuild(Chunk *source); + void rebuild(); +#ifdef __PS3__ + void rebuild_SPU(); +#endif // __PS3__ + float distanceToSqr(shared_ptr player) const; + float squishedDistanceToSqr(shared_ptr player); + void reset(); + void _delete(); + + int getList(int layer); + void cull(Culler *culler); + void renderBB() ; + bool isEmpty(); + void setDirty(); + void clearDirty(); // 4J added + bool emptyFlagSet(int layer); + ~Chunk(); +}; diff --git a/Minecraft.Client/ClientConnection.cpp b/Minecraft.Client/ClientConnection.cpp new file mode 100644 index 0000000..7906432 --- /dev/null +++ b/Minecraft.Client/ClientConnection.cpp @@ -0,0 +1,4032 @@ +#include "stdafx.h" +#include "ClientConnection.h" +#include "MultiPlayerLevel.h" +#include "MultiPlayerLocalPlayer.h" +#include "StatsCounter.h" +#include "RemotePlayer.h" +#include "TakeAnimationParticle.h" +#include "CritParticle.h" +#include "User.h" +#include "..\Minecraft.World\net.minecraft.world.level.storage.h" +#include "..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "..\Minecraft.World\net.minecraft.stats.h" +#include "..\Minecraft.World\net.minecraft.world.entity.h" +#include "..\Minecraft.World\net.minecraft.world.entity.ai.attributes.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.entity.animal.h" +#include "..\Minecraft.World\net.minecraft.world.entity.npc.h" +#include "..\Minecraft.World\net.minecraft.world.entity.item.h" +#include "..\Minecraft.World\net.minecraft.world.entity.projectile.h" +#include "..\Minecraft.World\net.minecraft.world.entity.global.h" +#include "..\Minecraft.World\net.minecraft.world.entity.boss.enderdragon.h" +#include "..\Minecraft.World\net.minecraft.world.entity.monster.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.entity.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\net.minecraft.world.item.trading.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\net.minecraft.world.inventory.h" +#include "..\Minecraft.World\net.minecraft.world.h" +#include "..\Minecraft.World\net.minecraft.world.level.saveddata.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\net.minecraft.world.effect.h" +#include "..\Minecraft.World\net.minecraft.world.food.h" +#include "..\Minecraft.World\SharedConstants.h" +#include "..\Minecraft.World\AABB.h" +#include "..\Minecraft.World\Pos.h" +#include "..\Minecraft.World\Socket.h" +#include "Minecraft.h" +#include "LevelRenderer.h" +#include "Options.h" +#include "MinecraftServer.h" +#include "ClientConstants.h" +#include "..\Minecraft.World\SoundTypes.h" +#include "..\Minecraft.World\BasicTypeContainers.h" +#include "TexturePackRepository.h" +#ifdef _XBOX +#include "Common\XUI\XUI_Scene_Trading.h" +#else +#endif +#ifdef __PS3__ +#include "PS3/Network/SonyVoiceChat.h" +#endif +#include "DLCTexturePack.h" + +#ifdef _WINDOWS64 +#include "Xbox\Network\NetworkPlayerXbox.h" +#include "Common\Network\PlatformNetworkManagerStub.h" +#endif + + +#ifdef _DURANGO +#include "..\Minecraft.World\DurangoStats.h" +#include "..\Minecraft.World\GenericStats.h" +#endif + +ClientConnection::ClientConnection(Minecraft *minecraft, const wstring& ip, int port) +{ + // 4J Stu - No longer used as we use the socket version below. + assert(FALSE); +#if 0 + // 4J - added initiliasers + random = new Random(); + done = false; + level = false; + started = false; + + this->minecraft = minecraft; + + Socket *socket; + if( gNetworkManager.IsHost() ) + { + socket = new Socket(); // 4J - Local connection + } + else + { + socket = new Socket(ip); // 4J - Connection over xrnm - hardcoded IP at present + } + createdOk = socket->createdOk; + if( createdOk ) + { + connection = new Connection(socket, L"Client", this); + } + else + { + connection = nullptr; + delete socket; + } +#endif +} + +ClientConnection::ClientConnection(Minecraft *minecraft, Socket *socket, int iUserIndex /*= -1*/) +{ + // 4J - added initiliasers + random = new Random(); + done = false; + level = nullptr; + started = false; + savedDataStorage = new SavedDataStorage(nullptr); + maxPlayers = 20; + + this->minecraft = minecraft; + + if( iUserIndex < 0 ) + { + m_userIndex = ProfileManager.GetPrimaryPad(); + } + else + { + m_userIndex = iUserIndex; + } + + if( socket == nullptr ) + { + socket = new Socket(); // 4J - Local connection + } + + createdOk = socket->createdOk; + if( createdOk ) + { + connection = new Connection(socket, L"Client", this); + } + else + { + connection = nullptr; + // TODO 4J Stu - This will cause issues since the session player owns the socket + //delete socket; + } + + deferredEntityLinkPackets = vector(); +} + +bool ClientConnection::isPrimaryConnection() const +{ + // On host, all connections are primary (server is authoritative). + // On non-host, only the primary pad processes shared entity state. + return g_NetworkManager.IsHost() || m_userIndex == ProfileManager.GetPrimaryPad(); +} + +ClientConnection* ClientConnection::findPrimaryConnection() const +{ + if (level == nullptr) return nullptr; + int primaryPad = ProfileManager.GetPrimaryPad(); + MultiPlayerLevel* mpLevel = (MultiPlayerLevel*)level; + for (ClientConnection* conn : mpLevel->connections) + { + if (conn != this && conn->m_userIndex == primaryPad) + return conn; + } + return nullptr; +} + +bool ClientConnection::shouldProcessForEntity(int entityId) const +{ + if (g_NetworkManager.IsHost()) return true; + if (m_userIndex == ProfileManager.GetPrimaryPad()) return true; + + ClientConnection* primary = findPrimaryConnection(); + if (primary == nullptr) return true; + return !primary->isTrackingEntity(entityId); +} + +bool ClientConnection::shouldProcessForPosition(int blockX, int blockZ) const +{ + if (g_NetworkManager.IsHost()) return true; + if (m_userIndex == ProfileManager.GetPrimaryPad()) return true; + + ClientConnection* primary = findPrimaryConnection(); + if (primary == nullptr) return true; + return !primary->m_visibleChunks.count(chunkKey(blockX >> 4, blockZ >> 4)); +} + +bool ClientConnection::anyOtherConnectionHasChunk(int x, int z) const +{ + if (level == nullptr) return false; + MultiPlayerLevel* mpLevel = (MultiPlayerLevel*)level; + int64_t key = chunkKey(x, z); + for (ClientConnection* conn : mpLevel->connections) + { + if (conn != this && conn->m_visibleChunks.count(key)) + return true; + } + return false; +} + +ClientConnection::~ClientConnection() +{ + m_trackedEntityIds.clear(); + m_visibleChunks.clear(); + delete connection; + delete random; + delete savedDataStorage; +} + +void ClientConnection::tick() +{ + if (!done) connection->tick(); + connection->flush(); +} + +INetworkPlayer *ClientConnection::getNetworkPlayer() +{ + if( connection != nullptr && connection->getSocket() != nullptr) return connection->getSocket()->getPlayer(); + else return nullptr; +} + +void ClientConnection::handleLogin(shared_ptr packet) +{ + if (done) return; + + PlayerUID OnlineXuid; + ProfileManager.GetXUID(m_userIndex,&OnlineXuid,true); // online xuid + MOJANG_DATA *pMojangData = nullptr; + + if(!g_NetworkManager.IsLocalGame()) + { + pMojangData=app.GetMojangDataForXuid(OnlineXuid); + } + + // 4J-PB - load the local player skin (from the global title user storage area) if there is one + // the primary player on the host machine won't have a qnet player from the socket + INetworkPlayer *networkPlayer = connection->getSocket()->getPlayer(); + int iUserID=-1; + + if( m_userIndex == ProfileManager.GetPrimaryPad() ) + { + iUserID=m_userIndex; + + TelemetryManager->SetMultiplayerInstanceId(packet->m_multiplayerInstanceId); + } + else + { + if(!networkPlayer->IsGuest() && networkPlayer->IsLocal()) + { + // find the pad number of this local player + for(int i=0;iwchSkin[0]!=0L) + { + wstring wstr=pMojangData->wchSkin; + // check the file is not already in + bRes=app.IsFileInMemoryTextures(wstr); + if(!bRes) + { +#ifdef _XBOX + C4JStorage::ETMSStatus eTMSStatus; + eTMSStatus=StorageManager.ReadTMSFile(iUserID,C4JStorage::eGlobalStorage_Title,C4JStorage::eTMS_FileType_Graphic,pMojangData->wchSkin,&pBuffer, &dwSize); + + bRes=(eTMSStatus==C4JStorage::ETMSStatus_Idle); +#endif + } + + if(bRes) + { + app.AddMemoryTextureFile(wstr,pBuffer,dwSize); + } + } + + // a cloak? + if(pMojangData->wchCape[0]!=0L) + { + wstring wstr=pMojangData->wchCape; + // check the file is not already in + bRes=app.IsFileInMemoryTextures(wstr); + if(!bRes) + { +#ifdef _XBOX + C4JStorage::ETMSStatus eTMSStatus; + eTMSStatus=StorageManager.ReadTMSFile(iUserID,C4JStorage::eGlobalStorage_Title,C4JStorage::eTMS_FileType_Graphic,pMojangData->wchCape,&pBuffer, &dwSize); + bRes=(eTMSStatus==C4JStorage::ETMSStatus_Idle); +#endif + } + + if(bRes) + { + app.AddMemoryTextureFile(wstr,pBuffer,dwSize); + } + } + } + + // If we're online, read the banned game list + app.ReadBannedList(iUserID); + // mark the level as not checked against banned levels - it'll be checked once the level starts + app.SetBanListCheck(iUserID,false); + } + + if( m_userIndex == ProfileManager.GetPrimaryPad() ) + { + if( app.GetTutorialMode() ) + { + minecraft->gameMode = new FullTutorialMode(ProfileManager.GetPrimaryPad(), minecraft, this); + } + // check if we're in the trial version + else if(ProfileManager.IsFullVersion()==false) + { + minecraft->gameMode = new TrialMode(ProfileManager.GetPrimaryPad(), minecraft, this); + } + else + { + MemSect(13); + minecraft->gameMode = new ConsoleGameMode(ProfileManager.GetPrimaryPad(), minecraft, this); + MemSect(0); + } + + + Level *dimensionLevel = minecraft->getLevel( packet->dimension ); + if( dimensionLevel == nullptr ) + { + level = new MultiPlayerLevel(this, new LevelSettings(packet->seed, GameType::byId(packet->gameType), false, false, packet->m_newSeaLevel, packet->m_pLevelType, packet->m_xzSize, packet->m_hellScale), packet->dimension, packet->difficulty); + + // 4J Stu - We want to share the SavedDataStorage between levels + int otherDimensionId = packet->dimension == 0 ? -1 : 0; + Level *activeLevel = minecraft->getLevel(otherDimensionId); + if( activeLevel != nullptr ) + { + // Don't need to delete it here as it belongs to a client connection while will delete it when it's done + //if( level->savedDataStorage != nullptr ) delete level->savedDataStorage; + level->savedDataStorage = activeLevel->savedDataStorage; + } + + app.DebugPrintf("ClientConnection - DIFFICULTY --- %d\n",packet->difficulty); + level->difficulty = packet->difficulty; // 4J Added + level->isClientSide = true; + minecraft->setLevel(level); + } + else + { + level = (MultiPlayerLevel *)dimensionLevel; + } + + minecraft->player->setPlayerIndex( packet->m_playerIndex ); + minecraft->player->setCustomSkin( app.GetPlayerSkinId(m_userIndex) ); + minecraft->player->setCustomCape( app.GetPlayerCapeId(m_userIndex) ); + + + minecraft->createPrimaryLocalPlayer(ProfileManager.GetPrimaryPad()); + + minecraft->player->dimension = packet->dimension; + //minecraft->setScreen(new ReceivingLevelScreen(this)); + minecraft->player->entityId = packet->clientVersion; + + BYTE networkSmallId = getSocket()->getSmallId(); + app.UpdatePlayerInfo(networkSmallId, packet->m_playerIndex, packet->m_uiGamePrivileges); + minecraft->player->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_All, packet->m_uiGamePrivileges); + + // Assume all privileges are on, so that the first message we see only indicates things that have been turned off + unsigned int startingPrivileges = 0; + Player::enableAllPlayerPrivileges(startingPrivileges,true); + + if(networkPlayer->IsHost()) + { + Player::setPlayerGamePrivilege(startingPrivileges, Player::ePlayerGamePrivilege_HOST,1); + } + + displayPrivilegeChanges(minecraft->player,startingPrivileges); + + // update the debugoptions + app.SetGameSettingsDebugMask(ProfileManager.GetPrimaryPad(),app.GetGameSettingsDebugMask(-1,true)); + } + else + { + // 4J-PB - this isn't the level we want + //level = (MultiPlayerLevel *)minecraft->level; + level = (MultiPlayerLevel *)minecraft->getLevel( packet->dimension ); + shared_ptr player; + + if(level==nullptr) + { + int otherDimensionId = packet->dimension == 0 ? -1 : 0; + MultiPlayerLevel *activeLevel = minecraft->getLevel(otherDimensionId); + + if(activeLevel == nullptr) + { + otherDimensionId = packet->dimension == 0 ? 1 : (packet->dimension == -1 ? 1 : -1); + activeLevel = minecraft->getLevel(otherDimensionId); + } + + MultiPlayerLevel *dimensionLevel = new MultiPlayerLevel(this, new LevelSettings(packet->seed, GameType::byId(packet->gameType), false, false, packet->m_newSeaLevel, packet->m_pLevelType, packet->m_xzSize, packet->m_hellScale), packet->dimension, packet->difficulty); + + dimensionLevel->savedDataStorage = activeLevel->savedDataStorage; + + dimensionLevel->difficulty = packet->difficulty; // 4J Added + dimensionLevel->isClientSide = true; + level = dimensionLevel; + // 4J Stu - At time of writing ProfileManager.GetGamertag() does not always return the correct name, + // if sign-ins are turned off while the player signed in. Using the qnetPlayer instead. + // need to have a level before create extra local player + MultiPlayerLevel *levelpassedin=(MultiPlayerLevel *)level; + player = minecraft->createExtraLocalPlayer(m_userIndex, networkPlayer->GetOnlineName(), m_userIndex, packet->dimension, this,levelpassedin); + + // need to have a player before the setlevel + shared_ptr lastPlayer = minecraft->player; + minecraft->player = minecraft->localplayers[m_userIndex]; + minecraft->setLevel(level); + minecraft->player = lastPlayer; + } + else + { + player = minecraft->createExtraLocalPlayer(m_userIndex, networkPlayer->GetOnlineName(), m_userIndex, packet->dimension, this); + } + + + //level->addClientConnection( this ); + player->dimension = packet->dimension; + player->entityId = packet->clientVersion; + + player->setPlayerIndex( packet->m_playerIndex ); + player->setCustomSkin( app.GetPlayerSkinId(m_userIndex) ); + player->setCustomCape( app.GetPlayerCapeId(m_userIndex) ); + + + BYTE networkSmallId = getSocket()->getSmallId(); + app.UpdatePlayerInfo(networkSmallId, packet->m_playerIndex, packet->m_uiGamePrivileges); + player->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_All, packet->m_uiGamePrivileges); + + // Assume all privileges are on, so that the first message we see only indicates things that have been turned off + unsigned int startingPrivileges = 0; + Player::enableAllPlayerPrivileges(startingPrivileges,true); + + displayPrivilegeChanges(minecraft->localplayers[m_userIndex],startingPrivileges); + } + + maxPlayers = packet->maxPlayers; + + // need to have a player before the setLocalCreativeMode + shared_ptr lastPlayer = minecraft->player; + minecraft->player = minecraft->localplayers[m_userIndex]; + ((MultiPlayerGameMode *)minecraft->localgameModes[m_userIndex])->setLocalMode(GameType::byId(packet->gameType)); + minecraft->player = lastPlayer; + + + TelemetryManager->RecordLevelStart(m_userIndex, eSen_FriendOrMatch_Playing_With_Invited_Friends, eSen_CompeteOrCoop_Coop_and_Competitive, Minecraft::GetInstance()->getLevel(packet->dimension)->difficulty, app.GetLocalPlayerCount(), g_NetworkManager.GetOnlinePlayerCount()); +} + +void ClientConnection::handleAddEntity(shared_ptr packet) +{ + double x = packet->x / 32.0; + double y = packet->y / 32.0; + double z = packet->z / 32.0; + shared_ptr e; + bool setRot = true; + + // 4J-PB - replacing this massive if nest with switch + switch(packet->type) + { + case AddEntityPacket::MINECART: + e = Minecart::createMinecart(level, x, y, z, packet->data); + break; + case AddEntityPacket::FISH_HOOK: + { + // 4J Stu - Brought forward from 1.4 to be able to drop XP from fishing + shared_ptr owner = getEntity(packet->data); + + // 4J - check all local players to find match + if( owner == nullptr ) + { + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( minecraft->localplayers[i] ) + { + if( minecraft->localplayers[i]->entityId == packet->data ) + { + + owner = minecraft->localplayers[i]; + break; + } + } + } + } + + if (owner != nullptr && owner->instanceof(eTYPE_PLAYER)) + { + shared_ptr player = dynamic_pointer_cast(owner); + shared_ptr hook = std::make_shared(level, x, y, z, player); + e = hook; + // 4J Stu - Move the player->fishing out of the ctor as we cannot reference 'this' + player->fishing = hook; + } + packet->data = 0; + } + break; + case AddEntityPacket::ARROW: + e = std::make_shared(level, x, y, z); + break; + case AddEntityPacket::SNOWBALL: + e = std::make_shared(level, x, y, z); + break; + case AddEntityPacket::ITEM_FRAME: + { + int ix=(int) x; + int iy=(int) y; + int iz = (int) z; + app.DebugPrintf("ClientConnection ITEM_FRAME xyz %d,%d,%d\n",ix,iy,iz); + } + e = std::make_shared(level, (int)x, (int)y, (int)z, packet->data); + packet->data = 0; + setRot = false; + break; + case AddEntityPacket::THROWN_ENDERPEARL: + e = std::make_shared(level, x, y, z); + break; + case AddEntityPacket::EYEOFENDERSIGNAL: + e = std::make_shared(level, x, y, z); + break; + case AddEntityPacket::FIREBALL: + e = std::make_shared(level, x, y, z, packet->xa / 8000.0, packet->ya / 8000.0, packet->za / 8000.0); + packet->data = 0; + break; + case AddEntityPacket::SMALL_FIREBALL: + e = std::make_shared(level, x, y, z, packet->xa / 8000.0, packet->ya / 8000.0, packet->za / 8000.0); + packet->data = 0; + break; + case AddEntityPacket::DRAGON_FIRE_BALL: + e = std::make_shared(level, x, y, z, packet->xa / 8000.0, packet->ya / 8000.0, packet->za / 8000.0); + packet->data = 0; + break; + case AddEntityPacket::EGG: + e = std::make_shared(level, x, y, z); + break; + case AddEntityPacket::THROWN_POTION: + e = std::make_shared(level, x, y, z, packet->data); + packet->data = 0; + break; + case AddEntityPacket::THROWN_EXPBOTTLE: + e = std::make_shared(level, x, y, z); + packet->data = 0; + break; + case AddEntityPacket::BOAT: + e = std::make_shared(level, x, y, z); + break; + case AddEntityPacket::PRIMED_TNT: + e = std::make_shared(level, x, y, z, std::shared_ptr()); + break; + case AddEntityPacket::ENDER_CRYSTAL: + e = std::make_shared(level, x, y, z); + break; + case AddEntityPacket::ITEM: + e = std::make_shared(level, x, y, z); + break; + case AddEntityPacket::FALLING: + e = std::make_shared(level, x, y, z, packet->data & 0xFFFF, packet->data >> 16); + packet->data = 0; + break; + case AddEntityPacket::WITHER_SKULL: + e = std::make_shared(level, x, y, z, packet->xa / 8000.0, packet->ya / 8000.0, packet->za / 8000.0); + packet->data = 0; + break; + case AddEntityPacket::FIREWORKS: + e = std::make_shared(level, x, y, z, std::shared_ptr()); + break; + case AddEntityPacket::LEASH_KNOT: + e = std::make_shared(level, (int)x, (int)y, (int)z); + packet->data = 0; + break; +#ifndef _FINAL_BUILD + default: + // Not a known entity (?) + assert(0); +#endif + } + + /* if (packet->type == AddEntityPacket::MINECART_RIDEABLE) e = shared_ptr( new Minecart(level, x, y, z, Minecart::RIDEABLE) ); + if (packet->type == AddEntityPacket::MINECART_CHEST) e = shared_ptr( new Minecart(level, x, y, z, Minecart::CHEST) ); + if (packet->type == AddEntityPacket::MINECART_FURNACE) e = shared_ptr( new Minecart(level, x, y, z, Minecart::FURNACE) ); + if (packet->type == AddEntityPacket::FISH_HOOK) + { + // 4J Stu - Brought forward from 1.4 to be able to drop XP from fishing + shared_ptr owner = getEntity(packet->data); + + // 4J - check all local players to find match + if( owner == nullptr ) + { + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( minecraft->localplayers[i] ) + { + if( minecraft->localplayers[i]->entityId == packet->data ) + { + + owner = minecraft->localplayers[i]; + break; + } + } + } + } + shared_ptr player = dynamic_pointer_cast(owner); + if (player != nullptr) + { + shared_ptr hook = shared_ptr( new FishingHook(level, x, y, z, player) ); + e = hook; + // 4J Stu - Move the player->fishing out of the ctor as we cannot reference 'this' + player->fishing = hook; + } + packet->data = 0; + } + + if (packet->type == AddEntityPacket::ARROW) e = shared_ptr( new Arrow(level, x, y, z) ); + if (packet->type == AddEntityPacket::SNOWBALL) e = shared_ptr( new Snowball(level, x, y, z) ); + if (packet->type == AddEntityPacket::THROWN_ENDERPEARL) e = shared_ptr( new ThrownEnderpearl(level, x, y, z) ); + if (packet->type == AddEntityPacket::EYEOFENDERSIGNAL) e = shared_ptr( new EyeOfEnderSignal(level, x, y, z) ); + if (packet->type == AddEntityPacket::FIREBALL) + { + e = shared_ptr( new Fireball(level, x, y, z, packet->xa / 8000.0, packet->ya / 8000.0, packet->za / 8000.0) ); + packet->data = 0; + } + if (packet->type == AddEntityPacket::SMALL_FIREBALL) + { + e = shared_ptr( new SmallFireball(level, x, y, z, packet->xa / 8000.0, packet->ya / 8000.0, packet->za / 8000.0) ); + packet->data = 0; + } + if (packet->type == AddEntityPacket::EGG) e = shared_ptr( new ThrownEgg(level, x, y, z) ); + if (packet->type == AddEntityPacket::THROWN_POTION) + { + e = shared_ptr( new ThrownPotion(level, x, y, z, packet->data) ); + packet->data = 0; + } + if (packet->type == AddEntityPacket::THROWN_EXPBOTTLE) + { + e = shared_ptr( new ThrownExpBottle(level, x, y, z) ); + packet->data = 0; + } + if (packet->type == AddEntityPacket::BOAT) e = shared_ptr( new Boat(level, x, y, z) ); + if (packet->type == AddEntityPacket::PRIMED_TNT) e = shared_ptr( new PrimedTnt(level, x, y, z) ); + if (packet->type == AddEntityPacket::ENDER_CRYSTAL) e = shared_ptr( new EnderCrystal(level, x, y, z) ); + if (packet->type == AddEntityPacket::FALLING_SAND) e = shared_ptr( new FallingTile(level, x, y, z, Tile::sand->id) ); + if (packet->type == AddEntityPacket::FALLING_GRAVEL) e = shared_ptr( new FallingTile(level, x, y, z, Tile::gravel->id) ); + if (packet->type == AddEntityPacket::FALLING_EGG) e = shared_ptr( new FallingTile(level, x, y, z, Tile::dragonEgg_Id) ); + + */ + + if (e != nullptr) + { + e->xp = packet->x; + e->yp = packet->y; + e->zp = packet->z; + + float yRot = packet->yRot * 360 / 256.0f; + float xRot = packet->xRot * 360 / 256.0f; + e->yRotp = packet->yRot; + e->xRotp = packet->xRot; + + if (setRot) + { + e->yRot = 0.0f; + e->xRot = 0.0f; + } + + vector > *subEntities = e->getSubEntities(); + if (subEntities) + { + int offs = packet->id - e->entityId; + for ( auto it : *subEntities ) + { + it->entityId += offs; + } + } + + if (packet->type == AddEntityPacket::LEASH_KNOT) + { + // 4J: "Move" leash knot to it's current position, this sets old position (like frame, leash has adjusted position) + e->absMoveTo(e->x, e->y, e->z, yRot, xRot); + } + else if(packet->type == AddEntityPacket::ITEM_FRAME) + { + // Not doing this move for frame, as the ctor for these objects does some adjustments on the position based on direction to move the object out slightly from what it is attached to, and this just overwrites it + } + else + { + // For everything else, set position + e->absMoveTo(x, y, z, yRot, xRot); + } + e->entityId = packet->id; + level->putEntity(packet->id, e); + m_trackedEntityIds.insert(packet->id); + + if (packet->data > -1) // 4J - changed "no data" value to be -1, we can have a valid entity id of 0 + { + + if (packet->type == AddEntityPacket::ARROW) + { + shared_ptr owner = getEntity(packet->data); + + // 4J - check all local players to find match + if( owner == nullptr ) + { + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( minecraft->localplayers[i] ) + { + if( minecraft->localplayers[i]->entityId == packet->data ) + { + owner = minecraft->localplayers[i]; + break; + } + } + } + } + + if ( owner != nullptr && owner->instanceof(eTYPE_LIVINGENTITY) ) + { + dynamic_pointer_cast(e)->owner = dynamic_pointer_cast(owner); + } + } + + e->lerpMotion(packet->xa / 8000.0, packet->ya / 8000.0, packet->za / 8000.0); + } + + // 4J: Check our deferred entity link packets + checkDeferredEntityLinkPackets(e->entityId); + } +} + +void ClientConnection::handleAddExperienceOrb(shared_ptr packet) +{ + shared_ptr e = std::make_shared(level, packet->x / 32.0, packet->y / 32.0, packet->z / 32.0, packet->value); + e->xp = packet->x; + e->yp = packet->y; + e->zp = packet->z; + e->yRot = 0; + e->xRot = 0; + e->entityId = packet->id; + level->putEntity(packet->id, e); + m_trackedEntityIds.insert(packet->id); +} + +void ClientConnection::handleAddGlobalEntity(shared_ptr packet) +{ + if (!isPrimaryConnection()) return; + double x = packet->x / 32.0; + double y = packet->y / 32.0; + double z = packet->z / 32.0; + shared_ptr e;// = nullptr; + if (packet->type == AddGlobalEntityPacket::LIGHTNING) e = std::make_shared(level, x, y, z); + if (e != nullptr) + { + e->xp = packet->x; + e->yp = packet->y; + e->zp = packet->z; + e->yRot = 0; + e->xRot = 0; + e->entityId = packet->id; + level->addGlobalEntity(e); + } +} + +void ClientConnection::handleAddPainting(shared_ptr packet) +{ + shared_ptr painting = std::make_shared(level, packet->x, packet->y, packet->z, packet->dir, packet->motive); + level->putEntity(packet->id, painting); + m_trackedEntityIds.insert(packet->id); +} + +void ClientConnection::handleSetEntityMotion(shared_ptr packet) +{ + if (!shouldProcessForEntity(packet->id)) + { + if (minecraft->localplayers[m_userIndex] == NULL || + packet->id != minecraft->localplayers[m_userIndex]->entityId) + return; + } + shared_ptr e = getEntity(packet->id); + if (e == nullptr) return; + e->lerpMotion(packet->xa / 8000.0, packet->ya / 8000.0, packet->za / 8000.0); +} + +void ClientConnection::handleSetEntityData(shared_ptr packet) +{ + shared_ptr e = getEntity(packet->id); + if (e != nullptr && packet->getUnpackedData() != nullptr) + { + e->getEntityData()->assignValues(packet->getUnpackedData()); + } +} + +void ClientConnection::handleAddPlayer(shared_ptr packet) +{ + // Some remote players could actually be local players that are already added + for(unsigned int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + // need to use the XUID here + PlayerUID playerXUIDOnline = INVALID_XUID, playerXUIDOffline = INVALID_XUID; + ProfileManager.GetXUID(idx,&playerXUIDOnline,true); + ProfileManager.GetXUID(idx,&playerXUIDOffline,false); + if( (playerXUIDOnline != INVALID_XUID && ProfileManager.AreXUIDSEqual(playerXUIDOnline,packet->xuid) ) || + (playerXUIDOffline != INVALID_XUID && ProfileManager.AreXUIDSEqual(playerXUIDOffline,packet->xuid) ) ) + { + app.DebugPrintf("AddPlayerPacket received with XUID of local player\n"); + return; + } + } +#ifdef _WINDOWS64 + // Win64 keeps local-player identity separate from network smallId; also guard against creating + // a duplicate remote player for a local slot by checking the username directly. + for (unsigned int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + if (minecraft->localplayers[idx] != nullptr && minecraft->localplayers[idx]->name == packet->name) + { + app.DebugPrintf("AddPlayerPacket received for local player name %ls\n", packet->name.c_str()); + return; + } + } +#endif +/*#ifdef _WINDOWS64 + // On Windows64 all XUIDs are INVALID_XUID so the XUID check above never fires. + // packet->m_playerIndex is the server-assigned sequential index (set via LoginPacket), + // NOT the controller slot — so we must scan all local player slots and match by + // their stored server index rather than using it directly as an array subscript. + for(unsigned int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + if(minecraft->localplayers[idx] != nullptr && + minecraft->localplayers[idx]->getPlayerIndex() == packet->m_playerIndex) + { + app.DebugPrintf("AddPlayerPacket received for local player (controller %d, server index %d), skipping RemotePlayer creation\n", idx, packet->m_playerIndex); + return; + } + } +#endif*/ + + double x = packet->x / 32.0; + double y = packet->y / 32.0; + double z = packet->z / 32.0; + float yRot = packet->yRot * 360 / 256.0f; + float xRot = packet->xRot * 360 / 256.0f; + shared_ptr player = std::make_shared(minecraft->level, packet->name); + player->xo = player->xOld = player->xp = packet->x; + player->yo = player->yOld = player->yp = packet->y; + player->zo = player->zOld = player->zp = packet->z; + player->xRotp = packet->xRot; + player->yRotp = packet->yRot; + player->yHeadRot = packet->yHeadRot * 360 / 256.0f; + player->setXuid(packet->xuid); + +#ifdef _DURANGO + // On Durango request player display name from network manager + INetworkPlayer *networkPlayer = g_NetworkManager.GetPlayerByXuid(player->getXuid()); + if (networkPlayer != nullptr) player->m_displayName = networkPlayer->GetDisplayName(); +#else + // On all other platforms display name is just gamertag so don't check with the network manager + player->m_displayName = player->getName(); +#endif + +#ifdef _WINDOWS64 + { + IQNetPlayer* matchedQNetPlayer = nullptr; + PlayerUID pktXuid = player->getXuid(); + const PlayerUID WIN64_XUID_BASE = (PlayerUID)0xe000d45248242f2e; + // Legacy compatibility path for peers still using embedded smallId XUIDs. + if (pktXuid >= WIN64_XUID_BASE && pktXuid < WIN64_XUID_BASE + MINECRAFT_NET_MAX_PLAYERS) + { + BYTE smallId = (BYTE)(pktXuid - WIN64_XUID_BASE); + INetworkPlayer* np = g_NetworkManager.GetPlayerBySmallId(smallId); + if (np != nullptr) + { + NetworkPlayerXbox* npx = (NetworkPlayerXbox*)np; + matchedQNetPlayer = npx->GetQNetPlayer(); + } + } + + // Current Win64 path: identify QNet player by name and attach packet XUID. + if (matchedQNetPlayer == nullptr) + { + for (int i = 0; i < MINECRAFT_NET_MAX_PLAYERS; ++i) + { + BYTE smallId = static_cast(i); + INetworkPlayer* np = g_NetworkManager.GetPlayerBySmallId(smallId); + if (np == nullptr) + continue; + + NetworkPlayerXbox* npx = (NetworkPlayerXbox*)np; + IQNetPlayer* qp = npx->GetQNetPlayer(); + if (qp != nullptr && _wcsicmp(qp->m_gamertag, packet->name.c_str()) == 0) + { + matchedQNetPlayer = qp; + break; + } + } + } + + if (matchedQNetPlayer != nullptr) + { + // Store packet-authoritative XUID on this network slot so later lookups by XUID + // (e.g. remove player, display mapping) work for both legacy and uid.dat clients. + matchedQNetPlayer->m_resolvedXuid = pktXuid; + if (matchedQNetPlayer->m_gamertag[0] == 0) + { + wcsncpy_s(matchedQNetPlayer->m_gamertag, 32, packet->name.c_str(), _TRUNCATE); + } + } + } +#endif + + // printf("\t\t\t\t%d: Add player\n",packet->id,packet->yRot); + + int item = packet->carriedItem; + if (item == 0) + { + player->inventory->items[player->inventory->selected] = shared_ptr(); // nullptr; + } + else + { + player->inventory->items[player->inventory->selected] = std::make_shared(item, 1, 0); + } + player->absMoveTo(x, y, z, yRot, xRot); + + player->setPlayerIndex( packet->m_playerIndex ); + player->setCustomSkin( packet->m_skinId ); + player->setCustomCape( packet->m_capeId ); + player->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_All, packet->m_uiGamePrivileges); + + if (!player->customTextureUrl.empty() && player->customTextureUrl.substr(0, 3).compare(L"def") != 0 && !app.IsFileInMemoryTextures(player->customTextureUrl)) + { + if (minecraft->addPendingClientTextureRequest(player->customTextureUrl)) + { + app.DebugPrintf("Client sending TextureAndGeometryPacket to get custom skin %ls for player %ls\n", player->customTextureUrl.c_str(), player->name.c_str()); + + send(std::make_shared( + player->customTextureUrl, + nullptr, + static_cast(0))); + } + } + else if(!player->customTextureUrl.empty() && app.IsFileInMemoryTextures(player->customTextureUrl)) + { + // Update the ref count on the memory texture data + app.AddMemoryTextureFile(player->customTextureUrl,nullptr,0); + } + + app.DebugPrintf("Custom skin for player %ls is %ls\n",player->name.c_str(),player->customTextureUrl.c_str()); + + if(!player->customTextureUrl2.empty() && player->customTextureUrl2.substr(0,3).compare(L"def") != 0 && !app.IsFileInMemoryTextures(player->customTextureUrl2)) + { + if( minecraft->addPendingClientTextureRequest(player->customTextureUrl2) ) + { + app.DebugPrintf("Client sending texture packet to get custom cape %ls for player %ls\n",player->customTextureUrl2.c_str(), player->name.c_str()); + send(std::make_shared( + player->customTextureUrl2, + nullptr, + static_cast(0) + )); + } + } + else if(!player->customTextureUrl2.empty() && app.IsFileInMemoryTextures(player->customTextureUrl2)) + { + // Update the ref count on the memory texture data + app.AddMemoryTextureFile(player->customTextureUrl2,nullptr,0); + } + + app.DebugPrintf("Custom cape for player %ls is %ls\n",player->name.c_str(),player->customTextureUrl2.c_str()); + + level->putEntity(packet->id, player); + m_trackedEntityIds.insert(packet->id); + + vector > *unpackedData = packet->getUnpackedData(); + if (unpackedData != nullptr) + { + player->getEntityData()->assignValues(unpackedData); + } + +} + +void ClientConnection::handleTeleportEntity(shared_ptr packet) +{ + shared_ptr e = getEntity(packet->id); + if (e == nullptr) return; + e->xp = packet->x; + e->yp = packet->y; + e->zp = packet->z; + double x = e->xp / 32.0; + double y = e->yp / 32.0 + 1 / 64.0f; + double z = e->zp / 32.0; + // 4J - make sure xRot stays within -90 -> 90 range + int ixRot = packet->xRot; + if( ixRot >= 128 ) ixRot -= 256; + float yRot = packet->yRot * 360 / 256.0f; + float xRot = ixRot * 360 / 256.0f; + e->yRotp = packet->yRot; + e->xRotp = ixRot; + +// printf("\t\t\t\t%d: Teleport to %d (lerp to %f)\n",packet->id,packet->yRot,yRot); + e->lerpTo(x, y, z, yRot, xRot, 3); +} + +void ClientConnection::handleSetCarriedItem(shared_ptr packet) +{ + if (packet->slot >= 0 && packet->slot < Inventory::getSelectionSize()) { + Minecraft::GetInstance()->localplayers[m_userIndex].get()->inventory->selected = packet->slot; + } +} + +void ClientConnection::handleMoveEntity(shared_ptr packet) +{ + if (!shouldProcessForEntity(packet->id)) return; + shared_ptr e = getEntity(packet->id); + if (e == nullptr) return; + e->xp += packet->xa; + e->yp += packet->ya; + e->zp += packet->za; + double x = e->xp / 32.0; + // 4J - The original code did not add the 1/64.0f like the teleport above did, which caused minecarts to fall through the ground + double y = e->yp / 32.0 + 1 / 64.0f; + double z = e->zp / 32.0; + // 4J - have changed rotation to be relative here too + e->yRotp += packet->yRot; + e->xRotp += packet->xRot; + float yRot = ( e->yRotp * 360 ) / 256.0f; + float xRot = ( e->xRotp * 360 ) / 256.0f; +// float yRot = packet->hasRot ? packet->yRot * 360 / 256.0f : e->yRot; +// float xRot = packet->hasRot ? packet->xRot * 360 / 256.0f : e->xRot; + e->lerpTo(x, y, z, yRot, xRot, 3); +} + +void ClientConnection::handleRotateMob(shared_ptr packet) +{ + shared_ptr e = getEntity(packet->id); + if (e == nullptr) return; + float yHeadRot = packet->yHeadRot * 360 / 256.f; + e->setYHeadRot(yHeadRot); +} + +void ClientConnection::handleMoveEntitySmall(shared_ptr packet) +{ + if (!shouldProcessForEntity(packet->id)) return; + shared_ptr e = getEntity(packet->id); + if (e == nullptr) return; + e->xp += packet->xa; + e->yp += packet->ya; + e->zp += packet->za; + double x = e->xp / 32.0; + // 4J - The original code did not add the 1/64.0f like the teleport above did, which caused minecarts to fall through the ground + double y = e->yp / 32.0 + 1 / 64.0f; + double z = e->zp / 32.0; + // 4J - have changed rotation to be relative here too + e->yRotp += packet->yRot; + e->xRotp += packet->xRot; + float yRot = ( e->yRotp * 360 ) / 256.0f; + float xRot = ( e->xRotp * 360 ) / 256.0f; +// float yRot = packet->hasRot ? packet->yRot * 360 / 256.0f : e->yRot; +// float xRot = packet->hasRot ? packet->xRot * 360 / 256.0f : e->xRot; + e->lerpTo(x, y, z, yRot, xRot, 3); +} + +void ClientConnection::handleRemoveEntity(shared_ptr packet) +{ +#ifdef _WINDOWS64 + if (!g_NetworkManager.IsHost()) + { + for (int i = 0; i < packet->ids.length; i++) + { + shared_ptr entity = getEntity(packet->ids[i]); + if (entity != nullptr && entity->GetType() == eTYPE_PLAYER) + { + shared_ptr player = dynamic_pointer_cast(entity); + if (player != nullptr) + { + PlayerUID xuid = player->getXuid(); + INetworkPlayer* np = g_NetworkManager.GetPlayerByXuid(xuid); + if (np != nullptr) + { + NetworkPlayerXbox* npx = (NetworkPlayerXbox*)np; + IQNetPlayer* qp = npx->GetQNetPlayer(); + if (qp != nullptr) + { + extern CPlatformNetworkManagerStub* g_pPlatformNetworkManager; + g_pPlatformNetworkManager->NotifyPlayerLeaving(qp); + qp->m_smallId = 0; + qp->m_isRemote = false; + qp->m_isHostPlayer = false; + // Clear resolved id to avoid stale XUID -> player matches after disconnect. + qp->m_resolvedXuid = INVALID_XUID; + qp->m_gamertag[0] = 0; + qp->SetCustomDataValue(0); + } + } + } + } + } + } +#endif + for (int i = 0; i < packet->ids.length; i++) + { + m_trackedEntityIds.erase(packet->ids[i]); + level->removeEntity(packet->ids[i]); + } +} + +void ClientConnection::handleMovePlayer(shared_ptr packet) +{ + shared_ptr player = minecraft->localplayers[m_userIndex]; //minecraft->player; + + double x = player->x; + double y = player->y; + double z = player->z; + float yRot = player->yRot; + float xRot = player->xRot; + + if (packet->hasPos) + { + x = packet->x; + y = packet->y; + z = packet->z; + } + if (packet->hasRot) + { + yRot = packet->yRot; + xRot = packet->xRot; + } + + player->ySlideOffset = 0; + player->xd = player->yd = player->zd = 0; + player->absMoveTo(x, y, z, yRot, xRot); + packet->x = player->x; + packet->y = player->bb->y0; + packet->z = player->z; + packet->yView = player->y; + connection->send(packet); + if (!started) + { + player->xo = player->x; + player->yo = player->y; + player->zo = player->z; + // 4J - added setting xOld/yOld/zOld here too, as otherwise at the start of the game we interpolate the player position from the origin to wherever its first position really is + player->xOld = player->x; + player->yOld = player->y; + player->zOld = player->z; + + started = true; + minecraft->setScreen(nullptr); + + // Fix for #105852 - TU12: Content: Gameplay: Local splitscreen Players are spawned at incorrect places after re-joining previously saved and loaded "Mass Effect World". + // Move this check from Minecraft::createExtraLocalPlayer + // 4J-PB - can't call this when this function is called from the qnet thread (GetGameStarted will be false) + } + +} + +// 4J Added +void ClientConnection::handleChunkVisibilityArea(shared_ptr packet) +{ + if (level == NULL) return; + for(int z = packet->m_minZ; z <= packet->m_maxZ; ++z) + { + for(int x = packet->m_minX; x <= packet->m_maxX; ++x) + { + m_visibleChunks.insert(chunkKey(x, z)); + level->setChunkVisible(x, z, true); + } + } +} + +void ClientConnection::handleChunkVisibility(shared_ptr packet) +{ + if (level == NULL) return; + if (packet->visible) + { + m_visibleChunks.insert(chunkKey(packet->x, packet->z)); + level->setChunkVisible(packet->x, packet->z, true); + } + else + { + m_visibleChunks.erase(chunkKey(packet->x, packet->z)); + if (!anyOtherConnectionHasChunk(packet->x, packet->z)) + { + level->setChunkVisible(packet->x, packet->z, false); + } + } +} + +void ClientConnection::handleChunkTilesUpdate(shared_ptr packet) +{ + // 4J - changed to encode level in packet + MultiPlayerLevel *dimensionLevel = (MultiPlayerLevel *)minecraft->levels[packet->levelIdx]; + if( dimensionLevel ) + { + PIXBeginNamedEvent(0,"Handle chunk tiles update"); + LevelChunk *lc = dimensionLevel->getChunk(packet->xc, packet->zc); + int xo = packet->xc * 16; + int zo = packet->zc * 16; + // 4J Stu - Unshare before we make any changes incase the server is already another step ahead of us + // Fix for #7904 - Gameplay: Players can dupe torches by throwing them repeatedly into water. + // This is quite expensive to do, so only consider unsharing if this tile setting is going to actually + // change something + bool forcedUnshare = false; + for (int i = 0; i < packet->count; i++) + { + int pos = packet->positions[i]; + int tile = packet->blocks[i] & 0xff; + int data = packet->data[i]; + + + int x = (pos >> 12) & 15; + int z = (pos >> 8) & 15; + int y = ((pos) & 255); + + // If this is going to actually change a tile, we'll need to unshare + int prevTile = lc->getTile(x, y, z); + if( ( tile != prevTile && !forcedUnshare ) ) + { + PIXBeginNamedEvent(0,"Chunk data unsharing\n"); + dimensionLevel->unshareChunkAt(xo,zo); + PIXEndNamedEvent(); + forcedUnshare = true; + } + + // 4J - Changes now that lighting is done at the client side of things... + // Note - the java version now calls the doSetTileAndData method from the level here rather than the levelchunk, which ultimately ends up + // calling checkLight for the altered tile. For us this doesn't always work as when sharing tile data between a local server & client, the + // tile might not be considered to be being changed on the client as the server already has changed the shared data, and so the checkLight + // doesn't happen. Hence doing an explicit checkLight here instead. + lc->setTileAndData(x, y, z, tile, data); + dimensionLevel->checkLight(x + xo, y, z + zo); + + dimensionLevel->clearResetRegion(x + xo, y, z + zo, x + xo, y, z + zo); + + // Don't bother setting this to dirty if it isn't going to visually change - we get a lot of + // water changing from static to dynamic for instance + if(!( ( ( prevTile == Tile::water_Id ) && ( tile == Tile::calmWater_Id ) ) || + ( ( prevTile == Tile::calmWater_Id ) && ( tile == Tile::water_Id ) ) || + ( ( prevTile == Tile::lava_Id ) && ( tile == Tile::calmLava_Id ) ) || + ( ( prevTile == Tile::calmLava_Id ) && ( tile == Tile::calmLava_Id ) ) || + ( ( prevTile == Tile::calmLava_Id ) && ( tile == Tile::lava_Id ) ) ) ) + { + dimensionLevel->setTilesDirty(x + xo, y, z + zo, x + xo, y, z + zo); + } + + // 4J - remove any tite entities in this region which are associated with a tile that is now no longer a tile entity. Without doing this we end up with stray + // tile entities kicking round, which leads to a bug where chests can't be properly placed again in a location after (say) a chest being removed by TNT + dimensionLevel->removeUnusedTileEntitiesInRegion(xo + x, y, zo + z, xo + x+1, y+1, zo + z+1); + } + PIXBeginNamedEvent(0,"Chunk data sharing\n"); + dimensionLevel->shareChunkAt(xo,zo); // 4J - added - only shares if chunks are same on server & client + PIXEndNamedEvent(); + + PIXEndNamedEvent(); + } +} + +void ClientConnection::handleBlockRegionUpdate(shared_ptr packet) +{ + // 4J - changed to encode level in packet + MultiPlayerLevel *dimensionLevel = (MultiPlayerLevel *)minecraft->levels[packet->levelIdx]; + if( dimensionLevel ) + { + PIXBeginNamedEvent(0,"Handle block region update"); + + if(packet->bIsFullChunk && packet->ys == 0) + { + app.DebugPrintf("[BRUP-CLIENT] *** EMPTY FULL CHUNK received at (%d,%d)! Buffer length=%d\n", + packet->x>>4, packet->z>>4, packet->buffer.length); + } + + int y1 = packet->y + packet->ys; + if(packet->bIsFullChunk) + { + y1 = Level::maxBuildHeight; + + // Ensure the chunk exists in the cache before writing data. + // The ChunkVisibilityAreaPacket that creates chunks can arrive AFTER the first BRUP, + // causing getChunk() to return EmptyLevelChunk (whose setBlocksAndData is a no-op). + dimensionLevel->setChunkVisible(packet->x >> 4, packet->z >> 4, true); + + if(packet->buffer.length > 0) + { + PIXBeginNamedEvent(0, "Reordering to XZY"); + LevelChunk::reorderBlocksAndDataToXZY(packet->y, packet->xs, packet->ys, packet->zs, &packet->buffer); + PIXEndNamedEvent(); + } + } + PIXBeginNamedEvent(0,"Clear rest region"); + dimensionLevel->clearResetRegion(packet->x, packet->y, packet->z, packet->x + packet->xs - 1, y1 - 1, packet->z + packet->zs - 1); + PIXEndNamedEvent(); + + PIXBeginNamedEvent(0,"setBlocksAndData"); + // Only full chunks send lighting information now - added flag to end of this call + dimensionLevel->setBlocksAndData(packet->x, packet->y, packet->z, packet->xs, packet->ys, packet->zs, packet->buffer, packet->bIsFullChunk); + PIXEndNamedEvent(); + +// OutputDebugString("END BRU\n"); + + PIXBeginNamedEvent(0,"removeUnusedTileEntitiesInRegion"); + // 4J - remove any tite entities in this region which are associated with a tile that is now no longer a tile entity. Without doing this we end up with stray + // tile entities kicking round, which leads to a bug where chests can't be properly placed again in a location after (say) a chest being removed by TNT + dimensionLevel->removeUnusedTileEntitiesInRegion(packet->x, packet->y, packet->z, packet->x + packet->xs, y1, packet->z + packet->zs ); + PIXEndNamedEvent(); + + // If this is a full packet for a chunk, make sure that the cache now considers that it has data for this chunk - this is used to determine whether to bother + // rendering mobs or not, so we don't have them in crazy positions before the data is there + if( packet->bIsFullChunk ) + { + PIXBeginNamedEvent(0,"dateReceivedForChunk"); + dimensionLevel->dataReceivedForChunk( packet->x >> 4, packet->z >> 4 ); + PIXEndNamedEvent(); + } + PIXEndNamedEvent(); + } +} + +void ClientConnection::handleTileUpdate(shared_ptr packet) +{ + // 4J added - using a block of 255 to signify that this is a packet for destroying a tile, where we need to inform the level renderer that we are about to do so. + // This is used in creative mode as the point where a tile is first destroyed at the client end of things. Packets formed like this are potentially sent from + // ServerPlayerGameMode::destroyBlock + bool destroyTilePacket = false; + if( packet->block == 255 ) + { + packet->block = 0; + destroyTilePacket = true; + } + // 4J - changed to encode level in packet + MultiPlayerLevel *dimensionLevel = (MultiPlayerLevel *)minecraft->levels[packet->levelIdx]; + if( dimensionLevel ) + { + PIXBeginNamedEvent(0,"Handle tile update"); + + if( g_NetworkManager.IsHost() ) + { + // 4J Stu - Unshare before we make any changes incase the server is already another step ahead of us + // Fix for #7904 - Gameplay: Players can dupe torches by throwing them repeatedly into water. + // This is quite expensive to do, so only consider unsharing if this tile setting is going to actually + // change something + int prevTile = dimensionLevel->getTile(packet->x, packet->y, packet->z); + int prevData = dimensionLevel->getData(packet->x, packet->y, packet->z); + if( packet->block != prevTile || packet->data != prevData ) + { + PIXBeginNamedEvent(0,"Chunk data unsharing\n"); + dimensionLevel->unshareChunkAt(packet->x,packet->z); + PIXEndNamedEvent(); + } + } + + // 4J - In creative mode, we don't update the tile locally then get it confirmed by the server - the first point that we know we are about to destroy a tile is here. Let + // the rendering side of thing know so we can synchronise collision with async render data upates. + if( destroyTilePacket ) + { + minecraft->levelRenderer->destroyedTileManager->destroyingTileAt(dimensionLevel, packet->x, packet->y, packet->z); + } + + PIXBeginNamedEvent(0,"Setting data\n"); + bool tileWasSet = dimensionLevel->doSetTileAndData(packet->x, packet->y, packet->z, packet->block, packet->data); + + PIXEndNamedEvent(); + + // 4J - remove any tite entities in this region which are associated with a tile that is now no longer a tile entity. Without doing this we end up with stray + // tile entities kicking round, which leads to a bug where chests can't be properly placed again in a location after (say) a chest being removed by TNT + dimensionLevel->removeUnusedTileEntitiesInRegion(packet->x, packet->y, packet->z, packet->x+1, packet->y+1, packet->z+1 ); + + PIXBeginNamedEvent(0,"Sharing data\n"); + dimensionLevel->shareChunkAt(packet->x,packet->z); // 4J - added - only shares if chunks are same on server & client + PIXEndNamedEvent(); + + PIXEndNamedEvent(); + } +} + +void ClientConnection::handleDisconnect(shared_ptr packet) +{ + connection->close(DisconnectPacket::eDisconnect_Kicked); + done = true; + + Minecraft *pMinecraft = Minecraft::GetInstance(); + pMinecraft->connectionDisconnected( m_userIndex , packet->reason ); + app.SetDisconnectReason( packet->reason ); + + app.SetAction(m_userIndex,eAppAction_ExitWorld,(void *)TRUE); + //minecraft->setLevel(nullptr); + //minecraft->setScreen(new DisconnectedScreen(L"disconnect.disconnected", L"disconnect.genericReason", &packet->reason)); + +} + +void ClientConnection::onDisconnect(DisconnectPacket::eDisconnectReason reason, void *reasonObjects) +{ + if (done) return; + done = true; + + Minecraft *pMinecraft = Minecraft::GetInstance(); + pMinecraft->connectionDisconnected( m_userIndex , reason ); + + // 4J Stu - TU-1 hotfix + // Fix for #13191 - The host of a game can get a message informing them that the connection to the server has been lost + // In the (now unlikely) event that the host connections times out, allow the player to save their game + if(g_NetworkManager.IsHost() && + (reason == DisconnectPacket::eDisconnect_TimeOut || reason == DisconnectPacket::eDisconnect_Overflow) && + m_userIndex == ProfileManager.GetPrimaryPad() && + !MinecraftServer::saveOnExitAnswered() ) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + } + else + { + app.SetAction(m_userIndex,eAppAction_ExitWorld,(void *)TRUE); + } + + //minecraft->setLevel(nullptr); + //minecraft->setScreen(new DisconnectedScreen(L"disconnect.lost", reason, reasonObjects)); +} + +void ClientConnection::sendAndDisconnect(shared_ptr packet) +{ + if (done) return; + connection->send(packet); + connection->sendAndQuit(); +} + +void ClientConnection::send(shared_ptr packet) +{ + if (done) return; + connection->send(packet); +} + +void ClientConnection::handleTakeItemEntity(shared_ptr packet) +{ + if (!shouldProcessForEntity(packet->itemId)) return; + shared_ptr from = getEntity(packet->itemId); + shared_ptr to = dynamic_pointer_cast(getEntity(packet->playerId)); + + // 4J - the original game could assume that if getEntity didn't find the player, it must be the local player. We + // need to search all local players + bool isLocalPlayer = false; + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( minecraft->localplayers[i] ) + { + if( minecraft->localplayers[i]->entityId == packet->playerId ) + { + isLocalPlayer = true; + to = minecraft->localplayers[i]; + break; + } + } + } + + if (to == nullptr) + { + // Don't know if this should ever really happen, but seems safest to try and remove the entity that has been collected even if we can't + // create a particle as we don't know what really collected it + level->removeEntity(packet->itemId); + return; + } + + if (from != nullptr) + { + // If this is a local player, then we only want to do processing for it if this connection is associated with the player it is for. In + // particular, we don't want to remove the item entity until we are processing it for the right connection, or else we won't have a valid + // "from" reference if we've already removed the item for an earlier processed connection + if( isLocalPlayer ) + { + shared_ptr player = dynamic_pointer_cast(to); + + // 4J Stu - Fix for #10213 - UI: Local clients cannot progress through the tutorial normally. + // We only send this packet once if many local players can see the event, so make sure we update + // the tutorial for the player that actually picked up the item + int playerPad = player->GetXboxPad(); + + if( minecraft->localgameModes[playerPad] != nullptr ) + { + // 4J-PB - add in the XP orb sound + if(from->GetType() == eTYPE_EXPERIENCEORB) + { + float fPitch=((random->nextFloat() - random->nextFloat()) * 0.7f + 1.0f) * 2.0f; + app.DebugPrintf("XP Orb with pitch %f\n",fPitch); + level->playSound(from, eSoundType_RANDOM_ORB, 0.2f, fPitch); + } + else + { + level->playSound(from, eSoundType_RANDOM_POP, 0.2f, ((random->nextFloat() - random->nextFloat()) * 0.7f + 1.0f) * 2.0f); + } + + minecraft->particleEngine->add(std::make_shared(minecraft->level, from, to, -0.5f)); + level->removeEntity(packet->itemId); + } + else + { + // Don't know if this should ever really happen, but seems safest to try and remove the entity that has been collected even if it + // somehow isn't an itementity + level->removeEntity(packet->itemId); + } + } + else + { + level->playSound(from, eSoundType_RANDOM_POP, 0.2f, ((random->nextFloat() - random->nextFloat()) * 0.7f + 1.0f) * 2.0f); + minecraft->particleEngine->add(std::make_shared(minecraft->level, from, to, -0.5f)); + level->removeEntity(packet->itemId); + } + } + +} + +void ClientConnection::handleChat(shared_ptr packet) +{ + wstring message; + int iPos; + bool displayOnGui = true; + + bool replacePlayer = false; + bool replaceEntitySource = false; + bool replaceItem = false; + + wstring playerDisplayName = L""; + wstring sourceDisplayName = L""; + + // On platforms other than Xbox One this just sets display name to gamertag + if (packet->m_stringArgs.size() >= 1) playerDisplayName = GetDisplayNameByGamertag(packet->m_stringArgs[0]); + if (packet->m_stringArgs.size() >= 2) sourceDisplayName = GetDisplayNameByGamertag(packet->m_stringArgs[1]); + + switch(packet->m_messageType) + { + case ChatPacket::e_ChatCustom: + message = (packet->m_stringArgs.size() >= 1) ? packet->m_stringArgs[0] : L""; + break; + case ChatPacket::e_ChatBedOccupied: + message = app.GetString(IDS_TILE_BED_OCCUPIED); + break; + case ChatPacket::e_ChatBedNoSleep: + message = app.GetString(IDS_TILE_BED_NO_SLEEP); + break; + case ChatPacket::e_ChatBedNotValid: + message = app.GetString(IDS_TILE_BED_NOT_VALID); + break; + case ChatPacket::e_ChatBedNotSafe: + message = app.GetString(IDS_TILE_BED_NOTSAFE); + break; + case ChatPacket::e_ChatBedPlayerSleep: + message=app.GetString(IDS_TILE_BED_PLAYERSLEEP); + iPos=message.find(L"%s"); + message.replace(iPos,2,playerDisplayName); + break; + case ChatPacket::e_ChatBedMeSleep: + message=app.GetString(IDS_TILE_BED_MESLEEP); + break; + case ChatPacket::e_ChatPlayerJoinedGame: + message=app.GetString(IDS_PLAYER_JOINED); + iPos=message.find(L"%s"); + message.replace(iPos,2,playerDisplayName); + break; + case ChatPacket::e_ChatPlayerLeftGame: + message=app.GetString(IDS_PLAYER_LEFT); + iPos=message.find(L"%s"); + message.replace(iPos,2,playerDisplayName); + break; + case ChatPacket::e_ChatPlayerKickedFromGame: + message=app.GetString(IDS_PLAYER_KICKED); + iPos=message.find(L"%s"); + message.replace(iPos,2,playerDisplayName); + break; + case ChatPacket::e_ChatCannotPlaceLava: + displayOnGui = false; + app.SetGlobalXuiAction(eAppAction_DisplayLavaMessage); + break; + case ChatPacket::e_ChatDeathInFire: + message=app.GetString(IDS_DEATH_INFIRE); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathOnFire: + message=app.GetString(IDS_DEATH_ONFIRE); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathLava: + message=app.GetString(IDS_DEATH_LAVA); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathInWall: + message=app.GetString(IDS_DEATH_INWALL); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathDrown: + message=app.GetString(IDS_DEATH_DROWN); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathStarve: + message=app.GetString(IDS_DEATH_STARVE); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathCactus: + message=app.GetString(IDS_DEATH_CACTUS); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathFall: + message=app.GetString(IDS_DEATH_FALL); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathOutOfWorld: + message=app.GetString(IDS_DEATH_OUTOFWORLD); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathGeneric: + message=app.GetString(IDS_DEATH_GENERIC); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathExplosion: + message=app.GetString(IDS_DEATH_EXPLOSION); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathMagic: + message=app.GetString(IDS_DEATH_MAGIC); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathAnvil: + message=app.GetString(IDS_DEATH_FALLING_ANVIL); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathFallingBlock: + message=app.GetString(IDS_DEATH_FALLING_TILE); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathDragonBreath: + message=app.GetString(IDS_DEATH_DRAGON_BREATH); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathMob: + message=app.GetString(IDS_DEATH_MOB); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathPlayer: + message=app.GetString(IDS_DEATH_PLAYER); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathArrow: + message=app.GetString(IDS_DEATH_ARROW); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathFireball: + message=app.GetString(IDS_DEATH_FIREBALL); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathThrown: + message=app.GetString(IDS_DEATH_THROWN); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathIndirectMagic: + message=app.GetString(IDS_DEATH_INDIRECT_MAGIC); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathThorns: + message=app.GetString(IDS_DEATH_THORNS); + replacePlayer = true; + replaceEntitySource = true; + break; + + + case ChatPacket::e_ChatDeathFellAccidentLadder: + message=app.GetString(IDS_DEATH_FELL_ACCIDENT_LADDER); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathFellAccidentVines: + message=app.GetString(IDS_DEATH_FELL_ACCIDENT_VINES); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathFellAccidentWater: + message=app.GetString(IDS_DEATH_FELL_ACCIDENT_WATER); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathFellAccidentGeneric: + message=app.GetString(IDS_DEATH_FELL_ACCIDENT_GENERIC); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathFellKiller: + //message=app.GetString(IDS_DEATH_FELL_KILLER); + //replacePlayer = true; + //replaceEntitySource = true; + + // 4J Stu - The correct string for here, IDS_DEATH_FELL_KILLER is incorrect. We can't change localisation, so use a different string for now + message=app.GetString(IDS_DEATH_FALL); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathFellAssist: + message=app.GetString(IDS_DEATH_FELL_ASSIST); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathFellAssistItem: + message=app.GetString(IDS_DEATH_FELL_ASSIST_ITEM); + replacePlayer = true; + replaceEntitySource = true; + replaceItem = true; + break; + case ChatPacket::e_ChatDeathFellFinish: + message=app.GetString(IDS_DEATH_FELL_FINISH); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathFellFinishItem: + message=app.GetString(IDS_DEATH_FELL_FINISH_ITEM); + replacePlayer = true; + replaceEntitySource = true; + replaceItem = true; + break; + case ChatPacket::e_ChatDeathInFirePlayer: + message=app.GetString(IDS_DEATH_INFIRE_PLAYER); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathOnFirePlayer: + message=app.GetString(IDS_DEATH_ONFIRE_PLAYER); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathLavaPlayer: + message=app.GetString(IDS_DEATH_LAVA_PLAYER); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathDrownPlayer: + message=app.GetString(IDS_DEATH_DROWN_PLAYER); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathCactusPlayer: + message=app.GetString(IDS_DEATH_CACTUS_PLAYER); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathExplosionPlayer: + message=app.GetString(IDS_DEATH_EXPLOSION_PLAYER); + replacePlayer = true; + replaceEntitySource = true; + break; + case ChatPacket::e_ChatDeathWither: + message=app.GetString(IDS_DEATH_WITHER); + replacePlayer = true; + break; + case ChatPacket::e_ChatDeathPlayerItem: + message=app.GetString(IDS_DEATH_PLAYER_ITEM); + replacePlayer = true; + replaceEntitySource = true; + replaceItem = true; + break; + case ChatPacket::e_ChatDeathArrowItem: + message=app.GetString(IDS_DEATH_ARROW_ITEM); + replacePlayer = true; + replaceEntitySource = true; + replaceItem = true; + break; + case ChatPacket::e_ChatDeathFireballItem: + message=app.GetString(IDS_DEATH_FIREBALL_ITEM); + replacePlayer = true; + replaceEntitySource = true; + replaceItem = true; + break; + case ChatPacket::e_ChatDeathThrownItem: + message=app.GetString(IDS_DEATH_THROWN_ITEM); + replacePlayer = true; + replaceEntitySource = true; + replaceItem = true; + break; + case ChatPacket::e_ChatDeathIndirectMagicItem: + message=app.GetString(IDS_DEATH_INDIRECT_MAGIC_ITEM); + replacePlayer = true; + replaceEntitySource = true; + replaceItem = true; + break; + + case ChatPacket::e_ChatPlayerEnteredEnd: + message=app.GetString(IDS_PLAYER_ENTERED_END); + iPos=message.find(L"%s"); + message.replace(iPos,2,playerDisplayName); + break; + case ChatPacket::e_ChatPlayerLeftEnd: + message=app.GetString(IDS_PLAYER_LEFT_END); + iPos=message.find(L"%s"); + message.replace(iPos,2,playerDisplayName); + break; + + case ChatPacket::e_ChatPlayerMaxEnemies: + message=app.GetString(IDS_MAX_ENEMIES_SPAWNED); + break; + // Spawn eggs + case ChatPacket::e_ChatPlayerMaxVillagers: + message=app.GetString(IDS_MAX_VILLAGERS_SPAWNED); + break; + case ChatPacket::e_ChatPlayerMaxPigsSheepCows: + message=app.GetString(IDS_MAX_PIGS_SHEEP_COWS_CATS_SPAWNED); + break; + case ChatPacket::e_ChatPlayerMaxChickens: + message=app.GetString(IDS_MAX_CHICKENS_SPAWNED); + break; + case ChatPacket::e_ChatPlayerMaxSquid: + message=app.GetString(IDS_MAX_SQUID_SPAWNED); + break; + case ChatPacket::e_ChatPlayerMaxMooshrooms: + message=app.GetString(IDS_MAX_MOOSHROOMS_SPAWNED); + break; + case ChatPacket::e_ChatPlayerMaxWolves: + message=app.GetString(IDS_MAX_WOLVES_SPAWNED); + break; + case ChatPacket::e_ChatPlayerMaxBats: + message=app.GetString(IDS_MAX_BATS_SPAWNED); + break; + + // Breeding + case ChatPacket::e_ChatPlayerMaxBredPigsSheepCows: + message=app.GetString(IDS_MAX_PIGS_SHEEP_COWS_CATS_BRED); + break; + case ChatPacket::e_ChatPlayerMaxBredChickens: + message=app.GetString(IDS_MAX_CHICKENS_BRED); + break; + case ChatPacket::e_ChatPlayerMaxBredMooshrooms: + message=app.GetString(IDS_MAX_MUSHROOMCOWS_BRED); + break; + + case ChatPacket::e_ChatPlayerMaxBredWolves: + message=app.GetString(IDS_MAX_WOLVES_BRED); + break; + + // can't shear the mooshroom + case ChatPacket::e_ChatPlayerCantShearMooshroom: + message=app.GetString(IDS_CANT_SHEAR_MOOSHROOM); + break; + + // Paintings/Item Frames + case ChatPacket::e_ChatPlayerMaxHangingEntities: + message=app.GetString(IDS_MAX_HANGINGENTITIES); + break; + // Enemy spawn eggs in peaceful + case ChatPacket::e_ChatPlayerCantSpawnInPeaceful: + message=app.GetString(IDS_CANT_SPAWN_IN_PEACEFUL); + break; + + // Enemy spawn eggs in peaceful + case ChatPacket::e_ChatPlayerMaxBoats: + message=app.GetString(IDS_MAX_BOATS); + break; + + case ChatPacket::e_ChatCommandTeleportSuccess: + message=app.GetString(IDS_COMMAND_TELEPORT_SUCCESS); + replacePlayer = true; + if(packet->m_intArgs[0] == eTYPE_SERVERPLAYER) + { + message = replaceAll(message,L"{*DESTINATION*}", sourceDisplayName); + } + else + { + message = replaceAll(message,L"{*DESTINATION*}", app.getEntityName((eINSTANCEOF)packet->m_intArgs[0])); + } + break; + case ChatPacket::e_ChatCommandTeleportMe: + message=app.GetString(IDS_COMMAND_TELEPORT_ME); + replacePlayer = true; + break; + case ChatPacket::e_ChatCommandTeleportToMe: + message=app.GetString(IDS_COMMAND_TELEPORT_TO_ME); + replacePlayer = true; + break; + + default: + message = playerDisplayName; + break; + } + + + if(replacePlayer) + { + message = replaceAll(message,L"{*PLAYER*}",playerDisplayName); + } + + if(replaceEntitySource) + { + if(packet->m_intArgs[0] == eTYPE_SERVERPLAYER) + { + message = replaceAll(message,L"{*SOURCE*}", sourceDisplayName); + } + else + { + wstring entityName; + + // Check for a custom mob name + if (packet->m_stringArgs.size() >= 2 && !packet->m_stringArgs[1].empty()) + { + entityName = packet->m_stringArgs[1]; + } + else + { + entityName = app.getEntityName((eINSTANCEOF) packet->m_intArgs[0]); + } + + message = replaceAll(message,L"{*SOURCE*}", entityName); + } + } + + if (replaceItem) + { + message = replaceAll(message,L"{*ITEM*}", packet->m_stringArgs[2]); + } + + // flag that a message is a death message + bool bIsDeathMessage = (packet->m_messageType>=ChatPacket::e_ChatDeathInFire) && (packet->m_messageType<=ChatPacket::e_ChatDeathIndirectMagicItem); + +} + +void ClientConnection::handleAnimate(shared_ptr packet) +{ + shared_ptr e = getEntity(packet->id); + if (e == nullptr) return; + if (packet->action == AnimatePacket::SWING) + { + if (e->instanceof(eTYPE_LIVINGENTITY)) dynamic_pointer_cast(e)->swing(); + } + else if (packet->action == AnimatePacket::HURT) + { + e->animateHurt(); + } + else if (packet->action == AnimatePacket::WAKE_UP) + { + if (e->instanceof(eTYPE_PLAYER)) dynamic_pointer_cast(e)->stopSleepInBed(false, false, false); + } + else if (packet->action == AnimatePacket::RESPAWN) + { + } + else if (packet->action == AnimatePacket::CRITICAL_HIT) + { + shared_ptr critParticle = std::make_shared(minecraft->level, e); + critParticle->CritParticlePostConstructor(); + minecraft->particleEngine->add( critParticle ); + } + else if (packet->action == AnimatePacket::MAGIC_CRITICAL_HIT) + { + shared_ptr critParticle = std::make_shared(minecraft->level, e, eParticleType_magicCrit); + critParticle->CritParticlePostConstructor(); + minecraft->particleEngine->add(critParticle); + } + else if ( (packet->action == AnimatePacket::EAT) && e->instanceof(eTYPE_REMOTEPLAYER) ) + { + + } +} + +void ClientConnection::handleEntityActionAtPosition(shared_ptr packet) +{ + shared_ptr e = getEntity(packet->id); + if (e == nullptr) return; + if (packet->action == EntityActionAtPositionPacket::START_SLEEP) + { + shared_ptr player = dynamic_pointer_cast(e); + player->startSleepInBed(packet->x, packet->y, packet->z); + + if( player == minecraft->localplayers[m_userIndex] ) + { + TelemetryManager->RecordEnemyKilledOrOvercome(m_userIndex, 0, player->y, 0, 0, 0, 0, eTelemetryInGame_UseBed); + } + } +} + +void ClientConnection::handlePreLogin(shared_ptr packet) +{ +// printf("Client: handlePreLogin\n"); +#if 1 + // 4J - Check that we can play with all the players already in the game who have Friends-Only UGC set + BOOL canPlay = TRUE; + BOOL canPlayLocal = TRUE; + BOOL isAtLeastOneFriend = g_NetworkManager.IsHost(); + BOOL isFriendsWithHost = TRUE; + BOOL cantPlayContentRestricted = FALSE; + + if(!g_NetworkManager.IsHost()) + { + // set the game host settings + app.SetGameHostOption(eGameHostOption_All,packet->m_serverSettings); + + // 4J-PB - if we go straight in from the menus via an invite, we won't have the DLC info + if(app.GetTMSGlobalFileListRead()==false) + { + app.SetTMSAction(ProfileManager.GetPrimaryPad(),eTMSAction_TMSPP_RetrieveFiles_RunPlayGame); + } + } + +#ifdef _XBOX + if(!g_NetworkManager.IsHost() && !app.GetGameHostOption(eGameHostOption_FriendsOfFriends)) + { + if(m_userIndex == ProfileManager.GetPrimaryPad() ) + { + for(DWORD idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + if(ProfileManager.IsSignedIn(m_userIndex) && ProfileManager.IsGuest(idx)) + { + canPlay = FALSE; + isFriendsWithHost = FALSE; + } + else + { + PlayerUID playerXuid = INVALID_XUID; + if( ProfileManager.IsSignedInLive(idx) ) + { + ProfileManager.GetXUID(idx,&playerXuid,true); + } + if( playerXuid != INVALID_XUID ) + { + // Is this user friends with the host player? + BOOL result; + DWORD error; + error = XUserAreUsersFriends(idx,&packet->m_playerXuids[packet->m_hostIndex],1,&result,nullptr); + if(error == ERROR_SUCCESS && result != TRUE) + { + canPlay = FALSE; + isFriendsWithHost = FALSE; + } + } + } + if(!canPlay) break; + } + } + else + { + if(ProfileManager.IsSignedIn(m_userIndex) && ProfileManager.IsGuest(m_userIndex)) + { + canPlay = FALSE; + isFriendsWithHost = FALSE; + } + else + { + PlayerUID playerXuid = INVALID_XUID; + if( ProfileManager.IsSignedInLive(m_userIndex) ) + { + ProfileManager.GetXUID(m_userIndex,&playerXuid,true); + } + if( playerXuid != INVALID_XUID ) + { + // Is this user friends with the host player? + BOOL result; + DWORD error; + error = XUserAreUsersFriends(m_userIndex,&packet->m_playerXuids[packet->m_hostIndex],1,&result,nullptr); + if(error == ERROR_SUCCESS && result != TRUE) + { + canPlay = FALSE; + isFriendsWithHost = FALSE; + } + } + } + } + } + + if( canPlay ) + { + for(DWORD i = 0; i < packet->m_dwPlayerCount; ++i) + { + bool localPlayer = false; + for(DWORD idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + if( ProfileManager.IsSignedInLive(idx) ) + { + // need to use the XUID here + PlayerUID playerXUID = INVALID_XUID; + if( !ProfileManager.IsGuest( idx ) ) + { + // Guest don't have an offline XUID as they cannot play offline, so use their online one + ProfileManager.GetXUID(idx,&playerXUID,true); + } + if( ProfileManager.AreXUIDSEqual(playerXUID,packet->m_playerXuids[i]) ) localPlayer = true; + } + else if (ProfileManager.IsSignedIn(idx)) + { + // If we aren't signed into live then they have to be a local player + localPlayer = true; + } + } + if(!localPlayer) + { + // First check our own permissions to see if we can play with this player + if(m_userIndex == ProfileManager.GetPrimaryPad() ) + { + canPlayLocal = ProfileManager.CanViewPlayerCreatedContent(m_userIndex,false,&packet->m_playerXuids[i],1); + + // 4J Stu - Everyone joining needs to have at least one friend in the game + // Local players are implied friends + if( isAtLeastOneFriend != TRUE ) + { + BOOL result; + DWORD error; + for(DWORD idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + if( ProfileManager.IsSignedIn(idx) && !ProfileManager.IsGuest(idx) ) + { + error = XUserAreUsersFriends(idx,&packet->m_playerXuids[i],1,&result,nullptr); + if(error == ERROR_SUCCESS && result == TRUE) isAtLeastOneFriend = TRUE; + } + } + } + } + else + { + // Friends with the primary player on this system + isAtLeastOneFriend = true; + + canPlayLocal = ProfileManager.CanViewPlayerCreatedContent(m_userIndex,true,&packet->m_playerXuids[i],1); + } + + // If we can play with them, then check if they can play with us + if( canPlayLocal && ( packet->m_friendsOnlyBits & (1<m_playerXuids[i],1,&result,nullptr); + if(error == ERROR_SUCCESS) canPlay &= result; + } + if(!canPlay) break; + } + } + if(!canPlay || !canPlayLocal) break; + } + } + } +#else + // TODO - handle this kind of things for non-360 platforms + canPlay = TRUE; + canPlayLocal = TRUE; + isAtLeastOneFriend = TRUE; + cantPlayContentRestricted= FALSE; + +#if ( defined __PS3__ || defined __ORBIS__ || defined __PSVITA__) + + if(!g_NetworkManager.IsHost() && !app.GetGameHostOption(eGameHostOption_FriendsOfFriends)) + { + bool bChatRestricted=false; + + ProfileManager.GetChatAndContentRestrictions(m_userIndex,true,&bChatRestricted,nullptr,nullptr); + + // Chat restricted orbis players can still play online +#ifndef __ORBIS__ + canPlay = !bChatRestricted; +#endif + + if(m_userIndex == ProfileManager.GetPrimaryPad() ) + { + // Is this user friends with the host player? + bool isFriend = true; + unsigned int friendCount = 0; +#ifdef __PS3__ + int ret = sceNpBasicGetFriendListEntryCount(&friendCount); +#elif defined __PSVITA__ + sce::Toolkit::NP::Utilities::Future friendList; + int ret = -1; + if(!CGameNetworkManager::usingAdhocMode()) // we don't need to be friends in PSN for adhoc mode + { + int ret = sce::Toolkit::NP::Friends::Interface::getFriendslist(&friendList, false); + if(ret == SCE_TOOLKIT_NP_SUCCESS) + { + if( friendList.hasResult() ) + { + friendCount = friendList.get()->size(); + } + } + } +#else // __ORBIS__ + + sce::Toolkit::NP::Utilities::Future friendList; + + sce::Toolkit::NP::FriendInfoRequest requestParam; + memset(&requestParam,0,sizeof(requestParam)); + requestParam.flag = SCE_TOOLKIT_NP_FRIENDS_LIST_ALL; + requestParam.limit = 0; + requestParam.offset = 0; + requestParam.userInfo.userId = ProfileManager.getUserID(ProfileManager.GetPrimaryPad()); + + int ret = sce::Toolkit::NP::Friends::Interface::getFriendslist(&friendList, &requestParam, false); + if( ret == 0 ) + { + if( friendList.hasResult() ) + { + friendCount = friendList.get()->size(); + } + } +#endif + if( ret == 0 ) + { + isFriend = false; + SceNpId npid; + for( unsigned int i = 0; i < friendCount; i++ ) + { +#ifdef __PS3__ + ret = sceNpBasicGetFriendListEntry( i, &npid ); +#else + npid = friendList.get()->at(i).npid; +#endif + if( ret == 0 ) + { + if(strcmp(npid.handle.data, packet->m_playerXuids[packet->m_hostIndex].getOnlineID()) == 0) + { + isFriend = true; + break; + } + } + } + } + + if( !isFriend ) + { + canPlay = FALSE; + isFriendsWithHost = FALSE; + } + } + } + // is it an online game, and a player has chat restricted? + else if(!g_NetworkManager.IsLocalGame()) + { + // if the player is chat restricted, then they can't play an online game + bool bChatRestricted=false; + bool bContentRestricted=false; + + // If this is a pre-login packet for the first player on the machine, then accumulate up these flags for everyone signed in. We can handle exiting the game + // much more cleanly at this point by exiting the level, rather than waiting for a prelogin packet for the other players, when we have to exit the player + // which seems to be very unstable at the point of starting up the game + if(m_userIndex == ProfileManager.GetPrimaryPad()) + { + ProfileManager.GetChatAndContentRestrictions(m_userIndex,false,&bChatRestricted,&bContentRestricted,nullptr); + } + else + { + ProfileManager.GetChatAndContentRestrictions(m_userIndex,true,&bChatRestricted,&bContentRestricted,nullptr); + } + + // Chat restricted orbis players can still play online +#ifndef __ORBIS__ + canPlayLocal = !bChatRestricted; +#endif + + cantPlayContentRestricted = bContentRestricted ? 1 : 0; + } + + +#endif + +#ifdef _XBOX_ONE + if(!g_NetworkManager.IsHost() && m_userIndex == ProfileManager.GetPrimaryPad()) + { + long long startTime = System::currentTimeMillis(); + + auto friendsXuids = DQRNetworkManager::GetFriends(); + + if (app.GetGameHostOption(eGameHostOption_FriendsOfFriends)) + { + // Check that the user has at least one friend in the game + isAtLeastOneFriend = false; + + for (int i = 0; i < friendsXuids->Size; i++) + { + auto friendsXuid = friendsXuids->GetAt(i); + + // Check this friend against each player, if we find them we have at least one friend + for (int j = 0; j < g_NetworkManager.GetPlayerCount(); j++) + { + Platform::String^ xboxUserId = ref new Platform::String(g_NetworkManager.GetPlayerByIndex(j)->GetUID().toString().data()); + if (friendsXuid == xboxUserId) + { + isAtLeastOneFriend = true; + break; + } + } + } + + app.DebugPrintf("ClientConnection::handlePreLogin: User has at least one friend? %s\n", isAtLeastOneFriend ? "Yes" : "No"); + } + else + { + // Check that the user is friends with the host + bool isFriend = false; + + Platform::String^ hostXboxUserId = ref new Platform::String(g_NetworkManager.GetHostPlayer()->GetUID().toString().data()); + + for (int i = 0; i < friendsXuids->Size; i++) + { + if (friendsXuids->GetAt(i) == hostXboxUserId) + { + isFriend = true; + break; + } + } + + if( !isFriend ) + { + canPlay = FALSE; + isFriendsWithHost = FALSE; + } + + app.DebugPrintf("ClientConnection::handlePreLogin: User is friends with the host? %s\n", isFriendsWithHost ? "Yes" : "No"); + } + + app.DebugPrintf("ClientConnection::handlePreLogin: Friendship checks took %i ms\n", System::currentTimeMillis() - startTime); + } +#endif + +#endif // _XBOX + + if(!canPlay || !canPlayLocal || !isAtLeastOneFriend || cantPlayContentRestricted) + { +#ifndef __PS3__ + DisconnectPacket::eDisconnectReason reason = DisconnectPacket::eDisconnect_NoUGC_Remote; +#else + DisconnectPacket::eDisconnectReason reason = DisconnectPacket::eDisconnect_None; +#endif + if(m_userIndex == ProfileManager.GetPrimaryPad()) + { + if(!isFriendsWithHost) reason = DisconnectPacket::eDisconnect_NotFriendsWithHost; + else if(!isAtLeastOneFriend) reason = DisconnectPacket::eDisconnect_NoFriendsInGame; + else if(!canPlayLocal) reason = DisconnectPacket::eDisconnect_NoUGC_AllLocal; + else if(cantPlayContentRestricted) reason = DisconnectPacket::eDisconnect_ContentRestricted_AllLocal; + + app.DebugPrintf("Exiting world on handling Pre-Login packet due UGC privileges: %d\n", reason); + app.SetDisconnectReason( reason ); + app.SetAction(ProfileManager.GetPrimaryPad(),eAppAction_ExitWorld,(void *)TRUE); + } + else + { + if(!isFriendsWithHost) reason = DisconnectPacket::eDisconnect_NotFriendsWithHost; + else if(!canPlayLocal) reason = DisconnectPacket::eDisconnect_NoUGC_Single_Local; + else if(cantPlayContentRestricted) reason = DisconnectPacket::eDisconnect_ContentRestricted_Single_Local; + + app.DebugPrintf("Exiting player %d on handling Pre-Login packet due UGC privileges: %d\n", m_userIndex, reason); + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + + app.SetDisconnectReason( reason ); + + // 4J-PB - this locks up on the read and write threads not closing down, because they are trying to lock the incoming critsec when it's already locked by this thread +// Minecraft::GetInstance()->connectionDisconnected( m_userIndex , reason ); +// done = true; +// connection->flush(); +// connection->close(reason); +// app.SetAction(m_userIndex,eAppAction_ExitPlayer); + + // 4J-PB - doing this instead + app.SetAction(m_userIndex,eAppAction_ExitPlayerPreLogin); + } + } + else + { + // Texture pack handling + // If we have the texture pack for the game, load it + // If we don't then send a packet to the host to request it. We need to send this before the LoginPacket so that it gets handled first, + // as once the LoginPacket is received on the client the game is close to starting + if(m_userIndex == ProfileManager.GetPrimaryPad()) + { + Minecraft *pMinecraft = Minecraft::GetInstance(); + if( pMinecraft->skins->selectTexturePackById(packet->m_texturePackId) ) + { + app.DebugPrintf("Selected texture pack %d from Pre-Login packet\n", packet->m_texturePackId); + } + else + { + app.DebugPrintf("Could not select texture pack %d from Pre-Login packet, requesting from host\n", packet->m_texturePackId); + + // 4J-PB - we need to upsell the texture pack to the player +#if defined __PS3__ || defined __ORBIS__ || defined __PSVITA__ + app.SetAction(m_userIndex,eAppAction_TexturePackRequired); +#endif + // Let the player go into the game, and we'll check that they are using the right texture pack when in + } + } + + // need to use the XUID here + PlayerUID offlineXUID = INVALID_XUID; + PlayerUID onlineXUID = INVALID_XUID; + if( ProfileManager.IsSignedInLive(m_userIndex) ) + { + // Guest don't have an offline XUID as they cannot play offline, so use their online one + ProfileManager.GetXUID(m_userIndex,&onlineXUID,true); + } +#ifdef __PSVITA__ + if(CGameNetworkManager::usingAdhocMode() && onlineXUID.getOnlineID()[0] == 0) + { + // player doesn't have an online UID, set it from the player name + onlineXUID.setForAdhoc(); + } +#endif + + // On PS3, all non-signed in players (even guests) can get a useful offlineXUID +#if !(defined __PS3__ || defined _DURANGO ) + if( !ProfileManager.IsGuest( m_userIndex ) ) +#endif + { + // All other players we use their offline XUID so that they can play the game offline + ProfileManager.GetXUID(m_userIndex,&offlineXUID,false); + } + BOOL allAllowed, friendsAllowed; + ProfileManager.AllowedPlayerCreatedContent(m_userIndex,true,&allAllowed,&friendsAllowed); + send(std::make_shared(minecraft->user->name, SharedConstants::NETWORK_PROTOCOL_VERSION, offlineXUID, onlineXUID, (allAllowed != TRUE && friendsAllowed == TRUE), + packet->m_ugcPlayersVersion, app.GetPlayerSkinId(m_userIndex), app.GetPlayerCapeId(m_userIndex), ProfileManager.IsGuest(m_userIndex))); + + } +#else + // 4J - removed + if (packet->loginKey.equals("-")) { + send(new LoginPacket(minecraft->user.name, SharedConstants.NETWORK_PROTOCOL_VERSION)); + } else { + try { + URL url = new URL("http://www.minecraft->net/game/joinserver.jsp?user=" + minecraft->user.name + "&sessionId=" + minecraft->user.sessionId + "&serverId=" + packet->loginKey); + BufferedReader br = new BufferedReader(new InputStreamReader(url.openStream())); + String msg = br.readLine(); + br.close(); + + if (msg.equalsIgnoreCase("ok")) { + send(new LoginPacket(minecraft->user.name, SharedConstants.NETWORK_PROTOCOL_VERSION)); + } else { + connection.close("disconnect.loginFailedInfo", msg); + } + } catch (Exception e) { + e.printStackTrace(); + connection.close("disconnect.genericReason", "Internal client error: " + e.toString()); + } + } +#endif +} + +void ClientConnection::close() +{ + // If it's already done, then we don't need to do anything here. And in fact trying to do something could cause a crash + if(done) return; + done = true; + m_trackedEntityIds.clear(); + m_visibleChunks.clear(); + connection->flush(); + connection->close(DisconnectPacket::eDisconnect_Closed); +} + +void ClientConnection::handleAddMob(shared_ptr packet) +{ + double x = packet->x / 32.0; + double y = packet->y / 32.0; + double z = packet->z / 32.0; + float yRot = packet->yRot * 360 / 256.0f; + float xRot = packet->xRot * 360 / 256.0f; + + shared_ptr mob = dynamic_pointer_cast(EntityIO::newById(packet->type, level)); + mob->xp = packet->x; + mob->yp = packet->y; + mob->zp = packet->z; + mob->yHeadRot = packet->yHeadRot * 360 / 256.0f; + mob->yRotp = packet->yRot; + mob->xRotp = packet->xRot; + + vector > *subEntities = mob->getSubEntities(); + if (subEntities) + { + int offs = packet->id - mob->entityId; + for (auto& it : *subEntities ) + { + it->entityId += offs; + } + } + + mob->entityId = packet->id; + +// printf("\t\t\t\t%d: Add mob rot %d\n",packet->id,packet->yRot); + + mob->absMoveTo(x, y, z, yRot, xRot); + mob->xd = packet->xd / 8000.0f; + mob->yd = packet->yd / 8000.0f; + mob->zd = packet->zd / 8000.0f; + level->putEntity(packet->id, mob); + m_trackedEntityIds.insert(packet->id); + + vector > *unpackedData = packet->getUnpackedData(); + if (unpackedData != nullptr) + { + mob->getEntityData()->assignValues(unpackedData); + } + + // Fix for #65236 - TU8: Content: Gameplay: Magma Cubes' have strange hit boxes. + // 4J Stu - Slimes have a different BB depending on their size which is set in the entity data, so update the BB + if(mob->GetType() == eTYPE_SLIME || mob->GetType() == eTYPE_LAVASLIME) + { + shared_ptr slime = dynamic_pointer_cast(mob); + slime->setSize( slime->getSize() ); + } +} + +void ClientConnection::handleSetTime(shared_ptr packet) +{ + minecraft->level->setGameTime(packet->gameTime); + minecraft->level->setDayTime(packet->dayTime); +} + +void ClientConnection::handleSetSpawn(shared_ptr packet) +{ + //minecraft->player->setRespawnPosition(new Pos(packet->x, packet->y, packet->z)); + minecraft->localplayers[m_userIndex]->setRespawnPosition(new Pos(packet->x, packet->y, packet->z), true); + minecraft->level->getLevelData()->setSpawn(packet->x, packet->y, packet->z); + +} + +void ClientConnection::handleEntityLinkPacket(shared_ptr packet) +{ + shared_ptr sourceEntity = getEntity(packet->sourceId); + shared_ptr destEntity = getEntity(packet->destId); + + // 4J: If the destination entity couldn't be found, defer handling of this packet + // This was added to support leashing (the entity link packet is sent before the add entity packet) + if (destEntity == nullptr && packet->destId >= 0) + { + // We don't handle missing source entities because it shouldn't happen + assert(!(sourceEntity == nullptr && packet->sourceId >= 0)); + + deferredEntityLinkPackets.push_back(DeferredEntityLinkPacket(packet)); + return; + } + + if (packet->type == SetEntityLinkPacket::RIDING) + { + bool displayMountMessage = false; + if (packet->sourceId == Minecraft::GetInstance()->localplayers[m_userIndex].get()->entityId) + { + sourceEntity = Minecraft::GetInstance()->localplayers[m_userIndex]; + + if (destEntity != nullptr && destEntity->instanceof(eTYPE_BOAT)) (dynamic_pointer_cast(destEntity))->setDoLerp(false); + + displayMountMessage = (sourceEntity->riding == nullptr && destEntity != nullptr); + } + else if (destEntity != nullptr && destEntity->instanceof(eTYPE_BOAT)) + { + (dynamic_pointer_cast(destEntity))->setDoLerp(true); + } + + if (sourceEntity == nullptr) return; + + sourceEntity->ride(destEntity); + + // 4J TODO: pretty sure this message is a tooltip so not needed + /* + if (displayMountMessage) { + Options options = minecraft.options; + minecraft.gui.setOverlayMessage(I18n.get("mount.onboard", Options.getTranslatedKeyMessage(options.keySneak.key)), false); + } + */ + } + else if (packet->type == SetEntityLinkPacket::LEASH) + { + if ( (sourceEntity != nullptr) && sourceEntity->instanceof(eTYPE_MOB) ) + { + if (destEntity != nullptr) + { + + (dynamic_pointer_cast(sourceEntity))->setLeashedTo(destEntity, false); + } + else + { + (dynamic_pointer_cast(sourceEntity))->dropLeash(false, false); + } + } + } +} + +void ClientConnection::handleEntityEvent(shared_ptr packet) +{ + shared_ptr e = getEntity(packet->entityId); + if (e != nullptr) e->handleEntityEvent(packet->eventId); +} + +shared_ptr ClientConnection::getEntity(int entityId) +{ + //if (entityId == minecraft->player->entityId) + if(entityId == minecraft->localplayers[m_userIndex]->entityId) + { + //return minecraft->player; + return minecraft->localplayers[m_userIndex]; + } + return level->getEntity(entityId); +} + +void ClientConnection::handleSetHealth(shared_ptr packet) +{ + //minecraft->player->hurtTo(packet->health); + minecraft->localplayers[m_userIndex]->hurtTo(packet->health,packet->damageSource); + minecraft->localplayers[m_userIndex]->getFoodData()->setFoodLevel(packet->food); + minecraft->localplayers[m_userIndex]->getFoodData()->setSaturation(packet->saturation); + + // We need food + if(packet->food < FoodConstants::HEAL_LEVEL - 1) + { + } +} + +void ClientConnection::handleSetExperience(shared_ptr packet) +{ + minecraft->localplayers[m_userIndex]->setExperienceValues(packet->experienceProgress, packet->totalExperience, packet->experienceLevel); +} + +void ClientConnection::handleTexture(shared_ptr packet) +{ + // Both PlayerConnection and ClientConnection should handle this mostly the same way + // Server side also needs to store a list of those clients waiting to get a texture the server doesn't have yet + // so that it can send it out to them when it comes in + + if(packet->dwBytes==0) + { + // Request for texture +#ifndef _CONTENT_PACKAGE + wprintf(L"Client received request for custom texture %ls\n",packet->textureName.c_str()); +#endif + PBYTE pbData=nullptr; + DWORD dwBytes=0; + app.GetMemFileDetails(packet->textureName,&pbData,&dwBytes); + + if(dwBytes!=0) + { + send(std::make_shared(packet->textureName, pbData, dwBytes)); + } + } + else + { + // Response with texture data +#ifndef _CONTENT_PACKAGE + wprintf(L"Client received custom texture %ls\n",packet->textureName.c_str()); +#endif + app.AddMemoryTextureFile(packet->textureName,packet->pbData,packet->dwBytes); + Minecraft::GetInstance()->handleClientTextureReceived(packet->textureName); + } +} + +void ClientConnection::handleTextureAndGeometry(shared_ptr packet) +{ + // Both PlayerConnection and ClientConnection should handle this mostly the same way + // Server side also needs to store a list of those clients waiting to get a texture the server doesn't have yet + // so that it can send it out to them when it comes in + + if(packet->dwTextureBytes==0) + { + // Request for texture +#ifndef _CONTENT_PACKAGE + wprintf(L"Client received request for custom texture and geometry %ls\n",packet->textureName.c_str()); +#endif + PBYTE pbData=nullptr; + DWORD dwBytes=0; + app.GetMemFileDetails(packet->textureName,&pbData,&dwBytes); + DLCSkinFile *pDLCSkinFile = app.m_dlcManager.getSkinFile(packet->textureName); + + if(dwBytes!=0) + { + if(pDLCSkinFile) + { + if(pDLCSkinFile->getAdditionalBoxesCount()!=0) + { + send(std::make_shared(packet->textureName, pbData, dwBytes, pDLCSkinFile)); + } + else + { + send(std::make_shared(packet->textureName, pbData, dwBytes)); + } + } + else + { + unsigned int uiAnimOverrideBitmask= app.GetAnimOverrideBitmask(packet->dwSkinID); + + send(std::make_shared(packet->textureName, pbData, dwBytes, app.GetAdditionalSkinBoxes(packet->dwSkinID), uiAnimOverrideBitmask)); + } + } + } + else + { + // Response with texture data +#ifndef _CONTENT_PACKAGE + wprintf(L"Client received custom TextureAndGeometry %ls\n",packet->textureName.c_str()); +#endif + // Add the texture data + app.AddMemoryTextureFile(packet->textureName,packet->pbData,packet->dwTextureBytes); + // Add the geometry data + if(packet->dwBoxC!=0) + { + app.SetAdditionalSkinBoxes(packet->dwSkinID,packet->BoxDataA,packet->dwBoxC); + } + // Add the anim override + app.SetAnimOverrideBitmask(packet->dwSkinID,packet->uiAnimOverrideBitmask); + + // clear out the pending texture request + Minecraft::GetInstance()->handleClientTextureReceived(packet->textureName); + } +} + +void ClientConnection::handleTextureChange(shared_ptr packet) +{ + shared_ptr e = getEntity(packet->id); + if ( (e == nullptr) || !e->instanceof(eTYPE_PLAYER) ) return; + shared_ptr player = dynamic_pointer_cast(e); + + bool isLocalPlayer = false; + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( minecraft->localplayers[i] ) + { + if( minecraft->localplayers[i]->entityId == packet->id ) + { + isLocalPlayer = true; + break; + } + } + } + if(isLocalPlayer) return; + + switch(packet->action) + { + case TextureChangePacket::e_TextureChange_Skin: + player->setCustomSkin( app.getSkinIdFromPath( packet->path ) ); +#ifndef _CONTENT_PACKAGE + wprintf(L"Skin for remote player %ls has changed to %ls (%d)\n", player->name.c_str(), player->customTextureUrl.c_str(), player->getPlayerDefaultSkin() ); +#endif + break; + case TextureChangePacket::e_TextureChange_Cape: + player->setCustomCape( Player::getCapeIdFromPath( packet->path ) ); + //player->customTextureUrl2 = packet->path; +#ifndef _CONTENT_PACKAGE + wprintf(L"Cape for remote player %ls has changed to %ls\n", player->name.c_str(), player->customTextureUrl2.c_str() ); +#endif + break; + } + + if(!packet->path.empty() && packet->path.substr(0,3).compare(L"def") != 0 && !app.IsFileInMemoryTextures(packet->path)) + { + if( minecraft->addPendingClientTextureRequest(packet->path) ) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"handleTextureChange - Client sending texture packet to get custom skin %ls for player %ls\n",packet->path.c_str(), player->name.c_str()); +#endif + send(std::make_shared( + player->customTextureUrl, + nullptr, + static_cast(0))); + } + } + else if(!packet->path.empty() && app.IsFileInMemoryTextures(packet->path)) + { + // Update the ref count on the memory texture data + app.AddMemoryTextureFile(packet->path,nullptr,0); + } +} + +void ClientConnection::handleTextureAndGeometryChange(shared_ptr packet) +{ + shared_ptr e = getEntity(packet->id); + if (e == nullptr) return; + shared_ptr player = dynamic_pointer_cast(e); + if( e == nullptr) return; + + bool isLocalPlayer = false; + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( minecraft->localplayers[i] ) + { + if( minecraft->localplayers[i]->entityId == packet->id ) + { + isLocalPlayer = true; + break; + } + } + } + if(isLocalPlayer) return; + + + player->setCustomSkin( app.getSkinIdFromPath( packet->path ) ); + +#ifndef _CONTENT_PACKAGE + wprintf(L"Skin for remote player %ls has changed to %ls (%d)\n", player->name.c_str(), player->customTextureUrl.c_str(), player->getPlayerDefaultSkin() ); +#endif + + if(!packet->path.empty() && packet->path.substr(0,3).compare(L"def") != 0 && !app.IsFileInMemoryTextures(packet->path)) + { + if( minecraft->addPendingClientTextureRequest(packet->path) ) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"handleTextureAndGeometryChange - Client sending TextureAndGeometryPacket to get custom skin %ls for player %ls\n",packet->path.c_str(), player->name.c_str()); +#endif + send(std::make_shared( + packet->path, + nullptr, + static_cast(0))); + } + } + else if(!packet->path.empty() && app.IsFileInMemoryTextures(packet->path)) + { + // Update the ref count on the memory texture data + app.AddMemoryTextureFile(packet->path,nullptr,0); + + } +} + +void ClientConnection::handleRespawn(shared_ptr packet) +{ + //if (packet->dimension != minecraft->player->dimension) + if( packet->dimension != minecraft->localplayers[m_userIndex]->dimension || packet->mapSeed != minecraft->localplayers[m_userIndex]->level->getSeed() ) + { + int oldDimension = minecraft->localplayers[m_userIndex]->dimension; + started = false; + + // Stop any streaming music (e.g. jukebox) when changing dimensions + // so it doesn't leak into the new dimension + level->playStreamingMusic(L"", 0, 0, 0); + + m_trackedEntityIds.clear(); + m_visibleChunks.clear(); + + // Remove client connection from this level + level->removeClientConnection(this, false); + + MultiPlayerLevel *dimensionLevel = (MultiPlayerLevel *)minecraft->getLevel( packet->dimension ); + if( dimensionLevel == nullptr ) + { + dimensionLevel = new MultiPlayerLevel(this, new LevelSettings(packet->mapSeed, packet->playerGameType, false, minecraft->level->getLevelData()->isHardcore(), packet->m_newSeaLevel, packet->m_pLevelType, packet->m_xzSize, packet->m_hellScale), packet->dimension, packet->difficulty); + + // 4J Stu - We want to shared the savedDataStorage between both levels + //if( dimensionLevel->savedDataStorage != nullptr ) + //{ + // Don't need to delete it here as it belongs to a client connection while will delete it when it's done + // delete dimensionLevel->savedDataStorage;+ + //} + dimensionLevel->savedDataStorage = level->savedDataStorage; + + dimensionLevel->difficulty = packet->difficulty; // 4J Added + app.DebugPrintf("dimensionLevel->difficulty - Difficulty = %d\n",packet->difficulty); + + dimensionLevel->isClientSide = true; + } + else + { + dimensionLevel->addClientConnection(this); + } + + // Remove the player entity from the current level + level->removeEntity( shared_ptr(minecraft->localplayers[m_userIndex]) ); + + level = dimensionLevel; + + // Whilst calling setLevel, make sure that minecraft::player is set up to be correct for this + // connection + shared_ptr lastPlayer = minecraft->player; + minecraft->player = minecraft->localplayers[m_userIndex]; + minecraft->setLevel(dimensionLevel); + minecraft->player = lastPlayer; + + TelemetryManager->RecordLevelExit(m_userIndex, eSen_LevelExitStatus_Succeeded); + + //minecraft->player->dimension = packet->dimension; + minecraft->localplayers[m_userIndex]->dimension = packet->dimension; + //minecraft->setScreen(new ReceivingLevelScreen(this)); +// minecraft->addPendingLocalConnection(m_userIndex, this); + +#ifdef _XBOX + TelemetryManager->RecordLevelStart(m_userIndex, eSen_FriendOrMatch_Playing_With_Invited_Friends, eSen_CompeteOrCoop_Coop_and_Competitive, Minecraft::GetInstance()->getLevel(packet->dimension)->difficulty, app.GetLocalPlayerCount(), g_NetworkManager.GetOnlinePlayerCount()); +#endif + + if( minecraft->localgameModes[m_userIndex] != nullptr ) + { + TutorialMode *gameMode = (TutorialMode *)minecraft->localgameModes[m_userIndex]; + gameMode->getTutorial()->showTutorialPopup(false); + } + + // 4J-JEV: Fix for Durango #156334 - Content: UI: Rich Presence 'In the Nether' message is updating with a 3 to 10 minute delay. + minecraft->localplayers[m_userIndex]->updateRichPresence(); + + app.SetAction( m_userIndex, eAppAction_WaitForDimensionChangeComplete); + } + + //minecraft->respawnPlayer(minecraft->player->GetXboxPad(),true, packet->dimension); + + // Wrap respawnPlayer call up in code to set & restore the player/gamemode etc. as some things + // in there assume that we are set up for the player that the respawn is coming in for + int oldIndex = minecraft->getLocalPlayerIdx(); + minecraft->setLocalPlayerIdx(m_userIndex); + //minecraft->respawnPlayer(minecraft->localplayers[m_userIndex]->GetXboxPad(),packet->dimension,packet->m_newEntityId); + ((MultiPlayerGameMode *) minecraft->localgameModes[m_userIndex])->setLocalMode(packet->playerGameType); + minecraft->setLocalPlayerIdx(oldIndex); +} + +void ClientConnection::handleExplosion(shared_ptr packet) +{ + if (shouldProcessForPosition((int)packet->x, (int)packet->z)) + { + if(!packet->m_bKnockbackOnly) + { + //app.DebugPrintf("Received ExplodePacket with explosion data\n"); + PIXBeginNamedEvent(0,"Handling explosion"); + Explosion *e = new Explosion(minecraft->level, nullptr, packet->x, packet->y, packet->z, packet->r); + PIXBeginNamedEvent(0,"Finalizing"); + + // Fix for #81758 - TCR 006 BAS Non-Interactive Pause: TU9: Performance: Gameplay: After detonating bunch of TNT, game enters unresponsive state for couple of seconds. + // The changes we are making here have been decided by the server, so we don't need to add them to the vector that resets tiles changes made + // on the client as we KNOW that the server is matching these changes + MultiPlayerLevel *mpLevel = (MultiPlayerLevel *)minecraft->level; + mpLevel->enableResetChanges(false); + // 4J - now directly pass a pointer to the toBlow array in the packet rather than copying around + e->finalizeExplosion(true, &packet->toBlow); + mpLevel->enableResetChanges(true); + PIXEndNamedEvent(); + PIXEndNamedEvent(); + delete e; + } + } + + // Per-player knockback — each connection applies to its own local player + //app.DebugPrintf("Adding knockback (%f,%f,%f) for player %d\n", packet->getKnockbackX(), packet->getKnockbackY(), packet->getKnockbackZ(), m_userIndex); + if (minecraft->localplayers[m_userIndex] == NULL) + return; + minecraft->localplayers[m_userIndex]->xd += packet->getKnockbackX(); + minecraft->localplayers[m_userIndex]->yd += packet->getKnockbackY(); + minecraft->localplayers[m_userIndex]->zd += packet->getKnockbackZ(); +} + +void ClientConnection::handleContainerOpen(shared_ptr packet) +{ + bool failed = false; + shared_ptr player = minecraft->localplayers[m_userIndex]; + if (player == NULL) + return; + switch(packet->type) + { + case ContainerOpenPacket::BONUS_CHEST: + case ContainerOpenPacket::LARGE_CHEST: + case ContainerOpenPacket::ENDER_CHEST: + case ContainerOpenPacket::CONTAINER: + case ContainerOpenPacket::MINECART_CHEST: + { + int chestString; + switch (packet->type) + { + case ContainerOpenPacket::MINECART_CHEST: chestString = IDS_ITEM_MINECART; break; + case ContainerOpenPacket::BONUS_CHEST: chestString = IDS_BONUS_CHEST; break; + case ContainerOpenPacket::LARGE_CHEST: chestString = IDS_CHEST_LARGE; break; + case ContainerOpenPacket::ENDER_CHEST: chestString = IDS_TILE_ENDERCHEST; break; + case ContainerOpenPacket::CONTAINER: chestString = IDS_CHEST; break; + default: assert(false); chestString = -1; break; + } + + if( player->openContainer(std::make_shared(chestString, packet->title, packet->customName, packet->size))) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::HOPPER: + { + shared_ptr hopper = std::make_shared(); + if (packet->customName) hopper->setCustomName(packet->title); + if(player->openHopper(hopper)) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::FURNACE: + { + shared_ptr furnace = std::make_shared(); + if (packet->customName) furnace->setCustomName(packet->title); + if(player->openFurnace(furnace)) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::BREWING_STAND: + { + shared_ptr brewingStand = std::make_shared(); + if (packet->customName) brewingStand->setCustomName(packet->title); + + if( player->openBrewingStand(brewingStand)) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::DROPPER: + { + shared_ptr dropper = std::make_shared(); + if (packet->customName) dropper->setCustomName(packet->title); + + if( player->openTrap(dropper)) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::TRAP: + { + shared_ptr dispenser = std::make_shared(); + if (packet->customName) dispenser->setCustomName(packet->title); + + if( player->openTrap(dispenser)) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::WORKBENCH: + { + if( player->startCrafting(Mth::floor(player->x), Mth::floor(player->y), Mth::floor(player->z)) ) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::ENCHANTMENT: + { + if( player->startEnchanting(Mth::floor(player->x), Mth::floor(player->y), Mth::floor(player->z), packet->customName ? packet->title : L"") ) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::TRADER_NPC: + { + shared_ptr csm = std::make_shared(player, packet->title); + csm->createContainer(); + if(player->openTrading(csm, packet->customName ? packet->title : L"")) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::BEACON: + { + shared_ptr beacon = std::make_shared(); + if (packet->customName) beacon->setCustomName(packet->title); + + if(player->openBeacon(beacon)) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::REPAIR_TABLE: + { + if(player->startRepairing(Mth::floor(player->x), Mth::floor(player->y), Mth::floor(player->z))) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::HORSE: + { + shared_ptr entity = dynamic_pointer_cast( getEntity(packet->entityId) ); + int iTitle = IDS_CONTAINER_ANIMAL; + switch(entity->getType()) + { + case EntityHorse::TYPE_DONKEY: + iTitle = IDS_DONKEY; + break; + case EntityHorse::TYPE_MULE: + iTitle = IDS_MULE; + break; + }; + if(player->openHorseInventory(dynamic_pointer_cast(entity), std::make_shared(iTitle, packet->title, packet->customName, packet->size))) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + case ContainerOpenPacket::FIREWORKS: + { + if( player->openFireworks(Mth::floor(player->x), Mth::floor(player->y), Mth::floor(player->z)) ) + { + player->containerMenu->containerId = packet->containerId; + } + else + { + failed = true; + } + } + break; + } + + if(failed) + { + // Failed - if we've got a non-inventory container currently here, close that, which locally should put us back + // to not having a container open, and should send a containerclose to the server so it doesn't have a container open. + // If we don't have a non-inventory container open, just send the packet, and again we ought to be in sync with the server. + if( player->containerMenu != player->inventoryMenu ) + { + + } + else + { + send(std::make_shared(packet->containerId)); + } + } +} + +void ClientConnection::handleContainerSetSlot(shared_ptr packet) +{ + shared_ptr player = minecraft->localplayers[m_userIndex]; + if (packet->containerId == AbstractContainerMenu::CONTAINER_ID_CARRIED ) + { + player->inventory->setCarried(packet->item); + } + else + { + if (packet->containerId == AbstractContainerMenu::CONTAINER_ID_INVENTORY) + { + // 4J Stu - Reworked a bit to fix a bug where things being collected while the creative menu was up replaced items in the creative menu + if(packet->slot >= 36 && packet->slot < 36 + 9) + { + shared_ptr lastItem = player->inventoryMenu->getSlot(packet->slot)->getItem(); + if (packet->item != nullptr) + { + if (lastItem == nullptr || lastItem->count < packet->item->count) + { + packet->item->popTime = Inventory::POP_TIME_DURATION; + } + } + } + player->inventoryMenu->setItem(packet->slot, packet->item); + } + else if (packet->containerId == player->containerMenu->containerId) + { + player->containerMenu->setItem(packet->slot, packet->item); + } + } +} + +void ClientConnection::handleContainerAck(shared_ptr packet) +{ + shared_ptr player = minecraft->localplayers[m_userIndex]; + AbstractContainerMenu *menu = nullptr; + if (packet->containerId == AbstractContainerMenu::CONTAINER_ID_INVENTORY) + { + menu = player->inventoryMenu; + } + else if (packet->containerId == player->containerMenu->containerId) + { + menu = player->containerMenu; + } + if (menu != nullptr) + { + if (!packet->accepted) + { + send(std::make_shared(packet->containerId, packet->uid, true)); + } + } +} + +void ClientConnection::handleContainerContent(shared_ptr packet) +{ + shared_ptr player = minecraft->localplayers[m_userIndex]; + if (packet->containerId == AbstractContainerMenu::CONTAINER_ID_INVENTORY) + { + player->inventoryMenu->setAll(&packet->items); + } + else if (packet->containerId == player->containerMenu->containerId) + { + player->containerMenu->setAll(&packet->items); + } +} + +void ClientConnection::handleTileEditorOpen(shared_ptr packet) +{ + shared_ptr tileEntity = level->getTileEntity(packet->x, packet->y, packet->z); + if (tileEntity != nullptr) + { + minecraft->localplayers[m_userIndex]->openTextEdit(tileEntity); + } + else if (packet->editorType == TileEditorOpenPacket::SIGN) + { + shared_ptr localSignDummy = std::make_shared(); + localSignDummy->setLevel(level); + localSignDummy->x = packet->x; + localSignDummy->y = packet->y; + localSignDummy->z = packet->z; + minecraft->player->openTextEdit(localSignDummy); + } +} + +void ClientConnection::handleSignUpdate(shared_ptr packet) +{ + app.DebugPrintf("ClientConnection::handleSignUpdate - "); + if (minecraft->level->hasChunkAt(packet->x, packet->y, packet->z)) + { + shared_ptr te = minecraft->level->getTileEntity(packet->x, packet->y, packet->z); + + // 4J-PB - on a client connecting, the line below fails + if (dynamic_pointer_cast(te) != nullptr) + { + shared_ptr ste = dynamic_pointer_cast(te); + for (int i = 0; i < MAX_SIGN_LINES; i++) + { + ste->SetMessage(i,packet->lines[i]); + } + + app.DebugPrintf("verified = %d\tCensored = %d\n",packet->m_bVerified,packet->m_bCensored); + ste->SetVerified(packet->m_bVerified); + ste->SetCensored(packet->m_bCensored); + + ste->setChanged(); + } + else + { + app.DebugPrintf("dynamic_pointer_cast(te) == nullptr\n"); + } + } + else + { + app.DebugPrintf("hasChunkAt failed\n"); + } +} + +void ClientConnection::handleTileEntityData(shared_ptr packet) +{ + if (minecraft->level->hasChunkAt(packet->x, packet->y, packet->z)) + { + shared_ptr te = minecraft->level->getTileEntity(packet->x, packet->y, packet->z); + + if (te != nullptr) + { + if (packet->type == TileEntityDataPacket::TYPE_MOB_SPAWNER && dynamic_pointer_cast(te) != nullptr) + { + dynamic_pointer_cast(te)->load(packet->tag); + } + else if (packet->type == TileEntityDataPacket::TYPE_ADV_COMMAND && dynamic_pointer_cast(te) != nullptr) + { + dynamic_pointer_cast(te)->load(packet->tag); + } + else if (packet->type == TileEntityDataPacket::TYPE_BEACON && dynamic_pointer_cast(te) != nullptr) + { + dynamic_pointer_cast(te)->load(packet->tag); + } + else if (packet->type == TileEntityDataPacket::TYPE_SKULL && dynamic_pointer_cast(te) != nullptr) + { + dynamic_pointer_cast(te)->load(packet->tag); + } + } + } +} + +void ClientConnection::handleContainerSetData(shared_ptr packet) +{ + onUnhandledPacket(packet); + if (minecraft->localplayers[m_userIndex]->containerMenu != nullptr && minecraft->localplayers[m_userIndex]->containerMenu->containerId == packet->containerId) + { + minecraft->localplayers[m_userIndex]->containerMenu->setData(packet->id, packet->value); + } +} + +void ClientConnection::handleSetEquippedItem(shared_ptr packet) +{ + shared_ptr entity = getEntity(packet->entity); + if (entity != nullptr) + { + // 4J Stu - Brought forward change from 1.3 to fix #64688 - Customer Encountered: TU7: Content: Art: Aura of enchanted item is not displayed for other players in online game + entity->setEquippedSlot(packet->slot, packet->getItem() ); + } +} + +void ClientConnection::handleContainerClose(shared_ptr packet) +{ + minecraft->localplayers[m_userIndex]->clientSideCloseContainer(); +} + +void ClientConnection::handleTileEvent(shared_ptr packet) +{ + PIXBeginNamedEvent(0,"Handle tile event\n"); + minecraft->level->tileEvent(packet->x, packet->y, packet->z, packet->tile, packet->b0, packet->b1); + PIXEndNamedEvent(); +} + +void ClientConnection::handleTileDestruction(shared_ptr packet) +{ + minecraft->level->destroyTileProgress(packet->getEntityId(), packet->getX(), packet->getY(), packet->getZ(), packet->getState()); +} + +bool ClientConnection::canHandleAsyncPackets() +{ + return minecraft != nullptr && minecraft->level != nullptr && minecraft->localplayers[m_userIndex] != nullptr && level != nullptr; +} + +void ClientConnection::handleGameEvent(shared_ptr gameEventPacket) +{ + int event = gameEventPacket->_event; + int param = gameEventPacket->param; + if (event >= 0 && event < GameEventPacket::EVENT_LANGUAGE_ID_LENGTH) + { + if (GameEventPacket::EVENT_LANGUAGE_ID[event] > 0) // 4J - was nullptr check + { + minecraft->localplayers[m_userIndex]->displayClientMessage(GameEventPacket::EVENT_LANGUAGE_ID[event]); + } + } + if (event == GameEventPacket::START_RAINING) + { + level->getLevelData()->setRaining(true); + level->setRainLevel(1); + } + else if (event == GameEventPacket::STOP_RAINING) + { + level->getLevelData()->setRaining(false); + level->setRainLevel(0); + } + else if (event == GameEventPacket::CHANGE_GAME_MODE) + { + minecraft->localgameModes[m_userIndex]->setLocalMode(GameType::byId(param)); + } + else if (event == GameEventPacket::WIN_GAME) + { + +#ifdef _XBOX + + // turn off the gamertags in splitscreen for the primary player, since they are about to be made fullscreen + ui.HideAllGameUIElements(); + + // Hide the other players scenes + ui.ShowOtherPlayersBaseScene(ProfileManager.GetPrimaryPad(), false); + + // This just allows it to be shown + if(minecraft->localgameModes[ProfileManager.GetPrimaryPad()] != nullptr) minecraft->localgameModes[ProfileManager.GetPrimaryPad()]->getTutorial()->showTutorialPopup(false); + // Temporarily make this scene fullscreen + CXuiSceneBase::SetPlayerBaseScenePosition( ProfileManager.GetPrimaryPad(), CXuiSceneBase::e_BaseScene_Fullscreen ); + + app.CloseXuiScenesAndNavigateToScene(ProfileManager.GetPrimaryPad(),eUIScene_EndPoem); +#else + app.DebugPrintf("handleGameEvent packet for WIN_GAME - %d\n", m_userIndex); + // This just allows it to be shown + if(minecraft->localgameModes[ProfileManager.GetPrimaryPad()] != nullptr) minecraft->localgameModes[ProfileManager.GetPrimaryPad()]->getTutorial()->showTutorialPopup(false); +#endif + } + else if( event == GameEventPacket::START_SAVING ) + { + if(!g_NetworkManager.IsHost()) + { + // Move app started to here so that it happens immediately otherwise back-to-back START/STOP packets + // leave the client stuck in the loading screen + app.SetGameStarted(false); + app.SetAction( ProfileManager.GetPrimaryPad(), eAppAction_RemoteServerSave ); + } + } + else if( event == GameEventPacket::STOP_SAVING ) + { + if(!g_NetworkManager.IsHost() ) app.SetGameStarted(true); + } + else if ( event == GameEventPacket::SUCCESSFUL_BOW_HIT ) + { + shared_ptr player = minecraft->localplayers[m_userIndex]; + level->playLocalSound(player->x, player->y + player->getHeadHeight(), player->z, eSoundType_RANDOM_BOW_HIT , 0.18f, 0.45f, false); + } +} + +void ClientConnection::handleComplexItemData(shared_ptr packet) +{ + if (packet->itemType == Item::map->id) + { + MapItem::getSavedData(packet->itemId, minecraft->level)->handleComplexItemData(packet->data); + } + else + { +// System.out.println("Unknown itemid: " + packet->itemId); // 4J removed + } +} + + + +void ClientConnection::handleLevelEvent(shared_ptr packet) +{ + if (!shouldProcessForPosition(packet->x, packet->z)) return; + if (packet->type == LevelEvent::SOUND_DRAGON_DEATH) + { + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + if(minecraft->localplayers[i] != nullptr && minecraft->localplayers[i]->level != nullptr && minecraft->localplayers[i]->level->dimension->id == 1) + { + minecraft->localplayers[i]->awardStat(GenericStats::completeTheEnd(),GenericStats::param_noArgs()); + } + } + } + + if (packet->isGlobalEvent()) + { + minecraft->level->globalLevelEvent(packet->type, packet->x, packet->y, packet->z, packet->data); + } + else + { + minecraft->level->levelEvent(packet->type, packet->x, packet->y, packet->z, packet->data); + } +} + +void ClientConnection::handleAwardStat(shared_ptr packet) +{ + minecraft->localplayers[m_userIndex]->awardStatFromServer(GenericStats::stat(packet->statId), packet->getParamData()); +} + +void ClientConnection::handleUpdateMobEffect(shared_ptr packet) +{ + shared_ptr e = getEntity(packet->entityId); + if ( (e == nullptr) || !e->instanceof(eTYPE_LIVINGENTITY) ) return; + + //( dynamic_pointer_cast(e) )->addEffect(new MobEffectInstance(packet->effectId, packet->effectDurationTicks, packet->effectAmplifier)); + + MobEffectInstance *mobEffectInstance = new MobEffectInstance(packet->effectId, packet->effectDurationTicks, packet->effectAmplifier); + mobEffectInstance->setNoCounter(packet->isSuperLongDuration()); + dynamic_pointer_cast(e)->addEffect(mobEffectInstance); +} + +void ClientConnection::handleRemoveMobEffect(shared_ptr packet) +{ + shared_ptr e = getEntity(packet->entityId); + if ( (e == nullptr) || !e->instanceof(eTYPE_LIVINGENTITY) ) return; + + ( dynamic_pointer_cast(e) )->removeEffectNoUpdate(packet->effectId); +} + +bool ClientConnection::isServerPacketListener() +{ + return false; +} + +void ClientConnection::handlePlayerInfo(shared_ptr packet) +{ + unsigned int startingPrivileges = app.GetPlayerPrivileges(packet->m_networkSmallId); + + INetworkPlayer *networkPlayer = g_NetworkManager.GetPlayerBySmallId(packet->m_networkSmallId); + + if(networkPlayer != nullptr && networkPlayer->IsHost()) + { + // Some settings should always be considered on for the host player + Player::enableAllPlayerPrivileges(startingPrivileges,true); + Player::setPlayerGamePrivilege(startingPrivileges,Player::ePlayerGamePrivilege_HOST,1); + } + + // 4J Stu - Repurposed this packet for player info that we want + app.UpdatePlayerInfo(packet->m_networkSmallId, packet->m_playerColourIndex, packet->m_playerPrivileges); + + shared_ptr entity = getEntity(packet->m_entityId); + if(entity != nullptr && entity->instanceof(eTYPE_PLAYER)) + { + shared_ptr player = dynamic_pointer_cast(entity); + player->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_All, packet->m_playerPrivileges); + } + if(networkPlayer != nullptr && networkPlayer->IsLocal()) + { + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + shared_ptr localPlayer = minecraft->localplayers[i]; + if(localPlayer != nullptr && localPlayer->connection != nullptr && localPlayer->connection->getNetworkPlayer() == networkPlayer ) + { + localPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_All,packet->m_playerPrivileges); + displayPrivilegeChanges(localPlayer,startingPrivileges); + break; + } + } + } + + // 4J Stu - I don't think we care about this, so not converting it (came from 1.8.2) +#if 0 + PlayerInfo pi = playerInfoMap.get(packet.name); + if (pi == null && packet.add) { + pi = new PlayerInfo(packet.name); + playerInfoMap.put(packet.name, pi); + playerInfos.add(pi); + } + if (pi != null && !packet.add) { + playerInfoMap.remove(packet.name); + playerInfos.remove(pi); + } + if (packet.add && pi != null) { + pi.latency = packet.latency; + } +#endif +} + + +void ClientConnection::displayPrivilegeChanges(shared_ptr player, unsigned int oldPrivileges) +{ + int userIndex = player->GetXboxPad(); + unsigned int newPrivileges = player->getAllPlayerGamePrivileges(); + Player::EPlayerGamePrivileges priv = (Player::EPlayerGamePrivileges)0; + bool privOn = false; + for(unsigned int i = 0; i < Player::ePlayerGamePrivilege_MAX; ++i) + { + priv = (Player::EPlayerGamePrivileges) i; + if( Player::getPlayerGamePrivilege(newPrivileges,priv) != Player::getPlayerGamePrivilege(oldPrivileges,priv)) + { + privOn = Player::getPlayerGamePrivilege(newPrivileges,priv); + wstring message = L""; + if(app.GetGameHostOption(eGameHostOption_TrustPlayers) == 0) + { + switch(priv) + { + case Player::ePlayerGamePrivilege_CannotMine: + if(privOn) message = app.GetString(IDS_PRIV_MINE_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_MINE_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_CannotBuild: + if(privOn) message = app.GetString(IDS_PRIV_BUILD_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_BUILD_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_CanUseDoorsAndSwitches: + if(privOn) message = app.GetString(IDS_PRIV_USE_DOORS_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_USE_DOORS_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_CanUseContainers: + if(privOn) message = app.GetString(IDS_PRIV_USE_CONTAINERS_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_USE_CONTAINERS_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_CannotAttackAnimals: + if(privOn) message = app.GetString(IDS_PRIV_ATTACK_ANIMAL_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_ATTACK_ANIMAL_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_CannotAttackMobs: + if(privOn) message = app.GetString(IDS_PRIV_ATTACK_MOB_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_ATTACK_MOB_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_CannotAttackPlayers: + if(privOn) message = app.GetString(IDS_PRIV_ATTACK_PLAYER_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_ATTACK_PLAYER_TOGGLE_OFF); + break; + }; + } + switch(priv) + { + case Player::ePlayerGamePrivilege_Op: + if(privOn) message = app.GetString(IDS_PRIV_MODERATOR_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_MODERATOR_TOGGLE_OFF); + break; + }; + if(app.GetGameHostOption(eGameHostOption_CheatsEnabled) != 0) + { + switch(priv) + { + case Player::ePlayerGamePrivilege_CanFly: + if(privOn) message = app.GetString(IDS_PRIV_FLY_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_FLY_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_ClassicHunger: + if(privOn) message = app.GetString(IDS_PRIV_EXHAUSTION_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_EXHAUSTION_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_Invisible: + if(privOn) message = app.GetString(IDS_PRIV_INVISIBLE_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_INVISIBLE_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_Invulnerable: + if(privOn) message = app.GetString(IDS_PRIV_INVULNERABLE_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_INVULNERABLE_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_CanToggleInvisible: + if(privOn) message = app.GetString(IDS_PRIV_CAN_INVISIBLE_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_CAN_INVISIBLE_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_CanToggleFly: + if(privOn) message = app.GetString(IDS_PRIV_CAN_FLY_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_CAN_FLY_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_CanToggleClassicHunger: + if(privOn) message = app.GetString(IDS_PRIV_CAN_EXHAUSTION_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_CAN_EXHAUSTION_TOGGLE_OFF); + break; + case Player::ePlayerGamePrivilege_CanTeleport: + if(privOn) message = app.GetString(IDS_PRIV_CAN_TELEPORT_TOGGLE_ON); + else message = app.GetString(IDS_PRIV_CAN_TELEPORT_TOGGLE_OFF); + break; + }; + } + } + } +} + +void ClientConnection::handleKeepAlive(shared_ptr packet) +{ + send(std::make_shared(packet->id)); +} + +void ClientConnection::handlePlayerAbilities(shared_ptr playerAbilitiesPacket) +{ + shared_ptr player = minecraft->localplayers[m_userIndex]; + player->abilities.flying = playerAbilitiesPacket->isFlying(); + player->abilities.instabuild = playerAbilitiesPacket->canInstabuild(); + player->abilities.invulnerable = playerAbilitiesPacket->isInvulnerable(); + player->abilities.mayfly = playerAbilitiesPacket->canFly(); + player->abilities.setFlyingSpeed(playerAbilitiesPacket->getFlyingSpeed()); + player->abilities.setWalkingSpeed(playerAbilitiesPacket->getWalkingSpeed()); +} + +void ClientConnection::handleSoundEvent(shared_ptr packet) +{ + minecraft->level->playLocalSound(packet->getX(), packet->getY(), packet->getZ(), packet->getSound(), packet->getVolume(), packet->getPitch(), false); +} + +void ClientConnection::handleCustomPayload(shared_ptr customPayloadPacket) +{ + if (CustomPayloadPacket::TRADER_LIST_PACKET.compare(customPayloadPacket->identifier) == 0) + { + ByteArrayInputStream bais(customPayloadPacket->data); + DataInputStream input(&bais); + int containerId = input.readInt(); + + } +} + +Connection *ClientConnection::getConnection() +{ + return connection; +} + +// 4J Added +void ClientConnection::handleServerSettingsChanged(shared_ptr packet) +{ + if(packet->action==ServerSettingsChangedPacket::HOST_IN_GAME_SETTINGS) + { + app.SetGameHostOption(eGameHostOption_All, packet->data); + } + else if(packet->action==ServerSettingsChangedPacket::HOST_DIFFICULTY) + { + for(unsigned int i = 0; i < minecraft->levels.length; ++i) + { + if( minecraft->levels[i] != nullptr ) + { + app.DebugPrintf("ClientConnection::handleServerSettingsChanged - Difficulty = %d",packet->data); + minecraft->levels[i]->difficulty = packet->data; + } + } + } + else + { + //options + //minecraft->options->SetGamertagSetting((packet->data==0)?false:true); + app.SetGameHostOption(eGameHostOption_Gamertags, packet->data); + } + +} + +void ClientConnection::handleXZ(shared_ptr packet) +{ + if(packet->action==XZPacket::STRONGHOLD) + { + minecraft->levels[0]->getLevelData()->setXStronghold(packet->x); + minecraft->levels[0]->getLevelData()->setZStronghold(packet->z); + minecraft->levels[0]->getLevelData()->setHasStronghold(); + } +} + +void ClientConnection::handleUpdateProgress(shared_ptr packet) +{ + +} + +void ClientConnection::handleUpdateGameRuleProgressPacket(shared_ptr packet) +{ + LPCWSTR string = app.GetGameRulesString(packet->m_messageId); + if(string != nullptr) + { + wstring message(string); + message = GameRuleDefinition::generateDescriptionString(packet->m_definitionType,message,packet->m_data.data,packet->m_data.length); + if(minecraft->localgameModes[m_userIndex]!=nullptr) + { + minecraft->localgameModes[m_userIndex]->getTutorial()->setMessage(message, packet->m_icon, packet->m_auxValue); + } + } + // If this rule has a data tag associated with it, then we save that in user profile data + if(packet->m_dataTag > 0 && packet->m_dataTag <= 32) + { + app.DebugPrintf("handleUpdateGameRuleProgressPacket: Data tag is in range, so updating profile data\n"); + app.SetSpecialTutorialCompletionFlag(m_userIndex, packet->m_dataTag - 1); + } + delete [] packet->m_data.data; +} + +// 4J Stu - TU-1 hotfix +// Fix for #13191 - The host of a game can get a message informing them that the connection to the server has been lost +int ClientConnection::HostDisconnectReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + // 4J-PB - if they have a trial texture pack, they don't get to save the world + if(!Minecraft::GetInstance()->skins->isUsingDefaultSkin()) + { + TexturePack *tPack = Minecraft::GetInstance()->skins->getSelected(); + DLCTexturePack *pDLCTexPack=(DLCTexturePack *)tPack; + + DLCPack *pDLCPack=pDLCTexPack->getDLCInfoParentPack();//tPack->getDLCPack(); + if(!pDLCPack->hasPurchasedFile( DLCManager::e_DLCType_Texture, L"" )) + { + // no upsell, we're about to quit + MinecraftServer::getInstance()->setSaveOnExit( false ); + // flag a app action of exit game + app.SetAction(iPad,eAppAction_ExitWorld); + } + } + +#if defined(_XBOX_ONE) || defined(__ORBIS__) + // Give the player the option to save their game + // does the save exist? + bool bSaveExists; + StorageManager.DoesSaveExist(&bSaveExists); + // 4J-PB - we check if the save exists inside the libs + // we need to ask if they are sure they want to overwrite the existing game + if(bSaveExists && StorageManager.GetSaveDisabled()) + { + UINT uiIDA[2]; + uiIDA[0]=IDS_CONFIRM_CANCEL; + uiIDA[1]=IDS_CONFIRM_OK; + ui.RequestErrorMessage(IDS_TITLE_SAVE_GAME, IDS_CONFIRM_SAVE_GAME, uiIDA, 2, ProfileManager.GetPrimaryPad(),&ClientConnection::ExitGameAndSaveReturned,nullptr); + } + else +#else + // Give the player the option to save their game + // does the save exist? + bool bSaveExists; + StorageManager.DoesSaveExist(&bSaveExists); + // 4J-PB - we check if the save exists inside the libs + // we need to ask if they are sure they want to overwrite the existing game + if(bSaveExists) + { + UINT uiIDA[2]; + uiIDA[0]=IDS_CONFIRM_CANCEL; + uiIDA[1]=IDS_CONFIRM_OK; + } + else +#endif + { +#if defined(_XBOX_ONE) || defined(__ORBIS__) + StorageManager.SetSaveDisabled(false); +#endif + MinecraftServer::getInstance()->setSaveOnExit( true ); + // flag a app action of exit game + app.SetAction(iPad,eAppAction_ExitWorld); + } + + return 0; +} + +int ClientConnection::ExitGameAndSaveReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + // results switched for this dialog + if(result==C4JStorage::EMessage_ResultDecline) + { + //INT saveOrCheckpointId = 0; + //bool validSave = StorageManager.GetSaveUniqueNumber(&saveOrCheckpointId); + //SentientManager.RecordLevelSaveOrCheckpoint(ProfileManager.GetPrimaryPad(), saveOrCheckpointId); +#if defined(_XBOX_ONE) || defined(__ORBIS__) + StorageManager.SetSaveDisabled(false); +#endif + MinecraftServer::getInstance()->setSaveOnExit( true ); + } + else + { + MinecraftServer::getInstance()->setSaveOnExit( false ); + } + // flag a app action of exit game + app.SetAction(iPad,eAppAction_ExitWorld); + return 0; +} + +// +wstring ClientConnection::GetDisplayNameByGamertag(wstring gamertag) +{ +#ifdef _DURANGO + wstring displayName = g_NetworkManager.GetDisplayNameByGamertag(gamertag); + return displayName; +#else + return gamertag; +#endif +} + +void ClientConnection::handleAddObjective(shared_ptr packet) +{ +#if 0 + Scoreboard scoreboard = level->getScoreboard(); + + if (packet->method == SetObjectivePacket::METHOD_ADD) + { + Objective objective = scoreboard->addObjective(packet->objectiveName, ObjectiveCriteria::DUMMY); + objective->setDisplayName(packet->displayName); + } + else + { + Objective objective = scoreboard->getObjective(packet->objectiveName); + + if (packet->method == SetObjectivePacket::METHOD_REMOVE) + { + scoreboard->removeObjective(objective); + } + else if (packet->method == SetObjectivePacket::METHOD_CHANGE) + { + objective->setDisplayName(packet->displayName); + } + } +#endif +} + +void ClientConnection::handleSetScore(shared_ptr packet) +{ +#if 0 + Scoreboard scoreboard = level->getScoreboard(); + Objective objective = scoreboard->getObjective(packet->objectiveName); + + if (packet->method == SetScorePacket::METHOD_CHANGE) + { + Score score = scoreboard->getPlayerScore(packet->owner, objective); + score->setScore(packet->score); + } + else if (packet->method == SetScorePacket::METHOD_REMOVE) + { + scoreboard->resetPlayerScore(packet->owner); + } +#endif +} + +void ClientConnection::handleSetDisplayObjective(shared_ptr packet) +{ +#if 0 + Scoreboard scoreboard = level->getScoreboard(); + + if (packet->objectiveName->length() == 0) + { + scoreboard->setDisplayObjective(packet->slot, null); + } + else + { + Objective objective = scoreboard->getObjective(packet->objectiveName); + scoreboard->setDisplayObjective(packet->slot, objective); + } +#endif +} + +void ClientConnection::handleSetPlayerTeamPacket(shared_ptr packet) +{ +#if 0 + Scoreboard scoreboard = level->getScoreboard(); + PlayerTeam *team; + + if (packet->method == SetPlayerTeamPacket::METHOD_ADD) + { + team = scoreboard->addPlayerTeam(packet->name); + } + else + { + team = scoreboard->getPlayerTeam(packet->name); + } + + if (packet->method == SetPlayerTeamPacket::METHOD_ADD || packet->method == SetPlayerTeamPacket::METHOD_CHANGE) + { + team->setDisplayName(packet->displayName); + team->setPrefix(packet->prefix); + team->setSuffix(packet->suffix); + team->unpackOptions(packet->options); + } + + if (packet->method == SetPlayerTeamPacket::METHOD_ADD || packet->method == SetPlayerTeamPacket::METHOD_JOIN) + { + for (size_t i = 0; i < packet->players.size(); i++) + { + scoreboard->addPlayerToTeam(packet->players[i], team); + } + } + + if (packet->method == SetPlayerTeamPacket::METHOD_LEAVE) + { + for (size_t i = 0; i < packet->players.size(); i++) + { + scoreboard->removePlayerFromTeam(packet->players[i], team); + } + } + + if (packet->method == SetPlayerTeamPacket::METHOD_REMOVE) + { + scoreboard->removePlayerTeam(team); + } +#endif +} + +void ClientConnection::handleParticleEvent(shared_ptr packet) +{ + for (int i = 0; i < packet->getCount(); i++) + { + double xVarience = random->nextGaussian() * packet->getXDist(); + double yVarience = random->nextGaussian() * packet->getYDist(); + double zVarience = random->nextGaussian() * packet->getZDist(); + double xa = random->nextGaussian() * packet->getMaxSpeed(); + double ya = random->nextGaussian() * packet->getMaxSpeed(); + double za = random->nextGaussian() * packet->getMaxSpeed(); + + // TODO: determine particle ID from name + assert(0); + ePARTICLE_TYPE particleId = eParticleType_heart; + + level->addParticle(particleId, packet->getX() + xVarience, packet->getY() + yVarience, packet->getZ() + zVarience, xa, ya, za); + } +} + +void ClientConnection::handleUpdateAttributes(shared_ptr packet) +{ + shared_ptr entity = getEntity(packet->getEntityId()); + if (entity == nullptr) return; + + if ( !entity->instanceof(eTYPE_LIVINGENTITY) ) + { + // Entity is not a living entity! + assert(0); + } + + BaseAttributeMap *attributes = (dynamic_pointer_cast(entity))->getAttributes(); + unordered_set attributeSnapshots = packet->getValues(); + for ( UpdateAttributesPacket::AttributeSnapshot *attribute : attributeSnapshots ) + { + AttributeInstance *instance = attributes->getInstance(attribute->getId()); + + if (instance) + { + // 4J - TODO: revisit, not familiar with the attribute system, why are we passing in MIN_NORMAL (Java's smallest non-zero value conforming to IEEE Standard 754 (?)) and MAX_VALUE + instance = attributes->registerAttribute(new RangedAttribute(attribute->getId(), 0, Double::MIN_NORMAL, Double::MAX_VALUE)); + instance->setBaseValue(attribute->getBase()); + instance->removeModifiers(); + + unordered_set *modifiers = attribute->getModifiers(); + + if ( modifiers ) + { + for ( AttributeModifier* modifier : *modifiers ) + { + instance->addModifier(new AttributeModifier(modifier->getId(), modifier->getAmount(), modifier->getOperation())); + } + } + } + } +} + +// 4J: Check for deferred entity link packets related to this entity ID and handle them +void ClientConnection::checkDeferredEntityLinkPackets(int newEntityId) +{ + if (deferredEntityLinkPackets.empty()) return; + + for (size_t i = 0; i < deferredEntityLinkPackets.size(); i++) + { + DeferredEntityLinkPacket *deferred = &deferredEntityLinkPackets[i]; + + bool remove = false; + + // Only consider recently deferred packets + int tickInterval = GetTickCount() - deferred->m_recievedTick; + if (tickInterval < MAX_ENTITY_LINK_DEFERRAL_INTERVAL) + { + // Note: we assume it's the destination entity + if (deferred->m_packet->destId == newEntityId) + { + handleEntityLinkPacket(deferred->m_packet); + remove = true; + } + } + else + { + // This is an old packet, remove (shouldn't really come up but seems prudent) + remove = true; + } + + if (remove) + { + deferredEntityLinkPackets.erase(deferredEntityLinkPackets.begin() + i); + i--; + } + } +} + +ClientConnection::DeferredEntityLinkPacket::DeferredEntityLinkPacket(shared_ptr packet) +{ + m_recievedTick = GetTickCount(); + m_packet = packet; +} diff --git a/Minecraft.Client/ClientConnection.h b/Minecraft.Client/ClientConnection.h new file mode 100644 index 0000000..3448496 --- /dev/null +++ b/Minecraft.Client/ClientConnection.h @@ -0,0 +1,182 @@ +#pragma once +#include +#include "..\Minecraft.World\net.minecraft.network.h" +class Minecraft; +class MultiPlayerLevel; +class SavedDataStorage; +class Socket; +class MultiplayerLocalPlayer; + +class ClientConnection : public PacketListener +{ +private: + enum eClientConnectionConnectingState + { + eCCPreLoginSent = 0, + eCCPreLoginReceived, + eCCLoginSent, + eCCLoginReceived, + eCCConnected + }; + +private: + bool done; + Connection *connection; +public: + wstring message; + bool createdOk; // 4J added +private: + Minecraft *minecraft; + MultiPlayerLevel *level; + bool started; + + // 4J Stu - I don't think we are interested in the PlayerInfo data, so I'm not going to use it at the moment + //Map playerInfoMap = new HashMap(); +public: + //List playerInfos = new ArrayList(); + + int maxPlayers; + +public: + bool isStarted() { return started; } // 4J Added + bool isClosed() { return done; } // 4J Added + Socket *getSocket() { return connection->getSocket(); } // 4J Added + +private: + DWORD m_userIndex; // 4J Added + bool isPrimaryConnection() const; + + std::unordered_set m_trackedEntityIds; + std::unordered_set m_visibleChunks; + + static int64_t chunkKey(int x, int z) { return ((int64_t)x << 32) | ((int64_t)z & 0xFFFFFFFF); } + + ClientConnection* findPrimaryConnection() const; + bool shouldProcessForEntity(int entityId) const; + bool shouldProcessForPosition(int blockX, int blockZ) const; + bool anyOtherConnectionHasChunk(int x, int z) const; + +public: + bool isTrackingEntity(int entityId) const { return m_trackedEntityIds.count(entityId) > 0; } + +public: + SavedDataStorage *savedDataStorage; + ClientConnection(Minecraft *minecraft, const wstring& ip, int port); + ClientConnection(Minecraft *minecraft, Socket *socket, int iUserIndex = -1); + ~ClientConnection(); + void tick(); + INetworkPlayer *getNetworkPlayer(); + virtual void handleLogin(shared_ptr packet); + virtual void handleAddEntity(shared_ptr packet); + virtual void handleAddExperienceOrb(shared_ptr packet); + virtual void handleAddGlobalEntity(shared_ptr packet); + virtual void handleAddPainting(shared_ptr packet); + virtual void handleSetEntityMotion(shared_ptr packet); + virtual void handleSetEntityData(shared_ptr packet); + virtual void handleAddPlayer(shared_ptr packet); + virtual void handleTeleportEntity(shared_ptr packet); + virtual void handleSetCarriedItem(shared_ptr packet); + virtual void handleMoveEntity(shared_ptr packet); + virtual void handleRotateMob(shared_ptr packet); + virtual void handleMoveEntitySmall(shared_ptr packet); + virtual void handleRemoveEntity(shared_ptr packet); + virtual void handleMovePlayer(shared_ptr packet); + + Random *random; + + // 4J Added + virtual void handleChunkVisibilityArea(shared_ptr packet); + + virtual void handleChunkVisibility(shared_ptr packet); + virtual void handleChunkTilesUpdate(shared_ptr packet); + virtual void handleBlockRegionUpdate(shared_ptr packet); + virtual void handleTileUpdate(shared_ptr packet); + virtual void handleDisconnect(shared_ptr packet); + virtual void onDisconnect(DisconnectPacket::eDisconnectReason reason, void *reasonObjects); + void sendAndDisconnect(shared_ptr packet); + void send(shared_ptr packet); + virtual void handleTakeItemEntity(shared_ptr packet); + virtual void handleChat(shared_ptr packet); + virtual void handleAnimate(shared_ptr packet); + virtual void handleEntityActionAtPosition(shared_ptr packet); + virtual void handlePreLogin(shared_ptr packet); + void close(); + virtual void handleAddMob(shared_ptr packet); + virtual void handleSetTime(shared_ptr packet); + virtual void handleSetSpawn(shared_ptr packet); + virtual void handleEntityLinkPacket(shared_ptr packet); + virtual void handleEntityEvent(shared_ptr packet); +private: + shared_ptr getEntity(int entityId); + wstring GetDisplayNameByGamertag(wstring gamertag); +public: + virtual void handleSetHealth(shared_ptr packet); + virtual void handleSetExperience(shared_ptr packet); + virtual void handleRespawn(shared_ptr packet); + virtual void handleExplosion(shared_ptr packet); + virtual void handleContainerOpen(shared_ptr packet); + virtual void handleContainerSetSlot(shared_ptr packet); + virtual void handleContainerAck(shared_ptr packet); + virtual void handleContainerContent(shared_ptr packet); + virtual void handleTileEditorOpen(shared_ptr packet); + virtual void handleSignUpdate(shared_ptr packet); + virtual void handleTileEntityData(shared_ptr packet); + virtual void handleContainerSetData(shared_ptr packet); + virtual void handleSetEquippedItem(shared_ptr packet); + virtual void handleContainerClose(shared_ptr packet); + virtual void handleTileEvent(shared_ptr packet); + virtual void handleTileDestruction(shared_ptr packet); + virtual bool canHandleAsyncPackets(); + virtual void handleGameEvent(shared_ptr gameEventPacket); + virtual void handleComplexItemData(shared_ptr packet); + virtual void handleLevelEvent(shared_ptr packet); + virtual void handleAwardStat(shared_ptr packet); + virtual void handleUpdateMobEffect(shared_ptr packet); + virtual void handleRemoveMobEffect(shared_ptr packet); + virtual bool isServerPacketListener(); + virtual void handlePlayerInfo(shared_ptr packet); + virtual void handleKeepAlive(shared_ptr packet); + virtual void handlePlayerAbilities(shared_ptr playerAbilitiesPacket); + virtual void handleSoundEvent(shared_ptr packet); + virtual void handleCustomPayload(shared_ptr customPayloadPacket); + virtual Connection *getConnection(); + + // 4J Added + virtual void handleServerSettingsChanged(shared_ptr packet); + virtual void handleTexture(shared_ptr packet); + virtual void handleTextureAndGeometry(shared_ptr packet); + virtual void handleUpdateProgress(shared_ptr packet); + + // 4J Added + static int HostDisconnectReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int ExitGameAndSaveReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + virtual void handleTextureChange(shared_ptr packet); + virtual void handleTextureAndGeometryChange(shared_ptr packet); + virtual void handleUpdateGameRuleProgressPacket(shared_ptr packet); + virtual void handleXZ(shared_ptr packet); + + void displayPrivilegeChanges(shared_ptr player, unsigned int oldPrivileges); + + virtual void handleAddObjective(shared_ptr packet); + virtual void handleSetScore(shared_ptr packet); + virtual void handleSetDisplayObjective(shared_ptr packet); + virtual void handleSetPlayerTeamPacket(shared_ptr packet); + virtual void handleParticleEvent(shared_ptr packet); + virtual void handleUpdateAttributes(shared_ptr packet); + +private: + // 4J: Entity link packet deferred + class DeferredEntityLinkPacket + { + public: + DWORD m_recievedTick; + shared_ptr m_packet; + + DeferredEntityLinkPacket(shared_ptr packet); + }; + + vector deferredEntityLinkPackets; + static const int MAX_ENTITY_LINK_DEFERRAL_INTERVAL = 1000; + + void checkDeferredEntityLinkPackets(int newEntityId); +}; \ No newline at end of file diff --git a/Minecraft.Client/ClientConstants.cpp b/Minecraft.Client/ClientConstants.cpp new file mode 100644 index 0000000..d1d80aa --- /dev/null +++ b/Minecraft.Client/ClientConstants.cpp @@ -0,0 +1,5 @@ +#include "stdafx.h" +#include "ClientConstants.h" + +const wstring ClientConstants::VERSION_STRING = wstring(L"Minecraft LCE ") + VER_FILEVERSION_STR_W;//+ SharedConstants::VERSION_STRING; +const wstring ClientConstants::BRANCH_STRING = VER_BRANCHVERSION_STR_W; diff --git a/Minecraft.Client/ClientConstants.h b/Minecraft.Client/ClientConstants.h new file mode 100644 index 0000000..1476e51 --- /dev/null +++ b/Minecraft.Client/ClientConstants.h @@ -0,0 +1,19 @@ +#pragma once +using namespace std; + +class ClientConstants +{ + + // This file holds global constants used by the client. + // The file should be replaced at compile-time with the + // proper settings for the given compilation. For example, + // release builds should replace this file with no-cheat + // settings. + + // INTERNAL DEVELOPMENT SETTINGS +public: + static const wstring VERSION_STRING; + static const wstring BRANCH_STRING; + + static const bool DEADMAU5_CAMERA_CHEATS = false; +}; \ No newline at end of file diff --git a/Minecraft.Client/ClockTexture.cpp b/Minecraft.Client/ClockTexture.cpp new file mode 100644 index 0000000..5febeff --- /dev/null +++ b/Minecraft.Client/ClockTexture.cpp @@ -0,0 +1,119 @@ +#include "stdafx.h" +#include "Minecraft.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "MultiplayerLocalPlayer.h" +#include "..\Minecraft.World\JavaMath.h" +#include "Texture.h" +#include "ClockTexture.h" + +ClockTexture::ClockTexture() : StitchedTexture(L"clock", L"clock") +{ + rot = rota = 0.0; + m_dataTexture = nullptr; + m_iPad = XUSER_INDEX_ANY; +} + +ClockTexture::ClockTexture(int iPad, ClockTexture *dataTexture) : StitchedTexture(L"clock", L"clock") +{ + rot = rota = 0.0; + m_dataTexture = dataTexture; + m_iPad = iPad; +} + +void ClockTexture::cycleFrames() +{ + + Minecraft *mc = Minecraft::GetInstance(); + + double rott = 0; + if (m_iPad >= 0 && m_iPad < XUSER_MAX_COUNT && mc->level != nullptr && mc->localplayers[m_iPad] != nullptr) + { + float time = mc->localplayers[m_iPad]->level->getTimeOfDay(1); + rott = time; + if (!mc->localplayers[m_iPad]->level->dimension->isNaturalDimension()) + { + rott = Math::random(); + } + } + else + { + // 4J Stu - For the static version, pretend we are already on a frame other than 0 + frame = 1; + } + + double rotd = rott - rot; + while (rotd < -.5) + rotd += 1.0; + while (rotd >= .5) + rotd -= 1.0; + if (rotd < -1) rotd = -1; + if (rotd > 1) rotd = 1; + rota += rotd * 0.1; + rota *= 0.8; + + rot += rota; + + // 4J Stu - We share data with another texture + if(m_dataTexture != nullptr) + { + int newFrame = static_cast((rot + 1.0) * m_dataTexture->frames->size()) % m_dataTexture->frames->size(); + while (newFrame < 0) + { + newFrame = (newFrame + m_dataTexture->frames->size()) % m_dataTexture->frames->size(); + } + if (newFrame != frame) + { + frame = newFrame; + m_dataTexture->source->blit(x, y, m_dataTexture->frames->at(this->frame), rotated); + } + } + else + { + int newFrame = static_cast((rot + 1.0) * frames->size()) % frames->size(); + while (newFrame < 0) + { + newFrame = (newFrame + frames->size()) % frames->size(); + } + if (newFrame != frame) + { + frame = newFrame; + source->blit(x, y, frames->at(this->frame), rotated); + } + } +} + +int ClockTexture::getSourceWidth() const +{ + return source->getWidth(); +} + +int ClockTexture::getSourceHeight() const +{ + return source->getHeight(); +} + +int ClockTexture::getFrames() +{ + if(m_dataTexture == nullptr) + { + return StitchedTexture::getFrames(); + } + else + { + return m_dataTexture->getFrames(); + } +} + +void ClockTexture::freeFrameTextures() +{ + if(m_dataTexture == nullptr) + { + StitchedTexture::freeFrameTextures(); + } +} + +bool ClockTexture::hasOwnData() +{ + return m_dataTexture == nullptr; +} \ No newline at end of file diff --git a/Minecraft.Client/ClockTexture.h b/Minecraft.Client/ClockTexture.h new file mode 100644 index 0000000..e042887 --- /dev/null +++ b/Minecraft.Client/ClockTexture.h @@ -0,0 +1,21 @@ +#pragma once +#include "StitchedTexture.h" + +class ClockTexture : public StitchedTexture +{ +private: + double rot, rota; + int m_iPad; + ClockTexture* m_dataTexture; + +public: + ClockTexture(); + ClockTexture(int iPad, ClockTexture *dataTexture); + void cycleFrames(); + + virtual int getSourceWidth() const; + virtual int getSourceHeight() const; + virtual int getFrames(); + virtual void freeFrameTextures(); // 4J added + virtual bool hasOwnData(); // 4J Added +}; \ No newline at end of file diff --git a/Minecraft.Client/CommandDispatcher.cpp b/Minecraft.Client/CommandDispatcher.cpp new file mode 100644 index 0000000..b8c7ae7 --- /dev/null +++ b/Minecraft.Client/CommandDispatcher.cpp @@ -0,0 +1,149 @@ +#include "stdafx.h" +#include "CommandDispatcher.h" +#include +#include "../Minecraft.World/StringHelpers.h" + +#include "OPCommand.h" +#include "TeleportCommand.h" +#include "StopCommand.h" +#include "SaveCommand.h" + +CRITICAL_SECTION CommandDispatcher::m_operatorPlayersCS; +std::vector CommandDispatcher::operatorPlayerXUIDS; + +std::vector CommandDispatcher::registeredCommands = { + new OPCommand(L"op", L""), + new TeleportCommand(L"teleport", L""), + new StopCommand(L"stop", L""), + new SaveCommand(L"save", L""), +}; + +const std::wstring CommandDispatcher::NoPermissionMessage = L"No Permission To Run This Command"; + +CommandDispatcher::CommandDispatcher(MinecraftServer* server) { + InitializeCriticalSection(&m_operatorPlayersCS); +} + +CommandDispatcher::~CommandDispatcher() +{ + DeleteCriticalSection(&m_operatorPlayersCS); +} + +vector SplitConsoleCommand(const std::wstring& command); + +bool CommandDispatcher::OnConsoleCommand(const std::wstring& rawMessage) { + wstring command = trimString(rawMessage); + if (command.empty()) return true; + + if (command[0] == L'/') command = trimString(command.substr(1)); + + vector args = SplitConsoleCommand(command); + if (args.empty()) return true; + + const std::wstring commandName = toLower(args[0]); + + args.erase(args.begin()); //remove command name from args + + for (int i = 0; i < CommandDispatcher::registeredCommands.size(); i++) { + GenericCommand* command = CommandDispatcher::registeredCommands[i]; + + if (lstrcmpW(command->GetName(), commandName.c_str()) == 0) { + command->Execute(CommandSenderType::ConsoleSender, args, nullptr); + break; + } + } + + return true; +} + +bool CommandDispatcher::OnPlayerCommand(std::shared_ptr sender, const std::wstring& rawMessage) { + wstring command = trimString(rawMessage); + if (command.empty()) return true; + + if (command[0] == L'/') command = trimString(command.substr(1)); + + vector args = SplitConsoleCommand(command); + if (args.empty()) return true; + + const std::wstring commandName = toLower(args[0]); + + args.erase(args.begin()); //remove command name from args + + for (int i = 0; i < CommandDispatcher::registeredCommands.size(); i++) { + GenericCommand* command = CommandDispatcher::registeredCommands[i]; + + if (lstrcmpW(command->GetName(), commandName.c_str()) == 0) { + command->Execute(CommandSenderType::PlayerSender, args, sender); + break; + } + } + + return true; +} + +bool CommandDispatcher::IsPlayerOperator(PlayerUID xuid) { + bool returnValue = false; + EnterCriticalSection(&m_operatorPlayersCS); + for (int i = 0; i < CommandDispatcher::operatorPlayerXUIDS.size(); i++) { + PlayerUID savedUID = CommandDispatcher::operatorPlayerXUIDS[i]; + if (xuid == savedUID) { + returnValue = true; + break; + } + } + LeaveCriticalSection(&m_operatorPlayersCS); + + return returnValue; +} + +bool CommandDispatcher::ChangeOperatorState(PlayerUID xuid, bool newValue) { + bool currentState = IsPlayerOperator(xuid); + bool returnValue = false; + EnterCriticalSection(&m_operatorPlayersCS); + + if (newValue && !currentState) { + CommandDispatcher::operatorPlayerXUIDS.push_back(xuid); + returnValue = true; + } else if (!newValue && currentState) { + auto it = std::find(CommandDispatcher::operatorPlayerXUIDS.begin(), CommandDispatcher::operatorPlayerXUIDS.end(), xuid); + if (it != CommandDispatcher::operatorPlayerXUIDS.end()) { + CommandDispatcher::operatorPlayerXUIDS.erase(it); + } + returnValue = true; + } + LeaveCriticalSection(&m_operatorPlayersCS); + + return returnValue; +} + + +std::vector SplitConsoleCommand(const std::wstring& command) +{ + std::vector tokens; + std::wstring current; + bool inQuotes = false; + + for (size_t i = 0; i < command.size(); i++) { + wchar_t c = command[i]; + + if (c == L'"') { + inQuotes = !inQuotes; + continue; + } + + if (iswspace(c) && !inQuotes) { + if (!current.empty()) { + tokens.push_back(current); + current.clear(); + } + } else { + current += c; + } + } + + if (!current.empty()) { + tokens.push_back(current); + } + + return tokens; +} \ No newline at end of file diff --git a/Minecraft.Client/CommandDispatcher.h b/Minecraft.Client/CommandDispatcher.h new file mode 100644 index 0000000..d303ee7 --- /dev/null +++ b/Minecraft.Client/CommandDispatcher.h @@ -0,0 +1,26 @@ +#pragma once +#include +#include +#include "GenericCommand.h" + +class CommandDispatcher { +public: + static const std::wstring NoPermissionMessage; + + CommandDispatcher(MinecraftServer* server); + ~CommandDispatcher(); + + static bool OnConsoleCommand(const std::wstring& rawMessage); + static bool OnPlayerCommand(std::shared_ptr sender, const std::wstring& rawMessage); + static bool IsPlayerOperator(PlayerUID player); + + static bool ChangeOperatorState(PlayerUID xuid, bool newValue); +private: + static std::vector registeredCommands; + + static CRITICAL_SECTION m_operatorPlayersCS; + + //todo: add actual permission system + static std::vector operatorPlayerXUIDS; + +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/App_Defines.h b/Minecraft.Client/Common/App_Defines.h new file mode 100644 index 0000000..7e96896 --- /dev/null +++ b/Minecraft.Client/Common/App_Defines.h @@ -0,0 +1,156 @@ +#pragma once + + +// 4J Stu - For non-splitscreen menus, default to this screen +#define DEFAULT_XUI_MENU_USER 0 +#define MULTITHREAD_ENABLE +#define MAX_CAPENAME_SIZE 32 +#define MAX_BANNERNAME_SIZE 32 +#define MAX_TMSFILENAME_SIZE 40 +#define MAX_TYPE_SIZE 32 +#define MAX_EXTENSION_TYPES 3 + +#ifdef __PSVITA__ +#define MAX_LOCAL_PLAYERS 1 +#else +#define MAX_LOCAL_PLAYERS 4 +#endif + +// 4J Stu - Required for sentient reporting of whether the volume level has been changed or not +#define DEFAULT_VOLUME_LEVEL 100 + +#define GAME_HOST_OPTION_BITMASK_DIFFICULTY 0x00000003 // 0 - 3 +#define GAME_HOST_OPTION_BITMASK_FRIENDSOFFRIENDS 0x00000004 +#define GAME_HOST_OPTION_BITMASK_GAMERTAGS 0x00000008 +#define GAME_HOST_OPTION_BITMASK_GAMETYPE 0x00000030 +#define GAME_HOST_OPTION_BITMASK_LEVELTYPE 0x00000040 +#define GAME_HOST_OPTION_BITMASK_STRUCTURES 0x00000080 +#define GAME_HOST_OPTION_BITMASK_BONUSCHEST 0x00000100 +#define GAME_HOST_OPTION_BITMASK_BEENINCREATIVE 0x00000200 +#define GAME_HOST_OPTION_BITMASK_PVP 0x00000400 +#define GAME_HOST_OPTION_BITMASK_TRUSTPLAYERS 0x00000800 +#define GAME_HOST_OPTION_BITMASK_TNT 0x00001000 +#define GAME_HOST_OPTION_BITMASK_FIRESPREADS 0x00002000 +#define GAME_HOST_OPTION_BITMASK_HOSTFLY 0x00004000 +#define GAME_HOST_OPTION_BITMASK_HOSTHUNGER 0x00008000 +#define GAME_HOST_OPTION_BITMASK_HOSTINVISIBLE 0x00010000 +#define GAME_HOST_OPTION_BITMASK_BEDROCKFOG 0x00020000 +#define GAME_HOST_OPTION_BITMASK_DISABLESAVE 0x00040000 +#define GAME_HOST_OPTION_BITMASK_NOTOWNER 0x00080000 +#define GAME_HOST_OPTION_BITMASK_WORLDSIZE 0x00700000 // 3 bits, 5 values (unset(0), classic(1), small(2), medium(3), large(4)) +#define GAME_HOST_OPTION_BITMASK_MOBGRIEFING 0x00800000 +#define GAME_HOST_OPTION_BITMASK_KEEPINVENTORY 0x01000000 +#define GAME_HOST_OPTION_BITMASK_DOMOBSPAWNING 0x02000000 +#define GAME_HOST_OPTION_BITMASK_DOMOBLOOT 0x04000000 +#define GAME_HOST_OPTION_BITMASK_DOTILEDROPS 0x08000000 +#define GAME_HOST_OPTION_BITMASK_NATURALREGEN 0x10000000 +#define GAME_HOST_OPTION_BITMASK_DODAYLIGHTCYCLE 0x20000000 +#define GAME_HOST_OPTION_BITMASK_ALL 0xFFFFFFFF + +#define GAME_HOST_OPTION_BITMASK_WORLDSIZE_BITSHIFT 20 + +enum EGameHostOptionWorldSize +{ + e_worldSize_Unknown = 0, + e_worldSize_Classic, + e_worldSize_Small, + e_worldSize_Medium, + e_worldSize_Large +}; + + +#ifdef _XBOX +#define PROFILE_VERSION_1 1 +#define PROFILE_VERSION_2 2 +#define PROFILE_VERSION_3 3 +#define PROFILE_VERSION_4 4 +#define PROFILE_VERSION_5 6 +#define PROFILE_VERSION_6 7 +#define PROFILE_VERSION_7 8 +#endif +#define PROFILE_VERSION_8 10 +#define PROFILE_VERSION_9 11 + +#define PROFILE_VERSION_10 12 + +// 4J-JEV: New Statistics and Achievements for 'NexGen' platforms. +#define PROFILE_VERSION_11 13 + +// Java 1.6.4 +#define PROFILE_VERSION_12 14 + +#define PROFILE_VERSION_CURRENT PROFILE_VERSION_12 + +#define MAX_FAVORITE_SKINS 10 // these are stored in the profile data so keep it small + + + + + +// defines for game settings - uiBitmaskValues + +#define GAMESETTING_CLOUDS 0x00000001 +#define GAMESETTING_ONLINE 0x00000002 +#define GAMESETTING_INVITEONLY 0x00000004 +#define GAMESETTING_FRIENDSOFFRIENDS 0x00000008 +#define GAMESETTING_DISPLAYUPDATEMSG 0x00000030 +#define GAMESETTING_BEDROCKFOG 0x00000040 +#define GAMESETTING_DISPLAYHUD 0x00000080 +#define GAMESETTING_DISPLAYHAND 0x00000100 +#define GAMESETTING_CUSTOMSKINANIM 0x00000200 +#define GAMESETTING_DEATHMESSAGES 0x00000400 +#define GAMESETTING_UISIZE 0x00001800 +#define GAMESETTING_UISIZE_SPLITSCREEN 0x00006000 +#define GAMESETTING_ANIMATEDCHARACTER 0x00008000 +#define GAMESETTING_PS3EULAREAD 0x00010000 +#define GAMESETTING_PSVITANETWORKMODEADHOC 0x00020000 + + +// defines for languages + +#define MINECRAFT_LANGUAGE_DEFAULT 0x00 +#define MINECRAFT_LANGUAGE_ENGLISH 0x01 +#define MINECRAFT_LANGUAGE_JAPANESE 0x02 +#define MINECRAFT_LANGUAGE_GERMAN 0x03 +#define MINECRAFT_LANGUAGE_FRENCH 0x04 +#define MINECRAFT_LANGUAGE_SPANISH 0x05 +#define MINECRAFT_LANGUAGE_ITALIAN 0x06 +#define MINECRAFT_LANGUAGE_KOREAN 0x07 +#define MINECRAFT_LANGUAGE_TCHINESE 0x08 +#define MINECRAFT_LANGUAGE_PORTUGUESE 0x09 +#define MINECRAFT_LANGUAGE_BRAZILIAN 0x0A +#define MINECRAFT_LANGUAGE_RUSSIAN 0x0B +#define MINECRAFT_LANGUAGE_DUTCH 0x0C +#define MINECRAFT_LANGUAGE_FINISH 0x0D +#define MINECRAFT_LANGUAGE_SWEDISH 0x0E +#define MINECRAFT_LANGUAGE_DANISH 0x0F +#define MINECRAFT_LANGUAGE_NORWEGIAN 0x10 +#define MINECRAFT_LANGUAGE_POLISH 0x11 +#define MINECRAFT_LANGUAGE_TURKISH 0x12 +#define MINECRAFT_LANGUAGE_LATINAMERICANSPANISH 0x13 +#define MINECRAFT_LANGUAGE_GREEK 0x14 + + + /* Match these + + const int XC_LANGUAGE_ENGLISH =1; + const int XC_LANGUAGE_JAPANESE =2; + const int XC_LANGUAGE_GERMAN =3; + const int XC_LANGUAGE_FRENCH =4; + const int XC_LANGUAGE_SPANISH =5; + const int XC_LANGUAGE_ITALIAN =6; + const int XC_LANGUAGE_KOREAN =7; + const int XC_LANGUAGE_TCHINESE =8; + const int XC_LANGUAGE_PORTUGUESE =9; + const int XC_LANGUAGE_BRAZILIAN =10; + const int XC_LANGUAGE_RUSSIAN =11; + const int XC_LANGUAGE_DUTCH =12; + const int XC_LANGUAGE_FINISH =13; + const int XC_LANGUAGE_SWEDISH =14; + const int XC_LANGUAGE_DANISH =15; + const int XC_LANGUAGE_NORWEGIAN =16; + const int XC_LANGUAGE_POLISH =17; + const int XC_LANGUAGE_TURKISH =18; + const int XC_LANGUAGE_LATINAMERICANSPANISH =19; + const int XC_LANGUAGE_GREEK =20; + */ diff --git a/Minecraft.Client/Common/App_enums.h b/Minecraft.Client/Common/App_enums.h new file mode 100644 index 0000000..9553911 --- /dev/null +++ b/Minecraft.Client/Common/App_enums.h @@ -0,0 +1,951 @@ +#pragma once + +enum eFileExtensionType +{ + eFileExtensionType_PNG=0, + eFileExtensionType_INF, + eFileExtensionType_DAT, +}; + +enum eTMSFileType +{ + eTMSFileType_MinecraftStore=0, + eTMSFileType_TexturePack, + eTMSFileType_All +}; + +enum eTPDFileType +{ + eTPDFileType_Loc=0, + eTPDFileType_Icon, +// eTPDFileType_Banner, + eTPDFileType_Comparison, +}; + +enum eFont +{ + eFont_European=0, + eFont_Korean, + eFont_Japanese, + eFont_Chinese, + eFont_None, // to fallback to nothing +}; + +enum eXuiAction +{ + eAppAction_Idle=0, + eAppAction_SaveGame, + eAppAction_SaveGameCapturedThumbnail, + eAppAction_ExitWorld, + eAppAction_ExitWorldCapturedThumbnail, + eAppAction_ExitWorldTrial, + //eAppAction_ExitGameFatalLoadError, + eAppAction_Respawn, + eAppAction_WaitForRespawnComplete, + eAppAction_PrimaryPlayerSignedOut, + eAppAction_PrimaryPlayerSignedOutReturned, + eAppAction_PrimaryPlayerSignedOutReturned_Menus, + eAppAction_ExitPlayer, // secondary player + eAppAction_ExitPlayerPreLogin, + eAppAction_TrialOver, + eAppAction_ExitTrial, + eAppAction_WaitForDimensionChangeComplete, + eAppAction_SocialPost, + eAppAction_SocialPostScreenshot, + eAppAction_EthernetDisconnected, + eAppAction_EthernetDisconnectedReturned, + eAppAction_EthernetDisconnectedReturned_Menus, + eAppAction_ExitAndJoinFromInvite, + eAppAction_DashboardTrialJoinFromInvite, + eAppAction_ExitAndJoinFromInviteConfirmed, + eAppAction_JoinFromInvite, + eAppAction_ChangeSessionType, + eAppAction_SetDefaultOptions, + eAppAction_LocalPlayerJoined, + eAppAction_RemoteServerSave, + eAppAction_WaitRemoteServerSaveComplete, + eAppAction_FailedToJoinNoPrivileges, + eAppAction_AutosaveSaveGame, + eAppAction_AutosaveSaveGameCapturedThumbnail, + eAppAction_ProfileReadError, + eAppAction_DisplayLavaMessage, + eAppAction_BanLevel, + eAppAction_LevelInBanLevelList, + + eAppAction_ReloadTexturePack, + eAppAction_ReloadFont, + eAppAction_TexturePackRequired, // when the user has joined from invite, but doesn't have the texture pack + +#ifdef __ORBIS__ + eAppAction_OptionsSaveNoSpace, +#endif + eAppAction_DebugText, + +}; + + + +enum eTMSAction +{ + eTMSAction_Idle=0, + eTMSAction_TMS_RetrieveFiles_Complete, + eTMSAction_TMSPP_RetrieveFiles_CreateLoad_SignInReturned, + eTMSAction_TMSPP_RetrieveFiles_RunPlayGame, + eTMSAction_TMSPP_RetrieveFiles_HelpAndOptions, + eTMSAction_TMSPP_RetrieveFiles_DLCMain, + eTMSAction_TMSPP_GlobalFileList, + eTMSAction_TMSPP_GlobalFileList_Waiting, +// eTMSAction_TMSPP_ConfigFile, +// eTMSAction_TMSPP_ConfigFile_Waiting, + eTMSAction_TMSPP_UserFileList, + eTMSAction_TMSPP_UserFileList_Waiting, + eTMSAction_TMSPP_XUIDSFile, + eTMSAction_TMSPP_XUIDSFile_Waiting, + eTMSAction_TMSPP_DLCFile, + eTMSAction_TMSPP_DLCFile_Waiting, + eTMSAction_TMSPP_BannedListFile, + eTMSAction_TMSPP_BannedListFile_Waiting, + eTMSAction_TMSPP_RetrieveFiles_Complete, + eTMSAction_TMSPP_DLCFileOnly, + eTMSAction_TMSPP_RetrieveUserFilelist_DLCFileOnly, +}; + +// The server runs on its own thread, so we need to call its actions there rather than where all other Xui actions are performed +// In general these are debugging options +enum eXuiServerAction +{ + eXuiServerAction_Idle=0, + eXuiServerAction_StopServer, + eXuiServerAction_SaveGame, + eXuiServerAction_AutoSaveGame, + eXuiServerAction_SpawnMob, // Debug + eXuiServerAction_PauseServer, + eXuiServerAction_ToggleRain, // Debug + eXuiServerAction_ToggleThunder, // Debug + eXuiServerAction_ServerSettingChanged_Gamertags, + eXuiServerAction_ServerSettingChanged_Difficulty, + eXuiServerAction_ExportSchematic, //Debug + eXuiServerAction_ServerSettingChanged_BedrockFog, + eXuiServerAction_SetCameraLocation, //Debug +}; + +enum eGameSetting +{ + eGameSetting_MusicVolume=0, + eGameSetting_SoundFXVolume, + eGameSetting_RenderDistance, + eGameSetting_Gamma, + eGameSetting_FOV, + eGameSetting_Difficulty, + eGameSetting_Sensitivity_InGame, + eGameSetting_Sensitivity_InMenu, + eGameSetting_ViewBob, + eGameSetting_ControlScheme, + eGameSetting_ControlInvertLook, + eGameSetting_ControlSouthPaw, + eGameSetting_SplitScreenVertical, + eGameSetting_GamertagsVisible, + // Interim TU 1.6.6 + eGameSetting_Autosave, + eGameSetting_DisplaySplitscreenGamertags, + eGameSetting_Hints, + eGameSetting_InterfaceOpacity, + eGameSetting_Tooltips, + // TU5 + eGameSetting_Clouds, + eGameSetting_Online, + eGameSetting_InviteOnly, + eGameSetting_FriendsOfFriends, + eGameSetting_DisplayUpdateMessage, + + // TU6 + eGameSetting_BedrockFog, + eGameSetting_DisplayHUD, + eGameSetting_DisplayHand, + + // TU7 + eGameSetting_CustomSkinAnim, + + // TU9 + eGameSetting_DeathMessages, + eGameSetting_UISize, + eGameSetting_UISizeSplitscreen, + eGameSetting_AnimatedCharacter, + + // PS3 + eGameSetting_PS3_EULA_Read, + + // PSVita + eGameSetting_PSVita_NetworkModeAdhoc, + + +}; + + + +enum eGameMode +{ + eMode_Singleplayer, + eMode_Multiplayer +}; + + +enum eMinecraftColour +{ + eMinecraftColour_NOT_SET, + + eMinecraftColour_Foliage_Evergreen, + eMinecraftColour_Foliage_Birch, + eMinecraftColour_Foliage_Default, + eMinecraftColour_Foliage_Common, + eMinecraftColour_Foliage_Ocean, + eMinecraftColour_Foliage_Plains, + eMinecraftColour_Foliage_Desert, + eMinecraftColour_Foliage_ExtremeHills, + eMinecraftColour_Foliage_Forest, + eMinecraftColour_Foliage_Taiga, + eMinecraftColour_Foliage_Swampland, + eMinecraftColour_Foliage_River, + eMinecraftColour_Foliage_Hell, + eMinecraftColour_Foliage_Sky, + eMinecraftColour_Foliage_FrozenOcean, + eMinecraftColour_Foliage_FrozenRiver, + eMinecraftColour_Foliage_IcePlains, + eMinecraftColour_Foliage_IceMountains, + eMinecraftColour_Foliage_MushroomIsland, + eMinecraftColour_Foliage_MushroomIslandShore, + eMinecraftColour_Foliage_Beach, + eMinecraftColour_Foliage_DesertHills, + eMinecraftColour_Foliage_ForestHills, + eMinecraftColour_Foliage_TaigaHills, + eMinecraftColour_Foliage_ExtremeHillsEdge, + eMinecraftColour_Foliage_Jungle, + eMinecraftColour_Foliage_JungleHills, + + eMinecraftColour_Grass_Common, + eMinecraftColour_Grass_Ocean, + eMinecraftColour_Grass_Plains, + eMinecraftColour_Grass_Desert, + eMinecraftColour_Grass_ExtremeHills, + eMinecraftColour_Grass_Forest, + eMinecraftColour_Grass_Taiga, + eMinecraftColour_Grass_Swampland, + eMinecraftColour_Grass_River, + eMinecraftColour_Grass_Hell, + eMinecraftColour_Grass_Sky, + eMinecraftColour_Grass_FrozenOcean, + eMinecraftColour_Grass_FrozenRiver, + eMinecraftColour_Grass_IcePlains, + eMinecraftColour_Grass_IceMountains, + eMinecraftColour_Grass_MushroomIsland, + eMinecraftColour_Grass_MushroomIslandShore, + eMinecraftColour_Grass_Beach, + eMinecraftColour_Grass_DesertHills, + eMinecraftColour_Grass_ForestHills, + eMinecraftColour_Grass_TaigaHills, + eMinecraftColour_Grass_ExtremeHillsEdge, + eMinecraftColour_Grass_Jungle, + eMinecraftColour_Grass_JungleHills, + + eMinecraftColour_Water_Ocean, + eMinecraftColour_Water_Plains, + eMinecraftColour_Water_Desert, + eMinecraftColour_Water_ExtremeHills, + eMinecraftColour_Water_Forest, + eMinecraftColour_Water_Taiga, + eMinecraftColour_Water_Swampland, + eMinecraftColour_Water_River, + eMinecraftColour_Water_Hell, + eMinecraftColour_Water_Sky, + eMinecraftColour_Water_FrozenOcean, + eMinecraftColour_Water_FrozenRiver, + eMinecraftColour_Water_IcePlains, + eMinecraftColour_Water_IceMountains, + eMinecraftColour_Water_MushroomIsland, + eMinecraftColour_Water_MushroomIslandShore, + eMinecraftColour_Water_Beach, + eMinecraftColour_Water_DesertHills, + eMinecraftColour_Water_ForestHills, + eMinecraftColour_Water_TaigaHills, + eMinecraftColour_Water_ExtremeHillsEdge, + eMinecraftColour_Water_Jungle, + eMinecraftColour_Water_JungleHills, + + eMinecraftColour_Sky_Ocean, + eMinecraftColour_Sky_Plains, + eMinecraftColour_Sky_Desert, + eMinecraftColour_Sky_ExtremeHills, + eMinecraftColour_Sky_Forest, + eMinecraftColour_Sky_Taiga, + eMinecraftColour_Sky_Swampland, + eMinecraftColour_Sky_River, + eMinecraftColour_Sky_Hell, + eMinecraftColour_Sky_Sky, + eMinecraftColour_Sky_FrozenOcean, + eMinecraftColour_Sky_FrozenRiver, + eMinecraftColour_Sky_IcePlains, + eMinecraftColour_Sky_IceMountains, + eMinecraftColour_Sky_MushroomIsland, + eMinecraftColour_Sky_MushroomIslandShore, + eMinecraftColour_Sky_Beach, + eMinecraftColour_Sky_DesertHills, + eMinecraftColour_Sky_ForestHills, + eMinecraftColour_Sky_TaigaHills, + eMinecraftColour_Sky_ExtremeHillsEdge, + eMinecraftColour_Sky_Jungle, + eMinecraftColour_Sky_JungleHills, + + eMinecraftColour_Tile_RedstoneDust, + eMinecraftColour_Tile_RedstoneDustUnlit, + eMinecraftColour_Tile_RedstoneDustLitMin, + eMinecraftColour_Tile_RedstoneDustLitMax, + eMinecraftColour_Tile_StemMin, + eMinecraftColour_Tile_StemMax, + eMinecraftColour_Tile_WaterLily, + + eMinecraftColour_Sky_Dawn_Dark, + eMinecraftColour_Sky_Dawn_Bright, + + eMinecraftColour_Material_None, + eMinecraftColour_Material_Grass, + eMinecraftColour_Material_Sand, + eMinecraftColour_Material_Cloth, + eMinecraftColour_Material_Fire, + eMinecraftColour_Material_Ice, + eMinecraftColour_Material_Metal, + eMinecraftColour_Material_Plant, + eMinecraftColour_Material_Snow, + eMinecraftColour_Material_Clay, + eMinecraftColour_Material_Dirt, + eMinecraftColour_Material_Stone, + eMinecraftColour_Material_Water, + eMinecraftColour_Material_Wood, + eMinecraftColour_Material_Emerald, + + eMinecraftColour_Particle_Note_00, + eMinecraftColour_Particle_Note_01, + eMinecraftColour_Particle_Note_02, + eMinecraftColour_Particle_Note_03, + eMinecraftColour_Particle_Note_04, + eMinecraftColour_Particle_Note_05, + eMinecraftColour_Particle_Note_06, + eMinecraftColour_Particle_Note_07, + eMinecraftColour_Particle_Note_08, + eMinecraftColour_Particle_Note_09, + eMinecraftColour_Particle_Note_10, + eMinecraftColour_Particle_Note_11, + eMinecraftColour_Particle_Note_12, + eMinecraftColour_Particle_Note_13, + eMinecraftColour_Particle_Note_14, + eMinecraftColour_Particle_Note_15, + eMinecraftColour_Particle_Note_16, + eMinecraftColour_Particle_Note_17, + eMinecraftColour_Particle_Note_18, + eMinecraftColour_Particle_Note_19, + eMinecraftColour_Particle_Note_20, + eMinecraftColour_Particle_Note_21, + eMinecraftColour_Particle_Note_22, + eMinecraftColour_Particle_Note_23, + eMinecraftColour_Particle_Note_24, + + eMinecraftColour_Particle_NetherPortal, + eMinecraftColour_Particle_EnderPortal, + eMinecraftColour_Particle_Smoke, + eMinecraftColour_Particle_Ender, + eMinecraftColour_Particle_Explode, + eMinecraftColour_Particle_HugeExplosion, + eMinecraftColour_Particle_DripWater, + eMinecraftColour_Particle_DripLavaStart, + eMinecraftColour_Particle_DripLavaEnd, + eMinecraftColour_Particle_EnchantmentTable, + eMinecraftColour_Particle_DragonBreathMin, + eMinecraftColour_Particle_DragonBreathMax, + eMinecraftColour_Particle_Suspend, + eMinecraftColour_Particle_CritStart, + eMinecraftColour_Particle_CritEnd, + + eMinecraftColour_Effect_MovementSpeed, + eMinecraftColour_Effect_MovementSlowDown, + eMinecraftColour_Effect_DigSpeed, + eMinecraftColour_Effect_DigSlowdown, + eMinecraftColour_Effect_DamageBoost, + eMinecraftColour_Effect_Heal, + eMinecraftColour_Effect_Harm, + eMinecraftColour_Effect_Jump, + eMinecraftColour_Effect_Confusion, + eMinecraftColour_Effect_Regeneration, + eMinecraftColour_Effect_DamageResistance, + eMinecraftColour_Effect_FireResistance, + eMinecraftColour_Effect_WaterBreathing, + eMinecraftColour_Effect_Invisiblity, + eMinecraftColour_Effect_Blindness, + eMinecraftColour_Effect_NightVision, + eMinecraftColour_Effect_Hunger, + eMinecraftColour_Effect_Weakness, + eMinecraftColour_Effect_Poison, + eMinecraftColour_Effect_Wither, + eMinecraftColour_Effect_HealthBoost, + eMinecraftColour_Effect_Absoprtion, + eMinecraftColour_Effect_Saturation, + + eMinecraftColour_Potion_BaseColour, + + eMinecraftColour_Mob_Creeper_Colour1, + eMinecraftColour_Mob_Creeper_Colour2, + eMinecraftColour_Mob_Skeleton_Colour1, + eMinecraftColour_Mob_Skeleton_Colour2, + eMinecraftColour_Mob_Spider_Colour1, + eMinecraftColour_Mob_Spider_Colour2, + eMinecraftColour_Mob_Zombie_Colour1, + eMinecraftColour_Mob_Zombie_Colour2, + eMinecraftColour_Mob_Slime_Colour1, + eMinecraftColour_Mob_Slime_Colour2, + eMinecraftColour_Mob_Ghast_Colour1, + eMinecraftColour_Mob_Ghast_Colour2, + eMinecraftColour_Mob_PigZombie_Colour1, + eMinecraftColour_Mob_PigZombie_Colour2, + eMinecraftColour_Mob_Enderman_Colour1, + eMinecraftColour_Mob_Enderman_Colour2, + eMinecraftColour_Mob_CaveSpider_Colour1, + eMinecraftColour_Mob_CaveSpider_Colour2, + eMinecraftColour_Mob_Silverfish_Colour1, + eMinecraftColour_Mob_Silverfish_Colour2, + eMinecraftColour_Mob_Blaze_Colour1, + eMinecraftColour_Mob_Blaze_Colour2, + eMinecraftColour_Mob_LavaSlime_Colour1, + eMinecraftColour_Mob_LavaSlime_Colour2, + eMinecraftColour_Mob_Pig_Colour1, + eMinecraftColour_Mob_Pig_Colour2, + eMinecraftColour_Mob_Sheep_Colour1, + eMinecraftColour_Mob_Sheep_Colour2, + eMinecraftColour_Mob_Cow_Colour1, + eMinecraftColour_Mob_Cow_Colour2, + eMinecraftColour_Mob_Chicken_Colour1, + eMinecraftColour_Mob_Chicken_Colour2, + eMinecraftColour_Mob_Squid_Colour1, + eMinecraftColour_Mob_Squid_Colour2, + eMinecraftColour_Mob_Wolf_Colour1, + eMinecraftColour_Mob_Wolf_Colour2, + eMinecraftColour_Mob_MushroomCow_Colour1, + eMinecraftColour_Mob_MushroomCow_Colour2, + eMinecraftColour_Mob_Ocelot_Colour1, + eMinecraftColour_Mob_Ocelot_Colour2, + eMinecraftColour_Mob_Villager_Colour1, + eMinecraftColour_Mob_Villager_Colour2, + eMinecraftColour_Mob_Bat_Colour1, + eMinecraftColour_Mob_Bat_Colour2, + eMinecraftColour_Mob_Witch_Colour1, + eMinecraftColour_Mob_Witch_Colour2, + eMinecraftColour_Mob_Horse_Colour1, + eMinecraftColour_Mob_Horse_Colour2, + + eMinecraftColour_Armour_Default_Leather_Colour, + + eMinecraftColour_Under_Water_Clear_Colour, + eMinecraftColour_Under_Lava_Clear_Colour, + eMinecraftColour_In_Cloud_Base_Colour, + + eMinecraftColour_Under_Water_Fog_Colour, + eMinecraftColour_Under_Lava_Fog_Colour, + eMinecraftColour_In_Cloud_Fog_Colour, + + eMinecraftColour_Default_Fog_Colour, + eMinecraftColour_Nether_Fog_Colour, + eMinecraftColour_End_Fog_Colour, + + eMinecraftColour_Sign_Text, + eMinecraftColour_Map_Text, + + eMinecraftColour_Leash_Light_Colour, + eMinecraftColour_Leash_Dark_Colour, + + eMinecraftColour_Fire_Overlay, + + eHTMLColor_0, + eHTMLColor_1, + eHTMLColor_2, + eHTMLColor_3, + eHTMLColor_4, + eHTMLColor_5, + eHTMLColor_6, + eHTMLColor_7, + eHTMLColor_8, + eHTMLColor_9, + eHTMLColor_a, + eHTMLColor_b, + eHTMLColor_c, + eHTMLColor_d, + eHTMLColor_e, + eHTMLColor_f, + eHTMLColor_0_dark, + eHTMLColor_1_dark, + eHTMLColor_2_dark, + eHTMLColor_3_dark, + eHTMLColor_4_dark, + eHTMLColor_5_dark, + eHTMLColor_6_dark, + eHTMLColor_7_dark, + eHTMLColor_8_dark, + eHTMLColor_9_dark, + eHTMLColor_a_dark, + eHTMLColor_b_dark, + eHTMLColor_c_dark, + eHTMLColor_d_dark, + eHTMLColor_e_dark, + eHTMLColor_f_dark, + eHTMLColor_T1, + eHTMLColor_T2, + eHTMLColor_T3, + eHTMLColor_Black, + eHTMLColor_White, + + eTextColor_Enchant, + eTextColor_EnchantFocus, + eTextColor_EnchantDisabled, + eTextColor_RenamedItemTitle, + + //eHTMLColor_0 = 0x000000, //r:0 , g: 0, b: 0, i: 0 + //eHTMLColor_1 = 0x0000aa, //r:0 , g: 0, b: aa, i: 1 // blue, quite dark + //eHTMLColor_2 = 0x109e10, // Changed by request of Dave //0x00aa00, //r:0 , g: aa, b: 0, i: 2 // green + //eHTMLColor_3 = 0x109e9e, // Changed by request of Dave //0x00aaaa, //r:0 , g: aa, b: aa, i: 3 // cyan + //eHTMLColor_4 = 0xaa0000, //r:aa , g: 0, b: 0, i: 4 // red + //eHTMLColor_5 = 0xaa00aa, //r:aa , g: 0, b: aa, i: 5 // purple + //eHTMLColor_6 = 0xffaa00, //r:ff , g: aa, b: 0, i: 6 // orange + //eHTMLColor_7 = 0xaaaaaa, //r:aa , g: aa, b: aa, i: 7 // light gray + //eHTMLColor_8 = 0x555555, //r:55 , g: 55, b: 55, i: 8 // gray + //eHTMLColor_9 = 0x5555ff, //r:55 , g: 55, b: ff, i: 9 // blue + //eHTMLColor_a = 0x55ff55, //r:55 , g: ff, b: 55, i: a // green + //eHTMLColor_b = 0x55ffff, //r:55 , g: ff, b: ff, i: b // cyan + //eHTMLColor_c = 0xff5555, //r:ff , g: 55, b: 55, i: c // red pink + //eHTMLColor_d = 0xff55ff, //r:ff , g: 55, b: ff, i: d // bright pink + //eHTMLColor_e = 0xffff55, //r:ff , g: ff, b: 55, i: e // yellow + //eHTMLColor_f = 0xffffff, //r:ff , g: ff, b: ff, i: f + //eHTMLColor_0_dark = 0x000000, //r:0 , g: 0, b: 0, i: 10 + //eHTMLColor_1_dark = 0x00002a, //r:0 , g: 0, b: 2a, i: 11 + //eHTMLColor_2_dark = 0x002a00, //r:0 , g: 2a, b: 0, i: 12 + //eHTMLColor_3_dark = 0x002a2a, //r:0 , g: 2a, b: 2a, i: 13 + //eHTMLColor_4_dark = 0x2a0000, //r:2a , g: 0, b: 0, i: 14 + //eHTMLColor_5_dark = 0x2a002a, //r:2a , g: 0, b: 2a, i: 15 + //eHTMLColor_6_dark = 0x2a2a00, //r:2a , g: 2a, b: 0, i: 16 + //eHTMLColor_7_dark = 0x2a2a2a, //r:2a , g: 2a, b: 2a, i: 17 // dark gray + //eHTMLColor_8_dark = 0x151515, //r:15 , g: 15, b: 15, i: 18 + //eHTMLColor_9_dark = 0x15153f, //r:15 , g: 15, b: 3f, i: 19 + //eHTMLColor_a_dark = 0x153f15, //r:15 , g: 3f, b: 15, i: 1a + //eHTMLColor_b_dark = 0x153f3f, //r:15 , g: 3f, b: 3f, i: 1b + //eHTMLColor_c_dark = 0x3f1515, //r:3f , g: 15, b: 15, i: 1c // brown + //eHTMLColor_d_dark = 0x3f153f, //r:3f , g: 15, b: 3f, i: 1d + //eHTMLColor_e_dark = 0x3f3f15, //r:3f , g: 3f, b: 15, i: 1e + //eHTMLColor_f_dark = 0x3f3f3f, //r:3f , g: 3f, b: 3f, i: 1f + + eMinecraftColour_COUNT, +}; + +enum eDLCContentType +{ + e_DLC_SkinPack=0, + e_DLC_TexturePacks, + e_DLC_MashupPacks, + e_DLC_Themes, + e_DLC_AvatarItems, + e_DLC_Gamerpics, + e_DLC_MAX_MinecraftStore, + e_DLC_TexturePackData, // for the icon, banner and text + e_DLC_MAX, + e_DLC_NotDefined, +}; + +enum eDLCMarketplaceType +{ + e_Marketplace_Content=0, // skins, texture packs and mashup packs + e_Marketplace_Themes, + e_Marketplace_AvatarItems, + e_Marketplace_Gamerpics, + e_Marketplace_MAX, + e_Marketplace_NotDefined, +}; + +enum eDLCContentState +{ + e_DLC_ContentState_Idle = 0, + e_DLC_ContentState_Retrieving, + e_DLC_ContentState_Retrieved +}; + +enum eTMSContentState +{ + e_TMS_ContentState_Idle = 0, + e_TMS_ContentState_Queued, + e_TMS_ContentState_Retrieving, + e_TMS_ContentState_Retrieved +}; + +enum eXUID +{ + eXUID_Undefined=0, + eXUID_NoName, // name not needed + eXUID_Notch, + eXUID_Carl, + eXUID_Daniel, + eXUID_Deadmau5, + eXUID_DannyBStyle, + eXUID_JulianClark, + eXUID_Millionth, + eXUID_4JPaddy, + eXUID_4JStuart, + eXUID_4JDavid, + eXUID_4JRichard, + eXUID_4JSteven, +}; + + +enum _eTerrainFeatureType +{ + eTerrainFeature_None=0, + eTerrainFeature_Stronghold, + eTerrainFeature_Mineshaft, + eTerrainFeature_Village, + eTerrainFeature_Ravine, + eTerrainFeature_NetherFortress, + eTerrainFeature_StrongholdEndPortal, + eTerrainFeature_Count +}; + +// 4J Stu - Whend adding new options you should consider whether having them on should disable achievements, and if so add them to the CanRecordStatsAndAchievements function +// 4J Stu - These options are now saved in save data, so new options can ONLY be added to the end +enum eGameHostOption +{ + eGameHostOption_Difficulty=0, + eGameHostOption_OnlineGame, // Unused + eGameHostOption_InviteOnly, // Unused + eGameHostOption_FriendsOfFriends, + eGameHostOption_Gamertags, + eGameHostOption_Tutorial, // special case + eGameHostOption_GameType, + eGameHostOption_LevelType, // flat or default + eGameHostOption_Structures, + eGameHostOption_BonusChest, + eGameHostOption_HasBeenInCreative, + eGameHostOption_PvP, + eGameHostOption_TrustPlayers, + eGameHostOption_TNT, + eGameHostOption_FireSpreads, + eGameHostOption_CheatsEnabled, // special case + eGameHostOption_HostCanFly, + eGameHostOption_HostCanChangeHunger, + eGameHostOption_HostCanBeInvisible, + eGameHostOption_BedrockFog, + eGameHostOption_NoHUD, + eGameHostOption_WorldSize, + eGameHostOption_All, + + eGameHostOption_DisableSaving, + eGameHostOption_WasntSaveOwner, // Added for PS3 save transfer, so we can add a nice message in the future instead of the creative mode one + + eGameHostOption_MobGriefing, + eGameHostOption_KeepInventory, + eGameHostOption_DoMobSpawning, + eGameHostOption_DoMobLoot, + eGameHostOption_DoTileDrops, + eGameHostOption_NaturalRegeneration, + eGameHostOption_DoDaylightCycle, +}; + +// 4J-PB - If any new DLC items are added to the TMSFiles, this array needs updated +#ifdef _XBOX +enum _TMSFILES +{ + TMS_SP1=0, + TMS_SP2, + TMS_SP3, + TMS_SP4, + TMS_SP5, + TMS_SP6, + TMS_SPF, + TMS_SPB, + TMS_SPC, + TMS_SPZ, + TMS_SPM, + TMS_SPI, + TMS_SPG, + TMS_SPD1, + TMS_SPSW1, + + TMS_THST, + TMS_THIR, + TMS_THGO, + TMS_THDI, + TMS_THAW, + + TMS_GPAN, + TMS_GPCO, + TMS_GPEN, + TMS_GPFO, + TMS_GPTO, + TMS_GPBA, + TMS_GPFA, + TMS_GPME, + TMS_GPMF, + TMS_GPMM, + TMS_GPSE, + TMS_GPOr, + TMS_GPMi, + TMS_GPMB, + TMS_GPBr, + TMS_GPM1, + TMS_GPM2, + TMS_GPM3, + + TMS_AH_0001, + TMS_AH_0002, + TMS_AH_0003, + TMS_AH_0004, + TMS_AH_0005, + TMS_AH_0006, + TMS_AH_0007, + TMS_AH_0008, + TMS_AH_0009, + TMS_AH_0010, + TMS_AH_0011, + TMS_AH_0012, + TMS_AH_0013, + + TMS_AT_0001, + TMS_AT_0002, + TMS_AT_0003, + TMS_AT_0004, + TMS_AT_0005, + TMS_AT_0006, + TMS_AT_0007, + TMS_AT_0008, + TMS_AT_0009, + TMS_AT_0010, + TMS_AT_0011, + TMS_AT_0012, + TMS_AT_0013, + TMS_AT_0014, + TMS_AT_0015, + TMS_AT_0016, + TMS_AT_0017, + TMS_AT_0018, + TMS_AT_0019, + TMS_AT_0020, + TMS_AT_0021, + TMS_AT_0022, + TMS_AT_0023, + TMS_AT_0024, + TMS_AT_0025, + TMS_AT_0026, + + TMS_AP_0001, + TMS_AP_0002, + TMS_AP_0003, + TMS_AP_0004, + TMS_AP_0005, + TMS_AP_0006, + TMS_AP_0007, + TMS_AP_0009, + TMS_AP_0010, + TMS_AP_0011, + TMS_AP_0012, + TMS_AP_0013, + TMS_AP_0014, + TMS_AP_0015, + TMS_AP_0016, + TMS_AP_0017, + TMS_AP_0018, + + TMS_AP_0019, + TMS_AP_0020, + TMS_AP_0021, + TMS_AP_0022, + TMS_AP_0023, + TMS_AP_0024, + TMS_AP_0025, + TMS_AP_0026, + TMS_AP_0027, + TMS_AP_0028, + TMS_AP_0029, + TMS_AP_0030, + TMS_AP_0031, + TMS_AP_0032, + TMS_AP_0033, + + TMS_AA_0001, + + TMS_MPMA, + TMS_MPMA_DAT, + TMS_MPSR, + TMS_MPSR_DAT, + TMS_MPHA, + TMS_MPHA_DAT, + TMS_MPFE, + TMS_MPFE_DAT, + + TMS_TP01, + TMS_TP01_DAT, + TMS_TP02, + TMS_TP02_DAT, + TMS_TP04, + TMS_TP04_DAT, + TMS_TP05, + TMS_TP05_DAT, + TMS_TP06, + TMS_TP06_DAT, + TMS_TP07, + TMS_TP07_DAT, + TMS_TP08, + TMS_TP08_DAT, + + TMS_COUNT +}; +#endif + +enum EHTMLFontSize +{ + eHTMLSize_Normal, + eHTMLSize_Splitscreen, + eHTMLSize_Tutorial, + eHTMLSize_EndPoem, + + eHTMLSize_COUNT, +}; + +enum EControllerActions +{ + ACTION_MENU_A, + ACTION_MENU_B, + ACTION_MENU_X, + ACTION_MENU_Y, + ACTION_MENU_UP, + ACTION_MENU_DOWN, + ACTION_MENU_RIGHT, + ACTION_MENU_LEFT, + ACTION_MENU_PAGEUP, + ACTION_MENU_PAGEDOWN, + ACTION_MENU_RIGHT_SCROLL, + ACTION_MENU_LEFT_SCROLL, + ACTION_MENU_STICK_PRESS, + ACTION_MENU_OTHER_STICK_PRESS, + ACTION_MENU_OTHER_STICK_UP, + ACTION_MENU_OTHER_STICK_DOWN, + ACTION_MENU_OTHER_STICK_LEFT, + ACTION_MENU_OTHER_STICK_RIGHT, + ACTION_MENU_PAUSEMENU, + ACTION_MENU_QUICK_MOVE, + +#ifdef _DURANGO + ACTION_MENU_GTC_PAUSE, + ACTION_MENU_GTC_RESUME, +#endif + +#ifdef __ORBIS__ + ACTION_MENU_TOUCHPAD_PRESS, +#endif + + ACTION_MENU_OK, + ACTION_MENU_CANCEL, + ACTION_MAX_MENU = ACTION_MENU_CANCEL, + + MINECRAFT_ACTION_JUMP, + MINECRAFT_ACTION_FORWARD, + MINECRAFT_ACTION_BACKWARD, + MINECRAFT_ACTION_LEFT, + MINECRAFT_ACTION_RIGHT, + MINECRAFT_ACTION_LOOK_LEFT, + MINECRAFT_ACTION_LOOK_RIGHT, + MINECRAFT_ACTION_LOOK_UP, + MINECRAFT_ACTION_LOOK_DOWN, + MINECRAFT_ACTION_USE, + MINECRAFT_ACTION_ACTION, + MINECRAFT_ACTION_LEFT_SCROLL, + MINECRAFT_ACTION_RIGHT_SCROLL, + MINECRAFT_ACTION_INVENTORY, + MINECRAFT_ACTION_PAUSEMENU, + MINECRAFT_ACTION_DROP, + MINECRAFT_ACTION_SNEAK_TOGGLE, + MINECRAFT_ACTION_CRAFTING, + MINECRAFT_ACTION_RENDER_THIRD_PERSON, + MINECRAFT_ACTION_GAME_INFO, + MINECRAFT_ACTION_DPAD_LEFT, + MINECRAFT_ACTION_DPAD_RIGHT, + MINECRAFT_ACTION_DPAD_UP, + MINECRAFT_ACTION_DPAD_DOWN, + + MINECRAFT_ACTION_MAX, + + // These 4 aren't mapped to the input manager directly but are created from the dpad controls if required in Minecraft::run_middle + // Don't use them with the input manager directly, just through LocalPlayer::ullButtonsPressed + MINECRAFT_ACTION_SPAWN_CREEPER, + MINECRAFT_ACTION_CHANGE_SKIN, + MINECRAFT_ACTION_FLY_TOGGLE, + MINECRAFT_ACTION_RENDER_DEBUG +}; + +enum eMCLang +{ + eMCLang_null=0, + eMCLang_enUS, + eMCLang_enGB, + eMCLang_enIE, + eMCLang_enAU, + eMCLang_enNZ, + eMCLang_enCA, + eMCLang_jaJP, + eMCLang_deDE, + eMCLang_deAT, + eMCLang_frFR, + eMCLang_frCA, + eMCLang_esES, + eMCLang_esMX, + eMCLang_itIT, + eMCLang_koKR, + eMCLang_ptPT, + eMCLang_ptBR, + eMCLang_ruRU, + eMCLang_nlNL, + eMCLang_fiFI, + eMCLang_svSV, + eMCLang_daDA, + eMCLang_noNO, + eMCLang_plPL, + eMCLang_trTR, + eMCLang_elEL, + eMCLang_csCS, + eMCLang_zhCHT, + eMCLang_laLAS, + + eMCLang_zhSG, + eMCLang_zhCN, + eMCLang_zhHK, + eMCLang_zhTW, + eMCLang_nlBE, + eMCLang_daDK, + eMCLang_frBE, + eMCLang_frCH, + eMCLang_deCH, + eMCLang_nbNO, + eMCLang_enGR, + eMCLang_enHK, + eMCLang_enSA, + eMCLang_enHU, + eMCLang_enIN, + eMCLang_enIL, + eMCLang_enSG, + eMCLang_enSK, + eMCLang_enZA, + eMCLang_enCZ, + eMCLang_enAE, + eMCLang_esAR, + eMCLang_esCL, + eMCLang_esCO, + eMCLang_esUS, + eMCLang_svSE, + + eMCLang_csCZ, + eMCLang_elGR, + eMCLang_nnNO, + eMCLang_skSK, + + eMCLang_hans, + eMCLang_hant, +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/App_structs.h b/Minecraft.Client/Common/App_structs.h new file mode 100644 index 0000000..79997eb --- /dev/null +++ b/Minecraft.Client/Common/App_structs.h @@ -0,0 +1,230 @@ +#pragma once + +typedef struct +{ + wchar_t *wchFilename; + eFileExtensionType eEXT; + eTMSFileType eTMSType; + PBYTE pbData; + UINT uiSize; + int iConfig; // used for texture pack data files +} +TMS_FILE; + +typedef struct +{ + PBYTE pbData; + DWORD dwBytes; + BYTE ucRefCount; +} +MEMDATA,*PMEMDATA; + +typedef struct +{ + DWORD dwNotification; + UINT uiParam; +} +NOTIFICATION,*PNOTIFICATION; + +typedef struct +{ + bool bSettingsChanged; + unsigned char ucMusicVolume; + unsigned char ucSoundFXVolume; + unsigned char ucSensitivity; + unsigned char ucGamma; + unsigned char ucPad01; // 1 byte of padding inserted here + unsigned short usBitmaskValues; // bit 0,1 - difficulty + // bit 2 - view bob + // bit 3 - player visible in a map + // bit 4,5 - control scheme + // bit 6 - invert look + // bit 7 - southpaw + // bit 8 - splitscreen vertical + + // 4J-PB - Adding new values for interim TU for 1.6.6 + // bit 9 - Display gamertags in splitscreen + // bit 10 - Disable/Enable hints + // bit 11,12,13,14 - Autosave frequency - 0 = Off, 8 = (8*15 minutes) = 2 hours + // bit 15 Tooltips + + // debug values + unsigned int uiDebugBitmask; + + // block off space to use for whatever we want (e.g bitflags for storing things the player has done in the game, so we can flag the first time they do things, such as sleep) + union + { + struct + { + unsigned char ucTutorialCompletion[TUTORIAL_PROFILE_STORAGE_BYTES]; + // adding new flags for interim TU to 1.6.6 + + // A value that encodes the skin that the player has set as their default + DWORD dwSelectedSkin; + + // In-Menu sensitivity + unsigned char ucMenuSensitivity; + unsigned char ucInterfaceOpacity; + unsigned char ucPad02; // 1 byte padding + unsigned char ucFov; + + // Adding another bitmask flag for more settings for 1.8.2 + unsigned int uiBitmaskValues; // 0x00000001 - eGameSetting_Clouds - on + // 0x00000002 - eGameSetting_GameSetting_Online - on + // 0x00000004 - eGameSetting_GameSetting_Invite - off + // 0x00000008 - eGameSetting_GameSetting_FriendsOfFriends - on + // 0x00000010 - eGameSetting_PSVita_NetworkModeAdhoc - on + + // TU 5 + // 0x00000030 - eGameSetting_DisplayUpdateMessage - 3 - counts down to zero + // TU 6 + // 0x00000040 - eGameSetting_BedrockFog - off + // 0x00000080 - eGameSetting_DisplayHUD - on + // 0x00000100 - eGameSetting_DisplayHand - on + // TU 7 + // 0x00000200 - eGameSetting_CustomSkinAnim - on + + // TU9 // 0x00000400 - eGameSetting_DeathMessages - on + + // Adding another bitmask to store "special" completion tasks for the tutorial + unsigned int uiSpecialTutorialBitmask; + + // A value that encodes the cape that the player has set + DWORD dwSelectedCape; + + unsigned int uiFavoriteSkinA[MAX_FAVORITE_SKINS]; + unsigned char ucCurrentFavoriteSkinPos; + + // TU13 + unsigned int uiMashUpPackWorldsDisplay; // bitmask to enable/disable the display of the individual mash-up pack worlds + + // PS3 1.05 - Adding Greek, so need a language + unsigned char ucLanguage; + + // 29/Oct/2014 - Language selector. + unsigned char ucLocale; + + // 4J Stu - See comment for GAME_SETTINGS_PROFILE_DATA_BYTES below + // was 192 + //unsigned char ucUnused[192-TUTORIAL_PROFILE_STORAGE_BYTES-sizeof(DWORD)-sizeof(char)-sizeof(char)-sizeof(char)-sizeof(char)-sizeof(LONG)-sizeof(LONG)-sizeof(DWORD)]; + // 4J-PB - don't need to define the padded space, the union with ucReservedSpace will make the sizeof GAME_SETTINGS correct + }; + + unsigned char ucReservedSpace[192]; + + + }; +} +GAME_SETTINGS; + +#ifdef _XBOX_ONE +typedef struct +{ + WCHAR wchPlayerUID[64]; + char pszLevelName[14]; +} +BANNEDLISTDATA,*PBANNEDLISTDATA; +#else +typedef struct +{ + PlayerUID xuid; + char pszLevelName[14]; +} +BANNEDLISTDATA,*PBANNEDLISTDATA; +#endif + +typedef std::vector VBANNEDLIST; + +typedef struct +{ + int iPad; + eXuiAction action; +} +XuiActionParam; + +// tips +typedef struct +{ + int iSortValue; + UINT uiStringID; +} +TIPSTRUCT; + + +typedef struct +{ + eXUID eXuid; + WCHAR wchCape[MAX_CAPENAME_SIZE]; + WCHAR wchSkin[MAX_CAPENAME_SIZE]; +} +MOJANG_DATA; + +typedef struct +{ + eDLCContentType eDLCType; +#if defined( __PS3__) || defined(__ORBIS__) || defined (__PSVITA__) + char chImageURL[256];//SCE_NP_COMMERCE2_URL_LEN +#else + +#ifdef _XBOX_ONE + + wstring wsProductId; + wstring wsDisplayName; + + // add a store for the local DLC image + PBYTE pbImageData; + DWORD dwImageBytes; +#else + ULONGLONG ullOfferID_Full; + ULONGLONG ullOfferID_Trial; +#endif + WCHAR wchBanner[MAX_BANNERNAME_SIZE]; + WCHAR wchDataFile[MAX_BANNERNAME_SIZE]; + int iGender; +#endif + int iConfig; + unsigned int uiSortIndex; +} +DLC_INFO; + + +typedef struct +{ + int x,z; + _eTerrainFeatureType eTerrainFeature; +} +FEATURE_DATA; + +// banned list +typedef struct +{ + BYTE *pBannedList; + DWORD dwBytes; +} +BANNEDLIST; + +typedef struct _DLCRequest +{ + DWORD dwType; + eDLCContentState eState; +} +DLCRequest; + +typedef struct _TMSPPRequest +{ + eTMSContentState eState; + eDLCContentType eType; + C4JStorage::eGlobalStorage eStorageFacility; + C4JStorage::eTMS_FILETYPEVAL eFileTypeVal; + //char szFilename[MAX_TMSFILENAME_SIZE]; +#ifdef _XBOX_ONE + int( *CallbackFunc)(LPVOID,int,int,LPVOID, WCHAR *); +#else + int( *CallbackFunc)(LPVOID,int,int,C4JStorage::PTMSPP_FILEDATA, LPCSTR szFilename); +#endif + WCHAR wchFilename[MAX_TMSFILENAME_SIZE]; + + LPVOID lpCallbackParam; +} +TMSPPRequest; + diff --git a/Minecraft.Client/Common/Audio/Consoles_SoundEngine.cpp b/Minecraft.Client/Common/Audio/Consoles_SoundEngine.cpp new file mode 100644 index 0000000..54e9a1e --- /dev/null +++ b/Minecraft.Client/Common/Audio/Consoles_SoundEngine.cpp @@ -0,0 +1,77 @@ +#include "stdafx.h" +#include "Consoles_SoundEngine.h" + + +bool ConsoleSoundEngine::GetIsPlayingStreamingCDMusic() +{ + return m_bIsPlayingStreamingCDMusic; +} +bool ConsoleSoundEngine::GetIsPlayingStreamingGameMusic() +{ + return m_bIsPlayingStreamingGameMusic; +} +void ConsoleSoundEngine::SetIsPlayingStreamingCDMusic(bool bVal) +{ + m_bIsPlayingStreamingCDMusic=bVal; +} +void ConsoleSoundEngine::SetIsPlayingStreamingGameMusic(bool bVal) +{ + m_bIsPlayingStreamingGameMusic=bVal; +} +bool ConsoleSoundEngine::GetIsPlayingEndMusic() +{ + return m_bIsPlayingEndMusic; +} +bool ConsoleSoundEngine::GetIsPlayingNetherMusic() +{ + return m_bIsPlayingNetherMusic; +} +void ConsoleSoundEngine::SetIsPlayingEndMusic(bool bVal) +{ + m_bIsPlayingEndMusic=bVal; +} +void ConsoleSoundEngine::SetIsPlayingNetherMusic(bool bVal) +{ + m_bIsPlayingNetherMusic=bVal; +} + +void ConsoleSoundEngine::tick() +{ + if (scheduledSounds.empty()) + { + return; + } + + for (auto it = scheduledSounds.begin(); it != scheduledSounds.end();) + { + SoundEngine::ScheduledSound *next = *it; + next->delay--; + + if (next->delay <= 0) + { + play(next->iSound, next->x, next->y, next->z, next->volume, next->pitch); + it =scheduledSounds.erase(it); + delete next; + } + else + { + ++it; + } + } +} + +void ConsoleSoundEngine::schedule(int iSound, float x, float y, float z, float volume, float pitch, int delayTicks) +{ + scheduledSounds.push_back(new SoundEngine::ScheduledSound(iSound, x, y, z, volume, pitch, delayTicks)); +} + +ConsoleSoundEngine::ScheduledSound::ScheduledSound(int iSound, float x, float y, float z, float volume, float pitch, int delay) +{ + this->iSound = iSound; + this->x = x; + this->y = y; + this->z = z; + this->volume = volume; + this->pitch = pitch; + this->delay = delay; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Audio/Consoles_SoundEngine.h b/Minecraft.Client/Common/Audio/Consoles_SoundEngine.h new file mode 100644 index 0000000..9a1ae37 --- /dev/null +++ b/Minecraft.Client/Common/Audio/Consoles_SoundEngine.h @@ -0,0 +1,99 @@ +#pragma once + +#include "..\..\..\Minecraft.World\SoundTypes.h" + +#ifdef _XBOX + +#elif defined (__PS3__) +#undef __in +#undef __out +#include "..\..\PS3\Miles\include\mss.h" +#elif defined (__PSVITA__) +#include "..\..\PSVITA\Miles\include\mss.h" +#elif defined _DURANGO +// 4J Stu - Temp define to get Miles to link, can likely be removed when we get a new version of Miles +#define _SEKRIT +#include "..\..\Durango\Miles\include\mss.h" +#elif defined _WINDOWS64 +#else // PS4 +// 4J Stu - Temp define to get Miles to link, can likely be removed when we get a new version of Miles +#define _SEKRIT2 +#include "..\..\Orbis\Miles\include\mss.h" +#endif + +typedef struct +{ + float x,y,z; +} +AUDIO_VECTOR; + +typedef struct +{ + bool bValid; + AUDIO_VECTOR vPosition; + AUDIO_VECTOR vOrientFront; +} +AUDIO_LISTENER; + +class Options; + +class ConsoleSoundEngine +{ +public: + + ConsoleSoundEngine() : m_bIsPlayingStreamingCDMusic(false),m_bIsPlayingStreamingGameMusic(false), m_bIsPlayingEndMusic(false),m_bIsPlayingNetherMusic(false){}; + virtual void tick(shared_ptr *players, float a) =0; + virtual void destroy()=0; + virtual void play(int iSound, float x, float y, float z, float volume, float pitch) =0; + virtual void playStreaming(const wstring& name, float x, float y , float z, float volume, float pitch, bool bMusicDelay=true) =0; + virtual void playUI(int iSound, float volume, float pitch) =0; + virtual void updateMusicVolume(float fVal) =0; + virtual void updateSystemMusicPlaying(bool isPlaying) = 0; + virtual void updateSoundEffectVolume(float fVal) =0; + virtual void init(Options *) =0 ; + virtual void add(const wstring& name, File *file) =0; + virtual void addMusic(const wstring& name, File *file) =0; + virtual void addStreaming(const wstring& name, File *file) =0; + virtual char *ConvertSoundPathToName(const wstring& name, bool bConvertSpaces) =0; + virtual void playMusicTick() =0; + + virtual bool GetIsPlayingStreamingCDMusic() ; + virtual bool GetIsPlayingStreamingGameMusic() ; + virtual void SetIsPlayingStreamingCDMusic(bool bVal) ; + virtual void SetIsPlayingStreamingGameMusic(bool bVal) ; + virtual bool GetIsPlayingEndMusic() ; + virtual bool GetIsPlayingNetherMusic() ; + virtual void SetIsPlayingEndMusic(bool bVal) ; + virtual void SetIsPlayingNetherMusic(bool bVal) ; + static const WCHAR *wchSoundNames[eSoundType_MAX]; + static const WCHAR *wchUISoundNames[eSFX_MAX]; + +public: + void tick(); + void schedule(int iSound, float x, float y, float z, float volume, float pitch, int delayTicks); + +private: + class ScheduledSound + { + public: + int iSound; + float x, y, z; + float volume, pitch; + int delay; + + public: + ScheduledSound(int iSound, float x, float y, float z, float volume, float pitch, int delay); + }; + + vector scheduledSounds; + +private: + // platform specific functions + + virtual int initAudioHardware(int iMinSpeakers)=0; + + bool m_bIsPlayingStreamingCDMusic; + bool m_bIsPlayingStreamingGameMusic; + bool m_bIsPlayingEndMusic; + bool m_bIsPlayingNetherMusic; +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Audio/SoundEngine.cpp b/Minecraft.Client/Common/Audio/SoundEngine.cpp new file mode 100644 index 0000000..d67c9ef --- /dev/null +++ b/Minecraft.Client/Common/Audio/SoundEngine.cpp @@ -0,0 +1,1500 @@ +#include "stdafx.h" + +#include "SoundEngine.h" +#include "..\Consoles_App.h" +#include "..\..\MultiplayerLocalPlayer.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\Minecraft.World\leveldata.h" +#include "..\..\Minecraft.World\mth.h" +#include "..\..\TexturePackRepository.h" +#include "..\..\DLCTexturePack.h" +#include "Common\DLC\DLCAudioFile.h" + +#ifdef __PSVITA__ +#include +#endif + +#include "..\..\Minecraft.Client\Windows64\Windows64_App.h" + +#include "stb_vorbis.h" + +#define MA_NO_DSOUND +#define MA_NO_WINMM +#define MINIAUDIO_IMPLEMENTATION +#include "miniaudio.h" +#include +#include +#include +#include + +#ifdef __ORBIS__ +#include +//#define __DISABLE_MILES__ // MGH disabled for now as it crashes if we call sceNpMatching2Initialize +#endif + +// take out Orbis until they are done +#if defined _XBOX + +SoundEngine::SoundEngine() {} +void SoundEngine::init(Options *pOptions) +{ +} + +void SoundEngine::tick(shared_ptr *players, float a) +{ +} +void SoundEngine::destroy() {} +void SoundEngine::play(int iSound, float x, float y, float z, float volume, float pitch) +{ + app.DebugPrintf("PlaySound - %d\n",iSound); +} +void SoundEngine::playStreaming(const wstring& name, float x, float y , float z, float volume, float pitch, bool bMusicDelay) {} +void SoundEngine::playUI(int iSound, float volume, float pitch) {} + +void SoundEngine::updateMusicVolume(float fVal) {} +void SoundEngine::updateSoundEffectVolume(float fVal) {} + +void SoundEngine::add(const wstring& name, File *file) {} +void SoundEngine::addMusic(const wstring& name, File *file) {} +void SoundEngine::addStreaming(const wstring& name, File *file) {} +char *SoundEngine::ConvertSoundPathToName(const wstring& name, bool bConvertSpaces) { return nullptr; } +bool SoundEngine::isStreamingWavebankReady() { return true; } +void SoundEngine::playMusicTick() {}; + +#else + +#ifdef _WINDOWS64 +char SoundEngine::m_szSoundPath[]={"Windows64Media\\Sound\\"}; +char SoundEngine::m_szMusicPath[]={"music\\"}; +char SoundEngine::m_szRedistName[]={"redist64"}; +#elif defined _DURANGO +char SoundEngine::m_szSoundPath[]={"Sound\\"}; +char SoundEngine::m_szMusicPath[]={"music\\"}; +char SoundEngine::m_szRedistName[]={"redist64"}; +#elif defined __ORBIS__ + +#ifdef _CONTENT_PACKAGE +char SoundEngine::m_szSoundPath[]={"Sound/"}; +#elif defined _ART_BUILD +char SoundEngine::m_szSoundPath[]={"Sound/"}; +#else +// just use the host Durango folder for the sound. In the content package, we'll have moved this in the .gp4 file +char SoundEngine::m_szSoundPath[]={"Durango/Sound/"}; +#endif +char SoundEngine::m_szMusicPath[]={"music/"}; +char SoundEngine::m_szRedistName[]={"redist64"}; +#elif defined __PSVITA__ +char SoundEngine::m_szSoundPath[]={"PSVita/Sound/"}; +char SoundEngine::m_szMusicPath[]={"music/"}; +char SoundEngine::m_szRedistName[]={"redist"}; +#elif defined __PS3__ +//extern const char* getPS3HomePath(); +char SoundEngine::m_szSoundPath[]={"PS3/Sound/"}; +char SoundEngine::m_szMusicPath[]={"music/"}; +char SoundEngine::m_szRedistName[]={"redist"}; + +#define USE_SPURS + +#ifdef USE_SPURS +#include +#else +#include +#endif + +#endif + +const char *SoundEngine::m_szStreamFileA[eStream_Max]= +{ + "calm1", + "calm2", + "calm3", + "hal1", + "hal2", + "hal3", + "hal4", + "nuance1", + "nuance2", + +#ifndef _XBOX + "creative1", + "creative2", + "creative3", + "creative4", + "creative5", + "creative6", + "menu1", + "menu2", + "menu3", + "menu4", +#endif + + "piano1", + "piano2", + "piano3", + + // Nether + "nether1", + "nether2", + "nether3", + "nether4", + + // The End + "the_end_dragon_alive", + "the_end_end", + + // CDs + "11", + "13", + "blocks", + "cat", + "chirp", + "far", + "mall", + "mellohi", + "stal", + "strad", + "ward", + "where_are_we_now" +}; + +std::vector m_activeSounds; + +///////////////////////////////////////////// +// +// init +// +///////////////////////////////////////////// +void SoundEngine::init(Options* pOptions) +{ + app.DebugPrintf("---SoundEngine::init\n"); + + m_engineConfig = ma_engine_config_init(); + m_engineConfig.listenerCount = MAX_LOCAL_PLAYERS; + + if (ma_engine_init(&m_engineConfig, &m_engine) != MA_SUCCESS) + { + app.DebugPrintf("Failed to initialize miniaudio engine\n"); + return; + } + + ma_engine_set_volume(&m_engine, 1.0f); + + m_MasterMusicVolume = 1.0f; + m_MasterEffectsVolume = 1.0f; + + m_validListenerCount = 1; + + m_bSystemMusicPlaying = false; + + app.DebugPrintf("---miniaudio initialized\n"); + + return; +} + +void SoundEngine::SetStreamingSounds(int iOverworldMin, int iOverWorldMax, int iNetherMin, int iNetherMax, int iEndMin, int iEndMax, int iCD1) +{ + m_iStream_Overworld_Min=iOverworldMin; + m_iStream_Overworld_Max=iOverWorldMax; + m_iStream_Nether_Min=iNetherMin; + m_iStream_Nether_Max=iNetherMax; + m_iStream_End_Min=iEndMin; + m_iStream_End_Max=iEndMax; + m_iStream_CD_1=iCD1; + + // array to monitor recently played tracks + if(m_bHeardTrackA) + { + delete [] m_bHeardTrackA; + } + m_bHeardTrackA = new bool[iEndMax+1]; + memset(m_bHeardTrackA,0,sizeof(bool)*iEndMax+1); +} + +void SoundEngine::updateMiniAudio() +{ + if (m_validListenerCount == 1) + { + for (size_t i = 0; i < MAX_LOCAL_PLAYERS; i++) + { + if (m_ListenerA[i].bValid) + { + ma_engine_listener_set_position( + &m_engine, + 0, + m_ListenerA[i].vPosition.x, + m_ListenerA[i].vPosition.y, + m_ListenerA[i].vPosition.z); + + ma_engine_listener_set_direction( + &m_engine, + 0, + m_ListenerA[i].vOrientFront.x, + m_ListenerA[i].vOrientFront.y, + m_ListenerA[i].vOrientFront.z); + + ma_engine_listener_set_world_up( + &m_engine, + 0, + 0.0f, 1.0f, 0.0f); + + break; + } + } + } + else + { + ma_engine_listener_set_position(&m_engine, 0, 0.0f, 0.0f, 0.0f); + ma_engine_listener_set_direction(&m_engine, 0, 0.0f, 0.0f, 1.0f); + ma_engine_listener_set_world_up(&m_engine, 0, 0.0f, 1.0f, 0.0f); + } + + for (auto it = m_activeSounds.begin(); it != m_activeSounds.end(); ) + { + MiniAudioSound* s = *it; + + if (!ma_sound_is_playing(&s->sound)) + { + ma_sound_uninit(&s->sound); + delete s; + it = m_activeSounds.erase(it); + continue; + } + + float finalVolume = s->info.volume * m_MasterEffectsVolume * SFX_VOLUME_MULTIPLIER; + if (finalVolume > SFX_MAX_GAIN) + finalVolume = SFX_MAX_GAIN; + + ma_sound_set_volume(&s->sound, finalVolume); + ma_sound_set_pitch(&s->sound, s->info.pitch); + + if (s->info.bIs3D) + { + if (m_validListenerCount > 1) + { + float fClosest=10000.0f; + int iClosestListener=0; + float fClosestX=0.0f,fClosestY=0.0f,fClosestZ=0.0f,fDist; + for( size_t i = 0; i < MAX_LOCAL_PLAYERS; i++ ) + { + if( m_ListenerA[i].bValid ) + { + float x,y,z; + + x=fabs(m_ListenerA[i].vPosition.x-s->info.x); + y=fabs(m_ListenerA[i].vPosition.y-s->info.y); + z=fabs(m_ListenerA[i].vPosition.z-s->info.z); + fDist=x+y+z; + + if(fDistsound, 0, 0, realDist); + } + else + { + ma_sound_set_position( + &s->sound, + s->info.x, + s->info.y, + s->info.z); + } + } + + ++it; + } +} + +///////////////////////////////////////////// +// +// tick +// +///////////////////////////////////////////// + +#ifdef __PSVITA__ +static S32 running = AIL_ms_count(); +#endif + +void SoundEngine::tick(shared_ptr *players, float a) +{ + ConsoleSoundEngine::tick(); + + // update the listener positions + int listenerCount = 0; + if( players ) + { + bool bListenerPostionSet = false; + for( size_t i = 0; i < MAX_LOCAL_PLAYERS; i++ ) + { + if( players[i] != nullptr ) + { + m_ListenerA[i].bValid=true; + uint32_t x,y,z; + x=players[i]->xo + (players[i]->x - players[i]->xo) * a; + y=players[i]->yo + (players[i]->y - players[i]->yo) * a; + z=players[i]->zo + (players[i]->z - players[i]->zo) * a; + + float yRot = players[i]->yRotO + (players[i]->yRot - players[i]->yRotO) * a; + float yCos = (float)cos(yRot * Mth::RAD_TO_GRAD); + float ySin = (float)sin(yRot * Mth::RAD_TO_GRAD); + + // store the listener positions for splitscreen + m_ListenerA[i].vPosition.x = x; + m_ListenerA[i].vPosition.y = y; + m_ListenerA[i].vPosition.z = z; + + m_ListenerA[i].vOrientFront.x = -ySin; + m_ListenerA[i].vOrientFront.y = 0; + m_ListenerA[i].vOrientFront.z = yCos; + + listenerCount++; + } + else + { + m_ListenerA[i].bValid=false; + } + } + } + + + // If there were no valid players set, make up a default listener + if( listenerCount == 0 ) + { + m_ListenerA[0].vPosition.x = 0; + m_ListenerA[0].vPosition.y = 0; + m_ListenerA[0].vPosition.z = 0; + m_ListenerA[0].vOrientFront.x = 0; + m_ListenerA[0].vOrientFront.y = 0; + m_ListenerA[0].vOrientFront.z = 1.0f; + listenerCount++; + } + m_validListenerCount = listenerCount; + +#ifdef __PSVITA__ + // AP - Show that a change has occurred so we know to update the values at the next Mixer callback + SoundEngine_Change = true; +#else + updateMiniAudio(); +#endif +} + +///////////////////////////////////////////// +// +// SoundEngine +// +///////////////////////////////////////////// +SoundEngine::SoundEngine() +{ + random = new Random(); + memset(&m_engine, 0, sizeof(ma_engine)); + memset(&m_engineConfig, 0, sizeof(ma_engine_config)); + m_musicStreamActive = false; + m_StreamState=eMusicStreamState_Idle; + m_iMusicDelay=0; + m_validListenerCount=0; + + m_bHeardTrackA=nullptr; + + // Start the streaming music playing some music from the overworld + SetStreamingSounds(eStream_Overworld_Calm1,eStream_Overworld_piano3, + eStream_Nether1,eStream_Nether4, + eStream_end_dragon,eStream_end_end, + eStream_CD_1); + + m_musicID=getMusicID(LevelData::DIMENSION_OVERWORLD); + + m_StreamingAudioInfo.bIs3D=false; + m_StreamingAudioInfo.x=0; + m_StreamingAudioInfo.y=0; + m_StreamingAudioInfo.z=0; + m_StreamingAudioInfo.volume=1; + m_StreamingAudioInfo.pitch=1; + + memset(CurrentSoundsPlaying,0,sizeof(int)*(eSoundType_MAX+eSFX_MAX)); + memset(m_ListenerA,0,sizeof(AUDIO_LISTENER)*XUSER_MAX_COUNT); + +#ifdef __ORBIS__ + m_hBGMAudio=GetAudioBGMHandle(); +#endif +} + +void SoundEngine::destroy() {} + +#ifdef _DEBUG +void SoundEngine::GetSoundName(char *szSoundName,int iSound) +{ + strcpy((char *)szSoundName,"Minecraft/"); + wstring name = wchSoundNames[iSound]; + char *SoundName = (char *)ConvertSoundPathToName(name); + strcat((char *)szSoundName,SoundName); +} +#endif + +///////////////////////////////////////////// +// +// play +// +///////////////////////////////////////////// +void SoundEngine::play(int iSound, float x, float y, float z, float volume, float pitch) +{ + uint8_t szSoundName[256]; + + if (iSound == -1) + { + app.DebugPrintf(6, "PlaySound with sound of -1 !!!!!!!!!!!!!!!\n"); + return; + } + + strcpy((char*)szSoundName, "Minecraft/"); + + wstring name = wchSoundNames[iSound]; + + char* SoundName = (char*)ConvertSoundPathToName(name); + strcat((char*)szSoundName, SoundName); + + app.DebugPrintf(6, + "PlaySound - %d - %s - %s (%f %f %f, vol %f, pitch %f)\n", + iSound, SoundName, szSoundName, x, y, z, volume, pitch); + + char basePath[256]; + sprintf_s(basePath, "Windows64Media/Sound/%s", (char*)szSoundName); + + char finalPath[256]; + sprintf_s(finalPath, "%s.wav", basePath); + + const char* extensions[] = { ".ogg", ".wav", ".mp3" }; + size_t extCount = sizeof(extensions) / sizeof(extensions[0]); + bool found = false; + + for (size_t extIdx = 0; extIdx < extCount; extIdx++) + { + char basePlusExt[256]; + sprintf_s(basePlusExt, "%s%s", basePath, extensions[extIdx]); + + DWORD attr = GetFileAttributesA(basePlusExt); + if (attr != INVALID_FILE_ATTRIBUTES && !(attr & FILE_ATTRIBUTE_DIRECTORY)) + { + sprintf_s(finalPath, "%s", basePlusExt); + found = true; + break; + } + } + + if (!found) + { + int count = 0; + + for (size_t extIdx = 0; extIdx < extCount; extIdx++) + { + for (size_t i = 1; i < 32; i++) + { + char numberedPath[256]; + sprintf_s(numberedPath, "%s%d%s", basePath, i, extensions[extIdx]); + + DWORD attr = GetFileAttributesA(numberedPath); + if (attr != INVALID_FILE_ATTRIBUTES && !(attr & FILE_ATTRIBUTE_DIRECTORY)) + { + count = i; + } + } + } + + if (count > 0) + { + int chosen = (rand() % count) + 1; + for (size_t extIdx = 0; extIdx < extCount; extIdx++) + { + char numberedPath[256]; + sprintf_s(numberedPath, "%s%d%s", basePath, chosen, extensions[extIdx]); + + DWORD attr = GetFileAttributesA(numberedPath); + if (attr != INVALID_FILE_ATTRIBUTES && !(attr & FILE_ATTRIBUTE_DIRECTORY)) + { + sprintf_s(finalPath, "%s", numberedPath); + found = true; + break; + } + } + if (!found) + { + sprintf_s(finalPath, "%s%d.wav", basePath, chosen); + } + } + } + + MiniAudioSound* s = new MiniAudioSound(); + memset(&s->info, 0, sizeof(AUDIO_INFO)); + + s->info.x = x; + s->info.y = y; + s->info.z = z; + + s->info.volume = volume; + s->info.pitch = pitch; + s->info.bIs3D = true; + s->info.bUseSoundsPitchVal = false; + s->info.iSound = iSound + eSFX_MAX; + + if (ma_sound_init_from_file( + &m_engine, + finalPath, + MA_SOUND_FLAG_ASYNC, + nullptr, + nullptr, + &s->sound) != MA_SUCCESS) + { + app.DebugPrintf("Failed to initialize sound from file: %s\n", finalPath); + delete s; + return; + } + + ma_sound_set_spatialization_enabled(&s->sound, MA_TRUE); + ma_sound_set_min_distance(&s->sound, SFX_3D_MIN_DISTANCE); + ma_sound_set_max_distance(&s->sound, SFX_3D_MAX_DISTANCE); + ma_sound_set_rolloff(&s->sound, SFX_3D_ROLLOFF); + + float finalVolume = volume * m_MasterEffectsVolume * SFX_VOLUME_MULTIPLIER; + if (finalVolume > SFX_MAX_GAIN) + finalVolume = SFX_MAX_GAIN; + + ma_sound_set_volume(&s->sound, finalVolume); + ma_sound_set_pitch(&s->sound, pitch); + ma_sound_set_position(&s->sound, x, y, z); + + ma_sound_start(&s->sound); + + m_activeSounds.push_back(s); +} + +///////////////////////////////////////////// +// +// playUI +// +///////////////////////////////////////////// +void SoundEngine::playUI(int iSound, float volume, float pitch) +{ + uint8_t szSoundName[256]; + wstring name; + + if (iSound >= eSFX_MAX) + { + strcpy((char*)szSoundName, "Minecraft/"); + name = wchSoundNames[iSound]; + } + else + { + strcpy((char*)szSoundName, "Minecraft/UI/"); + name = wchUISoundNames[iSound]; + } + + char* SoundName = (char*)ConvertSoundPathToName(name); + strcat((char*)szSoundName, SoundName); + + char basePath[256]; + sprintf_s(basePath, "Windows64Media/Sound/Minecraft/UI/%s", ConvertSoundPathToName(name)); + + char finalPath[256]; + sprintf_s(finalPath, "%s.wav", basePath); + + const char* extensions[] = { ".ogg", ".wav", ".mp3" }; + size_t count = sizeof(extensions) / sizeof(extensions[0]); + bool found = false; + for (size_t i = 0; i < count; i++) + { + sprintf_s(finalPath, "%s%s", basePath, extensions[i]); + if (FileExists(finalPath)) + { + found = true; + break; + } + } + if (!found) + { + app.DebugPrintf("No sound file found for UI sound: %s\n", basePath); + return; + } + + MiniAudioSound* s = new MiniAudioSound(); + memset(&s->info, 0, sizeof(AUDIO_INFO)); + + s->info.volume = volume; + s->info.pitch = pitch; + s->info.bIs3D = false; + s->info.bUseSoundsPitchVal = true; + + if (ma_sound_init_from_file( + &m_engine, + finalPath, + MA_SOUND_FLAG_ASYNC, + nullptr, + nullptr, + &s->sound) != MA_SUCCESS) + { + delete s; + app.DebugPrintf("ma_sound_init_from_file failed: %s\n", finalPath); + return; + } + + ma_sound_set_spatialization_enabled(&s->sound, MA_FALSE); + + float finalVolume = volume * m_MasterEffectsVolume; + if (finalVolume > 1.0f) + finalVolume = 1.0f; + printf("UI Sound volume set to %f\nEffects volume: %f\n", finalVolume, m_MasterEffectsVolume); + + ma_sound_set_volume(&s->sound, finalVolume); + ma_sound_set_pitch(&s->sound, pitch); + + ma_sound_start(&s->sound); + + m_activeSounds.push_back(s); +} + +///////////////////////////////////////////// +// +// playStreaming +// +///////////////////////////////////////////// +void SoundEngine::playStreaming(const wstring& name, float x, float y , float z, float volume, float pitch, bool bMusicDelay) +{ + // This function doesn't actually play a streaming sound, just sets states and an id for the music tick to play it + // Level audio will be played when a play with an empty name comes in + // CD audio will be played when a named stream comes in + + m_StreamingAudioInfo.x=x; + m_StreamingAudioInfo.y=y; + m_StreamingAudioInfo.z=z; + m_StreamingAudioInfo.volume=volume; + m_StreamingAudioInfo.pitch=pitch; + + if(m_StreamState==eMusicStreamState_Playing) + { + m_StreamState=eMusicStreamState_Stop; + } + else if(m_StreamState==eMusicStreamState_Opening) + { + m_StreamState=eMusicStreamState_OpeningCancel; + } + + if(name.empty()) + { + // music, or stop CD + m_StreamingAudioInfo.bIs3D=false; + + // we need a music id + // random delay of up to 3 minutes for music + m_iMusicDelay = random->nextInt(20 * 60 * 3);//random->nextInt(20 * 60 * 10) + 20 * 60 * 10; + +#ifdef _DEBUG + m_iMusicDelay=0; +#endif + Minecraft *pMinecraft=Minecraft::GetInstance(); + + bool playerInEnd=false; + bool playerInNether=false; + + for(unsigned int i=0;ilocalplayers[i]!=nullptr) + { + if(pMinecraft->localplayers[i]->dimension==LevelData::DIMENSION_END) + { + playerInEnd=true; + } + else if(pMinecraft->localplayers[i]->dimension==LevelData::DIMENSION_NETHER) + { + playerInNether=true; + } + } + } + if(playerInEnd) + { + m_musicID = getMusicID(LevelData::DIMENSION_END); + } + else if(playerInNether) + { + m_musicID = getMusicID(LevelData::DIMENSION_NETHER); + } + else + { + m_musicID = getMusicID(LevelData::DIMENSION_OVERWORLD); + } + } + else + { + // jukebox + m_StreamingAudioInfo.bIs3D=true; + m_musicID=getMusicID(name); + m_iMusicDelay=0; + } +} + + +int SoundEngine::GetRandomishTrack(int iStart,int iEnd) +{ + // 4J-PB - make it more likely that we'll get a track we've not heard for a while, although repeating tracks sometimes is fine + + // if all tracks have been heard, clear the flags + bool bAllTracksHeard=true; + int iVal=iStart; + for(size_t i=iStart;i<=iEnd;i++) + { + if(m_bHeardTrackA[i]==false) + { + bAllTracksHeard=false; + app.DebugPrintf("Not heard all tracks yet\n"); + break; + } + } + + if(bAllTracksHeard) + { + app.DebugPrintf("Heard all tracks - resetting the tracking array\n"); + + for(size_t i=iStart;i<=iEnd;i++) + { + m_bHeardTrackA[i]=false; + } + } + + // trying to get a track we haven't heard, but not too hard + for(size_t i=0;i<=((iEnd-iStart)/2);i++) + { + // random->nextInt(1) will always return 0 + iVal=random->nextInt((iEnd-iStart)+1)+iStart; + if(m_bHeardTrackA[iVal]==false) + { + // not heard this + app.DebugPrintf("(%d) Not heard track %d yet, so playing it now\n",i,iVal); + m_bHeardTrackA[iVal]=true; + break; + } + else + { + app.DebugPrintf("(%d) Skipping track %d already heard it recently\n",i,iVal); + } + } + + app.DebugPrintf("Select track %d\n",iVal); + return iVal; +} +///////////////////////////////////////////// +// +// getMusicID +// +///////////////////////////////////////////// +int SoundEngine::getMusicID(int iDomain) +{ + int iRandomVal=0; + Minecraft *pMinecraft=Minecraft::GetInstance(); + + // Before the game has started? + if(pMinecraft==nullptr) + { + // any track from the overworld + return GetRandomishTrack(m_iStream_Overworld_Min,m_iStream_Overworld_Max); + } + + if(pMinecraft->skins->isUsingDefaultSkin()) + { + switch(iDomain) + { + case LevelData::DIMENSION_END: + // the end isn't random - it has different music depending on whether the dragon is alive or not, but we've not added the dead dragon music yet + return m_iStream_End_Min; + case LevelData::DIMENSION_NETHER: + return GetRandomishTrack(m_iStream_Nether_Min,m_iStream_Nether_Max); + //return m_iStream_Nether_Min + random->nextInt(m_iStream_Nether_Max-m_iStream_Nether_Min); + default: //overworld + //return m_iStream_Overworld_Min + random->nextInt(m_iStream_Overworld_Max-m_iStream_Overworld_Min); + return GetRandomishTrack(m_iStream_Overworld_Min,m_iStream_Overworld_Max); + } + } + else + { + // using a texture pack - may have multiple End music tracks + switch(iDomain) + { + case LevelData::DIMENSION_END: + return GetRandomishTrack(m_iStream_End_Min,m_iStream_End_Max); + case LevelData::DIMENSION_NETHER: + //return m_iStream_Nether_Min + random->nextInt(m_iStream_Nether_Max-m_iStream_Nether_Min); + return GetRandomishTrack(m_iStream_Nether_Min,m_iStream_Nether_Max); + default: //overworld + //return m_iStream_Overworld_Min + random->nextInt(m_iStream_Overworld_Max-m_iStream_Overworld_Min); + return GetRandomishTrack(m_iStream_Overworld_Min,m_iStream_Overworld_Max); + } + } +} + +///////////////////////////////////////////// +// +// getMusicID +// +///////////////////////////////////////////// +// check what the CD is +int SoundEngine::getMusicID(const wstring& name) +{ + int iCD=0; + char *SoundName = (char *)ConvertSoundPathToName(name,true); + + // 4J-PB - these will always be the game cds, so use the m_szStreamFileA for this + for(size_t i=0;i<12;i++) + { + if(strcmp(SoundName,m_szStreamFileA[i+eStream_CD_1])==0) + { + iCD=i; + break; + } + } + + // adjust for cd start position on normal or mash-up pack + return iCD+m_iStream_CD_1; +} + +///////////////////////////////////////////// +// +// getMasterMusicVolume +// +///////////////////////////////////////////// +float SoundEngine::getMasterMusicVolume() +{ + if( m_bSystemMusicPlaying ) + { + return 0.0f; + } + else + { + return m_MasterMusicVolume; + } +} + +///////////////////////////////////////////// +// +// updateMusicVolume +// +///////////////////////////////////////////// +void SoundEngine::updateMusicVolume(float fVal) +{ + m_MasterMusicVolume=fVal; +} + +///////////////////////////////////////////// +// +// updateSystemMusicPlaying +// +///////////////////////////////////////////// +void SoundEngine::updateSystemMusicPlaying(bool isPlaying) +{ + m_bSystemMusicPlaying = isPlaying; +} + +///////////////////////////////////////////// +// +// updateSoundEffectVolume +// +///////////////////////////////////////////// +void SoundEngine::updateSoundEffectVolume(float fVal) +{ + m_MasterEffectsVolume=fVal; + //AIL_set_variable_float(0,"UserEffectVol",fVal); +} + +void SoundEngine::add(const wstring& name, File *file) {} +void SoundEngine::addMusic(const wstring& name, File *file) {} +void SoundEngine::addStreaming(const wstring& name, File *file) {} +bool SoundEngine::isStreamingWavebankReady() { return true; } + +int SoundEngine::OpenStreamThreadProc(void* lpParameter) +{ + SoundEngine* soundEngine = (SoundEngine*)lpParameter; + + const char* ext = strrchr(soundEngine->m_szStreamName, '.'); + + if (soundEngine->m_musicStreamActive) + { + ma_sound_stop(&soundEngine->m_musicStream); + ma_sound_uninit(&soundEngine->m_musicStream); + soundEngine->m_musicStreamActive = false; + } + + ma_result result = ma_sound_init_from_file( + &soundEngine->m_engine, + soundEngine->m_szStreamName, + MA_SOUND_FLAG_STREAM, + nullptr, + nullptr, + &soundEngine->m_musicStream); + + if (result != MA_SUCCESS) + { + app.DebugPrintf("SoundEngine::OpenStreamThreadProc - Failed to open stream: %s\n", soundEngine->m_szStreamName); + return 0; + } + + ma_sound_set_spatialization_enabled(&soundEngine->m_musicStream, MA_FALSE); + ma_sound_set_looping(&soundEngine->m_musicStream, MA_FALSE); + + soundEngine->m_musicStreamActive = true; + + return 0; +} + +///////////////////////////////////////////// +// +// playMusicTick +// +///////////////////////////////////////////// +void SoundEngine::playMusicTick() +{ +// AP - vita will update the music during the mixer callback +#ifndef __PSVITA__ + playMusicUpdate(); +#endif +} + +// AP - moved to a separate function so it can be called from the mixer callback on Vita +void SoundEngine::playMusicUpdate() +{ + static float fMusicVol = 0.0f; + fMusicVol = getMasterMusicVolume(); + + switch(m_StreamState) + { + case eMusicStreamState_Idle: + + // start a stream playing + if (m_iMusicDelay > 0) + { + m_iMusicDelay--; + return; + } + + if (m_musicStreamActive) + { + app.DebugPrintf("WARNING: m_musicStreamActive already true in Idle state, resetting to Playing\n"); + m_StreamState = eMusicStreamState_Playing; + return; + } + + if(m_musicID!=-1) + { + // start playing it + + +#if ( defined __PS3__ || defined __PSVITA__ || defined __ORBIS__ ) + +#ifdef __PS3__ + // 4J-PB - Need to check if we are a patched BD build + if(app.GetBootedFromDiscPatch()) + { + sprintf(m_szStreamName,"%s/%s",app.GetBDUsrDirPath(m_szMusicPath), m_szMusicPath ); + app.DebugPrintf("SoundEngine::playMusicUpdate - (booted from disc patch) music path - %s",m_szStreamName); + } + else + { + sprintf(m_szStreamName,"%s/%s",getUsrDirPath(), m_szMusicPath ); + } +#else + sprintf(m_szStreamName,"%s/%s",getUsrDirPath(), m_szMusicPath ); +#endif + +#else + strcpy((char *)m_szStreamName,m_szMusicPath); +#endif + // are we using a mash-up pack? + //if(pMinecraft && !pMinecraft->skins->isUsingDefaultSkin() && pMinecraft->skins->getSelected()->hasAudio()) + if(Minecraft::GetInstance()->skins->getSelected()->hasAudio()) + { + // It's a mash-up - need to use the DLC path for the music + TexturePack *pTexPack=Minecraft::GetInstance()->skins->getSelected(); + DLCTexturePack *pDLCTexPack=(DLCTexturePack *)pTexPack; + DLCPack *pack = pDLCTexPack->getDLCInfoParentPack(); + DLCAudioFile *dlcAudioFile = (DLCAudioFile *) pack->getFile(DLCManager::e_DLCType_Audio, 0); + + app.DebugPrintf("Mashup pack \n"); + + // build the name + + // if the music ID is beyond the end of the texture pack music files, then it's a CD + if(m_musicIDGetSoundName(m_musicID); + wstring wstrFile=L"TPACK:\\Data\\" + wstrSoundName +L".wav"; + std::wstring mountedPath = StorageManager.GetMountedPath(wstrFile); + wcstombs(m_szStreamName,mountedPath.c_str(),255); +#else + wstring &wstrSoundName=dlcAudioFile->GetSoundName(m_musicID); + char szName[255]; + wcstombs(szName,wstrSoundName.c_str(),255); + +#if defined __PS3__ || defined __ORBIS__ || defined __PSVITA__ + string strFile="TPACK:/Data/" + string(szName) + ".wav"; +#else + string strFile="TPACK:\\Data\\" + string(szName) + ".wav"; +#endif + std::string mountedPath = StorageManager.GetMountedPath(strFile); + strcpy(m_szStreamName,mountedPath.c_str()); +#endif + } + else + { + SetIsPlayingStreamingGameMusic(false); + SetIsPlayingStreamingCDMusic(true); + m_MusicType=eMusicType_CD; + m_StreamingAudioInfo.bIs3D=true; + + // Need to adjust to index into the cds in the game's m_szStreamFileA + strcat((char *)m_szStreamName,"cds/"); + strcat((char *)m_szStreamName,m_szStreamFileA[m_musicID-m_iStream_CD_1+eStream_CD_1]); + strcat((char *)m_szStreamName,".wav"); + } + } + else + { + // 4J-PB - if this is a PS3 disc patch, we have to check if the music file is in the patch data +#ifdef __PS3__ + if(app.GetBootedFromDiscPatch() && (m_musicID(m_szStreamName), "rb") == 0 && pFile) + { + fclose(pFile); + } + else + { + const char* extensions[] = { ".ogg", ".mp3", ".wav" }; + size_t extCount = sizeof(extensions) / sizeof(extensions[0]); + bool found = false; + + char* dotPos = strrchr(reinterpret_cast(m_szStreamName), '.'); + if (dotPos != nullptr && (dotPos - reinterpret_cast(m_szStreamName)) < 250) + { + for (size_t i = 0; i < extCount; i++) + { + strcpy_s(dotPos, 5, extensions[i]); + + if (fopen_s(&pFile, reinterpret_cast(m_szStreamName), "rb") == 0 && pFile) + { + fclose(pFile); + found = true; + break; + } + } + } + + if (!found) + { + if (dotPos != nullptr) + { + strcpy_s(dotPos, 5, ".wav"); + } + app.DebugPrintf("WARNING: No audio file found for music ID %d (tried .ogg, .mp3, .wav)\n", m_musicID); + return; + } + } + + app.DebugPrintf("Starting streaming - %s\n",m_szStreamName); + m_openStreamThread = new C4JThread(OpenStreamThreadProc, this, "OpenStreamThreadProc"); + m_openStreamThread->Run(); + m_StreamState = eMusicStreamState_Opening; + } + break; + + case eMusicStreamState_Opening: + if( !m_openStreamThread->isRunning() ) + { + delete m_openStreamThread; + m_openStreamThread = nullptr; + + app.DebugPrintf("OpenStreamThreadProc finished. m_musicStreamActive=%d\n", m_musicStreamActive); + + if (!m_musicStreamActive) + { + const char* currentExt = strrchr(reinterpret_cast(m_szStreamName), '.'); + if (currentExt && _stricmp(currentExt, ".wav") == 0) + { + const bool isCD = (m_musicID >= m_iStream_CD_1); + const char* folder = isCD ? "cds/" : "music/"; + + int n = sprintf_s(reinterpret_cast(m_szStreamName), 512, "%s%s%s.wav", m_szMusicPath, folder, m_szStreamFileA[m_musicID]); + + if (n > 0) + { + FILE* pFile = nullptr; + if (fopen_s(&pFile, reinterpret_cast(m_szStreamName), "rb") == 0 && pFile) + { + fclose(pFile); + + m_openStreamThread = new C4JThread(OpenStreamThreadProc, this, "OpenStreamThreadProc"); + m_openStreamThread->Run(); + break; + } + } + } + + m_StreamState = eMusicStreamState_Idle; + break; + } + + if (m_StreamingAudioInfo.bIs3D) + { + ma_sound_set_spatialization_enabled(&m_musicStream, MA_TRUE); + ma_sound_set_position(&m_musicStream, m_StreamingAudioInfo.x, m_StreamingAudioInfo.y, m_StreamingAudioInfo.z); + } + else + { + ma_sound_set_spatialization_enabled(&m_musicStream, MA_FALSE); + } + + ma_sound_set_pitch(&m_musicStream, m_StreamingAudioInfo.pitch); + + float finalVolume = m_StreamingAudioInfo.volume * getMasterMusicVolume(); + + ma_sound_set_volume(&m_musicStream, finalVolume); + ma_result startResult = ma_sound_start(&m_musicStream); + app.DebugPrintf("ma_sound_start result: %d\n", startResult); + + m_StreamState=eMusicStreamState_Playing; + } + break; + case eMusicStreamState_OpeningCancel: + if( !m_openStreamThread->isRunning() ) + { + delete m_openStreamThread; + m_openStreamThread = nullptr; + m_StreamState = eMusicStreamState_Stop; + } + break; + case eMusicStreamState_Stop: + if (m_musicStreamActive) + { + ma_sound_stop(&m_musicStream); + ma_sound_uninit(&m_musicStream); + m_musicStreamActive = false; + } + + SetIsPlayingStreamingCDMusic(false); + SetIsPlayingStreamingGameMusic(false); + + m_StreamState = eMusicStreamState_Idle; + break; + case eMusicStreamState_Stopping: + break; + case eMusicStreamState_Play: + break; + case eMusicStreamState_Playing: + { + static int frameCount = 0; + if (frameCount++ % 60 == 0) + { + if (m_musicStreamActive) + { + bool isPlaying = ma_sound_is_playing(&m_musicStream); + float vol = ma_sound_get_volume(&m_musicStream); + bool isAtEnd = ma_sound_at_end(&m_musicStream); + } + } + } + if(GetIsPlayingStreamingGameMusic()) + { + //if(m_MusicInfo.pCue!=nullptr) + { + bool playerInEnd = false; + bool playerInNether=false; + Minecraft *pMinecraft = Minecraft::GetInstance(); + for(unsigned int i = 0; i < MAX_LOCAL_PLAYERS; ++i) + { + if(pMinecraft->localplayers[i]!=nullptr) + { + if(pMinecraft->localplayers[i]->dimension==LevelData::DIMENSION_END) + { + playerInEnd=true; + } + else if(pMinecraft->localplayers[i]->dimension==LevelData::DIMENSION_NETHER) + { + playerInNether=true; + } + } + } + + if(playerInEnd && !GetIsPlayingEndMusic()) + { + m_StreamState=eMusicStreamState_Stop; + + // Set the end track + m_musicID = getMusicID(LevelData::DIMENSION_END); + SetIsPlayingEndMusic(true); + SetIsPlayingNetherMusic(false); + } + else if(!playerInEnd && GetIsPlayingEndMusic()) + { + if(playerInNether) + { + m_StreamState=eMusicStreamState_Stop; + + // Set the end track + m_musicID = getMusicID(LevelData::DIMENSION_NETHER); + SetIsPlayingEndMusic(false); + SetIsPlayingNetherMusic(true); + } + else + { + m_StreamState=eMusicStreamState_Stop; + + // Set the end track + m_musicID = getMusicID(LevelData::DIMENSION_OVERWORLD); + SetIsPlayingEndMusic(false); + SetIsPlayingNetherMusic(false); + } + } + else if (playerInNether && !GetIsPlayingNetherMusic()) + { + m_StreamState=eMusicStreamState_Stop; + // set the Nether track + m_musicID = getMusicID(LevelData::DIMENSION_NETHER); + SetIsPlayingNetherMusic(true); + SetIsPlayingEndMusic(false); + } + else if(!playerInNether && GetIsPlayingNetherMusic()) + { + if(playerInEnd) + { + m_StreamState=eMusicStreamState_Stop; + // set the Nether track + m_musicID = getMusicID(LevelData::DIMENSION_END); + SetIsPlayingNetherMusic(false); + SetIsPlayingEndMusic(true); + } + else + { + m_StreamState=eMusicStreamState_Stop; + // set the Nether track + m_musicID = getMusicID(LevelData::DIMENSION_OVERWORLD); + SetIsPlayingNetherMusic(false); + SetIsPlayingEndMusic(false); + } + } + + // volume change required? + if (m_musicStreamActive) + { + float finalVolume = m_StreamingAudioInfo.volume * fMusicVol; + + ma_sound_set_volume(&m_musicStream, finalVolume); + } + } + } + else + { + // Music disc playing - if it's a 3D stream, then set the position - we don't have any streaming audio in the world that moves, so this isn't + // required unless we have more than one listener, and are setting the listening position to the origin and setting a fake position + // for the sound down the z axis + if (m_StreamingAudioInfo.bIs3D && m_validListenerCount > 1) + { + int iClosestListener = 0; + float fClosestDist = 1e6f; + + for (size_t i = 0; i < MAX_LOCAL_PLAYERS; i++) + { + if (m_ListenerA[i].bValid) + { + float dx = m_StreamingAudioInfo.x - m_ListenerA[i].vPosition.x; + float dy = m_StreamingAudioInfo.y - m_ListenerA[i].vPosition.y; + float dz = m_StreamingAudioInfo.z - m_ListenerA[i].vPosition.z; + float dist = sqrtf(dx*dx + dy*dy + dz*dz); + + if (dist < fClosestDist) + { + fClosestDist = dist; + iClosestListener = i; + } + } + } + + float relX = m_StreamingAudioInfo.x - m_ListenerA[iClosestListener].vPosition.x; + float relY = m_StreamingAudioInfo.y - m_ListenerA[iClosestListener].vPosition.y; + float relZ = m_StreamingAudioInfo.z - m_ListenerA[iClosestListener].vPosition.z; + + if (m_musicStreamActive) + { + ma_sound_set_position(&m_musicStream, relX, relY, relZ); + } + } + } + + break; + + case eMusicStreamState_Completed: + { + // random delay of up to 3 minutes for music + m_iMusicDelay = random->nextInt(20 * 60 * 3);//random->nextInt(20 * 60 * 10) + 20 * 60 * 10; + // Check if we have a local player in The Nether or in The End, and play that music if they are + Minecraft *pMinecraft=Minecraft::GetInstance(); + bool playerInEnd=false; + bool playerInNether=false; + + for(unsigned int i=0;ilocalplayers[i]!=nullptr) + { + if(pMinecraft->localplayers[i]->dimension==LevelData::DIMENSION_END) + { + playerInEnd=true; + } + else if(pMinecraft->localplayers[i]->dimension==LevelData::DIMENSION_NETHER) + { + playerInNether=true; + } + } + } + if(playerInEnd) + { + m_musicID = getMusicID(LevelData::DIMENSION_END); + SetIsPlayingEndMusic(true); + SetIsPlayingNetherMusic(false); + } + else if(playerInNether) + { + m_musicID = getMusicID(LevelData::DIMENSION_NETHER); + SetIsPlayingNetherMusic(true); + SetIsPlayingEndMusic(false); + } + else + { + m_musicID = getMusicID(LevelData::DIMENSION_OVERWORLD); + SetIsPlayingNetherMusic(false); + SetIsPlayingEndMusic(false); + } + + m_StreamState=eMusicStreamState_Idle; + } + break; + } + + // check the status of the stream - this is for when a track completes rather than is stopped by the user action + + if (m_musicStreamActive) + { + if (!ma_sound_is_playing(&m_musicStream) && ma_sound_at_end(&m_musicStream)) + { + ma_sound_uninit(&m_musicStream); + m_musicStreamActive = false; + + SetIsPlayingStreamingCDMusic(false); + SetIsPlayingStreamingGameMusic(false); + + m_StreamState = eMusicStreamState_Completed; + } + } +} + + +///////////////////////////////////////////// +// +// ConvertSoundPathToName +// +///////////////////////////////////////////// +char *SoundEngine::ConvertSoundPathToName(const wstring& name, bool bConvertSpaces) +{ + static char buf[256]; + assert(name.length()<256); + for(unsigned int i = 0; i < name.length(); i++ ) + { + wchar_t c = name[i]; + if(c=='.') c='/'; + if(bConvertSpaces) + { + if(c==' ') c='_'; + } + buf[i] = (char)c; + } + buf[name.length()] = 0; + return buf; +} + +#endif \ No newline at end of file diff --git a/Minecraft.Client/Common/Audio/SoundEngine.h b/Minecraft.Client/Common/Audio/SoundEngine.h new file mode 100644 index 0000000..38d70d4 --- /dev/null +++ b/Minecraft.Client/Common/Audio/SoundEngine.h @@ -0,0 +1,193 @@ +#pragma once +class Mob; +class Options; +using namespace std; +#include "..\..\Minecraft.World\SoundTypes.h" + +#include "miniaudio.h" + +constexpr float SFX_3D_MIN_DISTANCE = 1.0f; +constexpr float SFX_3D_MAX_DISTANCE = 16.0f; +constexpr float SFX_3D_ROLLOFF = 0.5f; +constexpr float SFX_VOLUME_MULTIPLIER = 1.5f; +constexpr float SFX_MAX_GAIN = 1.5f; + +enum eMUSICFILES +{ + eStream_Overworld_Calm1 = 0, + eStream_Overworld_Calm2, + eStream_Overworld_Calm3, + eStream_Overworld_hal1, + eStream_Overworld_hal2, + eStream_Overworld_hal3, + eStream_Overworld_hal4, + eStream_Overworld_nuance1, + eStream_Overworld_nuance2, +#ifndef _XBOX + // Add the new music tracks + eStream_Overworld_Creative1, + eStream_Overworld_Creative2, + eStream_Overworld_Creative3, + eStream_Overworld_Creative4, + eStream_Overworld_Creative5, + eStream_Overworld_Creative6, + eStream_Overworld_Menu1, + eStream_Overworld_Menu2, + eStream_Overworld_Menu3, + eStream_Overworld_Menu4, +#endif + eStream_Overworld_piano1, + eStream_Overworld_piano2, + eStream_Overworld_piano3, // <-- make piano3 the last overworld one + // Nether + eStream_Nether1, + eStream_Nether2, + eStream_Nether3, + eStream_Nether4, + // The End + eStream_end_dragon, + eStream_end_end, + eStream_CD_1, + eStream_CD_2, + eStream_CD_3, + eStream_CD_4, + eStream_CD_5, + eStream_CD_6, + eStream_CD_7, + eStream_CD_8, + eStream_CD_9, + eStream_CD_10, + eStream_CD_11, + eStream_CD_12, + eStream_Max, +}; + +enum eMUSICTYPE +{ + eMusicType_None, + eMusicType_Game, + eMusicType_CD, +}; + + +enum MUSIC_STREAMSTATE +{ + eMusicStreamState_Idle=0, + eMusicStreamState_Stop, + eMusicStreamState_Stopping, + eMusicStreamState_Opening, + eMusicStreamState_OpeningCancel, + eMusicStreamState_Play, + eMusicStreamState_Playing, + eMusicStreamState_Completed +}; + +typedef struct +{ + #ifndef _WINDOWS64 + F32 x,y,z,volume,pitch; + #else + float x,y,z,volume,pitch; + #endif + int iSound; + bool bIs3D; + bool bUseSoundsPitchVal; +#ifdef _DEBUG + char chName[64]; +#endif +} +AUDIO_INFO; + +#ifdef _WINDOWS64 +struct MiniAudioSound +{ + ma_sound sound; + AUDIO_INFO info; + bool active; +}; + +extern std::vector m_activeSounds; +#endif + +class SoundEngine : public ConsoleSoundEngine +{ + static const int MAX_SAME_SOUNDS_PLAYING = 8; // 4J added +public: + SoundEngine(); + void destroy() override; +#ifdef _DEBUG + void GetSoundName(char *szSoundName,int iSound); +#endif + void play(int iSound, float x, float y, float z, float volume, float pitch) override; + void playStreaming(const wstring& name, float x, float y , float z, float volume, float pitch, bool bMusicDelay=true) override; + void playUI(int iSound, float volume, float pitch) override; + void playMusicTick() override; + void updateMusicVolume(float fVal) override; + void updateSystemMusicPlaying(bool isPlaying) override; + void updateSoundEffectVolume(float fVal) override; + void init(Options *) override; + void tick(shared_ptr *players, float a) override; // 4J - updated to take array of local players rather than single one + void add(const wstring& name, File *file) override; + void addMusic(const wstring& name, File *file) override; + void addStreaming(const wstring& name, File *file) override; + char *ConvertSoundPathToName(const wstring& name, bool bConvertSpaces=false) override; + bool isStreamingWavebankReady(); // 4J Added + int getMusicID(int iDomain); + int getMusicID(const wstring& name); + void SetStreamingSounds(int iOverworldMin, int iOverWorldMax, int iNetherMin, int iNetherMax, int iEndMin, int iEndMax, int iCD1); + void updateMiniAudio(); + void playMusicUpdate(); + +private: + float getMasterMusicVolume(); + // platform specific functions +#ifdef __PS3__ + int initAudioHardware(int iMinSpeakers); +#else + int initAudioHardware(int iMinSpeakers) override + { return iMinSpeakers;} +#endif + + int GetRandomishTrack(int iStart,int iEnd); + + ma_engine m_engine; + ma_engine_config m_engineConfig; + ma_sound m_musicStream; + bool m_musicStreamActive; + + static char m_szSoundPath[]; + static char m_szMusicPath[]; + static char m_szRedistName[]; + static const char *m_szStreamFileA[eStream_Max]; + + AUDIO_LISTENER m_ListenerA[MAX_LOCAL_PLAYERS]; + int m_validListenerCount; + + + Random *random; + int m_musicID; + int m_iMusicDelay; + int m_StreamState; + int m_MusicType; + AUDIO_INFO m_StreamingAudioInfo; + wstring m_CDMusic; + BOOL m_bSystemMusicPlaying; + float m_MasterMusicVolume; + float m_MasterEffectsVolume; + + C4JThread *m_openStreamThread; + static int OpenStreamThreadProc( void* lpParameter ); + char m_szStreamName[255]; + int CurrentSoundsPlaying[eSoundType_MAX+eSFX_MAX]; + + // streaming music files - will be different for mash-up packs + int m_iStream_Overworld_Min,m_iStream_Overworld_Max; + int m_iStream_Nether_Min,m_iStream_Nether_Max; + int m_iStream_End_Min,m_iStream_End_Max; + int m_iStream_CD_1; + bool *m_bHeardTrackA; + +#ifdef __ORBIS__ + int32_t m_hBGMAudio; +#endif +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Audio/SoundNames.cpp b/Minecraft.Client/Common/Audio/SoundNames.cpp new file mode 100644 index 0000000..ebb7e9e --- /dev/null +++ b/Minecraft.Client/Common/Audio/SoundNames.cpp @@ -0,0 +1,237 @@ +#include "stdafx.h" + +#include "Consoles_SoundEngine.h" + + + +const WCHAR *ConsoleSoundEngine::wchSoundNames[eSoundType_MAX]= +{ + L"mob.chicken.say", // eSoundType_MOB_CHICKEN_AMBIENT + L"mob.chicken.hurt", // eSoundType_MOB_CHICKEN_HURT + L"mob.chicken.plop", // eSoundType_MOB_CHICKENPLOP + L"mob.cow.say", // eSoundType_MOB_COW_AMBIENT + L"mob.cow.hurt", // eSoundType_MOB_COW_HURT + L"mob.pig.say", // eSoundType_MOB_PIG_AMBIENT + L"mob.pig.death", // eSoundType_MOB_PIG_DEATH + L"mob.sheep.say", // eSoundType_MOB_SHEEP_AMBIENT + L"mob.wolf.growl", // eSoundType_MOB_WOLF_GROWL + L"mob.wolf.whine", // eSoundType_MOB_WOLF_WHINE + L"mob.wolf.panting", // eSoundType_MOB_WOLF_PANTING + L"mob.wolf.bark", // eSoundType_MOB_WOLF_BARK + L"mob.wolf.hurt", // eSoundType_MOB_WOLF_HURT + L"mob.wolf.death", // eSoundType_MOB_WOLF_DEATH + L"mob.wolf.shake", // eSoundType_MOB_WOLF_SHAKE + L"mob.blaze.breathe", // eSoundType_MOB_BLAZE_BREATHE + L"mob.blaze.hit", // eSoundType_MOB_BLAZE_HURT + L"mob.blaze.death", // eSoundType_MOB_BLAZE_DEATH + L"mob.ghast.moan", // eSoundType_MOB_GHAST_MOAN + L"mob.ghast.scream", // eSoundType_MOB_GHAST_SCREAM + L"mob.ghast.death", // eSoundType_MOB_GHAST_DEATH + L"mob.ghast.fireball", // eSoundType_MOB_GHAST_FIREBALL + L"mob.ghast.charge", // eSoundType_MOB_GHAST_CHARGE + L"mob.endermen.idle", // eSoundType_MOB_ENDERMEN_IDLE + L"mob.endermen.hit", // eSoundType_MOB_ENDERMEN_HIT + L"mob.endermen.death", // eSoundType_MOB_ENDERMEN_DEATH + L"mob.endermen.portal", // eSoundType_MOB_ENDERMEN_PORTAL + L"mob.zombiepig.zpig", // eSoundType_MOB_ZOMBIEPIG_AMBIENT + L"mob.zombiepig.zpighurt", // eSoundType_MOB_ZOMBIEPIG_HURT + L"mob.zombiepig.zpigdeath", // eSoundType_MOB_ZOMBIEPIG_DEATH + L"mob.zombiepig.zpigangry", // eSoundType_MOB_ZOMBIEPIG_ZPIGANGRY + L"mob.silverfish.say", // eSoundType_MOB_SILVERFISH_AMBIENT, + L"mob.silverfish.hit", // eSoundType_MOB_SILVERFISH_HURT + L"mob.silverfish.kill", // eSoundType_MOB_SILVERFISH_DEATH, + L"mob.silverfish.step", // eSoundType_MOB_SILVERFISH_STEP, + L"mob.skeleton", // eSoundType_MOB_SKELETON_AMBIENT, + L"mob.skeletonhurt", // eSoundType_MOB_SKELETON_HURT, + L"mob.spider.say", // eSoundType_MOB_SPIDER_AMBIENT, + L"mob.spider.death", // eSoundType_MOB_SPIDER_DEATH, + L"mob.slime", // eSoundType_MOB_SLIME, + L"mob.slime.attack", // eSoundType_MOB_SLIME_ATTACK, + L"mob.creeper.say", // eSoundType_MOB_CREEPER_HURT, + L"mob.creeper.death", // eSoundType_MOB_CREEPER_DEATH, + L"mob.zombie.say", // eSoundType_MOB_ZOMBIE_AMBIENT, + L"mob.zombie.hurt", // eSoundType_MOB_ZOMBIE_HURT, + L"mob.zombie.death", // eSoundType_MOB_ZOMBIE_DEATH, + L"mob.zombie.wood", // eSoundType_MOB_ZOMBIE_WOOD, + L"mob.zombie.woodbreak", // eSoundType_MOB_ZOMBIE_WOOD_BREAK, + L"mob.zombie.metal", // eSoundType_MOB_ZOMBIE_METAL, + L"mob.magmacube.big", // eSoundType_MOB_MAGMACUBE_BIG, + L"mob.magmacube.small", // eSoundType_MOB_MAGMACUBE_SMALL, + L"mob.cat.purr", // eSoundType_MOB_CAT_PURR + L"mob.cat.purreow", // eSoundType_MOB_CAT_PURREOW + L"mob.cat.meow", // eSoundType_MOB_CAT_MEOW + // 4J-PB - correct the name of the event for hitting ocelots + L"mob.cat.hit", // eSoundType_MOB_CAT_HITT +// L"mob.irongolem.throw", // eSoundType_MOB_IRONGOLEM_THROW +// L"mob.irongolem.hit", // eSoundType_MOB_IRONGOLEM_HIT +// L"mob.irongolem.death", // eSoundType_MOB_IRONGOLEM_DEATH +// L"mob.irongolem.walk", // eSoundType_MOB_IRONGOLEM_WALK + L"random.bow", // eSoundType_RANDOM_BOW, + L"random.bowhit", // eSoundType_RANDOM_BOW_HIT, + L"random.explode", // eSoundType_RANDOM_EXPLODE, + L"random.fizz", // eSoundType_RANDOM_FIZZ, + L"random.pop", // eSoundType_RANDOM_POP, + L"random.fuse", // eSoundType_RANDOM_FUSE, + L"random.drink", // eSoundType_RANDOM_DRINK, + L"random.eat", // eSoundType_RANDOM_EAT, + L"random.burp", // eSoundType_RANDOM_BURP, + L"random.splash", // eSoundType_RANDOM_SPLASH, + L"random.click", // eSoundType_RANDOM_CLICK, + L"random.glass", // eSoundType_RANDOM_GLASS, + L"random.orb", // eSoundType_RANDOM_ORB, + L"random.break", // eSoundType_RANDOM_BREAK, + L"random.chestopen", // eSoundType_RANDOM_CHEST_OPEN, + L"random.chestclosed", // eSoundType_RANDOM_CHEST_CLOSE, + L"random.door_open", // eSoundType_RANDOM_DOOR_OPEN, + L"random.door_close", // eSoundType_RANDOM_DOOR_CLOSE, + L"ambient.weather.rain", // eSoundType_AMBIENT_WEATHER_RAIN, + L"ambient.weather.thunder", // eSoundType_AMBIENT_WEATHER_THUNDER, + L"ambient.cave", // eSoundType_CAVE_CAVE, DON'T USE FOR XBOX 360!!! +#ifdef _XBOX + L"ambient.cave.cave2", // eSoundType_CAVE_CAVE2 - removed the two sounds that were at 192k in the first ambient cave event +#endif + L"portal.portal", // eSoundType_PORTAL_PORTAL, + // 4J-PB - added a couple that were still using wstring + L"portal.trigger", // eSoundType_PORTAL_TRIGGER + L"portal.travel", // eSoundType_PORTAL_TRAVEL + + L"fire.ignite", // eSoundType_FIRE_IGNITE, + L"fire.fire", // eSoundType_FIRE_FIRE, + L"damage.hurtflesh", // eSoundType_DAMAGE_HURT, + L"damage.fallsmall", // eSoundType_DAMAGE_FALL_SMALL, + L"damage.fallbig", // eSoundType_DAMAGE_FALL_BIG, + L"note.harp", // eSoundType_NOTE_HARP, + L"note.bd", // eSoundType_NOTE_BD, + L"note.snare", // eSoundType_NOTE_SNARE, + L"note.hat", // eSoundType_NOTE_HAT, + L"note.bassattack", // eSoundType_NOTE_BASSATTACK, + L"tile.piston.in", // eSoundType_TILE_PISTON_IN, + L"tile.piston.out", // eSoundType_TILE_PISTON_OUT, + L"liquid.water", // eSoundType_LIQUID_WATER, + L"liquid.lavapop", // eSoundType_LIQUID_LAVA_POP, + L"liquid.lava", // eSoundType_LIQUID_LAVA, + L"step.stone", // eSoundType_STEP_STONE, + L"step.wood", // eSoundType_STEP_WOOD, + L"step.gravel", // eSoundType_STEP_GRAVEL, + L"step.grass", // eSoundType_STEP_GRASS, + L"step.metal", // eSoundType_STEP_METAL, + L"step.cloth", // eSoundType_STEP_CLOTH, + L"step.sand", // eSoundType_STEP_SAND, + + // below this are the additional sounds from the second soundbank + L"mob.enderdragon.end", // eSoundType_MOB_ENDERDRAGON_END + L"mob.enderdragon.growl", // eSoundType_MOB_ENDERDRAGON_GROWL + L"mob.enderdragon.hit", // eSoundType_MOB_ENDERDRAGON_HIT + L"mob.enderdragon.wings", // eSoundType_MOB_ENDERDRAGON_MOVE + L"mob.irongolem.throw", // eSoundType_MOB_IRONGOLEM_THROW + L"mob.irongolem.hit", // eSoundType_MOB_IRONGOLEM_HIT + L"mob.irongolem.death", // eSoundType_MOB_IRONGOLEM_DEATH + L"mob.irongolem.walk", // eSoundType_MOB_IRONGOLEM_WALK + + // TU14 + L"damage.thorns", // eSoundType_DAMAGE_THORNS + L"random.anvil_break", // eSoundType_RANDOM_ANVIL_BREAK + L"random.anvil_land", // eSoundType_RANDOM_ANVIL_LAND + L"random.anvil_use", // eSoundType_RANDOM_ANVIL_USE + L"mob.villager.haggle", // eSoundType_MOB_VILLAGER_HAGGLE + L"mob.villager.idle", // eSoundType_MOB_VILLAGER_IDLE + L"mob.villager.hit", // eSoundType_MOB_VILLAGER_HIT + L"mob.villager.death", // eSoundType_MOB_VILLAGER_DEATH + L"mob.villager.yes", // eSoundType_MOB_VILLAGER_YES + L"mob.villager.no", // eSoundType_MOB_VILLAGER_NO + L"mob.zombie.infect", // eSoundType_MOB_ZOMBIE_INFECT + L"mob.zombie.unfect", // eSoundType_MOB_ZOMBIE_UNFECT + L"mob.zombie.remedy", // eSoundType_MOB_ZOMBIE_REMEDY + L"step.snow", // eSoundType_STEP_SNOW + L"step.ladder", // eSoundType_STEP_LADDER + L"dig.cloth", // eSoundType_DIG_CLOTH + L"dig.grass", // eSoundType_DIG_GRASS + L"dig.gravel", // eSoundType_DIG_GRAVEL + L"dig.sand", // eSoundType_DIG_SAND + L"dig.snow", // eSoundType_DIG_SNOW + L"dig.stone", // eSoundType_DIG_STONE + L"dig.wood", // eSoundType_DIG_WOOD + + // 1.6.4 + L"fireworks.launch", //eSoundType_FIREWORKS_LAUNCH, + L"fireworks.blast", //eSoundType_FIREWORKS_BLAST, + L"fireworks.blast_far", //eSoundType_FIREWORKS_BLAST_FAR, + L"fireworks.large_blast", //eSoundType_FIREWORKS_LARGE_BLAST, + L"fireworks.large_blast_far", //eSoundType_FIREWORKS_LARGE_BLAST_FAR, + L"fireworks.twinkle", //eSoundType_FIREWORKS_TWINKLE, + L"fireworks.twinkle_far", //eSoundType_FIREWORKS_TWINKLE_FAR, + + L"mob.bat.idle", //eSoundType_MOB_BAT_IDLE, + L"mob.bat.hurt", //eSoundType_MOB_BAT_HURT, + L"mob.bat.death", //eSoundType_MOB_BAT_DEATH, + L"mob.bat.takeoff", //eSoundType_MOB_BAT_TAKEOFF, + + L"mob.wither.spawn", //eSoundType_MOB_WITHER_SPAWN, + L"mob.wither.idle", //eSoundType_MOB_WITHER_IDLE, + L"mob.wither.hurt", //eSoundType_MOB_WITHER_HURT, + L"mob.wither.death", //eSoundType_MOB_WITHER_DEATH, + L"mob.wither.shoot", //eSoundType_MOB_WITHER_SHOOT, + + L"mob.cow.step", //eSoundType_MOB_COW_STEP, + L"mob.chicken.step", //eSoundType_MOB_CHICKEN_STEP, + L"mob.pig.step", //eSoundType_MOB_PIG_STEP, + L"mob.enderman.stare", //eSoundType_MOB_ENDERMAN_STARE, + L"mob.enderman.scream", //eSoundType_MOB_ENDERMAN_SCREAM, + L"mob.sheep.shear", //eSoundType_MOB_SHEEP_SHEAR, + L"mob.sheep.step", //eSoundType_MOB_SHEEP_STEP, + L"mob.skeleton.death", //eSoundType_MOB_SKELETON_DEATH, + L"mob.skeleton.step", //eSoundType_MOB_SKELETON_STEP, + L"mob.spider.step", //eSoundType_MOB_SPIDER_STEP, + L"mob.wolf.step", //eSoundType_MOB_WOLF_STEP, + L"mob.zombie.step", //eSoundType_MOB_ZOMBIE_STEP, + + L"liquid.swim", //eSoundType_LIQUID_SWIM, + + L"mob.horse.land", //eSoundType_MOB_HORSE_LAND, + L"mob.horse.armor", //eSoundType_MOB_HORSE_ARMOR, + L"mob.horse.leather", //eSoundType_MOB_HORSE_LEATHER, + L"mob.horse.zombie.death", //eSoundType_MOB_HORSE_ZOMBIE_DEATH, + L"mob.horse.skeleton.death", //eSoundType_MOB_HORSE_SKELETON_DEATH, + L"mob.horse.donkey.death", //eSoundType_MOB_HORSE_DONKEY_DEATH, + L"mob.horse.death", //eSoundType_MOB_HORSE_DEATH, + L"mob.horse.zombie.hit", //eSoundType_MOB_HORSE_ZOMBIE_HIT, + L"mob.horse.skeleton.hit", //eSoundType_MOB_HORSE_SKELETON_HIT, + L"mob.horse.donkey.hit", //eSoundType_MOB_HORSE_DONKEY_HIT, + L"mob.horse.hit", //eSoundType_MOB_HORSE_HIT, + L"mob.horse.zombie.idle", //eSoundType_MOB_HORSE_ZOMBIE_IDLE, + L"mob.horse.skeleton.idle", //eSoundType_MOB_HORSE_SKELETON_IDLE, + L"mob.horse.donkey.idle", //eSoundType_MOB_HORSE_DONKEY_IDLE, + L"mob.horse.idle", //eSoundType_MOB_HORSE_IDLE, + L"mob.horse.donkey.angry", //eSoundType_MOB_HORSE_DONKEY_ANGRY, + L"mob.horse.angry", //eSoundType_MOB_HORSE_ANGRY, + L"mob.horse.gallop", //eSoundType_MOB_HORSE_GALLOP, + L"mob.horse.breathe", //eSoundType_MOB_HORSE_BREATHE, + L"mob.horse.wood", //eSoundType_MOB_HORSE_WOOD, + L"mob.horse.soft", //eSoundType_MOB_HORSE_SOFT, + L"mob.horse.jump", //eSoundType_MOB_HORSE_JUMP, + + L"mob.witch.ambient", //eSoundType_MOB_WITCH_IDLE, + L"mob.witch.hurt", //eSoundType_MOB_WITCH_HURT, + L"mob.witch.death", //eSoundType_MOB_WITCH_DEATH, + + L"mob.slime.big", //eSoundType_MOB_SLIME_BIG, + L"mob.slime.small", //eSoundType_MOB_SLIME_SMALL, + + L"eating", //eSoundType_EATING <--- missing + L"random.levelup", //eSoundType_RANDOM_LEVELUP + + // 4J-PB - Some sounds were updated, but we can't do that for the 360 or we have to do a new sound bank + // instead, we'll add the sounds as new ones and change the code to reference them + L"fire.new_ignite", +}; + + +const WCHAR *ConsoleSoundEngine::wchUISoundNames[eSFX_MAX]= +{ + L"back", + L"craft", + L"craftfail", + L"focus", + L"press", + L"scroll", +}; diff --git a/Minecraft.Client/Common/Audio/miniaudio.h b/Minecraft.Client/Common/Audio/miniaudio.h new file mode 100644 index 0000000..01e2704 --- /dev/null +++ b/Minecraft.Client/Common/Audio/miniaudio.h @@ -0,0 +1,95844 @@ +/* +Audio playback and capture library. Choice of public domain or MIT-0. See license statements at the end of this file. +miniaudio - v0.11.24 - 2026-01-17 + +David Reid - mackron@gmail.com + +Website: https://miniaud.io +Documentation: https://miniaud.io/docs +GitHub: https://github.com/mackron/miniaudio +*/ + +/* +1. Introduction +=============== +To use miniaudio, just include "miniaudio.h" like any other header and add "miniaudio.c" to your +source tree. If you don't want to add it to your source tree you can compile and link to it like +any other library. Note that ABI compatibility is not guaranteed between versions, even with bug +fix releases, so take care if compiling as a shared object. + +miniaudio includes both low level and high level APIs. The low level API is good for those who want +to do all of their mixing themselves and only require a light weight interface to the underlying +audio device. The high level API is good for those who have complex mixing and effect requirements. + +In miniaudio, objects are transparent structures. Unlike many other libraries, there are no handles +to opaque objects which means you need to allocate memory for objects yourself. In the examples +presented in this documentation you will often see objects declared on the stack. You need to be +careful when translating these examples to your own code so that you don't accidentally declare +your objects on the stack and then cause them to become invalid once the function returns. In +addition, you must ensure the memory address of your objects remain the same throughout their +lifetime. You therefore cannot be making copies of your objects. + +A config/init pattern is used throughout the entire library. The idea is that you set up a config +object and pass that into the initialization routine. The advantage to this system is that the +config object can be initialized with logical defaults and new properties added to it without +breaking the API. The config object can be allocated on the stack and does not need to be +maintained after initialization of the corresponding object. + + +1.1. Low Level API +------------------ +The low level API gives you access to the raw audio data of an audio device. It supports playback, +capture, full-duplex and loopback (WASAPI only). You can enumerate over devices to determine which +physical device(s) you want to connect to. + +The low level API uses the concept of a "device" as the abstraction for physical devices. The idea +is that you choose a physical device to emit or capture audio from, and then move data to/from the +device when miniaudio tells you to. Data is delivered to and from devices asynchronously via a +callback which you specify when initializing the device. + +When initializing the device you first need to configure it. The device configuration allows you to +specify things like the format of the data delivered via the callback, the size of the internal +buffer and the ID of the device you want to emit or capture audio from. + +Once you have the device configuration set up you can initialize the device. When initializing a +device you need to allocate memory for the device object beforehand. This gives the application +complete control over how the memory is allocated. In the example below we initialize a playback +device on the stack, but you could allocate it on the heap if that suits your situation better. + + ```c + void data_callback(ma_device* pDevice, void* pOutput, const void* pInput, ma_uint32 frameCount) + { + // In playback mode copy data to pOutput. In capture mode read data from pInput. In full-duplex mode, both + // pOutput and pInput will be valid and you can move data from pInput into pOutput. Never process more than + // frameCount frames. + } + + int main() + { + ma_device_config config = ma_device_config_init(ma_device_type_playback); + config.playback.format = ma_format_f32; // Set to ma_format_unknown to use the device's native format. + config.playback.channels = 2; // Set to 0 to use the device's native channel count. + config.sampleRate = 48000; // Set to 0 to use the device's native sample rate. + config.dataCallback = data_callback; // This function will be called when miniaudio needs more data. + config.pUserData = pMyCustomData; // Can be accessed from the device object (device.pUserData). + + ma_device device; + if (ma_device_init(NULL, &config, &device) != MA_SUCCESS) { + return -1; // Failed to initialize the device. + } + + ma_device_start(&device); // The device is sleeping by default so you'll need to start it manually. + + // Do something here. Probably your program's main loop. + + ma_device_uninit(&device); + return 0; + } + ``` + +In the example above, `data_callback()` is where audio data is written and read from the device. +The idea is in playback mode you cause sound to be emitted from the speakers by writing audio data +to the output buffer (`pOutput` in the example). In capture mode you read data from the input +buffer (`pInput`) to extract sound captured by the microphone. The `frameCount` parameter tells you +how many frames can be written to the output buffer and read from the input buffer. A "frame" is +one sample for each channel. For example, in a stereo stream (2 channels), one frame is 2 +samples: one for the left, one for the right. The channel count is defined by the device config. +The size in bytes of an individual sample is defined by the sample format which is also specified +in the device config. Multi-channel audio data is always interleaved, which means the samples for +each frame are stored next to each other in memory. For example, in a stereo stream the first pair +of samples will be the left and right samples for the first frame, the second pair of samples will +be the left and right samples for the second frame, etc. + +The configuration of the device is defined by the `ma_device_config` structure. The config object +is always initialized with `ma_device_config_init()`. It's important to always initialize the +config with this function as it initializes it with logical defaults and ensures your program +doesn't break when new members are added to the `ma_device_config` structure. The example above +uses a fairly simple and standard device configuration. The call to `ma_device_config_init()` takes +a single parameter, which is whether or not the device is a playback, capture, duplex or loopback +device (loopback devices are not supported on all backends). The `config.playback.format` member +sets the sample format which can be one of the following (all formats are native-endian): + + +---------------+----------------------------------------+---------------------------+ + | Symbol | Description | Range | + +---------------+----------------------------------------+---------------------------+ + | ma_format_f32 | 32-bit floating point | [-1, 1] | + | ma_format_s16 | 16-bit signed integer | [-32768, 32767] | + | ma_format_s24 | 24-bit signed integer (tightly packed) | [-8388608, 8388607] | + | ma_format_s32 | 32-bit signed integer | [-2147483648, 2147483647] | + | ma_format_u8 | 8-bit unsigned integer | [0, 255] | + +---------------+----------------------------------------+---------------------------+ + +The `config.playback.channels` member sets the number of channels to use with the device. The +channel count cannot exceed MA_MAX_CHANNELS. The `config.sampleRate` member sets the sample rate +(which must be the same for both playback and capture in full-duplex configurations). This is +usually set to 44100 or 48000, but can be set to anything. It's recommended to keep this between +8000 and 384000, however. + +Note that leaving the format, channel count and/or sample rate at their default values will result +in the internal device's native configuration being used which is useful if you want to avoid the +overhead of miniaudio's automatic data conversion. + +In addition to the sample format, channel count and sample rate, the data callback and user data +pointer are also set via the config. The user data pointer is not passed into the callback as a +parameter, but is instead set to the `pUserData` member of `ma_device` which you can access +directly since all miniaudio structures are transparent. + +Initializing the device is done with `ma_device_init()`. This will return a result code telling you +what went wrong, if anything. On success it will return `MA_SUCCESS`. After initialization is +complete the device will be in a stopped state. To start it, use `ma_device_start()`. +Uninitializing the device will stop it, which is what the example above does, but you can also stop +the device with `ma_device_stop()`. To resume the device simply call `ma_device_start()` again. +Note that it's important to never stop or start the device from inside the callback. This will +result in a deadlock. Instead you set a variable or signal an event indicating that the device +needs to stop and handle it in a different thread. The following APIs must never be called inside +the callback: + + ```c + ma_device_init() + ma_device_init_ex() + ma_device_uninit() + ma_device_start() + ma_device_stop() + ``` + +You must never try uninitializing and reinitializing a device inside the callback. You must also +never try to stop and start it from inside the callback. There are a few other things you shouldn't +do in the callback depending on your requirements, however this isn't so much a thread-safety +thing, but rather a real-time processing thing which is beyond the scope of this introduction. + +The example above demonstrates the initialization of a playback device, but it works exactly the +same for capture. All you need to do is change the device type from `ma_device_type_playback` to +`ma_device_type_capture` when setting up the config, like so: + + ```c + ma_device_config config = ma_device_config_init(ma_device_type_capture); + config.capture.format = MY_FORMAT; + config.capture.channels = MY_CHANNEL_COUNT; + ``` + +In the data callback you just read from the input buffer (`pInput` in the example above) and leave +the output buffer alone (it will be set to NULL when the device type is set to +`ma_device_type_capture`). + +These are the available device types and how you should handle the buffers in the callback: + + +-------------------------+--------------------------------------------------------+ + | Device Type | Callback Behavior | + +-------------------------+--------------------------------------------------------+ + | ma_device_type_playback | Write to output buffer, leave input buffer untouched. | + | ma_device_type_capture | Read from input buffer, leave output buffer untouched. | + | ma_device_type_duplex | Read from input buffer, write to output buffer. | + | ma_device_type_loopback | Read from input buffer, leave output buffer untouched. | + +-------------------------+--------------------------------------------------------+ + +You will notice in the example above that the sample format and channel count is specified +separately for playback and capture. This is to support different data formats between the playback +and capture devices in a full-duplex system. An example may be that you want to capture audio data +as a monaural stream (one channel), but output sound to a stereo speaker system. Note that if you +use different formats between playback and capture in a full-duplex configuration you will need to +convert the data yourself. There are functions available to help you do this which will be +explained later. + +The example above did not specify a physical device to connect to which means it will use the +operating system's default device. If you have multiple physical devices connected and you want to +use a specific one you will need to specify the device ID in the configuration, like so: + + ```c + config.playback.pDeviceID = pMyPlaybackDeviceID; // Only if requesting a playback or duplex device. + config.capture.pDeviceID = pMyCaptureDeviceID; // Only if requesting a capture, duplex or loopback device. + ``` + +To retrieve the device ID you will need to perform device enumeration, however this requires the +use of a new concept called the "context". Conceptually speaking the context sits above the device. +There is one context to many devices. The purpose of the context is to represent the backend at a +more global level and to perform operations outside the scope of an individual device. Mainly it is +used for performing run-time linking against backend libraries, initializing backends and +enumerating devices. The example below shows how to enumerate devices. + + ```c + ma_context context; + if (ma_context_init(NULL, 0, NULL, &context) != MA_SUCCESS) { + // Error. + } + + ma_device_info* pPlaybackInfos; + ma_uint32 playbackCount; + ma_device_info* pCaptureInfos; + ma_uint32 captureCount; + if (ma_context_get_devices(&context, &pPlaybackInfos, &playbackCount, &pCaptureInfos, &captureCount) != MA_SUCCESS) { + // Error. + } + + // Loop over each device info and do something with it. Here we just print the name with their index. You may want + // to give the user the opportunity to choose which device they'd prefer. + for (ma_uint32 iDevice = 0; iDevice < playbackCount; iDevice += 1) { + printf("%d - %s\n", iDevice, pPlaybackInfos[iDevice].name); + } + + ma_device_config config = ma_device_config_init(ma_device_type_playback); + config.playback.pDeviceID = &pPlaybackInfos[chosenPlaybackDeviceIndex].id; + config.playback.format = MY_FORMAT; + config.playback.channels = MY_CHANNEL_COUNT; + config.sampleRate = MY_SAMPLE_RATE; + config.dataCallback = data_callback; + config.pUserData = pMyCustomData; + + ma_device device; + if (ma_device_init(&context, &config, &device) != MA_SUCCESS) { + // Error + } + + ... + + ma_device_uninit(&device); + ma_context_uninit(&context); + ``` + +The first thing we do in this example is initialize a `ma_context` object with `ma_context_init()`. +The first parameter is a pointer to a list of `ma_backend` values which are used to override the +default backend priorities. When this is NULL, as in this example, miniaudio's default priorities +are used. The second parameter is the number of backends listed in the array pointed to by the +first parameter. The third parameter is a pointer to a `ma_context_config` object which can be +NULL, in which case defaults are used. The context configuration is used for setting the logging +callback, custom memory allocation callbacks, user-defined data and some backend-specific +configurations. + +Once the context has been initialized you can enumerate devices. In the example above we use the +simpler `ma_context_get_devices()`, however you can also use a callback for handling devices by +using `ma_context_enumerate_devices()`. When using `ma_context_get_devices()` you provide a pointer +to a pointer that will, upon output, be set to a pointer to a buffer containing a list of +`ma_device_info` structures. You also provide a pointer to an unsigned integer that will receive +the number of items in the returned buffer. Do not free the returned buffers as their memory is +managed internally by miniaudio. + +The `ma_device_info` structure contains an `id` member which is the ID you pass to the device +config. It also contains the name of the device which is useful for presenting a list of devices +to the user via the UI. + +When creating your own context you will want to pass it to `ma_device_init()` when initializing the +device. Passing in NULL, like we do in the first example, will result in miniaudio creating the +context for you, which you don't want to do since you've already created a context. Note that +internally the context is only tracked by it's pointer which means you must not change the location +of the `ma_context` object. If this is an issue, consider using `malloc()` to allocate memory for +the context. + + +1.2. High Level API +------------------- +The high level API consists of three main parts: + + * Resource management for loading and streaming sounds. + * A node graph for advanced mixing and effect processing. + * A high level "engine" that wraps around the resource manager and node graph. + +The resource manager (`ma_resource_manager`) is used for loading sounds. It supports loading sounds +fully into memory and also streaming. It will also deal with reference counting for you which +avoids the same sound being loaded multiple times. + +The node graph is used for mixing and effect processing. The idea is that you connect a number of +nodes into the graph by connecting each node's outputs to another node's inputs. Each node can +implement its own effect. By chaining nodes together, advanced mixing and effect processing can +be achieved. + +The engine encapsulates both the resource manager and the node graph to create a simple, easy to +use high level API. The resource manager and node graph APIs are covered in more later sections of +this manual. + +The code below shows how you can initialize an engine using its default configuration. + + ```c + ma_result result; + ma_engine engine; + + result = ma_engine_init(NULL, &engine); + if (result != MA_SUCCESS) { + return result; // Failed to initialize the engine. + } + ``` + +This creates an engine instance which will initialize a device internally which you can access with +`ma_engine_get_device()`. It will also initialize a resource manager for you which can be accessed +with `ma_engine_get_resource_manager()`. The engine itself is a node graph (`ma_node_graph`) which +means you can pass a pointer to the engine object into any of the `ma_node_graph` APIs (with a +cast). Alternatively, you can use `ma_engine_get_node_graph()` instead of a cast. + +Note that all objects in miniaudio, including the `ma_engine` object in the example above, are +transparent structures. There are no handles to opaque structures in miniaudio which means you need +to be mindful of how you declare them. In the example above we are declaring it on the stack, but +this will result in the struct being invalidated once the function encapsulating it returns. If +allocating the engine on the heap is more appropriate, you can easily do so with a standard call +to `malloc()` or whatever heap allocation routine you like: + + ```c + ma_engine* pEngine = malloc(sizeof(*pEngine)); + ``` + +The `ma_engine` API uses the same config/init pattern used all throughout miniaudio. To configure +an engine, you can fill out a `ma_engine_config` object and pass it into the first parameter of +`ma_engine_init()`: + + ```c + ma_result result; + ma_engine engine; + ma_engine_config engineConfig; + + engineConfig = ma_engine_config_init(); + engineConfig.pResourceManager = &myCustomResourceManager; // <-- Initialized as some earlier stage. + + result = ma_engine_init(&engineConfig, &engine); + if (result != MA_SUCCESS) { + return result; + } + ``` + +This creates an engine instance using a custom config. In this particular example it's showing how +you can specify a custom resource manager rather than having the engine initialize one internally. +This is particularly useful if you want to have multiple engine's share the same resource manager. + +The engine must be uninitialized with `ma_engine_uninit()` when it's no longer needed. + +By default the engine will be started, but nothing will be playing because no sounds have been +initialized. The easiest but least flexible way of playing a sound is like so: + + ```c + ma_engine_play_sound(&engine, "my_sound.wav", NULL); + ``` + +This plays what miniaudio calls an "inline" sound. It plays the sound once, and then puts the +internal sound up for recycling. The last parameter is used to specify which sound group the sound +should be associated with which will be explained later. This particular way of playing a sound is +simple, but lacks flexibility and features. A more flexible way of playing a sound is to first +initialize a sound: + + ```c + ma_result result; + ma_sound sound; + + result = ma_sound_init_from_file(&engine, "my_sound.wav", 0, NULL, NULL, &sound); + if (result != MA_SUCCESS) { + return result; + } + + ma_sound_start(&sound); + ``` + +This returns a `ma_sound` object which represents a single instance of the specified sound file. If +you want to play the same file multiple times simultaneously, you need to create one sound for each +instance. + +Sounds should be uninitialized with `ma_sound_uninit()`. + +Sounds are not started by default. Start a sound with `ma_sound_start()` and stop it with +`ma_sound_stop()`. When a sound is stopped, it is not rewound to the start. Use +`ma_sound_seek_to_pcm_frame(&sound, 0)` to seek back to the start of a sound. By default, starting +and stopping sounds happens immediately, but sometimes it might be convenient to schedule the sound +to be started and/or stopped at a specific time. This can be done with the following functions: + + ```c + ma_sound_set_start_time_in_pcm_frames() + ma_sound_set_start_time_in_milliseconds() + ma_sound_set_stop_time_in_pcm_frames() + ma_sound_set_stop_time_in_milliseconds() + ``` + +The start/stop time needs to be specified based on the absolute timer which is controlled by the +engine. The current global time in PCM frames can be retrieved with +`ma_engine_get_time_in_pcm_frames()`. The engine's global time can be changed with +`ma_engine_set_time_in_pcm_frames()` for synchronization purposes if required. Note that scheduling +a start time still requires an explicit call to `ma_sound_start()` before anything will play: + + ```c + ma_sound_set_start_time_in_pcm_frames(&sound, ma_engine_get_time_in_pcm_frames(&engine) + (ma_engine_get_sample_rate(&engine) * 2); + ma_sound_start(&sound); + ``` + +The third parameter of `ma_sound_init_from_file()` is a set of flags that control how the sound be +loaded and a few options on which features should be enabled for that sound. By default, the sound +is synchronously loaded fully into memory straight from the file system without any kind of +decoding. If you want to decode the sound before storing it in memory, you need to specify the +`MA_SOUND_FLAG_DECODE` flag. This is useful if you want to incur the cost of decoding at an earlier +stage, such as a loading stage. Without this option, decoding will happen dynamically at mixing +time which might be too expensive on the audio thread. + +If you want to load the sound asynchronously, you can specify the `MA_SOUND_FLAG_ASYNC` flag. This +will result in `ma_sound_init_from_file()` returning quickly, but the sound will not start playing +until the sound has had some audio decoded. + +The fourth parameter is a pointer to sound group. A sound group is used as a mechanism to organise +sounds into groups which have their own effect processing and volume control. An example is a game +which might have separate groups for sfx, voice and music. Each of these groups have their own +independent volume control. Use `ma_sound_group_init()` or `ma_sound_group_init_ex()` to initialize +a sound group. + +Sounds and sound groups are nodes in the engine's node graph and can be plugged into any `ma_node` +API. This makes it possible to connect sounds and sound groups to effect nodes to produce complex +effect chains. + +A sound can have its volume changed with `ma_sound_set_volume()`. If you prefer decibel volume +control you can use `ma_volume_db_to_linear()` to convert from decibel representation to linear. + +Panning and pitching is supported with `ma_sound_set_pan()` and `ma_sound_set_pitch()`. If you know +a sound will never have its pitch changed with `ma_sound_set_pitch()` or via the doppler effect, +you can specify the `MA_SOUND_FLAG_NO_PITCH` flag when initializing the sound for an optimization. + +By default, sounds and sound groups have spatialization enabled. If you don't ever want to +spatialize your sounds, initialize the sound with the `MA_SOUND_FLAG_NO_SPATIALIZATION` flag. The +spatialization model is fairly simple and is roughly on feature parity with OpenAL. HRTF and +environmental occlusion are not currently supported, but planned for the future. The supported +features include: + + * Sound and listener positioning and orientation with cones + * Attenuation models: none, inverse, linear and exponential + * Doppler effect + +Sounds can be faded in and out with `ma_sound_set_fade_in_pcm_frames()`. + +To check if a sound is currently playing, you can use `ma_sound_is_playing()`. To check if a sound +is at the end, use `ma_sound_at_end()`. Looping of a sound can be controlled with +`ma_sound_set_looping()`. Use `ma_sound_is_looping()` to check whether or not the sound is looping. + + + +2. Building +=========== +miniaudio should work cleanly out of the box without the need to download or install any +dependencies. See below for platform-specific details. + +This library has been designed to be added directly to your source tree which is the preferred way +of using it, but you can compile it as a normal library if that's your preference. Be careful if +compiling as a shared object because miniaudio is not ABI compatible between any release, including +bug fix releases. It's recommended you link statically. + +Note that GCC and Clang require `-msse2`, `-mavx2`, etc. for SIMD optimizations. + +If you get errors about undefined references to `__sync_val_compare_and_swap_8`, `__atomic_load_8`, +etc. you need to link with `-latomic`. + + +2.1. Windows +------------ +The Windows build should compile cleanly on all popular compilers without the need to configure any +include paths nor link to any libraries. + +The UWP build may require linking to mmdevapi.lib if you get errors about an unresolved external +symbol for `ActivateAudioInterfaceAsync()`. + + +2.2. macOS and iOS +------------------ +The macOS build should compile cleanly without the need to download any dependencies nor link to +any libraries or frameworks. The iOS build needs to be compiled as Objective-C and will need to +link the relevant frameworks but should compile cleanly out of the box with Xcode. Compiling +through the command line requires linking to `-lpthread` and `-lm`. + +Due to the way miniaudio links to frameworks at runtime, your application may not pass Apple's +notarization process. To fix this there are two options. The first is to compile with +`-DMA_NO_RUNTIME_LINKING` which in turn will require linking with +`-framework CoreFoundation -framework CoreAudio -framework AudioToolbox`. If you get errors about +AudioToolbox, try with `-framework AudioUnit` instead. You may get this when using older versions +of iOS. Alternatively, if you would rather keep using runtime linking you can add the following to +your entitlements.xcent file: + + ``` + com.apple.security.cs.allow-dyld-environment-variables + + com.apple.security.cs.allow-unsigned-executable-memory + + ``` + +See this discussion for more info: https://github.com/mackron/miniaudio/issues/203. + + +2.3. Linux +---------- +The Linux build only requires linking to `-ldl`, `-lpthread` and `-lm`. You do not need any +development packages. You may need to link with `-latomic` if you're compiling for 32-bit ARM. + + +2.4. BSD +-------- +The BSD build only requires linking to `-lpthread` and `-lm`. NetBSD uses audio(4), OpenBSD uses +sndio and FreeBSD uses OSS. You may need to link with `-latomic` if you're compiling for 32-bit +ARM. + + +2.5. Android +------------ +AAudio is the highest priority backend on Android. This should work out of the box without needing +any kind of compiler configuration. Support for AAudio starts with Android 8 which means older +versions will fall back to OpenSL|ES which requires API level 16+. + +There have been reports that the OpenSL|ES backend fails to initialize on some Android based +devices due to `dlopen()` failing to open "libOpenSLES.so". If this happens on your platform +you'll need to disable run-time linking with `MA_NO_RUNTIME_LINKING` and link with -lOpenSLES. + + +2.6. Emscripten +--------------- +The Emscripten build emits Web Audio JavaScript directly and should compile cleanly out of the box. +You cannot use `-std=c*` compiler flags, nor `-ansi`. + +You can enable the use of AudioWorklets by defining `MA_ENABLE_AUDIO_WORKLETS` and then compiling +with the following options: + + -sAUDIO_WORKLET=1 -sWASM_WORKERS=1 -sASYNCIFY + +An example for compiling with AudioWorklet support might look like this: + + emcc program.c -o bin/program.html -DMA_ENABLE_AUDIO_WORKLETS -sAUDIO_WORKLET=1 -sWASM_WORKERS=1 -sASYNCIFY + +To run locally, you'll need to use emrun: + + emrun bin/program.html + + + +2.7. Build Options +------------------ +`#define` these options before including miniaudio.c, or pass them as compiler flags: + + +----------------------------------+--------------------------------------------------------------------+ + | Option | Description | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_WASAPI | Disables the WASAPI backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_DSOUND | Disables the DirectSound backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_WINMM | Disables the WinMM backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_ALSA | Disables the ALSA backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_PULSEAUDIO | Disables the PulseAudio backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_JACK | Disables the JACK backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_COREAUDIO | Disables the Core Audio backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_SNDIO | Disables the sndio backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_AUDIO4 | Disables the audio(4) backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_OSS | Disables the OSS backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_AAUDIO | Disables the AAudio backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_OPENSL | Disables the OpenSL|ES backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_WEBAUDIO | Disables the Web Audio backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_CUSTOM | Disables support for custom backends. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_NULL | Disables the null backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_ONLY_SPECIFIC_BACKENDS | Disables all backends by default and requires `MA_ENABLE_*` to | + | | enable specific backends. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_WASAPI | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the WASAPI backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_DSOUND | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the DirectSound backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_WINMM | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the WinMM backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_ALSA | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the ALSA backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_PULSEAUDIO | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the PulseAudio backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_JACK | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the JACK backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_COREAUDIO | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the Core Audio backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_SNDIO | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the sndio backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_AUDIO4 | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the audio(4) backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_OSS | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the OSS backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_AAUDIO | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the AAudio backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_OPENSL | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the OpenSL|ES backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_WEBAUDIO | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the Web Audio backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_CUSTOM | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable custom backends. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_NULL | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable the null backend. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_DECODING | Disables decoding APIs. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_ENCODING | Disables encoding APIs. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_WAV | Disables the built-in WAV decoder and encoder. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_FLAC | Disables the built-in FLAC decoder. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_MP3 | Disables the built-in MP3 decoder. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_DEVICE_IO | Disables playback and recording. This will disable `ma_context` | + | | and `ma_device` APIs. This is useful if you only want to use | + | | miniaudio's data conversion and/or decoding APIs. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_RESOURCE_MANAGER | Disables the resource manager. When using the engine this will | + | | also disable the following functions: | + | | | + | | ``` | + | | ma_sound_init_from_file() | + | | ma_sound_init_from_file_w() | + | | ma_sound_init_copy() | + | | ma_engine_play_sound_ex() | + | | ma_engine_play_sound() | + | | ``` | + | | | + | | The only way to initialize a `ma_sound` object is to initialize it | + | | from a data source. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_NODE_GRAPH | Disables the node graph API. This will also disable the engine API | + | | because it depends on the node graph. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_ENGINE | Disables the engine API. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_THREADING | Disables the `ma_thread`, `ma_mutex`, `ma_semaphore` and | + | | `ma_event` APIs. This option is useful if you only need to use | + | | miniaudio for data conversion, decoding and/or encoding. Some | + | | families of APIs require threading which means the following | + | | options must also be set: | + | | | + | | ``` | + | | MA_NO_DEVICE_IO | + | | ``` | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_GENERATION | Disables generation APIs such a `ma_waveform` and `ma_noise`. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_SSE2 | Disables SSE2 optimizations. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_AVX2 | Disables AVX2 optimizations. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_NEON | Disables NEON optimizations. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_RUNTIME_LINKING | Disables runtime linking. This is useful for passing Apple's | + | | notarization process. When enabling this, you may need to avoid | + | | using `-std=c89` or `-std=c99` on Linux builds or else you may end | + | | up with compilation errors due to conflicts with `timespec` and | + | | `timeval` data types. | + | | | + | | You may need to enable this if your target platform does not allow | + | | runtime linking via `dlopen()`. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_USE_STDINT | (Pass this in as a compiler flag. Do not `#define` this before | + | | miniaudio.c) Forces the use of stdint.h for sized types. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_DEBUG_OUTPUT | Enable `printf()` output of debug logs (`MA_LOG_LEVEL_DEBUG`). | + +----------------------------------+--------------------------------------------------------------------+ + | MA_COINIT_VALUE | Windows only. The value to pass to internal calls to | + | | `CoInitializeEx()`. Defaults to `COINIT_MULTITHREADED`. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_FORCE_UWP | Windows only. Affects only the WASAPI backend. Will force the | + | | WASAPI backend to use the UWP code path instead of the regular | + | | desktop path. This is normally auto-detected and should rarely be | + | | needed to be used explicitly, but can be useful for debugging. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ON_THREAD_ENTRY | Defines some code that will be executed as soon as an internal | + | | miniaudio-managed thread is created. This will be the first thing | + | | to be executed by the thread entry point. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ON_THREAD_EXIT | Defines some code that will be executed from the entry point of an | + | | internal miniaudio-managed thread upon exit. This will be the last | + | | thing to be executed before the thread's entry point exits. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_THREAD_DEFAULT_STACK_SIZE | If set, specifies the default stack size used by miniaudio-managed | + | | threads. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_API | Controls how public APIs should be decorated. Default is `extern`. | + +----------------------------------+--------------------------------------------------------------------+ + + +3. Definitions +============== +This section defines common terms used throughout miniaudio. Unfortunately there is often ambiguity +in the use of terms throughout the audio space, so this section is intended to clarify how miniaudio +uses each term. + +3.1. Sample +----------- +A sample is a single unit of audio data. If the sample format is f32, then one sample is one 32-bit +floating point number. + +3.2. Frame / PCM Frame +---------------------- +A frame is a group of samples equal to the number of channels. For a stereo stream a frame is 2 +samples, a mono frame is 1 sample, a 5.1 surround sound frame is 6 samples, etc. The terms "frame" +and "PCM frame" are the same thing in miniaudio. Note that this is different to a compressed frame. +If ever miniaudio needs to refer to a compressed frame, such as a FLAC frame, it will always +clarify what it's referring to with something like "FLAC frame". + +3.3. Channel +------------ +A stream of monaural audio that is emitted from an individual speaker in a speaker system, or +received from an individual microphone in a microphone system. A stereo stream has two channels (a +left channel, and a right channel), a 5.1 surround sound system has 6 channels, etc. Some audio +systems refer to a channel as a complex audio stream that's mixed with other channels to produce +the final mix - this is completely different to miniaudio's use of the term "channel" and should +not be confused. + +3.4. Sample Rate +---------------- +The sample rate in miniaudio is always expressed in Hz, such as 44100, 48000, etc. It's the number +of PCM frames that are processed per second. + +3.5. Formats +------------ +Throughout miniaudio you will see references to different sample formats: + + +---------------+----------------------------------------+---------------------------+ + | Symbol | Description | Range | + +---------------+----------------------------------------+---------------------------+ + | ma_format_f32 | 32-bit floating point | [-1, 1] | + | ma_format_s16 | 16-bit signed integer | [-32768, 32767] | + | ma_format_s24 | 24-bit signed integer (tightly packed) | [-8388608, 8388607] | + | ma_format_s32 | 32-bit signed integer | [-2147483648, 2147483647] | + | ma_format_u8 | 8-bit unsigned integer | [0, 255] | + +---------------+----------------------------------------+---------------------------+ + +All formats are native-endian. + + + +4. Data Sources +=============== +The data source abstraction in miniaudio is used for retrieving audio data from some source. A few +examples include `ma_decoder`, `ma_noise` and `ma_waveform`. You will need to be familiar with data +sources in order to make sense of some of the higher level concepts in miniaudio. + +The `ma_data_source` API is a generic interface for reading from a data source. Any object that +implements the data source interface can be plugged into any `ma_data_source` function. + +To read data from a data source: + + ```c + ma_result result; + ma_uint64 framesRead; + + result = ma_data_source_read_pcm_frames(pDataSource, pFramesOut, frameCount, &framesRead); + if (result != MA_SUCCESS) { + return result; // Failed to read data from the data source. + } + ``` + +If you don't need the number of frames that were successfully read you can pass in `NULL` to the +`pFramesRead` parameter. If this returns a value less than the number of frames requested it means +the end of the file has been reached. `MA_AT_END` will be returned only when the number of frames +read is 0. + +When calling any data source function, with the exception of `ma_data_source_init()` and +`ma_data_source_uninit()`, you can pass in any object that implements a data source. For example, +you could plug in a decoder like so: + + ```c + ma_result result; + ma_uint64 framesRead; + ma_decoder decoder; // <-- This would be initialized with `ma_decoder_init_*()`. + + result = ma_data_source_read_pcm_frames(&decoder, pFramesOut, frameCount, &framesRead); + if (result != MA_SUCCESS) { + return result; // Failed to read data from the decoder. + } + ``` + +If you want to seek forward you can pass in `NULL` to the `pFramesOut` parameter. Alternatively you +can use `ma_data_source_seek_pcm_frames()`. + +To seek to a specific PCM frame: + + ```c + result = ma_data_source_seek_to_pcm_frame(pDataSource, frameIndex); + if (result != MA_SUCCESS) { + return result; // Failed to seek to PCM frame. + } + ``` + +You can retrieve the total length of a data source in PCM frames, but note that some data sources +may not have the notion of a length, such as noise and waveforms, and others may just not have a +way of determining the length such as some decoders. To retrieve the length: + + ```c + ma_uint64 length; + + result = ma_data_source_get_length_in_pcm_frames(pDataSource, &length); + if (result != MA_SUCCESS) { + return result; // Failed to retrieve the length. + } + ``` + +Care should be taken when retrieving the length of a data source where the underlying decoder is +pulling data from a data stream with an undefined length, such as internet radio or some kind of +broadcast. If you do this, `ma_data_source_get_length_in_pcm_frames()` may never return. + +The current position of the cursor in PCM frames can also be retrieved: + + ```c + ma_uint64 cursor; + + result = ma_data_source_get_cursor_in_pcm_frames(pDataSource, &cursor); + if (result != MA_SUCCESS) { + return result; // Failed to retrieve the cursor. + } + ``` + +You will often need to know the data format that will be returned after reading. This can be +retrieved like so: + + ```c + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_channel channelMap[MA_MAX_CHANNELS]; + + result = ma_data_source_get_data_format(pDataSource, &format, &channels, &sampleRate, channelMap, MA_MAX_CHANNELS); + if (result != MA_SUCCESS) { + return result; // Failed to retrieve data format. + } + ``` + +If you do not need a specific data format property, just pass in NULL to the respective parameter. + +There may be cases where you want to implement something like a sound bank where you only want to +read data within a certain range of the underlying data. To do this you can use a range: + + ```c + result = ma_data_source_set_range_in_pcm_frames(pDataSource, rangeBegInFrames, rangeEndInFrames); + if (result != MA_SUCCESS) { + return result; // Failed to set the range. + } + ``` + +This is useful if you have a sound bank where many sounds are stored in the same file and you want +the data source to only play one of those sub-sounds. Note that once the range is set, everything +that takes a position, such as cursors and loop points, should always be relative to the start of +the range. When the range is set, any previously defined loop point will be reset. + +Custom loop points can also be used with data sources. By default, data sources will loop after +they reach the end of the data source, but if you need to loop at a specific location, you can do +the following: + + ```c + result = ma_data_source_set_loop_point_in_pcm_frames(pDataSource, loopBegInFrames, loopEndInFrames); + if (result != MA_SUCCESS) { + return result; // Failed to set the loop point. + } + ``` + +The loop point is relative to the current range. + +It's sometimes useful to chain data sources together so that a seamless transition can be achieved. +To do this, you can use chaining: + + ```c + ma_decoder decoder1; + ma_decoder decoder2; + + // ... initialize decoders with ma_decoder_init_*() ... + + result = ma_data_source_set_next(&decoder1, &decoder2); + if (result != MA_SUCCESS) { + return result; // Failed to set the next data source. + } + + result = ma_data_source_read_pcm_frames(&decoder1, pFramesOut, frameCount, pFramesRead); + if (result != MA_SUCCESS) { + return result; // Failed to read from the decoder. + } + ``` + +In the example above we're using decoders. When reading from a chain, you always want to read from +the top level data source in the chain. In the example above, `decoder1` is the top level data +source in the chain. When `decoder1` reaches the end, `decoder2` will start seamlessly without any +gaps. + +Note that when looping is enabled, only the current data source will be looped. You can loop the +entire chain by linking in a loop like so: + + ```c + ma_data_source_set_next(&decoder1, &decoder2); // decoder1 -> decoder2 + ma_data_source_set_next(&decoder2, &decoder1); // decoder2 -> decoder1 (loop back to the start). + ``` + +Note that setting up chaining is not thread safe, so care needs to be taken if you're dynamically +changing links while the audio thread is in the middle of reading. + +Do not use `ma_decoder_seek_to_pcm_frame()` as a means to reuse a data source to play multiple +instances of the same sound simultaneously. This can be extremely inefficient depending on the type +of data source and can result in glitching due to subtle changes to the state of internal filters. +Instead, initialize multiple data sources for each instance. + + +4.1. Custom Data Sources +------------------------ +You can implement a custom data source by implementing the functions in `ma_data_source_vtable`. +Your custom object must have `ma_data_source_base` as it's first member: + + ```c + struct my_data_source + { + ma_data_source_base base; + ... + }; + ``` + +In your initialization routine, you need to call `ma_data_source_init()` in order to set up the +base object (`ma_data_source_base`): + + ```c + static ma_result my_data_source_read(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) + { + // Read data here. Output in the same format returned by my_data_source_get_data_format(). + } + + static ma_result my_data_source_seek(ma_data_source* pDataSource, ma_uint64 frameIndex) + { + // Seek to a specific PCM frame here. Return MA_NOT_IMPLEMENTED if seeking is not supported. + } + + static ma_result my_data_source_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) + { + // Return the format of the data here. + } + + static ma_result my_data_source_get_cursor(ma_data_source* pDataSource, ma_uint64* pCursor) + { + // Retrieve the current position of the cursor here. Return MA_NOT_IMPLEMENTED and set *pCursor to 0 if there is no notion of a cursor. + } + + static ma_result my_data_source_get_length(ma_data_source* pDataSource, ma_uint64* pLength) + { + // Retrieve the length in PCM frames here. Return MA_NOT_IMPLEMENTED and set *pLength to 0 if there is no notion of a length or if the length is unknown. + } + + static ma_data_source_vtable g_my_data_source_vtable = + { + my_data_source_read, + my_data_source_seek, + my_data_source_get_data_format, + my_data_source_get_cursor, + my_data_source_get_length + }; + + ma_result my_data_source_init(my_data_source* pMyDataSource) + { + ma_result result; + ma_data_source_config baseConfig; + + baseConfig = ma_data_source_config_init(); + baseConfig.vtable = &g_my_data_source_vtable; + + result = ma_data_source_init(&baseConfig, &pMyDataSource->base); + if (result != MA_SUCCESS) { + return result; + } + + // ... do the initialization of your custom data source here ... + + return MA_SUCCESS; + } + + void my_data_source_uninit(my_data_source* pMyDataSource) + { + // ... do the uninitialization of your custom data source here ... + + // You must uninitialize the base data source. + ma_data_source_uninit(&pMyDataSource->base); + } + ``` + +Note that `ma_data_source_init()` and `ma_data_source_uninit()` are never called directly outside +of the custom data source. It's up to the custom data source itself to call these within their own +init/uninit functions. + + + +5. Engine +========= +The `ma_engine` API is a high level API for managing and mixing sounds and effect processing. The +`ma_engine` object encapsulates a resource manager and a node graph, both of which will be +explained in more detail later. + +Sounds are called `ma_sound` and are created from an engine. Sounds can be associated with a mixing +group called `ma_sound_group` which are also created from the engine. Both `ma_sound` and +`ma_sound_group` objects are nodes within the engine's node graph. + +When the engine is initialized, it will normally create a device internally. If you would rather +manage the device yourself, you can do so and just pass a pointer to it via the engine config when +you initialize the engine. You can also just use the engine without a device, which again can be +configured via the engine config. + +The most basic way to initialize the engine is with a default config, like so: + + ```c + ma_result result; + ma_engine engine; + + result = ma_engine_init(NULL, &engine); + if (result != MA_SUCCESS) { + return result; // Failed to initialize the engine. + } + ``` + +This will result in the engine initializing a playback device using the operating system's default +device. This will be sufficient for many use cases, but if you need more flexibility you'll want to +configure the engine with an engine config: + + ```c + ma_result result; + ma_engine engine; + ma_engine_config engineConfig; + + engineConfig = ma_engine_config_init(); + engineConfig.pDevice = &myDevice; + + result = ma_engine_init(&engineConfig, &engine); + if (result != MA_SUCCESS) { + return result; // Failed to initialize the engine. + } + ``` + +In the example above we're passing in a pre-initialized device. Since the caller is the one in +control of the device's data callback, it's their responsibility to manually call +`ma_engine_read_pcm_frames()` from inside their data callback: + + ```c + void playback_data_callback(ma_device* pDevice, void* pOutput, const void* pInput, ma_uint32 frameCount) + { + ma_engine_read_pcm_frames(&g_Engine, pOutput, frameCount, NULL); + } + ``` + +You can also use the engine independent of a device entirely: + + ```c + ma_result result; + ma_engine engine; + ma_engine_config engineConfig; + + engineConfig = ma_engine_config_init(); + engineConfig.noDevice = MA_TRUE; + engineConfig.channels = 2; // Must be set when not using a device. + engineConfig.sampleRate = 48000; // Must be set when not using a device. + + result = ma_engine_init(&engineConfig, &engine); + if (result != MA_SUCCESS) { + return result; // Failed to initialize the engine. + } + ``` + +Note that when you're not using a device, you must set the channel count and sample rate in the +config or else miniaudio won't know what to use (miniaudio will use the device to determine this +normally). When not using a device, you need to use `ma_engine_read_pcm_frames()` to process audio +data from the engine. This kind of setup is useful if you want to do something like offline +processing or want to use a different audio system for playback such as SDL. + +When a sound is loaded it goes through a resource manager. By default the engine will initialize a +resource manager internally, but you can also specify a pre-initialized resource manager: + + ```c + ma_result result; + ma_engine engine1; + ma_engine engine2; + ma_engine_config engineConfig; + + engineConfig = ma_engine_config_init(); + engineConfig.pResourceManager = &myResourceManager; + + ma_engine_init(&engineConfig, &engine1); + ma_engine_init(&engineConfig, &engine2); + ``` + +In this example we are initializing two engines, both of which are sharing the same resource +manager. This is especially useful for saving memory when loading the same file across multiple +engines. If you were not to use a shared resource manager, each engine instance would use their own +which would result in any sounds that are used between both engine's being loaded twice. By using +a shared resource manager, it would only be loaded once. Using multiple engine's is useful when you +need to output to multiple playback devices, such as in a local multiplayer game where each player +is using their own set of headphones. + +By default an engine will be in a started state. To make it so the engine is not automatically +started you can configure it as such: + + ```c + engineConfig.noAutoStart = MA_TRUE; + + // The engine will need to be started manually. + ma_engine_start(&engine); + + // Later on the engine can be stopped with ma_engine_stop(). + ma_engine_stop(&engine); + ``` + +The concept of starting or stopping an engine is only relevant when using the engine with a +device. Attempting to start or stop an engine that is not associated with a device will result in +`MA_INVALID_OPERATION`. + +The master volume of the engine can be controlled with `ma_engine_set_volume()` which takes a +linear scale, with 0 resulting in silence and anything above 1 resulting in amplification. If you +prefer decibel based volume control, use `ma_volume_db_to_linear()` to convert from dB to linear. + +When a sound is spatialized, it is done so relative to a listener. An engine can be configured to +have multiple listeners which can be configured via the config: + + ```c + engineConfig.listenerCount = 2; + ``` + +The maximum number of listeners is restricted to `MA_ENGINE_MAX_LISTENERS`. By default, when a +sound is spatialized, it will be done so relative to the closest listener. You can also pin a sound +to a specific listener which will be explained later. Listener's have a position, direction, cone, +and velocity (for doppler effect). A listener is referenced by an index, the meaning of which is up +to the caller (the index is 0 based and cannot go beyond the listener count, minus 1). The +position, direction and velocity are all specified in absolute terms: + + ```c + ma_engine_listener_set_position(&engine, listenerIndex, worldPosX, worldPosY, worldPosZ); + ``` + +The direction of the listener represents it's forward vector. The listener's up vector can also be +specified and defaults to +1 on the Y axis. + + ```c + ma_engine_listener_set_direction(&engine, listenerIndex, forwardX, forwardY, forwardZ); + ma_engine_listener_set_world_up(&engine, listenerIndex, 0, 1, 0); + ``` + +The engine supports directional attenuation. The listener can have a cone the controls how sound is +attenuated based on the listener's direction. When a sound is between the inner and outer cones, it +will be attenuated between 1 and the cone's outer gain: + + ```c + ma_engine_listener_set_cone(&engine, listenerIndex, innerAngleInRadians, outerAngleInRadians, outerGain); + ``` + +When a sound is inside the inner code, no directional attenuation is applied. When the sound is +outside of the outer cone, the attenuation will be set to `outerGain` in the example above. When +the sound is in between the inner and outer cones, the attenuation will be interpolated between 1 +and the outer gain. + +The engine's coordinate system follows the OpenGL coordinate system where positive X points right, +positive Y points up and negative Z points forward. + +The simplest and least flexible way to play a sound is like so: + + ```c + ma_engine_play_sound(&engine, "my_sound.wav", pGroup); + ``` + +This is a "fire and forget" style of function. The engine will manage the `ma_sound` object +internally. When the sound finishes playing, it'll be put up for recycling. For more flexibility +you'll want to initialize a sound object: + + ```c + ma_sound sound; + + result = ma_sound_init_from_file(&engine, "my_sound.wav", flags, pGroup, NULL, &sound); + if (result != MA_SUCCESS) { + return result; // Failed to load sound. + } + ``` + +Sounds need to be uninitialized with `ma_sound_uninit()`. + +The example above loads a sound from a file. If the resource manager has been disabled you will not +be able to use this function and instead you'll need to initialize a sound directly from a data +source: + + ```c + ma_sound sound; + + result = ma_sound_init_from_data_source(&engine, &dataSource, flags, pGroup, &sound); + if (result != MA_SUCCESS) { + return result; + } + ``` + +Each `ma_sound` object represents a single instance of the sound. If you want to play the same +sound multiple times at the same time, you need to initialize a separate `ma_sound` object. + +For the most flexibility when initializing sounds, use `ma_sound_init_ex()`. This uses miniaudio's +standard config/init pattern: + + ```c + ma_sound sound; + ma_sound_config soundConfig; + + soundConfig = ma_sound_config_init(); + soundConfig.pFilePath = NULL; // Set this to load from a file path. + soundConfig.pDataSource = NULL; // Set this to initialize from an existing data source. + soundConfig.pInitialAttachment = &someNodeInTheNodeGraph; + soundConfig.initialAttachmentInputBusIndex = 0; + soundConfig.channelsIn = 1; + soundConfig.channelsOut = 0; // Set to 0 to use the engine's native channel count. + + result = ma_sound_init_ex(&soundConfig, &sound); + if (result != MA_SUCCESS) { + return result; + } + ``` + +In the example above, the sound is being initialized without a file nor a data source. This is +valid, in which case the sound acts as a node in the middle of the node graph. This means you can +connect other sounds to this sound and allow it to act like a sound group. Indeed, this is exactly +what a `ma_sound_group` is. + +When loading a sound, you specify a set of flags that control how the sound is loaded and what +features are enabled for that sound. When no flags are set, the sound will be fully loaded into +memory in exactly the same format as how it's stored on the file system. The resource manager will +allocate a block of memory and then load the file directly into it. When reading audio data, it +will be decoded dynamically on the fly. In order to save processing time on the audio thread, it +might be beneficial to pre-decode the sound. You can do this with the `MA_SOUND_FLAG_DECODE` flag: + + ```c + ma_sound_init_from_file(&engine, "my_sound.wav", MA_SOUND_FLAG_DECODE, pGroup, NULL, &sound); + ``` + +By default, sounds will be loaded synchronously, meaning `ma_sound_init_*()` will not return until +the sound has been fully loaded. If this is prohibitive you can instead load sounds asynchronously +by specifying the `MA_SOUND_FLAG_ASYNC` flag: + + ```c + ma_sound_init_from_file(&engine, "my_sound.wav", MA_SOUND_FLAG_DECODE | MA_SOUND_FLAG_ASYNC, pGroup, NULL, &sound); + ``` + +This will result in `ma_sound_init_*()` returning quickly, but the sound won't yet have been fully +loaded. When you start the sound, it won't output anything until some sound is available. The sound +will start outputting audio before the sound has been fully decoded when the `MA_SOUND_FLAG_DECODE` +is specified. + +If you need to wait for an asynchronously loaded sound to be fully loaded, you can use a fence. A +fence in miniaudio is a simple synchronization mechanism which simply blocks until it's internal +counter hit's zero. You can specify a fence like so: + + ```c + ma_result result; + ma_fence fence; + ma_sound sounds[4]; + + result = ma_fence_init(&fence); + if (result != MA_SUCCESS) { + return result; + } + + // Load some sounds asynchronously. + for (int iSound = 0; iSound < 4; iSound += 1) { + ma_sound_init_from_file(&engine, mySoundFilesPaths[iSound], MA_SOUND_FLAG_DECODE | MA_SOUND_FLAG_ASYNC, pGroup, &fence, &sounds[iSound]); + } + + // ... do some other stuff here in the mean time ... + + // Wait for all sounds to finish loading. + ma_fence_wait(&fence); + ``` + +If loading the entire sound into memory is prohibitive, you can also configure the engine to stream +the audio data: + + ```c + ma_sound_init_from_file(&engine, "my_sound.wav", MA_SOUND_FLAG_STREAM, pGroup, NULL, &sound); + ``` + +When streaming sounds, 2 seconds worth of audio data is stored in memory. Although it should work +fine, it's inefficient to use streaming for short sounds. Streaming is useful for things like music +tracks in games. + +When loading a sound from a file path, the engine will reference count the file to prevent it from +being loaded if it's already in memory. When you uninitialize a sound, the reference count will be +decremented, and if it hits zero, the sound will be unloaded from memory. This reference counting +system is not used for streams. The engine will use a 64-bit hash of the file name when comparing +file paths which means there's a small chance you might encounter a name collision. If this is an +issue, you'll need to use a different name for one of the colliding file paths, or just not load +from files and instead load from a data source. + +You can use `ma_sound_init_copy()` to initialize a copy of another sound. Note, however, that this +only works for sounds that were initialized with `ma_sound_init_from_file()` and without the +`MA_SOUND_FLAG_STREAM` flag. + +When you initialize a sound, if you specify a sound group the sound will be attached to that group +automatically. If you set it to NULL, it will be automatically attached to the engine's endpoint. +If you would instead rather leave the sound unattached by default, you can specify the +`MA_SOUND_FLAG_NO_DEFAULT_ATTACHMENT` flag. This is useful if you want to set up a complex node +graph. + +Sounds are not started by default. To start a sound, use `ma_sound_start()`. Stop a sound with +`ma_sound_stop()`. + +Sounds can have their volume controlled with `ma_sound_set_volume()` in the same way as the +engine's master volume. + +Sounds support stereo panning and pitching. Set the pan with `ma_sound_set_pan()`. Setting the pan +to 0 will result in an unpanned sound. Setting it to -1 will shift everything to the left, whereas ++1 will shift it to the right. The pitch can be controlled with `ma_sound_set_pitch()`. A larger +value will result in a higher pitch. The pitch must be greater than 0. + +The engine supports 3D spatialization of sounds. By default sounds will have spatialization +enabled, but if a sound does not need to be spatialized it's best to disable it. There are two ways +to disable spatialization of a sound: + + ```c + // Disable spatialization at initialization time via a flag: + ma_sound_init_from_file(&engine, "my_sound.wav", MA_SOUND_FLAG_NO_SPATIALIZATION, NULL, NULL, &sound); + + // Dynamically disable or enable spatialization post-initialization: + ma_sound_set_spatialization_enabled(&sound, isSpatializationEnabled); + ``` + +By default sounds will be spatialized based on the closest listener. If a sound should always be +spatialized relative to a specific listener it can be pinned to one: + + ```c + ma_sound_set_pinned_listener_index(&sound, listenerIndex); + ``` + +Like listeners, sounds have a position. By default, the position of a sound is in absolute space, +but it can be changed to be relative to a listener: + + ```c + ma_sound_set_positioning(&sound, ma_positioning_relative); + ``` + +Note that relative positioning of a sound only makes sense if there is either only one listener, or +the sound is pinned to a specific listener. To set the position of a sound: + + ```c + ma_sound_set_position(&sound, posX, posY, posZ); + ``` + +The direction works the same way as a listener and represents the sound's forward direction: + + ```c + ma_sound_set_direction(&sound, forwardX, forwardY, forwardZ); + ``` + +Sound's also have a cone for controlling directional attenuation. This works exactly the same as +listeners: + + ```c + ma_sound_set_cone(&sound, innerAngleInRadians, outerAngleInRadians, outerGain); + ``` + +The velocity of a sound is used for doppler effect and can be set as such: + + ```c + ma_sound_set_velocity(&sound, velocityX, velocityY, velocityZ); + ``` + +The engine supports different attenuation models which can be configured on a per-sound basis. By +default the attenuation model is set to `ma_attenuation_model_inverse` which is the equivalent to +OpenAL's `AL_INVERSE_DISTANCE_CLAMPED`. Configure the attenuation model like so: + + ```c + ma_sound_set_attenuation_model(&sound, ma_attenuation_model_inverse); + ``` + +The supported attenuation models include the following: + + +----------------------------------+----------------------------------------------+ + | ma_attenuation_model_none | No distance attenuation. | + +----------------------------------+----------------------------------------------+ + | ma_attenuation_model_inverse | Equivalent to `AL_INVERSE_DISTANCE_CLAMPED`. | + +----------------------------------+----------------------------------------------+ + | ma_attenuation_model_linear | Linear attenuation. | + +----------------------------------+----------------------------------------------+ + | ma_attenuation_model_exponential | Exponential attenuation. | + +----------------------------------+----------------------------------------------+ + +To control how quickly a sound rolls off as it moves away from the listener, you need to configure +the rolloff: + + ```c + ma_sound_set_rolloff(&sound, rolloff); + ``` + +You can control the minimum and maximum gain to apply from spatialization: + + ```c + ma_sound_set_min_gain(&sound, minGain); + ma_sound_set_max_gain(&sound, maxGain); + ``` + +Likewise, in the calculation of attenuation, you can control the minimum and maximum distances for +the attenuation calculation. This is useful if you want to ensure sounds don't drop below a certain +volume after the listener moves further away and to have sounds play a maximum volume when the +listener is within a certain distance: + + ```c + ma_sound_set_min_distance(&sound, minDistance); + ma_sound_set_max_distance(&sound, maxDistance); + ``` + +The engine's spatialization system supports doppler effect. The doppler factor can be configure on +a per-sound basis like so: + + ```c + ma_sound_set_doppler_factor(&sound, dopplerFactor); + ``` + +You can fade sounds in and out with `ma_sound_set_fade_in_pcm_frames()` and +`ma_sound_set_fade_in_milliseconds()`. Set the volume to -1 to use the current volume as the +starting volume: + + ```c + // Fade in over 1 second. + ma_sound_set_fade_in_milliseconds(&sound, 0, 1, 1000); + + // ... sometime later ... + + // Fade out over 1 second, starting from the current volume. + ma_sound_set_fade_in_milliseconds(&sound, -1, 0, 1000); + ``` + +By default sounds will start immediately, but sometimes for timing and synchronization purposes it +can be useful to schedule a sound to start or stop: + + ```c + // Start the sound in 1 second from now. + ma_sound_set_start_time_in_pcm_frames(&sound, ma_engine_get_time_in_pcm_frames(&engine) + (ma_engine_get_sample_rate(&engine) * 1)); + + // Stop the sound in 2 seconds from now. + ma_sound_set_stop_time_in_pcm_frames(&sound, ma_engine_get_time_in_pcm_frames(&engine) + (ma_engine_get_sample_rate(&engine) * 2)); + ``` + +Note that scheduling a start time still requires an explicit call to `ma_sound_start()` before +anything will play. + +The time is specified in global time which is controlled by the engine. You can get the engine's +current time with `ma_engine_get_time_in_pcm_frames()`. The engine's global time is incremented +automatically as audio data is read, but it can be reset with `ma_engine_set_time_in_pcm_frames()` +in case it needs to be resynchronized for some reason. + +To determine whether or not a sound is currently playing, use `ma_sound_is_playing()`. This will +take the scheduled start and stop times into account. + +Whether or not a sound should loop can be controlled with `ma_sound_set_looping()`. Sounds will not +be looping by default. Use `ma_sound_is_looping()` to determine whether or not a sound is looping. + +Use `ma_sound_at_end()` to determine whether or not a sound is currently at the end. For a looping +sound this should never return true. Alternatively, you can configure a callback that will be fired +when the sound reaches the end. Note that the callback is fired from the audio thread which means +you cannot be uninitializing sound from the callback. To set the callback you can use +`ma_sound_set_end_callback()`. Alternatively, if you're using `ma_sound_init_ex()`, you can pass it +into the config like so: + + ```c + soundConfig.endCallback = my_end_callback; + soundConfig.pEndCallbackUserData = pMyEndCallbackUserData; + ``` + +The end callback is declared like so: + + ```c + void my_end_callback(void* pUserData, ma_sound* pSound) + { + ... + } + ``` + +Internally a sound wraps around a data source. Some APIs exist to control the underlying data +source, mainly for convenience: + + ```c + ma_sound_seek_to_pcm_frame(&sound, frameIndex); + ma_sound_get_data_format(&sound, &format, &channels, &sampleRate, pChannelMap, channelMapCapacity); + ma_sound_get_cursor_in_pcm_frames(&sound, &cursor); + ma_sound_get_length_in_pcm_frames(&sound, &length); + ``` + +Sound groups have the same API as sounds, only they are called `ma_sound_group`, and since they do +not have any notion of a data source, anything relating to a data source is unavailable. + +Internally, sound data is loaded via the `ma_decoder` API which means by default it only supports +file formats that have built-in support in miniaudio. You can extend this to support any kind of +file format through the use of custom decoders. To do this you'll need to use a self-managed +resource manager and configure it appropriately. See the "Resource Management" section below for +details on how to set this up. + + +6. Resource Management +====================== +Many programs will want to manage sound resources for things such as reference counting and +streaming. This is supported by miniaudio via the `ma_resource_manager` API. + +The resource manager is mainly responsible for the following: + + * Loading of sound files into memory with reference counting. + * Streaming of sound data. + +When loading a sound file, the resource manager will give you back a `ma_data_source` compatible +object called `ma_resource_manager_data_source`. This object can be passed into any +`ma_data_source` API which is how you can read and seek audio data. When loading a sound file, you +specify whether or not you want the sound to be fully loaded into memory (and optionally +pre-decoded) or streamed. When loading into memory, you can also specify whether or not you want +the data to be loaded asynchronously. + +The example below is how you can initialize a resource manager using it's default configuration: + + ```c + ma_resource_manager_config config; + ma_resource_manager resourceManager; + + config = ma_resource_manager_config_init(); + result = ma_resource_manager_init(&config, &resourceManager); + if (result != MA_SUCCESS) { + ma_device_uninit(&device); + printf("Failed to initialize the resource manager."); + return -1; + } + ``` + +You can configure the format, channels and sample rate of the decoded audio data. By default it +will use the file's native data format, but you can configure it to use a consistent format. This +is useful for offloading the cost of data conversion to load time rather than dynamically +converting at mixing time. To do this, you configure the decoded format, channels and sample rate +like the code below: + + ```c + config = ma_resource_manager_config_init(); + config.decodedFormat = device.playback.format; + config.decodedChannels = device.playback.channels; + config.decodedSampleRate = device.sampleRate; + ``` + +In the code above, the resource manager will be configured so that any decoded audio data will be +pre-converted at load time to the device's native data format. If instead you used defaults and +the data format of the file did not match the device's data format, you would need to convert the +data at mixing time which may be prohibitive in high-performance and large scale scenarios like +games. + +Internally the resource manager uses the `ma_decoder` API to load sounds. This means by default it +only supports decoders that are built into miniaudio. It's possible to support additional encoding +formats through the use of custom decoders. To do so, pass in your `ma_decoding_backend_vtable` +vtables into the resource manager config: + + ```c + ma_decoding_backend_vtable* pCustomBackendVTables[] = + { + &g_ma_decoding_backend_vtable_libvorbis, + &g_ma_decoding_backend_vtable_libopus + }; + + ... + + resourceManagerConfig.ppCustomDecodingBackendVTables = pCustomBackendVTables; + resourceManagerConfig.customDecodingBackendCount = sizeof(pCustomBackendVTables) / sizeof(pCustomBackendVTables[0]); + resourceManagerConfig.pCustomDecodingBackendUserData = NULL; + ``` + +This system can allow you to support any kind of file format. See the "Decoding" section for +details on how to implement custom decoders. The miniaudio repository includes examples for Opus +via libopus and libopusfile and Vorbis via libvorbis and libvorbisfile. + +Asynchronicity is achieved via a job system. When an operation needs to be performed, such as the +decoding of a page, a job will be posted to a queue which will then be processed by a job thread. +By default there will be only one job thread running, but this can be configured, like so: + + ```c + config = ma_resource_manager_config_init(); + config.jobThreadCount = MY_JOB_THREAD_COUNT; + ``` + +By default job threads are managed internally by the resource manager, however you can also self +manage your job threads if, for example, you want to integrate the job processing into your +existing job infrastructure, or if you simply don't like the way the resource manager does it. To +do this, just set the job thread count to 0 and process jobs manually. To process jobs, you first +need to retrieve a job using `ma_resource_manager_next_job()` and then process it using +`ma_job_process()`: + + ```c + config = ma_resource_manager_config_init(); + config.jobThreadCount = 0; // Don't manage any job threads internally. + config.flags = MA_RESOURCE_MANAGER_FLAG_NON_BLOCKING; // Optional. Makes `ma_resource_manager_next_job()` non-blocking. + + // ... Initialize your custom job threads ... + + void my_custom_job_thread(...) + { + for (;;) { + ma_job job; + ma_result result = ma_resource_manager_next_job(pMyResourceManager, &job); + if (result != MA_SUCCESS) { + if (result == MA_NO_DATA_AVAILABLE) { + // No jobs are available. Keep going. Will only get this if the resource manager was initialized + // with MA_RESOURCE_MANAGER_FLAG_NON_BLOCKING. + continue; + } else if (result == MA_CANCELLED) { + // MA_JOB_TYPE_QUIT was posted. Exit. + break; + } else { + // Some other error occurred. + break; + } + } + + ma_job_process(&job); + } + } + ``` + +In the example above, the `MA_JOB_TYPE_QUIT` event is the used as the termination +indicator, but you can use whatever you would like to terminate the thread. The call to +`ma_resource_manager_next_job()` is blocking by default, but can be configured to be non-blocking +by initializing the resource manager with the `MA_RESOURCE_MANAGER_FLAG_NON_BLOCKING` configuration +flag. Note that the `MA_JOB_TYPE_QUIT` will never be removed from the job queue. This +is to give every thread the opportunity to catch the event and terminate naturally. + +When loading a file, it's sometimes convenient to be able to customize how files are opened and +read instead of using standard `fopen()`, `fclose()`, etc. which is what miniaudio will use by +default. This can be done by setting `pVFS` member of the resource manager's config: + + ```c + // Initialize your custom VFS object. See documentation for VFS for information on how to do this. + my_custom_vfs vfs = my_custom_vfs_init(); + + config = ma_resource_manager_config_init(); + config.pVFS = &vfs; + ``` + +This is particularly useful in programs like games where you want to read straight from an archive +rather than the normal file system. If you do not specify a custom VFS, the resource manager will +use the operating system's normal file operations. + +To load a sound file and create a data source, call `ma_resource_manager_data_source_init()`. When +loading a sound you need to specify the file path and options for how the sounds should be loaded. +By default a sound will be loaded synchronously. The returned data source is owned by the caller +which means the caller is responsible for the allocation and freeing of the data source. Below is +an example for initializing a data source: + + ```c + ma_resource_manager_data_source dataSource; + ma_result result = ma_resource_manager_data_source_init(pResourceManager, pFilePath, flags, &dataSource); + if (result != MA_SUCCESS) { + // Error. + } + + // ... + + // A ma_resource_manager_data_source object is compatible with the `ma_data_source` API. To read data, just call + // the `ma_data_source_read_pcm_frames()` like you would with any normal data source. + result = ma_data_source_read_pcm_frames(&dataSource, pDecodedData, frameCount, &framesRead); + if (result != MA_SUCCESS) { + // Failed to read PCM frames. + } + + // ... + + ma_resource_manager_data_source_uninit(&dataSource); + ``` + +The `flags` parameter specifies how you want to perform loading of the sound file. It can be a +combination of the following flags: + + ``` + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_DECODE + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING + ``` + +When no flags are specified (set to 0), the sound will be fully loaded into memory, but not +decoded, meaning the raw file data will be stored in memory, and then dynamically decoded when +`ma_data_source_read_pcm_frames()` is called. To instead decode the audio data before storing it in +memory, use the `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_DECODE` flag. By default, the sound file will +be loaded synchronously, meaning `ma_resource_manager_data_source_init()` will only return after +the entire file has been loaded. This is good for simplicity, but can be prohibitively slow. You +can instead load the sound asynchronously using the `MA_RESOURCE_MANAGER_DATA_SOURCE_ASYNC` flag. +This will result in `ma_resource_manager_data_source_init()` returning quickly, but no data will be +returned by `ma_data_source_read_pcm_frames()` until some data is available. When no data is +available because the asynchronous decoding hasn't caught up, `MA_BUSY` will be returned by +`ma_data_source_read_pcm_frames()`. + +For large sounds, it's often prohibitive to store the entire file in memory. To mitigate this, you +can instead stream audio data which you can do by specifying the +`MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM` flag. When streaming, data will be decoded in 1 +second pages. When a new page needs to be decoded, a job will be posted to the job queue and then +subsequently processed in a job thread. + +The `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING` flag can be used so that the sound will loop +when it reaches the end by default. It's recommended you use this flag when you want to have a +looping streaming sound. If you try loading a very short sound as a stream, you will get a glitch. +This is because the resource manager needs to pre-fill the initial buffer at initialization time, +and if you don't specify the `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING` flag, the resource +manager will assume the sound is not looping and will stop filling the buffer when it reaches the +end, therefore resulting in a discontinuous buffer. + +For in-memory sounds, reference counting is used to ensure the data is loaded only once. This means +multiple calls to `ma_resource_manager_data_source_init()` with the same file path will result in +the file data only being loaded once. Each call to `ma_resource_manager_data_source_init()` must be +matched up with a call to `ma_resource_manager_data_source_uninit()`. Sometimes it can be useful +for a program to register self-managed raw audio data and associate it with a file path. Use the +`ma_resource_manager_register_*()` and `ma_resource_manager_unregister_*()` APIs to do this. +`ma_resource_manager_register_decoded_data()` is used to associate a pointer to raw, self-managed +decoded audio data in the specified data format with the specified name. Likewise, +`ma_resource_manager_register_encoded_data()` is used to associate a pointer to raw self-managed +encoded audio data (the raw file data) with the specified name. Note that these names need not be +actual file paths. When `ma_resource_manager_data_source_init()` is called (without the +`MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM` flag), the resource manager will look for these +explicitly registered data buffers and, if found, will use it as the backing data for the data +source. Note that the resource manager does *not* make a copy of this data so it is up to the +caller to ensure the pointer stays valid for its lifetime. Use +`ma_resource_manager_unregister_data()` to unregister the self-managed data. You can also use +`ma_resource_manager_register_file()` and `ma_resource_manager_unregister_file()` to register and +unregister a file. It does not make sense to use the `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM` +flag with a self-managed data pointer. + + +6.1. Asynchronous Loading and Synchronization +--------------------------------------------- +When loading asynchronously, it can be useful to poll whether or not loading has finished. Use +`ma_resource_manager_data_source_result()` to determine this. For in-memory sounds, this will +return `MA_SUCCESS` when the file has been *entirely* decoded. If the sound is still being decoded, +`MA_BUSY` will be returned. Otherwise, some other error code will be returned if the sound failed +to load. For streaming data sources, `MA_SUCCESS` will be returned when the first page has been +decoded and the sound is ready to be played. If the first page is still being decoded, `MA_BUSY` +will be returned. Otherwise, some other error code will be returned if the sound failed to load. + +In addition to polling, you can also use a simple synchronization object called a "fence" to wait +for asynchronously loaded sounds to finish. This is called `ma_fence`. The advantage to using a +fence is that it can be used to wait for a group of sounds to finish loading rather than waiting +for sounds on an individual basis. There are two stages to loading a sound: + + * Initialization of the internal decoder; and + * Completion of decoding of the file (the file is fully decoded) + +You can specify separate fences for each of the different stages. Waiting for the initialization +of the internal decoder is important for when you need to know the sample format, channels and +sample rate of the file. + +The example below shows how you could use a fence when loading a number of sounds: + + ```c + // This fence will be released when all sounds are finished loading entirely. + ma_fence fence; + ma_fence_init(&fence); + + // This will be passed into the initialization routine for each sound. + ma_resource_manager_pipeline_notifications notifications = ma_resource_manager_pipeline_notifications_init(); + notifications.done.pFence = &fence; + + // Now load a bunch of sounds: + for (iSound = 0; iSound < soundCount; iSound += 1) { + ma_resource_manager_data_source_init(pResourceManager, pSoundFilePaths[iSound], flags, ¬ifications, &pSoundSources[iSound]); + } + + // ... DO SOMETHING ELSE WHILE SOUNDS ARE LOADING ... + + // Wait for loading of sounds to finish. + ma_fence_wait(&fence); + ``` + +In the example above we used a fence for waiting until the entire file has been fully decoded. If +you only need to wait for the initialization of the internal decoder to complete, you can use the +`init` member of the `ma_resource_manager_pipeline_notifications` object: + + ```c + notifications.init.pFence = &fence; + ``` + +If a fence is not appropriate for your situation, you can instead use a callback that is fired on +an individual sound basis. This is done in a very similar way to fences: + + ```c + typedef struct + { + ma_async_notification_callbacks cb; + void* pMyData; + } my_notification; + + void my_notification_callback(ma_async_notification* pNotification) + { + my_notification* pMyNotification = (my_notification*)pNotification; + + // Do something in response to the sound finishing loading. + } + + ... + + my_notification myCallback; + myCallback.cb.onSignal = my_notification_callback; + myCallback.pMyData = pMyData; + + ma_resource_manager_pipeline_notifications notifications = ma_resource_manager_pipeline_notifications_init(); + notifications.done.pNotification = &myCallback; + + ma_resource_manager_data_source_init(pResourceManager, "my_sound.wav", flags, ¬ifications, &mySound); + ``` + +In the example above we just extend the `ma_async_notification_callbacks` object and pass an +instantiation into the `ma_resource_manager_pipeline_notifications` in the same way as we did with +the fence, only we set `pNotification` instead of `pFence`. You can set both of these at the same +time and they should both work as expected. If using the `pNotification` system, you need to ensure +your `ma_async_notification_callbacks` object stays valid. + + + +6.2. Resource Manager Implementation Details +-------------------------------------------- +Resources are managed in two main ways: + + * By storing the entire sound inside an in-memory buffer (referred to as a data buffer) + * By streaming audio data on the fly (referred to as a data stream) + +A resource managed data source (`ma_resource_manager_data_source`) encapsulates a data buffer or +data stream, depending on whether or not the data source was initialized with the +`MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM` flag. If so, it will make use of a +`ma_resource_manager_data_stream` object. Otherwise it will use a `ma_resource_manager_data_buffer` +object. Both of these objects are data sources which means they can be used with any +`ma_data_source_*()` API. + +Another major feature of the resource manager is the ability to asynchronously decode audio files. +This relieves the audio thread of time-consuming decoding which can negatively affect scalability +due to the audio thread needing to complete it's work extremely quickly to avoid glitching. +Asynchronous decoding is achieved through a job system. There is a central multi-producer, +multi-consumer, fixed-capacity job queue. When some asynchronous work needs to be done, a job is +posted to the queue which is then read by a job thread. The number of job threads can be +configured for improved scalability, and job threads can all run in parallel without needing to +worry about the order of execution (how this is achieved is explained below). + +When a sound is being loaded asynchronously, playback can begin before the sound has been fully +decoded. This enables the application to start playback of the sound quickly, while at the same +time allowing to resource manager to keep loading in the background. Since there may be less +threads than the number of sounds being loaded at a given time, a simple scheduling system is used +to keep decoding time balanced and fair. The resource manager solves this by splitting decoding +into chunks called pages. By default, each page is 1 second long. When a page has been decoded, a +new job will be posted to start decoding the next page. By dividing up decoding into pages, an +individual sound shouldn't ever delay every other sound from having their first page decoded. Of +course, when loading many sounds at the same time, there will always be an amount of time required +to process jobs in the queue so in heavy load situations there will still be some delay. To +determine if a data source is ready to have some frames read, use +`ma_resource_manager_data_source_get_available_frames()`. This will return the number of frames +available starting from the current position. + + +6.2.1. Job Queue +---------------- +The resource manager uses a job queue which is multi-producer, multi-consumer, and fixed-capacity. +This job queue is not currently lock-free, and instead uses a spinlock to achieve thread-safety. +Only a fixed number of jobs can be allocated and inserted into the queue which is done through a +lock-free data structure for allocating an index into a fixed sized array, with reference counting +for mitigation of the ABA problem. The reference count is 32-bit. + +For many types of jobs it's important that they execute in a specific order. In these cases, jobs +are executed serially. For the resource manager, serial execution of jobs is only required on a +per-object basis (per data buffer or per data stream). Each of these objects stores an execution +counter. When a job is posted it is associated with an execution counter. When the job is +processed, it checks if the execution counter of the job equals the execution counter of the +owning object and if so, processes the job. If the counters are not equal, the job will be posted +back onto the job queue for later processing. When the job finishes processing the execution order +of the main object is incremented. This system means the no matter how many job threads are +executing, decoding of an individual sound will always get processed serially. The advantage to +having multiple threads comes into play when loading multiple sounds at the same time. + +The resource manager's job queue is not 100% lock-free and will use a spinlock to achieve +thread-safety for a very small section of code. This is only relevant when the resource manager +uses more than one job thread. If only using a single job thread, which is the default, the +lock should never actually wait in practice. The amount of time spent locking should be quite +short, but it's something to be aware of for those who have pedantic lock-free requirements and +need to use more than one job thread. There are plans to remove this lock in a future version. + +In addition, posting a job will release a semaphore, which on Win32 is implemented with +`ReleaseSemaphore` and on POSIX platforms via a condition variable: + + ```c + pthread_mutex_lock(&pSemaphore->lock); + { + pSemaphore->value += 1; + pthread_cond_signal(&pSemaphore->cond); + } + pthread_mutex_unlock(&pSemaphore->lock); + ``` + +Again, this is relevant for those with strict lock-free requirements in the audio thread. To avoid +this, you can use non-blocking mode (via the `MA_JOB_QUEUE_FLAG_NON_BLOCKING` +flag) and implement your own job processing routine (see the "Resource Manager" section above for +details on how to do this). + + + +6.2.2. Data Buffers +------------------- +When the `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM` flag is excluded at initialization time, the +resource manager will try to load the data into an in-memory data buffer. Before doing so, however, +it will first check if the specified file is already loaded. If so, it will increment a reference +counter and just use the already loaded data. This saves both time and memory. When the data buffer +is uninitialized, the reference counter will be decremented. If the counter hits zero, the file +will be unloaded. This is a detail to keep in mind because it could result in excessive loading and +unloading of a sound. For example, the following sequence will result in a file be loaded twice, +once after the other: + + ```c + ma_resource_manager_data_source_init(pResourceManager, "my_file", ..., &myDataBuffer0); // Refcount = 1. Initial load. + ma_resource_manager_data_source_uninit(&myDataBuffer0); // Refcount = 0. Unloaded. + + ma_resource_manager_data_source_init(pResourceManager, "my_file", ..., &myDataBuffer1); // Refcount = 1. Reloaded because previous uninit() unloaded it. + ma_resource_manager_data_source_uninit(&myDataBuffer1); // Refcount = 0. Unloaded. + ``` + +A binary search tree (BST) is used for storing data buffers as it has good balance between +efficiency and simplicity. The key of the BST is a 64-bit hash of the file path that was passed +into `ma_resource_manager_data_source_init()`. The advantage of using a hash is that it saves +memory over storing the entire path, has faster comparisons, and results in a mostly balanced BST +due to the random nature of the hash. The disadvantages are that file names are case-sensitive and +there's a small chance of name collisions. If case-sensitivity is an issue, you should normalize +your file names to upper- or lower-case before initializing your data sources. If name collisions +become an issue, you'll need to change the name of one of the colliding names or just not use the +resource manager. + +When a sound file has not already been loaded and the `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC` +flag is excluded, the file will be decoded synchronously by the calling thread. There are two +options for controlling how the audio is stored in the data buffer - encoded or decoded. When the +`MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_DECODE` option is excluded, the raw file data will be stored +in memory. Otherwise the sound will be decoded before storing it in memory. Synchronous loading is +a very simple and standard process of simply adding an item to the BST, allocating a block of +memory and then decoding (if `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_DECODE` is specified). + +When the `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC` flag is specified, loading of the data buffer +is done asynchronously. In this case, a job is posted to the queue to start loading and then the +function immediately returns, setting an internal result code to `MA_BUSY`. This result code is +returned when the program calls `ma_resource_manager_data_source_result()`. When decoding has fully +completed `MA_SUCCESS` will be returned. This can be used to know if loading has fully completed. + +When loading asynchronously, a single job is posted to the queue of the type +`MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_BUFFER_NODE`. This involves making a copy of the file path and +associating it with job. When the job is processed by the job thread, it will first load the file +using the VFS associated with the resource manager. When using a custom VFS, it's important that it +be completely thread-safe because it will be used from one or more job threads at the same time. +Individual files should only ever be accessed by one thread at a time, however. After opening the +file via the VFS, the job will determine whether or not the file is being decoded. If not, it +simply allocates a block of memory and loads the raw file contents into it and returns. On the +other hand, when the file is being decoded, it will first allocate a decoder on the heap and +initialize it. Then it will check if the length of the file is known. If so it will allocate a +block of memory to store the decoded output and initialize it to silence. If the size is unknown, +it will allocate room for one page. After memory has been allocated, the first page will be +decoded. If the sound is shorter than a page, the result code will be set to `MA_SUCCESS` and the +completion event will be signalled and loading is now complete. If, however, there is more to +decode, a job with the code `MA_JOB_TYPE_RESOURCE_MANAGER_PAGE_DATA_BUFFER_NODE` is posted. This job +will decode the next page and perform the same process if it reaches the end. If there is more to +decode, the job will post another `MA_JOB_TYPE_RESOURCE_MANAGER_PAGE_DATA_BUFFER_NODE` job which will +keep on happening until the sound has been fully decoded. For sounds of an unknown length, each +page will be linked together as a linked list. Internally this is implemented via the +`ma_paged_audio_buffer` object. + + +6.2.3. Data Streams +------------------- +Data streams only ever store two pages worth of data for each instance. They are most useful for +large sounds like music tracks in games that would consume too much memory if fully decoded in +memory. After every frame from a page has been read, a job will be posted to load the next page +which is done from the VFS. + +For data streams, the `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC` flag will determine whether or +not initialization of the data source waits until the two pages have been decoded. When unset, +`ma_resource_manager_data_source_init()` will wait until the two pages have been loaded, otherwise +it will return immediately. + +When frames are read from a data stream using `ma_resource_manager_data_source_read_pcm_frames()`, +`MA_BUSY` will be returned if there are no frames available. If there are some frames available, +but less than the number requested, `MA_SUCCESS` will be returned, but the actual number of frames +read will be less than the number requested. Due to the asynchronous nature of data streams, +seeking is also asynchronous. If the data stream is in the middle of a seek, `MA_BUSY` will be +returned when trying to read frames. + +When `ma_resource_manager_data_source_read_pcm_frames()` results in a page getting fully consumed +a job is posted to load the next page. This will be posted from the same thread that called +`ma_resource_manager_data_source_read_pcm_frames()`. + +Data streams are uninitialized by posting a job to the queue, but the function won't return until +that job has been processed. The reason for this is that the caller owns the data stream object and +therefore miniaudio needs to ensure everything completes before handing back control to the caller. +Also, if the data stream is uninitialized while pages are in the middle of decoding, they must +complete before destroying any underlying object and the job system handles this cleanly. + +Note that when a new page needs to be loaded, a job will be posted to the resource manager's job +thread from the audio thread. You must keep in mind the details mentioned in the "Job Queue" +section above regarding locking when posting an event if you require a strictly lock-free audio +thread. + + + +7. Node Graph +============= +miniaudio's routing infrastructure follows a node graph paradigm. The idea is that you create a +node whose outputs are attached to inputs of another node, thereby creating a graph. There are +different types of nodes, with each node in the graph processing input data to produce output, +which is then fed through the chain. Each node in the graph can apply their own custom effects. At +the start of the graph will usually be one or more data source nodes which have no inputs and +instead pull their data from a data source. At the end of the graph is an endpoint which represents +the end of the chain and is where the final output is ultimately extracted from. + +Each node has a number of input buses and a number of output buses. An output bus from a node is +attached to an input bus of another. Multiple nodes can connect their output buses to another +node's input bus, in which case their outputs will be mixed before processing by the node. Below is +a diagram that illustrates a hypothetical node graph setup: + + ``` + >>>>>>>>>>>>>>>>>>>>>>>>>>>>>> Data flows left to right >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>> + + +---------------+ +-----------------+ + | Data Source 1 =----+ +----------+ +----= Low Pass Filter =----+ + +---------------+ | | =----+ +-----------------+ | +----------+ + +----= Splitter | +----= ENDPOINT | + +---------------+ | | =----+ +-----------------+ | +----------+ + | Data Source 2 =----+ +----------+ +----= Echo / Delay =----+ + +---------------+ +-----------------+ + ``` + +In the above graph, it starts with two data sources whose outputs are attached to the input of a +splitter node. It's at this point that the two data sources are mixed. After mixing, the splitter +performs it's processing routine and produces two outputs which is simply a duplication of the +input stream. One output is attached to a low pass filter, whereas the other output is attached to +a echo/delay. The outputs of the low pass filter and the echo are attached to the endpoint, and +since they're both connected to the same input bus, they'll be mixed. + +Each input bus must be configured to accept the same number of channels, but the number of channels +used by input buses can be different to the number of channels for output buses in which case +miniaudio will automatically convert the input data to the output channel count before processing. +The number of channels of an output bus of one node must match the channel count of the input bus +it's attached to. The channel counts cannot be changed after the node has been initialized. If you +attempt to attach an output bus to an input bus with a different channel count, attachment will +fail. + +To use a node graph, you first need to initialize a `ma_node_graph` object. This is essentially a +container around the entire graph. The `ma_node_graph` object is required for some thread-safety +issues which will be explained later. A `ma_node_graph` object is initialized using miniaudio's +standard config/init system: + + ```c + ma_node_graph_config nodeGraphConfig = ma_node_graph_config_init(myChannelCount); + + result = ma_node_graph_init(&nodeGraphConfig, NULL, &nodeGraph); // Second parameter is a pointer to allocation callbacks. + if (result != MA_SUCCESS) { + // Failed to initialize node graph. + } + ``` + +When you initialize the node graph, you're specifying the channel count of the endpoint. The +endpoint is a special node which has one input bus and one output bus, both of which have the +same channel count, which is specified in the config. Any nodes that connect directly to the +endpoint must be configured such that their output buses have the same channel count. When you read +audio data from the node graph, it'll have the channel count you specified in the config. To read +data from the graph: + + ```c + ma_uint32 framesRead; + result = ma_node_graph_read_pcm_frames(&nodeGraph, pFramesOut, frameCount, &framesRead); + if (result != MA_SUCCESS) { + // Failed to read data from the node graph. + } + ``` + +When you read audio data, miniaudio starts at the node graph's endpoint node which then pulls in +data from its input attachments, which in turn recursively pull in data from their inputs, and so +on. At the start of the graph there will be some kind of data source node which will have zero +inputs and will instead read directly from a data source. The base nodes don't literally need to +read from a `ma_data_source` object, but they will always have some kind of underlying object that +sources some kind of audio. The `ma_data_source_node` node can be used to read from a +`ma_data_source`. Data is always in floating-point format and in the number of channels you +specified when the graph was initialized. The sample rate is defined by the underlying data sources. +It's up to you to ensure they use a consistent and appropriate sample rate. + +The `ma_node` API is designed to allow custom nodes to be implemented with relative ease, but +miniaudio includes a few stock nodes for common functionality. This is how you would initialize a +node which reads directly from a data source (`ma_data_source_node`) which is an example of one +of the stock nodes that comes with miniaudio: + + ```c + ma_data_source_node_config config = ma_data_source_node_config_init(pMyDataSource); + + ma_data_source_node dataSourceNode; + result = ma_data_source_node_init(&nodeGraph, &config, NULL, &dataSourceNode); + if (result != MA_SUCCESS) { + // Failed to create data source node. + } + ``` + +The data source node will use the output channel count to determine the channel count of the output +bus. There will be 1 output bus and 0 input buses (data will be drawn directly from the data +source). The data source must output to floating-point (`ma_format_f32`) or else an error will be +returned from `ma_data_source_node_init()`. + +By default the node will not be attached to the graph. To do so, use `ma_node_attach_output_bus()`: + + ```c + result = ma_node_attach_output_bus(&dataSourceNode, 0, ma_node_graph_get_endpoint(&nodeGraph), 0); + if (result != MA_SUCCESS) { + // Failed to attach node. + } + ``` + +The code above connects the data source node directly to the endpoint. Since the data source node +has only a single output bus, the index will always be 0. Likewise, the endpoint only has a single +input bus which means the input bus index will also always be 0. + +To detach a specific output bus, use `ma_node_detach_output_bus()`. To detach all output buses, use +`ma_node_detach_all_output_buses()`. If you want to just move the output bus from one attachment to +another, you do not need to detach first. You can just call `ma_node_attach_output_bus()` and it'll +deal with it for you. + +Less frequently you may want to create a specialized node. This will be a node where you implement +your own processing callback to apply a custom effect of some kind. This is similar to initializing +one of the stock node types, only this time you need to specify a pointer to a vtable containing a +pointer to the processing function and the number of input and output buses. Example: + + ```c + static void my_custom_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) + { + // Do some processing of ppFramesIn (one stream of audio data per input bus) + const float* pFramesIn_0 = ppFramesIn[0]; // Input bus @ index 0. + const float* pFramesIn_1 = ppFramesIn[1]; // Input bus @ index 1. + float* pFramesOut_0 = ppFramesOut[0]; // Output bus @ index 0. + + // Do some processing. On input, `pFrameCountIn` will be the number of input frames in each + // buffer in `ppFramesIn` and `pFrameCountOut` will be the capacity of each of the buffers + // in `ppFramesOut`. On output, `pFrameCountIn` should be set to the number of input frames + // your node consumed and `pFrameCountOut` should be set the number of output frames that + // were produced. + // + // You should process as many frames as you can. If your effect consumes input frames at the + // same rate as output frames (always the case, unless you're doing resampling), you need + // only look at `ppFramesOut` and process that exact number of frames. If you're doing + // resampling, you'll need to be sure to set both `pFrameCountIn` and `pFrameCountOut` + // properly. + } + + static ma_node_vtable my_custom_node_vtable = + { + my_custom_node_process_pcm_frames, // The function that will be called to process your custom node. This is where you'd implement your effect processing. + NULL, // Optional. A callback for calculating the number of input frames that are required to process a specified number of output frames. + 2, // 2 input buses. + 1, // 1 output bus. + 0 // Default flags. + }; + + ... + + // Each bus needs to have a channel count specified. To do this you need to specify the channel + // counts in an array and then pass that into the node config. + ma_uint32 inputChannels[2]; // Equal in size to the number of input channels specified in the vtable. + ma_uint32 outputChannels[1]; // Equal in size to the number of output channels specified in the vtable. + + inputChannels[0] = channelsIn; + inputChannels[1] = channelsIn; + outputChannels[0] = channelsOut; + + ma_node_config nodeConfig = ma_node_config_init(); + nodeConfig.vtable = &my_custom_node_vtable; + nodeConfig.pInputChannels = inputChannels; + nodeConfig.pOutputChannels = outputChannels; + + ma_node_base node; + result = ma_node_init(&nodeGraph, &nodeConfig, NULL, &node); + if (result != MA_SUCCESS) { + // Failed to initialize node. + } + ``` + +When initializing a custom node, as in the code above, you'll normally just place your vtable in +static space. The number of input and output buses are specified as part of the vtable. If you need +a variable number of buses on a per-node bases, the vtable should have the relevant bus count set +to `MA_NODE_BUS_COUNT_UNKNOWN`. In this case, the bus count should be set in the node config: + + ```c + static ma_node_vtable my_custom_node_vtable = + { + my_custom_node_process_pcm_frames, // The function that will be called process your custom node. This is where you'd implement your effect processing. + NULL, // Optional. A callback for calculating the number of input frames that are required to process a specified number of output frames. + MA_NODE_BUS_COUNT_UNKNOWN, // The number of input buses is determined on a per-node basis. + 1, // 1 output bus. + 0 // Default flags. + }; + + ... + + ma_node_config nodeConfig = ma_node_config_init(); + nodeConfig.vtable = &my_custom_node_vtable; + nodeConfig.inputBusCount = myBusCount; // <-- Since the vtable specifies MA_NODE_BUS_COUNT_UNKNOWN, the input bus count should be set here. + nodeConfig.pInputChannels = inputChannels; // <-- Make sure there are nodeConfig.inputBusCount elements in this array. + nodeConfig.pOutputChannels = outputChannels; // <-- The vtable specifies 1 output bus, so there must be 1 element in this array. + ``` + +In the above example it's important to never set the `inputBusCount` and `outputBusCount` members +to anything other than their defaults if the vtable specifies an explicit count. They can only be +set if the vtable specifies MA_NODE_BUS_COUNT_UNKNOWN in the relevant bus count. + +Most often you'll want to create a structure to encapsulate your node with some extra data. You +need to make sure the `ma_node_base` object is your first member of the structure: + + ```c + typedef struct + { + ma_node_base base; // <-- Make sure this is always the first member. + float someCustomData; + } my_custom_node; + ``` + +By doing this, your object will be compatible with all `ma_node` APIs and you can attach it to the +graph just like any other node. + +In the custom processing callback (`my_custom_node_process_pcm_frames()` in the example above), the +number of channels for each bus is what was specified by the config when the node was initialized +with `ma_node_init()`. In addition, all attachments to each of the input buses will have been +pre-mixed by miniaudio. The config allows you to specify different channel counts for each +individual input and output bus. It's up to the effect to handle it appropriate, and if it can't, +return an error in it's initialization routine. + +Custom nodes can be assigned some flags to describe their behaviour. These are set via the vtable +and include the following: + + +-----------------------------------------+---------------------------------------------------+ + | Flag Name | Description | + +-----------------------------------------+---------------------------------------------------+ + | MA_NODE_FLAG_PASSTHROUGH | Useful for nodes that do not do any kind of audio | + | | processing, but are instead used for tracking | + | | time, handling events, etc. Also used by the | + | | internal endpoint node. It reads directly from | + | | the input bus to the output bus. Nodes with this | + | | flag must have exactly 1 input bus and 1 output | + | | bus, and both buses must have the same channel | + | | counts. | + +-----------------------------------------+---------------------------------------------------+ + | MA_NODE_FLAG_CONTINUOUS_PROCESSING | Causes the processing callback to be called even | + | | when no data is available to be read from input | + | | attachments. When a node has at least one input | + | | bus, but there are no inputs attached or the | + | | inputs do not deliver any data, the node's | + | | processing callback will not get fired. This flag | + | | will make it so the callback is always fired | + | | regardless of whether or not any input data is | + | | received. This is useful for effects like | + | | echos where there will be a tail of audio data | + | | that still needs to be processed even when the | + | | original data sources have reached their ends. It | + | | may also be useful for nodes that must always | + | | have their processing callback fired when there | + | | are no inputs attached. | + +-----------------------------------------+---------------------------------------------------+ + | MA_NODE_FLAG_ALLOW_NULL_INPUT | Used in conjunction with | + | | `MA_NODE_FLAG_CONTINUOUS_PROCESSING`. When this | + | | is set, the `ppFramesIn` parameter of the | + | | processing callback will be set to NULL when | + | | there are no input frames are available. When | + | | this is unset, silence will be posted to the | + | | processing callback. | + +-----------------------------------------+---------------------------------------------------+ + | MA_NODE_FLAG_DIFFERENT_PROCESSING_RATES | Used to tell miniaudio that input and output | + | | frames are processed at different rates. You | + | | should set this for any nodes that perform | + | | resampling. | + +-----------------------------------------+---------------------------------------------------+ + | MA_NODE_FLAG_SILENT_OUTPUT | Used to tell miniaudio that a node produces only | + | | silent output. This is useful for nodes where you | + | | don't want the output to contribute to the final | + | | mix. An example might be if you want split your | + | | stream and have one branch be output to a file. | + | | When using this flag, you should avoid writing to | + | | the output buffer of the node's processing | + | | callback because miniaudio will ignore it anyway. | + +-----------------------------------------+---------------------------------------------------+ + + +If you need to make a copy of an audio stream for effect processing you can use a splitter node +called `ma_splitter_node`. This takes has 1 input bus and splits the stream into 2 output buses. +You can use it like this: + + ```c + ma_splitter_node_config splitterNodeConfig = ma_splitter_node_config_init(channels); + + ma_splitter_node splitterNode; + result = ma_splitter_node_init(&nodeGraph, &splitterNodeConfig, NULL, &splitterNode); + if (result != MA_SUCCESS) { + // Failed to create node. + } + + // Attach your output buses to two different input buses (can be on two different nodes). + ma_node_attach_output_bus(&splitterNode, 0, ma_node_graph_get_endpoint(&nodeGraph), 0); // Attach directly to the endpoint. + ma_node_attach_output_bus(&splitterNode, 1, &myEffectNode, 0); // Attach to input bus 0 of some effect node. + ``` + +The volume of an output bus can be configured on a per-bus basis: + + ```c + ma_node_set_output_bus_volume(&splitterNode, 0, 0.5f); + ma_node_set_output_bus_volume(&splitterNode, 1, 0.5f); + ``` + +In the code above we're using the splitter node from before and changing the volume of each of the +copied streams. + +You can start and stop a node with the following: + + ```c + ma_node_set_state(&splitterNode, ma_node_state_started); // The default state. + ma_node_set_state(&splitterNode, ma_node_state_stopped); + ``` + +By default the node is in a started state, but since it won't be connected to anything won't +actually be invoked by the node graph until it's connected. When you stop a node, data will not be +read from any of its input connections. You can use this property to stop a group of sounds +atomically. + +You can configure the initial state of a node in it's config: + + ```c + nodeConfig.initialState = ma_node_state_stopped; + ``` + +Note that for the stock specialized nodes, all of their configs will have a `nodeConfig` member +which is the config to use with the base node. This is where the initial state can be configured +for specialized nodes: + + ```c + dataSourceNodeConfig.nodeConfig.initialState = ma_node_state_stopped; + ``` + +When using a specialized node like `ma_data_source_node` or `ma_splitter_node`, be sure to not +modify the `vtable` member of the `nodeConfig` object. + + +7.1. Timing +----------- +The node graph supports starting and stopping nodes at scheduled times. This is especially useful +for data source nodes where you want to get the node set up, but only start playback at a specific +time. There are two clocks: local and global. + +A local clock is per-node, whereas the global clock is per graph. Scheduling starts and stops can +only be done based on the global clock because the local clock will not be running while the node +is stopped. The global clocks advances whenever `ma_node_graph_read_pcm_frames()` is called. On the +other hand, the local clock only advances when the node's processing callback is fired, and is +advanced based on the output frame count. + +To retrieve the global time, use `ma_node_graph_get_time()`. The global time can be set with +`ma_node_graph_set_time()` which might be useful if you want to do seeking on a global timeline. +Getting and setting the local time is similar. Use `ma_node_get_time()` to retrieve the local time, +and `ma_node_set_time()` to set the local time. The global and local times will be advanced by the +audio thread, so care should be taken to avoid data races. Ideally you should avoid calling these +outside of the node processing callbacks which are always run on the audio thread. + +There is basic support for scheduling the starting and stopping of nodes. You can only schedule one +start and one stop at a time. This is mainly intended for putting nodes into a started or stopped +state in a frame-exact manner. Without this mechanism, starting and stopping of a node is limited +to the resolution of a call to `ma_node_graph_read_pcm_frames()` which would typically be in blocks +of several milliseconds. The following APIs can be used for scheduling node states: + + ```c + ma_node_set_state_time() + ma_node_get_state_time() + ``` + +The time is absolute and must be based on the global clock. An example is below: + + ```c + ma_node_set_state_time(&myNode, ma_node_state_started, sampleRate*1); // Delay starting to 1 second. + ma_node_set_state_time(&myNode, ma_node_state_stopped, sampleRate*5); // Delay stopping to 5 seconds. + ``` + +An example for changing the state using a relative time. + + ```c + ma_node_set_state_time(&myNode, ma_node_state_started, sampleRate*1 + ma_node_graph_get_time(&myNodeGraph)); + ma_node_set_state_time(&myNode, ma_node_state_stopped, sampleRate*5 + ma_node_graph_get_time(&myNodeGraph)); + ``` + +Note that due to the nature of multi-threading the times may not be 100% exact. If this is an +issue, consider scheduling state changes from within a processing callback. An idea might be to +have some kind of passthrough trigger node that is used specifically for tracking time and handling +events. + + + +7.2. Thread Safety and Locking +------------------------------ +When processing audio, it's ideal not to have any kind of locking in the audio thread. Since it's +expected that `ma_node_graph_read_pcm_frames()` would be run on the audio thread, it does so +without the use of any locks. This section discusses the implementation used by miniaudio and goes +over some of the compromises employed by miniaudio to achieve this goal. Note that the current +implementation may not be ideal - feedback and critiques are most welcome. + +The node graph API is not *entirely* lock-free. Only `ma_node_graph_read_pcm_frames()` is expected +to be lock-free. Attachment, detachment and uninitialization of nodes use locks to simplify the +implementation, but are crafted in a way such that such locking is not required when reading audio +data from the graph. Locking in these areas are achieved by means of spinlocks. + +The main complication with keeping `ma_node_graph_read_pcm_frames()` lock-free stems from the fact +that a node can be uninitialized, and it's memory potentially freed, while in the middle of being +processed on the audio thread. There are times when the audio thread will be referencing a node, +which means the uninitialization process of a node needs to make sure it delays returning until the +audio thread is finished so that control is not handed back to the caller thereby giving them a +chance to free the node's memory. + +When the audio thread is processing a node, it does so by reading from each of the output buses of +the node. In order for a node to process data for one of its output buses, it needs to read from +each of its input buses, and so on an so forth. It follows that once all output buses of a node +are detached, the node as a whole will be disconnected and no further processing will occur unless +it's output buses are reattached, which won't be happening when the node is being uninitialized. +By having `ma_node_detach_output_bus()` wait until the audio thread is finished with it, we can +simplify a few things, at the expense of making `ma_node_detach_output_bus()` a bit slower. By +doing this, the implementation of `ma_node_uninit()` becomes trivial - just detach all output +nodes, followed by each of the attachments to each of its input nodes, and then do any final clean +up. + +With the above design, the worst-case scenario is `ma_node_detach_output_bus()` taking as long as +it takes to process the output bus being detached. This will happen if it's called at just the +wrong moment where the audio thread has just iterated it and has just started processing. The +caller of `ma_node_detach_output_bus()` will stall until the audio thread is finished, which +includes the cost of recursively processing its inputs. This is the biggest compromise made with +the approach taken by miniaudio for its lock-free processing system. The cost of detaching nodes +earlier in the pipeline (data sources, for example) will be cheaper than the cost of detaching +higher level nodes, such as some kind of final post-processing endpoint. If you need to do mass +detachments, detach starting from the lowest level nodes and work your way towards the final +endpoint node (but don't try detaching the node graph's endpoint). If the audio thread is not +running, detachment will be fast and detachment in any order will be the same. The reason nodes +need to wait for their input attachments to complete is due to the potential for desyncs between +data sources. If the node was to terminate processing mid way through processing its inputs, +there's a chance that some of the underlying data sources will have been read, but then others not. +That will then result in a potential desynchronization when detaching and reattaching higher-level +nodes. A possible solution to this is to have an option when detaching to terminate processing +before processing all input attachments which should be fairly simple. + +Another compromise, albeit less significant, is locking when attaching and detaching nodes. This +locking is achieved by means of a spinlock in order to reduce memory overhead. A lock is present +for each input bus and output bus. When an output bus is connected to an input bus, both the output +bus and input bus is locked. This locking is specifically for attaching and detaching across +different threads and does not affect `ma_node_graph_read_pcm_frames()` in any way. The locking and +unlocking is mostly self-explanatory, but a slightly less intuitive aspect comes into it when +considering that iterating over attachments must not break as a result of attaching or detaching a +node while iteration is occurring. + +Attaching and detaching are both quite simple. When an output bus of a node is attached to an input +bus of another node, it's added to a linked list. Basically, an input bus is a linked list, where +each item in the list is and output bus. We have some intentional (and convenient) restrictions on +what can done with the linked list in order to simplify the implementation. First of all, whenever +something needs to iterate over the list, it must do so in a forward direction. Backwards iteration +is not supported. Also, items can only be added to the start of the list. + +The linked list is a doubly-linked list where each item in the list (an output bus) holds a pointer +to the next item in the list, and another to the previous item. A pointer to the previous item is +only required for fast detachment of the node - it is never used in iteration. This is an +important property because it means from the perspective of iteration, attaching and detaching of +an item can be done with a single atomic assignment. This is exploited by both the attachment and +detachment process. When attaching the node, the first thing that is done is the setting of the +local "next" and "previous" pointers of the node. After that, the item is "attached" to the list +by simply performing an atomic exchange with the head pointer. After that, the node is "attached" +to the list from the perspective of iteration. Even though the "previous" pointer of the next item +hasn't yet been set, from the perspective of iteration it's been attached because iteration will +only be happening in a forward direction which means the "previous" pointer won't actually ever get +used. The same general process applies to detachment. See `ma_node_attach_output_bus()` and +`ma_node_detach_output_bus()` for the implementation of this mechanism. + + + +8. Decoding +=========== +The `ma_decoder` API is used for reading audio files. Decoders are completely decoupled from +devices and can be used independently. Built-in support is included for the following formats: + + +---------+ + | Format | + +---------+ + | WAV | + | MP3 | + | FLAC | + +---------+ + +You can disable the built-in decoders by specifying one or more of the following options before the +miniaudio implementation: + + ```c + #define MA_NO_WAV + #define MA_NO_MP3 + #define MA_NO_FLAC + ``` + +miniaudio supports the ability to plug in custom decoders. See the section below for details on how +to use custom decoders. + +A decoder can be initialized from a file with `ma_decoder_init_file()`, a block of memory with +`ma_decoder_init_memory()`, or from data delivered via callbacks with `ma_decoder_init()`. Here is +an example for loading a decoder from a file: + + ```c + ma_decoder decoder; + ma_result result = ma_decoder_init_file("MySong.mp3", NULL, &decoder); + if (result != MA_SUCCESS) { + return false; // An error occurred. + } + + ... + + ma_decoder_uninit(&decoder); + ``` + +When initializing a decoder, you can optionally pass in a pointer to a `ma_decoder_config` object +(the `NULL` argument in the example above) which allows you to configure the output format, channel +count, sample rate and channel map: + + ```c + ma_decoder_config config = ma_decoder_config_init(ma_format_f32, 2, 48000); + ``` + +When passing in `NULL` for decoder config in `ma_decoder_init*()`, the output format will be the +same as that defined by the decoding backend. + +Data is read from the decoder as PCM frames. This will output the number of PCM frames actually +read. If this is less than the requested number of PCM frames it means you've reached the end. The +return value will be `MA_AT_END` if no samples have been read and the end has been reached. + + ```c + ma_result result = ma_decoder_read_pcm_frames(pDecoder, pFrames, framesToRead, &framesRead); + if (framesRead < framesToRead) { + // Reached the end. + } + ``` + +You can also seek to a specific frame like so: + + ```c + ma_result result = ma_decoder_seek_to_pcm_frame(pDecoder, targetFrame); + if (result != MA_SUCCESS) { + return false; // An error occurred. + } + ``` + +If you want to loop back to the start, you can simply seek back to the first PCM frame: + + ```c + ma_decoder_seek_to_pcm_frame(pDecoder, 0); + ``` + +When loading a decoder, miniaudio uses a trial and error technique to find the appropriate decoding +backend. This can be unnecessarily inefficient if the type is already known. In this case you can +use `encodingFormat` variable in the device config to specify a specific encoding format you want +to decode: + + ```c + decoderConfig.encodingFormat = ma_encoding_format_wav; + ``` + +See the `ma_encoding_format` enum for possible encoding formats. + +The `ma_decoder_init_file()` API will try using the file extension to determine which decoding +backend to prefer. + + +8.1. Custom Decoders +-------------------- +It's possible to implement a custom decoder and plug it into miniaudio. This is extremely useful +when you want to use the `ma_decoder` API, but need to support an encoding format that's not one of +the stock formats supported by miniaudio. This can be put to particularly good use when using the +`ma_engine` and/or `ma_resource_manager` APIs because they use `ma_decoder` internally. If, for +example, you wanted to support Opus, you can do so with a custom decoder (there if a reference +Opus decoder in the "extras" folder of the miniaudio repository which uses libopus + libopusfile). + +A custom decoder must implement a data source. A vtable called `ma_decoding_backend_vtable` needs +to be implemented which is then passed into the decoder config: + + ```c + ma_decoding_backend_vtable* pCustomBackendVTables[] = + { + &g_ma_decoding_backend_vtable_libvorbis, + &g_ma_decoding_backend_vtable_libopus + }; + + ... + + decoderConfig = ma_decoder_config_init_default(); + decoderConfig.pCustomBackendUserData = NULL; + decoderConfig.ppCustomBackendVTables = pCustomBackendVTables; + decoderConfig.customBackendCount = sizeof(pCustomBackendVTables) / sizeof(pCustomBackendVTables[0]); + ``` + +The `ma_decoding_backend_vtable` vtable has the following functions: + + ``` + onInit + onInitFile + onInitFileW + onInitMemory + onUninit + ``` + +There are only two functions that must be implemented - `onInit` and `onUninit`. The other +functions can be implemented for a small optimization for loading from a file path or memory. If +these are not specified, miniaudio will deal with it for you via a generic implementation. + +When you initialize a custom data source (by implementing the `onInit` function in the vtable) you +will need to output a pointer to a `ma_data_source` which implements your custom decoder. See the +section about data sources for details on how to implement this. Alternatively, see the +"custom_decoders" example in the miniaudio repository. + +The `onInit` function takes a pointer to some callbacks for the purpose of reading raw audio data +from some arbitrary source. You'll use these functions to read from the raw data and perform the +decoding. When you call them, you will pass in the `pReadSeekTellUserData` pointer to the relevant +parameter. + +The `pConfig` parameter in `onInit` can be used to configure the backend if appropriate. It's only +used as a hint and can be ignored. However, if any of the properties are relevant to your decoder, +an optimal implementation will handle the relevant properties appropriately. + +If memory allocation is required, it should be done so via the specified allocation callbacks if +possible (the `pAllocationCallbacks` parameter). + +If an error occurs when initializing the decoder, you should leave `ppBackend` unset, or set to +NULL, and make sure everything is cleaned up appropriately and an appropriate result code returned. +When multiple custom backends are specified, miniaudio will cycle through the vtables in the order +they're listed in the array that's passed into the decoder config so it's important that your +initialization routine is clean. + +When a decoder is uninitialized, the `onUninit` callback will be fired which will give you an +opportunity to clean up and internal data. + + + +9. Encoding +=========== +The `ma_encoding` API is used for writing audio files. The only supported output format is WAV. +This can be disabled by specifying the following option before the implementation of miniaudio: + + ```c + #define MA_NO_WAV + ``` + +An encoder can be initialized to write to a file with `ma_encoder_init_file()` or from data +delivered via callbacks with `ma_encoder_init()`. Below is an example for initializing an encoder +to output to a file. + + ```c + ma_encoder_config config = ma_encoder_config_init(ma_encoding_format_wav, FORMAT, CHANNELS, SAMPLE_RATE); + ma_encoder encoder; + ma_result result = ma_encoder_init_file("my_file.wav", &config, &encoder); + if (result != MA_SUCCESS) { + // Error + } + + ... + + ma_encoder_uninit(&encoder); + ``` + +When initializing an encoder you must specify a config which is initialized with +`ma_encoder_config_init()`. Here you must specify the file type, the output sample format, output +channel count and output sample rate. The following file types are supported: + + +------------------------+-------------+ + | Enum | Description | + +------------------------+-------------+ + | ma_encoding_format_wav | WAV | + +------------------------+-------------+ + +If the format, channel count or sample rate is not supported by the output file type an error will +be returned. The encoder will not perform data conversion so you will need to convert it before +outputting any audio data. To output audio data, use `ma_encoder_write_pcm_frames()`, like in the +example below: + + ```c + ma_uint64 framesWritten; + result = ma_encoder_write_pcm_frames(&encoder, pPCMFramesToWrite, framesToWrite, &framesWritten); + if (result != MA_SUCCESS) { + ... handle error ... + } + ``` + +The `framesWritten` variable will contain the number of PCM frames that were actually written. This +is optionally and you can pass in `NULL` if you need this. + +Encoders must be uninitialized with `ma_encoder_uninit()`. + + + +10. Data Conversion +=================== +A data conversion API is included with miniaudio which supports the majority of data conversion +requirements. This supports conversion between sample formats, channel counts (with channel +mapping) and sample rates. + + +10.1. Sample Format Conversion +------------------------------ +Conversion between sample formats is achieved with the `ma_pcm_*_to_*()`, `ma_pcm_convert()` and +`ma_convert_pcm_frames_format()` APIs. Use `ma_pcm_*_to_*()` to convert between two specific +formats. Use `ma_pcm_convert()` to convert based on a `ma_format` variable. Use +`ma_convert_pcm_frames_format()` to convert PCM frames where you want to specify the frame count +and channel count as a variable instead of the total sample count. + + +10.1.1. Dithering +----------------- +Dithering can be set using the ditherMode parameter. + +The different dithering modes include the following, in order of efficiency: + + +-----------+--------------------------+ + | Type | Enum Token | + +-----------+--------------------------+ + | None | ma_dither_mode_none | + | Rectangle | ma_dither_mode_rectangle | + | Triangle | ma_dither_mode_triangle | + +-----------+--------------------------+ + +Note that even if the dither mode is set to something other than `ma_dither_mode_none`, it will be +ignored for conversions where dithering is not needed. Dithering is available for the following +conversions: + + ``` + s16 -> u8 + s24 -> u8 + s32 -> u8 + f32 -> u8 + s24 -> s16 + s32 -> s16 + f32 -> s16 + ``` + +Note that it is not an error to pass something other than ma_dither_mode_none for conversions where +dither is not used. It will just be ignored. + + + +10.2. Channel Conversion +------------------------ +Channel conversion is used for channel rearrangement and conversion from one channel count to +another. The `ma_channel_converter` API is used for channel conversion. Below is an example of +initializing a simple channel converter which converts from mono to stereo. + + ```c + ma_channel_converter_config config = ma_channel_converter_config_init( + ma_format, // Sample format + 1, // Input channels + NULL, // Input channel map + 2, // Output channels + NULL, // Output channel map + ma_channel_mix_mode_default); // The mixing algorithm to use when combining channels. + + result = ma_channel_converter_init(&config, NULL, &converter); + if (result != MA_SUCCESS) { + // Error. + } + ``` + +To perform the conversion simply call `ma_channel_converter_process_pcm_frames()` like so: + + ```c + ma_result result = ma_channel_converter_process_pcm_frames(&converter, pFramesOut, pFramesIn, frameCount); + if (result != MA_SUCCESS) { + // Error. + } + ``` + +It is up to the caller to ensure the output buffer is large enough to accommodate the new PCM +frames. + +Input and output PCM frames are always interleaved. Deinterleaved layouts are not supported. + + +10.2.1. Channel Mapping +----------------------- +In addition to converting from one channel count to another, like the example above, the channel +converter can also be used to rearrange channels. When initializing the channel converter, you can +optionally pass in channel maps for both the input and output frames. If the channel counts are the +same, and each channel map contains the same channel positions with the exception that they're in +a different order, a simple shuffling of the channels will be performed. If, however, there is not +a 1:1 mapping of channel positions, or the channel counts differ, the input channels will be mixed +based on a mixing mode which is specified when initializing the `ma_channel_converter_config` +object. + +When converting from mono to multi-channel, the mono channel is simply copied to each output +channel. When going the other way around, the audio of each output channel is simply averaged and +copied to the mono channel. + +In more complicated cases blending is used. The `ma_channel_mix_mode_simple` mode will drop excess +channels and silence extra channels. For example, converting from 4 to 2 channels, the 3rd and 4th +channels will be dropped, whereas converting from 2 to 4 channels will put silence into the 3rd and +4th channels. + +The `ma_channel_mix_mode_rectangle` mode uses spacial locality based on a rectangle to compute a +simple distribution between input and output. Imagine sitting in the middle of a room, with +speakers on the walls representing channel positions. The `MA_CHANNEL_FRONT_LEFT` position can be +thought of as being in the corner of the front and left walls. + +Finally, the `ma_channel_mix_mode_custom_weights` mode can be used to use custom user-defined +weights. Custom weights can be passed in as the last parameter of +`ma_channel_converter_config_init()`. + +Predefined channel maps can be retrieved with `ma_channel_map_init_standard()`. This takes a +`ma_standard_channel_map` enum as its first parameter, which can be one of the following: + + +-----------------------------------+-----------------------------------------------------------+ + | Name | Description | + +-----------------------------------+-----------------------------------------------------------+ + | ma_standard_channel_map_default | Default channel map used by miniaudio. See below. | + | ma_standard_channel_map_microsoft | Channel map used by Microsoft's bitfield channel maps. | + | ma_standard_channel_map_alsa | Default ALSA channel map. | + | ma_standard_channel_map_rfc3551 | RFC 3551. Based on AIFF. | + | ma_standard_channel_map_flac | FLAC channel map. | + | ma_standard_channel_map_vorbis | Vorbis channel map. | + | ma_standard_channel_map_sound4 | FreeBSD's sound(4). | + | ma_standard_channel_map_sndio | sndio channel map. http://www.sndio.org/tips.html. | + | ma_standard_channel_map_webaudio | https://webaudio.github.io/web-audio-api/#ChannelOrdering | + +-----------------------------------+-----------------------------------------------------------+ + +Below are the channel maps used by default in miniaudio (`ma_standard_channel_map_default`): + + +---------------+---------------------------------+ + | Channel Count | Mapping | + +---------------+---------------------------------+ + | 1 (Mono) | 0: MA_CHANNEL_MONO | + +---------------+---------------------------------+ + | 2 (Stereo) | 0: MA_CHANNEL_FRONT_LEFT
| + | | 1: MA_CHANNEL_FRONT_RIGHT | + +---------------+---------------------------------+ + | 3 | 0: MA_CHANNEL_FRONT_LEFT
| + | | 1: MA_CHANNEL_FRONT_RIGHT
| + | | 2: MA_CHANNEL_FRONT_CENTER | + +---------------+---------------------------------+ + | 4 (Surround) | 0: MA_CHANNEL_FRONT_LEFT
| + | | 1: MA_CHANNEL_FRONT_RIGHT
| + | | 2: MA_CHANNEL_FRONT_CENTER
| + | | 3: MA_CHANNEL_BACK_CENTER | + +---------------+---------------------------------+ + | 5 | 0: MA_CHANNEL_FRONT_LEFT
| + | | 1: MA_CHANNEL_FRONT_RIGHT
| + | | 2: MA_CHANNEL_FRONT_CENTER
| + | | 3: MA_CHANNEL_BACK_LEFT
| + | | 4: MA_CHANNEL_BACK_RIGHT | + +---------------+---------------------------------+ + | 6 (5.1) | 0: MA_CHANNEL_FRONT_LEFT
| + | | 1: MA_CHANNEL_FRONT_RIGHT
| + | | 2: MA_CHANNEL_FRONT_CENTER
| + | | 3: MA_CHANNEL_LFE
| + | | 4: MA_CHANNEL_SIDE_LEFT
| + | | 5: MA_CHANNEL_SIDE_RIGHT | + +---------------+---------------------------------+ + | 7 | 0: MA_CHANNEL_FRONT_LEFT
| + | | 1: MA_CHANNEL_FRONT_RIGHT
| + | | 2: MA_CHANNEL_FRONT_CENTER
| + | | 3: MA_CHANNEL_LFE
| + | | 4: MA_CHANNEL_BACK_CENTER
| + | | 4: MA_CHANNEL_SIDE_LEFT
| + | | 5: MA_CHANNEL_SIDE_RIGHT | + +---------------+---------------------------------+ + | 8 (7.1) | 0: MA_CHANNEL_FRONT_LEFT
| + | | 1: MA_CHANNEL_FRONT_RIGHT
| + | | 2: MA_CHANNEL_FRONT_CENTER
| + | | 3: MA_CHANNEL_LFE
| + | | 4: MA_CHANNEL_BACK_LEFT
| + | | 5: MA_CHANNEL_BACK_RIGHT
| + | | 6: MA_CHANNEL_SIDE_LEFT
| + | | 7: MA_CHANNEL_SIDE_RIGHT | + +---------------+---------------------------------+ + | Other | All channels set to 0. This | + | | is equivalent to the same | + | | mapping as the device. | + +---------------+---------------------------------+ + + + +10.3. Resampling +---------------- +Resampling is achieved with the `ma_resampler` object. To create a resampler object, do something +like the following: + + ```c + ma_resampler_config config = ma_resampler_config_init( + ma_format_s16, + channels, + sampleRateIn, + sampleRateOut, + ma_resample_algorithm_linear); + + ma_resampler resampler; + ma_result result = ma_resampler_init(&config, NULL, &resampler); + if (result != MA_SUCCESS) { + // An error occurred... + } + ``` + +Do the following to uninitialize the resampler: + + ```c + ma_resampler_uninit(&resampler); + ``` + +The following example shows how data can be processed + + ```c + ma_uint64 frameCountIn = 1000; + ma_uint64 frameCountOut = 2000; + ma_result result = ma_resampler_process_pcm_frames(&resampler, pFramesIn, &frameCountIn, pFramesOut, &frameCountOut); + if (result != MA_SUCCESS) { + // An error occurred... + } + + // At this point, frameCountIn contains the number of input frames that were consumed and frameCountOut contains the + // number of output frames written. + ``` + +To initialize the resampler you first need to set up a config (`ma_resampler_config`) with +`ma_resampler_config_init()`. You need to specify the sample format you want to use, the number of +channels, the input and output sample rate, and the algorithm. + +The sample format can be either `ma_format_s16` or `ma_format_f32`. If you need a different format +you will need to perform pre- and post-conversions yourself where necessary. Note that the format +is the same for both input and output. The format cannot be changed after initialization. + +The resampler supports multiple channels and is always interleaved (both input and output). The +channel count cannot be changed after initialization. + +The sample rates can be anything other than zero, and are always specified in hertz. They should be +set to something like 44100, etc. The sample rate is the only configuration property that can be +changed after initialization. + +The miniaudio resampler has built-in support for the following algorithms: + + +-----------+------------------------------+ + | Algorithm | Enum Token | + +-----------+------------------------------+ + | Linear | ma_resample_algorithm_linear | + | Custom | ma_resample_algorithm_custom | + +-----------+------------------------------+ + +The algorithm cannot be changed after initialization. + +Processing always happens on a per PCM frame basis and always assumes interleaved input and output. +De-interleaved processing is not supported. To process frames, use +`ma_resampler_process_pcm_frames()`. On input, this function takes the number of output frames you +can fit in the output buffer and the number of input frames contained in the input buffer. On +output these variables contain the number of output frames that were written to the output buffer +and the number of input frames that were consumed in the process. You can pass in NULL for the +input buffer in which case it will be treated as an infinitely large buffer of zeros. The output +buffer can also be NULL, in which case the processing will be treated as seek. + +The sample rate can be changed dynamically on the fly. You can change this with explicit sample +rates with `ma_resampler_set_rate()` and also with a decimal ratio with +`ma_resampler_set_rate_ratio()`. The ratio is in/out. + +Sometimes it's useful to know exactly how many input frames will be required to output a specific +number of frames. You can calculate this with `ma_resampler_get_required_input_frame_count()`. +Likewise, it's sometimes useful to know exactly how many frames would be output given a certain +number of input frames. You can do this with `ma_resampler_get_expected_output_frame_count()`. + +Due to the nature of how resampling works, the resampler introduces some latency. This can be +retrieved in terms of both the input rate and the output rate with +`ma_resampler_get_input_latency()` and `ma_resampler_get_output_latency()`. + + +10.3.1. Resampling Algorithms +----------------------------- +The choice of resampling algorithm depends on your situation and requirements. + + +10.3.1.1. Linear Resampling +--------------------------- +The linear resampler is the fastest, but comes at the expense of poorer quality. There is, however, +some control over the quality of the linear resampler which may make it a suitable option depending +on your requirements. + +The linear resampler performs low-pass filtering before or after downsampling or upsampling, +depending on the sample rates you're converting between. When decreasing the sample rate, the +low-pass filter will be applied before downsampling. When increasing the rate it will be performed +after upsampling. By default a fourth order low-pass filter will be applied. This can be configured +via the `lpfOrder` configuration variable. Setting this to 0 will disable filtering. + +The low-pass filter has a cutoff frequency which defaults to half the sample rate of the lowest of +the input and output sample rates (Nyquist Frequency). + +The API for the linear resampler is the same as the main resampler API, only it's called +`ma_linear_resampler`. + + +10.3.2. Custom Resamplers +------------------------- +You can implement a custom resampler by using the `ma_resample_algorithm_custom` resampling +algorithm and setting a vtable in the resampler config: + + ```c + ma_resampler_config config = ma_resampler_config_init(..., ma_resample_algorithm_custom); + config.pBackendVTable = &g_customResamplerVTable; + ``` + +Custom resamplers are useful if the stock algorithms are not appropriate for your use case. You +need to implement the required functions in `ma_resampling_backend_vtable`. Note that not all +functions in the vtable need to be implemented, but if it's possible to implement, they should be. + +You can use the `ma_linear_resampler` object for an example on how to implement the vtable. The +`onGetHeapSize` callback is used to calculate the size of any internal heap allocation the custom +resampler will need to make given the supplied config. When you initialize the resampler via the +`onInit` callback, you'll be given a pointer to a heap allocation which is where you should store +the heap allocated data. You should not free this data in `onUninit` because miniaudio will manage +it for you. + +The `onProcess` callback is where the actual resampling takes place. On input, `pFrameCountIn` +points to a variable containing the number of frames in the `pFramesIn` buffer and +`pFrameCountOut` points to a variable containing the capacity in frames of the `pFramesOut` buffer. +On output, `pFrameCountIn` should be set to the number of input frames that were fully consumed, +whereas `pFrameCountOut` should be set to the number of frames that were written to `pFramesOut`. + +The `onSetRate` callback is optional and is used for dynamically changing the sample rate. If +dynamic rate changes are not supported, you can set this callback to NULL. + +The `onGetInputLatency` and `onGetOutputLatency` functions are used for retrieving the latency in +input and output rates respectively. These can be NULL in which case latency calculations will be +assumed to be NULL. + +The `onGetRequiredInputFrameCount` callback is used to give miniaudio a hint as to how many input +frames are required to be available to produce the given number of output frames. Likewise, the +`onGetExpectedOutputFrameCount` callback is used to determine how many output frames will be +produced given the specified number of input frames. miniaudio will use these as a hint, but they +are optional and can be set to NULL if you're unable to implement them. + + + +10.4. General Data Conversion +----------------------------- +The `ma_data_converter` API can be used to wrap sample format conversion, channel conversion and +resampling into one operation. This is what miniaudio uses internally to convert between the format +requested when the device was initialized and the format of the backend's native device. The API +for general data conversion is very similar to the resampling API. Create a `ma_data_converter` +object like this: + + ```c + ma_data_converter_config config = ma_data_converter_config_init( + inputFormat, + outputFormat, + inputChannels, + outputChannels, + inputSampleRate, + outputSampleRate + ); + + ma_data_converter converter; + ma_result result = ma_data_converter_init(&config, NULL, &converter); + if (result != MA_SUCCESS) { + // An error occurred... + } + ``` + +In the example above we use `ma_data_converter_config_init()` to initialize the config, however +there's many more properties that can be configured, such as channel maps and resampling quality. +Something like the following may be more suitable depending on your requirements: + + ```c + ma_data_converter_config config = ma_data_converter_config_init_default(); + config.formatIn = inputFormat; + config.formatOut = outputFormat; + config.channelsIn = inputChannels; + config.channelsOut = outputChannels; + config.sampleRateIn = inputSampleRate; + config.sampleRateOut = outputSampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_flac, config.channelMapIn, sizeof(config.channelMapIn)/sizeof(config.channelMapIn[0]), config.channelCountIn); + config.resampling.linear.lpfOrder = MA_MAX_FILTER_ORDER; + ``` + +Do the following to uninitialize the data converter: + + ```c + ma_data_converter_uninit(&converter, NULL); + ``` + +The following example shows how data can be processed + + ```c + ma_uint64 frameCountIn = 1000; + ma_uint64 frameCountOut = 2000; + ma_result result = ma_data_converter_process_pcm_frames(&converter, pFramesIn, &frameCountIn, pFramesOut, &frameCountOut); + if (result != MA_SUCCESS) { + // An error occurred... + } + + // At this point, frameCountIn contains the number of input frames that were consumed and frameCountOut contains the number + // of output frames written. + ``` + +The data converter supports multiple channels and is always interleaved (both input and output). +The channel count cannot be changed after initialization. + +Sample rates can be anything other than zero, and are always specified in hertz. They should be set +to something like 44100, etc. The sample rate is the only configuration property that can be +changed after initialization, but only if the `resampling.allowDynamicSampleRate` member of +`ma_data_converter_config` is set to `MA_TRUE`. To change the sample rate, use +`ma_data_converter_set_rate()` or `ma_data_converter_set_rate_ratio()`. The ratio must be in/out. +The resampling algorithm cannot be changed after initialization. + +Processing always happens on a per PCM frame basis and always assumes interleaved input and output. +De-interleaved processing is not supported. To process frames, use +`ma_data_converter_process_pcm_frames()`. On input, this function takes the number of output frames +you can fit in the output buffer and the number of input frames contained in the input buffer. On +output these variables contain the number of output frames that were written to the output buffer +and the number of input frames that were consumed in the process. You can pass in NULL for the +input buffer in which case it will be treated as an infinitely large +buffer of zeros. The output buffer can also be NULL, in which case the processing will be treated +as seek. + +Sometimes it's useful to know exactly how many input frames will be required to output a specific +number of frames. You can calculate this with `ma_data_converter_get_required_input_frame_count()`. +Likewise, it's sometimes useful to know exactly how many frames would be output given a certain +number of input frames. You can do this with `ma_data_converter_get_expected_output_frame_count()`. + +Due to the nature of how resampling works, the data converter introduces some latency if resampling +is required. This can be retrieved in terms of both the input rate and the output rate with +`ma_data_converter_get_input_latency()` and `ma_data_converter_get_output_latency()`. + + + +11. Filtering +============= + +11.1. Biquad Filtering +---------------------- +Biquad filtering is achieved with the `ma_biquad` API. Example: + + ```c + ma_biquad_config config = ma_biquad_config_init(ma_format_f32, channels, b0, b1, b2, a0, a1, a2); + ma_result result = ma_biquad_init(&config, NULL, &biquad); + if (result != MA_SUCCESS) { + // Error. + } + + ... + + ma_biquad_process_pcm_frames(&biquad, pFramesOut, pFramesIn, frameCount); + ``` + +Biquad filtering is implemented using transposed direct form 2. The numerator coefficients are b0, +b1 and b2, and the denominator coefficients are a0, a1 and a2. The a0 coefficient is required and +coefficients must not be pre-normalized. + +Supported formats are `ma_format_s16` and `ma_format_f32`. If you need to use a different format +you need to convert it yourself beforehand. When using `ma_format_s16` the biquad filter will use +fixed point arithmetic. When using `ma_format_f32`, floating point arithmetic will be used. + +Input and output frames are always interleaved. + +Filtering can be applied in-place by passing in the same pointer for both the input and output +buffers, like so: + + ```c + ma_biquad_process_pcm_frames(&biquad, pMyData, pMyData, frameCount); + ``` + +If you need to change the values of the coefficients, but maintain the values in the registers you +can do so with `ma_biquad_reinit()`. This is useful if you need to change the properties of the +filter while keeping the values of registers valid to avoid glitching. Do not use +`ma_biquad_init()` for this as it will do a full initialization which involves clearing the +registers to 0. Note that changing the format or channel count after initialization is invalid and +will result in an error. + + +11.2. Low-Pass Filtering +------------------------ +Low-pass filtering is achieved with the following APIs: + + +---------+------------------------------------------+ + | API | Description | + +---------+------------------------------------------+ + | ma_lpf1 | First order low-pass filter | + | ma_lpf2 | Second order low-pass filter | + | ma_lpf | High order low-pass filter (Butterworth) | + +---------+------------------------------------------+ + +Low-pass filter example: + + ```c + ma_lpf_config config = ma_lpf_config_init(ma_format_f32, channels, sampleRate, cutoffFrequency, order); + ma_result result = ma_lpf_init(&config, &lpf); + if (result != MA_SUCCESS) { + // Error. + } + + ... + + ma_lpf_process_pcm_frames(&lpf, pFramesOut, pFramesIn, frameCount); + ``` + +Supported formats are `ma_format_s16` and` ma_format_f32`. If you need to use a different format +you need to convert it yourself beforehand. Input and output frames are always interleaved. + +Filtering can be applied in-place by passing in the same pointer for both the input and output +buffers, like so: + + ```c + ma_lpf_process_pcm_frames(&lpf, pMyData, pMyData, frameCount); + ``` + +The maximum filter order is limited to `MA_MAX_FILTER_ORDER` which is set to 8. If you need more, +you can chain first and second order filters together. + + ```c + for (iFilter = 0; iFilter < filterCount; iFilter += 1) { + ma_lpf2_process_pcm_frames(&lpf2[iFilter], pMyData, pMyData, frameCount); + } + ``` + +If you need to change the configuration of the filter, but need to maintain the state of internal +registers you can do so with `ma_lpf_reinit()`. This may be useful if you need to change the sample +rate and/or cutoff frequency dynamically while maintaining smooth transitions. Note that changing the +format or channel count after initialization is invalid and will result in an error. + +The `ma_lpf` object supports a configurable order, but if you only need a first order filter you +may want to consider using `ma_lpf1`. Likewise, if you only need a second order filter you can use +`ma_lpf2`. The advantage of this is that they're lighter weight and a bit more efficient. + +If an even filter order is specified, a series of second order filters will be processed in a +chain. If an odd filter order is specified, a first order filter will be applied, followed by a +series of second order filters in a chain. + + +11.3. High-Pass Filtering +------------------------- +High-pass filtering is achieved with the following APIs: + + +---------+-------------------------------------------+ + | API | Description | + +---------+-------------------------------------------+ + | ma_hpf1 | First order high-pass filter | + | ma_hpf2 | Second order high-pass filter | + | ma_hpf | High order high-pass filter (Butterworth) | + +---------+-------------------------------------------+ + +High-pass filters work exactly the same as low-pass filters, only the APIs are called `ma_hpf1`, +`ma_hpf2` and `ma_hpf`. See example code for low-pass filters for example usage. + + +11.4. Band-Pass Filtering +------------------------- +Band-pass filtering is achieved with the following APIs: + + +---------+-------------------------------+ + | API | Description | + +---------+-------------------------------+ + | ma_bpf2 | Second order band-pass filter | + | ma_bpf | High order band-pass filter | + +---------+-------------------------------+ + +Band-pass filters work exactly the same as low-pass filters, only the APIs are called `ma_bpf2` and +`ma_hpf`. See example code for low-pass filters for example usage. Note that the order for +band-pass filters must be an even number which means there is no first order band-pass filter, +unlike low-pass and high-pass filters. + + +11.5. Notch Filtering +--------------------- +Notch filtering is achieved with the following APIs: + + +-----------+------------------------------------------+ + | API | Description | + +-----------+------------------------------------------+ + | ma_notch2 | Second order notching filter | + +-----------+------------------------------------------+ + + +11.6. Peaking EQ Filtering +------------------------- +Peaking filtering is achieved with the following APIs: + + +----------+------------------------------------------+ + | API | Description | + +----------+------------------------------------------+ + | ma_peak2 | Second order peaking filter | + +----------+------------------------------------------+ + + +11.7. Low Shelf Filtering +------------------------- +Low shelf filtering is achieved with the following APIs: + + +-------------+------------------------------------------+ + | API | Description | + +-------------+------------------------------------------+ + | ma_loshelf2 | Second order low shelf filter | + +-------------+------------------------------------------+ + +Where a high-pass filter is used to eliminate lower frequencies, a low shelf filter can be used to +just turn them down rather than eliminate them entirely. + + +11.8. High Shelf Filtering +-------------------------- +High shelf filtering is achieved with the following APIs: + + +-------------+------------------------------------------+ + | API | Description | + +-------------+------------------------------------------+ + | ma_hishelf2 | Second order high shelf filter | + +-------------+------------------------------------------+ + +The high shelf filter has the same API as the low shelf filter, only you would use `ma_hishelf` +instead of `ma_loshelf`. Where a low shelf filter is used to adjust the volume of low frequencies, +the high shelf filter does the same thing for high frequencies. + + + + +12. Waveform and Noise Generation +================================= + +12.1. Waveforms +--------------- +miniaudio supports generation of sine, square, triangle and sawtooth waveforms. This is achieved +with the `ma_waveform` API. Example: + + ```c + ma_waveform_config config = ma_waveform_config_init( + FORMAT, + CHANNELS, + SAMPLE_RATE, + ma_waveform_type_sine, + amplitude, + frequency); + + ma_waveform waveform; + ma_result result = ma_waveform_init(&config, &waveform); + if (result != MA_SUCCESS) { + // Error. + } + + ... + + ma_waveform_read_pcm_frames(&waveform, pOutput, frameCount); + ``` + +The amplitude, frequency, type, and sample rate can be changed dynamically with +`ma_waveform_set_amplitude()`, `ma_waveform_set_frequency()`, `ma_waveform_set_type()`, and +`ma_waveform_set_sample_rate()` respectively. + +You can invert the waveform by setting the amplitude to a negative value. You can use this to +control whether or not a sawtooth has a positive or negative ramp, for example. + +Below are the supported waveform types: + + +---------------------------+ + | Enum Name | + +---------------------------+ + | ma_waveform_type_sine | + | ma_waveform_type_square | + | ma_waveform_type_triangle | + | ma_waveform_type_sawtooth | + +---------------------------+ + + + +12.2. Noise +----------- +miniaudio supports generation of white, pink and Brownian noise via the `ma_noise` API. Example: + + ```c + ma_noise_config config = ma_noise_config_init( + FORMAT, + CHANNELS, + ma_noise_type_white, + SEED, + amplitude); + + ma_noise noise; + ma_result result = ma_noise_init(&config, &noise); + if (result != MA_SUCCESS) { + // Error. + } + + ... + + ma_noise_read_pcm_frames(&noise, pOutput, frameCount); + ``` + +The noise API uses simple LCG random number generation. It supports a custom seed which is useful +for things like automated testing requiring reproducibility. Setting the seed to zero will default +to `MA_DEFAULT_LCG_SEED`. + +The amplitude and seed can be changed dynamically with `ma_noise_set_amplitude()` and +`ma_noise_set_seed()` respectively. + +By default, the noise API will use different values for different channels. So, for example, the +left side in a stereo stream will be different to the right side. To instead have each channel use +the same random value, set the `duplicateChannels` member of the noise config to true, like so: + + ```c + config.duplicateChannels = MA_TRUE; + ``` + +Below are the supported noise types. + + +------------------------+ + | Enum Name | + +------------------------+ + | ma_noise_type_white | + | ma_noise_type_pink | + | ma_noise_type_brownian | + +------------------------+ + + + +13. Audio Buffers +================= +miniaudio supports reading from a buffer of raw audio data via the `ma_audio_buffer` API. This can +read from memory that's managed by the application, but can also handle the memory management for +you internally. Memory management is flexible and should support most use cases. + +Audio buffers are initialized using the standard configuration system used everywhere in miniaudio: + + ```c + ma_audio_buffer_config config = ma_audio_buffer_config_init( + format, + channels, + sizeInFrames, + pExistingData, + &allocationCallbacks); + + ma_audio_buffer buffer; + result = ma_audio_buffer_init(&config, &buffer); + if (result != MA_SUCCESS) { + // Error. + } + + ... + + ma_audio_buffer_uninit(&buffer); + ``` + +In the example above, the memory pointed to by `pExistingData` will *not* be copied and is how an +application can do self-managed memory allocation. If you would rather make a copy of the data, use +`ma_audio_buffer_init_copy()`. To uninitialize the buffer, use `ma_audio_buffer_uninit()`. + +Sometimes it can be convenient to allocate the memory for the `ma_audio_buffer` structure and the +raw audio data in a contiguous block of memory. That is, the raw audio data will be located +immediately after the `ma_audio_buffer` structure. To do this, use +`ma_audio_buffer_alloc_and_init()`: + + ```c + ma_audio_buffer_config config = ma_audio_buffer_config_init( + format, + channels, + sizeInFrames, + pExistingData, + &allocationCallbacks); + + ma_audio_buffer* pBuffer + result = ma_audio_buffer_alloc_and_init(&config, &pBuffer); + if (result != MA_SUCCESS) { + // Error + } + + ... + + ma_audio_buffer_uninit_and_free(&buffer); + ``` + +If you initialize the buffer with `ma_audio_buffer_alloc_and_init()` you should uninitialize it +with `ma_audio_buffer_uninit_and_free()`. In the example above, the memory pointed to by +`pExistingData` will be copied into the buffer, which is contrary to the behavior of +`ma_audio_buffer_init()`. + +An audio buffer has a playback cursor just like a decoder. As you read frames from the buffer, the +cursor moves forward. The last parameter (`loop`) can be used to determine if the buffer should +loop. The return value is the number of frames actually read. If this is less than the number of +frames requested it means the end has been reached. This should never happen if the `loop` +parameter is set to true. If you want to manually loop back to the start, you can do so with with +`ma_audio_buffer_seek_to_pcm_frame(pAudioBuffer, 0)`. Below is an example for reading data from an +audio buffer. + + ```c + ma_uint64 framesRead = ma_audio_buffer_read_pcm_frames(pAudioBuffer, pFramesOut, desiredFrameCount, isLooping); + if (framesRead < desiredFrameCount) { + // If not looping, this means the end has been reached. This should never happen in looping mode with valid input. + } + ``` + +Sometimes you may want to avoid the cost of data movement between the internal buffer and the +output buffer. Instead you can use memory mapping to retrieve a pointer to a segment of data: + + ```c + void* pMappedFrames; + ma_uint64 frameCount = frameCountToTryMapping; + ma_result result = ma_audio_buffer_map(pAudioBuffer, &pMappedFrames, &frameCount); + if (result == MA_SUCCESS) { + // Map was successful. The value in frameCount will be how many frames were _actually_ mapped, which may be + // less due to the end of the buffer being reached. + ma_copy_pcm_frames(pFramesOut, pMappedFrames, frameCount, pAudioBuffer->format, pAudioBuffer->channels); + + // You must unmap the buffer. + ma_audio_buffer_unmap(pAudioBuffer, frameCount); + } + ``` + +When you use memory mapping, the read cursor is increment by the frame count passed in to +`ma_audio_buffer_unmap()`. If you decide not to process every frame you can pass in a value smaller +than the value returned by `ma_audio_buffer_map()`. The disadvantage to using memory mapping is +that it does not handle looping for you. You can determine if the buffer is at the end for the +purpose of looping with `ma_audio_buffer_at_end()` or by inspecting the return value of +`ma_audio_buffer_unmap()` and checking if it equals `MA_AT_END`. You should not treat `MA_AT_END` +as an error when returned by `ma_audio_buffer_unmap()`. + + + +14. Ring Buffers +================ +miniaudio supports lock free (single producer, single consumer) ring buffers which are exposed via +the `ma_rb` and `ma_pcm_rb` APIs. The `ma_rb` API operates on bytes, whereas the `ma_pcm_rb` +operates on PCM frames. They are otherwise identical as `ma_pcm_rb` is just a wrapper around +`ma_rb`. + +Unlike most other APIs in miniaudio, ring buffers support both interleaved and deinterleaved +streams. The caller can also allocate their own backing memory for the ring buffer to use +internally for added flexibility. Otherwise the ring buffer will manage it's internal memory for +you. + +The examples below use the PCM frame variant of the ring buffer since that's most likely the one +you will want to use. To initialize a ring buffer, do something like the following: + + ```c + ma_pcm_rb rb; + ma_result result = ma_pcm_rb_init(FORMAT, CHANNELS, BUFFER_SIZE_IN_FRAMES, NULL, NULL, &rb); + if (result != MA_SUCCESS) { + // Error + } + ``` + +The `ma_pcm_rb_init()` function takes the sample format and channel count as parameters because +it's the PCM variant of the ring buffer API. For the regular ring buffer that operates on bytes you +would call `ma_rb_init()` which leaves these out and just takes the size of the buffer in bytes +instead of frames. The fourth parameter is an optional pre-allocated buffer and the fifth parameter +is a pointer to a `ma_allocation_callbacks` structure for custom memory allocation routines. +Passing in `NULL` for this results in `MA_MALLOC()` and `MA_FREE()` being used. + +Use `ma_pcm_rb_init_ex()` if you need a deinterleaved buffer. The data for each sub-buffer is +offset from each other based on the stride. To manage your sub-buffers you can use +`ma_pcm_rb_get_subbuffer_stride()`, `ma_pcm_rb_get_subbuffer_offset()` and +`ma_pcm_rb_get_subbuffer_ptr()`. + +Use `ma_pcm_rb_acquire_read()` and `ma_pcm_rb_acquire_write()` to retrieve a pointer to a section +of the ring buffer. You specify the number of frames you need, and on output it will set to what +was actually acquired. If the read or write pointer is positioned such that the number of frames +requested will require a loop, it will be clamped to the end of the buffer. Therefore, the number +of frames you're given may be less than the number you requested. + +After calling `ma_pcm_rb_acquire_read()` or `ma_pcm_rb_acquire_write()`, you do your work on the +buffer and then "commit" it with `ma_pcm_rb_commit_read()` or `ma_pcm_rb_commit_write()`. This is +where the read/write pointers are updated. When you commit you need to pass in the buffer that was +returned by the earlier call to `ma_pcm_rb_acquire_read()` or `ma_pcm_rb_acquire_write()` and is +only used for validation. The number of frames passed to `ma_pcm_rb_commit_read()` and +`ma_pcm_rb_commit_write()` is what's used to increment the pointers, and can be less that what was +originally requested. + +If you want to correct for drift between the write pointer and the read pointer you can use a +combination of `ma_pcm_rb_pointer_distance()`, `ma_pcm_rb_seek_read()` and +`ma_pcm_rb_seek_write()`. Note that you can only move the pointers forward, and you should only +move the read pointer forward via the consumer thread, and the write pointer forward by the +producer thread. If there is too much space between the pointers, move the read pointer forward. If +there is too little space between the pointers, move the write pointer forward. + +You can use a ring buffer at the byte level instead of the PCM frame level by using the `ma_rb` +API. This is exactly the same, only you will use the `ma_rb` functions instead of `ma_pcm_rb` and +instead of frame counts you will pass around byte counts. + +The maximum size of the buffer in bytes is `0x7FFFFFFF-(MA_SIMD_ALIGNMENT-1)` due to the most +significant bit being used to encode a loop flag and the internally managed buffers always being +aligned to `MA_SIMD_ALIGNMENT`. + +Note that the ring buffer is only thread safe when used by a single consumer thread and single +producer thread. + + + +15. Backends +============ +The following backends are supported by miniaudio. These are listed in order of default priority. +When no backend is specified when initializing a context or device, miniaudio will attempt to use +each of these backends in the order listed in the table below. + +Note that backends that are not usable by the build target will not be included in the build. For +example, ALSA, which is specific to Linux, will not be included in the Windows build. + + +-------------+-----------------------+--------------------------------------------------------+ + | Name | Enum Name | Supported Operating Systems | + +-------------+-----------------------+--------------------------------------------------------+ + | WASAPI | ma_backend_wasapi | Windows Vista+ | + | DirectSound | ma_backend_dsound | Windows XP+ | + | WinMM | ma_backend_winmm | Windows 95+ | + | Core Audio | ma_backend_coreaudio | macOS, iOS | + | sndio | ma_backend_sndio | OpenBSD | + | audio(4) | ma_backend_audio4 | NetBSD, OpenBSD | + | OSS | ma_backend_oss | FreeBSD | + | PulseAudio | ma_backend_pulseaudio | Cross Platform (disabled on Windows, BSD and Android) | + | ALSA | ma_backend_alsa | Linux | + | JACK | ma_backend_jack | Cross Platform (disabled on BSD and Android) | + | AAudio | ma_backend_aaudio | Android 8+ | + | OpenSL ES | ma_backend_opensl | Android (API level 16+) | + | Web Audio | ma_backend_webaudio | Web (via Emscripten) | + | Custom | ma_backend_custom | Cross Platform | + | Null | ma_backend_null | Cross Platform (not used on Web) | + +-------------+-----------------------+--------------------------------------------------------+ + +Some backends have some nuance details you may want to be aware of. + +15.1. WASAPI +------------ +- Low-latency shared mode will be disabled when using an application-defined sample rate which is + different to the device's native sample rate. To work around this, set `wasapi.noAutoConvertSRC` + to true in the device config. This is due to IAudioClient3_InitializeSharedAudioStream() failing + when the `AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM` flag is specified. Setting wasapi.noAutoConvertSRC + will result in miniaudio's internal resampler being used instead which will in turn enable the + use of low-latency shared mode. + +15.2. PulseAudio +---------------- +- If you experience bad glitching/noise on Arch Linux, consider this fix from the Arch wiki: + https://wiki.archlinux.org/index.php/PulseAudio/Troubleshooting#Glitches,_skips_or_crackling. + Alternatively, consider using a different backend such as ALSA. + +15.3. Android +------------- +- To capture audio on Android, remember to add the RECORD_AUDIO permission to your manifest: + `` +- With OpenSL|ES, only a single ma_context can be active at any given time. This is due to a + limitation with OpenSL|ES. +- With AAudio, only default devices are enumerated. This is due to AAudio not having an enumeration + API (devices are enumerated through Java). You can however perform your own device enumeration + through Java and then set the ID in the ma_device_id structure (ma_device_id.aaudio) and pass it + to ma_device_init(). +- The backend API will perform resampling where possible. The reason for this as opposed to using + miniaudio's built-in resampler is to take advantage of any potential device-specific + optimizations the driver may implement. + +BSD +--- +- The sndio backend is currently only enabled on OpenBSD builds. +- The audio(4) backend is supported on OpenBSD, but you may need to disable sndiod before you can + use it. + +15.4. UWP +--------- +- UWP only supports default playback and capture devices. +- UWP requires the Microphone capability to be enabled in the application's manifest (Package.appxmanifest): + + ``` + + ... + + + + + ``` + +15.5. Web Audio / Emscripten +---------------------------- +- You cannot use `-std=c*` compiler flags, nor `-ansi`. This only applies to the Emscripten build. +- The first time a context is initialized it will create a global object called "miniaudio" whose + primary purpose is to act as a factory for device objects. +- Currently the Web Audio backend uses ScriptProcessorNode's, but this may need to change later as + they've been deprecated. +- Google has implemented a policy in their browsers that prevent automatic media output without + first receiving some kind of user input. The following web page has additional details: + https://developers.google.com/web/updates/2017/09/autoplay-policy-changes. Starting the device + may fail if you try to start playback without first handling some kind of user input. + + + +16. Optimization Tips +===================== +See below for some tips on improving performance. + +16.1. Low Level API +------------------- +- In the data callback, if your data is already clipped prior to copying it into the output buffer, + set the `noClip` config option in the device config to true. This will disable miniaudio's built + in clipping function. +- By default, miniaudio will pre-silence the data callback's output buffer. If you know that you + will always write valid data to the output buffer you can disable pre-silencing by setting the + `noPreSilence` config option in the device config to true. + +16.2. High Level API +-------------------- +- If a sound does not require doppler or pitch shifting, consider disabling pitching by + initializing the sound with the `MA_SOUND_FLAG_NO_PITCH` flag. +- If a sound does not require spatialization, disable it by initializing the sound with the + `MA_SOUND_FLAG_NO_SPATIALIZATION` flag. It can be re-enabled again post-initialization with + `ma_sound_set_spatialization_enabled()`. +- If you know all of your sounds will always be the same sample rate, set the engine's sample + rate to match that of the sounds. Likewise, if you're using a self-managed resource manager, + consider setting the decoded sample rate to match your sounds. By configuring everything to + use a consistent sample rate, sample rate conversion can be avoided. + + + +17. Miscellaneous Notes +======================= +- Automatic stream routing is enabled on a per-backend basis. Support is explicitly enabled for + WASAPI and Core Audio, however other backends such as PulseAudio may naturally support it, though + not all have been tested. +- When compiling with VC6 and earlier, decoding is restricted to files less than 2GB in size. This + is due to 64-bit file APIs not being available. +*/ + +#ifndef miniaudio_h +#define miniaudio_h + +#ifdef __cplusplus +extern "C" { +#endif + +#define MA_STRINGIFY(x) #x +#define MA_XSTRINGIFY(x) MA_STRINGIFY(x) + +#define MA_VERSION_MAJOR 0 +#define MA_VERSION_MINOR 11 +#define MA_VERSION_REVISION 24 +#define MA_VERSION_STRING MA_XSTRINGIFY(MA_VERSION_MAJOR) "." MA_XSTRINGIFY(MA_VERSION_MINOR) "." MA_XSTRINGIFY(MA_VERSION_REVISION) + +#if defined(_MSC_VER) && !defined(__clang__) + #pragma warning(push) + #pragma warning(disable:4201) /* nonstandard extension used: nameless struct/union */ + #pragma warning(disable:4214) /* nonstandard extension used: bit field types other than int */ + #pragma warning(disable:4324) /* structure was padded due to alignment specifier */ +#elif defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))) + #pragma GCC diagnostic push + #pragma GCC diagnostic ignored "-Wpedantic" /* For ISO C99 doesn't support unnamed structs/unions [-Wpedantic] */ + #if defined(__clang__) + #pragma GCC diagnostic ignored "-Wc11-extensions" /* anonymous unions are a C11 extension */ + #endif +#endif + + +#if defined(__LP64__) || defined(_WIN64) || (defined(__x86_64__) && !defined(__ILP32__)) || defined(_M_X64) || defined(__ia64) || defined(_M_IA64) || defined(__aarch64__) || defined(_M_ARM64) || defined(__powerpc64__) || defined(__ppc64__) + #define MA_SIZEOF_PTR 8 +#else + #define MA_SIZEOF_PTR 4 +#endif + +#include /* For size_t. */ + +/* Sized types. */ +#if defined(MA_USE_STDINT) + #include + typedef int8_t ma_int8; + typedef uint8_t ma_uint8; + typedef int16_t ma_int16; + typedef uint16_t ma_uint16; + typedef int32_t ma_int32; + typedef uint32_t ma_uint32; + typedef int64_t ma_int64; + typedef uint64_t ma_uint64; +#else + typedef signed char ma_int8; + typedef unsigned char ma_uint8; + typedef signed short ma_int16; + typedef unsigned short ma_uint16; + typedef signed int ma_int32; + typedef unsigned int ma_uint32; + #if defined(_MSC_VER) && !defined(__clang__) + typedef signed long long ma_int64; + typedef unsigned long long ma_uint64; + #else + #if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))) + #pragma GCC diagnostic push + #pragma GCC diagnostic ignored "-Wlong-long" + #if defined(__clang__) + #pragma GCC diagnostic ignored "-Wc++11-long-long" + #endif + #endif + typedef signed long long ma_int64; + typedef unsigned long long ma_uint64; + #if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))) + #pragma GCC diagnostic pop + #endif + #endif +#endif /* MA_USE_STDINT */ + +#if MA_SIZEOF_PTR == 8 + typedef ma_uint64 ma_uintptr; +#else + typedef ma_uint32 ma_uintptr; +#endif + +typedef ma_uint8 ma_bool8; +typedef ma_uint32 ma_bool32; +#define MA_TRUE 1 +#define MA_FALSE 0 + +/* These float types are not used universally by miniaudio. It's to simplify some macro expansion for atomic types. */ +typedef float ma_float; +typedef double ma_double; + +typedef void* ma_handle; +typedef void* ma_ptr; + +/* +ma_proc is annoying because when compiling with GCC we get pedantic warnings about converting +between `void*` and `void (*)()`. We can't use `void (*)()` with MSVC however, because we'll get +warning C4191 about "type cast between incompatible function types". To work around this I'm going +to use a different data type depending on the compiler. +*/ +#if defined(__GNUC__) +typedef void (*ma_proc)(void); +#else +typedef void* ma_proc; +#endif + +#if defined(_MSC_VER) && !defined(_WCHAR_T_DEFINED) +typedef ma_uint16 wchar_t; +#endif + +/* Define NULL for some compilers. */ +#ifndef NULL +#define NULL 0 +#endif + +#if defined(SIZE_MAX) + #define MA_SIZE_MAX SIZE_MAX +#else + #define MA_SIZE_MAX 0xFFFFFFFF /* When SIZE_MAX is not defined by the standard library just default to the maximum 32-bit unsigned integer. */ +#endif + +#define MA_UINT64_MAX (((ma_uint64)0xFFFFFFFF << 32) | (ma_uint64)0xFFFFFFFF) /* Weird shifting syntax is for VC6 compatibility. */ + + +/* Platform/backend detection. */ +#if defined(_WIN32) + #define MA_WIN32 + #if defined(MA_FORCE_UWP) || (defined(WINAPI_FAMILY) && ((defined(WINAPI_FAMILY_PC_APP) && WINAPI_FAMILY == WINAPI_FAMILY_PC_APP) || (defined(WINAPI_FAMILY_PHONE_APP) && WINAPI_FAMILY == WINAPI_FAMILY_PHONE_APP))) + #define MA_WIN32_UWP + #elif defined(WINAPI_FAMILY) && (defined(WINAPI_FAMILY_GAMES) && WINAPI_FAMILY == WINAPI_FAMILY_GAMES) + #define MA_WIN32_GDK + #elif defined(NXDK) + #define MA_WIN32_NXDK + #else + #define MA_WIN32_DESKTOP + #endif + + /* The original Xbox. */ + #if defined(NXDK) /* <-- Add other Xbox compiler toolchains here, and then add a toolchain-specific define in case we need to discriminate between them later. */ + #define MA_XBOX + + #if defined(NXDK) + #define MA_XBOX_NXDK + #endif + #endif +#endif +#if defined(__MSDOS__) || defined(MSDOS) || defined(_MSDOS) || defined(__DOS__) + #define MA_DOS + + /* No threading allowed on DOS. */ + #ifndef MA_NO_THREADING + #define MA_NO_THREADING + #endif + + /* No runtime linking allowed on DOS. */ + #ifndef MA_NO_RUNTIME_LINKING + #define MA_NO_RUNTIME_LINKING + #endif +#endif +#if !defined(MA_WIN32) && !defined(MA_DOS) /* If it's not Win32, assume POSIX. */ + #define MA_POSIX + + #if !defined(MA_NO_THREADING) + /* + Use the MA_NO_PTHREAD_IN_HEADER option at your own risk. This is intentionally undocumented. + You can use this to avoid including pthread.h in the header section. The downside is that it + results in some fixed sized structures being declared for the various types that are used in + miniaudio. The risk here is that these types might be too small for a given platform. This + risk is yours to take and no support will be offered if you enable this option. + */ + #ifndef MA_NO_PTHREAD_IN_HEADER + #include /* Unfortunate #include, but needed for pthread_t, pthread_mutex_t and pthread_cond_t types. */ + typedef pthread_t ma_pthread_t; + typedef pthread_mutex_t ma_pthread_mutex_t; + typedef pthread_cond_t ma_pthread_cond_t; + #else + typedef ma_uintptr ma_pthread_t; + typedef union ma_pthread_mutex_t { char __data[40]; ma_uint64 __alignment; } ma_pthread_mutex_t; + typedef union ma_pthread_cond_t { char __data[48]; ma_uint64 __alignment; } ma_pthread_cond_t; + #endif + #endif + + #if defined(__unix__) + #define MA_UNIX + #endif + #if defined(__linux__) + #define MA_LINUX + #endif + #if defined(__APPLE__) + #define MA_APPLE + #endif + #if defined(__DragonFly__) || defined(__FreeBSD__) || defined(__NetBSD__) || defined(__OpenBSD__) + #define MA_BSD + #endif + #if defined(__ANDROID__) + #define MA_ANDROID + #endif + #if defined(__EMSCRIPTEN__) + #define MA_EMSCRIPTEN + #endif + #if defined(__ORBIS__) + #define MA_ORBIS + #endif + #if defined(__PROSPERO__) + #define MA_PROSPERO + #endif + #if defined(__3DS__) + #define MA_3DS + #endif + #if defined(__SWITCH__) || defined(__NX__) + #define MA_SWITCH + #endif + #if defined(__BEOS__) || defined(__HAIKU__) + #define MA_BEOS + #endif + #if defined(__HAIKU__) + #define MA_HAIKU + #endif +#endif + +#if !defined(MA_FALLTHROUGH) && defined(__cplusplus) && __cplusplus >= 201703L + #define MA_FALLTHROUGH [[fallthrough]] +#endif +#if !defined(MA_FALLTHROUGH) && defined(__STDC_VERSION__) && __STDC_VERSION__ >= 202000L + #define MA_FALLTHROUGH [[fallthrough]] +#endif +#if !defined(MA_FALLTHROUGH) && defined(__has_attribute) + #if __has_attribute(fallthrough) + #define MA_FALLTHROUGH __attribute__((fallthrough)) + #endif +#endif +#if !defined(MA_FALLTHROUGH) + #define MA_FALLTHROUGH ((void)0) +#endif + +#ifdef _MSC_VER + #define MA_INLINE __forceinline + + /* noinline was introduced in Visual Studio 2005. */ + #if _MSC_VER >= 1400 + #define MA_NO_INLINE __declspec(noinline) + #else + #define MA_NO_INLINE + #endif +#elif defined(__GNUC__) + /* + I've had a bug report where GCC is emitting warnings about functions possibly not being inlineable. This warning happens when + the __attribute__((always_inline)) attribute is defined without an "inline" statement. I think therefore there must be some + case where "__inline__" is not always defined, thus the compiler emitting these warnings. When using -std=c89 or -ansi on the + command line, we cannot use the "inline" keyword and instead need to use "__inline__". In an attempt to work around this issue + I am using "__inline__" only when we're compiling in strict ANSI mode. + */ + #if defined(__STRICT_ANSI__) + #define MA_GNUC_INLINE_HINT __inline__ + #else + #define MA_GNUC_INLINE_HINT inline + #endif + + #if (__GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ >= 2)) || defined(__clang__) + #define MA_INLINE MA_GNUC_INLINE_HINT __attribute__((always_inline)) + #define MA_NO_INLINE __attribute__((noinline)) + #else + #define MA_INLINE MA_GNUC_INLINE_HINT + #define MA_NO_INLINE + #endif +#elif defined(__WATCOMC__) + #define MA_INLINE __inline + #define MA_NO_INLINE +#else + #define MA_INLINE + #define MA_NO_INLINE +#endif + +/* MA_DLL is not officially supported. You're on your own if you want to use this. */ +#if defined(MA_DLL) + #if defined(_WIN32) + #define MA_DLL_IMPORT __declspec(dllimport) + #define MA_DLL_EXPORT __declspec(dllexport) + #define MA_DLL_PRIVATE static + #else + #if defined(__GNUC__) && __GNUC__ >= 4 + #define MA_DLL_IMPORT __attribute__((visibility("default"))) + #define MA_DLL_EXPORT __attribute__((visibility("default"))) + #define MA_DLL_PRIVATE __attribute__((visibility("hidden"))) + #else + #define MA_DLL_IMPORT + #define MA_DLL_EXPORT + #define MA_DLL_PRIVATE static + #endif + #endif +#endif + +#if !defined(MA_API) + #if defined(MA_DLL) + #if defined(MINIAUDIO_IMPLEMENTATION) || defined(MA_IMPLEMENTATION) + #define MA_API MA_DLL_EXPORT + #else + #define MA_API MA_DLL_IMPORT + #endif + #else + #define MA_API extern + #endif +#endif + +#if !defined(MA_STATIC) + #if defined(MA_DLL) + #define MA_PRIVATE MA_DLL_PRIVATE + #else + #define MA_PRIVATE static + #endif +#endif + + +/* SIMD alignment in bytes. Currently set to 32 bytes in preparation for future AVX optimizations. */ +#define MA_SIMD_ALIGNMENT 32 + +/* +Special wchar_t type to ensure any structures in the public sections that reference it have a +consistent size across all platforms. + +On Windows, wchar_t is 2 bytes, whereas everywhere else it's 4 bytes. Since Windows likes to use +wchar_t for its IDs, we need a special explicitly sized wchar type that is always 2 bytes on all +platforms. +*/ +#if !defined(MA_POSIX) && defined(MA_WIN32) +typedef wchar_t ma_wchar_win32; +#else +typedef ma_uint16 ma_wchar_win32; +#endif + + + +/* +Logging Levels +============== +Log levels are only used to give logging callbacks some context as to the severity of a log message +so they can do filtering. All log levels will be posted to registered logging callbacks. If you +don't want to output a certain log level you can discriminate against the log level in the callback. + +MA_LOG_LEVEL_DEBUG + Used for debugging. Useful for debug and test builds, but should be disabled in release builds. + +MA_LOG_LEVEL_INFO + Informational logging. Useful for debugging. This will never be called from within the data + callback. + +MA_LOG_LEVEL_WARNING + Warnings. You should enable this in you development builds and action them when encountered. These + logs usually indicate a potential problem or misconfiguration, but still allow you to keep + running. This will never be called from within the data callback. + +MA_LOG_LEVEL_ERROR + Error logging. This will be fired when an operation fails and is subsequently aborted. This can + be fired from within the data callback, in which case the device will be stopped. You should + always have this log level enabled. +*/ +typedef enum +{ + MA_LOG_LEVEL_DEBUG = 4, + MA_LOG_LEVEL_INFO = 3, + MA_LOG_LEVEL_WARNING = 2, + MA_LOG_LEVEL_ERROR = 1 +} ma_log_level; + +/* +Variables needing to be accessed atomically should be declared with this macro for two reasons: + + 1) It allows people who read the code to identify a variable as such; and + 2) It forces alignment on platforms where it's required or optimal. + +Note that for x86/64, alignment is not strictly necessary, but does have some performance +implications. Where supported by the compiler, alignment will be used, but otherwise if the CPU +architecture does not require it, it will simply leave it unaligned. This is the case with old +versions of Visual Studio, which I've confirmed with at least VC6. +*/ +#if !defined(_MSC_VER) && defined (__STDC_VERSION__) && (__STDC_VERSION__ >= 201112L) + #include + #define MA_ATOMIC(alignment, type) _Alignas(alignment) type +#else + #if defined(__GNUC__) + /* GCC-style compilers. */ + #define MA_ATOMIC(alignment, type) type __attribute__((aligned(alignment))) + #elif defined(_MSC_VER) && _MSC_VER > 1200 /* 1200 = VC6. Alignment not supported, but not necessary because x86 is the only supported target. */ + /* MSVC. */ + #define MA_ATOMIC(alignment, type) __declspec(align(alignment)) type + #else + /* Other compilers. */ + #define MA_ATOMIC(alignment, type) type + #endif +#endif + +typedef struct ma_context ma_context; +typedef struct ma_device ma_device; + +typedef ma_uint8 ma_channel; +typedef enum +{ + MA_CHANNEL_NONE = 0, + MA_CHANNEL_MONO = 1, + MA_CHANNEL_FRONT_LEFT = 2, + MA_CHANNEL_FRONT_RIGHT = 3, + MA_CHANNEL_FRONT_CENTER = 4, + MA_CHANNEL_LFE = 5, + MA_CHANNEL_BACK_LEFT = 6, + MA_CHANNEL_BACK_RIGHT = 7, + MA_CHANNEL_FRONT_LEFT_CENTER = 8, + MA_CHANNEL_FRONT_RIGHT_CENTER = 9, + MA_CHANNEL_BACK_CENTER = 10, + MA_CHANNEL_SIDE_LEFT = 11, + MA_CHANNEL_SIDE_RIGHT = 12, + MA_CHANNEL_TOP_CENTER = 13, + MA_CHANNEL_TOP_FRONT_LEFT = 14, + MA_CHANNEL_TOP_FRONT_CENTER = 15, + MA_CHANNEL_TOP_FRONT_RIGHT = 16, + MA_CHANNEL_TOP_BACK_LEFT = 17, + MA_CHANNEL_TOP_BACK_CENTER = 18, + MA_CHANNEL_TOP_BACK_RIGHT = 19, + MA_CHANNEL_AUX_0 = 20, + MA_CHANNEL_AUX_1 = 21, + MA_CHANNEL_AUX_2 = 22, + MA_CHANNEL_AUX_3 = 23, + MA_CHANNEL_AUX_4 = 24, + MA_CHANNEL_AUX_5 = 25, + MA_CHANNEL_AUX_6 = 26, + MA_CHANNEL_AUX_7 = 27, + MA_CHANNEL_AUX_8 = 28, + MA_CHANNEL_AUX_9 = 29, + MA_CHANNEL_AUX_10 = 30, + MA_CHANNEL_AUX_11 = 31, + MA_CHANNEL_AUX_12 = 32, + MA_CHANNEL_AUX_13 = 33, + MA_CHANNEL_AUX_14 = 34, + MA_CHANNEL_AUX_15 = 35, + MA_CHANNEL_AUX_16 = 36, + MA_CHANNEL_AUX_17 = 37, + MA_CHANNEL_AUX_18 = 38, + MA_CHANNEL_AUX_19 = 39, + MA_CHANNEL_AUX_20 = 40, + MA_CHANNEL_AUX_21 = 41, + MA_CHANNEL_AUX_22 = 42, + MA_CHANNEL_AUX_23 = 43, + MA_CHANNEL_AUX_24 = 44, + MA_CHANNEL_AUX_25 = 45, + MA_CHANNEL_AUX_26 = 46, + MA_CHANNEL_AUX_27 = 47, + MA_CHANNEL_AUX_28 = 48, + MA_CHANNEL_AUX_29 = 49, + MA_CHANNEL_AUX_30 = 50, + MA_CHANNEL_AUX_31 = 51, + + /* Count. */ + MA_CHANNEL_POSITION_COUNT, + + /* Aliases. */ + MA_CHANNEL_LEFT = MA_CHANNEL_FRONT_LEFT, + MA_CHANNEL_RIGHT = MA_CHANNEL_FRONT_RIGHT, +} _ma_channel_position; /* Do not use `_ma_channel_position` directly. Use `ma_channel` instead. */ + +typedef enum +{ + MA_SUCCESS = 0, + MA_ERROR = -1, /* A generic error. */ + MA_INVALID_ARGS = -2, + MA_INVALID_OPERATION = -3, + MA_OUT_OF_MEMORY = -4, + MA_OUT_OF_RANGE = -5, + MA_ACCESS_DENIED = -6, + MA_DOES_NOT_EXIST = -7, + MA_ALREADY_EXISTS = -8, + MA_TOO_MANY_OPEN_FILES = -9, + MA_INVALID_FILE = -10, + MA_TOO_BIG = -11, + MA_PATH_TOO_LONG = -12, + MA_NAME_TOO_LONG = -13, + MA_NOT_DIRECTORY = -14, + MA_IS_DIRECTORY = -15, + MA_DIRECTORY_NOT_EMPTY = -16, + MA_AT_END = -17, + MA_NO_SPACE = -18, + MA_BUSY = -19, + MA_IO_ERROR = -20, + MA_INTERRUPT = -21, + MA_UNAVAILABLE = -22, + MA_ALREADY_IN_USE = -23, + MA_BAD_ADDRESS = -24, + MA_BAD_SEEK = -25, + MA_BAD_PIPE = -26, + MA_DEADLOCK = -27, + MA_TOO_MANY_LINKS = -28, + MA_NOT_IMPLEMENTED = -29, + MA_NO_MESSAGE = -30, + MA_BAD_MESSAGE = -31, + MA_NO_DATA_AVAILABLE = -32, + MA_INVALID_DATA = -33, + MA_TIMEOUT = -34, + MA_NO_NETWORK = -35, + MA_NOT_UNIQUE = -36, + MA_NOT_SOCKET = -37, + MA_NO_ADDRESS = -38, + MA_BAD_PROTOCOL = -39, + MA_PROTOCOL_UNAVAILABLE = -40, + MA_PROTOCOL_NOT_SUPPORTED = -41, + MA_PROTOCOL_FAMILY_NOT_SUPPORTED = -42, + MA_ADDRESS_FAMILY_NOT_SUPPORTED = -43, + MA_SOCKET_NOT_SUPPORTED = -44, + MA_CONNECTION_RESET = -45, + MA_ALREADY_CONNECTED = -46, + MA_NOT_CONNECTED = -47, + MA_CONNECTION_REFUSED = -48, + MA_NO_HOST = -49, + MA_IN_PROGRESS = -50, + MA_CANCELLED = -51, + MA_MEMORY_ALREADY_MAPPED = -52, + + /* General non-standard errors. */ + MA_CRC_MISMATCH = -100, + + /* General miniaudio-specific errors. */ + MA_FORMAT_NOT_SUPPORTED = -200, + MA_DEVICE_TYPE_NOT_SUPPORTED = -201, + MA_SHARE_MODE_NOT_SUPPORTED = -202, + MA_NO_BACKEND = -203, + MA_NO_DEVICE = -204, + MA_API_NOT_FOUND = -205, + MA_INVALID_DEVICE_CONFIG = -206, + MA_LOOP = -207, + MA_BACKEND_NOT_ENABLED = -208, + + /* State errors. */ + MA_DEVICE_NOT_INITIALIZED = -300, + MA_DEVICE_ALREADY_INITIALIZED = -301, + MA_DEVICE_NOT_STARTED = -302, + MA_DEVICE_NOT_STOPPED = -303, + + /* Operation errors. */ + MA_FAILED_TO_INIT_BACKEND = -400, + MA_FAILED_TO_OPEN_BACKEND_DEVICE = -401, + MA_FAILED_TO_START_BACKEND_DEVICE = -402, + MA_FAILED_TO_STOP_BACKEND_DEVICE = -403 +} ma_result; + + +#define MA_MIN_CHANNELS 1 +#ifndef MA_MAX_CHANNELS +#define MA_MAX_CHANNELS 254 +#endif + +#ifndef MA_MAX_FILTER_ORDER +#define MA_MAX_FILTER_ORDER 8 +#endif + +typedef enum +{ + ma_stream_format_pcm = 0 +} ma_stream_format; + +typedef enum +{ + ma_stream_layout_interleaved = 0, + ma_stream_layout_deinterleaved +} ma_stream_layout; + +typedef enum +{ + ma_dither_mode_none = 0, + ma_dither_mode_rectangle, + ma_dither_mode_triangle +} ma_dither_mode; + +typedef enum +{ + /* + I like to keep these explicitly defined because they're used as a key into a lookup table. When items are + added to this, make sure there are no gaps and that they're added to the lookup table in ma_get_bytes_per_sample(). + */ + ma_format_unknown = 0, /* Mainly used for indicating an error, but also used as the default for the output format for decoders. */ + ma_format_u8 = 1, + ma_format_s16 = 2, /* Seems to be the most widely supported format. */ + ma_format_s24 = 3, /* Tightly packed. 3 bytes per sample. */ + ma_format_s32 = 4, + ma_format_f32 = 5, + ma_format_count +} ma_format; + +typedef enum +{ + /* Standard rates need to be in priority order. */ + ma_standard_sample_rate_48000 = 48000, /* Most common */ + ma_standard_sample_rate_44100 = 44100, + + ma_standard_sample_rate_32000 = 32000, /* Lows */ + ma_standard_sample_rate_24000 = 24000, + ma_standard_sample_rate_22050 = 22050, + + ma_standard_sample_rate_88200 = 88200, /* Highs */ + ma_standard_sample_rate_96000 = 96000, + ma_standard_sample_rate_176400 = 176400, + ma_standard_sample_rate_192000 = 192000, + + ma_standard_sample_rate_16000 = 16000, /* Extreme lows */ + ma_standard_sample_rate_11025 = 11025, + ma_standard_sample_rate_8000 = 8000, + + ma_standard_sample_rate_352800 = 352800, /* Extreme highs */ + ma_standard_sample_rate_384000 = 384000, + + ma_standard_sample_rate_min = ma_standard_sample_rate_8000, + ma_standard_sample_rate_max = ma_standard_sample_rate_384000, + ma_standard_sample_rate_count = 14 /* Need to maintain the count manually. Make sure this is updated if items are added to enum. */ +} ma_standard_sample_rate; + + +typedef enum +{ + ma_channel_mix_mode_rectangular = 0, /* Simple averaging based on the plane(s) the channel is sitting on. */ + ma_channel_mix_mode_simple, /* Drop excess channels; zeroed out extra channels. */ + ma_channel_mix_mode_custom_weights, /* Use custom weights specified in ma_channel_converter_config. */ + ma_channel_mix_mode_default = ma_channel_mix_mode_rectangular +} ma_channel_mix_mode; + +typedef enum +{ + ma_standard_channel_map_microsoft, + ma_standard_channel_map_alsa, + ma_standard_channel_map_rfc3551, /* Based off AIFF. */ + ma_standard_channel_map_flac, + ma_standard_channel_map_vorbis, + ma_standard_channel_map_sound4, /* FreeBSD's sound(4). */ + ma_standard_channel_map_sndio, /* www.sndio.org/tips.html */ + ma_standard_channel_map_webaudio = ma_standard_channel_map_flac, /* https://webaudio.github.io/web-audio-api/#ChannelOrdering. Only 1, 2, 4 and 6 channels are defined, but can fill in the gaps with logical assumptions. */ + ma_standard_channel_map_default = ma_standard_channel_map_microsoft +} ma_standard_channel_map; + +typedef enum +{ + ma_performance_profile_low_latency = 0, + ma_performance_profile_conservative +} ma_performance_profile; + + +typedef struct +{ + void* pUserData; + void* (* onMalloc)(size_t sz, void* pUserData); + void* (* onRealloc)(void* p, size_t sz, void* pUserData); + void (* onFree)(void* p, void* pUserData); +} ma_allocation_callbacks; + +typedef struct +{ + ma_uint32 state; +} ma_lcg; + + +/* +Atomics. + +These are typesafe structures to prevent errors as a result of forgetting to reference variables atomically. It's too +easy to introduce subtle bugs where you accidentally do a regular assignment instead of an atomic load/store, etc. By +using a struct we can enforce the use of atomics at compile time. + +These types are declared in the header section because we need to reference them in structs below, but functions for +using them are only exposed in the implementation section. I do not want these to be part of the public API. + +There's a few downsides to this system. The first is that you need to declare a new struct for each type. Below are +some macros to help with the declarations. They will be named like so: + + ma_atomic_uint32 - atomic ma_uint32 + ma_atomic_int32 - atomic ma_int32 + ma_atomic_uint64 - atomic ma_uint64 + ma_atomic_float - atomic float + ma_atomic_bool32 - atomic ma_bool32 + +The other downside is that atomic pointers are extremely messy. You need to declare a new struct for each specific +type of pointer you need to make atomic. For example, an atomic ma_node* will look like this: + + MA_ATOMIC_SAFE_TYPE_IMPL_PTR(node) + +Which will declare a type struct that's named like so: + + ma_atomic_ptr_node + +Functions to use the atomic types are declared in the implementation section. All atomic functions are prefixed with +the name of the struct. For example: + + ma_atomic_uint32_set() - Atomic store of ma_uint32 + ma_atomic_uint32_get() - Atomic load of ma_uint32 + etc. + +For pointer types it's the same, which makes them a bit messy to use due to the length of each function name, but in +return you get type safety and enforcement of atomic operations. +*/ +#define MA_ATOMIC_SAFE_TYPE_DECL(c89TypeExtension, typeSize, type) \ + typedef struct \ + { \ + MA_ATOMIC(typeSize, ma_##type) value; \ + } ma_atomic_##type; \ + +#define MA_ATOMIC_SAFE_TYPE_DECL_PTR(type) \ + typedef struct \ + { \ + MA_ATOMIC(MA_SIZEOF_PTR, ma_##type*) value; \ + } ma_atomic_ptr_##type; \ + +MA_ATOMIC_SAFE_TYPE_DECL(32, 4, uint32) +MA_ATOMIC_SAFE_TYPE_DECL(i32, 4, int32) +MA_ATOMIC_SAFE_TYPE_DECL(64, 8, uint64) +MA_ATOMIC_SAFE_TYPE_DECL(f32, 4, float) +MA_ATOMIC_SAFE_TYPE_DECL(32, 4, bool32) + + +/* Spinlocks are 32-bit for compatibility reasons. */ +typedef ma_uint32 ma_spinlock; + +#ifndef MA_NO_THREADING + /* Thread priorities should be ordered such that the default priority of the worker thread is 0. */ + typedef enum + { + ma_thread_priority_idle = -5, + ma_thread_priority_lowest = -4, + ma_thread_priority_low = -3, + ma_thread_priority_normal = -2, + ma_thread_priority_high = -1, + ma_thread_priority_highest = 0, + ma_thread_priority_realtime = 1, + ma_thread_priority_default = 0 + } ma_thread_priority; + + #if defined(MA_POSIX) + typedef ma_pthread_t ma_thread; + #elif defined(MA_WIN32) + typedef ma_handle ma_thread; + #endif + + #if defined(MA_POSIX) + typedef ma_pthread_mutex_t ma_mutex; + #elif defined(MA_WIN32) + typedef ma_handle ma_mutex; + #endif + + #if defined(MA_POSIX) + typedef struct + { + ma_uint32 value; + ma_pthread_mutex_t lock; + ma_pthread_cond_t cond; + } ma_event; + #elif defined(MA_WIN32) + typedef ma_handle ma_event; + #endif + + #if defined(MA_POSIX) + typedef struct + { + int value; + ma_pthread_mutex_t lock; + ma_pthread_cond_t cond; + } ma_semaphore; + #elif defined(MA_WIN32) + typedef ma_handle ma_semaphore; + #endif +#else + /* MA_NO_THREADING is set which means threading is disabled. Threading is required by some API families. If any of these are enabled we need to throw an error. */ + #ifndef MA_NO_DEVICE_IO + #error "MA_NO_THREADING cannot be used without MA_NO_DEVICE_IO"; + #endif +#endif /* MA_NO_THREADING */ + + +/* +Retrieves the version of miniaudio as separated integers. Each component can be NULL if it's not required. +*/ +MA_API void ma_version(ma_uint32* pMajor, ma_uint32* pMinor, ma_uint32* pRevision); + +/* +Retrieves the version of miniaudio as a string which can be useful for logging purposes. +*/ +MA_API const char* ma_version_string(void); + + +/************************************************************************************************************************************************************** + +Logging + +**************************************************************************************************************************************************************/ +#include /* For va_list. */ + +#if defined(__has_attribute) + #if __has_attribute(format) + #define MA_ATTRIBUTE_FORMAT(fmt, va) __attribute__((format(printf, fmt, va))) + #endif +#endif +#ifndef MA_ATTRIBUTE_FORMAT +#define MA_ATTRIBUTE_FORMAT(fmt, va) +#endif + +#ifndef MA_MAX_LOG_CALLBACKS +#define MA_MAX_LOG_CALLBACKS 4 +#endif + + +/* +The callback for handling log messages. + + +Parameters +---------- +pUserData (in) + The user data pointer that was passed into ma_log_register_callback(). + +logLevel (in) + The log level. This can be one of the following: + + +----------------------+ + | Log Level | + +----------------------+ + | MA_LOG_LEVEL_DEBUG | + | MA_LOG_LEVEL_INFO | + | MA_LOG_LEVEL_WARNING | + | MA_LOG_LEVEL_ERROR | + +----------------------+ + +pMessage (in) + The log message. +*/ +typedef void (* ma_log_callback_proc)(void* pUserData, ma_uint32 level, const char* pMessage); + +typedef struct +{ + ma_log_callback_proc onLog; + void* pUserData; +} ma_log_callback; + +MA_API ma_log_callback ma_log_callback_init(ma_log_callback_proc onLog, void* pUserData); + + +typedef struct +{ + ma_log_callback callbacks[MA_MAX_LOG_CALLBACKS]; + ma_uint32 callbackCount; + ma_allocation_callbacks allocationCallbacks; /* Need to store these persistently because ma_log_postv() might need to allocate a buffer on the heap. */ +#ifndef MA_NO_THREADING + ma_mutex lock; /* For thread safety just to make it easier and safer for the logging implementation. */ +#endif +} ma_log; + +MA_API ma_result ma_log_init(const ma_allocation_callbacks* pAllocationCallbacks, ma_log* pLog); +MA_API void ma_log_uninit(ma_log* pLog); +MA_API ma_result ma_log_register_callback(ma_log* pLog, ma_log_callback callback); +MA_API ma_result ma_log_unregister_callback(ma_log* pLog, ma_log_callback callback); +MA_API ma_result ma_log_post(ma_log* pLog, ma_uint32 level, const char* pMessage); +MA_API ma_result ma_log_postv(ma_log* pLog, ma_uint32 level, const char* pFormat, va_list args); +MA_API ma_result ma_log_postf(ma_log* pLog, ma_uint32 level, const char* pFormat, ...) MA_ATTRIBUTE_FORMAT(3, 4); + + +/************************************************************************************************************************************************************** + +Biquad Filtering + +**************************************************************************************************************************************************************/ +typedef union +{ + float f32; + ma_int32 s32; +} ma_biquad_coefficient; + +typedef struct +{ + ma_format format; + ma_uint32 channels; + double b0; + double b1; + double b2; + double a0; + double a1; + double a2; +} ma_biquad_config; + +MA_API ma_biquad_config ma_biquad_config_init(ma_format format, ma_uint32 channels, double b0, double b1, double b2, double a0, double a1, double a2); + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_biquad_coefficient b0; + ma_biquad_coefficient b1; + ma_biquad_coefficient b2; + ma_biquad_coefficient a1; + ma_biquad_coefficient a2; + ma_biquad_coefficient* pR1; + ma_biquad_coefficient* pR2; + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_biquad; + +MA_API ma_result ma_biquad_get_heap_size(const ma_biquad_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_biquad_init_preallocated(const ma_biquad_config* pConfig, void* pHeap, ma_biquad* pBQ); +MA_API ma_result ma_biquad_init(const ma_biquad_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_biquad* pBQ); +MA_API void ma_biquad_uninit(ma_biquad* pBQ, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_biquad_reinit(const ma_biquad_config* pConfig, ma_biquad* pBQ); +MA_API ma_result ma_biquad_clear_cache(ma_biquad* pBQ); +MA_API ma_result ma_biquad_process_pcm_frames(ma_biquad* pBQ, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_biquad_get_latency(const ma_biquad* pBQ); + + +/************************************************************************************************************************************************************** + +Low-Pass Filtering + +**************************************************************************************************************************************************************/ +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + double cutoffFrequency; + double q; +} ma_lpf1_config, ma_lpf2_config; + +MA_API ma_lpf1_config ma_lpf1_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency); +MA_API ma_lpf2_config ma_lpf2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, double q); + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_biquad_coefficient a; + ma_biquad_coefficient* pR1; + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_lpf1; + +MA_API ma_result ma_lpf1_get_heap_size(const ma_lpf1_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_lpf1_init_preallocated(const ma_lpf1_config* pConfig, void* pHeap, ma_lpf1* pLPF); +MA_API ma_result ma_lpf1_init(const ma_lpf1_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_lpf1* pLPF); +MA_API void ma_lpf1_uninit(ma_lpf1* pLPF, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_lpf1_reinit(const ma_lpf1_config* pConfig, ma_lpf1* pLPF); +MA_API ma_result ma_lpf1_clear_cache(ma_lpf1* pLPF); +MA_API ma_result ma_lpf1_process_pcm_frames(ma_lpf1* pLPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_lpf1_get_latency(const ma_lpf1* pLPF); + +typedef struct +{ + ma_biquad bq; /* The second order low-pass filter is implemented as a biquad filter. */ +} ma_lpf2; + +MA_API ma_result ma_lpf2_get_heap_size(const ma_lpf2_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_lpf2_init_preallocated(const ma_lpf2_config* pConfig, void* pHeap, ma_lpf2* pHPF); +MA_API ma_result ma_lpf2_init(const ma_lpf2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_lpf2* pLPF); +MA_API void ma_lpf2_uninit(ma_lpf2* pLPF, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_lpf2_reinit(const ma_lpf2_config* pConfig, ma_lpf2* pLPF); +MA_API ma_result ma_lpf2_clear_cache(ma_lpf2* pLPF); +MA_API ma_result ma_lpf2_process_pcm_frames(ma_lpf2* pLPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_lpf2_get_latency(const ma_lpf2* pLPF); + + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + double cutoffFrequency; + ma_uint32 order; /* If set to 0, will be treated as a passthrough (no filtering will be applied). */ +} ma_lpf_config; + +MA_API ma_lpf_config ma_lpf_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order); + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_uint32 lpf1Count; + ma_uint32 lpf2Count; + ma_lpf1* pLPF1; + ma_lpf2* pLPF2; + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_lpf; + +MA_API ma_result ma_lpf_get_heap_size(const ma_lpf_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_lpf_init_preallocated(const ma_lpf_config* pConfig, void* pHeap, ma_lpf* pLPF); +MA_API ma_result ma_lpf_init(const ma_lpf_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_lpf* pLPF); +MA_API void ma_lpf_uninit(ma_lpf* pLPF, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_lpf_reinit(const ma_lpf_config* pConfig, ma_lpf* pLPF); +MA_API ma_result ma_lpf_clear_cache(ma_lpf* pLPF); +MA_API ma_result ma_lpf_process_pcm_frames(ma_lpf* pLPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_lpf_get_latency(const ma_lpf* pLPF); + + +/************************************************************************************************************************************************************** + +High-Pass Filtering + +**************************************************************************************************************************************************************/ +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + double cutoffFrequency; + double q; +} ma_hpf1_config, ma_hpf2_config; + +MA_API ma_hpf1_config ma_hpf1_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency); +MA_API ma_hpf2_config ma_hpf2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, double q); + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_biquad_coefficient a; + ma_biquad_coefficient* pR1; + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_hpf1; + +MA_API ma_result ma_hpf1_get_heap_size(const ma_hpf1_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_hpf1_init_preallocated(const ma_hpf1_config* pConfig, void* pHeap, ma_hpf1* pLPF); +MA_API ma_result ma_hpf1_init(const ma_hpf1_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hpf1* pHPF); +MA_API void ma_hpf1_uninit(ma_hpf1* pHPF, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_hpf1_reinit(const ma_hpf1_config* pConfig, ma_hpf1* pHPF); +MA_API ma_result ma_hpf1_process_pcm_frames(ma_hpf1* pHPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_hpf1_get_latency(const ma_hpf1* pHPF); + +typedef struct +{ + ma_biquad bq; /* The second order high-pass filter is implemented as a biquad filter. */ +} ma_hpf2; + +MA_API ma_result ma_hpf2_get_heap_size(const ma_hpf2_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_hpf2_init_preallocated(const ma_hpf2_config* pConfig, void* pHeap, ma_hpf2* pHPF); +MA_API ma_result ma_hpf2_init(const ma_hpf2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hpf2* pHPF); +MA_API void ma_hpf2_uninit(ma_hpf2* pHPF, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_hpf2_reinit(const ma_hpf2_config* pConfig, ma_hpf2* pHPF); +MA_API ma_result ma_hpf2_process_pcm_frames(ma_hpf2* pHPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_hpf2_get_latency(const ma_hpf2* pHPF); + + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + double cutoffFrequency; + ma_uint32 order; /* If set to 0, will be treated as a passthrough (no filtering will be applied). */ +} ma_hpf_config; + +MA_API ma_hpf_config ma_hpf_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order); + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_uint32 hpf1Count; + ma_uint32 hpf2Count; + ma_hpf1* pHPF1; + ma_hpf2* pHPF2; + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_hpf; + +MA_API ma_result ma_hpf_get_heap_size(const ma_hpf_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_hpf_init_preallocated(const ma_hpf_config* pConfig, void* pHeap, ma_hpf* pLPF); +MA_API ma_result ma_hpf_init(const ma_hpf_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hpf* pHPF); +MA_API void ma_hpf_uninit(ma_hpf* pHPF, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_hpf_reinit(const ma_hpf_config* pConfig, ma_hpf* pHPF); +MA_API ma_result ma_hpf_process_pcm_frames(ma_hpf* pHPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_hpf_get_latency(const ma_hpf* pHPF); + + +/************************************************************************************************************************************************************** + +Band-Pass Filtering + +**************************************************************************************************************************************************************/ +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + double cutoffFrequency; + double q; +} ma_bpf2_config; + +MA_API ma_bpf2_config ma_bpf2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, double q); + +typedef struct +{ + ma_biquad bq; /* The second order band-pass filter is implemented as a biquad filter. */ +} ma_bpf2; + +MA_API ma_result ma_bpf2_get_heap_size(const ma_bpf2_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_bpf2_init_preallocated(const ma_bpf2_config* pConfig, void* pHeap, ma_bpf2* pBPF); +MA_API ma_result ma_bpf2_init(const ma_bpf2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_bpf2* pBPF); +MA_API void ma_bpf2_uninit(ma_bpf2* pBPF, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_bpf2_reinit(const ma_bpf2_config* pConfig, ma_bpf2* pBPF); +MA_API ma_result ma_bpf2_process_pcm_frames(ma_bpf2* pBPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_bpf2_get_latency(const ma_bpf2* pBPF); + + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + double cutoffFrequency; + ma_uint32 order; /* If set to 0, will be treated as a passthrough (no filtering will be applied). */ +} ma_bpf_config; + +MA_API ma_bpf_config ma_bpf_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order); + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 bpf2Count; + ma_bpf2* pBPF2; + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_bpf; + +MA_API ma_result ma_bpf_get_heap_size(const ma_bpf_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_bpf_init_preallocated(const ma_bpf_config* pConfig, void* pHeap, ma_bpf* pBPF); +MA_API ma_result ma_bpf_init(const ma_bpf_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_bpf* pBPF); +MA_API void ma_bpf_uninit(ma_bpf* pBPF, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_bpf_reinit(const ma_bpf_config* pConfig, ma_bpf* pBPF); +MA_API ma_result ma_bpf_process_pcm_frames(ma_bpf* pBPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_bpf_get_latency(const ma_bpf* pBPF); + + +/************************************************************************************************************************************************************** + +Notching Filter + +**************************************************************************************************************************************************************/ +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + double q; + double frequency; +} ma_notch2_config, ma_notch_config; + +MA_API ma_notch2_config ma_notch2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double q, double frequency); + +typedef struct +{ + ma_biquad bq; +} ma_notch2; + +MA_API ma_result ma_notch2_get_heap_size(const ma_notch2_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_notch2_init_preallocated(const ma_notch2_config* pConfig, void* pHeap, ma_notch2* pFilter); +MA_API ma_result ma_notch2_init(const ma_notch2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_notch2* pFilter); +MA_API void ma_notch2_uninit(ma_notch2* pFilter, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_notch2_reinit(const ma_notch2_config* pConfig, ma_notch2* pFilter); +MA_API ma_result ma_notch2_process_pcm_frames(ma_notch2* pFilter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_notch2_get_latency(const ma_notch2* pFilter); + + +/************************************************************************************************************************************************************** + +Peaking EQ Filter + +**************************************************************************************************************************************************************/ +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + double gainDB; + double q; + double frequency; +} ma_peak2_config, ma_peak_config; + +MA_API ma_peak2_config ma_peak2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double q, double frequency); + +typedef struct +{ + ma_biquad bq; +} ma_peak2; + +MA_API ma_result ma_peak2_get_heap_size(const ma_peak2_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_peak2_init_preallocated(const ma_peak2_config* pConfig, void* pHeap, ma_peak2* pFilter); +MA_API ma_result ma_peak2_init(const ma_peak2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_peak2* pFilter); +MA_API void ma_peak2_uninit(ma_peak2* pFilter, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_peak2_reinit(const ma_peak2_config* pConfig, ma_peak2* pFilter); +MA_API ma_result ma_peak2_process_pcm_frames(ma_peak2* pFilter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_peak2_get_latency(const ma_peak2* pFilter); + + +/************************************************************************************************************************************************************** + +Low Shelf Filter + +**************************************************************************************************************************************************************/ +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + double gainDB; + double shelfSlope; + double frequency; +} ma_loshelf2_config, ma_loshelf_config; + +MA_API ma_loshelf2_config ma_loshelf2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double shelfSlope, double frequency); + +typedef struct +{ + ma_biquad bq; +} ma_loshelf2; + +MA_API ma_result ma_loshelf2_get_heap_size(const ma_loshelf2_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_loshelf2_init_preallocated(const ma_loshelf2_config* pConfig, void* pHeap, ma_loshelf2* pFilter); +MA_API ma_result ma_loshelf2_init(const ma_loshelf2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_loshelf2* pFilter); +MA_API void ma_loshelf2_uninit(ma_loshelf2* pFilter, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_loshelf2_reinit(const ma_loshelf2_config* pConfig, ma_loshelf2* pFilter); +MA_API ma_result ma_loshelf2_process_pcm_frames(ma_loshelf2* pFilter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_loshelf2_get_latency(const ma_loshelf2* pFilter); + + +/************************************************************************************************************************************************************** + +High Shelf Filter + +**************************************************************************************************************************************************************/ +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + double gainDB; + double shelfSlope; + double frequency; +} ma_hishelf2_config, ma_hishelf_config; + +MA_API ma_hishelf2_config ma_hishelf2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double shelfSlope, double frequency); + +typedef struct +{ + ma_biquad bq; +} ma_hishelf2; + +MA_API ma_result ma_hishelf2_get_heap_size(const ma_hishelf2_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_hishelf2_init_preallocated(const ma_hishelf2_config* pConfig, void* pHeap, ma_hishelf2* pFilter); +MA_API ma_result ma_hishelf2_init(const ma_hishelf2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hishelf2* pFilter); +MA_API void ma_hishelf2_uninit(ma_hishelf2* pFilter, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_hishelf2_reinit(const ma_hishelf2_config* pConfig, ma_hishelf2* pFilter); +MA_API ma_result ma_hishelf2_process_pcm_frames(ma_hishelf2* pFilter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_uint32 ma_hishelf2_get_latency(const ma_hishelf2* pFilter); + + + +/* +Delay +*/ +typedef struct +{ + ma_uint32 channels; + ma_uint32 sampleRate; + ma_uint32 delayInFrames; + ma_bool32 delayStart; /* Set to true to delay the start of the output; false otherwise. */ + float wet; /* 0..1. Default = 1. */ + float dry; /* 0..1. Default = 1. */ + float decay; /* 0..1. Default = 0 (no feedback). Feedback decay. Use this for echo. */ +} ma_delay_config; + +MA_API ma_delay_config ma_delay_config_init(ma_uint32 channels, ma_uint32 sampleRate, ma_uint32 delayInFrames, float decay); + + +typedef struct +{ + ma_delay_config config; + ma_uint32 cursor; /* Feedback is written to this cursor. Always equal or in front of the read cursor. */ + ma_uint32 bufferSizeInFrames; + float* pBuffer; +} ma_delay; + +MA_API ma_result ma_delay_init(const ma_delay_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_delay* pDelay); +MA_API void ma_delay_uninit(ma_delay* pDelay, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_delay_process_pcm_frames(ma_delay* pDelay, void* pFramesOut, const void* pFramesIn, ma_uint32 frameCount); +MA_API void ma_delay_set_wet(ma_delay* pDelay, float value); +MA_API float ma_delay_get_wet(const ma_delay* pDelay); +MA_API void ma_delay_set_dry(ma_delay* pDelay, float value); +MA_API float ma_delay_get_dry(const ma_delay* pDelay); +MA_API void ma_delay_set_decay(ma_delay* pDelay, float value); +MA_API float ma_delay_get_decay(const ma_delay* pDelay); + + +/* Gainer for smooth volume changes. */ +typedef struct +{ + ma_uint32 channels; + ma_uint32 smoothTimeInFrames; +} ma_gainer_config; + +MA_API ma_gainer_config ma_gainer_config_init(ma_uint32 channels, ma_uint32 smoothTimeInFrames); + + +typedef struct +{ + ma_gainer_config config; + ma_uint32 t; + float masterVolume; + float* pOldGains; + float* pNewGains; + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_gainer; + +MA_API ma_result ma_gainer_get_heap_size(const ma_gainer_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_gainer_init_preallocated(const ma_gainer_config* pConfig, void* pHeap, ma_gainer* pGainer); +MA_API ma_result ma_gainer_init(const ma_gainer_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_gainer* pGainer); +MA_API void ma_gainer_uninit(ma_gainer* pGainer, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_gainer_process_pcm_frames(ma_gainer* pGainer, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_result ma_gainer_set_gain(ma_gainer* pGainer, float newGain); +MA_API ma_result ma_gainer_set_gains(ma_gainer* pGainer, float* pNewGains); +MA_API ma_result ma_gainer_set_master_volume(ma_gainer* pGainer, float volume); +MA_API ma_result ma_gainer_get_master_volume(const ma_gainer* pGainer, float* pVolume); + + + +/* Stereo panner. */ +typedef enum +{ + ma_pan_mode_balance = 0, /* Does not blend one side with the other. Technically just a balance. Compatible with other popular audio engines and therefore the default. */ + ma_pan_mode_pan /* A true pan. The sound from one side will "move" to the other side and blend with it. */ +} ma_pan_mode; + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_pan_mode mode; + float pan; +} ma_panner_config; + +MA_API ma_panner_config ma_panner_config_init(ma_format format, ma_uint32 channels); + + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_pan_mode mode; + float pan; /* -1..1 where 0 is no pan, -1 is left side, +1 is right side. Defaults to 0. */ +} ma_panner; + +MA_API ma_result ma_panner_init(const ma_panner_config* pConfig, ma_panner* pPanner); +MA_API ma_result ma_panner_process_pcm_frames(ma_panner* pPanner, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API void ma_panner_set_mode(ma_panner* pPanner, ma_pan_mode mode); +MA_API ma_pan_mode ma_panner_get_mode(const ma_panner* pPanner); +MA_API void ma_panner_set_pan(ma_panner* pPanner, float pan); +MA_API float ma_panner_get_pan(const ma_panner* pPanner); + + + +/* Fader. */ +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; +} ma_fader_config; + +MA_API ma_fader_config ma_fader_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate); + +typedef struct +{ + ma_fader_config config; + float volumeBeg; /* If volumeBeg and volumeEnd is equal to 1, no fading happens (ma_fader_process_pcm_frames() will run as a passthrough). */ + float volumeEnd; + ma_uint64 lengthInFrames; /* The total length of the fade. */ + ma_int64 cursorInFrames; /* The current time in frames. Incremented by ma_fader_process_pcm_frames(). Signed because it'll be offset by startOffsetInFrames in set_fade_ex(). */ +} ma_fader; + +MA_API ma_result ma_fader_init(const ma_fader_config* pConfig, ma_fader* pFader); +MA_API ma_result ma_fader_process_pcm_frames(ma_fader* pFader, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API void ma_fader_get_data_format(const ma_fader* pFader, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate); +MA_API void ma_fader_set_fade(ma_fader* pFader, float volumeBeg, float volumeEnd, ma_uint64 lengthInFrames); +MA_API void ma_fader_set_fade_ex(ma_fader* pFader, float volumeBeg, float volumeEnd, ma_uint64 lengthInFrames, ma_int64 startOffsetInFrames); +MA_API float ma_fader_get_current_volume(const ma_fader* pFader); + + + +/* Spatializer. */ +typedef struct +{ + float x; + float y; + float z; +} ma_vec3f; + +typedef struct +{ + ma_vec3f v; + ma_spinlock lock; +} ma_atomic_vec3f; + +typedef enum +{ + ma_attenuation_model_none, /* No distance attenuation and no spatialization. */ + ma_attenuation_model_inverse, /* Equivalent to OpenAL's AL_INVERSE_DISTANCE_CLAMPED. */ + ma_attenuation_model_linear, /* Linear attenuation. Equivalent to OpenAL's AL_LINEAR_DISTANCE_CLAMPED. */ + ma_attenuation_model_exponential /* Exponential attenuation. Equivalent to OpenAL's AL_EXPONENT_DISTANCE_CLAMPED. */ +} ma_attenuation_model; + +typedef enum +{ + ma_positioning_absolute, + ma_positioning_relative +} ma_positioning; + +typedef enum +{ + ma_handedness_right, + ma_handedness_left +} ma_handedness; + + +typedef struct +{ + ma_uint32 channelsOut; + ma_channel* pChannelMapOut; + ma_handedness handedness; /* Defaults to right. Forward is -1 on the Z axis. In a left handed system, forward is +1 on the Z axis. */ + float coneInnerAngleInRadians; + float coneOuterAngleInRadians; + float coneOuterGain; + float speedOfSound; + ma_vec3f worldUp; +} ma_spatializer_listener_config; + +MA_API ma_spatializer_listener_config ma_spatializer_listener_config_init(ma_uint32 channelsOut); + + +typedef struct +{ + ma_spatializer_listener_config config; + ma_atomic_vec3f position; /* The absolute position of the listener. */ + ma_atomic_vec3f direction; /* The direction the listener is facing. The world up vector is config.worldUp. */ + ma_atomic_vec3f velocity; + ma_bool32 isEnabled; + + /* Memory management. */ + ma_bool32 _ownsHeap; + void* _pHeap; +} ma_spatializer_listener; + +MA_API ma_result ma_spatializer_listener_get_heap_size(const ma_spatializer_listener_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_spatializer_listener_init_preallocated(const ma_spatializer_listener_config* pConfig, void* pHeap, ma_spatializer_listener* pListener); +MA_API ma_result ma_spatializer_listener_init(const ma_spatializer_listener_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_spatializer_listener* pListener); +MA_API void ma_spatializer_listener_uninit(ma_spatializer_listener* pListener, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_channel* ma_spatializer_listener_get_channel_map(ma_spatializer_listener* pListener); +MA_API void ma_spatializer_listener_set_cone(ma_spatializer_listener* pListener, float innerAngleInRadians, float outerAngleInRadians, float outerGain); +MA_API void ma_spatializer_listener_get_cone(const ma_spatializer_listener* pListener, float* pInnerAngleInRadians, float* pOuterAngleInRadians, float* pOuterGain); +MA_API void ma_spatializer_listener_set_position(ma_spatializer_listener* pListener, float x, float y, float z); +MA_API ma_vec3f ma_spatializer_listener_get_position(const ma_spatializer_listener* pListener); +MA_API void ma_spatializer_listener_set_direction(ma_spatializer_listener* pListener, float x, float y, float z); +MA_API ma_vec3f ma_spatializer_listener_get_direction(const ma_spatializer_listener* pListener); +MA_API void ma_spatializer_listener_set_velocity(ma_spatializer_listener* pListener, float x, float y, float z); +MA_API ma_vec3f ma_spatializer_listener_get_velocity(const ma_spatializer_listener* pListener); +MA_API void ma_spatializer_listener_set_speed_of_sound(ma_spatializer_listener* pListener, float speedOfSound); +MA_API float ma_spatializer_listener_get_speed_of_sound(const ma_spatializer_listener* pListener); +MA_API void ma_spatializer_listener_set_world_up(ma_spatializer_listener* pListener, float x, float y, float z); +MA_API ma_vec3f ma_spatializer_listener_get_world_up(const ma_spatializer_listener* pListener); +MA_API void ma_spatializer_listener_set_enabled(ma_spatializer_listener* pListener, ma_bool32 isEnabled); +MA_API ma_bool32 ma_spatializer_listener_is_enabled(const ma_spatializer_listener* pListener); + + +typedef struct +{ + ma_uint32 channelsIn; + ma_uint32 channelsOut; + ma_channel* pChannelMapIn; + ma_attenuation_model attenuationModel; + ma_positioning positioning; + ma_handedness handedness; /* Defaults to right. Forward is -1 on the Z axis. In a left handed system, forward is +1 on the Z axis. */ + float minGain; + float maxGain; + float minDistance; + float maxDistance; + float rolloff; + float coneInnerAngleInRadians; + float coneOuterAngleInRadians; + float coneOuterGain; + float dopplerFactor; /* Set to 0 to disable doppler effect. */ + float directionalAttenuationFactor; /* Set to 0 to disable directional attenuation. */ + float minSpatializationChannelGain; /* The minimal scaling factor to apply to channel gains when accounting for the direction of the sound relative to the listener. Must be in the range of 0..1. Smaller values means more aggressive directional panning, larger values means more subtle directional panning. */ + ma_uint32 gainSmoothTimeInFrames; /* When the gain of a channel changes during spatialization, the transition will be linearly interpolated over this number of frames. */ +} ma_spatializer_config; + +MA_API ma_spatializer_config ma_spatializer_config_init(ma_uint32 channelsIn, ma_uint32 channelsOut); + + +typedef struct +{ + ma_uint32 channelsIn; + ma_uint32 channelsOut; + ma_channel* pChannelMapIn; + ma_attenuation_model attenuationModel; + ma_positioning positioning; + ma_handedness handedness; /* Defaults to right. Forward is -1 on the Z axis. In a left handed system, forward is +1 on the Z axis. */ + float minGain; + float maxGain; + float minDistance; + float maxDistance; + float rolloff; + float coneInnerAngleInRadians; + float coneOuterAngleInRadians; + float coneOuterGain; + float dopplerFactor; /* Set to 0 to disable doppler effect. */ + float directionalAttenuationFactor; /* Set to 0 to disable directional attenuation. */ + ma_uint32 gainSmoothTimeInFrames; /* When the gain of a channel changes during spatialization, the transition will be linearly interpolated over this number of frames. */ + ma_atomic_vec3f position; + ma_atomic_vec3f direction; + ma_atomic_vec3f velocity; /* For doppler effect. */ + float dopplerPitch; /* Will be updated by ma_spatializer_process_pcm_frames() and can be used by higher level functions to apply a pitch shift for doppler effect. */ + float minSpatializationChannelGain; + ma_gainer gainer; /* For smooth gain transitions. */ + float* pNewChannelGainsOut; /* An offset of _pHeap. Used by ma_spatializer_process_pcm_frames() to store new channel gains. The number of elements in this array is equal to config.channelsOut. */ + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_spatializer; + +MA_API ma_result ma_spatializer_get_heap_size(const ma_spatializer_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_spatializer_init_preallocated(const ma_spatializer_config* pConfig, void* pHeap, ma_spatializer* pSpatializer); +MA_API ma_result ma_spatializer_init(const ma_spatializer_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_spatializer* pSpatializer); +MA_API void ma_spatializer_uninit(ma_spatializer* pSpatializer, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_spatializer_process_pcm_frames(ma_spatializer* pSpatializer, ma_spatializer_listener* pListener, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_result ma_spatializer_set_master_volume(ma_spatializer* pSpatializer, float volume); +MA_API ma_result ma_spatializer_get_master_volume(const ma_spatializer* pSpatializer, float* pVolume); +MA_API ma_uint32 ma_spatializer_get_input_channels(const ma_spatializer* pSpatializer); +MA_API ma_uint32 ma_spatializer_get_output_channels(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_attenuation_model(ma_spatializer* pSpatializer, ma_attenuation_model attenuationModel); +MA_API ma_attenuation_model ma_spatializer_get_attenuation_model(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_positioning(ma_spatializer* pSpatializer, ma_positioning positioning); +MA_API ma_positioning ma_spatializer_get_positioning(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_rolloff(ma_spatializer* pSpatializer, float rolloff); +MA_API float ma_spatializer_get_rolloff(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_min_gain(ma_spatializer* pSpatializer, float minGain); +MA_API float ma_spatializer_get_min_gain(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_max_gain(ma_spatializer* pSpatializer, float maxGain); +MA_API float ma_spatializer_get_max_gain(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_min_distance(ma_spatializer* pSpatializer, float minDistance); +MA_API float ma_spatializer_get_min_distance(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_max_distance(ma_spatializer* pSpatializer, float maxDistance); +MA_API float ma_spatializer_get_max_distance(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_cone(ma_spatializer* pSpatializer, float innerAngleInRadians, float outerAngleInRadians, float outerGain); +MA_API void ma_spatializer_get_cone(const ma_spatializer* pSpatializer, float* pInnerAngleInRadians, float* pOuterAngleInRadians, float* pOuterGain); +MA_API void ma_spatializer_set_doppler_factor(ma_spatializer* pSpatializer, float dopplerFactor); +MA_API float ma_spatializer_get_doppler_factor(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_directional_attenuation_factor(ma_spatializer* pSpatializer, float directionalAttenuationFactor); +MA_API float ma_spatializer_get_directional_attenuation_factor(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_position(ma_spatializer* pSpatializer, float x, float y, float z); +MA_API ma_vec3f ma_spatializer_get_position(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_direction(ma_spatializer* pSpatializer, float x, float y, float z); +MA_API ma_vec3f ma_spatializer_get_direction(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_set_velocity(ma_spatializer* pSpatializer, float x, float y, float z); +MA_API ma_vec3f ma_spatializer_get_velocity(const ma_spatializer* pSpatializer); +MA_API void ma_spatializer_get_relative_position_and_direction(const ma_spatializer* pSpatializer, const ma_spatializer_listener* pListener, ma_vec3f* pRelativePos, ma_vec3f* pRelativeDir); + + + +/************************************************************************************************************************************************************ +************************************************************************************************************************************************************* + +DATA CONVERSION +=============== + +This section contains the APIs for data conversion. You will find everything here for channel mapping, sample format conversion, resampling, etc. + +************************************************************************************************************************************************************* +************************************************************************************************************************************************************/ + +/************************************************************************************************************************************************************** + +Resampling + +**************************************************************************************************************************************************************/ +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRateIn; + ma_uint32 sampleRateOut; + ma_uint32 lpfOrder; /* The low-pass filter order. Setting this to 0 will disable low-pass filtering. */ + double lpfNyquistFactor; /* 0..1. Defaults to 1. 1 = Half the sampling frequency (Nyquist Frequency), 0.5 = Quarter the sampling frequency (half Nyquest Frequency), etc. */ +} ma_linear_resampler_config; + +MA_API ma_linear_resampler_config ma_linear_resampler_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut); + +typedef struct +{ + ma_linear_resampler_config config; + ma_uint32 inAdvanceInt; + ma_uint32 inAdvanceFrac; + ma_uint32 inTimeInt; + ma_uint32 inTimeFrac; + union + { + float* f32; + ma_int16* s16; + } x0; /* The previous input frame. */ + union + { + float* f32; + ma_int16* s16; + } x1; /* The next input frame. */ + ma_lpf lpf; + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_linear_resampler; + +MA_API ma_result ma_linear_resampler_get_heap_size(const ma_linear_resampler_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_linear_resampler_init_preallocated(const ma_linear_resampler_config* pConfig, void* pHeap, ma_linear_resampler* pResampler); +MA_API ma_result ma_linear_resampler_init(const ma_linear_resampler_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_linear_resampler* pResampler); +MA_API void ma_linear_resampler_uninit(ma_linear_resampler* pResampler, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_linear_resampler_process_pcm_frames(ma_linear_resampler* pResampler, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut); +MA_API ma_result ma_linear_resampler_set_rate(ma_linear_resampler* pResampler, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut); +MA_API ma_result ma_linear_resampler_set_rate_ratio(ma_linear_resampler* pResampler, float ratioInOut); +MA_API ma_uint64 ma_linear_resampler_get_input_latency(const ma_linear_resampler* pResampler); +MA_API ma_uint64 ma_linear_resampler_get_output_latency(const ma_linear_resampler* pResampler); +MA_API ma_result ma_linear_resampler_get_required_input_frame_count(const ma_linear_resampler* pResampler, ma_uint64 outputFrameCount, ma_uint64* pInputFrameCount); +MA_API ma_result ma_linear_resampler_get_expected_output_frame_count(const ma_linear_resampler* pResampler, ma_uint64 inputFrameCount, ma_uint64* pOutputFrameCount); +MA_API ma_result ma_linear_resampler_reset(ma_linear_resampler* pResampler); + + +typedef struct ma_resampler_config ma_resampler_config; + +typedef void ma_resampling_backend; +typedef struct +{ + ma_result (* onGetHeapSize )(void* pUserData, const ma_resampler_config* pConfig, size_t* pHeapSizeInBytes); + ma_result (* onInit )(void* pUserData, const ma_resampler_config* pConfig, void* pHeap, ma_resampling_backend** ppBackend); + void (* onUninit )(void* pUserData, ma_resampling_backend* pBackend, const ma_allocation_callbacks* pAllocationCallbacks); + ma_result (* onProcess )(void* pUserData, ma_resampling_backend* pBackend, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut); + ma_result (* onSetRate )(void* pUserData, ma_resampling_backend* pBackend, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut); /* Optional. Rate changes will be disabled. */ + ma_uint64 (* onGetInputLatency )(void* pUserData, const ma_resampling_backend* pBackend); /* Optional. Latency will be reported as 0. */ + ma_uint64 (* onGetOutputLatency )(void* pUserData, const ma_resampling_backend* pBackend); /* Optional. Latency will be reported as 0. */ + ma_result (* onGetRequiredInputFrameCount )(void* pUserData, const ma_resampling_backend* pBackend, ma_uint64 outputFrameCount, ma_uint64* pInputFrameCount); /* Optional. Latency mitigation will be disabled. */ + ma_result (* onGetExpectedOutputFrameCount)(void* pUserData, const ma_resampling_backend* pBackend, ma_uint64 inputFrameCount, ma_uint64* pOutputFrameCount); /* Optional. Latency mitigation will be disabled. */ + ma_result (* onReset )(void* pUserData, ma_resampling_backend* pBackend); +} ma_resampling_backend_vtable; + +typedef enum +{ + ma_resample_algorithm_linear = 0, /* Fastest, lowest quality. Optional low-pass filtering. Default. */ + ma_resample_algorithm_custom, +} ma_resample_algorithm; + +struct ma_resampler_config +{ + ma_format format; /* Must be either ma_format_f32 or ma_format_s16. */ + ma_uint32 channels; + ma_uint32 sampleRateIn; + ma_uint32 sampleRateOut; + ma_resample_algorithm algorithm; /* When set to ma_resample_algorithm_custom, pBackendVTable will be used. */ + ma_resampling_backend_vtable* pBackendVTable; + void* pBackendUserData; + struct + { + ma_uint32 lpfOrder; + } linear; +}; + +MA_API ma_resampler_config ma_resampler_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut, ma_resample_algorithm algorithm); + +typedef struct +{ + ma_resampling_backend* pBackend; + ma_resampling_backend_vtable* pBackendVTable; + void* pBackendUserData; + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRateIn; + ma_uint32 sampleRateOut; + union + { + ma_linear_resampler linear; + } state; /* State for stock resamplers so we can avoid a malloc. For stock resamplers, pBackend will point here. */ + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_resampler; + +MA_API ma_result ma_resampler_get_heap_size(const ma_resampler_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_resampler_init_preallocated(const ma_resampler_config* pConfig, void* pHeap, ma_resampler* pResampler); + +/* +Initializes a new resampler object from a config. +*/ +MA_API ma_result ma_resampler_init(const ma_resampler_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_resampler* pResampler); + +/* +Uninitializes a resampler. +*/ +MA_API void ma_resampler_uninit(ma_resampler* pResampler, const ma_allocation_callbacks* pAllocationCallbacks); + +/* +Converts the given input data. + +Both the input and output frames must be in the format specified in the config when the resampler was initialized. + +On input, [pFrameCountOut] contains the number of output frames to process. On output it contains the number of output frames that +were actually processed, which may be less than the requested amount which will happen if there's not enough input data. You can use +ma_resampler_get_expected_output_frame_count() to know how many output frames will be processed for a given number of input frames. + +On input, [pFrameCountIn] contains the number of input frames contained in [pFramesIn]. On output it contains the number of whole +input frames that were actually processed. You can use ma_resampler_get_required_input_frame_count() to know how many input frames +you should provide for a given number of output frames. [pFramesIn] can be NULL, in which case zeroes will be used instead. + +If [pFramesOut] is NULL, a seek is performed. In this case, if [pFrameCountOut] is not NULL it will seek by the specified number of +output frames. Otherwise, if [pFramesCountOut] is NULL and [pFrameCountIn] is not NULL, it will seek by the specified number of input +frames. When seeking, [pFramesIn] is allowed to NULL, in which case the internal timing state will be updated, but no input will be +processed. In this case, any internal filter state will be updated as if zeroes were passed in. + +It is an error for [pFramesOut] to be non-NULL and [pFrameCountOut] to be NULL. + +It is an error for both [pFrameCountOut] and [pFrameCountIn] to be NULL. +*/ +MA_API ma_result ma_resampler_process_pcm_frames(ma_resampler* pResampler, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut); + + +/* +Sets the input and output sample rate. +*/ +MA_API ma_result ma_resampler_set_rate(ma_resampler* pResampler, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut); + +/* +Sets the input and output sample rate as a ratio. + +The ration is in/out. +*/ +MA_API ma_result ma_resampler_set_rate_ratio(ma_resampler* pResampler, float ratio); + +/* +Retrieves the latency introduced by the resampler in input frames. +*/ +MA_API ma_uint64 ma_resampler_get_input_latency(const ma_resampler* pResampler); + +/* +Retrieves the latency introduced by the resampler in output frames. +*/ +MA_API ma_uint64 ma_resampler_get_output_latency(const ma_resampler* pResampler); + +/* +Calculates the number of whole input frames that would need to be read from the client in order to output the specified +number of output frames. + +The returned value does not include cached input frames. It only returns the number of extra frames that would need to be +read from the input buffer in order to output the specified number of output frames. +*/ +MA_API ma_result ma_resampler_get_required_input_frame_count(const ma_resampler* pResampler, ma_uint64 outputFrameCount, ma_uint64* pInputFrameCount); + +/* +Calculates the number of whole output frames that would be output after fully reading and consuming the specified number of +input frames. +*/ +MA_API ma_result ma_resampler_get_expected_output_frame_count(const ma_resampler* pResampler, ma_uint64 inputFrameCount, ma_uint64* pOutputFrameCount); + +/* +Resets the resampler's timer and clears its internal cache. +*/ +MA_API ma_result ma_resampler_reset(ma_resampler* pResampler); + + +/************************************************************************************************************************************************************** + +Channel Conversion + +**************************************************************************************************************************************************************/ +typedef enum +{ + ma_channel_conversion_path_unknown, + ma_channel_conversion_path_passthrough, + ma_channel_conversion_path_mono_out, /* Converting to mono. */ + ma_channel_conversion_path_mono_in, /* Converting from mono. */ + ma_channel_conversion_path_shuffle, /* Simple shuffle. Will use this when all channels are present in both input and output channel maps, but just in a different order. */ + ma_channel_conversion_path_weights /* Blended based on weights. */ +} ma_channel_conversion_path; + +typedef enum +{ + ma_mono_expansion_mode_duplicate = 0, /* The default. */ + ma_mono_expansion_mode_average, /* Average the mono channel across all channels. */ + ma_mono_expansion_mode_stereo_only, /* Duplicate to the left and right channels only and ignore the others. */ + ma_mono_expansion_mode_default = ma_mono_expansion_mode_duplicate +} ma_mono_expansion_mode; + +typedef struct +{ + ma_format format; + ma_uint32 channelsIn; + ma_uint32 channelsOut; + const ma_channel* pChannelMapIn; + const ma_channel* pChannelMapOut; + ma_channel_mix_mode mixingMode; + ma_bool32 calculateLFEFromSpatialChannels; /* When an output LFE channel is present, but no input LFE, set to true to set the output LFE to the average of all spatial channels (LR, FR, etc.). Ignored when an input LFE is present. */ + float** ppWeights; /* [in][out]. Only used when mixingMode is set to ma_channel_mix_mode_custom_weights. */ +} ma_channel_converter_config; + +MA_API ma_channel_converter_config ma_channel_converter_config_init(ma_format format, ma_uint32 channelsIn, const ma_channel* pChannelMapIn, ma_uint32 channelsOut, const ma_channel* pChannelMapOut, ma_channel_mix_mode mixingMode); + +typedef struct +{ + ma_format format; + ma_uint32 channelsIn; + ma_uint32 channelsOut; + ma_channel_mix_mode mixingMode; + ma_channel_conversion_path conversionPath; + ma_channel* pChannelMapIn; + ma_channel* pChannelMapOut; + ma_uint8* pShuffleTable; /* Indexed by output channel index. */ + union + { + float** f32; + ma_int32** s16; + } weights; /* [in][out] */ + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_channel_converter; + +MA_API ma_result ma_channel_converter_get_heap_size(const ma_channel_converter_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_channel_converter_init_preallocated(const ma_channel_converter_config* pConfig, void* pHeap, ma_channel_converter* pConverter); +MA_API ma_result ma_channel_converter_init(const ma_channel_converter_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_channel_converter* pConverter); +MA_API void ma_channel_converter_uninit(ma_channel_converter* pConverter, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_channel_converter_process_pcm_frames(ma_channel_converter* pConverter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount); +MA_API ma_result ma_channel_converter_get_input_channel_map(const ma_channel_converter* pConverter, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_channel_converter_get_output_channel_map(const ma_channel_converter* pConverter, ma_channel* pChannelMap, size_t channelMapCap); + + +/************************************************************************************************************************************************************** + +Data Conversion + +**************************************************************************************************************************************************************/ +typedef struct +{ + ma_format formatIn; + ma_format formatOut; + ma_uint32 channelsIn; + ma_uint32 channelsOut; + ma_uint32 sampleRateIn; + ma_uint32 sampleRateOut; + ma_channel* pChannelMapIn; + ma_channel* pChannelMapOut; + ma_dither_mode ditherMode; + ma_channel_mix_mode channelMixMode; + ma_bool32 calculateLFEFromSpatialChannels; /* When an output LFE channel is present, but no input LFE, set to true to set the output LFE to the average of all spatial channels (LR, FR, etc.). Ignored when an input LFE is present. */ + float** ppChannelWeights; /* [in][out]. Only used when mixingMode is set to ma_channel_mix_mode_custom_weights. */ + ma_bool32 allowDynamicSampleRate; + ma_resampler_config resampling; +} ma_data_converter_config; + +MA_API ma_data_converter_config ma_data_converter_config_init_default(void); +MA_API ma_data_converter_config ma_data_converter_config_init(ma_format formatIn, ma_format formatOut, ma_uint32 channelsIn, ma_uint32 channelsOut, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut); + + +typedef enum +{ + ma_data_converter_execution_path_passthrough, /* No conversion. */ + ma_data_converter_execution_path_format_only, /* Only format conversion. */ + ma_data_converter_execution_path_channels_only, /* Only channel conversion. */ + ma_data_converter_execution_path_resample_only, /* Only resampling. */ + ma_data_converter_execution_path_resample_first, /* All conversions, but resample as the first step. */ + ma_data_converter_execution_path_channels_first /* All conversions, but channels as the first step. */ +} ma_data_converter_execution_path; + +typedef struct +{ + ma_format formatIn; + ma_format formatOut; + ma_uint32 channelsIn; + ma_uint32 channelsOut; + ma_uint32 sampleRateIn; + ma_uint32 sampleRateOut; + ma_dither_mode ditherMode; + ma_data_converter_execution_path executionPath; /* The execution path the data converter will follow when processing. */ + ma_channel_converter channelConverter; + ma_resampler resampler; + ma_bool8 hasPreFormatConversion; + ma_bool8 hasPostFormatConversion; + ma_bool8 hasChannelConverter; + ma_bool8 hasResampler; + ma_bool8 isPassthrough; + + /* Memory management. */ + ma_bool8 _ownsHeap; + void* _pHeap; +} ma_data_converter; + +MA_API ma_result ma_data_converter_get_heap_size(const ma_data_converter_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_data_converter_init_preallocated(const ma_data_converter_config* pConfig, void* pHeap, ma_data_converter* pConverter); +MA_API ma_result ma_data_converter_init(const ma_data_converter_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_converter* pConverter); +MA_API void ma_data_converter_uninit(ma_data_converter* pConverter, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_data_converter_process_pcm_frames(ma_data_converter* pConverter, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut); +MA_API ma_result ma_data_converter_set_rate(ma_data_converter* pConverter, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut); +MA_API ma_result ma_data_converter_set_rate_ratio(ma_data_converter* pConverter, float ratioInOut); +MA_API ma_uint64 ma_data_converter_get_input_latency(const ma_data_converter* pConverter); +MA_API ma_uint64 ma_data_converter_get_output_latency(const ma_data_converter* pConverter); +MA_API ma_result ma_data_converter_get_required_input_frame_count(const ma_data_converter* pConverter, ma_uint64 outputFrameCount, ma_uint64* pInputFrameCount); +MA_API ma_result ma_data_converter_get_expected_output_frame_count(const ma_data_converter* pConverter, ma_uint64 inputFrameCount, ma_uint64* pOutputFrameCount); +MA_API ma_result ma_data_converter_get_input_channel_map(const ma_data_converter* pConverter, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_data_converter_get_output_channel_map(const ma_data_converter* pConverter, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_data_converter_reset(ma_data_converter* pConverter); + + +/************************************************************************************************************************************************************ + +Format Conversion + +************************************************************************************************************************************************************/ +MA_API void ma_pcm_u8_to_s16(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_u8_to_s24(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_u8_to_s32(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_u8_to_f32(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s16_to_u8(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s16_to_s24(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s16_to_s32(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s16_to_f32(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s24_to_u8(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s24_to_s16(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s24_to_s32(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s24_to_f32(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s32_to_u8(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s32_to_s16(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s32_to_s24(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_s32_to_f32(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_f32_to_u8(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_f32_to_s16(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_f32_to_s24(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_f32_to_s32(void* pOut, const void* pIn, ma_uint64 count, ma_dither_mode ditherMode); +MA_API void ma_pcm_convert(void* pOut, ma_format formatOut, const void* pIn, ma_format formatIn, ma_uint64 sampleCount, ma_dither_mode ditherMode); +MA_API void ma_convert_pcm_frames_format(void* pOut, ma_format formatOut, const void* pIn, ma_format formatIn, ma_uint64 frameCount, ma_uint32 channels, ma_dither_mode ditherMode); + +/* +Deinterleaves an interleaved buffer. +*/ +MA_API void ma_deinterleave_pcm_frames(ma_format format, ma_uint32 channels, ma_uint64 frameCount, const void* pInterleavedPCMFrames, void** ppDeinterleavedPCMFrames); + +/* +Interleaves a group of deinterleaved buffers. +*/ +MA_API void ma_interleave_pcm_frames(ma_format format, ma_uint32 channels, ma_uint64 frameCount, const void** ppDeinterleavedPCMFrames, void* pInterleavedPCMFrames); + + +/************************************************************************************************************************************************************ + +Channel Maps + +************************************************************************************************************************************************************/ +/* +This is used in the shuffle table to indicate that the channel index is undefined and should be ignored. +*/ +#define MA_CHANNEL_INDEX_NULL 255 + +/* +Retrieves the channel position of the specified channel in the given channel map. + +The pChannelMap parameter can be null, in which case miniaudio's default channel map will be assumed. +*/ +MA_API ma_channel ma_channel_map_get_channel(const ma_channel* pChannelMap, ma_uint32 channelCount, ma_uint32 channelIndex); + +/* +Initializes a blank channel map. + +When a blank channel map is specified anywhere it indicates that the native channel map should be used. +*/ +MA_API void ma_channel_map_init_blank(ma_channel* pChannelMap, ma_uint32 channels); + +/* +Helper for retrieving a standard channel map. + +The output channel map buffer must have a capacity of at least `channelMapCap`. +*/ +MA_API void ma_channel_map_init_standard(ma_standard_channel_map standardChannelMap, ma_channel* pChannelMap, size_t channelMapCap, ma_uint32 channels); + +/* +Copies a channel map. + +Both input and output channel map buffers must have a capacity of at least `channels`. +*/ +MA_API void ma_channel_map_copy(ma_channel* pOut, const ma_channel* pIn, ma_uint32 channels); + +/* +Copies a channel map if one is specified, otherwise copies the default channel map. + +The output buffer must have a capacity of at least `channels`. If not NULL, the input channel map must also have a capacity of at least `channels`. +*/ +MA_API void ma_channel_map_copy_or_default(ma_channel* pOut, size_t channelMapCapOut, const ma_channel* pIn, ma_uint32 channels); + + +/* +Determines whether or not a channel map is valid. + +A blank channel map is valid (all channels set to MA_CHANNEL_NONE). The way a blank channel map is handled is context specific, but +is usually treated as a passthrough. + +Invalid channel maps: + - A channel map with no channels + - A channel map with more than one channel and a mono channel + +The channel map buffer must have a capacity of at least `channels`. +*/ +MA_API ma_bool32 ma_channel_map_is_valid(const ma_channel* pChannelMap, ma_uint32 channels); + +/* +Helper for comparing two channel maps for equality. + +This assumes the channel count is the same between the two. + +Both channels map buffers must have a capacity of at least `channels`. +*/ +MA_API ma_bool32 ma_channel_map_is_equal(const ma_channel* pChannelMapA, const ma_channel* pChannelMapB, ma_uint32 channels); + +/* +Helper for determining if a channel map is blank (all channels set to MA_CHANNEL_NONE). + +The channel map buffer must have a capacity of at least `channels`. +*/ +MA_API ma_bool32 ma_channel_map_is_blank(const ma_channel* pChannelMap, ma_uint32 channels); + +/* +Helper for determining whether or not a channel is present in the given channel map. + +The channel map buffer must have a capacity of at least `channels`. +*/ +MA_API ma_bool32 ma_channel_map_contains_channel_position(ma_uint32 channels, const ma_channel* pChannelMap, ma_channel channelPosition); + +/* +Find a channel position in the given channel map. Returns MA_TRUE if the channel is found; MA_FALSE otherwise. The +index of the channel is output to `pChannelIndex`. + +The channel map buffer must have a capacity of at least `channels`. +*/ +MA_API ma_bool32 ma_channel_map_find_channel_position(ma_uint32 channels, const ma_channel* pChannelMap, ma_channel channelPosition, ma_uint32* pChannelIndex); + +/* +Generates a string representing the given channel map. + +This is for printing and debugging purposes, not serialization/deserialization. + +Returns the length of the string, not including the null terminator. +*/ +MA_API size_t ma_channel_map_to_string(const ma_channel* pChannelMap, ma_uint32 channels, char* pBufferOut, size_t bufferCap); + +/* +Retrieves a human readable version of a channel position. +*/ +MA_API const char* ma_channel_position_to_string(ma_channel channel); + + +/************************************************************************************************************************************************************ + +Conversion Helpers + +************************************************************************************************************************************************************/ + +/* +High-level helper for doing a full format conversion in one go. Returns the number of output frames. Call this with pOut set to NULL to +determine the required size of the output buffer. frameCountOut should be set to the capacity of pOut. If pOut is NULL, frameCountOut is +ignored. + +A return value of 0 indicates an error. + +This function is useful for one-off bulk conversions, but if you're streaming data you should use the ma_data_converter APIs instead. +*/ +MA_API ma_uint64 ma_convert_frames(void* pOut, ma_uint64 frameCountOut, ma_format formatOut, ma_uint32 channelsOut, ma_uint32 sampleRateOut, const void* pIn, ma_uint64 frameCountIn, ma_format formatIn, ma_uint32 channelsIn, ma_uint32 sampleRateIn); +MA_API ma_uint64 ma_convert_frames_ex(void* pOut, ma_uint64 frameCountOut, const void* pIn, ma_uint64 frameCountIn, const ma_data_converter_config* pConfig); + + +/************************************************************************************************************************************************************ + +Data Source + +************************************************************************************************************************************************************/ +typedef void ma_data_source; + +#define MA_DATA_SOURCE_SELF_MANAGED_RANGE_AND_LOOP_POINT 0x00000001 + +typedef struct +{ + ma_result (* onRead)(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); + ma_result (* onSeek)(ma_data_source* pDataSource, ma_uint64 frameIndex); + ma_result (* onGetDataFormat)(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); + ma_result (* onGetCursor)(ma_data_source* pDataSource, ma_uint64* pCursor); + ma_result (* onGetLength)(ma_data_source* pDataSource, ma_uint64* pLength); + ma_result (* onSetLooping)(ma_data_source* pDataSource, ma_bool32 isLooping); + ma_uint32 flags; +} ma_data_source_vtable; + +typedef ma_data_source* (* ma_data_source_get_next_proc)(ma_data_source* pDataSource); + +typedef struct +{ + const ma_data_source_vtable* vtable; +} ma_data_source_config; + +MA_API ma_data_source_config ma_data_source_config_init(void); + + +typedef struct +{ + const ma_data_source_vtable* vtable; + ma_uint64 rangeBegInFrames; + ma_uint64 rangeEndInFrames; /* Set to -1 for unranged (default). */ + ma_uint64 loopBegInFrames; /* Relative to rangeBegInFrames. */ + ma_uint64 loopEndInFrames; /* Relative to rangeBegInFrames. Set to -1 for the end of the range. */ + ma_data_source* pCurrent; /* When non-NULL, the data source being initialized will act as a proxy and will route all operations to pCurrent. Used in conjunction with pNext/onGetNext for seamless chaining. */ + ma_data_source* pNext; /* When set to NULL, onGetNext will be used. */ + ma_data_source_get_next_proc onGetNext; /* Will be used when pNext is NULL. If both are NULL, no next will be used. */ + MA_ATOMIC(4, ma_bool32) isLooping; +} ma_data_source_base; + +MA_API ma_result ma_data_source_init(const ma_data_source_config* pConfig, ma_data_source* pDataSource); +MA_API void ma_data_source_uninit(ma_data_source* pDataSource); +MA_API ma_result ma_data_source_read_pcm_frames(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); /* Must support pFramesOut = NULL in which case a forward seek should be performed. */ +MA_API ma_result ma_data_source_seek_pcm_frames(ma_data_source* pDataSource, ma_uint64 frameCount, ma_uint64* pFramesSeeked); /* Can only seek forward. Equivalent to ma_data_source_read_pcm_frames(pDataSource, NULL, frameCount, &framesRead); */ +MA_API ma_result ma_data_source_seek_to_pcm_frame(ma_data_source* pDataSource, ma_uint64 frameIndex); +MA_API ma_result ma_data_source_seek_seconds(ma_data_source* pDataSource, float secondCount, float* pSecondsSeeked); /* Can only seek forward. Abstraction to ma_data_source_seek_pcm_frames() */ +MA_API ma_result ma_data_source_seek_to_second(ma_data_source* pDataSource, float seekPointInSeconds); /* Abstraction to ma_data_source_seek_to_pcm_frame() */ +MA_API ma_result ma_data_source_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_data_source_get_cursor_in_pcm_frames(ma_data_source* pDataSource, ma_uint64* pCursor); +MA_API ma_result ma_data_source_get_length_in_pcm_frames(ma_data_source* pDataSource, ma_uint64* pLength); /* Returns MA_NOT_IMPLEMENTED if the length is unknown or cannot be determined. Decoders can return this. */ +MA_API ma_result ma_data_source_get_cursor_in_seconds(ma_data_source* pDataSource, float* pCursor); +MA_API ma_result ma_data_source_get_length_in_seconds(ma_data_source* pDataSource, float* pLength); +MA_API ma_result ma_data_source_set_looping(ma_data_source* pDataSource, ma_bool32 isLooping); +MA_API ma_bool32 ma_data_source_is_looping(const ma_data_source* pDataSource); +MA_API ma_result ma_data_source_set_range_in_pcm_frames(ma_data_source* pDataSource, ma_uint64 rangeBegInFrames, ma_uint64 rangeEndInFrames); +MA_API void ma_data_source_get_range_in_pcm_frames(const ma_data_source* pDataSource, ma_uint64* pRangeBegInFrames, ma_uint64* pRangeEndInFrames); +MA_API ma_result ma_data_source_set_loop_point_in_pcm_frames(ma_data_source* pDataSource, ma_uint64 loopBegInFrames, ma_uint64 loopEndInFrames); +MA_API void ma_data_source_get_loop_point_in_pcm_frames(const ma_data_source* pDataSource, ma_uint64* pLoopBegInFrames, ma_uint64* pLoopEndInFrames); +MA_API ma_result ma_data_source_set_current(ma_data_source* pDataSource, ma_data_source* pCurrentDataSource); +MA_API ma_data_source* ma_data_source_get_current(const ma_data_source* pDataSource); +MA_API ma_result ma_data_source_set_next(ma_data_source* pDataSource, ma_data_source* pNextDataSource); +MA_API ma_data_source* ma_data_source_get_next(const ma_data_source* pDataSource); +MA_API ma_result ma_data_source_set_next_callback(ma_data_source* pDataSource, ma_data_source_get_next_proc onGetNext); +MA_API ma_data_source_get_next_proc ma_data_source_get_next_callback(const ma_data_source* pDataSource); + + +typedef struct +{ + ma_data_source_base ds; + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_uint64 cursor; + ma_uint64 sizeInFrames; + const void* pData; +} ma_audio_buffer_ref; + +MA_API ma_result ma_audio_buffer_ref_init(ma_format format, ma_uint32 channels, const void* pData, ma_uint64 sizeInFrames, ma_audio_buffer_ref* pAudioBufferRef); +MA_API void ma_audio_buffer_ref_uninit(ma_audio_buffer_ref* pAudioBufferRef); +MA_API ma_result ma_audio_buffer_ref_set_data(ma_audio_buffer_ref* pAudioBufferRef, const void* pData, ma_uint64 sizeInFrames); +MA_API ma_uint64 ma_audio_buffer_ref_read_pcm_frames(ma_audio_buffer_ref* pAudioBufferRef, void* pFramesOut, ma_uint64 frameCount, ma_bool32 loop); +MA_API ma_result ma_audio_buffer_ref_seek_to_pcm_frame(ma_audio_buffer_ref* pAudioBufferRef, ma_uint64 frameIndex); +MA_API ma_result ma_audio_buffer_ref_map(ma_audio_buffer_ref* pAudioBufferRef, void** ppFramesOut, ma_uint64* pFrameCount); +MA_API ma_result ma_audio_buffer_ref_unmap(ma_audio_buffer_ref* pAudioBufferRef, ma_uint64 frameCount); /* Returns MA_AT_END if the end has been reached. This should be considered successful. */ +MA_API ma_bool32 ma_audio_buffer_ref_at_end(const ma_audio_buffer_ref* pAudioBufferRef); +MA_API ma_result ma_audio_buffer_ref_get_cursor_in_pcm_frames(const ma_audio_buffer_ref* pAudioBufferRef, ma_uint64* pCursor); +MA_API ma_result ma_audio_buffer_ref_get_length_in_pcm_frames(const ma_audio_buffer_ref* pAudioBufferRef, ma_uint64* pLength); +MA_API ma_result ma_audio_buffer_ref_get_available_frames(const ma_audio_buffer_ref* pAudioBufferRef, ma_uint64* pAvailableFrames); + + + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_uint64 sizeInFrames; + const void* pData; /* If set to NULL, will allocate a block of memory for you. */ + ma_allocation_callbacks allocationCallbacks; +} ma_audio_buffer_config; + +MA_API ma_audio_buffer_config ma_audio_buffer_config_init(ma_format format, ma_uint32 channels, ma_uint64 sizeInFrames, const void* pData, const ma_allocation_callbacks* pAllocationCallbacks); + +typedef struct +{ + ma_audio_buffer_ref ref; + ma_allocation_callbacks allocationCallbacks; + ma_bool32 ownsData; /* Used to control whether or not miniaudio owns the data buffer. If set to true, pData will be freed in ma_audio_buffer_uninit(). */ + ma_uint8 _pExtraData[1]; /* For allocating a buffer with the memory located directly after the other memory of the structure. */ +} ma_audio_buffer; + +MA_API ma_result ma_audio_buffer_init(const ma_audio_buffer_config* pConfig, ma_audio_buffer* pAudioBuffer); +MA_API ma_result ma_audio_buffer_init_copy(const ma_audio_buffer_config* pConfig, ma_audio_buffer* pAudioBuffer); +MA_API ma_result ma_audio_buffer_alloc_and_init(const ma_audio_buffer_config* pConfig, ma_audio_buffer** ppAudioBuffer); /* Always copies the data. Doesn't make sense to use this otherwise. Use ma_audio_buffer_uninit_and_free() to uninit. */ +MA_API void ma_audio_buffer_uninit(ma_audio_buffer* pAudioBuffer); +MA_API void ma_audio_buffer_uninit_and_free(ma_audio_buffer* pAudioBuffer); +MA_API ma_uint64 ma_audio_buffer_read_pcm_frames(ma_audio_buffer* pAudioBuffer, void* pFramesOut, ma_uint64 frameCount, ma_bool32 loop); +MA_API ma_result ma_audio_buffer_seek_to_pcm_frame(ma_audio_buffer* pAudioBuffer, ma_uint64 frameIndex); +MA_API ma_result ma_audio_buffer_map(ma_audio_buffer* pAudioBuffer, void** ppFramesOut, ma_uint64* pFrameCount); +MA_API ma_result ma_audio_buffer_unmap(ma_audio_buffer* pAudioBuffer, ma_uint64 frameCount); /* Returns MA_AT_END if the end has been reached. This should be considered successful. */ +MA_API ma_bool32 ma_audio_buffer_at_end(const ma_audio_buffer* pAudioBuffer); +MA_API ma_result ma_audio_buffer_get_cursor_in_pcm_frames(const ma_audio_buffer* pAudioBuffer, ma_uint64* pCursor); +MA_API ma_result ma_audio_buffer_get_length_in_pcm_frames(const ma_audio_buffer* pAudioBuffer, ma_uint64* pLength); +MA_API ma_result ma_audio_buffer_get_available_frames(const ma_audio_buffer* pAudioBuffer, ma_uint64* pAvailableFrames); + + +/* +Paged Audio Buffer +================== +A paged audio buffer is made up of a linked list of pages. It's expandable, but not shrinkable. It +can be used for cases where audio data is streamed in asynchronously while allowing data to be read +at the same time. + +This is lock-free, but not 100% thread safe. You can append a page and read from the buffer across +simultaneously across different threads, however only one thread at a time can append, and only one +thread at a time can read and seek. +*/ +typedef struct ma_paged_audio_buffer_page ma_paged_audio_buffer_page; +struct ma_paged_audio_buffer_page +{ + MA_ATOMIC(MA_SIZEOF_PTR, ma_paged_audio_buffer_page*) pNext; + ma_uint64 sizeInFrames; + ma_uint8 pAudioData[1]; +}; + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_paged_audio_buffer_page head; /* Dummy head for the lock-free algorithm. Always has a size of 0. */ + MA_ATOMIC(MA_SIZEOF_PTR, ma_paged_audio_buffer_page*) pTail; /* Never null. Initially set to &head. */ +} ma_paged_audio_buffer_data; + +MA_API ma_result ma_paged_audio_buffer_data_init(ma_format format, ma_uint32 channels, ma_paged_audio_buffer_data* pData); +MA_API void ma_paged_audio_buffer_data_uninit(ma_paged_audio_buffer_data* pData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_paged_audio_buffer_page* ma_paged_audio_buffer_data_get_head(ma_paged_audio_buffer_data* pData); +MA_API ma_paged_audio_buffer_page* ma_paged_audio_buffer_data_get_tail(ma_paged_audio_buffer_data* pData); +MA_API ma_result ma_paged_audio_buffer_data_get_length_in_pcm_frames(ma_paged_audio_buffer_data* pData, ma_uint64* pLength); +MA_API ma_result ma_paged_audio_buffer_data_allocate_page(ma_paged_audio_buffer_data* pData, ma_uint64 pageSizeInFrames, const void* pInitialData, const ma_allocation_callbacks* pAllocationCallbacks, ma_paged_audio_buffer_page** ppPage); +MA_API ma_result ma_paged_audio_buffer_data_free_page(ma_paged_audio_buffer_data* pData, ma_paged_audio_buffer_page* pPage, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_paged_audio_buffer_data_append_page(ma_paged_audio_buffer_data* pData, ma_paged_audio_buffer_page* pPage); +MA_API ma_result ma_paged_audio_buffer_data_allocate_and_append_page(ma_paged_audio_buffer_data* pData, ma_uint32 pageSizeInFrames, const void* pInitialData, const ma_allocation_callbacks* pAllocationCallbacks); + + +typedef struct +{ + ma_paged_audio_buffer_data* pData; /* Must not be null. */ +} ma_paged_audio_buffer_config; + +MA_API ma_paged_audio_buffer_config ma_paged_audio_buffer_config_init(ma_paged_audio_buffer_data* pData); + + +typedef struct +{ + ma_data_source_base ds; + ma_paged_audio_buffer_data* pData; /* Audio data is read from here. Cannot be null. */ + ma_paged_audio_buffer_page* pCurrent; + ma_uint64 relativeCursor; /* Relative to the current page. */ + ma_uint64 absoluteCursor; +} ma_paged_audio_buffer; + +MA_API ma_result ma_paged_audio_buffer_init(const ma_paged_audio_buffer_config* pConfig, ma_paged_audio_buffer* pPagedAudioBuffer); +MA_API void ma_paged_audio_buffer_uninit(ma_paged_audio_buffer* pPagedAudioBuffer); +MA_API ma_result ma_paged_audio_buffer_read_pcm_frames(ma_paged_audio_buffer* pPagedAudioBuffer, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); /* Returns MA_AT_END if no more pages available. */ +MA_API ma_result ma_paged_audio_buffer_seek_to_pcm_frame(ma_paged_audio_buffer* pPagedAudioBuffer, ma_uint64 frameIndex); +MA_API ma_result ma_paged_audio_buffer_get_cursor_in_pcm_frames(ma_paged_audio_buffer* pPagedAudioBuffer, ma_uint64* pCursor); +MA_API ma_result ma_paged_audio_buffer_get_length_in_pcm_frames(ma_paged_audio_buffer* pPagedAudioBuffer, ma_uint64* pLength); + + + +/************************************************************************************************************************************************************ + +Ring Buffer + +************************************************************************************************************************************************************/ +typedef struct +{ + void* pBuffer; + ma_uint32 subbufferSizeInBytes; + ma_uint32 subbufferCount; + ma_uint32 subbufferStrideInBytes; + MA_ATOMIC(4, ma_uint32) encodedReadOffset; /* Most significant bit is the loop flag. Lower 31 bits contains the actual offset in bytes. Must be used atomically. */ + MA_ATOMIC(4, ma_uint32) encodedWriteOffset; /* Most significant bit is the loop flag. Lower 31 bits contains the actual offset in bytes. Must be used atomically. */ + ma_bool8 ownsBuffer; /* Used to know whether or not miniaudio is responsible for free()-ing the buffer. */ + ma_bool8 clearOnWriteAcquire; /* When set, clears the acquired write buffer before returning from ma_rb_acquire_write(). */ + ma_allocation_callbacks allocationCallbacks; +} ma_rb; + +MA_API ma_result ma_rb_init_ex(size_t subbufferSizeInBytes, size_t subbufferCount, size_t subbufferStrideInBytes, void* pOptionalPreallocatedBuffer, const ma_allocation_callbacks* pAllocationCallbacks, ma_rb* pRB); +MA_API ma_result ma_rb_init(size_t bufferSizeInBytes, void* pOptionalPreallocatedBuffer, const ma_allocation_callbacks* pAllocationCallbacks, ma_rb* pRB); +MA_API void ma_rb_uninit(ma_rb* pRB); +MA_API void ma_rb_reset(ma_rb* pRB); +MA_API ma_result ma_rb_acquire_read(ma_rb* pRB, size_t* pSizeInBytes, void** ppBufferOut); +MA_API ma_result ma_rb_commit_read(ma_rb* pRB, size_t sizeInBytes); +MA_API ma_result ma_rb_acquire_write(ma_rb* pRB, size_t* pSizeInBytes, void** ppBufferOut); +MA_API ma_result ma_rb_commit_write(ma_rb* pRB, size_t sizeInBytes); +MA_API ma_result ma_rb_seek_read(ma_rb* pRB, size_t offsetInBytes); +MA_API ma_result ma_rb_seek_write(ma_rb* pRB, size_t offsetInBytes); +MA_API ma_int32 ma_rb_pointer_distance(ma_rb* pRB); /* Returns the distance between the write pointer and the read pointer. Should never be negative for a correct program. Will return the number of bytes that can be read before the read pointer hits the write pointer. */ +MA_API ma_uint32 ma_rb_available_read(ma_rb* pRB); +MA_API ma_uint32 ma_rb_available_write(ma_rb* pRB); +MA_API size_t ma_rb_get_subbuffer_size(ma_rb* pRB); +MA_API size_t ma_rb_get_subbuffer_stride(ma_rb* pRB); +MA_API size_t ma_rb_get_subbuffer_offset(ma_rb* pRB, size_t subbufferIndex); +MA_API void* ma_rb_get_subbuffer_ptr(ma_rb* pRB, size_t subbufferIndex, void* pBuffer); + + +typedef struct +{ + ma_data_source_base ds; + ma_rb rb; + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; /* Not required for the ring buffer itself, but useful for associating the data with some sample rate, particularly for data sources. */ +} ma_pcm_rb; + +MA_API ma_result ma_pcm_rb_init_ex(ma_format format, ma_uint32 channels, ma_uint32 subbufferSizeInFrames, ma_uint32 subbufferCount, ma_uint32 subbufferStrideInFrames, void* pOptionalPreallocatedBuffer, const ma_allocation_callbacks* pAllocationCallbacks, ma_pcm_rb* pRB); +MA_API ma_result ma_pcm_rb_init(ma_format format, ma_uint32 channels, ma_uint32 bufferSizeInFrames, void* pOptionalPreallocatedBuffer, const ma_allocation_callbacks* pAllocationCallbacks, ma_pcm_rb* pRB); +MA_API void ma_pcm_rb_uninit(ma_pcm_rb* pRB); +MA_API void ma_pcm_rb_reset(ma_pcm_rb* pRB); +MA_API ma_result ma_pcm_rb_acquire_read(ma_pcm_rb* pRB, ma_uint32* pSizeInFrames, void** ppBufferOut); +MA_API ma_result ma_pcm_rb_commit_read(ma_pcm_rb* pRB, ma_uint32 sizeInFrames); +MA_API ma_result ma_pcm_rb_acquire_write(ma_pcm_rb* pRB, ma_uint32* pSizeInFrames, void** ppBufferOut); +MA_API ma_result ma_pcm_rb_commit_write(ma_pcm_rb* pRB, ma_uint32 sizeInFrames); +MA_API ma_result ma_pcm_rb_seek_read(ma_pcm_rb* pRB, ma_uint32 offsetInFrames); +MA_API ma_result ma_pcm_rb_seek_write(ma_pcm_rb* pRB, ma_uint32 offsetInFrames); +MA_API ma_int32 ma_pcm_rb_pointer_distance(ma_pcm_rb* pRB); /* Return value is in frames. */ +MA_API ma_uint32 ma_pcm_rb_available_read(ma_pcm_rb* pRB); +MA_API ma_uint32 ma_pcm_rb_available_write(ma_pcm_rb* pRB); +MA_API ma_uint32 ma_pcm_rb_get_subbuffer_size(ma_pcm_rb* pRB); +MA_API ma_uint32 ma_pcm_rb_get_subbuffer_stride(ma_pcm_rb* pRB); +MA_API ma_uint32 ma_pcm_rb_get_subbuffer_offset(ma_pcm_rb* pRB, ma_uint32 subbufferIndex); +MA_API void* ma_pcm_rb_get_subbuffer_ptr(ma_pcm_rb* pRB, ma_uint32 subbufferIndex, void* pBuffer); +MA_API ma_format ma_pcm_rb_get_format(const ma_pcm_rb* pRB); +MA_API ma_uint32 ma_pcm_rb_get_channels(const ma_pcm_rb* pRB); +MA_API ma_uint32 ma_pcm_rb_get_sample_rate(const ma_pcm_rb* pRB); +MA_API void ma_pcm_rb_set_sample_rate(ma_pcm_rb* pRB, ma_uint32 sampleRate); + + +/* +The idea of the duplex ring buffer is to act as the intermediary buffer when running two asynchronous devices in a duplex set up. The +capture device writes to it, and then a playback device reads from it. + +At the moment this is just a simple naive implementation, but in the future I want to implement some dynamic resampling to seamlessly +handle desyncs. Note that the API is work in progress and may change at any time in any version. + +The size of the buffer is based on the capture side since that's what'll be written to the buffer. It is based on the capture period size +in frames. The internal sample rate of the capture device is also needed in order to calculate the size. +*/ +typedef struct +{ + ma_pcm_rb rb; +} ma_duplex_rb; + +MA_API ma_result ma_duplex_rb_init(ma_format captureFormat, ma_uint32 captureChannels, ma_uint32 sampleRate, ma_uint32 captureInternalSampleRate, ma_uint32 captureInternalPeriodSizeInFrames, const ma_allocation_callbacks* pAllocationCallbacks, ma_duplex_rb* pRB); +MA_API ma_result ma_duplex_rb_uninit(ma_duplex_rb* pRB); + + +/************************************************************************************************************************************************************ + +Miscellaneous Helpers + +************************************************************************************************************************************************************/ +/* +Retrieves a human readable description of the given result code. +*/ +MA_API const char* ma_result_description(ma_result result); + +/* +malloc() +*/ +MA_API void* ma_malloc(size_t sz, const ma_allocation_callbacks* pAllocationCallbacks); + +/* +calloc() +*/ +MA_API void* ma_calloc(size_t sz, const ma_allocation_callbacks* pAllocationCallbacks); + +/* +realloc() +*/ +MA_API void* ma_realloc(void* p, size_t sz, const ma_allocation_callbacks* pAllocationCallbacks); + +/* +free() +*/ +MA_API void ma_free(void* p, const ma_allocation_callbacks* pAllocationCallbacks); + +/* +Performs an aligned malloc, with the assumption that the alignment is a power of 2. +*/ +MA_API void* ma_aligned_malloc(size_t sz, size_t alignment, const ma_allocation_callbacks* pAllocationCallbacks); + +/* +Free's an aligned malloc'd buffer. +*/ +MA_API void ma_aligned_free(void* p, const ma_allocation_callbacks* pAllocationCallbacks); + +/* +Retrieves a friendly name for a format. +*/ +MA_API const char* ma_get_format_name(ma_format format); + +/* +Blends two frames in floating point format. +*/ +MA_API void ma_blend_f32(float* pOut, float* pInA, float* pInB, float factor, ma_uint32 channels); + +/* +Retrieves the size of a sample in bytes for the given format. + +This API is efficient and is implemented using a lookup table. + +Thread Safety: SAFE + This API is pure. +*/ +MA_API ma_uint32 ma_get_bytes_per_sample(ma_format format); +static MA_INLINE ma_uint32 ma_get_bytes_per_frame(ma_format format, ma_uint32 channels) { return ma_get_bytes_per_sample(format) * channels; } + +/* +Converts a log level to a string. +*/ +MA_API const char* ma_log_level_to_string(ma_uint32 logLevel); + + + + +/************************************************************************************************************************************************************ + +Synchronization + +************************************************************************************************************************************************************/ +/* +Locks a spinlock. +*/ +MA_API ma_result ma_spinlock_lock(volatile ma_spinlock* pSpinlock); + +/* +Locks a spinlock, but does not yield() when looping. +*/ +MA_API ma_result ma_spinlock_lock_noyield(volatile ma_spinlock* pSpinlock); + +/* +Unlocks a spinlock. +*/ +MA_API ma_result ma_spinlock_unlock(volatile ma_spinlock* pSpinlock); + + +#ifndef MA_NO_THREADING + +/* +Creates a mutex. + +A mutex must be created from a valid context. A mutex is initially unlocked. +*/ +MA_API ma_result ma_mutex_init(ma_mutex* pMutex); + +/* +Deletes a mutex. +*/ +MA_API void ma_mutex_uninit(ma_mutex* pMutex); + +/* +Locks a mutex with an infinite timeout. +*/ +MA_API void ma_mutex_lock(ma_mutex* pMutex); + +/* +Unlocks a mutex. +*/ +MA_API void ma_mutex_unlock(ma_mutex* pMutex); + + +/* +Initializes an auto-reset event. +*/ +MA_API ma_result ma_event_init(ma_event* pEvent); + +/* +Uninitializes an auto-reset event. +*/ +MA_API void ma_event_uninit(ma_event* pEvent); + +/* +Waits for the specified auto-reset event to become signalled. +*/ +MA_API ma_result ma_event_wait(ma_event* pEvent); + +/* +Signals the specified auto-reset event. +*/ +MA_API ma_result ma_event_signal(ma_event* pEvent); + + +MA_API ma_result ma_semaphore_init(int initialValue, ma_semaphore* pSemaphore); +MA_API void ma_semaphore_uninit(ma_semaphore* pSemaphore); +MA_API ma_result ma_semaphore_wait(ma_semaphore* pSemaphore); +MA_API ma_result ma_semaphore_release(ma_semaphore* pSemaphore); +#endif /* MA_NO_THREADING */ + + +/* +Fence +===== +This locks while the counter is larger than 0. Counter can be incremented and decremented by any +thread, but care needs to be taken when waiting. It is possible for one thread to acquire the +fence just as another thread returns from ma_fence_wait(). + +The idea behind a fence is to allow you to wait for a group of operations to complete. When an +operation starts, the counter is incremented which locks the fence. When the operation completes, +the fence will be released which decrements the counter. ma_fence_wait() will block until the +counter hits zero. + +If threading is disabled, ma_fence_wait() will spin on the counter. +*/ +typedef struct +{ +#ifndef MA_NO_THREADING + ma_event e; +#endif + ma_uint32 counter; +} ma_fence; + +MA_API ma_result ma_fence_init(ma_fence* pFence); +MA_API void ma_fence_uninit(ma_fence* pFence); +MA_API ma_result ma_fence_acquire(ma_fence* pFence); /* Increment counter. */ +MA_API ma_result ma_fence_release(ma_fence* pFence); /* Decrement counter. */ +MA_API ma_result ma_fence_wait(ma_fence* pFence); /* Wait for counter to reach 0. */ + + + +/* +Notification callback for asynchronous operations. +*/ +typedef void ma_async_notification; + +typedef struct +{ + void (* onSignal)(ma_async_notification* pNotification); +} ma_async_notification_callbacks; + +MA_API ma_result ma_async_notification_signal(ma_async_notification* pNotification); + + +/* +Simple polling notification. + +This just sets a variable when the notification has been signalled which is then polled with ma_async_notification_poll_is_signalled() +*/ +typedef struct +{ + ma_async_notification_callbacks cb; + ma_bool32 signalled; +} ma_async_notification_poll; + +MA_API ma_result ma_async_notification_poll_init(ma_async_notification_poll* pNotificationPoll); +MA_API ma_bool32 ma_async_notification_poll_is_signalled(const ma_async_notification_poll* pNotificationPoll); + + +/* +Event Notification + +This uses an ma_event. If threading is disabled (MA_NO_THREADING), initialization will fail. +*/ +typedef struct +{ + ma_async_notification_callbacks cb; +#ifndef MA_NO_THREADING + ma_event e; +#endif +} ma_async_notification_event; + +MA_API ma_result ma_async_notification_event_init(ma_async_notification_event* pNotificationEvent); +MA_API ma_result ma_async_notification_event_uninit(ma_async_notification_event* pNotificationEvent); +MA_API ma_result ma_async_notification_event_wait(ma_async_notification_event* pNotificationEvent); +MA_API ma_result ma_async_notification_event_signal(ma_async_notification_event* pNotificationEvent); + + + + +/************************************************************************************************************************************************************ + +Job Queue + +************************************************************************************************************************************************************/ + +/* +Slot Allocator +-------------- +The idea of the slot allocator is for it to be used in conjunction with a fixed sized buffer. You use the slot allocator to allocate an index that can be used +as the insertion point for an object. + +Slots are reference counted to help mitigate the ABA problem in the lock-free queue we use for tracking jobs. + +The slot index is stored in the low 32 bits. The reference counter is stored in the high 32 bits: + + +-----------------+-----------------+ + | 32 Bits | 32 Bits | + +-----------------+-----------------+ + | Reference Count | Slot Index | + +-----------------+-----------------+ +*/ +typedef struct +{ + ma_uint32 capacity; /* The number of slots to make available. */ +} ma_slot_allocator_config; + +MA_API ma_slot_allocator_config ma_slot_allocator_config_init(ma_uint32 capacity); + + +typedef struct +{ + MA_ATOMIC(4, ma_uint32) bitfield; /* Must be used atomically because the allocation and freeing routines need to make copies of this which must never be optimized away by the compiler. */ +} ma_slot_allocator_group; + +typedef struct +{ + ma_slot_allocator_group* pGroups; /* Slots are grouped in chunks of 32. */ + ma_uint32* pSlots; /* 32 bits for reference counting for ABA mitigation. */ + ma_uint32 count; /* Allocation count. */ + ma_uint32 capacity; + + /* Memory management. */ + ma_bool32 _ownsHeap; + void* _pHeap; +} ma_slot_allocator; + +MA_API ma_result ma_slot_allocator_get_heap_size(const ma_slot_allocator_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_slot_allocator_init_preallocated(const ma_slot_allocator_config* pConfig, void* pHeap, ma_slot_allocator* pAllocator); +MA_API ma_result ma_slot_allocator_init(const ma_slot_allocator_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_slot_allocator* pAllocator); +MA_API void ma_slot_allocator_uninit(ma_slot_allocator* pAllocator, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_slot_allocator_alloc(ma_slot_allocator* pAllocator, ma_uint64* pSlot); +MA_API ma_result ma_slot_allocator_free(ma_slot_allocator* pAllocator, ma_uint64 slot); + + +typedef struct ma_job ma_job; + +/* +Callback for processing a job. Each job type will have their own processing callback which will be +called by ma_job_process(). +*/ +typedef ma_result (* ma_job_proc)(ma_job* pJob); + +/* When a job type is added here an callback needs to be added go "g_jobVTable" in the implementation section. */ +typedef enum +{ + /* Miscellaneous. */ + MA_JOB_TYPE_QUIT = 0, + MA_JOB_TYPE_CUSTOM, + + /* Resource Manager. */ + MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_BUFFER_NODE, + MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_BUFFER_NODE, + MA_JOB_TYPE_RESOURCE_MANAGER_PAGE_DATA_BUFFER_NODE, + MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_BUFFER, + MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_BUFFER, + MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_STREAM, + MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_STREAM, + MA_JOB_TYPE_RESOURCE_MANAGER_PAGE_DATA_STREAM, + MA_JOB_TYPE_RESOURCE_MANAGER_SEEK_DATA_STREAM, + + /* Device. */ + MA_JOB_TYPE_DEVICE_AAUDIO_REROUTE, + + /* Count. Must always be last. */ + MA_JOB_TYPE_COUNT +} ma_job_type; + +struct ma_job +{ + union + { + struct + { + ma_uint16 code; /* Job type. */ + ma_uint16 slot; /* Index into a ma_slot_allocator. */ + ma_uint32 refcount; + } breakup; + ma_uint64 allocation; + } toc; /* 8 bytes. We encode the job code into the slot allocation data to save space. */ + MA_ATOMIC(8, ma_uint64) next; /* refcount + slot for the next item. Does not include the job code. */ + ma_uint32 order; /* Execution order. Used to create a data dependency and ensure a job is executed in order. Usage is contextual depending on the job type. */ + + union + { + /* Miscellaneous. */ + struct + { + ma_job_proc proc; + ma_uintptr data0; + ma_uintptr data1; + } custom; + + /* Resource Manager */ + union + { + struct + { + /*ma_resource_manager**/ void* pResourceManager; + /*ma_resource_manager_data_buffer_node**/ void* pDataBufferNode; + char* pFilePath; + wchar_t* pFilePathW; + ma_uint32 flags; /* Resource manager data source flags that were used when initializing the data buffer. */ + ma_async_notification* pInitNotification; /* Signalled when the data buffer has been initialized and the format/channels/rate can be retrieved. */ + ma_async_notification* pDoneNotification; /* Signalled when the data buffer has been fully decoded. Will be passed through to MA_JOB_TYPE_RESOURCE_MANAGER_PAGE_DATA_BUFFER_NODE when decoding. */ + ma_fence* pInitFence; /* Released when initialization of the decoder is complete. */ + ma_fence* pDoneFence; /* Released if initialization of the decoder fails. Passed through to PAGE_DATA_BUFFER_NODE untouched if init is successful. */ + } loadDataBufferNode; + struct + { + /*ma_resource_manager**/ void* pResourceManager; + /*ma_resource_manager_data_buffer_node**/ void* pDataBufferNode; + ma_async_notification* pDoneNotification; + ma_fence* pDoneFence; + } freeDataBufferNode; + struct + { + /*ma_resource_manager**/ void* pResourceManager; + /*ma_resource_manager_data_buffer_node**/ void* pDataBufferNode; + /*ma_decoder**/ void* pDecoder; + ma_async_notification* pDoneNotification; /* Signalled when the data buffer has been fully decoded. */ + ma_fence* pDoneFence; /* Passed through from LOAD_DATA_BUFFER_NODE and released when the data buffer completes decoding or an error occurs. */ + } pageDataBufferNode; + + struct + { + /*ma_resource_manager_data_buffer**/ void* pDataBuffer; + ma_async_notification* pInitNotification; /* Signalled when the data buffer has been initialized and the format/channels/rate can be retrieved. */ + ma_async_notification* pDoneNotification; /* Signalled when the data buffer has been fully decoded. */ + ma_fence* pInitFence; /* Released when the data buffer has been initialized and the format/channels/rate can be retrieved. */ + ma_fence* pDoneFence; /* Released when the data buffer has been fully decoded. */ + ma_uint64 rangeBegInPCMFrames; + ma_uint64 rangeEndInPCMFrames; + ma_uint64 loopPointBegInPCMFrames; + ma_uint64 loopPointEndInPCMFrames; + ma_uint32 isLooping; + } loadDataBuffer; + struct + { + /*ma_resource_manager_data_buffer**/ void* pDataBuffer; + ma_async_notification* pDoneNotification; + ma_fence* pDoneFence; + } freeDataBuffer; + + struct + { + /*ma_resource_manager_data_stream**/ void* pDataStream; + char* pFilePath; /* Allocated when the job is posted, freed by the job thread after loading. */ + wchar_t* pFilePathW; /* ^ As above ^. Only used if pFilePath is NULL. */ + ma_uint64 initialSeekPoint; + ma_async_notification* pInitNotification; /* Signalled after the first two pages have been decoded and frames can be read from the stream. */ + ma_fence* pInitFence; + } loadDataStream; + struct + { + /*ma_resource_manager_data_stream**/ void* pDataStream; + ma_async_notification* pDoneNotification; + ma_fence* pDoneFence; + } freeDataStream; + struct + { + /*ma_resource_manager_data_stream**/ void* pDataStream; + ma_uint32 pageIndex; /* The index of the page to decode into. */ + } pageDataStream; + struct + { + /*ma_resource_manager_data_stream**/ void* pDataStream; + ma_uint64 frameIndex; + } seekDataStream; + } resourceManager; + + /* Device. */ + union + { + union + { + struct + { + /*ma_device**/ void* pDevice; + /*ma_device_type*/ ma_uint32 deviceType; + } reroute; + } aaudio; + } device; + } data; +}; + +MA_API ma_job ma_job_init(ma_uint16 code); +MA_API ma_result ma_job_process(ma_job* pJob); + + +/* +When set, ma_job_queue_next() will not wait and no semaphore will be signaled in +ma_job_queue_post(). ma_job_queue_next() will return MA_NO_DATA_AVAILABLE if nothing is available. + +This flag should always be used for platforms that do not support multithreading. +*/ +typedef enum +{ + MA_JOB_QUEUE_FLAG_NON_BLOCKING = 0x00000001 +} ma_job_queue_flags; + +typedef struct +{ + ma_uint32 flags; + ma_uint32 capacity; /* The maximum number of jobs that can fit in the queue at a time. */ +} ma_job_queue_config; + +MA_API ma_job_queue_config ma_job_queue_config_init(ma_uint32 flags, ma_uint32 capacity); + + +typedef struct +{ + ma_uint32 flags; /* Flags passed in at initialization time. */ + ma_uint32 capacity; /* The maximum number of jobs that can fit in the queue at a time. Set by the config. */ + MA_ATOMIC(8, ma_uint64) head; /* The first item in the list. Required for removing from the top of the list. */ + MA_ATOMIC(8, ma_uint64) tail; /* The last item in the list. Required for appending to the end of the list. */ +#ifndef MA_NO_THREADING + ma_semaphore sem; /* Only used when MA_JOB_QUEUE_FLAG_NON_BLOCKING is unset. */ +#endif + ma_slot_allocator allocator; + ma_job* pJobs; +#ifndef MA_USE_EXPERIMENTAL_LOCK_FREE_JOB_QUEUE + ma_spinlock lock; +#endif + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_job_queue; + +MA_API ma_result ma_job_queue_get_heap_size(const ma_job_queue_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_job_queue_init_preallocated(const ma_job_queue_config* pConfig, void* pHeap, ma_job_queue* pQueue); +MA_API ma_result ma_job_queue_init(const ma_job_queue_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_job_queue* pQueue); +MA_API void ma_job_queue_uninit(ma_job_queue* pQueue, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_job_queue_post(ma_job_queue* pQueue, const ma_job* pJob); +MA_API ma_result ma_job_queue_next(ma_job_queue* pQueue, ma_job* pJob); /* Returns MA_CANCELLED if the next job is a quit job. */ + + + +/************************************************************************************************************************************************************ +************************************************************************************************************************************************************* + +DEVICE I/O +========== + +This section contains the APIs for device playback and capture. Here is where you'll find ma_device_init(), etc. + +************************************************************************************************************************************************************* +************************************************************************************************************************************************************/ +#ifndef MA_NO_DEVICE_IO +/* Some backends are only supported on certain platforms. */ +#if defined(MA_WIN32) && !defined(MA_XBOX) + #define MA_SUPPORT_WASAPI + + #if defined(MA_WIN32_DESKTOP) /* DirectSound and WinMM backends are only supported on desktops. */ + #define MA_SUPPORT_DSOUND + #define MA_SUPPORT_WINMM + #define MA_SUPPORT_JACK /* JACK is technically supported on Windows, but I don't know how many people use it in practice... */ + #endif +#endif +#if defined(MA_UNIX) && !defined(MA_ORBIS) && !defined(MA_PROSPERO) + #if defined(MA_LINUX) + #if !defined(MA_ANDROID) && !defined(MA_EMSCRIPTEN) /* ALSA is not supported on Android. */ + #define MA_SUPPORT_ALSA + #endif + #endif + #if !defined(MA_BSD) && !defined(MA_ANDROID) && !defined(MA_EMSCRIPTEN) + #define MA_SUPPORT_PULSEAUDIO + #define MA_SUPPORT_JACK + #endif + #if defined(__OpenBSD__) /* <-- Change this to "#if defined(MA_BSD)" to enable sndio on all BSD flavors. */ + #define MA_SUPPORT_SNDIO /* sndio is only supported on OpenBSD for now. May be expanded later if there's demand. */ + #endif + #if defined(__NetBSD__) || defined(__OpenBSD__) + #define MA_SUPPORT_AUDIO4 /* Only support audio(4) on platforms with known support. */ + #endif + #if defined(__FreeBSD__) || defined(__DragonFly__) + #define MA_SUPPORT_OSS /* Only support OSS on specific platforms with known support. */ + #endif +#endif +#if defined(MA_ANDROID) + #define MA_SUPPORT_AAUDIO + #define MA_SUPPORT_OPENSL +#endif +#if defined(MA_APPLE) + #define MA_SUPPORT_COREAUDIO +#endif +#if defined(MA_EMSCRIPTEN) + #define MA_SUPPORT_WEBAUDIO +#endif + +/* All platforms should support custom backends. */ +#define MA_SUPPORT_CUSTOM + +/* Explicitly disable the Null backend for Emscripten because it uses a background thread which is not properly supported right now. */ +#if !defined(MA_EMSCRIPTEN) +#define MA_SUPPORT_NULL +#endif + + +#if defined(MA_SUPPORT_WASAPI) && !defined(MA_NO_WASAPI) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_WASAPI)) + #define MA_HAS_WASAPI +#endif +#if defined(MA_SUPPORT_DSOUND) && !defined(MA_NO_DSOUND) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_DSOUND)) + #define MA_HAS_DSOUND +#endif +#if defined(MA_SUPPORT_WINMM) && !defined(MA_NO_WINMM) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_WINMM)) + #define MA_HAS_WINMM +#endif +#if defined(MA_SUPPORT_ALSA) && !defined(MA_NO_ALSA) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_ALSA)) + #define MA_HAS_ALSA +#endif +#if defined(MA_SUPPORT_PULSEAUDIO) && !defined(MA_NO_PULSEAUDIO) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_PULSEAUDIO)) + #define MA_HAS_PULSEAUDIO +#endif +#if defined(MA_SUPPORT_JACK) && !defined(MA_NO_JACK) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_JACK)) + #define MA_HAS_JACK +#endif +#if defined(MA_SUPPORT_COREAUDIO) && !defined(MA_NO_COREAUDIO) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_COREAUDIO)) + #define MA_HAS_COREAUDIO +#endif +#if defined(MA_SUPPORT_SNDIO) && !defined(MA_NO_SNDIO) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_SNDIO)) + #define MA_HAS_SNDIO +#endif +#if defined(MA_SUPPORT_AUDIO4) && !defined(MA_NO_AUDIO4) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_AUDIO4)) + #define MA_HAS_AUDIO4 +#endif +#if defined(MA_SUPPORT_OSS) && !defined(MA_NO_OSS) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_OSS)) + #define MA_HAS_OSS +#endif +#if defined(MA_SUPPORT_AAUDIO) && !defined(MA_NO_AAUDIO) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_AAUDIO)) + #define MA_HAS_AAUDIO +#endif +#if defined(MA_SUPPORT_OPENSL) && !defined(MA_NO_OPENSL) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_OPENSL)) + #define MA_HAS_OPENSL +#endif +#if defined(MA_SUPPORT_WEBAUDIO) && !defined(MA_NO_WEBAUDIO) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_WEBAUDIO)) + #define MA_HAS_WEBAUDIO +#endif +#if defined(MA_SUPPORT_CUSTOM) && !defined(MA_NO_CUSTOM) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_CUSTOM)) + #define MA_HAS_CUSTOM +#endif +#if defined(MA_SUPPORT_NULL) && !defined(MA_NO_NULL) && (!defined(MA_ENABLE_ONLY_SPECIFIC_BACKENDS) || defined(MA_ENABLE_NULL)) + #define MA_HAS_NULL +#endif + +typedef enum +{ + ma_device_state_uninitialized = 0, + ma_device_state_stopped = 1, /* The device's default state after initialization. */ + ma_device_state_started = 2, /* The device is started and is requesting and/or delivering audio data. */ + ma_device_state_starting = 3, /* Transitioning from a stopped state to started. */ + ma_device_state_stopping = 4 /* Transitioning from a started state to stopped. */ +} ma_device_state; + +MA_ATOMIC_SAFE_TYPE_DECL(i32, 4, device_state) + + +#ifdef MA_SUPPORT_WASAPI +/* We need a IMMNotificationClient object for WASAPI. */ +typedef struct +{ + void* lpVtbl; + ma_uint32 counter; + ma_device* pDevice; +} ma_IMMNotificationClient; +#endif + +/* Backend enums must be in priority order. */ +typedef enum +{ + ma_backend_wasapi, + ma_backend_dsound, + ma_backend_winmm, + ma_backend_coreaudio, + ma_backend_sndio, + ma_backend_audio4, + ma_backend_oss, + ma_backend_pulseaudio, + ma_backend_alsa, + ma_backend_jack, + ma_backend_aaudio, + ma_backend_opensl, + ma_backend_webaudio, + ma_backend_custom, /* <-- Custom backend, with callbacks defined by the context config. */ + ma_backend_null /* <-- Must always be the last item. Lowest priority, and used as the terminator for backend enumeration. */ +} ma_backend; + +#define MA_BACKEND_COUNT (ma_backend_null+1) + + +/* +Device job thread. This is used by backends that require asynchronous processing of certain +operations. It is not used by all backends. + +The device job thread is made up of a thread and a job queue. You can post a job to the thread with +ma_device_job_thread_post(). The thread will do the processing of the job. +*/ +typedef struct +{ + ma_bool32 noThread; /* Set this to true if you want to process jobs yourself. */ + ma_uint32 jobQueueCapacity; + ma_uint32 jobQueueFlags; +} ma_device_job_thread_config; + +MA_API ma_device_job_thread_config ma_device_job_thread_config_init(void); + +typedef struct +{ + ma_thread thread; + ma_job_queue jobQueue; + ma_bool32 _hasThread; +} ma_device_job_thread; + +MA_API ma_result ma_device_job_thread_init(const ma_device_job_thread_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_device_job_thread* pJobThread); +MA_API void ma_device_job_thread_uninit(ma_device_job_thread* pJobThread, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_device_job_thread_post(ma_device_job_thread* pJobThread, const ma_job* pJob); +MA_API ma_result ma_device_job_thread_next(ma_device_job_thread* pJobThread, ma_job* pJob); + + + +/* Device notification types. */ +typedef enum +{ + ma_device_notification_type_started, + ma_device_notification_type_stopped, + ma_device_notification_type_rerouted, + ma_device_notification_type_interruption_began, + ma_device_notification_type_interruption_ended, + ma_device_notification_type_unlocked +} ma_device_notification_type; + +typedef struct +{ + ma_device* pDevice; + ma_device_notification_type type; + union + { + struct + { + int _unused; + } started; + struct + { + int _unused; + } stopped; + struct + { + int _unused; + } rerouted; + struct + { + int _unused; + } interruption; + } data; +} ma_device_notification; + +/* +The notification callback for when the application should be notified of a change to the device. + +This callback is used for notifying the application of changes such as when the device has started, +stopped, rerouted or an interruption has occurred. Note that not all backends will post all +notification types. For example, some backends will perform automatic stream routing without any +kind of notification to the host program which means miniaudio will never know about it and will +never be able to fire the rerouted notification. You should keep this in mind when designing your +program. + +The stopped notification will *not* get fired when a device is rerouted. + + +Parameters +---------- +pNotification (in) + A pointer to a structure containing information about the event. Use the `pDevice` member of + this object to retrieve the relevant device. The `type` member can be used to discriminate + against each of the notification types. + + +Remarks +------- +Do not restart or uninitialize the device from the callback. + +Not all notifications will be triggered by all backends, however the started and stopped events +should be reliable for all backends. Some backends do not have a good way to detect device +stoppages due to unplugging the device which may result in the stopped callback not getting +fired. This has been observed with at least one BSD variant. + +The rerouted notification is fired *after* the reroute has occurred. The stopped notification will +*not* get fired when a device is rerouted. The following backends are known to do automatic stream +rerouting, but do not have a way to be notified of the change: + + * DirectSound + +The interruption notifications are used on mobile platforms for detecting when audio is interrupted +due to things like an incoming phone call. Currently this is only implemented on iOS. None of the +Android backends will report this notification. +*/ +typedef void (* ma_device_notification_proc)(const ma_device_notification* pNotification); + + +/* +The callback for processing audio data from the device. + +The data callback is fired by miniaudio whenever the device needs to have more data delivered to a playback device, or when a capture device has some data +available. This is called as soon as the backend asks for more data which means it may be called with inconsistent frame counts. You cannot assume the +callback will be fired with a consistent frame count. + + +Parameters +---------- +pDevice (in) + A pointer to the relevant device. + +pOutput (out) + A pointer to the output buffer that will receive audio data that will later be played back through the speakers. This will be non-null for a playback or + full-duplex device and null for a capture and loopback device. + +pInput (in) + A pointer to the buffer containing input data from a recording device. This will be non-null for a capture, full-duplex or loopback device and null for a + playback device. + +frameCount (in) + The number of PCM frames to process. Note that this will not necessarily be equal to what you requested when you initialized the device. The + `periodSizeInFrames` and `periodSizeInMilliseconds` members of the device config are just hints, and are not necessarily exactly what you'll get. You must + not assume this will always be the same value each time the callback is fired. + + +Remarks +------- +You cannot stop and start the device from inside the callback or else you'll get a deadlock. You must also not uninitialize the device from inside the +callback. The following APIs cannot be called from inside the callback: + + ma_device_init() + ma_device_init_ex() + ma_device_uninit() + ma_device_start() + ma_device_stop() + +The proper way to stop the device is to call `ma_device_stop()` from a different thread, normally the main application thread. +*/ +typedef void (* ma_device_data_proc)(ma_device* pDevice, void* pOutput, const void* pInput, ma_uint32 frameCount); + + + + +/* +DEPRECATED. Use ma_device_notification_proc instead. + +The callback for when the device has been stopped. + +This will be called when the device is stopped explicitly with `ma_device_stop()` and also called implicitly when the device is stopped through external forces +such as being unplugged or an internal error occurring. + + +Parameters +---------- +pDevice (in) + A pointer to the device that has just stopped. + + +Remarks +------- +Do not restart or uninitialize the device from the callback. +*/ +typedef void (* ma_stop_proc)(ma_device* pDevice); /* DEPRECATED. Use ma_device_notification_proc instead. */ + +typedef enum +{ + ma_device_type_playback = 1, + ma_device_type_capture = 2, + ma_device_type_duplex = ma_device_type_playback | ma_device_type_capture, /* 3 */ + ma_device_type_loopback = 4 +} ma_device_type; + +typedef enum +{ + ma_share_mode_shared = 0, + ma_share_mode_exclusive +} ma_share_mode; + +/* iOS/tvOS/watchOS session categories. */ +typedef enum +{ + ma_ios_session_category_default = 0, /* AVAudioSessionCategoryPlayAndRecord. */ + ma_ios_session_category_none, /* Leave the session category unchanged. */ + ma_ios_session_category_ambient, /* AVAudioSessionCategoryAmbient */ + ma_ios_session_category_solo_ambient, /* AVAudioSessionCategorySoloAmbient */ + ma_ios_session_category_playback, /* AVAudioSessionCategoryPlayback */ + ma_ios_session_category_record, /* AVAudioSessionCategoryRecord */ + ma_ios_session_category_play_and_record, /* AVAudioSessionCategoryPlayAndRecord */ + ma_ios_session_category_multi_route /* AVAudioSessionCategoryMultiRoute */ +} ma_ios_session_category; + +/* iOS/tvOS/watchOS session category options */ +typedef enum +{ + ma_ios_session_category_option_mix_with_others = 0x01, /* AVAudioSessionCategoryOptionMixWithOthers */ + ma_ios_session_category_option_duck_others = 0x02, /* AVAudioSessionCategoryOptionDuckOthers */ + ma_ios_session_category_option_allow_bluetooth = 0x04, /* AVAudioSessionCategoryOptionAllowBluetooth */ + ma_ios_session_category_option_default_to_speaker = 0x08, /* AVAudioSessionCategoryOptionDefaultToSpeaker */ + ma_ios_session_category_option_interrupt_spoken_audio_and_mix_with_others = 0x11, /* AVAudioSessionCategoryOptionInterruptSpokenAudioAndMixWithOthers */ + ma_ios_session_category_option_allow_bluetooth_a2dp = 0x20, /* AVAudioSessionCategoryOptionAllowBluetoothA2DP */ + ma_ios_session_category_option_allow_air_play = 0x40, /* AVAudioSessionCategoryOptionAllowAirPlay */ +} ma_ios_session_category_option; + +/* OpenSL stream types. */ +typedef enum +{ + ma_opensl_stream_type_default = 0, /* Leaves the stream type unset. */ + ma_opensl_stream_type_voice, /* SL_ANDROID_STREAM_VOICE */ + ma_opensl_stream_type_system, /* SL_ANDROID_STREAM_SYSTEM */ + ma_opensl_stream_type_ring, /* SL_ANDROID_STREAM_RING */ + ma_opensl_stream_type_media, /* SL_ANDROID_STREAM_MEDIA */ + ma_opensl_stream_type_alarm, /* SL_ANDROID_STREAM_ALARM */ + ma_opensl_stream_type_notification /* SL_ANDROID_STREAM_NOTIFICATION */ +} ma_opensl_stream_type; + +/* OpenSL recording presets. */ +typedef enum +{ + ma_opensl_recording_preset_default = 0, /* Leaves the input preset unset. */ + ma_opensl_recording_preset_generic, /* SL_ANDROID_RECORDING_PRESET_GENERIC */ + ma_opensl_recording_preset_camcorder, /* SL_ANDROID_RECORDING_PRESET_CAMCORDER */ + ma_opensl_recording_preset_voice_recognition, /* SL_ANDROID_RECORDING_PRESET_VOICE_RECOGNITION */ + ma_opensl_recording_preset_voice_communication, /* SL_ANDROID_RECORDING_PRESET_VOICE_COMMUNICATION */ + ma_opensl_recording_preset_voice_unprocessed /* SL_ANDROID_RECORDING_PRESET_UNPROCESSED */ +} ma_opensl_recording_preset; + +/* WASAPI audio thread priority characteristics. */ +typedef enum +{ + ma_wasapi_usage_default = 0, + ma_wasapi_usage_games, + ma_wasapi_usage_pro_audio, +} ma_wasapi_usage; + +/* AAudio usage types. */ +typedef enum +{ + ma_aaudio_usage_default = 0, /* Leaves the usage type unset. */ + ma_aaudio_usage_media, /* AAUDIO_USAGE_MEDIA */ + ma_aaudio_usage_voice_communication, /* AAUDIO_USAGE_VOICE_COMMUNICATION */ + ma_aaudio_usage_voice_communication_signalling, /* AAUDIO_USAGE_VOICE_COMMUNICATION_SIGNALLING */ + ma_aaudio_usage_alarm, /* AAUDIO_USAGE_ALARM */ + ma_aaudio_usage_notification, /* AAUDIO_USAGE_NOTIFICATION */ + ma_aaudio_usage_notification_ringtone, /* AAUDIO_USAGE_NOTIFICATION_RINGTONE */ + ma_aaudio_usage_notification_event, /* AAUDIO_USAGE_NOTIFICATION_EVENT */ + ma_aaudio_usage_assistance_accessibility, /* AAUDIO_USAGE_ASSISTANCE_ACCESSIBILITY */ + ma_aaudio_usage_assistance_navigation_guidance, /* AAUDIO_USAGE_ASSISTANCE_NAVIGATION_GUIDANCE */ + ma_aaudio_usage_assistance_sonification, /* AAUDIO_USAGE_ASSISTANCE_SONIFICATION */ + ma_aaudio_usage_game, /* AAUDIO_USAGE_GAME */ + ma_aaudio_usage_assitant, /* AAUDIO_USAGE_ASSISTANT */ + ma_aaudio_usage_emergency, /* AAUDIO_SYSTEM_USAGE_EMERGENCY */ + ma_aaudio_usage_safety, /* AAUDIO_SYSTEM_USAGE_SAFETY */ + ma_aaudio_usage_vehicle_status, /* AAUDIO_SYSTEM_USAGE_VEHICLE_STATUS */ + ma_aaudio_usage_announcement /* AAUDIO_SYSTEM_USAGE_ANNOUNCEMENT */ +} ma_aaudio_usage; + +/* AAudio content types. */ +typedef enum +{ + ma_aaudio_content_type_default = 0, /* Leaves the content type unset. */ + ma_aaudio_content_type_speech, /* AAUDIO_CONTENT_TYPE_SPEECH */ + ma_aaudio_content_type_music, /* AAUDIO_CONTENT_TYPE_MUSIC */ + ma_aaudio_content_type_movie, /* AAUDIO_CONTENT_TYPE_MOVIE */ + ma_aaudio_content_type_sonification /* AAUDIO_CONTENT_TYPE_SONIFICATION */ +} ma_aaudio_content_type; + +/* AAudio input presets. */ +typedef enum +{ + ma_aaudio_input_preset_default = 0, /* Leaves the input preset unset. */ + ma_aaudio_input_preset_generic, /* AAUDIO_INPUT_PRESET_GENERIC */ + ma_aaudio_input_preset_camcorder, /* AAUDIO_INPUT_PRESET_CAMCORDER */ + ma_aaudio_input_preset_voice_recognition, /* AAUDIO_INPUT_PRESET_VOICE_RECOGNITION */ + ma_aaudio_input_preset_voice_communication, /* AAUDIO_INPUT_PRESET_VOICE_COMMUNICATION */ + ma_aaudio_input_preset_unprocessed, /* AAUDIO_INPUT_PRESET_UNPROCESSED */ + ma_aaudio_input_preset_voice_performance /* AAUDIO_INPUT_PRESET_VOICE_PERFORMANCE */ +} ma_aaudio_input_preset; + +typedef enum +{ + ma_aaudio_allow_capture_default = 0, /* Leaves the allowed capture policy unset. */ + ma_aaudio_allow_capture_by_all, /* AAUDIO_ALLOW_CAPTURE_BY_ALL */ + ma_aaudio_allow_capture_by_system, /* AAUDIO_ALLOW_CAPTURE_BY_SYSTEM */ + ma_aaudio_allow_capture_by_none /* AAUDIO_ALLOW_CAPTURE_BY_NONE */ +} ma_aaudio_allowed_capture_policy; + +typedef union +{ + ma_int64 counter; + double counterD; +} ma_timer; + +typedef union +{ + ma_wchar_win32 wasapi[64]; /* WASAPI uses a wchar_t string for identification. */ + ma_uint8 dsound[16]; /* DirectSound uses a GUID for identification. */ + /*UINT_PTR*/ ma_uint32 winmm; /* When creating a device, WinMM expects a Win32 UINT_PTR for device identification. In practice it's actually just a UINT. */ + char alsa[256]; /* ALSA uses a name string for identification. */ + char pulse[256]; /* PulseAudio uses a name string for identification. */ + int jack; /* JACK always uses default devices. */ + char coreaudio[256]; /* Core Audio uses a string for identification. */ + char sndio[256]; /* "snd/0", etc. */ + char audio4[256]; /* "/dev/audio", etc. */ + char oss[64]; /* "dev/dsp0", etc. "dev/dsp" for the default device. */ + ma_int32 aaudio; /* AAudio uses a 32-bit integer for identification. */ + ma_uint32 opensl; /* OpenSL|ES uses a 32-bit unsigned integer for identification. */ + char webaudio[32]; /* Web Audio always uses default devices for now, but if this changes it'll be a GUID. */ + union + { + int i; + char s[256]; + void* p; + } custom; /* The custom backend could be anything. Give them a few options. */ + int nullbackend; /* The null backend uses an integer for device IDs. */ +} ma_device_id; + +MA_API ma_bool32 ma_device_id_equal(const ma_device_id* pA, const ma_device_id* pB); + + +typedef struct ma_context_config ma_context_config; +typedef struct ma_device_config ma_device_config; +typedef struct ma_backend_callbacks ma_backend_callbacks; + +#define MA_DATA_FORMAT_FLAG_EXCLUSIVE_MODE (1U << 1) /* If set, this is supported in exclusive mode. Otherwise not natively supported by exclusive mode. */ + +#ifndef MA_MAX_DEVICE_NAME_LENGTH +#define MA_MAX_DEVICE_NAME_LENGTH 255 +#endif + +typedef struct +{ + /* Basic info. This is the only information guaranteed to be filled in during device enumeration. */ + ma_device_id id; + char name[MA_MAX_DEVICE_NAME_LENGTH + 1]; /* +1 for null terminator. */ + ma_bool32 isDefault; + + ma_uint32 nativeDataFormatCount; + struct + { + ma_format format; /* Sample format. If set to ma_format_unknown, all sample formats are supported. */ + ma_uint32 channels; /* If set to 0, all channels are supported. */ + ma_uint32 sampleRate; /* If set to 0, all sample rates are supported. */ + ma_uint32 flags; /* A combination of MA_DATA_FORMAT_FLAG_* flags. */ + } nativeDataFormats[/*ma_format_count * ma_standard_sample_rate_count * MA_MAX_CHANNELS*/ 64]; /* Not sure how big to make this. There can be *many* permutations for virtual devices which can support anything. */ +} ma_device_info; + +struct ma_device_config +{ + ma_device_type deviceType; + ma_uint32 sampleRate; + ma_uint32 periodSizeInFrames; + ma_uint32 periodSizeInMilliseconds; + ma_uint32 periods; + ma_performance_profile performanceProfile; + ma_bool8 noPreSilencedOutputBuffer; /* When set to true, the contents of the output buffer passed into the data callback will be left undefined rather than initialized to silence. */ + ma_bool8 noClip; /* When set to true, the contents of the output buffer passed into the data callback will not be clipped after returning. Only applies when the playback sample format is f32. */ + ma_bool8 noDisableDenormals; /* Do not disable denormals when firing the data callback. */ + ma_bool8 noFixedSizedCallback; /* Disables strict fixed-sized data callbacks. Setting this to true will result in the period size being treated only as a hint to the backend. This is an optimization for those who don't need fixed sized callbacks. */ + ma_device_data_proc dataCallback; + ma_device_notification_proc notificationCallback; + ma_stop_proc stopCallback; + void* pUserData; + ma_resampler_config resampling; + struct + { + const ma_device_id* pDeviceID; + ma_format format; + ma_uint32 channels; + ma_channel* pChannelMap; + ma_channel_mix_mode channelMixMode; + ma_bool32 calculateLFEFromSpatialChannels; /* When an output LFE channel is present, but no input LFE, set to true to set the output LFE to the average of all spatial channels (LR, FR, etc.). Ignored when an input LFE is present. */ + ma_share_mode shareMode; + } playback; + struct + { + const ma_device_id* pDeviceID; + ma_format format; + ma_uint32 channels; + ma_channel* pChannelMap; + ma_channel_mix_mode channelMixMode; + ma_bool32 calculateLFEFromSpatialChannels; /* When an output LFE channel is present, but no input LFE, set to true to set the output LFE to the average of all spatial channels (LR, FR, etc.). Ignored when an input LFE is present. */ + ma_share_mode shareMode; + } capture; + + struct + { + ma_wasapi_usage usage; /* When configured, uses Avrt APIs to set the thread characteristics. */ + ma_bool8 noAutoConvertSRC; /* When set to true, disables the use of AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM. */ + ma_bool8 noDefaultQualitySRC; /* When set to true, disables the use of AUDCLNT_STREAMFLAGS_SRC_DEFAULT_QUALITY. */ + ma_bool8 noAutoStreamRouting; /* Disables automatic stream routing. */ + ma_bool8 noHardwareOffloading; /* Disables WASAPI's hardware offloading feature. */ + ma_uint32 loopbackProcessID; /* The process ID to include or exclude for loopback mode. Set to 0 to capture audio from all processes. Ignored when an explicit device ID is specified. */ + ma_bool8 loopbackProcessExclude; /* When set to true, excludes the process specified by loopbackProcessID. By default, the process will be included. */ + } wasapi; + struct + { + ma_bool32 noMMap; /* Disables MMap mode. */ + ma_bool32 noAutoFormat; /* Opens the ALSA device with SND_PCM_NO_AUTO_FORMAT. */ + ma_bool32 noAutoChannels; /* Opens the ALSA device with SND_PCM_NO_AUTO_CHANNELS. */ + ma_bool32 noAutoResample; /* Opens the ALSA device with SND_PCM_NO_AUTO_RESAMPLE. */ + } alsa; + struct + { + const char* pStreamNamePlayback; + const char* pStreamNameCapture; + int channelMap; + } pulse; + struct + { + ma_bool32 allowNominalSampleRateChange; /* Desktop only. When enabled, allows changing of the sample rate at the operating system level. */ + } coreaudio; + struct + { + ma_opensl_stream_type streamType; + ma_opensl_recording_preset recordingPreset; + ma_bool32 enableCompatibilityWorkarounds; + } opensl; + struct + { + ma_aaudio_usage usage; + ma_aaudio_content_type contentType; + ma_aaudio_input_preset inputPreset; + ma_aaudio_allowed_capture_policy allowedCapturePolicy; + ma_bool32 noAutoStartAfterReroute; + ma_bool32 enableCompatibilityWorkarounds; + ma_bool32 allowSetBufferCapacity; + } aaudio; +}; + + +/* +The callback for handling device enumeration. This is fired from `ma_context_enumerate_devices()`. + + +Parameters +---------- +pContext (in) + A pointer to the context performing the enumeration. + +deviceType (in) + The type of the device being enumerated. This will always be either `ma_device_type_playback` or `ma_device_type_capture`. + +pInfo (in) + A pointer to a `ma_device_info` containing the ID and name of the enumerated device. Note that this will not include detailed information about the device, + only basic information (ID and name). The reason for this is that it would otherwise require opening the backend device to probe for the information which + is too inefficient. + +pUserData (in) + The user data pointer passed into `ma_context_enumerate_devices()`. +*/ +typedef ma_bool32 (* ma_enum_devices_callback_proc)(ma_context* pContext, ma_device_type deviceType, const ma_device_info* pInfo, void* pUserData); + + +/* +Describes some basic details about a playback or capture device. +*/ +typedef struct +{ + const ma_device_id* pDeviceID; + ma_share_mode shareMode; + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_channel channelMap[MA_MAX_CHANNELS]; + ma_uint32 periodSizeInFrames; + ma_uint32 periodSizeInMilliseconds; + ma_uint32 periodCount; +} ma_device_descriptor; + +/* +These are the callbacks required to be implemented for a backend. These callbacks are grouped into two parts: context and device. There is one context +to many devices. A device is created from a context. + +The general flow goes like this: + + 1) A context is created with `onContextInit()` + 1a) Available devices can be enumerated with `onContextEnumerateDevices()` if required. + 1b) Detailed information about a device can be queried with `onContextGetDeviceInfo()` if required. + 2) A device is created from the context that was created in the first step using `onDeviceInit()`, and optionally a device ID that was + selected from device enumeration via `onContextEnumerateDevices()`. + 3) A device is started or stopped with `onDeviceStart()` / `onDeviceStop()` + 4) Data is delivered to and from the device by the backend. This is always done based on the native format returned by the prior call + to `onDeviceInit()`. Conversion between the device's native format and the format requested by the application will be handled by + miniaudio internally. + +Initialization of the context is quite simple. You need to do any necessary initialization of internal objects and then output the +callbacks defined in this structure. + +Once the context has been initialized you can initialize a device. Before doing so, however, the application may want to know which +physical devices are available. This is where `onContextEnumerateDevices()` comes in. This is fairly simple. For each device, fire the +given callback with, at a minimum, the basic information filled out in `ma_device_info`. When the callback returns `MA_FALSE`, enumeration +needs to stop and the `onContextEnumerateDevices()` function returns with a success code. + +Detailed device information can be retrieved from a device ID using `onContextGetDeviceInfo()`. This takes as input the device type and ID, +and on output returns detailed information about the device in `ma_device_info`. The `onContextGetDeviceInfo()` callback must handle the +case when the device ID is NULL, in which case information about the default device needs to be retrieved. + +Once the context has been created and the device ID retrieved (if using anything other than the default device), the device can be created. +This is a little bit more complicated than initialization of the context due to its more complicated configuration. When initializing a +device, a duplex device may be requested. This means a separate data format needs to be specified for both playback and capture. On input, +the data format is set to what the application wants. On output it's set to the native format which should match as closely as possible to +the requested format. The conversion between the format requested by the application and the device's native format will be handled +internally by miniaudio. + +On input, if the sample format is set to `ma_format_unknown`, the backend is free to use whatever sample format it desires, so long as it's +supported by miniaudio. When the channel count is set to 0, the backend should use the device's native channel count. The same applies for +sample rate. For the channel map, the default should be used when `ma_channel_map_is_blank()` returns true (all channels set to +`MA_CHANNEL_NONE`). On input, the `periodSizeInFrames` or `periodSizeInMilliseconds` option should always be set. The backend should +inspect both of these variables. If `periodSizeInFrames` is set, it should take priority, otherwise it needs to be derived from the period +size in milliseconds (`periodSizeInMilliseconds`) and the sample rate, keeping in mind that the sample rate may be 0, in which case the +sample rate will need to be determined before calculating the period size in frames. On output, all members of the `ma_device_descriptor` +object should be set to a valid value, except for `periodSizeInMilliseconds` which is optional (`periodSizeInFrames` *must* be set). + +Starting and stopping of the device is done with `onDeviceStart()` and `onDeviceStop()` and should be self-explanatory. If the backend uses +asynchronous reading and writing, `onDeviceStart()` and `onDeviceStop()` should always be implemented. + +The handling of data delivery between the application and the device is the most complicated part of the process. To make this a bit +easier, some helper callbacks are available. If the backend uses a blocking read/write style of API, the `onDeviceRead()` and +`onDeviceWrite()` callbacks can optionally be implemented. These are blocking and work just like reading and writing from a file. If the +backend uses a callback for data delivery, that callback must call `ma_device_handle_backend_data_callback()` from within its callback. +This allows miniaudio to then process any necessary data conversion and then pass it to the miniaudio data callback. + +If the backend requires absolute flexibility with its data delivery, it can optionally implement the `onDeviceDataLoop()` callback +which will allow it to implement the logic that will run on the audio thread. This is much more advanced and is completely optional. + +The audio thread should run data delivery logic in a loop while `ma_device_get_state() == ma_device_state_started` and no errors have been +encountered. Do not start or stop the device here. That will be handled from outside the `onDeviceDataLoop()` callback. + +The invocation of the `onDeviceDataLoop()` callback will be handled by miniaudio. When you start the device, miniaudio will fire this +callback. When the device is stopped, the `ma_device_get_state() == ma_device_state_started` condition will fail and the loop will be terminated +which will then fall through to the part that stops the device. For an example on how to implement the `onDeviceDataLoop()` callback, +look at `ma_device_audio_thread__default_read_write()`. Implement the `onDeviceDataLoopWakeup()` callback if you need a mechanism to +wake up the audio thread. + +If the backend supports an optimized retrieval of device information from an initialized `ma_device` object, it should implement the +`onDeviceGetInfo()` callback. This is optional, in which case it will fall back to `onContextGetDeviceInfo()` which is less efficient. +*/ +struct ma_backend_callbacks +{ + ma_result (* onContextInit)(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks); + ma_result (* onContextUninit)(ma_context* pContext); + ma_result (* onContextEnumerateDevices)(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData); + ma_result (* onContextGetDeviceInfo)(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo); + ma_result (* onDeviceInit)(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture); + ma_result (* onDeviceUninit)(ma_device* pDevice); + ma_result (* onDeviceStart)(ma_device* pDevice); + ma_result (* onDeviceStop)(ma_device* pDevice); + ma_result (* onDeviceRead)(ma_device* pDevice, void* pFrames, ma_uint32 frameCount, ma_uint32* pFramesRead); + ma_result (* onDeviceWrite)(ma_device* pDevice, const void* pFrames, ma_uint32 frameCount, ma_uint32* pFramesWritten); + ma_result (* onDeviceDataLoop)(ma_device* pDevice); + ma_result (* onDeviceDataLoopWakeup)(ma_device* pDevice); + ma_result (* onDeviceGetInfo)(ma_device* pDevice, ma_device_type type, ma_device_info* pDeviceInfo); +}; + +struct ma_context_config +{ + ma_log* pLog; + ma_thread_priority threadPriority; + size_t threadStackSize; + void* pUserData; + ma_allocation_callbacks allocationCallbacks; + struct + { + ma_handle hWnd; /* HWND. Optional window handle to pass into SetCooperativeLevel(). Will default to the foreground window, and if that fails, the desktop window. */ + } dsound; + struct + { + ma_bool32 useVerboseDeviceEnumeration; + } alsa; + struct + { + const char* pApplicationName; + const char* pServerName; + ma_bool32 tryAutoSpawn; /* Enables autospawning of the PulseAudio daemon if necessary. */ + } pulse; + struct + { + ma_ios_session_category sessionCategory; + ma_uint32 sessionCategoryOptions; + ma_bool32 noAudioSessionActivate; /* iOS only. When set to true, does not perform an explicit [[AVAudioSession sharedInstace] setActive:true] on initialization. */ + ma_bool32 noAudioSessionDeactivate; /* iOS only. When set to true, does not perform an explicit [[AVAudioSession sharedInstace] setActive:false] on uninitialization. */ + } coreaudio; + struct + { + const char* pClientName; + ma_bool32 tryStartServer; + } jack; + ma_backend_callbacks custom; +}; + +/* WASAPI specific structure for some commands which must run on a common thread due to bugs in WASAPI. */ +typedef struct +{ + int code; + ma_event* pEvent; /* This will be signalled when the event is complete. */ + union + { + struct + { + int _unused; + } quit; + struct + { + ma_device_type deviceType; + void* pAudioClient; + void** ppAudioClientService; + ma_result* pResult; /* The result from creating the audio client service. */ + } createAudioClient; + struct + { + ma_device* pDevice; + ma_device_type deviceType; + } releaseAudioClient; + } data; +} ma_context_command__wasapi; + +struct ma_context +{ + ma_backend_callbacks callbacks; + ma_backend backend; /* DirectSound, ALSA, etc. */ + ma_log* pLog; + ma_log log; /* Only used if the log is owned by the context. The pLog member will be set to &log in this case. */ + ma_thread_priority threadPriority; + size_t threadStackSize; + void* pUserData; + ma_allocation_callbacks allocationCallbacks; + ma_mutex deviceEnumLock; /* Used to make ma_context_get_devices() thread safe. */ + ma_mutex deviceInfoLock; /* Used to make ma_context_get_device_info() thread safe. */ + ma_uint32 deviceInfoCapacity; /* Total capacity of pDeviceInfos. */ + ma_uint32 playbackDeviceInfoCount; + ma_uint32 captureDeviceInfoCount; + ma_device_info* pDeviceInfos; /* Playback devices first, then capture. */ + + union + { +#ifdef MA_SUPPORT_WASAPI + struct + { + ma_thread commandThread; + ma_mutex commandLock; + ma_semaphore commandSem; + ma_uint32 commandIndex; + ma_uint32 commandCount; + ma_context_command__wasapi commands[4]; + ma_handle hAvrt; + ma_proc AvSetMmThreadCharacteristicsA; + ma_proc AvRevertMmThreadcharacteristics; + ma_handle hMMDevapi; + ma_proc ActivateAudioInterfaceAsync; + } wasapi; +#endif +#ifdef MA_SUPPORT_DSOUND + struct + { + ma_handle hWnd; /* Can be null. */ + ma_handle hDSoundDLL; + ma_proc DirectSoundCreate; + ma_proc DirectSoundEnumerateA; + ma_proc DirectSoundCaptureCreate; + ma_proc DirectSoundCaptureEnumerateA; + } dsound; +#endif +#ifdef MA_SUPPORT_WINMM + struct + { + ma_handle hWinMM; + ma_proc waveOutGetNumDevs; + ma_proc waveOutGetDevCapsA; + ma_proc waveOutOpen; + ma_proc waveOutClose; + ma_proc waveOutPrepareHeader; + ma_proc waveOutUnprepareHeader; + ma_proc waveOutWrite; + ma_proc waveOutReset; + ma_proc waveInGetNumDevs; + ma_proc waveInGetDevCapsA; + ma_proc waveInOpen; + ma_proc waveInClose; + ma_proc waveInPrepareHeader; + ma_proc waveInUnprepareHeader; + ma_proc waveInAddBuffer; + ma_proc waveInStart; + ma_proc waveInReset; + } winmm; +#endif +#ifdef MA_SUPPORT_ALSA + struct + { + ma_handle asoundSO; + ma_proc snd_pcm_open; + ma_proc snd_pcm_close; + ma_proc snd_pcm_hw_params_sizeof; + ma_proc snd_pcm_hw_params_any; + ma_proc snd_pcm_hw_params_set_format; + ma_proc snd_pcm_hw_params_set_format_first; + ma_proc snd_pcm_hw_params_get_format_mask; + ma_proc snd_pcm_hw_params_set_channels; + ma_proc snd_pcm_hw_params_set_channels_near; + ma_proc snd_pcm_hw_params_set_channels_minmax; + ma_proc snd_pcm_hw_params_set_rate_resample; + ma_proc snd_pcm_hw_params_set_rate; + ma_proc snd_pcm_hw_params_set_rate_near; + ma_proc snd_pcm_hw_params_set_rate_minmax; + ma_proc snd_pcm_hw_params_set_buffer_size_near; + ma_proc snd_pcm_hw_params_set_periods_near; + ma_proc snd_pcm_hw_params_set_access; + ma_proc snd_pcm_hw_params_get_format; + ma_proc snd_pcm_hw_params_get_channels; + ma_proc snd_pcm_hw_params_get_channels_min; + ma_proc snd_pcm_hw_params_get_channels_max; + ma_proc snd_pcm_hw_params_get_rate; + ma_proc snd_pcm_hw_params_get_rate_min; + ma_proc snd_pcm_hw_params_get_rate_max; + ma_proc snd_pcm_hw_params_get_buffer_size; + ma_proc snd_pcm_hw_params_get_periods; + ma_proc snd_pcm_hw_params_get_access; + ma_proc snd_pcm_hw_params_test_format; + ma_proc snd_pcm_hw_params_test_channels; + ma_proc snd_pcm_hw_params_test_rate; + ma_proc snd_pcm_hw_params; + ma_proc snd_pcm_sw_params_sizeof; + ma_proc snd_pcm_sw_params_current; + ma_proc snd_pcm_sw_params_get_boundary; + ma_proc snd_pcm_sw_params_set_avail_min; + ma_proc snd_pcm_sw_params_set_start_threshold; + ma_proc snd_pcm_sw_params_set_stop_threshold; + ma_proc snd_pcm_sw_params; + ma_proc snd_pcm_format_mask_sizeof; + ma_proc snd_pcm_format_mask_test; + ma_proc snd_pcm_get_chmap; + ma_proc snd_pcm_state; + ma_proc snd_pcm_prepare; + ma_proc snd_pcm_start; + ma_proc snd_pcm_drop; + ma_proc snd_pcm_drain; + ma_proc snd_pcm_reset; + ma_proc snd_device_name_hint; + ma_proc snd_device_name_get_hint; + ma_proc snd_card_get_index; + ma_proc snd_device_name_free_hint; + ma_proc snd_pcm_mmap_begin; + ma_proc snd_pcm_mmap_commit; + ma_proc snd_pcm_recover; + ma_proc snd_pcm_readi; + ma_proc snd_pcm_writei; + ma_proc snd_pcm_avail; + ma_proc snd_pcm_avail_update; + ma_proc snd_pcm_wait; + ma_proc snd_pcm_nonblock; + ma_proc snd_pcm_info; + ma_proc snd_pcm_info_sizeof; + ma_proc snd_pcm_info_get_name; + ma_proc snd_pcm_poll_descriptors; + ma_proc snd_pcm_poll_descriptors_count; + ma_proc snd_pcm_poll_descriptors_revents; + ma_proc snd_config_update_free_global; + + ma_mutex internalDeviceEnumLock; + ma_bool32 useVerboseDeviceEnumeration; + } alsa; +#endif +#ifdef MA_SUPPORT_PULSEAUDIO + struct + { + ma_handle pulseSO; + ma_proc pa_mainloop_new; + ma_proc pa_mainloop_free; + ma_proc pa_mainloop_quit; + ma_proc pa_mainloop_get_api; + ma_proc pa_mainloop_iterate; + ma_proc pa_mainloop_wakeup; + ma_proc pa_threaded_mainloop_new; + ma_proc pa_threaded_mainloop_free; + ma_proc pa_threaded_mainloop_start; + ma_proc pa_threaded_mainloop_stop; + ma_proc pa_threaded_mainloop_lock; + ma_proc pa_threaded_mainloop_unlock; + ma_proc pa_threaded_mainloop_wait; + ma_proc pa_threaded_mainloop_signal; + ma_proc pa_threaded_mainloop_accept; + ma_proc pa_threaded_mainloop_get_retval; + ma_proc pa_threaded_mainloop_get_api; + ma_proc pa_threaded_mainloop_in_thread; + ma_proc pa_threaded_mainloop_set_name; + ma_proc pa_context_new; + ma_proc pa_context_unref; + ma_proc pa_context_connect; + ma_proc pa_context_disconnect; + ma_proc pa_context_set_state_callback; + ma_proc pa_context_get_state; + ma_proc pa_context_get_sink_info_list; + ma_proc pa_context_get_source_info_list; + ma_proc pa_context_get_sink_info_by_name; + ma_proc pa_context_get_source_info_by_name; + ma_proc pa_operation_unref; + ma_proc pa_operation_get_state; + ma_proc pa_channel_map_init_extend; + ma_proc pa_channel_map_valid; + ma_proc pa_channel_map_compatible; + ma_proc pa_stream_new; + ma_proc pa_stream_unref; + ma_proc pa_stream_connect_playback; + ma_proc pa_stream_connect_record; + ma_proc pa_stream_disconnect; + ma_proc pa_stream_get_state; + ma_proc pa_stream_get_sample_spec; + ma_proc pa_stream_get_channel_map; + ma_proc pa_stream_get_buffer_attr; + ma_proc pa_stream_set_buffer_attr; + ma_proc pa_stream_get_device_name; + ma_proc pa_stream_set_write_callback; + ma_proc pa_stream_set_read_callback; + ma_proc pa_stream_set_suspended_callback; + ma_proc pa_stream_set_moved_callback; + ma_proc pa_stream_is_suspended; + ma_proc pa_stream_flush; + ma_proc pa_stream_drain; + ma_proc pa_stream_is_corked; + ma_proc pa_stream_cork; + ma_proc pa_stream_trigger; + ma_proc pa_stream_begin_write; + ma_proc pa_stream_write; + ma_proc pa_stream_peek; + ma_proc pa_stream_drop; + ma_proc pa_stream_writable_size; + ma_proc pa_stream_readable_size; + + /*pa_mainloop**/ ma_ptr pMainLoop; + /*pa_context**/ ma_ptr pPulseContext; + char* pApplicationName; /* Set when the context is initialized. Used by devices for their local pa_context objects. */ + char* pServerName; /* Set when the context is initialized. Used by devices for their local pa_context objects. */ + } pulse; +#endif +#ifdef MA_SUPPORT_JACK + struct + { + ma_handle jackSO; + ma_proc jack_client_open; + ma_proc jack_client_close; + ma_proc jack_client_name_size; + ma_proc jack_set_process_callback; + ma_proc jack_set_buffer_size_callback; + ma_proc jack_on_shutdown; + ma_proc jack_get_sample_rate; + ma_proc jack_get_buffer_size; + ma_proc jack_get_ports; + ma_proc jack_activate; + ma_proc jack_deactivate; + ma_proc jack_connect; + ma_proc jack_port_register; + ma_proc jack_port_name; + ma_proc jack_port_get_buffer; + ma_proc jack_free; + + char* pClientName; + ma_bool32 tryStartServer; + } jack; +#endif +#ifdef MA_SUPPORT_COREAUDIO + struct + { + ma_handle hCoreFoundation; + ma_proc CFStringGetCString; + ma_proc CFRelease; + + ma_handle hCoreAudio; + ma_proc AudioObjectGetPropertyData; + ma_proc AudioObjectGetPropertyDataSize; + ma_proc AudioObjectSetPropertyData; + ma_proc AudioObjectAddPropertyListener; + ma_proc AudioObjectRemovePropertyListener; + + ma_handle hAudioUnit; /* Could possibly be set to AudioToolbox on later versions of macOS. */ + ma_proc AudioComponentFindNext; + ma_proc AudioComponentInstanceDispose; + ma_proc AudioComponentInstanceNew; + ma_proc AudioOutputUnitStart; + ma_proc AudioOutputUnitStop; + ma_proc AudioUnitAddPropertyListener; + ma_proc AudioUnitGetPropertyInfo; + ma_proc AudioUnitGetProperty; + ma_proc AudioUnitSetProperty; + ma_proc AudioUnitInitialize; + ma_proc AudioUnitRender; + + /*AudioComponent*/ ma_ptr component; + ma_bool32 noAudioSessionDeactivate; /* For tracking whether or not the iOS audio session should be explicitly deactivated. Set from the config in ma_context_init__coreaudio(). */ + } coreaudio; +#endif +#ifdef MA_SUPPORT_SNDIO + struct + { + ma_handle sndioSO; + ma_proc sio_open; + ma_proc sio_close; + ma_proc sio_setpar; + ma_proc sio_getpar; + ma_proc sio_getcap; + ma_proc sio_start; + ma_proc sio_stop; + ma_proc sio_read; + ma_proc sio_write; + ma_proc sio_onmove; + ma_proc sio_nfds; + ma_proc sio_pollfd; + ma_proc sio_revents; + ma_proc sio_eof; + ma_proc sio_setvol; + ma_proc sio_onvol; + ma_proc sio_initpar; + } sndio; +#endif +#ifdef MA_SUPPORT_AUDIO4 + struct + { + int _unused; + } audio4; +#endif +#ifdef MA_SUPPORT_OSS + struct + { + int versionMajor; + int versionMinor; + } oss; +#endif +#ifdef MA_SUPPORT_AAUDIO + struct + { + ma_handle hAAudio; /* libaaudio.so */ + ma_proc AAudio_createStreamBuilder; + ma_proc AAudioStreamBuilder_delete; + ma_proc AAudioStreamBuilder_setDeviceId; + ma_proc AAudioStreamBuilder_setDirection; + ma_proc AAudioStreamBuilder_setSharingMode; + ma_proc AAudioStreamBuilder_setFormat; + ma_proc AAudioStreamBuilder_setChannelCount; + ma_proc AAudioStreamBuilder_setSampleRate; + ma_proc AAudioStreamBuilder_setBufferCapacityInFrames; + ma_proc AAudioStreamBuilder_setFramesPerDataCallback; + ma_proc AAudioStreamBuilder_setDataCallback; + ma_proc AAudioStreamBuilder_setErrorCallback; + ma_proc AAudioStreamBuilder_setPerformanceMode; + ma_proc AAudioStreamBuilder_setUsage; + ma_proc AAudioStreamBuilder_setContentType; + ma_proc AAudioStreamBuilder_setInputPreset; + ma_proc AAudioStreamBuilder_setAllowedCapturePolicy; + ma_proc AAudioStreamBuilder_openStream; + ma_proc AAudioStream_close; + ma_proc AAudioStream_getState; + ma_proc AAudioStream_waitForStateChange; + ma_proc AAudioStream_getFormat; + ma_proc AAudioStream_getChannelCount; + ma_proc AAudioStream_getSampleRate; + ma_proc AAudioStream_getBufferCapacityInFrames; + ma_proc AAudioStream_getFramesPerDataCallback; + ma_proc AAudioStream_getFramesPerBurst; + ma_proc AAudioStream_requestStart; + ma_proc AAudioStream_requestStop; + ma_device_job_thread jobThread; /* For processing operations outside of the error callback, specifically device disconnections and rerouting. */ + } aaudio; +#endif +#ifdef MA_SUPPORT_OPENSL + struct + { + ma_handle libOpenSLES; + ma_handle SL_IID_ENGINE; + ma_handle SL_IID_AUDIOIODEVICECAPABILITIES; + ma_handle SL_IID_ANDROIDSIMPLEBUFFERQUEUE; + ma_handle SL_IID_RECORD; + ma_handle SL_IID_PLAY; + ma_handle SL_IID_OUTPUTMIX; + ma_handle SL_IID_ANDROIDCONFIGURATION; + ma_proc slCreateEngine; + } opensl; +#endif +#ifdef MA_SUPPORT_WEBAUDIO + struct + { + int _unused; + } webaudio; +#endif +#ifdef MA_SUPPORT_NULL + struct + { + int _unused; + } null_backend; +#endif + }; + + union + { +#if defined(MA_WIN32) + struct + { + /*HMODULE*/ ma_handle hOle32DLL; + ma_proc CoInitialize; + ma_proc CoInitializeEx; + ma_proc CoUninitialize; + ma_proc CoCreateInstance; + ma_proc CoTaskMemFree; + ma_proc PropVariantClear; + ma_proc StringFromGUID2; + + /*HMODULE*/ ma_handle hUser32DLL; + ma_proc GetForegroundWindow; + ma_proc GetDesktopWindow; + + /*HMODULE*/ ma_handle hAdvapi32DLL; + ma_proc RegOpenKeyExA; + ma_proc RegCloseKey; + ma_proc RegQueryValueExA; + + /*HRESULT*/ long CoInitializeResult; + } win32; +#endif +#ifdef MA_POSIX + struct + { + int _unused; + } posix; +#endif + int _unused; + }; +}; + +struct ma_device +{ + ma_context* pContext; + ma_device_type type; + ma_uint32 sampleRate; + ma_atomic_device_state state; /* The state of the device is variable and can change at any time on any thread. Must be used atomically. */ + ma_device_data_proc onData; /* Set once at initialization time and should not be changed after. */ + ma_device_notification_proc onNotification; /* Set once at initialization time and should not be changed after. */ + ma_stop_proc onStop; /* DEPRECATED. Use the notification callback instead. Set once at initialization time and should not be changed after. */ + void* pUserData; /* Application defined data. */ + ma_mutex startStopLock; + ma_event wakeupEvent; + ma_event startEvent; + ma_event stopEvent; + ma_thread thread; + ma_result workResult; /* This is set by the worker thread after it's finished doing a job. */ + ma_bool8 isOwnerOfContext; /* When set to true, uninitializing the device will also uninitialize the context. Set to true when NULL is passed into ma_device_init(). */ + ma_bool8 noPreSilencedOutputBuffer; + ma_bool8 noClip; + ma_bool8 noDisableDenormals; + ma_bool8 noFixedSizedCallback; + ma_atomic_float masterVolumeFactor; /* Linear 0..1. Can be read and written simultaneously by different threads. Must be used atomically. */ + ma_duplex_rb duplexRB; /* Intermediary buffer for duplex device on asynchronous backends. */ + struct + { + ma_resample_algorithm algorithm; + ma_resampling_backend_vtable* pBackendVTable; + void* pBackendUserData; + struct + { + ma_uint32 lpfOrder; + } linear; + } resampling; + struct + { + ma_device_id* pID; /* Set to NULL if using default ID, otherwise set to the address of "id". */ + ma_device_id id; /* If using an explicit device, will be set to a copy of the ID used for initialization. Otherwise cleared to 0. */ + char name[MA_MAX_DEVICE_NAME_LENGTH + 1]; /* Maybe temporary. Likely to be replaced with a query API. */ + ma_share_mode shareMode; /* Set to whatever was passed in when the device was initialized. */ + ma_format format; + ma_uint32 channels; + ma_channel channelMap[MA_MAX_CHANNELS]; + ma_format internalFormat; + ma_uint32 internalChannels; + ma_uint32 internalSampleRate; + ma_channel internalChannelMap[MA_MAX_CHANNELS]; + ma_uint32 internalPeriodSizeInFrames; + ma_uint32 internalPeriods; + ma_channel_mix_mode channelMixMode; + ma_bool32 calculateLFEFromSpatialChannels; + ma_data_converter converter; + void* pIntermediaryBuffer; /* For implementing fixed sized buffer callbacks. Will be null if using variable sized callbacks. */ + ma_uint32 intermediaryBufferCap; + ma_uint32 intermediaryBufferLen; /* How many valid frames are sitting in the intermediary buffer. */ + void* pInputCache; /* In external format. Can be null. */ + ma_uint64 inputCacheCap; + ma_uint64 inputCacheConsumed; + ma_uint64 inputCacheRemaining; + } playback; + struct + { + ma_device_id* pID; /* Set to NULL if using default ID, otherwise set to the address of "id". */ + ma_device_id id; /* If using an explicit device, will be set to a copy of the ID used for initialization. Otherwise cleared to 0. */ + char name[MA_MAX_DEVICE_NAME_LENGTH + 1]; /* Maybe temporary. Likely to be replaced with a query API. */ + ma_share_mode shareMode; /* Set to whatever was passed in when the device was initialized. */ + ma_format format; + ma_uint32 channels; + ma_channel channelMap[MA_MAX_CHANNELS]; + ma_format internalFormat; + ma_uint32 internalChannels; + ma_uint32 internalSampleRate; + ma_channel internalChannelMap[MA_MAX_CHANNELS]; + ma_uint32 internalPeriodSizeInFrames; + ma_uint32 internalPeriods; + ma_channel_mix_mode channelMixMode; + ma_bool32 calculateLFEFromSpatialChannels; + ma_data_converter converter; + void* pIntermediaryBuffer; /* For implementing fixed sized buffer callbacks. Will be null if using variable sized callbacks. */ + ma_uint32 intermediaryBufferCap; + ma_uint32 intermediaryBufferLen; /* How many valid frames are sitting in the intermediary buffer. */ + } capture; + + union + { +#ifdef MA_SUPPORT_WASAPI + struct + { + /*IAudioClient**/ ma_ptr pAudioClientPlayback; + /*IAudioClient**/ ma_ptr pAudioClientCapture; + /*IAudioRenderClient**/ ma_ptr pRenderClient; + /*IAudioCaptureClient**/ ma_ptr pCaptureClient; + /*IMMDeviceEnumerator**/ ma_ptr pDeviceEnumerator; /* Used for IMMNotificationClient notifications. Required for detecting default device changes. */ + ma_IMMNotificationClient notificationClient; + /*HANDLE*/ ma_handle hEventPlayback; /* Auto reset. Initialized to signaled. */ + /*HANDLE*/ ma_handle hEventCapture; /* Auto reset. Initialized to unsignaled. */ + ma_uint32 actualBufferSizeInFramesPlayback; /* Value from GetBufferSize(). internalPeriodSizeInFrames is not set to the _actual_ buffer size when low-latency shared mode is being used due to the way the IAudioClient3 API works. */ + ma_uint32 actualBufferSizeInFramesCapture; + ma_uint32 originalPeriodSizeInFrames; + ma_uint32 originalPeriodSizeInMilliseconds; + ma_uint32 originalPeriods; + ma_performance_profile originalPerformanceProfile; + ma_uint32 periodSizeInFramesPlayback; + ma_uint32 periodSizeInFramesCapture; + void* pMappedBufferCapture; + ma_uint32 mappedBufferCaptureCap; + ma_uint32 mappedBufferCaptureLen; + void* pMappedBufferPlayback; + ma_uint32 mappedBufferPlaybackCap; + ma_uint32 mappedBufferPlaybackLen; + ma_atomic_bool32 isStartedCapture; /* Can be read and written simultaneously across different threads. Must be used atomically, and must be 32-bit. */ + ma_atomic_bool32 isStartedPlayback; /* Can be read and written simultaneously across different threads. Must be used atomically, and must be 32-bit. */ + ma_uint32 loopbackProcessID; + ma_bool8 loopbackProcessExclude; + ma_bool8 noAutoConvertSRC; /* When set to true, disables the use of AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM. */ + ma_bool8 noDefaultQualitySRC; /* When set to true, disables the use of AUDCLNT_STREAMFLAGS_SRC_DEFAULT_QUALITY. */ + ma_bool8 noHardwareOffloading; + ma_bool8 allowCaptureAutoStreamRouting; + ma_bool8 allowPlaybackAutoStreamRouting; + ma_bool8 isDetachedPlayback; + ma_bool8 isDetachedCapture; + ma_wasapi_usage usage; + void* hAvrtHandle; + ma_mutex rerouteLock; + } wasapi; +#endif +#ifdef MA_SUPPORT_DSOUND + struct + { + /*LPDIRECTSOUND*/ ma_ptr pPlayback; + /*LPDIRECTSOUNDBUFFER*/ ma_ptr pPlaybackPrimaryBuffer; + /*LPDIRECTSOUNDBUFFER*/ ma_ptr pPlaybackBuffer; + /*LPDIRECTSOUNDCAPTURE*/ ma_ptr pCapture; + /*LPDIRECTSOUNDCAPTUREBUFFER*/ ma_ptr pCaptureBuffer; + } dsound; +#endif +#ifdef MA_SUPPORT_WINMM + struct + { + /*HWAVEOUT*/ ma_handle hDevicePlayback; + /*HWAVEIN*/ ma_handle hDeviceCapture; + /*HANDLE*/ ma_handle hEventPlayback; + /*HANDLE*/ ma_handle hEventCapture; + ma_uint32 fragmentSizeInFrames; + ma_uint32 iNextHeaderPlayback; /* [0,periods). Used as an index into pWAVEHDRPlayback. */ + ma_uint32 iNextHeaderCapture; /* [0,periods). Used as an index into pWAVEHDRCapture. */ + ma_uint32 headerFramesConsumedPlayback; /* The number of PCM frames consumed in the buffer in pWAVEHEADER[iNextHeader]. */ + ma_uint32 headerFramesConsumedCapture; /* ^^^ */ + /*WAVEHDR**/ ma_uint8* pWAVEHDRPlayback; /* One instantiation for each period. */ + /*WAVEHDR**/ ma_uint8* pWAVEHDRCapture; /* One instantiation for each period. */ + ma_uint8* pIntermediaryBufferPlayback; + ma_uint8* pIntermediaryBufferCapture; + ma_uint8* _pHeapData; /* Used internally and is used for the heap allocated data for the intermediary buffer and the WAVEHDR structures. */ + } winmm; +#endif +#ifdef MA_SUPPORT_ALSA + struct + { + /*snd_pcm_t**/ ma_ptr pPCMPlayback; + /*snd_pcm_t**/ ma_ptr pPCMCapture; + /*struct pollfd**/ void* pPollDescriptorsPlayback; + /*struct pollfd**/ void* pPollDescriptorsCapture; + int pollDescriptorCountPlayback; + int pollDescriptorCountCapture; + int wakeupfdPlayback; /* eventfd for waking up from poll() when the playback device is stopped. */ + int wakeupfdCapture; /* eventfd for waking up from poll() when the capture device is stopped. */ + ma_bool8 isUsingMMapPlayback; + ma_bool8 isUsingMMapCapture; + } alsa; +#endif +#ifdef MA_SUPPORT_PULSEAUDIO + struct + { + /*pa_mainloop**/ ma_ptr pMainLoop; + /*pa_context**/ ma_ptr pPulseContext; + /*pa_stream**/ ma_ptr pStreamPlayback; + /*pa_stream**/ ma_ptr pStreamCapture; + } pulse; +#endif +#ifdef MA_SUPPORT_JACK + struct + { + /*jack_client_t**/ ma_ptr pClient; + /*jack_port_t**/ ma_ptr* ppPortsPlayback; + /*jack_port_t**/ ma_ptr* ppPortsCapture; + float* pIntermediaryBufferPlayback; /* Typed as a float because JACK is always floating point. */ + float* pIntermediaryBufferCapture; + } jack; +#endif +#ifdef MA_SUPPORT_COREAUDIO + struct + { + ma_uint32 deviceObjectIDPlayback; + ma_uint32 deviceObjectIDCapture; + /*AudioUnit*/ ma_ptr audioUnitPlayback; + /*AudioUnit*/ ma_ptr audioUnitCapture; + /*AudioBufferList**/ ma_ptr pAudioBufferList; /* Only used for input devices. */ + ma_uint32 audioBufferCapInFrames; /* Only used for input devices. The capacity in frames of each buffer in pAudioBufferList. */ + ma_event stopEvent; + ma_uint32 originalPeriodSizeInFrames; + ma_uint32 originalPeriodSizeInMilliseconds; + ma_uint32 originalPeriods; + ma_performance_profile originalPerformanceProfile; + ma_bool32 isDefaultPlaybackDevice; + ma_bool32 isDefaultCaptureDevice; + ma_bool32 isSwitchingPlaybackDevice; /* <-- Set to true when the default device has changed and miniaudio is in the process of switching. */ + ma_bool32 isSwitchingCaptureDevice; /* <-- Set to true when the default device has changed and miniaudio is in the process of switching. */ + void* pNotificationHandler; /* Only used on mobile platforms. Obj-C object for handling route changes. */ + } coreaudio; +#endif +#ifdef MA_SUPPORT_SNDIO + struct + { + ma_ptr handlePlayback; + ma_ptr handleCapture; + ma_bool32 isStartedPlayback; + ma_bool32 isStartedCapture; + } sndio; +#endif +#ifdef MA_SUPPORT_AUDIO4 + struct + { + int fdPlayback; + int fdCapture; + } audio4; +#endif +#ifdef MA_SUPPORT_OSS + struct + { + int fdPlayback; + int fdCapture; + } oss; +#endif +#ifdef MA_SUPPORT_AAUDIO + struct + { + /*AAudioStream**/ ma_ptr pStreamPlayback; + /*AAudioStream**/ ma_ptr pStreamCapture; + ma_mutex rerouteLock; + ma_atomic_bool32 isTearingDown; + ma_aaudio_usage usage; + ma_aaudio_content_type contentType; + ma_aaudio_input_preset inputPreset; + ma_aaudio_allowed_capture_policy allowedCapturePolicy; + ma_bool32 noAutoStartAfterReroute; + } aaudio; +#endif +#ifdef MA_SUPPORT_OPENSL + struct + { + /*SLObjectItf*/ ma_ptr pOutputMixObj; + /*SLOutputMixItf*/ ma_ptr pOutputMix; + /*SLObjectItf*/ ma_ptr pAudioPlayerObj; + /*SLPlayItf*/ ma_ptr pAudioPlayer; + /*SLObjectItf*/ ma_ptr pAudioRecorderObj; + /*SLRecordItf*/ ma_ptr pAudioRecorder; + /*SLAndroidSimpleBufferQueueItf*/ ma_ptr pBufferQueuePlayback; + /*SLAndroidSimpleBufferQueueItf*/ ma_ptr pBufferQueueCapture; + ma_bool32 isDrainingCapture; + ma_bool32 isDrainingPlayback; + ma_uint32 currentBufferIndexPlayback; + ma_uint32 currentBufferIndexCapture; + ma_uint8* pBufferPlayback; /* This is malloc()'d and is used for storing audio data. Typed as ma_uint8 for easy offsetting. */ + ma_uint8* pBufferCapture; + } opensl; +#endif +#ifdef MA_SUPPORT_WEBAUDIO + struct + { + /* AudioWorklets path. */ + /* EMSCRIPTEN_WEBAUDIO_T */ int audioContext; + /* EMSCRIPTEN_WEBAUDIO_T */ int audioWorklet; + float* pIntermediaryBuffer; + void* pStackBuffer; + ma_result initResult; /* Set to MA_BUSY while initialization is in progress. */ + int deviceIndex; /* We store the device in a list on the JavaScript side. This is used to map our C object to the JS object. */ + } webaudio; +#endif +#ifdef MA_SUPPORT_NULL + struct + { + ma_thread deviceThread; + ma_event operationEvent; + ma_event operationCompletionEvent; + ma_semaphore operationSemaphore; + ma_uint32 operation; + ma_result operationResult; + ma_timer timer; + double priorRunTime; + ma_uint32 currentPeriodFramesRemainingPlayback; + ma_uint32 currentPeriodFramesRemainingCapture; + ma_uint64 lastProcessedFramePlayback; + ma_uint64 lastProcessedFrameCapture; + ma_atomic_bool32 isStarted; /* Read and written by multiple threads. Must be used atomically, and must be 32-bit for compiler compatibility. */ + } null_device; +#endif + }; +}; +#if defined(_MSC_VER) && !defined(__clang__) + #pragma warning(pop) +#elif defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))) + #pragma GCC diagnostic pop /* For ISO C99 doesn't support unnamed structs/unions [-Wpedantic] */ +#endif + +/* +Initializes a `ma_context_config` object. + + +Return Value +------------ +A `ma_context_config` initialized to defaults. + + +Remarks +------- +You must always use this to initialize the default state of the `ma_context_config` object. Not using this will result in your program breaking when miniaudio +is updated and new members are added to `ma_context_config`. It also sets logical defaults. + +You can override members of the returned object by changing it's members directly. + + +See Also +-------- +ma_context_init() +*/ +MA_API ma_context_config ma_context_config_init(void); + +/* +Initializes a context. + +The context is used for selecting and initializing an appropriate backend and to represent the backend at a more global level than that of an individual +device. There is one context to many devices, and a device is created from a context. A context is required to enumerate devices. + + +Parameters +---------- +backends (in, optional) + A list of backends to try initializing, in priority order. Can be NULL, in which case it uses default priority order. + +backendCount (in, optional) + The number of items in `backend`. Ignored if `backend` is NULL. + +pConfig (in, optional) + The context configuration. + +pContext (in) + A pointer to the context object being initialized. + + +Return Value +------------ +MA_SUCCESS if successful; any other error code otherwise. + + +Thread Safety +------------- +Unsafe. Do not call this function across multiple threads as some backends read and write to global state. + + +Remarks +------- +When `backends` is NULL, the default priority order will be used. Below is a list of backends in priority order: + + |-------------|-----------------------|--------------------------------------------------------| + | Name | Enum Name | Supported Operating Systems | + |-------------|-----------------------|--------------------------------------------------------| + | WASAPI | ma_backend_wasapi | Windows Vista+ | + | DirectSound | ma_backend_dsound | Windows XP+ | + | WinMM | ma_backend_winmm | Windows XP+ (may work on older versions, but untested) | + | Core Audio | ma_backend_coreaudio | macOS, iOS | + | ALSA | ma_backend_alsa | Linux | + | PulseAudio | ma_backend_pulseaudio | Cross Platform (disabled on Windows, BSD and Android) | + | JACK | ma_backend_jack | Cross Platform (disabled on BSD and Android) | + | sndio | ma_backend_sndio | OpenBSD | + | audio(4) | ma_backend_audio4 | NetBSD, OpenBSD | + | OSS | ma_backend_oss | FreeBSD | + | AAudio | ma_backend_aaudio | Android 8+ | + | OpenSL|ES | ma_backend_opensl | Android (API level 16+) | + | Web Audio | ma_backend_webaudio | Web (via Emscripten) | + | Null | ma_backend_null | Cross Platform (not used on Web) | + |-------------|-----------------------|--------------------------------------------------------| + +The context can be configured via the `pConfig` argument. The config object is initialized with `ma_context_config_init()`. Individual configuration settings +can then be set directly on the structure. Below are the members of the `ma_context_config` object. + + pLog + A pointer to the `ma_log` to post log messages to. Can be NULL if the application does not + require logging. See the `ma_log` API for details on how to use the logging system. + + threadPriority + The desired priority to use for the audio thread. Allowable values include the following: + + |--------------------------------------| + | Thread Priority | + |--------------------------------------| + | ma_thread_priority_idle | + | ma_thread_priority_lowest | + | ma_thread_priority_low | + | ma_thread_priority_normal | + | ma_thread_priority_high | + | ma_thread_priority_highest (default) | + | ma_thread_priority_realtime | + | ma_thread_priority_default | + |--------------------------------------| + + threadStackSize + The desired size of the stack for the audio thread. Defaults to the operating system's default. + + pUserData + A pointer to application-defined data. This can be accessed from the context object directly such as `context.pUserData`. + + allocationCallbacks + Structure containing custom allocation callbacks. Leaving this at defaults will cause it to use MA_MALLOC, MA_REALLOC and MA_FREE. These allocation + callbacks will be used for anything tied to the context, including devices. + + alsa.useVerboseDeviceEnumeration + ALSA will typically enumerate many different devices which can be intrusive and not user-friendly. To combat this, miniaudio will enumerate only unique + card/device pairs by default. The problem with this is that you lose a bit of flexibility and control. Setting alsa.useVerboseDeviceEnumeration makes + it so the ALSA backend includes all devices. Defaults to false. + + pulse.pApplicationName + PulseAudio only. The application name to use when initializing the PulseAudio context with `pa_context_new()`. + + pulse.pServerName + PulseAudio only. The name of the server to connect to with `pa_context_connect()`. + + pulse.tryAutoSpawn + PulseAudio only. Whether or not to try automatically starting the PulseAudio daemon. Defaults to false. If you set this to true, keep in mind that + miniaudio uses a trial and error method to find the most appropriate backend, and this will result in the PulseAudio daemon starting which may be + intrusive for the end user. + + coreaudio.sessionCategory + iOS only. The session category to use for the shared AudioSession instance. Below is a list of allowable values and their Core Audio equivalents. + + |-----------------------------------------|-------------------------------------| + | miniaudio Token | Core Audio Token | + |-----------------------------------------|-------------------------------------| + | ma_ios_session_category_ambient | AVAudioSessionCategoryAmbient | + | ma_ios_session_category_solo_ambient | AVAudioSessionCategorySoloAmbient | + | ma_ios_session_category_playback | AVAudioSessionCategoryPlayback | + | ma_ios_session_category_record | AVAudioSessionCategoryRecord | + | ma_ios_session_category_play_and_record | AVAudioSessionCategoryPlayAndRecord | + | ma_ios_session_category_multi_route | AVAudioSessionCategoryMultiRoute | + | ma_ios_session_category_none | AVAudioSessionCategoryAmbient | + | ma_ios_session_category_default | AVAudioSessionCategoryAmbient | + |-----------------------------------------|-------------------------------------| + + coreaudio.sessionCategoryOptions + iOS only. Session category options to use with the shared AudioSession instance. Below is a list of allowable values and their Core Audio equivalents. + + |---------------------------------------------------------------------------|------------------------------------------------------------------| + | miniaudio Token | Core Audio Token | + |---------------------------------------------------------------------------|------------------------------------------------------------------| + | ma_ios_session_category_option_mix_with_others | AVAudioSessionCategoryOptionMixWithOthers | + | ma_ios_session_category_option_duck_others | AVAudioSessionCategoryOptionDuckOthers | + | ma_ios_session_category_option_allow_bluetooth | AVAudioSessionCategoryOptionAllowBluetooth | + | ma_ios_session_category_option_default_to_speaker | AVAudioSessionCategoryOptionDefaultToSpeaker | + | ma_ios_session_category_option_interrupt_spoken_audio_and_mix_with_others | AVAudioSessionCategoryOptionInterruptSpokenAudioAndMixWithOthers | + | ma_ios_session_category_option_allow_bluetooth_a2dp | AVAudioSessionCategoryOptionAllowBluetoothA2DP | + | ma_ios_session_category_option_allow_air_play | AVAudioSessionCategoryOptionAllowAirPlay | + |---------------------------------------------------------------------------|------------------------------------------------------------------| + + coreaudio.noAudioSessionActivate + iOS only. When set to true, does not perform an explicit [[AVAudioSession sharedInstace] setActive:true] on initialization. + + coreaudio.noAudioSessionDeactivate + iOS only. When set to true, does not perform an explicit [[AVAudioSession sharedInstace] setActive:false] on uninitialization. + + jack.pClientName + The name of the client to pass to `jack_client_open()`. + + jack.tryStartServer + Whether or not to try auto-starting the JACK server. Defaults to false. + + +It is recommended that only a single context is active at any given time because it's a bulky data structure which performs run-time linking for the +relevant backends every time it's initialized. + +The location of the context cannot change throughout it's lifetime. Consider allocating the `ma_context` object with `malloc()` if this is an issue. The +reason for this is that a pointer to the context is stored in the `ma_device` structure. + + +Example 1 - Default Initialization +---------------------------------- +The example below shows how to initialize the context using the default configuration. + +```c +ma_context context; +ma_result result = ma_context_init(NULL, 0, NULL, &context); +if (result != MA_SUCCESS) { + // Error. +} +``` + + +Example 2 - Custom Configuration +-------------------------------- +The example below shows how to initialize the context using custom backend priorities and a custom configuration. In this hypothetical example, the program +wants to prioritize ALSA over PulseAudio on Linux. They also want to avoid using the WinMM backend on Windows because it's latency is too high. They also +want an error to be returned if no valid backend is available which they achieve by excluding the Null backend. + +For the configuration, the program wants to capture any log messages so they can, for example, route it to a log file and user interface. + +```c +ma_backend backends[] = { + ma_backend_alsa, + ma_backend_pulseaudio, + ma_backend_wasapi, + ma_backend_dsound +}; + +ma_log log; +ma_log_init(&log); +ma_log_register_callback(&log, ma_log_callback_init(my_log_callbac, pMyLogUserData)); + +ma_context_config config = ma_context_config_init(); +config.pLog = &log; // Specify a custom log object in the config so any logs that are posted from ma_context_init() are captured. + +ma_context context; +ma_result result = ma_context_init(backends, sizeof(backends)/sizeof(backends[0]), &config, &context); +if (result != MA_SUCCESS) { + // Error. + if (result == MA_NO_BACKEND) { + // Couldn't find an appropriate backend. + } +} + +// You could also attach a log callback post-initialization: +ma_log_register_callback(ma_context_get_log(&context), ma_log_callback_init(my_log_callback, pMyLogUserData)); +``` + + +See Also +-------- +ma_context_config_init() +ma_context_uninit() +*/ +MA_API ma_result ma_context_init(const ma_backend backends[], ma_uint32 backendCount, const ma_context_config* pConfig, ma_context* pContext); + +/* +Uninitializes a context. + + +Return Value +------------ +MA_SUCCESS if successful; any other error code otherwise. + + +Thread Safety +------------- +Unsafe. Do not call this function across multiple threads as some backends read and write to global state. + + +Remarks +------- +Results are undefined if you call this while any device created by this context is still active. + + +See Also +-------- +ma_context_init() +*/ +MA_API ma_result ma_context_uninit(ma_context* pContext); + +/* +Retrieves the size of the ma_context object. + +This is mainly for the purpose of bindings to know how much memory to allocate. +*/ +MA_API size_t ma_context_sizeof(void); + +/* +Retrieves a pointer to the log object associated with this context. + + +Remarks +------- +Pass the returned pointer to `ma_log_post()`, `ma_log_postv()` or `ma_log_postf()` to post a log +message. + +You can attach your own logging callback to the log with `ma_log_register_callback()` + + +Return Value +------------ +A pointer to the `ma_log` object that the context uses to post log messages. If some error occurs, +NULL will be returned. +*/ +MA_API ma_log* ma_context_get_log(ma_context* pContext); + +/* +Enumerates over every device (both playback and capture). + +This is a lower-level enumeration function to the easier to use `ma_context_get_devices()`. Use `ma_context_enumerate_devices()` if you would rather not incur +an internal heap allocation, or it simply suits your code better. + +Note that this only retrieves the ID and name/description of the device. The reason for only retrieving basic information is that it would otherwise require +opening the backend device in order to probe it for more detailed information which can be inefficient. Consider using `ma_context_get_device_info()` for this, +but don't call it from within the enumeration callback. + +Returning false from the callback will stop enumeration. Returning true will continue enumeration. + + +Parameters +---------- +pContext (in) + A pointer to the context performing the enumeration. + +callback (in) + The callback to fire for each enumerated device. + +pUserData (in) + A pointer to application-defined data passed to the callback. + + +Return Value +------------ +MA_SUCCESS if successful; any other error code otherwise. + + +Thread Safety +------------- +Safe. This is guarded using a simple mutex lock. + + +Remarks +------- +Do _not_ assume the first enumerated device of a given type is the default device. + +Some backends and platforms may only support default playback and capture devices. + +In general, you should not do anything complicated from within the callback. In particular, do not try initializing a device from within the callback. Also, +do not try to call `ma_context_get_device_info()` from within the callback. + +Consider using `ma_context_get_devices()` for a simpler and safer API, albeit at the expense of an internal heap allocation. + + +Example 1 - Simple Enumeration +------------------------------ +ma_bool32 ma_device_enum_callback(ma_context* pContext, ma_device_type deviceType, const ma_device_info* pInfo, void* pUserData) +{ + printf("Device Name: %s\n", pInfo->name); + return MA_TRUE; +} + +ma_result result = ma_context_enumerate_devices(&context, my_device_enum_callback, pMyUserData); +if (result != MA_SUCCESS) { + // Error. +} + + +See Also +-------- +ma_context_get_devices() +*/ +MA_API ma_result ma_context_enumerate_devices(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData); + +/* +Retrieves basic information about every active playback and/or capture device. + +This function will allocate memory internally for the device lists and return a pointer to them through the `ppPlaybackDeviceInfos` and `ppCaptureDeviceInfos` +parameters. If you do not want to incur the overhead of these allocations consider using `ma_context_enumerate_devices()` which will instead use a callback. + +Note that this only retrieves the ID and name/description of the device. The reason for only retrieving basic information is that it would otherwise require +opening the backend device in order to probe it for more detailed information which can be inefficient. Consider using `ma_context_get_device_info()` for this, +but don't call it from within the enumeration callback. + + +Parameters +---------- +pContext (in) + A pointer to the context performing the enumeration. + +ppPlaybackDeviceInfos (out) + A pointer to a pointer that will receive the address of a buffer containing the list of `ma_device_info` structures for playback devices. + +pPlaybackDeviceCount (out) + A pointer to an unsigned integer that will receive the number of playback devices. + +ppCaptureDeviceInfos (out) + A pointer to a pointer that will receive the address of a buffer containing the list of `ma_device_info` structures for capture devices. + +pCaptureDeviceCount (out) + A pointer to an unsigned integer that will receive the number of capture devices. + + +Return Value +------------ +MA_SUCCESS if successful; any other error code otherwise. + + +Thread Safety +------------- +Unsafe. Since each call to this function invalidates the pointers from the previous call, you should not be calling this simultaneously across multiple +threads. Instead, you need to make a copy of the returned data with your own higher level synchronization. + + +Remarks +------- +It is _not_ safe to assume the first device in the list is the default device. + +You can pass in NULL for the playback or capture lists in which case they'll be ignored. + +The returned pointers will become invalid upon the next call this this function, or when the context is uninitialized. Do not free the returned pointers. + + +See Also +-------- +ma_context_enumerate_devices() +*/ +MA_API ma_result ma_context_get_devices(ma_context* pContext, ma_device_info** ppPlaybackDeviceInfos, ma_uint32* pPlaybackDeviceCount, ma_device_info** ppCaptureDeviceInfos, ma_uint32* pCaptureDeviceCount); + +/* +Retrieves information about a device of the given type, with the specified ID and share mode. + + +Parameters +---------- +pContext (in) + A pointer to the context performing the query. + +deviceType (in) + The type of the device being queried. Must be either `ma_device_type_playback` or `ma_device_type_capture`. + +pDeviceID (in) + The ID of the device being queried. + +pDeviceInfo (out) + A pointer to the `ma_device_info` structure that will receive the device information. + + +Return Value +------------ +MA_SUCCESS if successful; any other error code otherwise. + + +Thread Safety +------------- +Safe. This is guarded using a simple mutex lock. + + +Remarks +------- +Do _not_ call this from within the `ma_context_enumerate_devices()` callback. + +It's possible for a device to have different information and capabilities depending on whether or not it's opened in shared or exclusive mode. For example, in +shared mode, WASAPI always uses floating point samples for mixing, but in exclusive mode it can be anything. Therefore, this function allows you to specify +which share mode you want information for. Note that not all backends and devices support shared or exclusive mode, in which case this function will fail if +the requested share mode is unsupported. + +This leaves pDeviceInfo unmodified in the result of an error. +*/ +MA_API ma_result ma_context_get_device_info(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo); + +/* +Determines if the given context supports loopback mode. + + +Parameters +---------- +pContext (in) + A pointer to the context getting queried. + + +Return Value +------------ +MA_TRUE if the context supports loopback mode; MA_FALSE otherwise. +*/ +MA_API ma_bool32 ma_context_is_loopback_supported(ma_context* pContext); + + + +/* +Initializes a device config with default settings. + + +Parameters +---------- +deviceType (in) + The type of the device this config is being initialized for. This must set to one of the following: + + |-------------------------| + | Device Type | + |-------------------------| + | ma_device_type_playback | + | ma_device_type_capture | + | ma_device_type_duplex | + | ma_device_type_loopback | + |-------------------------| + + +Return Value +------------ +A new device config object with default settings. You will typically want to adjust the config after this function returns. See remarks. + + +Thread Safety +------------- +Safe. + + +Callback Safety +--------------- +Safe, but don't try initializing a device in a callback. + + +Remarks +------- +The returned config will be initialized to defaults. You will normally want to customize a few variables before initializing the device. See Example 1 for a +typical configuration which sets the sample format, channel count, sample rate, data callback and user data. These are usually things you will want to change +before initializing the device. + +See `ma_device_init()` for details on specific configuration options. + + +Example 1 - Simple Configuration +-------------------------------- +The example below is what a program will typically want to configure for each device at a minimum. Notice how `ma_device_config_init()` is called first, and +then the returned object is modified directly. This is important because it ensures that your program continues to work as new configuration options are added +to the `ma_device_config` structure. + +```c +ma_device_config config = ma_device_config_init(ma_device_type_playback); +config.playback.format = ma_format_f32; +config.playback.channels = 2; +config.sampleRate = 48000; +config.dataCallback = ma_data_callback; +config.pUserData = pMyUserData; +``` + + +See Also +-------- +ma_device_init() +ma_device_init_ex() +*/ +MA_API ma_device_config ma_device_config_init(ma_device_type deviceType); + + +/* +Initializes a device. + +A device represents a physical audio device. The idea is you send or receive audio data from the device to either play it back through a speaker, or capture it +from a microphone. Whether or not you should send or receive data from the device (or both) depends on the type of device you are initializing which can be +playback, capture, full-duplex or loopback. (Note that loopback mode is only supported on select backends.) Sending and receiving audio data to and from the +device is done via a callback which is fired by miniaudio at periodic time intervals. + +The frequency at which data is delivered to and from a device depends on the size of its period. The size of the period can be defined in terms of PCM frames +or milliseconds, whichever is more convenient. Generally speaking, the smaller the period, the lower the latency at the expense of higher CPU usage and +increased risk of glitching due to the more frequent and granular data deliver intervals. The size of a period will depend on your requirements, but +miniaudio's defaults should work fine for most scenarios. If you're building a game you should leave this fairly small, whereas if you're building a simple +media player you can make it larger. Note that the period size you request is actually just a hint - miniaudio will tell the backend what you want, but the +backend is ultimately responsible for what it gives you. You cannot assume you will get exactly what you ask for. + +When delivering data to and from a device you need to make sure it's in the correct format which you can set through the device configuration. You just set the +format that you want to use and miniaudio will perform all of the necessary conversion for you internally. When delivering data to and from the callback you +can assume the format is the same as what you requested when you initialized the device. See Remarks for more details on miniaudio's data conversion pipeline. + + +Parameters +---------- +pContext (in, optional) + A pointer to the context that owns the device. This can be null, in which case it creates a default context internally. + +pConfig (in) + A pointer to the device configuration. Cannot be null. See remarks for details. + +pDevice (out) + A pointer to the device object being initialized. + + +Return Value +------------ +MA_SUCCESS if successful; any other error code otherwise. + + +Thread Safety +------------- +Unsafe. It is not safe to call this function simultaneously for different devices because some backends depend on and mutate global state. The same applies to +calling this at the same time as `ma_device_uninit()`. + + +Callback Safety +--------------- +Unsafe. It is not safe to call this inside any callback. + + +Remarks +------- +Setting `pContext` to NULL will result in miniaudio creating a default context internally and is equivalent to passing in a context initialized like so: + + ```c + ma_context_init(NULL, 0, NULL, &context); + ``` + +Do not set `pContext` to NULL if you are needing to open multiple devices. You can, however, use NULL when initializing the first device, and then use +device.pContext for the initialization of other devices. + +The device can be configured via the `pConfig` argument. The config object is initialized with `ma_device_config_init()`. Individual configuration settings can +then be set directly on the structure. Below are the members of the `ma_device_config` object. + + deviceType + Must be `ma_device_type_playback`, `ma_device_type_capture`, `ma_device_type_duplex` of `ma_device_type_loopback`. + + sampleRate + The sample rate, in hertz. The most common sample rates are 48000 and 44100. Setting this to 0 will use the device's native sample rate. + + periodSizeInFrames + The desired size of a period in PCM frames. If this is 0, `periodSizeInMilliseconds` will be used instead. If both are 0 the default buffer size will + be used depending on the selected performance profile. This value affects latency. See below for details. + + periodSizeInMilliseconds + The desired size of a period in milliseconds. If this is 0, `periodSizeInFrames` will be used instead. If both are 0 the default buffer size will be + used depending on the selected performance profile. The value affects latency. See below for details. + + periods + The number of periods making up the device's entire buffer. The total buffer size is `periodSizeInFrames` or `periodSizeInMilliseconds` multiplied by + this value. This is just a hint as backends will be the ones who ultimately decide how your periods will be configured. + + performanceProfile + A hint to miniaudio as to the performance requirements of your program. Can be either `ma_performance_profile_low_latency` (default) or + `ma_performance_profile_conservative`. This mainly affects the size of default buffers and can usually be left at its default value. + + noPreSilencedOutputBuffer + When set to true, the contents of the output buffer passed into the data callback will be left undefined. When set to false (default), the contents of + the output buffer will be cleared the zero. You can use this to avoid the overhead of zeroing out the buffer if you can guarantee that your data + callback will write to every sample in the output buffer, or if you are doing your own clearing. + + noClip + When set to true, the contents of the output buffer are left alone after returning and it will be left up to the backend itself to decide whether or + not to clip. When set to false (default), the contents of the output buffer passed into the data callback will be clipped after returning. This only + applies when the playback sample format is f32. + + noDisableDenormals + By default, miniaudio will disable denormals when the data callback is called. Setting this to true will prevent the disabling of denormals. + + noFixedSizedCallback + Allows miniaudio to fire the data callback with any frame count. When this is set to false (the default), the data callback will be fired with a + consistent frame count as specified by `periodSizeInFrames` or `periodSizeInMilliseconds`. When set to true, miniaudio will fire the callback with + whatever the backend requests, which could be anything. + + dataCallback + The callback to fire whenever data is ready to be delivered to or from the device. + + notificationCallback + The callback to fire when something has changed with the device, such as whether or not it has been started or stopped. + + pUserData + The user data pointer to use with the device. You can access this directly from the device object like `device.pUserData`. + + resampling.algorithm + The resampling algorithm to use when miniaudio needs to perform resampling between the rate specified by `sampleRate` and the device's native rate. The + default value is `ma_resample_algorithm_linear`, and the quality can be configured with `resampling.linear.lpfOrder`. + + resampling.pBackendVTable + A pointer to an optional vtable that can be used for plugging in a custom resampler. + + resampling.pBackendUserData + A pointer that will passed to callbacks in pBackendVTable. + + resampling.linear.lpfOrder + The linear resampler applies a low-pass filter as part of its processing for anti-aliasing. This setting controls the order of the filter. The higher + the value, the better the quality, in general. Setting this to 0 will disable low-pass filtering altogether. The maximum value is + `MA_MAX_FILTER_ORDER`. The default value is `min(4, MA_MAX_FILTER_ORDER)`. + + playback.pDeviceID + A pointer to a `ma_device_id` structure containing the ID of the playback device to initialize. Setting this NULL (default) will use the system's + default playback device. Retrieve the device ID from the `ma_device_info` structure, which can be retrieved using device enumeration. + + playback.format + The sample format to use for playback. When set to `ma_format_unknown` the device's native format will be used. This can be retrieved after + initialization from the device object directly with `device.playback.format`. + + playback.channels + The number of channels to use for playback. When set to 0 the device's native channel count will be used. This can be retrieved after initialization + from the device object directly with `device.playback.channels`. + + playback.pChannelMap + The channel map to use for playback. When left empty, the device's native channel map will be used. This can be retrieved after initialization from the + device object direct with `device.playback.pChannelMap`. When set, the buffer should contain `channels` items. + + playback.shareMode + The preferred share mode to use for playback. Can be either `ma_share_mode_shared` (default) or `ma_share_mode_exclusive`. Note that if you specify + exclusive mode, but it's not supported by the backend, initialization will fail. You can then fall back to shared mode if desired by changing this to + ma_share_mode_shared and reinitializing. + + capture.pDeviceID + A pointer to a `ma_device_id` structure containing the ID of the capture device to initialize. Setting this NULL (default) will use the system's + default capture device. Retrieve the device ID from the `ma_device_info` structure, which can be retrieved using device enumeration. + + capture.format + The sample format to use for capture. When set to `ma_format_unknown` the device's native format will be used. This can be retrieved after + initialization from the device object directly with `device.capture.format`. + + capture.channels + The number of channels to use for capture. When set to 0 the device's native channel count will be used. This can be retrieved after initialization + from the device object directly with `device.capture.channels`. + + capture.pChannelMap + The channel map to use for capture. When left empty, the device's native channel map will be used. This can be retrieved after initialization from the + device object direct with `device.capture.pChannelMap`. When set, the buffer should contain `channels` items. + + capture.shareMode + The preferred share mode to use for capture. Can be either `ma_share_mode_shared` (default) or `ma_share_mode_exclusive`. Note that if you specify + exclusive mode, but it's not supported by the backend, initialization will fail. You can then fall back to shared mode if desired by changing this to + ma_share_mode_shared and reinitializing. + + wasapi.noAutoConvertSRC + WASAPI only. When set to true, disables WASAPI's automatic resampling and forces the use of miniaudio's resampler. Defaults to false. + + wasapi.noDefaultQualitySRC + WASAPI only. Only used when `wasapi.noAutoConvertSRC` is set to false. When set to true, disables the use of `AUDCLNT_STREAMFLAGS_SRC_DEFAULT_QUALITY`. + You should usually leave this set to false, which is the default. + + wasapi.noAutoStreamRouting + WASAPI only. When set to true, disables automatic stream routing on the WASAPI backend. Defaults to false. + + wasapi.noHardwareOffloading + WASAPI only. When set to true, disables the use of WASAPI's hardware offloading feature. Defaults to false. + + alsa.noMMap + ALSA only. When set to true, disables MMap mode. Defaults to false. + + alsa.noAutoFormat + ALSA only. When set to true, disables ALSA's automatic format conversion by including the SND_PCM_NO_AUTO_FORMAT flag. Defaults to false. + + alsa.noAutoChannels + ALSA only. When set to true, disables ALSA's automatic channel conversion by including the SND_PCM_NO_AUTO_CHANNELS flag. Defaults to false. + + alsa.noAutoResample + ALSA only. When set to true, disables ALSA's automatic resampling by including the SND_PCM_NO_AUTO_RESAMPLE flag. Defaults to false. + + pulse.pStreamNamePlayback + PulseAudio only. Sets the stream name for playback. + + pulse.pStreamNameCapture + PulseAudio only. Sets the stream name for capture. + + pulse.channelMap + PulseAudio only. Sets the channel map that is requested from PulseAudio. See MA_PA_CHANNEL_MAP_* constants. Defaults to MA_PA_CHANNEL_MAP_AIFF. + + coreaudio.allowNominalSampleRateChange + Core Audio only. Desktop only. When enabled, allows the sample rate of the device to be changed at the operating system level. This + is disabled by default in order to prevent intrusive changes to the user's system. This is useful if you want to use a sample rate + that is known to be natively supported by the hardware thereby avoiding the cost of resampling. When set to true, miniaudio will + find the closest match between the sample rate requested in the device config and the sample rates natively supported by the + hardware. When set to false, the sample rate currently set by the operating system will always be used. + + opensl.streamType + OpenSL only. Explicitly sets the stream type. If left unset (`ma_opensl_stream_type_default`), the + stream type will be left unset. Think of this as the type of audio you're playing. + + opensl.recordingPreset + OpenSL only. Explicitly sets the type of recording your program will be doing. When left + unset, the recording preset will be left unchanged. + + aaudio.usage + AAudio only. Explicitly sets the nature of the audio the program will be consuming. When + left unset, the usage will be left unchanged. + + aaudio.contentType + AAudio only. Sets the content type. When left unset, the content type will be left unchanged. + + aaudio.inputPreset + AAudio only. Explicitly sets the type of recording your program will be doing. When left + unset, the input preset will be left unchanged. + + aaudio.noAutoStartAfterReroute + AAudio only. Controls whether or not the device should be automatically restarted after a + stream reroute. When set to false (default) the device will be restarted automatically; + otherwise the device will be stopped. + + +Once initialized, the device's config is immutable. If you need to change the config you will need to initialize a new device. + +After initializing the device it will be in a stopped state. To start it, use `ma_device_start()`. + +If both `periodSizeInFrames` and `periodSizeInMilliseconds` are set to zero, it will default to `MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_LOW_LATENCY` or +`MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_CONSERVATIVE`, depending on whether or not `performanceProfile` is set to `ma_performance_profile_low_latency` or +`ma_performance_profile_conservative`. + +If you request exclusive mode and the backend does not support it an error will be returned. For robustness, you may want to first try initializing the device +in exclusive mode, and then fall back to shared mode if required. Alternatively you can just request shared mode (the default if you leave it unset in the +config) which is the most reliable option. Some backends do not have a practical way of choosing whether or not the device should be exclusive or not (ALSA, +for example) in which case it just acts as a hint. Unless you have special requirements you should try avoiding exclusive mode as it's intrusive to the user. +Starting with Windows 10, miniaudio will use low-latency shared mode where possible which may make exclusive mode unnecessary. + +When sending or receiving data to/from a device, miniaudio will internally perform a format conversion to convert between the format specified by the config +and the format used internally by the backend. If you pass in 0 for the sample format, channel count, sample rate _and_ channel map, data transmission will run +on an optimized pass-through fast path. You can retrieve the format, channel count and sample rate by inspecting the `playback/capture.format`, +`playback/capture.channels` and `sampleRate` members of the device object. + +When compiling for UWP you must ensure you call this function on the main UI thread because the operating system may need to present the user with a message +asking for permissions. Please refer to the official documentation for ActivateAudioInterfaceAsync() for more information. + +ALSA Specific: When initializing the default device, requesting shared mode will try using the "dmix" device for playback and the "dsnoop" device for capture. +If these fail it will try falling back to the "hw" device. + + +Example 1 - Simple Initialization +--------------------------------- +This example shows how to initialize a simple playback device using a standard configuration. If you are just needing to do simple playback from the default +playback device this is usually all you need. + +```c +ma_device_config config = ma_device_config_init(ma_device_type_playback); +config.playback.format = ma_format_f32; +config.playback.channels = 2; +config.sampleRate = 48000; +config.dataCallback = ma_data_callback; +config.pMyUserData = pMyUserData; + +ma_device device; +ma_result result = ma_device_init(NULL, &config, &device); +if (result != MA_SUCCESS) { + // Error +} +``` + + +Example 2 - Advanced Initialization +----------------------------------- +This example shows how you might do some more advanced initialization. In this hypothetical example we want to control the latency by setting the buffer size +and period count. We also want to allow the user to be able to choose which device to output from which means we need a context so we can perform device +enumeration. + +```c +ma_context context; +ma_result result = ma_context_init(NULL, 0, NULL, &context); +if (result != MA_SUCCESS) { + // Error +} + +ma_device_info* pPlaybackDeviceInfos; +ma_uint32 playbackDeviceCount; +result = ma_context_get_devices(&context, &pPlaybackDeviceInfos, &playbackDeviceCount, NULL, NULL); +if (result != MA_SUCCESS) { + // Error +} + +// ... choose a device from pPlaybackDeviceInfos ... + +ma_device_config config = ma_device_config_init(ma_device_type_playback); +config.playback.pDeviceID = pMyChosenDeviceID; // <-- Get this from the `id` member of one of the `ma_device_info` objects returned by ma_context_get_devices(). +config.playback.format = ma_format_f32; +config.playback.channels = 2; +config.sampleRate = 48000; +config.dataCallback = ma_data_callback; +config.pUserData = pMyUserData; +config.periodSizeInMilliseconds = 10; +config.periods = 3; + +ma_device device; +result = ma_device_init(&context, &config, &device); +if (result != MA_SUCCESS) { + // Error +} +``` + + +See Also +-------- +ma_device_config_init() +ma_device_uninit() +ma_device_start() +ma_context_init() +ma_context_get_devices() +ma_context_enumerate_devices() +*/ +MA_API ma_result ma_device_init(ma_context* pContext, const ma_device_config* pConfig, ma_device* pDevice); + +/* +Initializes a device without a context, with extra parameters for controlling the configuration of the internal self-managed context. + +This is the same as `ma_device_init()`, only instead of a context being passed in, the parameters from `ma_context_init()` are passed in instead. This function +allows you to configure the internally created context. + + +Parameters +---------- +backends (in, optional) + A list of backends to try initializing, in priority order. Can be NULL, in which case it uses default priority order. + +backendCount (in, optional) + The number of items in `backend`. Ignored if `backend` is NULL. + +pContextConfig (in, optional) + The context configuration. + +pConfig (in) + A pointer to the device configuration. Cannot be null. See remarks for details. + +pDevice (out) + A pointer to the device object being initialized. + + +Return Value +------------ +MA_SUCCESS if successful; any other error code otherwise. + + +Thread Safety +------------- +Unsafe. It is not safe to call this function simultaneously for different devices because some backends depend on and mutate global state. The same applies to +calling this at the same time as `ma_device_uninit()`. + + +Callback Safety +--------------- +Unsafe. It is not safe to call this inside any callback. + + +Remarks +------- +You only need to use this function if you want to configure the context differently to its defaults. You should never use this function if you want to manage +your own context. + +See the documentation for `ma_context_init()` for information on the different context configuration options. + + +See Also +-------- +ma_device_init() +ma_device_uninit() +ma_device_config_init() +ma_context_init() +*/ +MA_API ma_result ma_device_init_ex(const ma_backend backends[], ma_uint32 backendCount, const ma_context_config* pContextConfig, const ma_device_config* pConfig, ma_device* pDevice); + +/* +Uninitializes a device. + +This will explicitly stop the device. You do not need to call `ma_device_stop()` beforehand, but it's harmless if you do. + + +Parameters +---------- +pDevice (in) + A pointer to the device to stop. + + +Return Value +------------ +Nothing + + +Thread Safety +------------- +Unsafe. As soon as this API is called the device should be considered undefined. + + +Callback Safety +--------------- +Unsafe. It is not safe to call this inside any callback. Doing this will result in a deadlock. + + +See Also +-------- +ma_device_init() +ma_device_stop() +*/ +MA_API void ma_device_uninit(ma_device* pDevice); + + +/* +Retrieves a pointer to the context that owns the given device. +*/ +MA_API ma_context* ma_device_get_context(ma_device* pDevice); + +/* +Helper function for retrieving the log object associated with the context that owns this device. +*/ +MA_API ma_log* ma_device_get_log(ma_device* pDevice); + + +/* +Retrieves information about the device. + + +Parameters +---------- +pDevice (in) + A pointer to the device whose information is being retrieved. + +type (in) + The device type. This parameter is required for duplex devices. When retrieving device + information, you are doing so for an individual playback or capture device. + +pDeviceInfo (out) + A pointer to the `ma_device_info` that will receive the device information. + + +Return Value +------------ +MA_SUCCESS if successful; any other error code otherwise. + + +Thread Safety +------------- +Unsafe. This should be considered unsafe because it may be calling into the backend which may or +may not be safe. + + +Callback Safety +--------------- +Unsafe. You should avoid calling this in the data callback because it may call into the backend +which may or may not be safe. +*/ +MA_API ma_result ma_device_get_info(ma_device* pDevice, ma_device_type type, ma_device_info* pDeviceInfo); + + +/* +Retrieves the name of the device. + + +Parameters +---------- +pDevice (in) + A pointer to the device whose information is being retrieved. + +type (in) + The device type. This parameter is required for duplex devices. When retrieving device + information, you are doing so for an individual playback or capture device. + +pName (out) + A pointer to the buffer that will receive the name. + +nameCap (in) + The capacity of the output buffer, including space for the null terminator. + +pLengthNotIncludingNullTerminator (out, optional) + A pointer to the variable that will receive the length of the name, not including the null + terminator. + + +Return Value +------------ +MA_SUCCESS if successful; any other error code otherwise. + + +Thread Safety +------------- +Unsafe. This should be considered unsafe because it may be calling into the backend which may or +may not be safe. + + +Callback Safety +--------------- +Unsafe. You should avoid calling this in the data callback because it may call into the backend +which may or may not be safe. + + +Remarks +------- +If the name does not fully fit into the output buffer, it'll be truncated. You can pass in NULL to +`pName` if you want to first get the length of the name for the purpose of memory allocation of the +output buffer. Allocating a buffer of size `MA_MAX_DEVICE_NAME_LENGTH + 1` should be enough for +most cases and will avoid the need for the inefficiency of calling this function twice. + +This is implemented in terms of `ma_device_get_info()`. +*/ +MA_API ma_result ma_device_get_name(ma_device* pDevice, ma_device_type type, char* pName, size_t nameCap, size_t* pLengthNotIncludingNullTerminator); + + +/* +Starts the device. For playback devices this begins playback. For capture devices it begins recording. + +Use `ma_device_stop()` to stop the device. + + +Parameters +---------- +pDevice (in) + A pointer to the device to start. + + +Return Value +------------ +MA_SUCCESS if successful; any other error code otherwise. + + +Thread Safety +------------- +Safe. It's safe to call this from any thread with the exception of the callback thread. + + +Callback Safety +--------------- +Unsafe. It is not safe to call this inside any callback. + + +Remarks +------- +For a playback device, this will retrieve an initial chunk of audio data from the client before returning. The reason for this is to ensure there is valid +audio data in the buffer, which needs to be done before the device begins playback. + +This API waits until the backend device has been started for real by the worker thread. It also waits on a mutex for thread-safety. + +Do not call this in any callback. + + +See Also +-------- +ma_device_stop() +*/ +MA_API ma_result ma_device_start(ma_device* pDevice); + +/* +Stops the device. For playback devices this stops playback. For capture devices it stops recording. + +Use `ma_device_start()` to start the device again. + + +Parameters +---------- +pDevice (in) + A pointer to the device to stop. + + +Return Value +------------ +MA_SUCCESS if successful; any other error code otherwise. + + +Thread Safety +------------- +Safe. It's safe to call this from any thread with the exception of the callback thread. + + +Callback Safety +--------------- +Unsafe. It is not safe to call this inside any callback. Doing this will result in a deadlock. + + +Remarks +------- +This API needs to wait on the worker thread to stop the backend device properly before returning. It also waits on a mutex for thread-safety. In addition, some +backends need to wait for the device to finish playback/recording of the current fragment which can take some time (usually proportionate to the buffer size +that was specified at initialization time). + +Backends are required to either pause the stream in-place or drain the buffer if pausing is not possible. The reason for this is that stopping the device and +the resuming it with ma_device_start() (which you might do when your program loses focus) may result in a situation where those samples are never output to the +speakers or received from the microphone which can in turn result in de-syncs. + +Do not call this in any callback. + + +See Also +-------- +ma_device_start() +*/ +MA_API ma_result ma_device_stop(ma_device* pDevice); + +/* +Determines whether or not the device is started. + + +Parameters +---------- +pDevice (in) + A pointer to the device whose start state is being retrieved. + + +Return Value +------------ +True if the device is started, false otherwise. + + +Thread Safety +------------- +Safe. If another thread calls `ma_device_start()` or `ma_device_stop()` at this same time as this function is called, there's a very small chance the return +value will be out of sync. + + +Callback Safety +--------------- +Safe. This is implemented as a simple accessor. + + +See Also +-------- +ma_device_start() +ma_device_stop() +*/ +MA_API ma_bool32 ma_device_is_started(const ma_device* pDevice); + + +/* +Retrieves the state of the device. + + +Parameters +---------- +pDevice (in) + A pointer to the device whose state is being retrieved. + + +Return Value +------------ +The current state of the device. The return value will be one of the following: + + +-------------------------------+------------------------------------------------------------------------------+ + | ma_device_state_uninitialized | Will only be returned if the device is in the middle of initialization. | + +-------------------------------+------------------------------------------------------------------------------+ + | ma_device_state_stopped | The device is stopped. The initial state of the device after initialization. | + +-------------------------------+------------------------------------------------------------------------------+ + | ma_device_state_started | The device started and requesting and/or delivering audio data. | + +-------------------------------+------------------------------------------------------------------------------+ + | ma_device_state_starting | The device is in the process of starting. | + +-------------------------------+------------------------------------------------------------------------------+ + | ma_device_state_stopping | The device is in the process of stopping. | + +-------------------------------+------------------------------------------------------------------------------+ + + +Thread Safety +------------- +Safe. This is implemented as a simple accessor. Note that if the device is started or stopped at the same time as this function is called, +there's a possibility the return value could be out of sync. See remarks. + + +Callback Safety +--------------- +Safe. This is implemented as a simple accessor. + + +Remarks +------- +The general flow of a devices state goes like this: + + ``` + ma_device_init() -> ma_device_state_uninitialized -> ma_device_state_stopped + ma_device_start() -> ma_device_state_starting -> ma_device_state_started + ma_device_stop() -> ma_device_state_stopping -> ma_device_state_stopped + ``` + +When the state of the device is changed with `ma_device_start()` or `ma_device_stop()` at this same time as this function is called, the +value returned by this function could potentially be out of sync. If this is significant to your program you need to implement your own +synchronization. +*/ +MA_API ma_device_state ma_device_get_state(const ma_device* pDevice); + + +/* +Performs post backend initialization routines for setting up internal data conversion. + +This should be called whenever the backend is initialized. The only time this should be called from +outside of miniaudio is if you're implementing a custom backend, and you would only do it if you +are reinitializing the backend due to rerouting or reinitializing for some reason. + + +Parameters +---------- +pDevice [in] + A pointer to the device. + +deviceType [in] + The type of the device that was just reinitialized. + +pPlaybackDescriptor [in] + The descriptor of the playback device containing the internal data format and buffer sizes. + +pPlaybackDescriptor [in] + The descriptor of the capture device containing the internal data format and buffer sizes. + + +Return Value +------------ +MA_SUCCESS if successful; any other error otherwise. + + +Thread Safety +------------- +Unsafe. This will be reinitializing internal data converters which may be in use by another thread. + + +Callback Safety +--------------- +Unsafe. This will be reinitializing internal data converters which may be in use by the callback. + + +Remarks +------- +For a duplex device, you can call this for only one side of the system. This is why the deviceType +is specified as a parameter rather than deriving it from the device. + +You do not need to call this manually unless you are doing a custom backend, in which case you need +only do it if you're manually performing rerouting or reinitialization. +*/ +MA_API ma_result ma_device_post_init(ma_device* pDevice, ma_device_type deviceType, const ma_device_descriptor* pPlaybackDescriptor, const ma_device_descriptor* pCaptureDescriptor); + + +/* +Sets the master volume factor for the device. + +The volume factor must be between 0 (silence) and 1 (full volume). Use `ma_device_set_master_volume_db()` to use decibel notation, where 0 is full volume and +values less than 0 decreases the volume. + + +Parameters +---------- +pDevice (in) + A pointer to the device whose volume is being set. + +volume (in) + The new volume factor. Must be >= 0. + + +Return Value +------------ +MA_SUCCESS if the volume was set successfully. +MA_INVALID_ARGS if pDevice is NULL. +MA_INVALID_ARGS if volume is negative. + + +Thread Safety +------------- +Safe. This just sets a local member of the device object. + + +Callback Safety +--------------- +Safe. If you set the volume in the data callback, that data written to the output buffer will have the new volume applied. + + +Remarks +------- +This applies the volume factor across all channels. + +This does not change the operating system's volume. It only affects the volume for the given `ma_device` object's audio stream. + + +See Also +-------- +ma_device_get_master_volume() +ma_device_set_master_volume_db() +ma_device_get_master_volume_db() +*/ +MA_API ma_result ma_device_set_master_volume(ma_device* pDevice, float volume); + +/* +Retrieves the master volume factor for the device. + + +Parameters +---------- +pDevice (in) + A pointer to the device whose volume factor is being retrieved. + +pVolume (in) + A pointer to the variable that will receive the volume factor. The returned value will be in the range of [0, 1]. + + +Return Value +------------ +MA_SUCCESS if successful. +MA_INVALID_ARGS if pDevice is NULL. +MA_INVALID_ARGS if pVolume is NULL. + + +Thread Safety +------------- +Safe. This just a simple member retrieval. + + +Callback Safety +--------------- +Safe. + + +Remarks +------- +If an error occurs, `*pVolume` will be set to 0. + + +See Also +-------- +ma_device_set_master_volume() +ma_device_set_master_volume_gain_db() +ma_device_get_master_volume_gain_db() +*/ +MA_API ma_result ma_device_get_master_volume(ma_device* pDevice, float* pVolume); + +/* +Sets the master volume for the device as gain in decibels. + +A gain of 0 is full volume, whereas a gain of < 0 will decrease the volume. + + +Parameters +---------- +pDevice (in) + A pointer to the device whose gain is being set. + +gainDB (in) + The new volume as gain in decibels. Must be less than or equal to 0, where 0 is full volume and anything less than 0 decreases the volume. + + +Return Value +------------ +MA_SUCCESS if the volume was set successfully. +MA_INVALID_ARGS if pDevice is NULL. +MA_INVALID_ARGS if the gain is > 0. + + +Thread Safety +------------- +Safe. This just sets a local member of the device object. + + +Callback Safety +--------------- +Safe. If you set the volume in the data callback, that data written to the output buffer will have the new volume applied. + + +Remarks +------- +This applies the gain across all channels. + +This does not change the operating system's volume. It only affects the volume for the given `ma_device` object's audio stream. + + +See Also +-------- +ma_device_get_master_volume_gain_db() +ma_device_set_master_volume() +ma_device_get_master_volume() +*/ +MA_API ma_result ma_device_set_master_volume_db(ma_device* pDevice, float gainDB); + +/* +Retrieves the master gain in decibels. + + +Parameters +---------- +pDevice (in) + A pointer to the device whose gain is being retrieved. + +pGainDB (in) + A pointer to the variable that will receive the gain in decibels. The returned value will be <= 0. + + +Return Value +------------ +MA_SUCCESS if successful. +MA_INVALID_ARGS if pDevice is NULL. +MA_INVALID_ARGS if pGainDB is NULL. + + +Thread Safety +------------- +Safe. This just a simple member retrieval. + + +Callback Safety +--------------- +Safe. + + +Remarks +------- +If an error occurs, `*pGainDB` will be set to 0. + + +See Also +-------- +ma_device_set_master_volume_db() +ma_device_set_master_volume() +ma_device_get_master_volume() +*/ +MA_API ma_result ma_device_get_master_volume_db(ma_device* pDevice, float* pGainDB); + + +/* +Called from the data callback of asynchronous backends to allow miniaudio to process the data and fire the miniaudio data callback. + + +Parameters +---------- +pDevice (in) + A pointer to device whose processing the data callback. + +pOutput (out) + A pointer to the buffer that will receive the output PCM frame data. On a playback device this must not be NULL. On a duplex device + this can be NULL, in which case pInput must not be NULL. + +pInput (in) + A pointer to the buffer containing input PCM frame data. On a capture device this must not be NULL. On a duplex device this can be + NULL, in which case `pOutput` must not be NULL. + +frameCount (in) + The number of frames being processed. + + +Return Value +------------ +MA_SUCCESS if successful; any other result code otherwise. + + +Thread Safety +------------- +This function should only ever be called from the internal data callback of the backend. It is safe to call this simultaneously between a +playback and capture device in duplex setups. + + +Callback Safety +--------------- +Do not call this from the miniaudio data callback. It should only ever be called from the internal data callback of the backend. + + +Remarks +------- +If both `pOutput` and `pInput` are NULL, and error will be returned. In duplex scenarios, both `pOutput` and `pInput` can be non-NULL, in +which case `pInput` will be processed first, followed by `pOutput`. + +If you are implementing a custom backend, and that backend uses a callback for data delivery, you'll need to call this from inside that +callback. +*/ +MA_API ma_result ma_device_handle_backend_data_callback(ma_device* pDevice, void* pOutput, const void* pInput, ma_uint32 frameCount); + + +/* +Calculates an appropriate buffer size from a descriptor, native sample rate and performance profile. + +This function is used by backends for helping determine an appropriately sized buffer to use with +the device depending on the values of `periodSizeInFrames` and `periodSizeInMilliseconds` in the +`pDescriptor` object. Since buffer size calculations based on time depends on the sample rate, a +best guess at the device's native sample rate is also required which is where `nativeSampleRate` +comes in. In addition, the performance profile is also needed for cases where both the period size +in frames and milliseconds are both zero. + + +Parameters +---------- +pDescriptor (in) + A pointer to device descriptor whose `periodSizeInFrames` and `periodSizeInMilliseconds` members + will be used for the calculation of the buffer size. + +nativeSampleRate (in) + The device's native sample rate. This is only ever used when the `periodSizeInFrames` member of + `pDescriptor` is zero. In this case, `periodSizeInMilliseconds` will be used instead, in which + case a sample rate is required to convert to a size in frames. + +performanceProfile (in) + When both the `periodSizeInFrames` and `periodSizeInMilliseconds` members of `pDescriptor` are + zero, miniaudio will fall back to a buffer size based on the performance profile. The profile + to use for this calculation is determine by this parameter. + + +Return Value +------------ +The calculated buffer size in frames. + + +Thread Safety +------------- +This is safe so long as nothing modifies `pDescriptor` at the same time. However, this function +should only ever be called from within the backend's device initialization routine and therefore +shouldn't have any multithreading concerns. + + +Callback Safety +--------------- +This is safe to call within the data callback, but there is no reason to ever do this. + + +Remarks +------- +If `nativeSampleRate` is zero, this function will fall back to `pDescriptor->sampleRate`. If that +is also zero, `MA_DEFAULT_SAMPLE_RATE` will be used instead. +*/ +MA_API ma_uint32 ma_calculate_buffer_size_in_frames_from_descriptor(const ma_device_descriptor* pDescriptor, ma_uint32 nativeSampleRate, ma_performance_profile performanceProfile); + + + +/* +Retrieves a friendly name for a backend. +*/ +MA_API const char* ma_get_backend_name(ma_backend backend); + +/* +Retrieves the backend enum from the given name. +*/ +MA_API ma_result ma_get_backend_from_name(const char* pBackendName, ma_backend* pBackend); + +/* +Determines whether or not the given backend is available by the compilation environment. +*/ +MA_API ma_bool32 ma_is_backend_enabled(ma_backend backend); + +/* +Retrieves compile-time enabled backends. + + +Parameters +---------- +pBackends (out, optional) + A pointer to the buffer that will receive the enabled backends. Set to NULL to retrieve the backend count. Setting + the capacity of the buffer to `MA_BACKEND_COUNT` will guarantee it's large enough for all backends. + +backendCap (in) + The capacity of the `pBackends` buffer. + +pBackendCount (out) + A pointer to the variable that will receive the enabled backend count. + + +Return Value +------------ +MA_SUCCESS if successful. +MA_INVALID_ARGS if `pBackendCount` is NULL. +MA_NO_SPACE if the capacity of `pBackends` is not large enough. + +If `MA_NO_SPACE` is returned, the `pBackends` buffer will be filled with `*pBackendCount` values. + + +Thread Safety +------------- +Safe. + + +Callback Safety +--------------- +Safe. + + +Remarks +------- +If you want to retrieve the number of backends so you can determine the capacity of `pBackends` buffer, you can call +this function with `pBackends` set to NULL. + +This will also enumerate the null backend. If you don't want to include this you need to check for `ma_backend_null` +when you enumerate over the returned backends and handle it appropriately. Alternatively, you can disable it at +compile time with `MA_NO_NULL`. + +The returned backends are determined based on compile time settings, not the platform it's currently running on. For +example, PulseAudio will be returned if it was enabled at compile time, even when the user doesn't actually have +PulseAudio installed. + + +Example 1 +--------- +The example below retrieves the enabled backend count using a fixed sized buffer allocated on the stack. The buffer is +given a capacity of `MA_BACKEND_COUNT` which will guarantee it'll be large enough to store all available backends. +Since `MA_BACKEND_COUNT` is always a relatively small value, this should be suitable for most scenarios. + +``` +ma_backend enabledBackends[MA_BACKEND_COUNT]; +size_t enabledBackendCount; + +result = ma_get_enabled_backends(enabledBackends, MA_BACKEND_COUNT, &enabledBackendCount); +if (result != MA_SUCCESS) { + // Failed to retrieve enabled backends. Should never happen in this example since all inputs are valid. +} +``` + + +See Also +-------- +ma_is_backend_enabled() +*/ +MA_API ma_result ma_get_enabled_backends(ma_backend* pBackends, size_t backendCap, size_t* pBackendCount); + +/* +Determines whether or not loopback mode is support by a backend. +*/ +MA_API ma_bool32 ma_is_loopback_supported(ma_backend backend); + +#endif /* MA_NO_DEVICE_IO */ + + + +/************************************************************************************************************************************************************ + +Utilities + +************************************************************************************************************************************************************/ + +/* +Calculates a buffer size in milliseconds (rounded up) from the specified number of frames and sample rate. +*/ +MA_API ma_uint32 ma_calculate_buffer_size_in_milliseconds_from_frames(ma_uint32 bufferSizeInFrames, ma_uint32 sampleRate); + +/* +Calculates a buffer size in frames from the specified number of milliseconds and sample rate. +*/ +MA_API ma_uint32 ma_calculate_buffer_size_in_frames_from_milliseconds(ma_uint32 bufferSizeInMilliseconds, ma_uint32 sampleRate); + +/* +Copies PCM frames from one buffer to another. +*/ +MA_API void ma_copy_pcm_frames(void* dst, const void* src, ma_uint64 frameCount, ma_format format, ma_uint32 channels); + +/* +Copies silent frames into the given buffer. + +Remarks +------- +For all formats except `ma_format_u8`, the output buffer will be filled with 0. For `ma_format_u8` it will be filled with 128. The reason for this is that it +makes more sense for the purpose of mixing to initialize it to the center point. +*/ +MA_API void ma_silence_pcm_frames(void* p, ma_uint64 frameCount, ma_format format, ma_uint32 channels); + + +/* +Offsets a pointer by the specified number of PCM frames. +*/ +MA_API void* ma_offset_pcm_frames_ptr(void* p, ma_uint64 offsetInFrames, ma_format format, ma_uint32 channels); +MA_API const void* ma_offset_pcm_frames_const_ptr(const void* p, ma_uint64 offsetInFrames, ma_format format, ma_uint32 channels); +static MA_INLINE float* ma_offset_pcm_frames_ptr_f32(float* p, ma_uint64 offsetInFrames, ma_uint32 channels) { return (float*)ma_offset_pcm_frames_ptr((void*)p, offsetInFrames, ma_format_f32, channels); } +static MA_INLINE const float* ma_offset_pcm_frames_const_ptr_f32(const float* p, ma_uint64 offsetInFrames, ma_uint32 channels) { return (const float*)ma_offset_pcm_frames_const_ptr((const void*)p, offsetInFrames, ma_format_f32, channels); } + + +/* +Clips samples. +*/ +MA_API void ma_clip_samples_u8(ma_uint8* pDst, const ma_int16* pSrc, ma_uint64 count); +MA_API void ma_clip_samples_s16(ma_int16* pDst, const ma_int32* pSrc, ma_uint64 count); +MA_API void ma_clip_samples_s24(ma_uint8* pDst, const ma_int64* pSrc, ma_uint64 count); +MA_API void ma_clip_samples_s32(ma_int32* pDst, const ma_int64* pSrc, ma_uint64 count); +MA_API void ma_clip_samples_f32(float* pDst, const float* pSrc, ma_uint64 count); +MA_API void ma_clip_pcm_frames(void* pDst, const void* pSrc, ma_uint64 frameCount, ma_format format, ma_uint32 channels); + +/* +Helper for applying a volume factor to samples. + +Note that the source and destination buffers can be the same, in which case it'll perform the operation in-place. +*/ +MA_API void ma_copy_and_apply_volume_factor_u8(ma_uint8* pSamplesOut, const ma_uint8* pSamplesIn, ma_uint64 sampleCount, float factor); +MA_API void ma_copy_and_apply_volume_factor_s16(ma_int16* pSamplesOut, const ma_int16* pSamplesIn, ma_uint64 sampleCount, float factor); +MA_API void ma_copy_and_apply_volume_factor_s24(void* pSamplesOut, const void* pSamplesIn, ma_uint64 sampleCount, float factor); +MA_API void ma_copy_and_apply_volume_factor_s32(ma_int32* pSamplesOut, const ma_int32* pSamplesIn, ma_uint64 sampleCount, float factor); +MA_API void ma_copy_and_apply_volume_factor_f32(float* pSamplesOut, const float* pSamplesIn, ma_uint64 sampleCount, float factor); + +MA_API void ma_apply_volume_factor_u8(ma_uint8* pSamples, ma_uint64 sampleCount, float factor); +MA_API void ma_apply_volume_factor_s16(ma_int16* pSamples, ma_uint64 sampleCount, float factor); +MA_API void ma_apply_volume_factor_s24(void* pSamples, ma_uint64 sampleCount, float factor); +MA_API void ma_apply_volume_factor_s32(ma_int32* pSamples, ma_uint64 sampleCount, float factor); +MA_API void ma_apply_volume_factor_f32(float* pSamples, ma_uint64 sampleCount, float factor); + +MA_API void ma_copy_and_apply_volume_factor_pcm_frames_u8(ma_uint8* pFramesOut, const ma_uint8* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float factor); +MA_API void ma_copy_and_apply_volume_factor_pcm_frames_s16(ma_int16* pFramesOut, const ma_int16* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float factor); +MA_API void ma_copy_and_apply_volume_factor_pcm_frames_s24(void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float factor); +MA_API void ma_copy_and_apply_volume_factor_pcm_frames_s32(ma_int32* pFramesOut, const ma_int32* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float factor); +MA_API void ma_copy_and_apply_volume_factor_pcm_frames_f32(float* pFramesOut, const float* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float factor); +MA_API void ma_copy_and_apply_volume_factor_pcm_frames(void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount, ma_format format, ma_uint32 channels, float factor); + +MA_API void ma_apply_volume_factor_pcm_frames_u8(ma_uint8* pFrames, ma_uint64 frameCount, ma_uint32 channels, float factor); +MA_API void ma_apply_volume_factor_pcm_frames_s16(ma_int16* pFrames, ma_uint64 frameCount, ma_uint32 channels, float factor); +MA_API void ma_apply_volume_factor_pcm_frames_s24(void* pFrames, ma_uint64 frameCount, ma_uint32 channels, float factor); +MA_API void ma_apply_volume_factor_pcm_frames_s32(ma_int32* pFrames, ma_uint64 frameCount, ma_uint32 channels, float factor); +MA_API void ma_apply_volume_factor_pcm_frames_f32(float* pFrames, ma_uint64 frameCount, ma_uint32 channels, float factor); +MA_API void ma_apply_volume_factor_pcm_frames(void* pFrames, ma_uint64 frameCount, ma_format format, ma_uint32 channels, float factor); + +MA_API void ma_copy_and_apply_volume_factor_per_channel_f32(float* pFramesOut, const float* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float* pChannelGains); + + +MA_API void ma_copy_and_apply_volume_and_clip_samples_u8(ma_uint8* pDst, const ma_int16* pSrc, ma_uint64 count, float volume); +MA_API void ma_copy_and_apply_volume_and_clip_samples_s16(ma_int16* pDst, const ma_int32* pSrc, ma_uint64 count, float volume); +MA_API void ma_copy_and_apply_volume_and_clip_samples_s24(ma_uint8* pDst, const ma_int64* pSrc, ma_uint64 count, float volume); +MA_API void ma_copy_and_apply_volume_and_clip_samples_s32(ma_int32* pDst, const ma_int64* pSrc, ma_uint64 count, float volume); +MA_API void ma_copy_and_apply_volume_and_clip_samples_f32(float* pDst, const float* pSrc, ma_uint64 count, float volume); +MA_API void ma_copy_and_apply_volume_and_clip_pcm_frames(void* pDst, const void* pSrc, ma_uint64 frameCount, ma_format format, ma_uint32 channels, float volume); + + +/* +Helper for converting a linear factor to gain in decibels. +*/ +MA_API float ma_volume_linear_to_db(float factor); + +/* +Helper for converting gain in decibels to a linear factor. +*/ +MA_API float ma_volume_db_to_linear(float gain); + + +/* +Mixes the specified number of frames in floating point format with a volume factor. + +This will run on an optimized path when the volume is equal to 1. +*/ +MA_API ma_result ma_mix_pcm_frames_f32(float* pDst, const float* pSrc, ma_uint64 frameCount, ma_uint32 channels, float volume); + + + + +/************************************************************************************************************************************************************ + +VFS +=== + +The VFS object (virtual file system) is what's used to customize file access. This is useful in cases where stdio FILE* based APIs may not be entirely +appropriate for a given situation. + +************************************************************************************************************************************************************/ +typedef void ma_vfs; +typedef ma_handle ma_vfs_file; + +typedef enum +{ + MA_OPEN_MODE_READ = 0x00000001, + MA_OPEN_MODE_WRITE = 0x00000002 +} ma_open_mode_flags; + +typedef enum +{ + ma_seek_origin_start, + ma_seek_origin_current, + ma_seek_origin_end /* Not used by decoders. */ +} ma_seek_origin; + +typedef struct +{ + ma_uint64 sizeInBytes; +} ma_file_info; + +typedef struct +{ + ma_result (* onOpen) (ma_vfs* pVFS, const char* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile); + ma_result (* onOpenW)(ma_vfs* pVFS, const wchar_t* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile); + ma_result (* onClose)(ma_vfs* pVFS, ma_vfs_file file); + ma_result (* onRead) (ma_vfs* pVFS, ma_vfs_file file, void* pDst, size_t sizeInBytes, size_t* pBytesRead); + ma_result (* onWrite)(ma_vfs* pVFS, ma_vfs_file file, const void* pSrc, size_t sizeInBytes, size_t* pBytesWritten); + ma_result (* onSeek) (ma_vfs* pVFS, ma_vfs_file file, ma_int64 offset, ma_seek_origin origin); + ma_result (* onTell) (ma_vfs* pVFS, ma_vfs_file file, ma_int64* pCursor); + ma_result (* onInfo) (ma_vfs* pVFS, ma_vfs_file file, ma_file_info* pInfo); +} ma_vfs_callbacks; + +MA_API ma_result ma_vfs_open(ma_vfs* pVFS, const char* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile); +MA_API ma_result ma_vfs_open_w(ma_vfs* pVFS, const wchar_t* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile); +MA_API ma_result ma_vfs_close(ma_vfs* pVFS, ma_vfs_file file); +MA_API ma_result ma_vfs_read(ma_vfs* pVFS, ma_vfs_file file, void* pDst, size_t sizeInBytes, size_t* pBytesRead); +MA_API ma_result ma_vfs_write(ma_vfs* pVFS, ma_vfs_file file, const void* pSrc, size_t sizeInBytes, size_t* pBytesWritten); +MA_API ma_result ma_vfs_seek(ma_vfs* pVFS, ma_vfs_file file, ma_int64 offset, ma_seek_origin origin); +MA_API ma_result ma_vfs_tell(ma_vfs* pVFS, ma_vfs_file file, ma_int64* pCursor); +MA_API ma_result ma_vfs_info(ma_vfs* pVFS, ma_vfs_file file, ma_file_info* pInfo); +MA_API ma_result ma_vfs_open_and_read_file(ma_vfs* pVFS, const char* pFilePath, void** ppData, size_t* pSize, const ma_allocation_callbacks* pAllocationCallbacks); + +typedef struct +{ + ma_vfs_callbacks cb; + ma_allocation_callbacks allocationCallbacks; /* Only used for the wchar_t version of open() on non-Windows platforms. */ +} ma_default_vfs; + +MA_API ma_result ma_default_vfs_init(ma_default_vfs* pVFS, const ma_allocation_callbacks* pAllocationCallbacks); + + + +typedef ma_result (* ma_read_proc)(void* pUserData, void* pBufferOut, size_t bytesToRead, size_t* pBytesRead); +typedef ma_result (* ma_seek_proc)(void* pUserData, ma_int64 offset, ma_seek_origin origin); +typedef ma_result (* ma_tell_proc)(void* pUserData, ma_int64* pCursor); + + + +#if !defined(MA_NO_DECODING) || !defined(MA_NO_ENCODING) +typedef enum +{ + ma_encoding_format_unknown = 0, + ma_encoding_format_wav, + ma_encoding_format_flac, + ma_encoding_format_mp3, + ma_encoding_format_vorbis +} ma_encoding_format; +#endif + +/************************************************************************************************************************************************************ + +Decoding +======== + +Decoders are independent of the main device API. Decoding APIs can be called freely inside the device's data callback, but they are not thread safe unless +you do your own synchronization. + +************************************************************************************************************************************************************/ +#ifndef MA_NO_DECODING +typedef struct ma_decoder ma_decoder; + + +typedef struct +{ + ma_format preferredFormat; + ma_uint32 seekPointCount; /* Set to > 0 to generate a seektable if the decoding backend supports it. */ +} ma_decoding_backend_config; + +MA_API ma_decoding_backend_config ma_decoding_backend_config_init(ma_format preferredFormat, ma_uint32 seekPointCount); + + +typedef struct +{ + ma_result (* onInit )(void* pUserData, ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend); + ma_result (* onInitFile )(void* pUserData, const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend); /* Optional. */ + ma_result (* onInitFileW )(void* pUserData, const wchar_t* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend); /* Optional. */ + ma_result (* onInitMemory)(void* pUserData, const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend); /* Optional. */ + void (* onUninit )(void* pUserData, ma_data_source* pBackend, const ma_allocation_callbacks* pAllocationCallbacks); +} ma_decoding_backend_vtable; + + +typedef ma_result (* ma_decoder_read_proc)(ma_decoder* pDecoder, void* pBufferOut, size_t bytesToRead, size_t* pBytesRead); /* Returns the number of bytes read. */ +typedef ma_result (* ma_decoder_seek_proc)(ma_decoder* pDecoder, ma_int64 byteOffset, ma_seek_origin origin); +typedef ma_result (* ma_decoder_tell_proc)(ma_decoder* pDecoder, ma_int64* pCursor); + +typedef struct +{ + ma_format format; /* Set to 0 or ma_format_unknown to use the stream's internal format. */ + ma_uint32 channels; /* Set to 0 to use the stream's internal channels. */ + ma_uint32 sampleRate; /* Set to 0 to use the stream's internal sample rate. */ + ma_channel* pChannelMap; + ma_channel_mix_mode channelMixMode; + ma_dither_mode ditherMode; + ma_resampler_config resampling; + ma_allocation_callbacks allocationCallbacks; + ma_encoding_format encodingFormat; + ma_uint32 seekPointCount; /* When set to > 0, specifies the number of seek points to use for the generation of a seek table. Not all decoding backends support this. */ + ma_decoding_backend_vtable** ppCustomBackendVTables; + ma_uint32 customBackendCount; + void* pCustomBackendUserData; +} ma_decoder_config; + +struct ma_decoder +{ + ma_data_source_base ds; + ma_data_source* pBackend; /* The decoding backend we'll be pulling data from. */ + const ma_decoding_backend_vtable* pBackendVTable; /* The vtable for the decoding backend. This needs to be stored so we can access the onUninit() callback. */ + void* pBackendUserData; + ma_decoder_read_proc onRead; + ma_decoder_seek_proc onSeek; + ma_decoder_tell_proc onTell; + void* pUserData; + ma_uint64 readPointerInPCMFrames; /* In output sample rate. Used for keeping track of how many frames are available for decoding. */ + ma_format outputFormat; + ma_uint32 outputChannels; + ma_uint32 outputSampleRate; + ma_data_converter converter; /* Data conversion is achieved by running frames through this. */ + void* pInputCache; /* In input format. Can be null if it's not needed. */ + ma_uint64 inputCacheCap; /* The capacity of the input cache. */ + ma_uint64 inputCacheConsumed; /* The number of frames that have been consumed in the cache. Used for determining the next valid frame. */ + ma_uint64 inputCacheRemaining; /* The number of valid frames remaining in the cache. */ + ma_allocation_callbacks allocationCallbacks; + union + { + struct + { + ma_vfs* pVFS; + ma_vfs_file file; + } vfs; + struct + { + const ma_uint8* pData; + size_t dataSize; + size_t currentReadPos; + } memory; /* Only used for decoders that were opened against a block of memory. */ + } data; +}; + +MA_API ma_decoder_config ma_decoder_config_init(ma_format outputFormat, ma_uint32 outputChannels, ma_uint32 outputSampleRate); +MA_API ma_decoder_config ma_decoder_config_init_default(void); + +MA_API ma_result ma_decoder_init(ma_decoder_read_proc onRead, ma_decoder_seek_proc onSeek, void* pUserData, const ma_decoder_config* pConfig, ma_decoder* pDecoder); +MA_API ma_result ma_decoder_init_memory(const void* pData, size_t dataSize, const ma_decoder_config* pConfig, ma_decoder* pDecoder); +MA_API ma_result ma_decoder_init_vfs(ma_vfs* pVFS, const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder); +MA_API ma_result ma_decoder_init_vfs_w(ma_vfs* pVFS, const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder); +MA_API ma_result ma_decoder_init_file(const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder); +MA_API ma_result ma_decoder_init_file_w(const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder); + +/* +Uninitializes a decoder. +*/ +MA_API ma_result ma_decoder_uninit(ma_decoder* pDecoder); + +/* +Reads PCM frames from the given decoder. + +This is not thread safe without your own synchronization. +*/ +MA_API ma_result ma_decoder_read_pcm_frames(ma_decoder* pDecoder, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); + +/* +Seeks to a PCM frame based on its absolute index. + +This is not thread safe without your own synchronization. +*/ +MA_API ma_result ma_decoder_seek_to_pcm_frame(ma_decoder* pDecoder, ma_uint64 frameIndex); + +/* +Retrieves the decoder's output data format. +*/ +MA_API ma_result ma_decoder_get_data_format(ma_decoder* pDecoder, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); + +/* +Retrieves the current position of the read cursor in PCM frames. +*/ +MA_API ma_result ma_decoder_get_cursor_in_pcm_frames(ma_decoder* pDecoder, ma_uint64* pCursor); + +/* +Retrieves the length of the decoder in PCM frames. + +Do not call this on streams of an undefined length, such as internet radio. + +If the length is unknown or an error occurs, 0 will be returned. + +This will always return 0 for Vorbis decoders. This is due to a limitation with stb_vorbis in push mode which is what miniaudio +uses internally. + +For MP3's, this will decode the entire file. Do not call this in time critical scenarios. + +This function is not thread safe without your own synchronization. +*/ +MA_API ma_result ma_decoder_get_length_in_pcm_frames(ma_decoder* pDecoder, ma_uint64* pLength); + +/* +Retrieves the number of frames that can be read before reaching the end. + +This calls `ma_decoder_get_length_in_pcm_frames()` so you need to be aware of the rules for that function, in +particular ensuring you do not call it on streams of an undefined length, such as internet radio. + +If the total length of the decoder cannot be retrieved, such as with Vorbis decoders, `MA_NOT_IMPLEMENTED` will be +returned. +*/ +MA_API ma_result ma_decoder_get_available_frames(ma_decoder* pDecoder, ma_uint64* pAvailableFrames); + +/* +Helper for opening and decoding a file into a heap allocated block of memory. Free the returned pointer with ma_free(). On input, +pConfig should be set to what you want. On output it will be set to what you got. +*/ +MA_API ma_result ma_decode_from_vfs(ma_vfs* pVFS, const char* pFilePath, ma_decoder_config* pConfig, ma_uint64* pFrameCountOut, void** ppPCMFramesOut); +MA_API ma_result ma_decode_file(const char* pFilePath, ma_decoder_config* pConfig, ma_uint64* pFrameCountOut, void** ppPCMFramesOut); +MA_API ma_result ma_decode_memory(const void* pData, size_t dataSize, ma_decoder_config* pConfig, ma_uint64* pFrameCountOut, void** ppPCMFramesOut); + +#endif /* MA_NO_DECODING */ + + +/************************************************************************************************************************************************************ + +Encoding +======== + +Encoders do not perform any format conversion for you. If your target format does not support the format, and error will be returned. + +************************************************************************************************************************************************************/ +#ifndef MA_NO_ENCODING +typedef struct ma_encoder ma_encoder; + +typedef ma_result (* ma_encoder_write_proc) (ma_encoder* pEncoder, const void* pBufferIn, size_t bytesToWrite, size_t* pBytesWritten); +typedef ma_result (* ma_encoder_seek_proc) (ma_encoder* pEncoder, ma_int64 offset, ma_seek_origin origin); +typedef ma_result (* ma_encoder_init_proc) (ma_encoder* pEncoder); +typedef void (* ma_encoder_uninit_proc) (ma_encoder* pEncoder); +typedef ma_result (* ma_encoder_write_pcm_frames_proc)(ma_encoder* pEncoder, const void* pFramesIn, ma_uint64 frameCount, ma_uint64* pFramesWritten); + +typedef struct +{ + ma_encoding_format encodingFormat; + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_allocation_callbacks allocationCallbacks; +} ma_encoder_config; + +MA_API ma_encoder_config ma_encoder_config_init(ma_encoding_format encodingFormat, ma_format format, ma_uint32 channels, ma_uint32 sampleRate); + +struct ma_encoder +{ + ma_encoder_config config; + ma_encoder_write_proc onWrite; + ma_encoder_seek_proc onSeek; + ma_encoder_init_proc onInit; + ma_encoder_uninit_proc onUninit; + ma_encoder_write_pcm_frames_proc onWritePCMFrames; + void* pUserData; + void* pInternalEncoder; + union + { + struct + { + ma_vfs* pVFS; + ma_vfs_file file; + } vfs; + } data; +}; + +MA_API ma_result ma_encoder_init(ma_encoder_write_proc onWrite, ma_encoder_seek_proc onSeek, void* pUserData, const ma_encoder_config* pConfig, ma_encoder* pEncoder); +MA_API ma_result ma_encoder_init_vfs(ma_vfs* pVFS, const char* pFilePath, const ma_encoder_config* pConfig, ma_encoder* pEncoder); +MA_API ma_result ma_encoder_init_vfs_w(ma_vfs* pVFS, const wchar_t* pFilePath, const ma_encoder_config* pConfig, ma_encoder* pEncoder); +MA_API ma_result ma_encoder_init_file(const char* pFilePath, const ma_encoder_config* pConfig, ma_encoder* pEncoder); +MA_API ma_result ma_encoder_init_file_w(const wchar_t* pFilePath, const ma_encoder_config* pConfig, ma_encoder* pEncoder); +MA_API void ma_encoder_uninit(ma_encoder* pEncoder); +MA_API ma_result ma_encoder_write_pcm_frames(ma_encoder* pEncoder, const void* pFramesIn, ma_uint64 frameCount, ma_uint64* pFramesWritten); + +#endif /* MA_NO_ENCODING */ + + +/************************************************************************************************************************************************************ + +Generation + +************************************************************************************************************************************************************/ +#ifndef MA_NO_GENERATION +typedef enum +{ + ma_waveform_type_sine, + ma_waveform_type_square, + ma_waveform_type_triangle, + ma_waveform_type_sawtooth +} ma_waveform_type; + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_waveform_type type; + double amplitude; + double frequency; +} ma_waveform_config; + +MA_API ma_waveform_config ma_waveform_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, ma_waveform_type type, double amplitude, double frequency); + +typedef struct +{ + ma_data_source_base ds; + ma_waveform_config config; + double advance; + double time; +} ma_waveform; + +MA_API ma_result ma_waveform_init(const ma_waveform_config* pConfig, ma_waveform* pWaveform); +MA_API void ma_waveform_uninit(ma_waveform* pWaveform); +MA_API ma_result ma_waveform_read_pcm_frames(ma_waveform* pWaveform, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_result ma_waveform_seek_to_pcm_frame(ma_waveform* pWaveform, ma_uint64 frameIndex); +MA_API ma_result ma_waveform_set_amplitude(ma_waveform* pWaveform, double amplitude); +MA_API ma_result ma_waveform_set_frequency(ma_waveform* pWaveform, double frequency); +MA_API ma_result ma_waveform_set_type(ma_waveform* pWaveform, ma_waveform_type type); +MA_API ma_result ma_waveform_set_sample_rate(ma_waveform* pWaveform, ma_uint32 sampleRate); + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + double dutyCycle; + double amplitude; + double frequency; +} ma_pulsewave_config; + +MA_API ma_pulsewave_config ma_pulsewave_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double dutyCycle, double amplitude, double frequency); + +typedef struct +{ + ma_waveform waveform; + ma_pulsewave_config config; +} ma_pulsewave; + +MA_API ma_result ma_pulsewave_init(const ma_pulsewave_config* pConfig, ma_pulsewave* pWaveform); +MA_API void ma_pulsewave_uninit(ma_pulsewave* pWaveform); +MA_API ma_result ma_pulsewave_read_pcm_frames(ma_pulsewave* pWaveform, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_result ma_pulsewave_seek_to_pcm_frame(ma_pulsewave* pWaveform, ma_uint64 frameIndex); +MA_API ma_result ma_pulsewave_set_amplitude(ma_pulsewave* pWaveform, double amplitude); +MA_API ma_result ma_pulsewave_set_frequency(ma_pulsewave* pWaveform, double frequency); +MA_API ma_result ma_pulsewave_set_sample_rate(ma_pulsewave* pWaveform, ma_uint32 sampleRate); +MA_API ma_result ma_pulsewave_set_duty_cycle(ma_pulsewave* pWaveform, double dutyCycle); + +typedef enum +{ + ma_noise_type_white, + ma_noise_type_pink, + ma_noise_type_brownian +} ma_noise_type; + + +typedef struct +{ + ma_format format; + ma_uint32 channels; + ma_noise_type type; + ma_int32 seed; + double amplitude; + ma_bool32 duplicateChannels; +} ma_noise_config; + +MA_API ma_noise_config ma_noise_config_init(ma_format format, ma_uint32 channels, ma_noise_type type, ma_int32 seed, double amplitude); + +typedef struct +{ + ma_data_source_base ds; + ma_noise_config config; + ma_lcg lcg; + union + { + struct + { + double** bin; + double* accumulation; + ma_uint32* counter; + } pink; + struct + { + double* accumulation; + } brownian; + } state; + + /* Memory management. */ + void* _pHeap; + ma_bool32 _ownsHeap; +} ma_noise; + +MA_API ma_result ma_noise_get_heap_size(const ma_noise_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_noise_init_preallocated(const ma_noise_config* pConfig, void* pHeap, ma_noise* pNoise); +MA_API ma_result ma_noise_init(const ma_noise_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_noise* pNoise); +MA_API void ma_noise_uninit(ma_noise* pNoise, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_noise_read_pcm_frames(ma_noise* pNoise, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_result ma_noise_set_amplitude(ma_noise* pNoise, double amplitude); +MA_API ma_result ma_noise_set_seed(ma_noise* pNoise, ma_int32 seed); +MA_API ma_result ma_noise_set_type(ma_noise* pNoise, ma_noise_type type); + +#endif /* MA_NO_GENERATION */ + + + +/************************************************************************************************************************************************************ + +Resource Manager + +************************************************************************************************************************************************************/ +/* The resource manager cannot be enabled if there is no decoder. */ +#if !defined(MA_NO_RESOURCE_MANAGER) && defined(MA_NO_DECODING) +#define MA_NO_RESOURCE_MANAGER +#endif + +#ifndef MA_NO_RESOURCE_MANAGER +typedef struct ma_resource_manager ma_resource_manager; +typedef struct ma_resource_manager_data_buffer_node ma_resource_manager_data_buffer_node; +typedef struct ma_resource_manager_data_buffer ma_resource_manager_data_buffer; +typedef struct ma_resource_manager_data_stream ma_resource_manager_data_stream; +typedef struct ma_resource_manager_data_source ma_resource_manager_data_source; + +typedef enum +{ + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM = 0x00000001, /* When set, does not load the entire data source in memory. Disk I/O will happen on job threads. */ + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_DECODE = 0x00000002, /* Decode data before storing in memory. When set, decoding is done at the resource manager level rather than the mixing thread. Results in faster mixing, but higher memory usage. */ + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC = 0x00000004, /* When set, the resource manager will load the data source asynchronously. */ + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT = 0x00000008, /* When set, waits for initialization of the underlying data source before returning from ma_resource_manager_data_source_init(). */ + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_UNKNOWN_LENGTH = 0x00000010, /* Gives the resource manager a hint that the length of the data source is unknown and calling `ma_data_source_get_length_in_pcm_frames()` should be avoided. */ + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING = 0x00000020 /* When set, configures the data source to loop by default. */ +} ma_resource_manager_data_source_flags; + + +/* +Pipeline notifications used by the resource manager. Made up of both an async notification and a fence, both of which are optional. +*/ +typedef struct +{ + ma_async_notification* pNotification; + ma_fence* pFence; +} ma_resource_manager_pipeline_stage_notification; + +typedef struct +{ + ma_resource_manager_pipeline_stage_notification init; /* Initialization of the decoder. */ + ma_resource_manager_pipeline_stage_notification done; /* Decoding fully completed. */ +} ma_resource_manager_pipeline_notifications; + +MA_API ma_resource_manager_pipeline_notifications ma_resource_manager_pipeline_notifications_init(void); + + + +/* BEGIN BACKWARDS COMPATIBILITY */ +/* TODO: Remove this block in version 0.12. */ +#if 1 +#define ma_resource_manager_job ma_job +#define ma_resource_manager_job_init ma_job_init +#define MA_JOB_TYPE_RESOURCE_MANAGER_QUEUE_FLAG_NON_BLOCKING MA_JOB_QUEUE_FLAG_NON_BLOCKING +#define ma_resource_manager_job_queue_config ma_job_queue_config +#define ma_resource_manager_job_queue_config_init ma_job_queue_config_init +#define ma_resource_manager_job_queue ma_job_queue +#define ma_resource_manager_job_queue_get_heap_size ma_job_queue_get_heap_size +#define ma_resource_manager_job_queue_init_preallocated ma_job_queue_init_preallocated +#define ma_resource_manager_job_queue_init ma_job_queue_init +#define ma_resource_manager_job_queue_uninit ma_job_queue_uninit +#define ma_resource_manager_job_queue_post ma_job_queue_post +#define ma_resource_manager_job_queue_next ma_job_queue_next +#endif +/* END BACKWARDS COMPATIBILITY */ + + + + +/* Maximum job thread count will be restricted to this, but this may be removed later and replaced with a heap allocation thereby removing any limitation. */ +#ifndef MA_RESOURCE_MANAGER_MAX_JOB_THREAD_COUNT +#define MA_RESOURCE_MANAGER_MAX_JOB_THREAD_COUNT 64 +#endif + +typedef enum +{ + /* Indicates ma_resource_manager_next_job() should not block. Only valid when the job thread count is 0. */ + MA_RESOURCE_MANAGER_FLAG_NON_BLOCKING = 0x00000001, + + /* Disables any kind of multithreading. Implicitly enables MA_RESOURCE_MANAGER_FLAG_NON_BLOCKING. */ + MA_RESOURCE_MANAGER_FLAG_NO_THREADING = 0x00000002 +} ma_resource_manager_flags; + +typedef struct +{ + const char* pFilePath; + const wchar_t* pFilePathW; + const ma_resource_manager_pipeline_notifications* pNotifications; + ma_uint64 initialSeekPointInPCMFrames; + ma_uint64 rangeBegInPCMFrames; + ma_uint64 rangeEndInPCMFrames; + ma_uint64 loopPointBegInPCMFrames; + ma_uint64 loopPointEndInPCMFrames; + ma_uint32 flags; + ma_bool32 isLooping; /* Deprecated. Use the MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING flag in `flags` instead. */ +} ma_resource_manager_data_source_config; + +MA_API ma_resource_manager_data_source_config ma_resource_manager_data_source_config_init(void); + + +typedef enum +{ + ma_resource_manager_data_supply_type_unknown = 0, /* Used for determining whether or the data supply has been initialized. */ + ma_resource_manager_data_supply_type_encoded, /* Data supply is an encoded buffer. Connector is ma_decoder. */ + ma_resource_manager_data_supply_type_decoded, /* Data supply is a decoded buffer. Connector is ma_audio_buffer. */ + ma_resource_manager_data_supply_type_decoded_paged /* Data supply is a linked list of decoded buffers. Connector is ma_paged_audio_buffer. */ +} ma_resource_manager_data_supply_type; + +typedef struct +{ + MA_ATOMIC(4, ma_resource_manager_data_supply_type) type; /* Read and written from different threads so needs to be accessed atomically. */ + union + { + struct + { + const void* pData; + size_t sizeInBytes; + } encoded; + struct + { + const void* pData; + ma_uint64 totalFrameCount; + ma_uint64 decodedFrameCount; + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + } decoded; + struct + { + ma_paged_audio_buffer_data data; + ma_uint64 decodedFrameCount; + ma_uint32 sampleRate; + } decodedPaged; + } backend; +} ma_resource_manager_data_supply; + +struct ma_resource_manager_data_buffer_node +{ + ma_uint32 hashedName32; /* The hashed name. This is the key. */ + ma_uint32 refCount; + MA_ATOMIC(4, ma_result) result; /* Result from asynchronous loading. When loading set to MA_BUSY. When fully loaded set to MA_SUCCESS. When deleting set to MA_UNAVAILABLE. */ + MA_ATOMIC(4, ma_uint32) executionCounter; /* For allocating execution orders for jobs. */ + MA_ATOMIC(4, ma_uint32) executionPointer; /* For managing the order of execution for asynchronous jobs relating to this object. Incremented as jobs complete processing. */ + ma_bool32 isDataOwnedByResourceManager; /* Set to true when the underlying data buffer was allocated the resource manager. Set to false if it is owned by the application (via ma_resource_manager_register_*()). */ + ma_resource_manager_data_supply data; + ma_resource_manager_data_buffer_node* pParent; + ma_resource_manager_data_buffer_node* pChildLo; + ma_resource_manager_data_buffer_node* pChildHi; +}; + +struct ma_resource_manager_data_buffer +{ + ma_data_source_base ds; /* Base data source. A data buffer is a data source. */ + ma_resource_manager* pResourceManager; /* A pointer to the resource manager that owns this buffer. */ + ma_resource_manager_data_buffer_node* pNode; /* The data node. This is reference counted and is what supplies the data. */ + ma_uint32 flags; /* The flags that were passed used to initialize the buffer. */ + MA_ATOMIC(4, ma_uint32) executionCounter; /* For allocating execution orders for jobs. */ + MA_ATOMIC(4, ma_uint32) executionPointer; /* For managing the order of execution for asynchronous jobs relating to this object. Incremented as jobs complete processing. */ + ma_uint64 seekTargetInPCMFrames; /* Only updated by the public API. Never written nor read from the job thread. */ + ma_bool32 seekToCursorOnNextRead; /* On the next read we need to seek to the frame cursor. */ + MA_ATOMIC(4, ma_result) result; /* Keeps track of a result of decoding. Set to MA_BUSY while the buffer is still loading. Set to MA_SUCCESS when loading is finished successfully. Otherwise set to some other code. */ + MA_ATOMIC(4, ma_bool32) isLooping; /* Can be read and written by different threads at the same time. Must be used atomically. */ + ma_atomic_bool32 isConnectorInitialized; /* Used for asynchronous loading to ensure we don't try to initialize the connector multiple times while waiting for the node to fully load. */ + union + { + ma_decoder decoder; /* Supply type is ma_resource_manager_data_supply_type_encoded */ + ma_audio_buffer buffer; /* Supply type is ma_resource_manager_data_supply_type_decoded */ + ma_paged_audio_buffer pagedBuffer; /* Supply type is ma_resource_manager_data_supply_type_decoded_paged */ + } connector; /* Connects this object to the node's data supply. */ +}; + +struct ma_resource_manager_data_stream +{ + ma_data_source_base ds; /* Base data source. A data stream is a data source. */ + ma_resource_manager* pResourceManager; /* A pointer to the resource manager that owns this data stream. */ + ma_uint32 flags; /* The flags that were passed used to initialize the stream. */ + ma_decoder decoder; /* Used for filling pages with data. This is only ever accessed by the job thread. The public API should never touch this. */ + ma_bool32 isDecoderInitialized; /* Required for determining whether or not the decoder should be uninitialized in MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_STREAM. */ + ma_uint64 totalLengthInPCMFrames; /* This is calculated when first loaded by the MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_STREAM. */ + ma_uint32 relativeCursor; /* The playback cursor, relative to the current page. Only ever accessed by the public API. Never accessed by the job thread. */ + MA_ATOMIC(8, ma_uint64) absoluteCursor; /* The playback cursor, in absolute position starting from the start of the file. */ + ma_uint32 currentPageIndex; /* Toggles between 0 and 1. Index 0 is the first half of pPageData. Index 1 is the second half. Only ever accessed by the public API. Never accessed by the job thread. */ + MA_ATOMIC(4, ma_uint32) executionCounter; /* For allocating execution orders for jobs. */ + MA_ATOMIC(4, ma_uint32) executionPointer; /* For managing the order of execution for asynchronous jobs relating to this object. Incremented as jobs complete processing. */ + + /* Written by the public API, read by the job thread. */ + MA_ATOMIC(4, ma_bool32) isLooping; /* Whether or not the stream is looping. It's important to set the looping flag at the data stream level for smooth loop transitions. */ + + /* Written by the job thread, read by the public API. */ + void* pPageData; /* Buffer containing the decoded data of each page. Allocated once at initialization time. */ + MA_ATOMIC(4, ma_uint32) pageFrameCount[2]; /* The number of valid PCM frames in each page. Used to determine the last valid frame. */ + + /* Written and read by both the public API and the job thread. These must be atomic. */ + MA_ATOMIC(4, ma_result) result; /* Result from asynchronous loading. When loading set to MA_BUSY. When initialized set to MA_SUCCESS. When deleting set to MA_UNAVAILABLE. If an error occurs when loading, set to an error code. */ + MA_ATOMIC(4, ma_bool32) isDecoderAtEnd; /* Whether or not the decoder has reached the end. */ + MA_ATOMIC(4, ma_bool32) isPageValid[2]; /* Booleans to indicate whether or not a page is valid. Set to false by the public API, set to true by the job thread. Set to false as the pages are consumed, true when they are filled. */ + MA_ATOMIC(4, ma_bool32) seekCounter; /* When 0, no seeking is being performed. When > 0, a seek is being performed and reading should be delayed with MA_BUSY. */ +}; + +struct ma_resource_manager_data_source +{ + union + { + ma_resource_manager_data_buffer buffer; + ma_resource_manager_data_stream stream; + } backend; /* Must be the first item because we need the first item to be the data source callbacks for the buffer or stream. */ + + ma_uint32 flags; /* The flags that were passed in to ma_resource_manager_data_source_init(). */ + MA_ATOMIC(4, ma_uint32) executionCounter; /* For allocating execution orders for jobs. */ + MA_ATOMIC(4, ma_uint32) executionPointer; /* For managing the order of execution for asynchronous jobs relating to this object. Incremented as jobs complete processing. */ +}; + +typedef struct +{ + ma_allocation_callbacks allocationCallbacks; + ma_log* pLog; + ma_format decodedFormat; /* The decoded format to use. Set to ma_format_unknown (default) to use the file's native format. */ + ma_uint32 decodedChannels; /* The decoded channel count to use. Set to 0 (default) to use the file's native channel count. */ + ma_uint32 decodedSampleRate; /* the decoded sample rate to use. Set to 0 (default) to use the file's native sample rate. */ + ma_uint32 jobThreadCount; /* Set to 0 if you want to self-manage your job threads. Defaults to 1. */ + size_t jobThreadStackSize; + ma_uint32 jobQueueCapacity; /* The maximum number of jobs that can fit in the queue at a time. Defaults to MA_JOB_TYPE_RESOURCE_MANAGER_QUEUE_CAPACITY. Cannot be zero. */ + ma_uint32 flags; + ma_vfs* pVFS; /* Can be NULL in which case defaults will be used. */ + ma_decoding_backend_vtable** ppCustomDecodingBackendVTables; + ma_uint32 customDecodingBackendCount; + void* pCustomDecodingBackendUserData; + ma_resampler_config resampling; +} ma_resource_manager_config; + +MA_API ma_resource_manager_config ma_resource_manager_config_init(void); + +struct ma_resource_manager +{ + ma_resource_manager_config config; + ma_resource_manager_data_buffer_node* pRootDataBufferNode; /* The root buffer in the binary tree. */ +#ifndef MA_NO_THREADING + ma_mutex dataBufferBSTLock; /* For synchronizing access to the data buffer binary tree. */ + ma_thread jobThreads[MA_RESOURCE_MANAGER_MAX_JOB_THREAD_COUNT]; /* The threads for executing jobs. */ +#endif + ma_job_queue jobQueue; /* Multi-consumer, multi-producer job queue for managing jobs for asynchronous decoding and streaming. */ + ma_default_vfs defaultVFS; /* Only used if a custom VFS is not specified. */ + ma_log log; /* Only used if no log was specified in the config. */ +}; + +/* Init. */ +MA_API ma_result ma_resource_manager_init(const ma_resource_manager_config* pConfig, ma_resource_manager* pResourceManager); +MA_API void ma_resource_manager_uninit(ma_resource_manager* pResourceManager); +MA_API ma_log* ma_resource_manager_get_log(ma_resource_manager* pResourceManager); + +/* Registration. */ +MA_API ma_result ma_resource_manager_register_file(ma_resource_manager* pResourceManager, const char* pFilePath, ma_uint32 flags); +MA_API ma_result ma_resource_manager_register_file_w(ma_resource_manager* pResourceManager, const wchar_t* pFilePath, ma_uint32 flags); +MA_API ma_result ma_resource_manager_register_decoded_data(ma_resource_manager* pResourceManager, const char* pName, const void* pData, ma_uint64 frameCount, ma_format format, ma_uint32 channels, ma_uint32 sampleRate); /* Does not copy. Increments the reference count if already exists and returns MA_SUCCESS. */ +MA_API ma_result ma_resource_manager_register_decoded_data_w(ma_resource_manager* pResourceManager, const wchar_t* pName, const void* pData, ma_uint64 frameCount, ma_format format, ma_uint32 channels, ma_uint32 sampleRate); +MA_API ma_result ma_resource_manager_register_encoded_data(ma_resource_manager* pResourceManager, const char* pName, const void* pData, size_t sizeInBytes); /* Does not copy. Increments the reference count if already exists and returns MA_SUCCESS. */ +MA_API ma_result ma_resource_manager_register_encoded_data_w(ma_resource_manager* pResourceManager, const wchar_t* pName, const void* pData, size_t sizeInBytes); +MA_API ma_result ma_resource_manager_unregister_file(ma_resource_manager* pResourceManager, const char* pFilePath); +MA_API ma_result ma_resource_manager_unregister_file_w(ma_resource_manager* pResourceManager, const wchar_t* pFilePath); +MA_API ma_result ma_resource_manager_unregister_data(ma_resource_manager* pResourceManager, const char* pName); +MA_API ma_result ma_resource_manager_unregister_data_w(ma_resource_manager* pResourceManager, const wchar_t* pName); + +/* Data Buffers. */ +MA_API ma_result ma_resource_manager_data_buffer_init_ex(ma_resource_manager* pResourceManager, const ma_resource_manager_data_source_config* pConfig, ma_resource_manager_data_buffer* pDataBuffer); +MA_API ma_result ma_resource_manager_data_buffer_init(ma_resource_manager* pResourceManager, const char* pFilePath, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_buffer* pDataBuffer); +MA_API ma_result ma_resource_manager_data_buffer_init_w(ma_resource_manager* pResourceManager, const wchar_t* pFilePath, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_buffer* pDataBuffer); +MA_API ma_result ma_resource_manager_data_buffer_init_copy(ma_resource_manager* pResourceManager, const ma_resource_manager_data_buffer* pExistingDataBuffer, ma_resource_manager_data_buffer* pDataBuffer); +MA_API ma_result ma_resource_manager_data_buffer_uninit(ma_resource_manager_data_buffer* pDataBuffer); +MA_API ma_result ma_resource_manager_data_buffer_read_pcm_frames(ma_resource_manager_data_buffer* pDataBuffer, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_result ma_resource_manager_data_buffer_seek_to_pcm_frame(ma_resource_manager_data_buffer* pDataBuffer, ma_uint64 frameIndex); +MA_API ma_result ma_resource_manager_data_buffer_get_data_format(ma_resource_manager_data_buffer* pDataBuffer, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_resource_manager_data_buffer_get_cursor_in_pcm_frames(ma_resource_manager_data_buffer* pDataBuffer, ma_uint64* pCursor); +MA_API ma_result ma_resource_manager_data_buffer_get_length_in_pcm_frames(ma_resource_manager_data_buffer* pDataBuffer, ma_uint64* pLength); +MA_API ma_result ma_resource_manager_data_buffer_result(const ma_resource_manager_data_buffer* pDataBuffer); +MA_API ma_result ma_resource_manager_data_buffer_set_looping(ma_resource_manager_data_buffer* pDataBuffer, ma_bool32 isLooping); +MA_API ma_bool32 ma_resource_manager_data_buffer_is_looping(const ma_resource_manager_data_buffer* pDataBuffer); +MA_API ma_result ma_resource_manager_data_buffer_get_available_frames(ma_resource_manager_data_buffer* pDataBuffer, ma_uint64* pAvailableFrames); + +/* Data Streams. */ +MA_API ma_result ma_resource_manager_data_stream_init_ex(ma_resource_manager* pResourceManager, const ma_resource_manager_data_source_config* pConfig, ma_resource_manager_data_stream* pDataStream); +MA_API ma_result ma_resource_manager_data_stream_init(ma_resource_manager* pResourceManager, const char* pFilePath, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_stream* pDataStream); +MA_API ma_result ma_resource_manager_data_stream_init_w(ma_resource_manager* pResourceManager, const wchar_t* pFilePath, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_stream* pDataStream); +MA_API ma_result ma_resource_manager_data_stream_uninit(ma_resource_manager_data_stream* pDataStream); +MA_API ma_result ma_resource_manager_data_stream_read_pcm_frames(ma_resource_manager_data_stream* pDataStream, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_result ma_resource_manager_data_stream_seek_to_pcm_frame(ma_resource_manager_data_stream* pDataStream, ma_uint64 frameIndex); +MA_API ma_result ma_resource_manager_data_stream_get_data_format(ma_resource_manager_data_stream* pDataStream, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_resource_manager_data_stream_get_cursor_in_pcm_frames(ma_resource_manager_data_stream* pDataStream, ma_uint64* pCursor); +MA_API ma_result ma_resource_manager_data_stream_get_length_in_pcm_frames(ma_resource_manager_data_stream* pDataStream, ma_uint64* pLength); +MA_API ma_result ma_resource_manager_data_stream_result(const ma_resource_manager_data_stream* pDataStream); +MA_API ma_result ma_resource_manager_data_stream_set_looping(ma_resource_manager_data_stream* pDataStream, ma_bool32 isLooping); +MA_API ma_bool32 ma_resource_manager_data_stream_is_looping(const ma_resource_manager_data_stream* pDataStream); +MA_API ma_result ma_resource_manager_data_stream_get_available_frames(ma_resource_manager_data_stream* pDataStream, ma_uint64* pAvailableFrames); + +/* Data Sources. */ +MA_API ma_result ma_resource_manager_data_source_init_ex(ma_resource_manager* pResourceManager, const ma_resource_manager_data_source_config* pConfig, ma_resource_manager_data_source* pDataSource); +MA_API ma_result ma_resource_manager_data_source_init(ma_resource_manager* pResourceManager, const char* pName, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_source* pDataSource); +MA_API ma_result ma_resource_manager_data_source_init_w(ma_resource_manager* pResourceManager, const wchar_t* pName, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_source* pDataSource); +MA_API ma_result ma_resource_manager_data_source_init_copy(ma_resource_manager* pResourceManager, const ma_resource_manager_data_source* pExistingDataSource, ma_resource_manager_data_source* pDataSource); +MA_API ma_result ma_resource_manager_data_source_uninit(ma_resource_manager_data_source* pDataSource); +MA_API ma_result ma_resource_manager_data_source_read_pcm_frames(ma_resource_manager_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_result ma_resource_manager_data_source_seek_to_pcm_frame(ma_resource_manager_data_source* pDataSource, ma_uint64 frameIndex); +MA_API ma_result ma_resource_manager_data_source_get_data_format(ma_resource_manager_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_resource_manager_data_source_get_cursor_in_pcm_frames(ma_resource_manager_data_source* pDataSource, ma_uint64* pCursor); +MA_API ma_result ma_resource_manager_data_source_get_length_in_pcm_frames(ma_resource_manager_data_source* pDataSource, ma_uint64* pLength); +MA_API ma_result ma_resource_manager_data_source_result(const ma_resource_manager_data_source* pDataSource); +MA_API ma_result ma_resource_manager_data_source_set_looping(ma_resource_manager_data_source* pDataSource, ma_bool32 isLooping); +MA_API ma_bool32 ma_resource_manager_data_source_is_looping(const ma_resource_manager_data_source* pDataSource); +MA_API ma_result ma_resource_manager_data_source_get_available_frames(ma_resource_manager_data_source* pDataSource, ma_uint64* pAvailableFrames); + +/* Job management. */ +MA_API ma_result ma_resource_manager_post_job(ma_resource_manager* pResourceManager, const ma_job* pJob); +MA_API ma_result ma_resource_manager_post_job_quit(ma_resource_manager* pResourceManager); /* Helper for posting a quit job. */ +MA_API ma_result ma_resource_manager_next_job(ma_resource_manager* pResourceManager, ma_job* pJob); +MA_API ma_result ma_resource_manager_process_job(ma_resource_manager* pResourceManager, ma_job* pJob); /* DEPRECATED. Use ma_job_process(). Will be removed in version 0.12. */ +MA_API ma_result ma_resource_manager_process_next_job(ma_resource_manager* pResourceManager); /* Returns MA_CANCELLED if a MA_JOB_TYPE_QUIT job is found. In non-blocking mode, returns MA_NO_DATA_AVAILABLE if no jobs are available. */ +#endif /* MA_NO_RESOURCE_MANAGER */ + + + +/************************************************************************************************************************************************************ + +Node Graph + +************************************************************************************************************************************************************/ +#ifndef MA_NO_NODE_GRAPH +/* Must never exceed 254. */ +#ifndef MA_MAX_NODE_BUS_COUNT +#define MA_MAX_NODE_BUS_COUNT 254 +#endif + +/* Used internally by miniaudio for memory management. Must never exceed MA_MAX_NODE_BUS_COUNT. */ +#ifndef MA_MAX_NODE_LOCAL_BUS_COUNT +#define MA_MAX_NODE_LOCAL_BUS_COUNT 2 +#endif + +/* Use this when the bus count is determined by the node instance rather than the vtable. */ +#define MA_NODE_BUS_COUNT_UNKNOWN 255 + + +/* For some internal memory management of ma_node_graph. */ +typedef struct +{ + size_t offset; + size_t sizeInBytes; + unsigned char _data[1]; +} ma_stack; + + +typedef struct ma_node_graph ma_node_graph; +typedef void ma_node; + + +/* Node flags. */ +typedef enum +{ + MA_NODE_FLAG_PASSTHROUGH = 0x00000001, + MA_NODE_FLAG_CONTINUOUS_PROCESSING = 0x00000002, + MA_NODE_FLAG_ALLOW_NULL_INPUT = 0x00000004, + MA_NODE_FLAG_DIFFERENT_PROCESSING_RATES = 0x00000008, + MA_NODE_FLAG_SILENT_OUTPUT = 0x00000010 +} ma_node_flags; + + +/* The playback state of a node. Either started or stopped. */ +typedef enum +{ + ma_node_state_started = 0, + ma_node_state_stopped = 1 +} ma_node_state; + + +typedef struct +{ + /* + Extended processing callback. This callback is used for effects that process input and output + at different rates (i.e. they perform resampling). This is similar to the simple version, only + they take two separate frame counts: one for input, and one for output. + + On input, `pFrameCountOut` is equal to the capacity of the output buffer for each bus, whereas + `pFrameCountIn` will be equal to the number of PCM frames in each of the buffers in `ppFramesIn`. + + On output, set `pFrameCountOut` to the number of PCM frames that were actually output and set + `pFrameCountIn` to the number of input frames that were consumed. + */ + void (* onProcess)(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut); + + /* + A callback for retrieving the number of input frames that are required to output the + specified number of output frames. You would only want to implement this when the node performs + resampling. This is optional, even for nodes that perform resampling, but it does offer a + small reduction in latency as it allows miniaudio to calculate the exact number of input frames + to read at a time instead of having to estimate. + */ + ma_result (* onGetRequiredInputFrameCount)(ma_node* pNode, ma_uint32 outputFrameCount, ma_uint32* pInputFrameCount); + + /* + The number of input buses. This is how many sub-buffers will be contained in the `ppFramesIn` + parameters of the callbacks above. + */ + ma_uint8 inputBusCount; + + /* + The number of output buses. This is how many sub-buffers will be contained in the `ppFramesOut` + parameters of the callbacks above. + */ + ma_uint8 outputBusCount; + + /* + Flags describing characteristics of the node. This is currently just a placeholder for some + ideas for later on. + */ + ma_uint32 flags; +} ma_node_vtable; + +typedef struct +{ + const ma_node_vtable* vtable; /* Should never be null. Initialization of the node will fail if so. */ + ma_node_state initialState; /* Defaults to ma_node_state_started. */ + ma_uint32 inputBusCount; /* Only used if the vtable specifies an input bus count of `MA_NODE_BUS_COUNT_UNKNOWN`, otherwise must be set to `MA_NODE_BUS_COUNT_UNKNOWN` (default). */ + ma_uint32 outputBusCount; /* Only used if the vtable specifies an output bus count of `MA_NODE_BUS_COUNT_UNKNOWN`, otherwise be set to `MA_NODE_BUS_COUNT_UNKNOWN` (default). */ + const ma_uint32* pInputChannels; /* The number of elements are determined by the input bus count as determined by the vtable, or `inputBusCount` if the vtable specifies `MA_NODE_BUS_COUNT_UNKNOWN`. */ + const ma_uint32* pOutputChannels; /* The number of elements are determined by the output bus count as determined by the vtable, or `outputBusCount` if the vtable specifies `MA_NODE_BUS_COUNT_UNKNOWN`. */ +} ma_node_config; + +MA_API ma_node_config ma_node_config_init(void); + + +/* +A node has multiple output buses. An output bus is attached to an input bus as an item in a linked +list. Think of the input bus as a linked list, with the output bus being an item in that list. +*/ +typedef struct ma_node_output_bus ma_node_output_bus; +struct ma_node_output_bus +{ + /* Immutable. */ + ma_node* pNode; /* The node that owns this output bus. The input node. Will be null for dummy head and tail nodes. */ + ma_uint8 outputBusIndex; /* The index of the output bus on pNode that this output bus represents. */ + ma_uint8 channels; /* The number of channels in the audio stream for this bus. */ + + /* Mutable via multiple threads. Must be used atomically. The weird ordering here is for packing reasons. */ + ma_uint8 inputNodeInputBusIndex; /* The index of the input bus on the input. Required for detaching. Will only be used within the spinlock so does not need to be atomic. */ + MA_ATOMIC(4, ma_uint32) flags; /* Some state flags for tracking the read state of the output buffer. A combination of MA_NODE_OUTPUT_BUS_FLAG_*. */ + MA_ATOMIC(4, ma_uint32) refCount; /* Reference count for some thread-safety when detaching. */ + MA_ATOMIC(4, ma_bool32) isAttached; /* This is used to prevent iteration of nodes that are in the middle of being detached. Used for thread safety. */ + MA_ATOMIC(4, ma_spinlock) lock; /* Unfortunate lock, but significantly simplifies the implementation. Required for thread-safe attaching and detaching. */ + MA_ATOMIC(4, float) volume; /* Linear. */ + MA_ATOMIC(MA_SIZEOF_PTR, ma_node_output_bus*) pNext; /* If null, it's the tail node or detached. */ + MA_ATOMIC(MA_SIZEOF_PTR, ma_node_output_bus*) pPrev; /* If null, it's the head node or detached. */ + MA_ATOMIC(MA_SIZEOF_PTR, ma_node*) pInputNode; /* The node that this output bus is attached to. Required for detaching. */ +}; + +/* +A node has multiple input buses. The output buses of a node are connecting to the input busses of +another. An input bus is essentially just a linked list of output buses. +*/ +typedef struct ma_node_input_bus ma_node_input_bus; +struct ma_node_input_bus +{ + /* Mutable via multiple threads. */ + ma_node_output_bus head; /* Dummy head node for simplifying some lock-free thread-safety stuff. */ + MA_ATOMIC(4, ma_uint32) nextCounter; /* This is used to determine whether or not the input bus is finding the next node in the list. Used for thread safety when detaching output buses. */ + MA_ATOMIC(4, ma_spinlock) lock; /* Unfortunate lock, but significantly simplifies the implementation. Required for thread-safe attaching and detaching. */ + + /* Set once at startup. */ + ma_uint8 channels; /* The number of channels in the audio stream for this bus. */ +}; + + +typedef struct ma_node_base ma_node_base; +struct ma_node_base +{ + /* These variables are set once at startup. */ + ma_node_graph* pNodeGraph; /* The graph this node belongs to. */ + const ma_node_vtable* vtable; + ma_uint32 inputBusCount; + ma_uint32 outputBusCount; + ma_node_input_bus* pInputBuses; + ma_node_output_bus* pOutputBuses; + float* pCachedData; /* Allocated on the heap. Fixed size. Needs to be stored on the heap because reading from output buses is done in separate function calls. */ + ma_uint16 cachedDataCapInFramesPerBus; /* The capacity of the input data cache in frames, per bus. */ + + /* These variables are read and written only from the audio thread. */ + ma_uint16 cachedFrameCountOut; + ma_uint16 cachedFrameCountIn; + ma_uint16 consumedFrameCountIn; + + /* These variables are read and written between different threads. */ + MA_ATOMIC(4, ma_node_state) state; /* When set to stopped, nothing will be read, regardless of the times in stateTimes. */ + MA_ATOMIC(8, ma_uint64) stateTimes[2]; /* Indexed by ma_node_state. Specifies the time based on the global clock that a node should be considered to be in the relevant state. */ + MA_ATOMIC(8, ma_uint64) localTime; /* The node's local clock. This is just a running sum of the number of output frames that have been processed. Can be modified by any thread with `ma_node_set_time()`. */ + + /* Memory management. */ + ma_node_input_bus _inputBuses[MA_MAX_NODE_LOCAL_BUS_COUNT]; + ma_node_output_bus _outputBuses[MA_MAX_NODE_LOCAL_BUS_COUNT]; + void* _pHeap; /* A heap allocation for internal use only. pInputBuses and/or pOutputBuses will point to this if the bus count exceeds MA_MAX_NODE_LOCAL_BUS_COUNT. */ + ma_bool32 _ownsHeap; /* If set to true, the node owns the heap allocation and _pHeap will be freed in ma_node_uninit(). */ +}; + +MA_API ma_result ma_node_get_heap_size(ma_node_graph* pNodeGraph, const ma_node_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_node_init_preallocated(ma_node_graph* pNodeGraph, const ma_node_config* pConfig, void* pHeap, ma_node* pNode); +MA_API ma_result ma_node_init(ma_node_graph* pNodeGraph, const ma_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_node* pNode); +MA_API void ma_node_uninit(ma_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_node_graph* ma_node_get_node_graph(const ma_node* pNode); +MA_API ma_uint32 ma_node_get_input_bus_count(const ma_node* pNode); +MA_API ma_uint32 ma_node_get_output_bus_count(const ma_node* pNode); +MA_API ma_uint32 ma_node_get_input_channels(const ma_node* pNode, ma_uint32 inputBusIndex); +MA_API ma_uint32 ma_node_get_output_channels(const ma_node* pNode, ma_uint32 outputBusIndex); +MA_API ma_result ma_node_attach_output_bus(ma_node* pNode, ma_uint32 outputBusIndex, ma_node* pOtherNode, ma_uint32 otherNodeInputBusIndex); +MA_API ma_result ma_node_detach_output_bus(ma_node* pNode, ma_uint32 outputBusIndex); +MA_API ma_result ma_node_detach_all_output_buses(ma_node* pNode); +MA_API ma_result ma_node_set_output_bus_volume(ma_node* pNode, ma_uint32 outputBusIndex, float volume); +MA_API float ma_node_get_output_bus_volume(const ma_node* pNode, ma_uint32 outputBusIndex); +MA_API ma_result ma_node_set_state(ma_node* pNode, ma_node_state state); +MA_API ma_node_state ma_node_get_state(const ma_node* pNode); +MA_API ma_result ma_node_set_state_time(ma_node* pNode, ma_node_state state, ma_uint64 globalTime); +MA_API ma_uint64 ma_node_get_state_time(const ma_node* pNode, ma_node_state state); +MA_API ma_node_state ma_node_get_state_by_time(const ma_node* pNode, ma_uint64 globalTime); +MA_API ma_node_state ma_node_get_state_by_time_range(const ma_node* pNode, ma_uint64 globalTimeBeg, ma_uint64 globalTimeEnd); +MA_API ma_uint64 ma_node_get_time(const ma_node* pNode); +MA_API ma_result ma_node_set_time(ma_node* pNode, ma_uint64 localTime); + + +typedef struct +{ + ma_uint32 channels; + ma_uint32 processingSizeInFrames; /* This is the preferred processing size for node processing callbacks unless overridden by a node itself. Can be 0 in which case it will be based on the frame count passed into ma_node_graph_read_pcm_frames(), but will not be well defined. */ + size_t preMixStackSizeInBytes; /* Defaults to 512KB per channel. Reducing this will save memory, but the depth of your node graph will be more restricted. */ +} ma_node_graph_config; + +MA_API ma_node_graph_config ma_node_graph_config_init(ma_uint32 channels); + + +struct ma_node_graph +{ + /* Immutable. */ + ma_node_base base; /* The node graph itself is a node so it can be connected as an input to different node graph. This has zero inputs and calls ma_node_graph_read_pcm_frames() to generate it's output. */ + ma_node_base endpoint; /* Special node that all nodes eventually connect to. Data is read from this node in ma_node_graph_read_pcm_frames(). */ + float* pProcessingCache; /* This will be allocated when processingSizeInFrames is non-zero. This is needed because ma_node_graph_read_pcm_frames() can be called with a variable number of frames, and we may need to do some buffering in situations where the caller requests a frame count that's not a multiple of processingSizeInFrames. */ + ma_uint32 processingCacheFramesRemaining; + ma_uint32 processingSizeInFrames; + + /* Read and written by multiple threads. */ + MA_ATOMIC(4, ma_bool32) isReading; + + /* Modified only by the audio thread. */ + ma_stack* pPreMixStack; +}; + +MA_API ma_result ma_node_graph_init(const ma_node_graph_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_node_graph* pNodeGraph); +MA_API void ma_node_graph_uninit(ma_node_graph* pNodeGraph, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_node* ma_node_graph_get_endpoint(ma_node_graph* pNodeGraph); +MA_API ma_result ma_node_graph_read_pcm_frames(ma_node_graph* pNodeGraph, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_uint32 ma_node_graph_get_channels(const ma_node_graph* pNodeGraph); +MA_API ma_uint64 ma_node_graph_get_time(const ma_node_graph* pNodeGraph); +MA_API ma_result ma_node_graph_set_time(ma_node_graph* pNodeGraph, ma_uint64 globalTime); +MA_API ma_uint32 ma_node_graph_get_processing_size_in_frames(const ma_node_graph* pNodeGraph); + + + +/* Data source node. 0 input buses, 1 output bus. Used for reading from a data source. */ +typedef struct +{ + ma_node_config nodeConfig; + ma_data_source* pDataSource; +} ma_data_source_node_config; + +MA_API ma_data_source_node_config ma_data_source_node_config_init(ma_data_source* pDataSource); + + +typedef struct +{ + ma_node_base base; + ma_data_source* pDataSource; +} ma_data_source_node; + +MA_API ma_result ma_data_source_node_init(ma_node_graph* pNodeGraph, const ma_data_source_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source_node* pDataSourceNode); +MA_API void ma_data_source_node_uninit(ma_data_source_node* pDataSourceNode, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_data_source_node_set_looping(ma_data_source_node* pDataSourceNode, ma_bool32 isLooping); +MA_API ma_bool32 ma_data_source_node_is_looping(ma_data_source_node* pDataSourceNode); + + +/* Splitter Node. 1 input, many outputs. Used for splitting/copying a stream so it can be as input into two separate output nodes. */ +typedef struct +{ + ma_node_config nodeConfig; + ma_uint32 channels; + ma_uint32 outputBusCount; +} ma_splitter_node_config; + +MA_API ma_splitter_node_config ma_splitter_node_config_init(ma_uint32 channels); + + +typedef struct +{ + ma_node_base base; +} ma_splitter_node; + +MA_API ma_result ma_splitter_node_init(ma_node_graph* pNodeGraph, const ma_splitter_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_splitter_node* pSplitterNode); +MA_API void ma_splitter_node_uninit(ma_splitter_node* pSplitterNode, const ma_allocation_callbacks* pAllocationCallbacks); + + +/* +Biquad Node +*/ +typedef struct +{ + ma_node_config nodeConfig; + ma_biquad_config biquad; +} ma_biquad_node_config; + +MA_API ma_biquad_node_config ma_biquad_node_config_init(ma_uint32 channels, float b0, float b1, float b2, float a0, float a1, float a2); + + +typedef struct +{ + ma_node_base baseNode; + ma_biquad biquad; +} ma_biquad_node; + +MA_API ma_result ma_biquad_node_init(ma_node_graph* pNodeGraph, const ma_biquad_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_biquad_node* pNode); +MA_API ma_result ma_biquad_node_reinit(const ma_biquad_config* pConfig, ma_biquad_node* pNode); +MA_API void ma_biquad_node_uninit(ma_biquad_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks); + + +/* +Low Pass Filter Node +*/ +typedef struct +{ + ma_node_config nodeConfig; + ma_lpf_config lpf; +} ma_lpf_node_config; + +MA_API ma_lpf_node_config ma_lpf_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order); + + +typedef struct +{ + ma_node_base baseNode; + ma_lpf lpf; +} ma_lpf_node; + +MA_API ma_result ma_lpf_node_init(ma_node_graph* pNodeGraph, const ma_lpf_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_lpf_node* pNode); +MA_API ma_result ma_lpf_node_reinit(const ma_lpf_config* pConfig, ma_lpf_node* pNode); +MA_API void ma_lpf_node_uninit(ma_lpf_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks); + + +/* +High Pass Filter Node +*/ +typedef struct +{ + ma_node_config nodeConfig; + ma_hpf_config hpf; +} ma_hpf_node_config; + +MA_API ma_hpf_node_config ma_hpf_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order); + + +typedef struct +{ + ma_node_base baseNode; + ma_hpf hpf; +} ma_hpf_node; + +MA_API ma_result ma_hpf_node_init(ma_node_graph* pNodeGraph, const ma_hpf_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hpf_node* pNode); +MA_API ma_result ma_hpf_node_reinit(const ma_hpf_config* pConfig, ma_hpf_node* pNode); +MA_API void ma_hpf_node_uninit(ma_hpf_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks); + + +/* +Band Pass Filter Node +*/ +typedef struct +{ + ma_node_config nodeConfig; + ma_bpf_config bpf; +} ma_bpf_node_config; + +MA_API ma_bpf_node_config ma_bpf_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order); + + +typedef struct +{ + ma_node_base baseNode; + ma_bpf bpf; +} ma_bpf_node; + +MA_API ma_result ma_bpf_node_init(ma_node_graph* pNodeGraph, const ma_bpf_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_bpf_node* pNode); +MA_API ma_result ma_bpf_node_reinit(const ma_bpf_config* pConfig, ma_bpf_node* pNode); +MA_API void ma_bpf_node_uninit(ma_bpf_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks); + + +/* +Notching Filter Node +*/ +typedef struct +{ + ma_node_config nodeConfig; + ma_notch_config notch; +} ma_notch_node_config; + +MA_API ma_notch_node_config ma_notch_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double q, double frequency); + + +typedef struct +{ + ma_node_base baseNode; + ma_notch2 notch; +} ma_notch_node; + +MA_API ma_result ma_notch_node_init(ma_node_graph* pNodeGraph, const ma_notch_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_notch_node* pNode); +MA_API ma_result ma_notch_node_reinit(const ma_notch_config* pConfig, ma_notch_node* pNode); +MA_API void ma_notch_node_uninit(ma_notch_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks); + + +/* +Peaking Filter Node +*/ +typedef struct +{ + ma_node_config nodeConfig; + ma_peak_config peak; +} ma_peak_node_config; + +MA_API ma_peak_node_config ma_peak_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double q, double frequency); + + +typedef struct +{ + ma_node_base baseNode; + ma_peak2 peak; +} ma_peak_node; + +MA_API ma_result ma_peak_node_init(ma_node_graph* pNodeGraph, const ma_peak_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_peak_node* pNode); +MA_API ma_result ma_peak_node_reinit(const ma_peak_config* pConfig, ma_peak_node* pNode); +MA_API void ma_peak_node_uninit(ma_peak_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks); + + +/* +Low Shelf Filter Node +*/ +typedef struct +{ + ma_node_config nodeConfig; + ma_loshelf_config loshelf; +} ma_loshelf_node_config; + +MA_API ma_loshelf_node_config ma_loshelf_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double q, double frequency); + + +typedef struct +{ + ma_node_base baseNode; + ma_loshelf2 loshelf; +} ma_loshelf_node; + +MA_API ma_result ma_loshelf_node_init(ma_node_graph* pNodeGraph, const ma_loshelf_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_loshelf_node* pNode); +MA_API ma_result ma_loshelf_node_reinit(const ma_loshelf_config* pConfig, ma_loshelf_node* pNode); +MA_API void ma_loshelf_node_uninit(ma_loshelf_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks); + + +/* +High Shelf Filter Node +*/ +typedef struct +{ + ma_node_config nodeConfig; + ma_hishelf_config hishelf; +} ma_hishelf_node_config; + +MA_API ma_hishelf_node_config ma_hishelf_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double q, double frequency); + + +typedef struct +{ + ma_node_base baseNode; + ma_hishelf2 hishelf; +} ma_hishelf_node; + +MA_API ma_result ma_hishelf_node_init(ma_node_graph* pNodeGraph, const ma_hishelf_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hishelf_node* pNode); +MA_API ma_result ma_hishelf_node_reinit(const ma_hishelf_config* pConfig, ma_hishelf_node* pNode); +MA_API void ma_hishelf_node_uninit(ma_hishelf_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks); + + +typedef struct +{ + ma_node_config nodeConfig; + ma_delay_config delay; +} ma_delay_node_config; + +MA_API ma_delay_node_config ma_delay_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, ma_uint32 delayInFrames, float decay); + + +typedef struct +{ + ma_node_base baseNode; + ma_delay delay; +} ma_delay_node; + +MA_API ma_result ma_delay_node_init(ma_node_graph* pNodeGraph, const ma_delay_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_delay_node* pDelayNode); +MA_API void ma_delay_node_uninit(ma_delay_node* pDelayNode, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API void ma_delay_node_set_wet(ma_delay_node* pDelayNode, float value); +MA_API float ma_delay_node_get_wet(const ma_delay_node* pDelayNode); +MA_API void ma_delay_node_set_dry(ma_delay_node* pDelayNode, float value); +MA_API float ma_delay_node_get_dry(const ma_delay_node* pDelayNode); +MA_API void ma_delay_node_set_decay(ma_delay_node* pDelayNode, float value); +MA_API float ma_delay_node_get_decay(const ma_delay_node* pDelayNode); +#endif /* MA_NO_NODE_GRAPH */ + + +/* SECTION: miniaudio_engine.h */ +/************************************************************************************************************************************************************ + +Engine + +************************************************************************************************************************************************************/ +#if !defined(MA_NO_ENGINE) && !defined(MA_NO_NODE_GRAPH) +typedef struct ma_engine ma_engine; +typedef struct ma_sound ma_sound; + + +/* Sound flags. */ +typedef enum +{ + /* Resource manager flags. */ + MA_SOUND_FLAG_STREAM = 0x00000001, /* MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM */ + MA_SOUND_FLAG_DECODE = 0x00000002, /* MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_DECODE */ + MA_SOUND_FLAG_ASYNC = 0x00000004, /* MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC */ + MA_SOUND_FLAG_WAIT_INIT = 0x00000008, /* MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT */ + MA_SOUND_FLAG_UNKNOWN_LENGTH = 0x00000010, /* MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_UNKNOWN_LENGTH */ + MA_SOUND_FLAG_LOOPING = 0x00000020, /* MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING */ + + /* ma_sound specific flags. */ + MA_SOUND_FLAG_NO_DEFAULT_ATTACHMENT = 0x00001000, /* Do not attach to the endpoint by default. Useful for when setting up nodes in a complex graph system. */ + MA_SOUND_FLAG_NO_PITCH = 0x00002000, /* Disable pitch shifting with ma_sound_set_pitch() and ma_sound_group_set_pitch(). This is an optimization. */ + MA_SOUND_FLAG_NO_SPATIALIZATION = 0x00004000 /* Disable spatialization. */ +} ma_sound_flags; + +#ifndef MA_ENGINE_MAX_LISTENERS +#define MA_ENGINE_MAX_LISTENERS 4 +#endif + +#define MA_LISTENER_INDEX_CLOSEST ((ma_uint8)-1) + +typedef enum +{ + ma_engine_node_type_sound, + ma_engine_node_type_group +} ma_engine_node_type; + +typedef struct +{ + ma_engine* pEngine; + ma_engine_node_type type; + ma_uint32 channelsIn; + ma_uint32 channelsOut; + ma_uint32 sampleRate; /* Only used when the type is set to ma_engine_node_type_sound. */ + ma_uint32 volumeSmoothTimeInPCMFrames; /* The number of frames to smooth over volume changes. Defaults to 0 in which case no smoothing is used. */ + ma_mono_expansion_mode monoExpansionMode; + ma_bool8 isPitchDisabled; /* Pitching can be explicitly disabled with MA_SOUND_FLAG_NO_PITCH to optimize processing. */ + ma_bool8 isSpatializationDisabled; /* Spatialization can be explicitly disabled with MA_SOUND_FLAG_NO_SPATIALIZATION. */ + ma_uint8 pinnedListenerIndex; /* The index of the listener this node should always use for spatialization. If set to MA_LISTENER_INDEX_CLOSEST the engine will use the closest listener. */ + ma_resampler_config resampling; +} ma_engine_node_config; + +MA_API ma_engine_node_config ma_engine_node_config_init(ma_engine* pEngine, ma_engine_node_type type, ma_uint32 flags); + + +/* Base node object for both ma_sound and ma_sound_group. */ +typedef struct +{ + ma_node_base baseNode; /* Must be the first member for compatibility with the ma_node API. */ + ma_engine* pEngine; /* A pointer to the engine. Set based on the value from the config. */ + ma_uint32 sampleRate; /* The sample rate of the input data. For sounds backed by a data source, this will be the data source's sample rate. Otherwise it'll be the engine's sample rate. */ + ma_uint32 volumeSmoothTimeInPCMFrames; + ma_mono_expansion_mode monoExpansionMode; + ma_fader fader; + ma_resampler resampler; /* For pitch shift. */ + ma_spatializer spatializer; + ma_panner panner; + ma_gainer volumeGainer; /* This will only be used if volumeSmoothTimeInPCMFrames is > 0. */ + ma_atomic_float volume; /* Defaults to 1. */ + MA_ATOMIC(4, float) pitch; + float oldPitch; /* For determining whether or not the resampler needs to be updated to reflect the new pitch. The resampler will be updated on the mixing thread. */ + float oldDopplerPitch; /* For determining whether or not the resampler needs to be updated to take a new doppler pitch into account. */ + MA_ATOMIC(4, ma_bool32) isPitchDisabled; /* When set to true, pitching will be disabled which will allow the resampler to be bypassed to save some computation. */ + MA_ATOMIC(4, ma_bool32) isSpatializationDisabled; /* Set to false by default. When set to false, will not have spatialisation applied. */ + MA_ATOMIC(4, ma_uint32) pinnedListenerIndex; /* The index of the listener this node should always use for spatialization. If set to MA_LISTENER_INDEX_CLOSEST the engine will use the closest listener. */ + + /* When setting a fade, it's not done immediately in ma_sound_set_fade(). It's deferred to the audio thread which means we need to store the settings here. */ + struct + { + ma_atomic_float volumeBeg; + ma_atomic_float volumeEnd; + ma_atomic_uint64 fadeLengthInFrames; /* <-- Defaults to (~(ma_uint64)0) which is used to indicate that no fade should be applied. */ + ma_atomic_uint64 absoluteGlobalTimeInFrames; /* <-- The time to start the fade. */ + } fadeSettings; + + /* Memory management. */ + ma_bool8 _ownsHeap; + void* _pHeap; +} ma_engine_node; + +MA_API ma_result ma_engine_node_get_heap_size(const ma_engine_node_config* pConfig, size_t* pHeapSizeInBytes); +MA_API ma_result ma_engine_node_init_preallocated(const ma_engine_node_config* pConfig, void* pHeap, ma_engine_node* pEngineNode); +MA_API ma_result ma_engine_node_init(const ma_engine_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_engine_node* pEngineNode); +MA_API void ma_engine_node_uninit(ma_engine_node* pEngineNode, const ma_allocation_callbacks* pAllocationCallbacks); + + +#define MA_SOUND_SOURCE_CHANNEL_COUNT 0xFFFFFFFF + +/* Callback for when a sound reaches the end. */ +typedef void (* ma_sound_end_proc)(void* pUserData, ma_sound* pSound); + +typedef struct +{ + const char* pFilePath; /* Set this to load from the resource manager. */ + const wchar_t* pFilePathW; /* Set this to load from the resource manager. */ + ma_data_source* pDataSource; /* Set this to load from an existing data source. */ + ma_node* pInitialAttachment; /* If set, the sound will be attached to an input of this node. This can be set to a ma_sound. If set to NULL, the sound will be attached directly to the endpoint unless MA_SOUND_FLAG_NO_DEFAULT_ATTACHMENT is set in `flags`. */ + ma_uint32 initialAttachmentInputBusIndex; /* The index of the input bus of pInitialAttachment to attach the sound to. */ + ma_uint32 channelsIn; /* Ignored if using a data source as input (the data source's channel count will be used always). Otherwise, setting to 0 will cause the engine's channel count to be used. */ + ma_uint32 channelsOut; /* Set this to 0 (default) to use the engine's channel count. Set to MA_SOUND_SOURCE_CHANNEL_COUNT to use the data source's channel count (only used if using a data source as input). */ + ma_mono_expansion_mode monoExpansionMode; /* Controls how the mono channel should be expanded to other channels when spatialization is disabled on a sound. */ + ma_uint32 flags; /* A combination of MA_SOUND_FLAG_* flags. */ + ma_uint32 volumeSmoothTimeInPCMFrames; /* The number of frames to smooth over volume changes. Defaults to 0 in which case no smoothing is used. */ + ma_uint64 initialSeekPointInPCMFrames; /* Initializes the sound such that it's seeked to this location by default. */ + ma_uint64 rangeBegInPCMFrames; + ma_uint64 rangeEndInPCMFrames; + ma_uint64 loopPointBegInPCMFrames; + ma_uint64 loopPointEndInPCMFrames; + ma_sound_end_proc endCallback; /* Fired when the sound reaches the end. Will be fired from the audio thread. Do not restart, uninitialize or otherwise change the state of the sound from here. Instead fire an event or set a variable to indicate to a different thread to change the start of the sound. Will not be fired in response to a scheduled stop with ma_sound_set_stop_time_*(). */ + void* pEndCallbackUserData; + ma_resampler_config pitchResampling; +#ifndef MA_NO_RESOURCE_MANAGER + ma_resource_manager_pipeline_notifications initNotifications; +#endif + ma_fence* pDoneFence; /* Deprecated. Use initNotifications instead. Released when the resource manager has finished decoding the entire sound. Not used with streams. */ + ma_bool32 isLooping; /* Deprecated. Use the MA_SOUND_FLAG_LOOPING flag in `flags` instead. */ +} ma_sound_config; + +MA_API ma_sound_config ma_sound_config_init(void); /* Deprecated. Will be removed in version 0.12. Use ma_sound_config_2() instead. */ +MA_API ma_sound_config ma_sound_config_init_2(ma_engine* pEngine); /* Will be renamed to ma_sound_config_init() in version 0.12. */ + +struct ma_sound +{ + ma_engine_node engineNode; /* Must be the first member for compatibility with the ma_node API. */ + ma_data_source* pDataSource; + MA_ATOMIC(8, ma_uint64) seekTarget; /* The PCM frame index to seek to in the mixing thread. Set to (~(ma_uint64)0) to not perform any seeking. */ + MA_ATOMIC(4, ma_bool32) atEnd; + ma_sound_end_proc endCallback; + void* pEndCallbackUserData; + float* pProcessingCache; /* Will be null if pDataSource is null. */ + ma_uint32 processingCacheFramesRemaining; + ma_uint32 processingCacheCap; + ma_bool8 ownsDataSource; + + /* + We're declaring a resource manager data source object here to save us a malloc when loading a + sound via the resource manager, which I *think* will be the most common scenario. + */ +#ifndef MA_NO_RESOURCE_MANAGER + ma_resource_manager_data_source* pResourceManagerDataSource; +#endif +}; + +/* Structure specifically for sounds played with ma_engine_play_sound(). Making this a separate structure to reduce overhead. */ +typedef struct ma_sound_inlined ma_sound_inlined; +struct ma_sound_inlined +{ + ma_sound sound; + ma_sound_inlined* pNext; + ma_sound_inlined* pPrev; +}; + +/* A sound group is just a sound. */ +typedef ma_sound_config ma_sound_group_config; +typedef ma_sound ma_sound_group; + +MA_API ma_sound_group_config ma_sound_group_config_init(void); /* Deprecated. Will be removed in version 0.12. Use ma_sound_config_2() instead. */ +MA_API ma_sound_group_config ma_sound_group_config_init_2(ma_engine* pEngine); /* Will be renamed to ma_sound_config_init() in version 0.12. */ + +typedef void (* ma_engine_process_proc)(void* pUserData, float* pFramesOut, ma_uint64 frameCount); + +typedef struct +{ +#if !defined(MA_NO_RESOURCE_MANAGER) + ma_resource_manager* pResourceManager; /* Can be null in which case a resource manager will be created for you. */ +#endif +#if !defined(MA_NO_DEVICE_IO) + ma_context* pContext; + ma_device* pDevice; /* If set, the caller is responsible for calling ma_engine_data_callback() in the device's data callback. */ + ma_device_id* pPlaybackDeviceID; /* The ID of the playback device to use with the default listener. */ + ma_device_data_proc dataCallback; /* Can be null. Can be used to provide a custom device data callback. */ + ma_device_notification_proc notificationCallback; +#endif + ma_log* pLog; /* When set to NULL, will use the context's log. */ + ma_uint32 listenerCount; /* Must be between 1 and MA_ENGINE_MAX_LISTENERS. */ + ma_uint32 channels; /* The number of channels to use when mixing and spatializing. When set to 0, will use the native channel count of the device. */ + ma_uint32 sampleRate; /* The sample rate. When set to 0 will use the native sample rate of the device. */ + ma_uint32 periodSizeInFrames; /* If set to something other than 0, updates will always be exactly this size. The underlying device may be a different size, but from the perspective of the mixer that won't matter.*/ + ma_uint32 periodSizeInMilliseconds; /* Used if periodSizeInFrames is unset. */ + ma_uint32 gainSmoothTimeInFrames; /* The number of frames to interpolate the gain of spatialized sounds across. If set to 0, will use gainSmoothTimeInMilliseconds. */ + ma_uint32 gainSmoothTimeInMilliseconds; /* When set to 0, gainSmoothTimeInFrames will be used. If both are set to 0, a default value will be used. */ + ma_uint32 defaultVolumeSmoothTimeInPCMFrames; /* Defaults to 0. Controls the default amount of smoothing to apply to volume changes to sounds. High values means more smoothing at the expense of high latency (will take longer to reach the new volume). */ + ma_uint32 preMixStackSizeInBytes; /* A stack is used for internal processing in the node graph. This allows you to configure the size of this stack. Smaller values will reduce the maximum depth of your node graph. You should rarely need to modify this. */ + ma_allocation_callbacks allocationCallbacks; + ma_bool32 noAutoStart; /* When set to true, requires an explicit call to ma_engine_start(). This is false by default, meaning the engine will be started automatically in ma_engine_init(). */ + ma_bool32 noDevice; /* When set to true, don't create a default device. ma_engine_read_pcm_frames() can be called manually to read data. */ + ma_mono_expansion_mode monoExpansionMode; /* Controls how the mono channel should be expanded to other channels when spatialization is disabled on a sound. */ + ma_vfs* pResourceManagerVFS; /* A pointer to a pre-allocated VFS object to use with the resource manager. This is ignored if pResourceManager is not NULL. */ + ma_engine_process_proc onProcess; /* Fired at the end of each call to ma_engine_read_pcm_frames(). For engine's that manage their own internal device (the default configuration), this will be fired from the audio thread, and you do not need to call ma_engine_read_pcm_frames() manually in order to trigger this. */ + void* pProcessUserData; /* User data that's passed into onProcess. */ + ma_resampler_config resourceManagerResampling; /* The resampling config to use with the resource manager. */ + ma_resampler_config pitchResampling; /* The resampling config for the pitch and Doppler effects. You will typically want this to be a fast resampler. For high quality stuff, it's recommended that you pre-resample. */ +} ma_engine_config; + +MA_API ma_engine_config ma_engine_config_init(void); + + +struct ma_engine +{ + ma_node_graph nodeGraph; /* An engine is a node graph. It should be able to be plugged into any ma_node_graph API (with a cast) which means this must be the first member of this struct. */ +#if !defined(MA_NO_RESOURCE_MANAGER) + ma_resource_manager* pResourceManager; +#endif +#if !defined(MA_NO_DEVICE_IO) + ma_device* pDevice; /* Optionally set via the config, otherwise allocated by the engine in ma_engine_init(). */ +#endif + ma_log* pLog; + ma_uint32 sampleRate; + ma_uint32 listenerCount; + ma_spatializer_listener listeners[MA_ENGINE_MAX_LISTENERS]; + ma_allocation_callbacks allocationCallbacks; + ma_bool8 ownsResourceManager; + ma_bool8 ownsDevice; + ma_spinlock inlinedSoundLock; /* For synchronizing access to the inlined sound list. */ + ma_sound_inlined* pInlinedSoundHead; /* The first inlined sound. Inlined sounds are tracked in a linked list. */ + MA_ATOMIC(4, ma_uint32) inlinedSoundCount; /* The total number of allocated inlined sound objects. Used for debugging. */ + ma_uint32 gainSmoothTimeInFrames; /* The number of frames to interpolate the gain of spatialized sounds across. */ + ma_uint32 defaultVolumeSmoothTimeInPCMFrames; + ma_mono_expansion_mode monoExpansionMode; + ma_engine_process_proc onProcess; + void* pProcessUserData; + ma_resampler_config pitchResamplingConfig; +}; + +MA_API ma_result ma_engine_init(const ma_engine_config* pConfig, ma_engine* pEngine); +MA_API void ma_engine_uninit(ma_engine* pEngine); +MA_API ma_result ma_engine_read_pcm_frames(ma_engine* pEngine, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_node_graph* ma_engine_get_node_graph(ma_engine* pEngine); +#if !defined(MA_NO_RESOURCE_MANAGER) +MA_API ma_resource_manager* ma_engine_get_resource_manager(ma_engine* pEngine); +#endif +MA_API ma_device* ma_engine_get_device(ma_engine* pEngine); +MA_API ma_log* ma_engine_get_log(ma_engine* pEngine); +MA_API ma_node* ma_engine_get_endpoint(ma_engine* pEngine); +MA_API ma_uint64 ma_engine_get_time_in_pcm_frames(const ma_engine* pEngine); +MA_API ma_uint64 ma_engine_get_time_in_milliseconds(const ma_engine* pEngine); +MA_API ma_result ma_engine_set_time_in_pcm_frames(ma_engine* pEngine, ma_uint64 globalTime); +MA_API ma_result ma_engine_set_time_in_milliseconds(ma_engine* pEngine, ma_uint64 globalTime); +MA_API ma_uint64 ma_engine_get_time(const ma_engine* pEngine); /* Deprecated. Use ma_engine_get_time_in_pcm_frames(). Will be removed in version 0.12. */ +MA_API ma_result ma_engine_set_time(ma_engine* pEngine, ma_uint64 globalTime); /* Deprecated. Use ma_engine_set_time_in_pcm_frames(). Will be removed in version 0.12. */ +MA_API ma_uint32 ma_engine_get_channels(const ma_engine* pEngine); +MA_API ma_uint32 ma_engine_get_sample_rate(const ma_engine* pEngine); + +MA_API ma_result ma_engine_start(ma_engine* pEngine); +MA_API ma_result ma_engine_stop(ma_engine* pEngine); +MA_API ma_result ma_engine_set_volume(ma_engine* pEngine, float volume); +MA_API float ma_engine_get_volume(ma_engine* pEngine); +MA_API ma_result ma_engine_set_gain_db(ma_engine* pEngine, float gainDB); +MA_API float ma_engine_get_gain_db(ma_engine* pEngine); + +MA_API ma_uint32 ma_engine_get_listener_count(const ma_engine* pEngine); +MA_API ma_uint32 ma_engine_find_closest_listener(const ma_engine* pEngine, float absolutePosX, float absolutePosY, float absolutePosZ); +MA_API void ma_engine_listener_set_position(ma_engine* pEngine, ma_uint32 listenerIndex, float x, float y, float z); +MA_API ma_vec3f ma_engine_listener_get_position(const ma_engine* pEngine, ma_uint32 listenerIndex); +MA_API void ma_engine_listener_set_direction(ma_engine* pEngine, ma_uint32 listenerIndex, float x, float y, float z); +MA_API ma_vec3f ma_engine_listener_get_direction(const ma_engine* pEngine, ma_uint32 listenerIndex); +MA_API void ma_engine_listener_set_velocity(ma_engine* pEngine, ma_uint32 listenerIndex, float x, float y, float z); +MA_API ma_vec3f ma_engine_listener_get_velocity(const ma_engine* pEngine, ma_uint32 listenerIndex); +MA_API void ma_engine_listener_set_cone(ma_engine* pEngine, ma_uint32 listenerIndex, float innerAngleInRadians, float outerAngleInRadians, float outerGain); +MA_API void ma_engine_listener_get_cone(const ma_engine* pEngine, ma_uint32 listenerIndex, float* pInnerAngleInRadians, float* pOuterAngleInRadians, float* pOuterGain); +MA_API void ma_engine_listener_set_world_up(ma_engine* pEngine, ma_uint32 listenerIndex, float x, float y, float z); +MA_API ma_vec3f ma_engine_listener_get_world_up(const ma_engine* pEngine, ma_uint32 listenerIndex); +MA_API void ma_engine_listener_set_enabled(ma_engine* pEngine, ma_uint32 listenerIndex, ma_bool32 isEnabled); +MA_API ma_bool32 ma_engine_listener_is_enabled(const ma_engine* pEngine, ma_uint32 listenerIndex); + +#ifndef MA_NO_RESOURCE_MANAGER +MA_API ma_result ma_engine_play_sound_ex(ma_engine* pEngine, const char* pFilePath, ma_node* pNode, ma_uint32 nodeInputBusIndex); +MA_API ma_result ma_engine_play_sound(ma_engine* pEngine, const char* pFilePath, ma_sound_group* pGroup); /* Fire and forget. */ +#endif + +#ifndef MA_NO_RESOURCE_MANAGER +MA_API ma_result ma_sound_init_from_file(ma_engine* pEngine, const char* pFilePath, ma_uint32 flags, ma_sound_group* pGroup, ma_fence* pDoneFence, ma_sound* pSound); +MA_API ma_result ma_sound_init_from_file_w(ma_engine* pEngine, const wchar_t* pFilePath, ma_uint32 flags, ma_sound_group* pGroup, ma_fence* pDoneFence, ma_sound* pSound); +MA_API ma_result ma_sound_init_copy(ma_engine* pEngine, const ma_sound* pExistingSound, ma_uint32 flags, ma_sound_group* pGroup, ma_sound* pSound); +#endif +MA_API ma_result ma_sound_init_from_data_source(ma_engine* pEngine, ma_data_source* pDataSource, ma_uint32 flags, ma_sound_group* pGroup, ma_sound* pSound); +MA_API ma_result ma_sound_init_ex(ma_engine* pEngine, const ma_sound_config* pConfig, ma_sound* pSound); +MA_API void ma_sound_uninit(ma_sound* pSound); +MA_API ma_engine* ma_sound_get_engine(const ma_sound* pSound); +MA_API ma_data_source* ma_sound_get_data_source(const ma_sound* pSound); +MA_API ma_result ma_sound_start(ma_sound* pSound); +MA_API ma_result ma_sound_stop(ma_sound* pSound); +MA_API ma_result ma_sound_stop_with_fade_in_pcm_frames(ma_sound* pSound, ma_uint64 fadeLengthInFrames); /* Will overwrite any scheduled stop and fade. If you want to restart the sound, first reset it with `ma_sound_reset_stop_time_and_fade()`. There are plans to make this less awkward in the future. */ +MA_API ma_result ma_sound_stop_with_fade_in_milliseconds(ma_sound* pSound, ma_uint64 fadeLengthInFrames); /* Will overwrite any scheduled stop and fade. If you want to restart the sound, first reset it with `ma_sound_reset_stop_time_and_fade()`. There are plans to make this less awkward in the future. */ +MA_API void ma_sound_reset_start_time(ma_sound* pSound); +MA_API void ma_sound_reset_stop_time(ma_sound* pSound); +MA_API void ma_sound_reset_fade(ma_sound* pSound); +MA_API void ma_sound_reset_stop_time_and_fade(ma_sound* pSound); /* Resets fades and scheduled stop time. Does not seek back to the start. */ +MA_API void ma_sound_set_volume(ma_sound* pSound, float volume); +MA_API float ma_sound_get_volume(const ma_sound* pSound); +MA_API void ma_sound_set_pan(ma_sound* pSound, float pan); +MA_API float ma_sound_get_pan(const ma_sound* pSound); +MA_API void ma_sound_set_pan_mode(ma_sound* pSound, ma_pan_mode panMode); +MA_API ma_pan_mode ma_sound_get_pan_mode(const ma_sound* pSound); +MA_API void ma_sound_set_pitch(ma_sound* pSound, float pitch); +MA_API float ma_sound_get_pitch(const ma_sound* pSound); +MA_API void ma_sound_set_spatialization_enabled(ma_sound* pSound, ma_bool32 enabled); +MA_API ma_bool32 ma_sound_is_spatialization_enabled(const ma_sound* pSound); +MA_API void ma_sound_set_pinned_listener_index(ma_sound* pSound, ma_uint32 listenerIndex); +MA_API ma_uint32 ma_sound_get_pinned_listener_index(const ma_sound* pSound); +MA_API ma_uint32 ma_sound_get_listener_index(const ma_sound* pSound); +MA_API ma_vec3f ma_sound_get_direction_to_listener(const ma_sound* pSound); +MA_API void ma_sound_set_position(ma_sound* pSound, float x, float y, float z); +MA_API ma_vec3f ma_sound_get_position(const ma_sound* pSound); +MA_API void ma_sound_set_direction(ma_sound* pSound, float x, float y, float z); +MA_API ma_vec3f ma_sound_get_direction(const ma_sound* pSound); +MA_API void ma_sound_set_velocity(ma_sound* pSound, float x, float y, float z); +MA_API ma_vec3f ma_sound_get_velocity(const ma_sound* pSound); +MA_API void ma_sound_set_attenuation_model(ma_sound* pSound, ma_attenuation_model attenuationModel); +MA_API ma_attenuation_model ma_sound_get_attenuation_model(const ma_sound* pSound); +MA_API void ma_sound_set_positioning(ma_sound* pSound, ma_positioning positioning); +MA_API ma_positioning ma_sound_get_positioning(const ma_sound* pSound); +MA_API void ma_sound_set_rolloff(ma_sound* pSound, float rolloff); +MA_API float ma_sound_get_rolloff(const ma_sound* pSound); +MA_API void ma_sound_set_min_gain(ma_sound* pSound, float minGain); +MA_API float ma_sound_get_min_gain(const ma_sound* pSound); +MA_API void ma_sound_set_max_gain(ma_sound* pSound, float maxGain); +MA_API float ma_sound_get_max_gain(const ma_sound* pSound); +MA_API void ma_sound_set_min_distance(ma_sound* pSound, float minDistance); +MA_API float ma_sound_get_min_distance(const ma_sound* pSound); +MA_API void ma_sound_set_max_distance(ma_sound* pSound, float maxDistance); +MA_API float ma_sound_get_max_distance(const ma_sound* pSound); +MA_API void ma_sound_set_cone(ma_sound* pSound, float innerAngleInRadians, float outerAngleInRadians, float outerGain); +MA_API void ma_sound_get_cone(const ma_sound* pSound, float* pInnerAngleInRadians, float* pOuterAngleInRadians, float* pOuterGain); +MA_API void ma_sound_set_doppler_factor(ma_sound* pSound, float dopplerFactor); +MA_API float ma_sound_get_doppler_factor(const ma_sound* pSound); +MA_API void ma_sound_set_directional_attenuation_factor(ma_sound* pSound, float directionalAttenuationFactor); +MA_API float ma_sound_get_directional_attenuation_factor(const ma_sound* pSound); +MA_API void ma_sound_set_fade_in_pcm_frames(ma_sound* pSound, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInFrames); +MA_API void ma_sound_set_fade_in_milliseconds(ma_sound* pSound, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInMilliseconds); +MA_API void ma_sound_set_fade_start_in_pcm_frames(ma_sound* pSound, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInFrames, ma_uint64 absoluteGlobalTimeInFrames); +MA_API void ma_sound_set_fade_start_in_milliseconds(ma_sound* pSound, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInMilliseconds, ma_uint64 absoluteGlobalTimeInMilliseconds); +MA_API float ma_sound_get_current_fade_volume(const ma_sound* pSound); +MA_API void ma_sound_set_start_time_in_pcm_frames(ma_sound* pSound, ma_uint64 absoluteGlobalTimeInFrames); +MA_API void ma_sound_set_start_time_in_milliseconds(ma_sound* pSound, ma_uint64 absoluteGlobalTimeInMilliseconds); +MA_API void ma_sound_set_stop_time_in_pcm_frames(ma_sound* pSound, ma_uint64 absoluteGlobalTimeInFrames); +MA_API void ma_sound_set_stop_time_in_milliseconds(ma_sound* pSound, ma_uint64 absoluteGlobalTimeInMilliseconds); +MA_API void ma_sound_set_stop_time_with_fade_in_pcm_frames(ma_sound* pSound, ma_uint64 stopAbsoluteGlobalTimeInFrames, ma_uint64 fadeLengthInFrames); +MA_API void ma_sound_set_stop_time_with_fade_in_milliseconds(ma_sound* pSound, ma_uint64 stopAbsoluteGlobalTimeInMilliseconds, ma_uint64 fadeLengthInMilliseconds); +MA_API ma_bool32 ma_sound_is_playing(const ma_sound* pSound); +MA_API ma_uint64 ma_sound_get_time_in_pcm_frames(const ma_sound* pSound); +MA_API ma_uint64 ma_sound_get_time_in_milliseconds(const ma_sound* pSound); +MA_API void ma_sound_set_looping(ma_sound* pSound, ma_bool32 isLooping); +MA_API ma_bool32 ma_sound_is_looping(const ma_sound* pSound); +MA_API ma_bool32 ma_sound_at_end(const ma_sound* pSound); +MA_API ma_result ma_sound_seek_to_pcm_frame(ma_sound* pSound, ma_uint64 frameIndex); /* Just a wrapper around ma_data_source_seek_to_pcm_frame(). */ +MA_API ma_result ma_sound_seek_to_second(ma_sound* pSound, float seekPointInSeconds); /* Abstraction to ma_sound_seek_to_pcm_frame() */ +MA_API ma_result ma_sound_get_data_format(const ma_sound* pSound, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_sound_get_cursor_in_pcm_frames(const ma_sound* pSound, ma_uint64* pCursor); +MA_API ma_result ma_sound_get_length_in_pcm_frames(const ma_sound* pSound, ma_uint64* pLength); +MA_API ma_result ma_sound_get_cursor_in_seconds(const ma_sound* pSound, float* pCursor); +MA_API ma_result ma_sound_get_length_in_seconds(const ma_sound* pSound, float* pLength); +MA_API ma_result ma_sound_set_end_callback(ma_sound* pSound, ma_sound_end_proc callback, void* pUserData); + +MA_API ma_result ma_sound_group_init(ma_engine* pEngine, ma_uint32 flags, ma_sound_group* pParentGroup, ma_sound_group* pGroup); +MA_API ma_result ma_sound_group_init_ex(ma_engine* pEngine, const ma_sound_group_config* pConfig, ma_sound_group* pGroup); +MA_API void ma_sound_group_uninit(ma_sound_group* pGroup); +MA_API ma_engine* ma_sound_group_get_engine(const ma_sound_group* pGroup); +MA_API ma_result ma_sound_group_start(ma_sound_group* pGroup); +MA_API ma_result ma_sound_group_stop(ma_sound_group* pGroup); +MA_API void ma_sound_group_set_volume(ma_sound_group* pGroup, float volume); +MA_API float ma_sound_group_get_volume(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_pan(ma_sound_group* pGroup, float pan); +MA_API float ma_sound_group_get_pan(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_pan_mode(ma_sound_group* pGroup, ma_pan_mode panMode); +MA_API ma_pan_mode ma_sound_group_get_pan_mode(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_pitch(ma_sound_group* pGroup, float pitch); +MA_API float ma_sound_group_get_pitch(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_spatialization_enabled(ma_sound_group* pGroup, ma_bool32 enabled); +MA_API ma_bool32 ma_sound_group_is_spatialization_enabled(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_pinned_listener_index(ma_sound_group* pGroup, ma_uint32 listenerIndex); +MA_API ma_uint32 ma_sound_group_get_pinned_listener_index(const ma_sound_group* pGroup); +MA_API ma_uint32 ma_sound_group_get_listener_index(const ma_sound_group* pGroup); +MA_API ma_vec3f ma_sound_group_get_direction_to_listener(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_position(ma_sound_group* pGroup, float x, float y, float z); +MA_API ma_vec3f ma_sound_group_get_position(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_direction(ma_sound_group* pGroup, float x, float y, float z); +MA_API ma_vec3f ma_sound_group_get_direction(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_velocity(ma_sound_group* pGroup, float x, float y, float z); +MA_API ma_vec3f ma_sound_group_get_velocity(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_attenuation_model(ma_sound_group* pGroup, ma_attenuation_model attenuationModel); +MA_API ma_attenuation_model ma_sound_group_get_attenuation_model(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_positioning(ma_sound_group* pGroup, ma_positioning positioning); +MA_API ma_positioning ma_sound_group_get_positioning(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_rolloff(ma_sound_group* pGroup, float rolloff); +MA_API float ma_sound_group_get_rolloff(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_min_gain(ma_sound_group* pGroup, float minGain); +MA_API float ma_sound_group_get_min_gain(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_max_gain(ma_sound_group* pGroup, float maxGain); +MA_API float ma_sound_group_get_max_gain(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_min_distance(ma_sound_group* pGroup, float minDistance); +MA_API float ma_sound_group_get_min_distance(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_max_distance(ma_sound_group* pGroup, float maxDistance); +MA_API float ma_sound_group_get_max_distance(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_cone(ma_sound_group* pGroup, float innerAngleInRadians, float outerAngleInRadians, float outerGain); +MA_API void ma_sound_group_get_cone(const ma_sound_group* pGroup, float* pInnerAngleInRadians, float* pOuterAngleInRadians, float* pOuterGain); +MA_API void ma_sound_group_set_doppler_factor(ma_sound_group* pGroup, float dopplerFactor); +MA_API float ma_sound_group_get_doppler_factor(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_directional_attenuation_factor(ma_sound_group* pGroup, float directionalAttenuationFactor); +MA_API float ma_sound_group_get_directional_attenuation_factor(const ma_sound_group* pGroup); +MA_API void ma_sound_group_set_fade_in_pcm_frames(ma_sound_group* pGroup, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInFrames); +MA_API void ma_sound_group_set_fade_in_milliseconds(ma_sound_group* pGroup, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInMilliseconds); +MA_API float ma_sound_group_get_current_fade_volume(ma_sound_group* pGroup); +MA_API void ma_sound_group_set_start_time_in_pcm_frames(ma_sound_group* pGroup, ma_uint64 absoluteGlobalTimeInFrames); +MA_API void ma_sound_group_set_start_time_in_milliseconds(ma_sound_group* pGroup, ma_uint64 absoluteGlobalTimeInMilliseconds); +MA_API void ma_sound_group_set_stop_time_in_pcm_frames(ma_sound_group* pGroup, ma_uint64 absoluteGlobalTimeInFrames); +MA_API void ma_sound_group_set_stop_time_in_milliseconds(ma_sound_group* pGroup, ma_uint64 absoluteGlobalTimeInMilliseconds); +MA_API ma_bool32 ma_sound_group_is_playing(const ma_sound_group* pGroup); +MA_API ma_uint64 ma_sound_group_get_time_in_pcm_frames(const ma_sound_group* pGroup); +#endif /* MA_NO_ENGINE */ +/* END SECTION: miniaudio_engine.h */ + +#ifdef __cplusplus +} +#endif +#endif /* miniaudio_h */ + + +/* +This is for preventing greying out of the implementation section. +*/ +#if defined(Q_CREATOR_RUN) || defined(__INTELLISENSE__) || defined(__CDT_PARSER__) +#define MINIAUDIO_IMPLEMENTATION +#endif + +/************************************************************************************************************************************************************ +************************************************************************************************************************************************************* + +IMPLEMENTATION + +************************************************************************************************************************************************************* +************************************************************************************************************************************************************/ +#if defined(MINIAUDIO_IMPLEMENTATION) || defined(MA_IMPLEMENTATION) +#ifndef miniaudio_c +#define miniaudio_c + +#include +#include /* For INT_MAX */ +#include /* sin(), etc. */ +#include /* For malloc(), free(), wcstombs(). */ +#include /* For memset() */ + +#include +#include +#if !defined(_MSC_VER) && !defined(__DMC__) + #include /* For strcasecmp(). */ + #include /* For wcslen(), wcsrtombs() */ +#endif +#ifdef _MSC_VER + #include /* For _controlfp_s constants */ +#endif + +#if defined(MA_WIN32) + #include + + /* + There's a possibility that WIN32_LEAN_AND_MEAN has been defined which will exclude some symbols + such as STGM_READ and CLSCTL_ALL. We need to check these and define them ourselves if they're + unavailable. + */ + #ifndef STGM_READ + #define STGM_READ 0x00000000L + #endif + #ifndef CLSCTX_ALL + #define CLSCTX_ALL 23 + #endif + + /* IUnknown is used by both the WASAPI and DirectSound backends. It easier to just declare our version here. */ + typedef struct ma_IUnknown ma_IUnknown; +#endif + +#if !defined(MA_WIN32) + #if !defined(MA_NO_THREADING) + #include + #include /* For pthreads. */ + #endif + + #include /* select() (used for ma_sleep()). */ + #include /* For nanosleep() */ + #include +#endif + +/* For fstat(), etc. */ +#if defined(MA_XBOX_NXDK) + #include /* Suggestion for NXDK: Add a sys/stat.h wrapper for compatibility. */ +#else + #include +#endif + +#ifdef MA_EMSCRIPTEN +#include +#endif + + +/* Architecture Detection */ +#if !defined(MA_64BIT) && !defined(MA_32BIT) +#ifdef _WIN32 +#ifdef _WIN64 +#define MA_64BIT +#else +#define MA_32BIT +#endif +#endif +#endif + +#if !defined(MA_64BIT) && !defined(MA_32BIT) +#ifdef __GNUC__ +#ifdef __LP64__ +#define MA_64BIT +#else +#define MA_32BIT +#endif +#endif +#endif + +#if !defined(MA_64BIT) && !defined(MA_32BIT) +#include +#if INTPTR_MAX == INT64_MAX +#define MA_64BIT +#else +#define MA_32BIT +#endif +#endif + +#if defined(__arm__) || defined(_M_ARM) +#define MA_ARM32 +#endif +#if defined(__arm64) || defined(__arm64__) || defined(__aarch64__) || defined(_M_ARM64) +#define MA_ARM64 +#endif + +#if defined(__x86_64__) || defined(_M_X64) +#define MA_X64 +#elif defined(__i386) || defined(_M_IX86) +#define MA_X86 +#elif defined(MA_ARM32) || defined(MA_ARM64) +#define MA_ARM +#endif + +/* Intrinsics Support */ +#if defined(MA_X64) || defined(MA_X86) + #if defined(_MSC_VER) && !defined(__clang__) + /* MSVC. */ + #if _MSC_VER >= 1400 && !defined(MA_NO_SSE2) /* 2005 */ + #define MA_SUPPORT_SSE2 + #endif + /*#if _MSC_VER >= 1600 && !defined(MA_NO_AVX)*/ /* 2010 */ + /* #define MA_SUPPORT_AVX*/ + /*#endif*/ + #if _MSC_VER >= 1700 && !defined(MA_NO_AVX2) /* 2012 */ + #define MA_SUPPORT_AVX2 + #endif + #else + /* Assume GNUC-style. */ + #if defined(__SSE2__) && !defined(MA_NO_SSE2) + #define MA_SUPPORT_SSE2 + #endif + /*#if defined(__AVX__) && !defined(MA_NO_AVX)*/ + /* #define MA_SUPPORT_AVX*/ + /*#endif*/ + #if defined(__AVX2__) && !defined(MA_NO_AVX2) + #define MA_SUPPORT_AVX2 + #endif + #endif + + /* If at this point we still haven't determined compiler support for the intrinsics just fall back to __has_include. */ + #if !defined(__GNUC__) && !defined(__clang__) && defined(__has_include) + #if !defined(MA_SUPPORT_SSE2) && !defined(MA_NO_SSE2) && __has_include() + #define MA_SUPPORT_SSE2 + #endif + /*#if !defined(MA_SUPPORT_AVX) && !defined(MA_NO_AVX) && __has_include()*/ + /* #define MA_SUPPORT_AVX*/ + /*#endif*/ + #if !defined(MA_SUPPORT_AVX2) && !defined(MA_NO_AVX2) && __has_include() + #define MA_SUPPORT_AVX2 + #endif + #endif + + #if defined(MA_SUPPORT_AVX2) || defined(MA_SUPPORT_AVX) + #include + #elif defined(MA_SUPPORT_SSE2) + #include + #endif +#endif + +#if defined(MA_ARM) + #if !defined(MA_NO_NEON) && (defined(__ARM_NEON) || defined(__aarch64__) || defined(_M_ARM64)) + #define MA_SUPPORT_NEON + #include + #endif +#endif + +/* Begin globally disabled warnings. */ +#if defined(_MSC_VER) + #pragma warning(push) + #pragma warning(disable:4752) /* found Intel(R) Advanced Vector Extensions; consider using /arch:AVX */ + #pragma warning(disable:4049) /* compiler limit : terminating line number emission */ +#endif + +#if defined(MA_X64) || defined(MA_X86) + #if defined(_MSC_VER) && !defined(__clang__) + #if _MSC_VER >= 1400 + #include + static MA_INLINE void ma_cpuid(int info[4], int fid) + { + __cpuid(info, fid); + } + #else + #define MA_NO_CPUID + #endif + + #if _MSC_VER >= 1600 && (defined(_MSC_FULL_VER) && _MSC_FULL_VER >= 160040219) + static MA_INLINE unsigned long long ma_xgetbv(int reg) + { + return _xgetbv(reg); + } + #else + #define MA_NO_XGETBV + #endif + #elif (defined(__GNUC__) || defined(__clang__)) && !defined(MA_ANDROID) + static MA_INLINE void ma_cpuid(int info[4], int fid) + { + /* + It looks like the -fPIC option uses the ebx register which GCC complains about. We can work around this by just using a different register, the + specific register of which I'm letting the compiler decide on. The "k" prefix is used to specify a 32-bit register. The {...} syntax is for + supporting different assembly dialects. + + What's basically happening is that we're saving and restoring the ebx register manually. + */ + #if defined(MA_X86) && defined(__PIC__) + __asm__ __volatile__ ( + "xchg{l} {%%}ebx, %k1;" + "cpuid;" + "xchg{l} {%%}ebx, %k1;" + : "=a"(info[0]), "=&r"(info[1]), "=c"(info[2]), "=d"(info[3]) : "a"(fid), "c"(0) + ); + #else + __asm__ __volatile__ ( + "cpuid" : "=a"(info[0]), "=b"(info[1]), "=c"(info[2]), "=d"(info[3]) : "a"(fid), "c"(0) + ); + #endif + } + + static MA_INLINE ma_uint64 ma_xgetbv(int reg) + { + unsigned int hi; + unsigned int lo; + + __asm__ __volatile__ ( + "xgetbv" : "=a"(lo), "=d"(hi) : "c"(reg) + ); + + return ((ma_uint64)hi << 32) | (ma_uint64)lo; + } + #else + #define MA_NO_CPUID + #define MA_NO_XGETBV + #endif +#else + #define MA_NO_CPUID + #define MA_NO_XGETBV +#endif + +static MA_INLINE ma_bool32 ma_has_sse2(void) +{ +#if defined(MA_SUPPORT_SSE2) + #if (defined(MA_X64) || defined(MA_X86)) && !defined(MA_NO_SSE2) + #if defined(MA_X64) + return MA_TRUE; /* 64-bit targets always support SSE2. */ + #elif (defined(_M_IX86_FP) && _M_IX86_FP == 2) || defined(__SSE2__) + return MA_TRUE; /* If the compiler is allowed to freely generate SSE2 code we can assume support. */ + #else + #if defined(MA_NO_CPUID) + return MA_FALSE; + #else + int info[4]; + ma_cpuid(info, 1); + return (info[3] & (1 << 26)) != 0; + #endif + #endif + #else + return MA_FALSE; /* SSE2 is only supported on x86 and x64 architectures. */ + #endif +#else + return MA_FALSE; /* No compiler support. */ +#endif +} + +#if 0 +static MA_INLINE ma_bool32 ma_has_avx() +{ +#if defined(MA_SUPPORT_AVX) + #if (defined(MA_X64) || defined(MA_X86)) && !defined(MA_NO_AVX) + #if defined(_AVX_) || defined(__AVX__) + return MA_TRUE; /* If the compiler is allowed to freely generate AVX code we can assume support. */ + #else + /* AVX requires both CPU and OS support. */ + #if defined(MA_NO_CPUID) || defined(MA_NO_XGETBV) + return MA_FALSE; + #else + int info[4]; + ma_cpuid(info, 1); + if (((info[2] & (1 << 27)) != 0) && ((info[2] & (1 << 28)) != 0)) { + ma_uint64 xrc = ma_xgetbv(0); + if ((xrc & 0x06) == 0x06) { + return MA_TRUE; + } else { + return MA_FALSE; + } + } else { + return MA_FALSE; + } + #endif + #endif + #else + return MA_FALSE; /* AVX is only supported on x86 and x64 architectures. */ + #endif +#else + return MA_FALSE; /* No compiler support. */ +#endif +} +#endif + +static MA_INLINE ma_bool32 ma_has_avx2(void) +{ +#if defined(MA_SUPPORT_AVX2) + #if (defined(MA_X64) || defined(MA_X86)) && !defined(MA_NO_AVX2) + #if defined(_AVX2_) || defined(__AVX2__) + return MA_TRUE; /* If the compiler is allowed to freely generate AVX2 code we can assume support. */ + #else + /* AVX2 requires both CPU and OS support. */ + #if defined(MA_NO_CPUID) || defined(MA_NO_XGETBV) + return MA_FALSE; + #else + int info1[4]; + int info7[4]; + ma_cpuid(info1, 1); + ma_cpuid(info7, 7); + if (((info1[2] & (1 << 27)) != 0) && ((info7[1] & (1 << 5)) != 0)) { + ma_uint64 xrc = ma_xgetbv(0); + if ((xrc & 0x06) == 0x06) { + return MA_TRUE; + } else { + return MA_FALSE; + } + } else { + return MA_FALSE; + } + #endif + #endif + #else + return MA_FALSE; /* AVX2 is only supported on x86 and x64 architectures. */ + #endif +#else + return MA_FALSE; /* No compiler support. */ +#endif +} + +static MA_INLINE ma_bool32 ma_has_neon(void) +{ +#if defined(MA_SUPPORT_NEON) + #if defined(MA_ARM) && !defined(MA_NO_NEON) + #if (defined(__ARM_NEON) || defined(__aarch64__) || defined(_M_ARM64)) + return MA_TRUE; /* If the compiler is allowed to freely generate NEON code we can assume support. */ + #else + /* TODO: Runtime check. */ + return MA_FALSE; + #endif + #else + return MA_FALSE; /* NEON is only supported on ARM architectures. */ + #endif +#else + return MA_FALSE; /* No compiler support. */ +#endif +} + +#if defined(__has_builtin) + #define MA_COMPILER_HAS_BUILTIN(x) __has_builtin(x) +#else + #define MA_COMPILER_HAS_BUILTIN(x) 0 +#endif + +#ifndef MA_ASSUME + #if MA_COMPILER_HAS_BUILTIN(__builtin_assume) + #define MA_ASSUME(x) __builtin_assume(x) + #elif MA_COMPILER_HAS_BUILTIN(__builtin_unreachable) + #define MA_ASSUME(x) do { if (!(x)) __builtin_unreachable(); } while (0) + #elif defined(_MSC_VER) + #define MA_ASSUME(x) __assume(x) + #else + #define MA_ASSUME(x) (void)(x) + #endif +#endif + +#ifndef MA_RESTRICT + #if defined(__clang__) || defined(_MSC_VER) || (defined(__GNUC__) && (__GNUC__ > 2 || (__GNUC__ == 2 && __GNUC_MINOR__ >= 95))) + #define MA_RESTRICT __restrict + #else + #define MA_RESTRICT + #endif +#endif + +#if defined(_MSC_VER) && _MSC_VER >= 1400 + #define MA_HAS_BYTESWAP16_INTRINSIC + #define MA_HAS_BYTESWAP32_INTRINSIC + #define MA_HAS_BYTESWAP64_INTRINSIC +#elif defined(__clang__) + #if MA_COMPILER_HAS_BUILTIN(__builtin_bswap16) + #define MA_HAS_BYTESWAP16_INTRINSIC + #endif + #if MA_COMPILER_HAS_BUILTIN(__builtin_bswap32) + #define MA_HAS_BYTESWAP32_INTRINSIC + #endif + #if MA_COMPILER_HAS_BUILTIN(__builtin_bswap64) + #define MA_HAS_BYTESWAP64_INTRINSIC + #endif +#elif defined(__GNUC__) + #if ((__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 3)) + #define MA_HAS_BYTESWAP32_INTRINSIC + #define MA_HAS_BYTESWAP64_INTRINSIC + #endif + #if ((__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)) + #define MA_HAS_BYTESWAP16_INTRINSIC + #endif +#endif + + +static MA_INLINE ma_bool32 ma_is_little_endian(void) +{ +#if defined(MA_X86) || defined(MA_X64) + return MA_TRUE; +#else + int n = 1; + return (*(char*)&n) == 1; +#endif +} + +static MA_INLINE ma_bool32 ma_is_big_endian(void) +{ + return !ma_is_little_endian(); +} + + +static MA_INLINE ma_uint32 ma_swap_endian_uint32(ma_uint32 n) +{ +#ifdef MA_HAS_BYTESWAP32_INTRINSIC + #if defined(_MSC_VER) + return _byteswap_ulong(n); + #elif defined(__GNUC__) || defined(__clang__) + #if defined(MA_ARM) && (defined(__ARM_ARCH) && __ARM_ARCH >= 6) && !defined(MA_64BIT) /* <-- 64-bit inline assembly has not been tested, so disabling for now. */ + /* Inline assembly optimized implementation for ARM. In my testing, GCC does not generate optimized code with __builtin_bswap32(). */ + ma_uint32 r; + __asm__ __volatile__ ( + #if defined(MA_64BIT) + "rev %w[out], %w[in]" : [out]"=r"(r) : [in]"r"(n) /* <-- This is untested. If someone in the community could test this, that would be appreciated! */ + #else + "rev %[out], %[in]" : [out]"=r"(r) : [in]"r"(n) + #endif + ); + return r; + #else + return __builtin_bswap32(n); + #endif + #else + #error "This compiler does not support the byte swap intrinsic." + #endif +#else + return ((n & 0xFF000000) >> 24) | + ((n & 0x00FF0000) >> 8) | + ((n & 0x0000FF00) << 8) | + ((n & 0x000000FF) << 24); +#endif +} + + +#if !defined(MA_EMSCRIPTEN) +#ifdef MA_WIN32 +static void ma_sleep__win32(ma_uint32 milliseconds) +{ + Sleep((DWORD)milliseconds); +} +#endif +#ifdef MA_POSIX +static void ma_sleep__posix(ma_uint32 milliseconds) +{ +#ifdef MA_EMSCRIPTEN + (void)milliseconds; + MA_ASSERT(MA_FALSE); /* The Emscripten build should never sleep. */ +#else + #if (defined(_POSIX_C_SOURCE) && _POSIX_C_SOURCE >= 199309L) || defined(MA_SWITCH) + struct timespec ts; + ts.tv_sec = milliseconds / 1000; + ts.tv_nsec = milliseconds % 1000 * 1000000; + nanosleep(&ts, NULL); + #else + struct timeval tv; + tv.tv_sec = milliseconds / 1000; + tv.tv_usec = milliseconds % 1000 * 1000; + select(0, NULL, NULL, NULL, &tv); + #endif +#endif +} +#endif + +static MA_INLINE void ma_sleep(ma_uint32 milliseconds) +{ +#ifdef MA_WIN32 + ma_sleep__win32(milliseconds); +#endif +#ifdef MA_POSIX + ma_sleep__posix(milliseconds); +#endif +} +#endif + +static MA_INLINE void ma_yield(void) +{ +#if defined(__i386) || defined(_M_IX86) || defined(__x86_64__) || defined(_M_X64) + /* x86/x64 */ + #if (defined(_MSC_VER) || defined(__WATCOMC__) || defined(__DMC__)) && !defined(__clang__) + #if _MSC_VER >= 1400 + _mm_pause(); + #else + #if defined(__DMC__) + /* Digital Mars does not recognize the PAUSE opcode. Fall back to NOP. */ + __asm nop; + #else + __asm pause; + #endif + #endif + #else + __asm__ __volatile__ ("rep; nop"); + #endif +#elif (defined(__arm__) && defined(__ARM_ARCH) && __ARM_ARCH >= 7) || defined(_M_ARM64) || (defined(_M_ARM) && _M_ARM >= 7) || defined(__ARM_ARCH_6K__) || defined(__ARM_ARCH_6T2__) + /* ARM */ + #if defined(_MSC_VER) + /* Apparently there is a __yield() intrinsic that's compatible with ARM, but I cannot find documentation for it nor can I find where it's declared. */ + __yield(); + #else + __asm__ __volatile__ ("yield"); /* ARMv6K/ARMv6T2 and above. */ + #endif +#else + /* Unknown or unsupported architecture. No-op. */ +#endif +} + + +#define MA_MM_DENORMALS_ZERO_MASK 0x0040 +#define MA_MM_FLUSH_ZERO_MASK 0x8000 + +static MA_INLINE unsigned int ma_disable_denormals(void) +{ + unsigned int prevState; + + #if defined(_MSC_VER) && !defined(MA_XBOX_NXDK) + { + /* + Older versions of Visual Studio don't support the "safe" versions of _controlfp_s(). I don't + know which version of Visual Studio first added support for _controlfp_s(), but I do know + that VC6 lacks support. _MSC_VER = 1200 is VC6, but if you get compilation errors on older + versions of Visual Studio, let me know and I'll make the necessary adjustment. + */ + #if _MSC_VER <= 1200 + { + prevState = _statusfp(); + _controlfp(prevState | _DN_FLUSH, _MCW_DN); + } + #else + { + unsigned int unused; + _controlfp_s(&prevState, 0, 0); + _controlfp_s(&unused, prevState | _DN_FLUSH, _MCW_DN); + } + #endif + } + #elif defined(MA_X86) || defined(MA_X64) + { + #if defined(MA_SUPPORT_SSE2) && defined(__SSE2__) && !(defined(__TINYC__) || defined(__WATCOMC__)) /* <-- Add compilers that lack support for _mm_getcsr() and _mm_setcsr() to this list. */ + { + prevState = _mm_getcsr(); + _mm_setcsr(prevState | MA_MM_DENORMALS_ZERO_MASK | MA_MM_FLUSH_ZERO_MASK); + } + #else + { + /* x88/64, but no support for _mm_getcsr()/_mm_setcsr(). May need to fall back to inlined assembly here. */ + prevState = 0; + } + #endif + } + #else + { + /* Unknown or unsupported architecture. No-op. */ + prevState = 0; + } + #endif + + return prevState; +} + +static MA_INLINE void ma_restore_denormals(unsigned int prevState) +{ + #if defined(_MSC_VER) && !defined(MA_XBOX_NXDK) + { + /* Older versions of Visual Studio do not support _controlfp_s(). See ma_disable_denormals(). */ + #if _MSC_VER <= 1200 + { + _controlfp(prevState, _MCW_DN); + } + #else + { + unsigned int unused; + _controlfp_s(&unused, prevState, _MCW_DN); + } + #endif + } + #elif defined(MA_X86) || defined(MA_X64) + { + #if defined(MA_SUPPORT_SSE2) && defined(__SSE2__) && !(defined(__TINYC__) || defined(__WATCOMC__)) /* <-- Add compilers that lack support for _mm_getcsr() and _mm_setcsr() to this list. */ + { + _mm_setcsr(prevState); + } + #else + { + /* x88/64, but no support for _mm_getcsr()/_mm_setcsr(). May need to fall back to inlined assembly here. */ + (void)prevState; + } + #endif + } + #else + { + /* Unknown or unsupported architecture. No-op. */ + (void)prevState; + } + #endif +} + + +#ifdef MA_ANDROID +#include + +int ma_android_sdk_version() +{ + char sdkVersion[PROP_VALUE_MAX + 1] = {0, }; + if (__system_property_get("ro.build.version.sdk", sdkVersion)) { + return atoi(sdkVersion); + } + + return 0; +} +#endif + + +#ifndef MA_COINIT_VALUE +#define MA_COINIT_VALUE 0 /* 0 = COINIT_MULTITHREADED */ +#endif + + +#ifndef MA_FLT_MAX + #ifdef FLT_MAX + #define MA_FLT_MAX FLT_MAX + #else + #define MA_FLT_MAX 3.402823466e+38F + #endif +#endif + + +#ifndef MA_PI +#define MA_PI 3.14159265358979323846264f +#endif +#ifndef MA_PI_D +#define MA_PI_D 3.14159265358979323846264 +#endif +#ifndef MA_TAU +#define MA_TAU 6.28318530717958647693f +#endif +#ifndef MA_TAU_D +#define MA_TAU_D 6.28318530717958647693 +#endif + + +/* The default format when ma_format_unknown (0) is requested when initializing a device. */ +#ifndef MA_DEFAULT_FORMAT +#define MA_DEFAULT_FORMAT ma_format_f32 +#endif + +/* The default channel count to use when 0 is used when initializing a device. */ +#ifndef MA_DEFAULT_CHANNELS +#define MA_DEFAULT_CHANNELS 2 +#endif + +/* The default sample rate to use when 0 is used when initializing a device. */ +#ifndef MA_DEFAULT_SAMPLE_RATE +#define MA_DEFAULT_SAMPLE_RATE 48000 +#endif + +/* Default periods when none is specified in ma_device_init(). More periods means more work on the CPU. */ +#ifndef MA_DEFAULT_PERIODS +#define MA_DEFAULT_PERIODS 3 +#endif + +/* The default period size in milliseconds for low latency mode. */ +#ifndef MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_LOW_LATENCY +#define MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_LOW_LATENCY 10 +#endif + +/* The default buffer size in milliseconds for conservative mode. */ +#ifndef MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_CONSERVATIVE +#define MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_CONSERVATIVE 100 +#endif + +/* The default LPF filter order for linear resampling. Note that this is clamped to MA_MAX_FILTER_ORDER. */ +#ifndef MA_DEFAULT_RESAMPLER_LPF_ORDER + #if MA_MAX_FILTER_ORDER >= 4 + #define MA_DEFAULT_RESAMPLER_LPF_ORDER 4 + #else + #define MA_DEFAULT_RESAMPLER_LPF_ORDER MA_MAX_FILTER_ORDER + #endif +#endif + + +#if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))) + #pragma GCC diagnostic push + #pragma GCC diagnostic ignored "-Wunused-variable" +#endif + +/* Standard sample rates, in order of priority. */ +static ma_uint32 g_maStandardSampleRatePriorities[] = { + (ma_uint32)ma_standard_sample_rate_48000, + (ma_uint32)ma_standard_sample_rate_44100, + + (ma_uint32)ma_standard_sample_rate_32000, + (ma_uint32)ma_standard_sample_rate_24000, + (ma_uint32)ma_standard_sample_rate_22050, + + (ma_uint32)ma_standard_sample_rate_88200, + (ma_uint32)ma_standard_sample_rate_96000, + (ma_uint32)ma_standard_sample_rate_176400, + (ma_uint32)ma_standard_sample_rate_192000, + + (ma_uint32)ma_standard_sample_rate_16000, + (ma_uint32)ma_standard_sample_rate_11025, + (ma_uint32)ma_standard_sample_rate_8000, + + (ma_uint32)ma_standard_sample_rate_352800, + (ma_uint32)ma_standard_sample_rate_384000 +}; + +static MA_INLINE ma_bool32 ma_is_standard_sample_rate(ma_uint32 sampleRate) +{ + ma_uint32 iSampleRate; + + for (iSampleRate = 0; iSampleRate < sizeof(g_maStandardSampleRatePriorities) / sizeof(g_maStandardSampleRatePriorities[0]); iSampleRate += 1) { + if (g_maStandardSampleRatePriorities[iSampleRate] == sampleRate) { + return MA_TRUE; + } + } + + /* Getting here means the sample rate is not supported. */ + return MA_FALSE; +} + + +static ma_format g_maFormatPriorities[] = { + ma_format_s16, /* Most common */ + ma_format_f32, + + /*ma_format_s24_32,*/ /* Clean alignment */ + ma_format_s32, + + ma_format_s24, /* Unclean alignment */ + + ma_format_u8 /* Low quality */ +}; +#if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))) + #pragma GCC diagnostic pop +#endif + + +MA_API void ma_version(ma_uint32* pMajor, ma_uint32* pMinor, ma_uint32* pRevision) +{ + if (pMajor) { + *pMajor = MA_VERSION_MAJOR; + } + + if (pMinor) { + *pMinor = MA_VERSION_MINOR; + } + + if (pRevision) { + *pRevision = MA_VERSION_REVISION; + } +} + +MA_API const char* ma_version_string(void) +{ + return MA_VERSION_STRING; +} + + +/****************************************************************************** + +Standard Library Stuff + +******************************************************************************/ +#ifndef MA_ASSERT +#define MA_ASSERT(condition) assert(condition) +#endif + +#ifndef MA_MALLOC +#define MA_MALLOC(sz) malloc((sz)) +#endif +#ifndef MA_REALLOC +#define MA_REALLOC(p, sz) realloc((p), (sz)) +#endif +#ifndef MA_FREE +#define MA_FREE(p) free((p)) +#endif + +static MA_INLINE void ma_zero_memory_default(void* p, size_t sz) +{ + if (p == NULL) { + MA_ASSERT(sz == 0); /* If this is triggered there's an error with the calling code. */ + return; + } + + if (sz > 0) { + memset(p, 0, sz); + } +} + + +#ifndef MA_ZERO_MEMORY +#define MA_ZERO_MEMORY(p, sz) ma_zero_memory_default((p), (sz)) +#endif +#ifndef MA_COPY_MEMORY +#define MA_COPY_MEMORY(dst, src, sz) memcpy((dst), (src), (sz)) +#endif +#ifndef MA_MOVE_MEMORY +#define MA_MOVE_MEMORY(dst, src, sz) memmove((dst), (src), (sz)) +#endif + +#define MA_ZERO_OBJECT(p) MA_ZERO_MEMORY((p), sizeof(*(p))) + +#define ma_countof(x) (sizeof(x) / sizeof(x[0])) +#define ma_max(x, y) (((x) > (y)) ? (x) : (y)) +#define ma_min(x, y) (((x) < (y)) ? (x) : (y)) +#define ma_abs(x) (((x) > 0) ? (x) : -(x)) +#define ma_clamp(x, lo, hi) (ma_max(lo, ma_min(x, hi))) +#define ma_offset_ptr(p, offset) (((ma_uint8*)(p)) + (offset)) +#define ma_align(x, a) (((x) + ((a)-1)) & ~((a)-1)) +#define ma_align_64(x) ma_align(x, 8) + +#define ma_buffer_frame_capacity(buffer, channels, format) (sizeof(buffer) / ma_get_bytes_per_sample(format) / (channels)) + +static MA_INLINE double ma_sind(double x) +{ + /* TODO: Implement custom sin(x). */ + return sin(x); +} + +static MA_INLINE double ma_expd(double x) +{ + /* TODO: Implement custom exp(x). */ + return exp(x); +} + +static MA_INLINE double ma_logd(double x) +{ + /* TODO: Implement custom log(x). */ + return log(x); +} + +static MA_INLINE double ma_powd(double x, double y) +{ + /* TODO: Implement custom pow(x, y). */ + return pow(x, y); +} + +static MA_INLINE double ma_sqrtd(double x) +{ + /* TODO: Implement custom sqrt(x). */ + return sqrt(x); +} + + +static MA_INLINE float ma_rsqrtf(float x) +{ + #if defined(MA_SUPPORT_SSE2) && !defined(MA_NO_SSE2) && (defined(MA_X64) || (defined(_M_IX86_FP) && _M_IX86_FP == 2) || defined(__SSE2__)) + { + /* + For SSE we can use RSQRTSS. + + This Stack Overflow post suggests that compilers don't necessarily generate optimal code + when using intrinsics: + + https://web.archive.org/web/20221211012522/https://stackoverflow.com/questions/32687079/getting-fewest-instructions-for-rsqrtss-wrapper + + I'm going to do something similar here, but a bit simpler. + */ + #if defined(__GNUC__) || defined(__clang__) + { + float result; + __asm__ __volatile__("rsqrtss %1, %0" : "=x"(result) : "x"(x)); + return result; + } + #else + { + return _mm_cvtss_f32(_mm_rsqrt_ss(_mm_set_ps1(x))); + } + #endif + } + #else + { + return 1 / (float)ma_sqrtd(x); + } + #endif +} + + +static MA_INLINE float ma_sinf(float x) +{ + return (float)ma_sind((float)x); +} + +static MA_INLINE double ma_cosd(double x) +{ + return ma_sind((MA_PI_D*0.5) - x); +} + +static MA_INLINE float ma_cosf(float x) +{ + return (float)ma_cosd((float)x); +} + +static MA_INLINE double ma_log10d(double x) +{ + return ma_logd(x) * 0.43429448190325182765; +} + +static MA_INLINE float ma_powf(float x, float y) +{ + return (float)ma_powd((double)x, (double)y); +} + +static MA_INLINE float ma_log10f(float x) +{ + return (float)ma_log10d((double)x); +} + + +static MA_INLINE double ma_degrees_to_radians(double degrees) +{ + return degrees * 0.01745329252; +} + +static MA_INLINE double ma_radians_to_degrees(double radians) +{ + return radians * 57.295779512896; +} + +static MA_INLINE float ma_degrees_to_radians_f(float degrees) +{ + return degrees * 0.01745329252f; +} + +static MA_INLINE float ma_radians_to_degrees_f(float radians) +{ + return radians * 57.295779512896f; +} + + +/* +Return Values: + 0: Success + 22: EINVAL + 34: ERANGE + +Not using symbolic constants for errors because I want to avoid #including errno.h + +These are marked as no-inline because of some bad code generation by Clang. None of these functions +are used in any performance-critical code within miniaudio. +*/ +MA_API MA_NO_INLINE int ma_strcpy_s(char* dst, size_t dstSizeInBytes, const char* src) +{ + size_t i; + + if (dst == 0) { + return 22; + } + if (dstSizeInBytes == 0) { + return 34; + } + if (src == 0) { + dst[0] = '\0'; + return 22; + } + + for (i = 0; i < dstSizeInBytes && src[i] != '\0'; ++i) { + dst[i] = src[i]; + } + + if (i < dstSizeInBytes) { + dst[i] = '\0'; + return 0; + } + + dst[0] = '\0'; + return 34; +} + +MA_API MA_NO_INLINE int ma_wcscpy_s(wchar_t* dst, size_t dstCap, const wchar_t* src) +{ + size_t i; + + if (dst == 0) { + return 22; + } + if (dstCap == 0) { + return 34; + } + if (src == 0) { + dst[0] = '\0'; + return 22; + } + + for (i = 0; i < dstCap && src[i] != '\0'; ++i) { + dst[i] = src[i]; + } + + if (i < dstCap) { + dst[i] = '\0'; + return 0; + } + + dst[0] = '\0'; + return 34; +} + + +MA_API MA_NO_INLINE int ma_strncpy_s(char* dst, size_t dstSizeInBytes, const char* src, size_t count) +{ + size_t maxcount; + size_t i; + + if (dst == 0) { + return 22; + } + if (dstSizeInBytes == 0) { + return 34; + } + if (src == 0) { + dst[0] = '\0'; + return 22; + } + + maxcount = count; + if (count == ((size_t)-1) || count >= dstSizeInBytes) { /* -1 = _TRUNCATE */ + maxcount = dstSizeInBytes - 1; + } + + for (i = 0; i < maxcount && src[i] != '\0'; ++i) { + dst[i] = src[i]; + } + + if (src[i] == '\0' || i == count || count == ((size_t)-1)) { + dst[i] = '\0'; + return 0; + } + + dst[0] = '\0'; + return 34; +} + +MA_API MA_NO_INLINE int ma_strcat_s(char* dst, size_t dstSizeInBytes, const char* src) +{ + char* dstorig; + + if (dst == 0) { + return 22; + } + if (dstSizeInBytes == 0) { + return 34; + } + if (src == 0) { + dst[0] = '\0'; + return 22; + } + + dstorig = dst; + + while (dstSizeInBytes > 0 && dst[0] != '\0') { + dst += 1; + dstSizeInBytes -= 1; + } + + if (dstSizeInBytes == 0) { + return 22; /* Unterminated. */ + } + + + while (dstSizeInBytes > 0 && src[0] != '\0') { + *dst++ = *src++; + dstSizeInBytes -= 1; + } + + if (dstSizeInBytes > 0) { + dst[0] = '\0'; + } else { + dstorig[0] = '\0'; + return 34; + } + + return 0; +} + +MA_API MA_NO_INLINE int ma_strncat_s(char* dst, size_t dstSizeInBytes, const char* src, size_t count) +{ + char* dstorig; + + if (dst == 0) { + return 22; + } + if (dstSizeInBytes == 0) { + return 34; + } + if (src == 0) { + return 22; + } + + dstorig = dst; + + while (dstSizeInBytes > 0 && dst[0] != '\0') { + dst += 1; + dstSizeInBytes -= 1; + } + + if (dstSizeInBytes == 0) { + return 22; /* Unterminated. */ + } + + + if (count == ((size_t)-1)) { /* _TRUNCATE */ + count = dstSizeInBytes - 1; + } + + while (dstSizeInBytes > 0 && src[0] != '\0' && count > 0) { + *dst++ = *src++; + dstSizeInBytes -= 1; + count -= 1; + } + + if (dstSizeInBytes > 0) { + dst[0] = '\0'; + } else { + dstorig[0] = '\0'; + return 34; + } + + return 0; +} + +MA_API MA_NO_INLINE int ma_itoa_s(int value, char* dst, size_t dstSizeInBytes, int radix) +{ + int sign; + unsigned int valueU; + char* dstEnd; + + if (dst == NULL || dstSizeInBytes == 0) { + return 22; + } + if (radix < 2 || radix > 36) { + dst[0] = '\0'; + return 22; + } + + sign = (value < 0 && radix == 10) ? -1 : 1; /* The negative sign is only used when the base is 10. */ + + if (value < 0) { + valueU = -value; + } else { + valueU = value; + } + + dstEnd = dst; + do + { + int remainder = valueU % radix; + if (remainder > 9) { + *dstEnd = (char)((remainder - 10) + 'a'); + } else { + *dstEnd = (char)(remainder + '0'); + } + + dstEnd += 1; + dstSizeInBytes -= 1; + valueU /= radix; + } while (dstSizeInBytes > 0 && valueU > 0); + + if (dstSizeInBytes == 0) { + dst[0] = '\0'; + return 22; /* Ran out of room in the output buffer. */ + } + + if (sign < 0) { + *dstEnd++ = '-'; + dstSizeInBytes -= 1; + } + + if (dstSizeInBytes == 0) { + dst[0] = '\0'; + return 22; /* Ran out of room in the output buffer. */ + } + + *dstEnd = '\0'; + + + /* At this point the string will be reversed. */ + dstEnd -= 1; + while (dst < dstEnd) { + char temp = *dst; + *dst = *dstEnd; + *dstEnd = temp; + + dst += 1; + dstEnd -= 1; + } + + return 0; +} + +MA_API MA_NO_INLINE int ma_strcmp(const char* str1, const char* str2) +{ + if (str1 == str2) return 0; + + /* These checks differ from the standard implementation. It's not important, but I prefer it just for sanity. */ + if (str1 == NULL) return -1; + if (str2 == NULL) return 1; + + for (;;) { + if (str1[0] == '\0') { + break; + } + if (str1[0] != str2[0]) { + break; + } + + str1 += 1; + str2 += 1; + } + + return ((unsigned char*)str1)[0] - ((unsigned char*)str2)[0]; +} + +MA_API MA_NO_INLINE int ma_wcscmp(const wchar_t* str1, const wchar_t* str2) +{ + if (str1 == str2) return 0; + + /* These checks differ from the standard implementation. It's not important, but I prefer it just for sanity. */ + if (str1 == NULL) return -1; + if (str2 == NULL) return 1; + + for (;;) { + if (str1[0] == L'\0') { + break; + } + if (str1[0] != str2[0]) { + break; + } + + str1 += 1; + str2 += 1; + } + + return ((unsigned short*)str1)[0] - ((unsigned short*)str2)[0]; +} + +MA_API MA_NO_INLINE int ma_strappend(char* dst, size_t dstSize, const char* srcA, const char* srcB) +{ + int result; + + result = ma_strncpy_s(dst, dstSize, srcA, (size_t)-1); + if (result != 0) { + return result; + } + + result = ma_strncat_s(dst, dstSize, srcB, (size_t)-1); + if (result != 0) { + return result; + } + + return result; +} + +MA_API MA_NO_INLINE size_t ma_wcslen(const wchar_t* str) +{ + const wchar_t* end; + + if (str == NULL) { + return 0; + } + + end = str; + while (end[0] != '\0') { + end += 1; + } + + return end - str; +} + +MA_API MA_NO_INLINE char* ma_copy_string(const char* src, const ma_allocation_callbacks* pAllocationCallbacks) +{ + size_t sz; + char* dst; + + if (src == NULL) { + return NULL; + } + + sz = strlen(src)+1; + dst = (char*)ma_malloc(sz, pAllocationCallbacks); + if (dst == NULL) { + return NULL; + } + + ma_strcpy_s(dst, sz, src); + + return dst; +} + +MA_API MA_NO_INLINE wchar_t* ma_copy_string_w(const wchar_t* src, const ma_allocation_callbacks* pAllocationCallbacks) +{ + size_t sz = ma_wcslen(src)+1; + wchar_t* dst = (wchar_t*)ma_malloc(sz * sizeof(*dst), pAllocationCallbacks); + if (dst == NULL) { + return NULL; + } + + ma_wcscpy_s(dst, sz, src); + + return dst; +} + + + +#include +static ma_result ma_result_from_errno(int e) +{ + if (e == 0) { + return MA_SUCCESS; + } +#ifdef EPERM + else if (e == EPERM) { return MA_INVALID_OPERATION; } +#endif +#ifdef ENOENT + else if (e == ENOENT) { return MA_DOES_NOT_EXIST; } +#endif +#ifdef ESRCH + else if (e == ESRCH) { return MA_DOES_NOT_EXIST; } +#endif +#ifdef EINTR + else if (e == EINTR) { return MA_INTERRUPT; } +#endif +#ifdef EIO + else if (e == EIO) { return MA_IO_ERROR; } +#endif +#ifdef ENXIO + else if (e == ENXIO) { return MA_DOES_NOT_EXIST; } +#endif +#ifdef E2BIG + else if (e == E2BIG) { return MA_INVALID_ARGS; } +#endif +#ifdef ENOEXEC + else if (e == ENOEXEC) { return MA_INVALID_FILE; } +#endif +#ifdef EBADF + else if (e == EBADF) { return MA_INVALID_FILE; } +#endif +#ifdef ECHILD + else if (e == ECHILD) { return MA_ERROR; } +#endif +#ifdef EAGAIN + else if (e == EAGAIN) { return MA_UNAVAILABLE; } +#endif +#ifdef ENOMEM + else if (e == ENOMEM) { return MA_OUT_OF_MEMORY; } +#endif +#ifdef EACCES + else if (e == EACCES) { return MA_ACCESS_DENIED; } +#endif +#ifdef EFAULT + else if (e == EFAULT) { return MA_BAD_ADDRESS; } +#endif +#ifdef ENOTBLK + else if (e == ENOTBLK) { return MA_ERROR; } +#endif +#ifdef EBUSY + else if (e == EBUSY) { return MA_BUSY; } +#endif +#ifdef EEXIST + else if (e == EEXIST) { return MA_ALREADY_EXISTS; } +#endif +#ifdef EXDEV + else if (e == EXDEV) { return MA_ERROR; } +#endif +#ifdef ENODEV + else if (e == ENODEV) { return MA_DOES_NOT_EXIST; } +#endif +#ifdef ENOTDIR + else if (e == ENOTDIR) { return MA_NOT_DIRECTORY; } +#endif +#ifdef EISDIR + else if (e == EISDIR) { return MA_IS_DIRECTORY; } +#endif +#ifdef EINVAL + else if (e == EINVAL) { return MA_INVALID_ARGS; } +#endif +#ifdef ENFILE + else if (e == ENFILE) { return MA_TOO_MANY_OPEN_FILES; } +#endif +#ifdef EMFILE + else if (e == EMFILE) { return MA_TOO_MANY_OPEN_FILES; } +#endif +#ifdef ENOTTY + else if (e == ENOTTY) { return MA_INVALID_OPERATION; } +#endif +#ifdef ETXTBSY + else if (e == ETXTBSY) { return MA_BUSY; } +#endif +#ifdef EFBIG + else if (e == EFBIG) { return MA_TOO_BIG; } +#endif +#ifdef ENOSPC + else if (e == ENOSPC) { return MA_NO_SPACE; } +#endif +#ifdef ESPIPE + else if (e == ESPIPE) { return MA_BAD_SEEK; } +#endif +#ifdef EROFS + else if (e == EROFS) { return MA_ACCESS_DENIED; } +#endif +#ifdef EMLINK + else if (e == EMLINK) { return MA_TOO_MANY_LINKS; } +#endif +#ifdef EPIPE + else if (e == EPIPE) { return MA_BAD_PIPE; } +#endif +#ifdef EDOM + else if (e == EDOM) { return MA_OUT_OF_RANGE; } +#endif +#ifdef ERANGE + else if (e == ERANGE) { return MA_OUT_OF_RANGE; } +#endif +#ifdef EDEADLK + else if (e == EDEADLK) { return MA_DEADLOCK; } +#endif +#ifdef ENAMETOOLONG + else if (e == ENAMETOOLONG) { return MA_PATH_TOO_LONG; } +#endif +#ifdef ENOLCK + else if (e == ENOLCK) { return MA_ERROR; } +#endif +#ifdef ENOSYS + else if (e == ENOSYS) { return MA_NOT_IMPLEMENTED; } +#endif +#ifdef ENOTEMPTY + else if (e == ENOTEMPTY) { return MA_DIRECTORY_NOT_EMPTY; } +#endif +#ifdef ELOOP + else if (e == ELOOP) { return MA_TOO_MANY_LINKS; } +#endif +#ifdef ENOMSG + else if (e == ENOMSG) { return MA_NO_MESSAGE; } +#endif +#ifdef EIDRM + else if (e == EIDRM) { return MA_ERROR; } +#endif +#ifdef ECHRNG + else if (e == ECHRNG) { return MA_ERROR; } +#endif +#ifdef EL2NSYNC + else if (e == EL2NSYNC) { return MA_ERROR; } +#endif +#ifdef EL3HLT + else if (e == EL3HLT) { return MA_ERROR; } +#endif +#ifdef EL3RST + else if (e == EL3RST) { return MA_ERROR; } +#endif +#ifdef ELNRNG + else if (e == ELNRNG) { return MA_OUT_OF_RANGE; } +#endif +#ifdef EUNATCH + else if (e == EUNATCH) { return MA_ERROR; } +#endif +#ifdef ENOCSI + else if (e == ENOCSI) { return MA_ERROR; } +#endif +#ifdef EL2HLT + else if (e == EL2HLT) { return MA_ERROR; } +#endif +#ifdef EBADE + else if (e == EBADE) { return MA_ERROR; } +#endif +#ifdef EBADR + else if (e == EBADR) { return MA_ERROR; } +#endif +#ifdef EXFULL + else if (e == EXFULL) { return MA_ERROR; } +#endif +#ifdef ENOANO + else if (e == ENOANO) { return MA_ERROR; } +#endif +#ifdef EBADRQC + else if (e == EBADRQC) { return MA_ERROR; } +#endif +#ifdef EBADSLT + else if (e == EBADSLT) { return MA_ERROR; } +#endif +#ifdef EBFONT + else if (e == EBFONT) { return MA_INVALID_FILE; } +#endif +#ifdef ENOSTR + else if (e == ENOSTR) { return MA_ERROR; } +#endif +#ifdef ENODATA + else if (e == ENODATA) { return MA_NO_DATA_AVAILABLE; } +#endif +#ifdef ETIME + else if (e == ETIME) { return MA_TIMEOUT; } +#endif +#ifdef ENOSR + else if (e == ENOSR) { return MA_NO_DATA_AVAILABLE; } +#endif +#ifdef ENONET + else if (e == ENONET) { return MA_NO_NETWORK; } +#endif +#ifdef ENOPKG + else if (e == ENOPKG) { return MA_ERROR; } +#endif +#ifdef EREMOTE + else if (e == EREMOTE) { return MA_ERROR; } +#endif +#ifdef ENOLINK + else if (e == ENOLINK) { return MA_ERROR; } +#endif +#ifdef EADV + else if (e == EADV) { return MA_ERROR; } +#endif +#ifdef ESRMNT + else if (e == ESRMNT) { return MA_ERROR; } +#endif +#ifdef ECOMM + else if (e == ECOMM) { return MA_ERROR; } +#endif +#ifdef EPROTO + else if (e == EPROTO) { return MA_ERROR; } +#endif +#ifdef EMULTIHOP + else if (e == EMULTIHOP) { return MA_ERROR; } +#endif +#ifdef EDOTDOT + else if (e == EDOTDOT) { return MA_ERROR; } +#endif +#ifdef EBADMSG + else if (e == EBADMSG) { return MA_BAD_MESSAGE; } +#endif +#ifdef EOVERFLOW + else if (e == EOVERFLOW) { return MA_TOO_BIG; } +#endif +#ifdef ENOTUNIQ + else if (e == ENOTUNIQ) { return MA_NOT_UNIQUE; } +#endif +#ifdef EBADFD + else if (e == EBADFD) { return MA_ERROR; } +#endif +#ifdef EREMCHG + else if (e == EREMCHG) { return MA_ERROR; } +#endif +#ifdef ELIBACC + else if (e == ELIBACC) { return MA_ACCESS_DENIED; } +#endif +#ifdef ELIBBAD + else if (e == ELIBBAD) { return MA_INVALID_FILE; } +#endif +#ifdef ELIBSCN + else if (e == ELIBSCN) { return MA_INVALID_FILE; } +#endif +#ifdef ELIBMAX + else if (e == ELIBMAX) { return MA_ERROR; } +#endif +#ifdef ELIBEXEC + else if (e == ELIBEXEC) { return MA_ERROR; } +#endif +#ifdef EILSEQ + else if (e == EILSEQ) { return MA_INVALID_DATA; } +#endif +#ifdef ERESTART + else if (e == ERESTART) { return MA_ERROR; } +#endif +#ifdef ESTRPIPE + else if (e == ESTRPIPE) { return MA_ERROR; } +#endif +#ifdef EUSERS + else if (e == EUSERS) { return MA_ERROR; } +#endif +#ifdef ENOTSOCK + else if (e == ENOTSOCK) { return MA_NOT_SOCKET; } +#endif +#ifdef EDESTADDRREQ + else if (e == EDESTADDRREQ) { return MA_NO_ADDRESS; } +#endif +#ifdef EMSGSIZE + else if (e == EMSGSIZE) { return MA_TOO_BIG; } +#endif +#ifdef EPROTOTYPE + else if (e == EPROTOTYPE) { return MA_BAD_PROTOCOL; } +#endif +#ifdef ENOPROTOOPT + else if (e == ENOPROTOOPT) { return MA_PROTOCOL_UNAVAILABLE; } +#endif +#ifdef EPROTONOSUPPORT + else if (e == EPROTONOSUPPORT) { return MA_PROTOCOL_NOT_SUPPORTED; } +#endif +#ifdef ESOCKTNOSUPPORT + else if (e == ESOCKTNOSUPPORT) { return MA_SOCKET_NOT_SUPPORTED; } +#endif +#ifdef EOPNOTSUPP + else if (e == EOPNOTSUPP) { return MA_INVALID_OPERATION; } +#endif +#ifdef EPFNOSUPPORT + else if (e == EPFNOSUPPORT) { return MA_PROTOCOL_FAMILY_NOT_SUPPORTED; } +#endif +#ifdef EAFNOSUPPORT + else if (e == EAFNOSUPPORT) { return MA_ADDRESS_FAMILY_NOT_SUPPORTED; } +#endif +#ifdef EADDRINUSE + else if (e == EADDRINUSE) { return MA_ALREADY_IN_USE; } +#endif +#ifdef EADDRNOTAVAIL + else if (e == EADDRNOTAVAIL) { return MA_ERROR; } +#endif +#ifdef ENETDOWN + else if (e == ENETDOWN) { return MA_NO_NETWORK; } +#endif +#ifdef ENETUNREACH + else if (e == ENETUNREACH) { return MA_NO_NETWORK; } +#endif +#ifdef ENETRESET + else if (e == ENETRESET) { return MA_NO_NETWORK; } +#endif +#ifdef ECONNABORTED + else if (e == ECONNABORTED) { return MA_NO_NETWORK; } +#endif +#ifdef ECONNRESET + else if (e == ECONNRESET) { return MA_CONNECTION_RESET; } +#endif +#ifdef ENOBUFS + else if (e == ENOBUFS) { return MA_NO_SPACE; } +#endif +#ifdef EISCONN + else if (e == EISCONN) { return MA_ALREADY_CONNECTED; } +#endif +#ifdef ENOTCONN + else if (e == ENOTCONN) { return MA_NOT_CONNECTED; } +#endif +#ifdef ESHUTDOWN + else if (e == ESHUTDOWN) { return MA_ERROR; } +#endif +#ifdef ETOOMANYREFS + else if (e == ETOOMANYREFS) { return MA_ERROR; } +#endif +#ifdef ETIMEDOUT + else if (e == ETIMEDOUT) { return MA_TIMEOUT; } +#endif +#ifdef ECONNREFUSED + else if (e == ECONNREFUSED) { return MA_CONNECTION_REFUSED; } +#endif +#ifdef EHOSTDOWN + else if (e == EHOSTDOWN) { return MA_NO_HOST; } +#endif +#ifdef EHOSTUNREACH + else if (e == EHOSTUNREACH) { return MA_NO_HOST; } +#endif +#ifdef EALREADY + else if (e == EALREADY) { return MA_IN_PROGRESS; } +#endif +#ifdef EINPROGRESS + else if (e == EINPROGRESS) { return MA_IN_PROGRESS; } +#endif +#ifdef ESTALE + else if (e == ESTALE) { return MA_INVALID_FILE; } +#endif +#ifdef EUCLEAN + else if (e == EUCLEAN) { return MA_ERROR; } +#endif +#ifdef ENOTNAM + else if (e == ENOTNAM) { return MA_ERROR; } +#endif +#ifdef ENAVAIL + else if (e == ENAVAIL) { return MA_ERROR; } +#endif +#ifdef EISNAM + else if (e == EISNAM) { return MA_ERROR; } +#endif +#ifdef EREMOTEIO + else if (e == EREMOTEIO) { return MA_IO_ERROR; } +#endif +#ifdef EDQUOT + else if (e == EDQUOT) { return MA_NO_SPACE; } +#endif +#ifdef ENOMEDIUM + else if (e == ENOMEDIUM) { return MA_DOES_NOT_EXIST; } +#endif +#ifdef EMEDIUMTYPE + else if (e == EMEDIUMTYPE) { return MA_ERROR; } +#endif +#ifdef ECANCELED + else if (e == ECANCELED) { return MA_CANCELLED; } +#endif +#ifdef ENOKEY + else if (e == ENOKEY) { return MA_ERROR; } +#endif +#ifdef EKEYEXPIRED + else if (e == EKEYEXPIRED) { return MA_ERROR; } +#endif +#ifdef EKEYREVOKED + else if (e == EKEYREVOKED) { return MA_ERROR; } +#endif +#ifdef EKEYREJECTED + else if (e == EKEYREJECTED) { return MA_ERROR; } +#endif +#ifdef EOWNERDEAD + else if (e == EOWNERDEAD) { return MA_ERROR; } +#endif +#ifdef ENOTRECOVERABLE + else if (e == ENOTRECOVERABLE) { return MA_ERROR; } +#endif +#ifdef ERFKILL + else if (e == ERFKILL) { return MA_ERROR; } +#endif +#ifdef EHWPOISON + else if (e == EHWPOISON) { return MA_ERROR; } +#endif + else { + return MA_ERROR; + } +} + +MA_API ma_result ma_fopen(FILE** ppFile, const char* pFilePath, const char* pOpenMode) +{ +#if defined(_MSC_VER) && _MSC_VER >= 1400 + errno_t err; +#endif + + if (ppFile != NULL) { + *ppFile = NULL; /* Safety. */ + } + + if (pFilePath == NULL || pOpenMode == NULL || ppFile == NULL) { + return MA_INVALID_ARGS; + } + +#if (defined(_MSC_VER) && _MSC_VER >= 1400) && !defined(MA_XBOX_NXDK) + err = fopen_s(ppFile, pFilePath, pOpenMode); + if (err != 0) { + return ma_result_from_errno(err); + } +#else +#if defined(_WIN32) || defined(__APPLE__) + *ppFile = fopen(pFilePath, pOpenMode); +#else + #if defined(_FILE_OFFSET_BITS) && _FILE_OFFSET_BITS == 64 && defined(_LARGEFILE64_SOURCE) + *ppFile = fopen64(pFilePath, pOpenMode); + #else + *ppFile = fopen(pFilePath, pOpenMode); + #endif +#endif + if (*ppFile == NULL) { + ma_result result = ma_result_from_errno(errno); + if (result == MA_SUCCESS) { + result = MA_ERROR; /* Just a safety check to make sure we never ever return success when pFile == NULL. */ + } + + return result; + } +#endif + + return MA_SUCCESS; +} + + + +/* +_wfopen() isn't always available in all compilation environments. + + * Windows only. + * MSVC seems to support it universally as far back as VC6 from what I can tell (haven't checked further back). + * MinGW-64 (both 32- and 64-bit) seems to support it. + * MinGW wraps it in !defined(__STRICT_ANSI__). + * OpenWatcom wraps it in !defined(_NO_EXT_KEYS). + +This can be reviewed as compatibility issues arise. The preference is to use _wfopen_s() and _wfopen() as opposed to the wcsrtombs() +fallback, so if you notice your compiler not detecting this properly I'm happy to look at adding support. +*/ +#if defined(_WIN32) && !defined(MA_XBOX_NXDK) + #if defined(_MSC_VER) || defined(__MINGW64__) || (!defined(__STRICT_ANSI__) && !defined(_NO_EXT_KEYS)) + #define MA_HAS_WFOPEN + #endif +#endif + +MA_API ma_result ma_wfopen(FILE** ppFile, const wchar_t* pFilePath, const wchar_t* pOpenMode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (ppFile != NULL) { + *ppFile = NULL; /* Safety. */ + } + + if (pFilePath == NULL || pOpenMode == NULL || ppFile == NULL) { + return MA_INVALID_ARGS; + } + + #if defined(MA_HAS_WFOPEN) + { + /* Use _wfopen() on Windows. */ + #if defined(_MSC_VER) && _MSC_VER >= 1400 + { + errno_t err = _wfopen_s(ppFile, pFilePath, pOpenMode); + if (err != 0) { + return ma_result_from_errno(err); + } + } + #else + { + *ppFile = _wfopen(pFilePath, pOpenMode); + if (*ppFile == NULL) { + return ma_result_from_errno(errno); + } + } + #endif + + (void)pAllocationCallbacks; + } + #elif !defined(MA_XBOX_NXDK) && !defined(MA_DOS) /* If your compiler does not support wcsrtombs(), add it here. */ + { + /* + Use fopen() on anything other than Windows. Requires a conversion. This is annoying because fopen() is locale specific. The only real way I can + think of to do this is with wcsrtombs(). Note that wcstombs() is apparently not thread-safe because it uses a static global mbstate_t object for + maintaining state. I've checked this with -std=c89 and it works, but if somebody get's a compiler error I'll look into improving compatibility. + */ + mbstate_t mbs; + size_t lenMB; + const wchar_t* pFilePathTemp = pFilePath; + char* pFilePathMB = NULL; + char pOpenModeMB[32] = {0}; + + /* Get the length first. */ + MA_ZERO_OBJECT(&mbs); + lenMB = wcsrtombs(NULL, &pFilePathTemp, 0, &mbs); + if (lenMB == (size_t)-1) { + return ma_result_from_errno(errno); + } + + pFilePathMB = (char*)ma_malloc(lenMB + 1, pAllocationCallbacks); + if (pFilePathMB == NULL) { + return MA_OUT_OF_MEMORY; + } + + pFilePathTemp = pFilePath; + MA_ZERO_OBJECT(&mbs); + wcsrtombs(pFilePathMB, &pFilePathTemp, lenMB + 1, &mbs); + + /* The open mode should always consist of ASCII characters so we should be able to do a trivial conversion. */ + { + size_t i = 0; + for (;;) { + if (pOpenMode[i] == 0) { + pOpenModeMB[i] = '\0'; + break; + } + + pOpenModeMB[i] = (char)pOpenMode[i]; + i += 1; + } + } + + *ppFile = fopen(pFilePathMB, pOpenModeMB); + + ma_free(pFilePathMB, pAllocationCallbacks); + } + #else + { + /* Getting here means there is no way to open the file with a wide character string. */ + *ppFile = NULL; + } + #endif + + if (*ppFile == NULL) { + return MA_ERROR; + } + + return MA_SUCCESS; +} + + + +static MA_INLINE void ma_copy_memory_64(void* dst, const void* src, ma_uint64 sizeInBytes) +{ +#if MA_SIZE_MAX > 0xFFFFFFFF + MA_COPY_MEMORY(dst, src, (size_t)sizeInBytes); +#else + while (sizeInBytes > 0) { + ma_uint64 bytesToCopyNow = sizeInBytes; + if (bytesToCopyNow > MA_SIZE_MAX) { + bytesToCopyNow = MA_SIZE_MAX; + } + + MA_COPY_MEMORY(dst, src, (size_t)bytesToCopyNow); /* Safe cast to size_t. */ + + sizeInBytes -= bytesToCopyNow; + dst = ( void*)(( ma_uint8*)dst + bytesToCopyNow); + src = (const void*)((const ma_uint8*)src + bytesToCopyNow); + } +#endif +} + +static MA_INLINE void ma_zero_memory_64(void* dst, ma_uint64 sizeInBytes) +{ +#if MA_SIZE_MAX > 0xFFFFFFFF + MA_ZERO_MEMORY(dst, (size_t)sizeInBytes); +#else + while (sizeInBytes > 0) { + ma_uint64 bytesToZeroNow = sizeInBytes; + if (bytesToZeroNow > MA_SIZE_MAX) { + bytesToZeroNow = MA_SIZE_MAX; + } + + MA_ZERO_MEMORY(dst, (size_t)bytesToZeroNow); /* Safe cast to size_t. */ + + sizeInBytes -= bytesToZeroNow; + dst = (void*)((ma_uint8*)dst + bytesToZeroNow); + } +#endif +} + + +/* Thanks to good old Bit Twiddling Hacks for this one: http://graphics.stanford.edu/~seander/bithacks.html#RoundUpPowerOf2 */ +static MA_INLINE unsigned int ma_next_power_of_2(unsigned int x) +{ + x--; + x |= x >> 1; + x |= x >> 2; + x |= x >> 4; + x |= x >> 8; + x |= x >> 16; + x++; + + return x; +} + +static MA_INLINE unsigned int ma_prev_power_of_2(unsigned int x) +{ + return ma_next_power_of_2(x) >> 1; +} + +static MA_INLINE unsigned int ma_round_to_power_of_2(unsigned int x) +{ + unsigned int prev = ma_prev_power_of_2(x); + unsigned int next = ma_next_power_of_2(x); + if ((next - x) > (x - prev)) { + return prev; + } else { + return next; + } +} + +static MA_INLINE unsigned int ma_count_set_bits(unsigned int x) +{ + unsigned int count = 0; + while (x != 0) { + if (x & 1) { + count += 1; + } + + x = x >> 1; + } + + return count; +} + + + +/************************************************************************************************************************************************************** + +Allocation Callbacks + +**************************************************************************************************************************************************************/ +static void* ma__malloc_default(size_t sz, void* pUserData) +{ + (void)pUserData; + return MA_MALLOC(sz); +} + +static void* ma__realloc_default(void* p, size_t sz, void* pUserData) +{ + (void)pUserData; + return MA_REALLOC(p, sz); +} + +static void ma__free_default(void* p, void* pUserData) +{ + (void)pUserData; + MA_FREE(p); +} + +static ma_allocation_callbacks ma_allocation_callbacks_init_default(void) +{ + ma_allocation_callbacks callbacks; + callbacks.pUserData = NULL; + callbacks.onMalloc = ma__malloc_default; + callbacks.onRealloc = ma__realloc_default; + callbacks.onFree = ma__free_default; + + return callbacks; +} + +static ma_result ma_allocation_callbacks_init_copy(ma_allocation_callbacks* pDst, const ma_allocation_callbacks* pSrc) +{ + if (pDst == NULL) { + return MA_INVALID_ARGS; + } + + if (pSrc == NULL) { + *pDst = ma_allocation_callbacks_init_default(); + } else { + if (pSrc->pUserData == NULL && pSrc->onFree == NULL && pSrc->onMalloc == NULL && pSrc->onRealloc == NULL) { + *pDst = ma_allocation_callbacks_init_default(); + } else { + if (pSrc->onFree == NULL || (pSrc->onMalloc == NULL && pSrc->onRealloc == NULL)) { + return MA_INVALID_ARGS; /* Invalid allocation callbacks. */ + } else { + *pDst = *pSrc; + } + } + } + + return MA_SUCCESS; +} + + + + +/************************************************************************************************************************************************************** + +Logging + +**************************************************************************************************************************************************************/ +#ifndef ma_va_copy + #if !defined(_MSC_VER) || _MSC_VER >= 1800 + #if (defined(__GNUC__) && __GNUC__ < 3) + #define ma_va_copy(dst, src) ((dst) = (src)) /* This is untested. Not sure if this is correct for old GCC. */ + #else + #define ma_va_copy(dst, src) va_copy((dst), (src)) + #endif + #else + #define ma_va_copy(dst, src) ((dst) = (src)) + #endif +#endif + +MA_API const char* ma_log_level_to_string(ma_uint32 logLevel) +{ + switch (logLevel) + { + case MA_LOG_LEVEL_DEBUG: return "DEBUG"; + case MA_LOG_LEVEL_INFO: return "INFO"; + case MA_LOG_LEVEL_WARNING: return "WARNING"; + case MA_LOG_LEVEL_ERROR: return "ERROR"; + default: return "ERROR"; + } +} + +#if defined(MA_DEBUG_OUTPUT) +#if defined(MA_ANDROID) + #include +#endif + +/* Customize this to use a specific tag in __android_log_print() for debug output messages. */ +#ifndef MA_ANDROID_LOG_TAG +#define MA_ANDROID_LOG_TAG "miniaudio" +#endif + +void ma_log_callback_debug(void* pUserData, ma_uint32 level, const char* pMessage) +{ + (void)pUserData; + + /* Special handling for some platforms. */ + #if defined(MA_ANDROID) + { + /* Android. */ + __android_log_print(ANDROID_LOG_DEBUG, MA_ANDROID_LOG_TAG, "%s: %s", ma_log_level_to_string(level), pMessage); + } + #else + { + /* Everything else. */ + printf("%s: %s", ma_log_level_to_string(level), pMessage); + } + #endif +} +#endif + +MA_API ma_log_callback ma_log_callback_init(ma_log_callback_proc onLog, void* pUserData) +{ + ma_log_callback callback; + + MA_ZERO_OBJECT(&callback); + callback.onLog = onLog; + callback.pUserData = pUserData; + + return callback; +} + + +MA_API ma_result ma_log_init(const ma_allocation_callbacks* pAllocationCallbacks, ma_log* pLog) +{ + if (pLog == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pLog); + ma_allocation_callbacks_init_copy(&pLog->allocationCallbacks, pAllocationCallbacks); + + /* We need a mutex for thread safety. */ + #ifndef MA_NO_THREADING + { + ma_result result = ma_mutex_init(&pLog->lock); + if (result != MA_SUCCESS) { + return result; + } + } + #endif + + /* If we're using debug output, enable it. */ + #if defined(MA_DEBUG_OUTPUT) + { + ma_log_register_callback(pLog, ma_log_callback_init(ma_log_callback_debug, NULL)); /* Doesn't really matter if this fails. */ + } + #endif + + return MA_SUCCESS; +} + +MA_API void ma_log_uninit(ma_log* pLog) +{ + if (pLog == NULL) { + return; + } + +#ifndef MA_NO_THREADING + ma_mutex_uninit(&pLog->lock); +#endif +} + +static void ma_log_lock(ma_log* pLog) +{ +#ifndef MA_NO_THREADING + ma_mutex_lock(&pLog->lock); +#else + (void)pLog; +#endif +} + +static void ma_log_unlock(ma_log* pLog) +{ +#ifndef MA_NO_THREADING + ma_mutex_unlock(&pLog->lock); +#else + (void)pLog; +#endif +} + +MA_API ma_result ma_log_register_callback(ma_log* pLog, ma_log_callback callback) +{ + ma_result result = MA_SUCCESS; + + if (pLog == NULL || callback.onLog == NULL) { + return MA_INVALID_ARGS; + } + + ma_log_lock(pLog); + { + if (pLog->callbackCount == ma_countof(pLog->callbacks)) { + result = MA_OUT_OF_MEMORY; /* Reached the maximum allowed log callbacks. */ + } else { + pLog->callbacks[pLog->callbackCount] = callback; + pLog->callbackCount += 1; + } + } + ma_log_unlock(pLog); + + return result; +} + +MA_API ma_result ma_log_unregister_callback(ma_log* pLog, ma_log_callback callback) +{ + if (pLog == NULL) { + return MA_INVALID_ARGS; + } + + ma_log_lock(pLog); + { + ma_uint32 iLog; + for (iLog = 0; iLog < pLog->callbackCount; ) { + if (pLog->callbacks[iLog].onLog == callback.onLog) { + /* Found. Move everything down a slot. */ + ma_uint32 jLog; + for (jLog = iLog; jLog < pLog->callbackCount-1; jLog += 1) { + pLog->callbacks[jLog] = pLog->callbacks[jLog + 1]; + } + + pLog->callbackCount -= 1; + } else { + /* Not found. */ + iLog += 1; + } + } + } + ma_log_unlock(pLog); + + return MA_SUCCESS; +} + +MA_API ma_result ma_log_post(ma_log* pLog, ma_uint32 level, const char* pMessage) +{ + if (pLog == NULL || pMessage == NULL) { + return MA_INVALID_ARGS; + } + + ma_log_lock(pLog); + { + ma_uint32 iLog; + for (iLog = 0; iLog < pLog->callbackCount; iLog += 1) { + if (pLog->callbacks[iLog].onLog) { + pLog->callbacks[iLog].onLog(pLog->callbacks[iLog].pUserData, level, pMessage); + } + } + } + ma_log_unlock(pLog); + + return MA_SUCCESS; +} + + +/* +We need to emulate _vscprintf() for the VC6 build. This can be more efficient, but since it's only VC6, and it's just a +logging function, I'm happy to keep this simple. In the VC6 build we can implement this in terms of _vsnprintf(). +*/ +#if defined(_MSC_VER) && _MSC_VER < 1900 +static int ma_vscprintf(const ma_allocation_callbacks* pAllocationCallbacks, const char* format, va_list args) +{ +#if _MSC_VER > 1200 + return _vscprintf(format, args); +#else + int result; + char* pTempBuffer = NULL; + size_t tempBufferCap = 1024; + + if (format == NULL) { + errno = EINVAL; + return -1; + } + + for (;;) { + char* pNewTempBuffer = (char*)ma_realloc(pTempBuffer, tempBufferCap, pAllocationCallbacks); + if (pNewTempBuffer == NULL) { + ma_free(pTempBuffer, pAllocationCallbacks); + errno = ENOMEM; + return -1; /* Out of memory. */ + } + + pTempBuffer = pNewTempBuffer; + + result = _vsnprintf(pTempBuffer, tempBufferCap, format, args); + ma_free(pTempBuffer, NULL); + + if (result != -1) { + break; /* Got it. */ + } + + /* Buffer wasn't big enough. Ideally it'd be nice to use an error code to know the reason for sure, but this is reliable enough. */ + tempBufferCap *= 2; + } + + return result; +#endif +} +#endif + +MA_API ma_result ma_log_postv(ma_log* pLog, ma_uint32 level, const char* pFormat, va_list args) +{ + if (pLog == NULL || pFormat == NULL) { + return MA_INVALID_ARGS; + } + + #if (defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L) || ((!defined(_MSC_VER) || _MSC_VER >= 1900) && !defined(__STRICT_ANSI__) && !defined(_NO_EXT_KEYS)) || (defined(__cplusplus) && __cplusplus >= 201103L) + { + ma_result result; + int length; + char pFormattedMessageStack[1024]; + char* pFormattedMessageHeap = NULL; + va_list args2; + + /* First try formatting into our fixed sized stack allocated buffer. If this is too small we'll fallback to a heap allocation. */ + ma_va_copy(args2, args); + { + length = vsnprintf(pFormattedMessageStack, sizeof(pFormattedMessageStack), pFormat, args2); + } + va_end(args2); + + if (length < 0) { + return MA_INVALID_OPERATION; /* An error occurred when trying to convert the buffer. */ + } + + if ((size_t)length < sizeof(pFormattedMessageStack)) { + /* The string was written to the stack. */ + result = ma_log_post(pLog, level, pFormattedMessageStack); + } else { + /* The stack buffer was too small, try the heap. */ + pFormattedMessageHeap = (char*)ma_malloc(length + 1, &pLog->allocationCallbacks); + if (pFormattedMessageHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + + length = vsnprintf(pFormattedMessageHeap, length + 1, pFormat, args); + if (length < 0) { + ma_free(pFormattedMessageHeap, &pLog->allocationCallbacks); + return MA_INVALID_OPERATION; + } + + result = ma_log_post(pLog, level, pFormattedMessageHeap); + ma_free(pFormattedMessageHeap, &pLog->allocationCallbacks); + } + + return result; + } + #else + { + /* + Without snprintf() we need to first measure the string and then heap allocate it. I'm only aware of Visual Studio having support for this without snprintf(), so we'll + need to restrict this branch to Visual Studio. For other compilers we need to just not support formatted logging because I don't want the security risk of overflowing + a fixed sized stack allocated buffer. + */ + #if defined(_MSC_VER) && _MSC_VER >= 1200 /* 1200 = VC6 */ + { + ma_result result; + int formattedLen; + char* pFormattedMessage = NULL; + va_list args2; + + ma_va_copy(args2, args); + { + formattedLen = ma_vscprintf(&pLog->allocationCallbacks, pFormat, args2); + } + va_end(args2); + + if (formattedLen <= 0) { + return MA_INVALID_OPERATION; + } + + pFormattedMessage = (char*)ma_malloc(formattedLen + 1, &pLog->allocationCallbacks); + if (pFormattedMessage == NULL) { + return MA_OUT_OF_MEMORY; + } + + /* We'll get errors on newer versions of Visual Studio if we try to use vsprintf(). */ + #if _MSC_VER >= 1400 /* 1400 = Visual Studio 2005 */ + { + vsprintf_s(pFormattedMessage, formattedLen + 1, pFormat, args); + } + #else + { + vsprintf(pFormattedMessage, pFormat, args); + } + #endif + + result = ma_log_post(pLog, level, pFormattedMessage); + ma_free(pFormattedMessage, &pLog->allocationCallbacks); + + return result; + } + #else + { + /* Can't do anything because we don't have a safe way of to emulate vsnprintf() without a manual solution. */ + (void)level; + (void)args; + + return MA_INVALID_OPERATION; + } + #endif + } + #endif +} + +MA_API ma_result ma_log_postf(ma_log* pLog, ma_uint32 level, const char* pFormat, ...) +{ + ma_result result; + va_list args; + + if (pLog == NULL || pFormat == NULL) { + return MA_INVALID_ARGS; + } + + va_start(args, pFormat); + { + result = ma_log_postv(pLog, level, pFormat, args); + } + va_end(args); + + return result; +} + + + +static MA_INLINE ma_uint8 ma_clip_u8(ma_int32 x) +{ + return (ma_uint8)(ma_clamp(x, -128, 127) + 128); +} + +static MA_INLINE ma_int16 ma_clip_s16(ma_int32 x) +{ + return (ma_int16)ma_clamp(x, -32768, 32767); +} + +static MA_INLINE ma_int64 ma_clip_s24(ma_int64 x) +{ + return (ma_int64)ma_clamp(x, -8388608, 8388607); +} + +static MA_INLINE ma_int32 ma_clip_s32(ma_int64 x) +{ + /* This dance is to silence warnings with -std=c89. A good compiler should be able to optimize this away. */ + ma_int64 clipMin; + ma_int64 clipMax; + clipMin = -((ma_int64)2147483647 + 1); + clipMax = (ma_int64)2147483647; + + return (ma_int32)ma_clamp(x, clipMin, clipMax); +} + +static MA_INLINE float ma_clip_f32(float x) +{ + if (x < -1) return -1; + if (x > +1) return +1; + return x; +} + + +static MA_INLINE float ma_mix_f32(float x, float y, float a) +{ + return x*(1-a) + y*a; +} +static MA_INLINE float ma_mix_f32_fast(float x, float y, float a) +{ + float r0 = (y - x); + float r1 = r0*a; + return x + r1; + /*return x + (y - x)*a;*/ +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE __m128 ma_mix_f32_fast__sse2(__m128 x, __m128 y, __m128 a) +{ + return _mm_add_ps(x, _mm_mul_ps(_mm_sub_ps(y, x), a)); +} +#endif +#if defined(MA_SUPPORT_AVX2) +static MA_INLINE __m256 ma_mix_f32_fast__avx2(__m256 x, __m256 y, __m256 a) +{ + return _mm256_add_ps(x, _mm256_mul_ps(_mm256_sub_ps(y, x), a)); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE float32x4_t ma_mix_f32_fast__neon(float32x4_t x, float32x4_t y, float32x4_t a) +{ + return vaddq_f32(x, vmulq_f32(vsubq_f32(y, x), a)); +} +#endif + + +static MA_INLINE double ma_mix_f64(double x, double y, double a) +{ + return x*(1-a) + y*a; +} +static MA_INLINE double ma_mix_f64_fast(double x, double y, double a) +{ + return x + (y - x)*a; +} + +static MA_INLINE float ma_scale_to_range_f32(float x, float lo, float hi) +{ + return lo + x*(hi-lo); +} + + +/* +Greatest common factor using Euclid's algorithm iteratively. +*/ +static MA_INLINE ma_uint32 ma_gcf_u32(ma_uint32 a, ma_uint32 b) +{ + for (;;) { + if (b == 0) { + break; + } else { + ma_uint32 t = a; + a = b; + b = t % a; + } + } + + return a; +} + + +static ma_uint32 ma_ffs_32(ma_uint32 x) +{ + ma_uint32 i; + + /* Just a naive implementation just to get things working for now. Will optimize this later. */ + for (i = 0; i < 32; i += 1) { + if ((x & (1U << i)) != 0) { + return i; + } + } + + return i; +} + +static MA_INLINE ma_int16 ma_float_to_fixed_16(float x) +{ + return (ma_int16)(x * (1 << 8)); +} + + + +/* +Random Number Generation + +miniaudio uses the LCG random number generation algorithm. This is good enough for audio. + +Note that miniaudio's global LCG implementation uses global state which is _not_ thread-local. When this is called across +multiple threads, results will be unpredictable. However, it won't crash and results will still be random enough for +miniaudio's purposes. +*/ +#ifndef MA_DEFAULT_LCG_SEED +#define MA_DEFAULT_LCG_SEED 4321 +#endif + +#define MA_LCG_M 2147483647 +#define MA_LCG_A 48271 +#define MA_LCG_C 0 + +static ma_lcg g_maLCG = {MA_DEFAULT_LCG_SEED}; /* Non-zero initial seed. Use ma_lcg_seed() to use an explicit seed. */ + +static MA_INLINE void ma_lcg_seed(ma_lcg* pLCG, ma_int32 seed) +{ + MA_ASSERT(pLCG != NULL); + pLCG->state = seed; +} + +static MA_INLINE ma_int32 ma_lcg_rand_s32(ma_lcg* pLCG) +{ + pLCG->state = (MA_LCG_A * pLCG->state + MA_LCG_C) % MA_LCG_M; + return pLCG->state; +} + +static MA_INLINE ma_uint32 ma_lcg_rand_u32(ma_lcg* pLCG) +{ + return (ma_uint32)ma_lcg_rand_s32(pLCG); +} + +static MA_INLINE ma_int16 ma_lcg_rand_s16(ma_lcg* pLCG) +{ + return (ma_int16)(ma_lcg_rand_s32(pLCG) & 0xFFFF); +} + +static MA_INLINE double ma_lcg_rand_f64(ma_lcg* pLCG) +{ + return ma_lcg_rand_s32(pLCG) / (double)0x7FFFFFFF; +} + +static MA_INLINE float ma_lcg_rand_f32(ma_lcg* pLCG) +{ + return (float)ma_lcg_rand_f64(pLCG); +} + +static MA_INLINE float ma_lcg_rand_range_f32(ma_lcg* pLCG, float lo, float hi) +{ + return ma_scale_to_range_f32(ma_lcg_rand_f32(pLCG), lo, hi); +} + +static MA_INLINE ma_int32 ma_lcg_rand_range_s32(ma_lcg* pLCG, ma_int32 lo, ma_int32 hi) +{ + if (lo == hi) { + return lo; + } + + return lo + ma_lcg_rand_u32(pLCG) / (0xFFFFFFFF / (hi - lo + 1) + 1); +} + + +#if 0 /* Currently unused. */ +static MA_INLINE void ma_seed(ma_int32 seed) +{ + ma_lcg_seed(&g_maLCG, seed); +} + +static MA_INLINE ma_int32 ma_rand_s32(void) +{ + return ma_lcg_rand_s32(&g_maLCG); +} + +static MA_INLINE ma_uint32 ma_rand_u32(void) +{ + return ma_lcg_rand_u32(&g_maLCG); +} + +static MA_INLINE double ma_rand_f64(void) +{ + return ma_lcg_rand_f64(&g_maLCG); +} + +static MA_INLINE float ma_rand_f32(void) +{ + return ma_lcg_rand_f32(&g_maLCG); +} +#endif + +static MA_INLINE float ma_rand_range_f32(float lo, float hi) +{ + return ma_lcg_rand_range_f32(&g_maLCG, lo, hi); +} + +static MA_INLINE ma_int32 ma_rand_range_s32(ma_int32 lo, ma_int32 hi) +{ + return ma_lcg_rand_range_s32(&g_maLCG, lo, hi); +} + + +static MA_INLINE float ma_dither_f32_rectangle(float ditherMin, float ditherMax) +{ + return ma_rand_range_f32(ditherMin, ditherMax); +} + +static MA_INLINE float ma_dither_f32_triangle(float ditherMin, float ditherMax) +{ + float a = ma_rand_range_f32(ditherMin, 0); + float b = ma_rand_range_f32(0, ditherMax); + return a + b; +} + +static MA_INLINE float ma_dither_f32(ma_dither_mode ditherMode, float ditherMin, float ditherMax) +{ + if (ditherMode == ma_dither_mode_rectangle) { + return ma_dither_f32_rectangle(ditherMin, ditherMax); + } + if (ditherMode == ma_dither_mode_triangle) { + return ma_dither_f32_triangle(ditherMin, ditherMax); + } + + return 0; +} + +static MA_INLINE ma_int32 ma_dither_s32(ma_dither_mode ditherMode, ma_int32 ditherMin, ma_int32 ditherMax) +{ + if (ditherMode == ma_dither_mode_rectangle) { + ma_int32 a = ma_rand_range_s32(ditherMin, ditherMax); + return a; + } + if (ditherMode == ma_dither_mode_triangle) { + ma_int32 a = ma_rand_range_s32(ditherMin, 0); + ma_int32 b = ma_rand_range_s32(0, ditherMax); + return a + b; + } + + return 0; +} + + +/************************************************************************************************************************************************************** + +Atomics + +**************************************************************************************************************************************************************/ +/* c89atomic.h begin */ +#ifndef ma_atomic_h +#define ma_atomic_h +#if defined(__cplusplus) +extern "C" { +#endif +#if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))) + #pragma GCC diagnostic push + #pragma GCC diagnostic ignored "-Wlong-long" + #if defined(__clang__) + #pragma GCC diagnostic ignored "-Wc++11-long-long" + #endif +#endif +typedef int ma_atomic_memory_order; +#if !defined(MA_ATOMIC_MODERN_MSVC) && \ + !defined(MA_ATOMIC_LEGACY_MSVC) && \ + !defined(MA_ATOMIC_LEGACY_MSVC_ASM) && \ + !defined(MA_ATOMIC_MODERN_GCC) && \ + !defined(MA_ATOMIC_LEGACY_GCC) && \ + !defined(MA_ATOMIC_LEGACY_GCC_ASM) + #if defined(_MSC_VER) || defined(__WATCOMC__) || defined(__DMC__) || defined(__BORLANDC__) + #if (defined(_MSC_VER) && _MSC_VER > 1600) + #define MA_ATOMIC_MODERN_MSVC + #else + #if defined(MA_X64) + #define MA_ATOMIC_LEGACY_MSVC + #else + #define MA_ATOMIC_LEGACY_MSVC_ASM + #endif + #endif + #elif (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 7))) || defined(__clang__) + #define MA_ATOMIC_MODERN_GCC + #else + #if defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 1)) + #define MA_ATOMIC_LEGACY_GCC + #else + #define MA_ATOMIC_LEGACY_GCC_ASM + #endif + #endif +#endif +#if defined(MA_ATOMIC_MODERN_MSVC) || defined(MA_ATOMIC_LEGACY_MSVC) + #include + #define ma_atomic_memory_order_relaxed 1 + #define ma_atomic_memory_order_consume 2 + #define ma_atomic_memory_order_acquire 3 + #define ma_atomic_memory_order_release 4 + #define ma_atomic_memory_order_acq_rel 5 + #define ma_atomic_memory_order_seq_cst 6 + #define MA_ATOMIC_MSVC_ARM_INTRINSIC_NORETURN(dst, src, order, intrin, ma_atomicType, msvcType) \ + switch (order) \ + { \ + case ma_atomic_memory_order_relaxed: \ + { \ + intrin##_nf((volatile msvcType*)dst, (msvcType)src); \ + } break; \ + case ma_atomic_memory_order_consume: \ + case ma_atomic_memory_order_acquire: \ + { \ + intrin##_acq((volatile msvcType*)dst, (msvcType)src); \ + } break; \ + case ma_atomic_memory_order_release: \ + { \ + intrin##_rel((volatile msvcType*)dst, (msvcType)src); \ + } break; \ + case ma_atomic_memory_order_acq_rel: \ + case ma_atomic_memory_order_seq_cst: \ + default: \ + { \ + intrin((volatile msvcType*)dst, (msvcType)src); \ + } break; \ + } + #define MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, intrin, ma_atomicType, msvcType) \ + ma_atomicType result; \ + switch (order) \ + { \ + case ma_atomic_memory_order_relaxed: \ + { \ + result = (ma_atomicType)intrin##_nf((volatile msvcType*)dst, (msvcType)src); \ + } break; \ + case ma_atomic_memory_order_consume: \ + case ma_atomic_memory_order_acquire: \ + { \ + result = (ma_atomicType)intrin##_acq((volatile msvcType*)dst, (msvcType)src); \ + } break; \ + case ma_atomic_memory_order_release: \ + { \ + result = (ma_atomicType)intrin##_rel((volatile msvcType*)dst, (msvcType)src); \ + } break; \ + case ma_atomic_memory_order_acq_rel: \ + case ma_atomic_memory_order_seq_cst: \ + default: \ + { \ + result = (ma_atomicType)intrin((volatile msvcType*)dst, (msvcType)src); \ + } break; \ + } \ + return result; + typedef ma_uint32 ma_atomic_flag; + static MA_INLINE ma_atomic_flag ma_atomic_flag_test_and_set_explicit(volatile ma_atomic_flag* dst, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, 1, order, _InterlockedExchange, ma_atomic_flag, long); + } + #else + { + (void)order; + return (ma_atomic_flag)_InterlockedExchange((volatile long*)dst, (long)1); + } + #endif + } + static MA_INLINE void ma_atomic_flag_clear_explicit(volatile ma_atomic_flag* dst, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC_NORETURN(dst, 0, order, _InterlockedExchange, ma_atomic_flag, long); + } + #else + { + (void)order; + _InterlockedExchange((volatile long*)dst, (long)0); + } + #endif + } + static MA_INLINE ma_atomic_flag ma_atomic_flag_load_explicit(volatile const ma_atomic_flag* dst, ma_atomic_memory_order order) + { + (void)order; + return (ma_uint32)_InterlockedCompareExchange((volatile long*)dst, 0, 0); + } +#endif +#if defined(MA_ATOMIC_LEGACY_MSVC_ASM) + #define ma_atomic_memory_order_relaxed 1 + #define ma_atomic_memory_order_consume 2 + #define ma_atomic_memory_order_acquire 3 + #define ma_atomic_memory_order_release 4 + #define ma_atomic_memory_order_acq_rel 5 + #define ma_atomic_memory_order_seq_cst 6 + typedef ma_uint32 ma_atomic_flag; + static MA_INLINE ma_atomic_flag ma_atomic_flag_test_and_set_explicit(volatile ma_atomic_flag* dst, ma_atomic_memory_order order) + { + ma_atomic_flag result = 0; + (void)order; + __asm { + mov ecx, dst + mov eax, 1 + xchg [ecx], eax + mov result, eax + } + return result; + } + static MA_INLINE void ma_atomic_flag_clear_explicit(volatile ma_atomic_flag* dst, ma_atomic_memory_order order) + { + if (order == ma_atomic_memory_order_relaxed) { + __asm { + mov esi, dst + mov dword ptr [esi], 0 + } + } else { + __asm { + mov esi, dst + mov eax, 0 + xchg [esi], eax + } + } + } + static MA_INLINE ma_atomic_flag ma_atomic_flag_load_explicit(volatile const ma_atomic_flag* dst, ma_atomic_memory_order order) + { + ma_atomic_flag result = 0; + if (order == ma_atomic_memory_order_relaxed) { + __asm { + mov esi, dst + mov eax, [esi] + mov result, eax + } + } else if (order <= ma_atomic_memory_order_release) { + __asm { + mov esi, dst + mov eax, [esi] + lock add dword ptr [esp], 0 + mov result, eax + } + } else { + __asm { + lock add dword ptr [esp], 0 + mov esi, dst + mov eax, [esi] + mov result, eax + lock add dword ptr [esp], 0 + } + } + return result; + } +#endif +#if defined(MA_ATOMIC_MODERN_GCC) + #define ma_atomic_memory_order_relaxed __ATOMIC_RELAXED + #define ma_atomic_memory_order_consume __ATOMIC_CONSUME + #define ma_atomic_memory_order_acquire __ATOMIC_ACQUIRE + #define ma_atomic_memory_order_release __ATOMIC_RELEASE + #define ma_atomic_memory_order_acq_rel __ATOMIC_ACQ_REL + #define ma_atomic_memory_order_seq_cst __ATOMIC_SEQ_CST + typedef ma_uint32 ma_atomic_flag; + #define ma_atomic_flag_test_and_set_explicit(dst, order) __atomic_exchange_n(dst, 1, order) + #define ma_atomic_flag_clear_explicit(dst, order) __atomic_store_n(dst, 0, order) + #define ma_atomic_flag_load_explicit(dst, order) __atomic_load_n(dst, order) +#endif +#if defined(MA_ATOMIC_LEGACY_GCC) + #define ma_atomic_memory_order_relaxed 1 + #define ma_atomic_memory_order_consume 2 + #define ma_atomic_memory_order_acquire 3 + #define ma_atomic_memory_order_release 4 + #define ma_atomic_memory_order_acq_rel 5 + #define ma_atomic_memory_order_seq_cst 6 + typedef ma_uint32 ma_atomic_flag; + static MA_INLINE ma_atomic_flag ma_atomic_flag_test_and_set_explicit(volatile ma_atomic_flag* dst, ma_atomic_memory_order order) + { + if (order > ma_atomic_memory_order_acquire) { + __sync_synchronize(); + } + return __sync_lock_test_and_set(dst, 1); + } + static MA_INLINE void ma_atomic_flag_clear_explicit(volatile ma_atomic_flag* dst, ma_atomic_memory_order order) + { + if (order > ma_atomic_memory_order_release) { + __sync_synchronize(); + } + __sync_lock_release(dst); + } + static MA_INLINE ma_atomic_flag ma_atomic_flag_load_explicit(volatile const ma_atomic_flag* dst, ma_atomic_memory_order order) + { + (void)order; + return __sync_val_compare_and_swap((ma_atomic_flag*)dst, 0, 0); + } +#endif +#if defined(MA_ATOMIC_LEGACY_GCC_ASM) + #define ma_atomic_memory_order_relaxed 1 + #define ma_atomic_memory_order_consume 2 + #define ma_atomic_memory_order_acquire 3 + #define ma_atomic_memory_order_release 4 + #define ma_atomic_memory_order_acq_rel 5 + #define ma_atomic_memory_order_seq_cst 6 + #if defined(MA_X86) + #define ma_atomic_thread_fence(order) __asm__ __volatile__("lock; addl $0, (%%esp)" ::: "memory") + #elif defined(MA_X64) + #define ma_atomic_thread_fence(order) __asm__ __volatile__("lock; addq $0, (%%rsp)" ::: "memory") + #else + #error Unsupported architecture. + #endif + #define MA_ATOMIC_XCHG_GCC_X86(instructionSizeSuffix, result, dst, src) \ + __asm__ __volatile__( \ + "xchg"instructionSizeSuffix" %0, %1" \ + : "=r"(result), \ + "=m"(*dst) \ + : "0"(src), \ + "m"(*dst) \ + : "memory" \ + ) + #define MA_ATOMIC_LOAD_RELAXED_GCC_X86(instructionSizeSuffix, result, dst) \ + __asm__ __volatile__( \ + "mov"instructionSizeSuffix" %1, %0" \ + : "=r"(result) \ + : "m"(*dst) \ + ) + #define MA_ATOMIC_LOAD_RELEASE_GCC_X86(instructionSizeSuffix, result, dst) \ + ma_atomic_thread_fence(ma_atomic_memory_order_release); \ + __asm__ __volatile__( \ + "mov"instructionSizeSuffix" %1, %0" \ + : "=r"(result) \ + : "m"(*dst) \ + : "memory" \ + ) + #define MA_ATOMIC_LOAD_SEQ_CST_GCC_X86(instructionSizeSuffix, result, dst) \ + ma_atomic_thread_fence(ma_atomic_memory_order_seq_cst); \ + __asm__ __volatile__( \ + "mov"instructionSizeSuffix" %1, %0" \ + : "=r"(result) \ + : "m"(*dst) \ + : "memory" \ + ); \ + ma_atomic_thread_fence(ma_atomic_memory_order_seq_cst) + typedef ma_uint32 ma_atomic_flag; + static MA_INLINE ma_atomic_flag ma_atomic_flag_test_and_set_explicit(volatile ma_atomic_flag* dst, ma_atomic_memory_order order) + { + ma_atomic_flag result; + #if defined(MA_X86) || defined(MA_X64) + { + (void)order; + MA_ATOMIC_XCHG_GCC_X86("l", result, dst, 1); + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + static MA_INLINE void ma_atomic_flag_clear_explicit(volatile ma_atomic_flag* dst, ma_atomic_memory_order order) + { + #if defined(MA_X86) || defined(MA_X64) + { + if (order == ma_atomic_memory_order_relaxed) { + __asm__ __volatile__( + "movl $0, %0" + : "=m"(*dst) + ); + } else if (order == ma_atomic_memory_order_release) { + __asm__ __volatile__( + "movl $0, %0" + : "=m"(*dst) + : + : "memory" + ); + } else { + ma_atomic_flag tmp = 0; + __asm__ __volatile__( + "xchgl %0, %1" + : "=r"(tmp), + "=m"(*dst) + : "0"(tmp), + "m"(*dst) + : "memory" + ); + } + } + #else + { + #error Unsupported architecture. + } + #endif + } + static MA_INLINE ma_atomic_flag ma_atomic_flag_load_explicit(volatile const ma_atomic_flag* dst, ma_atomic_memory_order order) + { + #if defined(MA_X86) || defined(MA_X64) + { + ma_atomic_flag result; + if (order == ma_atomic_memory_order_relaxed) { + MA_ATOMIC_LOAD_RELAXED_GCC_X86("l", result, dst); + } else if (order <= ma_atomic_memory_order_release) { + MA_ATOMIC_LOAD_RELEASE_GCC_X86("l", result, dst); + } else { + MA_ATOMIC_LOAD_SEQ_CST_GCC_X86("l", result, dst); + } + return result; + } + #else + { + #error Unsupported architecture. + } + #endif + } +#endif +#define ma_atomic_flag_test_and_set(dst) ma_atomic_flag_test_and_set_explicit(dst, ma_atomic_memory_order_acquire) +#define ma_atomic_flag_clear(dst) ma_atomic_flag_clear_explicit(dst, ma_atomic_memory_order_release) +typedef ma_atomic_flag ma_atomic_spinlock; +static MA_INLINE void ma_atomic_spinlock_lock(volatile ma_atomic_spinlock* pSpinlock) +{ + for (;;) { + if (ma_atomic_flag_test_and_set_explicit(pSpinlock, ma_atomic_memory_order_acquire) == 0) { + break; + } + while (ma_atomic_flag_load_explicit(pSpinlock, ma_atomic_memory_order_relaxed) == 1) { + } + } +} +static MA_INLINE void ma_atomic_spinlock_unlock(volatile ma_atomic_spinlock* pSpinlock) +{ + ma_atomic_flag_clear_explicit(pSpinlock, ma_atomic_memory_order_release); +} +ma_atomic_spinlock ma_atomic_global_lock; +#if defined(MA_ATOMIC_MODERN_MSVC) || defined(MA_ATOMIC_LEGACY_MSVC) || defined(MA_ATOMIC_LEGACY_MSVC_ASM) || defined(MA_ATOMIC_LEGACY_GCC) || defined(MA_ATOMIC_LEGACY_GCC_ASM) + #if defined(MA_X64) || (defined(MA_X86) && ((defined(__GNUC__) && defined(__i486__)) || (defined(_M_IX86) && _M_IX86 >= 400))) + #if defined(MA_ATOMIC_LEGACY_MSVC) && defined(MA_X64) + #else + #define MA_ATOMIC_IS_LOCK_FREE_8 1 + #define MA_ATOMIC_IS_LOCK_FREE_16 1 + #endif + #define MA_ATOMIC_IS_LOCK_FREE_32 1 + #if defined(MA_X64) || (defined(MA_X86) && ((defined(__GNUC__) && defined(__i586__)) || (defined(_M_IX86) && _M_IX86 >= 500))) + #define MA_ATOMIC_IS_LOCK_FREE_64 1 + #else + #endif + #else + #endif + #if defined(MA_ARM32) || defined(MA_ARM64) + #define MA_ATOMIC_IS_LOCK_FREE_8 1 + #define MA_ATOMIC_IS_LOCK_FREE_16 1 + #define MA_ATOMIC_IS_LOCK_FREE_32 1 + #if defined(MA_ARM64) || defined(__ARM_ARCH_7A__) || defined(__ARM_ARCH_7R__) || defined(__ARM_ARCH_6K__) || defined(__ARM_ARCH_6Z__) || defined(__ARM_ARCH_6ZK__) + #define MA_ATOMIC_IS_LOCK_FREE_64 1 + #endif + #endif + #if defined(MA_ATOMIC_PPC32) || defined(MA_ATOMIC_PPC64) + #if (defined(__GNUC__) && (__GNUC__ < 4 || (__GNUC__ == 4 && __GNUC_MINOR__ < 7))) && !defined(__clang__) + #else + #define MA_ATOMIC_IS_LOCK_FREE_8 1 + #define MA_ATOMIC_IS_LOCK_FREE_16 1 + #endif + #define MA_ATOMIC_IS_LOCK_FREE_32 1 + #if defined(MA_ATOMIC_PPC64) + #define MA_ATOMIC_IS_LOCK_FREE_64 1 + #endif + #endif + static MA_INLINE ma_bool32 ma_atomic_is_lock_free_8(volatile void* ptr) + { + (void)ptr; + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + return 1; + #else + return 0; + #endif + } + static MA_INLINE ma_bool32 ma_atomic_is_lock_free_16(volatile void* ptr) + { + (void)ptr; + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + return 1; + #else + return 0; + #endif + } + static MA_INLINE ma_bool32 ma_atomic_is_lock_free_32(volatile void* ptr) + { + (void)ptr; + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + return 1; + #else + return 0; + #endif + } + static MA_INLINE ma_bool32 ma_atomic_is_lock_free_64(volatile void* ptr) + { + (void)ptr; + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + return 1; + #else + return 0; + #endif + } +#endif +#define MA_ATOMIC_COMPARE_AND_SWAP_LOCK(sizeInBits, dst, expected, replacement) \ + ma_uint##sizeInBits result; \ + ma_atomic_spinlock_lock(&ma_atomic_global_lock); \ + { \ + result = *dst; \ + if (result == expected) { \ + *dst = replacement; \ + } \ + } \ + ma_atomic_spinlock_unlock(&ma_atomic_global_lock); \ + return result +#define MA_ATOMIC_LOAD_EXPLICIT_LOCK(sizeInBits, ptr, order) \ + ma_uint##sizeInBits result; \ + ma_atomic_spinlock_lock(&ma_atomic_global_lock); \ + { \ + result = *ptr; \ + (void)order; \ + } \ + ma_atomic_spinlock_unlock(&ma_atomic_global_lock); \ + return result +#define MA_ATOMIC_STORE_EXPLICIT_LOCK(sizeInBits, dst, src, order) \ + ma_atomic_spinlock_lock(&ma_atomic_global_lock); \ + { \ + *dst = src; \ + (void)order; \ + } \ + ma_atomic_spinlock_unlock(&ma_atomic_global_lock) +#define MA_ATOMIC_STORE_EXPLICIT_CAS(sizeInBits, dst, src, order) \ + ma_uint##sizeInBits oldValue; \ + do { \ + oldValue = ma_atomic_load_explicit_##sizeInBits(dst, ma_atomic_memory_order_relaxed); \ + } while (ma_atomic_compare_and_swap_##sizeInBits(dst, oldValue, src) != oldValue); \ + (void)order +#define MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(sizeInBits, dst, src, order) \ + ma_uint##sizeInBits result; \ + ma_atomic_spinlock_lock(&ma_atomic_global_lock); \ + { \ + result = *dst; \ + *dst = src; \ + (void)order; \ + } \ + ma_atomic_spinlock_unlock(&ma_atomic_global_lock); \ + return result +#define MA_ATOMIC_EXCHANGE_EXPLICIT_CAS(sizeInBits, dst, src, order) \ + ma_uint##sizeInBits oldValue; \ + do { \ + oldValue = ma_atomic_load_explicit_##sizeInBits(dst, ma_atomic_memory_order_relaxed); \ + } while (ma_atomic_compare_and_swap_##sizeInBits(dst, oldValue, src) != oldValue); \ + (void)order; \ + return oldValue +#define MA_ATOMIC_FETCH_ADD_LOCK(sizeInBits, dst, src, order) \ + ma_uint##sizeInBits result; \ + ma_atomic_spinlock_lock(&ma_atomic_global_lock); \ + { \ + result = *dst; \ + *dst += src; \ + (void)order; \ + } \ + ma_atomic_spinlock_unlock(&ma_atomic_global_lock); \ + return result +#define MA_ATOMIC_FETCH_ADD_CAS(sizeInBits, dst, src, order) \ + ma_uint##sizeInBits oldValue; \ + ma_uint##sizeInBits newValue; \ + do { \ + oldValue = ma_atomic_load_explicit_##sizeInBits(dst, ma_atomic_memory_order_relaxed); \ + newValue = oldValue + src; \ + } while (ma_atomic_compare_and_swap_##sizeInBits(dst, oldValue, newValue) != oldValue); \ + (void)order; \ + return oldValue +#define MA_ATOMIC_FETCH_AND_CAS(sizeInBits, dst, src, order) \ + ma_uint##sizeInBits oldValue; \ + ma_uint##sizeInBits newValue; \ + do { \ + oldValue = ma_atomic_load_explicit_##sizeInBits(dst, ma_atomic_memory_order_relaxed); \ + newValue = (ma_uint##sizeInBits)(oldValue & src); \ + } while (ma_atomic_compare_and_swap_##sizeInBits(dst, oldValue, newValue) != oldValue); \ + (void)order; \ + return oldValue +#define MA_ATOMIC_FETCH_OR_CAS(sizeInBits, dst, src, order) \ + ma_uint##sizeInBits oldValue; \ + ma_uint##sizeInBits newValue; \ + do { \ + oldValue = ma_atomic_load_explicit_##sizeInBits(dst, ma_atomic_memory_order_relaxed); \ + newValue = (ma_uint##sizeInBits)(oldValue | src); \ + } while (ma_atomic_compare_and_swap_##sizeInBits(dst, oldValue, newValue) != oldValue); \ + (void)order; \ + return oldValue +#define MA_ATOMIC_FETCH_XOR_CAS(sizeInBits, dst, src, order) \ + ma_uint##sizeInBits oldValue; \ + ma_uint##sizeInBits newValue; \ + do { \ + oldValue = ma_atomic_load_explicit_##sizeInBits(dst, ma_atomic_memory_order_relaxed); \ + newValue = (ma_uint##sizeInBits)(oldValue ^ src); \ + } while (ma_atomic_compare_and_swap_##sizeInBits(dst, oldValue, newValue) != oldValue); \ + (void)order; \ + return oldValue +#if defined(MA_ATOMIC_MODERN_MSVC) || defined(MA_ATOMIC_LEGACY_MSVC) + #define MA_ATOMIC_MSVC_ARM_INTRINSIC_COMPARE_EXCHANGE(ptr, expected, replacement, order, intrin, ma_atomicType, msvcType) \ + ma_atomicType result; \ + switch (order) \ + { \ + case ma_atomic_memory_order_relaxed: \ + { \ + result = (ma_atomicType)intrin##_nf((volatile msvcType*)ptr, (msvcType)expected, (msvcType)replacement); \ + } break; \ + case ma_atomic_memory_order_consume: \ + case ma_atomic_memory_order_acquire: \ + { \ + result = (ma_atomicType)intrin##_acq((volatile msvcType*)ptr, (msvcType)expected, (msvcType)replacement); \ + } break; \ + case ma_atomic_memory_order_release: \ + { \ + result = (ma_atomicType)intrin##_rel((volatile msvcType*)ptr, (msvcType)expected, (msvcType)replacement); \ + } break; \ + case ma_atomic_memory_order_acq_rel: \ + case ma_atomic_memory_order_seq_cst: \ + default: \ + { \ + result = (ma_atomicType)intrin((volatile msvcType*)ptr, (msvcType)expected, (msvcType)replacement); \ + } break; \ + } \ + return result; + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + #define ma_atomic_compare_and_swap_8( dst, expected, replacement) (ma_uint8 )_InterlockedCompareExchange8((volatile char*)dst, (char)replacement, (char)expected) + #else + static MA_INLINE ma_uint8 __stdcall ma_atomic_compare_and_swap_8(volatile ma_uint8* dst, ma_uint8 expected, ma_uint8 replacement) + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(8, dst, expected, replacement); + } + #endif + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + #define ma_atomic_compare_and_swap_16(dst, expected, replacement) (ma_uint16)_InterlockedCompareExchange16((volatile short*)dst, (short)replacement, (short)expected) + #else + static MA_INLINE ma_uint16 __stdcall ma_atomic_compare_and_swap_16(volatile ma_uint16* dst, ma_uint16 expected, ma_uint16 replacement) + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(16, dst, expected, replacement); + } + #endif + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + #define ma_atomic_compare_and_swap_32(dst, expected, replacement) (ma_uint32)_InterlockedCompareExchange((volatile long*)dst, (long)replacement, (long)expected) + #else + static MA_INLINE ma_uint32 __stdcall ma_atomic_compare_and_swap_32(volatile ma_uint32* dst, ma_uint32 expected, ma_uint32 replacement) + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(32, dst, expected, replacement); + } + #endif + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + #define ma_atomic_compare_and_swap_64(dst, expected, replacement) (ma_uint64)_InterlockedCompareExchange64((volatile ma_int64*)dst, (ma_int64)replacement, (ma_int64)expected) + #else + static MA_INLINE ma_uint64 __stdcall ma_atomic_compare_and_swap_64(volatile ma_uint64* dst, ma_uint64 expected, ma_uint64 replacement) + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(64, dst, expected, replacement); + } + #endif + static MA_INLINE ma_uint8 ma_atomic_load_explicit_8(volatile const ma_uint8* ptr, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC_COMPARE_EXCHANGE(ptr, 0, 0, order, _InterlockedCompareExchange8, ma_uint8, char); + } + #else + { + (void)order; + return ma_atomic_compare_and_swap_8((volatile ma_uint8*)ptr, 0, 0); + } + #endif + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(8, ptr, order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_load_explicit_16(volatile const ma_uint16* ptr, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC_COMPARE_EXCHANGE(ptr, 0, 0, order, _InterlockedCompareExchange16, ma_uint16, short); + } + #else + { + (void)order; + return ma_atomic_compare_and_swap_16((volatile ma_uint16*)ptr, 0, 0); + } + #endif + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(16, ptr, order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_load_explicit_32(volatile const ma_uint32* ptr, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC_COMPARE_EXCHANGE(ptr, 0, 0, order, _InterlockedCompareExchange, ma_uint32, long); + } + #else + { + (void)order; + return ma_atomic_compare_and_swap_32((volatile ma_uint32*)ptr, 0, 0); + } + #endif + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(32, ptr, order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_load_explicit_64(volatile const ma_uint64* ptr, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC_COMPARE_EXCHANGE(ptr, 0, 0, order, _InterlockedCompareExchange64, ma_uint64, long long); + } + #else + { + (void)order; + return ma_atomic_compare_and_swap_64((volatile ma_uint64*)ptr, 0, 0); + } + #endif + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(64, ptr, order); + } + #endif + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_exchange_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedExchange8, ma_uint8, char); + } + #else + { + (void)order; + return (ma_uint8)_InterlockedExchange8((volatile char*)dst, (char)src); + } + #endif + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_exchange_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedExchange16, ma_uint16, short); + } + #else + { + (void)order; + return (ma_uint16)_InterlockedExchange16((volatile short*)dst, (short)src); + } + #endif + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_exchange_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedExchange, ma_uint32, long); + } + #else + { + (void)order; + return (ma_uint32)_InterlockedExchange((volatile long*)dst, (long)src); + } + #endif + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_exchange_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + #if defined(MA_32BIT) + { + MA_ATOMIC_EXCHANGE_EXPLICIT_CAS(64, dst, src, order); + } + #else + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedExchange64, ma_uint64, long long); + } + #else + { + (void)order; + return (ma_uint64)_InterlockedExchange64((volatile long long*)dst, (long long)src); + } + #endif + } + #endif + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_fetch_add_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedExchangeAdd8, ma_uint8, char); + } + #else + { + (void)order; + return (ma_uint8)_InterlockedExchangeAdd8((volatile char*)dst, (char)src); + } + #endif + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_fetch_add_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedExchangeAdd16, ma_uint16, short); + } + #else + { + (void)order; + return (ma_uint16)_InterlockedExchangeAdd16((volatile short*)dst, (short)src); + } + #endif + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_fetch_add_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedExchangeAdd, ma_uint32, long); + } + #else + { + (void)order; + return (ma_uint32)_InterlockedExchangeAdd((volatile long*)dst, (long)src); + } + #endif + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_fetch_add_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + #if defined(MA_32BIT) + { + MA_ATOMIC_FETCH_ADD_CAS(64, dst, src, order); + } + #else + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedExchangeAdd64, ma_uint64, long long); + } + #else + { + (void)order; + return (ma_uint64)_InterlockedExchangeAdd64((volatile long long*)dst, (long long)src); + } + #endif + } + #endif + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_fetch_sub_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + return ma_atomic_fetch_add_explicit_8(dst, (ma_uint8)(-(ma_int8)src), order); + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_fetch_sub_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + return ma_atomic_fetch_add_explicit_16(dst, (ma_uint16)(-(ma_int16)src), order); + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_fetch_sub_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + return ma_atomic_fetch_add_explicit_32(dst, (ma_uint32)(-(ma_int32)src), order); + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_fetch_sub_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + return ma_atomic_fetch_add_explicit_64(dst, (ma_uint64)(-(ma_int64)src), order); + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_fetch_and_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedAnd8, ma_uint8, char); + } + #else + { + MA_ATOMIC_FETCH_AND_CAS(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_fetch_and_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedAnd16, ma_uint16, short); + } + #else + { + MA_ATOMIC_FETCH_AND_CAS(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_fetch_and_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedAnd, ma_uint32, long); + } + #else + { + MA_ATOMIC_FETCH_AND_CAS(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_fetch_and_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedAnd64, ma_uint64, long long); + } + #else + { + MA_ATOMIC_FETCH_AND_CAS(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_fetch_or_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedOr8, ma_uint8, char); + } + #else + { + MA_ATOMIC_FETCH_OR_CAS(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_fetch_or_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedOr16, ma_uint16, short); + } + #else + { + MA_ATOMIC_FETCH_OR_CAS(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_fetch_or_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedOr, ma_uint32, long); + } + #else + { + MA_ATOMIC_FETCH_OR_CAS(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_fetch_or_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedOr64, ma_uint64, long long); + } + #else + { + MA_ATOMIC_FETCH_OR_CAS(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_fetch_xor_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedXor8, ma_uint8, char); + } + #else + { + MA_ATOMIC_FETCH_XOR_CAS(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_fetch_xor_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedXor16, ma_uint16, short); + } + #else + { + MA_ATOMIC_FETCH_XOR_CAS(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_fetch_xor_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedXor, ma_uint32, long); + } + #else + { + MA_ATOMIC_FETCH_XOR_CAS(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_fetch_xor_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ARM) + { + MA_ATOMIC_MSVC_ARM_INTRINSIC(dst, src, order, _InterlockedXor64, ma_uint64, long long); + } + #else + { + MA_ATOMIC_FETCH_XOR_CAS(64, dst, src, order); + } + #endif + } + #define ma_atomic_store_explicit_8( dst, src, order) (void)ma_atomic_exchange_explicit_8 (dst, src, order) + #define ma_atomic_store_explicit_16(dst, src, order) (void)ma_atomic_exchange_explicit_16(dst, src, order) + #define ma_atomic_store_explicit_32(dst, src, order) (void)ma_atomic_exchange_explicit_32(dst, src, order) + #define ma_atomic_store_explicit_64(dst, src, order) (void)ma_atomic_exchange_explicit_64(dst, src, order) + #if defined(MA_X64) + #define ma_atomic_thread_fence(order) __faststorefence(), (void)order + #elif defined(MA_ARM64) + #define ma_atomic_thread_fence(order) __dmb(_ARM64_BARRIER_ISH), (void)order + #else + static MA_INLINE void ma_atomic_thread_fence(ma_atomic_memory_order order) + { + volatile ma_uint32 barrier = 0; + ma_atomic_fetch_add_explicit_32(&barrier, 0, order); + } + #endif + #define ma_atomic_signal_fence(order) _ReadWriteBarrier(), (void)order +#endif +#if defined(MA_ATOMIC_LEGACY_MSVC_ASM) + static MA_INLINE ma_uint8 __stdcall ma_atomic_compare_and_swap_8(volatile ma_uint8* dst, ma_uint8 expected, ma_uint8 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + ma_uint8 result = 0; + __asm { + mov ecx, dst + mov al, expected + mov dl, replacement + lock cmpxchg [ecx], dl + mov result, al + } + return result; + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(8, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_compare_and_swap_16(volatile ma_uint16* dst, ma_uint16 expected, ma_uint16 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + ma_uint16 result = 0; + __asm { + mov ecx, dst + mov ax, expected + mov dx, replacement + lock cmpxchg [ecx], dx + mov result, ax + } + return result; + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(16, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_compare_and_swap_32(volatile ma_uint32* dst, ma_uint32 expected, ma_uint32 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + ma_uint32 result = 0; + __asm { + mov ecx, dst + mov eax, expected + mov edx, replacement + lock cmpxchg [ecx], edx + mov result, eax + } + return result; + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(32, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_compare_and_swap_64(volatile ma_uint64* dst, ma_uint64 expected, ma_uint64 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + ma_uint32 resultEAX = 0; + ma_uint32 resultEDX = 0; + __asm { + mov esi, dst + mov eax, dword ptr expected + mov edx, dword ptr expected + 4 + mov ebx, dword ptr replacement + mov ecx, dword ptr replacement + 4 + lock cmpxchg8b qword ptr [esi] + mov resultEAX, eax + mov resultEDX, edx + } + return ((ma_uint64)resultEDX << 32) | resultEAX; + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(64, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint8 ma_atomic_load_explicit_8(volatile const ma_uint8* dst, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + ma_uint8 result = 0; + if (order == ma_atomic_memory_order_relaxed) { + __asm { + mov esi, dst + mov al, [esi] + mov result, al + } + } else if (order <= ma_atomic_memory_order_release) { + __asm { + mov esi, dst + mov al, [esi] + lock add dword ptr [esp], 0 + mov result, al + } + } else { + __asm { + lock add dword ptr [esp], 0 + mov esi, dst + mov al, [esi] + mov result, al + lock add dword ptr [esp], 0 + } + } + return result; + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(8, dst, order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_load_explicit_16(volatile const ma_uint16* dst, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + ma_uint16 result = 0; + if (order == ma_atomic_memory_order_relaxed) { + __asm { + mov esi, dst + mov ax, [esi] + mov result, ax + } + } else if (order <= ma_atomic_memory_order_release) { + __asm { + mov esi, dst + mov ax, [esi] + lock add dword ptr [esp], 0 + mov result, ax + } + } else { + __asm { + lock add dword ptr [esp], 0 + mov esi, dst + mov ax, [esi] + mov result, ax + lock add dword ptr [esp], 0 + } + } + return result; + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(16, dst, order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_load_explicit_32(volatile const ma_uint32* dst, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + ma_uint32 result = 0; + if (order == ma_atomic_memory_order_relaxed) { + __asm { + mov esi, dst + mov eax, [esi] + mov result, eax + } + } else if (order <= ma_atomic_memory_order_release) { + __asm { + mov esi, dst + mov eax, [esi] + lock add dword ptr [esp], 0 + mov result, eax + } + } else { + __asm { + lock add dword ptr [esp], 0 + mov esi, dst + mov eax, [esi] + mov result, eax + lock add dword ptr [esp], 0 + } + } + return result; + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(32, dst, order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_load_explicit_64(volatile const ma_uint64* dst, ma_atomic_memory_order order) + { + (void)order; + return ma_atomic_compare_and_swap_64((volatile ma_uint64*)dst, 0, 0); + } + static MA_INLINE void __stdcall ma_atomic_store_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + if (order == ma_atomic_memory_order_relaxed) { + __asm { + mov esi, dst + mov al, src + mov [esi], al + } + } else { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + __asm { + mov esi, dst + mov al, src + xchg [esi], al + } + } + #else + { + MA_ATOMIC_STORE_EXPLICIT_LOCK(8, dst, src, order); + } + #endif + } + } + static MA_INLINE void __stdcall ma_atomic_store_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + if (order == ma_atomic_memory_order_relaxed) { + __asm { + mov esi, dst + mov ax, src + mov [esi], ax + } + } else { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + __asm { + mov esi, dst + mov ax, src + xchg [esi], ax + } + } + #else + { + MA_ATOMIC_STORE_EXPLICIT_LOCK(16, dst, src, order); + } + #endif + } + } + static MA_INLINE void __stdcall ma_atomic_store_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + if (order == ma_atomic_memory_order_relaxed) { + __asm { + mov esi, dst + mov eax, src + mov [esi], eax + } + } else { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + __asm { + mov esi, dst + mov eax, src + xchg [esi], eax + } + } + #else + { + MA_ATOMIC_STORE_EXPLICIT_LOCK(32, dst, src, order); + } + #endif + } + } + static MA_INLINE void __stdcall ma_atomic_store_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + MA_ATOMIC_STORE_EXPLICIT_CAS(64, dst, src, order); + } + #else + { + MA_ATOMIC_STORE_EXPLICIT_LOCK(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_exchange_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + ma_uint8 result = 0; + (void)order; + __asm { + mov ecx, dst + mov al, src + lock xchg [ecx], al + mov result, al + } + return result; + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_exchange_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + ma_uint16 result = 0; + (void)order; + __asm { + mov ecx, dst + mov ax, src + lock xchg [ecx], ax + mov result, ax + } + return result; + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_exchange_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + ma_uint32 result = 0; + (void)order; + __asm { + mov ecx, dst + mov eax, src + xchg [ecx], eax + mov result, eax + } + return result; + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_exchange_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + MA_ATOMIC_EXCHANGE_EXPLICIT_CAS(64, dst, src, order); + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_fetch_add_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + ma_uint8 result = 0; + (void)order; + __asm { + mov ecx, dst + mov al, src + lock xadd [ecx], al + mov result, al + } + return result; + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_fetch_add_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + ma_uint16 result = 0; + (void)order; + __asm { + mov ecx, dst + mov ax, src + lock xadd [ecx], ax + mov result, ax + } + return result; + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_fetch_add_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + ma_uint32 result = 0; + (void)order; + __asm { + mov ecx, dst + mov eax, src + lock xadd [ecx], eax + mov result, eax + } + return result; + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_fetch_add_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + MA_ATOMIC_FETCH_ADD_CAS(64, dst, src, order); + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_fetch_sub_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + ma_uint8 result = 0; + (void)order; + __asm { + mov ecx, dst + mov al, src + neg al + lock xadd [ecx], al + mov result, al + } + return result; + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(8, dst, (ma_uint8)(-(ma_int8)src), order); + } + #endif + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_fetch_sub_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + ma_uint16 result = 0; + (void)order; + __asm { + mov ecx, dst + mov ax, src + neg ax + lock xadd [ecx], ax + mov result, ax + } + return result; + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(16, dst, (ma_uint16)(-(ma_int16)src), order); + } + #endif + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_fetch_sub_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + ma_uint32 result = 0; + (void)order; + __asm { + mov ecx, dst + mov eax, src + neg eax + lock xadd [ecx], eax + mov result, eax + } + return result; + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(32, dst, (ma_uint32)(-(ma_int32)src), order); + } + #endif + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_fetch_sub_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_ADD_CAS(64, dst, (ma_uint64)(-(ma_int64)src), order); + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_fetch_and_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_AND_CAS(8, dst, src, order); + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_fetch_and_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_AND_CAS(16, dst, src, order); + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_fetch_and_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_AND_CAS(32, dst, src, order); + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_fetch_and_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_AND_CAS(64, dst, src, order); + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_fetch_or_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_OR_CAS(8, dst, src, order); + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_fetch_or_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_OR_CAS(16, dst, src, order); + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_fetch_or_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_OR_CAS(32, dst, src, order); + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_fetch_or_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_OR_CAS(64, dst, src, order); + } + static MA_INLINE ma_uint8 __stdcall ma_atomic_fetch_xor_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_XOR_CAS(8, dst, src, order); + } + static MA_INLINE ma_uint16 __stdcall ma_atomic_fetch_xor_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_XOR_CAS(16, dst, src, order); + } + static MA_INLINE ma_uint32 __stdcall ma_atomic_fetch_xor_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_XOR_CAS(32, dst, src, order); + } + static MA_INLINE ma_uint64 __stdcall ma_atomic_fetch_xor_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_XOR_CAS(64, dst, src, order); + } + static MA_INLINE void __stdcall ma_atomic_thread_fence(ma_atomic_memory_order order) + { + (void)order; + __asm { + lock add dword ptr [esp], 0 + } + } + #define ma_atomic_signal_fence(order) __asm {}; (void)order +#endif +#if defined(MA_ATOMIC_MODERN_GCC) + #define MA_ATOMIC_HAS_NATIVE_COMPARE_EXCHANGE + #define ma_atomic_thread_fence(order) __atomic_thread_fence(order) + #define ma_atomic_signal_fence(order) __atomic_signal_fence(order) + #define ma_atomic_is_lock_free_8(ptr) __atomic_is_lock_free(1, ptr) + #define ma_atomic_is_lock_free_16(ptr) __atomic_is_lock_free(2, ptr) + #define ma_atomic_is_lock_free_32(ptr) __atomic_is_lock_free(4, ptr) + #define ma_atomic_is_lock_free_64(ptr) __atomic_is_lock_free(8, ptr) + #define ma_atomic_store_explicit_8( dst, src, order) __atomic_store_n(dst, src, order) + #define ma_atomic_store_explicit_16(dst, src, order) __atomic_store_n(dst, src, order) + #define ma_atomic_store_explicit_32(dst, src, order) __atomic_store_n(dst, src, order) + #define ma_atomic_store_explicit_64(dst, src, order) __atomic_store_n(dst, src, order) + #define ma_atomic_load_explicit_8( dst, order) __atomic_load_n(dst, order) + #define ma_atomic_load_explicit_16(dst, order) __atomic_load_n(dst, order) + #define ma_atomic_load_explicit_32(dst, order) __atomic_load_n(dst, order) + #define ma_atomic_load_explicit_64(dst, order) __atomic_load_n(dst, order) + #define ma_atomic_exchange_explicit_8( dst, src, order) __atomic_exchange_n(dst, src, order) + #define ma_atomic_exchange_explicit_16(dst, src, order) __atomic_exchange_n(dst, src, order) + #define ma_atomic_exchange_explicit_32(dst, src, order) __atomic_exchange_n(dst, src, order) + #define ma_atomic_exchange_explicit_64(dst, src, order) __atomic_exchange_n(dst, src, order) + #define ma_atomic_compare_exchange_strong_explicit_8( dst, expected, replacement, successOrder, failureOrder) __atomic_compare_exchange_n(dst, expected, replacement, 0, successOrder, failureOrder) + #define ma_atomic_compare_exchange_strong_explicit_16(dst, expected, replacement, successOrder, failureOrder) __atomic_compare_exchange_n(dst, expected, replacement, 0, successOrder, failureOrder) + #define ma_atomic_compare_exchange_strong_explicit_32(dst, expected, replacement, successOrder, failureOrder) __atomic_compare_exchange_n(dst, expected, replacement, 0, successOrder, failureOrder) + #define ma_atomic_compare_exchange_strong_explicit_64(dst, expected, replacement, successOrder, failureOrder) __atomic_compare_exchange_n(dst, expected, replacement, 0, successOrder, failureOrder) + #define ma_atomic_compare_exchange_weak_explicit_8( dst, expected, replacement, successOrder, failureOrder) __atomic_compare_exchange_n(dst, expected, replacement, 1, successOrder, failureOrder) + #define ma_atomic_compare_exchange_weak_explicit_16(dst, expected, replacement, successOrder, failureOrder) __atomic_compare_exchange_n(dst, expected, replacement, 1, successOrder, failureOrder) + #define ma_atomic_compare_exchange_weak_explicit_32(dst, expected, replacement, successOrder, failureOrder) __atomic_compare_exchange_n(dst, expected, replacement, 1, successOrder, failureOrder) + #define ma_atomic_compare_exchange_weak_explicit_64(dst, expected, replacement, successOrder, failureOrder) __atomic_compare_exchange_n(dst, expected, replacement, 1, successOrder, failureOrder) + #define ma_atomic_fetch_add_explicit_8( dst, src, order) __atomic_fetch_add(dst, src, order) + #define ma_atomic_fetch_add_explicit_16(dst, src, order) __atomic_fetch_add(dst, src, order) + #define ma_atomic_fetch_add_explicit_32(dst, src, order) __atomic_fetch_add(dst, src, order) + #define ma_atomic_fetch_add_explicit_64(dst, src, order) __atomic_fetch_add(dst, src, order) + #define ma_atomic_fetch_sub_explicit_8( dst, src, order) __atomic_fetch_sub(dst, src, order) + #define ma_atomic_fetch_sub_explicit_16(dst, src, order) __atomic_fetch_sub(dst, src, order) + #define ma_atomic_fetch_sub_explicit_32(dst, src, order) __atomic_fetch_sub(dst, src, order) + #define ma_atomic_fetch_sub_explicit_64(dst, src, order) __atomic_fetch_sub(dst, src, order) + #define ma_atomic_fetch_or_explicit_8( dst, src, order) __atomic_fetch_or(dst, src, order) + #define ma_atomic_fetch_or_explicit_16(dst, src, order) __atomic_fetch_or(dst, src, order) + #define ma_atomic_fetch_or_explicit_32(dst, src, order) __atomic_fetch_or(dst, src, order) + #define ma_atomic_fetch_or_explicit_64(dst, src, order) __atomic_fetch_or(dst, src, order) + #define ma_atomic_fetch_xor_explicit_8( dst, src, order) __atomic_fetch_xor(dst, src, order) + #define ma_atomic_fetch_xor_explicit_16(dst, src, order) __atomic_fetch_xor(dst, src, order) + #define ma_atomic_fetch_xor_explicit_32(dst, src, order) __atomic_fetch_xor(dst, src, order) + #define ma_atomic_fetch_xor_explicit_64(dst, src, order) __atomic_fetch_xor(dst, src, order) + #define ma_atomic_fetch_and_explicit_8( dst, src, order) __atomic_fetch_and(dst, src, order) + #define ma_atomic_fetch_and_explicit_16(dst, src, order) __atomic_fetch_and(dst, src, order) + #define ma_atomic_fetch_and_explicit_32(dst, src, order) __atomic_fetch_and(dst, src, order) + #define ma_atomic_fetch_and_explicit_64(dst, src, order) __atomic_fetch_and(dst, src, order) + static MA_INLINE ma_uint8 ma_atomic_compare_and_swap_8(volatile ma_uint8* dst, ma_uint8 expected, ma_uint8 replacement) + { + __atomic_compare_exchange_n(dst, &expected, replacement, 0, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST); + return expected; + } + static MA_INLINE ma_uint16 ma_atomic_compare_and_swap_16(volatile ma_uint16* dst, ma_uint16 expected, ma_uint16 replacement) + { + __atomic_compare_exchange_n(dst, &expected, replacement, 0, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST); + return expected; + } + static MA_INLINE ma_uint32 ma_atomic_compare_and_swap_32(volatile ma_uint32* dst, ma_uint32 expected, ma_uint32 replacement) + { + __atomic_compare_exchange_n(dst, &expected, replacement, 0, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST); + return expected; + } + #if defined(__clang__) + #pragma clang diagnostic push + #if __clang_major__ >= 8 + #pragma clang diagnostic ignored "-Watomic-alignment" + #endif + #endif + static MA_INLINE ma_uint64 ma_atomic_compare_and_swap_64(volatile ma_uint64* dst, ma_uint64 expected, ma_uint64 replacement) + { + __atomic_compare_exchange_n(dst, &expected, replacement, 0, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST); + return expected; + } + #if defined(__clang__) + #pragma clang diagnostic pop + #endif +#endif +#if defined(MA_ATOMIC_LEGACY_GCC) || defined(MA_ATOMIC_LEGACY_GCC_ASM) + #define ma_atomic_signal_fence(order) __asm__ __volatile__("":::"memory") + #if defined(MA_ATOMIC_LEGACY_GCC) + #define ma_atomic_thread_fence(order) __sync_synchronize(), (void)order + static MA_INLINE ma_uint8 ma_atomic_compare_and_swap_8(volatile ma_uint8* dst, ma_uint8 expected, ma_uint8 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + return __sync_val_compare_and_swap(dst, expected, replacement); + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(8, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_compare_and_swap_16(volatile ma_uint16* dst, ma_uint16 expected, ma_uint16 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + return __sync_val_compare_and_swap(dst, expected, replacement); + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(16, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_compare_and_swap_32(volatile ma_uint32* dst, ma_uint32 expected, ma_uint32 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + return __sync_val_compare_and_swap(dst, expected, replacement); + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(32, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_compare_and_swap_64(volatile ma_uint64* dst, ma_uint64 expected, ma_uint64 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + return __sync_val_compare_and_swap(dst, expected, replacement); + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(64, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint8 ma_atomic_load_explicit_8(volatile const ma_uint8* ptr, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + (void)order; + return ma_atomic_compare_and_swap_8((ma_uint8*)ptr, 0, 0); + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(8, ptr, order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_load_explicit_16(volatile const ma_uint16* ptr, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + (void)order; + return ma_atomic_compare_and_swap_16((ma_uint16*)ptr, 0, 0); + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(16, ptr, order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_load_explicit_32(volatile const ma_uint32* ptr, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + (void)order; + return ma_atomic_compare_and_swap_32((ma_uint32*)ptr, 0, 0); + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(32, ptr, order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_load_explicit_64(volatile const ma_uint64* ptr, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + (void)order; + return ma_atomic_compare_and_swap_64((ma_uint64*)ptr, 0, 0); + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(64, ptr, order); + } + #endif + } + static MA_INLINE ma_uint8 ma_atomic_exchange_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + if (order > ma_atomic_memory_order_acquire) { + __sync_synchronize(); + } + return __sync_lock_test_and_set(dst, src); + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_exchange_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + if (order > ma_atomic_memory_order_acquire) { + __sync_synchronize(); + } + return __sync_lock_test_and_set(dst, src); + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_exchange_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + if (order > ma_atomic_memory_order_acquire) { + __sync_synchronize(); + } + return __sync_lock_test_and_set(dst, src); + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_exchange_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + if (order > ma_atomic_memory_order_acquire) { + __sync_synchronize(); + } + return __sync_lock_test_and_set(dst, src); + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(64, dst, src, order); + } + #endif + } + #define ma_atomic_store_explicit_8( dst, src, order) (void)ma_atomic_exchange_explicit_8 (dst, src, order) + #define ma_atomic_store_explicit_16(dst, src, order) (void)ma_atomic_exchange_explicit_16(dst, src, order) + #define ma_atomic_store_explicit_32(dst, src, order) (void)ma_atomic_exchange_explicit_32(dst, src, order) + #define ma_atomic_store_explicit_64(dst, src, order) (void)ma_atomic_exchange_explicit_64(dst, src, order) + static MA_INLINE ma_uint8 ma_atomic_fetch_add_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + (void)order; + return __sync_fetch_and_add(dst, src); + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_fetch_add_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + (void)order; + return __sync_fetch_and_add(dst, src); + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_fetch_add_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + (void)order; + return __sync_fetch_and_add(dst, src); + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_fetch_add_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + (void)order; + return __sync_fetch_and_add(dst, src); + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 ma_atomic_fetch_sub_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + (void)order; + return __sync_fetch_and_sub(dst, src); + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(8, dst, (ma_uint8)(-(ma_int8)src), order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_fetch_sub_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + (void)order; + return __sync_fetch_and_sub(dst, src); + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(16, dst, (ma_uint16)(-(ma_int16)src), order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_fetch_sub_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + (void)order; + return __sync_fetch_and_sub(dst, src); + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(32, dst, (ma_uint32)(-(ma_int32)src), order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_fetch_sub_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + (void)order; + return __sync_fetch_and_sub(dst, src); + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(64, dst, (ma_uint64)(-(ma_int64)src), order); + } + #endif + } + static MA_INLINE ma_uint8 ma_atomic_fetch_and_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + (void)order; + return __sync_fetch_and_and(dst, src); + } + #else + { + MA_ATOMIC_FETCH_AND_CAS(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_fetch_and_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + (void)order; + return __sync_fetch_and_and(dst, src); + } + #else + { + MA_ATOMIC_FETCH_AND_CAS(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_fetch_and_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + (void)order; + return __sync_fetch_and_and(dst, src); + } + #else + { + MA_ATOMIC_FETCH_AND_CAS(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_fetch_and_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + (void)order; + return __sync_fetch_and_and(dst, src); + } + #else + { + MA_ATOMIC_FETCH_AND_CAS(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 ma_atomic_fetch_or_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + (void)order; + return __sync_fetch_and_or(dst, src); + } + #else + { + MA_ATOMIC_FETCH_OR_CAS(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_fetch_or_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + (void)order; + return __sync_fetch_and_or(dst, src); + } + #else + { + MA_ATOMIC_FETCH_OR_CAS(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_fetch_or_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + (void)order; + return __sync_fetch_and_or(dst, src); + } + #else + { + MA_ATOMIC_FETCH_OR_CAS(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_fetch_or_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + (void)order; + return __sync_fetch_and_or(dst, src); + } + #else + { + MA_ATOMIC_FETCH_OR_CAS(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 ma_atomic_fetch_xor_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) + { + (void)order; + return __sync_fetch_and_xor(dst, src); + } + #else + { + MA_ATOMIC_FETCH_XOR_CAS(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_fetch_xor_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) + { + (void)order; + return __sync_fetch_and_xor(dst, src); + } + #else + { + MA_ATOMIC_FETCH_XOR_CAS(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_fetch_xor_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) + { + (void)order; + return __sync_fetch_and_xor(dst, src); + } + #else + { + MA_ATOMIC_FETCH_XOR_CAS(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_fetch_xor_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) + { + (void)order; + return __sync_fetch_and_xor(dst, src); + } + #else + { + MA_ATOMIC_FETCH_XOR_CAS(64, dst, src, order); + } + #endif + } + #elif defined(MA_ATOMIC_LEGACY_GCC_ASM) + #define MA_ATOMIC_CMPXCHG_GCC_X86(instructionSizeSuffix, result, dst, expected, replacement) \ + __asm__ __volatile__( \ + "lock; cmpxchg"instructionSizeSuffix" %2, %1" \ + : "=a"(result), \ + "=m"(*dst) \ + : "r"(replacement), \ + "0"(expected), \ + "m"(*dst) \ + : "cc", "memory") + #define MA_ATOMIC_XADD_GCC_X86(instructionSizeSuffix, result, dst, src) \ + __asm__ __volatile__( \ + "lock; xadd"instructionSizeSuffix" %0, %1" \ + : "=a"(result), \ + "=m"(*dst) \ + : "0"(src), \ + "m"(*dst) \ + : "cc", "memory") + static MA_INLINE ma_uint8 ma_atomic_compare_and_swap_8(volatile ma_uint8* dst, ma_uint8 expected, ma_uint8 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint8 result; + #if defined(MA_X86) || defined(MA_X64) + { + MA_ATOMIC_CMPXCHG_GCC_X86("b", result, dst, expected, replacement); + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(8, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_compare_and_swap_16(volatile ma_uint16* dst, ma_uint16 expected, ma_uint16 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint16 result; + #if defined(MA_X86) || defined(MA_X64) + { + MA_ATOMIC_CMPXCHG_GCC_X86("w", result, dst, expected, replacement); + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(16, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_compare_and_swap_32(volatile ma_uint32* dst, ma_uint32 expected, ma_uint32 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint32 result; + #if defined(MA_X86) || defined(MA_X64) + { + MA_ATOMIC_CMPXCHG_GCC_X86("l", result, dst, expected, replacement); + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(32, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_compare_and_swap_64(volatile ma_uint64* dst, ma_uint64 expected, ma_uint64 replacement) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint64 result; + #if defined(MA_X86) + { + ma_uint32 resultEAX; + ma_uint32 resultEDX; + __asm__ __volatile__( + "pushl %%ebx\n" + "movl %4, %%ebx\n" + "lock cmpxchg8b (%%edi)\n" + "popl %%ebx\n" + : "=a"(resultEAX), + "=d"(resultEDX) + : "a"((ma_uint32)(expected & 0xFFFFFFFF)), + "d"((ma_uint32)(expected >> 32)), + "r"((ma_uint32)(replacement & 0xFFFFFFFF)), + "c"((ma_uint32)(replacement >> 32)), + "D"(dst) + : "memory", "cc"); + result = ((ma_uint64)resultEDX << 32) | resultEAX; + } + #elif defined(MA_X64) + { + MA_ATOMIC_CMPXCHG_GCC_X86("q", result, dst, expected, replacement); + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_COMPARE_AND_SWAP_LOCK(64, dst, expected, replacement); + } + #endif + } + static MA_INLINE ma_uint8 ma_atomic_load_explicit_8(volatile const ma_uint8* dst, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint8 result; + #if defined(MA_X86) || defined(MA_X64) + { + if (order == ma_atomic_memory_order_relaxed) { + MA_ATOMIC_LOAD_RELAXED_GCC_X86("b", result, dst); + } else if (order <= ma_atomic_memory_order_release) { + MA_ATOMIC_LOAD_RELEASE_GCC_X86("b", result, dst); + } else { + MA_ATOMIC_LOAD_SEQ_CST_GCC_X86("b", result, dst); + } + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(8, dst, order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_load_explicit_16(volatile const ma_uint16* dst, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint16 result; + #if defined(MA_X86) || defined(MA_X64) + { + if (order == ma_atomic_memory_order_relaxed) { + MA_ATOMIC_LOAD_RELAXED_GCC_X86("w", result, dst); + } else if (order <= ma_atomic_memory_order_release) { + MA_ATOMIC_LOAD_RELEASE_GCC_X86("w", result, dst); + } else { + MA_ATOMIC_LOAD_SEQ_CST_GCC_X86("w", result, dst); + } + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(16, dst, order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_load_explicit_32(volatile const ma_uint32* dst, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint32 result; + #if defined(MA_X86) || defined(MA_X64) + { + if (order == ma_atomic_memory_order_relaxed) { + MA_ATOMIC_LOAD_RELAXED_GCC_X86("l", result, dst); + } else if (order <= ma_atomic_memory_order_release) { + MA_ATOMIC_LOAD_RELEASE_GCC_X86("l", result, dst); + } else { + MA_ATOMIC_LOAD_SEQ_CST_GCC_X86("l", result, dst); + } + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(32, dst, order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_load_explicit_64(volatile const ma_uint64* dst, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint64 result; + #if defined(MA_X64) + { + if (order == ma_atomic_memory_order_relaxed) { + MA_ATOMIC_LOAD_RELAXED_GCC_X86("q", result, dst); + } else if (order <= ma_atomic_memory_order_release) { + MA_ATOMIC_LOAD_RELEASE_GCC_X86("q", result, dst); + } else { + MA_ATOMIC_LOAD_SEQ_CST_GCC_X86("q", result, dst); + } + } + #elif defined(MA_X86) + { + (void)order; + return ma_atomic_compare_and_swap_64((volatile ma_uint64*)dst, 0, 0); + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_LOAD_EXPLICIT_LOCK(64, dst, order); + } + #endif + } + static MA_INLINE ma_uint8 ma_atomic_exchange_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint8 result; + (void)order; + #if defined(MA_X86) || defined(MA_X64) + { + MA_ATOMIC_XCHG_GCC_X86("b", result, dst, src); + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_exchange_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint16 result; + (void)order; + #if defined(MA_X86) || defined(MA_X64) + { + MA_ATOMIC_XCHG_GCC_X86("w", result, dst, src); + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_exchange_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint32 result; + (void)order; + #if defined(MA_X86) || defined(MA_X64) + { + MA_ATOMIC_XCHG_GCC_X86("l", result, dst, src); + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_exchange_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) && (defined(MA_X86) || defined(MA_X64)) + { + ma_uint64 result; + (void)order; + #if defined(MA_X86) + { + MA_ATOMIC_EXCHANGE_EXPLICIT_CAS(64, dst, src, order); + } + #elif defined(MA_X64) + { + MA_ATOMIC_XCHG_GCC_X86("q", result, dst, src); + } + #else + { + #error Unsupported architecture. + } + #endif + return result; + } + #else + { + MA_ATOMIC_EXCHANGE_EXPLICIT_LOCK(64, dst, src, order); + } + #endif + } + static MA_INLINE void ma_atomic_store_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) && (defined(MA_X86) || defined(MA_X64)) + { + #if defined(MA_X86) || defined(MA_X64) + { + if (order == ma_atomic_memory_order_relaxed) { + __asm__ __volatile__ ( + "movb %1, %0" + : "=m"(*dst) + : "r"(src) + ); + } else { + __asm__ __volatile__ ( + "xchgb %1, %0" + : "=m"(*dst) + : "r"(src) + : "memory" + ); + } + } + #else + { + #error Unsupported architecture. + } + #endif + } + #else + { + MA_ATOMIC_STORE_EXPLICIT_LOCK(8, dst, src, order); + } + #endif + } + static MA_INLINE void ma_atomic_store_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) && (defined(MA_X86) || defined(MA_X64)) + { + #if defined(MA_X86) || defined(MA_X64) + { + if (order == ma_atomic_memory_order_relaxed) { + __asm__ __volatile__ ( + "movw %1, %0" + : "=m"(*dst) + : "r"(src) + ); + } else { + __asm__ __volatile__ ( + "xchgw %1, %0" + : "=m"(*dst) + : "r"(src) + : "memory" + ); + } + } + #else + { + #error Unsupported architecture. + } + #endif + } + #else + { + MA_ATOMIC_STORE_EXPLICIT_LOCK(16, dst, src, order); + } + #endif + } + static MA_INLINE void ma_atomic_store_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) && (defined(MA_X86) || defined(MA_X64)) + { + #if defined(MA_X86) || defined(MA_X64) + { + if (order == ma_atomic_memory_order_relaxed) { + __asm__ __volatile__ ( + "movl %1, %0" + : "=m"(*dst) + : "r"(src) + ); + } else { + __asm__ __volatile__ ( + "xchgl %1, %0" + : "=m"(*dst) + : "r"(src) + : "memory" + ); + } + } + #else + { + #error Unsupported architecture. + } + #endif + } + #else + { + MA_ATOMIC_STORE_EXPLICIT_LOCK(32, dst, src, order); + } + #endif + } + static MA_INLINE void ma_atomic_store_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) && (defined(MA_X86) || defined(MA_X64)) + { + #if defined(MA_X64) + { + if (order == ma_atomic_memory_order_relaxed) { + __asm__ __volatile__ ( + "movq %1, %0" + : "=m"(*dst) + : "r"(src) + ); + } else { + __asm__ __volatile__ ( + "xchgq %1, %0" + : "=m"(*dst) + : "r"(src) + : "memory" + ); + } + } + #else + { + MA_ATOMIC_STORE_EXPLICIT_CAS(64, dst, src, order); + } + #endif + } + #else + { + MA_ATOMIC_STORE_EXPLICIT_LOCK(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 ma_atomic_fetch_add_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_8) && (defined(MA_X86) || defined(MA_X64)) + { + #if defined(MA_X86) || defined(MA_X64) + { + ma_uint8 result; + (void)order; + MA_ATOMIC_XADD_GCC_X86("b", result, dst, src); + return result; + } + #else + { + #error Unsupported architecture. + } + #endif + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(8, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint16 ma_atomic_fetch_add_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_16) && (defined(MA_X86) || defined(MA_X64)) + { + #if defined(MA_X86) || defined(MA_X64) + { + ma_uint16 result; + (void)order; + MA_ATOMIC_XADD_GCC_X86("w", result, dst, src); + return result; + } + #else + { + #error Unsupported architecture. + } + #endif + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(16, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint32 ma_atomic_fetch_add_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_32) && (defined(MA_X86) || defined(MA_X64)) + { + #if defined(MA_X86) || defined(MA_X64) + { + ma_uint32 result; + (void)order; + MA_ATOMIC_XADD_GCC_X86("l", result, dst, src); + return result; + } + #else + { + #error Unsupported architecture. + } + #endif + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(32, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint64 ma_atomic_fetch_add_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + #if defined(MA_ATOMIC_IS_LOCK_FREE_64) && (defined(MA_X86) || defined(MA_X64)) + { + #if defined(MA_X86) + { + MA_ATOMIC_FETCH_ADD_CAS(64, dst, src, order); + } + #elif defined(MA_X64) + { + ma_uint64 result; + MA_ATOMIC_XADD_GCC_X86("q", result, dst, src); + (void)order; + return result; + } + #else + { + #error Unsupported architecture. + } + #endif + } + #else + { + MA_ATOMIC_FETCH_ADD_LOCK(64, dst, src, order); + } + #endif + } + static MA_INLINE ma_uint8 ma_atomic_fetch_sub_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + return ma_atomic_fetch_add_explicit_8(dst, (ma_uint8)(-(ma_int8)src), order); + } + static MA_INLINE ma_uint16 ma_atomic_fetch_sub_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + return ma_atomic_fetch_add_explicit_16(dst, (ma_uint16)(-(ma_int16)src), order); + } + static MA_INLINE ma_uint32 ma_atomic_fetch_sub_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + return ma_atomic_fetch_add_explicit_32(dst, (ma_uint32)(-(ma_int32)src), order); + } + static MA_INLINE ma_uint64 ma_atomic_fetch_sub_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + return ma_atomic_fetch_add_explicit_64(dst, (ma_uint64)(-(ma_int64)src), order); + } + static MA_INLINE ma_uint8 ma_atomic_fetch_and_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_AND_CAS(8, dst, src, order); + } + static MA_INLINE ma_uint16 ma_atomic_fetch_and_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_AND_CAS(16, dst, src, order); + } + static MA_INLINE ma_uint32 ma_atomic_fetch_and_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_AND_CAS(32, dst, src, order); + } + static MA_INLINE ma_uint64 ma_atomic_fetch_and_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_AND_CAS(64, dst, src, order); + } + static MA_INLINE ma_uint8 ma_atomic_fetch_or_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_OR_CAS(8, dst, src, order); + } + static MA_INLINE ma_uint16 ma_atomic_fetch_or_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_OR_CAS(16, dst, src, order); + } + static MA_INLINE ma_uint32 ma_atomic_fetch_or_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_OR_CAS(32, dst, src, order); + } + static MA_INLINE ma_uint64 ma_atomic_fetch_or_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_OR_CAS(64, dst, src, order); + } + static MA_INLINE ma_uint8 ma_atomic_fetch_xor_explicit_8(volatile ma_uint8* dst, ma_uint8 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_XOR_CAS(8, dst, src, order); + } + static MA_INLINE ma_uint16 ma_atomic_fetch_xor_explicit_16(volatile ma_uint16* dst, ma_uint16 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_XOR_CAS(16, dst, src, order); + } + static MA_INLINE ma_uint32 ma_atomic_fetch_xor_explicit_32(volatile ma_uint32* dst, ma_uint32 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_XOR_CAS(32, dst, src, order); + } + static MA_INLINE ma_uint64 ma_atomic_fetch_xor_explicit_64(volatile ma_uint64* dst, ma_uint64 src, ma_atomic_memory_order order) + { + MA_ATOMIC_FETCH_XOR_CAS(64, dst, src, order); + } + #else + #error Unsupported compiler. + #endif +#endif +#if !defined(MA_ATOMIC_HAS_NATIVE_COMPARE_EXCHANGE) + static MA_INLINE ma_bool32 ma_atomic_compare_exchange_strong_explicit_8(volatile ma_uint8* dst, ma_uint8* expected, ma_uint8 replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) + { + ma_uint8 result; + (void)successOrder; + (void)failureOrder; + result = ma_atomic_compare_and_swap_8(dst, *expected, replacement); + if (result == *expected) { + return 1; + } else { + *expected = result; + return 0; + } + } + static MA_INLINE ma_bool32 ma_atomic_compare_exchange_strong_explicit_16(volatile ma_uint16* dst, ma_uint16* expected, ma_uint16 replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) + { + ma_uint16 result; + (void)successOrder; + (void)failureOrder; + result = ma_atomic_compare_and_swap_16(dst, *expected, replacement); + if (result == *expected) { + return 1; + } else { + *expected = result; + return 0; + } + } + static MA_INLINE ma_bool32 ma_atomic_compare_exchange_strong_explicit_32(volatile ma_uint32* dst, ma_uint32* expected, ma_uint32 replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) + { + ma_uint32 result; + (void)successOrder; + (void)failureOrder; + result = ma_atomic_compare_and_swap_32(dst, *expected, replacement); + if (result == *expected) { + return 1; + } else { + *expected = result; + return 0; + } + } + static MA_INLINE ma_bool32 ma_atomic_compare_exchange_strong_explicit_64(volatile ma_uint64* dst, volatile ma_uint64* expected, ma_uint64 replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) + { + ma_uint64 result; + (void)successOrder; + (void)failureOrder; + result = ma_atomic_compare_and_swap_64(dst, *expected, replacement); + if (result == *expected) { + return 1; + } else { + *expected = result; + return 0; + } + } + #define ma_atomic_compare_exchange_weak_explicit_8( dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_strong_explicit_8 (dst, expected, replacement, successOrder, failureOrder) + #define ma_atomic_compare_exchange_weak_explicit_16(dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_strong_explicit_16(dst, expected, replacement, successOrder, failureOrder) + #define ma_atomic_compare_exchange_weak_explicit_32(dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_strong_explicit_32(dst, expected, replacement, successOrder, failureOrder) + #define ma_atomic_compare_exchange_weak_explicit_64(dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_strong_explicit_64(dst, expected, replacement, successOrder, failureOrder) +#endif +#if defined(MA_64BIT) + static MA_INLINE ma_bool32 ma_atomic_is_lock_free_ptr(volatile void** ptr) + { + return ma_atomic_is_lock_free_64((volatile ma_uint64*)ptr); + } + static MA_INLINE void* ma_atomic_load_explicit_ptr(volatile void** ptr, ma_atomic_memory_order order) + { + return (void*)ma_atomic_load_explicit_64((volatile ma_uint64*)ptr, order); + } + static MA_INLINE void ma_atomic_store_explicit_ptr(volatile void** dst, void* src, ma_atomic_memory_order order) + { + ma_atomic_store_explicit_64((volatile ma_uint64*)dst, (ma_uint64)src, order); + } + static MA_INLINE void* ma_atomic_exchange_explicit_ptr(volatile void** dst, void* src, ma_atomic_memory_order order) + { + return (void*)ma_atomic_exchange_explicit_64((volatile ma_uint64*)dst, (ma_uint64)src, order); + } + static MA_INLINE ma_bool32 ma_atomic_compare_exchange_strong_explicit_ptr(volatile void** dst, void** expected, void* replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) + { + return ma_atomic_compare_exchange_strong_explicit_64((volatile ma_uint64*)dst, (ma_uint64*)expected, (ma_uint64)replacement, successOrder, failureOrder); + } + static MA_INLINE ma_bool32 ma_atomic_compare_exchange_weak_explicit_ptr(volatile void** dst, void** expected, void* replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) + { + return ma_atomic_compare_exchange_weak_explicit_64((volatile ma_uint64*)dst, (ma_uint64*)expected, (ma_uint64)replacement, successOrder, failureOrder); + } + static MA_INLINE void* ma_atomic_compare_and_swap_ptr(volatile void** dst, void* expected, void* replacement) + { + return (void*)ma_atomic_compare_and_swap_64((volatile ma_uint64*)dst, (ma_uint64)expected, (ma_uint64)replacement); + } +#elif defined(MA_32BIT) + static MA_INLINE ma_bool32 ma_atomic_is_lock_free_ptr(volatile void** ptr) + { + return ma_atomic_is_lock_free_32((volatile ma_uint32*)ptr); + } + static MA_INLINE void* ma_atomic_load_explicit_ptr(volatile void** ptr, ma_atomic_memory_order order) + { + return (void*)ma_atomic_load_explicit_32((volatile ma_uint32*)ptr, order); + } + static MA_INLINE void ma_atomic_store_explicit_ptr(volatile void** dst, void* src, ma_atomic_memory_order order) + { + ma_atomic_store_explicit_32((volatile ma_uint32*)dst, (ma_uint32)src, order); + } + static MA_INLINE void* ma_atomic_exchange_explicit_ptr(volatile void** dst, void* src, ma_atomic_memory_order order) + { + return (void*)ma_atomic_exchange_explicit_32((volatile ma_uint32*)dst, (ma_uint32)src, order); + } + static MA_INLINE ma_bool32 ma_atomic_compare_exchange_strong_explicit_ptr(volatile void** dst, void** expected, void* replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) + { + return ma_atomic_compare_exchange_strong_explicit_32((volatile ma_uint32*)dst, (ma_uint32*)expected, (ma_uint32)replacement, successOrder, failureOrder); + } + static MA_INLINE ma_bool32 ma_atomic_compare_exchange_weak_explicit_ptr(volatile void** dst, void** expected, void* replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) + { + return ma_atomic_compare_exchange_weak_explicit_32((volatile ma_uint32*)dst, (ma_uint32*)expected, (ma_uint32)replacement, successOrder, failureOrder); + } + static MA_INLINE void* ma_atomic_compare_and_swap_ptr(volatile void** dst, void* expected, void* replacement) + { + return (void*)ma_atomic_compare_and_swap_32((volatile ma_uint32*)dst, (ma_uint32)expected, (ma_uint32)replacement); + } +#else + #error Unsupported architecture. +#endif +#define ma_atomic_store_ptr(dst, src) ma_atomic_store_explicit_ptr((volatile void**)dst, (void*)src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_load_ptr(ptr) ma_atomic_load_explicit_ptr((volatile void**)ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_exchange_ptr(dst, src) ma_atomic_exchange_explicit_ptr((volatile void**)dst, (void*)src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_strong_ptr(dst, expected, replacement) ma_atomic_compare_exchange_strong_explicit_ptr((volatile void**)dst, (void**)expected, (void*)replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_weak_ptr(dst, expected, replacement) ma_atomic_compare_exchange_weak_explicit_ptr((volatile void**)dst, (void**)expected, (void*)replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_store_8( dst, src) ma_atomic_store_explicit_8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_store_16(dst, src) ma_atomic_store_explicit_16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_store_32(dst, src) ma_atomic_store_explicit_32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_store_64(dst, src) ma_atomic_store_explicit_64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_load_8( ptr) ma_atomic_load_explicit_8( ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_load_16(ptr) ma_atomic_load_explicit_16(ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_load_32(ptr) ma_atomic_load_explicit_32(ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_load_64(ptr) ma_atomic_load_explicit_64(ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_exchange_8( dst, src) ma_atomic_exchange_explicit_8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_exchange_16(dst, src) ma_atomic_exchange_explicit_16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_exchange_32(dst, src) ma_atomic_exchange_explicit_32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_exchange_64(dst, src) ma_atomic_exchange_explicit_64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_strong_8( dst, expected, replacement) ma_atomic_compare_exchange_strong_explicit_8( dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_strong_16(dst, expected, replacement) ma_atomic_compare_exchange_strong_explicit_16(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_strong_32(dst, expected, replacement) ma_atomic_compare_exchange_strong_explicit_32(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_strong_64(dst, expected, replacement) ma_atomic_compare_exchange_strong_explicit_64(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_weak_8( dst, expected, replacement) ma_atomic_compare_exchange_weak_explicit_8( dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_weak_16( dst, expected, replacement) ma_atomic_compare_exchange_weak_explicit_16(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_weak_32( dst, expected, replacement) ma_atomic_compare_exchange_weak_explicit_32(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_weak_64( dst, expected, replacement) ma_atomic_compare_exchange_weak_explicit_64(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_add_8( dst, src) ma_atomic_fetch_add_explicit_8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_add_16(dst, src) ma_atomic_fetch_add_explicit_16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_add_32(dst, src) ma_atomic_fetch_add_explicit_32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_add_64(dst, src) ma_atomic_fetch_add_explicit_64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_sub_8( dst, src) ma_atomic_fetch_sub_explicit_8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_sub_16(dst, src) ma_atomic_fetch_sub_explicit_16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_sub_32(dst, src) ma_atomic_fetch_sub_explicit_32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_sub_64(dst, src) ma_atomic_fetch_sub_explicit_64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_or_8( dst, src) ma_atomic_fetch_or_explicit_8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_or_16(dst, src) ma_atomic_fetch_or_explicit_16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_or_32(dst, src) ma_atomic_fetch_or_explicit_32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_or_64(dst, src) ma_atomic_fetch_or_explicit_64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_xor_8( dst, src) ma_atomic_fetch_xor_explicit_8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_xor_16(dst, src) ma_atomic_fetch_xor_explicit_16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_xor_32(dst, src) ma_atomic_fetch_xor_explicit_32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_xor_64(dst, src) ma_atomic_fetch_xor_explicit_64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_and_8( dst, src) ma_atomic_fetch_and_explicit_8 (dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_and_16(dst, src) ma_atomic_fetch_and_explicit_16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_and_32(dst, src) ma_atomic_fetch_and_explicit_32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_and_64(dst, src) ma_atomic_fetch_and_explicit_64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_store_explicit_i8( dst, src, order) ma_atomic_store_explicit_8( (ma_uint8* )dst, (ma_uint8 )src, order) +#define ma_atomic_store_explicit_i16(dst, src, order) ma_atomic_store_explicit_16((ma_uint16*)dst, (ma_uint16)src, order) +#define ma_atomic_store_explicit_i32(dst, src, order) ma_atomic_store_explicit_32((ma_uint32*)dst, (ma_uint32)src, order) +#define ma_atomic_store_explicit_i64(dst, src, order) ma_atomic_store_explicit_64((ma_uint64*)dst, (ma_uint64)src, order) +#define ma_atomic_load_explicit_i8( ptr, order) (ma_int8 )ma_atomic_load_explicit_8( (ma_uint8* )ptr, order) +#define ma_atomic_load_explicit_i16(ptr, order) (ma_int16)ma_atomic_load_explicit_16((ma_uint16*)ptr, order) +#define ma_atomic_load_explicit_i32(ptr, order) (ma_int32)ma_atomic_load_explicit_32((ma_uint32*)ptr, order) +#define ma_atomic_load_explicit_i64(ptr, order) (ma_int64)ma_atomic_load_explicit_64((ma_uint64*)ptr, order) +#define ma_atomic_exchange_explicit_i8( dst, src, order) (ma_int8 )ma_atomic_exchange_explicit_8 ((ma_uint8* )dst, (ma_uint8 )src, order) +#define ma_atomic_exchange_explicit_i16(dst, src, order) (ma_int16)ma_atomic_exchange_explicit_16((ma_uint16*)dst, (ma_uint16)src, order) +#define ma_atomic_exchange_explicit_i32(dst, src, order) (ma_int32)ma_atomic_exchange_explicit_32((ma_uint32*)dst, (ma_uint32)src, order) +#define ma_atomic_exchange_explicit_i64(dst, src, order) (ma_int64)ma_atomic_exchange_explicit_64((ma_uint64*)dst, (ma_uint64)src, order) +#define ma_atomic_compare_exchange_strong_explicit_i8( dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_strong_explicit_8( (ma_uint8* )dst, (ma_uint8* )expected, (ma_uint8 )replacement, successOrder, failureOrder) +#define ma_atomic_compare_exchange_strong_explicit_i16(dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_strong_explicit_16((ma_uint16*)dst, (ma_uint16*)expected, (ma_uint16)replacement, successOrder, failureOrder) +#define ma_atomic_compare_exchange_strong_explicit_i32(dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_strong_explicit_32((ma_uint32*)dst, (ma_uint32*)expected, (ma_uint32)replacement, successOrder, failureOrder) +#define ma_atomic_compare_exchange_strong_explicit_i64(dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_strong_explicit_64((ma_uint64*)dst, (ma_uint64*)expected, (ma_uint64)replacement, successOrder, failureOrder) +#define ma_atomic_compare_exchange_weak_explicit_i8( dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_weak_explicit_8( (ma_uint8* )dst, (ma_uint8* )expected, (ma_uint8 )replacement, successOrder, failureOrder) +#define ma_atomic_compare_exchange_weak_explicit_i16(dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_weak_explicit_16((ma_uint16*)dst, (ma_uint16*)expected, (ma_uint16)replacement, successOrder, failureOrder) +#define ma_atomic_compare_exchange_weak_explicit_i32(dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_weak_explicit_32((ma_uint32*)dst, (ma_uint32*)expected, (ma_uint32)replacement, successOrder, failureOrder) +#define ma_atomic_compare_exchange_weak_explicit_i64(dst, expected, replacement, successOrder, failureOrder) ma_atomic_compare_exchange_weak_explicit_64((ma_uint64*)dst, (ma_uint64*)expected, (ma_uint64)replacement, successOrder, failureOrder) +#define ma_atomic_fetch_add_explicit_i8( dst, src, order) (ma_int8 )ma_atomic_fetch_add_explicit_8( (ma_uint8* )dst, (ma_uint8 )src, order) +#define ma_atomic_fetch_add_explicit_i16(dst, src, order) (ma_int16)ma_atomic_fetch_add_explicit_16((ma_uint16*)dst, (ma_uint16)src, order) +#define ma_atomic_fetch_add_explicit_i32(dst, src, order) (ma_int32)ma_atomic_fetch_add_explicit_32((ma_uint32*)dst, (ma_uint32)src, order) +#define ma_atomic_fetch_add_explicit_i64(dst, src, order) (ma_int64)ma_atomic_fetch_add_explicit_64((ma_uint64*)dst, (ma_uint64)src, order) +#define ma_atomic_fetch_sub_explicit_i8( dst, src, order) (ma_int8 )ma_atomic_fetch_sub_explicit_8( (ma_uint8* )dst, (ma_uint8 )src, order) +#define ma_atomic_fetch_sub_explicit_i16(dst, src, order) (ma_int16)ma_atomic_fetch_sub_explicit_16((ma_uint16*)dst, (ma_uint16)src, order) +#define ma_atomic_fetch_sub_explicit_i32(dst, src, order) (ma_int32)ma_atomic_fetch_sub_explicit_32((ma_uint32*)dst, (ma_uint32)src, order) +#define ma_atomic_fetch_sub_explicit_i64(dst, src, order) (ma_int64)ma_atomic_fetch_sub_explicit_64((ma_uint64*)dst, (ma_uint64)src, order) +#define ma_atomic_fetch_or_explicit_i8( dst, src, order) (ma_int8 )ma_atomic_fetch_or_explicit_8( (ma_uint8* )dst, (ma_uint8 )src, order) +#define ma_atomic_fetch_or_explicit_i16(dst, src, order) (ma_int16)ma_atomic_fetch_or_explicit_16((ma_uint16*)dst, (ma_uint16)src, order) +#define ma_atomic_fetch_or_explicit_i32(dst, src, order) (ma_int32)ma_atomic_fetch_or_explicit_32((ma_uint32*)dst, (ma_uint32)src, order) +#define ma_atomic_fetch_or_explicit_i64(dst, src, order) (ma_int64)ma_atomic_fetch_or_explicit_64((ma_uint64*)dst, (ma_uint64)src, order) +#define ma_atomic_fetch_xor_explicit_i8( dst, src, order) (ma_int8 )ma_atomic_fetch_xor_explicit_8( (ma_uint8* )dst, (ma_uint8 )src, order) +#define ma_atomic_fetch_xor_explicit_i16(dst, src, order) (ma_int16)ma_atomic_fetch_xor_explicit_16((ma_uint16*)dst, (ma_uint16)src, order) +#define ma_atomic_fetch_xor_explicit_i32(dst, src, order) (ma_int32)ma_atomic_fetch_xor_explicit_32((ma_uint32*)dst, (ma_uint32)src, order) +#define ma_atomic_fetch_xor_explicit_i64(dst, src, order) (ma_int64)ma_atomic_fetch_xor_explicit_64((ma_uint64*)dst, (ma_uint64)src, order) +#define ma_atomic_fetch_and_explicit_i8( dst, src, order) (ma_int8 )ma_atomic_fetch_and_explicit_8( (ma_uint8* )dst, (ma_uint8 )src, order) +#define ma_atomic_fetch_and_explicit_i16(dst, src, order) (ma_int16)ma_atomic_fetch_and_explicit_16((ma_uint16*)dst, (ma_uint16)src, order) +#define ma_atomic_fetch_and_explicit_i32(dst, src, order) (ma_int32)ma_atomic_fetch_and_explicit_32((ma_uint32*)dst, (ma_uint32)src, order) +#define ma_atomic_fetch_and_explicit_i64(dst, src, order) (ma_int64)ma_atomic_fetch_and_explicit_64((ma_uint64*)dst, (ma_uint64)src, order) +#define ma_atomic_store_i8( dst, src) ma_atomic_store_explicit_i8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_store_i16(dst, src) ma_atomic_store_explicit_i16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_store_i32(dst, src) ma_atomic_store_explicit_i32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_store_i64(dst, src) ma_atomic_store_explicit_i64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_load_i8( ptr) ma_atomic_load_explicit_i8( ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_load_i16(ptr) ma_atomic_load_explicit_i16(ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_load_i32(ptr) ma_atomic_load_explicit_i32(ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_load_i64(ptr) ma_atomic_load_explicit_i64(ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_exchange_i8( dst, src) ma_atomic_exchange_explicit_i8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_exchange_i16(dst, src) ma_atomic_exchange_explicit_i16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_exchange_i32(dst, src) ma_atomic_exchange_explicit_i32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_exchange_i64(dst, src) ma_atomic_exchange_explicit_i64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_strong_i8( dst, expected, replacement) ma_atomic_compare_exchange_strong_explicit_i8( dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_strong_i16(dst, expected, replacement) ma_atomic_compare_exchange_strong_explicit_i16(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_strong_i32(dst, expected, replacement) ma_atomic_compare_exchange_strong_explicit_i32(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_strong_i64(dst, expected, replacement) ma_atomic_compare_exchange_strong_explicit_i64(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_weak_i8( dst, expected, replacement) ma_atomic_compare_exchange_weak_explicit_i8( dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_weak_i16(dst, expected, replacement) ma_atomic_compare_exchange_weak_explicit_i16(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_weak_i32(dst, expected, replacement) ma_atomic_compare_exchange_weak_explicit_i32(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_weak_i64(dst, expected, replacement) ma_atomic_compare_exchange_weak_explicit_i64(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_add_i8( dst, src) ma_atomic_fetch_add_explicit_i8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_add_i16(dst, src) ma_atomic_fetch_add_explicit_i16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_add_i32(dst, src) ma_atomic_fetch_add_explicit_i32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_add_i64(dst, src) ma_atomic_fetch_add_explicit_i64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_sub_i8( dst, src) ma_atomic_fetch_sub_explicit_i8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_sub_i16(dst, src) ma_atomic_fetch_sub_explicit_i16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_sub_i32(dst, src) ma_atomic_fetch_sub_explicit_i32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_sub_i64(dst, src) ma_atomic_fetch_sub_explicit_i64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_or_i8( dst, src) ma_atomic_fetch_or_explicit_i8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_or_i16(dst, src) ma_atomic_fetch_or_explicit_i16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_or_i32(dst, src) ma_atomic_fetch_or_explicit_i32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_or_i64(dst, src) ma_atomic_fetch_or_explicit_i64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_xor_i8( dst, src) ma_atomic_fetch_xor_explicit_i8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_xor_i16(dst, src) ma_atomic_fetch_xor_explicit_i16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_xor_i32(dst, src) ma_atomic_fetch_xor_explicit_i32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_xor_i64(dst, src) ma_atomic_fetch_xor_explicit_i64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_and_i8( dst, src) ma_atomic_fetch_and_explicit_i8( dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_and_i16(dst, src) ma_atomic_fetch_and_explicit_i16(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_and_i32(dst, src) ma_atomic_fetch_and_explicit_i32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_and_i64(dst, src) ma_atomic_fetch_and_explicit_i64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_and_swap_i8( dst, expected, dedsired) (ma_int8 )ma_atomic_compare_and_swap_8( (ma_uint8* )dst, (ma_uint8 )expected, (ma_uint8 )dedsired) +#define ma_atomic_compare_and_swap_i16(dst, expected, dedsired) (ma_int16)ma_atomic_compare_and_swap_16((ma_uint16*)dst, (ma_uint16)expected, (ma_uint16)dedsired) +#define ma_atomic_compare_and_swap_i32(dst, expected, dedsired) (ma_int32)ma_atomic_compare_and_swap_32((ma_uint32*)dst, (ma_uint32)expected, (ma_uint32)dedsired) +#define ma_atomic_compare_and_swap_i64(dst, expected, dedsired) (ma_int64)ma_atomic_compare_and_swap_64((ma_uint64*)dst, (ma_uint64)expected, (ma_uint64)dedsired) +typedef union +{ + ma_uint32 i; + float f; +} ma_atomic_if32; +typedef union +{ + ma_uint64 i; + double f; +} ma_atomic_if64; +#define ma_atomic_clear_explicit_f32(ptr, order) ma_atomic_clear_explicit_32((ma_uint32*)ptr, order) +#define ma_atomic_clear_explicit_f64(ptr, order) ma_atomic_clear_explicit_64((ma_uint64*)ptr, order) +static MA_INLINE void ma_atomic_store_explicit_f32(volatile float* dst, float src, ma_atomic_memory_order order) +{ + ma_atomic_if32 x; + x.f = src; + ma_atomic_store_explicit_32((volatile ma_uint32*)dst, x.i, order); +} +static MA_INLINE void ma_atomic_store_explicit_f64(volatile double* dst, double src, ma_atomic_memory_order order) +{ + ma_atomic_if64 x; + x.f = src; + ma_atomic_store_explicit_64((volatile ma_uint64*)dst, x.i, order); +} +static MA_INLINE float ma_atomic_load_explicit_f32(volatile const float* ptr, ma_atomic_memory_order order) +{ + ma_atomic_if32 r; + r.i = ma_atomic_load_explicit_32((volatile const ma_uint32*)ptr, order); + return r.f; +} +static MA_INLINE double ma_atomic_load_explicit_f64(volatile const double* ptr, ma_atomic_memory_order order) +{ + ma_atomic_if64 r; + r.i = ma_atomic_load_explicit_64((volatile const ma_uint64*)ptr, order); + return r.f; +} +static MA_INLINE float ma_atomic_exchange_explicit_f32(volatile float* dst, float src, ma_atomic_memory_order order) +{ + ma_atomic_if32 r; + ma_atomic_if32 x; + x.f = src; + r.i = ma_atomic_exchange_explicit_32((volatile ma_uint32*)dst, x.i, order); + return r.f; +} +static MA_INLINE double ma_atomic_exchange_explicit_f64(volatile double* dst, double src, ma_atomic_memory_order order) +{ + ma_atomic_if64 r; + ma_atomic_if64 x; + x.f = src; + r.i = ma_atomic_exchange_explicit_64((volatile ma_uint64*)dst, x.i, order); + return r.f; +} +static MA_INLINE ma_bool32 ma_atomic_compare_exchange_strong_explicit_f32(volatile float* dst, float* expected, float replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) +{ + ma_atomic_if32 d; + d.f = replacement; + return ma_atomic_compare_exchange_strong_explicit_32((volatile ma_uint32*)dst, (ma_uint32*)expected, d.i, successOrder, failureOrder); +} +static MA_INLINE ma_bool32 ma_atomic_compare_exchange_strong_explicit_f64(volatile double* dst, double* expected, double replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) +{ + ma_atomic_if64 d; + d.f = replacement; + return ma_atomic_compare_exchange_strong_explicit_64((volatile ma_uint64*)dst, (ma_uint64*)expected, d.i, successOrder, failureOrder); +} +static MA_INLINE ma_bool32 ma_atomic_compare_exchange_weak_explicit_f32(volatile float* dst, float* expected, float replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) +{ + ma_atomic_if32 d; + d.f = replacement; + return ma_atomic_compare_exchange_weak_explicit_32((volatile ma_uint32*)dst, (ma_uint32*)expected, d.i, successOrder, failureOrder); +} +static MA_INLINE ma_bool32 ma_atomic_compare_exchange_weak_explicit_f64(volatile double* dst, double* expected, double replacement, ma_atomic_memory_order successOrder, ma_atomic_memory_order failureOrder) +{ + ma_atomic_if64 d; + d.f = replacement; + return ma_atomic_compare_exchange_weak_explicit_64((volatile ma_uint64*)dst, (ma_uint64*)expected, d.i, successOrder, failureOrder); +} +static MA_INLINE float ma_atomic_fetch_add_explicit_f32(volatile float* dst, float src, ma_atomic_memory_order order) +{ + ma_atomic_if32 r; + ma_atomic_if32 x; + x.f = src; + r.i = ma_atomic_fetch_add_explicit_32((volatile ma_uint32*)dst, x.i, order); + return r.f; +} +static MA_INLINE double ma_atomic_fetch_add_explicit_f64(volatile double* dst, double src, ma_atomic_memory_order order) +{ + ma_atomic_if64 r; + ma_atomic_if64 x; + x.f = src; + r.i = ma_atomic_fetch_add_explicit_64((volatile ma_uint64*)dst, x.i, order); + return r.f; +} +static MA_INLINE float ma_atomic_fetch_sub_explicit_f32(volatile float* dst, float src, ma_atomic_memory_order order) +{ + ma_atomic_if32 r; + ma_atomic_if32 x; + x.f = src; + r.i = ma_atomic_fetch_sub_explicit_32((volatile ma_uint32*)dst, x.i, order); + return r.f; +} +static MA_INLINE double ma_atomic_fetch_sub_explicit_f64(volatile double* dst, double src, ma_atomic_memory_order order) +{ + ma_atomic_if64 r; + ma_atomic_if64 x; + x.f = src; + r.i = ma_atomic_fetch_sub_explicit_64((volatile ma_uint64*)dst, x.i, order); + return r.f; +} +static MA_INLINE float ma_atomic_fetch_or_explicit_f32(volatile float* dst, float src, ma_atomic_memory_order order) +{ + ma_atomic_if32 r; + ma_atomic_if32 x; + x.f = src; + r.i = ma_atomic_fetch_or_explicit_32((volatile ma_uint32*)dst, x.i, order); + return r.f; +} +static MA_INLINE double ma_atomic_fetch_or_explicit_f64(volatile double* dst, double src, ma_atomic_memory_order order) +{ + ma_atomic_if64 r; + ma_atomic_if64 x; + x.f = src; + r.i = ma_atomic_fetch_or_explicit_64((volatile ma_uint64*)dst, x.i, order); + return r.f; +} +static MA_INLINE float ma_atomic_fetch_xor_explicit_f32(volatile float* dst, float src, ma_atomic_memory_order order) +{ + ma_atomic_if32 r; + ma_atomic_if32 x; + x.f = src; + r.i = ma_atomic_fetch_xor_explicit_32((volatile ma_uint32*)dst, x.i, order); + return r.f; +} +static MA_INLINE double ma_atomic_fetch_xor_explicit_f64(volatile double* dst, double src, ma_atomic_memory_order order) +{ + ma_atomic_if64 r; + ma_atomic_if64 x; + x.f = src; + r.i = ma_atomic_fetch_xor_explicit_64((volatile ma_uint64*)dst, x.i, order); + return r.f; +} +static MA_INLINE float ma_atomic_fetch_and_explicit_f32(volatile float* dst, float src, ma_atomic_memory_order order) +{ + ma_atomic_if32 r; + ma_atomic_if32 x; + x.f = src; + r.i = ma_atomic_fetch_and_explicit_32((volatile ma_uint32*)dst, x.i, order); + return r.f; +} +static MA_INLINE double ma_atomic_fetch_and_explicit_f64(volatile double* dst, double src, ma_atomic_memory_order order) +{ + ma_atomic_if64 r; + ma_atomic_if64 x; + x.f = src; + r.i = ma_atomic_fetch_and_explicit_64((volatile ma_uint64*)dst, x.i, order); + return r.f; +} +#define ma_atomic_clear_f32(ptr) (float )ma_atomic_clear_explicit_f32(ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_clear_f64(ptr) (double)ma_atomic_clear_explicit_f64(ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_store_f32(dst, src) ma_atomic_store_explicit_f32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_store_f64(dst, src) ma_atomic_store_explicit_f64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_load_f32(ptr) (float )ma_atomic_load_explicit_f32(ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_load_f64(ptr) (double)ma_atomic_load_explicit_f64(ptr, ma_atomic_memory_order_seq_cst) +#define ma_atomic_exchange_f32(dst, src) (float )ma_atomic_exchange_explicit_f32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_exchange_f64(dst, src) (double)ma_atomic_exchange_explicit_f64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_strong_f32(dst, expected, replacement) ma_atomic_compare_exchange_strong_explicit_f32(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_strong_f64(dst, expected, replacement) ma_atomic_compare_exchange_strong_explicit_f64(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_weak_f32(dst, expected, replacement) ma_atomic_compare_exchange_weak_explicit_f32(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_compare_exchange_weak_f64(dst, expected, replacement) ma_atomic_compare_exchange_weak_explicit_f64(dst, expected, replacement, ma_atomic_memory_order_seq_cst, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_add_f32(dst, src) ma_atomic_fetch_add_explicit_f32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_add_f64(dst, src) ma_atomic_fetch_add_explicit_f64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_sub_f32(dst, src) ma_atomic_fetch_sub_explicit_f32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_sub_f64(dst, src) ma_atomic_fetch_sub_explicit_f64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_or_f32(dst, src) ma_atomic_fetch_or_explicit_f32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_or_f64(dst, src) ma_atomic_fetch_or_explicit_f64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_xor_f32(dst, src) ma_atomic_fetch_xor_explicit_f32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_xor_f64(dst, src) ma_atomic_fetch_xor_explicit_f64(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_and_f32(dst, src) ma_atomic_fetch_and_explicit_f32(dst, src, ma_atomic_memory_order_seq_cst) +#define ma_atomic_fetch_and_f64(dst, src) ma_atomic_fetch_and_explicit_f64(dst, src, ma_atomic_memory_order_seq_cst) +static MA_INLINE float ma_atomic_compare_and_swap_f32(volatile float* dst, float expected, float replacement) +{ + ma_atomic_if32 r; + ma_atomic_if32 e, d; + e.f = expected; + d.f = replacement; + r.i = ma_atomic_compare_and_swap_32((volatile ma_uint32*)dst, e.i, d.i); + return r.f; +} +static MA_INLINE double ma_atomic_compare_and_swap_f64(volatile double* dst, double expected, double replacement) +{ + ma_atomic_if64 r; + ma_atomic_if64 e, d; + e.f = expected; + d.f = replacement; + r.i = ma_atomic_compare_and_swap_64((volatile ma_uint64*)dst, e.i, d.i); + return r.f; +} +#if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))) + #pragma GCC diagnostic pop +#endif +#if defined(__cplusplus) +} +#endif +#endif +/* c89atomic.h end */ + +#define MA_ATOMIC_SAFE_TYPE_IMPL(c89TypeExtension, type) \ + static MA_INLINE ma_##type ma_atomic_##type##_get(ma_atomic_##type* x) \ + { \ + return (ma_##type)ma_atomic_load_##c89TypeExtension(&x->value); \ + } \ + static MA_INLINE void ma_atomic_##type##_set(ma_atomic_##type* x, ma_##type value) \ + { \ + ma_atomic_store_##c89TypeExtension(&x->value, value); \ + } \ + static MA_INLINE ma_##type ma_atomic_##type##_exchange(ma_atomic_##type* x, ma_##type value) \ + { \ + return (ma_##type)ma_atomic_exchange_##c89TypeExtension(&x->value, value); \ + } \ + static MA_INLINE ma_bool32 ma_atomic_##type##_compare_exchange(ma_atomic_##type* x, ma_##type* expected, ma_##type desired) \ + { \ + return ma_atomic_compare_exchange_weak_##c89TypeExtension(&x->value, expected, desired); \ + } \ + static MA_INLINE ma_##type ma_atomic_##type##_fetch_add(ma_atomic_##type* x, ma_##type y) \ + { \ + return (ma_##type)ma_atomic_fetch_add_##c89TypeExtension(&x->value, y); \ + } \ + static MA_INLINE ma_##type ma_atomic_##type##_fetch_sub(ma_atomic_##type* x, ma_##type y) \ + { \ + return (ma_##type)ma_atomic_fetch_sub_##c89TypeExtension(&x->value, y); \ + } \ + static MA_INLINE ma_##type ma_atomic_##type##_fetch_or(ma_atomic_##type* x, ma_##type y) \ + { \ + return (ma_##type)ma_atomic_fetch_or_##c89TypeExtension(&x->value, y); \ + } \ + static MA_INLINE ma_##type ma_atomic_##type##_fetch_xor(ma_atomic_##type* x, ma_##type y) \ + { \ + return (ma_##type)ma_atomic_fetch_xor_##c89TypeExtension(&x->value, y); \ + } \ + static MA_INLINE ma_##type ma_atomic_##type##_fetch_and(ma_atomic_##type* x, ma_##type y) \ + { \ + return (ma_##type)ma_atomic_fetch_and_##c89TypeExtension(&x->value, y); \ + } \ + static MA_INLINE ma_##type ma_atomic_##type##_compare_and_swap(ma_atomic_##type* x, ma_##type expected, ma_##type desired) \ + { \ + return (ma_##type)ma_atomic_compare_and_swap_##c89TypeExtension(&x->value, expected, desired); \ + } \ + +#define MA_ATOMIC_SAFE_TYPE_IMPL_PTR(type) \ + static MA_INLINE ma_##type* ma_atomic_ptr_##type##_get(ma_atomic_ptr_##type* x) \ + { \ + return ma_atomic_load_ptr((void**)&x->value); \ + } \ + static MA_INLINE void ma_atomic_ptr_##type##_set(ma_atomic_ptr_##type* x, ma_##type* value) \ + { \ + ma_atomic_store_ptr((void**)&x->value, (void*)value); \ + } \ + static MA_INLINE ma_##type* ma_atomic_ptr_##type##_exchange(ma_atomic_ptr_##type* x, ma_##type* value) \ + { \ + return ma_atomic_exchange_ptr((void**)&x->value, (void*)value); \ + } \ + static MA_INLINE ma_bool32 ma_atomic_ptr_##type##_compare_exchange(ma_atomic_ptr_##type* x, ma_##type** expected, ma_##type* desired) \ + { \ + return ma_atomic_compare_exchange_weak_ptr((void**)&x->value, (void*)expected, (void*)desired); \ + } \ + static MA_INLINE ma_##type* ma_atomic_ptr_##type##_compare_and_swap(ma_atomic_ptr_##type* x, ma_##type* expected, ma_##type* desired) \ + { \ + return (ma_##type*)ma_atomic_compare_and_swap_ptr((void**)&x->value, (void*)expected, (void*)desired); \ + } \ + +MA_ATOMIC_SAFE_TYPE_IMPL(32, uint32) +MA_ATOMIC_SAFE_TYPE_IMPL(i32, int32) +MA_ATOMIC_SAFE_TYPE_IMPL(64, uint64) +MA_ATOMIC_SAFE_TYPE_IMPL(f32, float) +MA_ATOMIC_SAFE_TYPE_IMPL(32, bool32) + +#if !defined(MA_NO_DEVICE_IO) +MA_ATOMIC_SAFE_TYPE_IMPL(i32, device_state) +#endif + + +MA_API ma_uint64 ma_calculate_frame_count_after_resampling(ma_uint32 sampleRateOut, ma_uint32 sampleRateIn, ma_uint64 frameCountIn) +{ + /* This is based on the calculation in ma_linear_resampler_get_expected_output_frame_count(). */ + ma_uint64 outputFrameCount; + ma_uint64 preliminaryInputFrameCountFromFrac; + ma_uint64 preliminaryInputFrameCount; + + if (sampleRateIn == 0 || sampleRateOut == 0 || frameCountIn == 0) { + return 0; + } + + if (sampleRateOut == sampleRateIn) { + return frameCountIn; + } + + outputFrameCount = (frameCountIn * sampleRateOut) / sampleRateIn; + + preliminaryInputFrameCountFromFrac = (outputFrameCount * (sampleRateIn / sampleRateOut)) / sampleRateOut; + preliminaryInputFrameCount = (outputFrameCount * (sampleRateIn % sampleRateOut)) + preliminaryInputFrameCountFromFrac; + + if (preliminaryInputFrameCount <= frameCountIn) { + outputFrameCount += 1; + } + + return outputFrameCount; +} + +#ifndef MA_DATA_CONVERTER_STACK_BUFFER_SIZE +#define MA_DATA_CONVERTER_STACK_BUFFER_SIZE 4096 +#endif + + + +#if defined(MA_WIN32) +static ma_result ma_result_from_GetLastError(DWORD error) +{ + switch (error) + { + case ERROR_SUCCESS: return MA_SUCCESS; + case ERROR_PATH_NOT_FOUND: return MA_DOES_NOT_EXIST; + case ERROR_TOO_MANY_OPEN_FILES: return MA_TOO_MANY_OPEN_FILES; + case ERROR_NOT_ENOUGH_MEMORY: return MA_OUT_OF_MEMORY; + case ERROR_DISK_FULL: return MA_NO_SPACE; + case ERROR_HANDLE_EOF: return MA_AT_END; + case ERROR_NEGATIVE_SEEK: return MA_BAD_SEEK; + case ERROR_INVALID_PARAMETER: return MA_INVALID_ARGS; + case ERROR_ACCESS_DENIED: return MA_ACCESS_DENIED; + case ERROR_SEM_TIMEOUT: return MA_TIMEOUT; + case ERROR_FILE_NOT_FOUND: return MA_DOES_NOT_EXIST; + default: break; + } + + return MA_ERROR; +} +#endif /* MA_WIN32 */ + + +/******************************************************************************* + +Threading + +*******************************************************************************/ +static MA_INLINE ma_result ma_spinlock_lock_ex(volatile ma_spinlock* pSpinlock, ma_bool32 yield) +{ + if (pSpinlock == NULL) { + return MA_INVALID_ARGS; + } + + for (;;) { + if (ma_atomic_exchange_explicit_32(pSpinlock, 1, ma_atomic_memory_order_acquire) == 0) { + break; + } + + while (ma_atomic_load_explicit_32(pSpinlock, ma_atomic_memory_order_relaxed) == 1) { + if (yield) { + ma_yield(); + } + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_spinlock_lock(volatile ma_spinlock* pSpinlock) +{ + return ma_spinlock_lock_ex(pSpinlock, MA_TRUE); +} + +MA_API ma_result ma_spinlock_lock_noyield(volatile ma_spinlock* pSpinlock) +{ + return ma_spinlock_lock_ex(pSpinlock, MA_FALSE); +} + +MA_API ma_result ma_spinlock_unlock(volatile ma_spinlock* pSpinlock) +{ + if (pSpinlock == NULL) { + return MA_INVALID_ARGS; + } + + ma_atomic_store_explicit_32(pSpinlock, 0, ma_atomic_memory_order_release); + return MA_SUCCESS; +} + + +#ifndef MA_NO_THREADING +#if defined(MA_POSIX) + #define MA_THREADCALL + typedef void* ma_thread_result; +#elif defined(MA_WIN32) + #define MA_THREADCALL WINAPI + typedef unsigned long ma_thread_result; +#endif + +typedef ma_thread_result (MA_THREADCALL * ma_thread_entry_proc)(void* pData); + +#ifdef MA_POSIX +static ma_result ma_thread_create__posix(ma_thread* pThread, ma_thread_priority priority, size_t stackSize, ma_thread_entry_proc entryProc, void* pData) +{ + int result; + pthread_attr_t* pAttr = NULL; + +#if !defined(MA_EMSCRIPTEN) && !defined(MA_3DS) && !defined(MA_SWITCH) + /* Try setting the thread priority. It's not critical if anything fails here. */ + pthread_attr_t attr; + if (pthread_attr_init(&attr) == 0) { + int scheduler = -1; + + /* We successfully initialized our attributes object so we can assign the pointer so it's passed into pthread_create(). */ + pAttr = &attr; + + /* We need to set the scheduler policy. Only do this if the OS supports pthread_attr_setschedpolicy() */ + #if !defined(MA_BEOS) + { + if (priority == ma_thread_priority_idle) { + #ifdef SCHED_IDLE + if (pthread_attr_setschedpolicy(&attr, SCHED_IDLE) == 0) { + scheduler = SCHED_IDLE; + } + #endif + } else if (priority == ma_thread_priority_realtime) { + #ifdef SCHED_FIFO + if (pthread_attr_setschedpolicy(&attr, SCHED_FIFO) == 0) { + scheduler = SCHED_FIFO; + } + #endif + #ifdef MA_LINUX + } else { + scheduler = sched_getscheduler(0); + #endif + } + } + #endif + + #if defined(_POSIX_THREAD_ATTR_STACKSIZE) && _POSIX_THREAD_ATTR_STACKSIZE >= 0 + { + if (stackSize > 0) { + pthread_attr_setstacksize(&attr, stackSize); + } + } + #else + { + (void)stackSize; /* Suppress unused parameter warning. */ + } + #endif + + + if (scheduler != -1) { + int priorityMin = sched_get_priority_min(scheduler); + int priorityMax = sched_get_priority_max(scheduler); + int priorityStep = (priorityMax - priorityMin) / 7; /* 7 = number of priorities supported by miniaudio. */ + + struct sched_param sched; + if (priorityMin != -1 && priorityMax != -1 && pthread_attr_getschedparam(&attr, &sched) == 0) { + if (priority == ma_thread_priority_idle) { + sched.sched_priority = priorityMin; + } else if (priority == ma_thread_priority_realtime) { + #if defined(MA_PTHREAD_REALTIME_THREAD_PRIORITY) + { + sched.sched_priority = MA_PTHREAD_REALTIME_THREAD_PRIORITY; + } + #else + { + sched.sched_priority = priorityMax; + } + #endif + } else { + sched.sched_priority += ((int)priority + 5) * priorityStep; /* +5 because the lowest priority is -5. */ + } + + if (sched.sched_priority < priorityMin) { + sched.sched_priority = priorityMin; + } + if (sched.sched_priority > priorityMax) { + sched.sched_priority = priorityMax; + } + + /* I'm not treating a failure of setting the priority as a critical error so not aborting on failure here. */ + if (pthread_attr_setschedparam(&attr, &sched) == 0) { + #if !defined(MA_ANDROID) || (defined(__ANDROID_API__) && __ANDROID_API__ >= 28) + { + pthread_attr_setinheritsched(&attr, PTHREAD_EXPLICIT_SCHED); + } + #endif + } + } + } + } +#else + /* It's the emscripten build. We'll have a few unused parameters. */ + (void)priority; + (void)stackSize; +#endif + + result = pthread_create((pthread_t*)pThread, pAttr, entryProc, pData); + + /* The thread attributes object is no longer required. */ + if (pAttr != NULL) { + pthread_attr_destroy(pAttr); + } + + if (result != 0) { + /* + There have been reports that attempting to create a realtime thread can sometimes fail. In this case, + fall back to a normal priority thread. + + I'm including a compile-time option here to disable this functionality for those who have a hard + requirement on realtime threads and would rather an explicit failure. + */ + #ifndef MA_NO_PTHREAD_REALTIME_PRIORITY_FALLBACK + { + if(result == EPERM && priority == ma_thread_priority_realtime) { + return ma_thread_create__posix(pThread, ma_thread_priority_normal, stackSize, entryProc, pData); + } + } + #endif + + return ma_result_from_errno(result); + } + + return MA_SUCCESS; +} + +static void ma_thread_wait__posix(ma_thread* pThread) +{ + pthread_join((pthread_t)*pThread, NULL); +} + + +static ma_result ma_mutex_init__posix(ma_mutex* pMutex) +{ + int result; + + if (pMutex == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pMutex); + + result = pthread_mutex_init((pthread_mutex_t*)pMutex, NULL); + if (result != 0) { + return ma_result_from_errno(result); + } + + return MA_SUCCESS; +} + +static void ma_mutex_uninit__posix(ma_mutex* pMutex) +{ + pthread_mutex_destroy((pthread_mutex_t*)pMutex); +} + +static void ma_mutex_lock__posix(ma_mutex* pMutex) +{ + pthread_mutex_lock((pthread_mutex_t*)pMutex); +} + +static void ma_mutex_unlock__posix(ma_mutex* pMutex) +{ + pthread_mutex_unlock((pthread_mutex_t*)pMutex); +} + + +static ma_result ma_event_init__posix(ma_event* pEvent) +{ + int result; + + result = pthread_mutex_init((pthread_mutex_t*)&pEvent->lock, NULL); + if (result != 0) { + return ma_result_from_errno(result); + } + + result = pthread_cond_init((pthread_cond_t*)&pEvent->cond, NULL); + if (result != 0) { + pthread_mutex_destroy((pthread_mutex_t*)&pEvent->lock); + return ma_result_from_errno(result); + } + + pEvent->value = 0; + return MA_SUCCESS; +} + +static void ma_event_uninit__posix(ma_event* pEvent) +{ + pthread_cond_destroy((pthread_cond_t*)&pEvent->cond); + pthread_mutex_destroy((pthread_mutex_t*)&pEvent->lock); +} + +static ma_result ma_event_wait__posix(ma_event* pEvent) +{ + pthread_mutex_lock((pthread_mutex_t*)&pEvent->lock); + { + while (pEvent->value == 0) { + pthread_cond_wait((pthread_cond_t*)&pEvent->cond, (pthread_mutex_t*)&pEvent->lock); + } + pEvent->value = 0; /* Auto-reset. */ + } + pthread_mutex_unlock((pthread_mutex_t*)&pEvent->lock); + + return MA_SUCCESS; +} + +static ma_result ma_event_signal__posix(ma_event* pEvent) +{ + pthread_mutex_lock((pthread_mutex_t*)&pEvent->lock); + { + pEvent->value = 1; + pthread_cond_signal((pthread_cond_t*)&pEvent->cond); + } + pthread_mutex_unlock((pthread_mutex_t*)&pEvent->lock); + + return MA_SUCCESS; +} + + +static ma_result ma_semaphore_init__posix(int initialValue, ma_semaphore* pSemaphore) +{ + int result; + + if (pSemaphore == NULL) { + return MA_INVALID_ARGS; + } + + pSemaphore->value = initialValue; + + result = pthread_mutex_init((pthread_mutex_t*)&pSemaphore->lock, NULL); + if (result != 0) { + return ma_result_from_errno(result); /* Failed to create mutex. */ + } + + result = pthread_cond_init((pthread_cond_t*)&pSemaphore->cond, NULL); + if (result != 0) { + pthread_mutex_destroy((pthread_mutex_t*)&pSemaphore->lock); + return ma_result_from_errno(result); /* Failed to create condition variable. */ + } + + return MA_SUCCESS; +} + +static void ma_semaphore_uninit__posix(ma_semaphore* pSemaphore) +{ + if (pSemaphore == NULL) { + return; + } + + pthread_cond_destroy((pthread_cond_t*)&pSemaphore->cond); + pthread_mutex_destroy((pthread_mutex_t*)&pSemaphore->lock); +} + +static ma_result ma_semaphore_wait__posix(ma_semaphore* pSemaphore) +{ + if (pSemaphore == NULL) { + return MA_INVALID_ARGS; + } + + pthread_mutex_lock((pthread_mutex_t*)&pSemaphore->lock); + { + /* We need to wait on a condition variable before escaping. We can't return from this function until the semaphore has been signaled. */ + while (pSemaphore->value == 0) { + pthread_cond_wait((pthread_cond_t*)&pSemaphore->cond, (pthread_mutex_t*)&pSemaphore->lock); + } + + pSemaphore->value -= 1; + } + pthread_mutex_unlock((pthread_mutex_t*)&pSemaphore->lock); + + return MA_SUCCESS; +} + +static ma_result ma_semaphore_release__posix(ma_semaphore* pSemaphore) +{ + if (pSemaphore == NULL) { + return MA_INVALID_ARGS; + } + + pthread_mutex_lock((pthread_mutex_t*)&pSemaphore->lock); + { + pSemaphore->value += 1; + pthread_cond_signal((pthread_cond_t*)&pSemaphore->cond); + } + pthread_mutex_unlock((pthread_mutex_t*)&pSemaphore->lock); + + return MA_SUCCESS; +} +#elif defined(MA_WIN32) +static int ma_thread_priority_to_win32(ma_thread_priority priority) +{ + switch (priority) { + case ma_thread_priority_idle: return THREAD_PRIORITY_IDLE; + case ma_thread_priority_lowest: return THREAD_PRIORITY_LOWEST; + case ma_thread_priority_low: return THREAD_PRIORITY_BELOW_NORMAL; + case ma_thread_priority_normal: return THREAD_PRIORITY_NORMAL; + case ma_thread_priority_high: return THREAD_PRIORITY_ABOVE_NORMAL; + case ma_thread_priority_highest: return THREAD_PRIORITY_HIGHEST; + case ma_thread_priority_realtime: return THREAD_PRIORITY_TIME_CRITICAL; + default: return THREAD_PRIORITY_NORMAL; + } +} + +static ma_result ma_thread_create__win32(ma_thread* pThread, ma_thread_priority priority, size_t stackSize, ma_thread_entry_proc entryProc, void* pData) +{ + DWORD threadID; /* Not used. Only used for passing into CreateThread() so it doesn't fail on Windows 98. */ + + *pThread = CreateThread(NULL, stackSize, entryProc, pData, 0, &threadID); + if (*pThread == NULL) { + return ma_result_from_GetLastError(GetLastError()); + } + + SetThreadPriority((HANDLE)*pThread, ma_thread_priority_to_win32(priority)); + + return MA_SUCCESS; +} + +static void ma_thread_wait__win32(ma_thread* pThread) +{ + WaitForSingleObject((HANDLE)*pThread, INFINITE); + CloseHandle((HANDLE)*pThread); +} + + +static ma_result ma_mutex_init__win32(ma_mutex* pMutex) +{ + *pMutex = CreateEventA(NULL, FALSE, TRUE, NULL); + if (*pMutex == NULL) { + return ma_result_from_GetLastError(GetLastError()); + } + + return MA_SUCCESS; +} + +static void ma_mutex_uninit__win32(ma_mutex* pMutex) +{ + CloseHandle((HANDLE)*pMutex); +} + +static void ma_mutex_lock__win32(ma_mutex* pMutex) +{ + WaitForSingleObject((HANDLE)*pMutex, INFINITE); +} + +static void ma_mutex_unlock__win32(ma_mutex* pMutex) +{ + SetEvent((HANDLE)*pMutex); +} + + +static ma_result ma_event_init__win32(ma_event* pEvent) +{ + *pEvent = CreateEventA(NULL, FALSE, FALSE, NULL); + if (*pEvent == NULL) { + return ma_result_from_GetLastError(GetLastError()); + } + + return MA_SUCCESS; +} + +static void ma_event_uninit__win32(ma_event* pEvent) +{ + CloseHandle((HANDLE)*pEvent); +} + +static ma_result ma_event_wait__win32(ma_event* pEvent) +{ + DWORD result = WaitForSingleObject((HANDLE)*pEvent, INFINITE); + if (result == WAIT_OBJECT_0) { + return MA_SUCCESS; + } + + if (result == WAIT_TIMEOUT) { + return MA_TIMEOUT; + } + + return ma_result_from_GetLastError(GetLastError()); +} + +static ma_result ma_event_signal__win32(ma_event* pEvent) +{ + BOOL result = SetEvent((HANDLE)*pEvent); + if (result == 0) { + return ma_result_from_GetLastError(GetLastError()); + } + + return MA_SUCCESS; +} + + +static ma_result ma_semaphore_init__win32(int initialValue, ma_semaphore* pSemaphore) +{ + *pSemaphore = CreateSemaphore(NULL, (LONG)initialValue, LONG_MAX, NULL); + if (*pSemaphore == NULL) { + return ma_result_from_GetLastError(GetLastError()); + } + + return MA_SUCCESS; +} + +static void ma_semaphore_uninit__win32(ma_semaphore* pSemaphore) +{ + CloseHandle((HANDLE)*pSemaphore); +} + +static ma_result ma_semaphore_wait__win32(ma_semaphore* pSemaphore) +{ + DWORD result = WaitForSingleObject((HANDLE)*pSemaphore, INFINITE); + if (result == WAIT_OBJECT_0) { + return MA_SUCCESS; + } + + if (result == WAIT_TIMEOUT) { + return MA_TIMEOUT; + } + + return ma_result_from_GetLastError(GetLastError()); +} + +static ma_result ma_semaphore_release__win32(ma_semaphore* pSemaphore) +{ + BOOL result = ReleaseSemaphore((HANDLE)*pSemaphore, 1, NULL); + if (result == 0) { + return ma_result_from_GetLastError(GetLastError()); + } + + return MA_SUCCESS; +} +#endif + +typedef struct +{ + ma_thread_entry_proc entryProc; + void* pData; + ma_allocation_callbacks allocationCallbacks; +} ma_thread_proxy_data; + +static ma_thread_result MA_THREADCALL ma_thread_entry_proxy(void* pData) +{ + ma_thread_proxy_data* pProxyData = (ma_thread_proxy_data*)pData; + ma_thread_entry_proc entryProc; + void* pEntryProcData; + ma_thread_result result; + + #if defined(MA_ON_THREAD_ENTRY) + MA_ON_THREAD_ENTRY + #endif + + entryProc = pProxyData->entryProc; + pEntryProcData = pProxyData->pData; + + /* Free the proxy data before getting into the real thread entry proc. */ + ma_free(pProxyData, &pProxyData->allocationCallbacks); + + result = entryProc(pEntryProcData); + + #if defined(MA_ON_THREAD_EXIT) + MA_ON_THREAD_EXIT + #endif + + return result; +} + +static ma_result ma_thread_create(ma_thread* pThread, ma_thread_priority priority, size_t stackSize, ma_thread_entry_proc entryProc, void* pData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_result result; + ma_thread_proxy_data* pProxyData; + + if (pThread == NULL || entryProc == NULL) { + return MA_INVALID_ARGS; + } + + pProxyData = (ma_thread_proxy_data*)ma_malloc(sizeof(*pProxyData), pAllocationCallbacks); /* Will be freed by the proxy entry proc. */ + if (pProxyData == NULL) { + return MA_OUT_OF_MEMORY; + } + +#if defined(MA_THREAD_DEFAULT_STACK_SIZE) + if (stackSize == 0) { + stackSize = MA_THREAD_DEFAULT_STACK_SIZE; + } +#endif + + pProxyData->entryProc = entryProc; + pProxyData->pData = pData; + ma_allocation_callbacks_init_copy(&pProxyData->allocationCallbacks, pAllocationCallbacks); + +#if defined(MA_POSIX) + result = ma_thread_create__posix(pThread, priority, stackSize, ma_thread_entry_proxy, pProxyData); +#elif defined(MA_WIN32) + result = ma_thread_create__win32(pThread, priority, stackSize, ma_thread_entry_proxy, pProxyData); +#endif + + if (result != MA_SUCCESS) { + ma_free(pProxyData, pAllocationCallbacks); + return result; + } + + return MA_SUCCESS; +} + +static void ma_thread_wait(ma_thread* pThread) +{ + if (pThread == NULL) { + return; + } + +#if defined(MA_POSIX) + ma_thread_wait__posix(pThread); +#elif defined(MA_WIN32) + ma_thread_wait__win32(pThread); +#endif +} + + +MA_API ma_result ma_mutex_init(ma_mutex* pMutex) +{ + if (pMutex == NULL) { + MA_ASSERT(MA_FALSE); /* Fire an assert so the caller is aware of this bug. */ + return MA_INVALID_ARGS; + } + +#if defined(MA_POSIX) + return ma_mutex_init__posix(pMutex); +#elif defined(MA_WIN32) + return ma_mutex_init__win32(pMutex); +#endif +} + +MA_API void ma_mutex_uninit(ma_mutex* pMutex) +{ + if (pMutex == NULL) { + return; + } + +#if defined(MA_POSIX) + ma_mutex_uninit__posix(pMutex); +#elif defined(MA_WIN32) + ma_mutex_uninit__win32(pMutex); +#endif +} + +MA_API void ma_mutex_lock(ma_mutex* pMutex) +{ + if (pMutex == NULL) { + MA_ASSERT(MA_FALSE); /* Fire an assert so the caller is aware of this bug. */ + return; + } + +#if defined(MA_POSIX) + ma_mutex_lock__posix(pMutex); +#elif defined(MA_WIN32) + ma_mutex_lock__win32(pMutex); +#endif +} + +MA_API void ma_mutex_unlock(ma_mutex* pMutex) +{ + if (pMutex == NULL) { + MA_ASSERT(MA_FALSE); /* Fire an assert so the caller is aware of this bug. */ + return; + } + +#if defined(MA_POSIX) + ma_mutex_unlock__posix(pMutex); +#elif defined(MA_WIN32) + ma_mutex_unlock__win32(pMutex); +#endif +} + + +MA_API ma_result ma_event_init(ma_event* pEvent) +{ + if (pEvent == NULL) { + MA_ASSERT(MA_FALSE); /* Fire an assert so the caller is aware of this bug. */ + return MA_INVALID_ARGS; + } + +#if defined(MA_POSIX) + return ma_event_init__posix(pEvent); +#elif defined(MA_WIN32) + return ma_event_init__win32(pEvent); +#endif +} + +#if 0 +static ma_result ma_event_alloc_and_init(ma_event** ppEvent, ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_result result; + ma_event* pEvent; + + if (ppEvent == NULL) { + return MA_INVALID_ARGS; + } + + *ppEvent = NULL; + + pEvent = ma_malloc(sizeof(*pEvent), pAllocationCallbacks); + if (pEvent == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_event_init(pEvent); + if (result != MA_SUCCESS) { + ma_free(pEvent, pAllocationCallbacks); + return result; + } + + *ppEvent = pEvent; + return result; +} +#endif + +MA_API void ma_event_uninit(ma_event* pEvent) +{ + if (pEvent == NULL) { + return; + } + +#if defined(MA_POSIX) + ma_event_uninit__posix(pEvent); +#elif defined(MA_WIN32) + ma_event_uninit__win32(pEvent); +#endif +} + +#if 0 +static void ma_event_uninit_and_free(ma_event* pEvent, ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pEvent == NULL) { + return; + } + + ma_event_uninit(pEvent); + ma_free(pEvent, pAllocationCallbacks); +} +#endif + +MA_API ma_result ma_event_wait(ma_event* pEvent) +{ + if (pEvent == NULL) { + MA_ASSERT(MA_FALSE); /* Fire an assert to the caller is aware of this bug. */ + return MA_INVALID_ARGS; + } + +#if defined(MA_POSIX) + return ma_event_wait__posix(pEvent); +#elif defined(MA_WIN32) + return ma_event_wait__win32(pEvent); +#endif +} + +MA_API ma_result ma_event_signal(ma_event* pEvent) +{ + if (pEvent == NULL) { + MA_ASSERT(MA_FALSE); /* Fire an assert to the caller is aware of this bug. */ + return MA_INVALID_ARGS; + } + +#if defined(MA_POSIX) + return ma_event_signal__posix(pEvent); +#elif defined(MA_WIN32) + return ma_event_signal__win32(pEvent); +#endif +} + + +MA_API ma_result ma_semaphore_init(int initialValue, ma_semaphore* pSemaphore) +{ + if (pSemaphore == NULL) { + MA_ASSERT(MA_FALSE); /* Fire an assert so the caller is aware of this bug. */ + return MA_INVALID_ARGS; + } + +#if defined(MA_POSIX) + return ma_semaphore_init__posix(initialValue, pSemaphore); +#elif defined(MA_WIN32) + return ma_semaphore_init__win32(initialValue, pSemaphore); +#endif +} + +MA_API void ma_semaphore_uninit(ma_semaphore* pSemaphore) +{ + if (pSemaphore == NULL) { + MA_ASSERT(MA_FALSE); /* Fire an assert so the caller is aware of this bug. */ + return; + } + +#if defined(MA_POSIX) + ma_semaphore_uninit__posix(pSemaphore); +#elif defined(MA_WIN32) + ma_semaphore_uninit__win32(pSemaphore); +#endif +} + +MA_API ma_result ma_semaphore_wait(ma_semaphore* pSemaphore) +{ + if (pSemaphore == NULL) { + MA_ASSERT(MA_FALSE); /* Fire an assert so the caller is aware of this bug. */ + return MA_INVALID_ARGS; + } + +#if defined(MA_POSIX) + return ma_semaphore_wait__posix(pSemaphore); +#elif defined(MA_WIN32) + return ma_semaphore_wait__win32(pSemaphore); +#endif +} + +MA_API ma_result ma_semaphore_release(ma_semaphore* pSemaphore) +{ + if (pSemaphore == NULL) { + MA_ASSERT(MA_FALSE); /* Fire an assert so the caller is aware of this bug. */ + return MA_INVALID_ARGS; + } + +#if defined(MA_POSIX) + return ma_semaphore_release__posix(pSemaphore); +#elif defined(MA_WIN32) + return ma_semaphore_release__win32(pSemaphore); +#endif +} +#else +/* MA_NO_THREADING is set which means threading is disabled. Threading is required by some API families. If any of these are enabled we need to throw an error. */ +#ifndef MA_NO_DEVICE_IO +#error "MA_NO_THREADING cannot be used without MA_NO_DEVICE_IO"; +#endif +#endif /* MA_NO_THREADING */ + + + +#define MA_FENCE_COUNTER_MAX 0x7FFFFFFF + +MA_API ma_result ma_fence_init(ma_fence* pFence) +{ + if (pFence == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pFence); + pFence->counter = 0; + + #ifndef MA_NO_THREADING + { + ma_result result; + + result = ma_event_init(&pFence->e); + if (result != MA_SUCCESS) { + return result; + } + } + #endif + + return MA_SUCCESS; +} + +MA_API void ma_fence_uninit(ma_fence* pFence) +{ + if (pFence == NULL) { + return; + } + + #ifndef MA_NO_THREADING + { + ma_event_uninit(&pFence->e); + } + #endif + + MA_ZERO_OBJECT(pFence); +} + +MA_API ma_result ma_fence_acquire(ma_fence* pFence) +{ + if (pFence == NULL) { + return MA_INVALID_ARGS; + } + + for (;;) { + ma_uint32 oldCounter = ma_atomic_load_32(&pFence->counter); + ma_uint32 newCounter = oldCounter + 1; + + /* Make sure we're not about to exceed our maximum value. */ + if (newCounter > MA_FENCE_COUNTER_MAX) { + MA_ASSERT(MA_FALSE); + return MA_OUT_OF_RANGE; + } + + if (ma_atomic_compare_exchange_weak_32(&pFence->counter, &oldCounter, newCounter)) { + return MA_SUCCESS; + } else { + if (oldCounter == MA_FENCE_COUNTER_MAX) { + MA_ASSERT(MA_FALSE); + return MA_OUT_OF_RANGE; /* The other thread took the last available slot. Abort. */ + } + } + } + + /* Should never get here. */ + /*return MA_SUCCESS;*/ +} + +MA_API ma_result ma_fence_release(ma_fence* pFence) +{ + if (pFence == NULL) { + return MA_INVALID_ARGS; + } + + for (;;) { + ma_uint32 oldCounter = ma_atomic_load_32(&pFence->counter); + ma_uint32 newCounter = oldCounter - 1; + + if (oldCounter == 0) { + MA_ASSERT(MA_FALSE); + return MA_INVALID_OPERATION; /* Acquire/release mismatch. */ + } + + if (ma_atomic_compare_exchange_weak_32(&pFence->counter, &oldCounter, newCounter)) { + #ifndef MA_NO_THREADING + { + if (newCounter == 0) { + ma_event_signal(&pFence->e); /* <-- ma_fence_wait() will be waiting on this. */ + } + } + #endif + + return MA_SUCCESS; + } else { + if (oldCounter == 0) { + MA_ASSERT(MA_FALSE); + return MA_INVALID_OPERATION; /* Another thread has taken the 0 slot. Acquire/release mismatch. */ + } + } + } + + /* Should never get here. */ + /*return MA_SUCCESS;*/ +} + +MA_API ma_result ma_fence_wait(ma_fence* pFence) +{ + if (pFence == NULL) { + return MA_INVALID_ARGS; + } + + for (;;) { + ma_uint32 counter; + + counter = ma_atomic_load_32(&pFence->counter); + if (counter == 0) { + /* + Counter has hit zero. By the time we get here some other thread may have acquired the + fence again, but that is where the caller needs to take care with how they se the fence. + */ + return MA_SUCCESS; + } + + /* Getting here means the counter is > 0. We'll need to wait for something to happen. */ + #ifndef MA_NO_THREADING + { + ma_result result; + + result = ma_event_wait(&pFence->e); + if (result != MA_SUCCESS) { + return result; + } + } + #endif + } + + /* Should never get here. */ + /*return MA_INVALID_OPERATION;*/ +} + + +MA_API ma_result ma_async_notification_signal(ma_async_notification* pNotification) +{ + ma_async_notification_callbacks* pNotificationCallbacks = (ma_async_notification_callbacks*)pNotification; + + if (pNotification == NULL) { + return MA_INVALID_ARGS; + } + + if (pNotificationCallbacks->onSignal == NULL) { + return MA_NOT_IMPLEMENTED; + } + + pNotificationCallbacks->onSignal(pNotification); + return MA_INVALID_ARGS; +} + + +static void ma_async_notification_poll__on_signal(ma_async_notification* pNotification) +{ + ((ma_async_notification_poll*)pNotification)->signalled = MA_TRUE; +} + +MA_API ma_result ma_async_notification_poll_init(ma_async_notification_poll* pNotificationPoll) +{ + if (pNotificationPoll == NULL) { + return MA_INVALID_ARGS; + } + + pNotificationPoll->cb.onSignal = ma_async_notification_poll__on_signal; + pNotificationPoll->signalled = MA_FALSE; + + return MA_SUCCESS; +} + +MA_API ma_bool32 ma_async_notification_poll_is_signalled(const ma_async_notification_poll* pNotificationPoll) +{ + if (pNotificationPoll == NULL) { + return MA_FALSE; + } + + return pNotificationPoll->signalled; +} + + +static void ma_async_notification_event__on_signal(ma_async_notification* pNotification) +{ + ma_async_notification_event_signal((ma_async_notification_event*)pNotification); +} + +MA_API ma_result ma_async_notification_event_init(ma_async_notification_event* pNotificationEvent) +{ + if (pNotificationEvent == NULL) { + return MA_INVALID_ARGS; + } + + pNotificationEvent->cb.onSignal = ma_async_notification_event__on_signal; + + #ifndef MA_NO_THREADING + { + ma_result result; + + result = ma_event_init(&pNotificationEvent->e); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; + } + #else + { + return MA_NOT_IMPLEMENTED; /* Threading is disabled. */ + } + #endif +} + +MA_API ma_result ma_async_notification_event_uninit(ma_async_notification_event* pNotificationEvent) +{ + if (pNotificationEvent == NULL) { + return MA_INVALID_ARGS; + } + + #ifndef MA_NO_THREADING + { + ma_event_uninit(&pNotificationEvent->e); + return MA_SUCCESS; + } + #else + { + return MA_NOT_IMPLEMENTED; /* Threading is disabled. */ + } + #endif +} + +MA_API ma_result ma_async_notification_event_wait(ma_async_notification_event* pNotificationEvent) +{ + if (pNotificationEvent == NULL) { + return MA_INVALID_ARGS; + } + + #ifndef MA_NO_THREADING + { + return ma_event_wait(&pNotificationEvent->e); + } + #else + { + return MA_NOT_IMPLEMENTED; /* Threading is disabled. */ + } + #endif +} + +MA_API ma_result ma_async_notification_event_signal(ma_async_notification_event* pNotificationEvent) +{ + if (pNotificationEvent == NULL) { + return MA_INVALID_ARGS; + } + + #ifndef MA_NO_THREADING + { + return ma_event_signal(&pNotificationEvent->e); + } + #else + { + return MA_NOT_IMPLEMENTED; /* Threading is disabled. */ + } + #endif +} + + + +/************************************************************************************************************************************************************ + +Job Queue + +************************************************************************************************************************************************************/ +MA_API ma_slot_allocator_config ma_slot_allocator_config_init(ma_uint32 capacity) +{ + ma_slot_allocator_config config; + + MA_ZERO_OBJECT(&config); + config.capacity = capacity; + + return config; +} + + +static MA_INLINE ma_uint32 ma_slot_allocator_calculate_group_capacity(ma_uint32 slotCapacity) +{ + ma_uint32 cap = slotCapacity / 32; + if ((slotCapacity % 32) != 0) { + cap += 1; + } + + return cap; +} + +static MA_INLINE ma_uint32 ma_slot_allocator_group_capacity(const ma_slot_allocator* pAllocator) +{ + return ma_slot_allocator_calculate_group_capacity(pAllocator->capacity); +} + + +typedef struct +{ + size_t sizeInBytes; + size_t groupsOffset; + size_t slotsOffset; +} ma_slot_allocator_heap_layout; + +static ma_result ma_slot_allocator_get_heap_layout(const ma_slot_allocator_config* pConfig, ma_slot_allocator_heap_layout* pHeapLayout) +{ + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->capacity == 0) { + return MA_INVALID_ARGS; + } + + pHeapLayout->sizeInBytes = 0; + + /* Groups. */ + pHeapLayout->groupsOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(ma_slot_allocator_calculate_group_capacity(pConfig->capacity) * sizeof(ma_slot_allocator_group)); + + /* Slots. */ + pHeapLayout->slotsOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(pConfig->capacity * sizeof(ma_uint32)); + + return MA_SUCCESS; +} + +MA_API ma_result ma_slot_allocator_get_heap_size(const ma_slot_allocator_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_slot_allocator_heap_layout layout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_slot_allocator_get_heap_layout(pConfig, &layout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = layout.sizeInBytes; + + return result; +} + +MA_API ma_result ma_slot_allocator_init_preallocated(const ma_slot_allocator_config* pConfig, void* pHeap, ma_slot_allocator* pAllocator) +{ + ma_result result; + ma_slot_allocator_heap_layout heapLayout; + + if (pAllocator == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pAllocator); + + if (pHeap == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_slot_allocator_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pAllocator->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pAllocator->pGroups = (ma_slot_allocator_group*)ma_offset_ptr(pHeap, heapLayout.groupsOffset); + pAllocator->pSlots = (ma_uint32*)ma_offset_ptr(pHeap, heapLayout.slotsOffset); + pAllocator->capacity = pConfig->capacity; + + return MA_SUCCESS; +} + +MA_API ma_result ma_slot_allocator_init(const ma_slot_allocator_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_slot_allocator* pAllocator) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_slot_allocator_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; /* Failed to retrieve the size of the heap allocation. */ + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_slot_allocator_init_preallocated(pConfig, pHeap, pAllocator); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pAllocator->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_slot_allocator_uninit(ma_slot_allocator* pAllocator, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocator == NULL) { + return; + } + + if (pAllocator->_ownsHeap) { + ma_free(pAllocator->_pHeap, pAllocationCallbacks); + } +} + +MA_API ma_result ma_slot_allocator_alloc(ma_slot_allocator* pAllocator, ma_uint64* pSlot) +{ + ma_uint32 iAttempt; + const ma_uint32 maxAttempts = 2; /* The number of iterations to perform until returning MA_OUT_OF_MEMORY if no slots can be found. */ + + if (pAllocator == NULL || pSlot == NULL) { + return MA_INVALID_ARGS; + } + + for (iAttempt = 0; iAttempt < maxAttempts; iAttempt += 1) { + /* We need to acquire a suitable bitfield first. This is a bitfield that's got an available slot within it. */ + ma_uint32 iGroup; + for (iGroup = 0; iGroup < ma_slot_allocator_group_capacity(pAllocator); iGroup += 1) { + /* CAS */ + for (;;) { + ma_uint32 oldBitfield; + ma_uint32 newBitfield; + ma_uint32 bitOffset; + + oldBitfield = ma_atomic_load_32(&pAllocator->pGroups[iGroup].bitfield); /* <-- This copy must happen. The compiler must not optimize this away. */ + + /* Fast check to see if anything is available. */ + if (oldBitfield == 0xFFFFFFFF) { + break; /* No available bits in this bitfield. */ + } + + bitOffset = ma_ffs_32(~oldBitfield); + MA_ASSERT(bitOffset < 32); + + newBitfield = oldBitfield | (1 << bitOffset); + + if (ma_atomic_compare_and_swap_32(&pAllocator->pGroups[iGroup].bitfield, oldBitfield, newBitfield) == oldBitfield) { + ma_uint32 slotIndex; + + /* Increment the counter as soon as possible to have other threads report out-of-memory sooner than later. */ + ma_atomic_fetch_add_32(&pAllocator->count, 1); + + /* The slot index is required for constructing the output value. */ + slotIndex = (iGroup << 5) + bitOffset; /* iGroup << 5 = iGroup * 32 */ + if (slotIndex >= pAllocator->capacity) { + return MA_OUT_OF_MEMORY; + } + + /* Increment the reference count before constructing the output value. */ + pAllocator->pSlots[slotIndex] += 1; + + /* Construct the output value. */ + *pSlot = (((ma_uint64)pAllocator->pSlots[slotIndex] << 32) | slotIndex); + + return MA_SUCCESS; + } + } + } + + /* We weren't able to find a slot. If it's because we've reached our capacity we need to return MA_OUT_OF_MEMORY. Otherwise we need to do another iteration and try again. */ + if (pAllocator->count < pAllocator->capacity) { + ma_yield(); + } else { + return MA_OUT_OF_MEMORY; + } + } + + /* We couldn't find a slot within the maximum number of attempts. */ + return MA_OUT_OF_MEMORY; +} + +MA_API ma_result ma_slot_allocator_free(ma_slot_allocator* pAllocator, ma_uint64 slot) +{ + ma_uint32 iGroup; + ma_uint32 iBit; + + if (pAllocator == NULL) { + return MA_INVALID_ARGS; + } + + iGroup = (ma_uint32)((slot & 0xFFFFFFFF) >> 5); /* slot / 32 */ + iBit = (ma_uint32)((slot & 0xFFFFFFFF) & 31); /* slot % 32 */ + + if (iGroup >= ma_slot_allocator_group_capacity(pAllocator)) { + return MA_INVALID_ARGS; + } + + MA_ASSERT(iBit < 32); /* This must be true due to the logic we used to actually calculate it. */ + + while (ma_atomic_load_32(&pAllocator->count) > 0) { + /* CAS */ + ma_uint32 oldBitfield; + ma_uint32 newBitfield; + + oldBitfield = ma_atomic_load_32(&pAllocator->pGroups[iGroup].bitfield); /* <-- This copy must happen. The compiler must not optimize this away. */ + newBitfield = oldBitfield & ~(1 << iBit); + + /* Debugging for checking for double-frees. */ + #if defined(MA_DEBUG_OUTPUT) + { + if ((oldBitfield & (1 << iBit)) == 0) { + MA_ASSERT(MA_FALSE); /* Double free detected.*/ + } + } + #endif + + if (ma_atomic_compare_and_swap_32(&pAllocator->pGroups[iGroup].bitfield, oldBitfield, newBitfield) == oldBitfield) { + ma_atomic_fetch_sub_32(&pAllocator->count, 1); + return MA_SUCCESS; + } + } + + /* Getting here means there are no allocations available for freeing. */ + return MA_INVALID_OPERATION; +} + + +#define MA_JOB_ID_NONE ~((ma_uint64)0) +#define MA_JOB_SLOT_NONE (ma_uint16)(~0) + +static MA_INLINE ma_uint32 ma_job_extract_refcount(ma_uint64 toc) +{ + return (ma_uint32)(toc >> 32); +} + +static MA_INLINE ma_uint16 ma_job_extract_slot(ma_uint64 toc) +{ + return (ma_uint16)(toc & 0x0000FFFF); +} + +#if 0 /* Currently unused, but might make use of this later. */ +static MA_INLINE ma_uint16 ma_job_extract_code(ma_uint64 toc) +{ + return (ma_uint16)((toc & 0xFFFF0000) >> 16); +} +#endif + +static MA_INLINE ma_uint64 ma_job_toc_to_allocation(ma_uint64 toc) +{ + return ((ma_uint64)ma_job_extract_refcount(toc) << 32) | (ma_uint64)ma_job_extract_slot(toc); +} + +static MA_INLINE ma_uint64 ma_job_set_refcount(ma_uint64 toc, ma_uint32 refcount) +{ + /* Clear the reference count first. */ + toc = toc & ~((ma_uint64)0xFFFFFFFF << 32); + toc = toc | ((ma_uint64)refcount << 32); + + return toc; +} + + +MA_API ma_job ma_job_init(ma_uint16 code) +{ + ma_job job; + + MA_ZERO_OBJECT(&job); + job.toc.breakup.code = code; + job.toc.breakup.slot = MA_JOB_SLOT_NONE; /* Temp value. Will be allocated when posted to a queue. */ + job.next = MA_JOB_ID_NONE; + + return job; +} + + +static ma_result ma_job_process__noop(ma_job* pJob); +static ma_result ma_job_process__quit(ma_job* pJob); +static ma_result ma_job_process__custom(ma_job* pJob); +static ma_result ma_job_process__resource_manager__load_data_buffer_node(ma_job* pJob); +static ma_result ma_job_process__resource_manager__free_data_buffer_node(ma_job* pJob); +static ma_result ma_job_process__resource_manager__page_data_buffer_node(ma_job* pJob); +static ma_result ma_job_process__resource_manager__load_data_buffer(ma_job* pJob); +static ma_result ma_job_process__resource_manager__free_data_buffer(ma_job* pJob); +static ma_result ma_job_process__resource_manager__load_data_stream(ma_job* pJob); +static ma_result ma_job_process__resource_manager__free_data_stream(ma_job* pJob); +static ma_result ma_job_process__resource_manager__page_data_stream(ma_job* pJob); +static ma_result ma_job_process__resource_manager__seek_data_stream(ma_job* pJob); + +#if !defined(MA_NO_DEVICE_IO) +static ma_result ma_job_process__device__aaudio_reroute(ma_job* pJob); +#endif + +static ma_job_proc g_jobVTable[MA_JOB_TYPE_COUNT] = +{ + /* Miscellaneous. */ + ma_job_process__quit, /* MA_JOB_TYPE_QUIT */ + ma_job_process__custom, /* MA_JOB_TYPE_CUSTOM */ + + /* Resource Manager. */ + ma_job_process__resource_manager__load_data_buffer_node, /* MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_BUFFER_NODE */ + ma_job_process__resource_manager__free_data_buffer_node, /* MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_BUFFER_NODE */ + ma_job_process__resource_manager__page_data_buffer_node, /* MA_JOB_TYPE_RESOURCE_MANAGER_PAGE_DATA_BUFFER_NODE */ + ma_job_process__resource_manager__load_data_buffer, /* MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_BUFFER */ + ma_job_process__resource_manager__free_data_buffer, /* MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_BUFFER */ + ma_job_process__resource_manager__load_data_stream, /* MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_STREAM */ + ma_job_process__resource_manager__free_data_stream, /* MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_STREAM */ + ma_job_process__resource_manager__page_data_stream, /* MA_JOB_TYPE_RESOURCE_MANAGER_PAGE_DATA_STREAM */ + ma_job_process__resource_manager__seek_data_stream, /* MA_JOB_TYPE_RESOURCE_MANAGER_SEEK_DATA_STREAM */ + + /* Device. */ +#if !defined(MA_NO_DEVICE_IO) + ma_job_process__device__aaudio_reroute /* MA_JOB_TYPE_DEVICE_AAUDIO_REROUTE */ +#endif +}; + +MA_API ma_result ma_job_process(ma_job* pJob) +{ + if (pJob == NULL) { + return MA_INVALID_ARGS; + } + + if (pJob->toc.breakup.code >= MA_JOB_TYPE_COUNT) { + return MA_INVALID_OPERATION; + } + + return g_jobVTable[pJob->toc.breakup.code](pJob); +} + +static ma_result ma_job_process__noop(ma_job* pJob) +{ + MA_ASSERT(pJob != NULL); + + /* No-op. */ + (void)pJob; + + return MA_SUCCESS; +} + +static ma_result ma_job_process__quit(ma_job* pJob) +{ + return ma_job_process__noop(pJob); +} + +static ma_result ma_job_process__custom(ma_job* pJob) +{ + MA_ASSERT(pJob != NULL); + + /* No-op if there's no callback. */ + if (pJob->data.custom.proc == NULL) { + return MA_SUCCESS; + } + + return pJob->data.custom.proc(pJob); +} + + + +MA_API ma_job_queue_config ma_job_queue_config_init(ma_uint32 flags, ma_uint32 capacity) +{ + ma_job_queue_config config; + + config.flags = flags; + config.capacity = capacity; + + return config; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t allocatorOffset; + size_t jobsOffset; +} ma_job_queue_heap_layout; + +static ma_result ma_job_queue_get_heap_layout(const ma_job_queue_config* pConfig, ma_job_queue_heap_layout* pHeapLayout) +{ + ma_result result; + + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->capacity == 0) { + return MA_INVALID_ARGS; + } + + pHeapLayout->sizeInBytes = 0; + + /* Allocator. */ + { + ma_slot_allocator_config allocatorConfig; + size_t allocatorHeapSizeInBytes; + + allocatorConfig = ma_slot_allocator_config_init(pConfig->capacity); + result = ma_slot_allocator_get_heap_size(&allocatorConfig, &allocatorHeapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->allocatorOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += allocatorHeapSizeInBytes; + } + + /* Jobs. */ + pHeapLayout->jobsOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(pConfig->capacity * sizeof(ma_job)); + + return MA_SUCCESS; +} + +MA_API ma_result ma_job_queue_get_heap_size(const ma_job_queue_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_job_queue_heap_layout layout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_job_queue_get_heap_layout(pConfig, &layout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = layout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_job_queue_init_preallocated(const ma_job_queue_config* pConfig, void* pHeap, ma_job_queue* pQueue) +{ + ma_result result; + ma_job_queue_heap_layout heapLayout; + ma_slot_allocator_config allocatorConfig; + + if (pQueue == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pQueue); + + result = ma_job_queue_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pQueue->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pQueue->flags = pConfig->flags; + pQueue->capacity = pConfig->capacity; + pQueue->pJobs = (ma_job*)ma_offset_ptr(pHeap, heapLayout.jobsOffset); + + allocatorConfig = ma_slot_allocator_config_init(pConfig->capacity); + result = ma_slot_allocator_init_preallocated(&allocatorConfig, ma_offset_ptr(pHeap, heapLayout.allocatorOffset), &pQueue->allocator); + if (result != MA_SUCCESS) { + return result; + } + + /* We need a semaphore if we're running in non-blocking mode. If threading is disabled we need to return an error. */ + if ((pQueue->flags & MA_JOB_QUEUE_FLAG_NON_BLOCKING) == 0) { + #ifndef MA_NO_THREADING + { + ma_semaphore_init(0, &pQueue->sem); + } + #else + { + /* Threading is disabled and we've requested non-blocking mode. */ + return MA_INVALID_OPERATION; + } + #endif + } + + /* + Our queue needs to be initialized with a free standing node. This should always be slot 0. Required for the lock free algorithm. The first job in the queue is + just a dummy item for giving us the first item in the list which is stored in the "next" member. + */ + ma_slot_allocator_alloc(&pQueue->allocator, &pQueue->head); /* Will never fail. */ + pQueue->pJobs[ma_job_extract_slot(pQueue->head)].next = MA_JOB_ID_NONE; + pQueue->tail = pQueue->head; + + return MA_SUCCESS; +} + +MA_API ma_result ma_job_queue_init(const ma_job_queue_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_job_queue* pQueue) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_job_queue_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_job_queue_init_preallocated(pConfig, pHeap, pQueue); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pQueue->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_job_queue_uninit(ma_job_queue* pQueue, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pQueue == NULL) { + return; + } + + /* All we need to do is uninitialize the semaphore. */ + if ((pQueue->flags & MA_JOB_QUEUE_FLAG_NON_BLOCKING) == 0) { + #ifndef MA_NO_THREADING + { + ma_semaphore_uninit(&pQueue->sem); + } + #else + { + MA_ASSERT(MA_FALSE); /* Should never get here. Should have been checked at initialization time. */ + } + #endif + } + + ma_slot_allocator_uninit(&pQueue->allocator, pAllocationCallbacks); + + if (pQueue->_ownsHeap) { + ma_free(pQueue->_pHeap, pAllocationCallbacks); + } +} + +static ma_bool32 ma_job_queue_cas(volatile ma_uint64* dst, ma_uint64 expected, ma_uint64 desired) +{ + /* The new counter is taken from the expected value. */ + return ma_atomic_compare_and_swap_64(dst, expected, ma_job_set_refcount(desired, ma_job_extract_refcount(expected) + 1)) == expected; +} + +MA_API ma_result ma_job_queue_post(ma_job_queue* pQueue, const ma_job* pJob) +{ + /* + Lock free queue implementation based on the paper by Michael and Scott: Nonblocking Algorithms and Preemption-Safe Locking on Multiprogrammed Shared Memory Multiprocessors + */ + ma_result result; + ma_uint64 slot; + ma_uint64 tail; + ma_uint64 next; + + if (pQueue == NULL || pJob == NULL) { + return MA_INVALID_ARGS; + } + + /* We need a new slot. */ + result = ma_slot_allocator_alloc(&pQueue->allocator, &slot); + if (result != MA_SUCCESS) { + return result; /* Probably ran out of slots. If so, MA_OUT_OF_MEMORY will be returned. */ + } + + /* At this point we should have a slot to place the job. */ + MA_ASSERT(ma_job_extract_slot(slot) < pQueue->capacity); + + /* We need to put the job into memory before we do anything. */ + pQueue->pJobs[ma_job_extract_slot(slot)] = *pJob; + pQueue->pJobs[ma_job_extract_slot(slot)].toc.allocation = slot; /* This will overwrite the job code. */ + pQueue->pJobs[ma_job_extract_slot(slot)].toc.breakup.code = pJob->toc.breakup.code; /* The job code needs to be applied again because the line above overwrote it. */ + pQueue->pJobs[ma_job_extract_slot(slot)].next = MA_JOB_ID_NONE; /* Reset for safety. */ + + #ifndef MA_USE_EXPERIMENTAL_LOCK_FREE_JOB_QUEUE + ma_spinlock_lock(&pQueue->lock); + #endif + { + /* The job is stored in memory so now we need to add it to our linked list. We only ever add items to the end of the list. */ + for (;;) { + tail = ma_atomic_load_64(&pQueue->tail); + next = ma_atomic_load_64(&pQueue->pJobs[ma_job_extract_slot(tail)].next); + + if (ma_job_toc_to_allocation(tail) == ma_job_toc_to_allocation(ma_atomic_load_64(&pQueue->tail))) { + if (ma_job_extract_slot(next) == 0xFFFF) { + if (ma_job_queue_cas(&pQueue->pJobs[ma_job_extract_slot(tail)].next, next, slot)) { + break; + } + } else { + ma_job_queue_cas(&pQueue->tail, tail, ma_job_extract_slot(next)); + } + } + } + ma_job_queue_cas(&pQueue->tail, tail, slot); + } + #ifndef MA_USE_EXPERIMENTAL_LOCK_FREE_JOB_QUEUE + ma_spinlock_unlock(&pQueue->lock); + #endif + + + /* Signal the semaphore as the last step if we're using synchronous mode. */ + if ((pQueue->flags & MA_JOB_QUEUE_FLAG_NON_BLOCKING) == 0) { + #ifndef MA_NO_THREADING + { + ma_semaphore_release(&pQueue->sem); + } + #else + { + MA_ASSERT(MA_FALSE); /* Should never get here. Should have been checked at initialization time. */ + } + #endif + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_job_queue_next(ma_job_queue* pQueue, ma_job* pJob) +{ + ma_uint64 head; + ma_uint64 tail; + ma_uint64 next; + + if (pQueue == NULL || pJob == NULL) { + return MA_INVALID_ARGS; + } + + /* If we're running in synchronous mode we'll need to wait on a semaphore. */ + if ((pQueue->flags & MA_JOB_QUEUE_FLAG_NON_BLOCKING) == 0) { + #ifndef MA_NO_THREADING + { + ma_semaphore_wait(&pQueue->sem); + } + #else + { + MA_ASSERT(MA_FALSE); /* Should never get here. Should have been checked at initialization time. */ + } + #endif + } + + #ifndef MA_USE_EXPERIMENTAL_LOCK_FREE_JOB_QUEUE + ma_spinlock_lock(&pQueue->lock); + #endif + { + /* + BUG: In lock-free mode, multiple threads can be in this section of code. The "head" variable in the loop below + is stored. One thread can fall through to the freeing of this item while another is still using "head" for the + retrieval of the "next" variable. + + The slot allocator might need to make use of some reference counting to ensure it's only truly freed when + there are no more references to the item. This must be fixed before removing these locks. + */ + + /* Now we need to remove the root item from the list. */ + for (;;) { + head = ma_atomic_load_64(&pQueue->head); + tail = ma_atomic_load_64(&pQueue->tail); + next = ma_atomic_load_64(&pQueue->pJobs[ma_job_extract_slot(head)].next); + + if (ma_job_toc_to_allocation(head) == ma_job_toc_to_allocation(ma_atomic_load_64(&pQueue->head))) { + if (ma_job_extract_slot(head) == ma_job_extract_slot(tail)) { + if (ma_job_extract_slot(next) == 0xFFFF) { + #ifndef MA_USE_EXPERIMENTAL_LOCK_FREE_JOB_QUEUE + ma_spinlock_unlock(&pQueue->lock); + #endif + return MA_NO_DATA_AVAILABLE; + } + ma_job_queue_cas(&pQueue->tail, tail, ma_job_extract_slot(next)); + } else { + *pJob = pQueue->pJobs[ma_job_extract_slot(next)]; + if (ma_job_queue_cas(&pQueue->head, head, ma_job_extract_slot(next))) { + break; + } + } + } + } + } + #ifndef MA_USE_EXPERIMENTAL_LOCK_FREE_JOB_QUEUE + ma_spinlock_unlock(&pQueue->lock); + #endif + + ma_slot_allocator_free(&pQueue->allocator, head); + + /* + If it's a quit job make sure it's put back on the queue to ensure other threads have an opportunity to detect it and terminate naturally. We + could instead just leave it on the queue, but that would involve fiddling with the lock-free code above and I want to keep that as simple as + possible. + */ + if (pJob->toc.breakup.code == MA_JOB_TYPE_QUIT) { + ma_job_queue_post(pQueue, pJob); + return MA_CANCELLED; /* Return a cancelled status just in case the thread is checking return codes and not properly checking for a quit job. */ + } + + return MA_SUCCESS; +} + + + +/******************************************************************************* + +Dynamic Linking + +*******************************************************************************/ +/* Disable run-time linking on certain backends and platforms. */ +#ifndef MA_NO_RUNTIME_LINKING + #if defined(MA_EMSCRIPTEN) || defined(MA_ORBIS) || defined(MA_PROSPERO) || defined(MA_SWITCH) || defined(MA_DOS) + #define MA_NO_RUNTIME_LINKING + #endif +#endif + +#ifdef MA_POSIX + /* No need for dlfcn.h if we're not using runtime linking. */ + #ifndef MA_NO_RUNTIME_LINKING + #include + #endif +#endif + +MA_API ma_handle ma_dlopen(ma_log* pLog, const char* filename) +{ + #ifndef MA_NO_RUNTIME_LINKING + { + ma_handle handle; + + ma_log_postf(pLog, MA_LOG_LEVEL_DEBUG, "Loading library: %s\n", filename); + + #ifdef MA_WIN32 + /* From MSDN: Desktop applications cannot use LoadPackagedLibrary; if a desktop application calls this function it fails with APPMODEL_ERROR_NO_PACKAGE.*/ + #if !defined(MA_WIN32_UWP) || !(defined(WINAPI_FAMILY) && ((defined(WINAPI_FAMILY_PHONE_APP) && WINAPI_FAMILY == WINAPI_FAMILY_PHONE_APP))) + handle = (ma_handle)LoadLibraryA(filename); + #else + /* *sigh* It appears there is no ANSI version of LoadPackagedLibrary()... */ + WCHAR filenameW[4096]; + if (MultiByteToWideChar(CP_UTF8, 0, filename, -1, filenameW, sizeof(filenameW)) == 0) { + handle = NULL; + } else { + handle = (ma_handle)LoadPackagedLibrary(filenameW, 0); + } + #endif + #else + handle = (ma_handle)dlopen(filename, RTLD_NOW); + #endif + + /* + I'm not considering failure to load a library an error nor a warning because seamlessly falling through to a lower-priority + backend is a deliberate design choice. Instead I'm logging it as an informational message. + */ + if (handle == NULL) { + ma_log_postf(pLog, MA_LOG_LEVEL_INFO, "Failed to load library: %s\n", filename); + } + + return handle; + } + #else + { + /* Runtime linking is disabled. */ + (void)pLog; + (void)filename; + return NULL; + } + #endif +} + +MA_API void ma_dlclose(ma_log* pLog, ma_handle handle) +{ + #ifndef MA_NO_RUNTIME_LINKING + { + #ifdef MA_WIN32 + { + FreeLibrary((HMODULE)handle); + } + #else + { + /* Hack for Android bug (see https://github.com/android/ndk/issues/360). Calling dlclose() pre-API 28 may segfault. */ + #if !defined(MA_ANDROID) || (defined(__ANDROID_API__) && __ANDROID_API__ >= 28) + { + dlclose((void*)handle); + } + #else + { + (void)handle; + } + #endif + } + #endif + + (void)pLog; + } + #else + { + /* Runtime linking is disabled. */ + (void)pLog; + (void)handle; + } + #endif +} + +MA_API ma_proc ma_dlsym(ma_log* pLog, ma_handle handle, const char* symbol) +{ + #ifndef MA_NO_RUNTIME_LINKING + { + ma_proc proc; + + ma_log_postf(pLog, MA_LOG_LEVEL_DEBUG, "Loading symbol: %s\n", symbol); + + #ifdef _WIN32 + { + proc = (ma_proc)GetProcAddress((HMODULE)handle, symbol); + } + #else + { + #if (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))) || defined(__clang__) + #pragma GCC diagnostic push + #pragma GCC diagnostic ignored "-Wpedantic" + #endif + proc = (ma_proc)dlsym((void*)handle, symbol); + #if (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))) || defined(__clang__) + #pragma GCC diagnostic pop + #endif + } + #endif + + if (proc == NULL) { + ma_log_postf(pLog, MA_LOG_LEVEL_WARNING, "Failed to load symbol: %s\n", symbol); + } + + (void)pLog; /* It's possible for pContext to be unused. */ + return proc; + } + #else + { + /* Runtime linking is disabled. */ + (void)pLog; + (void)handle; + (void)symbol; + return NULL; + } + #endif +} + + + +/************************************************************************************************************************************************************ +************************************************************************************************************************************************************* + +DEVICE I/O +========== + +************************************************************************************************************************************************************* +************************************************************************************************************************************************************/ + +#ifdef MA_APPLE + #include +#endif + +#ifndef MA_NO_DEVICE_IO + +#if defined(MA_APPLE) && (MAC_OS_X_VERSION_MIN_REQUIRED < 101200) + #include /* For mach_absolute_time() */ +#endif + +#ifdef MA_POSIX + #include +#endif + +/* This must be set to at least 26. */ +#ifndef MA_AAUDIO_MIN_ANDROID_SDK_VERSION +#define MA_AAUDIO_MIN_ANDROID_SDK_VERSION 27 +#endif + + +MA_API void ma_device_info_add_native_data_format(ma_device_info* pDeviceInfo, ma_format format, ma_uint32 channels, ma_uint32 sampleRate, ma_uint32 flags) +{ + if (pDeviceInfo == NULL) { + return; + } + + if (pDeviceInfo->nativeDataFormatCount < ma_countof(pDeviceInfo->nativeDataFormats)) { + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].format = format; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].channels = channels; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].sampleRate = sampleRate; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].flags = flags; + pDeviceInfo->nativeDataFormatCount += 1; + } +} + + +typedef struct +{ + ma_backend backend; + const char* pName; +} ma_backend_info; + +static ma_backend_info gBackendInfo[] = /* Indexed by the backend enum. Must be in the order backends are declared in the ma_backend enum. */ +{ + {ma_backend_wasapi, "WASAPI"}, + {ma_backend_dsound, "DirectSound"}, + {ma_backend_winmm, "WinMM"}, + {ma_backend_coreaudio, "Core Audio"}, + {ma_backend_sndio, "sndio"}, + {ma_backend_audio4, "audio(4)"}, + {ma_backend_oss, "OSS"}, + {ma_backend_pulseaudio, "PulseAudio"}, + {ma_backend_alsa, "ALSA"}, + {ma_backend_jack, "JACK"}, + {ma_backend_aaudio, "AAudio"}, + {ma_backend_opensl, "OpenSL|ES"}, + {ma_backend_webaudio, "Web Audio"}, + {ma_backend_custom, "Custom"}, + {ma_backend_null, "Null"} +}; + +MA_API const char* ma_get_backend_name(ma_backend backend) +{ + if (backend < 0 || backend >= (int)ma_countof(gBackendInfo)) { + return "Unknown"; + } + + return gBackendInfo[backend].pName; +} + +MA_API ma_result ma_get_backend_from_name(const char* pBackendName, ma_backend* pBackend) +{ + size_t iBackend; + + if (pBackendName == NULL) { + return MA_INVALID_ARGS; + } + + for (iBackend = 0; iBackend < ma_countof(gBackendInfo); iBackend += 1) { + if (ma_strcmp(pBackendName, gBackendInfo[iBackend].pName) == 0) { + if (pBackend != NULL) { + *pBackend = gBackendInfo[iBackend].backend; + } + + return MA_SUCCESS; + } + } + + /* Getting here means the backend name is unknown. */ + return MA_INVALID_ARGS; +} + +MA_API ma_bool32 ma_is_backend_enabled(ma_backend backend) +{ + /* + This looks a little bit gross, but we want all backends to be included in the switch to avoid warnings on some compilers + about some enums not being handled by the switch statement. + */ + switch (backend) + { + case ma_backend_wasapi: + #if defined(MA_HAS_WASAPI) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_dsound: + #if defined(MA_HAS_DSOUND) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_winmm: + #if defined(MA_HAS_WINMM) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_coreaudio: + #if defined(MA_HAS_COREAUDIO) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_sndio: + #if defined(MA_HAS_SNDIO) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_audio4: + #if defined(MA_HAS_AUDIO4) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_oss: + #if defined(MA_HAS_OSS) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_pulseaudio: + #if defined(MA_HAS_PULSEAUDIO) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_alsa: + #if defined(MA_HAS_ALSA) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_jack: + #if defined(MA_HAS_JACK) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_aaudio: + #if defined(MA_HAS_AAUDIO) + #if defined(MA_ANDROID) + { + return ma_android_sdk_version() >= MA_AAUDIO_MIN_ANDROID_SDK_VERSION; + } + #else + return MA_FALSE; + #endif + #else + return MA_FALSE; + #endif + case ma_backend_opensl: + #if defined(MA_HAS_OPENSL) + #if defined(MA_ANDROID) + { + return ma_android_sdk_version() >= 9; + } + #else + return MA_TRUE; + #endif + #else + return MA_FALSE; + #endif + case ma_backend_webaudio: + #if defined(MA_HAS_WEBAUDIO) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_custom: + #if defined(MA_HAS_CUSTOM) + return MA_TRUE; + #else + return MA_FALSE; + #endif + case ma_backend_null: + #if defined(MA_HAS_NULL) + return MA_TRUE; + #else + return MA_FALSE; + #endif + + default: return MA_FALSE; + } +} + +MA_API ma_result ma_get_enabled_backends(ma_backend* pBackends, size_t backendCap, size_t* pBackendCount) +{ + size_t backendCount; + size_t iBackend; + ma_result result = MA_SUCCESS; + + if (pBackendCount == NULL) { + return MA_INVALID_ARGS; + } + + backendCount = 0; + + for (iBackend = 0; iBackend <= ma_backend_null; iBackend += 1) { + ma_backend backend = (ma_backend)iBackend; + + if (ma_is_backend_enabled(backend)) { + /* The backend is enabled. Try adding it to the list. If there's no room, MA_NO_SPACE needs to be returned. */ + if (backendCount == backendCap) { + result = MA_NO_SPACE; + break; + } else { + pBackends[backendCount] = backend; + backendCount += 1; + } + } + } + + if (pBackendCount != NULL) { + *pBackendCount = backendCount; + } + + return result; +} + +MA_API ma_bool32 ma_is_loopback_supported(ma_backend backend) +{ + switch (backend) + { + case ma_backend_wasapi: return MA_TRUE; + case ma_backend_dsound: return MA_FALSE; + case ma_backend_winmm: return MA_FALSE; + case ma_backend_coreaudio: return MA_FALSE; + case ma_backend_sndio: return MA_FALSE; + case ma_backend_audio4: return MA_FALSE; + case ma_backend_oss: return MA_FALSE; + case ma_backend_pulseaudio: return MA_FALSE; + case ma_backend_alsa: return MA_FALSE; + case ma_backend_jack: return MA_FALSE; + case ma_backend_aaudio: return MA_FALSE; + case ma_backend_opensl: return MA_FALSE; + case ma_backend_webaudio: return MA_FALSE; + case ma_backend_custom: return MA_FALSE; /* <-- Will depend on the implementation of the backend. */ + case ma_backend_null: return MA_FALSE; + default: return MA_FALSE; + } +} + + + +#if defined(MA_WIN32) && !defined(MA_XBOX) +/* WASAPI error codes. */ +#define MA_AUDCLNT_E_NOT_INITIALIZED ((HRESULT)0x88890001) +#define MA_AUDCLNT_E_ALREADY_INITIALIZED ((HRESULT)0x88890002) +#define MA_AUDCLNT_E_WRONG_ENDPOINT_TYPE ((HRESULT)0x88890003) +#define MA_AUDCLNT_E_DEVICE_INVALIDATED ((HRESULT)0x88890004) +#define MA_AUDCLNT_E_NOT_STOPPED ((HRESULT)0x88890005) +#define MA_AUDCLNT_E_BUFFER_TOO_LARGE ((HRESULT)0x88890006) +#define MA_AUDCLNT_E_OUT_OF_ORDER ((HRESULT)0x88890007) +#define MA_AUDCLNT_E_UNSUPPORTED_FORMAT ((HRESULT)0x88890008) +#define MA_AUDCLNT_E_INVALID_SIZE ((HRESULT)0x88890009) +#define MA_AUDCLNT_E_DEVICE_IN_USE ((HRESULT)0x8889000A) +#define MA_AUDCLNT_E_BUFFER_OPERATION_PENDING ((HRESULT)0x8889000B) +#define MA_AUDCLNT_E_THREAD_NOT_REGISTERED ((HRESULT)0x8889000C) +#define MA_AUDCLNT_E_NO_SINGLE_PROCESS ((HRESULT)0x8889000D) +#define MA_AUDCLNT_E_EXCLUSIVE_MODE_NOT_ALLOWED ((HRESULT)0x8889000E) +#define MA_AUDCLNT_E_ENDPOINT_CREATE_FAILED ((HRESULT)0x8889000F) +#define MA_AUDCLNT_E_SERVICE_NOT_RUNNING ((HRESULT)0x88890010) +#define MA_AUDCLNT_E_EVENTHANDLE_NOT_EXPECTED ((HRESULT)0x88890011) +#define MA_AUDCLNT_E_EXCLUSIVE_MODE_ONLY ((HRESULT)0x88890012) +#define MA_AUDCLNT_E_BUFDURATION_PERIOD_NOT_EQUAL ((HRESULT)0x88890013) +#define MA_AUDCLNT_E_EVENTHANDLE_NOT_SET ((HRESULT)0x88890014) +#define MA_AUDCLNT_E_INCORRECT_BUFFER_SIZE ((HRESULT)0x88890015) +#define MA_AUDCLNT_E_BUFFER_SIZE_ERROR ((HRESULT)0x88890016) +#define MA_AUDCLNT_E_CPUUSAGE_EXCEEDED ((HRESULT)0x88890017) +#define MA_AUDCLNT_E_BUFFER_ERROR ((HRESULT)0x88890018) +#define MA_AUDCLNT_E_BUFFER_SIZE_NOT_ALIGNED ((HRESULT)0x88890019) +#define MA_AUDCLNT_E_INVALID_DEVICE_PERIOD ((HRESULT)0x88890020) +#define MA_AUDCLNT_E_INVALID_STREAM_FLAG ((HRESULT)0x88890021) +#define MA_AUDCLNT_E_ENDPOINT_OFFLOAD_NOT_CAPABLE ((HRESULT)0x88890022) +#define MA_AUDCLNT_E_OUT_OF_OFFLOAD_RESOURCES ((HRESULT)0x88890023) +#define MA_AUDCLNT_E_OFFLOAD_MODE_ONLY ((HRESULT)0x88890024) +#define MA_AUDCLNT_E_NONOFFLOAD_MODE_ONLY ((HRESULT)0x88890025) +#define MA_AUDCLNT_E_RESOURCES_INVALIDATED ((HRESULT)0x88890026) +#define MA_AUDCLNT_E_RAW_MODE_UNSUPPORTED ((HRESULT)0x88890027) +#define MA_AUDCLNT_E_ENGINE_PERIODICITY_LOCKED ((HRESULT)0x88890028) +#define MA_AUDCLNT_E_ENGINE_FORMAT_LOCKED ((HRESULT)0x88890029) +#define MA_AUDCLNT_E_HEADTRACKING_ENABLED ((HRESULT)0x88890030) +#define MA_AUDCLNT_E_HEADTRACKING_UNSUPPORTED ((HRESULT)0x88890040) +#define MA_AUDCLNT_S_BUFFER_EMPTY ((HRESULT)0x08890001) +#define MA_AUDCLNT_S_THREAD_ALREADY_REGISTERED ((HRESULT)0x08890002) +#define MA_AUDCLNT_S_POSITION_STALLED ((HRESULT)0x08890003) + +#define MA_DS_OK ((HRESULT)0) +#define MA_DS_NO_VIRTUALIZATION ((HRESULT)0x0878000A) +#define MA_DSERR_ALLOCATED ((HRESULT)0x8878000A) +#define MA_DSERR_CONTROLUNAVAIL ((HRESULT)0x8878001E) +#define MA_DSERR_INVALIDPARAM ((HRESULT)0x80070057) /*E_INVALIDARG*/ +#define MA_DSERR_INVALIDCALL ((HRESULT)0x88780032) +#define MA_DSERR_GENERIC ((HRESULT)0x80004005) /*E_FAIL*/ +#define MA_DSERR_PRIOLEVELNEEDED ((HRESULT)0x88780046) +#define MA_DSERR_OUTOFMEMORY ((HRESULT)0x8007000E) /*E_OUTOFMEMORY*/ +#define MA_DSERR_BADFORMAT ((HRESULT)0x88780064) +#define MA_DSERR_UNSUPPORTED ((HRESULT)0x80004001) /*E_NOTIMPL*/ +#define MA_DSERR_NODRIVER ((HRESULT)0x88780078) +#define MA_DSERR_ALREADYINITIALIZED ((HRESULT)0x88780082) +#define MA_DSERR_NOAGGREGATION ((HRESULT)0x80040110) /*CLASS_E_NOAGGREGATION*/ +#define MA_DSERR_BUFFERLOST ((HRESULT)0x88780096) +#define MA_DSERR_OTHERAPPHASPRIO ((HRESULT)0x887800A0) +#define MA_DSERR_UNINITIALIZED ((HRESULT)0x887800AA) +#define MA_DSERR_NOINTERFACE ((HRESULT)0x80004002) /*E_NOINTERFACE*/ +#define MA_DSERR_ACCESSDENIED ((HRESULT)0x80070005) /*E_ACCESSDENIED*/ +#define MA_DSERR_BUFFERTOOSMALL ((HRESULT)0x887800B4) +#define MA_DSERR_DS8_REQUIRED ((HRESULT)0x887800BE) +#define MA_DSERR_SENDLOOP ((HRESULT)0x887800C8) +#define MA_DSERR_BADSENDBUFFERGUID ((HRESULT)0x887800D2) +#define MA_DSERR_OBJECTNOTFOUND ((HRESULT)0x88781161) +#define MA_DSERR_FXUNAVAILABLE ((HRESULT)0x887800DC) + +static ma_result ma_result_from_HRESULT(HRESULT hr) +{ + switch (hr) + { + case NOERROR: return MA_SUCCESS; + /*case S_OK: return MA_SUCCESS;*/ + + case E_POINTER: return MA_INVALID_ARGS; + case E_UNEXPECTED: return MA_ERROR; + case E_NOTIMPL: return MA_NOT_IMPLEMENTED; + case E_OUTOFMEMORY: return MA_OUT_OF_MEMORY; + case E_INVALIDARG: return MA_INVALID_ARGS; + case E_NOINTERFACE: return MA_API_NOT_FOUND; + case E_HANDLE: return MA_INVALID_ARGS; + case E_ABORT: return MA_ERROR; + case E_FAIL: return MA_ERROR; + case E_ACCESSDENIED: return MA_ACCESS_DENIED; + + /* WASAPI */ + case MA_AUDCLNT_E_NOT_INITIALIZED: return MA_DEVICE_NOT_INITIALIZED; + case MA_AUDCLNT_E_ALREADY_INITIALIZED: return MA_DEVICE_ALREADY_INITIALIZED; + case MA_AUDCLNT_E_WRONG_ENDPOINT_TYPE: return MA_INVALID_ARGS; + case MA_AUDCLNT_E_DEVICE_INVALIDATED: return MA_UNAVAILABLE; + case MA_AUDCLNT_E_NOT_STOPPED: return MA_DEVICE_NOT_STOPPED; + case MA_AUDCLNT_E_BUFFER_TOO_LARGE: return MA_TOO_BIG; + case MA_AUDCLNT_E_OUT_OF_ORDER: return MA_INVALID_OPERATION; + case MA_AUDCLNT_E_UNSUPPORTED_FORMAT: return MA_FORMAT_NOT_SUPPORTED; + case MA_AUDCLNT_E_INVALID_SIZE: return MA_INVALID_ARGS; + case MA_AUDCLNT_E_DEVICE_IN_USE: return MA_BUSY; + case MA_AUDCLNT_E_BUFFER_OPERATION_PENDING: return MA_INVALID_OPERATION; + case MA_AUDCLNT_E_THREAD_NOT_REGISTERED: return MA_DOES_NOT_EXIST; + case MA_AUDCLNT_E_NO_SINGLE_PROCESS: return MA_INVALID_OPERATION; + case MA_AUDCLNT_E_EXCLUSIVE_MODE_NOT_ALLOWED: return MA_SHARE_MODE_NOT_SUPPORTED; + case MA_AUDCLNT_E_ENDPOINT_CREATE_FAILED: return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + case MA_AUDCLNT_E_SERVICE_NOT_RUNNING: return MA_NOT_CONNECTED; + case MA_AUDCLNT_E_EVENTHANDLE_NOT_EXPECTED: return MA_INVALID_ARGS; + case MA_AUDCLNT_E_EXCLUSIVE_MODE_ONLY: return MA_SHARE_MODE_NOT_SUPPORTED; + case MA_AUDCLNT_E_BUFDURATION_PERIOD_NOT_EQUAL: return MA_INVALID_ARGS; + case MA_AUDCLNT_E_EVENTHANDLE_NOT_SET: return MA_INVALID_ARGS; + case MA_AUDCLNT_E_INCORRECT_BUFFER_SIZE: return MA_INVALID_ARGS; + case MA_AUDCLNT_E_BUFFER_SIZE_ERROR: return MA_INVALID_ARGS; + case MA_AUDCLNT_E_CPUUSAGE_EXCEEDED: return MA_ERROR; + case MA_AUDCLNT_E_BUFFER_ERROR: return MA_ERROR; + case MA_AUDCLNT_E_BUFFER_SIZE_NOT_ALIGNED: return MA_INVALID_ARGS; + case MA_AUDCLNT_E_INVALID_DEVICE_PERIOD: return MA_INVALID_ARGS; + case MA_AUDCLNT_E_INVALID_STREAM_FLAG: return MA_INVALID_ARGS; + case MA_AUDCLNT_E_ENDPOINT_OFFLOAD_NOT_CAPABLE: return MA_INVALID_OPERATION; + case MA_AUDCLNT_E_OUT_OF_OFFLOAD_RESOURCES: return MA_OUT_OF_MEMORY; + case MA_AUDCLNT_E_OFFLOAD_MODE_ONLY: return MA_INVALID_OPERATION; + case MA_AUDCLNT_E_NONOFFLOAD_MODE_ONLY: return MA_INVALID_OPERATION; + case MA_AUDCLNT_E_RESOURCES_INVALIDATED: return MA_INVALID_DATA; + case MA_AUDCLNT_E_RAW_MODE_UNSUPPORTED: return MA_INVALID_OPERATION; + case MA_AUDCLNT_E_ENGINE_PERIODICITY_LOCKED: return MA_INVALID_OPERATION; + case MA_AUDCLNT_E_ENGINE_FORMAT_LOCKED: return MA_INVALID_OPERATION; + case MA_AUDCLNT_E_HEADTRACKING_ENABLED: return MA_INVALID_OPERATION; + case MA_AUDCLNT_E_HEADTRACKING_UNSUPPORTED: return MA_INVALID_OPERATION; + case MA_AUDCLNT_S_BUFFER_EMPTY: return MA_NO_SPACE; + case MA_AUDCLNT_S_THREAD_ALREADY_REGISTERED: return MA_ALREADY_EXISTS; + case MA_AUDCLNT_S_POSITION_STALLED: return MA_ERROR; + + /* DirectSound */ + /*case MA_DS_OK: return MA_SUCCESS;*/ /* S_OK */ + case MA_DS_NO_VIRTUALIZATION: return MA_SUCCESS; + case MA_DSERR_ALLOCATED: return MA_ALREADY_IN_USE; + case MA_DSERR_CONTROLUNAVAIL: return MA_INVALID_OPERATION; + /*case MA_DSERR_INVALIDPARAM: return MA_INVALID_ARGS;*/ /* E_INVALIDARG */ + case MA_DSERR_INVALIDCALL: return MA_INVALID_OPERATION; + /*case MA_DSERR_GENERIC: return MA_ERROR;*/ /* E_FAIL */ + case MA_DSERR_PRIOLEVELNEEDED: return MA_INVALID_OPERATION; + /*case MA_DSERR_OUTOFMEMORY: return MA_OUT_OF_MEMORY;*/ /* E_OUTOFMEMORY */ + case MA_DSERR_BADFORMAT: return MA_FORMAT_NOT_SUPPORTED; + /*case MA_DSERR_UNSUPPORTED: return MA_NOT_IMPLEMENTED;*/ /* E_NOTIMPL */ + case MA_DSERR_NODRIVER: return MA_FAILED_TO_INIT_BACKEND; + case MA_DSERR_ALREADYINITIALIZED: return MA_DEVICE_ALREADY_INITIALIZED; + case MA_DSERR_NOAGGREGATION: return MA_ERROR; + case MA_DSERR_BUFFERLOST: return MA_UNAVAILABLE; + case MA_DSERR_OTHERAPPHASPRIO: return MA_ACCESS_DENIED; + case MA_DSERR_UNINITIALIZED: return MA_DEVICE_NOT_INITIALIZED; + /*case MA_DSERR_NOINTERFACE: return MA_API_NOT_FOUND;*/ /* E_NOINTERFACE */ + /*case MA_DSERR_ACCESSDENIED: return MA_ACCESS_DENIED;*/ /* E_ACCESSDENIED */ + case MA_DSERR_BUFFERTOOSMALL: return MA_NO_SPACE; + case MA_DSERR_DS8_REQUIRED: return MA_INVALID_OPERATION; + case MA_DSERR_SENDLOOP: return MA_DEADLOCK; + case MA_DSERR_BADSENDBUFFERGUID: return MA_INVALID_ARGS; + case MA_DSERR_OBJECTNOTFOUND: return MA_NO_DEVICE; + case MA_DSERR_FXUNAVAILABLE: return MA_UNAVAILABLE; + + default: return MA_ERROR; + } +} + +/* PROPVARIANT */ +#define MA_VT_LPWSTR 31 +#define MA_VT_BLOB 65 + +#if defined(_MSC_VER) && !defined(__clang__) + #pragma warning(push) + #pragma warning(disable:4201) /* nonstandard extension used: nameless struct/union */ +#elif defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))) + #pragma GCC diagnostic push + #pragma GCC diagnostic ignored "-Wpedantic" /* For ISO C99 doesn't support unnamed structs/unions [-Wpedantic] */ + #if defined(__clang__) + #pragma GCC diagnostic ignored "-Wc11-extensions" /* anonymous unions are a C11 extension */ + #endif +#endif +typedef struct +{ + WORD vt; + WORD wReserved1; + WORD wReserved2; + WORD wReserved3; + union + { + struct + { + ULONG cbSize; + BYTE* pBlobData; + } blob; + WCHAR* pwszVal; + char pad[16]; /* Just to ensure the size of the struct matches the official version. */ + }; +} MA_PROPVARIANT; +#if defined(_MSC_VER) && !defined(__clang__) + #pragma warning(pop) +#elif defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))) + #pragma GCC diagnostic pop +#endif + +typedef HRESULT (WINAPI * MA_PFN_CoInitialize)(void* pvReserved); +typedef HRESULT (WINAPI * MA_PFN_CoInitializeEx)(void* pvReserved, DWORD dwCoInit); +typedef void (WINAPI * MA_PFN_CoUninitialize)(void); +typedef HRESULT (WINAPI * MA_PFN_CoCreateInstance)(const IID* rclsid, void* pUnkOuter, DWORD dwClsContext, const IID* riid, void* ppv); +typedef void (WINAPI * MA_PFN_CoTaskMemFree)(void* pv); +typedef HRESULT (WINAPI * MA_PFN_PropVariantClear)(MA_PROPVARIANT *pvar); +typedef int (WINAPI * MA_PFN_StringFromGUID2)(const GUID* const rguid, WCHAR* lpsz, int cchMax); + +typedef HWND (WINAPI * MA_PFN_GetForegroundWindow)(void); +typedef HWND (WINAPI * MA_PFN_GetDesktopWindow)(void); + +#if defined(MA_WIN32_DESKTOP) +/* Microsoft documents these APIs as returning LSTATUS, but the Win32 API shipping with some compilers do not define it. It's just a LONG. */ +typedef LONG (WINAPI * MA_PFN_RegOpenKeyExA)(HKEY hKey, const char* lpSubKey, DWORD ulOptions, DWORD samDesired, HKEY* phkResult); +typedef LONG (WINAPI * MA_PFN_RegCloseKey)(HKEY hKey); +typedef LONG (WINAPI * MA_PFN_RegQueryValueExA)(HKEY hKey, const char* lpValueName, DWORD* lpReserved, DWORD* lpType, BYTE* lpData, DWORD* lpcbData); +#endif /* MA_WIN32_DESKTOP */ + +static GUID MA_GUID_KSDATAFORMAT_SUBTYPE_PCM = {0x00000001, 0x0000, 0x0010, {0x80, 0x00, 0x00, 0xaa, 0x00, 0x38, 0x9b, 0x71}}; +static GUID MA_GUID_KSDATAFORMAT_SUBTYPE_IEEE_FLOAT = {0x00000003, 0x0000, 0x0010, {0x80, 0x00, 0x00, 0xaa, 0x00, 0x38, 0x9b, 0x71}}; +/*static GUID MA_GUID_KSDATAFORMAT_SUBTYPE_ALAW = {0x00000006, 0x0000, 0x0010, {0x80, 0x00, 0x00, 0xaa, 0x00, 0x38, 0x9b, 0x71}};*/ +/*static GUID MA_GUID_KSDATAFORMAT_SUBTYPE_MULAW = {0x00000007, 0x0000, 0x0010, {0x80, 0x00, 0x00, 0xaa, 0x00, 0x38, 0x9b, 0x71}};*/ + +MA_API size_t ma_strlen_WCHAR(const WCHAR* str) +{ + size_t len = 0; + while (str[len] != '\0') { + len += 1; + } + + return len; +} + +MA_API int ma_strcmp_WCHAR(const WCHAR *s1, const WCHAR *s2) +{ + while (*s1 != '\0' && *s1 == *s2) { + s1 += 1; + s2 += 1; + } + + return *s1 - *s2; +} + +MA_API int ma_strcpy_s_WCHAR(WCHAR* dst, size_t dstCap, const WCHAR* src) +{ + size_t i; + + if (dst == 0) { + return 22; + } + if (dstCap == 0) { + return 34; + } + if (src == 0) { + dst[0] = '\0'; + return 22; + } + + for (i = 0; i < dstCap && src[i] != '\0'; ++i) { + dst[i] = src[i]; + } + + if (i < dstCap) { + dst[i] = '\0'; + return 0; + } + + dst[0] = '\0'; + return 34; +} +#endif /* MA_WIN32 */ + + +#define MA_DEFAULT_PLAYBACK_DEVICE_NAME "Default Playback Device" +#define MA_DEFAULT_CAPTURE_DEVICE_NAME "Default Capture Device" + + + + +/******************************************************************************* + +Timing + +*******************************************************************************/ +#if defined(MA_WIN32) && !defined(MA_POSIX) + static LARGE_INTEGER g_ma_TimerFrequency; /* <-- Initialized to zero since it's static. */ + static MA_INLINE void ma_timer_init(ma_timer* pTimer) + { + LARGE_INTEGER counter; + + if (g_ma_TimerFrequency.QuadPart == 0) { + QueryPerformanceFrequency(&g_ma_TimerFrequency); + } + + QueryPerformanceCounter(&counter); + pTimer->counter = counter.QuadPart; + } + + static MA_INLINE double ma_timer_get_time_in_seconds(ma_timer* pTimer) + { + LARGE_INTEGER counter; + if (!QueryPerformanceCounter(&counter)) { + return 0; + } + + return (double)(counter.QuadPart - pTimer->counter) / g_ma_TimerFrequency.QuadPart; + } +#elif defined(MA_APPLE) && (MAC_OS_X_VERSION_MIN_REQUIRED < 101200) + static ma_uint64 g_ma_TimerFrequency = 0; + static MA_INLINE void ma_timer_init(ma_timer* pTimer) + { + mach_timebase_info_data_t baseTime; + mach_timebase_info(&baseTime); + g_ma_TimerFrequency = (baseTime.denom * 1e9) / baseTime.numer; + + pTimer->counter = mach_absolute_time(); + } + + static MA_INLINE double ma_timer_get_time_in_seconds(ma_timer* pTimer) + { + ma_uint64 newTimeCounter = mach_absolute_time(); + ma_uint64 oldTimeCounter = pTimer->counter; + + return (newTimeCounter - oldTimeCounter) / g_ma_TimerFrequency; + } +#elif defined(MA_EMSCRIPTEN) + static MA_INLINE void ma_timer_init(ma_timer* pTimer) + { + pTimer->counterD = emscripten_get_now(); + } + + static MA_INLINE double ma_timer_get_time_in_seconds(ma_timer* pTimer) + { + return (emscripten_get_now() - pTimer->counterD) / 1000; /* Emscripten is in milliseconds. */ + } +#else + #if defined(_POSIX_C_SOURCE) && _POSIX_C_SOURCE >= 199309L + #if defined(CLOCK_MONOTONIC) + #define MA_CLOCK_ID CLOCK_MONOTONIC + #else + #define MA_CLOCK_ID CLOCK_REALTIME + #endif + + static MA_INLINE void ma_timer_init(ma_timer* pTimer) + { + struct timespec newTime; + clock_gettime(MA_CLOCK_ID, &newTime); + + pTimer->counter = ((ma_int64)newTime.tv_sec * 1000000000) + newTime.tv_nsec; + } + + static MA_INLINE double ma_timer_get_time_in_seconds(ma_timer* pTimer) + { + ma_uint64 newTimeCounter; + ma_uint64 oldTimeCounter; + + struct timespec newTime; + clock_gettime(MA_CLOCK_ID, &newTime); + + newTimeCounter = ((ma_uint64)newTime.tv_sec * 1000000000) + newTime.tv_nsec; + oldTimeCounter = pTimer->counter; + + return (newTimeCounter - oldTimeCounter) / 1000000000.0; + } + #else + static MA_INLINE void ma_timer_init(ma_timer* pTimer) + { + struct timeval newTime; + gettimeofday(&newTime, NULL); + + pTimer->counter = ((ma_int64)newTime.tv_sec * 1000000) + newTime.tv_usec; + } + + static MA_INLINE double ma_timer_get_time_in_seconds(ma_timer* pTimer) + { + ma_uint64 newTimeCounter; + ma_uint64 oldTimeCounter; + + struct timeval newTime; + gettimeofday(&newTime, NULL); + + newTimeCounter = ((ma_uint64)newTime.tv_sec * 1000000) + newTime.tv_usec; + oldTimeCounter = pTimer->counter; + + return (newTimeCounter - oldTimeCounter) / 1000000.0; + } + #endif +#endif + + + +#if 0 +static ma_uint32 ma_get_closest_standard_sample_rate(ma_uint32 sampleRateIn) +{ + ma_uint32 closestRate = 0; + ma_uint32 closestDiff = 0xFFFFFFFF; + size_t iStandardRate; + + for (iStandardRate = 0; iStandardRate < ma_countof(g_maStandardSampleRatePriorities); ++iStandardRate) { + ma_uint32 standardRate = g_maStandardSampleRatePriorities[iStandardRate]; + ma_uint32 diff; + + if (sampleRateIn > standardRate) { + diff = sampleRateIn - standardRate; + } else { + diff = standardRate - sampleRateIn; + } + + if (diff == 0) { + return standardRate; /* The input sample rate is a standard rate. */ + } + + if (closestDiff > diff) { + closestDiff = diff; + closestRate = standardRate; + } + } + + return closestRate; +} +#endif + + +static MA_INLINE unsigned int ma_device_disable_denormals(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (!pDevice->noDisableDenormals) { + return ma_disable_denormals(); + } else { + return 0; + } +} + +static MA_INLINE void ma_device_restore_denormals(ma_device* pDevice, unsigned int prevState) +{ + MA_ASSERT(pDevice != NULL); + + if (!pDevice->noDisableDenormals) { + ma_restore_denormals(prevState); + } else { + /* Do nothing. */ + (void)prevState; + } +} + +static ma_device_notification ma_device_notification_init(ma_device* pDevice, ma_device_notification_type type) +{ + ma_device_notification notification; + + MA_ZERO_OBJECT(¬ification); + notification.pDevice = pDevice; + notification.type = type; + + return notification; +} + +static void ma_device__on_notification(ma_device_notification notification) +{ + MA_ASSERT(notification.pDevice != NULL); + + if (notification.pDevice->onNotification != NULL) { + notification.pDevice->onNotification(¬ification); + } + + /* TEMP FOR COMPATIBILITY: If it's a stopped notification, fire the onStop callback as well. This is only for backwards compatibility and will be removed. */ + if (notification.pDevice->onStop != NULL && notification.type == ma_device_notification_type_stopped) { + notification.pDevice->onStop(notification.pDevice); + } +} + +static void ma_device__on_notification_started(ma_device* pDevice) +{ + ma_device__on_notification(ma_device_notification_init(pDevice, ma_device_notification_type_started)); +} + +static void ma_device__on_notification_stopped(ma_device* pDevice) +{ + ma_device__on_notification(ma_device_notification_init(pDevice, ma_device_notification_type_stopped)); +} + +/* Not all platforms support reroute notifications. */ +#if !defined(MA_EMSCRIPTEN) +static void ma_device__on_notification_rerouted(ma_device* pDevice) +{ + ma_device__on_notification(ma_device_notification_init(pDevice, ma_device_notification_type_rerouted)); +} +#endif + +#if defined(MA_EMSCRIPTEN) +#ifdef __cplusplus +extern "C" { +#endif +void EMSCRIPTEN_KEEPALIVE ma_device__on_notification_unlocked(ma_device* pDevice) +{ + ma_device__on_notification(ma_device_notification_init(pDevice, ma_device_notification_type_unlocked)); +} +#ifdef __cplusplus +} +#endif +#endif + + +static void ma_device__on_data_inner(ma_device* pDevice, void* pFramesOut, const void* pFramesIn, ma_uint32 frameCount) +{ + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pDevice->onData != NULL); + + if (!pDevice->noPreSilencedOutputBuffer && pFramesOut != NULL) { + ma_silence_pcm_frames(pFramesOut, frameCount, pDevice->playback.format, pDevice->playback.channels); + } + + pDevice->onData(pDevice, pFramesOut, pFramesIn, frameCount); +} + +static void ma_device__on_data(ma_device* pDevice, void* pFramesOut, const void* pFramesIn, ma_uint32 frameCount) +{ + MA_ASSERT(pDevice != NULL); + + /* Don't read more data from the client if we're in the process of stopping. */ + if (ma_device_get_state(pDevice) == ma_device_state_stopping) { + return; + } + + if (pDevice->noFixedSizedCallback) { + /* Fast path. Not using a fixed sized callback. Process directly from the specified buffers. */ + ma_device__on_data_inner(pDevice, pFramesOut, pFramesIn, frameCount); + } else { + /* Slow path. Using a fixed sized callback. Need to use the intermediary buffer. */ + ma_uint32 totalFramesProcessed = 0; + + while (totalFramesProcessed < frameCount) { + ma_uint32 totalFramesRemaining = frameCount - totalFramesProcessed; + ma_uint32 framesToProcessThisIteration = 0; + + if (pFramesIn != NULL) { + /* Capturing. Write to the intermediary buffer. If there's no room, fire the callback to empty it. */ + if (pDevice->capture.intermediaryBufferLen < pDevice->capture.intermediaryBufferCap) { + /* There's some room left in the intermediary buffer. Write to it without firing the callback. */ + framesToProcessThisIteration = totalFramesRemaining; + if (framesToProcessThisIteration > pDevice->capture.intermediaryBufferCap - pDevice->capture.intermediaryBufferLen) { + framesToProcessThisIteration = pDevice->capture.intermediaryBufferCap - pDevice->capture.intermediaryBufferLen; + } + + ma_copy_pcm_frames( + ma_offset_pcm_frames_ptr(pDevice->capture.pIntermediaryBuffer, pDevice->capture.intermediaryBufferLen, pDevice->capture.format, pDevice->capture.channels), + ma_offset_pcm_frames_const_ptr(pFramesIn, totalFramesProcessed, pDevice->capture.format, pDevice->capture.channels), + framesToProcessThisIteration, + pDevice->capture.format, pDevice->capture.channels); + + pDevice->capture.intermediaryBufferLen += framesToProcessThisIteration; + } + + if (pDevice->capture.intermediaryBufferLen == pDevice->capture.intermediaryBufferCap) { + /* No room left in the intermediary buffer. Fire the data callback. */ + if (pDevice->type == ma_device_type_duplex) { + /* We'll do the duplex data callback later after we've processed the playback data. */ + } else { + ma_device__on_data_inner(pDevice, NULL, pDevice->capture.pIntermediaryBuffer, pDevice->capture.intermediaryBufferCap); + + /* The intermediary buffer has just been drained. */ + pDevice->capture.intermediaryBufferLen = 0; + } + } + } + + if (pFramesOut != NULL) { + /* Playing back. Read from the intermediary buffer. If there's nothing in it, fire the callback to fill it. */ + if (pDevice->playback.intermediaryBufferLen > 0) { + /* There's some content in the intermediary buffer. Read from that without firing the callback. */ + if (pDevice->type == ma_device_type_duplex) { + /* The frames processed this iteration for a duplex device will always be based on the capture side. Leave it unmodified. */ + } else { + framesToProcessThisIteration = totalFramesRemaining; + if (framesToProcessThisIteration > pDevice->playback.intermediaryBufferLen) { + framesToProcessThisIteration = pDevice->playback.intermediaryBufferLen; + } + } + + ma_copy_pcm_frames( + ma_offset_pcm_frames_ptr(pFramesOut, totalFramesProcessed, pDevice->playback.format, pDevice->playback.channels), + ma_offset_pcm_frames_ptr(pDevice->playback.pIntermediaryBuffer, pDevice->playback.intermediaryBufferCap - pDevice->playback.intermediaryBufferLen, pDevice->playback.format, pDevice->playback.channels), + framesToProcessThisIteration, + pDevice->playback.format, pDevice->playback.channels); + + pDevice->playback.intermediaryBufferLen -= framesToProcessThisIteration; + } + + if (pDevice->playback.intermediaryBufferLen == 0) { + /* There's nothing in the intermediary buffer. Fire the data callback to fill it. */ + if (pDevice->type == ma_device_type_duplex) { + /* In duplex mode, the data callback will be fired later. Nothing to do here. */ + } else { + ma_device__on_data_inner(pDevice, pDevice->playback.pIntermediaryBuffer, NULL, pDevice->playback.intermediaryBufferCap); + + /* The intermediary buffer has just been filled. */ + pDevice->playback.intermediaryBufferLen = pDevice->playback.intermediaryBufferCap; + } + } + } + + /* If we're in duplex mode we might need to do a refill of the data. */ + if (pDevice->type == ma_device_type_duplex) { + if (pDevice->capture.intermediaryBufferLen == pDevice->capture.intermediaryBufferCap) { + ma_device__on_data_inner(pDevice, pDevice->playback.pIntermediaryBuffer, pDevice->capture.pIntermediaryBuffer, pDevice->capture.intermediaryBufferCap); + + pDevice->playback.intermediaryBufferLen = pDevice->playback.intermediaryBufferCap; /* The playback buffer will have just been filled. */ + pDevice->capture.intermediaryBufferLen = 0; /* The intermediary buffer has just been drained. */ + } + } + + /* Make sure this is only incremented once in the duplex case. */ + totalFramesProcessed += framesToProcessThisIteration; + } + } +} + +static void ma_device__handle_data_callback(ma_device* pDevice, void* pFramesOut, const void* pFramesIn, ma_uint32 frameCount) +{ + float masterVolumeFactor; + + ma_device_get_master_volume(pDevice, &masterVolumeFactor); /* Use ma_device_get_master_volume() to ensure the volume is loaded atomically. */ + + if (pDevice->onData) { + unsigned int prevDenormalState = ma_device_disable_denormals(pDevice); + { + /* Volume control of input makes things a bit awkward because the input buffer is read-only. We'll need to use a temp buffer and loop in this case. */ + if (pFramesIn != NULL && masterVolumeFactor != 1) { + ma_uint8 tempFramesIn[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + ma_uint32 bpfCapture = ma_get_bytes_per_frame(pDevice->capture.format, pDevice->capture.channels); + ma_uint32 bpfPlayback = ma_get_bytes_per_frame(pDevice->playback.format, pDevice->playback.channels); + ma_uint32 totalFramesProcessed = 0; + while (totalFramesProcessed < frameCount) { + ma_uint32 framesToProcessThisIteration = frameCount - totalFramesProcessed; + if (framesToProcessThisIteration > sizeof(tempFramesIn)/bpfCapture) { + framesToProcessThisIteration = sizeof(tempFramesIn)/bpfCapture; + } + + ma_copy_and_apply_volume_factor_pcm_frames(tempFramesIn, ma_offset_ptr(pFramesIn, totalFramesProcessed*bpfCapture), framesToProcessThisIteration, pDevice->capture.format, pDevice->capture.channels, masterVolumeFactor); + + ma_device__on_data(pDevice, ma_offset_ptr(pFramesOut, totalFramesProcessed*bpfPlayback), tempFramesIn, framesToProcessThisIteration); + + totalFramesProcessed += framesToProcessThisIteration; + } + } else { + ma_device__on_data(pDevice, pFramesOut, pFramesIn, frameCount); + } + + /* Volume control and clipping for playback devices. */ + if (pFramesOut != NULL) { + if (masterVolumeFactor != 1) { + if (pFramesIn == NULL) { /* <-- In full-duplex situations, the volume will have been applied to the input samples before the data callback. Applying it again post-callback will incorrectly compound it. */ + ma_apply_volume_factor_pcm_frames(pFramesOut, frameCount, pDevice->playback.format, pDevice->playback.channels, masterVolumeFactor); + } + } + + if (!pDevice->noClip && pDevice->playback.format == ma_format_f32) { + ma_clip_samples_f32((float*)pFramesOut, (const float*)pFramesOut, frameCount * pDevice->playback.channels); /* Intentionally specifying the same pointer for both input and output for in-place processing. */ + } + } + } + ma_device_restore_denormals(pDevice, prevDenormalState); + } else { + /* No data callback. Just silence the output. */ + if (pFramesOut != NULL) { + ma_silence_pcm_frames(pFramesOut, frameCount, pDevice->playback.format, pDevice->playback.channels); + } + } +} + + + +/* A helper function for reading sample data from the client. */ +static void ma_device__read_frames_from_client(ma_device* pDevice, ma_uint32 frameCount, void* pFramesOut) +{ + MA_ASSERT(pDevice != NULL); + MA_ASSERT(frameCount > 0); + MA_ASSERT(pFramesOut != NULL); + + if (pDevice->playback.converter.isPassthrough) { + ma_device__handle_data_callback(pDevice, pFramesOut, NULL, frameCount); + } else { + ma_result result; + ma_uint64 totalFramesReadOut; + void* pRunningFramesOut; + + totalFramesReadOut = 0; + pRunningFramesOut = pFramesOut; + + /* + We run slightly different logic depending on whether or not we're using a heap-allocated + buffer for caching input data. This will be the case if the data converter does not have + the ability to retrieve the required input frame count for a given output frame count. + */ + if (pDevice->playback.pInputCache != NULL) { + while (totalFramesReadOut < frameCount) { + ma_uint64 framesToReadThisIterationIn; + ma_uint64 framesToReadThisIterationOut; + + /* If there's any data available in the cache, that needs to get processed first. */ + if (pDevice->playback.inputCacheRemaining > 0) { + framesToReadThisIterationOut = (frameCount - totalFramesReadOut); + framesToReadThisIterationIn = framesToReadThisIterationOut; + if (framesToReadThisIterationIn > pDevice->playback.inputCacheRemaining) { + framesToReadThisIterationIn = pDevice->playback.inputCacheRemaining; + } + + result = ma_data_converter_process_pcm_frames(&pDevice->playback.converter, ma_offset_pcm_frames_ptr(pDevice->playback.pInputCache, pDevice->playback.inputCacheConsumed, pDevice->playback.format, pDevice->playback.channels), &framesToReadThisIterationIn, pRunningFramesOut, &framesToReadThisIterationOut); + if (result != MA_SUCCESS) { + break; + } + + pDevice->playback.inputCacheConsumed += framesToReadThisIterationIn; + pDevice->playback.inputCacheRemaining -= framesToReadThisIterationIn; + + totalFramesReadOut += framesToReadThisIterationOut; + pRunningFramesOut = ma_offset_ptr(pRunningFramesOut, framesToReadThisIterationOut * ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels)); + + if (framesToReadThisIterationIn == 0 && framesToReadThisIterationOut == 0) { + break; /* We're done. */ + } + } + + /* Getting here means there's no data in the cache and we need to fill it up with data from the client. */ + if (pDevice->playback.inputCacheRemaining == 0) { + ma_device__handle_data_callback(pDevice, pDevice->playback.pInputCache, NULL, (ma_uint32)pDevice->playback.inputCacheCap); + + pDevice->playback.inputCacheConsumed = 0; + pDevice->playback.inputCacheRemaining = pDevice->playback.inputCacheCap; + } + } + } else { + while (totalFramesReadOut < frameCount) { + ma_uint8 pIntermediaryBuffer[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; /* In client format. */ + ma_uint64 intermediaryBufferCap = sizeof(pIntermediaryBuffer) / ma_get_bytes_per_frame(pDevice->playback.format, pDevice->playback.channels); + ma_uint64 framesToReadThisIterationIn; + ma_uint64 framesReadThisIterationIn; + ma_uint64 framesToReadThisIterationOut; + ma_uint64 framesReadThisIterationOut; + ma_uint64 requiredInputFrameCount; + + framesToReadThisIterationOut = (frameCount - totalFramesReadOut); + framesToReadThisIterationIn = framesToReadThisIterationOut; + if (framesToReadThisIterationIn > intermediaryBufferCap) { + framesToReadThisIterationIn = intermediaryBufferCap; + } + + ma_data_converter_get_required_input_frame_count(&pDevice->playback.converter, framesToReadThisIterationOut, &requiredInputFrameCount); + if (framesToReadThisIterationIn > requiredInputFrameCount) { + framesToReadThisIterationIn = requiredInputFrameCount; + } + + ma_device__handle_data_callback(pDevice, pIntermediaryBuffer, NULL, (ma_uint32)framesToReadThisIterationIn); + + /* + At this point we have our decoded data in input format and now we need to convert to output format. Note that even if we didn't read any + input frames, we still want to try processing frames because there may some output frames generated from cached input data. + */ + framesReadThisIterationIn = framesToReadThisIterationIn; + framesReadThisIterationOut = framesToReadThisIterationOut; + result = ma_data_converter_process_pcm_frames(&pDevice->playback.converter, pIntermediaryBuffer, &framesReadThisIterationIn, pRunningFramesOut, &framesReadThisIterationOut); + if (result != MA_SUCCESS) { + break; + } + + totalFramesReadOut += framesReadThisIterationOut; + pRunningFramesOut = ma_offset_ptr(pRunningFramesOut, framesReadThisIterationOut * ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels)); + + if (framesReadThisIterationIn == 0 && framesReadThisIterationOut == 0) { + break; /* We're done. */ + } + } + } + } +} + +/* A helper for sending sample data to the client. */ +static void ma_device__send_frames_to_client(ma_device* pDevice, ma_uint32 frameCountInDeviceFormat, const void* pFramesInDeviceFormat) +{ + MA_ASSERT(pDevice != NULL); + MA_ASSERT(frameCountInDeviceFormat > 0); + MA_ASSERT(pFramesInDeviceFormat != NULL); + + if (pDevice->capture.converter.isPassthrough) { + ma_device__handle_data_callback(pDevice, NULL, pFramesInDeviceFormat, frameCountInDeviceFormat); + } else { + ma_result result; + ma_uint8 pFramesInClientFormat[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + ma_uint64 framesInClientFormatCap = sizeof(pFramesInClientFormat) / ma_get_bytes_per_frame(pDevice->capture.format, pDevice->capture.channels); + ma_uint64 totalDeviceFramesProcessed = 0; + ma_uint64 totalClientFramesProcessed = 0; + const void* pRunningFramesInDeviceFormat = pFramesInDeviceFormat; + + /* We just keep going until we've exhausted all of our input frames and cannot generate any more output frames. */ + for (;;) { + ma_uint64 deviceFramesProcessedThisIteration; + ma_uint64 clientFramesProcessedThisIteration; + + deviceFramesProcessedThisIteration = (frameCountInDeviceFormat - totalDeviceFramesProcessed); + clientFramesProcessedThisIteration = framesInClientFormatCap; + + result = ma_data_converter_process_pcm_frames(&pDevice->capture.converter, pRunningFramesInDeviceFormat, &deviceFramesProcessedThisIteration, pFramesInClientFormat, &clientFramesProcessedThisIteration); + if (result != MA_SUCCESS) { + break; + } + + if (clientFramesProcessedThisIteration > 0) { + ma_device__handle_data_callback(pDevice, NULL, pFramesInClientFormat, (ma_uint32)clientFramesProcessedThisIteration); /* Safe cast. */ + } + + pRunningFramesInDeviceFormat = ma_offset_ptr(pRunningFramesInDeviceFormat, deviceFramesProcessedThisIteration * ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels)); + totalDeviceFramesProcessed += deviceFramesProcessedThisIteration; + totalClientFramesProcessed += clientFramesProcessedThisIteration; + + /* This is just to silence a warning. I might want to use this variable later so leaving in place for now. */ + (void)totalClientFramesProcessed; + + if (deviceFramesProcessedThisIteration == 0 && clientFramesProcessedThisIteration == 0) { + break; /* We're done. */ + } + } + } +} + +static ma_result ma_device__handle_duplex_callback_capture(ma_device* pDevice, ma_uint32 frameCountInDeviceFormat, const void* pFramesInDeviceFormat, ma_pcm_rb* pRB) +{ + ma_result result; + ma_uint32 totalDeviceFramesProcessed = 0; + const void* pRunningFramesInDeviceFormat = pFramesInDeviceFormat; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(frameCountInDeviceFormat > 0); + MA_ASSERT(pFramesInDeviceFormat != NULL); + MA_ASSERT(pRB != NULL); + + /* Write to the ring buffer. The ring buffer is in the client format which means we need to convert. */ + for (;;) { + ma_uint32 framesToProcessInDeviceFormat = (frameCountInDeviceFormat - totalDeviceFramesProcessed); + ma_uint32 framesToProcessInClientFormat = MA_DATA_CONVERTER_STACK_BUFFER_SIZE / ma_get_bytes_per_frame(pDevice->capture.format, pDevice->capture.channels); + ma_uint64 framesProcessedInDeviceFormat; + ma_uint64 framesProcessedInClientFormat; + void* pFramesInClientFormat; + + result = ma_pcm_rb_acquire_write(pRB, &framesToProcessInClientFormat, &pFramesInClientFormat); + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "Failed to acquire capture PCM frames from ring buffer."); + break; + } + + if (framesToProcessInClientFormat == 0) { + if (ma_pcm_rb_pointer_distance(pRB) == (ma_int32)ma_pcm_rb_get_subbuffer_size(pRB)) { + break; /* Overrun. Not enough room in the ring buffer for input frame. Excess frames are dropped. */ + } + } + + /* Convert. */ + framesProcessedInDeviceFormat = framesToProcessInDeviceFormat; + framesProcessedInClientFormat = framesToProcessInClientFormat; + result = ma_data_converter_process_pcm_frames(&pDevice->capture.converter, pRunningFramesInDeviceFormat, &framesProcessedInDeviceFormat, pFramesInClientFormat, &framesProcessedInClientFormat); + if (result != MA_SUCCESS) { + break; + } + + result = ma_pcm_rb_commit_write(pRB, (ma_uint32)framesProcessedInClientFormat); /* Safe cast. */ + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "Failed to commit capture PCM frames to ring buffer."); + break; + } + + pRunningFramesInDeviceFormat = ma_offset_ptr(pRunningFramesInDeviceFormat, framesProcessedInDeviceFormat * ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels)); + totalDeviceFramesProcessed += (ma_uint32)framesProcessedInDeviceFormat; /* Safe cast. */ + + /* We're done when we're unable to process any client nor device frames. */ + if (framesProcessedInClientFormat == 0 && framesProcessedInDeviceFormat == 0) { + break; /* Done. */ + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device__handle_duplex_callback_playback(ma_device* pDevice, ma_uint32 frameCount, void* pFramesInInternalFormat, ma_pcm_rb* pRB) +{ + ma_result result; + ma_uint8 silentInputFrames[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + ma_uint32 totalFramesReadOut = 0; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(frameCount > 0); + MA_ASSERT(pFramesInInternalFormat != NULL); + MA_ASSERT(pRB != NULL); + MA_ASSERT(pDevice->playback.pInputCache != NULL); + + /* + Sitting in the ring buffer should be captured data from the capture callback in external format. If there's not enough data in there for + the whole frameCount frames we just use silence instead for the input data. + */ + MA_ZERO_MEMORY(silentInputFrames, sizeof(silentInputFrames)); + + while (totalFramesReadOut < frameCount && ma_device_is_started(pDevice)) { + /* + We should have a buffer allocated on the heap. Any playback frames still sitting in there + need to be sent to the internal device before we process any more data from the client. + */ + if (pDevice->playback.inputCacheRemaining > 0) { + ma_uint64 framesConvertedIn = pDevice->playback.inputCacheRemaining; + ma_uint64 framesConvertedOut = (frameCount - totalFramesReadOut); + ma_data_converter_process_pcm_frames(&pDevice->playback.converter, ma_offset_pcm_frames_ptr(pDevice->playback.pInputCache, pDevice->playback.inputCacheConsumed, pDevice->playback.format, pDevice->playback.channels), &framesConvertedIn, pFramesInInternalFormat, &framesConvertedOut); + + pDevice->playback.inputCacheConsumed += framesConvertedIn; + pDevice->playback.inputCacheRemaining -= framesConvertedIn; + + totalFramesReadOut += (ma_uint32)framesConvertedOut; /* Safe cast. */ + pFramesInInternalFormat = ma_offset_ptr(pFramesInInternalFormat, framesConvertedOut * ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels)); + } + + /* If there's no more data in the cache we'll need to fill it with some. */ + if (totalFramesReadOut < frameCount && pDevice->playback.inputCacheRemaining == 0) { + ma_uint32 inputFrameCount; + void* pInputFrames; + + inputFrameCount = (ma_uint32)pDevice->playback.inputCacheCap; + result = ma_pcm_rb_acquire_read(pRB, &inputFrameCount, &pInputFrames); + if (result == MA_SUCCESS) { + if (inputFrameCount > 0) { + ma_device__handle_data_callback(pDevice, pDevice->playback.pInputCache, pInputFrames, inputFrameCount); + } else { + if (ma_pcm_rb_pointer_distance(pRB) == 0) { + break; /* Underrun. */ + } + } + } else { + /* No capture data available. Feed in silence. */ + inputFrameCount = (ma_uint32)ma_min(pDevice->playback.inputCacheCap, sizeof(silentInputFrames) / ma_get_bytes_per_frame(pDevice->capture.format, pDevice->capture.channels)); + ma_device__handle_data_callback(pDevice, pDevice->playback.pInputCache, silentInputFrames, inputFrameCount); + } + + pDevice->playback.inputCacheConsumed = 0; + pDevice->playback.inputCacheRemaining = inputFrameCount; + + result = ma_pcm_rb_commit_read(pRB, inputFrameCount); + if (result != MA_SUCCESS) { + return result; /* Should never happen. */ + } + } + } + + return MA_SUCCESS; +} + +/* A helper for changing the state of the device. */ +static MA_INLINE void ma_device__set_state(ma_device* pDevice, ma_device_state newState) +{ + ma_atomic_device_state_set(&pDevice->state, newState); +} + + + +MA_API ma_uint32 ma_get_format_priority_index(ma_format format) /* Lower = better. */ +{ + ma_uint32 i; + for (i = 0; i < ma_countof(g_maFormatPriorities); ++i) { + if (g_maFormatPriorities[i] == format) { + return i; + } + } + + /* Getting here means the format could not be found or is equal to ma_format_unknown. */ + return (ma_uint32)-1; +} + +static ma_result ma_device__post_init_setup(ma_device* pDevice, ma_device_type deviceType); + +static ma_bool32 ma_device_descriptor_is_valid(const ma_device_descriptor* pDeviceDescriptor) +{ + if (pDeviceDescriptor == NULL) { + return MA_FALSE; + } + + if (pDeviceDescriptor->format == ma_format_unknown) { + return MA_FALSE; + } + + if (pDeviceDescriptor->channels == 0 || pDeviceDescriptor->channels > MA_MAX_CHANNELS) { + return MA_FALSE; + } + + if (pDeviceDescriptor->sampleRate == 0) { + return MA_FALSE; + } + + return MA_TRUE; +} + + +static ma_result ma_device_audio_thread__default_read_write(ma_device* pDevice) +{ + ma_result result = MA_SUCCESS; + ma_bool32 exitLoop = MA_FALSE; + ma_uint8 capturedDeviceData[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + ma_uint8 playbackDeviceData[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + ma_uint32 capturedDeviceDataCapInFrames = 0; + ma_uint32 playbackDeviceDataCapInFrames = 0; + + MA_ASSERT(pDevice != NULL); + + /* Just some quick validation on the device type and the available callbacks. */ + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex || pDevice->type == ma_device_type_loopback) { + if (pDevice->pContext->callbacks.onDeviceRead == NULL) { + return MA_NOT_IMPLEMENTED; + } + + capturedDeviceDataCapInFrames = sizeof(capturedDeviceData) / ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + if (pDevice->pContext->callbacks.onDeviceWrite == NULL) { + return MA_NOT_IMPLEMENTED; + } + + playbackDeviceDataCapInFrames = sizeof(playbackDeviceData) / ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels); + } + + /* NOTE: The device was started outside of this function, in the worker thread. */ + + while (ma_device_get_state(pDevice) == ma_device_state_started && !exitLoop) { + switch (pDevice->type) { + case ma_device_type_duplex: + { + /* The process is: onDeviceRead() -> convert -> callback -> convert -> onDeviceWrite() */ + ma_uint32 totalCapturedDeviceFramesProcessed = 0; + ma_uint32 capturedDevicePeriodSizeInFrames = ma_min(pDevice->capture.internalPeriodSizeInFrames, pDevice->playback.internalPeriodSizeInFrames); + + while (totalCapturedDeviceFramesProcessed < capturedDevicePeriodSizeInFrames) { + ma_uint32 capturedDeviceFramesRemaining; + ma_uint32 capturedDeviceFramesProcessed; + ma_uint32 capturedDeviceFramesToProcess; + ma_uint32 capturedDeviceFramesToTryProcessing = capturedDevicePeriodSizeInFrames - totalCapturedDeviceFramesProcessed; + if (capturedDeviceFramesToTryProcessing > capturedDeviceDataCapInFrames) { + capturedDeviceFramesToTryProcessing = capturedDeviceDataCapInFrames; + } + + result = pDevice->pContext->callbacks.onDeviceRead(pDevice, capturedDeviceData, capturedDeviceFramesToTryProcessing, &capturedDeviceFramesToProcess); + if (result != MA_SUCCESS) { + exitLoop = MA_TRUE; + break; + } + + capturedDeviceFramesRemaining = capturedDeviceFramesToProcess; + capturedDeviceFramesProcessed = 0; + + /* At this point we have our captured data in device format and we now need to convert it to client format. */ + for (;;) { + ma_uint8 capturedClientData[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + ma_uint8 playbackClientData[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + ma_uint32 capturedClientDataCapInFrames = sizeof(capturedClientData) / ma_get_bytes_per_frame(pDevice->capture.format, pDevice->capture.channels); + ma_uint32 playbackClientDataCapInFrames = sizeof(playbackClientData) / ma_get_bytes_per_frame(pDevice->playback.format, pDevice->playback.channels); + ma_uint64 capturedClientFramesToProcessThisIteration = ma_min(capturedClientDataCapInFrames, playbackClientDataCapInFrames); + ma_uint64 capturedDeviceFramesToProcessThisIteration = capturedDeviceFramesRemaining; + ma_uint8* pRunningCapturedDeviceFrames = ma_offset_ptr(capturedDeviceData, capturedDeviceFramesProcessed * ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels)); + + /* Convert capture data from device format to client format. */ + result = ma_data_converter_process_pcm_frames(&pDevice->capture.converter, pRunningCapturedDeviceFrames, &capturedDeviceFramesToProcessThisIteration, capturedClientData, &capturedClientFramesToProcessThisIteration); + if (result != MA_SUCCESS) { + break; + } + + /* + If we weren't able to generate any output frames it must mean we've exhausted all of our input. The only time this would not be the case is if capturedClientData was too small + which should never be the case when it's of the size MA_DATA_CONVERTER_STACK_BUFFER_SIZE. + */ + if (capturedClientFramesToProcessThisIteration == 0) { + break; + } + + ma_device__handle_data_callback(pDevice, playbackClientData, capturedClientData, (ma_uint32)capturedClientFramesToProcessThisIteration); /* Safe cast .*/ + + capturedDeviceFramesProcessed += (ma_uint32)capturedDeviceFramesToProcessThisIteration; /* Safe cast. */ + capturedDeviceFramesRemaining -= (ma_uint32)capturedDeviceFramesToProcessThisIteration; /* Safe cast. */ + + /* At this point the playbackClientData buffer should be holding data that needs to be written to the device. */ + for (;;) { + ma_uint64 convertedClientFrameCount = capturedClientFramesToProcessThisIteration; + ma_uint64 convertedDeviceFrameCount = playbackDeviceDataCapInFrames; + result = ma_data_converter_process_pcm_frames(&pDevice->playback.converter, playbackClientData, &convertedClientFrameCount, playbackDeviceData, &convertedDeviceFrameCount); + if (result != MA_SUCCESS) { + break; + } + + result = pDevice->pContext->callbacks.onDeviceWrite(pDevice, playbackDeviceData, (ma_uint32)convertedDeviceFrameCount, NULL); /* Safe cast. */ + if (result != MA_SUCCESS) { + exitLoop = MA_TRUE; + break; + } + + capturedClientFramesToProcessThisIteration -= (ma_uint32)convertedClientFrameCount; /* Safe cast. */ + if (capturedClientFramesToProcessThisIteration == 0) { + break; + } + } + + /* In case an error happened from ma_device_write__null()... */ + if (result != MA_SUCCESS) { + exitLoop = MA_TRUE; + break; + } + } + + /* Make sure we don't get stuck in the inner loop. */ + if (capturedDeviceFramesProcessed == 0) { + break; + } + + totalCapturedDeviceFramesProcessed += capturedDeviceFramesProcessed; + } + } break; + + case ma_device_type_capture: + case ma_device_type_loopback: + { + ma_uint32 periodSizeInFrames = pDevice->capture.internalPeriodSizeInFrames; + ma_uint32 framesReadThisPeriod = 0; + while (framesReadThisPeriod < periodSizeInFrames) { + ma_uint32 framesRemainingInPeriod = periodSizeInFrames - framesReadThisPeriod; + ma_uint32 framesProcessed; + ma_uint32 framesToReadThisIteration = framesRemainingInPeriod; + if (framesToReadThisIteration > capturedDeviceDataCapInFrames) { + framesToReadThisIteration = capturedDeviceDataCapInFrames; + } + + result = pDevice->pContext->callbacks.onDeviceRead(pDevice, capturedDeviceData, framesToReadThisIteration, &framesProcessed); + if (result != MA_SUCCESS) { + exitLoop = MA_TRUE; + break; + } + + /* Make sure we don't get stuck in the inner loop. */ + if (framesProcessed == 0) { + break; + } + + ma_device__send_frames_to_client(pDevice, framesProcessed, capturedDeviceData); + + framesReadThisPeriod += framesProcessed; + } + } break; + + case ma_device_type_playback: + { + /* We write in chunks of the period size, but use a stack allocated buffer for the intermediary. */ + ma_uint32 periodSizeInFrames = pDevice->playback.internalPeriodSizeInFrames; + ma_uint32 framesWrittenThisPeriod = 0; + while (framesWrittenThisPeriod < periodSizeInFrames) { + ma_uint32 framesRemainingInPeriod = periodSizeInFrames - framesWrittenThisPeriod; + ma_uint32 framesProcessed; + ma_uint32 framesToWriteThisIteration = framesRemainingInPeriod; + if (framesToWriteThisIteration > playbackDeviceDataCapInFrames) { + framesToWriteThisIteration = playbackDeviceDataCapInFrames; + } + + ma_device__read_frames_from_client(pDevice, framesToWriteThisIteration, playbackDeviceData); + + result = pDevice->pContext->callbacks.onDeviceWrite(pDevice, playbackDeviceData, framesToWriteThisIteration, &framesProcessed); + if (result != MA_SUCCESS) { + exitLoop = MA_TRUE; + break; + } + + /* Make sure we don't get stuck in the inner loop. */ + if (framesProcessed == 0) { + break; + } + + framesWrittenThisPeriod += framesProcessed; + } + } break; + + /* Should never get here. */ + default: break; + } + } + + return result; +} + + + +/******************************************************************************* + +Null Backend + +*******************************************************************************/ +#ifdef MA_HAS_NULL + +#define MA_DEVICE_OP_NONE__NULL 0 +#define MA_DEVICE_OP_START__NULL 1 +#define MA_DEVICE_OP_SUSPEND__NULL 2 +#define MA_DEVICE_OP_KILL__NULL 3 + +static ma_thread_result MA_THREADCALL ma_device_thread__null(void* pData) +{ + ma_device* pDevice = (ma_device*)pData; + MA_ASSERT(pDevice != NULL); + + for (;;) { /* Keep the thread alive until the device is uninitialized. */ + ma_uint32 operation; + + /* Wait for an operation to be requested. */ + ma_event_wait(&pDevice->null_device.operationEvent); + + /* At this point an event should have been triggered. */ + operation = pDevice->null_device.operation; + + /* Starting the device needs to put the thread into a loop. */ + if (operation == MA_DEVICE_OP_START__NULL) { + /* Reset the timer just in case. */ + ma_timer_init(&pDevice->null_device.timer); + + /* Getting here means a suspend or kill operation has been requested. */ + pDevice->null_device.operationResult = MA_SUCCESS; + ma_event_signal(&pDevice->null_device.operationCompletionEvent); + ma_semaphore_release(&pDevice->null_device.operationSemaphore); + continue; + } + + /* Suspending the device means we need to stop the timer and just continue the loop. */ + if (operation == MA_DEVICE_OP_SUSPEND__NULL) { + /* We need to add the current run time to the prior run time, then reset the timer. */ + pDevice->null_device.priorRunTime += ma_timer_get_time_in_seconds(&pDevice->null_device.timer); + ma_timer_init(&pDevice->null_device.timer); + + /* We're done. */ + pDevice->null_device.operationResult = MA_SUCCESS; + ma_event_signal(&pDevice->null_device.operationCompletionEvent); + ma_semaphore_release(&pDevice->null_device.operationSemaphore); + continue; + } + + /* Killing the device means we need to get out of this loop so that this thread can terminate. */ + if (operation == MA_DEVICE_OP_KILL__NULL) { + pDevice->null_device.operationResult = MA_SUCCESS; + ma_event_signal(&pDevice->null_device.operationCompletionEvent); + ma_semaphore_release(&pDevice->null_device.operationSemaphore); + break; + } + + /* Getting a signal on a "none" operation probably means an error. Return invalid operation. */ + if (operation == MA_DEVICE_OP_NONE__NULL) { + MA_ASSERT(MA_FALSE); /* <-- Trigger this in debug mode to ensure developers are aware they're doing something wrong (or there's a bug in a miniaudio). */ + pDevice->null_device.operationResult = MA_INVALID_OPERATION; + ma_event_signal(&pDevice->null_device.operationCompletionEvent); + ma_semaphore_release(&pDevice->null_device.operationSemaphore); + continue; /* Continue the loop. Don't terminate. */ + } + } + + return (ma_thread_result)0; +} + +static ma_result ma_device_do_operation__null(ma_device* pDevice, ma_uint32 operation) +{ + ma_result result; + + /* + TODO: Need to review this and consider just using mutual exclusion. I think the original motivation + for this was to just post the event to a queue and return immediately, but that has since changed + and now this function is synchronous. I think this can be simplified to just use a mutex. + */ + + /* + The first thing to do is wait for an operation slot to become available. We only have a single slot for this, but we could extend this later + to support queuing of operations. + */ + result = ma_semaphore_wait(&pDevice->null_device.operationSemaphore); + if (result != MA_SUCCESS) { + return result; /* Failed to wait for the event. */ + } + + /* + When we get here it means the background thread is not referencing the operation code and it can be changed. After changing this we need to + signal an event to the worker thread to let it know that it can start work. + */ + pDevice->null_device.operation = operation; + + /* Once the operation code has been set, the worker thread can start work. */ + if (ma_event_signal(&pDevice->null_device.operationEvent) != MA_SUCCESS) { + return MA_ERROR; + } + + /* We want everything to be synchronous so we're going to wait for the worker thread to complete it's operation. */ + if (ma_event_wait(&pDevice->null_device.operationCompletionEvent) != MA_SUCCESS) { + return MA_ERROR; + } + + return pDevice->null_device.operationResult; +} + +static ma_uint64 ma_device_get_total_run_time_in_frames__null(ma_device* pDevice) +{ + ma_uint32 internalSampleRate; + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + internalSampleRate = pDevice->capture.internalSampleRate; + } else { + internalSampleRate = pDevice->playback.internalSampleRate; + } + + return (ma_uint64)((pDevice->null_device.priorRunTime + ma_timer_get_time_in_seconds(&pDevice->null_device.timer)) * internalSampleRate); +} + +static ma_result ma_context_enumerate_devices__null(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + ma_bool32 cbResult = MA_TRUE; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + /* Playback. */ + if (cbResult) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), "NULL Playback Device", (size_t)-1); + deviceInfo.isDefault = MA_TRUE; /* Only one playback and capture device for the null backend, so might as well mark as default. */ + cbResult = callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + } + + /* Capture. */ + if (cbResult) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), "NULL Capture Device", (size_t)-1); + deviceInfo.isDefault = MA_TRUE; /* Only one playback and capture device for the null backend, so might as well mark as default. */ + cbResult = callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + } + + (void)cbResult; /* Silence a static analysis warning. */ + + return MA_SUCCESS; +} + +static ma_result ma_context_get_device_info__null(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + MA_ASSERT(pContext != NULL); + + if (pDeviceID != NULL && pDeviceID->nullbackend != 0) { + return MA_NO_DEVICE; /* Don't know the device. */ + } + + /* Name / Description */ + if (deviceType == ma_device_type_playback) { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), "NULL Playback Device", (size_t)-1); + } else { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), "NULL Capture Device", (size_t)-1); + } + + pDeviceInfo->isDefault = MA_TRUE; /* Only one playback and capture device for the null backend, so might as well mark as default. */ + + /* Support everything on the null backend. */ + pDeviceInfo->nativeDataFormats[0].format = ma_format_unknown; + pDeviceInfo->nativeDataFormats[0].channels = 0; + pDeviceInfo->nativeDataFormats[0].sampleRate = 0; + pDeviceInfo->nativeDataFormats[0].flags = 0; + pDeviceInfo->nativeDataFormatCount = 1; + + (void)pContext; + return MA_SUCCESS; +} + + +static ma_result ma_device_uninit__null(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + /* Keep it clean and wait for the device thread to finish before returning. */ + ma_device_do_operation__null(pDevice, MA_DEVICE_OP_KILL__NULL); + + /* Wait for the thread to finish before continuing. */ + ma_thread_wait(&pDevice->null_device.deviceThread); + + /* At this point the loop in the device thread is as good as terminated so we can uninitialize our events. */ + ma_semaphore_uninit(&pDevice->null_device.operationSemaphore); + ma_event_uninit(&pDevice->null_device.operationCompletionEvent); + ma_event_uninit(&pDevice->null_device.operationEvent); + + return MA_SUCCESS; +} + +static ma_result ma_device_init__null(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + ma_result result; + + MA_ASSERT(pDevice != NULL); + + MA_ZERO_OBJECT(&pDevice->null_device); + + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + /* The null backend supports everything exactly as we specify it. */ + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + pDescriptorCapture->format = (pDescriptorCapture->format != ma_format_unknown) ? pDescriptorCapture->format : MA_DEFAULT_FORMAT; + pDescriptorCapture->channels = (pDescriptorCapture->channels != 0) ? pDescriptorCapture->channels : MA_DEFAULT_CHANNELS; + pDescriptorCapture->sampleRate = (pDescriptorCapture->sampleRate != 0) ? pDescriptorCapture->sampleRate : MA_DEFAULT_SAMPLE_RATE; + + if (pDescriptorCapture->channelMap[0] == MA_CHANNEL_NONE) { + ma_channel_map_init_standard(ma_standard_channel_map_default, pDescriptorCapture->channelMap, ma_countof(pDescriptorCapture->channelMap), pDescriptorCapture->channels); + } + + pDescriptorCapture->periodSizeInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptorCapture, pDescriptorCapture->sampleRate, pConfig->performanceProfile); + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + pDescriptorPlayback->format = (pDescriptorPlayback->format != ma_format_unknown) ? pDescriptorPlayback->format : MA_DEFAULT_FORMAT; + pDescriptorPlayback->channels = (pDescriptorPlayback->channels != 0) ? pDescriptorPlayback->channels : MA_DEFAULT_CHANNELS; + pDescriptorPlayback->sampleRate = (pDescriptorPlayback->sampleRate != 0) ? pDescriptorPlayback->sampleRate : MA_DEFAULT_SAMPLE_RATE; + + if (pDescriptorPlayback->channelMap[0] == MA_CHANNEL_NONE) { + ma_channel_map_init_standard(ma_standard_channel_map_default, pDescriptorPlayback->channelMap, ma_countof(pDescriptorCapture->channelMap), pDescriptorPlayback->channels); + } + + pDescriptorPlayback->periodSizeInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptorPlayback, pDescriptorPlayback->sampleRate, pConfig->performanceProfile); + } + + /* + In order to get timing right, we need to create a thread that does nothing but keeps track of the timer. This timer is started when the + first period is "written" to it, and then stopped in ma_device_stop__null(). + */ + result = ma_event_init(&pDevice->null_device.operationEvent); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_event_init(&pDevice->null_device.operationCompletionEvent); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_semaphore_init(1, &pDevice->null_device.operationSemaphore); /* <-- It's important that the initial value is set to 1. */ + if (result != MA_SUCCESS) { + return result; + } + + result = ma_thread_create(&pDevice->null_device.deviceThread, pDevice->pContext->threadPriority, 0, ma_device_thread__null, pDevice, &pDevice->pContext->allocationCallbacks); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +static ma_result ma_device_start__null(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + ma_device_do_operation__null(pDevice, MA_DEVICE_OP_START__NULL); + + ma_atomic_bool32_set(&pDevice->null_device.isStarted, MA_TRUE); + return MA_SUCCESS; +} + +static ma_result ma_device_stop__null(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + ma_device_do_operation__null(pDevice, MA_DEVICE_OP_SUSPEND__NULL); + + ma_atomic_bool32_set(&pDevice->null_device.isStarted, MA_FALSE); + return MA_SUCCESS; +} + +static ma_bool32 ma_device_is_started__null(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + return ma_atomic_bool32_get(&pDevice->null_device.isStarted); +} + +static ma_result ma_device_write__null(ma_device* pDevice, const void* pPCMFrames, ma_uint32 frameCount, ma_uint32* pFramesWritten) +{ + ma_result result = MA_SUCCESS; + ma_uint32 totalPCMFramesProcessed; + ma_bool32 wasStartedOnEntry; + + if (pFramesWritten != NULL) { + *pFramesWritten = 0; + } + + wasStartedOnEntry = ma_device_is_started__null(pDevice); + + /* Keep going until everything has been read. */ + totalPCMFramesProcessed = 0; + while (totalPCMFramesProcessed < frameCount) { + ma_uint64 targetFrame; + + /* If there are any frames remaining in the current period, consume those first. */ + if (pDevice->null_device.currentPeriodFramesRemainingPlayback > 0) { + ma_uint32 framesRemaining = (frameCount - totalPCMFramesProcessed); + ma_uint32 framesToProcess = pDevice->null_device.currentPeriodFramesRemainingPlayback; + if (framesToProcess > framesRemaining) { + framesToProcess = framesRemaining; + } + + /* We don't actually do anything with pPCMFrames, so just mark it as unused to prevent a warning. */ + (void)pPCMFrames; + + pDevice->null_device.currentPeriodFramesRemainingPlayback -= framesToProcess; + totalPCMFramesProcessed += framesToProcess; + } + + /* If we've consumed the current period we'll need to mark it as such an ensure the device is started if it's not already. */ + if (pDevice->null_device.currentPeriodFramesRemainingPlayback == 0) { + pDevice->null_device.currentPeriodFramesRemainingPlayback = 0; + + if (!ma_device_is_started__null(pDevice) && !wasStartedOnEntry) { + result = ma_device_start__null(pDevice); + if (result != MA_SUCCESS) { + break; + } + } + } + + /* If we've consumed the whole buffer we can return now. */ + MA_ASSERT(totalPCMFramesProcessed <= frameCount); + if (totalPCMFramesProcessed == frameCount) { + break; + } + + /* Getting here means we've still got more frames to consume, we but need to wait for it to become available. */ + targetFrame = pDevice->null_device.lastProcessedFramePlayback; + for (;;) { + ma_uint64 currentFrame; + + /* Stop waiting if the device has been stopped. */ + if (!ma_device_is_started__null(pDevice)) { + break; + } + + currentFrame = ma_device_get_total_run_time_in_frames__null(pDevice); + if (currentFrame >= targetFrame) { + break; + } + + /* Getting here means we haven't yet reached the target sample, so continue waiting. */ + ma_sleep(10); + } + + pDevice->null_device.lastProcessedFramePlayback += pDevice->playback.internalPeriodSizeInFrames; + pDevice->null_device.currentPeriodFramesRemainingPlayback = pDevice->playback.internalPeriodSizeInFrames; + } + + if (pFramesWritten != NULL) { + *pFramesWritten = totalPCMFramesProcessed; + } + + return result; +} + +static ma_result ma_device_read__null(ma_device* pDevice, void* pPCMFrames, ma_uint32 frameCount, ma_uint32* pFramesRead) +{ + ma_result result = MA_SUCCESS; + ma_uint32 totalPCMFramesProcessed; + + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + /* Keep going until everything has been read. */ + totalPCMFramesProcessed = 0; + while (totalPCMFramesProcessed < frameCount) { + ma_uint64 targetFrame; + + /* If there are any frames remaining in the current period, consume those first. */ + if (pDevice->null_device.currentPeriodFramesRemainingCapture > 0) { + ma_uint32 bpf = ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels); + ma_uint32 framesRemaining = (frameCount - totalPCMFramesProcessed); + ma_uint32 framesToProcess = pDevice->null_device.currentPeriodFramesRemainingCapture; + if (framesToProcess > framesRemaining) { + framesToProcess = framesRemaining; + } + + /* We need to ensure the output buffer is zeroed. */ + MA_ZERO_MEMORY(ma_offset_ptr(pPCMFrames, totalPCMFramesProcessed*bpf), framesToProcess*bpf); + + pDevice->null_device.currentPeriodFramesRemainingCapture -= framesToProcess; + totalPCMFramesProcessed += framesToProcess; + } + + /* If we've consumed the current period we'll need to mark it as such an ensure the device is started if it's not already. */ + if (pDevice->null_device.currentPeriodFramesRemainingCapture == 0) { + pDevice->null_device.currentPeriodFramesRemainingCapture = 0; + } + + /* If we've consumed the whole buffer we can return now. */ + MA_ASSERT(totalPCMFramesProcessed <= frameCount); + if (totalPCMFramesProcessed == frameCount) { + break; + } + + /* Getting here means we've still got more frames to consume, we but need to wait for it to become available. */ + targetFrame = pDevice->null_device.lastProcessedFrameCapture + pDevice->capture.internalPeriodSizeInFrames; + for (;;) { + ma_uint64 currentFrame; + + /* Stop waiting if the device has been stopped. */ + if (!ma_device_is_started__null(pDevice)) { + break; + } + + currentFrame = ma_device_get_total_run_time_in_frames__null(pDevice); + if (currentFrame >= targetFrame) { + break; + } + + /* Getting here means we haven't yet reached the target sample, so continue waiting. */ + ma_sleep(10); + } + + pDevice->null_device.lastProcessedFrameCapture += pDevice->capture.internalPeriodSizeInFrames; + pDevice->null_device.currentPeriodFramesRemainingCapture = pDevice->capture.internalPeriodSizeInFrames; + } + + if (pFramesRead != NULL) { + *pFramesRead = totalPCMFramesProcessed; + } + + return result; +} + +static ma_result ma_context_uninit__null(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_null); + + (void)pContext; + return MA_SUCCESS; +} + +static ma_result ma_context_init__null(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ + MA_ASSERT(pContext != NULL); + + (void)pConfig; + (void)pContext; + + pCallbacks->onContextInit = ma_context_init__null; + pCallbacks->onContextUninit = ma_context_uninit__null; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__null; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__null; + pCallbacks->onDeviceInit = ma_device_init__null; + pCallbacks->onDeviceUninit = ma_device_uninit__null; + pCallbacks->onDeviceStart = ma_device_start__null; + pCallbacks->onDeviceStop = ma_device_stop__null; + pCallbacks->onDeviceRead = ma_device_read__null; + pCallbacks->onDeviceWrite = ma_device_write__null; + pCallbacks->onDeviceDataLoop = NULL; /* Our backend is asynchronous with a blocking read-write API which means we can get miniaudio to deal with the audio thread. */ + + /* The null backend always works. */ + return MA_SUCCESS; +} +#endif + + + +/******************************************************************************* + +WIN32 COMMON + +*******************************************************************************/ +#if defined(MA_WIN32) && !defined(MA_XBOX) +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + #define ma_CoInitializeEx(pContext, pvReserved, dwCoInit) ((pContext->win32.CoInitializeEx) ? ((MA_PFN_CoInitializeEx)pContext->win32.CoInitializeEx)(pvReserved, dwCoInit) : ((MA_PFN_CoInitialize)pContext->win32.CoInitialize)(pvReserved)) + #define ma_CoUninitialize(pContext) ((MA_PFN_CoUninitialize)pContext->win32.CoUninitialize)() + #define ma_CoCreateInstance(pContext, rclsid, pUnkOuter, dwClsContext, riid, ppv) ((MA_PFN_CoCreateInstance)pContext->win32.CoCreateInstance)(rclsid, pUnkOuter, dwClsContext, riid, ppv) + #define ma_CoTaskMemFree(pContext, pv) ((MA_PFN_CoTaskMemFree)pContext->win32.CoTaskMemFree)(pv) + #define ma_PropVariantClear(pContext, pvar) ((MA_PFN_PropVariantClear)pContext->win32.PropVariantClear)(pvar) +#else + #define ma_CoInitializeEx(pContext, pvReserved, dwCoInit) CoInitializeEx(pvReserved, dwCoInit) + #define ma_CoUninitialize(pContext) CoUninitialize() + #define ma_CoCreateInstance(pContext, rclsid, pUnkOuter, dwClsContext, riid, ppv) CoCreateInstance(rclsid, pUnkOuter, dwClsContext, riid, ppv) + #define ma_CoTaskMemFree(pContext, pv) CoTaskMemFree(pv) + #define ma_PropVariantClear(pContext, pvar) PropVariantClear(pvar) +#endif + +#if !defined(MAXULONG_PTR) && !defined(__WATCOMC__) && !defined(MA_XBOX_NXDK) +typedef size_t DWORD_PTR; +#endif + +#if !defined(WAVE_FORMAT_1M08) +#define WAVE_FORMAT_1M08 0x00000001 +#define WAVE_FORMAT_1S08 0x00000002 +#define WAVE_FORMAT_1M16 0x00000004 +#define WAVE_FORMAT_1S16 0x00000008 +#define WAVE_FORMAT_2M08 0x00000010 +#define WAVE_FORMAT_2S08 0x00000020 +#define WAVE_FORMAT_2M16 0x00000040 +#define WAVE_FORMAT_2S16 0x00000080 +#define WAVE_FORMAT_4M08 0x00000100 +#define WAVE_FORMAT_4S08 0x00000200 +#define WAVE_FORMAT_4M16 0x00000400 +#define WAVE_FORMAT_4S16 0x00000800 +#endif + +#if !defined(WAVE_FORMAT_44M08) +#define WAVE_FORMAT_44M08 0x00000100 +#define WAVE_FORMAT_44S08 0x00000200 +#define WAVE_FORMAT_44M16 0x00000400 +#define WAVE_FORMAT_44S16 0x00000800 +#define WAVE_FORMAT_48M08 0x00001000 +#define WAVE_FORMAT_48S08 0x00002000 +#define WAVE_FORMAT_48M16 0x00004000 +#define WAVE_FORMAT_48S16 0x00008000 +#define WAVE_FORMAT_96M08 0x00010000 +#define WAVE_FORMAT_96S08 0x00020000 +#define WAVE_FORMAT_96M16 0x00040000 +#define WAVE_FORMAT_96S16 0x00080000 +#endif + +#ifndef SPEAKER_FRONT_LEFT +#define SPEAKER_FRONT_LEFT 0x1 +#define SPEAKER_FRONT_RIGHT 0x2 +#define SPEAKER_FRONT_CENTER 0x4 +#define SPEAKER_LOW_FREQUENCY 0x8 +#define SPEAKER_BACK_LEFT 0x10 +#define SPEAKER_BACK_RIGHT 0x20 +#define SPEAKER_FRONT_LEFT_OF_CENTER 0x40 +#define SPEAKER_FRONT_RIGHT_OF_CENTER 0x80 +#define SPEAKER_BACK_CENTER 0x100 +#define SPEAKER_SIDE_LEFT 0x200 +#define SPEAKER_SIDE_RIGHT 0x400 +#define SPEAKER_TOP_CENTER 0x800 +#define SPEAKER_TOP_FRONT_LEFT 0x1000 +#define SPEAKER_TOP_FRONT_CENTER 0x2000 +#define SPEAKER_TOP_FRONT_RIGHT 0x4000 +#define SPEAKER_TOP_BACK_LEFT 0x8000 +#define SPEAKER_TOP_BACK_CENTER 0x10000 +#define SPEAKER_TOP_BACK_RIGHT 0x20000 +#endif + +/* +Implement our own version of MA_WAVEFORMATEXTENSIBLE so we can avoid a header. Be careful with this +because MA_WAVEFORMATEX has an extra two bytes over standard WAVEFORMATEX due to padding. The +standard version uses tight packing, but for compiler compatibility we're not doing that with ours. +*/ +typedef struct +{ + WORD wFormatTag; + WORD nChannels; + DWORD nSamplesPerSec; + DWORD nAvgBytesPerSec; + WORD nBlockAlign; + WORD wBitsPerSample; + WORD cbSize; +} MA_WAVEFORMATEX; + +typedef struct +{ + WORD wFormatTag; + WORD nChannels; + DWORD nSamplesPerSec; + DWORD nAvgBytesPerSec; + WORD nBlockAlign; + WORD wBitsPerSample; + WORD cbSize; + union + { + WORD wValidBitsPerSample; + WORD wSamplesPerBlock; + WORD wReserved; + } Samples; + DWORD dwChannelMask; + GUID SubFormat; +} MA_WAVEFORMATEXTENSIBLE; + + + +#ifndef WAVE_FORMAT_EXTENSIBLE +#define WAVE_FORMAT_EXTENSIBLE 0xFFFE +#endif + +#ifndef WAVE_FORMAT_PCM +#define WAVE_FORMAT_PCM 1 +#endif + +#ifndef WAVE_FORMAT_IEEE_FLOAT +#define WAVE_FORMAT_IEEE_FLOAT 0x0003 +#endif + +/* Converts an individual Win32-style channel identifier (SPEAKER_FRONT_LEFT, etc.) to miniaudio. */ +static ma_uint8 ma_channel_id_to_ma__win32(DWORD id) +{ + switch (id) + { + case SPEAKER_FRONT_LEFT: return MA_CHANNEL_FRONT_LEFT; + case SPEAKER_FRONT_RIGHT: return MA_CHANNEL_FRONT_RIGHT; + case SPEAKER_FRONT_CENTER: return MA_CHANNEL_FRONT_CENTER; + case SPEAKER_LOW_FREQUENCY: return MA_CHANNEL_LFE; + case SPEAKER_BACK_LEFT: return MA_CHANNEL_BACK_LEFT; + case SPEAKER_BACK_RIGHT: return MA_CHANNEL_BACK_RIGHT; + case SPEAKER_FRONT_LEFT_OF_CENTER: return MA_CHANNEL_FRONT_LEFT_CENTER; + case SPEAKER_FRONT_RIGHT_OF_CENTER: return MA_CHANNEL_FRONT_RIGHT_CENTER; + case SPEAKER_BACK_CENTER: return MA_CHANNEL_BACK_CENTER; + case SPEAKER_SIDE_LEFT: return MA_CHANNEL_SIDE_LEFT; + case SPEAKER_SIDE_RIGHT: return MA_CHANNEL_SIDE_RIGHT; + case SPEAKER_TOP_CENTER: return MA_CHANNEL_TOP_CENTER; + case SPEAKER_TOP_FRONT_LEFT: return MA_CHANNEL_TOP_FRONT_LEFT; + case SPEAKER_TOP_FRONT_CENTER: return MA_CHANNEL_TOP_FRONT_CENTER; + case SPEAKER_TOP_FRONT_RIGHT: return MA_CHANNEL_TOP_FRONT_RIGHT; + case SPEAKER_TOP_BACK_LEFT: return MA_CHANNEL_TOP_BACK_LEFT; + case SPEAKER_TOP_BACK_CENTER: return MA_CHANNEL_TOP_BACK_CENTER; + case SPEAKER_TOP_BACK_RIGHT: return MA_CHANNEL_TOP_BACK_RIGHT; + default: return 0; + } +} + +/* Converts an individual miniaudio channel identifier (MA_CHANNEL_FRONT_LEFT, etc.) to Win32-style. */ +static DWORD ma_channel_id_to_win32(DWORD id) +{ + switch (id) + { + case MA_CHANNEL_MONO: return SPEAKER_FRONT_CENTER; + case MA_CHANNEL_FRONT_LEFT: return SPEAKER_FRONT_LEFT; + case MA_CHANNEL_FRONT_RIGHT: return SPEAKER_FRONT_RIGHT; + case MA_CHANNEL_FRONT_CENTER: return SPEAKER_FRONT_CENTER; + case MA_CHANNEL_LFE: return SPEAKER_LOW_FREQUENCY; + case MA_CHANNEL_BACK_LEFT: return SPEAKER_BACK_LEFT; + case MA_CHANNEL_BACK_RIGHT: return SPEAKER_BACK_RIGHT; + case MA_CHANNEL_FRONT_LEFT_CENTER: return SPEAKER_FRONT_LEFT_OF_CENTER; + case MA_CHANNEL_FRONT_RIGHT_CENTER: return SPEAKER_FRONT_RIGHT_OF_CENTER; + case MA_CHANNEL_BACK_CENTER: return SPEAKER_BACK_CENTER; + case MA_CHANNEL_SIDE_LEFT: return SPEAKER_SIDE_LEFT; + case MA_CHANNEL_SIDE_RIGHT: return SPEAKER_SIDE_RIGHT; + case MA_CHANNEL_TOP_CENTER: return SPEAKER_TOP_CENTER; + case MA_CHANNEL_TOP_FRONT_LEFT: return SPEAKER_TOP_FRONT_LEFT; + case MA_CHANNEL_TOP_FRONT_CENTER: return SPEAKER_TOP_FRONT_CENTER; + case MA_CHANNEL_TOP_FRONT_RIGHT: return SPEAKER_TOP_FRONT_RIGHT; + case MA_CHANNEL_TOP_BACK_LEFT: return SPEAKER_TOP_BACK_LEFT; + case MA_CHANNEL_TOP_BACK_CENTER: return SPEAKER_TOP_BACK_CENTER; + case MA_CHANNEL_TOP_BACK_RIGHT: return SPEAKER_TOP_BACK_RIGHT; + default: return 0; + } +} + +/* Converts a channel mapping to a Win32-style channel mask. */ +static DWORD ma_channel_map_to_channel_mask__win32(const ma_channel* pChannelMap, ma_uint32 channels) +{ + DWORD dwChannelMask = 0; + ma_uint32 iChannel; + + for (iChannel = 0; iChannel < channels; ++iChannel) { + dwChannelMask |= ma_channel_id_to_win32(pChannelMap[iChannel]); + } + + return dwChannelMask; +} + +/* Converts a Win32-style channel mask to a miniaudio channel map. */ +static void ma_channel_mask_to_channel_map__win32(DWORD dwChannelMask, ma_uint32 channels, ma_channel* pChannelMap) +{ + /* If the channel mask is set to 0, just assume a default Win32 channel map. */ + if (dwChannelMask == 0) { + ma_channel_map_init_standard(ma_standard_channel_map_microsoft, pChannelMap, channels, channels); + } else { + if (channels == 1 && (dwChannelMask & SPEAKER_FRONT_CENTER) != 0) { + pChannelMap[0] = MA_CHANNEL_MONO; + } else { + /* Just iterate over each bit. */ + ma_uint32 iChannel = 0; + ma_uint32 iBit; + + for (iBit = 0; iBit < 32 && iChannel < channels; ++iBit) { + DWORD bitValue = (dwChannelMask & (1UL << iBit)); + if (bitValue != 0) { + /* The bit is set. */ + pChannelMap[iChannel] = ma_channel_id_to_ma__win32(bitValue); + iChannel += 1; + } + } + } + } +} + +#ifdef __cplusplus +static ma_bool32 ma_is_guid_equal(const void* a, const void* b) +{ + return IsEqualGUID(*(const GUID*)a, *(const GUID*)b); +} +#else +#define ma_is_guid_equal(a, b) IsEqualGUID((const GUID*)a, (const GUID*)b) +#endif + +static MA_INLINE ma_bool32 ma_is_guid_null(const void* guid) +{ + static GUID nullguid = {0x00000000, 0x0000, 0x0000, {0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00}}; + return ma_is_guid_equal(guid, &nullguid); +} + +static ma_format ma_format_from_WAVEFORMATEX(const MA_WAVEFORMATEX* pWF) +{ + MA_ASSERT(pWF != NULL); + + if (pWF->wFormatTag == WAVE_FORMAT_EXTENSIBLE) { + const MA_WAVEFORMATEXTENSIBLE* pWFEX = (const MA_WAVEFORMATEXTENSIBLE*)pWF; + if (ma_is_guid_equal(&pWFEX->SubFormat, &MA_GUID_KSDATAFORMAT_SUBTYPE_PCM)) { + if (pWFEX->Samples.wValidBitsPerSample == 32) { + return ma_format_s32; + } + if (pWFEX->Samples.wValidBitsPerSample == 24) { + if (pWFEX->wBitsPerSample == 32) { + return ma_format_s32; + } + if (pWFEX->wBitsPerSample == 24) { + return ma_format_s24; + } + } + if (pWFEX->Samples.wValidBitsPerSample == 16) { + return ma_format_s16; + } + if (pWFEX->Samples.wValidBitsPerSample == 8) { + return ma_format_u8; + } + } + if (ma_is_guid_equal(&pWFEX->SubFormat, &MA_GUID_KSDATAFORMAT_SUBTYPE_IEEE_FLOAT)) { + if (pWFEX->Samples.wValidBitsPerSample == 32) { + return ma_format_f32; + } + /* + if (pWFEX->Samples.wValidBitsPerSample == 64) { + return ma_format_f64; + } + */ + } + } else { + if (pWF->wFormatTag == WAVE_FORMAT_PCM) { + if (pWF->wBitsPerSample == 32) { + return ma_format_s32; + } + if (pWF->wBitsPerSample == 24) { + return ma_format_s24; + } + if (pWF->wBitsPerSample == 16) { + return ma_format_s16; + } + if (pWF->wBitsPerSample == 8) { + return ma_format_u8; + } + } + if (pWF->wFormatTag == WAVE_FORMAT_IEEE_FLOAT) { + if (pWF->wBitsPerSample == 32) { + return ma_format_f32; + } + if (pWF->wBitsPerSample == 64) { + /*return ma_format_f64;*/ + } + } + } + + return ma_format_unknown; +} +#endif + + +/******************************************************************************* + +WASAPI Backend + +*******************************************************************************/ +#ifdef MA_HAS_WASAPI +#if 0 +#if defined(_MSC_VER) + #pragma warning(push) + #pragma warning(disable:4091) /* 'typedef ': ignored on left of '' when no variable is declared */ +#endif +#include +#include +#if defined(_MSC_VER) + #pragma warning(pop) +#endif +#endif /* 0 */ + +static ma_result ma_device_reroute__wasapi(ma_device* pDevice, ma_device_type deviceType); + +/* Some compilers don't define VerifyVersionInfoW. Need to write this ourselves. */ +#define MA_WIN32_WINNT_VISTA 0x0600 +#define MA_VER_MINORVERSION 0x01 +#define MA_VER_MAJORVERSION 0x02 +#define MA_VER_SERVICEPACKMAJOR 0x20 +#define MA_VER_GREATER_EQUAL 0x03 + +typedef struct { + DWORD dwOSVersionInfoSize; + DWORD dwMajorVersion; + DWORD dwMinorVersion; + DWORD dwBuildNumber; + DWORD dwPlatformId; + WCHAR szCSDVersion[128]; + WORD wServicePackMajor; + WORD wServicePackMinor; + WORD wSuiteMask; + BYTE wProductType; + BYTE wReserved; +} ma_OSVERSIONINFOEXW; + +typedef BOOL (WINAPI * ma_PFNVerifyVersionInfoW) (ma_OSVERSIONINFOEXW* lpVersionInfo, DWORD dwTypeMask, DWORDLONG dwlConditionMask); +typedef ULONGLONG (WINAPI * ma_PFNVerSetConditionMask)(ULONGLONG dwlConditionMask, DWORD dwTypeBitMask, BYTE dwConditionMask); + + +#ifndef PROPERTYKEY_DEFINED +#define PROPERTYKEY_DEFINED +#ifndef __WATCOMC__ +typedef struct +{ + GUID fmtid; + DWORD pid; +} PROPERTYKEY; +#endif +#endif + +/* Some compilers don't define PropVariantInit(). We just do this ourselves since it's just a memset(). */ +static MA_INLINE void ma_PropVariantInit(MA_PROPVARIANT* pProp) +{ + MA_ZERO_OBJECT(pProp); +} + + +static const PROPERTYKEY MA_PKEY_Device_FriendlyName = {{0xA45C254E, 0xDF1C, 0x4EFD, {0x80, 0x20, 0x67, 0xD1, 0x46, 0xA8, 0x50, 0xE0}}, 14}; +static const PROPERTYKEY MA_PKEY_AudioEngine_DeviceFormat = {{0xF19F064D, 0x82C, 0x4E27, {0xBC, 0x73, 0x68, 0x82, 0xA1, 0xBB, 0x8E, 0x4C}}, 0}; + +static const IID MA_IID_IUnknown = {0x00000000, 0x0000, 0x0000, {0xC0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x46}}; /* 00000000-0000-0000-C000-000000000046 */ +#if !defined(MA_WIN32_DESKTOP) && !defined(MA_WIN32_GDK) +static const IID MA_IID_IAgileObject = {0x94EA2B94, 0xE9CC, 0x49E0, {0xC0, 0xFF, 0xEE, 0x64, 0xCA, 0x8F, 0x5B, 0x90}}; /* 94EA2B94-E9CC-49E0-C0FF-EE64CA8F5B90 */ +#endif + +static const IID MA_IID_IAudioClient = {0x1CB9AD4C, 0xDBFA, 0x4C32, {0xB1, 0x78, 0xC2, 0xF5, 0x68, 0xA7, 0x03, 0xB2}}; /* 1CB9AD4C-DBFA-4C32-B178-C2F568A703B2 = __uuidof(IAudioClient) */ +static const IID MA_IID_IAudioClient2 = {0x726778CD, 0xF60A, 0x4EDA, {0x82, 0xDE, 0xE4, 0x76, 0x10, 0xCD, 0x78, 0xAA}}; /* 726778CD-F60A-4EDA-82DE-E47610CD78AA = __uuidof(IAudioClient2) */ +static const IID MA_IID_IAudioClient3 = {0x7ED4EE07, 0x8E67, 0x4CD4, {0x8C, 0x1A, 0x2B, 0x7A, 0x59, 0x87, 0xAD, 0x42}}; /* 7ED4EE07-8E67-4CD4-8C1A-2B7A5987AD42 = __uuidof(IAudioClient3) */ +static const IID MA_IID_IAudioRenderClient = {0xF294ACFC, 0x3146, 0x4483, {0xA7, 0xBF, 0xAD, 0xDC, 0xA7, 0xC2, 0x60, 0xE2}}; /* F294ACFC-3146-4483-A7BF-ADDCA7C260E2 = __uuidof(IAudioRenderClient) */ +static const IID MA_IID_IAudioCaptureClient = {0xC8ADBD64, 0xE71E, 0x48A0, {0xA4, 0xDE, 0x18, 0x5C, 0x39, 0x5C, 0xD3, 0x17}}; /* C8ADBD64-E71E-48A0-A4DE-185C395CD317 = __uuidof(IAudioCaptureClient) */ +static const IID MA_IID_IMMNotificationClient = {0x7991EEC9, 0x7E89, 0x4D85, {0x83, 0x90, 0x6C, 0x70, 0x3C, 0xEC, 0x60, 0xC0}}; /* 7991EEC9-7E89-4D85-8390-6C703CEC60C0 = __uuidof(IMMNotificationClient) */ +#if !defined(MA_WIN32_DESKTOP) && !defined(MA_WIN32_GDK) +static const IID MA_IID_DEVINTERFACE_AUDIO_RENDER = {0xE6327CAD, 0xDCEC, 0x4949, {0xAE, 0x8A, 0x99, 0x1E, 0x97, 0x6A, 0x79, 0xD2}}; /* E6327CAD-DCEC-4949-AE8A-991E976A79D2 */ +static const IID MA_IID_DEVINTERFACE_AUDIO_CAPTURE = {0x2EEF81BE, 0x33FA, 0x4800, {0x96, 0x70, 0x1C, 0xD4, 0x74, 0x97, 0x2C, 0x3F}}; /* 2EEF81BE-33FA-4800-9670-1CD474972C3F */ +static const IID MA_IID_IActivateAudioInterfaceCompletionHandler = {0x41D949AB, 0x9862, 0x444A, {0x80, 0xF6, 0xC2, 0x61, 0x33, 0x4D, 0xA5, 0xEB}}; /* 41D949AB-9862-444A-80F6-C261334DA5EB */ +#endif + +static const IID MA_CLSID_MMDeviceEnumerator = {0xBCDE0395, 0xE52F, 0x467C, {0x8E, 0x3D, 0xC4, 0x57, 0x92, 0x91, 0x69, 0x2E}}; /* BCDE0395-E52F-467C-8E3D-C4579291692E = __uuidof(MMDeviceEnumerator) */ +static const IID MA_IID_IMMDeviceEnumerator = {0xA95664D2, 0x9614, 0x4F35, {0xA7, 0x46, 0xDE, 0x8D, 0xB6, 0x36, 0x17, 0xE6}}; /* A95664D2-9614-4F35-A746-DE8DB63617E6 = __uuidof(IMMDeviceEnumerator) */ + +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) +#define MA_MM_DEVICE_STATE_ACTIVE 1 +#define MA_MM_DEVICE_STATE_DISABLED 2 +#define MA_MM_DEVICE_STATE_NOTPRESENT 4 +#define MA_MM_DEVICE_STATE_UNPLUGGED 8 + +typedef struct ma_IMMDeviceEnumerator ma_IMMDeviceEnumerator; +typedef struct ma_IMMDeviceCollection ma_IMMDeviceCollection; +typedef struct ma_IMMDevice ma_IMMDevice; +#else +typedef struct ma_IActivateAudioInterfaceCompletionHandler ma_IActivateAudioInterfaceCompletionHandler; +typedef struct ma_IActivateAudioInterfaceAsyncOperation ma_IActivateAudioInterfaceAsyncOperation; +#endif +typedef struct ma_IPropertyStore ma_IPropertyStore; +typedef struct ma_IAudioClient ma_IAudioClient; +typedef struct ma_IAudioClient2 ma_IAudioClient2; +typedef struct ma_IAudioClient3 ma_IAudioClient3; +typedef struct ma_IAudioRenderClient ma_IAudioRenderClient; +typedef struct ma_IAudioCaptureClient ma_IAudioCaptureClient; + +typedef ma_int64 MA_REFERENCE_TIME; + +#define MA_AUDCLNT_STREAMFLAGS_CROSSPROCESS 0x00010000 +#define MA_AUDCLNT_STREAMFLAGS_LOOPBACK 0x00020000 +#define MA_AUDCLNT_STREAMFLAGS_EVENTCALLBACK 0x00040000 +#define MA_AUDCLNT_STREAMFLAGS_NOPERSIST 0x00080000 +#define MA_AUDCLNT_STREAMFLAGS_RATEADJUST 0x00100000 +#define MA_AUDCLNT_STREAMFLAGS_SRC_DEFAULT_QUALITY 0x08000000 +#define MA_AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM 0x80000000 +#define MA_AUDCLNT_SESSIONFLAGS_EXPIREWHENUNOWNED 0x10000000 +#define MA_AUDCLNT_SESSIONFLAGS_DISPLAY_HIDE 0x20000000 +#define MA_AUDCLNT_SESSIONFLAGS_DISPLAY_HIDEWHENEXPIRED 0x40000000 + +/* Buffer flags. */ +#define MA_AUDCLNT_BUFFERFLAGS_DATA_DISCONTINUITY 1 +#define MA_AUDCLNT_BUFFERFLAGS_SILENT 2 +#define MA_AUDCLNT_BUFFERFLAGS_TIMESTAMP_ERROR 4 + +typedef enum +{ + ma_eRender = 0, + ma_eCapture = 1, + ma_eAll = 2 +} ma_EDataFlow; + +typedef enum +{ + ma_eConsole = 0, + ma_eMultimedia = 1, + ma_eCommunications = 2 +} ma_ERole; + +typedef enum +{ + MA_AUDCLNT_SHAREMODE_SHARED, + MA_AUDCLNT_SHAREMODE_EXCLUSIVE +} MA_AUDCLNT_SHAREMODE; + +typedef enum +{ + MA_AudioCategory_Other = 0 /* <-- miniaudio is only caring about Other. */ +} MA_AUDIO_STREAM_CATEGORY; + +typedef enum +{ + MA_AUDCLNT_STREAMOPTIONS_NONE, + MA_AUDCLNT_STREAMOPTIONS_RAW, + MA_AUDCLNT_STREAMOPTIONS_MATCH_FORMAT, + MA_AUDCLNT_STREAMOPTIONS_AMBISONICS, + MA_AUDCLNT_STREAMOPTIONS_POST_VOLUME_LOOPBACK +} MA_AUDCLNT_STREAMOPTIONS; + +typedef struct +{ + ma_uint32 cbSize; + BOOL bIsOffload; + MA_AUDIO_STREAM_CATEGORY eCategory; + MA_AUDCLNT_STREAMOPTIONS Options; +} ma_AudioClientProperties; + +/* IUnknown */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IUnknown* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IUnknown* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IUnknown* pThis); +} ma_IUnknownVtbl; +struct ma_IUnknown +{ + ma_IUnknownVtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IUnknown_QueryInterface(ma_IUnknown* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IUnknown_AddRef(ma_IUnknown* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IUnknown_Release(ma_IUnknown* pThis) { return pThis->lpVtbl->Release(pThis); } + +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + /* IMMNotificationClient */ + typedef struct + { + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IMMNotificationClient* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IMMNotificationClient* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IMMNotificationClient* pThis); + + /* IMMNotificationClient */ + HRESULT (STDMETHODCALLTYPE * OnDeviceStateChanged) (ma_IMMNotificationClient* pThis, const WCHAR* pDeviceID, DWORD dwNewState); + HRESULT (STDMETHODCALLTYPE * OnDeviceAdded) (ma_IMMNotificationClient* pThis, const WCHAR* pDeviceID); + HRESULT (STDMETHODCALLTYPE * OnDeviceRemoved) (ma_IMMNotificationClient* pThis, const WCHAR* pDeviceID); + HRESULT (STDMETHODCALLTYPE * OnDefaultDeviceChanged)(ma_IMMNotificationClient* pThis, ma_EDataFlow dataFlow, ma_ERole role, const WCHAR* pDefaultDeviceID); + HRESULT (STDMETHODCALLTYPE * OnPropertyValueChanged)(ma_IMMNotificationClient* pThis, const WCHAR* pDeviceID, const PROPERTYKEY key); + } ma_IMMNotificationClientVtbl; + + /* IMMDeviceEnumerator */ + typedef struct + { + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IMMDeviceEnumerator* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IMMDeviceEnumerator* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IMMDeviceEnumerator* pThis); + + /* IMMDeviceEnumerator */ + HRESULT (STDMETHODCALLTYPE * EnumAudioEndpoints) (ma_IMMDeviceEnumerator* pThis, ma_EDataFlow dataFlow, DWORD dwStateMask, ma_IMMDeviceCollection** ppDevices); + HRESULT (STDMETHODCALLTYPE * GetDefaultAudioEndpoint) (ma_IMMDeviceEnumerator* pThis, ma_EDataFlow dataFlow, ma_ERole role, ma_IMMDevice** ppEndpoint); + HRESULT (STDMETHODCALLTYPE * GetDevice) (ma_IMMDeviceEnumerator* pThis, const WCHAR* pID, ma_IMMDevice** ppDevice); + HRESULT (STDMETHODCALLTYPE * RegisterEndpointNotificationCallback) (ma_IMMDeviceEnumerator* pThis, ma_IMMNotificationClient* pClient); + HRESULT (STDMETHODCALLTYPE * UnregisterEndpointNotificationCallback)(ma_IMMDeviceEnumerator* pThis, ma_IMMNotificationClient* pClient); + } ma_IMMDeviceEnumeratorVtbl; + struct ma_IMMDeviceEnumerator + { + ma_IMMDeviceEnumeratorVtbl* lpVtbl; + }; + static MA_INLINE HRESULT ma_IMMDeviceEnumerator_QueryInterface(ma_IMMDeviceEnumerator* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } + static MA_INLINE ULONG ma_IMMDeviceEnumerator_AddRef(ma_IMMDeviceEnumerator* pThis) { return pThis->lpVtbl->AddRef(pThis); } + static MA_INLINE ULONG ma_IMMDeviceEnumerator_Release(ma_IMMDeviceEnumerator* pThis) { return pThis->lpVtbl->Release(pThis); } + static MA_INLINE HRESULT ma_IMMDeviceEnumerator_EnumAudioEndpoints(ma_IMMDeviceEnumerator* pThis, ma_EDataFlow dataFlow, DWORD dwStateMask, ma_IMMDeviceCollection** ppDevices) { return pThis->lpVtbl->EnumAudioEndpoints(pThis, dataFlow, dwStateMask, ppDevices); } + static MA_INLINE HRESULT ma_IMMDeviceEnumerator_GetDefaultAudioEndpoint(ma_IMMDeviceEnumerator* pThis, ma_EDataFlow dataFlow, ma_ERole role, ma_IMMDevice** ppEndpoint) { return pThis->lpVtbl->GetDefaultAudioEndpoint(pThis, dataFlow, role, ppEndpoint); } + static MA_INLINE HRESULT ma_IMMDeviceEnumerator_GetDevice(ma_IMMDeviceEnumerator* pThis, const WCHAR* pID, ma_IMMDevice** ppDevice) { return pThis->lpVtbl->GetDevice(pThis, pID, ppDevice); } + static MA_INLINE HRESULT ma_IMMDeviceEnumerator_RegisterEndpointNotificationCallback(ma_IMMDeviceEnumerator* pThis, ma_IMMNotificationClient* pClient) { return pThis->lpVtbl->RegisterEndpointNotificationCallback(pThis, pClient); } + static MA_INLINE HRESULT ma_IMMDeviceEnumerator_UnregisterEndpointNotificationCallback(ma_IMMDeviceEnumerator* pThis, ma_IMMNotificationClient* pClient) { return pThis->lpVtbl->UnregisterEndpointNotificationCallback(pThis, pClient); } + + + /* IMMDeviceCollection */ + typedef struct + { + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IMMDeviceCollection* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IMMDeviceCollection* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IMMDeviceCollection* pThis); + + /* IMMDeviceCollection */ + HRESULT (STDMETHODCALLTYPE * GetCount)(ma_IMMDeviceCollection* pThis, UINT* pDevices); + HRESULT (STDMETHODCALLTYPE * Item) (ma_IMMDeviceCollection* pThis, UINT nDevice, ma_IMMDevice** ppDevice); + } ma_IMMDeviceCollectionVtbl; + struct ma_IMMDeviceCollection + { + ma_IMMDeviceCollectionVtbl* lpVtbl; + }; + static MA_INLINE HRESULT ma_IMMDeviceCollection_QueryInterface(ma_IMMDeviceCollection* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } + static MA_INLINE ULONG ma_IMMDeviceCollection_AddRef(ma_IMMDeviceCollection* pThis) { return pThis->lpVtbl->AddRef(pThis); } + static MA_INLINE ULONG ma_IMMDeviceCollection_Release(ma_IMMDeviceCollection* pThis) { return pThis->lpVtbl->Release(pThis); } + static MA_INLINE HRESULT ma_IMMDeviceCollection_GetCount(ma_IMMDeviceCollection* pThis, UINT* pDevices) { return pThis->lpVtbl->GetCount(pThis, pDevices); } + static MA_INLINE HRESULT ma_IMMDeviceCollection_Item(ma_IMMDeviceCollection* pThis, UINT nDevice, ma_IMMDevice** ppDevice) { return pThis->lpVtbl->Item(pThis, nDevice, ppDevice); } + + + /* IMMDevice */ + typedef struct + { + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IMMDevice* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IMMDevice* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IMMDevice* pThis); + + /* IMMDevice */ + HRESULT (STDMETHODCALLTYPE * Activate) (ma_IMMDevice* pThis, const IID* const iid, DWORD dwClsCtx, MA_PROPVARIANT* pActivationParams, void** ppInterface); + HRESULT (STDMETHODCALLTYPE * OpenPropertyStore)(ma_IMMDevice* pThis, DWORD stgmAccess, ma_IPropertyStore** ppProperties); + HRESULT (STDMETHODCALLTYPE * GetId) (ma_IMMDevice* pThis, WCHAR** pID); + HRESULT (STDMETHODCALLTYPE * GetState) (ma_IMMDevice* pThis, DWORD *pState); + } ma_IMMDeviceVtbl; + struct ma_IMMDevice + { + ma_IMMDeviceVtbl* lpVtbl; + }; + static MA_INLINE HRESULT ma_IMMDevice_QueryInterface(ma_IMMDevice* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } + static MA_INLINE ULONG ma_IMMDevice_AddRef(ma_IMMDevice* pThis) { return pThis->lpVtbl->AddRef(pThis); } + static MA_INLINE ULONG ma_IMMDevice_Release(ma_IMMDevice* pThis) { return pThis->lpVtbl->Release(pThis); } + static MA_INLINE HRESULT ma_IMMDevice_Activate(ma_IMMDevice* pThis, const IID* const iid, DWORD dwClsCtx, MA_PROPVARIANT* pActivationParams, void** ppInterface) { return pThis->lpVtbl->Activate(pThis, iid, dwClsCtx, pActivationParams, ppInterface); } + static MA_INLINE HRESULT ma_IMMDevice_OpenPropertyStore(ma_IMMDevice* pThis, DWORD stgmAccess, ma_IPropertyStore** ppProperties) { return pThis->lpVtbl->OpenPropertyStore(pThis, stgmAccess, ppProperties); } + static MA_INLINE HRESULT ma_IMMDevice_GetId(ma_IMMDevice* pThis, WCHAR** pID) { return pThis->lpVtbl->GetId(pThis, pID); } + static MA_INLINE HRESULT ma_IMMDevice_GetState(ma_IMMDevice* pThis, DWORD *pState) { return pThis->lpVtbl->GetState(pThis, pState); } +#else + /* IActivateAudioInterfaceAsyncOperation */ + typedef struct + { + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IActivateAudioInterfaceAsyncOperation* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IActivateAudioInterfaceAsyncOperation* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IActivateAudioInterfaceAsyncOperation* pThis); + + /* IActivateAudioInterfaceAsyncOperation */ + HRESULT (STDMETHODCALLTYPE * GetActivateResult)(ma_IActivateAudioInterfaceAsyncOperation* pThis, HRESULT *pActivateResult, ma_IUnknown** ppActivatedInterface); + } ma_IActivateAudioInterfaceAsyncOperationVtbl; + struct ma_IActivateAudioInterfaceAsyncOperation + { + ma_IActivateAudioInterfaceAsyncOperationVtbl* lpVtbl; + }; + static MA_INLINE HRESULT ma_IActivateAudioInterfaceAsyncOperation_QueryInterface(ma_IActivateAudioInterfaceAsyncOperation* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } + static MA_INLINE ULONG ma_IActivateAudioInterfaceAsyncOperation_AddRef(ma_IActivateAudioInterfaceAsyncOperation* pThis) { return pThis->lpVtbl->AddRef(pThis); } + static MA_INLINE ULONG ma_IActivateAudioInterfaceAsyncOperation_Release(ma_IActivateAudioInterfaceAsyncOperation* pThis) { return pThis->lpVtbl->Release(pThis); } + static MA_INLINE HRESULT ma_IActivateAudioInterfaceAsyncOperation_GetActivateResult(ma_IActivateAudioInterfaceAsyncOperation* pThis, HRESULT *pActivateResult, ma_IUnknown** ppActivatedInterface) { return pThis->lpVtbl->GetActivateResult(pThis, pActivateResult, ppActivatedInterface); } +#endif + +/* IPropertyStore */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IPropertyStore* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IPropertyStore* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IPropertyStore* pThis); + + /* IPropertyStore */ + HRESULT (STDMETHODCALLTYPE * GetCount)(ma_IPropertyStore* pThis, DWORD* pPropCount); + HRESULT (STDMETHODCALLTYPE * GetAt) (ma_IPropertyStore* pThis, DWORD propIndex, PROPERTYKEY* pPropKey); + HRESULT (STDMETHODCALLTYPE * GetValue)(ma_IPropertyStore* pThis, const PROPERTYKEY* const pKey, MA_PROPVARIANT* pPropVar); + HRESULT (STDMETHODCALLTYPE * SetValue)(ma_IPropertyStore* pThis, const PROPERTYKEY* const pKey, const MA_PROPVARIANT* const pPropVar); + HRESULT (STDMETHODCALLTYPE * Commit) (ma_IPropertyStore* pThis); +} ma_IPropertyStoreVtbl; +struct ma_IPropertyStore +{ + ma_IPropertyStoreVtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IPropertyStore_QueryInterface(ma_IPropertyStore* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IPropertyStore_AddRef(ma_IPropertyStore* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IPropertyStore_Release(ma_IPropertyStore* pThis) { return pThis->lpVtbl->Release(pThis); } +static MA_INLINE HRESULT ma_IPropertyStore_GetCount(ma_IPropertyStore* pThis, DWORD* pPropCount) { return pThis->lpVtbl->GetCount(pThis, pPropCount); } +static MA_INLINE HRESULT ma_IPropertyStore_GetAt(ma_IPropertyStore* pThis, DWORD propIndex, PROPERTYKEY* pPropKey) { return pThis->lpVtbl->GetAt(pThis, propIndex, pPropKey); } +static MA_INLINE HRESULT ma_IPropertyStore_GetValue(ma_IPropertyStore* pThis, const PROPERTYKEY* const pKey, MA_PROPVARIANT* pPropVar) { return pThis->lpVtbl->GetValue(pThis, pKey, pPropVar); } +static MA_INLINE HRESULT ma_IPropertyStore_SetValue(ma_IPropertyStore* pThis, const PROPERTYKEY* const pKey, const MA_PROPVARIANT* const pPropVar) { return pThis->lpVtbl->SetValue(pThis, pKey, pPropVar); } +static MA_INLINE HRESULT ma_IPropertyStore_Commit(ma_IPropertyStore* pThis) { return pThis->lpVtbl->Commit(pThis); } + + +/* IAudioClient */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IAudioClient* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IAudioClient* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IAudioClient* pThis); + + /* IAudioClient */ + HRESULT (STDMETHODCALLTYPE * Initialize) (ma_IAudioClient* pThis, MA_AUDCLNT_SHAREMODE shareMode, DWORD streamFlags, MA_REFERENCE_TIME bufferDuration, MA_REFERENCE_TIME periodicity, const MA_WAVEFORMATEX* pFormat, const GUID* pAudioSessionGuid); + HRESULT (STDMETHODCALLTYPE * GetBufferSize) (ma_IAudioClient* pThis, ma_uint32* pNumBufferFrames); + HRESULT (STDMETHODCALLTYPE * GetStreamLatency) (ma_IAudioClient* pThis, MA_REFERENCE_TIME* pLatency); + HRESULT (STDMETHODCALLTYPE * GetCurrentPadding)(ma_IAudioClient* pThis, ma_uint32* pNumPaddingFrames); + HRESULT (STDMETHODCALLTYPE * IsFormatSupported)(ma_IAudioClient* pThis, MA_AUDCLNT_SHAREMODE shareMode, const MA_WAVEFORMATEX* pFormat, MA_WAVEFORMATEX** ppClosestMatch); + HRESULT (STDMETHODCALLTYPE * GetMixFormat) (ma_IAudioClient* pThis, MA_WAVEFORMATEX** ppDeviceFormat); + HRESULT (STDMETHODCALLTYPE * GetDevicePeriod) (ma_IAudioClient* pThis, MA_REFERENCE_TIME* pDefaultDevicePeriod, MA_REFERENCE_TIME* pMinimumDevicePeriod); + HRESULT (STDMETHODCALLTYPE * Start) (ma_IAudioClient* pThis); + HRESULT (STDMETHODCALLTYPE * Stop) (ma_IAudioClient* pThis); + HRESULT (STDMETHODCALLTYPE * Reset) (ma_IAudioClient* pThis); + HRESULT (STDMETHODCALLTYPE * SetEventHandle) (ma_IAudioClient* pThis, HANDLE eventHandle); + HRESULT (STDMETHODCALLTYPE * GetService) (ma_IAudioClient* pThis, const IID* const riid, void** pp); +} ma_IAudioClientVtbl; +struct ma_IAudioClient +{ + ma_IAudioClientVtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IAudioClient_QueryInterface(ma_IAudioClient* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IAudioClient_AddRef(ma_IAudioClient* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IAudioClient_Release(ma_IAudioClient* pThis) { return pThis->lpVtbl->Release(pThis); } +static MA_INLINE HRESULT ma_IAudioClient_Initialize(ma_IAudioClient* pThis, MA_AUDCLNT_SHAREMODE shareMode, DWORD streamFlags, MA_REFERENCE_TIME bufferDuration, MA_REFERENCE_TIME periodicity, const MA_WAVEFORMATEX* pFormat, const GUID* pAudioSessionGuid) { return pThis->lpVtbl->Initialize(pThis, shareMode, streamFlags, bufferDuration, periodicity, pFormat, pAudioSessionGuid); } +static MA_INLINE HRESULT ma_IAudioClient_GetBufferSize(ma_IAudioClient* pThis, ma_uint32* pNumBufferFrames) { return pThis->lpVtbl->GetBufferSize(pThis, pNumBufferFrames); } +static MA_INLINE HRESULT ma_IAudioClient_GetStreamLatency(ma_IAudioClient* pThis, MA_REFERENCE_TIME* pLatency) { return pThis->lpVtbl->GetStreamLatency(pThis, pLatency); } +static MA_INLINE HRESULT ma_IAudioClient_GetCurrentPadding(ma_IAudioClient* pThis, ma_uint32* pNumPaddingFrames) { return pThis->lpVtbl->GetCurrentPadding(pThis, pNumPaddingFrames); } +static MA_INLINE HRESULT ma_IAudioClient_IsFormatSupported(ma_IAudioClient* pThis, MA_AUDCLNT_SHAREMODE shareMode, const MA_WAVEFORMATEX* pFormat, MA_WAVEFORMATEX** ppClosestMatch) { return pThis->lpVtbl->IsFormatSupported(pThis, shareMode, pFormat, ppClosestMatch); } +static MA_INLINE HRESULT ma_IAudioClient_GetMixFormat(ma_IAudioClient* pThis, MA_WAVEFORMATEX** ppDeviceFormat) { return pThis->lpVtbl->GetMixFormat(pThis, ppDeviceFormat); } +static MA_INLINE HRESULT ma_IAudioClient_GetDevicePeriod(ma_IAudioClient* pThis, MA_REFERENCE_TIME* pDefaultDevicePeriod, MA_REFERENCE_TIME* pMinimumDevicePeriod) { return pThis->lpVtbl->GetDevicePeriod(pThis, pDefaultDevicePeriod, pMinimumDevicePeriod); } +static MA_INLINE HRESULT ma_IAudioClient_Start(ma_IAudioClient* pThis) { return pThis->lpVtbl->Start(pThis); } +static MA_INLINE HRESULT ma_IAudioClient_Stop(ma_IAudioClient* pThis) { return pThis->lpVtbl->Stop(pThis); } +static MA_INLINE HRESULT ma_IAudioClient_Reset(ma_IAudioClient* pThis) { return pThis->lpVtbl->Reset(pThis); } +static MA_INLINE HRESULT ma_IAudioClient_SetEventHandle(ma_IAudioClient* pThis, HANDLE eventHandle) { return pThis->lpVtbl->SetEventHandle(pThis, eventHandle); } +static MA_INLINE HRESULT ma_IAudioClient_GetService(ma_IAudioClient* pThis, const IID* const riid, void** pp) { return pThis->lpVtbl->GetService(pThis, riid, pp); } + +/* IAudioClient2 */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IAudioClient2* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IAudioClient2* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IAudioClient2* pThis); + + /* IAudioClient */ + HRESULT (STDMETHODCALLTYPE * Initialize) (ma_IAudioClient2* pThis, MA_AUDCLNT_SHAREMODE shareMode, DWORD streamFlags, MA_REFERENCE_TIME bufferDuration, MA_REFERENCE_TIME periodicity, const MA_WAVEFORMATEX* pFormat, const GUID* pAudioSessionGuid); + HRESULT (STDMETHODCALLTYPE * GetBufferSize) (ma_IAudioClient2* pThis, ma_uint32* pNumBufferFrames); + HRESULT (STDMETHODCALLTYPE * GetStreamLatency) (ma_IAudioClient2* pThis, MA_REFERENCE_TIME* pLatency); + HRESULT (STDMETHODCALLTYPE * GetCurrentPadding)(ma_IAudioClient2* pThis, ma_uint32* pNumPaddingFrames); + HRESULT (STDMETHODCALLTYPE * IsFormatSupported)(ma_IAudioClient2* pThis, MA_AUDCLNT_SHAREMODE shareMode, const MA_WAVEFORMATEX* pFormat, MA_WAVEFORMATEX** ppClosestMatch); + HRESULT (STDMETHODCALLTYPE * GetMixFormat) (ma_IAudioClient2* pThis, MA_WAVEFORMATEX** ppDeviceFormat); + HRESULT (STDMETHODCALLTYPE * GetDevicePeriod) (ma_IAudioClient2* pThis, MA_REFERENCE_TIME* pDefaultDevicePeriod, MA_REFERENCE_TIME* pMinimumDevicePeriod); + HRESULT (STDMETHODCALLTYPE * Start) (ma_IAudioClient2* pThis); + HRESULT (STDMETHODCALLTYPE * Stop) (ma_IAudioClient2* pThis); + HRESULT (STDMETHODCALLTYPE * Reset) (ma_IAudioClient2* pThis); + HRESULT (STDMETHODCALLTYPE * SetEventHandle) (ma_IAudioClient2* pThis, HANDLE eventHandle); + HRESULT (STDMETHODCALLTYPE * GetService) (ma_IAudioClient2* pThis, const IID* const riid, void** pp); + + /* IAudioClient2 */ + HRESULT (STDMETHODCALLTYPE * IsOffloadCapable) (ma_IAudioClient2* pThis, MA_AUDIO_STREAM_CATEGORY category, BOOL* pOffloadCapable); + HRESULT (STDMETHODCALLTYPE * SetClientProperties)(ma_IAudioClient2* pThis, const ma_AudioClientProperties* pProperties); + HRESULT (STDMETHODCALLTYPE * GetBufferSizeLimits)(ma_IAudioClient2* pThis, const MA_WAVEFORMATEX* pFormat, BOOL eventDriven, MA_REFERENCE_TIME* pMinBufferDuration, MA_REFERENCE_TIME* pMaxBufferDuration); +} ma_IAudioClient2Vtbl; +struct ma_IAudioClient2 +{ + ma_IAudioClient2Vtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IAudioClient2_QueryInterface(ma_IAudioClient2* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IAudioClient2_AddRef(ma_IAudioClient2* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IAudioClient2_Release(ma_IAudioClient2* pThis) { return pThis->lpVtbl->Release(pThis); } +static MA_INLINE HRESULT ma_IAudioClient2_Initialize(ma_IAudioClient2* pThis, MA_AUDCLNT_SHAREMODE shareMode, DWORD streamFlags, MA_REFERENCE_TIME bufferDuration, MA_REFERENCE_TIME periodicity, const MA_WAVEFORMATEX* pFormat, const GUID* pAudioSessionGuid) { return pThis->lpVtbl->Initialize(pThis, shareMode, streamFlags, bufferDuration, periodicity, pFormat, pAudioSessionGuid); } +static MA_INLINE HRESULT ma_IAudioClient2_GetBufferSize(ma_IAudioClient2* pThis, ma_uint32* pNumBufferFrames) { return pThis->lpVtbl->GetBufferSize(pThis, pNumBufferFrames); } +static MA_INLINE HRESULT ma_IAudioClient2_GetStreamLatency(ma_IAudioClient2* pThis, MA_REFERENCE_TIME* pLatency) { return pThis->lpVtbl->GetStreamLatency(pThis, pLatency); } +static MA_INLINE HRESULT ma_IAudioClient2_GetCurrentPadding(ma_IAudioClient2* pThis, ma_uint32* pNumPaddingFrames) { return pThis->lpVtbl->GetCurrentPadding(pThis, pNumPaddingFrames); } +static MA_INLINE HRESULT ma_IAudioClient2_IsFormatSupported(ma_IAudioClient2* pThis, MA_AUDCLNT_SHAREMODE shareMode, const MA_WAVEFORMATEX* pFormat, MA_WAVEFORMATEX** ppClosestMatch) { return pThis->lpVtbl->IsFormatSupported(pThis, shareMode, pFormat, ppClosestMatch); } +static MA_INLINE HRESULT ma_IAudioClient2_GetMixFormat(ma_IAudioClient2* pThis, MA_WAVEFORMATEX** ppDeviceFormat) { return pThis->lpVtbl->GetMixFormat(pThis, ppDeviceFormat); } +static MA_INLINE HRESULT ma_IAudioClient2_GetDevicePeriod(ma_IAudioClient2* pThis, MA_REFERENCE_TIME* pDefaultDevicePeriod, MA_REFERENCE_TIME* pMinimumDevicePeriod) { return pThis->lpVtbl->GetDevicePeriod(pThis, pDefaultDevicePeriod, pMinimumDevicePeriod); } +static MA_INLINE HRESULT ma_IAudioClient2_Start(ma_IAudioClient2* pThis) { return pThis->lpVtbl->Start(pThis); } +static MA_INLINE HRESULT ma_IAudioClient2_Stop(ma_IAudioClient2* pThis) { return pThis->lpVtbl->Stop(pThis); } +static MA_INLINE HRESULT ma_IAudioClient2_Reset(ma_IAudioClient2* pThis) { return pThis->lpVtbl->Reset(pThis); } +static MA_INLINE HRESULT ma_IAudioClient2_SetEventHandle(ma_IAudioClient2* pThis, HANDLE eventHandle) { return pThis->lpVtbl->SetEventHandle(pThis, eventHandle); } +static MA_INLINE HRESULT ma_IAudioClient2_GetService(ma_IAudioClient2* pThis, const IID* const riid, void** pp) { return pThis->lpVtbl->GetService(pThis, riid, pp); } +static MA_INLINE HRESULT ma_IAudioClient2_IsOffloadCapable(ma_IAudioClient2* pThis, MA_AUDIO_STREAM_CATEGORY category, BOOL* pOffloadCapable) { return pThis->lpVtbl->IsOffloadCapable(pThis, category, pOffloadCapable); } +static MA_INLINE HRESULT ma_IAudioClient2_SetClientProperties(ma_IAudioClient2* pThis, const ma_AudioClientProperties* pProperties) { return pThis->lpVtbl->SetClientProperties(pThis, pProperties); } +static MA_INLINE HRESULT ma_IAudioClient2_GetBufferSizeLimits(ma_IAudioClient2* pThis, const MA_WAVEFORMATEX* pFormat, BOOL eventDriven, MA_REFERENCE_TIME* pMinBufferDuration, MA_REFERENCE_TIME* pMaxBufferDuration) { return pThis->lpVtbl->GetBufferSizeLimits(pThis, pFormat, eventDriven, pMinBufferDuration, pMaxBufferDuration); } + + +/* IAudioClient3 */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IAudioClient3* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IAudioClient3* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IAudioClient3* pThis); + + /* IAudioClient */ + HRESULT (STDMETHODCALLTYPE * Initialize) (ma_IAudioClient3* pThis, MA_AUDCLNT_SHAREMODE shareMode, DWORD streamFlags, MA_REFERENCE_TIME bufferDuration, MA_REFERENCE_TIME periodicity, const MA_WAVEFORMATEX* pFormat, const GUID* pAudioSessionGuid); + HRESULT (STDMETHODCALLTYPE * GetBufferSize) (ma_IAudioClient3* pThis, ma_uint32* pNumBufferFrames); + HRESULT (STDMETHODCALLTYPE * GetStreamLatency) (ma_IAudioClient3* pThis, MA_REFERENCE_TIME* pLatency); + HRESULT (STDMETHODCALLTYPE * GetCurrentPadding)(ma_IAudioClient3* pThis, ma_uint32* pNumPaddingFrames); + HRESULT (STDMETHODCALLTYPE * IsFormatSupported)(ma_IAudioClient3* pThis, MA_AUDCLNT_SHAREMODE shareMode, const MA_WAVEFORMATEX* pFormat, MA_WAVEFORMATEX** ppClosestMatch); + HRESULT (STDMETHODCALLTYPE * GetMixFormat) (ma_IAudioClient3* pThis, MA_WAVEFORMATEX** ppDeviceFormat); + HRESULT (STDMETHODCALLTYPE * GetDevicePeriod) (ma_IAudioClient3* pThis, MA_REFERENCE_TIME* pDefaultDevicePeriod, MA_REFERENCE_TIME* pMinimumDevicePeriod); + HRESULT (STDMETHODCALLTYPE * Start) (ma_IAudioClient3* pThis); + HRESULT (STDMETHODCALLTYPE * Stop) (ma_IAudioClient3* pThis); + HRESULT (STDMETHODCALLTYPE * Reset) (ma_IAudioClient3* pThis); + HRESULT (STDMETHODCALLTYPE * SetEventHandle) (ma_IAudioClient3* pThis, HANDLE eventHandle); + HRESULT (STDMETHODCALLTYPE * GetService) (ma_IAudioClient3* pThis, const IID* const riid, void** pp); + + /* IAudioClient2 */ + HRESULT (STDMETHODCALLTYPE * IsOffloadCapable) (ma_IAudioClient3* pThis, MA_AUDIO_STREAM_CATEGORY category, BOOL* pOffloadCapable); + HRESULT (STDMETHODCALLTYPE * SetClientProperties)(ma_IAudioClient3* pThis, const ma_AudioClientProperties* pProperties); + HRESULT (STDMETHODCALLTYPE * GetBufferSizeLimits)(ma_IAudioClient3* pThis, const MA_WAVEFORMATEX* pFormat, BOOL eventDriven, MA_REFERENCE_TIME* pMinBufferDuration, MA_REFERENCE_TIME* pMaxBufferDuration); + + /* IAudioClient3 */ + HRESULT (STDMETHODCALLTYPE * GetSharedModeEnginePeriod) (ma_IAudioClient3* pThis, const MA_WAVEFORMATEX* pFormat, ma_uint32* pDefaultPeriodInFrames, ma_uint32* pFundamentalPeriodInFrames, ma_uint32* pMinPeriodInFrames, ma_uint32* pMaxPeriodInFrames); + HRESULT (STDMETHODCALLTYPE * GetCurrentSharedModeEnginePeriod)(ma_IAudioClient3* pThis, MA_WAVEFORMATEX** ppFormat, ma_uint32* pCurrentPeriodInFrames); + HRESULT (STDMETHODCALLTYPE * InitializeSharedAudioStream) (ma_IAudioClient3* pThis, DWORD streamFlags, ma_uint32 periodInFrames, const MA_WAVEFORMATEX* pFormat, const GUID* pAudioSessionGuid); +} ma_IAudioClient3Vtbl; +struct ma_IAudioClient3 +{ + ma_IAudioClient3Vtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IAudioClient3_QueryInterface(ma_IAudioClient3* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IAudioClient3_AddRef(ma_IAudioClient3* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IAudioClient3_Release(ma_IAudioClient3* pThis) { return pThis->lpVtbl->Release(pThis); } +static MA_INLINE HRESULT ma_IAudioClient3_Initialize(ma_IAudioClient3* pThis, MA_AUDCLNT_SHAREMODE shareMode, DWORD streamFlags, MA_REFERENCE_TIME bufferDuration, MA_REFERENCE_TIME periodicity, const MA_WAVEFORMATEX* pFormat, const GUID* pAudioSessionGuid) { return pThis->lpVtbl->Initialize(pThis, shareMode, streamFlags, bufferDuration, periodicity, pFormat, pAudioSessionGuid); } +static MA_INLINE HRESULT ma_IAudioClient3_GetBufferSize(ma_IAudioClient3* pThis, ma_uint32* pNumBufferFrames) { return pThis->lpVtbl->GetBufferSize(pThis, pNumBufferFrames); } +static MA_INLINE HRESULT ma_IAudioClient3_GetStreamLatency(ma_IAudioClient3* pThis, MA_REFERENCE_TIME* pLatency) { return pThis->lpVtbl->GetStreamLatency(pThis, pLatency); } +static MA_INLINE HRESULT ma_IAudioClient3_GetCurrentPadding(ma_IAudioClient3* pThis, ma_uint32* pNumPaddingFrames) { return pThis->lpVtbl->GetCurrentPadding(pThis, pNumPaddingFrames); } +static MA_INLINE HRESULT ma_IAudioClient3_IsFormatSupported(ma_IAudioClient3* pThis, MA_AUDCLNT_SHAREMODE shareMode, const MA_WAVEFORMATEX* pFormat, MA_WAVEFORMATEX** ppClosestMatch) { return pThis->lpVtbl->IsFormatSupported(pThis, shareMode, pFormat, ppClosestMatch); } +static MA_INLINE HRESULT ma_IAudioClient3_GetMixFormat(ma_IAudioClient3* pThis, MA_WAVEFORMATEX** ppDeviceFormat) { return pThis->lpVtbl->GetMixFormat(pThis, ppDeviceFormat); } +static MA_INLINE HRESULT ma_IAudioClient3_GetDevicePeriod(ma_IAudioClient3* pThis, MA_REFERENCE_TIME* pDefaultDevicePeriod, MA_REFERENCE_TIME* pMinimumDevicePeriod) { return pThis->lpVtbl->GetDevicePeriod(pThis, pDefaultDevicePeriod, pMinimumDevicePeriod); } +static MA_INLINE HRESULT ma_IAudioClient3_Start(ma_IAudioClient3* pThis) { return pThis->lpVtbl->Start(pThis); } +static MA_INLINE HRESULT ma_IAudioClient3_Stop(ma_IAudioClient3* pThis) { return pThis->lpVtbl->Stop(pThis); } +static MA_INLINE HRESULT ma_IAudioClient3_Reset(ma_IAudioClient3* pThis) { return pThis->lpVtbl->Reset(pThis); } +static MA_INLINE HRESULT ma_IAudioClient3_SetEventHandle(ma_IAudioClient3* pThis, HANDLE eventHandle) { return pThis->lpVtbl->SetEventHandle(pThis, eventHandle); } +static MA_INLINE HRESULT ma_IAudioClient3_GetService(ma_IAudioClient3* pThis, const IID* const riid, void** pp) { return pThis->lpVtbl->GetService(pThis, riid, pp); } +static MA_INLINE HRESULT ma_IAudioClient3_IsOffloadCapable(ma_IAudioClient3* pThis, MA_AUDIO_STREAM_CATEGORY category, BOOL* pOffloadCapable) { return pThis->lpVtbl->IsOffloadCapable(pThis, category, pOffloadCapable); } +static MA_INLINE HRESULT ma_IAudioClient3_SetClientProperties(ma_IAudioClient3* pThis, const ma_AudioClientProperties* pProperties) { return pThis->lpVtbl->SetClientProperties(pThis, pProperties); } +static MA_INLINE HRESULT ma_IAudioClient3_GetBufferSizeLimits(ma_IAudioClient3* pThis, const MA_WAVEFORMATEX* pFormat, BOOL eventDriven, MA_REFERENCE_TIME* pMinBufferDuration, MA_REFERENCE_TIME* pMaxBufferDuration) { return pThis->lpVtbl->GetBufferSizeLimits(pThis, pFormat, eventDriven, pMinBufferDuration, pMaxBufferDuration); } +static MA_INLINE HRESULT ma_IAudioClient3_GetSharedModeEnginePeriod(ma_IAudioClient3* pThis, const MA_WAVEFORMATEX* pFormat, ma_uint32* pDefaultPeriodInFrames, ma_uint32* pFundamentalPeriodInFrames, ma_uint32* pMinPeriodInFrames, ma_uint32* pMaxPeriodInFrames) { return pThis->lpVtbl->GetSharedModeEnginePeriod(pThis, pFormat, pDefaultPeriodInFrames, pFundamentalPeriodInFrames, pMinPeriodInFrames, pMaxPeriodInFrames); } +static MA_INLINE HRESULT ma_IAudioClient3_GetCurrentSharedModeEnginePeriod(ma_IAudioClient3* pThis, MA_WAVEFORMATEX** ppFormat, ma_uint32* pCurrentPeriodInFrames) { return pThis->lpVtbl->GetCurrentSharedModeEnginePeriod(pThis, ppFormat, pCurrentPeriodInFrames); } +static MA_INLINE HRESULT ma_IAudioClient3_InitializeSharedAudioStream(ma_IAudioClient3* pThis, DWORD streamFlags, ma_uint32 periodInFrames, const MA_WAVEFORMATEX* pFormat, const GUID* pAudioSessionGUID) { return pThis->lpVtbl->InitializeSharedAudioStream(pThis, streamFlags, periodInFrames, pFormat, pAudioSessionGUID); } + + +/* IAudioRenderClient */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IAudioRenderClient* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IAudioRenderClient* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IAudioRenderClient* pThis); + + /* IAudioRenderClient */ + HRESULT (STDMETHODCALLTYPE * GetBuffer) (ma_IAudioRenderClient* pThis, ma_uint32 numFramesRequested, BYTE** ppData); + HRESULT (STDMETHODCALLTYPE * ReleaseBuffer)(ma_IAudioRenderClient* pThis, ma_uint32 numFramesWritten, DWORD dwFlags); +} ma_IAudioRenderClientVtbl; +struct ma_IAudioRenderClient +{ + ma_IAudioRenderClientVtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IAudioRenderClient_QueryInterface(ma_IAudioRenderClient* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IAudioRenderClient_AddRef(ma_IAudioRenderClient* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IAudioRenderClient_Release(ma_IAudioRenderClient* pThis) { return pThis->lpVtbl->Release(pThis); } +static MA_INLINE HRESULT ma_IAudioRenderClient_GetBuffer(ma_IAudioRenderClient* pThis, ma_uint32 numFramesRequested, BYTE** ppData) { return pThis->lpVtbl->GetBuffer(pThis, numFramesRequested, ppData); } +static MA_INLINE HRESULT ma_IAudioRenderClient_ReleaseBuffer(ma_IAudioRenderClient* pThis, ma_uint32 numFramesWritten, DWORD dwFlags) { return pThis->lpVtbl->ReleaseBuffer(pThis, numFramesWritten, dwFlags); } + + +/* IAudioCaptureClient */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IAudioCaptureClient* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IAudioCaptureClient* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IAudioCaptureClient* pThis); + + /* IAudioRenderClient */ + HRESULT (STDMETHODCALLTYPE * GetBuffer) (ma_IAudioCaptureClient* pThis, BYTE** ppData, ma_uint32* pNumFramesToRead, DWORD* pFlags, ma_uint64* pDevicePosition, ma_uint64* pQPCPosition); + HRESULT (STDMETHODCALLTYPE * ReleaseBuffer) (ma_IAudioCaptureClient* pThis, ma_uint32 numFramesRead); + HRESULT (STDMETHODCALLTYPE * GetNextPacketSize)(ma_IAudioCaptureClient* pThis, ma_uint32* pNumFramesInNextPacket); +} ma_IAudioCaptureClientVtbl; +struct ma_IAudioCaptureClient +{ + ma_IAudioCaptureClientVtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IAudioCaptureClient_QueryInterface(ma_IAudioCaptureClient* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IAudioCaptureClient_AddRef(ma_IAudioCaptureClient* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IAudioCaptureClient_Release(ma_IAudioCaptureClient* pThis) { return pThis->lpVtbl->Release(pThis); } +static MA_INLINE HRESULT ma_IAudioCaptureClient_GetBuffer(ma_IAudioCaptureClient* pThis, BYTE** ppData, ma_uint32* pNumFramesToRead, DWORD* pFlags, ma_uint64* pDevicePosition, ma_uint64* pQPCPosition) { return pThis->lpVtbl->GetBuffer(pThis, ppData, pNumFramesToRead, pFlags, pDevicePosition, pQPCPosition); } +static MA_INLINE HRESULT ma_IAudioCaptureClient_ReleaseBuffer(ma_IAudioCaptureClient* pThis, ma_uint32 numFramesRead) { return pThis->lpVtbl->ReleaseBuffer(pThis, numFramesRead); } +static MA_INLINE HRESULT ma_IAudioCaptureClient_GetNextPacketSize(ma_IAudioCaptureClient* pThis, ma_uint32* pNumFramesInNextPacket) { return pThis->lpVtbl->GetNextPacketSize(pThis, pNumFramesInNextPacket); } + +#if defined(MA_WIN32_UWP) +/* mmdevapi Functions */ +typedef HRESULT (WINAPI * MA_PFN_ActivateAudioInterfaceAsync)(const wchar_t* deviceInterfacePath, const IID* riid, MA_PROPVARIANT* activationParams, ma_IActivateAudioInterfaceCompletionHandler* completionHandler, ma_IActivateAudioInterfaceAsyncOperation** activationOperation); +#endif + +/* Avrt Functions */ +typedef HANDLE (WINAPI * MA_PFN_AvSetMmThreadCharacteristicsA)(const char* TaskName, DWORD* TaskIndex); +typedef BOOL (WINAPI * MA_PFN_AvRevertMmThreadCharacteristics)(HANDLE AvrtHandle); + +#if !defined(MA_WIN32_DESKTOP) && !defined(MA_WIN32_GDK) +typedef struct ma_completion_handler_uwp ma_completion_handler_uwp; + +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_completion_handler_uwp* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_completion_handler_uwp* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_completion_handler_uwp* pThis); + + /* IActivateAudioInterfaceCompletionHandler */ + HRESULT (STDMETHODCALLTYPE * ActivateCompleted)(ma_completion_handler_uwp* pThis, ma_IActivateAudioInterfaceAsyncOperation* pActivateOperation); +} ma_completion_handler_uwp_vtbl; +struct ma_completion_handler_uwp +{ + ma_completion_handler_uwp_vtbl* lpVtbl; + MA_ATOMIC(4, ma_uint32) counter; + HANDLE hEvent; +}; + +static HRESULT STDMETHODCALLTYPE ma_completion_handler_uwp_QueryInterface(ma_completion_handler_uwp* pThis, const IID* const riid, void** ppObject) +{ + /* + We need to "implement" IAgileObject which is just an indicator that's used internally by WASAPI for some multithreading management. To + "implement" this, we just make sure we return pThis when the IAgileObject is requested. + */ + if (!ma_is_guid_equal(riid, &MA_IID_IUnknown) && !ma_is_guid_equal(riid, &MA_IID_IActivateAudioInterfaceCompletionHandler) && !ma_is_guid_equal(riid, &MA_IID_IAgileObject)) { + *ppObject = NULL; + return E_NOINTERFACE; + } + + /* Getting here means the IID is IUnknown or IMMNotificationClient. */ + *ppObject = (void*)pThis; + ((ma_completion_handler_uwp_vtbl*)pThis->lpVtbl)->AddRef(pThis); + return S_OK; +} + +static ULONG STDMETHODCALLTYPE ma_completion_handler_uwp_AddRef(ma_completion_handler_uwp* pThis) +{ + return (ULONG)ma_atomic_fetch_add_32(&pThis->counter, 1) + 1; +} + +static ULONG STDMETHODCALLTYPE ma_completion_handler_uwp_Release(ma_completion_handler_uwp* pThis) +{ + ma_uint32 newRefCount = ma_atomic_fetch_sub_32(&pThis->counter, 1) - 1; + if (newRefCount == 0) { + return 0; /* We don't free anything here because we never allocate the object on the heap. */ + } + + return (ULONG)newRefCount; +} + +static HRESULT STDMETHODCALLTYPE ma_completion_handler_uwp_ActivateCompleted(ma_completion_handler_uwp* pThis, ma_IActivateAudioInterfaceAsyncOperation* pActivateOperation) +{ + (void)pActivateOperation; + SetEvent(pThis->hEvent); + return S_OK; +} + + +static ma_completion_handler_uwp_vtbl g_maCompletionHandlerVtblInstance = { + ma_completion_handler_uwp_QueryInterface, + ma_completion_handler_uwp_AddRef, + ma_completion_handler_uwp_Release, + ma_completion_handler_uwp_ActivateCompleted +}; + +static ma_result ma_completion_handler_uwp_init(ma_completion_handler_uwp* pHandler) +{ + MA_ASSERT(pHandler != NULL); + MA_ZERO_OBJECT(pHandler); + + pHandler->lpVtbl = &g_maCompletionHandlerVtblInstance; + pHandler->counter = 1; + pHandler->hEvent = CreateEventA(NULL, FALSE, FALSE, NULL); + if (pHandler->hEvent == NULL) { + return ma_result_from_GetLastError(GetLastError()); + } + + return MA_SUCCESS; +} + +static void ma_completion_handler_uwp_uninit(ma_completion_handler_uwp* pHandler) +{ + if (pHandler->hEvent != NULL) { + CloseHandle(pHandler->hEvent); + } +} + +static void ma_completion_handler_uwp_wait(ma_completion_handler_uwp* pHandler) +{ + WaitForSingleObject((HANDLE)pHandler->hEvent, INFINITE); +} +#endif /* !MA_WIN32_DESKTOP */ + +/* We need a virtual table for our notification client object that's used for detecting changes to the default device. */ +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) +static HRESULT STDMETHODCALLTYPE ma_IMMNotificationClient_QueryInterface(ma_IMMNotificationClient* pThis, const IID* const riid, void** ppObject) +{ + /* + We care about two interfaces - IUnknown and IMMNotificationClient. If the requested IID is something else + we just return E_NOINTERFACE. Otherwise we need to increment the reference counter and return S_OK. + */ + if (!ma_is_guid_equal(riid, &MA_IID_IUnknown) && !ma_is_guid_equal(riid, &MA_IID_IMMNotificationClient)) { + *ppObject = NULL; + return E_NOINTERFACE; + } + + /* Getting here means the IID is IUnknown or IMMNotificationClient. */ + *ppObject = (void*)pThis; + ((ma_IMMNotificationClientVtbl*)pThis->lpVtbl)->AddRef(pThis); + return S_OK; +} + +static ULONG STDMETHODCALLTYPE ma_IMMNotificationClient_AddRef(ma_IMMNotificationClient* pThis) +{ + return (ULONG)ma_atomic_fetch_add_32(&pThis->counter, 1) + 1; +} + +static ULONG STDMETHODCALLTYPE ma_IMMNotificationClient_Release(ma_IMMNotificationClient* pThis) +{ + ma_uint32 newRefCount = ma_atomic_fetch_sub_32(&pThis->counter, 1) - 1; + if (newRefCount == 0) { + return 0; /* We don't free anything here because we never allocate the object on the heap. */ + } + + return (ULONG)newRefCount; +} + +static HRESULT STDMETHODCALLTYPE ma_IMMNotificationClient_OnDeviceStateChanged(ma_IMMNotificationClient* pThis, const WCHAR* pDeviceID, DWORD dwNewState) +{ + ma_bool32 isThisDevice = MA_FALSE; + ma_bool32 isCapture = MA_FALSE; + ma_bool32 isPlayback = MA_FALSE; + +#ifdef MA_DEBUG_OUTPUT + /*ma_log_postf(ma_device_get_log(pThis->pDevice), MA_LOG_LEVEL_DEBUG, "IMMNotificationClient_OnDeviceStateChanged(pDeviceID=%S, dwNewState=%u)\n", (pDeviceID != NULL) ? pDeviceID : L"(NULL)", (unsigned int)dwNewState);*/ +#endif + + /* + There have been reports of a hang when a playback device is disconnected. The idea with this code is to explicitly stop the device if we detect + that the device is disabled or has been unplugged. + */ + if (pThis->pDevice->wasapi.allowCaptureAutoStreamRouting && (pThis->pDevice->type == ma_device_type_capture || pThis->pDevice->type == ma_device_type_duplex || pThis->pDevice->type == ma_device_type_loopback)) { + isCapture = MA_TRUE; + if (ma_strcmp_WCHAR(pThis->pDevice->capture.id.wasapi, pDeviceID) == 0) { + isThisDevice = MA_TRUE; + } + } + + if (pThis->pDevice->wasapi.allowPlaybackAutoStreamRouting && (pThis->pDevice->type == ma_device_type_playback || pThis->pDevice->type == ma_device_type_duplex)) { + isPlayback = MA_TRUE; + if (ma_strcmp_WCHAR(pThis->pDevice->playback.id.wasapi, pDeviceID) == 0) { + isThisDevice = MA_TRUE; + } + } + + + /* + If the device ID matches our device we need to mark our device as detached and stop it. When a + device is added in OnDeviceAdded(), we'll restart it. We only mark it as detached if the device + was started at the time of being removed. + */ + if (isThisDevice) { + if ((dwNewState & MA_MM_DEVICE_STATE_ACTIVE) == 0) { + /* + Unplugged or otherwise unavailable. Mark as detached if we were in a playing state. We'll + use this to determine whether or not we need to automatically start the device when it's + plugged back in again. + */ + if (ma_device_get_state(pThis->pDevice) == ma_device_state_started) { + if (isPlayback) { + pThis->pDevice->wasapi.isDetachedPlayback = MA_TRUE; + } + if (isCapture) { + pThis->pDevice->wasapi.isDetachedCapture = MA_TRUE; + } + + ma_device_stop(pThis->pDevice); + } + } + + if ((dwNewState & MA_MM_DEVICE_STATE_ACTIVE) != 0) { + /* The device was activated. If we were detached, we need to start it again. */ + ma_bool8 tryRestartingDevice = MA_FALSE; + + if (isPlayback) { + if (pThis->pDevice->wasapi.isDetachedPlayback) { + pThis->pDevice->wasapi.isDetachedPlayback = MA_FALSE; + ma_device_reroute__wasapi(pThis->pDevice, ma_device_type_playback); + tryRestartingDevice = MA_TRUE; + } + } + + if (isCapture) { + if (pThis->pDevice->wasapi.isDetachedCapture) { + pThis->pDevice->wasapi.isDetachedCapture = MA_FALSE; + ma_device_reroute__wasapi(pThis->pDevice, (pThis->pDevice->type == ma_device_type_loopback) ? ma_device_type_loopback : ma_device_type_capture); + tryRestartingDevice = MA_TRUE; + } + } + + if (tryRestartingDevice) { + if (pThis->pDevice->wasapi.isDetachedPlayback == MA_FALSE && pThis->pDevice->wasapi.isDetachedCapture == MA_FALSE) { + ma_device_start(pThis->pDevice); + } + } + } + } + + return S_OK; +} + +static HRESULT STDMETHODCALLTYPE ma_IMMNotificationClient_OnDeviceAdded(ma_IMMNotificationClient* pThis, const WCHAR* pDeviceID) +{ +#ifdef MA_DEBUG_OUTPUT + /*ma_log_postf(ma_device_get_log(pThis->pDevice), MA_LOG_LEVEL_DEBUG, "IMMNotificationClient_OnDeviceAdded(pDeviceID=%S)\n", (pDeviceID != NULL) ? pDeviceID : L"(NULL)");*/ +#endif + + /* We don't need to worry about this event for our purposes. */ + (void)pThis; + (void)pDeviceID; + return S_OK; +} + +static HRESULT STDMETHODCALLTYPE ma_IMMNotificationClient_OnDeviceRemoved(ma_IMMNotificationClient* pThis, const WCHAR* pDeviceID) +{ +#ifdef MA_DEBUG_OUTPUT + /*ma_log_postf(ma_device_get_log(pThis->pDevice), MA_LOG_LEVEL_DEBUG, "IMMNotificationClient_OnDeviceRemoved(pDeviceID=%S)\n", (pDeviceID != NULL) ? pDeviceID : L"(NULL)");*/ +#endif + + /* We don't need to worry about this event for our purposes. */ + (void)pThis; + (void)pDeviceID; + return S_OK; +} + +static HRESULT STDMETHODCALLTYPE ma_IMMNotificationClient_OnDefaultDeviceChanged(ma_IMMNotificationClient* pThis, ma_EDataFlow dataFlow, ma_ERole role, const WCHAR* pDefaultDeviceID) +{ +#ifdef MA_DEBUG_OUTPUT + /*ma_log_postf(ma_device_get_log(pThis->pDevice), MA_LOG_LEVEL_DEBUG, "IMMNotificationClient_OnDefaultDeviceChanged(dataFlow=%d, role=%d, pDefaultDeviceID=%S)\n", dataFlow, role, (pDefaultDeviceID != NULL) ? pDefaultDeviceID : L"(NULL)");*/ +#endif + + (void)role; + + /* We only care about devices with the same data flow as the current device. */ + if ((pThis->pDevice->type == ma_device_type_playback && dataFlow != ma_eRender) || + (pThis->pDevice->type == ma_device_type_capture && dataFlow != ma_eCapture) || + (pThis->pDevice->type == ma_device_type_loopback && dataFlow != ma_eRender)) { + ma_log_postf(ma_device_get_log(pThis->pDevice), MA_LOG_LEVEL_DEBUG, "[WASAPI] Stream rerouting abandoned because dataFlow does match device type.\n"); + return S_OK; + } + + /* We need to consider dataFlow as ma_eCapture if device is ma_device_type_loopback */ + if (pThis->pDevice->type == ma_device_type_loopback) { + dataFlow = ma_eCapture; + } + + /* Don't do automatic stream routing if we're not allowed. */ + if ((dataFlow == ma_eRender && pThis->pDevice->wasapi.allowPlaybackAutoStreamRouting == MA_FALSE) || + (dataFlow == ma_eCapture && pThis->pDevice->wasapi.allowCaptureAutoStreamRouting == MA_FALSE)) { + ma_log_postf(ma_device_get_log(pThis->pDevice), MA_LOG_LEVEL_DEBUG, "[WASAPI] Stream rerouting abandoned because automatic stream routing has been disabled by the device config.\n"); + return S_OK; + } + + /* + Not currently supporting automatic stream routing in exclusive mode. This is not working correctly on my machine due to + AUDCLNT_E_DEVICE_IN_USE errors when reinitializing the device. If this is a bug in miniaudio, we can try re-enabling this once + it's fixed. + */ + if ((dataFlow == ma_eRender && pThis->pDevice->playback.shareMode == ma_share_mode_exclusive) || + (dataFlow == ma_eCapture && pThis->pDevice->capture.shareMode == ma_share_mode_exclusive)) { + ma_log_postf(ma_device_get_log(pThis->pDevice), MA_LOG_LEVEL_DEBUG, "[WASAPI] Stream rerouting abandoned because the device shared mode is exclusive.\n"); + return S_OK; + } + + + + /* + Second attempt at device rerouting. We're going to retrieve the device's state at the time of + the route change. We're then going to stop the device, reinitialize the device, and then start + it again if the state before stopping was ma_device_state_started. + */ + { + ma_uint32 previousState = ma_device_get_state(pThis->pDevice); + ma_bool8 restartDevice = MA_FALSE; + + if (previousState == ma_device_state_uninitialized || previousState == ma_device_state_starting) { + ma_log_postf(ma_device_get_log(pThis->pDevice), MA_LOG_LEVEL_DEBUG, "[WASAPI] Stream rerouting abandoned because the device is in the process of starting.\n"); + return S_OK; + } + + if (previousState == ma_device_state_started) { + ma_device_stop(pThis->pDevice); + restartDevice = MA_TRUE; + } + + if (pDefaultDeviceID != NULL) { /* <-- The input device ID will be null if there's no other device available. */ + ma_mutex_lock(&pThis->pDevice->wasapi.rerouteLock); + { + if (dataFlow == ma_eRender) { + ma_device_reroute__wasapi(pThis->pDevice, ma_device_type_playback); + + if (pThis->pDevice->wasapi.isDetachedPlayback) { + pThis->pDevice->wasapi.isDetachedPlayback = MA_FALSE; + + if (pThis->pDevice->type == ma_device_type_duplex && pThis->pDevice->wasapi.isDetachedCapture) { + restartDevice = MA_FALSE; /* It's a duplex device and the capture side is detached. We cannot be restarting the device just yet. */ + } + else { + restartDevice = MA_TRUE; /* It's not a duplex device, or the capture side is also attached so we can go ahead and restart the device. */ + } + } + } + else { + ma_device_reroute__wasapi(pThis->pDevice, (pThis->pDevice->type == ma_device_type_loopback) ? ma_device_type_loopback : ma_device_type_capture); + + if (pThis->pDevice->wasapi.isDetachedCapture) { + pThis->pDevice->wasapi.isDetachedCapture = MA_FALSE; + + if (pThis->pDevice->type == ma_device_type_duplex && pThis->pDevice->wasapi.isDetachedPlayback) { + restartDevice = MA_FALSE; /* It's a duplex device and the playback side is detached. We cannot be restarting the device just yet. */ + } + else { + restartDevice = MA_TRUE; /* It's not a duplex device, or the playback side is also attached so we can go ahead and restart the device. */ + } + } + } + } + ma_mutex_unlock(&pThis->pDevice->wasapi.rerouteLock); + + if (restartDevice) { + ma_device_start(pThis->pDevice); + } + } + } + + return S_OK; +} + +static HRESULT STDMETHODCALLTYPE ma_IMMNotificationClient_OnPropertyValueChanged(ma_IMMNotificationClient* pThis, const WCHAR* pDeviceID, const PROPERTYKEY key) +{ +#ifdef MA_DEBUG_OUTPUT + /*ma_log_postf(ma_device_get_log(pThis->pDevice), MA_LOG_LEVEL_DEBUG, "IMMNotificationClient_OnPropertyValueChanged(pDeviceID=%S)\n", (pDeviceID != NULL) ? pDeviceID : L"(NULL)");*/ +#endif + + (void)pThis; + (void)pDeviceID; + (void)key; + return S_OK; +} + +static ma_IMMNotificationClientVtbl g_maNotificationCientVtbl = { + ma_IMMNotificationClient_QueryInterface, + ma_IMMNotificationClient_AddRef, + ma_IMMNotificationClient_Release, + ma_IMMNotificationClient_OnDeviceStateChanged, + ma_IMMNotificationClient_OnDeviceAdded, + ma_IMMNotificationClient_OnDeviceRemoved, + ma_IMMNotificationClient_OnDefaultDeviceChanged, + ma_IMMNotificationClient_OnPropertyValueChanged +}; +#endif /* MA_WIN32_DESKTOP */ + +static const char* ma_to_usage_string__wasapi(ma_wasapi_usage usage) +{ + switch (usage) + { + case ma_wasapi_usage_default: return NULL; + case ma_wasapi_usage_games: return "Games"; + case ma_wasapi_usage_pro_audio: return "Pro Audio"; + default: break; + } + + return NULL; +} + +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) +typedef ma_IMMDevice ma_WASAPIDeviceInterface; +#else +typedef ma_IUnknown ma_WASAPIDeviceInterface; +#endif + + +#define MA_CONTEXT_COMMAND_QUIT__WASAPI 1 +#define MA_CONTEXT_COMMAND_CREATE_IAUDIOCLIENT__WASAPI 2 +#define MA_CONTEXT_COMMAND_RELEASE_IAUDIOCLIENT__WASAPI 3 + +static ma_context_command__wasapi ma_context_init_command__wasapi(int code) +{ + ma_context_command__wasapi cmd; + + MA_ZERO_OBJECT(&cmd); + cmd.code = code; + + return cmd; +} + +static ma_result ma_context_post_command__wasapi(ma_context* pContext, const ma_context_command__wasapi* pCmd) +{ + /* For now we are doing everything synchronously, but I might relax this later if the need arises. */ + ma_result result; + ma_bool32 isUsingLocalEvent = MA_FALSE; + ma_event localEvent; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pCmd != NULL); + + if (pCmd->pEvent == NULL) { + isUsingLocalEvent = MA_TRUE; + + result = ma_event_init(&localEvent); + if (result != MA_SUCCESS) { + return result; /* Failed to create the event for this command. */ + } + } + + /* Here is where we add the command to the list. If there's not enough room we'll spin until there is. */ + ma_mutex_lock(&pContext->wasapi.commandLock); + { + ma_uint32 index; + + /* Spin until we've got some space available. */ + while (pContext->wasapi.commandCount == ma_countof(pContext->wasapi.commands)) { + ma_yield(); + } + + /* Space is now available. Can safely add to the list. */ + index = (pContext->wasapi.commandIndex + pContext->wasapi.commandCount) % ma_countof(pContext->wasapi.commands); + pContext->wasapi.commands[index] = *pCmd; + pContext->wasapi.commands[index].pEvent = &localEvent; + pContext->wasapi.commandCount += 1; + + /* Now that the command has been added, release the semaphore so ma_context_next_command__wasapi() can return. */ + ma_semaphore_release(&pContext->wasapi.commandSem); + } + ma_mutex_unlock(&pContext->wasapi.commandLock); + + if (isUsingLocalEvent) { + ma_event_wait(&localEvent); + ma_event_uninit(&localEvent); + } + + return MA_SUCCESS; +} + +static ma_result ma_context_next_command__wasapi(ma_context* pContext, ma_context_command__wasapi* pCmd) +{ + ma_result result = MA_SUCCESS; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pCmd != NULL); + + result = ma_semaphore_wait(&pContext->wasapi.commandSem); + if (result == MA_SUCCESS) { + ma_mutex_lock(&pContext->wasapi.commandLock); + { + *pCmd = pContext->wasapi.commands[pContext->wasapi.commandIndex]; + pContext->wasapi.commandIndex = (pContext->wasapi.commandIndex + 1) % ma_countof(pContext->wasapi.commands); + pContext->wasapi.commandCount -= 1; + } + ma_mutex_unlock(&pContext->wasapi.commandLock); + } + + return result; +} + +static ma_thread_result MA_THREADCALL ma_context_command_thread__wasapi(void* pUserData) +{ + ma_result result; + ma_context* pContext = (ma_context*)pUserData; + MA_ASSERT(pContext != NULL); + + for (;;) { + ma_context_command__wasapi cmd; + result = ma_context_next_command__wasapi(pContext, &cmd); + if (result != MA_SUCCESS) { + break; + } + + switch (cmd.code) + { + case MA_CONTEXT_COMMAND_QUIT__WASAPI: + { + /* Do nothing. Handled after the switch. */ + } break; + + case MA_CONTEXT_COMMAND_CREATE_IAUDIOCLIENT__WASAPI: + { + if (cmd.data.createAudioClient.deviceType == ma_device_type_playback) { + *cmd.data.createAudioClient.pResult = ma_result_from_HRESULT(ma_IAudioClient_GetService((ma_IAudioClient*)cmd.data.createAudioClient.pAudioClient, &MA_IID_IAudioRenderClient, cmd.data.createAudioClient.ppAudioClientService)); + } else { + *cmd.data.createAudioClient.pResult = ma_result_from_HRESULT(ma_IAudioClient_GetService((ma_IAudioClient*)cmd.data.createAudioClient.pAudioClient, &MA_IID_IAudioCaptureClient, cmd.data.createAudioClient.ppAudioClientService)); + } + } break; + + case MA_CONTEXT_COMMAND_RELEASE_IAUDIOCLIENT__WASAPI: + { + if (cmd.data.releaseAudioClient.deviceType == ma_device_type_playback) { + if (cmd.data.releaseAudioClient.pDevice->wasapi.pAudioClientPlayback != NULL) { + ma_IAudioClient_Release((ma_IAudioClient*)cmd.data.releaseAudioClient.pDevice->wasapi.pAudioClientPlayback); + cmd.data.releaseAudioClient.pDevice->wasapi.pAudioClientPlayback = NULL; + } + } + + if (cmd.data.releaseAudioClient.deviceType == ma_device_type_capture) { + if (cmd.data.releaseAudioClient.pDevice->wasapi.pAudioClientCapture != NULL) { + ma_IAudioClient_Release((ma_IAudioClient*)cmd.data.releaseAudioClient.pDevice->wasapi.pAudioClientCapture); + cmd.data.releaseAudioClient.pDevice->wasapi.pAudioClientCapture = NULL; + } + } + } break; + + default: + { + /* Unknown command. Ignore it, but trigger an assert in debug mode so we're aware of it. */ + MA_ASSERT(MA_FALSE); + } break; + } + + if (cmd.pEvent != NULL) { + ma_event_signal(cmd.pEvent); + } + + if (cmd.code == MA_CONTEXT_COMMAND_QUIT__WASAPI) { + break; /* Received a quit message. Get out of here. */ + } + } + + return (ma_thread_result)0; +} + +static ma_result ma_device_create_IAudioClient_service__wasapi(ma_context* pContext, ma_device_type deviceType, ma_IAudioClient* pAudioClient, void** ppAudioClientService) +{ + ma_result result; + ma_result cmdResult; + ma_context_command__wasapi cmd = ma_context_init_command__wasapi(MA_CONTEXT_COMMAND_CREATE_IAUDIOCLIENT__WASAPI); + cmd.data.createAudioClient.deviceType = deviceType; + cmd.data.createAudioClient.pAudioClient = (void*)pAudioClient; + cmd.data.createAudioClient.ppAudioClientService = ppAudioClientService; + cmd.data.createAudioClient.pResult = &cmdResult; /* Declared locally, but won't be dereferenced after this function returns since execution of the command will wait here. */ + + result = ma_context_post_command__wasapi(pContext, &cmd); /* This will not return until the command has actually been run. */ + if (result != MA_SUCCESS) { + return result; + } + + return *cmd.data.createAudioClient.pResult; +} + +#if 0 /* Not used at the moment, but leaving here for future use. */ +static ma_result ma_device_release_IAudioClient_service__wasapi(ma_device* pDevice, ma_device_type deviceType) +{ + ma_result result; + ma_context_command__wasapi cmd = ma_context_init_command__wasapi(MA_CONTEXT_COMMAND_RELEASE_IAUDIOCLIENT__WASAPI); + cmd.data.releaseAudioClient.pDevice = pDevice; + cmd.data.releaseAudioClient.deviceType = deviceType; + + result = ma_context_post_command__wasapi(pDevice->pContext, &cmd); /* This will not return until the command has actually been run. */ + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} +#endif + + +static void ma_add_native_data_format_to_device_info_from_WAVEFORMATEX(const MA_WAVEFORMATEX* pWF, ma_share_mode shareMode, ma_device_info* pInfo) +{ + MA_ASSERT(pWF != NULL); + MA_ASSERT(pInfo != NULL); + + if (pInfo->nativeDataFormatCount >= ma_countof(pInfo->nativeDataFormats)) { + return; /* Too many data formats. Need to ignore this one. Don't think this should ever happen with WASAPI. */ + } + + pInfo->nativeDataFormats[pInfo->nativeDataFormatCount].format = ma_format_from_WAVEFORMATEX(pWF); + pInfo->nativeDataFormats[pInfo->nativeDataFormatCount].channels = pWF->nChannels; + pInfo->nativeDataFormats[pInfo->nativeDataFormatCount].sampleRate = pWF->nSamplesPerSec; + pInfo->nativeDataFormats[pInfo->nativeDataFormatCount].flags = (shareMode == ma_share_mode_exclusive) ? MA_DATA_FORMAT_FLAG_EXCLUSIVE_MODE : 0; + pInfo->nativeDataFormatCount += 1; +} + +static ma_result ma_context_get_device_info_from_IAudioClient__wasapi(ma_context* pContext, /*ma_IMMDevice**/void* pMMDevice, ma_IAudioClient* pAudioClient, ma_device_info* pInfo) +{ + HRESULT hr; + MA_WAVEFORMATEX* pWF = NULL; + + MA_ASSERT(pAudioClient != NULL); + MA_ASSERT(pInfo != NULL); + + /* Shared Mode. We use GetMixFormat() here. */ + hr = ma_IAudioClient_GetMixFormat((ma_IAudioClient*)pAudioClient, (MA_WAVEFORMATEX**)&pWF); + if (SUCCEEDED(hr)) { + ma_add_native_data_format_to_device_info_from_WAVEFORMATEX(pWF, ma_share_mode_shared, pInfo); + } else { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to retrieve mix format for device info retrieval."); + return ma_result_from_HRESULT(hr); + } + + /* + Exclusive Mode. We repeatedly call IsFormatSupported() here. This is not currently supported on + UWP. Failure to retrieve the exclusive mode format is not considered an error, so from here on + out, MA_SUCCESS is guaranteed to be returned. + */ + #if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + { + ma_IPropertyStore *pProperties; + + /* + The first thing to do is get the format from PKEY_AudioEngine_DeviceFormat. This should give us a channel count we assume is + correct which will simplify our searching. + */ + hr = ma_IMMDevice_OpenPropertyStore((ma_IMMDevice*)pMMDevice, STGM_READ, &pProperties); + if (SUCCEEDED(hr)) { + MA_PROPVARIANT var; + ma_PropVariantInit(&var); + + hr = ma_IPropertyStore_GetValue(pProperties, &MA_PKEY_AudioEngine_DeviceFormat, &var); + if (SUCCEEDED(hr)) { + pWF = (MA_WAVEFORMATEX*)var.blob.pBlobData; + + /* + In my testing, the format returned by PKEY_AudioEngine_DeviceFormat is suitable for exclusive mode so we check this format + first. If this fails, fall back to a search. + */ + hr = ma_IAudioClient_IsFormatSupported((ma_IAudioClient*)pAudioClient, MA_AUDCLNT_SHAREMODE_EXCLUSIVE, pWF, NULL); + if (SUCCEEDED(hr)) { + /* The format returned by PKEY_AudioEngine_DeviceFormat is supported. */ + ma_add_native_data_format_to_device_info_from_WAVEFORMATEX(pWF, ma_share_mode_exclusive, pInfo); + } else { + /* + The format returned by PKEY_AudioEngine_DeviceFormat is not supported, so fall back to a search. We assume the channel + count returned by MA_PKEY_AudioEngine_DeviceFormat is valid and correct. For simplicity we're only returning one format. + */ + ma_uint32 channels = pWF->nChannels; + ma_channel defaultChannelMap[MA_MAX_CHANNELS]; + MA_WAVEFORMATEXTENSIBLE wf; + ma_bool32 found; + ma_uint32 iFormat; + + /* Make sure we don't overflow the channel map. */ + if (channels > MA_MAX_CHANNELS) { + channels = MA_MAX_CHANNELS; + } + + ma_channel_map_init_standard(ma_standard_channel_map_microsoft, defaultChannelMap, ma_countof(defaultChannelMap), channels); + + MA_ZERO_OBJECT(&wf); + wf.cbSize = sizeof(wf); + wf.wFormatTag = WAVE_FORMAT_EXTENSIBLE; + wf.nChannels = (WORD)channels; + wf.dwChannelMask = ma_channel_map_to_channel_mask__win32(defaultChannelMap, channels); + + found = MA_FALSE; + for (iFormat = 0; iFormat < ma_countof(g_maFormatPriorities); ++iFormat) { + ma_format format = g_maFormatPriorities[iFormat]; + ma_uint32 iSampleRate; + + wf.wBitsPerSample = (WORD)(ma_get_bytes_per_sample(format)*8); + wf.nBlockAlign = (WORD)(wf.nChannels * wf.wBitsPerSample / 8); + wf.nAvgBytesPerSec = wf.nBlockAlign * wf.nSamplesPerSec; + wf.Samples.wValidBitsPerSample = /*(format == ma_format_s24_32) ? 24 :*/ wf.wBitsPerSample; + if (format == ma_format_f32) { + wf.SubFormat = MA_GUID_KSDATAFORMAT_SUBTYPE_IEEE_FLOAT; + } else { + wf.SubFormat = MA_GUID_KSDATAFORMAT_SUBTYPE_PCM; + } + + for (iSampleRate = 0; iSampleRate < ma_countof(g_maStandardSampleRatePriorities); ++iSampleRate) { + wf.nSamplesPerSec = g_maStandardSampleRatePriorities[iSampleRate]; + + hr = ma_IAudioClient_IsFormatSupported((ma_IAudioClient*)pAudioClient, MA_AUDCLNT_SHAREMODE_EXCLUSIVE, (MA_WAVEFORMATEX*)&wf, NULL); + if (SUCCEEDED(hr)) { + ma_add_native_data_format_to_device_info_from_WAVEFORMATEX((MA_WAVEFORMATEX*)&wf, ma_share_mode_exclusive, pInfo); + found = MA_TRUE; + break; + } + } + + if (found) { + break; + } + } + + ma_PropVariantClear(pContext, &var); + + if (!found) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_WARNING, "[WASAPI] Failed to find suitable device format for device info retrieval."); + } + } + } else { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_WARNING, "[WASAPI] Failed to retrieve device format for device info retrieval."); + } + + ma_IPropertyStore_Release(pProperties); + } else { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_WARNING, "[WASAPI] Failed to open property store for device info retrieval."); + } + } + #else + { + (void)pMMDevice; /* Unused. */ + } + #endif + + return MA_SUCCESS; +} + +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) +static ma_EDataFlow ma_device_type_to_EDataFlow(ma_device_type deviceType) +{ + if (deviceType == ma_device_type_playback) { + return ma_eRender; + } else if (deviceType == ma_device_type_capture) { + return ma_eCapture; + } else { + MA_ASSERT(MA_FALSE); + return ma_eRender; /* Should never hit this. */ + } +} + +static ma_result ma_context_create_IMMDeviceEnumerator__wasapi(ma_context* pContext, ma_IMMDeviceEnumerator** ppDeviceEnumerator) +{ + HRESULT hr; + ma_IMMDeviceEnumerator* pDeviceEnumerator; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(ppDeviceEnumerator != NULL); + + *ppDeviceEnumerator = NULL; /* Safety. */ + + hr = ma_CoCreateInstance(pContext, &MA_CLSID_MMDeviceEnumerator, NULL, CLSCTX_ALL, &MA_IID_IMMDeviceEnumerator, (void**)&pDeviceEnumerator); + if (FAILED(hr)) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to create device enumerator."); + return ma_result_from_HRESULT(hr); + } + + *ppDeviceEnumerator = pDeviceEnumerator; + + return MA_SUCCESS; +} + +static WCHAR* ma_context_get_default_device_id_from_IMMDeviceEnumerator__wasapi(ma_context* pContext, ma_IMMDeviceEnumerator* pDeviceEnumerator, ma_device_type deviceType) +{ + HRESULT hr; + ma_IMMDevice* pMMDefaultDevice = NULL; + WCHAR* pDefaultDeviceID = NULL; + ma_EDataFlow dataFlow; + ma_ERole role; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pDeviceEnumerator != NULL); + + (void)pContext; + + /* Grab the EDataFlow type from the device type. */ + dataFlow = ma_device_type_to_EDataFlow(deviceType); + + /* The role is always eConsole, but we may make this configurable later. */ + role = ma_eConsole; + + hr = ma_IMMDeviceEnumerator_GetDefaultAudioEndpoint(pDeviceEnumerator, dataFlow, role, &pMMDefaultDevice); + if (FAILED(hr)) { + return NULL; + } + + hr = ma_IMMDevice_GetId(pMMDefaultDevice, &pDefaultDeviceID); + + ma_IMMDevice_Release(pMMDefaultDevice); + pMMDefaultDevice = NULL; + + if (FAILED(hr)) { + return NULL; + } + + return pDefaultDeviceID; +} + +static WCHAR* ma_context_get_default_device_id__wasapi(ma_context* pContext, ma_device_type deviceType) /* Free the returned pointer with ma_CoTaskMemFree() */ +{ + ma_result result; + ma_IMMDeviceEnumerator* pDeviceEnumerator; + WCHAR* pDefaultDeviceID = NULL; + + MA_ASSERT(pContext != NULL); + + result = ma_context_create_IMMDeviceEnumerator__wasapi(pContext, &pDeviceEnumerator); + if (result != MA_SUCCESS) { + return NULL; + } + + pDefaultDeviceID = ma_context_get_default_device_id_from_IMMDeviceEnumerator__wasapi(pContext, pDeviceEnumerator, deviceType); + + ma_IMMDeviceEnumerator_Release(pDeviceEnumerator); + return pDefaultDeviceID; +} + +static ma_result ma_context_get_MMDevice__wasapi(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_IMMDevice** ppMMDevice) +{ + ma_IMMDeviceEnumerator* pDeviceEnumerator; + HRESULT hr; + HRESULT CoInitializeResult; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(ppMMDevice != NULL); + + /* + This weird COM init/uninit here is a hack to work around a crash when changing devices. What is happening is + WASAPI fires a callback from another thread when the device is changed. It's from that thread where this + function is getting called. What I'm suspecting is that the other thread is not initializing COM which in turn + results in CoCreateInstance() failing. + + The community has reported that this seems to fix the crash. There are future plans to move all WASAPI operation + over to a single thread to make everything safer, but in the meantime while we wait for that to come online I'm + happy enough to use this hack instead. + + CoUninitialize should only be called if we successfully initialized. S_OK and S_FALSE both mean that we need to + call CoUninitialize since the internal ref count was increased. RPC_E_CHANGED_MODE means that CoInitializeEx was + called with a different COINIT value, and we don't call CoUninitialize in that case. Other errors are possible, + so we check for S_OK and S_FALSE specifically. + */ + CoInitializeResult = ma_CoInitializeEx(pContext, NULL, MA_COINIT_VALUE); + { + hr = ma_CoCreateInstance(pContext, &MA_CLSID_MMDeviceEnumerator, NULL, CLSCTX_ALL, &MA_IID_IMMDeviceEnumerator, (void**)&pDeviceEnumerator); + } + if (CoInitializeResult == S_OK || CoInitializeResult == S_FALSE) { ma_CoUninitialize(pContext); } + + if (FAILED(hr)) { /* <-- This is checking the call above to ma_CoCreateInstance(). */ + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to create IMMDeviceEnumerator.\n"); + return ma_result_from_HRESULT(hr); + } + + if (pDeviceID == NULL) { + hr = ma_IMMDeviceEnumerator_GetDefaultAudioEndpoint(pDeviceEnumerator, (deviceType == ma_device_type_capture) ? ma_eCapture : ma_eRender, ma_eConsole, ppMMDevice); + } else { + hr = ma_IMMDeviceEnumerator_GetDevice(pDeviceEnumerator, pDeviceID->wasapi, ppMMDevice); + } + + ma_IMMDeviceEnumerator_Release(pDeviceEnumerator); + if (FAILED(hr)) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to retrieve IMMDevice.\n"); + return ma_result_from_HRESULT(hr); + } + + return MA_SUCCESS; +} + +static ma_result ma_context_get_device_id_from_MMDevice__wasapi(ma_context* pContext, ma_IMMDevice* pMMDevice, ma_device_id* pDeviceID) +{ + WCHAR* pDeviceIDString; + HRESULT hr; + + MA_ASSERT(pDeviceID != NULL); + + hr = ma_IMMDevice_GetId(pMMDevice, &pDeviceIDString); + if (SUCCEEDED(hr)) { + size_t idlen = ma_strlen_WCHAR(pDeviceIDString); + if (idlen+1 > ma_countof(pDeviceID->wasapi)) { + ma_CoTaskMemFree(pContext, pDeviceIDString); + MA_ASSERT(MA_FALSE); /* NOTE: If this is triggered, please report it. It means the format of the ID must have changed and is too long to fit in our fixed sized buffer. */ + return MA_ERROR; + } + + MA_COPY_MEMORY(pDeviceID->wasapi, pDeviceIDString, idlen * sizeof(wchar_t)); + pDeviceID->wasapi[idlen] = '\0'; + + ma_CoTaskMemFree(pContext, pDeviceIDString); + + return MA_SUCCESS; + } + + return MA_ERROR; +} + +static ma_result ma_context_get_device_info_from_MMDevice__wasapi(ma_context* pContext, ma_IMMDevice* pMMDevice, WCHAR* pDefaultDeviceID, ma_bool32 onlySimpleInfo, ma_device_info* pInfo) +{ + ma_result result; + HRESULT hr; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pMMDevice != NULL); + MA_ASSERT(pInfo != NULL); + + /* ID. */ + result = ma_context_get_device_id_from_MMDevice__wasapi(pContext, pMMDevice, &pInfo->id); + if (result == MA_SUCCESS) { + if (pDefaultDeviceID != NULL) { + if (ma_strcmp_WCHAR(pInfo->id.wasapi, pDefaultDeviceID) == 0) { + pInfo->isDefault = MA_TRUE; + } + } + } + + /* Description / Friendly Name */ + { + ma_IPropertyStore *pProperties; + hr = ma_IMMDevice_OpenPropertyStore(pMMDevice, STGM_READ, &pProperties); + if (SUCCEEDED(hr)) { + MA_PROPVARIANT var; + + ma_PropVariantInit(&var); + hr = ma_IPropertyStore_GetValue(pProperties, &MA_PKEY_Device_FriendlyName, &var); + if (SUCCEEDED(hr)) { + WideCharToMultiByte(CP_UTF8, 0, var.pwszVal, -1, pInfo->name, sizeof(pInfo->name), 0, FALSE); + ma_PropVariantClear(pContext, &var); + } + + ma_IPropertyStore_Release(pProperties); + } + } + + /* Format */ + if (!onlySimpleInfo) { + ma_IAudioClient* pAudioClient; + hr = ma_IMMDevice_Activate(pMMDevice, &MA_IID_IAudioClient, CLSCTX_ALL, NULL, (void**)&pAudioClient); + if (SUCCEEDED(hr)) { + result = ma_context_get_device_info_from_IAudioClient__wasapi(pContext, pMMDevice, pAudioClient, pInfo); + + ma_IAudioClient_Release(pAudioClient); + return result; + } else { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to activate audio client for device info retrieval."); + return ma_result_from_HRESULT(hr); + } + } + + return MA_SUCCESS; +} + +static ma_result ma_context_enumerate_devices_by_type__wasapi(ma_context* pContext, ma_IMMDeviceEnumerator* pDeviceEnumerator, ma_device_type deviceType, ma_enum_devices_callback_proc callback, void* pUserData) +{ + ma_result result = MA_SUCCESS; + UINT deviceCount; + HRESULT hr; + ma_uint32 iDevice; + WCHAR* pDefaultDeviceID = NULL; + ma_IMMDeviceCollection* pDeviceCollection = NULL; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + /* Grab the default device. We use this to know whether or not flag the returned device info as being the default. */ + pDefaultDeviceID = ma_context_get_default_device_id_from_IMMDeviceEnumerator__wasapi(pContext, pDeviceEnumerator, deviceType); + + /* We need to enumerate the devices which returns a device collection. */ + hr = ma_IMMDeviceEnumerator_EnumAudioEndpoints(pDeviceEnumerator, ma_device_type_to_EDataFlow(deviceType), MA_MM_DEVICE_STATE_ACTIVE, &pDeviceCollection); + if (SUCCEEDED(hr)) { + hr = ma_IMMDeviceCollection_GetCount(pDeviceCollection, &deviceCount); + if (FAILED(hr)) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to get device count.\n"); + result = ma_result_from_HRESULT(hr); + goto done; + } + + for (iDevice = 0; iDevice < deviceCount; ++iDevice) { + ma_device_info deviceInfo; + ma_IMMDevice* pMMDevice; + + MA_ZERO_OBJECT(&deviceInfo); + + hr = ma_IMMDeviceCollection_Item(pDeviceCollection, iDevice, &pMMDevice); + if (SUCCEEDED(hr)) { + result = ma_context_get_device_info_from_MMDevice__wasapi(pContext, pMMDevice, pDefaultDeviceID, MA_TRUE, &deviceInfo); /* MA_TRUE = onlySimpleInfo. */ + + ma_IMMDevice_Release(pMMDevice); + if (result == MA_SUCCESS) { + ma_bool32 cbResult = callback(pContext, deviceType, &deviceInfo, pUserData); + if (cbResult == MA_FALSE) { + break; + } + } + } + } + } + +done: + if (pDefaultDeviceID != NULL) { + ma_CoTaskMemFree(pContext, pDefaultDeviceID); + pDefaultDeviceID = NULL; + } + + if (pDeviceCollection != NULL) { + ma_IMMDeviceCollection_Release(pDeviceCollection); + pDeviceCollection = NULL; + } + + return result; +} + +static ma_result ma_context_get_IAudioClient_Desktop__wasapi(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, MA_PROPVARIANT* pActivationParams, ma_IAudioClient** ppAudioClient, ma_IMMDevice** ppMMDevice) +{ + ma_result result; + HRESULT hr; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(ppAudioClient != NULL); + MA_ASSERT(ppMMDevice != NULL); + + result = ma_context_get_MMDevice__wasapi(pContext, deviceType, pDeviceID, ppMMDevice); + if (result != MA_SUCCESS) { + return result; + } + + hr = ma_IMMDevice_Activate(*ppMMDevice, &MA_IID_IAudioClient, CLSCTX_ALL, pActivationParams, (void**)ppAudioClient); + if (FAILED(hr)) { + return ma_result_from_HRESULT(hr); + } + + return MA_SUCCESS; +} +#else +static ma_result ma_context_get_IAudioClient_UWP__wasapi(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, MA_PROPVARIANT* pActivationParams, ma_IAudioClient** ppAudioClient, ma_IUnknown** ppActivatedInterface) +{ + ma_IActivateAudioInterfaceAsyncOperation *pAsyncOp = NULL; + ma_completion_handler_uwp completionHandler; + IID iid; + WCHAR* iidStr; + HRESULT hr; + ma_result result; + HRESULT activateResult; + ma_IUnknown* pActivatedInterface; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(ppAudioClient != NULL); + + if (pDeviceID != NULL) { + iidStr = (WCHAR*)pDeviceID->wasapi; + } else { + if (deviceType == ma_device_type_capture) { + iid = MA_IID_DEVINTERFACE_AUDIO_CAPTURE; + } else { + iid = MA_IID_DEVINTERFACE_AUDIO_RENDER; + } + + #if defined(__cplusplus) + hr = StringFromIID(iid, &iidStr); + #else + hr = StringFromIID(&iid, &iidStr); + #endif + if (FAILED(hr)) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to convert device IID to string for ActivateAudioInterfaceAsync(). Out of memory.\n"); + return ma_result_from_HRESULT(hr); + } + } + + result = ma_completion_handler_uwp_init(&completionHandler); + if (result != MA_SUCCESS) { + ma_CoTaskMemFree(pContext, iidStr); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to create event for waiting for ActivateAudioInterfaceAsync().\n"); + return result; + } + + hr = ((MA_PFN_ActivateAudioInterfaceAsync)pContext->wasapi.ActivateAudioInterfaceAsync)(iidStr, &MA_IID_IAudioClient, pActivationParams, (ma_IActivateAudioInterfaceCompletionHandler*)&completionHandler, (ma_IActivateAudioInterfaceAsyncOperation**)&pAsyncOp); + if (FAILED(hr)) { + ma_completion_handler_uwp_uninit(&completionHandler); + ma_CoTaskMemFree(pContext, iidStr); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] ActivateAudioInterfaceAsync() failed.\n"); + return ma_result_from_HRESULT(hr); + } + + if (pDeviceID == NULL) { + ma_CoTaskMemFree(pContext, iidStr); + } + + /* Wait for the async operation for finish. */ + ma_completion_handler_uwp_wait(&completionHandler); + ma_completion_handler_uwp_uninit(&completionHandler); + + hr = ma_IActivateAudioInterfaceAsyncOperation_GetActivateResult(pAsyncOp, &activateResult, &pActivatedInterface); + ma_IActivateAudioInterfaceAsyncOperation_Release(pAsyncOp); + + if (FAILED(hr) || FAILED(activateResult)) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to activate device.\n"); + return FAILED(hr) ? ma_result_from_HRESULT(hr) : ma_result_from_HRESULT(activateResult); + } + + /* Here is where we grab the IAudioClient interface. */ + hr = ma_IUnknown_QueryInterface(pActivatedInterface, &MA_IID_IAudioClient, (void**)ppAudioClient); + if (FAILED(hr)) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to query IAudioClient interface.\n"); + return ma_result_from_HRESULT(hr); + } + + if (ppActivatedInterface) { + *ppActivatedInterface = pActivatedInterface; + } else { + ma_IUnknown_Release(pActivatedInterface); + } + + return MA_SUCCESS; +} +#endif + + +/* https://docs.microsoft.com/en-us/windows/win32/api/audioclientactivationparams/ne-audioclientactivationparams-audioclient_activation_type */ +typedef enum +{ + MA_AUDIOCLIENT_ACTIVATION_TYPE_DEFAULT, + MA_AUDIOCLIENT_ACTIVATION_TYPE_PROCESS_LOOPBACK +} MA_AUDIOCLIENT_ACTIVATION_TYPE; + +/* https://docs.microsoft.com/en-us/windows/win32/api/audioclientactivationparams/ne-audioclientactivationparams-process_loopback_mode */ +typedef enum +{ + MA_PROCESS_LOOPBACK_MODE_INCLUDE_TARGET_PROCESS_TREE, + MA_PROCESS_LOOPBACK_MODE_EXCLUDE_TARGET_PROCESS_TREE +} MA_PROCESS_LOOPBACK_MODE; + +/* https://docs.microsoft.com/en-us/windows/win32/api/audioclientactivationparams/ns-audioclientactivationparams-audioclient_process_loopback_params */ +typedef struct +{ + DWORD TargetProcessId; + MA_PROCESS_LOOPBACK_MODE ProcessLoopbackMode; +} MA_AUDIOCLIENT_PROCESS_LOOPBACK_PARAMS; + +#if defined(_MSC_VER) && !defined(__clang__) + #pragma warning(push) + #pragma warning(disable:4201) /* nonstandard extension used: nameless struct/union */ +#elif defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))) + #pragma GCC diagnostic push + #pragma GCC diagnostic ignored "-Wpedantic" /* For ISO C99 doesn't support unnamed structs/unions [-Wpedantic] */ + #if defined(__clang__) + #pragma GCC diagnostic ignored "-Wc11-extensions" /* anonymous unions are a C11 extension */ + #endif +#endif +/* https://docs.microsoft.com/en-us/windows/win32/api/audioclientactivationparams/ns-audioclientactivationparams-audioclient_activation_params */ +typedef struct +{ + MA_AUDIOCLIENT_ACTIVATION_TYPE ActivationType; + union + { + MA_AUDIOCLIENT_PROCESS_LOOPBACK_PARAMS ProcessLoopbackParams; + }; +} MA_AUDIOCLIENT_ACTIVATION_PARAMS; +#if defined(_MSC_VER) && !defined(__clang__) + #pragma warning(pop) +#elif defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))) + #pragma GCC diagnostic pop +#endif + +#define MA_VIRTUAL_AUDIO_DEVICE_PROCESS_LOOPBACK L"VAD\\Process_Loopback" + +static ma_result ma_context_get_IAudioClient__wasapi(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_uint32 loopbackProcessID, ma_bool32 loopbackProcessExclude, ma_IAudioClient** ppAudioClient, ma_WASAPIDeviceInterface** ppDeviceInterface) +{ + ma_result result; + ma_bool32 usingProcessLoopback = MA_FALSE; + MA_AUDIOCLIENT_ACTIVATION_PARAMS audioclientActivationParams; + MA_PROPVARIANT activationParams; + MA_PROPVARIANT* pActivationParams = NULL; + ma_device_id virtualDeviceID; + + /* Activation parameters specific to loopback mode. Note that process-specific loopback will only work when a default device ID is specified. */ + if (deviceType == ma_device_type_loopback && loopbackProcessID != 0 && pDeviceID == NULL) { + usingProcessLoopback = MA_TRUE; + } + + if (usingProcessLoopback) { + MA_ZERO_OBJECT(&audioclientActivationParams); + audioclientActivationParams.ActivationType = MA_AUDIOCLIENT_ACTIVATION_TYPE_PROCESS_LOOPBACK; + audioclientActivationParams.ProcessLoopbackParams.ProcessLoopbackMode = (loopbackProcessExclude) ? MA_PROCESS_LOOPBACK_MODE_EXCLUDE_TARGET_PROCESS_TREE : MA_PROCESS_LOOPBACK_MODE_INCLUDE_TARGET_PROCESS_TREE; + audioclientActivationParams.ProcessLoopbackParams.TargetProcessId = (DWORD)loopbackProcessID; + + ma_PropVariantInit(&activationParams); + activationParams.vt = MA_VT_BLOB; + activationParams.blob.cbSize = sizeof(audioclientActivationParams); + activationParams.blob.pBlobData = (BYTE*)&audioclientActivationParams; + pActivationParams = &activationParams; + + /* When requesting a specific device ID we need to use a special device ID. */ + MA_COPY_MEMORY(virtualDeviceID.wasapi, MA_VIRTUAL_AUDIO_DEVICE_PROCESS_LOOPBACK, (ma_wcslen(MA_VIRTUAL_AUDIO_DEVICE_PROCESS_LOOPBACK) + 1) * sizeof(wchar_t)); /* +1 for the null terminator. */ + pDeviceID = &virtualDeviceID; + } else { + pActivationParams = NULL; /* No activation parameters required. */ + } + +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + result = ma_context_get_IAudioClient_Desktop__wasapi(pContext, deviceType, pDeviceID, pActivationParams, ppAudioClient, ppDeviceInterface); +#else + result = ma_context_get_IAudioClient_UWP__wasapi(pContext, deviceType, pDeviceID, pActivationParams, ppAudioClient, ppDeviceInterface); +#endif + + /* + If loopback mode was requested with a process ID and initialization failed, it could be because it's + trying to run on an older version of Windows where it's not supported. We need to let the caller + know about this with a log message. + */ + if (result != MA_SUCCESS) { + if (usingProcessLoopback) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Loopback mode requested to %s process ID %u, but initialization failed. Support for this feature begins with Windows 10 Build 20348. Confirm your version of Windows or consider not using process-specific loopback.\n", (loopbackProcessExclude) ? "exclude" : "include", loopbackProcessID); + } + } + + return result; +} + + +static ma_result ma_context_enumerate_devices__wasapi(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + /* Different enumeration for desktop and UWP. */ +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + /* Desktop */ + HRESULT hr; + ma_IMMDeviceEnumerator* pDeviceEnumerator; + + hr = ma_CoCreateInstance(pContext, &MA_CLSID_MMDeviceEnumerator, NULL, CLSCTX_ALL, &MA_IID_IMMDeviceEnumerator, (void**)&pDeviceEnumerator); + if (FAILED(hr)) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to create device enumerator."); + return ma_result_from_HRESULT(hr); + } + + ma_context_enumerate_devices_by_type__wasapi(pContext, pDeviceEnumerator, ma_device_type_playback, callback, pUserData); + ma_context_enumerate_devices_by_type__wasapi(pContext, pDeviceEnumerator, ma_device_type_capture, callback, pUserData); + + ma_IMMDeviceEnumerator_Release(pDeviceEnumerator); +#else + /* + UWP + + The MMDevice API is only supported on desktop applications. For now, while I'm still figuring out how to properly enumerate + over devices without using MMDevice, I'm restricting devices to defaults. + + Hint: DeviceInformation::FindAllAsync() with DeviceClass.AudioCapture/AudioRender. https://blogs.windows.com/buildingapps/2014/05/15/real-time-audio-in-windows-store-and-windows-phone-apps/ + */ + if (callback) { + ma_bool32 cbResult = MA_TRUE; + + /* Playback. */ + if (cbResult) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + deviceInfo.isDefault = MA_TRUE; + cbResult = callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + } + + /* Capture. */ + if (cbResult) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + deviceInfo.isDefault = MA_TRUE; + cbResult = callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + } + } +#endif + + return MA_SUCCESS; +} + +static ma_result ma_context_get_device_info__wasapi(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + ma_result result; + ma_IMMDevice* pMMDevice = NULL; + WCHAR* pDefaultDeviceID = NULL; + + result = ma_context_get_MMDevice__wasapi(pContext, deviceType, pDeviceID, &pMMDevice); + if (result != MA_SUCCESS) { + return result; + } + + /* We need the default device ID so we can set the isDefault flag in the device info. */ + pDefaultDeviceID = ma_context_get_default_device_id__wasapi(pContext, deviceType); + + result = ma_context_get_device_info_from_MMDevice__wasapi(pContext, pMMDevice, pDefaultDeviceID, MA_FALSE, pDeviceInfo); /* MA_FALSE = !onlySimpleInfo. */ + + if (pDefaultDeviceID != NULL) { + ma_CoTaskMemFree(pContext, pDefaultDeviceID); + pDefaultDeviceID = NULL; + } + + ma_IMMDevice_Release(pMMDevice); + + return result; +#else + ma_IAudioClient* pAudioClient; + ma_result result; + + /* UWP currently only uses default devices. */ + if (deviceType == ma_device_type_playback) { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + } else { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + } + + result = ma_context_get_IAudioClient_UWP__wasapi(pContext, deviceType, pDeviceID, NULL, &pAudioClient, NULL); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_context_get_device_info_from_IAudioClient__wasapi(pContext, NULL, pAudioClient, pDeviceInfo); + + pDeviceInfo->isDefault = MA_TRUE; /* UWP only supports default devices. */ + + ma_IAudioClient_Release(pAudioClient); + return result; +#endif +} + +static ma_result ma_device_uninit__wasapi(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + #if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + { + if (pDevice->wasapi.pDeviceEnumerator) { + ((ma_IMMDeviceEnumerator*)pDevice->wasapi.pDeviceEnumerator)->lpVtbl->UnregisterEndpointNotificationCallback((ma_IMMDeviceEnumerator*)pDevice->wasapi.pDeviceEnumerator, &pDevice->wasapi.notificationClient); + ma_IMMDeviceEnumerator_Release((ma_IMMDeviceEnumerator*)pDevice->wasapi.pDeviceEnumerator); + } + + ma_mutex_uninit(&pDevice->wasapi.rerouteLock); + } + #endif + + if (pDevice->wasapi.pRenderClient) { + if (pDevice->wasapi.pMappedBufferPlayback != NULL) { + ma_IAudioRenderClient_ReleaseBuffer((ma_IAudioRenderClient*)pDevice->wasapi.pRenderClient, pDevice->wasapi.mappedBufferPlaybackCap, 0); + pDevice->wasapi.pMappedBufferPlayback = NULL; + pDevice->wasapi.mappedBufferPlaybackCap = 0; + pDevice->wasapi.mappedBufferPlaybackLen = 0; + } + + ma_IAudioRenderClient_Release((ma_IAudioRenderClient*)pDevice->wasapi.pRenderClient); + } + if (pDevice->wasapi.pCaptureClient) { + if (pDevice->wasapi.pMappedBufferCapture != NULL) { + ma_IAudioCaptureClient_ReleaseBuffer((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient, pDevice->wasapi.mappedBufferCaptureCap); + pDevice->wasapi.pMappedBufferCapture = NULL; + pDevice->wasapi.mappedBufferCaptureCap = 0; + pDevice->wasapi.mappedBufferCaptureLen = 0; + } + + ma_IAudioCaptureClient_Release((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient); + } + + if (pDevice->wasapi.pAudioClientPlayback) { + ma_IAudioClient_Release((ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback); + } + if (pDevice->wasapi.pAudioClientCapture) { + ma_IAudioClient_Release((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture); + } + + if (pDevice->wasapi.hEventPlayback) { + CloseHandle((HANDLE)pDevice->wasapi.hEventPlayback); + } + if (pDevice->wasapi.hEventCapture) { + CloseHandle((HANDLE)pDevice->wasapi.hEventCapture); + } + + return MA_SUCCESS; +} + + +typedef struct +{ + /* Input. */ + ma_format formatIn; + ma_uint32 channelsIn; + ma_uint32 sampleRateIn; + ma_channel channelMapIn[MA_MAX_CHANNELS]; + ma_uint32 periodSizeInFramesIn; + ma_uint32 periodSizeInMillisecondsIn; + ma_uint32 periodsIn; + ma_share_mode shareMode; + ma_performance_profile performanceProfile; + ma_bool32 noAutoConvertSRC; + ma_bool32 noDefaultQualitySRC; + ma_bool32 noHardwareOffloading; + ma_uint32 loopbackProcessID; + ma_bool32 loopbackProcessExclude; + + /* Output. */ + ma_IAudioClient* pAudioClient; + ma_IAudioRenderClient* pRenderClient; + ma_IAudioCaptureClient* pCaptureClient; + ma_format formatOut; + ma_uint32 channelsOut; + ma_uint32 sampleRateOut; + ma_channel channelMapOut[MA_MAX_CHANNELS]; + ma_uint32 periodSizeInFramesOut; + ma_uint32 periodsOut; + ma_bool32 usingAudioClient3; + char deviceName[256]; + ma_device_id id; +} ma_device_init_internal_data__wasapi; + +static ma_result ma_device_init_internal__wasapi(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_init_internal_data__wasapi* pData) +{ + HRESULT hr; + ma_result result = MA_SUCCESS; + const char* errorMsg = ""; + MA_AUDCLNT_SHAREMODE shareMode = MA_AUDCLNT_SHAREMODE_SHARED; + DWORD streamFlags = 0; + MA_REFERENCE_TIME periodDurationInMicroseconds; + ma_bool32 wasInitializedUsingIAudioClient3 = MA_FALSE; + MA_WAVEFORMATEXTENSIBLE wf; + ma_WASAPIDeviceInterface* pDeviceInterface = NULL; + ma_IAudioClient2* pAudioClient2; + ma_uint32 nativeSampleRate; + ma_bool32 usingProcessLoopback = MA_FALSE; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pData != NULL); + + /* This function is only used to initialize one device type: either playback, capture or loopback. Never full-duplex. */ + if (deviceType == ma_device_type_duplex) { + return MA_INVALID_ARGS; + } + + usingProcessLoopback = deviceType == ma_device_type_loopback && pData->loopbackProcessID != 0 && pDeviceID == NULL; + + pData->pAudioClient = NULL; + pData->pRenderClient = NULL; + pData->pCaptureClient = NULL; + + streamFlags = MA_AUDCLNT_STREAMFLAGS_EVENTCALLBACK; + if (!pData->noAutoConvertSRC && pData->sampleRateIn != 0 && pData->shareMode != ma_share_mode_exclusive) { /* <-- Exclusive streams must use the native sample rate. */ + streamFlags |= MA_AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM; + } + if (!pData->noDefaultQualitySRC && pData->sampleRateIn != 0 && (streamFlags & MA_AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM) != 0) { + streamFlags |= MA_AUDCLNT_STREAMFLAGS_SRC_DEFAULT_QUALITY; + } + if (deviceType == ma_device_type_loopback) { + streamFlags |= MA_AUDCLNT_STREAMFLAGS_LOOPBACK; + } + + result = ma_context_get_IAudioClient__wasapi(pContext, deviceType, pDeviceID, pData->loopbackProcessID, pData->loopbackProcessExclude, &pData->pAudioClient, &pDeviceInterface); + if (result != MA_SUCCESS) { + goto done; + } + + MA_ZERO_OBJECT(&wf); + + /* Try enabling hardware offloading. */ + if (!pData->noHardwareOffloading) { + hr = ma_IAudioClient_QueryInterface(pData->pAudioClient, &MA_IID_IAudioClient2, (void**)&pAudioClient2); + if (SUCCEEDED(hr)) { + BOOL isHardwareOffloadingSupported = 0; + hr = ma_IAudioClient2_IsOffloadCapable(pAudioClient2, MA_AudioCategory_Other, &isHardwareOffloadingSupported); + if (SUCCEEDED(hr) && isHardwareOffloadingSupported) { + ma_AudioClientProperties clientProperties; + MA_ZERO_OBJECT(&clientProperties); + clientProperties.cbSize = sizeof(clientProperties); + clientProperties.bIsOffload = 1; + clientProperties.eCategory = MA_AudioCategory_Other; + ma_IAudioClient2_SetClientProperties(pAudioClient2, &clientProperties); + } + + pAudioClient2->lpVtbl->Release(pAudioClient2); + } + } + + /* Here is where we try to determine the best format to use with the device. If the client if wanting exclusive mode, first try finding the best format for that. If this fails, fall back to shared mode. */ + result = MA_FORMAT_NOT_SUPPORTED; + if (pData->shareMode == ma_share_mode_exclusive) { + #if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + /* In exclusive mode on desktop we always use the backend's native format. */ + ma_IPropertyStore* pStore = NULL; + hr = ma_IMMDevice_OpenPropertyStore(pDeviceInterface, STGM_READ, &pStore); + if (SUCCEEDED(hr)) { + MA_PROPVARIANT prop; + ma_PropVariantInit(&prop); + hr = ma_IPropertyStore_GetValue(pStore, &MA_PKEY_AudioEngine_DeviceFormat, &prop); + if (SUCCEEDED(hr)) { + MA_WAVEFORMATEX* pActualFormat = (MA_WAVEFORMATEX*)prop.blob.pBlobData; + hr = ma_IAudioClient_IsFormatSupported((ma_IAudioClient*)pData->pAudioClient, MA_AUDCLNT_SHAREMODE_EXCLUSIVE, pActualFormat, NULL); + if (SUCCEEDED(hr)) { + MA_COPY_MEMORY(&wf, pActualFormat, sizeof(MA_WAVEFORMATEXTENSIBLE)); + } + + ma_PropVariantClear(pContext, &prop); + } + + ma_IPropertyStore_Release(pStore); + } + #else + /* + I do not know how to query the device's native format on UWP so for now I'm just disabling support for + exclusive mode. The alternative is to enumerate over different formats and check IsFormatSupported() + until you find one that works. + + TODO: Add support for exclusive mode to UWP. + */ + hr = S_FALSE; + #endif + + if (hr == S_OK) { + shareMode = MA_AUDCLNT_SHAREMODE_EXCLUSIVE; + result = MA_SUCCESS; + } else { + result = MA_SHARE_MODE_NOT_SUPPORTED; + } + } else { + /* In shared mode we are always using the format reported by the operating system. */ + MA_WAVEFORMATEXTENSIBLE* pNativeFormat = NULL; + hr = ma_IAudioClient_GetMixFormat((ma_IAudioClient*)pData->pAudioClient, (MA_WAVEFORMATEX**)&pNativeFormat); + if (hr != S_OK) { + /* When using process-specific loopback, GetMixFormat() seems to always fail. */ + if (usingProcessLoopback) { + wf.wFormatTag = WAVE_FORMAT_IEEE_FLOAT; + wf.nChannels = 2; + wf.nSamplesPerSec = 44100; + wf.wBitsPerSample = 32; + wf.nBlockAlign = wf.nChannels * wf.wBitsPerSample / 8; + wf.nAvgBytesPerSec = wf.nSamplesPerSec * wf.nBlockAlign; + wf.cbSize = sizeof(MA_WAVEFORMATEX); + + result = MA_SUCCESS; + } else { + result = MA_FORMAT_NOT_SUPPORTED; + } + } else { + /* + I've seen cases where cbSize will be set to sizeof(WAVEFORMATEX) even though the structure itself + is given the format tag of WAVE_FORMAT_EXTENSIBLE. If the format tag is WAVE_FORMAT_EXTENSIBLE + want to make sure we copy the whole WAVEFORMATEXTENSIBLE structure. Otherwise we'll have to be + safe and only copy the WAVEFORMATEX part. + */ + if (pNativeFormat->wFormatTag == WAVE_FORMAT_EXTENSIBLE) { + MA_COPY_MEMORY(&wf, pNativeFormat, sizeof(MA_WAVEFORMATEXTENSIBLE)); + } else { + /* I've seen a case where cbSize was set to 0. Assume sizeof(WAVEFORMATEX) in this case. */ + size_t cbSize = pNativeFormat->cbSize; + if (cbSize == 0) { + cbSize = sizeof(MA_WAVEFORMATEX); + } + + /* Make sure we don't copy more than the capacity of `wf`. */ + if (cbSize > sizeof(wf)) { + cbSize = sizeof(wf); + } + + MA_COPY_MEMORY(&wf, pNativeFormat, cbSize); + } + + result = MA_SUCCESS; + } + + ma_CoTaskMemFree(pContext, pNativeFormat); + + shareMode = MA_AUDCLNT_SHAREMODE_SHARED; + } + + /* Return an error if we still haven't found a format. */ + if (result != MA_SUCCESS) { + errorMsg = "[WASAPI] Failed to find best device mix format."; + goto done; + } + + /* + Override the native sample rate with the one requested by the caller, but only if we're not using the default sample rate. We'll use + WASAPI to perform the sample rate conversion. + */ + nativeSampleRate = wf.nSamplesPerSec; + if (streamFlags & MA_AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM) { + wf.nSamplesPerSec = (pData->sampleRateIn != 0) ? pData->sampleRateIn : MA_DEFAULT_SAMPLE_RATE; + wf.nAvgBytesPerSec = wf.nSamplesPerSec * wf.nBlockAlign; + } + + pData->formatOut = ma_format_from_WAVEFORMATEX((MA_WAVEFORMATEX*)&wf); + if (pData->formatOut == ma_format_unknown) { + /* + The format isn't supported. This is almost certainly because the exclusive mode format isn't supported by miniaudio. We need to return MA_SHARE_MODE_NOT_SUPPORTED + in this case so that the caller can detect it and fall back to shared mode if desired. We should never get here if shared mode was requested, but just for + completeness we'll check for it and return MA_FORMAT_NOT_SUPPORTED. + */ + if (shareMode == MA_AUDCLNT_SHAREMODE_EXCLUSIVE) { + result = MA_SHARE_MODE_NOT_SUPPORTED; + } else { + result = MA_FORMAT_NOT_SUPPORTED; + } + + errorMsg = "[WASAPI] Native format not supported."; + goto done; + } + + pData->channelsOut = wf.nChannels; + pData->sampleRateOut = wf.nSamplesPerSec; + + /* + Get the internal channel map based on the channel mask. There is a possibility that GetMixFormat() returns + a WAVEFORMATEX instead of a WAVEFORMATEXTENSIBLE, in which case the channel mask will be undefined. In this + case we'll just use the default channel map. + */ + if (wf.wFormatTag == WAVE_FORMAT_EXTENSIBLE || wf.cbSize >= sizeof(MA_WAVEFORMATEXTENSIBLE)) { + ma_channel_mask_to_channel_map__win32(wf.dwChannelMask, pData->channelsOut, pData->channelMapOut); + } else { + ma_channel_map_init_standard(ma_standard_channel_map_microsoft, pData->channelMapOut, ma_countof(pData->channelMapOut), pData->channelsOut); + } + + /* Period size. */ + pData->periodsOut = (pData->periodsIn != 0) ? pData->periodsIn : MA_DEFAULT_PERIODS; + pData->periodSizeInFramesOut = pData->periodSizeInFramesIn; + if (pData->periodSizeInFramesOut == 0) { + if (pData->periodSizeInMillisecondsIn == 0) { + if (pData->performanceProfile == ma_performance_profile_low_latency) { + pData->periodSizeInFramesOut = ma_calculate_buffer_size_in_frames_from_milliseconds(MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_LOW_LATENCY, wf.nSamplesPerSec); + } else { + pData->periodSizeInFramesOut = ma_calculate_buffer_size_in_frames_from_milliseconds(MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_CONSERVATIVE, wf.nSamplesPerSec); + } + } else { + pData->periodSizeInFramesOut = ma_calculate_buffer_size_in_frames_from_milliseconds(pData->periodSizeInMillisecondsIn, wf.nSamplesPerSec); + } + } + + periodDurationInMicroseconds = ((ma_uint64)pData->periodSizeInFramesOut * 1000 * 1000) / wf.nSamplesPerSec; + + + /* Slightly different initialization for shared and exclusive modes. We try exclusive mode first, and if it fails, fall back to shared mode. */ + if (shareMode == MA_AUDCLNT_SHAREMODE_EXCLUSIVE) { + MA_REFERENCE_TIME bufferDuration = periodDurationInMicroseconds * pData->periodsOut * 10; + + /* + If the periodicity is too small, Initialize() will fail with AUDCLNT_E_INVALID_DEVICE_PERIOD. In this case we should just keep increasing + it and trying it again. + */ + hr = E_FAIL; + for (;;) { + hr = ma_IAudioClient_Initialize((ma_IAudioClient*)pData->pAudioClient, shareMode, streamFlags, bufferDuration, bufferDuration, (MA_WAVEFORMATEX*)&wf, NULL); + if (hr == MA_AUDCLNT_E_INVALID_DEVICE_PERIOD) { + if (bufferDuration > 500*10000) { + break; + } else { + if (bufferDuration == 0) { /* <-- Just a sanity check to prevent an infinite loop. Should never happen, but it makes me feel better. */ + break; + } + + bufferDuration = bufferDuration * 2; + continue; + } + } else { + break; + } + } + + if (hr == MA_AUDCLNT_E_BUFFER_SIZE_NOT_ALIGNED) { + ma_uint32 bufferSizeInFrames; + hr = ma_IAudioClient_GetBufferSize((ma_IAudioClient*)pData->pAudioClient, &bufferSizeInFrames); + if (SUCCEEDED(hr)) { + bufferDuration = (MA_REFERENCE_TIME)((10000.0 * 1000 / wf.nSamplesPerSec * bufferSizeInFrames) + 0.5); + + /* Unfortunately we need to release and re-acquire the audio client according to MSDN. Seems silly - why not just call IAudioClient_Initialize() again?! */ + ma_IAudioClient_Release((ma_IAudioClient*)pData->pAudioClient); + + #if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + hr = ma_IMMDevice_Activate(pDeviceInterface, &MA_IID_IAudioClient, CLSCTX_ALL, NULL, (void**)&pData->pAudioClient); + #else + hr = ma_IUnknown_QueryInterface(pDeviceInterface, &MA_IID_IAudioClient, (void**)&pData->pAudioClient); + #endif + + if (SUCCEEDED(hr)) { + hr = ma_IAudioClient_Initialize((ma_IAudioClient*)pData->pAudioClient, shareMode, streamFlags, bufferDuration, bufferDuration, (MA_WAVEFORMATEX*)&wf, NULL); + } + } + } + + if (FAILED(hr)) { + /* Failed to initialize in exclusive mode. Don't fall back to shared mode - instead tell the client about it. They can reinitialize in shared mode if they want. */ + if (hr == E_ACCESSDENIED) { + errorMsg = "[WASAPI] Failed to initialize device in exclusive mode. Access denied.", result = MA_ACCESS_DENIED; + } else if (hr == MA_AUDCLNT_E_DEVICE_IN_USE) { + errorMsg = "[WASAPI] Failed to initialize device in exclusive mode. Device in use.", result = MA_BUSY; + } else { + errorMsg = "[WASAPI] Failed to initialize device in exclusive mode."; result = ma_result_from_HRESULT(hr); + } + goto done; + } + } + + if (shareMode == MA_AUDCLNT_SHAREMODE_SHARED) { + /* + Low latency shared mode via IAudioClient3. + + NOTE + ==== + Contrary to the documentation on MSDN (https://docs.microsoft.com/en-us/windows/win32/api/audioclient/nf-audioclient-iaudioclient3-initializesharedaudiostream), the + use of AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM and AUDCLNT_STREAMFLAGS_SRC_DEFAULT_QUALITY with IAudioClient3_InitializeSharedAudioStream() absolutely does not work. Using + any of these flags will result in HRESULT code 0x88890021. The other problem is that calling IAudioClient3_GetSharedModeEnginePeriod() with a sample rate different to + that returned by IAudioClient_GetMixFormat() also results in an error. I'm therefore disabling low-latency shared mode with AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM. + */ + #ifndef MA_WASAPI_NO_LOW_LATENCY_SHARED_MODE + { + if ((streamFlags & MA_AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM) == 0 || nativeSampleRate == wf.nSamplesPerSec) { + ma_IAudioClient3* pAudioClient3 = NULL; + hr = ma_IAudioClient_QueryInterface(pData->pAudioClient, &MA_IID_IAudioClient3, (void**)&pAudioClient3); + if (SUCCEEDED(hr)) { + ma_uint32 defaultPeriodInFrames; + ma_uint32 fundamentalPeriodInFrames; + ma_uint32 minPeriodInFrames; + ma_uint32 maxPeriodInFrames; + hr = ma_IAudioClient3_GetSharedModeEnginePeriod(pAudioClient3, (MA_WAVEFORMATEX*)&wf, &defaultPeriodInFrames, &fundamentalPeriodInFrames, &minPeriodInFrames, &maxPeriodInFrames); + if (SUCCEEDED(hr)) { + ma_uint32 desiredPeriodInFrames = pData->periodSizeInFramesOut; + ma_uint32 actualPeriodInFrames = desiredPeriodInFrames; + + /* Make sure the period size is a multiple of fundamentalPeriodInFrames. */ + actualPeriodInFrames = actualPeriodInFrames / fundamentalPeriodInFrames; + actualPeriodInFrames = actualPeriodInFrames * fundamentalPeriodInFrames; + + /* The period needs to be clamped between minPeriodInFrames and maxPeriodInFrames. */ + actualPeriodInFrames = ma_clamp(actualPeriodInFrames, minPeriodInFrames, maxPeriodInFrames); + + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, "[WASAPI] Trying IAudioClient3_InitializeSharedAudioStream(actualPeriodInFrames=%d)\n", actualPeriodInFrames); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, " defaultPeriodInFrames=%d\n", defaultPeriodInFrames); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, " fundamentalPeriodInFrames=%d\n", fundamentalPeriodInFrames); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, " minPeriodInFrames=%d\n", minPeriodInFrames); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, " maxPeriodInFrames=%d\n", maxPeriodInFrames); + + /* If the client requested a largish buffer than we don't actually want to use low latency shared mode because it forces small buffers. */ + if (actualPeriodInFrames >= desiredPeriodInFrames) { + /* + MA_AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM | MA_AUDCLNT_STREAMFLAGS_SRC_DEFAULT_QUALITY must not be in the stream flags. If either of these are specified, + IAudioClient3_InitializeSharedAudioStream() will fail. + */ + hr = ma_IAudioClient3_InitializeSharedAudioStream(pAudioClient3, streamFlags & ~(MA_AUDCLNT_STREAMFLAGS_AUTOCONVERTPCM | MA_AUDCLNT_STREAMFLAGS_SRC_DEFAULT_QUALITY), actualPeriodInFrames, (MA_WAVEFORMATEX*)&wf, NULL); + if (SUCCEEDED(hr)) { + wasInitializedUsingIAudioClient3 = MA_TRUE; + pData->periodSizeInFramesOut = actualPeriodInFrames; + + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, "[WASAPI] Using IAudioClient3\n"); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, " periodSizeInFramesOut=%d\n", pData->periodSizeInFramesOut); + } else { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, "[WASAPI] IAudioClient3_InitializeSharedAudioStream failed. Falling back to IAudioClient.\n"); + } + } else { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, "[WASAPI] Not using IAudioClient3 because the desired period size is larger than the maximum supported by IAudioClient3.\n"); + } + } else { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, "[WASAPI] IAudioClient3_GetSharedModeEnginePeriod failed. Falling back to IAudioClient.\n"); + } + + ma_IAudioClient3_Release(pAudioClient3); + pAudioClient3 = NULL; + } + } + } + #else + { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, "[WASAPI] Not using IAudioClient3 because MA_WASAPI_NO_LOW_LATENCY_SHARED_MODE is enabled.\n"); + } + #endif + + /* If we don't have an IAudioClient3 then we need to use the normal initialization routine. */ + if (!wasInitializedUsingIAudioClient3) { + MA_REFERENCE_TIME bufferDuration = periodDurationInMicroseconds * pData->periodsOut * 10; /* <-- Multiply by 10 for microseconds to 100-nanoseconds. */ + hr = ma_IAudioClient_Initialize((ma_IAudioClient*)pData->pAudioClient, shareMode, streamFlags, bufferDuration, 0, (const MA_WAVEFORMATEX*)&wf, NULL); + if (FAILED(hr)) { + if (hr == E_ACCESSDENIED) { + errorMsg = "[WASAPI] Failed to initialize device. Access denied.", result = MA_ACCESS_DENIED; + } else if (hr == MA_AUDCLNT_E_DEVICE_IN_USE) { + errorMsg = "[WASAPI] Failed to initialize device. Device in use.", result = MA_BUSY; + } else { + errorMsg = "[WASAPI] Failed to initialize device.", result = ma_result_from_HRESULT(hr); + } + + goto done; + } + } + } + + if (!wasInitializedUsingIAudioClient3) { + ma_uint32 bufferSizeInFrames = 0; + hr = ma_IAudioClient_GetBufferSize((ma_IAudioClient*)pData->pAudioClient, &bufferSizeInFrames); + if (FAILED(hr)) { + errorMsg = "[WASAPI] Failed to get audio client's actual buffer size.", result = ma_result_from_HRESULT(hr); + goto done; + } + + /* + When using process loopback mode, retrieval of the buffer size seems to result in totally + incorrect values. In this case we'll just assume it's the same size as what we requested + when we initialized the client. + */ + if (usingProcessLoopback) { + bufferSizeInFrames = (ma_uint32)((periodDurationInMicroseconds * pData->periodsOut) * pData->sampleRateOut / 1000000); + } + + pData->periodSizeInFramesOut = bufferSizeInFrames / pData->periodsOut; + } + + pData->usingAudioClient3 = wasInitializedUsingIAudioClient3; + + + if (deviceType == ma_device_type_playback) { + result = ma_device_create_IAudioClient_service__wasapi(pContext, deviceType, (ma_IAudioClient*)pData->pAudioClient, (void**)&pData->pRenderClient); + } else { + result = ma_device_create_IAudioClient_service__wasapi(pContext, deviceType, (ma_IAudioClient*)pData->pAudioClient, (void**)&pData->pCaptureClient); + } + + /*if (FAILED(hr)) {*/ + if (result != MA_SUCCESS) { + errorMsg = "[WASAPI] Failed to get audio client service."; + goto done; + } + + + /* Grab the name of the device. */ + #if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + { + ma_IPropertyStore *pProperties; + hr = ma_IMMDevice_OpenPropertyStore(pDeviceInterface, STGM_READ, &pProperties); + if (SUCCEEDED(hr)) { + MA_PROPVARIANT varName; + ma_PropVariantInit(&varName); + hr = ma_IPropertyStore_GetValue(pProperties, &MA_PKEY_Device_FriendlyName, &varName); + if (SUCCEEDED(hr)) { + WideCharToMultiByte(CP_UTF8, 0, varName.pwszVal, -1, pData->deviceName, sizeof(pData->deviceName), 0, FALSE); + ma_PropVariantClear(pContext, &varName); + } + + ma_IPropertyStore_Release(pProperties); + } + } + #endif + + /* + For the WASAPI backend we need to know the actual IDs of the device in order to do automatic + stream routing so that IDs can be compared and we can determine which device has been detached + and whether or not it matches with our ma_device. + */ + #if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + { + /* Desktop */ + ma_context_get_device_id_from_MMDevice__wasapi(pContext, pDeviceInterface, &pData->id); + } + #else + { + /* UWP */ + /* TODO: Implement me. Need to figure out how to get the ID of the default device. */ + } + #endif + +done: + /* Clean up. */ +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + if (pDeviceInterface != NULL) { + ma_IMMDevice_Release(pDeviceInterface); + } +#else + if (pDeviceInterface != NULL) { + ma_IUnknown_Release(pDeviceInterface); + } +#endif + + if (result != MA_SUCCESS) { + if (pData->pRenderClient) { + ma_IAudioRenderClient_Release((ma_IAudioRenderClient*)pData->pRenderClient); + pData->pRenderClient = NULL; + } + if (pData->pCaptureClient) { + ma_IAudioCaptureClient_Release((ma_IAudioCaptureClient*)pData->pCaptureClient); + pData->pCaptureClient = NULL; + } + if (pData->pAudioClient) { + ma_IAudioClient_Release((ma_IAudioClient*)pData->pAudioClient); + pData->pAudioClient = NULL; + } + + if (errorMsg != NULL && errorMsg[0] != '\0') { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "%s\n", errorMsg); + } + + return result; + } else { + return MA_SUCCESS; + } +} + +static ma_result ma_device_reinit__wasapi(ma_device* pDevice, ma_device_type deviceType) +{ + ma_device_init_internal_data__wasapi data; + ma_result result; + + MA_ASSERT(pDevice != NULL); + + /* We only re-initialize the playback or capture device. Never a full-duplex device. */ + if (deviceType == ma_device_type_duplex) { + return MA_INVALID_ARGS; + } + + + /* + Before reinitializing the device we need to free the previous audio clients. + + There's a known memory leak here. We will be calling this from the routing change callback that + is fired by WASAPI. If we attempt to release the IAudioClient we will deadlock. In my opinion + this is a bug. I'm not sure what I need to do to handle this cleanly, but I think we'll probably + need some system where we post an event, but delay the execution of it until the callback has + returned. I'm not sure how to do this reliably, however. I have set up some infrastructure for + a command thread which might be useful for this. + */ + if (deviceType == ma_device_type_capture || deviceType == ma_device_type_loopback) { + if (pDevice->wasapi.pCaptureClient) { + ma_IAudioCaptureClient_Release((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient); + pDevice->wasapi.pCaptureClient = NULL; + } + + if (pDevice->wasapi.pAudioClientCapture) { + /*ma_device_release_IAudioClient_service__wasapi(pDevice, ma_device_type_capture);*/ + pDevice->wasapi.pAudioClientCapture = NULL; + } + } + + if (deviceType == ma_device_type_playback) { + if (pDevice->wasapi.pRenderClient) { + ma_IAudioRenderClient_Release((ma_IAudioRenderClient*)pDevice->wasapi.pRenderClient); + pDevice->wasapi.pRenderClient = NULL; + } + + if (pDevice->wasapi.pAudioClientPlayback) { + /*ma_device_release_IAudioClient_service__wasapi(pDevice, ma_device_type_playback);*/ + pDevice->wasapi.pAudioClientPlayback = NULL; + } + } + + + if (deviceType == ma_device_type_playback) { + data.formatIn = pDevice->playback.format; + data.channelsIn = pDevice->playback.channels; + MA_COPY_MEMORY(data.channelMapIn, pDevice->playback.channelMap, sizeof(pDevice->playback.channelMap)); + data.shareMode = pDevice->playback.shareMode; + } else { + data.formatIn = pDevice->capture.format; + data.channelsIn = pDevice->capture.channels; + MA_COPY_MEMORY(data.channelMapIn, pDevice->capture.channelMap, sizeof(pDevice->capture.channelMap)); + data.shareMode = pDevice->capture.shareMode; + } + + data.sampleRateIn = pDevice->sampleRate; + data.periodSizeInFramesIn = pDevice->wasapi.originalPeriodSizeInFrames; + data.periodSizeInMillisecondsIn = pDevice->wasapi.originalPeriodSizeInMilliseconds; + data.periodsIn = pDevice->wasapi.originalPeriods; + data.performanceProfile = pDevice->wasapi.originalPerformanceProfile; + data.noAutoConvertSRC = pDevice->wasapi.noAutoConvertSRC; + data.noDefaultQualitySRC = pDevice->wasapi.noDefaultQualitySRC; + data.noHardwareOffloading = pDevice->wasapi.noHardwareOffloading; + data.loopbackProcessID = pDevice->wasapi.loopbackProcessID; + data.loopbackProcessExclude = pDevice->wasapi.loopbackProcessExclude; + result = ma_device_init_internal__wasapi(pDevice->pContext, deviceType, NULL, &data); + if (result != MA_SUCCESS) { + return result; + } + + /* At this point we have some new objects ready to go. We need to uninitialize the previous ones and then set the new ones. */ + if (deviceType == ma_device_type_capture || deviceType == ma_device_type_loopback) { + pDevice->wasapi.pAudioClientCapture = data.pAudioClient; + pDevice->wasapi.pCaptureClient = data.pCaptureClient; + + pDevice->capture.internalFormat = data.formatOut; + pDevice->capture.internalChannels = data.channelsOut; + pDevice->capture.internalSampleRate = data.sampleRateOut; + MA_COPY_MEMORY(pDevice->capture.internalChannelMap, data.channelMapOut, sizeof(data.channelMapOut)); + pDevice->capture.internalPeriodSizeInFrames = data.periodSizeInFramesOut; + pDevice->capture.internalPeriods = data.periodsOut; + ma_strcpy_s(pDevice->capture.name, sizeof(pDevice->capture.name), data.deviceName); + + ma_IAudioClient_SetEventHandle((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture, (HANDLE)pDevice->wasapi.hEventCapture); + + pDevice->wasapi.periodSizeInFramesCapture = data.periodSizeInFramesOut; + ma_IAudioClient_GetBufferSize((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture, &pDevice->wasapi.actualBufferSizeInFramesCapture); + + /* We must always have a valid ID. */ + ma_strcpy_s_WCHAR(pDevice->capture.id.wasapi, sizeof(pDevice->capture.id.wasapi), data.id.wasapi); + } + + if (deviceType == ma_device_type_playback) { + pDevice->wasapi.pAudioClientPlayback = data.pAudioClient; + pDevice->wasapi.pRenderClient = data.pRenderClient; + + pDevice->playback.internalFormat = data.formatOut; + pDevice->playback.internalChannels = data.channelsOut; + pDevice->playback.internalSampleRate = data.sampleRateOut; + MA_COPY_MEMORY(pDevice->playback.internalChannelMap, data.channelMapOut, sizeof(data.channelMapOut)); + pDevice->playback.internalPeriodSizeInFrames = data.periodSizeInFramesOut; + pDevice->playback.internalPeriods = data.periodsOut; + ma_strcpy_s(pDevice->playback.name, sizeof(pDevice->playback.name), data.deviceName); + + ma_IAudioClient_SetEventHandle((ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback, (HANDLE)pDevice->wasapi.hEventPlayback); + + pDevice->wasapi.periodSizeInFramesPlayback = data.periodSizeInFramesOut; + ma_IAudioClient_GetBufferSize((ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback, &pDevice->wasapi.actualBufferSizeInFramesPlayback); + + /* We must always have a valid ID because rerouting will look at it. */ + ma_strcpy_s_WCHAR(pDevice->playback.id.wasapi, sizeof(pDevice->playback.id.wasapi), data.id.wasapi); + } + + return MA_SUCCESS; +} + +static ma_result ma_device_init__wasapi(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + ma_result result = MA_SUCCESS; + +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + HRESULT hr; + ma_IMMDeviceEnumerator* pDeviceEnumerator; +#endif + + MA_ASSERT(pDevice != NULL); + + MA_ZERO_OBJECT(&pDevice->wasapi); + pDevice->wasapi.usage = pConfig->wasapi.usage; + pDevice->wasapi.noAutoConvertSRC = pConfig->wasapi.noAutoConvertSRC; + pDevice->wasapi.noDefaultQualitySRC = pConfig->wasapi.noDefaultQualitySRC; + pDevice->wasapi.noHardwareOffloading = pConfig->wasapi.noHardwareOffloading; + pDevice->wasapi.loopbackProcessID = pConfig->wasapi.loopbackProcessID; + pDevice->wasapi.loopbackProcessExclude = pConfig->wasapi.loopbackProcessExclude; + + /* Exclusive mode is not allowed with loopback. */ + if (pConfig->deviceType == ma_device_type_loopback && pConfig->playback.shareMode == ma_share_mode_exclusive) { + return MA_INVALID_DEVICE_CONFIG; + } + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex || pConfig->deviceType == ma_device_type_loopback) { + ma_device_init_internal_data__wasapi data; + data.formatIn = pDescriptorCapture->format; + data.channelsIn = pDescriptorCapture->channels; + data.sampleRateIn = pDescriptorCapture->sampleRate; + MA_COPY_MEMORY(data.channelMapIn, pDescriptorCapture->channelMap, sizeof(pDescriptorCapture->channelMap)); + data.periodSizeInFramesIn = pDescriptorCapture->periodSizeInFrames; + data.periodSizeInMillisecondsIn = pDescriptorCapture->periodSizeInMilliseconds; + data.periodsIn = pDescriptorCapture->periodCount; + data.shareMode = pDescriptorCapture->shareMode; + data.performanceProfile = pConfig->performanceProfile; + data.noAutoConvertSRC = pConfig->wasapi.noAutoConvertSRC; + data.noDefaultQualitySRC = pConfig->wasapi.noDefaultQualitySRC; + data.noHardwareOffloading = pConfig->wasapi.noHardwareOffloading; + data.loopbackProcessID = pConfig->wasapi.loopbackProcessID; + data.loopbackProcessExclude = pConfig->wasapi.loopbackProcessExclude; + + result = ma_device_init_internal__wasapi(pDevice->pContext, (pConfig->deviceType == ma_device_type_loopback) ? ma_device_type_loopback : ma_device_type_capture, pDescriptorCapture->pDeviceID, &data); + if (result != MA_SUCCESS) { + return result; + } + + pDevice->wasapi.pAudioClientCapture = data.pAudioClient; + pDevice->wasapi.pCaptureClient = data.pCaptureClient; + pDevice->wasapi.originalPeriodSizeInMilliseconds = pDescriptorCapture->periodSizeInMilliseconds; + pDevice->wasapi.originalPeriodSizeInFrames = pDescriptorCapture->periodSizeInFrames; + pDevice->wasapi.originalPeriods = pDescriptorCapture->periodCount; + pDevice->wasapi.originalPerformanceProfile = pConfig->performanceProfile; + + /* + The event for capture needs to be manual reset for the same reason as playback. We keep the initial state set to unsignaled, + however, because we want to block until we actually have something for the first call to ma_device_read(). + */ + pDevice->wasapi.hEventCapture = (ma_handle)CreateEventA(NULL, FALSE, FALSE, NULL); /* Auto reset, unsignaled by default. */ + if (pDevice->wasapi.hEventCapture == NULL) { + result = ma_result_from_GetLastError(GetLastError()); + + if (pDevice->wasapi.pCaptureClient != NULL) { + ma_IAudioCaptureClient_Release((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient); + pDevice->wasapi.pCaptureClient = NULL; + } + if (pDevice->wasapi.pAudioClientCapture != NULL) { + ma_IAudioClient_Release((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture); + pDevice->wasapi.pAudioClientCapture = NULL; + } + + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to create event for capture."); + return result; + } + ma_IAudioClient_SetEventHandle((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture, (HANDLE)pDevice->wasapi.hEventCapture); + + pDevice->wasapi.periodSizeInFramesCapture = data.periodSizeInFramesOut; + ma_IAudioClient_GetBufferSize((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture, &pDevice->wasapi.actualBufferSizeInFramesCapture); + + /* We must always have a valid ID. */ + ma_strcpy_s_WCHAR(pDevice->capture.id.wasapi, sizeof(pDevice->capture.id.wasapi), data.id.wasapi); + + /* The descriptor needs to be updated with actual values. */ + pDescriptorCapture->format = data.formatOut; + pDescriptorCapture->channels = data.channelsOut; + pDescriptorCapture->sampleRate = data.sampleRateOut; + MA_COPY_MEMORY(pDescriptorCapture->channelMap, data.channelMapOut, sizeof(data.channelMapOut)); + pDescriptorCapture->periodSizeInFrames = data.periodSizeInFramesOut; + pDescriptorCapture->periodCount = data.periodsOut; + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ma_device_init_internal_data__wasapi data; + data.formatIn = pDescriptorPlayback->format; + data.channelsIn = pDescriptorPlayback->channels; + data.sampleRateIn = pDescriptorPlayback->sampleRate; + MA_COPY_MEMORY(data.channelMapIn, pDescriptorPlayback->channelMap, sizeof(pDescriptorPlayback->channelMap)); + data.periodSizeInFramesIn = pDescriptorPlayback->periodSizeInFrames; + data.periodSizeInMillisecondsIn = pDescriptorPlayback->periodSizeInMilliseconds; + data.periodsIn = pDescriptorPlayback->periodCount; + data.shareMode = pDescriptorPlayback->shareMode; + data.performanceProfile = pConfig->performanceProfile; + data.noAutoConvertSRC = pConfig->wasapi.noAutoConvertSRC; + data.noDefaultQualitySRC = pConfig->wasapi.noDefaultQualitySRC; + data.noHardwareOffloading = pConfig->wasapi.noHardwareOffloading; + data.loopbackProcessID = pConfig->wasapi.loopbackProcessID; + data.loopbackProcessExclude = pConfig->wasapi.loopbackProcessExclude; + + result = ma_device_init_internal__wasapi(pDevice->pContext, ma_device_type_playback, pDescriptorPlayback->pDeviceID, &data); + if (result != MA_SUCCESS) { + if (pConfig->deviceType == ma_device_type_duplex) { + if (pDevice->wasapi.pCaptureClient != NULL) { + ma_IAudioCaptureClient_Release((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient); + pDevice->wasapi.pCaptureClient = NULL; + } + if (pDevice->wasapi.pAudioClientCapture != NULL) { + ma_IAudioClient_Release((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture); + pDevice->wasapi.pAudioClientCapture = NULL; + } + + CloseHandle((HANDLE)pDevice->wasapi.hEventCapture); + pDevice->wasapi.hEventCapture = NULL; + } + return result; + } + + pDevice->wasapi.pAudioClientPlayback = data.pAudioClient; + pDevice->wasapi.pRenderClient = data.pRenderClient; + pDevice->wasapi.originalPeriodSizeInMilliseconds = pDescriptorPlayback->periodSizeInMilliseconds; + pDevice->wasapi.originalPeriodSizeInFrames = pDescriptorPlayback->periodSizeInFrames; + pDevice->wasapi.originalPeriods = pDescriptorPlayback->periodCount; + pDevice->wasapi.originalPerformanceProfile = pConfig->performanceProfile; + + /* + The event for playback is needs to be manual reset because we want to explicitly control the fact that it becomes signalled + only after the whole available space has been filled, never before. + + The playback event also needs to be initially set to a signaled state so that the first call to ma_device_write() is able + to get passed WaitForMultipleObjects(). + */ + pDevice->wasapi.hEventPlayback = (ma_handle)CreateEventA(NULL, FALSE, TRUE, NULL); /* Auto reset, signaled by default. */ + if (pDevice->wasapi.hEventPlayback == NULL) { + result = ma_result_from_GetLastError(GetLastError()); + + if (pConfig->deviceType == ma_device_type_duplex) { + if (pDevice->wasapi.pCaptureClient != NULL) { + ma_IAudioCaptureClient_Release((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient); + pDevice->wasapi.pCaptureClient = NULL; + } + if (pDevice->wasapi.pAudioClientCapture != NULL) { + ma_IAudioClient_Release((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture); + pDevice->wasapi.pAudioClientCapture = NULL; + } + + CloseHandle((HANDLE)pDevice->wasapi.hEventCapture); + pDevice->wasapi.hEventCapture = NULL; + } + + if (pDevice->wasapi.pRenderClient != NULL) { + ma_IAudioRenderClient_Release((ma_IAudioRenderClient*)pDevice->wasapi.pRenderClient); + pDevice->wasapi.pRenderClient = NULL; + } + if (pDevice->wasapi.pAudioClientPlayback != NULL) { + ma_IAudioClient_Release((ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback); + pDevice->wasapi.pAudioClientPlayback = NULL; + } + + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to create event for playback."); + return result; + } + ma_IAudioClient_SetEventHandle((ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback, (HANDLE)pDevice->wasapi.hEventPlayback); + + pDevice->wasapi.periodSizeInFramesPlayback = data.periodSizeInFramesOut; + ma_IAudioClient_GetBufferSize((ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback, &pDevice->wasapi.actualBufferSizeInFramesPlayback); + + /* We must always have a valid ID because rerouting will look at it. */ + ma_strcpy_s_WCHAR(pDevice->playback.id.wasapi, sizeof(pDevice->playback.id.wasapi), data.id.wasapi); + + /* The descriptor needs to be updated with actual values. */ + pDescriptorPlayback->format = data.formatOut; + pDescriptorPlayback->channels = data.channelsOut; + pDescriptorPlayback->sampleRate = data.sampleRateOut; + MA_COPY_MEMORY(pDescriptorPlayback->channelMap, data.channelMapOut, sizeof(data.channelMapOut)); + pDescriptorPlayback->periodSizeInFrames = data.periodSizeInFramesOut; + pDescriptorPlayback->periodCount = data.periodsOut; + } + + /* + We need to register a notification client to detect when the device has been disabled, unplugged or re-routed (when the default device changes). When + we are connecting to the default device we want to do automatic stream routing when the device is disabled or unplugged. Otherwise we want to just + stop the device outright and let the application handle it. + */ +#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + if (pConfig->wasapi.noAutoStreamRouting == MA_FALSE) { + if ((pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex || pConfig->deviceType == ma_device_type_loopback) && pConfig->capture.pDeviceID == NULL) { + pDevice->wasapi.allowCaptureAutoStreamRouting = MA_TRUE; + } + if ((pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) && pConfig->playback.pDeviceID == NULL) { + pDevice->wasapi.allowPlaybackAutoStreamRouting = MA_TRUE; + } + } + + ma_mutex_init(&pDevice->wasapi.rerouteLock); + + hr = ma_CoCreateInstance(pDevice->pContext, &MA_CLSID_MMDeviceEnumerator, NULL, CLSCTX_ALL, &MA_IID_IMMDeviceEnumerator, (void**)&pDeviceEnumerator); + if (FAILED(hr)) { + ma_device_uninit__wasapi(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to create device enumerator."); + return ma_result_from_HRESULT(hr); + } + + pDevice->wasapi.notificationClient.lpVtbl = (void*)&g_maNotificationCientVtbl; + pDevice->wasapi.notificationClient.counter = 1; + pDevice->wasapi.notificationClient.pDevice = pDevice; + + hr = pDeviceEnumerator->lpVtbl->RegisterEndpointNotificationCallback(pDeviceEnumerator, &pDevice->wasapi.notificationClient); + if (SUCCEEDED(hr)) { + pDevice->wasapi.pDeviceEnumerator = (ma_ptr)pDeviceEnumerator; + } else { + /* Not the end of the world if we fail to register the notification callback. We just won't support automatic stream routing. */ + ma_IMMDeviceEnumerator_Release(pDeviceEnumerator); + } +#endif + + ma_atomic_bool32_set(&pDevice->wasapi.isStartedCapture, MA_FALSE); + ma_atomic_bool32_set(&pDevice->wasapi.isStartedPlayback, MA_FALSE); + + return MA_SUCCESS; +} + +static ma_result ma_device__get_available_frames__wasapi(ma_device* pDevice, ma_IAudioClient* pAudioClient, ma_uint32* pFrameCount) +{ + ma_uint32 paddingFramesCount; + HRESULT hr; + ma_share_mode shareMode; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pFrameCount != NULL); + + *pFrameCount = 0; + + if ((ma_ptr)pAudioClient != pDevice->wasapi.pAudioClientPlayback && (ma_ptr)pAudioClient != pDevice->wasapi.pAudioClientCapture) { + return MA_INVALID_OPERATION; + } + + /* + I've had a report that GetCurrentPadding() is returning a frame count of 0 which is preventing + higher level function calls from doing anything because it thinks nothing is available. I have + taken a look at the documentation and it looks like this is unnecessary in exclusive mode. + + From Microsoft's documentation: + + For an exclusive-mode rendering or capture stream that was initialized with the + AUDCLNT_STREAMFLAGS_EVENTCALLBACK flag, the client typically has no use for the padding + value reported by GetCurrentPadding. Instead, the client accesses an entire buffer during + each processing pass. + + Considering this, I'm going to skip GetCurrentPadding() for exclusive mode and just report the + entire buffer. This depends on the caller making sure they wait on the event handler. + */ + shareMode = ((ma_ptr)pAudioClient == pDevice->wasapi.pAudioClientPlayback) ? pDevice->playback.shareMode : pDevice->capture.shareMode; + if (shareMode == ma_share_mode_shared) { + /* Shared mode. */ + hr = ma_IAudioClient_GetCurrentPadding(pAudioClient, &paddingFramesCount); + if (FAILED(hr)) { + return ma_result_from_HRESULT(hr); + } + + if ((ma_ptr)pAudioClient == pDevice->wasapi.pAudioClientPlayback) { + *pFrameCount = pDevice->wasapi.actualBufferSizeInFramesPlayback - paddingFramesCount; + } else { + *pFrameCount = paddingFramesCount; + } + } else { + /* Exclusive mode. */ + if ((ma_ptr)pAudioClient == pDevice->wasapi.pAudioClientPlayback) { + *pFrameCount = pDevice->wasapi.actualBufferSizeInFramesPlayback; + } else { + *pFrameCount = pDevice->wasapi.actualBufferSizeInFramesCapture; + } + } + + return MA_SUCCESS; +} + + +static ma_result ma_device_reroute__wasapi(ma_device* pDevice, ma_device_type deviceType) +{ + ma_result result; + + if (deviceType == ma_device_type_duplex) { + return MA_INVALID_ARGS; + } + + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "=== CHANGING DEVICE ===\n"); + + result = ma_device_reinit__wasapi(pDevice, deviceType); + if (result != MA_SUCCESS) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[WASAPI] Reinitializing device after route change failed.\n"); + return result; + } + + ma_device__post_init_setup(pDevice, deviceType); + ma_device__on_notification_rerouted(pDevice); + + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "=== DEVICE CHANGED ===\n"); + + return MA_SUCCESS; +} + +static ma_result ma_device_start__wasapi_nolock(ma_device* pDevice) +{ + HRESULT hr; + + if (pDevice->pContext->wasapi.hAvrt) { + const char* pTaskName = ma_to_usage_string__wasapi(pDevice->wasapi.usage); + if (pTaskName) { + DWORD idx = 0; + pDevice->wasapi.hAvrtHandle = (ma_handle)((MA_PFN_AvSetMmThreadCharacteristicsA)pDevice->pContext->wasapi.AvSetMmThreadCharacteristicsA)(pTaskName, &idx); + } + } + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex || pDevice->type == ma_device_type_loopback) { + hr = ma_IAudioClient_Start((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture); + if (FAILED(hr)) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to start internal capture device. HRESULT = %d.", (int)hr); + return ma_result_from_HRESULT(hr); + } + + ma_atomic_bool32_set(&pDevice->wasapi.isStartedCapture, MA_TRUE); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + hr = ma_IAudioClient_Start((ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback); + if (FAILED(hr)) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to start internal playback device. HRESULT = %d.", (int)hr); + return ma_result_from_HRESULT(hr); + } + + ma_atomic_bool32_set(&pDevice->wasapi.isStartedPlayback, MA_TRUE); + } + + return MA_SUCCESS; +} + +static ma_result ma_device_start__wasapi(ma_device* pDevice) +{ + ma_result result; + + MA_ASSERT(pDevice != NULL); + + /* Wait for any rerouting to finish before attempting to start the device. */ + ma_mutex_lock(&pDevice->wasapi.rerouteLock); + { + result = ma_device_start__wasapi_nolock(pDevice); + } + ma_mutex_unlock(&pDevice->wasapi.rerouteLock); + + return result; +} + +static ma_result ma_device_stop__wasapi_nolock(ma_device* pDevice) +{ + ma_result result; + HRESULT hr; + + MA_ASSERT(pDevice != NULL); + + if (pDevice->wasapi.hAvrtHandle) { + ((MA_PFN_AvRevertMmThreadCharacteristics)pDevice->pContext->wasapi.AvRevertMmThreadcharacteristics)((HANDLE)pDevice->wasapi.hAvrtHandle); + pDevice->wasapi.hAvrtHandle = NULL; + } + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex || pDevice->type == ma_device_type_loopback) { + /* If we have a mapped buffer we need to release it. */ + if (pDevice->wasapi.pMappedBufferCapture != NULL) { + ma_IAudioCaptureClient_ReleaseBuffer((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient, pDevice->wasapi.mappedBufferCaptureCap); + pDevice->wasapi.pMappedBufferCapture = NULL; + pDevice->wasapi.mappedBufferCaptureCap = 0; + pDevice->wasapi.mappedBufferCaptureLen = 0; + } + + hr = ma_IAudioClient_Stop((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to stop internal capture device."); + return ma_result_from_HRESULT(hr); + } + + /* The audio client needs to be reset otherwise restarting will fail. */ + hr = ma_IAudioClient_Reset((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to reset internal capture device."); + return ma_result_from_HRESULT(hr); + } + + ma_atomic_bool32_set(&pDevice->wasapi.isStartedCapture, MA_FALSE); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + if (pDevice->wasapi.pMappedBufferPlayback != NULL) { + ma_silence_pcm_frames( + ma_offset_pcm_frames_ptr(pDevice->wasapi.pMappedBufferPlayback, pDevice->wasapi.mappedBufferPlaybackLen, pDevice->playback.internalFormat, pDevice->playback.internalChannels), + pDevice->wasapi.mappedBufferPlaybackCap - pDevice->wasapi.mappedBufferPlaybackLen, + pDevice->playback.internalFormat, pDevice->playback.internalChannels + ); + ma_IAudioRenderClient_ReleaseBuffer((ma_IAudioRenderClient*)pDevice->wasapi.pRenderClient, pDevice->wasapi.mappedBufferPlaybackCap, 0); + pDevice->wasapi.pMappedBufferPlayback = NULL; + pDevice->wasapi.mappedBufferPlaybackCap = 0; + pDevice->wasapi.mappedBufferPlaybackLen = 0; + } + + /* + The buffer needs to be drained before stopping the device. Not doing this will result in the last few frames not getting output to + the speakers. This is a problem for very short sounds because it'll result in a significant portion of it not getting played. + */ + if (ma_atomic_bool32_get(&pDevice->wasapi.isStartedPlayback)) { + /* We need to make sure we put a timeout here or else we'll risk getting stuck in a deadlock in some cases. */ + DWORD waitTime = (pDevice->wasapi.actualBufferSizeInFramesPlayback * 1000) / pDevice->playback.internalSampleRate; + + if (pDevice->playback.shareMode == ma_share_mode_exclusive) { + WaitForSingleObject((HANDLE)pDevice->wasapi.hEventPlayback, waitTime); + } else { + ma_uint32 prevFramesAvailablePlayback = (ma_uint32)-1; + ma_uint32 framesAvailablePlayback; + for (;;) { + result = ma_device__get_available_frames__wasapi(pDevice, (ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback, &framesAvailablePlayback); + if (result != MA_SUCCESS) { + break; + } + + if (framesAvailablePlayback >= pDevice->wasapi.actualBufferSizeInFramesPlayback) { + break; + } + + /* + Just a safety check to avoid an infinite loop. If this iteration results in a situation where the number of available frames + has not changed, get out of the loop. I don't think this should ever happen, but I think it's nice to have just in case. + */ + if (framesAvailablePlayback == prevFramesAvailablePlayback) { + break; + } + prevFramesAvailablePlayback = framesAvailablePlayback; + + ResetEvent((HANDLE)pDevice->wasapi.hEventPlayback); /* Manual reset. */ + WaitForSingleObject((HANDLE)pDevice->wasapi.hEventPlayback, waitTime); + } + } + } + + hr = ma_IAudioClient_Stop((ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to stop internal playback device."); + return ma_result_from_HRESULT(hr); + } + + /* The audio client needs to be reset otherwise restarting will fail. */ + { + ma_int32 retries = 5; + + while ((hr = ma_IAudioClient_Reset((ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback)) == MA_AUDCLNT_E_BUFFER_OPERATION_PENDING && retries > 0) { + ma_sleep(10); + retries -= 1; + } + } + + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to reset internal playback device."); + return ma_result_from_HRESULT(hr); + } + + ma_atomic_bool32_set(&pDevice->wasapi.isStartedPlayback, MA_FALSE); + } + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__wasapi(ma_device* pDevice) +{ + ma_result result; + + MA_ASSERT(pDevice != NULL); + + /* Wait for any rerouting to finish before attempting to stop the device. */ + ma_mutex_lock(&pDevice->wasapi.rerouteLock); + { + result = ma_device_stop__wasapi_nolock(pDevice); + } + ma_mutex_unlock(&pDevice->wasapi.rerouteLock); + + return result; +} + + +#ifndef MA_WASAPI_WAIT_TIMEOUT_MILLISECONDS +#define MA_WASAPI_WAIT_TIMEOUT_MILLISECONDS 5000 +#endif + +static ma_result ma_device_read__wasapi(ma_device* pDevice, void* pFrames, ma_uint32 frameCount, ma_uint32* pFramesRead) +{ + ma_result result = MA_SUCCESS; + ma_uint32 totalFramesProcessed = 0; + + /* + When reading, we need to get a buffer and process all of it before releasing it. Because the + frame count (frameCount) can be different to the size of the buffer, we'll need to cache the + pointer to the buffer. + */ + + /* Keep running until we've processed the requested number of frames. */ + while (ma_device_get_state(pDevice) == ma_device_state_started && totalFramesProcessed < frameCount) { + ma_uint32 framesRemaining = frameCount - totalFramesProcessed; + + /* If we have a mapped data buffer, consume that first. */ + if (pDevice->wasapi.pMappedBufferCapture != NULL) { + /* We have a cached data pointer so consume that before grabbing another one from WASAPI. */ + ma_uint32 framesToProcessNow = framesRemaining; + if (framesToProcessNow > pDevice->wasapi.mappedBufferCaptureLen) { + framesToProcessNow = pDevice->wasapi.mappedBufferCaptureLen; + } + + /* Now just copy the data over to the output buffer. */ + ma_copy_pcm_frames( + ma_offset_pcm_frames_ptr(pFrames, totalFramesProcessed, pDevice->capture.internalFormat, pDevice->capture.internalChannels), + ma_offset_pcm_frames_const_ptr(pDevice->wasapi.pMappedBufferCapture, pDevice->wasapi.mappedBufferCaptureCap - pDevice->wasapi.mappedBufferCaptureLen, pDevice->capture.internalFormat, pDevice->capture.internalChannels), + framesToProcessNow, + pDevice->capture.internalFormat, pDevice->capture.internalChannels + ); + + totalFramesProcessed += framesToProcessNow; + pDevice->wasapi.mappedBufferCaptureLen -= framesToProcessNow; + + /* If the data buffer has been fully consumed we need to release it. */ + if (pDevice->wasapi.mappedBufferCaptureLen == 0) { + ma_IAudioCaptureClient_ReleaseBuffer((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient, pDevice->wasapi.mappedBufferCaptureCap); + pDevice->wasapi.pMappedBufferCapture = NULL; + pDevice->wasapi.mappedBufferCaptureCap = 0; + } + } else { + /* We don't have any cached data pointer, so grab another one. */ + HRESULT hr; + DWORD flags = 0; + + /* First just ask WASAPI for a data buffer. If it's not available, we'll wait for more. */ + hr = ma_IAudioCaptureClient_GetBuffer((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient, (BYTE**)&pDevice->wasapi.pMappedBufferCapture, &pDevice->wasapi.mappedBufferCaptureCap, &flags, NULL, NULL); + if (hr == S_OK) { + /* We got a data buffer. Continue to the next loop iteration which will then read from the mapped pointer. */ + pDevice->wasapi.mappedBufferCaptureLen = pDevice->wasapi.mappedBufferCaptureCap; + + /* + There have been reports that indicate that at times the AUDCLNT_BUFFERFLAGS_DATA_DISCONTINUITY is reported for every + call to IAudioCaptureClient_GetBuffer() above which results in spamming of the debug messages below. To partially + work around this, I'm only outputting these messages when MA_DEBUG_OUTPUT is explicitly defined. The better solution + would be to figure out why the flag is always getting reported. + */ + #if defined(MA_DEBUG_OUTPUT) + { + if (flags != 0) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[WASAPI] Capture Flags: %ld\n", flags); + + if ((flags & MA_AUDCLNT_BUFFERFLAGS_DATA_DISCONTINUITY) != 0) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[WASAPI] Data discontinuity (possible overrun). Attempting recovery. mappedBufferCaptureCap=%d\n", pDevice->wasapi.mappedBufferCaptureCap); + } + } + } + #endif + + /* Overrun detection. */ + if ((flags & MA_AUDCLNT_BUFFERFLAGS_DATA_DISCONTINUITY) != 0) { + /* Glitched. Probably due to an overrun. */ + + /* + If we got an overrun it probably means we're straddling the end of the buffer. In normal capture + mode this is the fault of the client application because they're responsible for ensuring data is + processed fast enough. In duplex mode, however, the processing of audio is tied to the playback + device, so this can possibly be the result of a timing de-sync. + + In capture mode we're not going to do any kind of recovery because the real fix is for the client + application to process faster. In duplex mode, we'll treat this as a desync and reset the buffers + to prevent a never-ending sequence of glitches due to straddling the end of the buffer. + */ + if (pDevice->type == ma_device_type_duplex) { + /* + Experiment: + + If we empty out the *entire* buffer we may end up putting ourselves into an underrun position + which isn't really any better than the overrun we're probably in right now. Instead we'll just + empty out about half. + */ + ma_uint32 i; + ma_uint32 periodCount = (pDevice->wasapi.actualBufferSizeInFramesCapture / pDevice->wasapi.periodSizeInFramesCapture); + ma_uint32 iterationCount = periodCount / 2; + if ((periodCount % 2) > 0) { + iterationCount += 1; + } + + for (i = 0; i < iterationCount; i += 1) { + hr = ma_IAudioCaptureClient_ReleaseBuffer((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient, pDevice->wasapi.mappedBufferCaptureCap); + if (FAILED(hr)) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[WASAPI] Data discontinuity recovery: IAudioCaptureClient_ReleaseBuffer() failed with %ld.\n", hr); + break; + } + + flags = 0; + hr = ma_IAudioCaptureClient_GetBuffer((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient, (BYTE**)&pDevice->wasapi.pMappedBufferCapture, &pDevice->wasapi.mappedBufferCaptureCap, &flags, NULL, NULL); + if (hr == MA_AUDCLNT_S_BUFFER_EMPTY || FAILED(hr)) { + /* + The buffer has been completely emptied or an error occurred. In this case we'll need + to reset the state of the mapped buffer which will trigger the next iteration to get + a fresh buffer from WASAPI. + */ + pDevice->wasapi.pMappedBufferCapture = NULL; + pDevice->wasapi.mappedBufferCaptureCap = 0; + pDevice->wasapi.mappedBufferCaptureLen = 0; + + if (hr == MA_AUDCLNT_S_BUFFER_EMPTY) { + if ((flags & MA_AUDCLNT_BUFFERFLAGS_DATA_DISCONTINUITY) != 0) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[WASAPI] Data discontinuity recovery: Buffer emptied, and data discontinuity still reported.\n"); + } else { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[WASAPI] Data discontinuity recovery: Buffer emptied.\n"); + } + } + + if (FAILED(hr)) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[WASAPI] Data discontinuity recovery: IAudioCaptureClient_GetBuffer() failed with %ld.\n", hr); + } + + break; + } + } + + /* If at this point we have a valid buffer mapped, make sure the buffer length is set appropriately. */ + if (pDevice->wasapi.pMappedBufferCapture != NULL) { + pDevice->wasapi.mappedBufferCaptureLen = pDevice->wasapi.mappedBufferCaptureCap; + } + } + } + + continue; + } else { + if (hr == MA_AUDCLNT_S_BUFFER_EMPTY || hr == MA_AUDCLNT_E_BUFFER_ERROR) { + /* + No data is available. We need to wait for more. There's two situations to consider + here. The first is normal capture mode. If this times out it probably means the + microphone isn't delivering data for whatever reason. In this case we'll just + abort the read and return whatever we were able to get. The other situations is + loopback mode, in which case a timeout probably just means the nothing is playing + through the speakers. + */ + + /* Experiment: Use a shorter timeout for loopback mode. */ + DWORD timeoutInMilliseconds = MA_WASAPI_WAIT_TIMEOUT_MILLISECONDS; + if (pDevice->type == ma_device_type_loopback) { + timeoutInMilliseconds = 10; + } + + if (WaitForSingleObject((HANDLE)pDevice->wasapi.hEventCapture, timeoutInMilliseconds) != WAIT_OBJECT_0) { + if (pDevice->type == ma_device_type_loopback) { + continue; /* Keep waiting in loopback mode. */ + } else { + result = MA_ERROR; + break; /* Wait failed. */ + } + } + + /* At this point we should be able to loop back to the start of the loop and try retrieving a data buffer again. */ + } else { + /* An error occurred and we need to abort. */ + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to retrieve internal buffer from capture device in preparation for reading from the device. HRESULT = %d. Stopping device.\n", (int)hr); + result = ma_result_from_HRESULT(hr); + break; + } + } + } + } + + /* + If we were unable to process the entire requested frame count, but we still have a mapped buffer, + there's a good chance either an error occurred or the device was stopped mid-read. In this case + we'll need to make sure the buffer is released. + */ + if (totalFramesProcessed < frameCount && pDevice->wasapi.pMappedBufferCapture != NULL) { + ma_IAudioCaptureClient_ReleaseBuffer((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient, pDevice->wasapi.mappedBufferCaptureCap); + pDevice->wasapi.pMappedBufferCapture = NULL; + pDevice->wasapi.mappedBufferCaptureCap = 0; + pDevice->wasapi.mappedBufferCaptureLen = 0; + } + + if (pFramesRead != NULL) { + *pFramesRead = totalFramesProcessed; + } + + return result; +} + +static ma_result ma_device_write__wasapi(ma_device* pDevice, const void* pFrames, ma_uint32 frameCount, ma_uint32* pFramesWritten) +{ + ma_result result = MA_SUCCESS; + ma_uint32 totalFramesProcessed = 0; + + /* Keep writing to the device until it's stopped or we've consumed all of our input. */ + while (ma_device_get_state(pDevice) == ma_device_state_started && totalFramesProcessed < frameCount) { + ma_uint32 framesRemaining = frameCount - totalFramesProcessed; + + /* + We're going to do this in a similar way to capture. We'll first check if the cached data pointer + is valid, and if so, read from that. Otherwise We will call IAudioRenderClient_GetBuffer() with + a requested buffer size equal to our actual period size. If it returns AUDCLNT_E_BUFFER_TOO_LARGE + it means we need to wait for some data to become available. + */ + if (pDevice->wasapi.pMappedBufferPlayback != NULL) { + /* We still have some space available in the mapped data buffer. Write to it. */ + ma_uint32 framesToProcessNow = framesRemaining; + if (framesToProcessNow > (pDevice->wasapi.mappedBufferPlaybackCap - pDevice->wasapi.mappedBufferPlaybackLen)) { + framesToProcessNow = (pDevice->wasapi.mappedBufferPlaybackCap - pDevice->wasapi.mappedBufferPlaybackLen); + } + + /* Now just copy the data over to the output buffer. */ + ma_copy_pcm_frames( + ma_offset_pcm_frames_ptr(pDevice->wasapi.pMappedBufferPlayback, pDevice->wasapi.mappedBufferPlaybackLen, pDevice->playback.internalFormat, pDevice->playback.internalChannels), + ma_offset_pcm_frames_const_ptr(pFrames, totalFramesProcessed, pDevice->playback.internalFormat, pDevice->playback.internalChannels), + framesToProcessNow, + pDevice->playback.internalFormat, pDevice->playback.internalChannels + ); + + totalFramesProcessed += framesToProcessNow; + pDevice->wasapi.mappedBufferPlaybackLen += framesToProcessNow; + + /* If the data buffer has been fully consumed we need to release it. */ + if (pDevice->wasapi.mappedBufferPlaybackLen == pDevice->wasapi.mappedBufferPlaybackCap) { + ma_IAudioRenderClient_ReleaseBuffer((ma_IAudioRenderClient*)pDevice->wasapi.pRenderClient, pDevice->wasapi.mappedBufferPlaybackCap, 0); + pDevice->wasapi.pMappedBufferPlayback = NULL; + pDevice->wasapi.mappedBufferPlaybackCap = 0; + pDevice->wasapi.mappedBufferPlaybackLen = 0; + + /* + In exclusive mode we need to wait here. Exclusive mode is weird because GetBuffer() never + seems to return AUDCLNT_E_BUFFER_TOO_LARGE, which is what we normally use to determine + whether or not we need to wait for more data. + */ + if (pDevice->playback.shareMode == ma_share_mode_exclusive) { + if (WaitForSingleObject((HANDLE)pDevice->wasapi.hEventPlayback, MA_WASAPI_WAIT_TIMEOUT_MILLISECONDS) != WAIT_OBJECT_0) { + result = MA_ERROR; + break; /* Wait failed. Probably timed out. */ + } + } + } + } else { + /* We don't have a mapped data buffer so we'll need to get one. */ + HRESULT hr; + ma_uint32 bufferSizeInFrames; + + /* Special rules for exclusive mode. */ + if (pDevice->playback.shareMode == ma_share_mode_exclusive) { + bufferSizeInFrames = pDevice->wasapi.actualBufferSizeInFramesPlayback; + } else { + bufferSizeInFrames = pDevice->wasapi.periodSizeInFramesPlayback; + } + + hr = ma_IAudioRenderClient_GetBuffer((ma_IAudioRenderClient*)pDevice->wasapi.pRenderClient, bufferSizeInFrames, (BYTE**)&pDevice->wasapi.pMappedBufferPlayback); + if (hr == S_OK) { + /* We have data available. */ + pDevice->wasapi.mappedBufferPlaybackCap = bufferSizeInFrames; + pDevice->wasapi.mappedBufferPlaybackLen = 0; + } else { + if (hr == MA_AUDCLNT_E_BUFFER_TOO_LARGE || hr == MA_AUDCLNT_E_BUFFER_ERROR) { + /* Not enough data available. We need to wait for more. */ + if (WaitForSingleObject((HANDLE)pDevice->wasapi.hEventPlayback, MA_WASAPI_WAIT_TIMEOUT_MILLISECONDS) != WAIT_OBJECT_0) { + result = MA_ERROR; + break; /* Wait failed. Probably timed out. */ + } + } else { + /* Some error occurred. We'll need to abort. */ + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to retrieve internal buffer from playback device in preparation for writing to the device. HRESULT = %d. Stopping device.\n", (int)hr); + result = ma_result_from_HRESULT(hr); + break; + } + } + } + } + + if (pFramesWritten != NULL) { + *pFramesWritten = totalFramesProcessed; + } + + return result; +} + +static ma_result ma_device_data_loop_wakeup__wasapi(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex || pDevice->type == ma_device_type_loopback) { + SetEvent((HANDLE)pDevice->wasapi.hEventCapture); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + SetEvent((HANDLE)pDevice->wasapi.hEventPlayback); + } + + return MA_SUCCESS; +} + + +static ma_result ma_context_uninit__wasapi(ma_context* pContext) +{ + ma_context_command__wasapi cmd = ma_context_init_command__wasapi(MA_CONTEXT_COMMAND_QUIT__WASAPI); + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_wasapi); + + ma_context_post_command__wasapi(pContext, &cmd); + ma_thread_wait(&pContext->wasapi.commandThread); + + if (pContext->wasapi.hAvrt) { + ma_dlclose(ma_context_get_log(pContext), pContext->wasapi.hAvrt); + pContext->wasapi.hAvrt = NULL; + } + + #if defined(MA_WIN32_UWP) + { + if (pContext->wasapi.hMMDevapi) { + ma_dlclose(ma_context_get_log(pContext), pContext->wasapi.hMMDevapi); + pContext->wasapi.hMMDevapi = NULL; + } + } + #endif + + /* Only after the thread has been terminated can we uninitialize the sync objects for the command thread. */ + ma_semaphore_uninit(&pContext->wasapi.commandSem); + ma_mutex_uninit(&pContext->wasapi.commandLock); + + return MA_SUCCESS; +} + +static ma_result ma_context_init__wasapi(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ + ma_result result = MA_SUCCESS; + + MA_ASSERT(pContext != NULL); + + (void)pConfig; + +#ifdef MA_WIN32_DESKTOP + /* + WASAPI is only supported in Vista SP1 and newer. The reason for SP1 and not the base version of Vista is that event-driven + exclusive mode does not work until SP1. + + Unfortunately older compilers don't define these functions so we need to dynamically load them in order to avoid a link error. + */ + { + ma_OSVERSIONINFOEXW osvi; + ma_handle kernel32DLL; + ma_PFNVerifyVersionInfoW _VerifyVersionInfoW; + ma_PFNVerSetConditionMask _VerSetConditionMask; + + kernel32DLL = ma_dlopen(ma_context_get_log(pContext), "kernel32.dll"); + if (kernel32DLL == NULL) { + return MA_NO_BACKEND; + } + + _VerifyVersionInfoW = (ma_PFNVerifyVersionInfoW )ma_dlsym(ma_context_get_log(pContext), kernel32DLL, "VerifyVersionInfoW"); + _VerSetConditionMask = (ma_PFNVerSetConditionMask)ma_dlsym(ma_context_get_log(pContext), kernel32DLL, "VerSetConditionMask"); + if (_VerifyVersionInfoW == NULL || _VerSetConditionMask == NULL) { + ma_dlclose(ma_context_get_log(pContext), kernel32DLL); + return MA_NO_BACKEND; + } + + MA_ZERO_OBJECT(&osvi); + osvi.dwOSVersionInfoSize = sizeof(osvi); + osvi.dwMajorVersion = ((MA_WIN32_WINNT_VISTA >> 8) & 0xFF); + osvi.dwMinorVersion = ((MA_WIN32_WINNT_VISTA >> 0) & 0xFF); + osvi.wServicePackMajor = 1; + if (_VerifyVersionInfoW(&osvi, MA_VER_MAJORVERSION | MA_VER_MINORVERSION | MA_VER_SERVICEPACKMAJOR, _VerSetConditionMask(_VerSetConditionMask(_VerSetConditionMask(0, MA_VER_MAJORVERSION, MA_VER_GREATER_EQUAL), MA_VER_MINORVERSION, MA_VER_GREATER_EQUAL), MA_VER_SERVICEPACKMAJOR, MA_VER_GREATER_EQUAL))) { + result = MA_SUCCESS; + } else { + result = MA_NO_BACKEND; + } + + ma_dlclose(ma_context_get_log(pContext), kernel32DLL); + } +#endif + + if (result != MA_SUCCESS) { + return result; + } + + MA_ZERO_OBJECT(&pContext->wasapi); + + + #if defined(MA_WIN32_UWP) + { + /* Link to mmdevapi so we can get access to ActivateAudioInterfaceAsync(). */ + pContext->wasapi.hMMDevapi = ma_dlopen(ma_context_get_log(pContext), "mmdevapi.dll"); + if (pContext->wasapi.hMMDevapi) { + pContext->wasapi.ActivateAudioInterfaceAsync = ma_dlsym(ma_context_get_log(pContext), pContext->wasapi.hMMDevapi, "ActivateAudioInterfaceAsync"); + if (pContext->wasapi.ActivateAudioInterfaceAsync == NULL) { + ma_dlclose(ma_context_get_log(pContext), pContext->wasapi.hMMDevapi); + return MA_NO_BACKEND; /* ActivateAudioInterfaceAsync() could not be loaded. */ + } + } else { + return MA_NO_BACKEND; /* Failed to load mmdevapi.dll which is required for ActivateAudioInterfaceAsync() */ + } + } + #endif + + /* Optionally use the Avrt API to specify the audio thread's latency sensitivity requirements */ + pContext->wasapi.hAvrt = ma_dlopen(ma_context_get_log(pContext), "avrt.dll"); + if (pContext->wasapi.hAvrt) { + pContext->wasapi.AvSetMmThreadCharacteristicsA = ma_dlsym(ma_context_get_log(pContext), pContext->wasapi.hAvrt, "AvSetMmThreadCharacteristicsA"); + pContext->wasapi.AvRevertMmThreadcharacteristics = ma_dlsym(ma_context_get_log(pContext), pContext->wasapi.hAvrt, "AvRevertMmThreadCharacteristics"); + + /* If either function could not be found, disable use of avrt entirely. */ + if (!pContext->wasapi.AvSetMmThreadCharacteristicsA || !pContext->wasapi.AvRevertMmThreadcharacteristics) { + pContext->wasapi.AvSetMmThreadCharacteristicsA = NULL; + pContext->wasapi.AvRevertMmThreadcharacteristics = NULL; + ma_dlclose(ma_context_get_log(pContext), pContext->wasapi.hAvrt); + pContext->wasapi.hAvrt = NULL; + } + } + + + /* + Annoyingly, WASAPI does not allow you to release an IAudioClient object from a different thread + than the one that retrieved it with GetService(). This can result in a deadlock in two + situations: + + 1) When calling ma_device_uninit() from a different thread to ma_device_init(); and + 2) When uninitializing and reinitializing the internal IAudioClient object in response to + automatic stream routing. + + We could define ma_device_uninit() such that it must be called on the same thread as + ma_device_init(). We could also just not release the IAudioClient when performing automatic + stream routing to avoid the deadlock. Neither of these are acceptable solutions in my view so + we're going to have to work around this with a worker thread. This is not ideal, but I can't + think of a better way to do this. + + More information about this can be found here: + + https://docs.microsoft.com/en-us/windows/win32/api/audioclient/nn-audioclient-iaudiorenderclient + + Note this section: + + When releasing an IAudioRenderClient interface instance, the client must call the interface's + Release method from the same thread as the call to IAudioClient::GetService that created the + object. + */ + { + result = ma_mutex_init(&pContext->wasapi.commandLock); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_semaphore_init(0, &pContext->wasapi.commandSem); + if (result != MA_SUCCESS) { + ma_mutex_uninit(&pContext->wasapi.commandLock); + return result; + } + + result = ma_thread_create(&pContext->wasapi.commandThread, ma_thread_priority_normal, 0, ma_context_command_thread__wasapi, pContext, &pContext->allocationCallbacks); + if (result != MA_SUCCESS) { + ma_semaphore_uninit(&pContext->wasapi.commandSem); + ma_mutex_uninit(&pContext->wasapi.commandLock); + return result; + } + } + + + pCallbacks->onContextInit = ma_context_init__wasapi; + pCallbacks->onContextUninit = ma_context_uninit__wasapi; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__wasapi; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__wasapi; + pCallbacks->onDeviceInit = ma_device_init__wasapi; + pCallbacks->onDeviceUninit = ma_device_uninit__wasapi; + pCallbacks->onDeviceStart = ma_device_start__wasapi; + pCallbacks->onDeviceStop = ma_device_stop__wasapi; + pCallbacks->onDeviceRead = ma_device_read__wasapi; + pCallbacks->onDeviceWrite = ma_device_write__wasapi; + pCallbacks->onDeviceDataLoop = NULL; + pCallbacks->onDeviceDataLoopWakeup = ma_device_data_loop_wakeup__wasapi; + + return MA_SUCCESS; +} +#endif + +/****************************************************************************** + +DirectSound Backend + +******************************************************************************/ +#ifdef MA_HAS_DSOUND +/*#include */ + +/*static const GUID MA_GUID_IID_DirectSoundNotify = {0xb0210783, 0x89cd, 0x11d0, {0xaf, 0x08, 0x00, 0xa0, 0xc9, 0x25, 0xcd, 0x16}};*/ + +/* miniaudio only uses priority or exclusive modes. */ +#define MA_DSSCL_NORMAL 1 +#define MA_DSSCL_PRIORITY 2 +#define MA_DSSCL_EXCLUSIVE 3 +#define MA_DSSCL_WRITEPRIMARY 4 + +#define MA_DSCAPS_PRIMARYMONO 0x00000001 +#define MA_DSCAPS_PRIMARYSTEREO 0x00000002 +#define MA_DSCAPS_PRIMARY8BIT 0x00000004 +#define MA_DSCAPS_PRIMARY16BIT 0x00000008 +#define MA_DSCAPS_CONTINUOUSRATE 0x00000010 +#define MA_DSCAPS_EMULDRIVER 0x00000020 +#define MA_DSCAPS_CERTIFIED 0x00000040 +#define MA_DSCAPS_SECONDARYMONO 0x00000100 +#define MA_DSCAPS_SECONDARYSTEREO 0x00000200 +#define MA_DSCAPS_SECONDARY8BIT 0x00000400 +#define MA_DSCAPS_SECONDARY16BIT 0x00000800 + +#define MA_DSBCAPS_PRIMARYBUFFER 0x00000001 +#define MA_DSBCAPS_STATIC 0x00000002 +#define MA_DSBCAPS_LOCHARDWARE 0x00000004 +#define MA_DSBCAPS_LOCSOFTWARE 0x00000008 +#define MA_DSBCAPS_CTRL3D 0x00000010 +#define MA_DSBCAPS_CTRLFREQUENCY 0x00000020 +#define MA_DSBCAPS_CTRLPAN 0x00000040 +#define MA_DSBCAPS_CTRLVOLUME 0x00000080 +#define MA_DSBCAPS_CTRLPOSITIONNOTIFY 0x00000100 +#define MA_DSBCAPS_CTRLFX 0x00000200 +#define MA_DSBCAPS_STICKYFOCUS 0x00004000 +#define MA_DSBCAPS_GLOBALFOCUS 0x00008000 +#define MA_DSBCAPS_GETCURRENTPOSITION2 0x00010000 +#define MA_DSBCAPS_MUTE3DATMAXDISTANCE 0x00020000 +#define MA_DSBCAPS_LOCDEFER 0x00040000 +#define MA_DSBCAPS_TRUEPLAYPOSITION 0x00080000 + +#define MA_DSBPLAY_LOOPING 0x00000001 +#define MA_DSBPLAY_LOCHARDWARE 0x00000002 +#define MA_DSBPLAY_LOCSOFTWARE 0x00000004 +#define MA_DSBPLAY_TERMINATEBY_TIME 0x00000008 +#define MA_DSBPLAY_TERMINATEBY_DISTANCE 0x00000010 +#define MA_DSBPLAY_TERMINATEBY_PRIORITY 0x00000020 + +#define MA_DSBSTATUS_PLAYING 0x00000001 +#define MA_DSBSTATUS_BUFFERLOST 0x00000002 +#define MA_DSBSTATUS_LOOPING 0x00000004 +#define MA_DSBSTATUS_LOCHARDWARE 0x00000008 +#define MA_DSBSTATUS_LOCSOFTWARE 0x00000010 +#define MA_DSBSTATUS_TERMINATED 0x00000020 + +#define MA_DSCBSTART_LOOPING 0x00000001 + +typedef struct +{ + DWORD dwSize; + DWORD dwFlags; + DWORD dwBufferBytes; + DWORD dwReserved; + MA_WAVEFORMATEX* lpwfxFormat; + GUID guid3DAlgorithm; +} MA_DSBUFFERDESC; + +typedef struct +{ + DWORD dwSize; + DWORD dwFlags; + DWORD dwBufferBytes; + DWORD dwReserved; + MA_WAVEFORMATEX* lpwfxFormat; + DWORD dwFXCount; + void* lpDSCFXDesc; /* <-- miniaudio doesn't use this, so set to void*. */ +} MA_DSCBUFFERDESC; + +typedef struct +{ + DWORD dwSize; + DWORD dwFlags; + DWORD dwMinSecondarySampleRate; + DWORD dwMaxSecondarySampleRate; + DWORD dwPrimaryBuffers; + DWORD dwMaxHwMixingAllBuffers; + DWORD dwMaxHwMixingStaticBuffers; + DWORD dwMaxHwMixingStreamingBuffers; + DWORD dwFreeHwMixingAllBuffers; + DWORD dwFreeHwMixingStaticBuffers; + DWORD dwFreeHwMixingStreamingBuffers; + DWORD dwMaxHw3DAllBuffers; + DWORD dwMaxHw3DStaticBuffers; + DWORD dwMaxHw3DStreamingBuffers; + DWORD dwFreeHw3DAllBuffers; + DWORD dwFreeHw3DStaticBuffers; + DWORD dwFreeHw3DStreamingBuffers; + DWORD dwTotalHwMemBytes; + DWORD dwFreeHwMemBytes; + DWORD dwMaxContigFreeHwMemBytes; + DWORD dwUnlockTransferRateHwBuffers; + DWORD dwPlayCpuOverheadSwBuffers; + DWORD dwReserved1; + DWORD dwReserved2; +} MA_DSCAPS; + +typedef struct +{ + DWORD dwSize; + DWORD dwFlags; + DWORD dwBufferBytes; + DWORD dwUnlockTransferRate; + DWORD dwPlayCpuOverhead; +} MA_DSBCAPS; + +typedef struct +{ + DWORD dwSize; + DWORD dwFlags; + DWORD dwFormats; + DWORD dwChannels; +} MA_DSCCAPS; + +typedef struct +{ + DWORD dwSize; + DWORD dwFlags; + DWORD dwBufferBytes; + DWORD dwReserved; +} MA_DSCBCAPS; + +typedef struct +{ + DWORD dwOffset; + HANDLE hEventNotify; +} MA_DSBPOSITIONNOTIFY; + +typedef struct ma_IDirectSound ma_IDirectSound; +typedef struct ma_IDirectSoundBuffer ma_IDirectSoundBuffer; +typedef struct ma_IDirectSoundCapture ma_IDirectSoundCapture; +typedef struct ma_IDirectSoundCaptureBuffer ma_IDirectSoundCaptureBuffer; +typedef struct ma_IDirectSoundNotify ma_IDirectSoundNotify; + + +/* +COM objects. The way these work is that you have a vtable (a list of function pointers, kind of +like how C++ works internally), and then you have a structure with a single member, which is a +pointer to the vtable. The vtable is where the methods of the object are defined. Methods need +to be in a specific order, and parent classes need to have their methods declared first. +*/ + +/* IDirectSound */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IDirectSound* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IDirectSound* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IDirectSound* pThis); + + /* IDirectSound */ + HRESULT (STDMETHODCALLTYPE * CreateSoundBuffer) (ma_IDirectSound* pThis, const MA_DSBUFFERDESC* pDSBufferDesc, ma_IDirectSoundBuffer** ppDSBuffer, void* pUnkOuter); + HRESULT (STDMETHODCALLTYPE * GetCaps) (ma_IDirectSound* pThis, MA_DSCAPS* pDSCaps); + HRESULT (STDMETHODCALLTYPE * DuplicateSoundBuffer)(ma_IDirectSound* pThis, ma_IDirectSoundBuffer* pDSBufferOriginal, ma_IDirectSoundBuffer** ppDSBufferDuplicate); + HRESULT (STDMETHODCALLTYPE * SetCooperativeLevel) (ma_IDirectSound* pThis, HWND hwnd, DWORD dwLevel); + HRESULT (STDMETHODCALLTYPE * Compact) (ma_IDirectSound* pThis); + HRESULT (STDMETHODCALLTYPE * GetSpeakerConfig) (ma_IDirectSound* pThis, DWORD* pSpeakerConfig); + HRESULT (STDMETHODCALLTYPE * SetSpeakerConfig) (ma_IDirectSound* pThis, DWORD dwSpeakerConfig); + HRESULT (STDMETHODCALLTYPE * Initialize) (ma_IDirectSound* pThis, const GUID* pGuidDevice); +} ma_IDirectSoundVtbl; +struct ma_IDirectSound +{ + ma_IDirectSoundVtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IDirectSound_QueryInterface(ma_IDirectSound* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IDirectSound_AddRef(ma_IDirectSound* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IDirectSound_Release(ma_IDirectSound* pThis) { return pThis->lpVtbl->Release(pThis); } +static MA_INLINE HRESULT ma_IDirectSound_CreateSoundBuffer(ma_IDirectSound* pThis, const MA_DSBUFFERDESC* pDSBufferDesc, ma_IDirectSoundBuffer** ppDSBuffer, void* pUnkOuter) { return pThis->lpVtbl->CreateSoundBuffer(pThis, pDSBufferDesc, ppDSBuffer, pUnkOuter); } +static MA_INLINE HRESULT ma_IDirectSound_GetCaps(ma_IDirectSound* pThis, MA_DSCAPS* pDSCaps) { return pThis->lpVtbl->GetCaps(pThis, pDSCaps); } +static MA_INLINE HRESULT ma_IDirectSound_DuplicateSoundBuffer(ma_IDirectSound* pThis, ma_IDirectSoundBuffer* pDSBufferOriginal, ma_IDirectSoundBuffer** ppDSBufferDuplicate) { return pThis->lpVtbl->DuplicateSoundBuffer(pThis, pDSBufferOriginal, ppDSBufferDuplicate); } +static MA_INLINE HRESULT ma_IDirectSound_SetCooperativeLevel(ma_IDirectSound* pThis, HWND hwnd, DWORD dwLevel) { return pThis->lpVtbl->SetCooperativeLevel(pThis, hwnd, dwLevel); } +static MA_INLINE HRESULT ma_IDirectSound_Compact(ma_IDirectSound* pThis) { return pThis->lpVtbl->Compact(pThis); } +static MA_INLINE HRESULT ma_IDirectSound_GetSpeakerConfig(ma_IDirectSound* pThis, DWORD* pSpeakerConfig) { return pThis->lpVtbl->GetSpeakerConfig(pThis, pSpeakerConfig); } +static MA_INLINE HRESULT ma_IDirectSound_SetSpeakerConfig(ma_IDirectSound* pThis, DWORD dwSpeakerConfig) { return pThis->lpVtbl->SetSpeakerConfig(pThis, dwSpeakerConfig); } +static MA_INLINE HRESULT ma_IDirectSound_Initialize(ma_IDirectSound* pThis, const GUID* pGuidDevice) { return pThis->lpVtbl->Initialize(pThis, pGuidDevice); } + + +/* IDirectSoundBuffer */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IDirectSoundBuffer* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IDirectSoundBuffer* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IDirectSoundBuffer* pThis); + + /* IDirectSoundBuffer */ + HRESULT (STDMETHODCALLTYPE * GetCaps) (ma_IDirectSoundBuffer* pThis, MA_DSBCAPS* pDSBufferCaps); + HRESULT (STDMETHODCALLTYPE * GetCurrentPosition)(ma_IDirectSoundBuffer* pThis, DWORD* pCurrentPlayCursor, DWORD* pCurrentWriteCursor); + HRESULT (STDMETHODCALLTYPE * GetFormat) (ma_IDirectSoundBuffer* pThis, MA_WAVEFORMATEX* pFormat, DWORD dwSizeAllocated, DWORD* pSizeWritten); + HRESULT (STDMETHODCALLTYPE * GetVolume) (ma_IDirectSoundBuffer* pThis, LONG* pVolume); + HRESULT (STDMETHODCALLTYPE * GetPan) (ma_IDirectSoundBuffer* pThis, LONG* pPan); + HRESULT (STDMETHODCALLTYPE * GetFrequency) (ma_IDirectSoundBuffer* pThis, DWORD* pFrequency); + HRESULT (STDMETHODCALLTYPE * GetStatus) (ma_IDirectSoundBuffer* pThis, DWORD* pStatus); + HRESULT (STDMETHODCALLTYPE * Initialize) (ma_IDirectSoundBuffer* pThis, ma_IDirectSound* pDirectSound, const MA_DSBUFFERDESC* pDSBufferDesc); + HRESULT (STDMETHODCALLTYPE * Lock) (ma_IDirectSoundBuffer* pThis, DWORD dwOffset, DWORD dwBytes, void** ppAudioPtr1, DWORD* pAudioBytes1, void** ppAudioPtr2, DWORD* pAudioBytes2, DWORD dwFlags); + HRESULT (STDMETHODCALLTYPE * Play) (ma_IDirectSoundBuffer* pThis, DWORD dwReserved1, DWORD dwPriority, DWORD dwFlags); + HRESULT (STDMETHODCALLTYPE * SetCurrentPosition)(ma_IDirectSoundBuffer* pThis, DWORD dwNewPosition); + HRESULT (STDMETHODCALLTYPE * SetFormat) (ma_IDirectSoundBuffer* pThis, const MA_WAVEFORMATEX* pFormat); + HRESULT (STDMETHODCALLTYPE * SetVolume) (ma_IDirectSoundBuffer* pThis, LONG volume); + HRESULT (STDMETHODCALLTYPE * SetPan) (ma_IDirectSoundBuffer* pThis, LONG pan); + HRESULT (STDMETHODCALLTYPE * SetFrequency) (ma_IDirectSoundBuffer* pThis, DWORD dwFrequency); + HRESULT (STDMETHODCALLTYPE * Stop) (ma_IDirectSoundBuffer* pThis); + HRESULT (STDMETHODCALLTYPE * Unlock) (ma_IDirectSoundBuffer* pThis, void* pAudioPtr1, DWORD dwAudioBytes1, void* pAudioPtr2, DWORD dwAudioBytes2); + HRESULT (STDMETHODCALLTYPE * Restore) (ma_IDirectSoundBuffer* pThis); +} ma_IDirectSoundBufferVtbl; +struct ma_IDirectSoundBuffer +{ + ma_IDirectSoundBufferVtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IDirectSoundBuffer_QueryInterface(ma_IDirectSoundBuffer* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IDirectSoundBuffer_AddRef(ma_IDirectSoundBuffer* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IDirectSoundBuffer_Release(ma_IDirectSoundBuffer* pThis) { return pThis->lpVtbl->Release(pThis); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_GetCaps(ma_IDirectSoundBuffer* pThis, MA_DSBCAPS* pDSBufferCaps) { return pThis->lpVtbl->GetCaps(pThis, pDSBufferCaps); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_GetCurrentPosition(ma_IDirectSoundBuffer* pThis, DWORD* pCurrentPlayCursor, DWORD* pCurrentWriteCursor) { return pThis->lpVtbl->GetCurrentPosition(pThis, pCurrentPlayCursor, pCurrentWriteCursor); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_GetFormat(ma_IDirectSoundBuffer* pThis, MA_WAVEFORMATEX* pFormat, DWORD dwSizeAllocated, DWORD* pSizeWritten) { return pThis->lpVtbl->GetFormat(pThis, pFormat, dwSizeAllocated, pSizeWritten); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_GetVolume(ma_IDirectSoundBuffer* pThis, LONG* pVolume) { return pThis->lpVtbl->GetVolume(pThis, pVolume); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_GetPan(ma_IDirectSoundBuffer* pThis, LONG* pPan) { return pThis->lpVtbl->GetPan(pThis, pPan); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_GetFrequency(ma_IDirectSoundBuffer* pThis, DWORD* pFrequency) { return pThis->lpVtbl->GetFrequency(pThis, pFrequency); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_GetStatus(ma_IDirectSoundBuffer* pThis, DWORD* pStatus) { return pThis->lpVtbl->GetStatus(pThis, pStatus); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_Initialize(ma_IDirectSoundBuffer* pThis, ma_IDirectSound* pDirectSound, const MA_DSBUFFERDESC* pDSBufferDesc) { return pThis->lpVtbl->Initialize(pThis, pDirectSound, pDSBufferDesc); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_Lock(ma_IDirectSoundBuffer* pThis, DWORD dwOffset, DWORD dwBytes, void** ppAudioPtr1, DWORD* pAudioBytes1, void** ppAudioPtr2, DWORD* pAudioBytes2, DWORD dwFlags) { return pThis->lpVtbl->Lock(pThis, dwOffset, dwBytes, ppAudioPtr1, pAudioBytes1, ppAudioPtr2, pAudioBytes2, dwFlags); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_Play(ma_IDirectSoundBuffer* pThis, DWORD dwReserved1, DWORD dwPriority, DWORD dwFlags) { return pThis->lpVtbl->Play(pThis, dwReserved1, dwPriority, dwFlags); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_SetCurrentPosition(ma_IDirectSoundBuffer* pThis, DWORD dwNewPosition) { return pThis->lpVtbl->SetCurrentPosition(pThis, dwNewPosition); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_SetFormat(ma_IDirectSoundBuffer* pThis, const MA_WAVEFORMATEX* pFormat) { return pThis->lpVtbl->SetFormat(pThis, pFormat); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_SetVolume(ma_IDirectSoundBuffer* pThis, LONG volume) { return pThis->lpVtbl->SetVolume(pThis, volume); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_SetPan(ma_IDirectSoundBuffer* pThis, LONG pan) { return pThis->lpVtbl->SetPan(pThis, pan); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_SetFrequency(ma_IDirectSoundBuffer* pThis, DWORD dwFrequency) { return pThis->lpVtbl->SetFrequency(pThis, dwFrequency); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_Stop(ma_IDirectSoundBuffer* pThis) { return pThis->lpVtbl->Stop(pThis); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_Unlock(ma_IDirectSoundBuffer* pThis, void* pAudioPtr1, DWORD dwAudioBytes1, void* pAudioPtr2, DWORD dwAudioBytes2) { return pThis->lpVtbl->Unlock(pThis, pAudioPtr1, dwAudioBytes1, pAudioPtr2, dwAudioBytes2); } +static MA_INLINE HRESULT ma_IDirectSoundBuffer_Restore(ma_IDirectSoundBuffer* pThis) { return pThis->lpVtbl->Restore(pThis); } + + +/* IDirectSoundCapture */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IDirectSoundCapture* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IDirectSoundCapture* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IDirectSoundCapture* pThis); + + /* IDirectSoundCapture */ + HRESULT (STDMETHODCALLTYPE * CreateCaptureBuffer)(ma_IDirectSoundCapture* pThis, const MA_DSCBUFFERDESC* pDSCBufferDesc, ma_IDirectSoundCaptureBuffer** ppDSCBuffer, void* pUnkOuter); + HRESULT (STDMETHODCALLTYPE * GetCaps) (ma_IDirectSoundCapture* pThis, MA_DSCCAPS* pDSCCaps); + HRESULT (STDMETHODCALLTYPE * Initialize) (ma_IDirectSoundCapture* pThis, const GUID* pGuidDevice); +} ma_IDirectSoundCaptureVtbl; +struct ma_IDirectSoundCapture +{ + ma_IDirectSoundCaptureVtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IDirectSoundCapture_QueryInterface (ma_IDirectSoundCapture* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IDirectSoundCapture_AddRef (ma_IDirectSoundCapture* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IDirectSoundCapture_Release (ma_IDirectSoundCapture* pThis) { return pThis->lpVtbl->Release(pThis); } +static MA_INLINE HRESULT ma_IDirectSoundCapture_CreateCaptureBuffer(ma_IDirectSoundCapture* pThis, const MA_DSCBUFFERDESC* pDSCBufferDesc, ma_IDirectSoundCaptureBuffer** ppDSCBuffer, void* pUnkOuter) { return pThis->lpVtbl->CreateCaptureBuffer(pThis, pDSCBufferDesc, ppDSCBuffer, pUnkOuter); } +static MA_INLINE HRESULT ma_IDirectSoundCapture_GetCaps (ma_IDirectSoundCapture* pThis, MA_DSCCAPS* pDSCCaps) { return pThis->lpVtbl->GetCaps(pThis, pDSCCaps); } +static MA_INLINE HRESULT ma_IDirectSoundCapture_Initialize (ma_IDirectSoundCapture* pThis, const GUID* pGuidDevice) { return pThis->lpVtbl->Initialize(pThis, pGuidDevice); } + + +/* IDirectSoundCaptureBuffer */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IDirectSoundCaptureBuffer* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IDirectSoundCaptureBuffer* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IDirectSoundCaptureBuffer* pThis); + + /* IDirectSoundCaptureBuffer */ + HRESULT (STDMETHODCALLTYPE * GetCaps) (ma_IDirectSoundCaptureBuffer* pThis, MA_DSCBCAPS* pDSCBCaps); + HRESULT (STDMETHODCALLTYPE * GetCurrentPosition)(ma_IDirectSoundCaptureBuffer* pThis, DWORD* pCapturePosition, DWORD* pReadPosition); + HRESULT (STDMETHODCALLTYPE * GetFormat) (ma_IDirectSoundCaptureBuffer* pThis, MA_WAVEFORMATEX* pFormat, DWORD dwSizeAllocated, DWORD* pSizeWritten); + HRESULT (STDMETHODCALLTYPE * GetStatus) (ma_IDirectSoundCaptureBuffer* pThis, DWORD* pStatus); + HRESULT (STDMETHODCALLTYPE * Initialize) (ma_IDirectSoundCaptureBuffer* pThis, ma_IDirectSoundCapture* pDirectSoundCapture, const MA_DSCBUFFERDESC* pDSCBufferDesc); + HRESULT (STDMETHODCALLTYPE * Lock) (ma_IDirectSoundCaptureBuffer* pThis, DWORD dwOffset, DWORD dwBytes, void** ppAudioPtr1, DWORD* pAudioBytes1, void** ppAudioPtr2, DWORD* pAudioBytes2, DWORD dwFlags); + HRESULT (STDMETHODCALLTYPE * Start) (ma_IDirectSoundCaptureBuffer* pThis, DWORD dwFlags); + HRESULT (STDMETHODCALLTYPE * Stop) (ma_IDirectSoundCaptureBuffer* pThis); + HRESULT (STDMETHODCALLTYPE * Unlock) (ma_IDirectSoundCaptureBuffer* pThis, void* pAudioPtr1, DWORD dwAudioBytes1, void* pAudioPtr2, DWORD dwAudioBytes2); +} ma_IDirectSoundCaptureBufferVtbl; +struct ma_IDirectSoundCaptureBuffer +{ + ma_IDirectSoundCaptureBufferVtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IDirectSoundCaptureBuffer_QueryInterface(ma_IDirectSoundCaptureBuffer* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IDirectSoundCaptureBuffer_AddRef(ma_IDirectSoundCaptureBuffer* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IDirectSoundCaptureBuffer_Release(ma_IDirectSoundCaptureBuffer* pThis) { return pThis->lpVtbl->Release(pThis); } +static MA_INLINE HRESULT ma_IDirectSoundCaptureBuffer_GetCaps(ma_IDirectSoundCaptureBuffer* pThis, MA_DSCBCAPS* pDSCBCaps) { return pThis->lpVtbl->GetCaps(pThis, pDSCBCaps); } +static MA_INLINE HRESULT ma_IDirectSoundCaptureBuffer_GetCurrentPosition(ma_IDirectSoundCaptureBuffer* pThis, DWORD* pCapturePosition, DWORD* pReadPosition) { return pThis->lpVtbl->GetCurrentPosition(pThis, pCapturePosition, pReadPosition); } +static MA_INLINE HRESULT ma_IDirectSoundCaptureBuffer_GetFormat(ma_IDirectSoundCaptureBuffer* pThis, MA_WAVEFORMATEX* pFormat, DWORD dwSizeAllocated, DWORD* pSizeWritten) { return pThis->lpVtbl->GetFormat(pThis, pFormat, dwSizeAllocated, pSizeWritten); } +static MA_INLINE HRESULT ma_IDirectSoundCaptureBuffer_GetStatus(ma_IDirectSoundCaptureBuffer* pThis, DWORD* pStatus) { return pThis->lpVtbl->GetStatus(pThis, pStatus); } +static MA_INLINE HRESULT ma_IDirectSoundCaptureBuffer_Initialize(ma_IDirectSoundCaptureBuffer* pThis, ma_IDirectSoundCapture* pDirectSoundCapture, const MA_DSCBUFFERDESC* pDSCBufferDesc) { return pThis->lpVtbl->Initialize(pThis, pDirectSoundCapture, pDSCBufferDesc); } +static MA_INLINE HRESULT ma_IDirectSoundCaptureBuffer_Lock(ma_IDirectSoundCaptureBuffer* pThis, DWORD dwOffset, DWORD dwBytes, void** ppAudioPtr1, DWORD* pAudioBytes1, void** ppAudioPtr2, DWORD* pAudioBytes2, DWORD dwFlags) { return pThis->lpVtbl->Lock(pThis, dwOffset, dwBytes, ppAudioPtr1, pAudioBytes1, ppAudioPtr2, pAudioBytes2, dwFlags); } +static MA_INLINE HRESULT ma_IDirectSoundCaptureBuffer_Start(ma_IDirectSoundCaptureBuffer* pThis, DWORD dwFlags) { return pThis->lpVtbl->Start(pThis, dwFlags); } +static MA_INLINE HRESULT ma_IDirectSoundCaptureBuffer_Stop(ma_IDirectSoundCaptureBuffer* pThis) { return pThis->lpVtbl->Stop(pThis); } +static MA_INLINE HRESULT ma_IDirectSoundCaptureBuffer_Unlock(ma_IDirectSoundCaptureBuffer* pThis, void* pAudioPtr1, DWORD dwAudioBytes1, void* pAudioPtr2, DWORD dwAudioBytes2) { return pThis->lpVtbl->Unlock(pThis, pAudioPtr1, dwAudioBytes1, pAudioPtr2, dwAudioBytes2); } + + +/* IDirectSoundNotify */ +typedef struct +{ + /* IUnknown */ + HRESULT (STDMETHODCALLTYPE * QueryInterface)(ma_IDirectSoundNotify* pThis, const IID* const riid, void** ppObject); + ULONG (STDMETHODCALLTYPE * AddRef) (ma_IDirectSoundNotify* pThis); + ULONG (STDMETHODCALLTYPE * Release) (ma_IDirectSoundNotify* pThis); + + /* IDirectSoundNotify */ + HRESULT (STDMETHODCALLTYPE * SetNotificationPositions)(ma_IDirectSoundNotify* pThis, DWORD dwPositionNotifies, const MA_DSBPOSITIONNOTIFY* pPositionNotifies); +} ma_IDirectSoundNotifyVtbl; +struct ma_IDirectSoundNotify +{ + ma_IDirectSoundNotifyVtbl* lpVtbl; +}; +static MA_INLINE HRESULT ma_IDirectSoundNotify_QueryInterface(ma_IDirectSoundNotify* pThis, const IID* const riid, void** ppObject) { return pThis->lpVtbl->QueryInterface(pThis, riid, ppObject); } +static MA_INLINE ULONG ma_IDirectSoundNotify_AddRef(ma_IDirectSoundNotify* pThis) { return pThis->lpVtbl->AddRef(pThis); } +static MA_INLINE ULONG ma_IDirectSoundNotify_Release(ma_IDirectSoundNotify* pThis) { return pThis->lpVtbl->Release(pThis); } +static MA_INLINE HRESULT ma_IDirectSoundNotify_SetNotificationPositions(ma_IDirectSoundNotify* pThis, DWORD dwPositionNotifies, const MA_DSBPOSITIONNOTIFY* pPositionNotifies) { return pThis->lpVtbl->SetNotificationPositions(pThis, dwPositionNotifies, pPositionNotifies); } + + +typedef BOOL (CALLBACK * ma_DSEnumCallbackAProc) (GUID* pDeviceGUID, const char* pDeviceDescription, const char* pModule, void* pContext); +typedef HRESULT (WINAPI * ma_DirectSoundCreateProc) (const GUID* pcGuidDevice, ma_IDirectSound** ppDS8, ma_IUnknown* pUnkOuter); +typedef HRESULT (WINAPI * ma_DirectSoundEnumerateAProc) (ma_DSEnumCallbackAProc pDSEnumCallback, void* pContext); +typedef HRESULT (WINAPI * ma_DirectSoundCaptureCreateProc) (const GUID* pcGuidDevice, ma_IDirectSoundCapture** ppDSC8, ma_IUnknown* pUnkOuter); +typedef HRESULT (WINAPI * ma_DirectSoundCaptureEnumerateAProc)(ma_DSEnumCallbackAProc pDSEnumCallback, void* pContext); + +static ma_uint32 ma_get_best_sample_rate_within_range(ma_uint32 sampleRateMin, ma_uint32 sampleRateMax) +{ + /* Normalize the range in case we were given something stupid. */ + if (sampleRateMin < (ma_uint32)ma_standard_sample_rate_min) { + sampleRateMin = (ma_uint32)ma_standard_sample_rate_min; + } + if (sampleRateMax > (ma_uint32)ma_standard_sample_rate_max) { + sampleRateMax = (ma_uint32)ma_standard_sample_rate_max; + } + if (sampleRateMin > sampleRateMax) { + sampleRateMin = sampleRateMax; + } + + if (sampleRateMin == sampleRateMax) { + return sampleRateMax; + } else { + size_t iStandardRate; + for (iStandardRate = 0; iStandardRate < ma_countof(g_maStandardSampleRatePriorities); ++iStandardRate) { + ma_uint32 standardRate = g_maStandardSampleRatePriorities[iStandardRate]; + if (standardRate >= sampleRateMin && standardRate <= sampleRateMax) { + return standardRate; + } + } + } + + /* Should never get here. */ + MA_ASSERT(MA_FALSE); + return 0; +} + +/* +Retrieves the channel count and channel map for the given speaker configuration. If the speaker configuration is unknown, +the channel count and channel map will be left unmodified. +*/ +static void ma_get_channels_from_speaker_config__dsound(DWORD speakerConfig, WORD* pChannelsOut, DWORD* pChannelMapOut) +{ + WORD channels; + DWORD channelMap; + + channels = 0; + if (pChannelsOut != NULL) { + channels = *pChannelsOut; + } + + channelMap = 0; + if (pChannelMapOut != NULL) { + channelMap = *pChannelMapOut; + } + + /* + The speaker configuration is a combination of speaker config and speaker geometry. The lower 8 bits is what we care about. The upper + 16 bits is for the geometry. + */ + switch ((BYTE)(speakerConfig)) { + case 1 /*DSSPEAKER_HEADPHONE*/: channels = 2; channelMap = SPEAKER_FRONT_LEFT | SPEAKER_FRONT_RIGHT; break; + case 2 /*DSSPEAKER_MONO*/: channels = 1; channelMap = SPEAKER_FRONT_CENTER; break; + case 3 /*DSSPEAKER_QUAD*/: channels = 4; channelMap = SPEAKER_FRONT_LEFT | SPEAKER_FRONT_RIGHT | SPEAKER_BACK_LEFT | SPEAKER_BACK_RIGHT; break; + case 4 /*DSSPEAKER_STEREO*/: channels = 2; channelMap = SPEAKER_FRONT_LEFT | SPEAKER_FRONT_RIGHT; break; + case 5 /*DSSPEAKER_SURROUND*/: channels = 4; channelMap = SPEAKER_FRONT_LEFT | SPEAKER_FRONT_RIGHT | SPEAKER_FRONT_CENTER | SPEAKER_BACK_CENTER; break; + case 6 /*DSSPEAKER_5POINT1_BACK*/ /*DSSPEAKER_5POINT1*/: channels = 6; channelMap = SPEAKER_FRONT_LEFT | SPEAKER_FRONT_RIGHT | SPEAKER_FRONT_CENTER | SPEAKER_LOW_FREQUENCY | SPEAKER_BACK_LEFT | SPEAKER_BACK_RIGHT; break; + case 7 /*DSSPEAKER_7POINT1_WIDE*/ /*DSSPEAKER_7POINT1*/: channels = 8; channelMap = SPEAKER_FRONT_LEFT | SPEAKER_FRONT_RIGHT | SPEAKER_FRONT_CENTER | SPEAKER_LOW_FREQUENCY | SPEAKER_BACK_LEFT | SPEAKER_BACK_RIGHT | SPEAKER_FRONT_LEFT_OF_CENTER | SPEAKER_FRONT_RIGHT_OF_CENTER; break; + case 8 /*DSSPEAKER_7POINT1_SURROUND*/: channels = 8; channelMap = SPEAKER_FRONT_LEFT | SPEAKER_FRONT_RIGHT | SPEAKER_FRONT_CENTER | SPEAKER_LOW_FREQUENCY | SPEAKER_BACK_LEFT | SPEAKER_BACK_RIGHT | SPEAKER_SIDE_LEFT | SPEAKER_SIDE_RIGHT; break; + case 9 /*DSSPEAKER_5POINT1_SURROUND*/: channels = 6; channelMap = SPEAKER_FRONT_LEFT | SPEAKER_FRONT_RIGHT | SPEAKER_FRONT_CENTER | SPEAKER_LOW_FREQUENCY | SPEAKER_SIDE_LEFT | SPEAKER_SIDE_RIGHT; break; + default: break; + } + + if (pChannelsOut != NULL) { + *pChannelsOut = channels; + } + + if (pChannelMapOut != NULL) { + *pChannelMapOut = channelMap; + } +} + + +static ma_result ma_context_create_IDirectSound__dsound(ma_context* pContext, ma_share_mode shareMode, const ma_device_id* pDeviceID, ma_IDirectSound** ppDirectSound) +{ + ma_IDirectSound* pDirectSound; + HWND hWnd; + HRESULT hr; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(ppDirectSound != NULL); + + *ppDirectSound = NULL; + pDirectSound = NULL; + + if (FAILED(((ma_DirectSoundCreateProc)pContext->dsound.DirectSoundCreate)((pDeviceID == NULL) ? NULL : (const GUID*)pDeviceID->dsound, &pDirectSound, NULL))) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[DirectSound] DirectSoundCreate() failed for playback device."); + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + + /* The cooperative level must be set before doing anything else. */ + hWnd = (HWND)pContext->dsound.hWnd; + if (hWnd == 0) { + hWnd = ((MA_PFN_GetForegroundWindow)pContext->win32.GetForegroundWindow)(); + if (hWnd == 0) { + hWnd = ((MA_PFN_GetDesktopWindow)pContext->win32.GetDesktopWindow)(); + } + } + + hr = ma_IDirectSound_SetCooperativeLevel(pDirectSound, hWnd, (shareMode == ma_share_mode_exclusive) ? MA_DSSCL_EXCLUSIVE : MA_DSSCL_PRIORITY); + if (FAILED(hr)) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSound_SetCooperateiveLevel() failed for playback device."); + return ma_result_from_HRESULT(hr); + } + + *ppDirectSound = pDirectSound; + return MA_SUCCESS; +} + +static ma_result ma_context_create_IDirectSoundCapture__dsound(ma_context* pContext, ma_share_mode shareMode, const ma_device_id* pDeviceID, ma_IDirectSoundCapture** ppDirectSoundCapture) +{ + ma_IDirectSoundCapture* pDirectSoundCapture; + HRESULT hr; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(ppDirectSoundCapture != NULL); + + /* DirectSound does not support exclusive mode for capture. */ + if (shareMode == ma_share_mode_exclusive) { + return MA_SHARE_MODE_NOT_SUPPORTED; + } + + *ppDirectSoundCapture = NULL; + pDirectSoundCapture = NULL; + + hr = ((ma_DirectSoundCaptureCreateProc)pContext->dsound.DirectSoundCaptureCreate)((pDeviceID == NULL) ? NULL : (const GUID*)pDeviceID->dsound, &pDirectSoundCapture, NULL); + if (FAILED(hr)) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[DirectSound] DirectSoundCaptureCreate() failed for capture device."); + return ma_result_from_HRESULT(hr); + } + + *ppDirectSoundCapture = pDirectSoundCapture; + return MA_SUCCESS; +} + +static ma_result ma_context_get_format_info_for_IDirectSoundCapture__dsound(ma_context* pContext, ma_IDirectSoundCapture* pDirectSoundCapture, WORD* pChannels, WORD* pBitsPerSample, DWORD* pSampleRate) +{ + HRESULT hr; + MA_DSCCAPS caps; + WORD bitsPerSample; + DWORD sampleRate; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pDirectSoundCapture != NULL); + + if (pChannels) { + *pChannels = 0; + } + if (pBitsPerSample) { + *pBitsPerSample = 0; + } + if (pSampleRate) { + *pSampleRate = 0; + } + + MA_ZERO_OBJECT(&caps); + caps.dwSize = sizeof(caps); + hr = ma_IDirectSoundCapture_GetCaps(pDirectSoundCapture, &caps); + if (FAILED(hr)) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSoundCapture_GetCaps() failed for capture device."); + return ma_result_from_HRESULT(hr); + } + + if (pChannels) { + *pChannels = (WORD)caps.dwChannels; + } + + /* The device can support multiple formats. We just go through the different formats in order of priority and pick the first one. This the same type of system as the WinMM backend. */ + bitsPerSample = 16; + sampleRate = 48000; + + if (caps.dwChannels == 1) { + if ((caps.dwFormats & WAVE_FORMAT_48M16) != 0) { + sampleRate = 48000; + } else if ((caps.dwFormats & WAVE_FORMAT_44M16) != 0) { + sampleRate = 44100; + } else if ((caps.dwFormats & WAVE_FORMAT_2M16) != 0) { + sampleRate = 22050; + } else if ((caps.dwFormats & WAVE_FORMAT_1M16) != 0) { + sampleRate = 11025; + } else if ((caps.dwFormats & WAVE_FORMAT_96M16) != 0) { + sampleRate = 96000; + } else { + bitsPerSample = 8; + if ((caps.dwFormats & WAVE_FORMAT_48M08) != 0) { + sampleRate = 48000; + } else if ((caps.dwFormats & WAVE_FORMAT_44M08) != 0) { + sampleRate = 44100; + } else if ((caps.dwFormats & WAVE_FORMAT_2M08) != 0) { + sampleRate = 22050; + } else if ((caps.dwFormats & WAVE_FORMAT_1M08) != 0) { + sampleRate = 11025; + } else if ((caps.dwFormats & WAVE_FORMAT_96M08) != 0) { + sampleRate = 96000; + } else { + bitsPerSample = 16; /* Didn't find it. Just fall back to 16-bit. */ + } + } + } else if (caps.dwChannels == 2) { + if ((caps.dwFormats & WAVE_FORMAT_48S16) != 0) { + sampleRate = 48000; + } else if ((caps.dwFormats & WAVE_FORMAT_44S16) != 0) { + sampleRate = 44100; + } else if ((caps.dwFormats & WAVE_FORMAT_2S16) != 0) { + sampleRate = 22050; + } else if ((caps.dwFormats & WAVE_FORMAT_1S16) != 0) { + sampleRate = 11025; + } else if ((caps.dwFormats & WAVE_FORMAT_96S16) != 0) { + sampleRate = 96000; + } else { + bitsPerSample = 8; + if ((caps.dwFormats & WAVE_FORMAT_48S08) != 0) { + sampleRate = 48000; + } else if ((caps.dwFormats & WAVE_FORMAT_44S08) != 0) { + sampleRate = 44100; + } else if ((caps.dwFormats & WAVE_FORMAT_2S08) != 0) { + sampleRate = 22050; + } else if ((caps.dwFormats & WAVE_FORMAT_1S08) != 0) { + sampleRate = 11025; + } else if ((caps.dwFormats & WAVE_FORMAT_96S08) != 0) { + sampleRate = 96000; + } else { + bitsPerSample = 16; /* Didn't find it. Just fall back to 16-bit. */ + } + } + } + + if (pBitsPerSample) { + *pBitsPerSample = bitsPerSample; + } + if (pSampleRate) { + *pSampleRate = sampleRate; + } + + return MA_SUCCESS; +} + + +typedef struct +{ + ma_context* pContext; + ma_device_type deviceType; + ma_enum_devices_callback_proc callback; + void* pUserData; + ma_bool32 terminated; +} ma_context_enumerate_devices_callback_data__dsound; + +static BOOL CALLBACK ma_context_enumerate_devices_callback__dsound(GUID* lpGuid, const char* lpcstrDescription, const char* lpcstrModule, void* lpContext) +{ + ma_context_enumerate_devices_callback_data__dsound* pData = (ma_context_enumerate_devices_callback_data__dsound*)lpContext; + ma_device_info deviceInfo; + + (void)lpcstrModule; + + MA_ZERO_OBJECT(&deviceInfo); + + /* ID. */ + if (lpGuid != NULL) { + MA_COPY_MEMORY(deviceInfo.id.dsound, lpGuid, 16); + } else { + MA_ZERO_MEMORY(deviceInfo.id.dsound, 16); + deviceInfo.isDefault = MA_TRUE; + } + + /* Name / Description */ + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), lpcstrDescription, (size_t)-1); + + + /* Call the callback function, but make sure we stop enumerating if the callee requested so. */ + MA_ASSERT(pData != NULL); + pData->terminated = (pData->callback(pData->pContext, pData->deviceType, &deviceInfo, pData->pUserData) == MA_FALSE); + if (pData->terminated) { + return FALSE; /* Stop enumeration. */ + } else { + return TRUE; /* Continue enumeration. */ + } +} + +static ma_result ma_context_enumerate_devices__dsound(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + ma_context_enumerate_devices_callback_data__dsound data; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + data.pContext = pContext; + data.callback = callback; + data.pUserData = pUserData; + data.terminated = MA_FALSE; + + /* Playback. */ + if (!data.terminated) { + data.deviceType = ma_device_type_playback; + ((ma_DirectSoundEnumerateAProc)pContext->dsound.DirectSoundEnumerateA)(ma_context_enumerate_devices_callback__dsound, &data); + } + + /* Capture. */ + if (!data.terminated) { + data.deviceType = ma_device_type_capture; + ((ma_DirectSoundCaptureEnumerateAProc)pContext->dsound.DirectSoundCaptureEnumerateA)(ma_context_enumerate_devices_callback__dsound, &data); + } + + return MA_SUCCESS; +} + + +typedef struct +{ + const ma_device_id* pDeviceID; + ma_device_info* pDeviceInfo; + ma_bool32 found; +} ma_context_get_device_info_callback_data__dsound; + +static BOOL CALLBACK ma_context_get_device_info_callback__dsound(GUID* lpGuid, const char* lpcstrDescription, const char* lpcstrModule, void* lpContext) +{ + ma_context_get_device_info_callback_data__dsound* pData = (ma_context_get_device_info_callback_data__dsound*)lpContext; + MA_ASSERT(pData != NULL); + + if ((pData->pDeviceID == NULL || ma_is_guid_null(pData->pDeviceID->dsound)) && (lpGuid == NULL || ma_is_guid_null(lpGuid))) { + /* Default device. */ + ma_strncpy_s(pData->pDeviceInfo->name, sizeof(pData->pDeviceInfo->name), lpcstrDescription, (size_t)-1); + pData->pDeviceInfo->isDefault = MA_TRUE; + pData->found = MA_TRUE; + return FALSE; /* Stop enumeration. */ + } else { + /* Not the default device. */ + if (lpGuid != NULL && pData->pDeviceID != NULL) { + if (memcmp(pData->pDeviceID->dsound, lpGuid, sizeof(pData->pDeviceID->dsound)) == 0) { + ma_strncpy_s(pData->pDeviceInfo->name, sizeof(pData->pDeviceInfo->name), lpcstrDescription, (size_t)-1); + pData->found = MA_TRUE; + return FALSE; /* Stop enumeration. */ + } + } + } + + (void)lpcstrModule; + return TRUE; +} + +static ma_result ma_context_get_device_info__dsound(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + ma_result result; + HRESULT hr; + + if (pDeviceID != NULL) { + ma_context_get_device_info_callback_data__dsound data; + + /* ID. */ + MA_COPY_MEMORY(pDeviceInfo->id.dsound, pDeviceID->dsound, 16); + + /* Name / Description. This is retrieved by enumerating over each device until we find that one that matches the input ID. */ + data.pDeviceID = pDeviceID; + data.pDeviceInfo = pDeviceInfo; + data.found = MA_FALSE; + if (deviceType == ma_device_type_playback) { + ((ma_DirectSoundEnumerateAProc)pContext->dsound.DirectSoundEnumerateA)(ma_context_get_device_info_callback__dsound, &data); + } else { + ((ma_DirectSoundCaptureEnumerateAProc)pContext->dsound.DirectSoundCaptureEnumerateA)(ma_context_get_device_info_callback__dsound, &data); + } + + if (!data.found) { + return MA_NO_DEVICE; + } + } else { + /* I don't think there's a way to get the name of the default device with DirectSound. In this case we just need to use defaults. */ + + /* ID */ + MA_ZERO_MEMORY(pDeviceInfo->id.dsound, 16); + + /* Name / Description */ + if (deviceType == ma_device_type_playback) { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + } else { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + } + + pDeviceInfo->isDefault = MA_TRUE; + } + + /* Retrieving detailed information is slightly different depending on the device type. */ + if (deviceType == ma_device_type_playback) { + /* Playback. */ + ma_IDirectSound* pDirectSound; + MA_DSCAPS caps; + WORD channels; + + result = ma_context_create_IDirectSound__dsound(pContext, ma_share_mode_shared, pDeviceID, &pDirectSound); + if (result != MA_SUCCESS) { + return result; + } + + MA_ZERO_OBJECT(&caps); + caps.dwSize = sizeof(caps); + hr = ma_IDirectSound_GetCaps(pDirectSound, &caps); + if (FAILED(hr)) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSound_GetCaps() failed for playback device."); + return ma_result_from_HRESULT(hr); + } + + + /* Channels. Only a single channel count is reported for DirectSound. */ + if ((caps.dwFlags & MA_DSCAPS_PRIMARYSTEREO) != 0) { + /* It supports at least stereo, but could support more. */ + DWORD speakerConfig; + + channels = 2; + + /* Look at the speaker configuration to get a better idea on the channel count. */ + hr = ma_IDirectSound_GetSpeakerConfig(pDirectSound, &speakerConfig); + if (SUCCEEDED(hr)) { + ma_get_channels_from_speaker_config__dsound(speakerConfig, &channels, NULL); + } + } else { + /* It does not support stereo, which means we are stuck with mono. */ + channels = 1; + } + + + /* + In DirectSound, our native formats are centered around sample rates. All formats are supported, and we're only reporting a single channel + count. However, DirectSound can report a range of supported sample rates. We're only going to include standard rates known by miniaudio + in order to keep the size of this within reason. + */ + if ((caps.dwFlags & MA_DSCAPS_CONTINUOUSRATE) != 0) { + /* Multiple sample rates are supported. We'll report in order of our preferred sample rates. */ + size_t iStandardSampleRate; + for (iStandardSampleRate = 0; iStandardSampleRate < ma_countof(g_maStandardSampleRatePriorities); iStandardSampleRate += 1) { + ma_uint32 sampleRate = g_maStandardSampleRatePriorities[iStandardSampleRate]; + if (sampleRate >= caps.dwMinSecondarySampleRate && sampleRate <= caps.dwMaxSecondarySampleRate) { + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].format = ma_format_unknown; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].channels = channels; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].sampleRate = sampleRate; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].flags = 0; + pDeviceInfo->nativeDataFormatCount += 1; + } + } + } else { + /* Only a single sample rate is supported. */ + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].format = ma_format_unknown; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].channels = channels; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].sampleRate = caps.dwMaxSecondarySampleRate; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].flags = 0; + pDeviceInfo->nativeDataFormatCount += 1; + } + + ma_IDirectSound_Release(pDirectSound); + } else { + /* + Capture. This is a little different to playback due to the say the supported formats are reported. Technically capture + devices can support a number of different formats, but for simplicity and consistency with ma_device_init() I'm just + reporting the best format. + */ + ma_IDirectSoundCapture* pDirectSoundCapture; + WORD channels; + WORD bitsPerSample; + DWORD sampleRate; + + result = ma_context_create_IDirectSoundCapture__dsound(pContext, ma_share_mode_shared, pDeviceID, &pDirectSoundCapture); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_context_get_format_info_for_IDirectSoundCapture__dsound(pContext, pDirectSoundCapture, &channels, &bitsPerSample, &sampleRate); + if (result != MA_SUCCESS) { + ma_IDirectSoundCapture_Release(pDirectSoundCapture); + return result; + } + + ma_IDirectSoundCapture_Release(pDirectSoundCapture); + + /* The format is always an integer format and is based on the bits per sample. */ + if (bitsPerSample == 8) { + pDeviceInfo->nativeDataFormats[0].format = ma_format_u8; + } else if (bitsPerSample == 16) { + pDeviceInfo->nativeDataFormats[0].format = ma_format_s16; + } else if (bitsPerSample == 24) { + pDeviceInfo->nativeDataFormats[0].format = ma_format_s24; + } else if (bitsPerSample == 32) { + pDeviceInfo->nativeDataFormats[0].format = ma_format_s32; + } else { + return MA_FORMAT_NOT_SUPPORTED; + } + + pDeviceInfo->nativeDataFormats[0].channels = channels; + pDeviceInfo->nativeDataFormats[0].sampleRate = sampleRate; + pDeviceInfo->nativeDataFormats[0].flags = 0; + pDeviceInfo->nativeDataFormatCount = 1; + } + + return MA_SUCCESS; +} + + + +static ma_result ma_device_uninit__dsound(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->dsound.pCaptureBuffer != NULL) { + ma_IDirectSoundCaptureBuffer_Release((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer); + } + if (pDevice->dsound.pCapture != NULL) { + ma_IDirectSoundCapture_Release((ma_IDirectSoundCapture*)pDevice->dsound.pCapture); + } + + if (pDevice->dsound.pPlaybackBuffer != NULL) { + ma_IDirectSoundBuffer_Release((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer); + } + if (pDevice->dsound.pPlaybackPrimaryBuffer != NULL) { + ma_IDirectSoundBuffer_Release((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackPrimaryBuffer); + } + if (pDevice->dsound.pPlayback != NULL) { + ma_IDirectSound_Release((ma_IDirectSound*)pDevice->dsound.pPlayback); + } + + return MA_SUCCESS; +} + +static ma_result ma_config_to_WAVEFORMATEXTENSIBLE(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, const ma_channel* pChannelMap, MA_WAVEFORMATEXTENSIBLE* pWF) +{ + GUID subformat; + + if (format == ma_format_unknown) { + format = MA_DEFAULT_FORMAT; + } + + if (channels == 0) { + channels = MA_DEFAULT_CHANNELS; + } + + if (sampleRate == 0) { + sampleRate = MA_DEFAULT_SAMPLE_RATE; + } + + switch (format) + { + case ma_format_u8: + case ma_format_s16: + case ma_format_s24: + /*case ma_format_s24_32:*/ + case ma_format_s32: + { + subformat = MA_GUID_KSDATAFORMAT_SUBTYPE_PCM; + } break; + + case ma_format_f32: + { + subformat = MA_GUID_KSDATAFORMAT_SUBTYPE_IEEE_FLOAT; + } break; + + default: + return MA_FORMAT_NOT_SUPPORTED; + } + + MA_ZERO_OBJECT(pWF); + pWF->cbSize = sizeof(*pWF); + pWF->wFormatTag = WAVE_FORMAT_EXTENSIBLE; + pWF->nChannels = (WORD)channels; + pWF->nSamplesPerSec = (DWORD)sampleRate; + pWF->wBitsPerSample = (WORD)(ma_get_bytes_per_sample(format)*8); + pWF->nBlockAlign = (WORD)(pWF->nChannels * pWF->wBitsPerSample / 8); + pWF->nAvgBytesPerSec = pWF->nBlockAlign * pWF->nSamplesPerSec; + pWF->Samples.wValidBitsPerSample = pWF->wBitsPerSample; + pWF->dwChannelMask = ma_channel_map_to_channel_mask__win32(pChannelMap, channels); + pWF->SubFormat = subformat; + + return MA_SUCCESS; +} + +static ma_uint32 ma_calculate_period_size_in_frames_from_descriptor__dsound(const ma_device_descriptor* pDescriptor, ma_uint32 nativeSampleRate, ma_performance_profile performanceProfile) +{ + /* + DirectSound has a minimum period size of 20ms. In practice, this doesn't seem to be enough for + reliable glitch-free processing so going to use 30ms instead. + */ + ma_uint32 minPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(30, nativeSampleRate); + ma_uint32 periodSizeInFrames; + + periodSizeInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptor, nativeSampleRate, performanceProfile); + if (periodSizeInFrames < minPeriodSizeInFrames) { + periodSizeInFrames = minPeriodSizeInFrames; + } + + return periodSizeInFrames; +} + +static ma_result ma_device_init__dsound(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + ma_result result; + HRESULT hr; + + MA_ASSERT(pDevice != NULL); + + MA_ZERO_OBJECT(&pDevice->dsound); + + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + /* + Unfortunately DirectSound uses different APIs and data structures for playback and capture devices. We need to initialize + the capture device first because we'll want to match its buffer size and period count on the playback side if we're using + full-duplex mode. + */ + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + MA_WAVEFORMATEXTENSIBLE wf; + MA_DSCBUFFERDESC descDS; + ma_uint32 periodSizeInFrames; + ma_uint32 periodCount; + char rawdata[1024]; /* <-- Ugly hack to avoid a malloc() due to a crappy DirectSound API. */ + MA_WAVEFORMATEXTENSIBLE* pActualFormat; + + result = ma_config_to_WAVEFORMATEXTENSIBLE(pDescriptorCapture->format, pDescriptorCapture->channels, pDescriptorCapture->sampleRate, pDescriptorCapture->channelMap, &wf); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_context_create_IDirectSoundCapture__dsound(pDevice->pContext, pDescriptorCapture->shareMode, pDescriptorCapture->pDeviceID, (ma_IDirectSoundCapture**)&pDevice->dsound.pCapture); + if (result != MA_SUCCESS) { + ma_device_uninit__dsound(pDevice); + return result; + } + + result = ma_context_get_format_info_for_IDirectSoundCapture__dsound(pDevice->pContext, (ma_IDirectSoundCapture*)pDevice->dsound.pCapture, &wf.nChannels, &wf.wBitsPerSample, &wf.nSamplesPerSec); + if (result != MA_SUCCESS) { + ma_device_uninit__dsound(pDevice); + return result; + } + + wf.nBlockAlign = (WORD)(wf.nChannels * wf.wBitsPerSample / 8); + wf.nAvgBytesPerSec = wf.nBlockAlign * wf.nSamplesPerSec; + wf.Samples.wValidBitsPerSample = wf.wBitsPerSample; + wf.SubFormat = MA_GUID_KSDATAFORMAT_SUBTYPE_PCM; + + /* The size of the buffer must be a clean multiple of the period count. */ + periodSizeInFrames = ma_calculate_period_size_in_frames_from_descriptor__dsound(pDescriptorCapture, wf.nSamplesPerSec, pConfig->performanceProfile); + periodCount = (pDescriptorCapture->periodCount > 0) ? pDescriptorCapture->periodCount : MA_DEFAULT_PERIODS; + + MA_ZERO_OBJECT(&descDS); + descDS.dwSize = sizeof(descDS); + descDS.dwFlags = 0; + descDS.dwBufferBytes = periodSizeInFrames * periodCount * wf.nBlockAlign; + descDS.lpwfxFormat = (MA_WAVEFORMATEX*)&wf; + hr = ma_IDirectSoundCapture_CreateCaptureBuffer((ma_IDirectSoundCapture*)pDevice->dsound.pCapture, &descDS, (ma_IDirectSoundCaptureBuffer**)&pDevice->dsound.pCaptureBuffer, NULL); + if (FAILED(hr)) { + ma_device_uninit__dsound(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSoundCapture_CreateCaptureBuffer() failed for capture device."); + return ma_result_from_HRESULT(hr); + } + + /* Get the _actual_ properties of the buffer. */ + pActualFormat = (MA_WAVEFORMATEXTENSIBLE*)rawdata; + hr = ma_IDirectSoundCaptureBuffer_GetFormat((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer, (MA_WAVEFORMATEX*)pActualFormat, sizeof(rawdata), NULL); + if (FAILED(hr)) { + ma_device_uninit__dsound(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Failed to retrieve the actual format of the capture device's buffer."); + return ma_result_from_HRESULT(hr); + } + + /* We can now start setting the output data formats. */ + pDescriptorCapture->format = ma_format_from_WAVEFORMATEX((MA_WAVEFORMATEX*)pActualFormat); + pDescriptorCapture->channels = pActualFormat->nChannels; + pDescriptorCapture->sampleRate = pActualFormat->nSamplesPerSec; + + /* Get the native channel map based on the channel mask. */ + if (pActualFormat->wFormatTag == WAVE_FORMAT_EXTENSIBLE) { + ma_channel_mask_to_channel_map__win32(pActualFormat->dwChannelMask, pDescriptorCapture->channels, pDescriptorCapture->channelMap); + } else { + ma_channel_mask_to_channel_map__win32(wf.dwChannelMask, pDescriptorCapture->channels, pDescriptorCapture->channelMap); + } + + /* + After getting the actual format the size of the buffer in frames may have actually changed. However, we want this to be as close to what the + user has asked for as possible, so let's go ahead and release the old capture buffer and create a new one in this case. + */ + if (periodSizeInFrames != (descDS.dwBufferBytes / ma_get_bytes_per_frame(pDescriptorCapture->format, pDescriptorCapture->channels) / periodCount)) { + descDS.dwBufferBytes = periodSizeInFrames * ma_get_bytes_per_frame(pDescriptorCapture->format, pDescriptorCapture->channels) * periodCount; + ma_IDirectSoundCaptureBuffer_Release((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer); + + hr = ma_IDirectSoundCapture_CreateCaptureBuffer((ma_IDirectSoundCapture*)pDevice->dsound.pCapture, &descDS, (ma_IDirectSoundCaptureBuffer**)&pDevice->dsound.pCaptureBuffer, NULL); + if (FAILED(hr)) { + ma_device_uninit__dsound(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Second attempt at IDirectSoundCapture_CreateCaptureBuffer() failed for capture device."); + return ma_result_from_HRESULT(hr); + } + } + + /* DirectSound should give us a buffer exactly the size we asked for. */ + pDescriptorCapture->periodSizeInFrames = periodSizeInFrames; + pDescriptorCapture->periodCount = periodCount; + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + MA_WAVEFORMATEXTENSIBLE wf; + MA_DSBUFFERDESC descDSPrimary; + MA_DSCAPS caps; + char rawdata[1024]; /* <-- Ugly hack to avoid a malloc() due to a crappy DirectSound API. */ + MA_WAVEFORMATEXTENSIBLE* pActualFormat; + ma_uint32 periodSizeInFrames; + ma_uint32 periodCount; + MA_DSBUFFERDESC descDS; + WORD nativeChannelCount; + DWORD nativeChannelMask = 0; + + result = ma_config_to_WAVEFORMATEXTENSIBLE(pDescriptorPlayback->format, pDescriptorPlayback->channels, pDescriptorPlayback->sampleRate, pDescriptorPlayback->channelMap, &wf); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_context_create_IDirectSound__dsound(pDevice->pContext, pDescriptorPlayback->shareMode, pDescriptorPlayback->pDeviceID, (ma_IDirectSound**)&pDevice->dsound.pPlayback); + if (result != MA_SUCCESS) { + ma_device_uninit__dsound(pDevice); + return result; + } + + MA_ZERO_OBJECT(&descDSPrimary); + descDSPrimary.dwSize = sizeof(MA_DSBUFFERDESC); + descDSPrimary.dwFlags = MA_DSBCAPS_PRIMARYBUFFER | MA_DSBCAPS_CTRLVOLUME; + hr = ma_IDirectSound_CreateSoundBuffer((ma_IDirectSound*)pDevice->dsound.pPlayback, &descDSPrimary, (ma_IDirectSoundBuffer**)&pDevice->dsound.pPlaybackPrimaryBuffer, NULL); + if (FAILED(hr)) { + ma_device_uninit__dsound(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSound_CreateSoundBuffer() failed for playback device's primary buffer."); + return ma_result_from_HRESULT(hr); + } + + + /* We may want to make some adjustments to the format if we are using defaults. */ + MA_ZERO_OBJECT(&caps); + caps.dwSize = sizeof(caps); + hr = ma_IDirectSound_GetCaps((ma_IDirectSound*)pDevice->dsound.pPlayback, &caps); + if (FAILED(hr)) { + ma_device_uninit__dsound(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSound_GetCaps() failed for playback device."); + return ma_result_from_HRESULT(hr); + } + + if ((caps.dwFlags & MA_DSCAPS_PRIMARYSTEREO) != 0) { + DWORD speakerConfig; + + /* It supports at least stereo, but could support more. */ + nativeChannelCount = 2; + + /* Look at the speaker configuration to get a better idea on the channel count. */ + if (SUCCEEDED(ma_IDirectSound_GetSpeakerConfig((ma_IDirectSound*)pDevice->dsound.pPlayback, &speakerConfig))) { + ma_get_channels_from_speaker_config__dsound(speakerConfig, &nativeChannelCount, &nativeChannelMask); + } + } else { + /* It does not support stereo, which means we are stuck with mono. */ + nativeChannelCount = 1; + nativeChannelMask = 0x00000001; + } + + if (pDescriptorPlayback->channels == 0) { + wf.nChannels = nativeChannelCount; + wf.dwChannelMask = nativeChannelMask; + } + + if (pDescriptorPlayback->sampleRate == 0) { + /* We base the sample rate on the values returned by GetCaps(). */ + if ((caps.dwFlags & MA_DSCAPS_CONTINUOUSRATE) != 0) { + wf.nSamplesPerSec = ma_get_best_sample_rate_within_range(caps.dwMinSecondarySampleRate, caps.dwMaxSecondarySampleRate); + } else { + wf.nSamplesPerSec = caps.dwMaxSecondarySampleRate; + } + } + + wf.nBlockAlign = (WORD)(wf.nChannels * wf.wBitsPerSample / 8); + wf.nAvgBytesPerSec = wf.nBlockAlign * wf.nSamplesPerSec; + + /* + From MSDN: + + The method succeeds even if the hardware does not support the requested format; DirectSound sets the buffer to the closest + supported format. To determine whether this has happened, an application can call the GetFormat method for the primary buffer + and compare the result with the format that was requested with the SetFormat method. + */ + hr = ma_IDirectSoundBuffer_SetFormat((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackPrimaryBuffer, (MA_WAVEFORMATEX*)&wf); + if (FAILED(hr)) { + /* + If setting of the format failed we'll try again with some fallback settings. On Windows 98 I have + observed that IEEE_FLOAT does not work. We'll therefore enforce PCM. I also had issues where a + sample rate of 48000 did not work correctly. Not sure if it was a driver issue or not, but will + use 44100 for the sample rate. + */ + wf.cbSize = 18; /* NOTE: Don't use sizeof(MA_WAVEFORMATEX) here because it's got an extra 2 bytes due to padding. */ + wf.wFormatTag = WAVE_FORMAT_PCM; + wf.wBitsPerSample = 16; + wf.nChannels = nativeChannelCount; + wf.nSamplesPerSec = 44100; + wf.nBlockAlign = wf.nChannels * (wf.wBitsPerSample / 8); + wf.nAvgBytesPerSec = wf.nSamplesPerSec * wf.nBlockAlign; + + hr = ma_IDirectSoundBuffer_SetFormat((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackPrimaryBuffer, (MA_WAVEFORMATEX*)&wf); + if (FAILED(hr)) { + ma_device_uninit__dsound(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Failed to set format of playback device's primary buffer."); + return ma_result_from_HRESULT(hr); + } + } + + /* Get the _actual_ properties of the buffer. */ + pActualFormat = (MA_WAVEFORMATEXTENSIBLE*)rawdata; + hr = ma_IDirectSoundBuffer_GetFormat((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackPrimaryBuffer, (MA_WAVEFORMATEX*)pActualFormat, sizeof(rawdata), NULL); + if (FAILED(hr)) { + ma_device_uninit__dsound(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Failed to retrieve the actual format of the playback device's primary buffer."); + return ma_result_from_HRESULT(hr); + } + + /* We now have enough information to start setting some output properties. */ + pDescriptorPlayback->format = ma_format_from_WAVEFORMATEX((MA_WAVEFORMATEX*)pActualFormat); + pDescriptorPlayback->channels = pActualFormat->nChannels; + pDescriptorPlayback->sampleRate = pActualFormat->nSamplesPerSec; + + /* Get the internal channel map based on the channel mask. */ + if (pActualFormat->wFormatTag == WAVE_FORMAT_EXTENSIBLE) { + ma_channel_mask_to_channel_map__win32(pActualFormat->dwChannelMask, pDescriptorPlayback->channels, pDescriptorPlayback->channelMap); + } else { + ma_channel_mask_to_channel_map__win32(wf.dwChannelMask, pDescriptorPlayback->channels, pDescriptorPlayback->channelMap); + } + + /* The size of the buffer must be a clean multiple of the period count. */ + periodSizeInFrames = ma_calculate_period_size_in_frames_from_descriptor__dsound(pDescriptorPlayback, pDescriptorPlayback->sampleRate, pConfig->performanceProfile); + periodCount = (pDescriptorPlayback->periodCount > 0) ? pDescriptorPlayback->periodCount : MA_DEFAULT_PERIODS; + + /* + Meaning of dwFlags (from MSDN): + + DSBCAPS_CTRLPOSITIONNOTIFY + The buffer has position notification capability. + + DSBCAPS_GLOBALFOCUS + With this flag set, an application using DirectSound can continue to play its buffers if the user switches focus to + another application, even if the new application uses DirectSound. + + DSBCAPS_GETCURRENTPOSITION2 + In the first version of DirectSound, the play cursor was significantly ahead of the actual playing sound on emulated + sound cards; it was directly behind the write cursor. Now, if the DSBCAPS_GETCURRENTPOSITION2 flag is specified, the + application can get a more accurate play cursor. + */ + MA_ZERO_OBJECT(&descDS); + descDS.dwSize = sizeof(descDS); + descDS.dwFlags = MA_DSBCAPS_CTRLPOSITIONNOTIFY | MA_DSBCAPS_GLOBALFOCUS | MA_DSBCAPS_GETCURRENTPOSITION2; + descDS.dwBufferBytes = periodSizeInFrames * periodCount * ma_get_bytes_per_frame(pDescriptorPlayback->format, pDescriptorPlayback->channels); + descDS.lpwfxFormat = (MA_WAVEFORMATEX*)pActualFormat; + hr = ma_IDirectSound_CreateSoundBuffer((ma_IDirectSound*)pDevice->dsound.pPlayback, &descDS, (ma_IDirectSoundBuffer**)&pDevice->dsound.pPlaybackBuffer, NULL); + if (FAILED(hr)) { + ma_device_uninit__dsound(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSound_CreateSoundBuffer() failed for playback device's secondary buffer."); + return ma_result_from_HRESULT(hr); + } + + /* DirectSound should give us a buffer exactly the size we asked for. */ + pDescriptorPlayback->periodSizeInFrames = periodSizeInFrames; + pDescriptorPlayback->periodCount = periodCount; + } + + return MA_SUCCESS; +} + + +static ma_result ma_device_data_loop__dsound(ma_device* pDevice) +{ + ma_result result = MA_SUCCESS; + ma_uint32 bpfDeviceCapture = ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels); + ma_uint32 bpfDevicePlayback = ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels); + HRESULT hr; + DWORD lockOffsetInBytesCapture; + DWORD lockSizeInBytesCapture; + DWORD mappedSizeInBytesCapture; + DWORD mappedDeviceFramesProcessedCapture; + void* pMappedDeviceBufferCapture; + DWORD lockOffsetInBytesPlayback; + DWORD lockSizeInBytesPlayback; + DWORD mappedSizeInBytesPlayback; + void* pMappedDeviceBufferPlayback; + DWORD prevReadCursorInBytesCapture = 0; + DWORD prevPlayCursorInBytesPlayback = 0; + ma_bool32 physicalPlayCursorLoopFlagPlayback = 0; + DWORD virtualWriteCursorInBytesPlayback = 0; + ma_bool32 virtualWriteCursorLoopFlagPlayback = 0; + ma_bool32 isPlaybackDeviceStarted = MA_FALSE; + ma_uint32 framesWrittenToPlaybackDevice = 0; /* For knowing whether or not the playback device needs to be started. */ + ma_uint32 waitTimeInMilliseconds = 1; + DWORD playbackBufferStatus = 0; + + MA_ASSERT(pDevice != NULL); + + /* The first thing to do is start the capture device. The playback device is only started after the first period is written. */ + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + hr = ma_IDirectSoundCaptureBuffer_Start((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer, MA_DSCBSTART_LOOPING); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSoundCaptureBuffer_Start() failed."); + return ma_result_from_HRESULT(hr); + } + } + + while (ma_device_get_state(pDevice) == ma_device_state_started) { + switch (pDevice->type) + { + case ma_device_type_duplex: + { + DWORD physicalCaptureCursorInBytes; + DWORD physicalReadCursorInBytes; + hr = ma_IDirectSoundCaptureBuffer_GetCurrentPosition((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer, &physicalCaptureCursorInBytes, &physicalReadCursorInBytes); + if (FAILED(hr)) { + return ma_result_from_HRESULT(hr); + } + + /* If nothing is available we just sleep for a bit and return from this iteration. */ + if (physicalReadCursorInBytes == prevReadCursorInBytesCapture) { + ma_sleep(waitTimeInMilliseconds); + continue; /* Nothing is available in the capture buffer. */ + } + + /* + The current position has moved. We need to map all of the captured samples and write them to the playback device, making sure + we don't return until every frame has been copied over. + */ + if (prevReadCursorInBytesCapture < physicalReadCursorInBytes) { + /* The capture position has not looped. This is the simple case. */ + lockOffsetInBytesCapture = prevReadCursorInBytesCapture; + lockSizeInBytesCapture = (physicalReadCursorInBytes - prevReadCursorInBytesCapture); + } else { + /* + The capture position has looped. This is the more complex case. Map to the end of the buffer. If this does not return anything, + do it again from the start. + */ + if (prevReadCursorInBytesCapture < pDevice->capture.internalPeriodSizeInFrames*pDevice->capture.internalPeriods*bpfDeviceCapture) { + /* Lock up to the end of the buffer. */ + lockOffsetInBytesCapture = prevReadCursorInBytesCapture; + lockSizeInBytesCapture = (pDevice->capture.internalPeriodSizeInFrames*pDevice->capture.internalPeriods*bpfDeviceCapture) - prevReadCursorInBytesCapture; + } else { + /* Lock starting from the start of the buffer. */ + lockOffsetInBytesCapture = 0; + lockSizeInBytesCapture = physicalReadCursorInBytes; + } + } + + if (lockSizeInBytesCapture == 0) { + ma_sleep(waitTimeInMilliseconds); + continue; /* Nothing is available in the capture buffer. */ + } + + hr = ma_IDirectSoundCaptureBuffer_Lock((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer, lockOffsetInBytesCapture, lockSizeInBytesCapture, &pMappedDeviceBufferCapture, &mappedSizeInBytesCapture, NULL, NULL, 0); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Failed to map buffer from capture device in preparation for writing to the device."); + return ma_result_from_HRESULT(hr); + } + + + /* At this point we have some input data that we need to output. We do not return until every mapped frame of the input data is written to the playback device. */ + mappedDeviceFramesProcessedCapture = 0; + + for (;;) { /* Keep writing to the playback device. */ + ma_uint8 inputFramesInClientFormat[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + ma_uint32 inputFramesInClientFormatCap = sizeof(inputFramesInClientFormat) / ma_get_bytes_per_frame(pDevice->capture.format, pDevice->capture.channels); + ma_uint8 outputFramesInClientFormat[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + ma_uint32 outputFramesInClientFormatCap = sizeof(outputFramesInClientFormat) / ma_get_bytes_per_frame(pDevice->playback.format, pDevice->playback.channels); + ma_uint32 outputFramesInClientFormatCount; + ma_uint32 outputFramesInClientFormatConsumed = 0; + ma_uint64 clientCapturedFramesToProcess = ma_min(inputFramesInClientFormatCap, outputFramesInClientFormatCap); + ma_uint64 deviceCapturedFramesToProcess = (mappedSizeInBytesCapture / bpfDeviceCapture) - mappedDeviceFramesProcessedCapture; + void* pRunningMappedDeviceBufferCapture = ma_offset_ptr(pMappedDeviceBufferCapture, mappedDeviceFramesProcessedCapture * bpfDeviceCapture); + + result = ma_data_converter_process_pcm_frames(&pDevice->capture.converter, pRunningMappedDeviceBufferCapture, &deviceCapturedFramesToProcess, inputFramesInClientFormat, &clientCapturedFramesToProcess); + if (result != MA_SUCCESS) { + break; + } + + outputFramesInClientFormatCount = (ma_uint32)clientCapturedFramesToProcess; + mappedDeviceFramesProcessedCapture += (ma_uint32)deviceCapturedFramesToProcess; + + ma_device__handle_data_callback(pDevice, outputFramesInClientFormat, inputFramesInClientFormat, (ma_uint32)clientCapturedFramesToProcess); + + /* At this point we have input and output data in client format. All we need to do now is convert it to the output device format. This may take a few passes. */ + for (;;) { + ma_uint32 framesWrittenThisIteration; + DWORD physicalPlayCursorInBytes; + DWORD physicalWriteCursorInBytes; + DWORD availableBytesPlayback; + DWORD silentPaddingInBytes = 0; /* <-- Must be initialized to 0. */ + + /* We need the physical play and write cursors. */ + if (FAILED(ma_IDirectSoundBuffer_GetCurrentPosition((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, &physicalPlayCursorInBytes, &physicalWriteCursorInBytes))) { + break; + } + + if (physicalPlayCursorInBytes < prevPlayCursorInBytesPlayback) { + physicalPlayCursorLoopFlagPlayback = !physicalPlayCursorLoopFlagPlayback; + } + prevPlayCursorInBytesPlayback = physicalPlayCursorInBytes; + + /* If there's any bytes available for writing we can do that now. The space between the virtual cursor position and play cursor. */ + if (physicalPlayCursorLoopFlagPlayback == virtualWriteCursorLoopFlagPlayback) { + /* Same loop iteration. The available bytes wraps all the way around from the virtual write cursor to the physical play cursor. */ + if (physicalPlayCursorInBytes <= virtualWriteCursorInBytesPlayback) { + availableBytesPlayback = (pDevice->playback.internalPeriodSizeInFrames*pDevice->playback.internalPeriods*bpfDevicePlayback) - virtualWriteCursorInBytesPlayback; + availableBytesPlayback += physicalPlayCursorInBytes; /* Wrap around. */ + } else { + /* This is an error. */ + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[DirectSound] (Duplex/Playback): Play cursor has moved in front of the write cursor (same loop iteration). physicalPlayCursorInBytes=%ld, virtualWriteCursorInBytes=%ld.\n", physicalPlayCursorInBytes, virtualWriteCursorInBytesPlayback); + availableBytesPlayback = 0; + } + } else { + /* Different loop iterations. The available bytes only goes from the virtual write cursor to the physical play cursor. */ + if (physicalPlayCursorInBytes >= virtualWriteCursorInBytesPlayback) { + availableBytesPlayback = physicalPlayCursorInBytes - virtualWriteCursorInBytesPlayback; + } else { + /* This is an error. */ + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[DirectSound] (Duplex/Playback): Write cursor has moved behind the play cursor (different loop iterations). physicalPlayCursorInBytes=%ld, virtualWriteCursorInBytes=%ld.\n", physicalPlayCursorInBytes, virtualWriteCursorInBytesPlayback); + availableBytesPlayback = 0; + } + } + + /* If there's no room available for writing we need to wait for more. */ + if (availableBytesPlayback == 0) { + /* If we haven't started the device yet, this will never get beyond 0. In this case we need to get the device started. */ + if (!isPlaybackDeviceStarted) { + hr = ma_IDirectSoundBuffer_Play((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, 0, 0, MA_DSBPLAY_LOOPING); + if (FAILED(hr)) { + ma_IDirectSoundCaptureBuffer_Stop((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSoundBuffer_Play() failed."); + return ma_result_from_HRESULT(hr); + } + isPlaybackDeviceStarted = MA_TRUE; + } else { + ma_sleep(waitTimeInMilliseconds); + continue; + } + } + + + /* Getting here means there room available somewhere. We limit this to either the end of the buffer or the physical play cursor, whichever is closest. */ + lockOffsetInBytesPlayback = virtualWriteCursorInBytesPlayback; + if (physicalPlayCursorLoopFlagPlayback == virtualWriteCursorLoopFlagPlayback) { + /* Same loop iteration. Go up to the end of the buffer. */ + lockSizeInBytesPlayback = (pDevice->playback.internalPeriodSizeInFrames*pDevice->playback.internalPeriods*bpfDevicePlayback) - virtualWriteCursorInBytesPlayback; + } else { + /* Different loop iterations. Go up to the physical play cursor. */ + lockSizeInBytesPlayback = physicalPlayCursorInBytes - virtualWriteCursorInBytesPlayback; + } + + hr = ma_IDirectSoundBuffer_Lock((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, lockOffsetInBytesPlayback, lockSizeInBytesPlayback, &pMappedDeviceBufferPlayback, &mappedSizeInBytesPlayback, NULL, NULL, 0); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Failed to map buffer from playback device in preparation for writing to the device."); + result = ma_result_from_HRESULT(hr); + break; + } + + /* + Experiment: If the playback buffer is being starved, pad it with some silence to get it back in sync. This will cause a glitch, but it may prevent + endless glitching due to it constantly running out of data. + */ + if (isPlaybackDeviceStarted) { + DWORD bytesQueuedForPlayback = (pDevice->playback.internalPeriodSizeInFrames*pDevice->playback.internalPeriods*bpfDevicePlayback) - availableBytesPlayback; + if (bytesQueuedForPlayback < (pDevice->playback.internalPeriodSizeInFrames*bpfDevicePlayback)) { + silentPaddingInBytes = (pDevice->playback.internalPeriodSizeInFrames*2*bpfDevicePlayback) - bytesQueuedForPlayback; + if (silentPaddingInBytes > lockSizeInBytesPlayback) { + silentPaddingInBytes = lockSizeInBytesPlayback; + } + + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[DirectSound] (Duplex/Playback) Playback buffer starved. availableBytesPlayback=%ld, silentPaddingInBytes=%ld\n", availableBytesPlayback, silentPaddingInBytes); + } + } + + /* At this point we have a buffer for output. */ + if (silentPaddingInBytes > 0) { + MA_ZERO_MEMORY(pMappedDeviceBufferPlayback, silentPaddingInBytes); + framesWrittenThisIteration = silentPaddingInBytes/bpfDevicePlayback; + } else { + ma_uint64 convertedFrameCountIn = (outputFramesInClientFormatCount - outputFramesInClientFormatConsumed); + ma_uint64 convertedFrameCountOut = mappedSizeInBytesPlayback/bpfDevicePlayback; + void* pConvertedFramesIn = ma_offset_ptr(outputFramesInClientFormat, outputFramesInClientFormatConsumed * bpfDevicePlayback); + void* pConvertedFramesOut = pMappedDeviceBufferPlayback; + + result = ma_data_converter_process_pcm_frames(&pDevice->playback.converter, pConvertedFramesIn, &convertedFrameCountIn, pConvertedFramesOut, &convertedFrameCountOut); + if (result != MA_SUCCESS) { + break; + } + + outputFramesInClientFormatConsumed += (ma_uint32)convertedFrameCountOut; + framesWrittenThisIteration = (ma_uint32)convertedFrameCountOut; + } + + + hr = ma_IDirectSoundBuffer_Unlock((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, pMappedDeviceBufferPlayback, framesWrittenThisIteration*bpfDevicePlayback, NULL, 0); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Failed to unlock internal buffer from playback device after writing to the device."); + result = ma_result_from_HRESULT(hr); + break; + } + + virtualWriteCursorInBytesPlayback += framesWrittenThisIteration*bpfDevicePlayback; + if ((virtualWriteCursorInBytesPlayback/bpfDevicePlayback) == pDevice->playback.internalPeriodSizeInFrames*pDevice->playback.internalPeriods) { + virtualWriteCursorInBytesPlayback = 0; + virtualWriteCursorLoopFlagPlayback = !virtualWriteCursorLoopFlagPlayback; + } + + /* + We may need to start the device. We want two full periods to be written before starting the playback device. Having an extra period adds + a bit of a buffer to prevent the playback buffer from getting starved. + */ + framesWrittenToPlaybackDevice += framesWrittenThisIteration; + if (!isPlaybackDeviceStarted && framesWrittenToPlaybackDevice >= (pDevice->playback.internalPeriodSizeInFrames*2)) { + hr = ma_IDirectSoundBuffer_Play((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, 0, 0, MA_DSBPLAY_LOOPING); + if (FAILED(hr)) { + ma_IDirectSoundCaptureBuffer_Stop((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSoundBuffer_Play() failed."); + return ma_result_from_HRESULT(hr); + } + isPlaybackDeviceStarted = MA_TRUE; + } + + if (framesWrittenThisIteration < mappedSizeInBytesPlayback/bpfDevicePlayback) { + break; /* We're finished with the output data.*/ + } + } + + if (clientCapturedFramesToProcess == 0) { + break; /* We just consumed every input sample. */ + } + } + + + /* At this point we're done with the mapped portion of the capture buffer. */ + hr = ma_IDirectSoundCaptureBuffer_Unlock((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer, pMappedDeviceBufferCapture, mappedSizeInBytesCapture, NULL, 0); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Failed to unlock internal buffer from capture device after reading from the device."); + return ma_result_from_HRESULT(hr); + } + prevReadCursorInBytesCapture = (lockOffsetInBytesCapture + mappedSizeInBytesCapture); + } break; + + + + case ma_device_type_capture: + { + DWORD physicalCaptureCursorInBytes; + DWORD physicalReadCursorInBytes; + hr = ma_IDirectSoundCaptureBuffer_GetCurrentPosition((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer, &physicalCaptureCursorInBytes, &physicalReadCursorInBytes); + if (FAILED(hr)) { + return MA_ERROR; + } + + /* If the previous capture position is the same as the current position we need to wait a bit longer. */ + if (prevReadCursorInBytesCapture == physicalReadCursorInBytes) { + ma_sleep(waitTimeInMilliseconds); + continue; + } + + /* Getting here means we have capture data available. */ + if (prevReadCursorInBytesCapture < physicalReadCursorInBytes) { + /* The capture position has not looped. This is the simple case. */ + lockOffsetInBytesCapture = prevReadCursorInBytesCapture; + lockSizeInBytesCapture = (physicalReadCursorInBytes - prevReadCursorInBytesCapture); + } else { + /* + The capture position has looped. This is the more complex case. Map to the end of the buffer. If this does not return anything, + do it again from the start. + */ + if (prevReadCursorInBytesCapture < pDevice->capture.internalPeriodSizeInFrames*pDevice->capture.internalPeriods*bpfDeviceCapture) { + /* Lock up to the end of the buffer. */ + lockOffsetInBytesCapture = prevReadCursorInBytesCapture; + lockSizeInBytesCapture = (pDevice->capture.internalPeriodSizeInFrames*pDevice->capture.internalPeriods*bpfDeviceCapture) - prevReadCursorInBytesCapture; + } else { + /* Lock starting from the start of the buffer. */ + lockOffsetInBytesCapture = 0; + lockSizeInBytesCapture = physicalReadCursorInBytes; + } + } + + if (lockSizeInBytesCapture < pDevice->capture.internalPeriodSizeInFrames) { + ma_sleep(waitTimeInMilliseconds); + continue; /* Nothing is available in the capture buffer. */ + } + + hr = ma_IDirectSoundCaptureBuffer_Lock((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer, lockOffsetInBytesCapture, lockSizeInBytesCapture, &pMappedDeviceBufferCapture, &mappedSizeInBytesCapture, NULL, NULL, 0); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Failed to map buffer from capture device in preparation for writing to the device."); + result = ma_result_from_HRESULT(hr); + } + + if (lockSizeInBytesCapture != mappedSizeInBytesCapture) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[DirectSound] (Capture) lockSizeInBytesCapture=%ld != mappedSizeInBytesCapture=%ld\n", lockSizeInBytesCapture, mappedSizeInBytesCapture); + } + + ma_device__send_frames_to_client(pDevice, mappedSizeInBytesCapture/bpfDeviceCapture, pMappedDeviceBufferCapture); + + hr = ma_IDirectSoundCaptureBuffer_Unlock((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer, pMappedDeviceBufferCapture, mappedSizeInBytesCapture, NULL, 0); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Failed to unlock internal buffer from capture device after reading from the device."); + return ma_result_from_HRESULT(hr); + } + prevReadCursorInBytesCapture = lockOffsetInBytesCapture + mappedSizeInBytesCapture; + + if (prevReadCursorInBytesCapture == (pDevice->capture.internalPeriodSizeInFrames*pDevice->capture.internalPeriods*bpfDeviceCapture)) { + prevReadCursorInBytesCapture = 0; + } + } break; + + + + case ma_device_type_playback: + { + DWORD availableBytesPlayback; + DWORD physicalPlayCursorInBytes; + DWORD physicalWriteCursorInBytes; + hr = ma_IDirectSoundBuffer_GetCurrentPosition((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, &physicalPlayCursorInBytes, &physicalWriteCursorInBytes); + if (FAILED(hr)) { + break; + } + + hr = ma_IDirectSoundBuffer_GetStatus((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, &playbackBufferStatus); + if (SUCCEEDED(hr) && (playbackBufferStatus & MA_DSBSTATUS_PLAYING) == 0 && isPlaybackDeviceStarted) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[DirectSound] Attempting to resume audio due to state: %d.", (int)playbackBufferStatus); + hr = ma_IDirectSoundBuffer_Play((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, 0, 0, MA_DSBPLAY_LOOPING); + if (FAILED(hr)) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSoundBuffer_Play() failed after attempting to resume from state %d.", (int)playbackBufferStatus); + return ma_result_from_HRESULT(hr); + } + + isPlaybackDeviceStarted = MA_TRUE; + ma_sleep(waitTimeInMilliseconds); + continue; + } + + if (physicalPlayCursorInBytes < prevPlayCursorInBytesPlayback) { + physicalPlayCursorLoopFlagPlayback = !physicalPlayCursorLoopFlagPlayback; + } + prevPlayCursorInBytesPlayback = physicalPlayCursorInBytes; + + /* If there's any bytes available for writing we can do that now. The space between the virtual cursor position and play cursor. */ + if (physicalPlayCursorLoopFlagPlayback == virtualWriteCursorLoopFlagPlayback) { + /* Same loop iteration. The available bytes wraps all the way around from the virtual write cursor to the physical play cursor. */ + if (physicalPlayCursorInBytes <= virtualWriteCursorInBytesPlayback) { + availableBytesPlayback = (pDevice->playback.internalPeriodSizeInFrames*pDevice->playback.internalPeriods*bpfDevicePlayback) - virtualWriteCursorInBytesPlayback; + availableBytesPlayback += physicalPlayCursorInBytes; /* Wrap around. */ + } else { + /* This is an error. */ + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[DirectSound] (Playback): Play cursor has moved in front of the write cursor (same loop iterations). physicalPlayCursorInBytes=%ld, virtualWriteCursorInBytes=%ld.\n", physicalPlayCursorInBytes, virtualWriteCursorInBytesPlayback); + availableBytesPlayback = 0; + } + } else { + /* Different loop iterations. The available bytes only goes from the virtual write cursor to the physical play cursor. */ + if (physicalPlayCursorInBytes >= virtualWriteCursorInBytesPlayback) { + availableBytesPlayback = physicalPlayCursorInBytes - virtualWriteCursorInBytesPlayback; + } else { + /* This is an error. */ + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[DirectSound] (Playback): Write cursor has moved behind the play cursor (different loop iterations). physicalPlayCursorInBytes=%ld, virtualWriteCursorInBytes=%ld.\n", physicalPlayCursorInBytes, virtualWriteCursorInBytesPlayback); + availableBytesPlayback = 0; + } + } + + /* If there's no room available for writing we need to wait for more. */ + if (availableBytesPlayback < pDevice->playback.internalPeriodSizeInFrames) { + /* If we haven't started the device yet, this will never get beyond 0. In this case we need to get the device started. */ + if (availableBytesPlayback == 0 && !isPlaybackDeviceStarted) { + hr = ma_IDirectSoundBuffer_Play((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, 0, 0, MA_DSBPLAY_LOOPING); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSoundBuffer_Play() failed."); + return ma_result_from_HRESULT(hr); + } + isPlaybackDeviceStarted = MA_TRUE; + } else { + ma_sleep(waitTimeInMilliseconds); + continue; + } + } + + /* Getting here means there room available somewhere. We limit this to either the end of the buffer or the physical play cursor, whichever is closest. */ + lockOffsetInBytesPlayback = virtualWriteCursorInBytesPlayback; + if (physicalPlayCursorLoopFlagPlayback == virtualWriteCursorLoopFlagPlayback) { + /* Same loop iteration. Go up to the end of the buffer. */ + lockSizeInBytesPlayback = (pDevice->playback.internalPeriodSizeInFrames*pDevice->playback.internalPeriods*bpfDevicePlayback) - virtualWriteCursorInBytesPlayback; + } else { + /* Different loop iterations. Go up to the physical play cursor. */ + lockSizeInBytesPlayback = physicalPlayCursorInBytes - virtualWriteCursorInBytesPlayback; + } + + hr = ma_IDirectSoundBuffer_Lock((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, lockOffsetInBytesPlayback, lockSizeInBytesPlayback, &pMappedDeviceBufferPlayback, &mappedSizeInBytesPlayback, NULL, NULL, 0); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Failed to map buffer from playback device in preparation for writing to the device."); + result = ma_result_from_HRESULT(hr); + break; + } + + /* At this point we have a buffer for output. */ + ma_device__read_frames_from_client(pDevice, (mappedSizeInBytesPlayback/bpfDevicePlayback), pMappedDeviceBufferPlayback); + + hr = ma_IDirectSoundBuffer_Unlock((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, pMappedDeviceBufferPlayback, mappedSizeInBytesPlayback, NULL, 0); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] Failed to unlock internal buffer from playback device after writing to the device."); + result = ma_result_from_HRESULT(hr); + break; + } + + virtualWriteCursorInBytesPlayback += mappedSizeInBytesPlayback; + if (virtualWriteCursorInBytesPlayback == pDevice->playback.internalPeriodSizeInFrames*pDevice->playback.internalPeriods*bpfDevicePlayback) { + virtualWriteCursorInBytesPlayback = 0; + virtualWriteCursorLoopFlagPlayback = !virtualWriteCursorLoopFlagPlayback; + } + + /* + We may need to start the device. We want two full periods to be written before starting the playback device. Having an extra period adds + a bit of a buffer to prevent the playback buffer from getting starved. + */ + framesWrittenToPlaybackDevice += mappedSizeInBytesPlayback/bpfDevicePlayback; + if (!isPlaybackDeviceStarted && framesWrittenToPlaybackDevice >= pDevice->playback.internalPeriodSizeInFrames) { + hr = ma_IDirectSoundBuffer_Play((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, 0, 0, MA_DSBPLAY_LOOPING); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSoundBuffer_Play() failed."); + return ma_result_from_HRESULT(hr); + } + isPlaybackDeviceStarted = MA_TRUE; + } + } break; + + + default: return MA_INVALID_ARGS; /* Invalid device type. */ + } + + if (result != MA_SUCCESS) { + return result; + } + } + + /* Getting here means the device is being stopped. */ + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + hr = ma_IDirectSoundCaptureBuffer_Stop((ma_IDirectSoundCaptureBuffer*)pDevice->dsound.pCaptureBuffer); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSoundCaptureBuffer_Stop() failed."); + return ma_result_from_HRESULT(hr); + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + /* The playback device should be drained before stopping. All we do is wait until the available bytes is equal to the size of the buffer. */ + if (isPlaybackDeviceStarted) { + for (;;) { + DWORD availableBytesPlayback = 0; + DWORD physicalPlayCursorInBytes; + DWORD physicalWriteCursorInBytes; + hr = ma_IDirectSoundBuffer_GetCurrentPosition((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, &physicalPlayCursorInBytes, &physicalWriteCursorInBytes); + if (FAILED(hr)) { + break; + } + + if (physicalPlayCursorInBytes < prevPlayCursorInBytesPlayback) { + physicalPlayCursorLoopFlagPlayback = !physicalPlayCursorLoopFlagPlayback; + } + prevPlayCursorInBytesPlayback = physicalPlayCursorInBytes; + + if (physicalPlayCursorLoopFlagPlayback == virtualWriteCursorLoopFlagPlayback) { + /* Same loop iteration. The available bytes wraps all the way around from the virtual write cursor to the physical play cursor. */ + if (physicalPlayCursorInBytes <= virtualWriteCursorInBytesPlayback) { + availableBytesPlayback = (pDevice->playback.internalPeriodSizeInFrames*pDevice->playback.internalPeriods*bpfDevicePlayback) - virtualWriteCursorInBytesPlayback; + availableBytesPlayback += physicalPlayCursorInBytes; /* Wrap around. */ + } else { + break; + } + } else { + /* Different loop iterations. The available bytes only goes from the virtual write cursor to the physical play cursor. */ + if (physicalPlayCursorInBytes >= virtualWriteCursorInBytesPlayback) { + availableBytesPlayback = physicalPlayCursorInBytes - virtualWriteCursorInBytesPlayback; + } else { + break; + } + } + + if (availableBytesPlayback >= (pDevice->playback.internalPeriodSizeInFrames*pDevice->playback.internalPeriods*bpfDevicePlayback)) { + break; + } + + ma_sleep(waitTimeInMilliseconds); + } + } + + hr = ma_IDirectSoundBuffer_Stop((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer); + if (FAILED(hr)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSoundBuffer_Stop() failed."); + return ma_result_from_HRESULT(hr); + } + + ma_IDirectSoundBuffer_SetCurrentPosition((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, 0); + } + + return MA_SUCCESS; +} + +static ma_result ma_context_uninit__dsound(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_dsound); + + ma_dlclose(ma_context_get_log(pContext), pContext->dsound.hDSoundDLL); + + return MA_SUCCESS; +} + +static ma_result ma_context_init__dsound(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ + MA_ASSERT(pContext != NULL); + + (void)pConfig; + + pContext->dsound.hDSoundDLL = ma_dlopen(ma_context_get_log(pContext), "dsound.dll"); + if (pContext->dsound.hDSoundDLL == NULL) { + return MA_API_NOT_FOUND; + } + + pContext->dsound.DirectSoundCreate = ma_dlsym(ma_context_get_log(pContext), pContext->dsound.hDSoundDLL, "DirectSoundCreate"); + pContext->dsound.DirectSoundEnumerateA = ma_dlsym(ma_context_get_log(pContext), pContext->dsound.hDSoundDLL, "DirectSoundEnumerateA"); + pContext->dsound.DirectSoundCaptureCreate = ma_dlsym(ma_context_get_log(pContext), pContext->dsound.hDSoundDLL, "DirectSoundCaptureCreate"); + pContext->dsound.DirectSoundCaptureEnumerateA = ma_dlsym(ma_context_get_log(pContext), pContext->dsound.hDSoundDLL, "DirectSoundCaptureEnumerateA"); + + /* + We need to support all functions or nothing. DirectSound with Windows 95 seems to not work too + well in my testing. For example, it's missing DirectSoundCaptureEnumerateA(). This is a convenient + place to just disable the DirectSound backend for Windows 95. + */ + if (pContext->dsound.DirectSoundCreate == NULL || + pContext->dsound.DirectSoundEnumerateA == NULL || + pContext->dsound.DirectSoundCaptureCreate == NULL || + pContext->dsound.DirectSoundCaptureEnumerateA == NULL) { + return MA_API_NOT_FOUND; + } + + pContext->dsound.hWnd = pConfig->dsound.hWnd; + + pCallbacks->onContextInit = ma_context_init__dsound; + pCallbacks->onContextUninit = ma_context_uninit__dsound; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__dsound; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__dsound; + pCallbacks->onDeviceInit = ma_device_init__dsound; + pCallbacks->onDeviceUninit = ma_device_uninit__dsound; + pCallbacks->onDeviceStart = NULL; /* Not used. Started in onDeviceDataLoop. */ + pCallbacks->onDeviceStop = NULL; /* Not used. Stopped in onDeviceDataLoop. */ + pCallbacks->onDeviceRead = NULL; /* Not used. Data is read directly in onDeviceDataLoop. */ + pCallbacks->onDeviceWrite = NULL; /* Not used. Data is written directly in onDeviceDataLoop. */ + pCallbacks->onDeviceDataLoop = ma_device_data_loop__dsound; + + return MA_SUCCESS; +} +#endif + + + +/****************************************************************************** + +WinMM Backend + +******************************************************************************/ +#ifdef MA_HAS_WINMM + +/* +Some build configurations will exclude the WinMM API. An example is when WIN32_LEAN_AND_MEAN +is defined. We need to define the types and functions we need manually. +*/ +#define MA_MMSYSERR_NOERROR 0 +#define MA_MMSYSERR_ERROR 1 +#define MA_MMSYSERR_BADDEVICEID 2 +#define MA_MMSYSERR_INVALHANDLE 5 +#define MA_MMSYSERR_NOMEM 7 +#define MA_MMSYSERR_INVALFLAG 10 +#define MA_MMSYSERR_INVALPARAM 11 +#define MA_MMSYSERR_HANDLEBUSY 12 + +#define MA_CALLBACK_EVENT 0x00050000 +#define MA_WAVE_ALLOWSYNC 0x0002 + +#define MA_WHDR_DONE 0x00000001 +#define MA_WHDR_PREPARED 0x00000002 +#define MA_WHDR_BEGINLOOP 0x00000004 +#define MA_WHDR_ENDLOOP 0x00000008 +#define MA_WHDR_INQUEUE 0x00000010 + +#define MA_MAXPNAMELEN 32 + +typedef void* MA_HWAVEIN; +typedef void* MA_HWAVEOUT; +typedef UINT MA_MMRESULT; +typedef UINT MA_MMVERSION; + +typedef struct +{ + WORD wMid; + WORD wPid; + MA_MMVERSION vDriverVersion; + CHAR szPname[MA_MAXPNAMELEN]; + DWORD dwFormats; + WORD wChannels; + WORD wReserved1; +} MA_WAVEINCAPSA; + +typedef struct +{ + WORD wMid; + WORD wPid; + MA_MMVERSION vDriverVersion; + CHAR szPname[MA_MAXPNAMELEN]; + DWORD dwFormats; + WORD wChannels; + WORD wReserved1; + DWORD dwSupport; +} MA_WAVEOUTCAPSA; + +typedef struct tagWAVEHDR +{ + char* lpData; + DWORD dwBufferLength; + DWORD dwBytesRecorded; + DWORD_PTR dwUser; + DWORD dwFlags; + DWORD dwLoops; + struct tagWAVEHDR* lpNext; + DWORD_PTR reserved; +} MA_WAVEHDR; + +typedef struct +{ + WORD wMid; + WORD wPid; + MA_MMVERSION vDriverVersion; + CHAR szPname[MA_MAXPNAMELEN]; + DWORD dwFormats; + WORD wChannels; + WORD wReserved1; + DWORD dwSupport; + GUID ManufacturerGuid; + GUID ProductGuid; + GUID NameGuid; +} MA_WAVEOUTCAPS2A; + +typedef struct +{ + WORD wMid; + WORD wPid; + MA_MMVERSION vDriverVersion; + CHAR szPname[MA_MAXPNAMELEN]; + DWORD dwFormats; + WORD wChannels; + WORD wReserved1; + GUID ManufacturerGuid; + GUID ProductGuid; + GUID NameGuid; +} MA_WAVEINCAPS2A; + +typedef UINT (WINAPI * MA_PFN_waveOutGetNumDevs)(void); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveOutGetDevCapsA)(ma_uintptr uDeviceID, MA_WAVEOUTCAPSA* pwoc, UINT cbwoc); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveOutOpen)(MA_HWAVEOUT* phwo, UINT uDeviceID, const MA_WAVEFORMATEX* pwfx, DWORD_PTR dwCallback, DWORD_PTR dwInstance, DWORD fdwOpen); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveOutClose)(MA_HWAVEOUT hwo); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveOutPrepareHeader)(MA_HWAVEOUT hwo, MA_WAVEHDR* pwh, UINT cbwh); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveOutUnprepareHeader)(MA_HWAVEOUT hwo, MA_WAVEHDR* pwh, UINT cbwh); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveOutWrite)(MA_HWAVEOUT hwo, MA_WAVEHDR* pwh, UINT cbwh); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveOutReset)(MA_HWAVEOUT hwo); +typedef UINT (WINAPI * MA_PFN_waveInGetNumDevs)(void); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveInGetDevCapsA)(ma_uintptr uDeviceID, MA_WAVEINCAPSA* pwic, UINT cbwic); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveInOpen)(MA_HWAVEIN* phwi, UINT uDeviceID, const MA_WAVEFORMATEX* pwfx, DWORD_PTR dwCallback, DWORD_PTR dwInstance, DWORD fdwOpen); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveInClose)(MA_HWAVEIN hwi); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveInPrepareHeader)(MA_HWAVEIN hwi, MA_WAVEHDR* pwh, UINT cbwh); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveInUnprepareHeader)(MA_HWAVEIN hwi, MA_WAVEHDR* pwh, UINT cbwh); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveInAddBuffer)(MA_HWAVEIN hwi, MA_WAVEHDR* pwh, UINT cbwh); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveInStart)(MA_HWAVEIN hwi); +typedef MA_MMRESULT (WINAPI * MA_PFN_waveInReset)(MA_HWAVEIN hwi); + +static ma_result ma_result_from_MMRESULT(MA_MMRESULT resultMM) +{ + switch (resultMM) + { + case MA_MMSYSERR_NOERROR: return MA_SUCCESS; + case MA_MMSYSERR_BADDEVICEID: return MA_INVALID_ARGS; + case MA_MMSYSERR_INVALHANDLE: return MA_INVALID_ARGS; + case MA_MMSYSERR_NOMEM: return MA_OUT_OF_MEMORY; + case MA_MMSYSERR_INVALFLAG: return MA_INVALID_ARGS; + case MA_MMSYSERR_INVALPARAM: return MA_INVALID_ARGS; + case MA_MMSYSERR_HANDLEBUSY: return MA_BUSY; + case MA_MMSYSERR_ERROR: return MA_ERROR; + default: return MA_ERROR; + } +} + +static char* ma_find_last_character(char* str, char ch) +{ + char* last; + + if (str == NULL) { + return NULL; + } + + last = NULL; + while (*str != '\0') { + if (*str == ch) { + last = str; + } + + str += 1; + } + + return last; +} + +static ma_uint32 ma_get_period_size_in_bytes(ma_uint32 periodSizeInFrames, ma_format format, ma_uint32 channels) +{ + return periodSizeInFrames * ma_get_bytes_per_frame(format, channels); +} + + +/* +Our own "WAVECAPS" structure that contains generic information shared between WAVEOUTCAPS2 and WAVEINCAPS2 so +we can do things generically and typesafely. Names are being kept the same for consistency. +*/ +typedef struct +{ + CHAR szPname[MA_MAXPNAMELEN]; + DWORD dwFormats; + WORD wChannels; + GUID NameGuid; +} MA_WAVECAPSA; + +static ma_result ma_get_best_info_from_formats_flags__winmm(DWORD dwFormats, WORD channels, WORD* pBitsPerSample, DWORD* pSampleRate) +{ + WORD bitsPerSample = 0; + DWORD sampleRate = 0; + + if (pBitsPerSample) { + *pBitsPerSample = 0; + } + if (pSampleRate) { + *pSampleRate = 0; + } + + if (channels == 1) { + bitsPerSample = 16; + if ((dwFormats & WAVE_FORMAT_48M16) != 0) { + sampleRate = 48000; + } else if ((dwFormats & WAVE_FORMAT_44M16) != 0) { + sampleRate = 44100; + } else if ((dwFormats & WAVE_FORMAT_2M16) != 0) { + sampleRate = 22050; + } else if ((dwFormats & WAVE_FORMAT_1M16) != 0) { + sampleRate = 11025; + } else if ((dwFormats & WAVE_FORMAT_96M16) != 0) { + sampleRate = 96000; + } else { + bitsPerSample = 8; + if ((dwFormats & WAVE_FORMAT_48M08) != 0) { + sampleRate = 48000; + } else if ((dwFormats & WAVE_FORMAT_44M08) != 0) { + sampleRate = 44100; + } else if ((dwFormats & WAVE_FORMAT_2M08) != 0) { + sampleRate = 22050; + } else if ((dwFormats & WAVE_FORMAT_1M08) != 0) { + sampleRate = 11025; + } else if ((dwFormats & WAVE_FORMAT_96M08) != 0) { + sampleRate = 96000; + } else { + return MA_FORMAT_NOT_SUPPORTED; + } + } + } else { + bitsPerSample = 16; + if ((dwFormats & WAVE_FORMAT_48S16) != 0) { + sampleRate = 48000; + } else if ((dwFormats & WAVE_FORMAT_44S16) != 0) { + sampleRate = 44100; + } else if ((dwFormats & WAVE_FORMAT_2S16) != 0) { + sampleRate = 22050; + } else if ((dwFormats & WAVE_FORMAT_1S16) != 0) { + sampleRate = 11025; + } else if ((dwFormats & WAVE_FORMAT_96S16) != 0) { + sampleRate = 96000; + } else { + bitsPerSample = 8; + if ((dwFormats & WAVE_FORMAT_48S08) != 0) { + sampleRate = 48000; + } else if ((dwFormats & WAVE_FORMAT_44S08) != 0) { + sampleRate = 44100; + } else if ((dwFormats & WAVE_FORMAT_2S08) != 0) { + sampleRate = 22050; + } else if ((dwFormats & WAVE_FORMAT_1S08) != 0) { + sampleRate = 11025; + } else if ((dwFormats & WAVE_FORMAT_96S08) != 0) { + sampleRate = 96000; + } else { + return MA_FORMAT_NOT_SUPPORTED; + } + } + } + + if (pBitsPerSample) { + *pBitsPerSample = bitsPerSample; + } + if (pSampleRate) { + *pSampleRate = sampleRate; + } + + return MA_SUCCESS; +} + +static ma_result ma_formats_flags_to_WAVEFORMATEX__winmm(DWORD dwFormats, WORD channels, MA_WAVEFORMATEX* pWF) +{ + ma_result result; + + MA_ASSERT(pWF != NULL); + + MA_ZERO_OBJECT(pWF); + pWF->cbSize = sizeof(*pWF); + pWF->wFormatTag = WAVE_FORMAT_PCM; + pWF->nChannels = (WORD)channels; + if (pWF->nChannels > 2) { + pWF->nChannels = 2; + } + + result = ma_get_best_info_from_formats_flags__winmm(dwFormats, channels, &pWF->wBitsPerSample, &pWF->nSamplesPerSec); + if (result != MA_SUCCESS) { + return result; + } + + pWF->nBlockAlign = (WORD)(pWF->nChannels * pWF->wBitsPerSample / 8); + pWF->nAvgBytesPerSec = pWF->nBlockAlign * pWF->nSamplesPerSec; + + return MA_SUCCESS; +} + +static ma_result ma_context_get_device_info_from_WAVECAPS(ma_context* pContext, MA_WAVECAPSA* pCaps, ma_device_info* pDeviceInfo) +{ + WORD bitsPerSample; + DWORD sampleRate; + ma_result result; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pCaps != NULL); + MA_ASSERT(pDeviceInfo != NULL); + + /* + Name / Description + + Unfortunately the name specified in WAVE(OUT/IN)CAPS2 is limited to 31 characters. This results in an unprofessional looking + situation where the names of the devices are truncated. To help work around this, we need to look at the name GUID and try + looking in the registry for the full name. If we can't find it there, we need to just fall back to the default name. + */ + + /* Set the default to begin with. */ + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), pCaps->szPname, (size_t)-1); + + /* + Now try the registry. There's a few things to consider here: + - The name GUID can be null, in which we case we just need to stick to the original 31 characters. + - If the name GUID is not present in the registry we'll also need to stick to the original 31 characters. + - I like consistency, so I want the returned device names to be consistent with those returned by WASAPI and DirectSound. The + problem, however is that WASAPI and DirectSound use " ()" format (such as "Speakers (High Definition Audio)"), + but WinMM does not specify the component name. From my admittedly limited testing, I've notice the component name seems to + usually fit within the 31 characters of the fixed sized buffer, so what I'm going to do is parse that string for the component + name, and then concatenate the name from the registry. + */ + if (!ma_is_guid_null(&pCaps->NameGuid)) { + WCHAR guidStrW[256]; + if (((MA_PFN_StringFromGUID2)pContext->win32.StringFromGUID2)(&pCaps->NameGuid, guidStrW, ma_countof(guidStrW)) > 0) { + char guidStr[256]; + char keyStr[1024]; + HKEY hKey; + + WideCharToMultiByte(CP_UTF8, 0, guidStrW, -1, guidStr, sizeof(guidStr), 0, FALSE); + + ma_strcpy_s(keyStr, sizeof(keyStr), "SYSTEM\\CurrentControlSet\\Control\\MediaCategories\\"); + ma_strcat_s(keyStr, sizeof(keyStr), guidStr); + + if (((MA_PFN_RegOpenKeyExA)pContext->win32.RegOpenKeyExA)(HKEY_LOCAL_MACHINE, keyStr, 0, KEY_READ, &hKey) == ERROR_SUCCESS) { + BYTE nameFromReg[512]; + DWORD nameFromRegSize = sizeof(nameFromReg); + LONG resultWin32 = ((MA_PFN_RegQueryValueExA)pContext->win32.RegQueryValueExA)(hKey, "Name", 0, NULL, (BYTE*)nameFromReg, (DWORD*)&nameFromRegSize); + ((MA_PFN_RegCloseKey)pContext->win32.RegCloseKey)(hKey); + + if (resultWin32 == ERROR_SUCCESS) { + /* We have the value from the registry, so now we need to construct the name string. */ + char name[1024]; + if (ma_strcpy_s(name, sizeof(name), pDeviceInfo->name) == 0) { + char* nameBeg = ma_find_last_character(name, '('); + if (nameBeg != NULL) { + size_t leadingLen = (nameBeg - name); + ma_strncpy_s(nameBeg + 1, sizeof(name) - leadingLen, (const char*)nameFromReg, (size_t)-1); + + /* The closing ")", if it can fit. */ + if (leadingLen + nameFromRegSize < sizeof(name)-1) { + ma_strcat_s(name, sizeof(name), ")"); + } + + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), name, (size_t)-1); + } + } + } + } + } + } + + + result = ma_get_best_info_from_formats_flags__winmm(pCaps->dwFormats, pCaps->wChannels, &bitsPerSample, &sampleRate); + if (result != MA_SUCCESS) { + return result; + } + + if (bitsPerSample == 8) { + pDeviceInfo->nativeDataFormats[0].format = ma_format_u8; + } else if (bitsPerSample == 16) { + pDeviceInfo->nativeDataFormats[0].format = ma_format_s16; + } else if (bitsPerSample == 24) { + pDeviceInfo->nativeDataFormats[0].format = ma_format_s24; + } else if (bitsPerSample == 32) { + pDeviceInfo->nativeDataFormats[0].format = ma_format_s32; + } else { + return MA_FORMAT_NOT_SUPPORTED; + } + pDeviceInfo->nativeDataFormats[0].channels = pCaps->wChannels; + pDeviceInfo->nativeDataFormats[0].sampleRate = sampleRate; + pDeviceInfo->nativeDataFormats[0].flags = 0; + pDeviceInfo->nativeDataFormatCount = 1; + + return MA_SUCCESS; +} + +static ma_result ma_context_get_device_info_from_WAVEOUTCAPS2(ma_context* pContext, MA_WAVEOUTCAPS2A* pCaps, ma_device_info* pDeviceInfo) +{ + MA_WAVECAPSA caps; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pCaps != NULL); + MA_ASSERT(pDeviceInfo != NULL); + + MA_COPY_MEMORY(caps.szPname, pCaps->szPname, sizeof(caps.szPname)); + caps.dwFormats = pCaps->dwFormats; + caps.wChannels = pCaps->wChannels; + caps.NameGuid = pCaps->NameGuid; + return ma_context_get_device_info_from_WAVECAPS(pContext, &caps, pDeviceInfo); +} + +static ma_result ma_context_get_device_info_from_WAVEINCAPS2(ma_context* pContext, MA_WAVEINCAPS2A* pCaps, ma_device_info* pDeviceInfo) +{ + MA_WAVECAPSA caps; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pCaps != NULL); + MA_ASSERT(pDeviceInfo != NULL); + + MA_COPY_MEMORY(caps.szPname, pCaps->szPname, sizeof(caps.szPname)); + caps.dwFormats = pCaps->dwFormats; + caps.wChannels = pCaps->wChannels; + caps.NameGuid = pCaps->NameGuid; + return ma_context_get_device_info_from_WAVECAPS(pContext, &caps, pDeviceInfo); +} + + +static ma_result ma_context_enumerate_devices__winmm(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + UINT playbackDeviceCount; + UINT captureDeviceCount; + UINT iPlaybackDevice; + UINT iCaptureDevice; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + /* Playback. */ + playbackDeviceCount = ((MA_PFN_waveOutGetNumDevs)pContext->winmm.waveOutGetNumDevs)(); + for (iPlaybackDevice = 0; iPlaybackDevice < playbackDeviceCount; ++iPlaybackDevice) { + MA_MMRESULT result; + MA_WAVEOUTCAPS2A caps; + + MA_ZERO_OBJECT(&caps); + + result = ((MA_PFN_waveOutGetDevCapsA)pContext->winmm.waveOutGetDevCapsA)(iPlaybackDevice, (MA_WAVEOUTCAPSA*)&caps, sizeof(caps)); + if (result == MA_MMSYSERR_NOERROR) { + ma_device_info deviceInfo; + + MA_ZERO_OBJECT(&deviceInfo); + deviceInfo.id.winmm = iPlaybackDevice; + + /* The first enumerated device is the default device. */ + if (iPlaybackDevice == 0) { + deviceInfo.isDefault = MA_TRUE; + } + + if (ma_context_get_device_info_from_WAVEOUTCAPS2(pContext, &caps, &deviceInfo) == MA_SUCCESS) { + ma_bool32 cbResult = callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + if (cbResult == MA_FALSE) { + return MA_SUCCESS; /* Enumeration was stopped. */ + } + } + } + } + + /* Capture. */ + captureDeviceCount = ((MA_PFN_waveInGetNumDevs)pContext->winmm.waveInGetNumDevs)(); + for (iCaptureDevice = 0; iCaptureDevice < captureDeviceCount; ++iCaptureDevice) { + MA_MMRESULT result; + MA_WAVEINCAPS2A caps; + + MA_ZERO_OBJECT(&caps); + + result = ((MA_PFN_waveInGetDevCapsA)pContext->winmm.waveInGetDevCapsA)(iCaptureDevice, (MA_WAVEINCAPSA*)&caps, sizeof(caps)); + if (result == MA_MMSYSERR_NOERROR) { + ma_device_info deviceInfo; + + MA_ZERO_OBJECT(&deviceInfo); + deviceInfo.id.winmm = iCaptureDevice; + + /* The first enumerated device is the default device. */ + if (iCaptureDevice == 0) { + deviceInfo.isDefault = MA_TRUE; + } + + if (ma_context_get_device_info_from_WAVEINCAPS2(pContext, &caps, &deviceInfo) == MA_SUCCESS) { + ma_bool32 cbResult = callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + if (cbResult == MA_FALSE) { + return MA_SUCCESS; /* Enumeration was stopped. */ + } + } + } + } + + return MA_SUCCESS; +} + +static ma_result ma_context_get_device_info__winmm(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + UINT winMMDeviceID; + + MA_ASSERT(pContext != NULL); + + winMMDeviceID = 0; + if (pDeviceID != NULL) { + winMMDeviceID = (UINT)pDeviceID->winmm; + } + + pDeviceInfo->id.winmm = winMMDeviceID; + + /* The first ID is the default device. */ + if (winMMDeviceID == 0) { + pDeviceInfo->isDefault = MA_TRUE; + } + + if (deviceType == ma_device_type_playback) { + MA_MMRESULT result; + MA_WAVEOUTCAPS2A caps; + + MA_ZERO_OBJECT(&caps); + + result = ((MA_PFN_waveOutGetDevCapsA)pContext->winmm.waveOutGetDevCapsA)(winMMDeviceID, (MA_WAVEOUTCAPSA*)&caps, sizeof(caps)); + if (result == MA_MMSYSERR_NOERROR) { + return ma_context_get_device_info_from_WAVEOUTCAPS2(pContext, &caps, pDeviceInfo); + } + } else { + MA_MMRESULT result; + MA_WAVEINCAPS2A caps; + + MA_ZERO_OBJECT(&caps); + + result = ((MA_PFN_waveInGetDevCapsA)pContext->winmm.waveInGetDevCapsA)(winMMDeviceID, (MA_WAVEINCAPSA*)&caps, sizeof(caps)); + if (result == MA_MMSYSERR_NOERROR) { + return ma_context_get_device_info_from_WAVEINCAPS2(pContext, &caps, pDeviceInfo); + } + } + + return MA_NO_DEVICE; +} + + +static ma_result ma_device_uninit__winmm(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ((MA_PFN_waveInClose)pDevice->pContext->winmm.waveInClose)((MA_HWAVEIN)pDevice->winmm.hDeviceCapture); + CloseHandle((HANDLE)pDevice->winmm.hEventCapture); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ((MA_PFN_waveOutReset)pDevice->pContext->winmm.waveOutReset)((MA_HWAVEOUT)pDevice->winmm.hDevicePlayback); + ((MA_PFN_waveOutClose)pDevice->pContext->winmm.waveOutClose)((MA_HWAVEOUT)pDevice->winmm.hDevicePlayback); + CloseHandle((HANDLE)pDevice->winmm.hEventPlayback); + } + + ma_free(pDevice->winmm._pHeapData, &pDevice->pContext->allocationCallbacks); + + MA_ZERO_OBJECT(&pDevice->winmm); /* Safety. */ + + return MA_SUCCESS; +} + +static ma_uint32 ma_calculate_period_size_in_frames_from_descriptor__winmm(const ma_device_descriptor* pDescriptor, ma_uint32 nativeSampleRate, ma_performance_profile performanceProfile) +{ + /* WinMM has a minimum period size of 40ms. */ + ma_uint32 minPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(40, nativeSampleRate); + ma_uint32 periodSizeInFrames; + + periodSizeInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptor, nativeSampleRate, performanceProfile); + if (periodSizeInFrames < minPeriodSizeInFrames) { + periodSizeInFrames = minPeriodSizeInFrames; + } + + return periodSizeInFrames; +} + +static ma_result ma_device_init__winmm(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + const char* errorMsg = ""; + ma_result errorCode = MA_ERROR; + ma_result result = MA_SUCCESS; + ma_uint32 heapSize; + UINT winMMDeviceIDPlayback = 0; + UINT winMMDeviceIDCapture = 0; + + MA_ASSERT(pDevice != NULL); + + MA_ZERO_OBJECT(&pDevice->winmm); + + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + /* No exclusive mode with WinMM. */ + if (((pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) && pDescriptorPlayback->shareMode == ma_share_mode_exclusive) || + ((pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) && pDescriptorCapture->shareMode == ma_share_mode_exclusive)) { + return MA_SHARE_MODE_NOT_SUPPORTED; + } + + if (pDescriptorPlayback->pDeviceID != NULL) { + winMMDeviceIDPlayback = (UINT)pDescriptorPlayback->pDeviceID->winmm; + } + if (pDescriptorCapture->pDeviceID != NULL) { + winMMDeviceIDCapture = (UINT)pDescriptorCapture->pDeviceID->winmm; + } + + /* The capture device needs to be initialized first. */ + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + MA_WAVEINCAPSA caps; + MA_WAVEFORMATEX wf; + MA_MMRESULT resultMM; + + /* We use an event to know when a new fragment needs to be enqueued. */ + pDevice->winmm.hEventCapture = (ma_handle)CreateEventA(NULL, TRUE, TRUE, NULL); + if (pDevice->winmm.hEventCapture == NULL) { + errorMsg = "[WinMM] Failed to create event for fragment enqueuing for the capture device.", errorCode = ma_result_from_GetLastError(GetLastError()); + goto on_error; + } + + /* The format should be based on the device's actual format. */ + if (((MA_PFN_waveInGetDevCapsA)pDevice->pContext->winmm.waveInGetDevCapsA)(winMMDeviceIDCapture, &caps, sizeof(caps)) != MA_MMSYSERR_NOERROR) { + errorMsg = "[WinMM] Failed to retrieve internal device caps.", errorCode = MA_FORMAT_NOT_SUPPORTED; + goto on_error; + } + + result = ma_formats_flags_to_WAVEFORMATEX__winmm(caps.dwFormats, caps.wChannels, &wf); + if (result != MA_SUCCESS) { + errorMsg = "[WinMM] Could not find appropriate format for internal device.", errorCode = result; + goto on_error; + } + + resultMM = ((MA_PFN_waveInOpen)pDevice->pContext->winmm.waveInOpen)((MA_HWAVEIN*)&pDevice->winmm.hDeviceCapture, winMMDeviceIDCapture, &wf, (DWORD_PTR)pDevice->winmm.hEventCapture, (DWORD_PTR)pDevice, MA_CALLBACK_EVENT | MA_WAVE_ALLOWSYNC); + if (resultMM != MA_MMSYSERR_NOERROR) { + errorMsg = "[WinMM] Failed to open capture device.", errorCode = MA_FAILED_TO_OPEN_BACKEND_DEVICE; + goto on_error; + } + + pDescriptorCapture->format = ma_format_from_WAVEFORMATEX(&wf); + pDescriptorCapture->channels = wf.nChannels; + pDescriptorCapture->sampleRate = wf.nSamplesPerSec; + ma_channel_map_init_standard(ma_standard_channel_map_microsoft, pDescriptorCapture->channelMap, ma_countof(pDescriptorCapture->channelMap), pDescriptorCapture->channels); + pDescriptorCapture->periodCount = pDescriptorCapture->periodCount; + pDescriptorCapture->periodSizeInFrames = ma_calculate_period_size_in_frames_from_descriptor__winmm(pDescriptorCapture, pDescriptorCapture->sampleRate, pConfig->performanceProfile); + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + MA_WAVEOUTCAPSA caps; + MA_WAVEFORMATEX wf; + MA_MMRESULT resultMM; + + /* We use an event to know when a new fragment needs to be enqueued. */ + pDevice->winmm.hEventPlayback = (ma_handle)CreateEventA(NULL, TRUE, TRUE, NULL); + if (pDevice->winmm.hEventPlayback == NULL) { + errorMsg = "[WinMM] Failed to create event for fragment enqueuing for the playback device.", errorCode = ma_result_from_GetLastError(GetLastError()); + goto on_error; + } + + /* The format should be based on the device's actual format. */ + if (((MA_PFN_waveOutGetDevCapsA)pDevice->pContext->winmm.waveOutGetDevCapsA)(winMMDeviceIDPlayback, &caps, sizeof(caps)) != MA_MMSYSERR_NOERROR) { + errorMsg = "[WinMM] Failed to retrieve internal device caps.", errorCode = MA_FORMAT_NOT_SUPPORTED; + goto on_error; + } + + result = ma_formats_flags_to_WAVEFORMATEX__winmm(caps.dwFormats, caps.wChannels, &wf); + if (result != MA_SUCCESS) { + errorMsg = "[WinMM] Could not find appropriate format for internal device.", errorCode = result; + goto on_error; + } + + resultMM = ((MA_PFN_waveOutOpen)pDevice->pContext->winmm.waveOutOpen)((MA_HWAVEOUT*)&pDevice->winmm.hDevicePlayback, winMMDeviceIDPlayback, &wf, (DWORD_PTR)pDevice->winmm.hEventPlayback, (DWORD_PTR)pDevice, MA_CALLBACK_EVENT | MA_WAVE_ALLOWSYNC); + if (resultMM != MA_MMSYSERR_NOERROR) { + errorMsg = "[WinMM] Failed to open playback device.", errorCode = MA_FAILED_TO_OPEN_BACKEND_DEVICE; + goto on_error; + } + + pDescriptorPlayback->format = ma_format_from_WAVEFORMATEX(&wf); + pDescriptorPlayback->channels = wf.nChannels; + pDescriptorPlayback->sampleRate = wf.nSamplesPerSec; + ma_channel_map_init_standard(ma_standard_channel_map_microsoft, pDescriptorPlayback->channelMap, ma_countof(pDescriptorPlayback->channelMap), pDescriptorPlayback->channels); + pDescriptorPlayback->periodCount = pDescriptorPlayback->periodCount; + pDescriptorPlayback->periodSizeInFrames = ma_calculate_period_size_in_frames_from_descriptor__winmm(pDescriptorPlayback, pDescriptorPlayback->sampleRate, pConfig->performanceProfile); + } + + /* + The heap allocated data is allocated like so: + + [Capture WAVEHDRs][Playback WAVEHDRs][Capture Intermediary Buffer][Playback Intermediary Buffer] + */ + heapSize = 0; + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + heapSize += sizeof(MA_WAVEHDR)*pDescriptorCapture->periodCount + (pDescriptorCapture->periodSizeInFrames * pDescriptorCapture->periodCount * ma_get_bytes_per_frame(pDescriptorCapture->format, pDescriptorCapture->channels)); + } + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + heapSize += sizeof(MA_WAVEHDR)*pDescriptorPlayback->periodCount + (pDescriptorPlayback->periodSizeInFrames * pDescriptorPlayback->periodCount * ma_get_bytes_per_frame(pDescriptorPlayback->format, pDescriptorPlayback->channels)); + } + + pDevice->winmm._pHeapData = (ma_uint8*)ma_calloc(heapSize, &pDevice->pContext->allocationCallbacks); + if (pDevice->winmm._pHeapData == NULL) { + errorMsg = "[WinMM] Failed to allocate memory for the intermediary buffer.", errorCode = MA_OUT_OF_MEMORY; + goto on_error; + } + + MA_ZERO_MEMORY(pDevice->winmm._pHeapData, heapSize); + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + ma_uint32 iPeriod; + + if (pConfig->deviceType == ma_device_type_capture) { + pDevice->winmm.pWAVEHDRCapture = pDevice->winmm._pHeapData; + pDevice->winmm.pIntermediaryBufferCapture = pDevice->winmm._pHeapData + (sizeof(MA_WAVEHDR)*(pDescriptorCapture->periodCount)); + } else { + pDevice->winmm.pWAVEHDRCapture = pDevice->winmm._pHeapData; + pDevice->winmm.pIntermediaryBufferCapture = pDevice->winmm._pHeapData + (sizeof(MA_WAVEHDR)*(pDescriptorCapture->periodCount + pDescriptorPlayback->periodCount)); + } + + /* Prepare headers. */ + for (iPeriod = 0; iPeriod < pDescriptorCapture->periodCount; ++iPeriod) { + ma_uint32 periodSizeInBytes = ma_get_period_size_in_bytes(pDescriptorCapture->periodSizeInFrames, pDescriptorCapture->format, pDescriptorCapture->channels); + + ((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRCapture)[iPeriod].lpData = (char*)(pDevice->winmm.pIntermediaryBufferCapture + (periodSizeInBytes*iPeriod)); + ((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRCapture)[iPeriod].dwBufferLength = periodSizeInBytes; + ((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRCapture)[iPeriod].dwFlags = 0L; + ((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRCapture)[iPeriod].dwLoops = 0L; + ((MA_PFN_waveInPrepareHeader)pDevice->pContext->winmm.waveInPrepareHeader)((MA_HWAVEIN)pDevice->winmm.hDeviceCapture, &((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRCapture)[iPeriod], sizeof(MA_WAVEHDR)); + + /* + The user data of the MA_WAVEHDR structure is a single flag the controls whether or not it is ready for writing. Consider it to be named "isLocked". A value of 0 means + it's unlocked and available for writing. A value of 1 means it's locked. + */ + ((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRCapture)[iPeriod].dwUser = 0; + } + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ma_uint32 iPeriod; + + if (pConfig->deviceType == ma_device_type_playback) { + pDevice->winmm.pWAVEHDRPlayback = pDevice->winmm._pHeapData; + pDevice->winmm.pIntermediaryBufferPlayback = pDevice->winmm._pHeapData + (sizeof(MA_WAVEHDR)*pDescriptorPlayback->periodCount); + } else { + pDevice->winmm.pWAVEHDRPlayback = pDevice->winmm._pHeapData + (sizeof(MA_WAVEHDR)*(pDescriptorCapture->periodCount)); + pDevice->winmm.pIntermediaryBufferPlayback = pDevice->winmm._pHeapData + (sizeof(MA_WAVEHDR)*(pDescriptorCapture->periodCount + pDescriptorPlayback->periodCount)) + (pDescriptorCapture->periodSizeInFrames*pDescriptorCapture->periodCount*ma_get_bytes_per_frame(pDescriptorCapture->format, pDescriptorCapture->channels)); + } + + /* Prepare headers. */ + for (iPeriod = 0; iPeriod < pDescriptorPlayback->periodCount; ++iPeriod) { + ma_uint32 periodSizeInBytes = ma_get_period_size_in_bytes(pDescriptorPlayback->periodSizeInFrames, pDescriptorPlayback->format, pDescriptorPlayback->channels); + + ((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRPlayback)[iPeriod].lpData = (char*)(pDevice->winmm.pIntermediaryBufferPlayback + (periodSizeInBytes*iPeriod)); + ((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRPlayback)[iPeriod].dwBufferLength = periodSizeInBytes; + ((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRPlayback)[iPeriod].dwFlags = 0L; + ((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRPlayback)[iPeriod].dwLoops = 0L; + ((MA_PFN_waveOutPrepareHeader)pDevice->pContext->winmm.waveOutPrepareHeader)((MA_HWAVEOUT)pDevice->winmm.hDevicePlayback, &((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRPlayback)[iPeriod], sizeof(MA_WAVEHDR)); + + /* + The user data of the MA_WAVEHDR structure is a single flag the controls whether or not it is ready for writing. Consider it to be named "isLocked". A value of 0 means + it's unlocked and available for writing. A value of 1 means it's locked. + */ + ((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRPlayback)[iPeriod].dwUser = 0; + } + } + + return MA_SUCCESS; + +on_error: + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + if (pDevice->winmm.pWAVEHDRCapture != NULL) { + ma_uint32 iPeriod; + for (iPeriod = 0; iPeriod < pDescriptorCapture->periodCount; ++iPeriod) { + ((MA_PFN_waveInUnprepareHeader)pDevice->pContext->winmm.waveInUnprepareHeader)((MA_HWAVEIN)pDevice->winmm.hDeviceCapture, &((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRCapture)[iPeriod], sizeof(MA_WAVEHDR)); + } + } + + ((MA_PFN_waveInClose)pDevice->pContext->winmm.waveInClose)((MA_HWAVEIN)pDevice->winmm.hDeviceCapture); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + if (pDevice->winmm.pWAVEHDRCapture != NULL) { + ma_uint32 iPeriod; + for (iPeriod = 0; iPeriod < pDescriptorPlayback->periodCount; ++iPeriod) { + ((MA_PFN_waveOutUnprepareHeader)pDevice->pContext->winmm.waveOutUnprepareHeader)((MA_HWAVEOUT)pDevice->winmm.hDevicePlayback, &((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRPlayback)[iPeriod], sizeof(MA_WAVEHDR)); + } + } + + ((MA_PFN_waveOutClose)pDevice->pContext->winmm.waveOutClose)((MA_HWAVEOUT)pDevice->winmm.hDevicePlayback); + } + + ma_free(pDevice->winmm._pHeapData, &pDevice->pContext->allocationCallbacks); + + if (errorMsg != NULL && errorMsg[0] != '\0') { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "%s", errorMsg); + } + + return errorCode; +} + +static ma_result ma_device_start__winmm(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + MA_MMRESULT resultMM; + MA_WAVEHDR* pWAVEHDR; + ma_uint32 iPeriod; + + pWAVEHDR = (MA_WAVEHDR*)pDevice->winmm.pWAVEHDRCapture; + + /* Make sure the event is reset to a non-signaled state to ensure we don't prematurely return from WaitForSingleObject(). */ + ResetEvent((HANDLE)pDevice->winmm.hEventCapture); + + /* To start the device we attach all of the buffers and then start it. As the buffers are filled with data we will get notifications. */ + for (iPeriod = 0; iPeriod < pDevice->capture.internalPeriods; ++iPeriod) { + resultMM = ((MA_PFN_waveInAddBuffer)pDevice->pContext->winmm.waveInAddBuffer)((MA_HWAVEIN)pDevice->winmm.hDeviceCapture, &((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRCapture)[iPeriod], sizeof(MA_WAVEHDR)); + if (resultMM != MA_MMSYSERR_NOERROR) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WinMM] Failed to attach input buffers to capture device in preparation for capture."); + return ma_result_from_MMRESULT(resultMM); + } + + /* Make sure all of the buffers start out locked. We don't want to access them until the backend tells us we can. */ + pWAVEHDR[iPeriod].dwUser = 1; /* 1 = locked. */ + } + + /* Capture devices need to be explicitly started, unlike playback devices. */ + resultMM = ((MA_PFN_waveInStart)pDevice->pContext->winmm.waveInStart)((MA_HWAVEIN)pDevice->winmm.hDeviceCapture); + if (resultMM != MA_MMSYSERR_NOERROR) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WinMM] Failed to start backend device."); + return ma_result_from_MMRESULT(resultMM); + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + /* Don't need to do anything for playback. It'll be started automatically in ma_device_start__winmm(). */ + } + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__winmm(ma_device* pDevice) +{ + MA_MMRESULT resultMM; + + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + if (pDevice->winmm.hDeviceCapture == NULL) { + return MA_INVALID_ARGS; + } + + resultMM = ((MA_PFN_waveInReset)pDevice->pContext->winmm.waveInReset)((MA_HWAVEIN)pDevice->winmm.hDeviceCapture); + if (resultMM != MA_MMSYSERR_NOERROR) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[WinMM] WARNING: Failed to reset capture device."); + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ma_uint32 iPeriod; + MA_WAVEHDR* pWAVEHDR; + + if (pDevice->winmm.hDevicePlayback == NULL) { + return MA_INVALID_ARGS; + } + + /* We need to drain the device. To do this we just loop over each header and if it's locked just wait for the event. */ + pWAVEHDR = (MA_WAVEHDR*)pDevice->winmm.pWAVEHDRPlayback; + for (iPeriod = 0; iPeriod < pDevice->playback.internalPeriods; iPeriod += 1) { + if (pWAVEHDR[iPeriod].dwUser == 1) { /* 1 = locked. */ + if (WaitForSingleObject((HANDLE)pDevice->winmm.hEventPlayback, INFINITE) != WAIT_OBJECT_0) { + break; /* An error occurred so just abandon ship and stop the device without draining. */ + } + + pWAVEHDR[iPeriod].dwUser = 0; + } + } + + resultMM = ((MA_PFN_waveOutReset)pDevice->pContext->winmm.waveOutReset)((MA_HWAVEOUT)pDevice->winmm.hDevicePlayback); + if (resultMM != MA_MMSYSERR_NOERROR) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[WinMM] WARNING: Failed to reset playback device."); + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_write__winmm(ma_device* pDevice, const void* pPCMFrames, ma_uint32 frameCount, ma_uint32* pFramesWritten) +{ + ma_result result = MA_SUCCESS; + MA_MMRESULT resultMM; + ma_uint32 totalFramesWritten; + MA_WAVEHDR* pWAVEHDR; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pPCMFrames != NULL); + + if (pFramesWritten != NULL) { + *pFramesWritten = 0; + } + + pWAVEHDR = (MA_WAVEHDR*)pDevice->winmm.pWAVEHDRPlayback; + + /* Keep processing as much data as possible. */ + totalFramesWritten = 0; + while (totalFramesWritten < frameCount) { + /* If the current header has some space available we need to write part of it. */ + if (pWAVEHDR[pDevice->winmm.iNextHeaderPlayback].dwUser == 0) { /* 0 = unlocked. */ + /* + This header has room in it. We copy as much of it as we can. If we end up fully consuming the buffer we need to + write it out and move on to the next iteration. + */ + ma_uint32 bpf = ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels); + ma_uint32 framesRemainingInHeader = (pWAVEHDR[pDevice->winmm.iNextHeaderPlayback].dwBufferLength/bpf) - pDevice->winmm.headerFramesConsumedPlayback; + + ma_uint32 framesToCopy = ma_min(framesRemainingInHeader, (frameCount - totalFramesWritten)); + const void* pSrc = ma_offset_ptr(pPCMFrames, totalFramesWritten*bpf); + void* pDst = ma_offset_ptr(pWAVEHDR[pDevice->winmm.iNextHeaderPlayback].lpData, pDevice->winmm.headerFramesConsumedPlayback*bpf); + MA_COPY_MEMORY(pDst, pSrc, framesToCopy*bpf); + + pDevice->winmm.headerFramesConsumedPlayback += framesToCopy; + totalFramesWritten += framesToCopy; + + /* If we've consumed the buffer entirely we need to write it out to the device. */ + if (pDevice->winmm.headerFramesConsumedPlayback == (pWAVEHDR[pDevice->winmm.iNextHeaderPlayback].dwBufferLength/bpf)) { + pWAVEHDR[pDevice->winmm.iNextHeaderPlayback].dwUser = 1; /* 1 = locked. */ + pWAVEHDR[pDevice->winmm.iNextHeaderPlayback].dwFlags &= ~MA_WHDR_DONE; /* <-- Need to make sure the WHDR_DONE flag is unset. */ + + /* Make sure the event is reset to a non-signaled state to ensure we don't prematurely return from WaitForSingleObject(). */ + ResetEvent((HANDLE)pDevice->winmm.hEventPlayback); + + /* The device will be started here. */ + resultMM = ((MA_PFN_waveOutWrite)pDevice->pContext->winmm.waveOutWrite)((MA_HWAVEOUT)pDevice->winmm.hDevicePlayback, &pWAVEHDR[pDevice->winmm.iNextHeaderPlayback], sizeof(MA_WAVEHDR)); + if (resultMM != MA_MMSYSERR_NOERROR) { + result = ma_result_from_MMRESULT(resultMM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WinMM] waveOutWrite() failed."); + break; + } + + /* Make sure we move to the next header. */ + pDevice->winmm.iNextHeaderPlayback = (pDevice->winmm.iNextHeaderPlayback + 1) % pDevice->playback.internalPeriods; + pDevice->winmm.headerFramesConsumedPlayback = 0; + } + + /* If at this point we have consumed the entire input buffer we can return. */ + MA_ASSERT(totalFramesWritten <= frameCount); + if (totalFramesWritten == frameCount) { + break; + } + + /* Getting here means there's more to process. */ + continue; + } + + /* Getting here means there isn't enough room in the buffer and we need to wait for one to become available. */ + if (WaitForSingleObject((HANDLE)pDevice->winmm.hEventPlayback, INFINITE) != WAIT_OBJECT_0) { + result = MA_ERROR; + break; + } + + /* Something happened. If the next buffer has been marked as done we need to reset a bit of state. */ + if ((pWAVEHDR[pDevice->winmm.iNextHeaderPlayback].dwFlags & MA_WHDR_DONE) != 0) { + pWAVEHDR[pDevice->winmm.iNextHeaderPlayback].dwUser = 0; /* 0 = unlocked (make it available for writing). */ + pDevice->winmm.headerFramesConsumedPlayback = 0; + } + + /* If the device has been stopped we need to break. */ + if (ma_device_get_state(pDevice) != ma_device_state_started) { + break; + } + } + + if (pFramesWritten != NULL) { + *pFramesWritten = totalFramesWritten; + } + + return result; +} + +static ma_result ma_device_read__winmm(ma_device* pDevice, void* pPCMFrames, ma_uint32 frameCount, ma_uint32* pFramesRead) +{ + ma_result result = MA_SUCCESS; + MA_MMRESULT resultMM; + ma_uint32 totalFramesRead; + MA_WAVEHDR* pWAVEHDR; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pPCMFrames != NULL); + + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + pWAVEHDR = (MA_WAVEHDR*)pDevice->winmm.pWAVEHDRCapture; + + /* Keep processing as much data as possible. */ + totalFramesRead = 0; + while (totalFramesRead < frameCount) { + /* If the current header has some space available we need to write part of it. */ + if (pWAVEHDR[pDevice->winmm.iNextHeaderCapture].dwUser == 0) { /* 0 = unlocked. */ + /* The buffer is available for reading. If we fully consume it we need to add it back to the buffer. */ + ma_uint32 bpf = ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels); + ma_uint32 framesRemainingInHeader = (pWAVEHDR[pDevice->winmm.iNextHeaderCapture].dwBufferLength/bpf) - pDevice->winmm.headerFramesConsumedCapture; + + ma_uint32 framesToCopy = ma_min(framesRemainingInHeader, (frameCount - totalFramesRead)); + const void* pSrc = ma_offset_ptr(pWAVEHDR[pDevice->winmm.iNextHeaderCapture].lpData, pDevice->winmm.headerFramesConsumedCapture*bpf); + void* pDst = ma_offset_ptr(pPCMFrames, totalFramesRead*bpf); + MA_COPY_MEMORY(pDst, pSrc, framesToCopy*bpf); + + pDevice->winmm.headerFramesConsumedCapture += framesToCopy; + totalFramesRead += framesToCopy; + + /* If we've consumed the buffer entirely we need to add it back to the device. */ + if (pDevice->winmm.headerFramesConsumedCapture == (pWAVEHDR[pDevice->winmm.iNextHeaderCapture].dwBufferLength/bpf)) { + pWAVEHDR[pDevice->winmm.iNextHeaderCapture].dwUser = 1; /* 1 = locked. */ + pWAVEHDR[pDevice->winmm.iNextHeaderCapture].dwFlags &= ~MA_WHDR_DONE; /* <-- Need to make sure the WHDR_DONE flag is unset. */ + + /* Make sure the event is reset to a non-signaled state to ensure we don't prematurely return from WaitForSingleObject(). */ + ResetEvent((HANDLE)pDevice->winmm.hEventCapture); + + /* The device will be started here. */ + resultMM = ((MA_PFN_waveInAddBuffer)pDevice->pContext->winmm.waveInAddBuffer)((MA_HWAVEIN)pDevice->winmm.hDeviceCapture, &((MA_WAVEHDR*)pDevice->winmm.pWAVEHDRCapture)[pDevice->winmm.iNextHeaderCapture], sizeof(MA_WAVEHDR)); + if (resultMM != MA_MMSYSERR_NOERROR) { + result = ma_result_from_MMRESULT(resultMM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WinMM] waveInAddBuffer() failed."); + break; + } + + /* Make sure we move to the next header. */ + pDevice->winmm.iNextHeaderCapture = (pDevice->winmm.iNextHeaderCapture + 1) % pDevice->capture.internalPeriods; + pDevice->winmm.headerFramesConsumedCapture = 0; + } + + /* If at this point we have filled the entire input buffer we can return. */ + MA_ASSERT(totalFramesRead <= frameCount); + if (totalFramesRead == frameCount) { + break; + } + + /* Getting here means there's more to process. */ + continue; + } + + /* Getting here means there isn't enough any data left to send to the client which means we need to wait for more. */ + if (WaitForSingleObject((HANDLE)pDevice->winmm.hEventCapture, INFINITE) != WAIT_OBJECT_0) { + result = MA_ERROR; + break; + } + + /* Something happened. If the next buffer has been marked as done we need to reset a bit of state. */ + if ((pWAVEHDR[pDevice->winmm.iNextHeaderCapture].dwFlags & MA_WHDR_DONE) != 0) { + pWAVEHDR[pDevice->winmm.iNextHeaderCapture].dwUser = 0; /* 0 = unlocked (make it available for reading). */ + pDevice->winmm.headerFramesConsumedCapture = 0; + } + + /* If the device has been stopped we need to break. */ + if (ma_device_get_state(pDevice) != ma_device_state_started) { + break; + } + } + + if (pFramesRead != NULL) { + *pFramesRead = totalFramesRead; + } + + return result; +} + +static ma_result ma_context_uninit__winmm(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_winmm); + + ma_dlclose(ma_context_get_log(pContext), pContext->winmm.hWinMM); + return MA_SUCCESS; +} + +static ma_result ma_context_init__winmm(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ + MA_ASSERT(pContext != NULL); + + (void)pConfig; + + pContext->winmm.hWinMM = ma_dlopen(ma_context_get_log(pContext), "winmm.dll"); + if (pContext->winmm.hWinMM == NULL) { + return MA_NO_BACKEND; + } + + pContext->winmm.waveOutGetNumDevs = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveOutGetNumDevs"); + pContext->winmm.waveOutGetDevCapsA = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveOutGetDevCapsA"); + pContext->winmm.waveOutOpen = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveOutOpen"); + pContext->winmm.waveOutClose = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveOutClose"); + pContext->winmm.waveOutPrepareHeader = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveOutPrepareHeader"); + pContext->winmm.waveOutUnprepareHeader = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveOutUnprepareHeader"); + pContext->winmm.waveOutWrite = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveOutWrite"); + pContext->winmm.waveOutReset = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveOutReset"); + pContext->winmm.waveInGetNumDevs = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveInGetNumDevs"); + pContext->winmm.waveInGetDevCapsA = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveInGetDevCapsA"); + pContext->winmm.waveInOpen = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveInOpen"); + pContext->winmm.waveInClose = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveInClose"); + pContext->winmm.waveInPrepareHeader = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveInPrepareHeader"); + pContext->winmm.waveInUnprepareHeader = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveInUnprepareHeader"); + pContext->winmm.waveInAddBuffer = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveInAddBuffer"); + pContext->winmm.waveInStart = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveInStart"); + pContext->winmm.waveInReset = ma_dlsym(ma_context_get_log(pContext), pContext->winmm.hWinMM, "waveInReset"); + + pCallbacks->onContextInit = ma_context_init__winmm; + pCallbacks->onContextUninit = ma_context_uninit__winmm; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__winmm; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__winmm; + pCallbacks->onDeviceInit = ma_device_init__winmm; + pCallbacks->onDeviceUninit = ma_device_uninit__winmm; + pCallbacks->onDeviceStart = ma_device_start__winmm; + pCallbacks->onDeviceStop = ma_device_stop__winmm; + pCallbacks->onDeviceRead = ma_device_read__winmm; + pCallbacks->onDeviceWrite = ma_device_write__winmm; + pCallbacks->onDeviceDataLoop = NULL; /* This is a blocking read-write API, so this can be NULL since miniaudio will manage the audio thread for us. */ + + return MA_SUCCESS; +} +#endif + + + + +/****************************************************************************** + +ALSA Backend + +******************************************************************************/ +#ifdef MA_HAS_ALSA + +#include /* poll(), struct pollfd */ +#include /* eventfd() */ + +#ifdef MA_NO_RUNTIME_LINKING + +/* asoundlib.h marks some functions with "inline" which isn't always supported. Need to emulate it. */ +#if !defined(__cplusplus) + #if defined(__STRICT_ANSI__) + #if !defined(inline) + #define inline __inline__ __attribute__((always_inline)) + #define MA_INLINE_DEFINED + #endif + #endif +#endif +#include +#if defined(MA_INLINE_DEFINED) + #undef inline + #undef MA_INLINE_DEFINED +#endif + +typedef snd_pcm_uframes_t ma_snd_pcm_uframes_t; +typedef snd_pcm_sframes_t ma_snd_pcm_sframes_t; +typedef snd_pcm_stream_t ma_snd_pcm_stream_t; +typedef snd_pcm_format_t ma_snd_pcm_format_t; +typedef snd_pcm_access_t ma_snd_pcm_access_t; +typedef snd_pcm_t ma_snd_pcm_t; +typedef snd_pcm_hw_params_t ma_snd_pcm_hw_params_t; +typedef snd_pcm_sw_params_t ma_snd_pcm_sw_params_t; +typedef snd_pcm_format_mask_t ma_snd_pcm_format_mask_t; +typedef snd_pcm_info_t ma_snd_pcm_info_t; +typedef snd_pcm_channel_area_t ma_snd_pcm_channel_area_t; +typedef snd_pcm_chmap_t ma_snd_pcm_chmap_t; +typedef snd_pcm_state_t ma_snd_pcm_state_t; + +/* snd_pcm_state_t */ +#define MA_SND_PCM_STATE_XRUN SND_PCM_STATE_XRUN + +/* snd_pcm_stream_t */ +#define MA_SND_PCM_STREAM_PLAYBACK SND_PCM_STREAM_PLAYBACK +#define MA_SND_PCM_STREAM_CAPTURE SND_PCM_STREAM_CAPTURE + +/* snd_pcm_format_t */ +#define MA_SND_PCM_FORMAT_UNKNOWN SND_PCM_FORMAT_UNKNOWN +#define MA_SND_PCM_FORMAT_U8 SND_PCM_FORMAT_U8 +#define MA_SND_PCM_FORMAT_S16_LE SND_PCM_FORMAT_S16_LE +#define MA_SND_PCM_FORMAT_S16_BE SND_PCM_FORMAT_S16_BE +#define MA_SND_PCM_FORMAT_S24_LE SND_PCM_FORMAT_S24_LE +#define MA_SND_PCM_FORMAT_S24_BE SND_PCM_FORMAT_S24_BE +#define MA_SND_PCM_FORMAT_S32_LE SND_PCM_FORMAT_S32_LE +#define MA_SND_PCM_FORMAT_S32_BE SND_PCM_FORMAT_S32_BE +#define MA_SND_PCM_FORMAT_FLOAT_LE SND_PCM_FORMAT_FLOAT_LE +#define MA_SND_PCM_FORMAT_FLOAT_BE SND_PCM_FORMAT_FLOAT_BE +#define MA_SND_PCM_FORMAT_FLOAT64_LE SND_PCM_FORMAT_FLOAT64_LE +#define MA_SND_PCM_FORMAT_FLOAT64_BE SND_PCM_FORMAT_FLOAT64_BE +#define MA_SND_PCM_FORMAT_MU_LAW SND_PCM_FORMAT_MU_LAW +#define MA_SND_PCM_FORMAT_A_LAW SND_PCM_FORMAT_A_LAW +#define MA_SND_PCM_FORMAT_S24_3LE SND_PCM_FORMAT_S24_3LE +#define MA_SND_PCM_FORMAT_S24_3BE SND_PCM_FORMAT_S24_3BE + +/* ma_snd_pcm_access_t */ +#define MA_SND_PCM_ACCESS_MMAP_INTERLEAVED SND_PCM_ACCESS_MMAP_INTERLEAVED +#define MA_SND_PCM_ACCESS_MMAP_NONINTERLEAVED SND_PCM_ACCESS_MMAP_NONINTERLEAVED +#define MA_SND_PCM_ACCESS_MMAP_COMPLEX SND_PCM_ACCESS_MMAP_COMPLEX +#define MA_SND_PCM_ACCESS_RW_INTERLEAVED SND_PCM_ACCESS_RW_INTERLEAVED +#define MA_SND_PCM_ACCESS_RW_NONINTERLEAVED SND_PCM_ACCESS_RW_NONINTERLEAVED + +/* Channel positions. */ +#define MA_SND_CHMAP_UNKNOWN SND_CHMAP_UNKNOWN +#define MA_SND_CHMAP_NA SND_CHMAP_NA +#define MA_SND_CHMAP_MONO SND_CHMAP_MONO +#define MA_SND_CHMAP_FL SND_CHMAP_FL +#define MA_SND_CHMAP_FR SND_CHMAP_FR +#define MA_SND_CHMAP_RL SND_CHMAP_RL +#define MA_SND_CHMAP_RR SND_CHMAP_RR +#define MA_SND_CHMAP_FC SND_CHMAP_FC +#define MA_SND_CHMAP_LFE SND_CHMAP_LFE +#define MA_SND_CHMAP_SL SND_CHMAP_SL +#define MA_SND_CHMAP_SR SND_CHMAP_SR +#define MA_SND_CHMAP_RC SND_CHMAP_RC +#define MA_SND_CHMAP_FLC SND_CHMAP_FLC +#define MA_SND_CHMAP_FRC SND_CHMAP_FRC +#define MA_SND_CHMAP_RLC SND_CHMAP_RLC +#define MA_SND_CHMAP_RRC SND_CHMAP_RRC +#define MA_SND_CHMAP_FLW SND_CHMAP_FLW +#define MA_SND_CHMAP_FRW SND_CHMAP_FRW +#define MA_SND_CHMAP_FLH SND_CHMAP_FLH +#define MA_SND_CHMAP_FCH SND_CHMAP_FCH +#define MA_SND_CHMAP_FRH SND_CHMAP_FRH +#define MA_SND_CHMAP_TC SND_CHMAP_TC +#define MA_SND_CHMAP_TFL SND_CHMAP_TFL +#define MA_SND_CHMAP_TFR SND_CHMAP_TFR +#define MA_SND_CHMAP_TFC SND_CHMAP_TFC +#define MA_SND_CHMAP_TRL SND_CHMAP_TRL +#define MA_SND_CHMAP_TRR SND_CHMAP_TRR +#define MA_SND_CHMAP_TRC SND_CHMAP_TRC +#define MA_SND_CHMAP_TFLC SND_CHMAP_TFLC +#define MA_SND_CHMAP_TFRC SND_CHMAP_TFRC +#define MA_SND_CHMAP_TSL SND_CHMAP_TSL +#define MA_SND_CHMAP_TSR SND_CHMAP_TSR +#define MA_SND_CHMAP_LLFE SND_CHMAP_LLFE +#define MA_SND_CHMAP_RLFE SND_CHMAP_RLFE +#define MA_SND_CHMAP_BC SND_CHMAP_BC +#define MA_SND_CHMAP_BLC SND_CHMAP_BLC +#define MA_SND_CHMAP_BRC SND_CHMAP_BRC + +/* Open mode flags. */ +#define MA_SND_PCM_NO_AUTO_RESAMPLE SND_PCM_NO_AUTO_RESAMPLE +#define MA_SND_PCM_NO_AUTO_CHANNELS SND_PCM_NO_AUTO_CHANNELS +#define MA_SND_PCM_NO_AUTO_FORMAT SND_PCM_NO_AUTO_FORMAT +#else +#include /* For EPIPE, etc. */ +typedef unsigned long ma_snd_pcm_uframes_t; +typedef long ma_snd_pcm_sframes_t; +typedef int ma_snd_pcm_stream_t; +typedef int ma_snd_pcm_format_t; +typedef int ma_snd_pcm_access_t; +typedef int ma_snd_pcm_state_t; +typedef struct ma_snd_pcm_t ma_snd_pcm_t; +typedef struct ma_snd_pcm_hw_params_t ma_snd_pcm_hw_params_t; +typedef struct ma_snd_pcm_sw_params_t ma_snd_pcm_sw_params_t; +typedef struct ma_snd_pcm_format_mask_t ma_snd_pcm_format_mask_t; +typedef struct ma_snd_pcm_info_t ma_snd_pcm_info_t; +typedef struct +{ + void* addr; + unsigned int first; + unsigned int step; +} ma_snd_pcm_channel_area_t; +typedef struct +{ + unsigned int channels; + unsigned int pos[1]; +} ma_snd_pcm_chmap_t; + +/* snd_pcm_state_t */ +#define MA_SND_PCM_STATE_OPEN 0 +#define MA_SND_PCM_STATE_SETUP 1 +#define MA_SND_PCM_STATE_PREPARED 2 +#define MA_SND_PCM_STATE_RUNNING 3 +#define MA_SND_PCM_STATE_XRUN 4 +#define MA_SND_PCM_STATE_DRAINING 5 +#define MA_SND_PCM_STATE_PAUSED 6 +#define MA_SND_PCM_STATE_SUSPENDED 7 +#define MA_SND_PCM_STATE_DISCONNECTED 8 + +/* snd_pcm_stream_t */ +#define MA_SND_PCM_STREAM_PLAYBACK 0 +#define MA_SND_PCM_STREAM_CAPTURE 1 + +/* snd_pcm_format_t */ +#define MA_SND_PCM_FORMAT_UNKNOWN -1 +#define MA_SND_PCM_FORMAT_U8 1 +#define MA_SND_PCM_FORMAT_S16_LE 2 +#define MA_SND_PCM_FORMAT_S16_BE 3 +#define MA_SND_PCM_FORMAT_S24_LE 6 +#define MA_SND_PCM_FORMAT_S24_BE 7 +#define MA_SND_PCM_FORMAT_S32_LE 10 +#define MA_SND_PCM_FORMAT_S32_BE 11 +#define MA_SND_PCM_FORMAT_FLOAT_LE 14 +#define MA_SND_PCM_FORMAT_FLOAT_BE 15 +#define MA_SND_PCM_FORMAT_FLOAT64_LE 16 +#define MA_SND_PCM_FORMAT_FLOAT64_BE 17 +#define MA_SND_PCM_FORMAT_MU_LAW 20 +#define MA_SND_PCM_FORMAT_A_LAW 21 +#define MA_SND_PCM_FORMAT_S24_3LE 32 +#define MA_SND_PCM_FORMAT_S24_3BE 33 + +/* snd_pcm_access_t */ +#define MA_SND_PCM_ACCESS_MMAP_INTERLEAVED 0 +#define MA_SND_PCM_ACCESS_MMAP_NONINTERLEAVED 1 +#define MA_SND_PCM_ACCESS_MMAP_COMPLEX 2 +#define MA_SND_PCM_ACCESS_RW_INTERLEAVED 3 +#define MA_SND_PCM_ACCESS_RW_NONINTERLEAVED 4 + +/* Channel positions. */ +#define MA_SND_CHMAP_UNKNOWN 0 +#define MA_SND_CHMAP_NA 1 +#define MA_SND_CHMAP_MONO 2 +#define MA_SND_CHMAP_FL 3 +#define MA_SND_CHMAP_FR 4 +#define MA_SND_CHMAP_RL 5 +#define MA_SND_CHMAP_RR 6 +#define MA_SND_CHMAP_FC 7 +#define MA_SND_CHMAP_LFE 8 +#define MA_SND_CHMAP_SL 9 +#define MA_SND_CHMAP_SR 10 +#define MA_SND_CHMAP_RC 11 +#define MA_SND_CHMAP_FLC 12 +#define MA_SND_CHMAP_FRC 13 +#define MA_SND_CHMAP_RLC 14 +#define MA_SND_CHMAP_RRC 15 +#define MA_SND_CHMAP_FLW 16 +#define MA_SND_CHMAP_FRW 17 +#define MA_SND_CHMAP_FLH 18 +#define MA_SND_CHMAP_FCH 19 +#define MA_SND_CHMAP_FRH 20 +#define MA_SND_CHMAP_TC 21 +#define MA_SND_CHMAP_TFL 22 +#define MA_SND_CHMAP_TFR 23 +#define MA_SND_CHMAP_TFC 24 +#define MA_SND_CHMAP_TRL 25 +#define MA_SND_CHMAP_TRR 26 +#define MA_SND_CHMAP_TRC 27 +#define MA_SND_CHMAP_TFLC 28 +#define MA_SND_CHMAP_TFRC 29 +#define MA_SND_CHMAP_TSL 30 +#define MA_SND_CHMAP_TSR 31 +#define MA_SND_CHMAP_LLFE 32 +#define MA_SND_CHMAP_RLFE 33 +#define MA_SND_CHMAP_BC 34 +#define MA_SND_CHMAP_BLC 35 +#define MA_SND_CHMAP_BRC 36 + +/* Open mode flags. */ +#define MA_SND_PCM_NO_AUTO_RESAMPLE 0x00010000 +#define MA_SND_PCM_NO_AUTO_CHANNELS 0x00020000 +#define MA_SND_PCM_NO_AUTO_FORMAT 0x00040000 +#endif + +typedef int (* ma_snd_pcm_open_proc) (ma_snd_pcm_t **pcm, const char *name, ma_snd_pcm_stream_t stream, int mode); +typedef int (* ma_snd_pcm_close_proc) (ma_snd_pcm_t *pcm); +typedef size_t (* ma_snd_pcm_hw_params_sizeof_proc) (void); +typedef int (* ma_snd_pcm_hw_params_any_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params); +typedef int (* ma_snd_pcm_hw_params_set_format_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, ma_snd_pcm_format_t val); +typedef int (* ma_snd_pcm_hw_params_set_format_first_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, ma_snd_pcm_format_t *format); +typedef void (* ma_snd_pcm_hw_params_get_format_mask_proc) (ma_snd_pcm_hw_params_t *params, ma_snd_pcm_format_mask_t *mask); +typedef int (* ma_snd_pcm_hw_params_set_channels_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, unsigned int val); +typedef int (* ma_snd_pcm_hw_params_set_channels_near_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, unsigned int *val); +typedef int (* ma_snd_pcm_hw_params_set_channels_minmax_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, unsigned int *minimum, unsigned int *maximum); +typedef int (* ma_snd_pcm_hw_params_set_rate_resample_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, unsigned int val); +typedef int (* ma_snd_pcm_hw_params_set_rate_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, unsigned int val, int dir); +typedef int (* ma_snd_pcm_hw_params_set_rate_near_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, unsigned int *val, int *dir); +typedef int (* ma_snd_pcm_hw_params_set_rate_minmax_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, unsigned int *min, int *mindir, unsigned int *max, int *maxdir); +typedef int (* ma_snd_pcm_hw_params_set_buffer_size_near_proc)(ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, ma_snd_pcm_uframes_t *val); +typedef int (* ma_snd_pcm_hw_params_set_periods_near_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, unsigned int *val, int *dir); +typedef int (* ma_snd_pcm_hw_params_set_access_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, ma_snd_pcm_access_t _access); +typedef int (* ma_snd_pcm_hw_params_get_format_proc) (const ma_snd_pcm_hw_params_t *params, ma_snd_pcm_format_t *format); +typedef int (* ma_snd_pcm_hw_params_get_channels_proc) (const ma_snd_pcm_hw_params_t *params, unsigned int *val); +typedef int (* ma_snd_pcm_hw_params_get_channels_min_proc) (const ma_snd_pcm_hw_params_t *params, unsigned int *val); +typedef int (* ma_snd_pcm_hw_params_get_channels_max_proc) (const ma_snd_pcm_hw_params_t *params, unsigned int *val); +typedef int (* ma_snd_pcm_hw_params_get_rate_proc) (const ma_snd_pcm_hw_params_t *params, unsigned int *rate, int *dir); +typedef int (* ma_snd_pcm_hw_params_get_rate_min_proc) (const ma_snd_pcm_hw_params_t *params, unsigned int *rate, int *dir); +typedef int (* ma_snd_pcm_hw_params_get_rate_max_proc) (const ma_snd_pcm_hw_params_t *params, unsigned int *rate, int *dir); +typedef int (* ma_snd_pcm_hw_params_get_buffer_size_proc) (const ma_snd_pcm_hw_params_t *params, ma_snd_pcm_uframes_t *val); +typedef int (* ma_snd_pcm_hw_params_get_periods_proc) (const ma_snd_pcm_hw_params_t *params, unsigned int *val, int *dir); +typedef int (* ma_snd_pcm_hw_params_get_access_proc) (const ma_snd_pcm_hw_params_t *params, ma_snd_pcm_access_t *_access); +typedef int (* ma_snd_pcm_hw_params_test_format_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, ma_snd_pcm_format_t val); +typedef int (* ma_snd_pcm_hw_params_test_channels_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, unsigned int val); +typedef int (* ma_snd_pcm_hw_params_test_rate_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params, unsigned int val, int dir); +typedef int (* ma_snd_pcm_hw_params_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_hw_params_t *params); +typedef size_t (* ma_snd_pcm_sw_params_sizeof_proc) (void); +typedef int (* ma_snd_pcm_sw_params_current_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_sw_params_t *params); +typedef int (* ma_snd_pcm_sw_params_get_boundary_proc) (const ma_snd_pcm_sw_params_t *params, ma_snd_pcm_uframes_t* val); +typedef int (* ma_snd_pcm_sw_params_set_avail_min_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_sw_params_t *params, ma_snd_pcm_uframes_t val); +typedef int (* ma_snd_pcm_sw_params_set_start_threshold_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_sw_params_t *params, ma_snd_pcm_uframes_t val); +typedef int (* ma_snd_pcm_sw_params_set_stop_threshold_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_sw_params_t *params, ma_snd_pcm_uframes_t val); +typedef int (* ma_snd_pcm_sw_params_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_sw_params_t *params); +typedef size_t (* ma_snd_pcm_format_mask_sizeof_proc) (void); +typedef int (* ma_snd_pcm_format_mask_test_proc) (const ma_snd_pcm_format_mask_t *mask, ma_snd_pcm_format_t val); +typedef ma_snd_pcm_chmap_t * (* ma_snd_pcm_get_chmap_proc) (ma_snd_pcm_t *pcm); +typedef ma_snd_pcm_state_t (* ma_snd_pcm_state_proc) (ma_snd_pcm_t *pcm); +typedef int (* ma_snd_pcm_prepare_proc) (ma_snd_pcm_t *pcm); +typedef int (* ma_snd_pcm_start_proc) (ma_snd_pcm_t *pcm); +typedef int (* ma_snd_pcm_drop_proc) (ma_snd_pcm_t *pcm); +typedef int (* ma_snd_pcm_drain_proc) (ma_snd_pcm_t *pcm); +typedef int (* ma_snd_pcm_reset_proc) (ma_snd_pcm_t *pcm); +typedef int (* ma_snd_device_name_hint_proc) (int card, const char *iface, void ***hints); +typedef char * (* ma_snd_device_name_get_hint_proc) (const void *hint, const char *id); +typedef int (* ma_snd_card_get_index_proc) (const char *name); +typedef int (* ma_snd_device_name_free_hint_proc) (void **hints); +typedef int (* ma_snd_pcm_mmap_begin_proc) (ma_snd_pcm_t *pcm, const ma_snd_pcm_channel_area_t **areas, ma_snd_pcm_uframes_t *offset, ma_snd_pcm_uframes_t *frames); +typedef ma_snd_pcm_sframes_t (* ma_snd_pcm_mmap_commit_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_uframes_t offset, ma_snd_pcm_uframes_t frames); +typedef int (* ma_snd_pcm_recover_proc) (ma_snd_pcm_t *pcm, int err, int silent); +typedef ma_snd_pcm_sframes_t (* ma_snd_pcm_readi_proc) (ma_snd_pcm_t *pcm, void *buffer, ma_snd_pcm_uframes_t size); +typedef ma_snd_pcm_sframes_t (* ma_snd_pcm_writei_proc) (ma_snd_pcm_t *pcm, const void *buffer, ma_snd_pcm_uframes_t size); +typedef ma_snd_pcm_sframes_t (* ma_snd_pcm_avail_proc) (ma_snd_pcm_t *pcm); +typedef ma_snd_pcm_sframes_t (* ma_snd_pcm_avail_update_proc) (ma_snd_pcm_t *pcm); +typedef int (* ma_snd_pcm_wait_proc) (ma_snd_pcm_t *pcm, int timeout); +typedef int (* ma_snd_pcm_nonblock_proc) (ma_snd_pcm_t *pcm, int nonblock); +typedef int (* ma_snd_pcm_info_proc) (ma_snd_pcm_t *pcm, ma_snd_pcm_info_t* info); +typedef size_t (* ma_snd_pcm_info_sizeof_proc) (void); +typedef const char* (* ma_snd_pcm_info_get_name_proc) (const ma_snd_pcm_info_t* info); +typedef int (* ma_snd_pcm_poll_descriptors_proc) (ma_snd_pcm_t *pcm, struct pollfd *pfds, unsigned int space); +typedef int (* ma_snd_pcm_poll_descriptors_count_proc) (ma_snd_pcm_t *pcm); +typedef int (* ma_snd_pcm_poll_descriptors_revents_proc) (ma_snd_pcm_t *pcm, struct pollfd *pfds, unsigned int nfds, unsigned short *revents); +typedef int (* ma_snd_config_update_free_global_proc) (void); + +/* This array specifies each of the common devices that can be used for both playback and capture. */ +static const char* g_maCommonDeviceNamesALSA[] = { + "default", + "null", + "pulse", + "jack" +}; + +/* This array allows us to blacklist specific playback devices. */ +static const char* g_maBlacklistedPlaybackDeviceNamesALSA[] = { + "" +}; + +/* This array allows us to blacklist specific capture devices. */ +static const char* g_maBlacklistedCaptureDeviceNamesALSA[] = { + "" +}; + + +static ma_snd_pcm_format_t ma_convert_ma_format_to_alsa_format(ma_format format) +{ + ma_snd_pcm_format_t ALSAFormats[] = { + MA_SND_PCM_FORMAT_UNKNOWN, /* ma_format_unknown */ + MA_SND_PCM_FORMAT_U8, /* ma_format_u8 */ + MA_SND_PCM_FORMAT_S16_LE, /* ma_format_s16 */ + MA_SND_PCM_FORMAT_S24_3LE, /* ma_format_s24 */ + MA_SND_PCM_FORMAT_S32_LE, /* ma_format_s32 */ + MA_SND_PCM_FORMAT_FLOAT_LE /* ma_format_f32 */ + }; + + if (ma_is_big_endian()) { + ALSAFormats[0] = MA_SND_PCM_FORMAT_UNKNOWN; + ALSAFormats[1] = MA_SND_PCM_FORMAT_U8; + ALSAFormats[2] = MA_SND_PCM_FORMAT_S16_BE; + ALSAFormats[3] = MA_SND_PCM_FORMAT_S24_3BE; + ALSAFormats[4] = MA_SND_PCM_FORMAT_S32_BE; + ALSAFormats[5] = MA_SND_PCM_FORMAT_FLOAT_BE; + } + + return ALSAFormats[format]; +} + +static ma_format ma_format_from_alsa(ma_snd_pcm_format_t formatALSA) +{ + if (ma_is_little_endian()) { + switch (formatALSA) { + case MA_SND_PCM_FORMAT_S16_LE: return ma_format_s16; + case MA_SND_PCM_FORMAT_S24_3LE: return ma_format_s24; + case MA_SND_PCM_FORMAT_S32_LE: return ma_format_s32; + case MA_SND_PCM_FORMAT_FLOAT_LE: return ma_format_f32; + default: break; + } + } else { + switch (formatALSA) { + case MA_SND_PCM_FORMAT_S16_BE: return ma_format_s16; + case MA_SND_PCM_FORMAT_S24_3BE: return ma_format_s24; + case MA_SND_PCM_FORMAT_S32_BE: return ma_format_s32; + case MA_SND_PCM_FORMAT_FLOAT_BE: return ma_format_f32; + default: break; + } + } + + /* Endian agnostic. */ + switch (formatALSA) { + case MA_SND_PCM_FORMAT_U8: return ma_format_u8; + default: return ma_format_unknown; + } +} + +static ma_channel ma_convert_alsa_channel_position_to_ma_channel(unsigned int alsaChannelPos) +{ + switch (alsaChannelPos) + { + case MA_SND_CHMAP_MONO: return MA_CHANNEL_MONO; + case MA_SND_CHMAP_FL: return MA_CHANNEL_FRONT_LEFT; + case MA_SND_CHMAP_FR: return MA_CHANNEL_FRONT_RIGHT; + case MA_SND_CHMAP_RL: return MA_CHANNEL_BACK_LEFT; + case MA_SND_CHMAP_RR: return MA_CHANNEL_BACK_RIGHT; + case MA_SND_CHMAP_FC: return MA_CHANNEL_FRONT_CENTER; + case MA_SND_CHMAP_LFE: return MA_CHANNEL_LFE; + case MA_SND_CHMAP_SL: return MA_CHANNEL_SIDE_LEFT; + case MA_SND_CHMAP_SR: return MA_CHANNEL_SIDE_RIGHT; + case MA_SND_CHMAP_RC: return MA_CHANNEL_BACK_CENTER; + case MA_SND_CHMAP_FLC: return MA_CHANNEL_FRONT_LEFT_CENTER; + case MA_SND_CHMAP_FRC: return MA_CHANNEL_FRONT_RIGHT_CENTER; + case MA_SND_CHMAP_RLC: return 0; + case MA_SND_CHMAP_RRC: return 0; + case MA_SND_CHMAP_FLW: return 0; + case MA_SND_CHMAP_FRW: return 0; + case MA_SND_CHMAP_FLH: return 0; + case MA_SND_CHMAP_FCH: return 0; + case MA_SND_CHMAP_FRH: return 0; + case MA_SND_CHMAP_TC: return MA_CHANNEL_TOP_CENTER; + case MA_SND_CHMAP_TFL: return MA_CHANNEL_TOP_FRONT_LEFT; + case MA_SND_CHMAP_TFR: return MA_CHANNEL_TOP_FRONT_RIGHT; + case MA_SND_CHMAP_TFC: return MA_CHANNEL_TOP_FRONT_CENTER; + case MA_SND_CHMAP_TRL: return MA_CHANNEL_TOP_BACK_LEFT; + case MA_SND_CHMAP_TRR: return MA_CHANNEL_TOP_BACK_RIGHT; + case MA_SND_CHMAP_TRC: return MA_CHANNEL_TOP_BACK_CENTER; + default: break; + } + + return 0; +} + +static ma_bool32 ma_is_common_device_name__alsa(const char* name) +{ + size_t iName; + for (iName = 0; iName < ma_countof(g_maCommonDeviceNamesALSA); ++iName) { + if (ma_strcmp(name, g_maCommonDeviceNamesALSA[iName]) == 0) { + return MA_TRUE; + } + } + + return MA_FALSE; +} + + +static ma_bool32 ma_is_playback_device_blacklisted__alsa(const char* name) +{ + size_t iName; + for (iName = 0; iName < ma_countof(g_maBlacklistedPlaybackDeviceNamesALSA); ++iName) { + if (ma_strcmp(name, g_maBlacklistedPlaybackDeviceNamesALSA[iName]) == 0) { + return MA_TRUE; + } + } + + return MA_FALSE; +} + +static ma_bool32 ma_is_capture_device_blacklisted__alsa(const char* name) +{ + size_t iName; + for (iName = 0; iName < ma_countof(g_maBlacklistedCaptureDeviceNamesALSA); ++iName) { + if (ma_strcmp(name, g_maBlacklistedCaptureDeviceNamesALSA[iName]) == 0) { + return MA_TRUE; + } + } + + return MA_FALSE; +} + +static ma_bool32 ma_is_device_blacklisted__alsa(ma_device_type deviceType, const char* name) +{ + if (deviceType == ma_device_type_playback) { + return ma_is_playback_device_blacklisted__alsa(name); + } else { + return ma_is_capture_device_blacklisted__alsa(name); + } +} + + +static const char* ma_find_char(const char* str, char c, int* index) +{ + int i = 0; + for (;;) { + if (str[i] == '\0') { + if (index) *index = -1; + return NULL; + } + + if (str[i] == c) { + if (index) *index = i; + return str + i; + } + + i += 1; + } + + /* Should never get here, but treat it as though the character was not found to make me feel better inside. */ + if (index) *index = -1; + return NULL; +} + +static ma_bool32 ma_is_device_name_in_hw_format__alsa(const char* hwid) +{ + /* This function is just checking whether or not hwid is in "hw:%d,%d" format. */ + + int commaPos; + const char* dev; + int i; + + if (hwid == NULL) { + return MA_FALSE; + } + + if (hwid[0] != 'h' || hwid[1] != 'w' || hwid[2] != ':') { + return MA_FALSE; + } + + hwid += 3; + + dev = ma_find_char(hwid, ',', &commaPos); + if (dev == NULL) { + return MA_FALSE; + } else { + dev += 1; /* Skip past the ",". */ + } + + /* Check if the part between the ":" and the "," contains only numbers. If not, return false. */ + for (i = 0; i < commaPos; ++i) { + if (hwid[i] < '0' || hwid[i] > '9') { + return MA_FALSE; + } + } + + /* Check if everything after the "," is numeric. If not, return false. */ + i = 0; + while (dev[i] != '\0') { + if (dev[i] < '0' || dev[i] > '9') { + return MA_FALSE; + } + i += 1; + } + + return MA_TRUE; +} + +static int ma_convert_device_name_to_hw_format__alsa(ma_context* pContext, char* dst, size_t dstSize, const char* src) /* Returns 0 on success, non-0 on error. */ +{ + /* src should look something like this: "hw:CARD=I82801AAICH,DEV=0" */ + + int colonPos; + int commaPos; + char card[256]; + const char* dev; + int cardIndex; + + if (dst == NULL) { + return -1; + } + if (dstSize < 7) { + return -1; /* Absolute minimum size of the output buffer is 7 bytes. */ + } + + *dst = '\0'; /* Safety. */ + if (src == NULL) { + return -1; + } + + /* If the input name is already in "hw:%d,%d" format, just return that verbatim. */ + if (ma_is_device_name_in_hw_format__alsa(src)) { + return ma_strcpy_s(dst, dstSize, src); + } + + src = ma_find_char(src, ':', &colonPos); + if (src == NULL) { + return -1; /* Couldn't find a colon */ + } + + dev = ma_find_char(src, ',', &commaPos); + if (dev == NULL) { + dev = "0"; + ma_strncpy_s(card, sizeof(card), src+6, (size_t)-1); /* +6 = ":CARD=" */ + } else { + dev = dev + 5; /* +5 = ",DEV=" */ + ma_strncpy_s(card, sizeof(card), src+6, commaPos-6); /* +6 = ":CARD=" */ + } + + cardIndex = ((ma_snd_card_get_index_proc)pContext->alsa.snd_card_get_index)(card); + if (cardIndex < 0) { + return -2; /* Failed to retrieve the card index. */ + } + + + /* Construction. */ + dst[0] = 'h'; dst[1] = 'w'; dst[2] = ':'; + if (ma_itoa_s(cardIndex, dst+3, dstSize-3, 10) != 0) { + return -3; + } + if (ma_strcat_s(dst, dstSize, ",") != 0) { + return -3; + } + if (ma_strcat_s(dst, dstSize, dev) != 0) { + return -3; + } + + return 0; +} + +static ma_bool32 ma_does_id_exist_in_list__alsa(ma_device_id* pUniqueIDs, ma_uint32 count, const char* pHWID) +{ + ma_uint32 i; + + MA_ASSERT(pHWID != NULL); + + for (i = 0; i < count; ++i) { + if (ma_strcmp(pUniqueIDs[i].alsa, pHWID) == 0) { + return MA_TRUE; + } + } + + return MA_FALSE; +} + + +static ma_result ma_context_open_pcm__alsa(ma_context* pContext, ma_share_mode shareMode, ma_device_type deviceType, const ma_device_id* pDeviceID, int openMode, ma_snd_pcm_t** ppPCM) +{ + ma_snd_pcm_t* pPCM; + ma_snd_pcm_stream_t stream; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(ppPCM != NULL); + + *ppPCM = NULL; + pPCM = NULL; + + stream = (deviceType == ma_device_type_playback) ? MA_SND_PCM_STREAM_PLAYBACK : MA_SND_PCM_STREAM_CAPTURE; + + if (pDeviceID == NULL) { + ma_bool32 isDeviceOpen; + size_t i; + + /* + We're opening the default device. I don't know if trying anything other than "default" is necessary, but it makes + me feel better to try as hard as we can get to get _something_ working. + */ + const char* defaultDeviceNames[] = { + "default", + NULL, + NULL, + NULL, + NULL, + NULL, + NULL + }; + + if (shareMode == ma_share_mode_exclusive) { + defaultDeviceNames[1] = "hw"; + defaultDeviceNames[2] = "hw:0"; + defaultDeviceNames[3] = "hw:0,0"; + } else { + if (deviceType == ma_device_type_playback) { + defaultDeviceNames[1] = "dmix"; + defaultDeviceNames[2] = "dmix:0"; + defaultDeviceNames[3] = "dmix:0,0"; + } else { + defaultDeviceNames[1] = "dsnoop"; + defaultDeviceNames[2] = "dsnoop:0"; + defaultDeviceNames[3] = "dsnoop:0,0"; + } + defaultDeviceNames[4] = "hw"; + defaultDeviceNames[5] = "hw:0"; + defaultDeviceNames[6] = "hw:0,0"; + } + + isDeviceOpen = MA_FALSE; + for (i = 0; i < ma_countof(defaultDeviceNames); ++i) { + if (defaultDeviceNames[i] != NULL && defaultDeviceNames[i][0] != '\0') { + if (((ma_snd_pcm_open_proc)pContext->alsa.snd_pcm_open)(&pPCM, defaultDeviceNames[i], stream, openMode) == 0) { + isDeviceOpen = MA_TRUE; + break; + } + } + } + + if (!isDeviceOpen) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[ALSA] snd_pcm_open() failed when trying to open an appropriate default device."); + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + } else { + /* + We're trying to open a specific device. There's a few things to consider here: + + miniaudio recognizes a special format of device id that excludes the "hw", "dmix", etc. prefix. It looks like this: ":0,0", ":0,1", etc. When + an ID of this format is specified, it indicates to miniaudio that it can try different combinations of plugins ("hw", "dmix", etc.) until it + finds an appropriate one that works. This comes in very handy when trying to open a device in shared mode ("dmix"), vs exclusive mode ("hw"). + */ + + /* May end up needing to make small adjustments to the ID, so make a copy. */ + ma_device_id deviceID = *pDeviceID; + int resultALSA = -ENODEV; + + if (deviceID.alsa[0] != ':') { + /* The ID is not in ":0,0" format. Use the ID exactly as-is. */ + resultALSA = ((ma_snd_pcm_open_proc)pContext->alsa.snd_pcm_open)(&pPCM, deviceID.alsa, stream, openMode); + } else { + char hwid[256]; + + /* The ID is in ":0,0" format. Try different plugins depending on the shared mode. */ + if (deviceID.alsa[1] == '\0') { + deviceID.alsa[0] = '\0'; /* An ID of ":" should be converted to "". */ + } + + if (shareMode == ma_share_mode_shared) { + if (deviceType == ma_device_type_playback) { + ma_strcpy_s(hwid, sizeof(hwid), "dmix"); + } else { + ma_strcpy_s(hwid, sizeof(hwid), "dsnoop"); + } + + if (ma_strcat_s(hwid, sizeof(hwid), deviceID.alsa) == 0) { + resultALSA = ((ma_snd_pcm_open_proc)pContext->alsa.snd_pcm_open)(&pPCM, hwid, stream, openMode); + } + } + + /* If at this point we still don't have an open device it means we're either preferencing exclusive mode or opening with "dmix"/"dsnoop" failed. */ + if (resultALSA != 0) { + ma_strcpy_s(hwid, sizeof(hwid), "hw"); + if (ma_strcat_s(hwid, sizeof(hwid), deviceID.alsa) == 0) { + resultALSA = ((ma_snd_pcm_open_proc)pContext->alsa.snd_pcm_open)(&pPCM, hwid, stream, openMode); + } + } + } + + if (resultALSA < 0) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[ALSA] snd_pcm_open() failed."); + return ma_result_from_errno(-resultALSA); + } + } + + *ppPCM = pPCM; + return MA_SUCCESS; +} + + +static ma_result ma_context_enumerate_devices__alsa(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + int resultALSA; + ma_bool32 cbResult = MA_TRUE; + char** ppDeviceHints; + ma_device_id* pUniqueIDs = NULL; + ma_uint32 uniqueIDCount = 0; + char** ppNextDeviceHint; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + ma_mutex_lock(&pContext->alsa.internalDeviceEnumLock); + + resultALSA = ((ma_snd_device_name_hint_proc)pContext->alsa.snd_device_name_hint)(-1, "pcm", (void***)&ppDeviceHints); + if (resultALSA < 0) { + ma_mutex_unlock(&pContext->alsa.internalDeviceEnumLock); + return ma_result_from_errno(-resultALSA); + } + + ppNextDeviceHint = ppDeviceHints; + while (*ppNextDeviceHint != NULL) { + char* NAME = ((ma_snd_device_name_get_hint_proc)pContext->alsa.snd_device_name_get_hint)(*ppNextDeviceHint, "NAME"); + char* DESC = ((ma_snd_device_name_get_hint_proc)pContext->alsa.snd_device_name_get_hint)(*ppNextDeviceHint, "DESC"); + char* IOID = ((ma_snd_device_name_get_hint_proc)pContext->alsa.snd_device_name_get_hint)(*ppNextDeviceHint, "IOID"); + ma_device_type deviceType = ma_device_type_playback; + ma_bool32 stopEnumeration = MA_FALSE; + char hwid[sizeof(pUniqueIDs->alsa)]; + ma_device_info deviceInfo; + + if ((IOID == NULL || ma_strcmp(IOID, "Output") == 0)) { + deviceType = ma_device_type_playback; + } + if ((IOID != NULL && ma_strcmp(IOID, "Input" ) == 0)) { + deviceType = ma_device_type_capture; + } + + if (NAME != NULL) { + if (pContext->alsa.useVerboseDeviceEnumeration) { + /* Verbose mode. Use the name exactly as-is. */ + ma_strncpy_s(hwid, sizeof(hwid), NAME, (size_t)-1); + } else { + /* Simplified mode. Use ":%d,%d" format. */ + if (ma_convert_device_name_to_hw_format__alsa(pContext, hwid, sizeof(hwid), NAME) == 0) { + /* + At this point, hwid looks like "hw:0,0". In simplified enumeration mode, we actually want to strip off the + plugin name so it looks like ":0,0". The reason for this is that this special format is detected at device + initialization time and is used as an indicator to try to use the most appropriate plugin depending on the + device type and sharing mode. + */ + char* dst = hwid; + char* src = hwid+2; + while ((*dst++ = *src++)); + } else { + /* Conversion to "hw:%d,%d" failed. Just use the name as-is. */ + ma_strncpy_s(hwid, sizeof(hwid), NAME, (size_t)-1); + } + + if (ma_does_id_exist_in_list__alsa(pUniqueIDs, uniqueIDCount, hwid)) { + goto next_device; /* The device has already been enumerated. Move on to the next one. */ + } else { + /* The device has not yet been enumerated. Make sure it's added to our list so that it's not enumerated again. */ + size_t newCapacity = sizeof(*pUniqueIDs) * (uniqueIDCount + 1); + ma_device_id* pNewUniqueIDs = (ma_device_id*)ma_realloc(pUniqueIDs, newCapacity, &pContext->allocationCallbacks); + if (pNewUniqueIDs == NULL) { + goto next_device; /* Failed to allocate memory. */ + } + + pUniqueIDs = pNewUniqueIDs; + MA_COPY_MEMORY(pUniqueIDs[uniqueIDCount].alsa, hwid, sizeof(hwid)); + uniqueIDCount += 1; + } + } + } else { + MA_ZERO_MEMORY(hwid, sizeof(hwid)); + } + + MA_ZERO_OBJECT(&deviceInfo); + ma_strncpy_s(deviceInfo.id.alsa, sizeof(deviceInfo.id.alsa), hwid, (size_t)-1); + + /* + There's no good way to determine whether or not a device is the default on Linux. We're just going to do something simple and + just use the name of "default" as the indicator. + */ + if (ma_strcmp(deviceInfo.id.alsa, "default") == 0) { + deviceInfo.isDefault = MA_TRUE; + } + + + /* + DESC is the friendly name. We treat this slightly differently depending on whether or not we are using verbose + device enumeration. In verbose mode we want to take the entire description so that the end-user can distinguish + between the subdevices of each card/dev pair. In simplified mode, however, we only want the first part of the + description. + + The value in DESC seems to be split into two lines, with the first line being the name of the device and the + second line being a description of the device. I don't like having the description be across two lines because + it makes formatting ugly and annoying. I'm therefore deciding to put it all on a single line with the second line + being put into parentheses. In simplified mode I'm just stripping the second line entirely. + */ + if (DESC != NULL) { + int lfPos; + const char* line2 = ma_find_char(DESC, '\n', &lfPos); + if (line2 != NULL) { + line2 += 1; /* Skip past the new-line character. */ + + if (pContext->alsa.useVerboseDeviceEnumeration) { + /* Verbose mode. Put the second line in brackets. */ + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), DESC, lfPos); + ma_strcat_s (deviceInfo.name, sizeof(deviceInfo.name), " ("); + ma_strcat_s (deviceInfo.name, sizeof(deviceInfo.name), line2); + ma_strcat_s (deviceInfo.name, sizeof(deviceInfo.name), ")"); + } else { + /* Simplified mode. Strip the second line entirely. */ + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), DESC, lfPos); + } + } else { + /* There's no second line. Just copy the whole description. */ + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), DESC, (size_t)-1); + } + } + + if (!ma_is_device_blacklisted__alsa(deviceType, NAME)) { + cbResult = callback(pContext, deviceType, &deviceInfo, pUserData); + } + + /* + Some devices are both playback and capture, but they are only enumerated by ALSA once. We need to fire the callback + again for the other device type in this case. We do this for known devices and where the IOID hint is NULL, which + means both Input and Output. + */ + if (cbResult) { + if (ma_is_common_device_name__alsa(NAME) || IOID == NULL) { + if (deviceType == ma_device_type_playback) { + if (!ma_is_capture_device_blacklisted__alsa(NAME)) { + cbResult = callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + } + } else { + if (!ma_is_playback_device_blacklisted__alsa(NAME)) { + cbResult = callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + } + } + } + } + + if (cbResult == MA_FALSE) { + stopEnumeration = MA_TRUE; + } + + next_device: + free(NAME); + free(DESC); + free(IOID); + ppNextDeviceHint += 1; + + /* We need to stop enumeration if the callback returned false. */ + if (stopEnumeration) { + break; + } + } + + ma_free(pUniqueIDs, &pContext->allocationCallbacks); + ((ma_snd_device_name_free_hint_proc)pContext->alsa.snd_device_name_free_hint)((void**)ppDeviceHints); + + ma_mutex_unlock(&pContext->alsa.internalDeviceEnumLock); + + return MA_SUCCESS; +} + + +typedef struct +{ + ma_device_type deviceType; + const ma_device_id* pDeviceID; + ma_share_mode shareMode; + ma_device_info* pDeviceInfo; + ma_bool32 foundDevice; +} ma_context_get_device_info_enum_callback_data__alsa; + +static ma_bool32 ma_context_get_device_info_enum_callback__alsa(ma_context* pContext, ma_device_type deviceType, const ma_device_info* pDeviceInfo, void* pUserData) +{ + ma_context_get_device_info_enum_callback_data__alsa* pData = (ma_context_get_device_info_enum_callback_data__alsa*)pUserData; + MA_ASSERT(pData != NULL); + + (void)pContext; + + if (pData->pDeviceID == NULL && ma_strcmp(pDeviceInfo->id.alsa, "default") == 0) { + ma_strncpy_s(pData->pDeviceInfo->name, sizeof(pData->pDeviceInfo->name), pDeviceInfo->name, (size_t)-1); + pData->foundDevice = MA_TRUE; + } else { + if (pData->deviceType == deviceType && (pData->pDeviceID != NULL && ma_strcmp(pData->pDeviceID->alsa, pDeviceInfo->id.alsa) == 0)) { + ma_strncpy_s(pData->pDeviceInfo->name, sizeof(pData->pDeviceInfo->name), pDeviceInfo->name, (size_t)-1); + pData->foundDevice = MA_TRUE; + } + } + + /* Keep enumerating until we have found the device. */ + return !pData->foundDevice; +} + +static void ma_context_test_rate_and_add_native_data_format__alsa(ma_context* pContext, ma_snd_pcm_t* pPCM, ma_snd_pcm_hw_params_t* pHWParams, ma_format format, ma_uint32 channels, ma_uint32 sampleRate, ma_uint32 flags, ma_device_info* pDeviceInfo) +{ + MA_ASSERT(pPCM != NULL); + MA_ASSERT(pHWParams != NULL); + MA_ASSERT(pDeviceInfo != NULL); + + if (pDeviceInfo->nativeDataFormatCount < ma_countof(pDeviceInfo->nativeDataFormats) && ((ma_snd_pcm_hw_params_test_rate_proc)pContext->alsa.snd_pcm_hw_params_test_rate)(pPCM, pHWParams, sampleRate, 0) == 0) { + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].format = format; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].channels = channels; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].sampleRate = sampleRate; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].flags = flags; + pDeviceInfo->nativeDataFormatCount += 1; + } +} + +static void ma_context_iterate_rates_and_add_native_data_format__alsa(ma_context* pContext, ma_snd_pcm_t* pPCM, ma_snd_pcm_hw_params_t* pHWParams, ma_format format, ma_uint32 channels, ma_uint32 flags, ma_device_info* pDeviceInfo) +{ + ma_uint32 iSampleRate; + unsigned int minSampleRate; + unsigned int maxSampleRate; + int sampleRateDir; /* Not used. Just passed into snd_pcm_hw_params_get_rate_min/max(). */ + + /* There could be a range. */ + ((ma_snd_pcm_hw_params_get_rate_min_proc)pContext->alsa.snd_pcm_hw_params_get_rate_min)(pHWParams, &minSampleRate, &sampleRateDir); + ((ma_snd_pcm_hw_params_get_rate_max_proc)pContext->alsa.snd_pcm_hw_params_get_rate_max)(pHWParams, &maxSampleRate, &sampleRateDir); + + /* Make sure our sample rates are clamped to sane values. Stupid devices like "pulse" will reports rates like "1" which is ridiculous. */ + minSampleRate = ma_clamp(minSampleRate, (unsigned int)ma_standard_sample_rate_min, (unsigned int)ma_standard_sample_rate_max); + maxSampleRate = ma_clamp(maxSampleRate, (unsigned int)ma_standard_sample_rate_min, (unsigned int)ma_standard_sample_rate_max); + + for (iSampleRate = 0; iSampleRate < ma_countof(g_maStandardSampleRatePriorities); iSampleRate += 1) { + ma_uint32 standardSampleRate = g_maStandardSampleRatePriorities[iSampleRate]; + + if (standardSampleRate >= minSampleRate && standardSampleRate <= maxSampleRate) { + ma_context_test_rate_and_add_native_data_format__alsa(pContext, pPCM, pHWParams, format, channels, standardSampleRate, flags, pDeviceInfo); + } + } + + /* Now make sure our min and max rates are included just in case they aren't in the range of our standard rates. */ + if (!ma_is_standard_sample_rate(minSampleRate)) { + ma_context_test_rate_and_add_native_data_format__alsa(pContext, pPCM, pHWParams, format, channels, minSampleRate, flags, pDeviceInfo); + } + + if (!ma_is_standard_sample_rate(maxSampleRate) && maxSampleRate != minSampleRate) { + ma_context_test_rate_and_add_native_data_format__alsa(pContext, pPCM, pHWParams, format, channels, maxSampleRate, flags, pDeviceInfo); + } +} + +static ma_result ma_context_get_device_info__alsa(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + ma_context_get_device_info_enum_callback_data__alsa data; + ma_result result; + int resultALSA; + ma_snd_pcm_t* pPCM; + ma_snd_pcm_hw_params_t* pHWParams; + ma_uint32 iFormat; + ma_uint32 iChannel; + + MA_ASSERT(pContext != NULL); + + /* We just enumerate to find basic information about the device. */ + data.deviceType = deviceType; + data.pDeviceID = pDeviceID; + data.pDeviceInfo = pDeviceInfo; + data.foundDevice = MA_FALSE; + result = ma_context_enumerate_devices__alsa(pContext, ma_context_get_device_info_enum_callback__alsa, &data); + if (result != MA_SUCCESS) { + return result; + } + + if (!data.foundDevice) { + return MA_NO_DEVICE; + } + + if (ma_strcmp(pDeviceInfo->id.alsa, "default") == 0) { + pDeviceInfo->isDefault = MA_TRUE; + } + + /* For detailed info we need to open the device. */ + result = ma_context_open_pcm__alsa(pContext, ma_share_mode_shared, deviceType, pDeviceID, 0, &pPCM); + if (result != MA_SUCCESS) { + return result; + } + + /* We need to initialize a HW parameters object in order to know what formats are supported. */ + pHWParams = (ma_snd_pcm_hw_params_t*)ma_calloc(((ma_snd_pcm_hw_params_sizeof_proc)pContext->alsa.snd_pcm_hw_params_sizeof)(), &pContext->allocationCallbacks); + if (pHWParams == NULL) { + ((ma_snd_pcm_close_proc)pContext->alsa.snd_pcm_close)(pPCM); + return MA_OUT_OF_MEMORY; + } + + resultALSA = ((ma_snd_pcm_hw_params_any_proc)pContext->alsa.snd_pcm_hw_params_any)(pPCM, pHWParams); + if (resultALSA < 0) { + ma_free(pHWParams, &pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pContext->alsa.snd_pcm_close)(pPCM); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to initialize hardware parameters. snd_pcm_hw_params_any() failed."); + return ma_result_from_errno(-resultALSA); + } + + /* + Some ALSA devices can support many permutations of formats, channels and rates. We only support + a fixed number of permutations which means we need to employ some strategies to ensure the best + combinations are returned. An example is the "pulse" device which can do its own data conversion + in software and as a result can support any combination of format, channels and rate. + + We want to ensure that the first data formats are the best. We have a list of favored sample + formats and sample rates, so these will be the basis of our iteration. + */ + + /* Formats. We just iterate over our standard formats and test them, making sure we reset the configuration space each iteration. */ + for (iFormat = 0; iFormat < ma_countof(g_maFormatPriorities); iFormat += 1) { + ma_format format = g_maFormatPriorities[iFormat]; + + /* + For each format we need to make sure we reset the configuration space so we don't return + channel counts and rates that aren't compatible with a format. + */ + ((ma_snd_pcm_hw_params_any_proc)pContext->alsa.snd_pcm_hw_params_any)(pPCM, pHWParams); + + /* Test the format first. If this fails it means the format is not supported and we can skip it. */ + if (((ma_snd_pcm_hw_params_test_format_proc)pContext->alsa.snd_pcm_hw_params_test_format)(pPCM, pHWParams, ma_convert_ma_format_to_alsa_format(format)) == 0) { + /* The format is supported. */ + unsigned int minChannels; + unsigned int maxChannels; + + /* + The configuration space needs to be restricted to this format so we can get an accurate + picture of which sample rates and channel counts are support with this format. + */ + ((ma_snd_pcm_hw_params_set_format_proc)pContext->alsa.snd_pcm_hw_params_set_format)(pPCM, pHWParams, ma_convert_ma_format_to_alsa_format(format)); + + /* Now we need to check for supported channels. */ + ((ma_snd_pcm_hw_params_get_channels_min_proc)pContext->alsa.snd_pcm_hw_params_get_channels_min)(pHWParams, &minChannels); + ((ma_snd_pcm_hw_params_get_channels_max_proc)pContext->alsa.snd_pcm_hw_params_get_channels_max)(pHWParams, &maxChannels); + + if (minChannels > MA_MAX_CHANNELS) { + continue; /* Too many channels. */ + } + if (maxChannels < MA_MIN_CHANNELS) { + continue; /* Not enough channels. */ + } + + /* + Make sure the channel count is clamped. This is mainly intended for the max channels + because some devices can report an unbound maximum. + */ + minChannels = ma_clamp(minChannels, MA_MIN_CHANNELS, MA_MAX_CHANNELS); + maxChannels = ma_clamp(maxChannels, MA_MIN_CHANNELS, MA_MAX_CHANNELS); + + if (minChannels == MA_MIN_CHANNELS && maxChannels == MA_MAX_CHANNELS) { + /* The device supports all channels. Don't iterate over every single one. Instead just set the channels to 0 which means all channels are supported. */ + ma_context_iterate_rates_and_add_native_data_format__alsa(pContext, pPCM, pHWParams, format, 0, 0, pDeviceInfo); /* Intentionally setting the channel count to 0 as that means all channels are supported. */ + } else { + /* The device only supports a specific set of channels. We need to iterate over all of them. */ + for (iChannel = minChannels; iChannel <= maxChannels; iChannel += 1) { + /* Test the channel before applying it to the configuration space. */ + unsigned int channels = iChannel; + + /* Make sure our channel range is reset before testing again or else we'll always fail the test. */ + ((ma_snd_pcm_hw_params_any_proc)pContext->alsa.snd_pcm_hw_params_any)(pPCM, pHWParams); + ((ma_snd_pcm_hw_params_set_format_proc)pContext->alsa.snd_pcm_hw_params_set_format)(pPCM, pHWParams, ma_convert_ma_format_to_alsa_format(format)); + + if (((ma_snd_pcm_hw_params_test_channels_proc)pContext->alsa.snd_pcm_hw_params_test_channels)(pPCM, pHWParams, channels) == 0) { + /* The channel count is supported. */ + + /* The configuration space now needs to be restricted to the channel count before extracting the sample rate. */ + ((ma_snd_pcm_hw_params_set_channels_proc)pContext->alsa.snd_pcm_hw_params_set_channels)(pPCM, pHWParams, channels); + + /* Only after the configuration space has been restricted to the specific channel count should we iterate over our sample rates. */ + ma_context_iterate_rates_and_add_native_data_format__alsa(pContext, pPCM, pHWParams, format, channels, 0, pDeviceInfo); + } else { + /* The channel count is not supported. Skip. */ + } + } + } + } else { + /* The format is not supported. Skip. */ + } + } + + ma_free(pHWParams, &pContext->allocationCallbacks); + + ((ma_snd_pcm_close_proc)pContext->alsa.snd_pcm_close)(pPCM); + return MA_SUCCESS; +} + +static ma_result ma_device_uninit__alsa(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if ((ma_snd_pcm_t*)pDevice->alsa.pPCMCapture) { + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)((ma_snd_pcm_t*)pDevice->alsa.pPCMCapture); + close(pDevice->alsa.wakeupfdCapture); + ma_free(pDevice->alsa.pPollDescriptorsCapture, &pDevice->pContext->allocationCallbacks); + } + + if ((ma_snd_pcm_t*)pDevice->alsa.pPCMPlayback) { + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)((ma_snd_pcm_t*)pDevice->alsa.pPCMPlayback); + close(pDevice->alsa.wakeupfdPlayback); + ma_free(pDevice->alsa.pPollDescriptorsPlayback, &pDevice->pContext->allocationCallbacks); + } + + return MA_SUCCESS; +} + +static ma_result ma_device_init_by_type__alsa(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptor, ma_device_type deviceType) +{ + ma_result result; + int resultALSA; + ma_snd_pcm_t* pPCM; + ma_bool32 isUsingMMap; + ma_snd_pcm_format_t formatALSA; + ma_format internalFormat; + ma_uint32 internalChannels; + ma_uint32 internalSampleRate; + ma_channel internalChannelMap[MA_MAX_CHANNELS]; + ma_uint32 internalPeriodSizeInFrames; + ma_uint32 internalPeriods; + int openMode; + ma_snd_pcm_hw_params_t* pHWParams; + ma_snd_pcm_sw_params_t* pSWParams; + ma_snd_pcm_uframes_t bufferBoundary; + int pollDescriptorCount; + struct pollfd* pPollDescriptors; + int wakeupfd; + + MA_ASSERT(pConfig != NULL); + MA_ASSERT(deviceType != ma_device_type_duplex); /* This function should only be called for playback _or_ capture, never duplex. */ + MA_ASSERT(pDevice != NULL); + + formatALSA = ma_convert_ma_format_to_alsa_format(pDescriptor->format); + + openMode = 0; + if (pConfig->alsa.noAutoResample) { + openMode |= MA_SND_PCM_NO_AUTO_RESAMPLE; + } + if (pConfig->alsa.noAutoChannels) { + openMode |= MA_SND_PCM_NO_AUTO_CHANNELS; + } + if (pConfig->alsa.noAutoFormat) { + openMode |= MA_SND_PCM_NO_AUTO_FORMAT; + } + + result = ma_context_open_pcm__alsa(pDevice->pContext, pDescriptor->shareMode, deviceType, pDescriptor->pDeviceID, openMode, &pPCM); + if (result != MA_SUCCESS) { + return result; + } + + + /* Hardware parameters. */ + pHWParams = (ma_snd_pcm_hw_params_t*)ma_calloc(((ma_snd_pcm_hw_params_sizeof_proc)pDevice->pContext->alsa.snd_pcm_hw_params_sizeof)(), &pDevice->pContext->allocationCallbacks); + if (pHWParams == NULL) { + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to allocate memory for hardware parameters."); + return MA_OUT_OF_MEMORY; + } + + resultALSA = ((ma_snd_pcm_hw_params_any_proc)pDevice->pContext->alsa.snd_pcm_hw_params_any)(pPCM, pHWParams); + if (resultALSA < 0) { + ma_free(pHWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to initialize hardware parameters. snd_pcm_hw_params_any() failed."); + return ma_result_from_errno(-resultALSA); + } + + /* MMAP Mode. Try using interleaved MMAP access. If this fails, fall back to standard readi/writei. */ + isUsingMMap = MA_FALSE; +#if 0 /* NOTE: MMAP mode temporarily disabled. */ + if (deviceType != ma_device_type_capture) { /* <-- Disabling MMAP mode for capture devices because I apparently do not have a device that supports it which means I can't test it... Contributions welcome. */ + if (!pConfig->alsa.noMMap) { + if (((ma_snd_pcm_hw_params_set_access_proc)pDevice->pContext->alsa.snd_pcm_hw_params_set_access)(pPCM, pHWParams, MA_SND_PCM_ACCESS_MMAP_INTERLEAVED) == 0) { + pDevice->alsa.isUsingMMap = MA_TRUE; + } + } + } +#endif + + if (!isUsingMMap) { + resultALSA = ((ma_snd_pcm_hw_params_set_access_proc)pDevice->pContext->alsa.snd_pcm_hw_params_set_access)(pPCM, pHWParams, MA_SND_PCM_ACCESS_RW_INTERLEAVED); + if (resultALSA < 0) { + ma_free(pHWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to set access mode to neither SND_PCM_ACCESS_MMAP_INTERLEAVED nor SND_PCM_ACCESS_RW_INTERLEAVED. snd_pcm_hw_params_set_access() failed."); + return ma_result_from_errno(-resultALSA); + } + } + + /* + Most important properties first. The documentation for OSS (yes, I know this is ALSA!) recommends format, channels, then sample rate. I can't + find any documentation for ALSA specifically, so I'm going to copy the recommendation for OSS. + */ + + /* Format. */ + { + /* + At this point we should have a list of supported formats, so now we need to find the best one. We first check if the requested format is + supported, and if so, use that one. If it's not supported, we just run though a list of formats and try to find the best one. + */ + if (formatALSA == MA_SND_PCM_FORMAT_UNKNOWN || ((ma_snd_pcm_hw_params_test_format_proc)pDevice->pContext->alsa.snd_pcm_hw_params_test_format)(pPCM, pHWParams, formatALSA) != 0) { + /* We're either requesting the native format or the specified format is not supported. */ + size_t iFormat; + + formatALSA = MA_SND_PCM_FORMAT_UNKNOWN; + for (iFormat = 0; iFormat < ma_countof(g_maFormatPriorities); ++iFormat) { + if (((ma_snd_pcm_hw_params_test_format_proc)pDevice->pContext->alsa.snd_pcm_hw_params_test_format)(pPCM, pHWParams, ma_convert_ma_format_to_alsa_format(g_maFormatPriorities[iFormat])) == 0) { + formatALSA = ma_convert_ma_format_to_alsa_format(g_maFormatPriorities[iFormat]); + break; + } + } + + if (formatALSA == MA_SND_PCM_FORMAT_UNKNOWN) { + ma_free(pHWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Format not supported. The device does not support any miniaudio formats."); + return MA_FORMAT_NOT_SUPPORTED; + } + } + + resultALSA = ((ma_snd_pcm_hw_params_set_format_proc)pDevice->pContext->alsa.snd_pcm_hw_params_set_format)(pPCM, pHWParams, formatALSA); + if (resultALSA < 0) { + ma_free(pHWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Format not supported. snd_pcm_hw_params_set_format() failed."); + return ma_result_from_errno(-resultALSA); + } + + internalFormat = ma_format_from_alsa(formatALSA); + if (internalFormat == ma_format_unknown) { + ma_free(pHWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] The chosen format is not supported by miniaudio."); + return MA_FORMAT_NOT_SUPPORTED; + } + } + + /* Channels. */ + { + unsigned int channels = pDescriptor->channels; + if (channels == 0) { + channels = MA_DEFAULT_CHANNELS; + } + + resultALSA = ((ma_snd_pcm_hw_params_set_channels_near_proc)pDevice->pContext->alsa.snd_pcm_hw_params_set_channels_near)(pPCM, pHWParams, &channels); + if (resultALSA < 0) { + ma_free(pHWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to set channel count. snd_pcm_hw_params_set_channels_near() failed."); + return ma_result_from_errno(-resultALSA); + } + + internalChannels = (ma_uint32)channels; + } + + /* Sample Rate */ + { + unsigned int sampleRate; + + /* + It appears there's either a bug in ALSA, a bug in some drivers, or I'm doing something silly; but having resampling enabled causes + problems with some device configurations when used in conjunction with MMAP access mode. To fix this problem we need to disable + resampling. + + To reproduce this problem, open the "plug:dmix" device, and set the sample rate to 44100. Internally, it looks like dmix uses a + sample rate of 48000. The hardware parameters will get set correctly with no errors, but it looks like the 44100 -> 48000 resampling + doesn't work properly - but only with MMAP access mode. You will notice skipping/crackling in the audio, and it'll run at a slightly + faster rate. + + miniaudio has built-in support for sample rate conversion (albeit low quality at the moment), so disabling resampling should be fine + for us. The only problem is that it won't be taking advantage of any kind of hardware-accelerated resampling and it won't be very + good quality until I get a chance to improve the quality of miniaudio's software sample rate conversion. + + I don't currently know if the dmix plugin is the only one with this error. Indeed, this is the only one I've been able to reproduce + this error with. In the future, we may want to restrict the disabling of resampling to only known bad plugins. + */ + ((ma_snd_pcm_hw_params_set_rate_resample_proc)pDevice->pContext->alsa.snd_pcm_hw_params_set_rate_resample)(pPCM, pHWParams, 0); + + sampleRate = pDescriptor->sampleRate; + if (sampleRate == 0) { + sampleRate = MA_DEFAULT_SAMPLE_RATE; + } + + resultALSA = ((ma_snd_pcm_hw_params_set_rate_near_proc)pDevice->pContext->alsa.snd_pcm_hw_params_set_rate_near)(pPCM, pHWParams, &sampleRate, 0); + if (resultALSA < 0) { + ma_free(pHWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Sample rate not supported. snd_pcm_hw_params_set_rate_near() failed."); + return ma_result_from_errno(-resultALSA); + } + + internalSampleRate = (ma_uint32)sampleRate; + } + + /* Periods. */ + { + ma_uint32 periods = pDescriptor->periodCount; + + resultALSA = ((ma_snd_pcm_hw_params_set_periods_near_proc)pDevice->pContext->alsa.snd_pcm_hw_params_set_periods_near)(pPCM, pHWParams, &periods, NULL); + if (resultALSA < 0) { + ma_free(pHWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to set period count. snd_pcm_hw_params_set_periods_near() failed."); + return ma_result_from_errno(-resultALSA); + } + + internalPeriods = periods; + } + + /* Buffer Size */ + { + ma_snd_pcm_uframes_t actualBufferSizeInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptor, internalSampleRate, pConfig->performanceProfile) * internalPeriods; + + resultALSA = ((ma_snd_pcm_hw_params_set_buffer_size_near_proc)pDevice->pContext->alsa.snd_pcm_hw_params_set_buffer_size_near)(pPCM, pHWParams, &actualBufferSizeInFrames); + if (resultALSA < 0) { + ma_free(pHWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to set buffer size for device. snd_pcm_hw_params_set_buffer_size() failed."); + return ma_result_from_errno(-resultALSA); + } + + internalPeriodSizeInFrames = actualBufferSizeInFrames / internalPeriods; + } + + /* Apply hardware parameters. */ + resultALSA = ((ma_snd_pcm_hw_params_proc)pDevice->pContext->alsa.snd_pcm_hw_params)(pPCM, pHWParams); + if (resultALSA < 0) { + ma_free(pHWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to set hardware parameters. snd_pcm_hw_params() failed."); + return ma_result_from_errno(-resultALSA); + } + + ma_free(pHWParams, &pDevice->pContext->allocationCallbacks); + pHWParams = NULL; + + + /* Software parameters. */ + pSWParams = (ma_snd_pcm_sw_params_t*)ma_calloc(((ma_snd_pcm_sw_params_sizeof_proc)pDevice->pContext->alsa.snd_pcm_sw_params_sizeof)(), &pDevice->pContext->allocationCallbacks); + if (pSWParams == NULL) { + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to allocate memory for software parameters."); + return MA_OUT_OF_MEMORY; + } + + resultALSA = ((ma_snd_pcm_sw_params_current_proc)pDevice->pContext->alsa.snd_pcm_sw_params_current)(pPCM, pSWParams); + if (resultALSA < 0) { + ma_free(pSWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to initialize software parameters. snd_pcm_sw_params_current() failed."); + return ma_result_from_errno(-resultALSA); + } + + resultALSA = ((ma_snd_pcm_sw_params_set_avail_min_proc)pDevice->pContext->alsa.snd_pcm_sw_params_set_avail_min)(pPCM, pSWParams, ma_prev_power_of_2(internalPeriodSizeInFrames)); + if (resultALSA < 0) { + ma_free(pSWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] snd_pcm_sw_params_set_avail_min() failed."); + return ma_result_from_errno(-resultALSA); + } + + resultALSA = ((ma_snd_pcm_sw_params_get_boundary_proc)pDevice->pContext->alsa.snd_pcm_sw_params_get_boundary)(pSWParams, &bufferBoundary); + if (resultALSA < 0) { + bufferBoundary = internalPeriodSizeInFrames * internalPeriods; + } + + if (deviceType == ma_device_type_playback && !isUsingMMap) { /* Only playback devices in writei/readi mode need a start threshold. */ + /* + Subtle detail here with the start threshold. When in playback-only mode (no full-duplex) we can set the start threshold to + the size of a period. But for full-duplex we need to set it such that it is at least two periods. + */ + resultALSA = ((ma_snd_pcm_sw_params_set_start_threshold_proc)pDevice->pContext->alsa.snd_pcm_sw_params_set_start_threshold)(pPCM, pSWParams, internalPeriodSizeInFrames*2); + if (resultALSA < 0) { + ma_free(pSWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to set start threshold for playback device. snd_pcm_sw_params_set_start_threshold() failed."); + return ma_result_from_errno(-resultALSA); + } + + resultALSA = ((ma_snd_pcm_sw_params_set_stop_threshold_proc)pDevice->pContext->alsa.snd_pcm_sw_params_set_stop_threshold)(pPCM, pSWParams, bufferBoundary); + if (resultALSA < 0) { /* Set to boundary to loop instead of stop in the event of an xrun. */ + ma_free(pSWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to set stop threshold for playback device. snd_pcm_sw_params_set_stop_threshold() failed."); + return ma_result_from_errno(-resultALSA); + } + } + + resultALSA = ((ma_snd_pcm_sw_params_proc)pDevice->pContext->alsa.snd_pcm_sw_params)(pPCM, pSWParams); + if (resultALSA < 0) { + ma_free(pSWParams, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to set software parameters. snd_pcm_sw_params() failed."); + return ma_result_from_errno(-resultALSA); + } + + ma_free(pSWParams, &pDevice->pContext->allocationCallbacks); + pSWParams = NULL; + + + /* Grab the internal channel map. For now we're not going to bother trying to change the channel map and instead just do it ourselves. */ + { + ma_snd_pcm_chmap_t* pChmap = NULL; + if (pDevice->pContext->alsa.snd_pcm_get_chmap != NULL) { + pChmap = ((ma_snd_pcm_get_chmap_proc)pDevice->pContext->alsa.snd_pcm_get_chmap)(pPCM); + } + + if (pChmap != NULL) { + ma_uint32 iChannel; + + /* There are cases where the returned channel map can have a different channel count than was returned by snd_pcm_hw_params_set_channels_near(). */ + if (pChmap->channels >= internalChannels) { + /* Drop excess channels. */ + for (iChannel = 0; iChannel < internalChannels; ++iChannel) { + internalChannelMap[iChannel] = ma_convert_alsa_channel_position_to_ma_channel(pChmap->pos[iChannel]); + } + } else { + ma_uint32 i; + + /* + Excess channels use defaults. Do an initial fill with defaults, overwrite the first pChmap->channels, validate to ensure there are no duplicate + channels. If validation fails, fall back to defaults. + */ + ma_bool32 isValid = MA_TRUE; + + /* Fill with defaults. */ + ma_channel_map_init_standard(ma_standard_channel_map_alsa, internalChannelMap, ma_countof(internalChannelMap), internalChannels); + + /* Overwrite first pChmap->channels channels. */ + for (iChannel = 0; iChannel < pChmap->channels; ++iChannel) { + internalChannelMap[iChannel] = ma_convert_alsa_channel_position_to_ma_channel(pChmap->pos[iChannel]); + } + + /* Validate. */ + for (i = 0; i < internalChannels && isValid; ++i) { + ma_uint32 j; + for (j = i+1; j < internalChannels; ++j) { + if (internalChannelMap[i] == internalChannelMap[j]) { + isValid = MA_FALSE; + break; + } + } + } + + /* If our channel map is invalid, fall back to defaults. */ + if (!isValid) { + ma_channel_map_init_standard(ma_standard_channel_map_alsa, internalChannelMap, ma_countof(internalChannelMap), internalChannels); + } + } + + free(pChmap); + pChmap = NULL; + } else { + /* Could not retrieve the channel map. Fall back to a hard-coded assumption. */ + ma_channel_map_init_standard(ma_standard_channel_map_alsa, internalChannelMap, ma_countof(internalChannelMap), internalChannels); + } + } + + + /* + We need to retrieve the poll descriptors so we can use poll() to wait for data to become + available for reading or writing. There's no well defined maximum for this so we're just going + to allocate this on the heap. + */ + pollDescriptorCount = ((ma_snd_pcm_poll_descriptors_count_proc)pDevice->pContext->alsa.snd_pcm_poll_descriptors_count)(pPCM); + if (pollDescriptorCount <= 0) { + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to retrieve poll descriptors count."); + return MA_ERROR; + } + + pPollDescriptors = (struct pollfd*)ma_malloc(sizeof(*pPollDescriptors) * (pollDescriptorCount + 1), &pDevice->pContext->allocationCallbacks); /* +1 because we want room for the wakeup descriptor. */ + if (pPollDescriptors == NULL) { + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to allocate memory for poll descriptors."); + return MA_OUT_OF_MEMORY; + } + + /* + We need an eventfd to wakeup from poll() and avoid a deadlock in situations where the driver + never returns from writei() and readi(). This has been observed with the "pulse" device. + */ + wakeupfd = eventfd(0, 0); + if (wakeupfd < 0) { + ma_free(pPollDescriptors, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to create eventfd for poll wakeup."); + return ma_result_from_errno(errno); + } + + /* We'll place the wakeup fd at the start of the buffer. */ + pPollDescriptors[0].fd = wakeupfd; + pPollDescriptors[0].events = POLLIN; /* We only care about waiting to read from the wakeup file descriptor. */ + pPollDescriptors[0].revents = 0; + + /* We can now extract the PCM poll descriptors which we place after the wakeup descriptor. */ + pollDescriptorCount = ((ma_snd_pcm_poll_descriptors_proc)pDevice->pContext->alsa.snd_pcm_poll_descriptors)(pPCM, pPollDescriptors + 1, pollDescriptorCount); /* +1 because we want to place these descriptors after the wakeup descriptor. */ + if (pollDescriptorCount <= 0) { + close(wakeupfd); + ma_free(pPollDescriptors, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to retrieve poll descriptors."); + return MA_ERROR; + } + + if (deviceType == ma_device_type_capture) { + pDevice->alsa.pollDescriptorCountCapture = pollDescriptorCount; + pDevice->alsa.pPollDescriptorsCapture = pPollDescriptors; + pDevice->alsa.wakeupfdCapture = wakeupfd; + } else { + pDevice->alsa.pollDescriptorCountPlayback = pollDescriptorCount; + pDevice->alsa.pPollDescriptorsPlayback = pPollDescriptors; + pDevice->alsa.wakeupfdPlayback = wakeupfd; + } + + + /* We're done. Prepare the device. */ + resultALSA = ((ma_snd_pcm_prepare_proc)pDevice->pContext->alsa.snd_pcm_prepare)(pPCM); + if (resultALSA < 0) { + close(wakeupfd); + ma_free(pPollDescriptors, &pDevice->pContext->allocationCallbacks); + ((ma_snd_pcm_close_proc)pDevice->pContext->alsa.snd_pcm_close)(pPCM); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to prepare device."); + return ma_result_from_errno(-resultALSA); + } + + + if (deviceType == ma_device_type_capture) { + pDevice->alsa.pPCMCapture = (ma_ptr)pPCM; + pDevice->alsa.isUsingMMapCapture = isUsingMMap; + } else { + pDevice->alsa.pPCMPlayback = (ma_ptr)pPCM; + pDevice->alsa.isUsingMMapPlayback = isUsingMMap; + } + + pDescriptor->format = internalFormat; + pDescriptor->channels = internalChannels; + pDescriptor->sampleRate = internalSampleRate; + ma_channel_map_copy(pDescriptor->channelMap, internalChannelMap, ma_min(internalChannels, MA_MAX_CHANNELS)); + pDescriptor->periodSizeInFrames = internalPeriodSizeInFrames; + pDescriptor->periodCount = internalPeriods; + + return MA_SUCCESS; +} + +static ma_result ma_device_init__alsa(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + MA_ASSERT(pDevice != NULL); + + MA_ZERO_OBJECT(&pDevice->alsa); + + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + ma_result result = ma_device_init_by_type__alsa(pDevice, pConfig, pDescriptorCapture, ma_device_type_capture); + if (result != MA_SUCCESS) { + return result; + } + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ma_result result = ma_device_init_by_type__alsa(pDevice, pConfig, pDescriptorPlayback, ma_device_type_playback); + if (result != MA_SUCCESS) { + return result; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_start__alsa(ma_device* pDevice) +{ + int resultALSA; + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + resultALSA = ((ma_snd_pcm_start_proc)pDevice->pContext->alsa.snd_pcm_start)((ma_snd_pcm_t*)pDevice->alsa.pPCMCapture); + if (resultALSA < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to start capture device."); + return ma_result_from_errno(-resultALSA); + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + /* + When data is written to the device we wait for the device to get ready to receive data with poll(). In my testing + I have observed that poll() can sometimes block forever unless the device is started explicitly with snd_pcm_start() + or some data is written with snd_pcm_writei(). + + To resolve this I've decided to do an explicit start with snd_pcm_start(). The problem with this is that the device + is started without any data in the internal buffer which will result in an immediate underrun. If instead we were + to call into snd_pcm_writei() in an attempt to prevent the underrun, we would run the risk of a weird deadlock + issue as documented inside ma_device_write__alsa(). + */ + resultALSA = ((ma_snd_pcm_start_proc)pDevice->pContext->alsa.snd_pcm_start)((ma_snd_pcm_t*)pDevice->alsa.pPCMPlayback); + if (resultALSA < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to start playback device."); + return ma_result_from_errno(-resultALSA); + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__alsa(ma_device* pDevice) +{ + /* + The stop callback will get called on the worker thread after read/write__alsa() has returned. At this point there is + a small chance that our wakeupfd has not been cleared. We'll clear that out now if applicable. + */ + int resultPoll; + int resultRead; + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Dropping capture device...\n"); + ((ma_snd_pcm_drop_proc)pDevice->pContext->alsa.snd_pcm_drop)((ma_snd_pcm_t*)pDevice->alsa.pPCMCapture); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Dropping capture device successful.\n"); + + /* We need to prepare the device again, otherwise we won't be able to restart the device. */ + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Preparing capture device...\n"); + if (((ma_snd_pcm_prepare_proc)pDevice->pContext->alsa.snd_pcm_prepare)((ma_snd_pcm_t*)pDevice->alsa.pPCMCapture) < 0) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Preparing capture device failed.\n"); + } else { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Preparing capture device successful.\n"); + } + + /* Clear the wakeupfd. */ + resultPoll = poll((struct pollfd*)pDevice->alsa.pPollDescriptorsCapture, 1, 0); + if (resultPoll > 0) { + ma_uint64 t; + resultRead = read(((struct pollfd*)pDevice->alsa.pPollDescriptorsCapture)[0].fd, &t, sizeof(t)); + if (resultRead != sizeof(t)) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Failed to read from capture wakeupfd. read() = %d\n", resultRead); + } + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Dropping playback device...\n"); + ((ma_snd_pcm_drop_proc)pDevice->pContext->alsa.snd_pcm_drop)((ma_snd_pcm_t*)pDevice->alsa.pPCMPlayback); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Dropping playback device successful.\n"); + + /* We need to prepare the device again, otherwise we won't be able to restart the device. */ + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Preparing playback device...\n"); + if (((ma_snd_pcm_prepare_proc)pDevice->pContext->alsa.snd_pcm_prepare)((ma_snd_pcm_t*)pDevice->alsa.pPCMPlayback) < 0) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Preparing playback device failed.\n"); + } else { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Preparing playback device successful.\n"); + } + + /* Clear the wakeupfd. */ + resultPoll = poll((struct pollfd*)pDevice->alsa.pPollDescriptorsPlayback, 1, 0); + if (resultPoll > 0) { + ma_uint64 t; + resultRead = read(((struct pollfd*)pDevice->alsa.pPollDescriptorsPlayback)[0].fd, &t, sizeof(t)); + if (resultRead != sizeof(t)) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Failed to read from playback wakeupfd. read() = %d\n", resultRead); + } + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_wait__alsa(ma_device* pDevice, ma_snd_pcm_t* pPCM, struct pollfd* pPollDescriptors, int pollDescriptorCount, short requiredEvent) +{ + for (;;) { + unsigned short revents; + int resultALSA; + int resultPoll = poll(pPollDescriptors, pollDescriptorCount, -1); + if (resultPoll < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[ALSA] poll() failed.\n"); + + /* + There have been reports that poll() is returning an error randomly and that instead of + returning an error, simply trying again will work. I'm experimenting with adopting this + advice. + */ + continue; + /*return ma_result_from_errno(errno);*/ + } + + /* + Before checking the ALSA poll descriptor flag we need to check if the wakeup descriptor + has had it's POLLIN flag set. If so, we need to actually read the data and then exit the + function. The wakeup descriptor will be the first item in the descriptors buffer. + */ + if ((pPollDescriptors[0].revents & POLLIN) != 0) { + ma_uint64 t; + int resultRead = read(pPollDescriptors[0].fd, &t, sizeof(t)); /* <-- Important that we read here so that the next write() does not block. */ + if (resultRead < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] read() failed.\n"); + return ma_result_from_errno(errno); + } + + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] POLLIN set for wakeupfd\n"); + return MA_DEVICE_NOT_STARTED; + } + + /* + Getting here means that some data should be able to be read. We need to use ALSA to + translate the revents flags for us. + */ + resultALSA = ((ma_snd_pcm_poll_descriptors_revents_proc)pDevice->pContext->alsa.snd_pcm_poll_descriptors_revents)(pPCM, pPollDescriptors + 1, pollDescriptorCount - 1, &revents); /* +1, -1 to ignore the wakeup descriptor. */ + if (resultALSA < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] snd_pcm_poll_descriptors_revents() failed.\n"); + return ma_result_from_errno(-resultALSA); + } + + if ((revents & POLLERR) != 0) { + ma_snd_pcm_state_t state = ((ma_snd_pcm_state_proc)pDevice->pContext->alsa.snd_pcm_state)(pPCM); + if (state == MA_SND_PCM_STATE_XRUN) { + /* The PCM is in a xrun state. This will be recovered from at a higher level. We can disregard this. */ + } else { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[ALSA] POLLERR detected. status = %d\n", ((ma_snd_pcm_state_proc)pDevice->pContext->alsa.snd_pcm_state)(pPCM)); + } + } + + if ((revents & requiredEvent) == requiredEvent) { + break; /* We're done. Data available for reading or writing. */ + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_wait_read__alsa(ma_device* pDevice) +{ + return ma_device_wait__alsa(pDevice, (ma_snd_pcm_t*)pDevice->alsa.pPCMCapture, (struct pollfd*)pDevice->alsa.pPollDescriptorsCapture, pDevice->alsa.pollDescriptorCountCapture + 1, POLLIN); /* +1 to account for the wakeup descriptor. */ +} + +static ma_result ma_device_wait_write__alsa(ma_device* pDevice) +{ + return ma_device_wait__alsa(pDevice, (ma_snd_pcm_t*)pDevice->alsa.pPCMPlayback, (struct pollfd*)pDevice->alsa.pPollDescriptorsPlayback, pDevice->alsa.pollDescriptorCountPlayback + 1, POLLOUT); /* +1 to account for the wakeup descriptor. */ +} + +static ma_result ma_device_read__alsa(ma_device* pDevice, void* pFramesOut, ma_uint32 frameCount, ma_uint32* pFramesRead) +{ + ma_snd_pcm_sframes_t resultALSA = 0; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pFramesOut != NULL); + + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + while (ma_device_get_state(pDevice) == ma_device_state_started) { + ma_result result; + + /* The first thing to do is wait for data to become available for reading. This will return an error code if the device has been stopped. */ + result = ma_device_wait_read__alsa(pDevice); + if (result != MA_SUCCESS) { + return result; + } + + /* Getting here means we should have data available. */ + resultALSA = ((ma_snd_pcm_readi_proc)pDevice->pContext->alsa.snd_pcm_readi)((ma_snd_pcm_t*)pDevice->alsa.pPCMCapture, pFramesOut, frameCount); + if (resultALSA >= 0) { + break; /* Success. */ + } else { + if (resultALSA == -EAGAIN) { + /*ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "EGAIN (read)\n");*/ + continue; /* Try again. */ + } else if (resultALSA == -EPIPE) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "EPIPE (read)\n"); + + /* Overrun. Recover and try again. If this fails we need to return an error. */ + resultALSA = ((ma_snd_pcm_recover_proc)pDevice->pContext->alsa.snd_pcm_recover)((ma_snd_pcm_t*)pDevice->alsa.pPCMCapture, resultALSA, MA_TRUE); + if (resultALSA < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to recover device after overrun."); + return ma_result_from_errno((int)-resultALSA); + } + + resultALSA = ((ma_snd_pcm_start_proc)pDevice->pContext->alsa.snd_pcm_start)((ma_snd_pcm_t*)pDevice->alsa.pPCMCapture); + if (resultALSA < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to start device after underrun."); + return ma_result_from_errno((int)-resultALSA); + } + + continue; /* Try reading again. */ + } + } + } + + if (pFramesRead != NULL) { + *pFramesRead = resultALSA; + } + + return MA_SUCCESS; +} + +static ma_result ma_device_write__alsa(ma_device* pDevice, const void* pFrames, ma_uint32 frameCount, ma_uint32* pFramesWritten) +{ + ma_snd_pcm_sframes_t resultALSA = 0; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pFrames != NULL); + + if (pFramesWritten != NULL) { + *pFramesWritten = 0; + } + + while (ma_device_get_state(pDevice) == ma_device_state_started) { + ma_result result; + + /* The first thing to do is wait for space to become available for writing. This will return an error code if the device has been stopped. */ + result = ma_device_wait_write__alsa(pDevice); + if (result != MA_SUCCESS) { + return result; + } + + resultALSA = ((ma_snd_pcm_writei_proc)pDevice->pContext->alsa.snd_pcm_writei)((ma_snd_pcm_t*)pDevice->alsa.pPCMPlayback, pFrames, frameCount); + if (resultALSA >= 0) { + break; /* Success. */ + } else { + if (resultALSA == -EAGAIN) { + /*ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "EGAIN (write)\n");*/ + continue; /* Try again. */ + } else if (resultALSA == -EPIPE) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "EPIPE (write)\n"); + + /* Underrun. Recover and try again. If this fails we need to return an error. */ + resultALSA = ((ma_snd_pcm_recover_proc)pDevice->pContext->alsa.snd_pcm_recover)((ma_snd_pcm_t*)pDevice->alsa.pPCMPlayback, resultALSA, MA_TRUE); /* MA_TRUE=silent (don't print anything on error). */ + if (resultALSA < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to recover device after underrun."); + return ma_result_from_errno((int)-resultALSA); + } + + /* + In my testing I have had a situation where writei() does not automatically restart the device even though I've set it + up as such in the software parameters. What will happen is writei() will block indefinitely even though the number of + frames is well beyond the auto-start threshold. To work around this I've needed to add an explicit start here. Not sure + if this is me just being stupid and not recovering the device properly, but this definitely feels like something isn't + quite right here. + */ + resultALSA = ((ma_snd_pcm_start_proc)pDevice->pContext->alsa.snd_pcm_start)((ma_snd_pcm_t*)pDevice->alsa.pPCMPlayback); + if (resultALSA < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to start device after underrun."); + return ma_result_from_errno((int)-resultALSA); + } + + continue; /* Try writing again. */ + } + } + } + + if (pFramesWritten != NULL) { + *pFramesWritten = resultALSA; + } + + return MA_SUCCESS; +} + +static ma_result ma_device_data_loop_wakeup__alsa(ma_device* pDevice) +{ + ma_uint64 t = 1; + int resultWrite = 0; + + MA_ASSERT(pDevice != NULL); + + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Waking up...\n"); + + /* Write to an eventfd to trigger a wakeup from poll() and abort any reading or writing. */ + if (pDevice->alsa.pPollDescriptorsCapture != NULL) { + resultWrite = write(pDevice->alsa.wakeupfdCapture, &t, sizeof(t)); + } + if (pDevice->alsa.pPollDescriptorsPlayback != NULL) { + resultWrite = write(pDevice->alsa.wakeupfdPlayback, &t, sizeof(t)); + } + + if (resultWrite < 0) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] write() failed.\n"); + return ma_result_from_errno(errno); + } + + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Waking up completed successfully.\n"); + + return MA_SUCCESS; +} + +static ma_result ma_context_uninit__alsa(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_alsa); + + /* Clean up memory for memory leak checkers. */ + ((ma_snd_config_update_free_global_proc)pContext->alsa.snd_config_update_free_global)(); + +#ifndef MA_NO_RUNTIME_LINKING + ma_dlclose(ma_context_get_log(pContext), pContext->alsa.asoundSO); +#endif + + ma_mutex_uninit(&pContext->alsa.internalDeviceEnumLock); + + return MA_SUCCESS; +} + +static ma_result ma_context_init__alsa(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ + ma_result result; +#ifndef MA_NO_RUNTIME_LINKING + const char* libasoundNames[] = { + "libasound.so.2", + "libasound.so" + }; + size_t i; + + for (i = 0; i < ma_countof(libasoundNames); ++i) { + pContext->alsa.asoundSO = ma_dlopen(ma_context_get_log(pContext), libasoundNames[i]); + if (pContext->alsa.asoundSO != NULL) { + break; + } + } + + if (pContext->alsa.asoundSO == NULL) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, "[ALSA] Failed to open shared object.\n"); + return MA_NO_BACKEND; + } + + pContext->alsa.snd_pcm_open = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_open"); + pContext->alsa.snd_pcm_close = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_close"); + pContext->alsa.snd_pcm_hw_params_sizeof = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_sizeof"); + pContext->alsa.snd_pcm_hw_params_any = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_any"); + pContext->alsa.snd_pcm_hw_params_set_format = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_set_format"); + pContext->alsa.snd_pcm_hw_params_set_format_first = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_set_format_first"); + pContext->alsa.snd_pcm_hw_params_get_format_mask = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_get_format_mask"); + pContext->alsa.snd_pcm_hw_params_set_channels = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_set_channels"); + pContext->alsa.snd_pcm_hw_params_set_channels_near = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_set_channels_near"); + pContext->alsa.snd_pcm_hw_params_set_channels_minmax = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_set_channels_minmax"); + pContext->alsa.snd_pcm_hw_params_set_rate_resample = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_set_rate_resample"); + pContext->alsa.snd_pcm_hw_params_set_rate = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_set_rate"); + pContext->alsa.snd_pcm_hw_params_set_rate_near = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_set_rate_near"); + pContext->alsa.snd_pcm_hw_params_set_buffer_size_near = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_set_buffer_size_near"); + pContext->alsa.snd_pcm_hw_params_set_periods_near = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_set_periods_near"); + pContext->alsa.snd_pcm_hw_params_set_access = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_set_access"); + pContext->alsa.snd_pcm_hw_params_get_format = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_get_format"); + pContext->alsa.snd_pcm_hw_params_get_channels = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_get_channels"); + pContext->alsa.snd_pcm_hw_params_get_channels_min = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_get_channels_min"); + pContext->alsa.snd_pcm_hw_params_get_channels_max = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_get_channels_max"); + pContext->alsa.snd_pcm_hw_params_get_rate = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_get_rate"); + pContext->alsa.snd_pcm_hw_params_get_rate_min = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_get_rate_min"); + pContext->alsa.snd_pcm_hw_params_get_rate_max = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_get_rate_max"); + pContext->alsa.snd_pcm_hw_params_get_buffer_size = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_get_buffer_size"); + pContext->alsa.snd_pcm_hw_params_get_periods = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_get_periods"); + pContext->alsa.snd_pcm_hw_params_get_access = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_get_access"); + pContext->alsa.snd_pcm_hw_params_test_format = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_test_format"); + pContext->alsa.snd_pcm_hw_params_test_channels = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_test_channels"); + pContext->alsa.snd_pcm_hw_params_test_rate = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params_test_rate"); + pContext->alsa.snd_pcm_hw_params = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_hw_params"); + pContext->alsa.snd_pcm_sw_params_sizeof = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_sw_params_sizeof"); + pContext->alsa.snd_pcm_sw_params_current = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_sw_params_current"); + pContext->alsa.snd_pcm_sw_params_get_boundary = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_sw_params_get_boundary"); + pContext->alsa.snd_pcm_sw_params_set_avail_min = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_sw_params_set_avail_min"); + pContext->alsa.snd_pcm_sw_params_set_start_threshold = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_sw_params_set_start_threshold"); + pContext->alsa.snd_pcm_sw_params_set_stop_threshold = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_sw_params_set_stop_threshold"); + pContext->alsa.snd_pcm_sw_params = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_sw_params"); + pContext->alsa.snd_pcm_format_mask_sizeof = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_format_mask_sizeof"); + pContext->alsa.snd_pcm_format_mask_test = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_format_mask_test"); + pContext->alsa.snd_pcm_get_chmap = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_get_chmap"); + pContext->alsa.snd_pcm_state = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_state"); + pContext->alsa.snd_pcm_prepare = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_prepare"); + pContext->alsa.snd_pcm_start = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_start"); + pContext->alsa.snd_pcm_drop = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_drop"); + pContext->alsa.snd_pcm_drain = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_drain"); + pContext->alsa.snd_pcm_reset = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_reset"); + pContext->alsa.snd_device_name_hint = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_device_name_hint"); + pContext->alsa.snd_device_name_get_hint = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_device_name_get_hint"); + pContext->alsa.snd_card_get_index = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_card_get_index"); + pContext->alsa.snd_device_name_free_hint = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_device_name_free_hint"); + pContext->alsa.snd_pcm_mmap_begin = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_mmap_begin"); + pContext->alsa.snd_pcm_mmap_commit = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_mmap_commit"); + pContext->alsa.snd_pcm_recover = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_recover"); + pContext->alsa.snd_pcm_readi = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_readi"); + pContext->alsa.snd_pcm_writei = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_writei"); + pContext->alsa.snd_pcm_avail = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_avail"); + pContext->alsa.snd_pcm_avail_update = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_avail_update"); + pContext->alsa.snd_pcm_wait = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_wait"); + pContext->alsa.snd_pcm_nonblock = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_nonblock"); + pContext->alsa.snd_pcm_info = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_info"); + pContext->alsa.snd_pcm_info_sizeof = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_info_sizeof"); + pContext->alsa.snd_pcm_info_get_name = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_info_get_name"); + pContext->alsa.snd_pcm_poll_descriptors = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_poll_descriptors"); + pContext->alsa.snd_pcm_poll_descriptors_count = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_poll_descriptors_count"); + pContext->alsa.snd_pcm_poll_descriptors_revents = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_pcm_poll_descriptors_revents"); + pContext->alsa.snd_config_update_free_global = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->alsa.asoundSO, "snd_config_update_free_global"); +#else + /* The system below is just for type safety. */ + ma_snd_pcm_open_proc _snd_pcm_open = snd_pcm_open; + ma_snd_pcm_close_proc _snd_pcm_close = snd_pcm_close; + ma_snd_pcm_hw_params_sizeof_proc _snd_pcm_hw_params_sizeof = snd_pcm_hw_params_sizeof; + ma_snd_pcm_hw_params_any_proc _snd_pcm_hw_params_any = snd_pcm_hw_params_any; + ma_snd_pcm_hw_params_set_format_proc _snd_pcm_hw_params_set_format = snd_pcm_hw_params_set_format; + ma_snd_pcm_hw_params_set_format_first_proc _snd_pcm_hw_params_set_format_first = snd_pcm_hw_params_set_format_first; + ma_snd_pcm_hw_params_get_format_mask_proc _snd_pcm_hw_params_get_format_mask = snd_pcm_hw_params_get_format_mask; + ma_snd_pcm_hw_params_set_channels_proc _snd_pcm_hw_params_set_channels = snd_pcm_hw_params_set_channels; + ma_snd_pcm_hw_params_set_channels_near_proc _snd_pcm_hw_params_set_channels_near = snd_pcm_hw_params_set_channels_near; + ma_snd_pcm_hw_params_set_channels_minmax_proc _snd_pcm_hw_params_set_channels_minmax = snd_pcm_hw_params_set_channels_minmax; + ma_snd_pcm_hw_params_set_rate_resample_proc _snd_pcm_hw_params_set_rate_resample = snd_pcm_hw_params_set_rate_resample; + ma_snd_pcm_hw_params_set_rate_proc _snd_pcm_hw_params_set_rate = snd_pcm_hw_params_set_rate; + ma_snd_pcm_hw_params_set_rate_near_proc _snd_pcm_hw_params_set_rate_near = snd_pcm_hw_params_set_rate_near; + ma_snd_pcm_hw_params_set_rate_minmax_proc _snd_pcm_hw_params_set_rate_minmax = snd_pcm_hw_params_set_rate_minmax; + ma_snd_pcm_hw_params_set_buffer_size_near_proc _snd_pcm_hw_params_set_buffer_size_near = snd_pcm_hw_params_set_buffer_size_near; + ma_snd_pcm_hw_params_set_periods_near_proc _snd_pcm_hw_params_set_periods_near = snd_pcm_hw_params_set_periods_near; + ma_snd_pcm_hw_params_set_access_proc _snd_pcm_hw_params_set_access = snd_pcm_hw_params_set_access; + ma_snd_pcm_hw_params_get_format_proc _snd_pcm_hw_params_get_format = snd_pcm_hw_params_get_format; + ma_snd_pcm_hw_params_get_channels_proc _snd_pcm_hw_params_get_channels = snd_pcm_hw_params_get_channels; + ma_snd_pcm_hw_params_get_channels_min_proc _snd_pcm_hw_params_get_channels_min = snd_pcm_hw_params_get_channels_min; + ma_snd_pcm_hw_params_get_channels_max_proc _snd_pcm_hw_params_get_channels_max = snd_pcm_hw_params_get_channels_max; + ma_snd_pcm_hw_params_get_rate_proc _snd_pcm_hw_params_get_rate = snd_pcm_hw_params_get_rate; + ma_snd_pcm_hw_params_get_rate_min_proc _snd_pcm_hw_params_get_rate_min = snd_pcm_hw_params_get_rate_min; + ma_snd_pcm_hw_params_get_rate_max_proc _snd_pcm_hw_params_get_rate_max = snd_pcm_hw_params_get_rate_max; + ma_snd_pcm_hw_params_get_buffer_size_proc _snd_pcm_hw_params_get_buffer_size = snd_pcm_hw_params_get_buffer_size; + ma_snd_pcm_hw_params_get_periods_proc _snd_pcm_hw_params_get_periods = snd_pcm_hw_params_get_periods; + ma_snd_pcm_hw_params_get_access_proc _snd_pcm_hw_params_get_access = snd_pcm_hw_params_get_access; + ma_snd_pcm_hw_params_test_format_proc _snd_pcm_hw_params_test_format = snd_pcm_hw_params_test_format; + ma_snd_pcm_hw_params_test_channels_proc _snd_pcm_hw_params_test_channels = snd_pcm_hw_params_test_channels; + ma_snd_pcm_hw_params_test_rate_proc _snd_pcm_hw_params_test_rate = snd_pcm_hw_params_test_rate; + ma_snd_pcm_hw_params_proc _snd_pcm_hw_params = snd_pcm_hw_params; + ma_snd_pcm_sw_params_sizeof_proc _snd_pcm_sw_params_sizeof = snd_pcm_sw_params_sizeof; + ma_snd_pcm_sw_params_current_proc _snd_pcm_sw_params_current = snd_pcm_sw_params_current; + ma_snd_pcm_sw_params_get_boundary_proc _snd_pcm_sw_params_get_boundary = snd_pcm_sw_params_get_boundary; + ma_snd_pcm_sw_params_set_avail_min_proc _snd_pcm_sw_params_set_avail_min = snd_pcm_sw_params_set_avail_min; + ma_snd_pcm_sw_params_set_start_threshold_proc _snd_pcm_sw_params_set_start_threshold = snd_pcm_sw_params_set_start_threshold; + ma_snd_pcm_sw_params_set_stop_threshold_proc _snd_pcm_sw_params_set_stop_threshold = snd_pcm_sw_params_set_stop_threshold; + ma_snd_pcm_sw_params_proc _snd_pcm_sw_params = snd_pcm_sw_params; + ma_snd_pcm_format_mask_sizeof_proc _snd_pcm_format_mask_sizeof = snd_pcm_format_mask_sizeof; + ma_snd_pcm_format_mask_test_proc _snd_pcm_format_mask_test = snd_pcm_format_mask_test; + ma_snd_pcm_get_chmap_proc _snd_pcm_get_chmap = snd_pcm_get_chmap; + ma_snd_pcm_state_proc _snd_pcm_state = snd_pcm_state; + ma_snd_pcm_prepare_proc _snd_pcm_prepare = snd_pcm_prepare; + ma_snd_pcm_start_proc _snd_pcm_start = snd_pcm_start; + ma_snd_pcm_drop_proc _snd_pcm_drop = snd_pcm_drop; + ma_snd_pcm_drain_proc _snd_pcm_drain = snd_pcm_drain; + ma_snd_pcm_reset_proc _snd_pcm_reset = snd_pcm_reset; + ma_snd_device_name_hint_proc _snd_device_name_hint = snd_device_name_hint; + ma_snd_device_name_get_hint_proc _snd_device_name_get_hint = snd_device_name_get_hint; + ma_snd_card_get_index_proc _snd_card_get_index = snd_card_get_index; + ma_snd_device_name_free_hint_proc _snd_device_name_free_hint = snd_device_name_free_hint; + ma_snd_pcm_mmap_begin_proc _snd_pcm_mmap_begin = snd_pcm_mmap_begin; + ma_snd_pcm_mmap_commit_proc _snd_pcm_mmap_commit = snd_pcm_mmap_commit; + ma_snd_pcm_recover_proc _snd_pcm_recover = snd_pcm_recover; + ma_snd_pcm_readi_proc _snd_pcm_readi = snd_pcm_readi; + ma_snd_pcm_writei_proc _snd_pcm_writei = snd_pcm_writei; + ma_snd_pcm_avail_proc _snd_pcm_avail = snd_pcm_avail; + ma_snd_pcm_avail_update_proc _snd_pcm_avail_update = snd_pcm_avail_update; + ma_snd_pcm_wait_proc _snd_pcm_wait = snd_pcm_wait; + ma_snd_pcm_nonblock_proc _snd_pcm_nonblock = snd_pcm_nonblock; + ma_snd_pcm_info_proc _snd_pcm_info = snd_pcm_info; + ma_snd_pcm_info_sizeof_proc _snd_pcm_info_sizeof = snd_pcm_info_sizeof; + ma_snd_pcm_info_get_name_proc _snd_pcm_info_get_name = snd_pcm_info_get_name; + ma_snd_pcm_poll_descriptors_proc _snd_pcm_poll_descriptors = snd_pcm_poll_descriptors; + ma_snd_pcm_poll_descriptors_count_proc _snd_pcm_poll_descriptors_count = snd_pcm_poll_descriptors_count; + ma_snd_pcm_poll_descriptors_revents_proc _snd_pcm_poll_descriptors_revents = snd_pcm_poll_descriptors_revents; + ma_snd_config_update_free_global_proc _snd_config_update_free_global = snd_config_update_free_global; + + pContext->alsa.snd_pcm_open = (ma_proc)_snd_pcm_open; + pContext->alsa.snd_pcm_close = (ma_proc)_snd_pcm_close; + pContext->alsa.snd_pcm_hw_params_sizeof = (ma_proc)_snd_pcm_hw_params_sizeof; + pContext->alsa.snd_pcm_hw_params_any = (ma_proc)_snd_pcm_hw_params_any; + pContext->alsa.snd_pcm_hw_params_set_format = (ma_proc)_snd_pcm_hw_params_set_format; + pContext->alsa.snd_pcm_hw_params_set_format_first = (ma_proc)_snd_pcm_hw_params_set_format_first; + pContext->alsa.snd_pcm_hw_params_get_format_mask = (ma_proc)_snd_pcm_hw_params_get_format_mask; + pContext->alsa.snd_pcm_hw_params_set_channels = (ma_proc)_snd_pcm_hw_params_set_channels; + pContext->alsa.snd_pcm_hw_params_set_channels_near = (ma_proc)_snd_pcm_hw_params_set_channels_near; + pContext->alsa.snd_pcm_hw_params_set_channels_minmax = (ma_proc)_snd_pcm_hw_params_set_channels_minmax; + pContext->alsa.snd_pcm_hw_params_set_rate_resample = (ma_proc)_snd_pcm_hw_params_set_rate_resample; + pContext->alsa.snd_pcm_hw_params_set_rate = (ma_proc)_snd_pcm_hw_params_set_rate; + pContext->alsa.snd_pcm_hw_params_set_rate_near = (ma_proc)_snd_pcm_hw_params_set_rate_near; + pContext->alsa.snd_pcm_hw_params_set_rate_minmax = (ma_proc)_snd_pcm_hw_params_set_rate_minmax; + pContext->alsa.snd_pcm_hw_params_set_buffer_size_near = (ma_proc)_snd_pcm_hw_params_set_buffer_size_near; + pContext->alsa.snd_pcm_hw_params_set_periods_near = (ma_proc)_snd_pcm_hw_params_set_periods_near; + pContext->alsa.snd_pcm_hw_params_set_access = (ma_proc)_snd_pcm_hw_params_set_access; + pContext->alsa.snd_pcm_hw_params_get_format = (ma_proc)_snd_pcm_hw_params_get_format; + pContext->alsa.snd_pcm_hw_params_get_channels = (ma_proc)_snd_pcm_hw_params_get_channels; + pContext->alsa.snd_pcm_hw_params_get_channels_min = (ma_proc)_snd_pcm_hw_params_get_channels_min; + pContext->alsa.snd_pcm_hw_params_get_channels_max = (ma_proc)_snd_pcm_hw_params_get_channels_max; + pContext->alsa.snd_pcm_hw_params_get_rate = (ma_proc)_snd_pcm_hw_params_get_rate; + pContext->alsa.snd_pcm_hw_params_get_rate_min = (ma_proc)_snd_pcm_hw_params_get_rate_min; + pContext->alsa.snd_pcm_hw_params_get_rate_max = (ma_proc)_snd_pcm_hw_params_get_rate_max; + pContext->alsa.snd_pcm_hw_params_get_buffer_size = (ma_proc)_snd_pcm_hw_params_get_buffer_size; + pContext->alsa.snd_pcm_hw_params_get_periods = (ma_proc)_snd_pcm_hw_params_get_periods; + pContext->alsa.snd_pcm_hw_params_get_access = (ma_proc)_snd_pcm_hw_params_get_access; + pContext->alsa.snd_pcm_hw_params_test_format = (ma_proc)_snd_pcm_hw_params_test_format; + pContext->alsa.snd_pcm_hw_params_test_channels = (ma_proc)_snd_pcm_hw_params_test_channels; + pContext->alsa.snd_pcm_hw_params_test_rate = (ma_proc)_snd_pcm_hw_params_test_rate; + pContext->alsa.snd_pcm_hw_params = (ma_proc)_snd_pcm_hw_params; + pContext->alsa.snd_pcm_sw_params_sizeof = (ma_proc)_snd_pcm_sw_params_sizeof; + pContext->alsa.snd_pcm_sw_params_current = (ma_proc)_snd_pcm_sw_params_current; + pContext->alsa.snd_pcm_sw_params_get_boundary = (ma_proc)_snd_pcm_sw_params_get_boundary; + pContext->alsa.snd_pcm_sw_params_set_avail_min = (ma_proc)_snd_pcm_sw_params_set_avail_min; + pContext->alsa.snd_pcm_sw_params_set_start_threshold = (ma_proc)_snd_pcm_sw_params_set_start_threshold; + pContext->alsa.snd_pcm_sw_params_set_stop_threshold = (ma_proc)_snd_pcm_sw_params_set_stop_threshold; + pContext->alsa.snd_pcm_sw_params = (ma_proc)_snd_pcm_sw_params; + pContext->alsa.snd_pcm_format_mask_sizeof = (ma_proc)_snd_pcm_format_mask_sizeof; + pContext->alsa.snd_pcm_format_mask_test = (ma_proc)_snd_pcm_format_mask_test; + pContext->alsa.snd_pcm_get_chmap = (ma_proc)_snd_pcm_get_chmap; + pContext->alsa.snd_pcm_state = (ma_proc)_snd_pcm_state; + pContext->alsa.snd_pcm_prepare = (ma_proc)_snd_pcm_prepare; + pContext->alsa.snd_pcm_start = (ma_proc)_snd_pcm_start; + pContext->alsa.snd_pcm_drop = (ma_proc)_snd_pcm_drop; + pContext->alsa.snd_pcm_drain = (ma_proc)_snd_pcm_drain; + pContext->alsa.snd_pcm_reset = (ma_proc)_snd_pcm_reset; + pContext->alsa.snd_device_name_hint = (ma_proc)_snd_device_name_hint; + pContext->alsa.snd_device_name_get_hint = (ma_proc)_snd_device_name_get_hint; + pContext->alsa.snd_card_get_index = (ma_proc)_snd_card_get_index; + pContext->alsa.snd_device_name_free_hint = (ma_proc)_snd_device_name_free_hint; + pContext->alsa.snd_pcm_mmap_begin = (ma_proc)_snd_pcm_mmap_begin; + pContext->alsa.snd_pcm_mmap_commit = (ma_proc)_snd_pcm_mmap_commit; + pContext->alsa.snd_pcm_recover = (ma_proc)_snd_pcm_recover; + pContext->alsa.snd_pcm_readi = (ma_proc)_snd_pcm_readi; + pContext->alsa.snd_pcm_writei = (ma_proc)_snd_pcm_writei; + pContext->alsa.snd_pcm_avail = (ma_proc)_snd_pcm_avail; + pContext->alsa.snd_pcm_avail_update = (ma_proc)_snd_pcm_avail_update; + pContext->alsa.snd_pcm_wait = (ma_proc)_snd_pcm_wait; + pContext->alsa.snd_pcm_nonblock = (ma_proc)_snd_pcm_nonblock; + pContext->alsa.snd_pcm_info = (ma_proc)_snd_pcm_info; + pContext->alsa.snd_pcm_info_sizeof = (ma_proc)_snd_pcm_info_sizeof; + pContext->alsa.snd_pcm_info_get_name = (ma_proc)_snd_pcm_info_get_name; + pContext->alsa.snd_pcm_poll_descriptors = (ma_proc)_snd_pcm_poll_descriptors; + pContext->alsa.snd_pcm_poll_descriptors_count = (ma_proc)_snd_pcm_poll_descriptors_count; + pContext->alsa.snd_pcm_poll_descriptors_revents = (ma_proc)_snd_pcm_poll_descriptors_revents; + pContext->alsa.snd_config_update_free_global = (ma_proc)_snd_config_update_free_global; +#endif + + pContext->alsa.useVerboseDeviceEnumeration = pConfig->alsa.useVerboseDeviceEnumeration; + + result = ma_mutex_init(&pContext->alsa.internalDeviceEnumLock); + if (result != MA_SUCCESS) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[ALSA] WARNING: Failed to initialize mutex for internal device enumeration."); + return result; + } + + pCallbacks->onContextInit = ma_context_init__alsa; + pCallbacks->onContextUninit = ma_context_uninit__alsa; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__alsa; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__alsa; + pCallbacks->onDeviceInit = ma_device_init__alsa; + pCallbacks->onDeviceUninit = ma_device_uninit__alsa; + pCallbacks->onDeviceStart = ma_device_start__alsa; + pCallbacks->onDeviceStop = ma_device_stop__alsa; + pCallbacks->onDeviceRead = ma_device_read__alsa; + pCallbacks->onDeviceWrite = ma_device_write__alsa; + pCallbacks->onDeviceDataLoop = NULL; + pCallbacks->onDeviceDataLoopWakeup = ma_device_data_loop_wakeup__alsa; + + return MA_SUCCESS; +} +#endif /* MA_HAS_ALSA */ + + + +/****************************************************************************** + +PulseAudio Backend + +******************************************************************************/ +#ifdef MA_HAS_PULSEAUDIO +/* +The PulseAudio API, along with Apple's Core Audio, is the worst of the mainstream audio APIs. This is a brief description of what's going on +in the PulseAudio backend. I apologize if this gets a bit ranty for your liking - you might want to skip this discussion. + +PulseAudio has something they call the "Simple API", which unfortunately isn't suitable for miniaudio. I've not seen anywhere where it +allows you to enumerate over devices, nor does it seem to support the ability to stop and start streams. Looking at the documentation, it +appears as though the stream is constantly running and you prevent sound from being emitted or captured by simply not calling the read or +write functions. This is not a professional solution as it would be much better to *actually* stop the underlying stream. Perhaps the +simple API has some smarts to do this automatically, but I'm not sure. Another limitation with the simple API is that it seems inefficient +when you want to have multiple streams to a single context. For these reasons, miniaudio is not using the simple API. + +Since we're not using the simple API, we're left with the asynchronous API as our only other option. And boy, is this where it starts to +get fun, and I don't mean that in a good way... + +The problems start with the very name of the API - "asynchronous". Yes, this is an asynchronous oriented API which means your commands +don't immediately take effect. You instead need to issue your commands, and then wait for them to complete. The waiting mechanism is +enabled through the use of a "main loop". In the asynchronous API you cannot get away from the main loop, and the main loop is where almost +all of PulseAudio's problems stem from. + +When you first initialize PulseAudio you need an object referred to as "main loop". You can implement this yourself by defining your own +vtable, but it's much easier to just use one of the built-in main loop implementations. There's two generic implementations called +pa_mainloop and pa_threaded_mainloop, and another implementation specific to GLib called pa_glib_mainloop. We're using pa_threaded_mainloop +because it simplifies management of the worker thread. The idea of the main loop object is pretty self explanatory - you're supposed to use +it to implement a worker thread which runs in a loop. The main loop is where operations are actually executed. + +To initialize the main loop, you just use `pa_threaded_mainloop_new()`. This is the first function you'll call. You can then get a pointer +to the vtable with `pa_threaded_mainloop_get_api()` (the main loop vtable is called `pa_mainloop_api`). Again, you can bypass the threaded +main loop object entirely and just implement `pa_mainloop_api` directly, but there's no need for it unless you're doing something extremely +specialized such as if you want to integrate it into your application's existing main loop infrastructure. + +(EDIT 2021-01-26: miniaudio is no longer using `pa_threaded_mainloop` due to this issue: https://github.com/mackron/miniaudio/issues/262. +It is now using `pa_mainloop` which turns out to be a simpler solution anyway. The rest of this rant still applies, however.) + +Once you have your main loop vtable (the `pa_mainloop_api` object) you can create the PulseAudio context. This is very similar to +miniaudio's context and they map to each other quite well. You have one context to many streams, which is basically the same as miniaudio's +one `ma_context` to many `ma_device`s. Here's where it starts to get annoying, however. When you first create the PulseAudio context, which +is done with `pa_context_new()`, it's not actually connected to anything. When you connect, you call `pa_context_connect()`. However, if +you remember, PulseAudio is an asynchronous API. That means you cannot just assume the context is connected after `pa_context_context()` +has returned. You instead need to wait for it to connect. To do this, you need to either wait for a callback to get fired, which you can +set with `pa_context_set_state_callback()`, or you can continuously poll the context's state. Either way, you need to run this in a loop. +All objects from here out are created from the context, and, I believe, you can't be creating these objects until the context is connected. +This waiting loop is therefore unavoidable. In order for the waiting to ever complete, however, the main loop needs to be running. Before +attempting to connect the context, the main loop needs to be started with `pa_threaded_mainloop_start()`. + +The reason for this asynchronous design is to support cases where you're connecting to a remote server, say through a local network or an +internet connection. However, the *VAST* majority of cases don't involve this at all - they just connect to a local "server" running on the +host machine. The fact that this would be the default rather than making `pa_context_connect()` synchronous tends to boggle the mind. + +Once the context has been created and connected you can start creating a stream. A PulseAudio stream is analogous to miniaudio's device. +The initialization of a stream is fairly standard - you configure some attributes (analogous to miniaudio's device config) and then call +`pa_stream_new()` to actually create it. Here is where we start to get into "operations". When configuring the stream, you can get +information about the source (such as sample format, sample rate, etc.), however it's not synchronous. Instead, a `pa_operation` object +is returned from `pa_context_get_source_info_by_name()` (capture) or `pa_context_get_sink_info_by_name()` (playback). Then, you need to +run a loop (again!) to wait for the operation to complete which you can determine via a callback or polling, just like we did with the +context. Then, as an added bonus, you need to decrement the reference counter of the `pa_operation` object to ensure memory is cleaned up. +All of that just to retrieve basic information about a device! + +Once the basic information about the device has been retrieved, miniaudio can now create the stream with `ma_stream_new()`. Like the +context, this needs to be connected. But we need to be careful here, because we're now about to introduce one of the most horrific design +choices in PulseAudio. + +PulseAudio allows you to specify a callback that is fired when data can be written to or read from a stream. The language is important here +because PulseAudio takes it literally, specifically the "can be". You would think these callbacks would be appropriate as the place for +writing and reading data to and from the stream, and that would be right, except when it's not. When you initialize the stream, you can +set a flag that tells PulseAudio to not start the stream automatically. This is required because miniaudio does not auto-start devices +straight after initialization - you need to call `ma_device_start()` manually. The problem is that even when this flag is specified, +PulseAudio will immediately fire its write or read callback. This is *technically* correct (based on the wording in the documentation) +because indeed, data *can* be written at this point. The problem is that it's not *practical*. It makes sense that the write/read callback +would be where a program will want to write or read data to or from the stream, but when it's called before the application has even +requested that the stream be started, it's just not practical because the program probably isn't ready for any kind of data delivery at +that point (it may still need to load files or whatnot). Instead, this callback should only be fired when the application requests the +stream be started which is how it works with literally *every* other callback-based audio API. Since miniaudio forbids firing of the data +callback until the device has been started (as it should be with *all* callback based APIs), logic needs to be added to ensure miniaudio +doesn't just blindly fire the application-defined data callback from within the PulseAudio callback before the stream has actually been +started. The device state is used for this - if the state is anything other than `ma_device_state_starting` or `ma_device_state_started`, the main data +callback is not fired. + +This, unfortunately, is not the end of the problems with the PulseAudio write callback. Any normal callback based audio API will +continuously fire the callback at regular intervals based on the size of the internal buffer. This will only ever be fired when the device +is running, and will be fired regardless of whether or not the user actually wrote anything to the device/stream. This not the case in +PulseAudio. In PulseAudio, the data callback will *only* be called if you wrote something to it previously. That means, if you don't call +`pa_stream_write()`, the callback will not get fired. On the surface you wouldn't think this would matter because you should be always +writing data, and if you don't have anything to write, just write silence. That's fine until you want to drain the stream. You see, if +you're continuously writing data to the stream, the stream will never get drained! That means in order to drain the stream, you need to +*not* write data to it! But remember, when you don't write data to the stream, the callback won't get fired again! Why is draining +important? Because that's how we've defined stopping to work in miniaudio. In miniaudio, stopping the device requires it to be drained +before returning from ma_device_stop(). So we've stopped the device, which requires us to drain, but draining requires us to *not* write +data to the stream (or else it won't ever complete draining), but not writing to the stream means the callback won't get fired again! + +This becomes a problem when stopping and then restarting the device. When the device is stopped, it's drained, which requires us to *not* +write anything to the stream. But then, since we didn't write anything to it, the write callback will *never* get called again if we just +resume the stream naively. This means that starting the stream requires us to write data to the stream from outside the callback. This +disconnect is something PulseAudio has got seriously wrong - there should only ever be a single source of data delivery, that being the +callback. (I have tried using `pa_stream_flush()` to trigger the write callback to fire, but this just doesn't work for some reason.) + +Once you've created the stream, you need to connect it which involves the whole waiting procedure. This is the same process as the context, +only this time you'll poll for the state with `pa_stream_get_status()`. The starting and stopping of a streaming is referred to as +"corking" in PulseAudio. The analogy is corking a barrel. To start the stream, you uncork it, to stop it you cork it. Personally I think +it's silly - why would you not just call it "starting" and "stopping" like any other normal audio API? Anyway, the act of corking is, you +guessed it, asynchronous. This means you'll need our waiting loop as usual. Again, why this asynchronous design is the default is +absolutely beyond me. Would it really be that hard to just make it run synchronously? + +Teardown is pretty simple (what?!). It's just a matter of calling the relevant `_unref()` function on each object in reverse order that +they were initialized in. + +That's about it from the PulseAudio side. A bit ranty, I know, but they really need to fix that main loop and callback system. They're +embarrassingly unpractical. The main loop thing is an easy fix - have synchronous versions of all APIs. If an application wants these to +run asynchronously, they can execute them in a separate thread themselves. The desire to run these asynchronously is such a niche +requirement - it makes no sense to make it the default. The stream write callback needs to be change, or an alternative provided, that is +constantly fired, regardless of whether or not `pa_stream_write()` has been called, and it needs to take a pointer to a buffer as a +parameter which the program just writes to directly rather than having to call `pa_stream_writable_size()` and `pa_stream_write()`. These +changes alone will change PulseAudio from one of the worst audio APIs to one of the best. +*/ + + +/* +It is assumed pulseaudio.h is available when linking at compile time. When linking at compile time, we use the declarations in the header +to check for type safety. We cannot do this when linking at run time because the header might not be available. +*/ +#ifdef MA_NO_RUNTIME_LINKING + +/* pulseaudio.h marks some functions with "inline" which isn't always supported. Need to emulate it. */ +#if !defined(__cplusplus) + #if defined(__STRICT_ANSI__) + #if !defined(inline) + #define inline __inline__ __attribute__((always_inline)) + #define MA_INLINE_DEFINED + #endif + #endif +#endif +#include +#if defined(MA_INLINE_DEFINED) + #undef inline + #undef MA_INLINE_DEFINED +#endif + +#define MA_PA_OK PA_OK +#define MA_PA_ERR_ACCESS PA_ERR_ACCESS +#define MA_PA_ERR_INVALID PA_ERR_INVALID +#define MA_PA_ERR_NOENTITY PA_ERR_NOENTITY +#define MA_PA_ERR_NOTSUPPORTED PA_ERR_NOTSUPPORTED + +#define MA_PA_CHANNELS_MAX PA_CHANNELS_MAX +#define MA_PA_RATE_MAX PA_RATE_MAX + +typedef pa_context_flags_t ma_pa_context_flags_t; +#define MA_PA_CONTEXT_NOFLAGS PA_CONTEXT_NOFLAGS +#define MA_PA_CONTEXT_NOAUTOSPAWN PA_CONTEXT_NOAUTOSPAWN +#define MA_PA_CONTEXT_NOFAIL PA_CONTEXT_NOFAIL + +typedef pa_stream_flags_t ma_pa_stream_flags_t; +#define MA_PA_STREAM_NOFLAGS PA_STREAM_NOFLAGS +#define MA_PA_STREAM_START_CORKED PA_STREAM_START_CORKED +#define MA_PA_STREAM_INTERPOLATE_TIMING PA_STREAM_INTERPOLATE_TIMING +#define MA_PA_STREAM_NOT_MONOTONIC PA_STREAM_NOT_MONOTONIC +#define MA_PA_STREAM_AUTO_TIMING_UPDATE PA_STREAM_AUTO_TIMING_UPDATE +#define MA_PA_STREAM_NO_REMAP_CHANNELS PA_STREAM_NO_REMAP_CHANNELS +#define MA_PA_STREAM_NO_REMIX_CHANNELS PA_STREAM_NO_REMIX_CHANNELS +#define MA_PA_STREAM_FIX_FORMAT PA_STREAM_FIX_FORMAT +#define MA_PA_STREAM_FIX_RATE PA_STREAM_FIX_RATE +#define MA_PA_STREAM_FIX_CHANNELS PA_STREAM_FIX_CHANNELS +#define MA_PA_STREAM_DONT_MOVE PA_STREAM_DONT_MOVE +#define MA_PA_STREAM_VARIABLE_RATE PA_STREAM_VARIABLE_RATE +#define MA_PA_STREAM_PEAK_DETECT PA_STREAM_PEAK_DETECT +#define MA_PA_STREAM_START_MUTED PA_STREAM_START_MUTED +#define MA_PA_STREAM_ADJUST_LATENCY PA_STREAM_ADJUST_LATENCY +#define MA_PA_STREAM_EARLY_REQUESTS PA_STREAM_EARLY_REQUESTS +#define MA_PA_STREAM_DONT_INHIBIT_AUTO_SUSPEND PA_STREAM_DONT_INHIBIT_AUTO_SUSPEND +#define MA_PA_STREAM_START_UNMUTED PA_STREAM_START_UNMUTED +#define MA_PA_STREAM_FAIL_ON_SUSPEND PA_STREAM_FAIL_ON_SUSPEND +#define MA_PA_STREAM_RELATIVE_VOLUME PA_STREAM_RELATIVE_VOLUME +#define MA_PA_STREAM_PASSTHROUGH PA_STREAM_PASSTHROUGH + +typedef pa_sink_flags_t ma_pa_sink_flags_t; +#define MA_PA_SINK_NOFLAGS PA_SINK_NOFLAGS +#define MA_PA_SINK_HW_VOLUME_CTRL PA_SINK_HW_VOLUME_CTRL +#define MA_PA_SINK_LATENCY PA_SINK_LATENCY +#define MA_PA_SINK_HARDWARE PA_SINK_HARDWARE +#define MA_PA_SINK_NETWORK PA_SINK_NETWORK +#define MA_PA_SINK_HW_MUTE_CTRL PA_SINK_HW_MUTE_CTRL +#define MA_PA_SINK_DECIBEL_VOLUME PA_SINK_DECIBEL_VOLUME +#define MA_PA_SINK_FLAT_VOLUME PA_SINK_FLAT_VOLUME +#define MA_PA_SINK_DYNAMIC_LATENCY PA_SINK_DYNAMIC_LATENCY +#define MA_PA_SINK_SET_FORMATS PA_SINK_SET_FORMATS + +typedef pa_source_flags_t ma_pa_source_flags_t; +#define MA_PA_SOURCE_NOFLAGS PA_SOURCE_NOFLAGS +#define MA_PA_SOURCE_HW_VOLUME_CTRL PA_SOURCE_HW_VOLUME_CTRL +#define MA_PA_SOURCE_LATENCY PA_SOURCE_LATENCY +#define MA_PA_SOURCE_HARDWARE PA_SOURCE_HARDWARE +#define MA_PA_SOURCE_NETWORK PA_SOURCE_NETWORK +#define MA_PA_SOURCE_HW_MUTE_CTRL PA_SOURCE_HW_MUTE_CTRL +#define MA_PA_SOURCE_DECIBEL_VOLUME PA_SOURCE_DECIBEL_VOLUME +#define MA_PA_SOURCE_DYNAMIC_LATENCY PA_SOURCE_DYNAMIC_LATENCY +#define MA_PA_SOURCE_FLAT_VOLUME PA_SOURCE_FLAT_VOLUME + +typedef pa_context_state_t ma_pa_context_state_t; +#define MA_PA_CONTEXT_UNCONNECTED PA_CONTEXT_UNCONNECTED +#define MA_PA_CONTEXT_CONNECTING PA_CONTEXT_CONNECTING +#define MA_PA_CONTEXT_AUTHORIZING PA_CONTEXT_AUTHORIZING +#define MA_PA_CONTEXT_SETTING_NAME PA_CONTEXT_SETTING_NAME +#define MA_PA_CONTEXT_READY PA_CONTEXT_READY +#define MA_PA_CONTEXT_FAILED PA_CONTEXT_FAILED +#define MA_PA_CONTEXT_TERMINATED PA_CONTEXT_TERMINATED + +typedef pa_stream_state_t ma_pa_stream_state_t; +#define MA_PA_STREAM_UNCONNECTED PA_STREAM_UNCONNECTED +#define MA_PA_STREAM_CREATING PA_STREAM_CREATING +#define MA_PA_STREAM_READY PA_STREAM_READY +#define MA_PA_STREAM_FAILED PA_STREAM_FAILED +#define MA_PA_STREAM_TERMINATED PA_STREAM_TERMINATED + +typedef pa_operation_state_t ma_pa_operation_state_t; +#define MA_PA_OPERATION_RUNNING PA_OPERATION_RUNNING +#define MA_PA_OPERATION_DONE PA_OPERATION_DONE +#define MA_PA_OPERATION_CANCELLED PA_OPERATION_CANCELLED + +typedef pa_sink_state_t ma_pa_sink_state_t; +#define MA_PA_SINK_INVALID_STATE PA_SINK_INVALID_STATE +#define MA_PA_SINK_RUNNING PA_SINK_RUNNING +#define MA_PA_SINK_IDLE PA_SINK_IDLE +#define MA_PA_SINK_SUSPENDED PA_SINK_SUSPENDED + +typedef pa_source_state_t ma_pa_source_state_t; +#define MA_PA_SOURCE_INVALID_STATE PA_SOURCE_INVALID_STATE +#define MA_PA_SOURCE_RUNNING PA_SOURCE_RUNNING +#define MA_PA_SOURCE_IDLE PA_SOURCE_IDLE +#define MA_PA_SOURCE_SUSPENDED PA_SOURCE_SUSPENDED + +typedef pa_seek_mode_t ma_pa_seek_mode_t; +#define MA_PA_SEEK_RELATIVE PA_SEEK_RELATIVE +#define MA_PA_SEEK_ABSOLUTE PA_SEEK_ABSOLUTE +#define MA_PA_SEEK_RELATIVE_ON_READ PA_SEEK_RELATIVE_ON_READ +#define MA_PA_SEEK_RELATIVE_END PA_SEEK_RELATIVE_END + +typedef pa_channel_position_t ma_pa_channel_position_t; +#define MA_PA_CHANNEL_POSITION_INVALID PA_CHANNEL_POSITION_INVALID +#define MA_PA_CHANNEL_POSITION_MONO PA_CHANNEL_POSITION_MONO +#define MA_PA_CHANNEL_POSITION_FRONT_LEFT PA_CHANNEL_POSITION_FRONT_LEFT +#define MA_PA_CHANNEL_POSITION_FRONT_RIGHT PA_CHANNEL_POSITION_FRONT_RIGHT +#define MA_PA_CHANNEL_POSITION_FRONT_CENTER PA_CHANNEL_POSITION_FRONT_CENTER +#define MA_PA_CHANNEL_POSITION_REAR_CENTER PA_CHANNEL_POSITION_REAR_CENTER +#define MA_PA_CHANNEL_POSITION_REAR_LEFT PA_CHANNEL_POSITION_REAR_LEFT +#define MA_PA_CHANNEL_POSITION_REAR_RIGHT PA_CHANNEL_POSITION_REAR_RIGHT +#define MA_PA_CHANNEL_POSITION_LFE PA_CHANNEL_POSITION_LFE +#define MA_PA_CHANNEL_POSITION_FRONT_LEFT_OF_CENTER PA_CHANNEL_POSITION_FRONT_LEFT_OF_CENTER +#define MA_PA_CHANNEL_POSITION_FRONT_RIGHT_OF_CENTER PA_CHANNEL_POSITION_FRONT_RIGHT_OF_CENTER +#define MA_PA_CHANNEL_POSITION_SIDE_LEFT PA_CHANNEL_POSITION_SIDE_LEFT +#define MA_PA_CHANNEL_POSITION_SIDE_RIGHT PA_CHANNEL_POSITION_SIDE_RIGHT +#define MA_PA_CHANNEL_POSITION_AUX0 PA_CHANNEL_POSITION_AUX0 +#define MA_PA_CHANNEL_POSITION_AUX1 PA_CHANNEL_POSITION_AUX1 +#define MA_PA_CHANNEL_POSITION_AUX2 PA_CHANNEL_POSITION_AUX2 +#define MA_PA_CHANNEL_POSITION_AUX3 PA_CHANNEL_POSITION_AUX3 +#define MA_PA_CHANNEL_POSITION_AUX4 PA_CHANNEL_POSITION_AUX4 +#define MA_PA_CHANNEL_POSITION_AUX5 PA_CHANNEL_POSITION_AUX5 +#define MA_PA_CHANNEL_POSITION_AUX6 PA_CHANNEL_POSITION_AUX6 +#define MA_PA_CHANNEL_POSITION_AUX7 PA_CHANNEL_POSITION_AUX7 +#define MA_PA_CHANNEL_POSITION_AUX8 PA_CHANNEL_POSITION_AUX8 +#define MA_PA_CHANNEL_POSITION_AUX9 PA_CHANNEL_POSITION_AUX9 +#define MA_PA_CHANNEL_POSITION_AUX10 PA_CHANNEL_POSITION_AUX10 +#define MA_PA_CHANNEL_POSITION_AUX11 PA_CHANNEL_POSITION_AUX11 +#define MA_PA_CHANNEL_POSITION_AUX12 PA_CHANNEL_POSITION_AUX12 +#define MA_PA_CHANNEL_POSITION_AUX13 PA_CHANNEL_POSITION_AUX13 +#define MA_PA_CHANNEL_POSITION_AUX14 PA_CHANNEL_POSITION_AUX14 +#define MA_PA_CHANNEL_POSITION_AUX15 PA_CHANNEL_POSITION_AUX15 +#define MA_PA_CHANNEL_POSITION_AUX16 PA_CHANNEL_POSITION_AUX16 +#define MA_PA_CHANNEL_POSITION_AUX17 PA_CHANNEL_POSITION_AUX17 +#define MA_PA_CHANNEL_POSITION_AUX18 PA_CHANNEL_POSITION_AUX18 +#define MA_PA_CHANNEL_POSITION_AUX19 PA_CHANNEL_POSITION_AUX19 +#define MA_PA_CHANNEL_POSITION_AUX20 PA_CHANNEL_POSITION_AUX20 +#define MA_PA_CHANNEL_POSITION_AUX21 PA_CHANNEL_POSITION_AUX21 +#define MA_PA_CHANNEL_POSITION_AUX22 PA_CHANNEL_POSITION_AUX22 +#define MA_PA_CHANNEL_POSITION_AUX23 PA_CHANNEL_POSITION_AUX23 +#define MA_PA_CHANNEL_POSITION_AUX24 PA_CHANNEL_POSITION_AUX24 +#define MA_PA_CHANNEL_POSITION_AUX25 PA_CHANNEL_POSITION_AUX25 +#define MA_PA_CHANNEL_POSITION_AUX26 PA_CHANNEL_POSITION_AUX26 +#define MA_PA_CHANNEL_POSITION_AUX27 PA_CHANNEL_POSITION_AUX27 +#define MA_PA_CHANNEL_POSITION_AUX28 PA_CHANNEL_POSITION_AUX28 +#define MA_PA_CHANNEL_POSITION_AUX29 PA_CHANNEL_POSITION_AUX29 +#define MA_PA_CHANNEL_POSITION_AUX30 PA_CHANNEL_POSITION_AUX30 +#define MA_PA_CHANNEL_POSITION_AUX31 PA_CHANNEL_POSITION_AUX31 +#define MA_PA_CHANNEL_POSITION_TOP_CENTER PA_CHANNEL_POSITION_TOP_CENTER +#define MA_PA_CHANNEL_POSITION_TOP_FRONT_LEFT PA_CHANNEL_POSITION_TOP_FRONT_LEFT +#define MA_PA_CHANNEL_POSITION_TOP_FRONT_RIGHT PA_CHANNEL_POSITION_TOP_FRONT_RIGHT +#define MA_PA_CHANNEL_POSITION_TOP_FRONT_CENTER PA_CHANNEL_POSITION_TOP_FRONT_CENTER +#define MA_PA_CHANNEL_POSITION_TOP_REAR_LEFT PA_CHANNEL_POSITION_TOP_REAR_LEFT +#define MA_PA_CHANNEL_POSITION_TOP_REAR_RIGHT PA_CHANNEL_POSITION_TOP_REAR_RIGHT +#define MA_PA_CHANNEL_POSITION_TOP_REAR_CENTER PA_CHANNEL_POSITION_TOP_REAR_CENTER +#define MA_PA_CHANNEL_POSITION_LEFT PA_CHANNEL_POSITION_LEFT +#define MA_PA_CHANNEL_POSITION_RIGHT PA_CHANNEL_POSITION_RIGHT +#define MA_PA_CHANNEL_POSITION_CENTER PA_CHANNEL_POSITION_CENTER +#define MA_PA_CHANNEL_POSITION_SUBWOOFER PA_CHANNEL_POSITION_SUBWOOFER + +typedef pa_channel_map_def_t ma_pa_channel_map_def_t; +#define MA_PA_CHANNEL_MAP_AIFF PA_CHANNEL_MAP_AIFF +#define MA_PA_CHANNEL_MAP_ALSA PA_CHANNEL_MAP_ALSA +#define MA_PA_CHANNEL_MAP_AUX PA_CHANNEL_MAP_AUX +#define MA_PA_CHANNEL_MAP_WAVEEX PA_CHANNEL_MAP_WAVEEX +#define MA_PA_CHANNEL_MAP_OSS PA_CHANNEL_MAP_OSS +#define MA_PA_CHANNEL_MAP_DEFAULT PA_CHANNEL_MAP_DEFAULT + +typedef pa_sample_format_t ma_pa_sample_format_t; +#define MA_PA_SAMPLE_INVALID PA_SAMPLE_INVALID +#define MA_PA_SAMPLE_U8 PA_SAMPLE_U8 +#define MA_PA_SAMPLE_ALAW PA_SAMPLE_ALAW +#define MA_PA_SAMPLE_ULAW PA_SAMPLE_ULAW +#define MA_PA_SAMPLE_S16LE PA_SAMPLE_S16LE +#define MA_PA_SAMPLE_S16BE PA_SAMPLE_S16BE +#define MA_PA_SAMPLE_FLOAT32LE PA_SAMPLE_FLOAT32LE +#define MA_PA_SAMPLE_FLOAT32BE PA_SAMPLE_FLOAT32BE +#define MA_PA_SAMPLE_S32LE PA_SAMPLE_S32LE +#define MA_PA_SAMPLE_S32BE PA_SAMPLE_S32BE +#define MA_PA_SAMPLE_S24LE PA_SAMPLE_S24LE +#define MA_PA_SAMPLE_S24BE PA_SAMPLE_S24BE +#define MA_PA_SAMPLE_S24_32LE PA_SAMPLE_S24_32LE +#define MA_PA_SAMPLE_S24_32BE PA_SAMPLE_S24_32BE + +typedef pa_mainloop ma_pa_mainloop; +typedef pa_threaded_mainloop ma_pa_threaded_mainloop; +typedef pa_mainloop_api ma_pa_mainloop_api; +typedef pa_context ma_pa_context; +typedef pa_operation ma_pa_operation; +typedef pa_stream ma_pa_stream; +typedef pa_spawn_api ma_pa_spawn_api; +typedef pa_buffer_attr ma_pa_buffer_attr; +typedef pa_channel_map ma_pa_channel_map; +typedef pa_cvolume ma_pa_cvolume; +typedef pa_sample_spec ma_pa_sample_spec; +typedef pa_sink_info ma_pa_sink_info; +typedef pa_source_info ma_pa_source_info; + +typedef pa_context_notify_cb_t ma_pa_context_notify_cb_t; +typedef pa_sink_info_cb_t ma_pa_sink_info_cb_t; +typedef pa_source_info_cb_t ma_pa_source_info_cb_t; +typedef pa_stream_success_cb_t ma_pa_stream_success_cb_t; +typedef pa_stream_request_cb_t ma_pa_stream_request_cb_t; +typedef pa_stream_notify_cb_t ma_pa_stream_notify_cb_t; +typedef pa_free_cb_t ma_pa_free_cb_t; +#else +#define MA_PA_OK 0 +#define MA_PA_ERR_ACCESS 1 +#define MA_PA_ERR_INVALID 2 +#define MA_PA_ERR_NOENTITY 5 +#define MA_PA_ERR_NOTSUPPORTED 19 + +#define MA_PA_CHANNELS_MAX 32 +#define MA_PA_RATE_MAX 384000 + +typedef int ma_pa_context_flags_t; +#define MA_PA_CONTEXT_NOFLAGS 0x00000000 +#define MA_PA_CONTEXT_NOAUTOSPAWN 0x00000001 +#define MA_PA_CONTEXT_NOFAIL 0x00000002 + +typedef int ma_pa_stream_flags_t; +#define MA_PA_STREAM_NOFLAGS 0x00000000 +#define MA_PA_STREAM_START_CORKED 0x00000001 +#define MA_PA_STREAM_INTERPOLATE_TIMING 0x00000002 +#define MA_PA_STREAM_NOT_MONOTONIC 0x00000004 +#define MA_PA_STREAM_AUTO_TIMING_UPDATE 0x00000008 +#define MA_PA_STREAM_NO_REMAP_CHANNELS 0x00000010 +#define MA_PA_STREAM_NO_REMIX_CHANNELS 0x00000020 +#define MA_PA_STREAM_FIX_FORMAT 0x00000040 +#define MA_PA_STREAM_FIX_RATE 0x00000080 +#define MA_PA_STREAM_FIX_CHANNELS 0x00000100 +#define MA_PA_STREAM_DONT_MOVE 0x00000200 +#define MA_PA_STREAM_VARIABLE_RATE 0x00000400 +#define MA_PA_STREAM_PEAK_DETECT 0x00000800 +#define MA_PA_STREAM_START_MUTED 0x00001000 +#define MA_PA_STREAM_ADJUST_LATENCY 0x00002000 +#define MA_PA_STREAM_EARLY_REQUESTS 0x00004000 +#define MA_PA_STREAM_DONT_INHIBIT_AUTO_SUSPEND 0x00008000 +#define MA_PA_STREAM_START_UNMUTED 0x00010000 +#define MA_PA_STREAM_FAIL_ON_SUSPEND 0x00020000 +#define MA_PA_STREAM_RELATIVE_VOLUME 0x00040000 +#define MA_PA_STREAM_PASSTHROUGH 0x00080000 + +typedef int ma_pa_sink_flags_t; +#define MA_PA_SINK_NOFLAGS 0x00000000 +#define MA_PA_SINK_HW_VOLUME_CTRL 0x00000001 +#define MA_PA_SINK_LATENCY 0x00000002 +#define MA_PA_SINK_HARDWARE 0x00000004 +#define MA_PA_SINK_NETWORK 0x00000008 +#define MA_PA_SINK_HW_MUTE_CTRL 0x00000010 +#define MA_PA_SINK_DECIBEL_VOLUME 0x00000020 +#define MA_PA_SINK_FLAT_VOLUME 0x00000040 +#define MA_PA_SINK_DYNAMIC_LATENCY 0x00000080 +#define MA_PA_SINK_SET_FORMATS 0x00000100 + +typedef int ma_pa_source_flags_t; +#define MA_PA_SOURCE_NOFLAGS 0x00000000 +#define MA_PA_SOURCE_HW_VOLUME_CTRL 0x00000001 +#define MA_PA_SOURCE_LATENCY 0x00000002 +#define MA_PA_SOURCE_HARDWARE 0x00000004 +#define MA_PA_SOURCE_NETWORK 0x00000008 +#define MA_PA_SOURCE_HW_MUTE_CTRL 0x00000010 +#define MA_PA_SOURCE_DECIBEL_VOLUME 0x00000020 +#define MA_PA_SOURCE_DYNAMIC_LATENCY 0x00000040 +#define MA_PA_SOURCE_FLAT_VOLUME 0x00000080 + +typedef int ma_pa_context_state_t; +#define MA_PA_CONTEXT_UNCONNECTED 0 +#define MA_PA_CONTEXT_CONNECTING 1 +#define MA_PA_CONTEXT_AUTHORIZING 2 +#define MA_PA_CONTEXT_SETTING_NAME 3 +#define MA_PA_CONTEXT_READY 4 +#define MA_PA_CONTEXT_FAILED 5 +#define MA_PA_CONTEXT_TERMINATED 6 + +typedef int ma_pa_stream_state_t; +#define MA_PA_STREAM_UNCONNECTED 0 +#define MA_PA_STREAM_CREATING 1 +#define MA_PA_STREAM_READY 2 +#define MA_PA_STREAM_FAILED 3 +#define MA_PA_STREAM_TERMINATED 4 + +typedef int ma_pa_operation_state_t; +#define MA_PA_OPERATION_RUNNING 0 +#define MA_PA_OPERATION_DONE 1 +#define MA_PA_OPERATION_CANCELLED 2 + +typedef int ma_pa_sink_state_t; +#define MA_PA_SINK_INVALID_STATE -1 +#define MA_PA_SINK_RUNNING 0 +#define MA_PA_SINK_IDLE 1 +#define MA_PA_SINK_SUSPENDED 2 + +typedef int ma_pa_source_state_t; +#define MA_PA_SOURCE_INVALID_STATE -1 +#define MA_PA_SOURCE_RUNNING 0 +#define MA_PA_SOURCE_IDLE 1 +#define MA_PA_SOURCE_SUSPENDED 2 + +typedef int ma_pa_seek_mode_t; +#define MA_PA_SEEK_RELATIVE 0 +#define MA_PA_SEEK_ABSOLUTE 1 +#define MA_PA_SEEK_RELATIVE_ON_READ 2 +#define MA_PA_SEEK_RELATIVE_END 3 + +typedef int ma_pa_channel_position_t; +#define MA_PA_CHANNEL_POSITION_INVALID -1 +#define MA_PA_CHANNEL_POSITION_MONO 0 +#define MA_PA_CHANNEL_POSITION_FRONT_LEFT 1 +#define MA_PA_CHANNEL_POSITION_FRONT_RIGHT 2 +#define MA_PA_CHANNEL_POSITION_FRONT_CENTER 3 +#define MA_PA_CHANNEL_POSITION_REAR_CENTER 4 +#define MA_PA_CHANNEL_POSITION_REAR_LEFT 5 +#define MA_PA_CHANNEL_POSITION_REAR_RIGHT 6 +#define MA_PA_CHANNEL_POSITION_LFE 7 +#define MA_PA_CHANNEL_POSITION_FRONT_LEFT_OF_CENTER 8 +#define MA_PA_CHANNEL_POSITION_FRONT_RIGHT_OF_CENTER 9 +#define MA_PA_CHANNEL_POSITION_SIDE_LEFT 10 +#define MA_PA_CHANNEL_POSITION_SIDE_RIGHT 11 +#define MA_PA_CHANNEL_POSITION_AUX0 12 +#define MA_PA_CHANNEL_POSITION_AUX1 13 +#define MA_PA_CHANNEL_POSITION_AUX2 14 +#define MA_PA_CHANNEL_POSITION_AUX3 15 +#define MA_PA_CHANNEL_POSITION_AUX4 16 +#define MA_PA_CHANNEL_POSITION_AUX5 17 +#define MA_PA_CHANNEL_POSITION_AUX6 18 +#define MA_PA_CHANNEL_POSITION_AUX7 19 +#define MA_PA_CHANNEL_POSITION_AUX8 20 +#define MA_PA_CHANNEL_POSITION_AUX9 21 +#define MA_PA_CHANNEL_POSITION_AUX10 22 +#define MA_PA_CHANNEL_POSITION_AUX11 23 +#define MA_PA_CHANNEL_POSITION_AUX12 24 +#define MA_PA_CHANNEL_POSITION_AUX13 25 +#define MA_PA_CHANNEL_POSITION_AUX14 26 +#define MA_PA_CHANNEL_POSITION_AUX15 27 +#define MA_PA_CHANNEL_POSITION_AUX16 28 +#define MA_PA_CHANNEL_POSITION_AUX17 29 +#define MA_PA_CHANNEL_POSITION_AUX18 30 +#define MA_PA_CHANNEL_POSITION_AUX19 31 +#define MA_PA_CHANNEL_POSITION_AUX20 32 +#define MA_PA_CHANNEL_POSITION_AUX21 33 +#define MA_PA_CHANNEL_POSITION_AUX22 34 +#define MA_PA_CHANNEL_POSITION_AUX23 35 +#define MA_PA_CHANNEL_POSITION_AUX24 36 +#define MA_PA_CHANNEL_POSITION_AUX25 37 +#define MA_PA_CHANNEL_POSITION_AUX26 38 +#define MA_PA_CHANNEL_POSITION_AUX27 39 +#define MA_PA_CHANNEL_POSITION_AUX28 40 +#define MA_PA_CHANNEL_POSITION_AUX29 41 +#define MA_PA_CHANNEL_POSITION_AUX30 42 +#define MA_PA_CHANNEL_POSITION_AUX31 43 +#define MA_PA_CHANNEL_POSITION_TOP_CENTER 44 +#define MA_PA_CHANNEL_POSITION_TOP_FRONT_LEFT 45 +#define MA_PA_CHANNEL_POSITION_TOP_FRONT_RIGHT 46 +#define MA_PA_CHANNEL_POSITION_TOP_FRONT_CENTER 47 +#define MA_PA_CHANNEL_POSITION_TOP_REAR_LEFT 48 +#define MA_PA_CHANNEL_POSITION_TOP_REAR_RIGHT 49 +#define MA_PA_CHANNEL_POSITION_TOP_REAR_CENTER 50 +#define MA_PA_CHANNEL_POSITION_LEFT MA_PA_CHANNEL_POSITION_FRONT_LEFT +#define MA_PA_CHANNEL_POSITION_RIGHT MA_PA_CHANNEL_POSITION_FRONT_RIGHT +#define MA_PA_CHANNEL_POSITION_CENTER MA_PA_CHANNEL_POSITION_FRONT_CENTER +#define MA_PA_CHANNEL_POSITION_SUBWOOFER MA_PA_CHANNEL_POSITION_LFE + +typedef int ma_pa_channel_map_def_t; +#define MA_PA_CHANNEL_MAP_AIFF 0 +#define MA_PA_CHANNEL_MAP_ALSA 1 +#define MA_PA_CHANNEL_MAP_AUX 2 +#define MA_PA_CHANNEL_MAP_WAVEEX 3 +#define MA_PA_CHANNEL_MAP_OSS 4 +#define MA_PA_CHANNEL_MAP_DEFAULT MA_PA_CHANNEL_MAP_AIFF + +typedef int ma_pa_sample_format_t; +#define MA_PA_SAMPLE_INVALID -1 +#define MA_PA_SAMPLE_U8 0 +#define MA_PA_SAMPLE_ALAW 1 +#define MA_PA_SAMPLE_ULAW 2 +#define MA_PA_SAMPLE_S16LE 3 +#define MA_PA_SAMPLE_S16BE 4 +#define MA_PA_SAMPLE_FLOAT32LE 5 +#define MA_PA_SAMPLE_FLOAT32BE 6 +#define MA_PA_SAMPLE_S32LE 7 +#define MA_PA_SAMPLE_S32BE 8 +#define MA_PA_SAMPLE_S24LE 9 +#define MA_PA_SAMPLE_S24BE 10 +#define MA_PA_SAMPLE_S24_32LE 11 +#define MA_PA_SAMPLE_S24_32BE 12 + +typedef struct ma_pa_mainloop ma_pa_mainloop; +typedef struct ma_pa_threaded_mainloop ma_pa_threaded_mainloop; +typedef struct ma_pa_mainloop_api ma_pa_mainloop_api; +typedef struct ma_pa_context ma_pa_context; +typedef struct ma_pa_operation ma_pa_operation; +typedef struct ma_pa_stream ma_pa_stream; +typedef struct ma_pa_spawn_api ma_pa_spawn_api; + +typedef struct +{ + ma_uint32 maxlength; + ma_uint32 tlength; + ma_uint32 prebuf; + ma_uint32 minreq; + ma_uint32 fragsize; +} ma_pa_buffer_attr; + +typedef struct +{ + ma_uint8 channels; + ma_pa_channel_position_t map[MA_PA_CHANNELS_MAX]; +} ma_pa_channel_map; + +typedef struct +{ + ma_uint8 channels; + ma_uint32 values[MA_PA_CHANNELS_MAX]; +} ma_pa_cvolume; + +typedef struct +{ + ma_pa_sample_format_t format; + ma_uint32 rate; + ma_uint8 channels; +} ma_pa_sample_spec; + +typedef struct +{ + const char* name; + ma_uint32 index; + const char* description; + ma_pa_sample_spec sample_spec; + ma_pa_channel_map channel_map; + ma_uint32 owner_module; + ma_pa_cvolume volume; + int mute; + ma_uint32 monitor_source; + const char* monitor_source_name; + ma_uint64 latency; + const char* driver; + ma_pa_sink_flags_t flags; + void* proplist; + ma_uint64 configured_latency; + ma_uint32 base_volume; + ma_pa_sink_state_t state; + ma_uint32 n_volume_steps; + ma_uint32 card; + ma_uint32 n_ports; + void** ports; + void* active_port; + ma_uint8 n_formats; + void** formats; +} ma_pa_sink_info; + +typedef struct +{ + const char *name; + ma_uint32 index; + const char *description; + ma_pa_sample_spec sample_spec; + ma_pa_channel_map channel_map; + ma_uint32 owner_module; + ma_pa_cvolume volume; + int mute; + ma_uint32 monitor_of_sink; + const char *monitor_of_sink_name; + ma_uint64 latency; + const char *driver; + ma_pa_source_flags_t flags; + void* proplist; + ma_uint64 configured_latency; + ma_uint32 base_volume; + ma_pa_source_state_t state; + ma_uint32 n_volume_steps; + ma_uint32 card; + ma_uint32 n_ports; + void** ports; + void* active_port; + ma_uint8 n_formats; + void** formats; +} ma_pa_source_info; + +typedef void (* ma_pa_context_notify_cb_t)(ma_pa_context* c, void* userdata); +typedef void (* ma_pa_sink_info_cb_t) (ma_pa_context* c, const ma_pa_sink_info* i, int eol, void* userdata); +typedef void (* ma_pa_source_info_cb_t) (ma_pa_context* c, const ma_pa_source_info* i, int eol, void* userdata); +typedef void (* ma_pa_stream_success_cb_t)(ma_pa_stream* s, int success, void* userdata); +typedef void (* ma_pa_stream_request_cb_t)(ma_pa_stream* s, size_t nbytes, void* userdata); +typedef void (* ma_pa_stream_notify_cb_t) (ma_pa_stream* s, void* userdata); +typedef void (* ma_pa_free_cb_t) (void* p); +#endif + + +typedef ma_pa_mainloop* (* ma_pa_mainloop_new_proc) (void); +typedef void (* ma_pa_mainloop_free_proc) (ma_pa_mainloop* m); +typedef void (* ma_pa_mainloop_quit_proc) (ma_pa_mainloop* m, int retval); +typedef ma_pa_mainloop_api* (* ma_pa_mainloop_get_api_proc) (ma_pa_mainloop* m); +typedef int (* ma_pa_mainloop_iterate_proc) (ma_pa_mainloop* m, int block, int* retval); +typedef void (* ma_pa_mainloop_wakeup_proc) (ma_pa_mainloop* m); +typedef ma_pa_threaded_mainloop* (* ma_pa_threaded_mainloop_new_proc) (void); +typedef void (* ma_pa_threaded_mainloop_free_proc) (ma_pa_threaded_mainloop* m); +typedef int (* ma_pa_threaded_mainloop_start_proc) (ma_pa_threaded_mainloop* m); +typedef void (* ma_pa_threaded_mainloop_stop_proc) (ma_pa_threaded_mainloop* m); +typedef void (* ma_pa_threaded_mainloop_lock_proc) (ma_pa_threaded_mainloop* m); +typedef void (* ma_pa_threaded_mainloop_unlock_proc) (ma_pa_threaded_mainloop* m); +typedef void (* ma_pa_threaded_mainloop_wait_proc) (ma_pa_threaded_mainloop* m); +typedef void (* ma_pa_threaded_mainloop_signal_proc) (ma_pa_threaded_mainloop* m, int wait_for_accept); +typedef void (* ma_pa_threaded_mainloop_accept_proc) (ma_pa_threaded_mainloop* m); +typedef int (* ma_pa_threaded_mainloop_get_retval_proc) (const ma_pa_threaded_mainloop* m); +typedef ma_pa_mainloop_api* (* ma_pa_threaded_mainloop_get_api_proc) (ma_pa_threaded_mainloop* m); +typedef int (* ma_pa_threaded_mainloop_in_thread_proc) (ma_pa_threaded_mainloop* m); +typedef void (* ma_pa_threaded_mainloop_set_name_proc) (ma_pa_threaded_mainloop* m, const char* name); +typedef ma_pa_context* (* ma_pa_context_new_proc) (ma_pa_mainloop_api* mainloop, const char* name); +typedef void (* ma_pa_context_unref_proc) (ma_pa_context* c); +typedef int (* ma_pa_context_connect_proc) (ma_pa_context* c, const char* server, ma_pa_context_flags_t flags, const ma_pa_spawn_api* api); +typedef void (* ma_pa_context_disconnect_proc) (ma_pa_context* c); +typedef void (* ma_pa_context_set_state_callback_proc) (ma_pa_context* c, ma_pa_context_notify_cb_t cb, void* userdata); +typedef ma_pa_context_state_t (* ma_pa_context_get_state_proc) (const ma_pa_context* c); +typedef ma_pa_operation* (* ma_pa_context_get_sink_info_list_proc) (ma_pa_context* c, ma_pa_sink_info_cb_t cb, void* userdata); +typedef ma_pa_operation* (* ma_pa_context_get_source_info_list_proc) (ma_pa_context* c, ma_pa_source_info_cb_t cb, void* userdata); +typedef ma_pa_operation* (* ma_pa_context_get_sink_info_by_name_proc) (ma_pa_context* c, const char* name, ma_pa_sink_info_cb_t cb, void* userdata); +typedef ma_pa_operation* (* ma_pa_context_get_source_info_by_name_proc)(ma_pa_context* c, const char* name, ma_pa_source_info_cb_t cb, void* userdata); +typedef void (* ma_pa_operation_unref_proc) (ma_pa_operation* o); +typedef ma_pa_operation_state_t (* ma_pa_operation_get_state_proc) (const ma_pa_operation* o); +typedef ma_pa_channel_map* (* ma_pa_channel_map_init_extend_proc) (ma_pa_channel_map* m, unsigned channels, ma_pa_channel_map_def_t def); +typedef int (* ma_pa_channel_map_valid_proc) (const ma_pa_channel_map* m); +typedef int (* ma_pa_channel_map_compatible_proc) (const ma_pa_channel_map* m, const ma_pa_sample_spec* ss); +typedef ma_pa_stream* (* ma_pa_stream_new_proc) (ma_pa_context* c, const char* name, const ma_pa_sample_spec* ss, const ma_pa_channel_map* map); +typedef void (* ma_pa_stream_unref_proc) (ma_pa_stream* s); +typedef int (* ma_pa_stream_connect_playback_proc) (ma_pa_stream* s, const char* dev, const ma_pa_buffer_attr* attr, ma_pa_stream_flags_t flags, const ma_pa_cvolume* volume, ma_pa_stream* sync_stream); +typedef int (* ma_pa_stream_connect_record_proc) (ma_pa_stream* s, const char* dev, const ma_pa_buffer_attr* attr, ma_pa_stream_flags_t flags); +typedef int (* ma_pa_stream_disconnect_proc) (ma_pa_stream* s); +typedef ma_pa_stream_state_t (* ma_pa_stream_get_state_proc) (const ma_pa_stream* s); +typedef const ma_pa_sample_spec* (* ma_pa_stream_get_sample_spec_proc) (ma_pa_stream* s); +typedef const ma_pa_channel_map* (* ma_pa_stream_get_channel_map_proc) (ma_pa_stream* s); +typedef const ma_pa_buffer_attr* (* ma_pa_stream_get_buffer_attr_proc) (ma_pa_stream* s); +typedef ma_pa_operation* (* ma_pa_stream_set_buffer_attr_proc) (ma_pa_stream* s, const ma_pa_buffer_attr* attr, ma_pa_stream_success_cb_t cb, void* userdata); +typedef const char* (* ma_pa_stream_get_device_name_proc) (const ma_pa_stream* s); +typedef void (* ma_pa_stream_set_write_callback_proc) (ma_pa_stream* s, ma_pa_stream_request_cb_t cb, void* userdata); +typedef void (* ma_pa_stream_set_read_callback_proc) (ma_pa_stream* s, ma_pa_stream_request_cb_t cb, void* userdata); +typedef void (* ma_pa_stream_set_suspended_callback_proc) (ma_pa_stream* s, ma_pa_stream_notify_cb_t cb, void* userdata); +typedef void (* ma_pa_stream_set_moved_callback_proc) (ma_pa_stream* s, ma_pa_stream_notify_cb_t cb, void* userdata); +typedef int (* ma_pa_stream_is_suspended_proc) (const ma_pa_stream* s); +typedef ma_pa_operation* (* ma_pa_stream_flush_proc) (ma_pa_stream* s, ma_pa_stream_success_cb_t cb, void* userdata); +typedef ma_pa_operation* (* ma_pa_stream_drain_proc) (ma_pa_stream* s, ma_pa_stream_success_cb_t cb, void* userdata); +typedef int (* ma_pa_stream_is_corked_proc) (const ma_pa_stream* s); +typedef ma_pa_operation* (* ma_pa_stream_cork_proc) (ma_pa_stream* s, int b, ma_pa_stream_success_cb_t cb, void* userdata); +typedef ma_pa_operation* (* ma_pa_stream_trigger_proc) (ma_pa_stream* s, ma_pa_stream_success_cb_t cb, void* userdata); +typedef int (* ma_pa_stream_begin_write_proc) (ma_pa_stream* s, void** data, size_t* nbytes); +typedef int (* ma_pa_stream_write_proc) (ma_pa_stream* s, const void* data, size_t nbytes, ma_pa_free_cb_t free_cb, int64_t offset, ma_pa_seek_mode_t seek); +typedef int (* ma_pa_stream_peek_proc) (ma_pa_stream* s, const void** data, size_t* nbytes); +typedef int (* ma_pa_stream_drop_proc) (ma_pa_stream* s); +typedef size_t (* ma_pa_stream_writable_size_proc) (const ma_pa_stream* s); +typedef size_t (* ma_pa_stream_readable_size_proc) (const ma_pa_stream* s); + +typedef struct +{ + ma_uint32 count; + ma_uint32 capacity; + ma_device_info* pInfo; +} ma_pulse_device_enum_data; + +static ma_result ma_result_from_pulse(int result) +{ + if (result < 0) { + return MA_ERROR; + } + + switch (result) { + case MA_PA_OK: return MA_SUCCESS; + case MA_PA_ERR_ACCESS: return MA_ACCESS_DENIED; + case MA_PA_ERR_INVALID: return MA_INVALID_ARGS; + case MA_PA_ERR_NOENTITY: return MA_NO_DEVICE; + default: return MA_ERROR; + } +} + +#if 0 +static ma_pa_sample_format_t ma_format_to_pulse(ma_format format) +{ + if (ma_is_little_endian()) { + switch (format) { + case ma_format_s16: return MA_PA_SAMPLE_S16LE; + case ma_format_s24: return MA_PA_SAMPLE_S24LE; + case ma_format_s32: return MA_PA_SAMPLE_S32LE; + case ma_format_f32: return MA_PA_SAMPLE_FLOAT32LE; + default: break; + } + } else { + switch (format) { + case ma_format_s16: return MA_PA_SAMPLE_S16BE; + case ma_format_s24: return MA_PA_SAMPLE_S24BE; + case ma_format_s32: return MA_PA_SAMPLE_S32BE; + case ma_format_f32: return MA_PA_SAMPLE_FLOAT32BE; + default: break; + } + } + + /* Endian agnostic. */ + switch (format) { + case ma_format_u8: return MA_PA_SAMPLE_U8; + default: return MA_PA_SAMPLE_INVALID; + } +} +#endif + +static ma_format ma_format_from_pulse(ma_pa_sample_format_t format) +{ + if (ma_is_little_endian()) { + switch (format) { + case MA_PA_SAMPLE_S16LE: return ma_format_s16; + case MA_PA_SAMPLE_S24LE: return ma_format_s24; + case MA_PA_SAMPLE_S32LE: return ma_format_s32; + case MA_PA_SAMPLE_FLOAT32LE: return ma_format_f32; + default: break; + } + } else { + switch (format) { + case MA_PA_SAMPLE_S16BE: return ma_format_s16; + case MA_PA_SAMPLE_S24BE: return ma_format_s24; + case MA_PA_SAMPLE_S32BE: return ma_format_s32; + case MA_PA_SAMPLE_FLOAT32BE: return ma_format_f32; + default: break; + } + } + + /* Endian agnostic. */ + switch (format) { + case MA_PA_SAMPLE_U8: return ma_format_u8; + default: return ma_format_unknown; + } +} + +static ma_channel ma_channel_position_from_pulse(ma_pa_channel_position_t position) +{ + switch (position) + { + case MA_PA_CHANNEL_POSITION_INVALID: return MA_CHANNEL_NONE; + case MA_PA_CHANNEL_POSITION_MONO: return MA_CHANNEL_MONO; + case MA_PA_CHANNEL_POSITION_FRONT_LEFT: return MA_CHANNEL_FRONT_LEFT; + case MA_PA_CHANNEL_POSITION_FRONT_RIGHT: return MA_CHANNEL_FRONT_RIGHT; + case MA_PA_CHANNEL_POSITION_FRONT_CENTER: return MA_CHANNEL_FRONT_CENTER; + case MA_PA_CHANNEL_POSITION_REAR_CENTER: return MA_CHANNEL_BACK_CENTER; + case MA_PA_CHANNEL_POSITION_REAR_LEFT: return MA_CHANNEL_BACK_LEFT; + case MA_PA_CHANNEL_POSITION_REAR_RIGHT: return MA_CHANNEL_BACK_RIGHT; + case MA_PA_CHANNEL_POSITION_LFE: return MA_CHANNEL_LFE; + case MA_PA_CHANNEL_POSITION_FRONT_LEFT_OF_CENTER: return MA_CHANNEL_FRONT_LEFT_CENTER; + case MA_PA_CHANNEL_POSITION_FRONT_RIGHT_OF_CENTER: return MA_CHANNEL_FRONT_RIGHT_CENTER; + case MA_PA_CHANNEL_POSITION_SIDE_LEFT: return MA_CHANNEL_SIDE_LEFT; + case MA_PA_CHANNEL_POSITION_SIDE_RIGHT: return MA_CHANNEL_SIDE_RIGHT; + case MA_PA_CHANNEL_POSITION_AUX0: return MA_CHANNEL_AUX_0; + case MA_PA_CHANNEL_POSITION_AUX1: return MA_CHANNEL_AUX_1; + case MA_PA_CHANNEL_POSITION_AUX2: return MA_CHANNEL_AUX_2; + case MA_PA_CHANNEL_POSITION_AUX3: return MA_CHANNEL_AUX_3; + case MA_PA_CHANNEL_POSITION_AUX4: return MA_CHANNEL_AUX_4; + case MA_PA_CHANNEL_POSITION_AUX5: return MA_CHANNEL_AUX_5; + case MA_PA_CHANNEL_POSITION_AUX6: return MA_CHANNEL_AUX_6; + case MA_PA_CHANNEL_POSITION_AUX7: return MA_CHANNEL_AUX_7; + case MA_PA_CHANNEL_POSITION_AUX8: return MA_CHANNEL_AUX_8; + case MA_PA_CHANNEL_POSITION_AUX9: return MA_CHANNEL_AUX_9; + case MA_PA_CHANNEL_POSITION_AUX10: return MA_CHANNEL_AUX_10; + case MA_PA_CHANNEL_POSITION_AUX11: return MA_CHANNEL_AUX_11; + case MA_PA_CHANNEL_POSITION_AUX12: return MA_CHANNEL_AUX_12; + case MA_PA_CHANNEL_POSITION_AUX13: return MA_CHANNEL_AUX_13; + case MA_PA_CHANNEL_POSITION_AUX14: return MA_CHANNEL_AUX_14; + case MA_PA_CHANNEL_POSITION_AUX15: return MA_CHANNEL_AUX_15; + case MA_PA_CHANNEL_POSITION_AUX16: return MA_CHANNEL_AUX_16; + case MA_PA_CHANNEL_POSITION_AUX17: return MA_CHANNEL_AUX_17; + case MA_PA_CHANNEL_POSITION_AUX18: return MA_CHANNEL_AUX_18; + case MA_PA_CHANNEL_POSITION_AUX19: return MA_CHANNEL_AUX_19; + case MA_PA_CHANNEL_POSITION_AUX20: return MA_CHANNEL_AUX_20; + case MA_PA_CHANNEL_POSITION_AUX21: return MA_CHANNEL_AUX_21; + case MA_PA_CHANNEL_POSITION_AUX22: return MA_CHANNEL_AUX_22; + case MA_PA_CHANNEL_POSITION_AUX23: return MA_CHANNEL_AUX_23; + case MA_PA_CHANNEL_POSITION_AUX24: return MA_CHANNEL_AUX_24; + case MA_PA_CHANNEL_POSITION_AUX25: return MA_CHANNEL_AUX_25; + case MA_PA_CHANNEL_POSITION_AUX26: return MA_CHANNEL_AUX_26; + case MA_PA_CHANNEL_POSITION_AUX27: return MA_CHANNEL_AUX_27; + case MA_PA_CHANNEL_POSITION_AUX28: return MA_CHANNEL_AUX_28; + case MA_PA_CHANNEL_POSITION_AUX29: return MA_CHANNEL_AUX_29; + case MA_PA_CHANNEL_POSITION_AUX30: return MA_CHANNEL_AUX_30; + case MA_PA_CHANNEL_POSITION_AUX31: return MA_CHANNEL_AUX_31; + case MA_PA_CHANNEL_POSITION_TOP_CENTER: return MA_CHANNEL_TOP_CENTER; + case MA_PA_CHANNEL_POSITION_TOP_FRONT_LEFT: return MA_CHANNEL_TOP_FRONT_LEFT; + case MA_PA_CHANNEL_POSITION_TOP_FRONT_RIGHT: return MA_CHANNEL_TOP_FRONT_RIGHT; + case MA_PA_CHANNEL_POSITION_TOP_FRONT_CENTER: return MA_CHANNEL_TOP_FRONT_CENTER; + case MA_PA_CHANNEL_POSITION_TOP_REAR_LEFT: return MA_CHANNEL_TOP_BACK_LEFT; + case MA_PA_CHANNEL_POSITION_TOP_REAR_RIGHT: return MA_CHANNEL_TOP_BACK_RIGHT; + case MA_PA_CHANNEL_POSITION_TOP_REAR_CENTER: return MA_CHANNEL_TOP_BACK_CENTER; + default: return MA_CHANNEL_NONE; + } +} + +#if 0 +static ma_pa_channel_position_t ma_channel_position_to_pulse(ma_channel position) +{ + switch (position) + { + case MA_CHANNEL_NONE: return MA_PA_CHANNEL_POSITION_INVALID; + case MA_CHANNEL_FRONT_LEFT: return MA_PA_CHANNEL_POSITION_FRONT_LEFT; + case MA_CHANNEL_FRONT_RIGHT: return MA_PA_CHANNEL_POSITION_FRONT_RIGHT; + case MA_CHANNEL_FRONT_CENTER: return MA_PA_CHANNEL_POSITION_FRONT_CENTER; + case MA_CHANNEL_LFE: return MA_PA_CHANNEL_POSITION_LFE; + case MA_CHANNEL_BACK_LEFT: return MA_PA_CHANNEL_POSITION_REAR_LEFT; + case MA_CHANNEL_BACK_RIGHT: return MA_PA_CHANNEL_POSITION_REAR_RIGHT; + case MA_CHANNEL_FRONT_LEFT_CENTER: return MA_PA_CHANNEL_POSITION_FRONT_LEFT_OF_CENTER; + case MA_CHANNEL_FRONT_RIGHT_CENTER: return MA_PA_CHANNEL_POSITION_FRONT_RIGHT_OF_CENTER; + case MA_CHANNEL_BACK_CENTER: return MA_PA_CHANNEL_POSITION_REAR_CENTER; + case MA_CHANNEL_SIDE_LEFT: return MA_PA_CHANNEL_POSITION_SIDE_LEFT; + case MA_CHANNEL_SIDE_RIGHT: return MA_PA_CHANNEL_POSITION_SIDE_RIGHT; + case MA_CHANNEL_TOP_CENTER: return MA_PA_CHANNEL_POSITION_TOP_CENTER; + case MA_CHANNEL_TOP_FRONT_LEFT: return MA_PA_CHANNEL_POSITION_TOP_FRONT_LEFT; + case MA_CHANNEL_TOP_FRONT_CENTER: return MA_PA_CHANNEL_POSITION_TOP_FRONT_CENTER; + case MA_CHANNEL_TOP_FRONT_RIGHT: return MA_PA_CHANNEL_POSITION_TOP_FRONT_RIGHT; + case MA_CHANNEL_TOP_BACK_LEFT: return MA_PA_CHANNEL_POSITION_TOP_REAR_LEFT; + case MA_CHANNEL_TOP_BACK_CENTER: return MA_PA_CHANNEL_POSITION_TOP_REAR_CENTER; + case MA_CHANNEL_TOP_BACK_RIGHT: return MA_PA_CHANNEL_POSITION_TOP_REAR_RIGHT; + case MA_CHANNEL_19: return MA_PA_CHANNEL_POSITION_AUX18; + case MA_CHANNEL_20: return MA_PA_CHANNEL_POSITION_AUX19; + case MA_CHANNEL_21: return MA_PA_CHANNEL_POSITION_AUX20; + case MA_CHANNEL_22: return MA_PA_CHANNEL_POSITION_AUX21; + case MA_CHANNEL_23: return MA_PA_CHANNEL_POSITION_AUX22; + case MA_CHANNEL_24: return MA_PA_CHANNEL_POSITION_AUX23; + case MA_CHANNEL_25: return MA_PA_CHANNEL_POSITION_AUX24; + case MA_CHANNEL_26: return MA_PA_CHANNEL_POSITION_AUX25; + case MA_CHANNEL_27: return MA_PA_CHANNEL_POSITION_AUX26; + case MA_CHANNEL_28: return MA_PA_CHANNEL_POSITION_AUX27; + case MA_CHANNEL_29: return MA_PA_CHANNEL_POSITION_AUX28; + case MA_CHANNEL_30: return MA_PA_CHANNEL_POSITION_AUX29; + case MA_CHANNEL_31: return MA_PA_CHANNEL_POSITION_AUX30; + case MA_CHANNEL_32: return MA_PA_CHANNEL_POSITION_AUX31; + default: return (ma_pa_channel_position_t)position; + } +} +#endif + +static ma_result ma_wait_for_operation__pulse(ma_context* pContext, ma_ptr pMainLoop, ma_pa_operation* pOP) +{ + int resultPA; + ma_pa_operation_state_t state; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pOP != NULL); + + for (;;) { + state = ((ma_pa_operation_get_state_proc)pContext->pulse.pa_operation_get_state)(pOP); + if (state != MA_PA_OPERATION_RUNNING) { + break; /* Done. */ + } + + resultPA = ((ma_pa_mainloop_iterate_proc)pContext->pulse.pa_mainloop_iterate)((ma_pa_mainloop*)pMainLoop, 1, NULL); + if (resultPA < 0) { + return ma_result_from_pulse(resultPA); + } + } + + return MA_SUCCESS; +} + +static ma_result ma_wait_for_operation_and_unref__pulse(ma_context* pContext, ma_ptr pMainLoop, ma_pa_operation* pOP) +{ + ma_result result; + + if (pOP == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_wait_for_operation__pulse(pContext, pMainLoop, pOP); + ((ma_pa_operation_unref_proc)pContext->pulse.pa_operation_unref)(pOP); + + return result; +} + +static ma_result ma_wait_for_pa_context_to_connect__pulse(ma_context* pContext, ma_ptr pMainLoop, ma_ptr pPulseContext) +{ + int resultPA; + ma_pa_context_state_t state; + + for (;;) { + state = ((ma_pa_context_get_state_proc)pContext->pulse.pa_context_get_state)((ma_pa_context*)pPulseContext); + if (state == MA_PA_CONTEXT_READY) { + break; /* Done. */ + } + + if (state == MA_PA_CONTEXT_FAILED || state == MA_PA_CONTEXT_TERMINATED) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[PulseAudio] An error occurred while connecting the PulseAudio context."); + return MA_ERROR; + } + + resultPA = ((ma_pa_mainloop_iterate_proc)pContext->pulse.pa_mainloop_iterate)((ma_pa_mainloop*)pMainLoop, 1, NULL); + if (resultPA < 0) { + return ma_result_from_pulse(resultPA); + } + } + + /* Should never get here. */ + return MA_SUCCESS; +} + +static ma_result ma_wait_for_pa_stream_to_connect__pulse(ma_context* pContext, ma_ptr pMainLoop, ma_ptr pStream) +{ + int resultPA; + ma_pa_stream_state_t state; + + for (;;) { + state = ((ma_pa_stream_get_state_proc)pContext->pulse.pa_stream_get_state)((ma_pa_stream*)pStream); + if (state == MA_PA_STREAM_READY) { + break; /* Done. */ + } + + if (state == MA_PA_STREAM_FAILED || state == MA_PA_STREAM_TERMINATED) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[PulseAudio] An error occurred while connecting the PulseAudio stream."); + return MA_ERROR; + } + + resultPA = ((ma_pa_mainloop_iterate_proc)pContext->pulse.pa_mainloop_iterate)((ma_pa_mainloop*)pMainLoop, 1, NULL); + if (resultPA < 0) { + return ma_result_from_pulse(resultPA); + } + } + + return MA_SUCCESS; +} + + +static ma_result ma_init_pa_mainloop_and_pa_context__pulse(ma_context* pContext, const char* pApplicationName, const char* pServerName, ma_bool32 tryAutoSpawn, ma_ptr* ppMainLoop, ma_ptr* ppPulseContext) +{ + ma_result result; + ma_ptr pMainLoop; + ma_ptr pPulseContext; + + MA_ASSERT(ppMainLoop != NULL); + MA_ASSERT(ppPulseContext != NULL); + + /* The PulseAudio context maps well to miniaudio's notion of a context. The pa_context object will be initialized as part of the ma_context. */ + pMainLoop = ((ma_pa_mainloop_new_proc)pContext->pulse.pa_mainloop_new)(); + if (pMainLoop == NULL) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to create mainloop."); + return MA_FAILED_TO_INIT_BACKEND; + } + + pPulseContext = ((ma_pa_context_new_proc)pContext->pulse.pa_context_new)(((ma_pa_mainloop_get_api_proc)pContext->pulse.pa_mainloop_get_api)((ma_pa_mainloop*)pMainLoop), pApplicationName); + if (pPulseContext == NULL) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to create PulseAudio context."); + ((ma_pa_mainloop_free_proc)pContext->pulse.pa_mainloop_free)((ma_pa_mainloop*)(pMainLoop)); + return MA_FAILED_TO_INIT_BACKEND; + } + + /* Now we need to connect to the context. Everything is asynchronous so we need to wait for it to connect before returning. */ + result = ma_result_from_pulse(((ma_pa_context_connect_proc)pContext->pulse.pa_context_connect)((ma_pa_context*)pPulseContext, pServerName, (tryAutoSpawn) ? MA_PA_CONTEXT_NOFLAGS : MA_PA_CONTEXT_NOAUTOSPAWN, NULL)); + if (result != MA_SUCCESS) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to connect PulseAudio context."); + ((ma_pa_context_unref_proc)pContext->pulse.pa_context_unref)((ma_pa_context*)(pPulseContext)); + ((ma_pa_mainloop_free_proc)pContext->pulse.pa_mainloop_free)((ma_pa_mainloop*)(pMainLoop)); + return result; + } + + /* Since ma_context_init() runs synchronously we need to wait for the PulseAudio context to connect before we return. */ + result = ma_wait_for_pa_context_to_connect__pulse(pContext, pMainLoop, pPulseContext); + if (result != MA_SUCCESS) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[PulseAudio] Waiting for connection failed."); + ((ma_pa_context_unref_proc)pContext->pulse.pa_context_unref)((ma_pa_context*)(pPulseContext)); + ((ma_pa_mainloop_free_proc)pContext->pulse.pa_mainloop_free)((ma_pa_mainloop*)(pMainLoop)); + return result; + } + + *ppMainLoop = pMainLoop; + *ppPulseContext = pPulseContext; + + return MA_SUCCESS; +} + + +static void ma_device_sink_info_callback(ma_pa_context* pPulseContext, const ma_pa_sink_info* pInfo, int endOfList, void* pUserData) +{ + ma_pa_sink_info* pInfoOut; + + if (endOfList > 0) { + return; + } + + /* + There has been a report that indicates that pInfo can be null which results + in a null pointer dereference below. We'll check for this for safety. + */ + if (pInfo == NULL) { + return; + } + + pInfoOut = (ma_pa_sink_info*)pUserData; + MA_ASSERT(pInfoOut != NULL); + + *pInfoOut = *pInfo; + + (void)pPulseContext; /* Unused. */ +} + +static void ma_device_source_info_callback(ma_pa_context* pPulseContext, const ma_pa_source_info* pInfo, int endOfList, void* pUserData) +{ + ma_pa_source_info* pInfoOut; + + if (endOfList > 0) { + return; + } + + /* + There has been a report that indicates that pInfo can be null which results + in a null pointer dereference below. We'll check for this for safety. + */ + if (pInfo == NULL) { + return; + } + + pInfoOut = (ma_pa_source_info*)pUserData; + MA_ASSERT(pInfoOut != NULL); + + *pInfoOut = *pInfo; + + (void)pPulseContext; /* Unused. */ +} + +#if 0 +static void ma_device_sink_name_callback(ma_pa_context* pPulseContext, const ma_pa_sink_info* pInfo, int endOfList, void* pUserData) +{ + ma_device* pDevice; + + if (endOfList > 0) { + return; + } + + pDevice = (ma_device*)pUserData; + MA_ASSERT(pDevice != NULL); + + ma_strncpy_s(pDevice->playback.name, sizeof(pDevice->playback.name), pInfo->description, (size_t)-1); + + (void)pPulseContext; /* Unused. */ +} + +static void ma_device_source_name_callback(ma_pa_context* pPulseContext, const ma_pa_source_info* pInfo, int endOfList, void* pUserData) +{ + ma_device* pDevice; + + if (endOfList > 0) { + return; + } + + pDevice = (ma_device*)pUserData; + MA_ASSERT(pDevice != NULL); + + ma_strncpy_s(pDevice->capture.name, sizeof(pDevice->capture.name), pInfo->description, (size_t)-1); + + (void)pPulseContext; /* Unused. */ +} +#endif + +static ma_result ma_context_get_sink_info__pulse(ma_context* pContext, const char* pDeviceName, ma_pa_sink_info* pSinkInfo) +{ + ma_pa_operation* pOP; + + pOP = ((ma_pa_context_get_sink_info_by_name_proc)pContext->pulse.pa_context_get_sink_info_by_name)((ma_pa_context*)pContext->pulse.pPulseContext, pDeviceName, ma_device_sink_info_callback, pSinkInfo); + if (pOP == NULL) { + return MA_ERROR; + } + + return ma_wait_for_operation_and_unref__pulse(pContext, pContext->pulse.pMainLoop, pOP); +} + +static ma_result ma_context_get_source_info__pulse(ma_context* pContext, const char* pDeviceName, ma_pa_source_info* pSourceInfo) +{ + ma_pa_operation* pOP; + + pOP = ((ma_pa_context_get_source_info_by_name_proc)pContext->pulse.pa_context_get_source_info_by_name)((ma_pa_context*)pContext->pulse.pPulseContext, pDeviceName, ma_device_source_info_callback, pSourceInfo); + if (pOP == NULL) { + return MA_ERROR; + } + + return ma_wait_for_operation_and_unref__pulse(pContext, pContext->pulse.pMainLoop, pOP); +} + +static ma_result ma_context_get_default_device_index__pulse(ma_context* pContext, ma_device_type deviceType, ma_uint32* pIndex) +{ + ma_result result; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pIndex != NULL); + + if (pIndex != NULL) { + *pIndex = (ma_uint32)-1; + } + + if (deviceType == ma_device_type_playback) { + ma_pa_sink_info sinkInfo; + result = ma_context_get_sink_info__pulse(pContext, NULL, &sinkInfo); + if (result != MA_SUCCESS) { + return result; + } + + if (pIndex != NULL) { + *pIndex = sinkInfo.index; + } + } + + if (deviceType == ma_device_type_capture) { + ma_pa_source_info sourceInfo; + result = ma_context_get_source_info__pulse(pContext, NULL, &sourceInfo); + if (result != MA_SUCCESS) { + return result; + } + + if (pIndex != NULL) { + *pIndex = sourceInfo.index; + } + } + + return MA_SUCCESS; +} + + +typedef struct +{ + ma_context* pContext; + ma_enum_devices_callback_proc callback; + void* pUserData; + ma_bool32 isTerminated; + ma_uint32 defaultDeviceIndexPlayback; + ma_uint32 defaultDeviceIndexCapture; +} ma_context_enumerate_devices_callback_data__pulse; + +static void ma_context_enumerate_devices_sink_callback__pulse(ma_pa_context* pPulseContext, const ma_pa_sink_info* pSinkInfo, int endOfList, void* pUserData) +{ + ma_context_enumerate_devices_callback_data__pulse* pData = (ma_context_enumerate_devices_callback_data__pulse*)pUserData; + ma_device_info deviceInfo; + + MA_ASSERT(pData != NULL); + + if (endOfList || pData->isTerminated) { + return; + } + + MA_ZERO_OBJECT(&deviceInfo); + + /* The name from PulseAudio is the ID for miniaudio. */ + if (pSinkInfo->name != NULL) { + ma_strncpy_s(deviceInfo.id.pulse, sizeof(deviceInfo.id.pulse), pSinkInfo->name, (size_t)-1); + } + + /* The description from PulseAudio is the name for miniaudio. */ + if (pSinkInfo->description != NULL) { + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), pSinkInfo->description, (size_t)-1); + } + + if (pSinkInfo->index == pData->defaultDeviceIndexPlayback) { + deviceInfo.isDefault = MA_TRUE; + } + + pData->isTerminated = !pData->callback(pData->pContext, ma_device_type_playback, &deviceInfo, pData->pUserData); + + (void)pPulseContext; /* Unused. */ +} + +static void ma_context_enumerate_devices_source_callback__pulse(ma_pa_context* pPulseContext, const ma_pa_source_info* pSourceInfo, int endOfList, void* pUserData) +{ + ma_context_enumerate_devices_callback_data__pulse* pData = (ma_context_enumerate_devices_callback_data__pulse*)pUserData; + ma_device_info deviceInfo; + + MA_ASSERT(pData != NULL); + + if (endOfList || pData->isTerminated) { + return; + } + + MA_ZERO_OBJECT(&deviceInfo); + + /* The name from PulseAudio is the ID for miniaudio. */ + if (pSourceInfo->name != NULL) { + ma_strncpy_s(deviceInfo.id.pulse, sizeof(deviceInfo.id.pulse), pSourceInfo->name, (size_t)-1); + } + + /* The description from PulseAudio is the name for miniaudio. */ + if (pSourceInfo->description != NULL) { + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), pSourceInfo->description, (size_t)-1); + } + + if (pSourceInfo->index == pData->defaultDeviceIndexCapture) { + deviceInfo.isDefault = MA_TRUE; + } + + pData->isTerminated = !pData->callback(pData->pContext, ma_device_type_capture, &deviceInfo, pData->pUserData); + + (void)pPulseContext; /* Unused. */ +} + +static ma_result ma_context_enumerate_devices__pulse(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + ma_result result = MA_SUCCESS; + ma_context_enumerate_devices_callback_data__pulse callbackData; + ma_pa_operation* pOP = NULL; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + callbackData.pContext = pContext; + callbackData.callback = callback; + callbackData.pUserData = pUserData; + callbackData.isTerminated = MA_FALSE; + callbackData.defaultDeviceIndexPlayback = (ma_uint32)-1; + callbackData.defaultDeviceIndexCapture = (ma_uint32)-1; + + /* We need to get the index of the default devices. */ + ma_context_get_default_device_index__pulse(pContext, ma_device_type_playback, &callbackData.defaultDeviceIndexPlayback); + ma_context_get_default_device_index__pulse(pContext, ma_device_type_capture, &callbackData.defaultDeviceIndexCapture); + + /* Playback. */ + if (!callbackData.isTerminated) { + pOP = ((ma_pa_context_get_sink_info_list_proc)pContext->pulse.pa_context_get_sink_info_list)((ma_pa_context*)(pContext->pulse.pPulseContext), ma_context_enumerate_devices_sink_callback__pulse, &callbackData); + if (pOP == NULL) { + result = MA_ERROR; + goto done; + } + + result = ma_wait_for_operation__pulse(pContext, pContext->pulse.pMainLoop, pOP); + ((ma_pa_operation_unref_proc)pContext->pulse.pa_operation_unref)(pOP); + + if (result != MA_SUCCESS) { + goto done; + } + } + + + /* Capture. */ + if (!callbackData.isTerminated) { + pOP = ((ma_pa_context_get_source_info_list_proc)pContext->pulse.pa_context_get_source_info_list)((ma_pa_context*)(pContext->pulse.pPulseContext), ma_context_enumerate_devices_source_callback__pulse, &callbackData); + if (pOP == NULL) { + result = MA_ERROR; + goto done; + } + + result = ma_wait_for_operation__pulse(pContext, pContext->pulse.pMainLoop, pOP); + ((ma_pa_operation_unref_proc)pContext->pulse.pa_operation_unref)(pOP); + + if (result != MA_SUCCESS) { + goto done; + } + } + +done: + return result; +} + + +typedef struct +{ + ma_device_info* pDeviceInfo; + ma_uint32 defaultDeviceIndex; + ma_bool32 foundDevice; +} ma_context_get_device_info_callback_data__pulse; + +static void ma_context_get_device_info_sink_callback__pulse(ma_pa_context* pPulseContext, const ma_pa_sink_info* pInfo, int endOfList, void* pUserData) +{ + ma_context_get_device_info_callback_data__pulse* pData = (ma_context_get_device_info_callback_data__pulse*)pUserData; + + if (endOfList > 0) { + return; + } + + MA_ASSERT(pData != NULL); + pData->foundDevice = MA_TRUE; + + if (pInfo->name != NULL) { + ma_strncpy_s(pData->pDeviceInfo->id.pulse, sizeof(pData->pDeviceInfo->id.pulse), pInfo->name, (size_t)-1); + } + + if (pInfo->description != NULL) { + ma_strncpy_s(pData->pDeviceInfo->name, sizeof(pData->pDeviceInfo->name), pInfo->description, (size_t)-1); + } + + /* + We're just reporting a single data format here. I think technically PulseAudio might support + all formats, but I don't trust that PulseAudio will do *anything* right, so I'm just going to + report the "native" device format. + */ + pData->pDeviceInfo->nativeDataFormats[0].format = ma_format_from_pulse(pInfo->sample_spec.format); + pData->pDeviceInfo->nativeDataFormats[0].channels = pInfo->sample_spec.channels; + pData->pDeviceInfo->nativeDataFormats[0].sampleRate = pInfo->sample_spec.rate; + pData->pDeviceInfo->nativeDataFormats[0].flags = 0; + pData->pDeviceInfo->nativeDataFormatCount = 1; + + if (pData->defaultDeviceIndex == pInfo->index) { + pData->pDeviceInfo->isDefault = MA_TRUE; + } + + (void)pPulseContext; /* Unused. */ +} + +static void ma_context_get_device_info_source_callback__pulse(ma_pa_context* pPulseContext, const ma_pa_source_info* pInfo, int endOfList, void* pUserData) +{ + ma_context_get_device_info_callback_data__pulse* pData = (ma_context_get_device_info_callback_data__pulse*)pUserData; + + if (endOfList > 0) { + return; + } + + MA_ASSERT(pData != NULL); + pData->foundDevice = MA_TRUE; + + if (pInfo->name != NULL) { + ma_strncpy_s(pData->pDeviceInfo->id.pulse, sizeof(pData->pDeviceInfo->id.pulse), pInfo->name, (size_t)-1); + } + + if (pInfo->description != NULL) { + ma_strncpy_s(pData->pDeviceInfo->name, sizeof(pData->pDeviceInfo->name), pInfo->description, (size_t)-1); + } + + /* + We're just reporting a single data format here. I think technically PulseAudio might support + all formats, but I don't trust that PulseAudio will do *anything* right, so I'm just going to + report the "native" device format. + */ + pData->pDeviceInfo->nativeDataFormats[0].format = ma_format_from_pulse(pInfo->sample_spec.format); + pData->pDeviceInfo->nativeDataFormats[0].channels = pInfo->sample_spec.channels; + pData->pDeviceInfo->nativeDataFormats[0].sampleRate = pInfo->sample_spec.rate; + pData->pDeviceInfo->nativeDataFormats[0].flags = 0; + pData->pDeviceInfo->nativeDataFormatCount = 1; + + if (pData->defaultDeviceIndex == pInfo->index) { + pData->pDeviceInfo->isDefault = MA_TRUE; + } + + (void)pPulseContext; /* Unused. */ +} + +static ma_result ma_context_get_device_info__pulse(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + ma_result result = MA_SUCCESS; + ma_context_get_device_info_callback_data__pulse callbackData; + ma_pa_operation* pOP = NULL; + const char* pDeviceName = NULL; + + MA_ASSERT(pContext != NULL); + + callbackData.pDeviceInfo = pDeviceInfo; + callbackData.foundDevice = MA_FALSE; + + if (pDeviceID != NULL) { + pDeviceName = pDeviceID->pulse; + } else { + pDeviceName = NULL; + } + + result = ma_context_get_default_device_index__pulse(pContext, deviceType, &callbackData.defaultDeviceIndex); + + if (deviceType == ma_device_type_playback) { + pOP = ((ma_pa_context_get_sink_info_by_name_proc)pContext->pulse.pa_context_get_sink_info_by_name)((ma_pa_context*)(pContext->pulse.pPulseContext), pDeviceName, ma_context_get_device_info_sink_callback__pulse, &callbackData); + } else { + pOP = ((ma_pa_context_get_source_info_by_name_proc)pContext->pulse.pa_context_get_source_info_by_name)((ma_pa_context*)(pContext->pulse.pPulseContext), pDeviceName, ma_context_get_device_info_source_callback__pulse, &callbackData); + } + + if (pOP != NULL) { + ma_wait_for_operation_and_unref__pulse(pContext, pContext->pulse.pMainLoop, pOP); + } else { + result = MA_ERROR; + goto done; + } + + if (!callbackData.foundDevice) { + result = MA_NO_DEVICE; + goto done; + } + +done: + return result; +} + +static ma_result ma_device_uninit__pulse(ma_device* pDevice) +{ + ma_context* pContext; + + MA_ASSERT(pDevice != NULL); + + pContext = pDevice->pContext; + MA_ASSERT(pContext != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ((ma_pa_stream_disconnect_proc)pContext->pulse.pa_stream_disconnect)((ma_pa_stream*)pDevice->pulse.pStreamCapture); + ((ma_pa_stream_unref_proc)pContext->pulse.pa_stream_unref)((ma_pa_stream*)pDevice->pulse.pStreamCapture); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ((ma_pa_stream_disconnect_proc)pContext->pulse.pa_stream_disconnect)((ma_pa_stream*)pDevice->pulse.pStreamPlayback); + ((ma_pa_stream_unref_proc)pContext->pulse.pa_stream_unref)((ma_pa_stream*)pDevice->pulse.pStreamPlayback); + } + + if (pDevice->type == ma_device_type_duplex) { + ma_duplex_rb_uninit(&pDevice->duplexRB); + } + + ((ma_pa_context_disconnect_proc)pContext->pulse.pa_context_disconnect)((ma_pa_context*)pDevice->pulse.pPulseContext); + ((ma_pa_context_unref_proc)pContext->pulse.pa_context_unref)((ma_pa_context*)pDevice->pulse.pPulseContext); + ((ma_pa_mainloop_free_proc)pContext->pulse.pa_mainloop_free)((ma_pa_mainloop*)pDevice->pulse.pMainLoop); + + return MA_SUCCESS; +} + +static ma_pa_buffer_attr ma_device__pa_buffer_attr_new(ma_uint32 periodSizeInFrames, ma_uint32 periods, const ma_pa_sample_spec* ss) +{ + ma_pa_buffer_attr attr; + attr.maxlength = periodSizeInFrames * periods * ma_get_bytes_per_frame(ma_format_from_pulse(ss->format), ss->channels); + attr.tlength = attr.maxlength / periods; + attr.prebuf = (ma_uint32)-1; + attr.minreq = (ma_uint32)-1; + attr.fragsize = attr.maxlength / periods; + + return attr; +} + +static ma_pa_stream* ma_device__pa_stream_new__pulse(ma_device* pDevice, const char* pStreamName, const ma_pa_sample_spec* ss, const ma_pa_channel_map* cmap) +{ + static ma_atomic_uint32 g_StreamCounter = { 0 }; + char actualStreamName[256]; + + if (pStreamName != NULL) { + ma_strncpy_s(actualStreamName, sizeof(actualStreamName), pStreamName, (size_t)-1); + } else { + const char* pBaseName = "miniaudio:"; + size_t baseNameLen = strlen(pBaseName); + ma_strcpy_s(actualStreamName, sizeof(actualStreamName), pBaseName); + ma_itoa_s((int)ma_atomic_uint32_get(&g_StreamCounter), actualStreamName + baseNameLen, sizeof(actualStreamName)-baseNameLen, 10); + } + ma_atomic_uint32_fetch_add(&g_StreamCounter, 1); + + return ((ma_pa_stream_new_proc)pDevice->pContext->pulse.pa_stream_new)((ma_pa_context*)pDevice->pulse.pPulseContext, actualStreamName, ss, cmap); +} + + +static void ma_device_on_read__pulse(ma_pa_stream* pStream, size_t byteCount, void* pUserData) +{ + ma_device* pDevice = (ma_device*)pUserData; + ma_uint32 bpf; + ma_uint32 deviceState; + ma_uint64 frameCount; + ma_uint64 framesProcessed; + + MA_ASSERT(pDevice != NULL); + + /* + Don't do anything if the device isn't initialized yet. Yes, this can happen because PulseAudio + can fire this callback before the stream has even started. Ridiculous. + */ + deviceState = ma_device_get_state(pDevice); + if (deviceState != ma_device_state_starting && deviceState != ma_device_state_started) { + return; + } + + bpf = ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels); + MA_ASSERT(bpf > 0); + + frameCount = byteCount / bpf; + framesProcessed = 0; + + while (ma_device_get_state(pDevice) == ma_device_state_started && framesProcessed < frameCount) { + const void* pMappedPCMFrames; + size_t bytesMapped; + ma_uint64 framesMapped; + + int pulseResult = ((ma_pa_stream_peek_proc)pDevice->pContext->pulse.pa_stream_peek)(pStream, &pMappedPCMFrames, &bytesMapped); + if (pulseResult < 0) { + break; /* Failed to map. Abort. */ + } + + framesMapped = bytesMapped / bpf; + if (framesMapped > 0) { + if (pMappedPCMFrames != NULL) { + ma_device_handle_backend_data_callback(pDevice, NULL, pMappedPCMFrames, framesMapped); + } else { + /* It's a hole. */ + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[PulseAudio] ma_device_on_read__pulse: Hole.\n"); + } + + pulseResult = ((ma_pa_stream_drop_proc)pDevice->pContext->pulse.pa_stream_drop)(pStream); + if (pulseResult < 0) { + break; /* Failed to drop the buffer. */ + } + + framesProcessed += framesMapped; + + } else { + /* Nothing was mapped. Just abort. */ + break; + } + } +} + +static ma_result ma_device_write_to_stream__pulse(ma_device* pDevice, ma_pa_stream* pStream, ma_uint64* pFramesProcessed) +{ + ma_result result = MA_SUCCESS; + ma_uint64 framesProcessed = 0; + size_t bytesMapped; + ma_uint32 bpf; + ma_uint32 deviceState; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pStream != NULL); + + bpf = ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels); + MA_ASSERT(bpf > 0); + + deviceState = ma_device_get_state(pDevice); + + bytesMapped = ((ma_pa_stream_writable_size_proc)pDevice->pContext->pulse.pa_stream_writable_size)(pStream); + if (bytesMapped != (size_t)-1) { + if (bytesMapped > 0) { + ma_uint64 framesMapped; + void* pMappedPCMFrames; + int pulseResult = ((ma_pa_stream_begin_write_proc)pDevice->pContext->pulse.pa_stream_begin_write)(pStream, &pMappedPCMFrames, &bytesMapped); + if (pulseResult < 0) { + result = ma_result_from_pulse(pulseResult); + goto done; + } + + framesMapped = bytesMapped / bpf; + + if (deviceState == ma_device_state_started || deviceState == ma_device_state_starting) { /* Check for starting state just in case this is being used to do the initial fill. */ + ma_device_handle_backend_data_callback(pDevice, pMappedPCMFrames, NULL, framesMapped); + } else { + /* Device is not started. Write silence. */ + ma_silence_pcm_frames(pMappedPCMFrames, framesMapped, pDevice->playback.format, pDevice->playback.channels); + } + + pulseResult = ((ma_pa_stream_write_proc)pDevice->pContext->pulse.pa_stream_write)(pStream, pMappedPCMFrames, bytesMapped, NULL, 0, MA_PA_SEEK_RELATIVE); + if (pulseResult < 0) { + result = ma_result_from_pulse(pulseResult); + goto done; /* Failed to write data to stream. */ + } + + framesProcessed += framesMapped; + } else { + result = MA_SUCCESS; /* No data available for writing. */ + goto done; + } + } else { + result = MA_ERROR; /* Failed to retrieve the writable size. Abort. */ + goto done; + } + +done: + if (pFramesProcessed != NULL) { + *pFramesProcessed = framesProcessed; + } + + return result; +} + +static void ma_device_on_write__pulse(ma_pa_stream* pStream, size_t byteCount, void* pUserData) +{ + ma_device* pDevice = (ma_device*)pUserData; + ma_uint32 bpf; + ma_uint64 frameCount; + ma_uint64 framesProcessed; + ma_uint32 deviceState; + ma_result result; + + MA_ASSERT(pDevice != NULL); + + /* + Don't do anything if the device isn't initialized yet. Yes, this can happen because PulseAudio + can fire this callback before the stream has even started. Ridiculous. + */ + deviceState = ma_device_get_state(pDevice); + if (deviceState != ma_device_state_starting && deviceState != ma_device_state_started) { + return; + } + + bpf = ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels); + MA_ASSERT(bpf > 0); + + frameCount = byteCount / bpf; + framesProcessed = 0; + + while (framesProcessed < frameCount) { + ma_uint64 framesProcessedThisIteration; + + /* Don't keep trying to process frames if the device isn't started. */ + deviceState = ma_device_get_state(pDevice); + if (deviceState != ma_device_state_starting && deviceState != ma_device_state_started) { + break; + } + + result = ma_device_write_to_stream__pulse(pDevice, pStream, &framesProcessedThisIteration); + if (result != MA_SUCCESS) { + break; + } + + framesProcessed += framesProcessedThisIteration; + } +} + +static void ma_device_on_suspended__pulse(ma_pa_stream* pStream, void* pUserData) +{ + ma_device* pDevice = (ma_device*)pUserData; + int suspended; + + (void)pStream; + + suspended = ((ma_pa_stream_is_suspended_proc)pDevice->pContext->pulse.pa_stream_is_suspended)(pStream); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[Pulse] Device suspended state changed. pa_stream_is_suspended() returned %d.\n", suspended); + + if (suspended < 0) { + return; + } + + if (suspended == 1) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[Pulse] Device suspended state changed. Suspended.\n"); + ma_device__on_notification_stopped(pDevice); + } else { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[Pulse] Device suspended state changed. Resumed.\n"); + ma_device__on_notification_started(pDevice); + } +} + +static void ma_device_on_rerouted__pulse(ma_pa_stream* pStream, void* pUserData) +{ + ma_device* pDevice = (ma_device*)pUserData; + + (void)pStream; + (void)pUserData; + + ma_device__on_notification_rerouted(pDevice); +} + +static ma_uint32 ma_calculate_period_size_in_frames_from_descriptor__pulse(const ma_device_descriptor* pDescriptor, ma_uint32 nativeSampleRate, ma_performance_profile performanceProfile) +{ + /* + There have been reports from users where buffers of < ~20ms result glitches when running through + PipeWire. To work around this we're going to have to use a different default buffer size. + */ + const ma_uint32 defaultPeriodSizeInMilliseconds_LowLatency = 25; + const ma_uint32 defaultPeriodSizeInMilliseconds_Conservative = MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_CONSERVATIVE; + + MA_ASSERT(nativeSampleRate != 0); + + if (pDescriptor->periodSizeInFrames == 0) { + if (pDescriptor->periodSizeInMilliseconds == 0) { + if (performanceProfile == ma_performance_profile_low_latency) { + return ma_calculate_buffer_size_in_frames_from_milliseconds(defaultPeriodSizeInMilliseconds_LowLatency, nativeSampleRate); + } else { + return ma_calculate_buffer_size_in_frames_from_milliseconds(defaultPeriodSizeInMilliseconds_Conservative, nativeSampleRate); + } + } else { + return ma_calculate_buffer_size_in_frames_from_milliseconds(pDescriptor->periodSizeInMilliseconds, nativeSampleRate); + } + } else { + return pDescriptor->periodSizeInFrames; + } +} + +static ma_result ma_device_init__pulse(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + /* + Notes for PulseAudio: + + - When both the period size in frames and milliseconds are 0, we default to miniaudio's + default buffer sizes rather than leaving it up to PulseAudio because I don't trust + PulseAudio to give us any kind of reasonable latency by default. + + - Do not ever, *ever* forget to use MA_PA_STREAM_ADJUST_LATENCY. If you don't specify this + flag, capture mode will just not work properly until you open another PulseAudio app. + */ + + ma_result result = MA_SUCCESS; + int error = 0; + const char* devPlayback = NULL; + const char* devCapture = NULL; + ma_format format = ma_format_unknown; + ma_uint32 channels = 0; + ma_uint32 sampleRate = 0; + ma_pa_sink_info sinkInfo; + ma_pa_source_info sourceInfo; + ma_pa_sample_spec ss; + ma_pa_channel_map cmap; + ma_pa_buffer_attr attr; + const ma_pa_sample_spec* pActualSS = NULL; + const ma_pa_buffer_attr* pActualAttr = NULL; + const ma_pa_channel_map* pActualChannelMap = NULL; + ma_uint32 iChannel; + int streamFlags; + + MA_ASSERT(pDevice != NULL); + MA_ZERO_OBJECT(&pDevice->pulse); + + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + /* No exclusive mode with the PulseAudio backend. */ + if (((pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) && pConfig->playback.shareMode == ma_share_mode_exclusive) || + ((pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) && pConfig->capture.shareMode == ma_share_mode_exclusive)) { + return MA_SHARE_MODE_NOT_SUPPORTED; + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + if (pDescriptorPlayback->pDeviceID != NULL) { + devPlayback = pDescriptorPlayback->pDeviceID->pulse; + } + + format = pDescriptorPlayback->format; + channels = pDescriptorPlayback->channels; + sampleRate = pDescriptorPlayback->sampleRate; + } + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + if (pDescriptorCapture->pDeviceID != NULL) { + devCapture = pDescriptorCapture->pDeviceID->pulse; + } + + format = pDescriptorCapture->format; + channels = pDescriptorCapture->channels; + sampleRate = pDescriptorCapture->sampleRate; + } + + + + result = ma_init_pa_mainloop_and_pa_context__pulse(pDevice->pContext, pDevice->pContext->pulse.pApplicationName, pDevice->pContext->pulse.pServerName, MA_FALSE, &pDevice->pulse.pMainLoop, &pDevice->pulse.pPulseContext); + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to initialize PA mainloop and context for device.\n"); + return result; + } + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + result = ma_context_get_source_info__pulse(pDevice->pContext, devCapture, &sourceInfo); + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to retrieve source info for capture device."); + goto on_error0; + } + + ss = sourceInfo.sample_spec; + cmap = sourceInfo.channel_map; + + /* Use the requested channel count if we have one. */ + if (pDescriptorCapture->channels != 0) { + ss.channels = pDescriptorCapture->channels; + } + + /* PulseAudio has a maximum channel count of 32. We'll get a crash if this is exceeded. */ + if (ss.channels > 32) { + ss.channels = 32; + } + + /* Use a default channel map. */ + ((ma_pa_channel_map_init_extend_proc)pDevice->pContext->pulse.pa_channel_map_init_extend)(&cmap, ss.channels, (ma_pa_channel_map_def_t)pConfig->pulse.channelMap); + + /* Use the requested sample rate if one was specified. */ + if (pDescriptorCapture->sampleRate != 0) { + ss.rate = pDescriptorCapture->sampleRate; + } + streamFlags = MA_PA_STREAM_START_CORKED | MA_PA_STREAM_ADJUST_LATENCY; + + if (ma_format_from_pulse(ss.format) == ma_format_unknown) { + if (ma_is_little_endian()) { + ss.format = MA_PA_SAMPLE_FLOAT32LE; + } else { + ss.format = MA_PA_SAMPLE_FLOAT32BE; + } + streamFlags |= MA_PA_STREAM_FIX_FORMAT; + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] sample_spec.format not supported by miniaudio. Defaulting to PA_SAMPLE_FLOAT32.\n"); + } + if (ss.rate == 0) { + ss.rate = MA_DEFAULT_SAMPLE_RATE; + streamFlags |= MA_PA_STREAM_FIX_RATE; + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] sample_spec.rate = 0. Defaulting to %d.\n", ss.rate); + } + if (ss.channels == 0) { + ss.channels = MA_DEFAULT_CHANNELS; + streamFlags |= MA_PA_STREAM_FIX_CHANNELS; + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] sample_spec.channels = 0. Defaulting to %d.\n", ss.channels); + } + + /* We now have enough information to calculate our actual period size in frames. */ + pDescriptorCapture->periodSizeInFrames = ma_calculate_period_size_in_frames_from_descriptor__pulse(pDescriptorCapture, ss.rate, pConfig->performanceProfile); + + attr = ma_device__pa_buffer_attr_new(pDescriptorCapture->periodSizeInFrames, pDescriptorCapture->periodCount, &ss); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] Capture attr: maxlength=%d, tlength=%d, prebuf=%d, minreq=%d, fragsize=%d; periodSizeInFrames=%d\n", attr.maxlength, attr.tlength, attr.prebuf, attr.minreq, attr.fragsize, pDescriptorCapture->periodSizeInFrames); + + pDevice->pulse.pStreamCapture = ma_device__pa_stream_new__pulse(pDevice, pConfig->pulse.pStreamNameCapture, &ss, &cmap); + if (pDevice->pulse.pStreamCapture == NULL) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to create PulseAudio capture stream.\n"); + result = MA_ERROR; + goto on_error0; + } + + + /* The callback needs to be set before connecting the stream. */ + ((ma_pa_stream_set_read_callback_proc)pDevice->pContext->pulse.pa_stream_set_read_callback)((ma_pa_stream*)pDevice->pulse.pStreamCapture, ma_device_on_read__pulse, pDevice); + + /* State callback for checking when the device has been corked. */ + ((ma_pa_stream_set_suspended_callback_proc)pDevice->pContext->pulse.pa_stream_set_suspended_callback)((ma_pa_stream*)pDevice->pulse.pStreamCapture, ma_device_on_suspended__pulse, pDevice); + + /* Rerouting notification. */ + ((ma_pa_stream_set_moved_callback_proc)pDevice->pContext->pulse.pa_stream_set_moved_callback)((ma_pa_stream*)pDevice->pulse.pStreamCapture, ma_device_on_rerouted__pulse, pDevice); + + + /* Connect after we've got all of our internal state set up. */ + if (devCapture != NULL) { + streamFlags |= MA_PA_STREAM_DONT_MOVE; + } + + error = ((ma_pa_stream_connect_record_proc)pDevice->pContext->pulse.pa_stream_connect_record)((ma_pa_stream*)pDevice->pulse.pStreamCapture, devCapture, &attr, (ma_pa_stream_flags_t)streamFlags); + if (error != MA_PA_OK) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to connect PulseAudio capture stream."); + result = ma_result_from_pulse(error); + goto on_error1; + } + + result = ma_wait_for_pa_stream_to_connect__pulse(pDevice->pContext, pDevice->pulse.pMainLoop, (ma_pa_stream*)pDevice->pulse.pStreamCapture); + if (result != MA_SUCCESS) { + goto on_error2; + } + + + /* Internal format. */ + pActualSS = ((ma_pa_stream_get_sample_spec_proc)pDevice->pContext->pulse.pa_stream_get_sample_spec)((ma_pa_stream*)pDevice->pulse.pStreamCapture); + if (pActualSS != NULL) { + ss = *pActualSS; + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] Capture sample spec: format=%s, channels=%d, rate=%d\n", ma_get_format_name(ma_format_from_pulse(ss.format)), ss.channels, ss.rate); + } else { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] Failed to retrieve capture sample spec.\n"); + } + + pDescriptorCapture->format = ma_format_from_pulse(ss.format); + pDescriptorCapture->channels = ss.channels; + pDescriptorCapture->sampleRate = ss.rate; + + if (pDescriptorCapture->format == ma_format_unknown || pDescriptorCapture->channels == 0 || pDescriptorCapture->sampleRate == 0) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Capture sample spec is invalid. Device unusable by miniaudio. format=%s, channels=%d, sampleRate=%d.\n", ma_get_format_name(pDescriptorCapture->format), pDescriptorCapture->channels, pDescriptorCapture->sampleRate); + result = MA_ERROR; + goto on_error4; + } + + + /* Internal channel map. */ + pActualChannelMap = ((ma_pa_stream_get_channel_map_proc)pDevice->pContext->pulse.pa_stream_get_channel_map)((ma_pa_stream*)pDevice->pulse.pStreamCapture); + if (pActualChannelMap == NULL) { + pActualChannelMap = &cmap; /* Fallback just in case. */ + } + + /* + Bug in PipeWire. There have been reports that PipeWire is returning AUX channels when reporting + the channel map. To somewhat workaround this, I'm hacking in a hard coded channel map for mono + and stereo. In this case it should be safe to assume mono = MONO and stereo = LEFT/RIGHT. For + all other channel counts we need to just put up with whatever PipeWire reports and hope it gets + fixed sooner than later. I might remove this hack later. + */ + if (pDescriptorCapture->channels > 2) { + for (iChannel = 0; iChannel < pDescriptorCapture->channels; iChannel += 1) { + pDescriptorCapture->channelMap[iChannel] = ma_channel_position_from_pulse(pActualChannelMap->map[iChannel]); + } + } else { + /* Hack for mono and stereo. */ + if (pDescriptorCapture->channels == 1) { + pDescriptorCapture->channelMap[0] = MA_CHANNEL_MONO; + } else if (pDescriptorCapture->channels == 2) { + pDescriptorCapture->channelMap[0] = MA_CHANNEL_FRONT_LEFT; + pDescriptorCapture->channelMap[1] = MA_CHANNEL_FRONT_RIGHT; + } else { + MA_ASSERT(MA_FALSE); /* Should never hit this. */ + } + } + + + /* Buffer. */ + pActualAttr = ((ma_pa_stream_get_buffer_attr_proc)pDevice->pContext->pulse.pa_stream_get_buffer_attr)((ma_pa_stream*)pDevice->pulse.pStreamCapture); + if (pActualAttr != NULL) { + attr = *pActualAttr; + } + + if (attr.fragsize > 0) { + pDescriptorCapture->periodCount = ma_max(attr.maxlength / attr.fragsize, 1); + } else { + pDescriptorCapture->periodCount = 1; + } + + pDescriptorCapture->periodSizeInFrames = attr.maxlength / ma_get_bytes_per_frame(pDescriptorCapture->format, pDescriptorCapture->channels) / pDescriptorCapture->periodCount; + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] Capture actual attr: maxlength=%d, tlength=%d, prebuf=%d, minreq=%d, fragsize=%d; periodSizeInFrames=%d\n", attr.maxlength, attr.tlength, attr.prebuf, attr.minreq, attr.fragsize, pDescriptorCapture->periodSizeInFrames); + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + result = ma_context_get_sink_info__pulse(pDevice->pContext, devPlayback, &sinkInfo); + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to retrieve sink info for playback device.\n"); + goto on_error2; + } + + ss = sinkInfo.sample_spec; + cmap = sinkInfo.channel_map; + + /* Use the requested channel count if we have one. */ + if (pDescriptorPlayback->channels != 0) { + ss.channels = pDescriptorPlayback->channels; + } + + /* PulseAudio has a maximum channel count of 32. We'll get a crash if this is exceeded. */ + if (ss.channels > 32) { + ss.channels = 32; + } + + /* Use a default channel map. */ + ((ma_pa_channel_map_init_extend_proc)pDevice->pContext->pulse.pa_channel_map_init_extend)(&cmap, ss.channels, (ma_pa_channel_map_def_t)pConfig->pulse.channelMap); + + + /* Use the requested sample rate if one was specified. */ + if (pDescriptorPlayback->sampleRate != 0) { + ss.rate = pDescriptorPlayback->sampleRate; + } + + streamFlags = MA_PA_STREAM_START_CORKED | MA_PA_STREAM_ADJUST_LATENCY; + if (ma_format_from_pulse(ss.format) == ma_format_unknown) { + if (ma_is_little_endian()) { + ss.format = MA_PA_SAMPLE_FLOAT32LE; + } else { + ss.format = MA_PA_SAMPLE_FLOAT32BE; + } + streamFlags |= MA_PA_STREAM_FIX_FORMAT; + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] sample_spec.format not supported by miniaudio. Defaulting to PA_SAMPLE_FLOAT32.\n"); + } + if (ss.rate == 0) { + ss.rate = MA_DEFAULT_SAMPLE_RATE; + streamFlags |= MA_PA_STREAM_FIX_RATE; + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] sample_spec.rate = 0. Defaulting to %d.\n", ss.rate); + } + if (ss.channels == 0) { + ss.channels = MA_DEFAULT_CHANNELS; + streamFlags |= MA_PA_STREAM_FIX_CHANNELS; + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] sample_spec.channels = 0. Defaulting to %d.\n", ss.channels); + } + + /* We now have enough information to calculate the actual buffer size in frames. */ + pDescriptorPlayback->periodSizeInFrames = ma_calculate_period_size_in_frames_from_descriptor__pulse(pDescriptorPlayback, ss.rate, pConfig->performanceProfile); + + attr = ma_device__pa_buffer_attr_new(pDescriptorPlayback->periodSizeInFrames, pDescriptorPlayback->periodCount, &ss); + + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] Playback attr: maxlength=%d, tlength=%d, prebuf=%d, minreq=%d, fragsize=%d; periodSizeInFrames=%d\n", attr.maxlength, attr.tlength, attr.prebuf, attr.minreq, attr.fragsize, pDescriptorPlayback->periodSizeInFrames); + + pDevice->pulse.pStreamPlayback = ma_device__pa_stream_new__pulse(pDevice, pConfig->pulse.pStreamNamePlayback, &ss, &cmap); + if (pDevice->pulse.pStreamPlayback == NULL) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to create PulseAudio playback stream.\n"); + result = MA_ERROR; + goto on_error2; + } + + + /* + Note that this callback will be fired as soon as the stream is connected, even though it's started as corked. The callback needs to handle a + device state of ma_device_state_uninitialized. + */ + ((ma_pa_stream_set_write_callback_proc)pDevice->pContext->pulse.pa_stream_set_write_callback)((ma_pa_stream*)pDevice->pulse.pStreamPlayback, ma_device_on_write__pulse, pDevice); + + /* State callback for checking when the device has been corked. */ + ((ma_pa_stream_set_suspended_callback_proc)pDevice->pContext->pulse.pa_stream_set_suspended_callback)((ma_pa_stream*)pDevice->pulse.pStreamPlayback, ma_device_on_suspended__pulse, pDevice); + + /* Rerouting notification. */ + ((ma_pa_stream_set_moved_callback_proc)pDevice->pContext->pulse.pa_stream_set_moved_callback)((ma_pa_stream*)pDevice->pulse.pStreamPlayback, ma_device_on_rerouted__pulse, pDevice); + + + /* Connect after we've got all of our internal state set up. */ + if (devPlayback != NULL) { + streamFlags |= MA_PA_STREAM_DONT_MOVE; + } + + error = ((ma_pa_stream_connect_playback_proc)pDevice->pContext->pulse.pa_stream_connect_playback)((ma_pa_stream*)pDevice->pulse.pStreamPlayback, devPlayback, &attr, (ma_pa_stream_flags_t)streamFlags, NULL, NULL); + if (error != MA_PA_OK) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to connect PulseAudio playback stream."); + result = ma_result_from_pulse(error); + goto on_error3; + } + + result = ma_wait_for_pa_stream_to_connect__pulse(pDevice->pContext, pDevice->pulse.pMainLoop, (ma_pa_stream*)pDevice->pulse.pStreamPlayback); + if (result != MA_SUCCESS) { + goto on_error3; + } + + + /* Internal format. */ + pActualSS = ((ma_pa_stream_get_sample_spec_proc)pDevice->pContext->pulse.pa_stream_get_sample_spec)((ma_pa_stream*)pDevice->pulse.pStreamPlayback); + if (pActualSS != NULL) { + ss = *pActualSS; + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] Playback sample spec: format=%s, channels=%d, rate=%d\n", ma_get_format_name(ma_format_from_pulse(ss.format)), ss.channels, ss.rate); + } else { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] Failed to retrieve playback sample spec.\n"); + } + + pDescriptorPlayback->format = ma_format_from_pulse(ss.format); + pDescriptorPlayback->channels = ss.channels; + pDescriptorPlayback->sampleRate = ss.rate; + + if (pDescriptorPlayback->format == ma_format_unknown || pDescriptorPlayback->channels == 0 || pDescriptorPlayback->sampleRate == 0) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Playback sample spec is invalid. Device unusable by miniaudio. format=%s, channels=%d, sampleRate=%d.\n", ma_get_format_name(pDescriptorPlayback->format), pDescriptorPlayback->channels, pDescriptorPlayback->sampleRate); + result = MA_ERROR; + goto on_error4; + } + + + /* Internal channel map. */ + pActualChannelMap = ((ma_pa_stream_get_channel_map_proc)pDevice->pContext->pulse.pa_stream_get_channel_map)((ma_pa_stream*)pDevice->pulse.pStreamPlayback); + if (pActualChannelMap == NULL) { + pActualChannelMap = &cmap; /* Fallback just in case. */ + } + + /* + Bug in PipeWire. There have been reports that PipeWire is returning AUX channels when reporting + the channel map. To somewhat workaround this, I'm hacking in a hard coded channel map for mono + and stereo. In this case it should be safe to assume mono = MONO and stereo = LEFT/RIGHT. For + all other channel counts we need to just put up with whatever PipeWire reports and hope it gets + fixed sooner than later. I might remove this hack later. + */ + if (pDescriptorPlayback->channels > 2) { + for (iChannel = 0; iChannel < pDescriptorPlayback->channels; iChannel += 1) { + pDescriptorPlayback->channelMap[iChannel] = ma_channel_position_from_pulse(pActualChannelMap->map[iChannel]); + } + } else { + /* Hack for mono and stereo. */ + if (pDescriptorPlayback->channels == 1) { + pDescriptorPlayback->channelMap[0] = MA_CHANNEL_MONO; + } else if (pDescriptorPlayback->channels == 2) { + pDescriptorPlayback->channelMap[0] = MA_CHANNEL_FRONT_LEFT; + pDescriptorPlayback->channelMap[1] = MA_CHANNEL_FRONT_RIGHT; + } else { + MA_ASSERT(MA_FALSE); /* Should never hit this. */ + } + } + + + /* Buffer. */ + pActualAttr = ((ma_pa_stream_get_buffer_attr_proc)pDevice->pContext->pulse.pa_stream_get_buffer_attr)((ma_pa_stream*)pDevice->pulse.pStreamPlayback); + if (pActualAttr != NULL) { + attr = *pActualAttr; + } + + if (attr.tlength > 0) { + pDescriptorPlayback->periodCount = ma_max(attr.maxlength / attr.tlength, 1); + } else { + pDescriptorPlayback->periodCount = 1; + } + + pDescriptorPlayback->periodSizeInFrames = attr.maxlength / ma_get_bytes_per_frame(pDescriptorPlayback->format, pDescriptorPlayback->channels) / pDescriptorPlayback->periodCount; + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[PulseAudio] Playback actual attr: maxlength=%d, tlength=%d, prebuf=%d, minreq=%d, fragsize=%d; internalPeriodSizeInFrames=%d\n", attr.maxlength, attr.tlength, attr.prebuf, attr.minreq, attr.fragsize, pDescriptorPlayback->periodSizeInFrames); + } + + + /* + We need a ring buffer for handling duplex mode. We can use the main duplex ring buffer in the main + part of the ma_device struct. We cannot, however, depend on ma_device_init() initializing this for + us later on because that will only do it if it's a fully asynchronous backend - i.e. the + onDeviceDataLoop callback is NULL, which is not the case for PulseAudio. + */ + if (pConfig->deviceType == ma_device_type_duplex) { + ma_format rbFormat = (format != ma_format_unknown) ? format : pDescriptorCapture->format; + ma_uint32 rbChannels = (channels > 0) ? channels : pDescriptorCapture->channels; + ma_uint32 rbSampleRate = (sampleRate > 0) ? sampleRate : pDescriptorCapture->sampleRate; + + result = ma_duplex_rb_init(rbFormat, rbChannels, rbSampleRate, pDescriptorCapture->sampleRate, pDescriptorCapture->periodSizeInFrames, &pDevice->pContext->allocationCallbacks, &pDevice->duplexRB); + if (result != MA_SUCCESS) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to initialize ring buffer. %s.\n", ma_result_description(result)); + goto on_error4; + } + } + + return MA_SUCCESS; + + +on_error4: + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ((ma_pa_stream_disconnect_proc)pDevice->pContext->pulse.pa_stream_disconnect)((ma_pa_stream*)pDevice->pulse.pStreamPlayback); + } +on_error3: + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ((ma_pa_stream_unref_proc)pDevice->pContext->pulse.pa_stream_unref)((ma_pa_stream*)pDevice->pulse.pStreamPlayback); + } +on_error2: + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + ((ma_pa_stream_disconnect_proc)pDevice->pContext->pulse.pa_stream_disconnect)((ma_pa_stream*)pDevice->pulse.pStreamCapture); + } +on_error1: + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + ((ma_pa_stream_unref_proc)pDevice->pContext->pulse.pa_stream_unref)((ma_pa_stream*)pDevice->pulse.pStreamCapture); + } +on_error0: + return result; +} + + +static void ma_pulse_operation_complete_callback(ma_pa_stream* pStream, int success, void* pUserData) +{ + ma_bool32* pIsSuccessful = (ma_bool32*)pUserData; + MA_ASSERT(pIsSuccessful != NULL); + + *pIsSuccessful = (ma_bool32)success; + + (void)pStream; /* Unused. */ +} + +static ma_result ma_device__cork_stream__pulse(ma_device* pDevice, ma_device_type deviceType, int cork) +{ + ma_context* pContext = pDevice->pContext; + ma_bool32 wasSuccessful; + ma_pa_stream* pStream; + ma_pa_operation* pOP; + ma_result result; + + /* This should not be called with a duplex device type. */ + if (deviceType == ma_device_type_duplex) { + return MA_INVALID_ARGS; + } + + wasSuccessful = MA_FALSE; + + pStream = (ma_pa_stream*)((deviceType == ma_device_type_capture) ? pDevice->pulse.pStreamCapture : pDevice->pulse.pStreamPlayback); + MA_ASSERT(pStream != NULL); + + pOP = ((ma_pa_stream_cork_proc)pContext->pulse.pa_stream_cork)(pStream, cork, ma_pulse_operation_complete_callback, &wasSuccessful); + if (pOP == NULL) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to cork PulseAudio stream."); + return MA_ERROR; + } + + result = ma_wait_for_operation_and_unref__pulse(pDevice->pContext, pDevice->pulse.pMainLoop, pOP); + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] An error occurred while waiting for the PulseAudio stream to cork."); + return result; + } + + if (!wasSuccessful) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[PulseAudio] Failed to %s PulseAudio stream.", (cork) ? "stop" : "start"); + return MA_ERROR; + } + + return MA_SUCCESS; +} + +static ma_result ma_device_start__pulse(ma_device* pDevice) +{ + ma_result result; + + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + result = ma_device__cork_stream__pulse(pDevice, ma_device_type_capture, 0); + if (result != MA_SUCCESS) { + return result; + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + /* + We need to fill some data before uncorking. Not doing this will result in the write callback + never getting fired. We're not going to abort if writing fails because I still want the device + to get uncorked. + */ + ma_device_write_to_stream__pulse(pDevice, (ma_pa_stream*)(pDevice->pulse.pStreamPlayback), NULL); /* No need to check the result here. Always want to fall through an uncork.*/ + + result = ma_device__cork_stream__pulse(pDevice, ma_device_type_playback, 0); + if (result != MA_SUCCESS) { + return result; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__pulse(ma_device* pDevice) +{ + ma_result result; + + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + result = ma_device__cork_stream__pulse(pDevice, ma_device_type_capture, 1); + if (result != MA_SUCCESS) { + return result; + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + /* + Ideally we would drain the device here, but there's been cases where PulseAudio seems to be + broken on some systems to the point where no audio processing seems to happen. When this + happens, draining never completes and we get stuck here. For now I'm disabling draining of + the device so we don't just freeze the application. + */ + #if 0 + ma_pa_operation* pOP = ((ma_pa_stream_drain_proc)pDevice->pContext->pulse.pa_stream_drain)((ma_pa_stream*)pDevice->pulse.pStreamPlayback, ma_pulse_operation_complete_callback, &wasSuccessful); + ma_wait_for_operation_and_unref__pulse(pDevice->pContext, pDevice->pulse.pMainLoop, pOP); + #endif + + result = ma_device__cork_stream__pulse(pDevice, ma_device_type_playback, 1); + if (result != MA_SUCCESS) { + return result; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_data_loop__pulse(ma_device* pDevice) +{ + int resultPA; + + MA_ASSERT(pDevice != NULL); + + /* NOTE: Don't start the device here. It'll be done at a higher level. */ + + /* + All data is handled through callbacks. All we need to do is iterate over the main loop and let + the callbacks deal with it. + */ + while (ma_device_get_state(pDevice) == ma_device_state_started) { + resultPA = ((ma_pa_mainloop_iterate_proc)pDevice->pContext->pulse.pa_mainloop_iterate)((ma_pa_mainloop*)pDevice->pulse.pMainLoop, 1, NULL); + if (resultPA < 0) { + break; + } + } + + /* NOTE: Don't stop the device here. It'll be done at a higher level. */ + return MA_SUCCESS; +} + +static ma_result ma_device_data_loop_wakeup__pulse(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + ((ma_pa_mainloop_wakeup_proc)pDevice->pContext->pulse.pa_mainloop_wakeup)((ma_pa_mainloop*)pDevice->pulse.pMainLoop); + + return MA_SUCCESS; +} + +static ma_result ma_context_uninit__pulse(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_pulseaudio); + + ((ma_pa_context_disconnect_proc)pContext->pulse.pa_context_disconnect)((ma_pa_context*)pContext->pulse.pPulseContext); + ((ma_pa_context_unref_proc)pContext->pulse.pa_context_unref)((ma_pa_context*)pContext->pulse.pPulseContext); + ((ma_pa_mainloop_free_proc)pContext->pulse.pa_mainloop_free)((ma_pa_mainloop*)pContext->pulse.pMainLoop); + + ma_free(pContext->pulse.pServerName, &pContext->allocationCallbacks); + ma_free(pContext->pulse.pApplicationName, &pContext->allocationCallbacks); + +#ifndef MA_NO_RUNTIME_LINKING + ma_dlclose(ma_context_get_log(pContext), pContext->pulse.pulseSO); +#endif + + return MA_SUCCESS; +} + +static ma_result ma_context_init__pulse(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ + ma_result result; +#ifndef MA_NO_RUNTIME_LINKING + const char* libpulseNames[] = { + "libpulse.so", + "libpulse.so.0" + }; + size_t i; + + for (i = 0; i < ma_countof(libpulseNames); ++i) { + pContext->pulse.pulseSO = ma_dlopen(ma_context_get_log(pContext), libpulseNames[i]); + if (pContext->pulse.pulseSO != NULL) { + break; + } + } + + if (pContext->pulse.pulseSO == NULL) { + return MA_NO_BACKEND; + } + + pContext->pulse.pa_mainloop_new = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_mainloop_new"); + pContext->pulse.pa_mainloop_free = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_mainloop_free"); + pContext->pulse.pa_mainloop_quit = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_mainloop_quit"); + pContext->pulse.pa_mainloop_get_api = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_mainloop_get_api"); + pContext->pulse.pa_mainloop_iterate = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_mainloop_iterate"); + pContext->pulse.pa_mainloop_wakeup = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_mainloop_wakeup"); + pContext->pulse.pa_threaded_mainloop_new = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_new"); + pContext->pulse.pa_threaded_mainloop_free = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_free"); + pContext->pulse.pa_threaded_mainloop_start = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_start"); + pContext->pulse.pa_threaded_mainloop_stop = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_stop"); + pContext->pulse.pa_threaded_mainloop_lock = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_lock"); + pContext->pulse.pa_threaded_mainloop_unlock = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_unlock"); + pContext->pulse.pa_threaded_mainloop_wait = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_wait"); + pContext->pulse.pa_threaded_mainloop_signal = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_signal"); + pContext->pulse.pa_threaded_mainloop_accept = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_accept"); + pContext->pulse.pa_threaded_mainloop_get_retval = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_get_retval"); + pContext->pulse.pa_threaded_mainloop_get_api = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_get_api"); + pContext->pulse.pa_threaded_mainloop_in_thread = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_in_thread"); + pContext->pulse.pa_threaded_mainloop_set_name = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_threaded_mainloop_set_name"); + pContext->pulse.pa_context_new = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_context_new"); + pContext->pulse.pa_context_unref = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_context_unref"); + pContext->pulse.pa_context_connect = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_context_connect"); + pContext->pulse.pa_context_disconnect = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_context_disconnect"); + pContext->pulse.pa_context_set_state_callback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_context_set_state_callback"); + pContext->pulse.pa_context_get_state = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_context_get_state"); + pContext->pulse.pa_context_get_sink_info_list = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_context_get_sink_info_list"); + pContext->pulse.pa_context_get_source_info_list = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_context_get_source_info_list"); + pContext->pulse.pa_context_get_sink_info_by_name = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_context_get_sink_info_by_name"); + pContext->pulse.pa_context_get_source_info_by_name = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_context_get_source_info_by_name"); + pContext->pulse.pa_operation_unref = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_operation_unref"); + pContext->pulse.pa_operation_get_state = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_operation_get_state"); + pContext->pulse.pa_channel_map_init_extend = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_channel_map_init_extend"); + pContext->pulse.pa_channel_map_valid = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_channel_map_valid"); + pContext->pulse.pa_channel_map_compatible = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_channel_map_compatible"); + pContext->pulse.pa_stream_new = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_new"); + pContext->pulse.pa_stream_unref = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_unref"); + pContext->pulse.pa_stream_connect_playback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_connect_playback"); + pContext->pulse.pa_stream_connect_record = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_connect_record"); + pContext->pulse.pa_stream_disconnect = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_disconnect"); + pContext->pulse.pa_stream_get_state = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_get_state"); + pContext->pulse.pa_stream_get_sample_spec = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_get_sample_spec"); + pContext->pulse.pa_stream_get_channel_map = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_get_channel_map"); + pContext->pulse.pa_stream_get_buffer_attr = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_get_buffer_attr"); + pContext->pulse.pa_stream_set_buffer_attr = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_set_buffer_attr"); + pContext->pulse.pa_stream_get_device_name = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_get_device_name"); + pContext->pulse.pa_stream_set_write_callback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_set_write_callback"); + pContext->pulse.pa_stream_set_read_callback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_set_read_callback"); + pContext->pulse.pa_stream_set_suspended_callback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_set_suspended_callback"); + pContext->pulse.pa_stream_set_moved_callback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_set_moved_callback"); + pContext->pulse.pa_stream_is_suspended = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_is_suspended"); + pContext->pulse.pa_stream_flush = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_flush"); + pContext->pulse.pa_stream_drain = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_drain"); + pContext->pulse.pa_stream_is_corked = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_is_corked"); + pContext->pulse.pa_stream_cork = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_cork"); + pContext->pulse.pa_stream_trigger = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_trigger"); + pContext->pulse.pa_stream_begin_write = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_begin_write"); + pContext->pulse.pa_stream_write = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_write"); + pContext->pulse.pa_stream_peek = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_peek"); + pContext->pulse.pa_stream_drop = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_drop"); + pContext->pulse.pa_stream_writable_size = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_writable_size"); + pContext->pulse.pa_stream_readable_size = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->pulse.pulseSO, "pa_stream_readable_size"); +#else + /* This strange assignment system is just for type safety. */ + ma_pa_mainloop_new_proc _pa_mainloop_new = pa_mainloop_new; + ma_pa_mainloop_free_proc _pa_mainloop_free = pa_mainloop_free; + ma_pa_mainloop_quit_proc _pa_mainloop_quit = pa_mainloop_quit; + ma_pa_mainloop_get_api_proc _pa_mainloop_get_api = pa_mainloop_get_api; + ma_pa_mainloop_iterate_proc _pa_mainloop_iterate = pa_mainloop_iterate; + ma_pa_mainloop_wakeup_proc _pa_mainloop_wakeup = pa_mainloop_wakeup; + ma_pa_threaded_mainloop_new_proc _pa_threaded_mainloop_new = pa_threaded_mainloop_new; + ma_pa_threaded_mainloop_free_proc _pa_threaded_mainloop_free = pa_threaded_mainloop_free; + ma_pa_threaded_mainloop_start_proc _pa_threaded_mainloop_start = pa_threaded_mainloop_start; + ma_pa_threaded_mainloop_stop_proc _pa_threaded_mainloop_stop = pa_threaded_mainloop_stop; + ma_pa_threaded_mainloop_lock_proc _pa_threaded_mainloop_lock = pa_threaded_mainloop_lock; + ma_pa_threaded_mainloop_unlock_proc _pa_threaded_mainloop_unlock = pa_threaded_mainloop_unlock; + ma_pa_threaded_mainloop_wait_proc _pa_threaded_mainloop_wait = pa_threaded_mainloop_wait; + ma_pa_threaded_mainloop_signal_proc _pa_threaded_mainloop_signal = pa_threaded_mainloop_signal; + ma_pa_threaded_mainloop_accept_proc _pa_threaded_mainloop_accept = pa_threaded_mainloop_accept; + ma_pa_threaded_mainloop_get_retval_proc _pa_threaded_mainloop_get_retval = pa_threaded_mainloop_get_retval; + ma_pa_threaded_mainloop_get_api_proc _pa_threaded_mainloop_get_api = pa_threaded_mainloop_get_api; + ma_pa_threaded_mainloop_in_thread_proc _pa_threaded_mainloop_in_thread = pa_threaded_mainloop_in_thread; + ma_pa_threaded_mainloop_set_name_proc _pa_threaded_mainloop_set_name = pa_threaded_mainloop_set_name; + ma_pa_context_new_proc _pa_context_new = pa_context_new; + ma_pa_context_unref_proc _pa_context_unref = pa_context_unref; + ma_pa_context_connect_proc _pa_context_connect = pa_context_connect; + ma_pa_context_disconnect_proc _pa_context_disconnect = pa_context_disconnect; + ma_pa_context_set_state_callback_proc _pa_context_set_state_callback = pa_context_set_state_callback; + ma_pa_context_get_state_proc _pa_context_get_state = pa_context_get_state; + ma_pa_context_get_sink_info_list_proc _pa_context_get_sink_info_list = pa_context_get_sink_info_list; + ma_pa_context_get_source_info_list_proc _pa_context_get_source_info_list = pa_context_get_source_info_list; + ma_pa_context_get_sink_info_by_name_proc _pa_context_get_sink_info_by_name = pa_context_get_sink_info_by_name; + ma_pa_context_get_source_info_by_name_proc _pa_context_get_source_info_by_name= pa_context_get_source_info_by_name; + ma_pa_operation_unref_proc _pa_operation_unref = pa_operation_unref; + ma_pa_operation_get_state_proc _pa_operation_get_state = pa_operation_get_state; + ma_pa_channel_map_init_extend_proc _pa_channel_map_init_extend = pa_channel_map_init_extend; + ma_pa_channel_map_valid_proc _pa_channel_map_valid = pa_channel_map_valid; + ma_pa_channel_map_compatible_proc _pa_channel_map_compatible = pa_channel_map_compatible; + ma_pa_stream_new_proc _pa_stream_new = pa_stream_new; + ma_pa_stream_unref_proc _pa_stream_unref = pa_stream_unref; + ma_pa_stream_connect_playback_proc _pa_stream_connect_playback = pa_stream_connect_playback; + ma_pa_stream_connect_record_proc _pa_stream_connect_record = pa_stream_connect_record; + ma_pa_stream_disconnect_proc _pa_stream_disconnect = pa_stream_disconnect; + ma_pa_stream_get_state_proc _pa_stream_get_state = pa_stream_get_state; + ma_pa_stream_get_sample_spec_proc _pa_stream_get_sample_spec = pa_stream_get_sample_spec; + ma_pa_stream_get_channel_map_proc _pa_stream_get_channel_map = pa_stream_get_channel_map; + ma_pa_stream_get_buffer_attr_proc _pa_stream_get_buffer_attr = pa_stream_get_buffer_attr; + ma_pa_stream_set_buffer_attr_proc _pa_stream_set_buffer_attr = pa_stream_set_buffer_attr; + ma_pa_stream_get_device_name_proc _pa_stream_get_device_name = pa_stream_get_device_name; + ma_pa_stream_set_write_callback_proc _pa_stream_set_write_callback = pa_stream_set_write_callback; + ma_pa_stream_set_read_callback_proc _pa_stream_set_read_callback = pa_stream_set_read_callback; + ma_pa_stream_set_suspended_callback_proc _pa_stream_set_suspended_callback = pa_stream_set_suspended_callback; + ma_pa_stream_set_moved_callback_proc _pa_stream_set_moved_callback = pa_stream_set_moved_callback; + ma_pa_stream_is_suspended_proc _pa_stream_is_suspended = pa_stream_is_suspended; + ma_pa_stream_flush_proc _pa_stream_flush = pa_stream_flush; + ma_pa_stream_drain_proc _pa_stream_drain = pa_stream_drain; + ma_pa_stream_is_corked_proc _pa_stream_is_corked = pa_stream_is_corked; + ma_pa_stream_cork_proc _pa_stream_cork = pa_stream_cork; + ma_pa_stream_trigger_proc _pa_stream_trigger = pa_stream_trigger; + ma_pa_stream_begin_write_proc _pa_stream_begin_write = pa_stream_begin_write; + ma_pa_stream_write_proc _pa_stream_write = pa_stream_write; + ma_pa_stream_peek_proc _pa_stream_peek = pa_stream_peek; + ma_pa_stream_drop_proc _pa_stream_drop = pa_stream_drop; + ma_pa_stream_writable_size_proc _pa_stream_writable_size = pa_stream_writable_size; + ma_pa_stream_readable_size_proc _pa_stream_readable_size = pa_stream_readable_size; + + pContext->pulse.pa_mainloop_new = (ma_proc)_pa_mainloop_new; + pContext->pulse.pa_mainloop_free = (ma_proc)_pa_mainloop_free; + pContext->pulse.pa_mainloop_quit = (ma_proc)_pa_mainloop_quit; + pContext->pulse.pa_mainloop_get_api = (ma_proc)_pa_mainloop_get_api; + pContext->pulse.pa_mainloop_iterate = (ma_proc)_pa_mainloop_iterate; + pContext->pulse.pa_mainloop_wakeup = (ma_proc)_pa_mainloop_wakeup; + pContext->pulse.pa_threaded_mainloop_new = (ma_proc)_pa_threaded_mainloop_new; + pContext->pulse.pa_threaded_mainloop_free = (ma_proc)_pa_threaded_mainloop_free; + pContext->pulse.pa_threaded_mainloop_start = (ma_proc)_pa_threaded_mainloop_start; + pContext->pulse.pa_threaded_mainloop_stop = (ma_proc)_pa_threaded_mainloop_stop; + pContext->pulse.pa_threaded_mainloop_lock = (ma_proc)_pa_threaded_mainloop_lock; + pContext->pulse.pa_threaded_mainloop_unlock = (ma_proc)_pa_threaded_mainloop_unlock; + pContext->pulse.pa_threaded_mainloop_wait = (ma_proc)_pa_threaded_mainloop_wait; + pContext->pulse.pa_threaded_mainloop_signal = (ma_proc)_pa_threaded_mainloop_signal; + pContext->pulse.pa_threaded_mainloop_accept = (ma_proc)_pa_threaded_mainloop_accept; + pContext->pulse.pa_threaded_mainloop_get_retval = (ma_proc)_pa_threaded_mainloop_get_retval; + pContext->pulse.pa_threaded_mainloop_get_api = (ma_proc)_pa_threaded_mainloop_get_api; + pContext->pulse.pa_threaded_mainloop_in_thread = (ma_proc)_pa_threaded_mainloop_in_thread; + pContext->pulse.pa_threaded_mainloop_set_name = (ma_proc)_pa_threaded_mainloop_set_name; + pContext->pulse.pa_context_new = (ma_proc)_pa_context_new; + pContext->pulse.pa_context_unref = (ma_proc)_pa_context_unref; + pContext->pulse.pa_context_connect = (ma_proc)_pa_context_connect; + pContext->pulse.pa_context_disconnect = (ma_proc)_pa_context_disconnect; + pContext->pulse.pa_context_set_state_callback = (ma_proc)_pa_context_set_state_callback; + pContext->pulse.pa_context_get_state = (ma_proc)_pa_context_get_state; + pContext->pulse.pa_context_get_sink_info_list = (ma_proc)_pa_context_get_sink_info_list; + pContext->pulse.pa_context_get_source_info_list = (ma_proc)_pa_context_get_source_info_list; + pContext->pulse.pa_context_get_sink_info_by_name = (ma_proc)_pa_context_get_sink_info_by_name; + pContext->pulse.pa_context_get_source_info_by_name = (ma_proc)_pa_context_get_source_info_by_name; + pContext->pulse.pa_operation_unref = (ma_proc)_pa_operation_unref; + pContext->pulse.pa_operation_get_state = (ma_proc)_pa_operation_get_state; + pContext->pulse.pa_channel_map_init_extend = (ma_proc)_pa_channel_map_init_extend; + pContext->pulse.pa_channel_map_valid = (ma_proc)_pa_channel_map_valid; + pContext->pulse.pa_channel_map_compatible = (ma_proc)_pa_channel_map_compatible; + pContext->pulse.pa_stream_new = (ma_proc)_pa_stream_new; + pContext->pulse.pa_stream_unref = (ma_proc)_pa_stream_unref; + pContext->pulse.pa_stream_connect_playback = (ma_proc)_pa_stream_connect_playback; + pContext->pulse.pa_stream_connect_record = (ma_proc)_pa_stream_connect_record; + pContext->pulse.pa_stream_disconnect = (ma_proc)_pa_stream_disconnect; + pContext->pulse.pa_stream_get_state = (ma_proc)_pa_stream_get_state; + pContext->pulse.pa_stream_get_sample_spec = (ma_proc)_pa_stream_get_sample_spec; + pContext->pulse.pa_stream_get_channel_map = (ma_proc)_pa_stream_get_channel_map; + pContext->pulse.pa_stream_get_buffer_attr = (ma_proc)_pa_stream_get_buffer_attr; + pContext->pulse.pa_stream_set_buffer_attr = (ma_proc)_pa_stream_set_buffer_attr; + pContext->pulse.pa_stream_get_device_name = (ma_proc)_pa_stream_get_device_name; + pContext->pulse.pa_stream_set_write_callback = (ma_proc)_pa_stream_set_write_callback; + pContext->pulse.pa_stream_set_read_callback = (ma_proc)_pa_stream_set_read_callback; + pContext->pulse.pa_stream_set_suspended_callback = (ma_proc)_pa_stream_set_suspended_callback; + pContext->pulse.pa_stream_set_moved_callback = (ma_proc)_pa_stream_set_moved_callback; + pContext->pulse.pa_stream_is_suspended = (ma_proc)_pa_stream_is_suspended; + pContext->pulse.pa_stream_flush = (ma_proc)_pa_stream_flush; + pContext->pulse.pa_stream_drain = (ma_proc)_pa_stream_drain; + pContext->pulse.pa_stream_is_corked = (ma_proc)_pa_stream_is_corked; + pContext->pulse.pa_stream_cork = (ma_proc)_pa_stream_cork; + pContext->pulse.pa_stream_trigger = (ma_proc)_pa_stream_trigger; + pContext->pulse.pa_stream_begin_write = (ma_proc)_pa_stream_begin_write; + pContext->pulse.pa_stream_write = (ma_proc)_pa_stream_write; + pContext->pulse.pa_stream_peek = (ma_proc)_pa_stream_peek; + pContext->pulse.pa_stream_drop = (ma_proc)_pa_stream_drop; + pContext->pulse.pa_stream_writable_size = (ma_proc)_pa_stream_writable_size; + pContext->pulse.pa_stream_readable_size = (ma_proc)_pa_stream_readable_size; +#endif + + /* We need to make a copy of the application and server names so we can pass them to the pa_context of each device. */ + pContext->pulse.pApplicationName = ma_copy_string(pConfig->pulse.pApplicationName, &pContext->allocationCallbacks); + if (pContext->pulse.pApplicationName == NULL && pConfig->pulse.pApplicationName != NULL) { + return MA_OUT_OF_MEMORY; + } + + pContext->pulse.pServerName = ma_copy_string(pConfig->pulse.pServerName, &pContext->allocationCallbacks); + if (pContext->pulse.pServerName == NULL && pConfig->pulse.pServerName != NULL) { + ma_free(pContext->pulse.pApplicationName, &pContext->allocationCallbacks); + return MA_OUT_OF_MEMORY; + } + + result = ma_init_pa_mainloop_and_pa_context__pulse(pContext, pConfig->pulse.pApplicationName, pConfig->pulse.pServerName, pConfig->pulse.tryAutoSpawn, &pContext->pulse.pMainLoop, &pContext->pulse.pPulseContext); + if (result != MA_SUCCESS) { + ma_free(pContext->pulse.pServerName, &pContext->allocationCallbacks); + ma_free(pContext->pulse.pApplicationName, &pContext->allocationCallbacks); + #ifndef MA_NO_RUNTIME_LINKING + ma_dlclose(ma_context_get_log(pContext), pContext->pulse.pulseSO); + #endif + return result; + } + + /* With pa_mainloop we run a synchronous backend, but we implement our own main loop. */ + pCallbacks->onContextInit = ma_context_init__pulse; + pCallbacks->onContextUninit = ma_context_uninit__pulse; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__pulse; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__pulse; + pCallbacks->onDeviceInit = ma_device_init__pulse; + pCallbacks->onDeviceUninit = ma_device_uninit__pulse; + pCallbacks->onDeviceStart = ma_device_start__pulse; + pCallbacks->onDeviceStop = ma_device_stop__pulse; + pCallbacks->onDeviceRead = NULL; /* Not used because we're implementing onDeviceDataLoop. */ + pCallbacks->onDeviceWrite = NULL; /* Not used because we're implementing onDeviceDataLoop. */ + pCallbacks->onDeviceDataLoop = ma_device_data_loop__pulse; + pCallbacks->onDeviceDataLoopWakeup = ma_device_data_loop_wakeup__pulse; + + return MA_SUCCESS; +} +#endif + + +/****************************************************************************** + +JACK Backend + +******************************************************************************/ +#ifdef MA_HAS_JACK + +/* It is assumed jack.h is available when compile-time linking is being used. */ +#ifdef MA_NO_RUNTIME_LINKING +#include + +typedef jack_nframes_t ma_jack_nframes_t; +typedef jack_options_t ma_jack_options_t; +typedef jack_status_t ma_jack_status_t; +typedef jack_client_t ma_jack_client_t; +typedef jack_port_t ma_jack_port_t; +typedef JackProcessCallback ma_JackProcessCallback; +typedef JackBufferSizeCallback ma_JackBufferSizeCallback; +typedef JackShutdownCallback ma_JackShutdownCallback; +#define MA_JACK_DEFAULT_AUDIO_TYPE JACK_DEFAULT_AUDIO_TYPE +#define ma_JackNullOption JackNullOption +#define ma_JackNoStartServer JackNoStartServer +#define ma_JackPortIsInput JackPortIsInput +#define ma_JackPortIsOutput JackPortIsOutput +#define ma_JackPortIsPhysical JackPortIsPhysical +#else +typedef ma_uint32 ma_jack_nframes_t; +typedef int ma_jack_options_t; +typedef int ma_jack_status_t; +typedef struct ma_jack_client_t ma_jack_client_t; +typedef struct ma_jack_port_t ma_jack_port_t; +typedef int (* ma_JackProcessCallback) (ma_jack_nframes_t nframes, void* arg); +typedef int (* ma_JackBufferSizeCallback)(ma_jack_nframes_t nframes, void* arg); +typedef void (* ma_JackShutdownCallback) (void* arg); +#define MA_JACK_DEFAULT_AUDIO_TYPE "32 bit float mono audio" +#define ma_JackNullOption 0 +#define ma_JackNoStartServer 1 +#define ma_JackPortIsInput 1 +#define ma_JackPortIsOutput 2 +#define ma_JackPortIsPhysical 4 +#endif + +typedef ma_jack_client_t* (* ma_jack_client_open_proc) (const char* client_name, ma_jack_options_t options, ma_jack_status_t* status, ...); +typedef int (* ma_jack_client_close_proc) (ma_jack_client_t* client); +typedef int (* ma_jack_client_name_size_proc) (void); +typedef int (* ma_jack_set_process_callback_proc) (ma_jack_client_t* client, ma_JackProcessCallback process_callback, void* arg); +typedef int (* ma_jack_set_buffer_size_callback_proc)(ma_jack_client_t* client, ma_JackBufferSizeCallback bufsize_callback, void* arg); +typedef void (* ma_jack_on_shutdown_proc) (ma_jack_client_t* client, ma_JackShutdownCallback function, void* arg); +typedef ma_jack_nframes_t (* ma_jack_get_sample_rate_proc) (ma_jack_client_t* client); +typedef ma_jack_nframes_t (* ma_jack_get_buffer_size_proc) (ma_jack_client_t* client); +typedef const char** (* ma_jack_get_ports_proc) (ma_jack_client_t* client, const char* port_name_pattern, const char* type_name_pattern, unsigned long flags); +typedef int (* ma_jack_activate_proc) (ma_jack_client_t* client); +typedef int (* ma_jack_deactivate_proc) (ma_jack_client_t* client); +typedef int (* ma_jack_connect_proc) (ma_jack_client_t* client, const char* source_port, const char* destination_port); +typedef ma_jack_port_t* (* ma_jack_port_register_proc) (ma_jack_client_t* client, const char* port_name, const char* port_type, unsigned long flags, unsigned long buffer_size); +typedef const char* (* ma_jack_port_name_proc) (const ma_jack_port_t* port); +typedef void* (* ma_jack_port_get_buffer_proc) (ma_jack_port_t* port, ma_jack_nframes_t nframes); +typedef void (* ma_jack_free_proc) (void* ptr); + +static ma_result ma_context_open_client__jack(ma_context* pContext, ma_jack_client_t** ppClient) +{ + size_t maxClientNameSize; + char clientName[256]; + ma_jack_status_t status; + ma_jack_client_t* pClient; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(ppClient != NULL); + + if (ppClient) { + *ppClient = NULL; + } + + maxClientNameSize = ((ma_jack_client_name_size_proc)pContext->jack.jack_client_name_size)(); /* Includes null terminator. */ + ma_strncpy_s(clientName, ma_min(sizeof(clientName), maxClientNameSize), (pContext->jack.pClientName != NULL) ? pContext->jack.pClientName : "miniaudio", (size_t)-1); + + pClient = ((ma_jack_client_open_proc)pContext->jack.jack_client_open)(clientName, (pContext->jack.tryStartServer) ? ma_JackNullOption : ma_JackNoStartServer, &status, NULL); + if (pClient == NULL) { + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + + if (ppClient) { + *ppClient = pClient; + } + + return MA_SUCCESS; +} + + +static ma_result ma_context_enumerate_devices__jack(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + ma_bool32 cbResult = MA_TRUE; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + /* Playback. */ + if (cbResult) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + deviceInfo.isDefault = MA_TRUE; /* JACK only uses default devices. */ + cbResult = callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + } + + /* Capture. */ + if (cbResult) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + deviceInfo.isDefault = MA_TRUE; /* JACK only uses default devices. */ + cbResult = callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + } + + (void)cbResult; /* For silencing a static analysis warning. */ + + return MA_SUCCESS; +} + +static ma_result ma_context_get_device_info__jack(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + ma_jack_client_t* pClient; + ma_result result; + const char** ppPorts; + + MA_ASSERT(pContext != NULL); + + if (pDeviceID != NULL && pDeviceID->jack != 0) { + return MA_NO_DEVICE; /* Don't know the device. */ + } + + /* Name / Description */ + if (deviceType == ma_device_type_playback) { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + } else { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + } + + /* Jack only uses default devices. */ + pDeviceInfo->isDefault = MA_TRUE; + + /* Jack only supports f32 and has a specific channel count and sample rate. */ + pDeviceInfo->nativeDataFormats[0].format = ma_format_f32; + + /* The channel count and sample rate can only be determined by opening the device. */ + result = ma_context_open_client__jack(pContext, &pClient); + if (result != MA_SUCCESS) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[JACK] Failed to open client."); + return result; + } + + pDeviceInfo->nativeDataFormats[0].sampleRate = ((ma_jack_get_sample_rate_proc)pContext->jack.jack_get_sample_rate)((ma_jack_client_t*)pClient); + pDeviceInfo->nativeDataFormats[0].channels = 0; + + ppPorts = ((ma_jack_get_ports_proc)pContext->jack.jack_get_ports)((ma_jack_client_t*)pClient, NULL, MA_JACK_DEFAULT_AUDIO_TYPE, ma_JackPortIsPhysical | ((deviceType == ma_device_type_playback) ? ma_JackPortIsInput : ma_JackPortIsOutput)); + if (ppPorts == NULL) { + ((ma_jack_client_close_proc)pContext->jack.jack_client_close)((ma_jack_client_t*)pClient); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[JACK] Failed to query physical ports."); + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + + while (ppPorts[pDeviceInfo->nativeDataFormats[0].channels] != NULL) { + pDeviceInfo->nativeDataFormats[0].channels += 1; + } + + pDeviceInfo->nativeDataFormats[0].flags = 0; + pDeviceInfo->nativeDataFormatCount = 1; + + ((ma_jack_free_proc)pContext->jack.jack_free)((void*)ppPorts); + ((ma_jack_client_close_proc)pContext->jack.jack_client_close)((ma_jack_client_t*)pClient); + + (void)pContext; + return MA_SUCCESS; +} + + +static ma_result ma_device_uninit__jack(ma_device* pDevice) +{ + ma_context* pContext; + + MA_ASSERT(pDevice != NULL); + + pContext = pDevice->pContext; + MA_ASSERT(pContext != NULL); + + if (pDevice->jack.pClient != NULL) { + ((ma_jack_client_close_proc)pContext->jack.jack_client_close)((ma_jack_client_t*)pDevice->jack.pClient); + } + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ma_free(pDevice->jack.pIntermediaryBufferCapture, &pDevice->pContext->allocationCallbacks); + ma_free(pDevice->jack.ppPortsCapture, &pDevice->pContext->allocationCallbacks); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ma_free(pDevice->jack.pIntermediaryBufferPlayback, &pDevice->pContext->allocationCallbacks); + ma_free(pDevice->jack.ppPortsPlayback, &pDevice->pContext->allocationCallbacks); + } + + return MA_SUCCESS; +} + +static void ma_device__jack_shutdown_callback(void* pUserData) +{ + /* JACK died. Stop the device. */ + ma_device* pDevice = (ma_device*)pUserData; + MA_ASSERT(pDevice != NULL); + + ma_device_stop(pDevice); +} + +static int ma_device__jack_buffer_size_callback(ma_jack_nframes_t frameCount, void* pUserData) +{ + ma_device* pDevice = (ma_device*)pUserData; + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + size_t newBufferSize = frameCount * (pDevice->capture.internalChannels * ma_get_bytes_per_sample(pDevice->capture.internalFormat)); + float* pNewBuffer = (float*)ma_calloc(newBufferSize, &pDevice->pContext->allocationCallbacks); + if (pNewBuffer == NULL) { + return MA_OUT_OF_MEMORY; + } + + ma_free(pDevice->jack.pIntermediaryBufferCapture, &pDevice->pContext->allocationCallbacks); + + pDevice->jack.pIntermediaryBufferCapture = pNewBuffer; + pDevice->playback.internalPeriodSizeInFrames = frameCount; + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + size_t newBufferSize = frameCount * (pDevice->playback.internalChannels * ma_get_bytes_per_sample(pDevice->playback.internalFormat)); + float* pNewBuffer = (float*)ma_calloc(newBufferSize, &pDevice->pContext->allocationCallbacks); + if (pNewBuffer == NULL) { + return MA_OUT_OF_MEMORY; + } + + ma_free(pDevice->jack.pIntermediaryBufferPlayback, &pDevice->pContext->allocationCallbacks); + + pDevice->jack.pIntermediaryBufferPlayback = pNewBuffer; + pDevice->playback.internalPeriodSizeInFrames = frameCount; + } + + return 0; +} + +static int ma_device__jack_process_callback(ma_jack_nframes_t frameCount, void* pUserData) +{ + ma_device* pDevice; + ma_context* pContext; + ma_uint32 iChannel; + + pDevice = (ma_device*)pUserData; + MA_ASSERT(pDevice != NULL); + + pContext = pDevice->pContext; + MA_ASSERT(pContext != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + /* Channels need to be interleaved. */ + for (iChannel = 0; iChannel < pDevice->capture.internalChannels; ++iChannel) { + const float* pSrc = (const float*)((ma_jack_port_get_buffer_proc)pContext->jack.jack_port_get_buffer)((ma_jack_port_t*)pDevice->jack.ppPortsCapture[iChannel], frameCount); + if (pSrc != NULL) { + float* pDst = pDevice->jack.pIntermediaryBufferCapture + iChannel; + ma_jack_nframes_t iFrame; + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + *pDst = *pSrc; + + pDst += pDevice->capture.internalChannels; + pSrc += 1; + } + } + } + + ma_device_handle_backend_data_callback(pDevice, NULL, pDevice->jack.pIntermediaryBufferCapture, frameCount); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ma_device_handle_backend_data_callback(pDevice, pDevice->jack.pIntermediaryBufferPlayback, NULL, frameCount); + + /* Channels need to be deinterleaved. */ + for (iChannel = 0; iChannel < pDevice->playback.internalChannels; ++iChannel) { + float* pDst = (float*)((ma_jack_port_get_buffer_proc)pContext->jack.jack_port_get_buffer)((ma_jack_port_t*)pDevice->jack.ppPortsPlayback[iChannel], frameCount); + if (pDst != NULL) { + const float* pSrc = pDevice->jack.pIntermediaryBufferPlayback + iChannel; + ma_jack_nframes_t iFrame; + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + *pDst = *pSrc; + + pDst += 1; + pSrc += pDevice->playback.internalChannels; + } + } + } + } + + return 0; +} + +static ma_result ma_device_init__jack(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + ma_result result; + ma_uint32 periodSizeInFrames; + + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pDevice != NULL); + + if (pConfig->deviceType == ma_device_type_loopback) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Loopback mode not supported."); + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + /* Only supporting default devices with JACK. */ + if (((pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) && pDescriptorPlayback->pDeviceID != NULL && pDescriptorPlayback->pDeviceID->jack != 0) || + ((pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) && pDescriptorCapture->pDeviceID != NULL && pDescriptorCapture->pDeviceID->jack != 0)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Only default devices are supported."); + return MA_NO_DEVICE; + } + + /* No exclusive mode with the JACK backend. */ + if (((pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) && pDescriptorPlayback->shareMode == ma_share_mode_exclusive) || + ((pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) && pDescriptorCapture->shareMode == ma_share_mode_exclusive)) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Exclusive mode not supported."); + return MA_SHARE_MODE_NOT_SUPPORTED; + } + + /* Open the client. */ + result = ma_context_open_client__jack(pDevice->pContext, (ma_jack_client_t**)&pDevice->jack.pClient); + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to open client."); + return result; + } + + /* Callbacks. */ + if (((ma_jack_set_process_callback_proc)pDevice->pContext->jack.jack_set_process_callback)((ma_jack_client_t*)pDevice->jack.pClient, ma_device__jack_process_callback, pDevice) != 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to set process callback."); + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + if (((ma_jack_set_buffer_size_callback_proc)pDevice->pContext->jack.jack_set_buffer_size_callback)((ma_jack_client_t*)pDevice->jack.pClient, ma_device__jack_buffer_size_callback, pDevice) != 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to set buffer size callback."); + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + + ((ma_jack_on_shutdown_proc)pDevice->pContext->jack.jack_on_shutdown)((ma_jack_client_t*)pDevice->jack.pClient, ma_device__jack_shutdown_callback, pDevice); + + + /* The buffer size in frames can change. */ + periodSizeInFrames = ((ma_jack_get_buffer_size_proc)pDevice->pContext->jack.jack_get_buffer_size)((ma_jack_client_t*)pDevice->jack.pClient); + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + ma_uint32 iPort; + const char** ppPorts; + + pDescriptorCapture->format = ma_format_f32; + pDescriptorCapture->channels = 0; + pDescriptorCapture->sampleRate = ((ma_jack_get_sample_rate_proc)pDevice->pContext->jack.jack_get_sample_rate)((ma_jack_client_t*)pDevice->jack.pClient); + ma_channel_map_init_standard(ma_standard_channel_map_alsa, pDescriptorCapture->channelMap, ma_countof(pDescriptorCapture->channelMap), pDescriptorCapture->channels); + + ppPorts = ((ma_jack_get_ports_proc)pDevice->pContext->jack.jack_get_ports)((ma_jack_client_t*)pDevice->jack.pClient, NULL, MA_JACK_DEFAULT_AUDIO_TYPE, ma_JackPortIsPhysical | ma_JackPortIsOutput); + if (ppPorts == NULL) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to query physical ports."); + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + + /* Need to count the number of ports first so we can allocate some memory. */ + while (ppPorts[pDescriptorCapture->channels] != NULL) { + pDescriptorCapture->channels += 1; + } + + pDevice->jack.ppPortsCapture = (ma_ptr*)ma_malloc(sizeof(*pDevice->jack.ppPortsCapture) * pDescriptorCapture->channels, &pDevice->pContext->allocationCallbacks); + if (pDevice->jack.ppPortsCapture == NULL) { + return MA_OUT_OF_MEMORY; + } + + for (iPort = 0; iPort < pDescriptorCapture->channels; iPort += 1) { + char name[64]; + ma_strcpy_s(name, sizeof(name), "capture"); + ma_itoa_s((int)iPort, name+7, sizeof(name)-7, 10); /* 7 = length of "capture" */ + + pDevice->jack.ppPortsCapture[iPort] = ((ma_jack_port_register_proc)pDevice->pContext->jack.jack_port_register)((ma_jack_client_t*)pDevice->jack.pClient, name, MA_JACK_DEFAULT_AUDIO_TYPE, ma_JackPortIsInput, 0); + if (pDevice->jack.ppPortsCapture[iPort] == NULL) { + ((ma_jack_free_proc)pDevice->pContext->jack.jack_free)((void*)ppPorts); + ma_device_uninit__jack(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to register ports."); + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + } + + ((ma_jack_free_proc)pDevice->pContext->jack.jack_free)((void*)ppPorts); + + pDescriptorCapture->periodSizeInFrames = periodSizeInFrames; + pDescriptorCapture->periodCount = 1; /* There's no notion of a period in JACK. Just set to 1. */ + + pDevice->jack.pIntermediaryBufferCapture = (float*)ma_calloc(pDescriptorCapture->periodSizeInFrames * ma_get_bytes_per_frame(pDescriptorCapture->format, pDescriptorCapture->channels), &pDevice->pContext->allocationCallbacks); + if (pDevice->jack.pIntermediaryBufferCapture == NULL) { + ma_device_uninit__jack(pDevice); + return MA_OUT_OF_MEMORY; + } + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ma_uint32 iPort; + const char** ppPorts; + + pDescriptorPlayback->format = ma_format_f32; + pDescriptorPlayback->channels = 0; + pDescriptorPlayback->sampleRate = ((ma_jack_get_sample_rate_proc)pDevice->pContext->jack.jack_get_sample_rate)((ma_jack_client_t*)pDevice->jack.pClient); + ma_channel_map_init_standard(ma_standard_channel_map_alsa, pDescriptorPlayback->channelMap, ma_countof(pDescriptorPlayback->channelMap), pDescriptorPlayback->channels); + + ppPorts = ((ma_jack_get_ports_proc)pDevice->pContext->jack.jack_get_ports)((ma_jack_client_t*)pDevice->jack.pClient, NULL, MA_JACK_DEFAULT_AUDIO_TYPE, ma_JackPortIsPhysical | ma_JackPortIsInput); + if (ppPorts == NULL) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to query physical ports."); + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + + /* Need to count the number of ports first so we can allocate some memory. */ + while (ppPorts[pDescriptorPlayback->channels] != NULL) { + pDescriptorPlayback->channels += 1; + } + + pDevice->jack.ppPortsPlayback = (ma_ptr*)ma_malloc(sizeof(*pDevice->jack.ppPortsPlayback) * pDescriptorPlayback->channels, &pDevice->pContext->allocationCallbacks); + if (pDevice->jack.ppPortsPlayback == NULL) { + ma_free(pDevice->jack.ppPortsCapture, &pDevice->pContext->allocationCallbacks); + return MA_OUT_OF_MEMORY; + } + + for (iPort = 0; iPort < pDescriptorPlayback->channels; iPort += 1) { + char name[64]; + ma_strcpy_s(name, sizeof(name), "playback"); + ma_itoa_s((int)iPort, name+8, sizeof(name)-8, 10); /* 8 = length of "playback" */ + + pDevice->jack.ppPortsPlayback[iPort] = ((ma_jack_port_register_proc)pDevice->pContext->jack.jack_port_register)((ma_jack_client_t*)pDevice->jack.pClient, name, MA_JACK_DEFAULT_AUDIO_TYPE, ma_JackPortIsOutput, 0); + if (pDevice->jack.ppPortsPlayback[iPort] == NULL) { + ((ma_jack_free_proc)pDevice->pContext->jack.jack_free)((void*)ppPorts); + ma_device_uninit__jack(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to register ports."); + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + } + + ((ma_jack_free_proc)pDevice->pContext->jack.jack_free)((void*)ppPorts); + + pDescriptorPlayback->periodSizeInFrames = periodSizeInFrames; + pDescriptorPlayback->periodCount = 1; /* There's no notion of a period in JACK. Just set to 1. */ + + pDevice->jack.pIntermediaryBufferPlayback = (float*)ma_calloc(pDescriptorPlayback->periodSizeInFrames * ma_get_bytes_per_frame(pDescriptorPlayback->format, pDescriptorPlayback->channels), &pDevice->pContext->allocationCallbacks); + if (pDevice->jack.pIntermediaryBufferPlayback == NULL) { + ma_device_uninit__jack(pDevice); + return MA_OUT_OF_MEMORY; + } + } + + return MA_SUCCESS; +} + + +static ma_result ma_device_start__jack(ma_device* pDevice) +{ + ma_context* pContext = pDevice->pContext; + int resultJACK; + size_t i; + + resultJACK = ((ma_jack_activate_proc)pContext->jack.jack_activate)((ma_jack_client_t*)pDevice->jack.pClient); + if (resultJACK != 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to activate the JACK client."); + return MA_FAILED_TO_START_BACKEND_DEVICE; + } + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + const char** ppServerPorts = ((ma_jack_get_ports_proc)pContext->jack.jack_get_ports)((ma_jack_client_t*)pDevice->jack.pClient, NULL, MA_JACK_DEFAULT_AUDIO_TYPE, ma_JackPortIsPhysical | ma_JackPortIsOutput); + if (ppServerPorts == NULL) { + ((ma_jack_deactivate_proc)pContext->jack.jack_deactivate)((ma_jack_client_t*)pDevice->jack.pClient); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to retrieve physical ports."); + return MA_ERROR; + } + + for (i = 0; ppServerPorts[i] != NULL; ++i) { + const char* pServerPort = ppServerPorts[i]; + const char* pClientPort = ((ma_jack_port_name_proc)pContext->jack.jack_port_name)((ma_jack_port_t*)pDevice->jack.ppPortsCapture[i]); + + resultJACK = ((ma_jack_connect_proc)pContext->jack.jack_connect)((ma_jack_client_t*)pDevice->jack.pClient, pServerPort, pClientPort); + if (resultJACK != 0) { + ((ma_jack_free_proc)pContext->jack.jack_free)((void*)ppServerPorts); + ((ma_jack_deactivate_proc)pContext->jack.jack_deactivate)((ma_jack_client_t*)pDevice->jack.pClient); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to connect ports."); + return MA_ERROR; + } + } + + ((ma_jack_free_proc)pContext->jack.jack_free)((void*)ppServerPorts); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + const char** ppServerPorts = ((ma_jack_get_ports_proc)pContext->jack.jack_get_ports)((ma_jack_client_t*)pDevice->jack.pClient, NULL, MA_JACK_DEFAULT_AUDIO_TYPE, ma_JackPortIsPhysical | ma_JackPortIsInput); + if (ppServerPorts == NULL) { + ((ma_jack_deactivate_proc)pContext->jack.jack_deactivate)((ma_jack_client_t*)pDevice->jack.pClient); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to retrieve physical ports."); + return MA_ERROR; + } + + for (i = 0; ppServerPorts[i] != NULL; ++i) { + const char* pServerPort = ppServerPorts[i]; + const char* pClientPort = ((ma_jack_port_name_proc)pContext->jack.jack_port_name)((ma_jack_port_t*)pDevice->jack.ppPortsPlayback[i]); + + resultJACK = ((ma_jack_connect_proc)pContext->jack.jack_connect)((ma_jack_client_t*)pDevice->jack.pClient, pClientPort, pServerPort); + if (resultJACK != 0) { + ((ma_jack_free_proc)pContext->jack.jack_free)((void*)ppServerPorts); + ((ma_jack_deactivate_proc)pContext->jack.jack_deactivate)((ma_jack_client_t*)pDevice->jack.pClient); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] Failed to connect ports."); + return MA_ERROR; + } + } + + ((ma_jack_free_proc)pContext->jack.jack_free)((void*)ppServerPorts); + } + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__jack(ma_device* pDevice) +{ + ma_context* pContext = pDevice->pContext; + + if (((ma_jack_deactivate_proc)pContext->jack.jack_deactivate)((ma_jack_client_t*)pDevice->jack.pClient) != 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[JACK] An error occurred when deactivating the JACK client."); + return MA_ERROR; + } + + ma_device__on_notification_stopped(pDevice); + + return MA_SUCCESS; +} + + +static ma_result ma_context_uninit__jack(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_jack); + + ma_free(pContext->jack.pClientName, &pContext->allocationCallbacks); + pContext->jack.pClientName = NULL; + +#ifndef MA_NO_RUNTIME_LINKING + ma_dlclose(ma_context_get_log(pContext), pContext->jack.jackSO); +#endif + + return MA_SUCCESS; +} + +static ma_result ma_context_init__jack(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ +#ifndef MA_NO_RUNTIME_LINKING + const char* libjackNames[] = { +#if defined(MA_WIN32) + "libjack.dll", + "libjack64.dll" +#endif +#if defined(MA_UNIX) + "libjack.so", + "libjack.so.0" +#endif + }; + size_t i; + + for (i = 0; i < ma_countof(libjackNames); ++i) { + pContext->jack.jackSO = ma_dlopen(ma_context_get_log(pContext), libjackNames[i]); + if (pContext->jack.jackSO != NULL) { + break; + } + } + + if (pContext->jack.jackSO == NULL) { + return MA_NO_BACKEND; + } + + pContext->jack.jack_client_open = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_client_open"); + pContext->jack.jack_client_close = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_client_close"); + pContext->jack.jack_client_name_size = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_client_name_size"); + pContext->jack.jack_set_process_callback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_set_process_callback"); + pContext->jack.jack_set_buffer_size_callback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_set_buffer_size_callback"); + pContext->jack.jack_on_shutdown = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_on_shutdown"); + pContext->jack.jack_get_sample_rate = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_get_sample_rate"); + pContext->jack.jack_get_buffer_size = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_get_buffer_size"); + pContext->jack.jack_get_ports = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_get_ports"); + pContext->jack.jack_activate = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_activate"); + pContext->jack.jack_deactivate = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_deactivate"); + pContext->jack.jack_connect = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_connect"); + pContext->jack.jack_port_register = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_port_register"); + pContext->jack.jack_port_name = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_port_name"); + pContext->jack.jack_port_get_buffer = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_port_get_buffer"); + pContext->jack.jack_free = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->jack.jackSO, "jack_free"); +#else + /* + This strange assignment system is here just to ensure type safety of miniaudio's function pointer + types. If anything differs slightly the compiler should throw a warning. + */ + ma_jack_client_open_proc _jack_client_open = jack_client_open; + ma_jack_client_close_proc _jack_client_close = jack_client_close; + ma_jack_client_name_size_proc _jack_client_name_size = jack_client_name_size; + ma_jack_set_process_callback_proc _jack_set_process_callback = jack_set_process_callback; + ma_jack_set_buffer_size_callback_proc _jack_set_buffer_size_callback = jack_set_buffer_size_callback; + ma_jack_on_shutdown_proc _jack_on_shutdown = jack_on_shutdown; + ma_jack_get_sample_rate_proc _jack_get_sample_rate = jack_get_sample_rate; + ma_jack_get_buffer_size_proc _jack_get_buffer_size = jack_get_buffer_size; + ma_jack_get_ports_proc _jack_get_ports = jack_get_ports; + ma_jack_activate_proc _jack_activate = jack_activate; + ma_jack_deactivate_proc _jack_deactivate = jack_deactivate; + ma_jack_connect_proc _jack_connect = jack_connect; + ma_jack_port_register_proc _jack_port_register = jack_port_register; + ma_jack_port_name_proc _jack_port_name = jack_port_name; + ma_jack_port_get_buffer_proc _jack_port_get_buffer = jack_port_get_buffer; + ma_jack_free_proc _jack_free = jack_free; + + pContext->jack.jack_client_open = (ma_proc)_jack_client_open; + pContext->jack.jack_client_close = (ma_proc)_jack_client_close; + pContext->jack.jack_client_name_size = (ma_proc)_jack_client_name_size; + pContext->jack.jack_set_process_callback = (ma_proc)_jack_set_process_callback; + pContext->jack.jack_set_buffer_size_callback = (ma_proc)_jack_set_buffer_size_callback; + pContext->jack.jack_on_shutdown = (ma_proc)_jack_on_shutdown; + pContext->jack.jack_get_sample_rate = (ma_proc)_jack_get_sample_rate; + pContext->jack.jack_get_buffer_size = (ma_proc)_jack_get_buffer_size; + pContext->jack.jack_get_ports = (ma_proc)_jack_get_ports; + pContext->jack.jack_activate = (ma_proc)_jack_activate; + pContext->jack.jack_deactivate = (ma_proc)_jack_deactivate; + pContext->jack.jack_connect = (ma_proc)_jack_connect; + pContext->jack.jack_port_register = (ma_proc)_jack_port_register; + pContext->jack.jack_port_name = (ma_proc)_jack_port_name; + pContext->jack.jack_port_get_buffer = (ma_proc)_jack_port_get_buffer; + pContext->jack.jack_free = (ma_proc)_jack_free; +#endif + + if (pConfig->jack.pClientName != NULL) { + pContext->jack.pClientName = ma_copy_string(pConfig->jack.pClientName, &pContext->allocationCallbacks); + } + pContext->jack.tryStartServer = pConfig->jack.tryStartServer; + + /* + Getting here means the JACK library is installed, but it doesn't necessarily mean it's usable. We need to quickly test this by connecting + a temporary client. + */ + { + ma_jack_client_t* pDummyClient; + ma_result result = ma_context_open_client__jack(pContext, &pDummyClient); + if (result != MA_SUCCESS) { + ma_free(pContext->jack.pClientName, &pContext->allocationCallbacks); + #ifndef MA_NO_RUNTIME_LINKING + ma_dlclose(ma_context_get_log(pContext), pContext->jack.jackSO); + #endif + return MA_NO_BACKEND; + } + + ((ma_jack_client_close_proc)pContext->jack.jack_client_close)((ma_jack_client_t*)pDummyClient); + } + + + pCallbacks->onContextInit = ma_context_init__jack; + pCallbacks->onContextUninit = ma_context_uninit__jack; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__jack; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__jack; + pCallbacks->onDeviceInit = ma_device_init__jack; + pCallbacks->onDeviceUninit = ma_device_uninit__jack; + pCallbacks->onDeviceStart = ma_device_start__jack; + pCallbacks->onDeviceStop = ma_device_stop__jack; + pCallbacks->onDeviceRead = NULL; /* Not used because JACK is asynchronous. */ + pCallbacks->onDeviceWrite = NULL; /* Not used because JACK is asynchronous. */ + pCallbacks->onDeviceDataLoop = NULL; /* Not used because JACK is asynchronous. */ + + return MA_SUCCESS; +} +#endif /* MA_HAS_JACK */ + + + +/****************************************************************************** + +Core Audio Backend + +References +========== +- Technical Note TN2091: Device input using the HAL Output Audio Unit + https://developer.apple.com/library/archive/technotes/tn2091/_index.html + +******************************************************************************/ +#ifdef MA_HAS_COREAUDIO +#include + +#if defined(TARGET_OS_IPHONE) && TARGET_OS_IPHONE == 1 + #define MA_APPLE_MOBILE + #if defined(TARGET_OS_TV) && TARGET_OS_TV == 1 + #define MA_APPLE_TV + #endif + #if defined(TARGET_OS_WATCH) && TARGET_OS_WATCH == 1 + #define MA_APPLE_WATCH + #endif + #if __has_feature(objc_arc) + #define MA_BRIDGE_TRANSFER __bridge_transfer + #define MA_BRIDGE_RETAINED __bridge_retained + #else + #define MA_BRIDGE_TRANSFER + #define MA_BRIDGE_RETAINED + #endif +#else + #define MA_APPLE_DESKTOP +#endif + +#if defined(MA_APPLE_DESKTOP) +#include +#else +#include +#endif + +#include + +/* CoreFoundation */ +typedef Boolean (* ma_CFStringGetCString_proc)(CFStringRef theString, char* buffer, CFIndex bufferSize, CFStringEncoding encoding); +typedef void (* ma_CFRelease_proc)(CFTypeRef cf); + +/* CoreAudio */ +#if defined(MA_APPLE_DESKTOP) +typedef OSStatus (* ma_AudioObjectGetPropertyData_proc)(AudioObjectID inObjectID, const AudioObjectPropertyAddress* inAddress, UInt32 inQualifierDataSize, const void* inQualifierData, UInt32* ioDataSize, void* outData); +typedef OSStatus (* ma_AudioObjectGetPropertyDataSize_proc)(AudioObjectID inObjectID, const AudioObjectPropertyAddress* inAddress, UInt32 inQualifierDataSize, const void* inQualifierData, UInt32* outDataSize); +typedef OSStatus (* ma_AudioObjectSetPropertyData_proc)(AudioObjectID inObjectID, const AudioObjectPropertyAddress* inAddress, UInt32 inQualifierDataSize, const void* inQualifierData, UInt32 inDataSize, const void* inData); +typedef OSStatus (* ma_AudioObjectAddPropertyListener_proc)(AudioObjectID inObjectID, const AudioObjectPropertyAddress* inAddress, AudioObjectPropertyListenerProc inListener, void* inClientData); +typedef OSStatus (* ma_AudioObjectRemovePropertyListener_proc)(AudioObjectID inObjectID, const AudioObjectPropertyAddress* inAddress, AudioObjectPropertyListenerProc inListener, void* inClientData); +#endif + +/* AudioToolbox */ +typedef AudioComponent (* ma_AudioComponentFindNext_proc)(AudioComponent inComponent, const AudioComponentDescription* inDesc); +typedef OSStatus (* ma_AudioComponentInstanceDispose_proc)(AudioComponentInstance inInstance); +typedef OSStatus (* ma_AudioComponentInstanceNew_proc)(AudioComponent inComponent, AudioComponentInstance* outInstance); +typedef OSStatus (* ma_AudioOutputUnitStart_proc)(AudioUnit inUnit); +typedef OSStatus (* ma_AudioOutputUnitStop_proc)(AudioUnit inUnit); +typedef OSStatus (* ma_AudioUnitAddPropertyListener_proc)(AudioUnit inUnit, AudioUnitPropertyID inID, AudioUnitPropertyListenerProc inProc, void* inProcUserData); +typedef OSStatus (* ma_AudioUnitGetPropertyInfo_proc)(AudioUnit inUnit, AudioUnitPropertyID inID, AudioUnitScope inScope, AudioUnitElement inElement, UInt32* outDataSize, Boolean* outWriteable); +typedef OSStatus (* ma_AudioUnitGetProperty_proc)(AudioUnit inUnit, AudioUnitPropertyID inID, AudioUnitScope inScope, AudioUnitElement inElement, void* outData, UInt32* ioDataSize); +typedef OSStatus (* ma_AudioUnitSetProperty_proc)(AudioUnit inUnit, AudioUnitPropertyID inID, AudioUnitScope inScope, AudioUnitElement inElement, const void* inData, UInt32 inDataSize); +typedef OSStatus (* ma_AudioUnitInitialize_proc)(AudioUnit inUnit); +typedef OSStatus (* ma_AudioUnitRender_proc)(AudioUnit inUnit, AudioUnitRenderActionFlags* ioActionFlags, const AudioTimeStamp* inTimeStamp, UInt32 inOutputBusNumber, UInt32 inNumberFrames, AudioBufferList* ioData); + + +#define MA_COREAUDIO_OUTPUT_BUS 0 +#define MA_COREAUDIO_INPUT_BUS 1 + +#if defined(MA_APPLE_DESKTOP) +static ma_result ma_device_reinit_internal__coreaudio(ma_device* pDevice, ma_device_type deviceType, ma_bool32 disposePreviousAudioUnit); +#endif + +/* +Core Audio + +So far, Core Audio has been the worst backend to work with due to being both unintuitive and having almost no documentation +apart from comments in the headers (which admittedly are quite good). For my own purposes, and for anybody out there whose +needing to figure out how this darn thing works, I'm going to outline a few things here. + +Since miniaudio is a fairly low-level API, one of the things it needs is control over specific devices, and it needs to be +able to identify whether or not it can be used as playback and/or capture. The AudioObject API is the only one I've seen +that supports this level of detail. There was some public domain sample code I stumbled across that used the AudioComponent +and AudioUnit APIs, but I couldn't see anything that gave low-level control over device selection and capabilities (the +distinction between playback and capture in particular). Therefore, miniaudio is using the AudioObject API. + +Most (all?) functions in the AudioObject API take a AudioObjectID as its input. This is the device identifier. When +retrieving global information, such as the device list, you use kAudioObjectSystemObject. When retrieving device-specific +data, you pass in the ID for that device. In order to retrieve device-specific IDs you need to enumerate over each of the +devices. This is done using the AudioObjectGetPropertyDataSize() and AudioObjectGetPropertyData() APIs which seem to be +the central APIs for retrieving information about the system and specific devices. + +To use the AudioObjectGetPropertyData() API you need to use the notion of a property address. A property address is a +structure with three variables and is used to identify which property you are getting or setting. The first is the "selector" +which is basically the specific property that you're wanting to retrieve or set. The second is the "scope", which is +typically set to kAudioObjectPropertyScopeGlobal, kAudioObjectPropertyScopeInput for input-specific properties and +kAudioObjectPropertyScopeOutput for output-specific properties. The last is the "element" which is always set to +kAudioObjectPropertyElementMain in miniaudio's case. I don't know of any cases where this would be set to anything different. + +Back to the earlier issue of device retrieval, you first use the AudioObjectGetPropertyDataSize() API to retrieve the size +of the raw data which is just a list of AudioDeviceID's. You use the kAudioObjectSystemObject AudioObjectID, and a property +address with the kAudioHardwarePropertyDevices selector and the kAudioObjectPropertyScopeGlobal scope. Once you have the +size, allocate a block of memory of that size and then call AudioObjectGetPropertyData(). The data is just a list of +AudioDeviceID's so just do "dataSize/sizeof(AudioDeviceID)" to know the device count. +*/ + +#if defined(MA_APPLE_MOBILE) +static void ma_device__on_notification_interruption_began(ma_device* pDevice) +{ + ma_device__on_notification(ma_device_notification_init(pDevice, ma_device_notification_type_interruption_began)); +} + +static void ma_device__on_notification_interruption_ended(ma_device* pDevice) +{ + ma_device__on_notification(ma_device_notification_init(pDevice, ma_device_notification_type_interruption_ended)); +} +#endif + +static ma_result ma_result_from_OSStatus(OSStatus status) +{ + switch (status) + { + case noErr: return MA_SUCCESS; + #if defined(MA_APPLE_DESKTOP) + case kAudioHardwareNotRunningError: return MA_DEVICE_NOT_STARTED; + case kAudioHardwareUnspecifiedError: return MA_ERROR; + case kAudioHardwareUnknownPropertyError: return MA_INVALID_ARGS; + case kAudioHardwareBadPropertySizeError: return MA_INVALID_OPERATION; + case kAudioHardwareIllegalOperationError: return MA_INVALID_OPERATION; + case kAudioHardwareBadObjectError: return MA_INVALID_ARGS; + case kAudioHardwareBadDeviceError: return MA_INVALID_ARGS; + case kAudioHardwareBadStreamError: return MA_INVALID_ARGS; + case kAudioHardwareUnsupportedOperationError: return MA_INVALID_OPERATION; + case kAudioDeviceUnsupportedFormatError: return MA_FORMAT_NOT_SUPPORTED; + case kAudioDevicePermissionsError: return MA_ACCESS_DENIED; + #endif + default: return MA_ERROR; + } +} + +#if 0 +static ma_channel ma_channel_from_AudioChannelBitmap(AudioChannelBitmap bit) +{ + switch (bit) + { + case kAudioChannelBit_Left: return MA_CHANNEL_LEFT; + case kAudioChannelBit_Right: return MA_CHANNEL_RIGHT; + case kAudioChannelBit_Center: return MA_CHANNEL_FRONT_CENTER; + case kAudioChannelBit_LFEScreen: return MA_CHANNEL_LFE; + case kAudioChannelBit_LeftSurround: return MA_CHANNEL_BACK_LEFT; + case kAudioChannelBit_RightSurround: return MA_CHANNEL_BACK_RIGHT; + case kAudioChannelBit_LeftCenter: return MA_CHANNEL_FRONT_LEFT_CENTER; + case kAudioChannelBit_RightCenter: return MA_CHANNEL_FRONT_RIGHT_CENTER; + case kAudioChannelBit_CenterSurround: return MA_CHANNEL_BACK_CENTER; + case kAudioChannelBit_LeftSurroundDirect: return MA_CHANNEL_SIDE_LEFT; + case kAudioChannelBit_RightSurroundDirect: return MA_CHANNEL_SIDE_RIGHT; + case kAudioChannelBit_TopCenterSurround: return MA_CHANNEL_TOP_CENTER; + case kAudioChannelBit_VerticalHeightLeft: return MA_CHANNEL_TOP_FRONT_LEFT; + case kAudioChannelBit_VerticalHeightCenter: return MA_CHANNEL_TOP_FRONT_CENTER; + case kAudioChannelBit_VerticalHeightRight: return MA_CHANNEL_TOP_FRONT_RIGHT; + case kAudioChannelBit_TopBackLeft: return MA_CHANNEL_TOP_BACK_LEFT; + case kAudioChannelBit_TopBackCenter: return MA_CHANNEL_TOP_BACK_CENTER; + case kAudioChannelBit_TopBackRight: return MA_CHANNEL_TOP_BACK_RIGHT; + default: return MA_CHANNEL_NONE; + } +} +#endif + +static ma_result ma_format_from_AudioStreamBasicDescription(const AudioStreamBasicDescription* pDescription, ma_format* pFormatOut) +{ + MA_ASSERT(pDescription != NULL); + MA_ASSERT(pFormatOut != NULL); + + *pFormatOut = ma_format_unknown; /* Safety. */ + + /* There's a few things miniaudio doesn't support. */ + if (pDescription->mFormatID != kAudioFormatLinearPCM) { + return MA_FORMAT_NOT_SUPPORTED; + } + + /* We don't support any non-packed formats that are aligned high. */ + if ((pDescription->mFormatFlags & kLinearPCMFormatFlagIsAlignedHigh) != 0) { + return MA_FORMAT_NOT_SUPPORTED; + } + + /* Only supporting native-endian. */ + if ((ma_is_little_endian() && (pDescription->mFormatFlags & kAudioFormatFlagIsBigEndian) != 0) || (ma_is_big_endian() && (pDescription->mFormatFlags & kAudioFormatFlagIsBigEndian) == 0)) { + return MA_FORMAT_NOT_SUPPORTED; + } + + /* We are not currently supporting non-interleaved formats (this will be added in a future version of miniaudio). */ + /*if ((pDescription->mFormatFlags & kAudioFormatFlagIsNonInterleaved) != 0) { + return MA_FORMAT_NOT_SUPPORTED; + }*/ + + if ((pDescription->mFormatFlags & kLinearPCMFormatFlagIsFloat) != 0) { + if (pDescription->mBitsPerChannel == 32) { + *pFormatOut = ma_format_f32; + return MA_SUCCESS; + } + } else { + if ((pDescription->mFormatFlags & kLinearPCMFormatFlagIsSignedInteger) != 0) { + if (pDescription->mBitsPerChannel == 16) { + *pFormatOut = ma_format_s16; + return MA_SUCCESS; + } else if (pDescription->mBitsPerChannel == 24) { + if (pDescription->mBytesPerFrame == (pDescription->mBitsPerChannel/8 * pDescription->mChannelsPerFrame)) { + *pFormatOut = ma_format_s24; + return MA_SUCCESS; + } else { + if (pDescription->mBytesPerFrame/pDescription->mChannelsPerFrame == sizeof(ma_int32)) { + /* TODO: Implement ma_format_s24_32. */ + /**pFormatOut = ma_format_s24_32;*/ + /*return MA_SUCCESS;*/ + return MA_FORMAT_NOT_SUPPORTED; + } + } + } else if (pDescription->mBitsPerChannel == 32) { + *pFormatOut = ma_format_s32; + return MA_SUCCESS; + } + } else { + if (pDescription->mBitsPerChannel == 8) { + *pFormatOut = ma_format_u8; + return MA_SUCCESS; + } + } + } + + /* Getting here means the format is not supported. */ + return MA_FORMAT_NOT_SUPPORTED; +} + +#if defined(MA_APPLE_DESKTOP) +static ma_channel ma_channel_from_AudioChannelLabel(AudioChannelLabel label) +{ + switch (label) + { + case kAudioChannelLabel_Unknown: return MA_CHANNEL_NONE; + case kAudioChannelLabel_Unused: return MA_CHANNEL_NONE; + case kAudioChannelLabel_UseCoordinates: return MA_CHANNEL_NONE; + case kAudioChannelLabel_Left: return MA_CHANNEL_LEFT; + case kAudioChannelLabel_Right: return MA_CHANNEL_RIGHT; + case kAudioChannelLabel_Center: return MA_CHANNEL_FRONT_CENTER; + case kAudioChannelLabel_LFEScreen: return MA_CHANNEL_LFE; + case kAudioChannelLabel_LeftSurround: return MA_CHANNEL_BACK_LEFT; + case kAudioChannelLabel_RightSurround: return MA_CHANNEL_BACK_RIGHT; + case kAudioChannelLabel_LeftCenter: return MA_CHANNEL_FRONT_LEFT_CENTER; + case kAudioChannelLabel_RightCenter: return MA_CHANNEL_FRONT_RIGHT_CENTER; + case kAudioChannelLabel_CenterSurround: return MA_CHANNEL_BACK_CENTER; + case kAudioChannelLabel_LeftSurroundDirect: return MA_CHANNEL_SIDE_LEFT; + case kAudioChannelLabel_RightSurroundDirect: return MA_CHANNEL_SIDE_RIGHT; + case kAudioChannelLabel_TopCenterSurround: return MA_CHANNEL_TOP_CENTER; + case kAudioChannelLabel_VerticalHeightLeft: return MA_CHANNEL_TOP_FRONT_LEFT; + case kAudioChannelLabel_VerticalHeightCenter: return MA_CHANNEL_TOP_FRONT_CENTER; + case kAudioChannelLabel_VerticalHeightRight: return MA_CHANNEL_TOP_FRONT_RIGHT; + case kAudioChannelLabel_TopBackLeft: return MA_CHANNEL_TOP_BACK_LEFT; + case kAudioChannelLabel_TopBackCenter: return MA_CHANNEL_TOP_BACK_CENTER; + case kAudioChannelLabel_TopBackRight: return MA_CHANNEL_TOP_BACK_RIGHT; + case kAudioChannelLabel_RearSurroundLeft: return MA_CHANNEL_BACK_LEFT; + case kAudioChannelLabel_RearSurroundRight: return MA_CHANNEL_BACK_RIGHT; + case kAudioChannelLabel_LeftWide: return MA_CHANNEL_SIDE_LEFT; + case kAudioChannelLabel_RightWide: return MA_CHANNEL_SIDE_RIGHT; + case kAudioChannelLabel_LFE2: return MA_CHANNEL_LFE; + case kAudioChannelLabel_LeftTotal: return MA_CHANNEL_LEFT; + case kAudioChannelLabel_RightTotal: return MA_CHANNEL_RIGHT; + case kAudioChannelLabel_HearingImpaired: return MA_CHANNEL_NONE; + case kAudioChannelLabel_Narration: return MA_CHANNEL_MONO; + case kAudioChannelLabel_Mono: return MA_CHANNEL_MONO; + case kAudioChannelLabel_DialogCentricMix: return MA_CHANNEL_MONO; + case kAudioChannelLabel_CenterSurroundDirect: return MA_CHANNEL_BACK_CENTER; + case kAudioChannelLabel_Haptic: return MA_CHANNEL_NONE; + case kAudioChannelLabel_Ambisonic_W: return MA_CHANNEL_NONE; + case kAudioChannelLabel_Ambisonic_X: return MA_CHANNEL_NONE; + case kAudioChannelLabel_Ambisonic_Y: return MA_CHANNEL_NONE; + case kAudioChannelLabel_Ambisonic_Z: return MA_CHANNEL_NONE; + case kAudioChannelLabel_MS_Mid: return MA_CHANNEL_LEFT; + case kAudioChannelLabel_MS_Side: return MA_CHANNEL_RIGHT; + case kAudioChannelLabel_XY_X: return MA_CHANNEL_LEFT; + case kAudioChannelLabel_XY_Y: return MA_CHANNEL_RIGHT; + case kAudioChannelLabel_HeadphonesLeft: return MA_CHANNEL_LEFT; + case kAudioChannelLabel_HeadphonesRight: return MA_CHANNEL_RIGHT; + case kAudioChannelLabel_ClickTrack: return MA_CHANNEL_NONE; + case kAudioChannelLabel_ForeignLanguage: return MA_CHANNEL_NONE; + case kAudioChannelLabel_Discrete: return MA_CHANNEL_NONE; + case kAudioChannelLabel_Discrete_0: return MA_CHANNEL_AUX_0; + case kAudioChannelLabel_Discrete_1: return MA_CHANNEL_AUX_1; + case kAudioChannelLabel_Discrete_2: return MA_CHANNEL_AUX_2; + case kAudioChannelLabel_Discrete_3: return MA_CHANNEL_AUX_3; + case kAudioChannelLabel_Discrete_4: return MA_CHANNEL_AUX_4; + case kAudioChannelLabel_Discrete_5: return MA_CHANNEL_AUX_5; + case kAudioChannelLabel_Discrete_6: return MA_CHANNEL_AUX_6; + case kAudioChannelLabel_Discrete_7: return MA_CHANNEL_AUX_7; + case kAudioChannelLabel_Discrete_8: return MA_CHANNEL_AUX_8; + case kAudioChannelLabel_Discrete_9: return MA_CHANNEL_AUX_9; + case kAudioChannelLabel_Discrete_10: return MA_CHANNEL_AUX_10; + case kAudioChannelLabel_Discrete_11: return MA_CHANNEL_AUX_11; + case kAudioChannelLabel_Discrete_12: return MA_CHANNEL_AUX_12; + case kAudioChannelLabel_Discrete_13: return MA_CHANNEL_AUX_13; + case kAudioChannelLabel_Discrete_14: return MA_CHANNEL_AUX_14; + case kAudioChannelLabel_Discrete_15: return MA_CHANNEL_AUX_15; + case kAudioChannelLabel_Discrete_65535: return MA_CHANNEL_NONE; + + #if 0 /* Introduced in a later version of macOS. */ + case kAudioChannelLabel_HOA_ACN: return MA_CHANNEL_NONE; + case kAudioChannelLabel_HOA_ACN_0: return MA_CHANNEL_AUX_0; + case kAudioChannelLabel_HOA_ACN_1: return MA_CHANNEL_AUX_1; + case kAudioChannelLabel_HOA_ACN_2: return MA_CHANNEL_AUX_2; + case kAudioChannelLabel_HOA_ACN_3: return MA_CHANNEL_AUX_3; + case kAudioChannelLabel_HOA_ACN_4: return MA_CHANNEL_AUX_4; + case kAudioChannelLabel_HOA_ACN_5: return MA_CHANNEL_AUX_5; + case kAudioChannelLabel_HOA_ACN_6: return MA_CHANNEL_AUX_6; + case kAudioChannelLabel_HOA_ACN_7: return MA_CHANNEL_AUX_7; + case kAudioChannelLabel_HOA_ACN_8: return MA_CHANNEL_AUX_8; + case kAudioChannelLabel_HOA_ACN_9: return MA_CHANNEL_AUX_9; + case kAudioChannelLabel_HOA_ACN_10: return MA_CHANNEL_AUX_10; + case kAudioChannelLabel_HOA_ACN_11: return MA_CHANNEL_AUX_11; + case kAudioChannelLabel_HOA_ACN_12: return MA_CHANNEL_AUX_12; + case kAudioChannelLabel_HOA_ACN_13: return MA_CHANNEL_AUX_13; + case kAudioChannelLabel_HOA_ACN_14: return MA_CHANNEL_AUX_14; + case kAudioChannelLabel_HOA_ACN_15: return MA_CHANNEL_AUX_15; + case kAudioChannelLabel_HOA_ACN_65024: return MA_CHANNEL_NONE; + #endif + + default: return MA_CHANNEL_NONE; + } +} + +static ma_result ma_get_channel_map_from_AudioChannelLayout(AudioChannelLayout* pChannelLayout, ma_channel* pChannelMap, size_t channelMapCap) +{ + MA_ASSERT(pChannelLayout != NULL); + + if (pChannelLayout->mChannelLayoutTag == kAudioChannelLayoutTag_UseChannelDescriptions) { + UInt32 iChannel; + for (iChannel = 0; iChannel < pChannelLayout->mNumberChannelDescriptions && iChannel < channelMapCap; ++iChannel) { + pChannelMap[iChannel] = ma_channel_from_AudioChannelLabel(pChannelLayout->mChannelDescriptions[iChannel].mChannelLabel); + } + } else +#if 0 + if (pChannelLayout->mChannelLayoutTag == kAudioChannelLayoutTag_UseChannelBitmap) { + /* This is the same kind of system that's used by Windows audio APIs. */ + UInt32 iChannel = 0; + UInt32 iBit; + AudioChannelBitmap bitmap = pChannelLayout->mChannelBitmap; + for (iBit = 0; iBit < 32 && iChannel < channelMapCap; ++iBit) { + AudioChannelBitmap bit = bitmap & (1 << iBit); + if (bit != 0) { + pChannelMap[iChannel++] = ma_channel_from_AudioChannelBit(bit); + } + } + } else +#endif + { + /* + Need to use the tag to determine the channel map. For now I'm just assuming a default channel map, but later on this should + be updated to determine the mapping based on the tag. + */ + UInt32 channelCount; + + /* Our channel map retrieval APIs below take 32-bit integers, so we'll want to clamp the channel map capacity. */ + if (channelMapCap > 0xFFFFFFFF) { + channelMapCap = 0xFFFFFFFF; + } + + channelCount = ma_min(AudioChannelLayoutTag_GetNumberOfChannels(pChannelLayout->mChannelLayoutTag), (UInt32)channelMapCap); + + switch (pChannelLayout->mChannelLayoutTag) + { + case kAudioChannelLayoutTag_Mono: + case kAudioChannelLayoutTag_Stereo: + case kAudioChannelLayoutTag_StereoHeadphones: + case kAudioChannelLayoutTag_MatrixStereo: + case kAudioChannelLayoutTag_MidSide: + case kAudioChannelLayoutTag_XY: + case kAudioChannelLayoutTag_Binaural: + case kAudioChannelLayoutTag_Ambisonic_B_Format: + { + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, channelCount); + } break; + + case kAudioChannelLayoutTag_Octagonal: + { + pChannelMap[7] = MA_CHANNEL_SIDE_RIGHT; + pChannelMap[6] = MA_CHANNEL_SIDE_LEFT; + } MA_FALLTHROUGH; /* Intentional fallthrough. */ + case kAudioChannelLayoutTag_Hexagonal: + { + pChannelMap[5] = MA_CHANNEL_BACK_CENTER; + } MA_FALLTHROUGH; /* Intentional fallthrough. */ + case kAudioChannelLayoutTag_Pentagonal: + { + pChannelMap[4] = MA_CHANNEL_FRONT_CENTER; + } MA_FALLTHROUGH; /* Intentional fallthrough. */ + case kAudioChannelLayoutTag_Quadraphonic: + { + pChannelMap[3] = MA_CHANNEL_BACK_RIGHT; + pChannelMap[2] = MA_CHANNEL_BACK_LEFT; + pChannelMap[1] = MA_CHANNEL_RIGHT; + pChannelMap[0] = MA_CHANNEL_LEFT; + } break; + + /* TODO: Add support for more tags here. */ + + default: + { + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, channelCount); + } break; + } + } + + return MA_SUCCESS; +} + +#if (defined(MAC_OS_VERSION_12_0) && MAC_OS_X_VERSION_MAX_ALLOWED >= MAC_OS_VERSION_12_0) || \ + (defined(__IPHONE_15_0) && __IPHONE_OS_VERSION_MAX_ALLOWED >= __IPHONE_15_0) +#define AUDIO_OBJECT_PROPERTY_ELEMENT kAudioObjectPropertyElementMain +#else +/* kAudioObjectPropertyElementMaster is deprecated. */ +#define AUDIO_OBJECT_PROPERTY_ELEMENT kAudioObjectPropertyElementMaster +#endif + +/* kAudioDevicePropertyScope* were renamed to kAudioObjectPropertyScope* in 10.8. */ +#if !defined(MAC_OS_X_VERSION_10_8) || (MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_8) +#define kAudioObjectPropertyScopeInput kAudioDevicePropertyScopeInput +#define kAudioObjectPropertyScopeOutput kAudioDevicePropertyScopeOutput +#endif + +static ma_result ma_get_device_object_ids__coreaudio(ma_context* pContext, UInt32* pDeviceCount, AudioObjectID** ppDeviceObjectIDs) /* NOTE: Free the returned buffer with ma_free(). */ +{ + AudioObjectPropertyAddress propAddressDevices; + UInt32 deviceObjectsDataSize; + OSStatus status; + AudioObjectID* pDeviceObjectIDs; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pDeviceCount != NULL); + MA_ASSERT(ppDeviceObjectIDs != NULL); + + /* Safety. */ + *pDeviceCount = 0; + *ppDeviceObjectIDs = NULL; + + propAddressDevices.mSelector = kAudioHardwarePropertyDevices; + propAddressDevices.mScope = kAudioObjectPropertyScopeGlobal; + propAddressDevices.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + status = ((ma_AudioObjectGetPropertyDataSize_proc)pContext->coreaudio.AudioObjectGetPropertyDataSize)(kAudioObjectSystemObject, &propAddressDevices, 0, NULL, &deviceObjectsDataSize); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + + pDeviceObjectIDs = (AudioObjectID*)ma_malloc(deviceObjectsDataSize, &pContext->allocationCallbacks); + if (pDeviceObjectIDs == NULL) { + return MA_OUT_OF_MEMORY; + } + + status = ((ma_AudioObjectGetPropertyData_proc)pContext->coreaudio.AudioObjectGetPropertyData)(kAudioObjectSystemObject, &propAddressDevices, 0, NULL, &deviceObjectsDataSize, pDeviceObjectIDs); + if (status != noErr) { + ma_free(pDeviceObjectIDs, &pContext->allocationCallbacks); + return ma_result_from_OSStatus(status); + } + + *pDeviceCount = deviceObjectsDataSize / sizeof(AudioObjectID); + *ppDeviceObjectIDs = pDeviceObjectIDs; + + return MA_SUCCESS; +} + +static ma_result ma_get_AudioObject_uid_as_CFStringRef(ma_context* pContext, AudioObjectID objectID, CFStringRef* pUID) +{ + AudioObjectPropertyAddress propAddress; + UInt32 dataSize; + OSStatus status; + + MA_ASSERT(pContext != NULL); + + propAddress.mSelector = kAudioDevicePropertyDeviceUID; + propAddress.mScope = kAudioObjectPropertyScopeGlobal; + propAddress.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + dataSize = sizeof(*pUID); + status = ((ma_AudioObjectGetPropertyData_proc)pContext->coreaudio.AudioObjectGetPropertyData)(objectID, &propAddress, 0, NULL, &dataSize, pUID); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + + return MA_SUCCESS; +} + +static ma_result ma_get_AudioObject_uid(ma_context* pContext, AudioObjectID objectID, size_t bufferSize, char* bufferOut) +{ + CFStringRef uid; + ma_result result; + + MA_ASSERT(pContext != NULL); + + result = ma_get_AudioObject_uid_as_CFStringRef(pContext, objectID, &uid); + if (result != MA_SUCCESS) { + return result; + } + + if (!((ma_CFStringGetCString_proc)pContext->coreaudio.CFStringGetCString)(uid, bufferOut, bufferSize, kCFStringEncodingUTF8)) { + return MA_ERROR; + } + + ((ma_CFRelease_proc)pContext->coreaudio.CFRelease)(uid); + return MA_SUCCESS; +} + +static ma_result ma_get_AudioObject_name(ma_context* pContext, AudioObjectID objectID, size_t bufferSize, char* bufferOut) +{ + AudioObjectPropertyAddress propAddress; + CFStringRef deviceName = NULL; + UInt32 dataSize; + OSStatus status; + + MA_ASSERT(pContext != NULL); + + propAddress.mSelector = kAudioDevicePropertyDeviceNameCFString; + propAddress.mScope = kAudioObjectPropertyScopeGlobal; + propAddress.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + dataSize = sizeof(deviceName); + status = ((ma_AudioObjectGetPropertyData_proc)pContext->coreaudio.AudioObjectGetPropertyData)(objectID, &propAddress, 0, NULL, &dataSize, &deviceName); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + + if (!((ma_CFStringGetCString_proc)pContext->coreaudio.CFStringGetCString)(deviceName, bufferOut, bufferSize, kCFStringEncodingUTF8)) { + return MA_ERROR; + } + + ((ma_CFRelease_proc)pContext->coreaudio.CFRelease)(deviceName); + return MA_SUCCESS; +} + +static ma_bool32 ma_does_AudioObject_support_scope(ma_context* pContext, AudioObjectID deviceObjectID, AudioObjectPropertyScope scope) +{ + AudioObjectPropertyAddress propAddress; + UInt32 dataSize; + OSStatus status; + AudioBufferList* pBufferList; + ma_bool32 isSupported; + + MA_ASSERT(pContext != NULL); + + /* To know whether or not a device is an input device we need ot look at the stream configuration. If it has an output channel it's a playback device. */ + propAddress.mSelector = kAudioDevicePropertyStreamConfiguration; + propAddress.mScope = scope; + propAddress.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + status = ((ma_AudioObjectGetPropertyDataSize_proc)pContext->coreaudio.AudioObjectGetPropertyDataSize)(deviceObjectID, &propAddress, 0, NULL, &dataSize); + if (status != noErr) { + return MA_FALSE; + } + + pBufferList = (AudioBufferList*)ma_malloc(dataSize, &pContext->allocationCallbacks); + if (pBufferList == NULL) { + return MA_FALSE; /* Out of memory. */ + } + + status = ((ma_AudioObjectGetPropertyData_proc)pContext->coreaudio.AudioObjectGetPropertyData)(deviceObjectID, &propAddress, 0, NULL, &dataSize, pBufferList); + if (status != noErr) { + ma_free(pBufferList, &pContext->allocationCallbacks); + return MA_FALSE; + } + + isSupported = MA_FALSE; + if (pBufferList->mNumberBuffers > 0) { + isSupported = MA_TRUE; + } + + ma_free(pBufferList, &pContext->allocationCallbacks); + return isSupported; +} + +static ma_bool32 ma_does_AudioObject_support_playback(ma_context* pContext, AudioObjectID deviceObjectID) +{ + return ma_does_AudioObject_support_scope(pContext, deviceObjectID, kAudioObjectPropertyScopeOutput); +} + +static ma_bool32 ma_does_AudioObject_support_capture(ma_context* pContext, AudioObjectID deviceObjectID) +{ + return ma_does_AudioObject_support_scope(pContext, deviceObjectID, kAudioObjectPropertyScopeInput); +} + + +static ma_result ma_get_AudioObject_stream_descriptions(ma_context* pContext, AudioObjectID deviceObjectID, ma_device_type deviceType, UInt32* pDescriptionCount, AudioStreamRangedDescription** ppDescriptions) /* NOTE: Free the returned pointer with ma_free(). */ +{ + AudioObjectPropertyAddress propAddress; + UInt32 dataSize; + OSStatus status; + AudioStreamRangedDescription* pDescriptions; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pDescriptionCount != NULL); + MA_ASSERT(ppDescriptions != NULL); + + /* + TODO: Experiment with kAudioStreamPropertyAvailablePhysicalFormats instead of (or in addition to) kAudioStreamPropertyAvailableVirtualFormats. My + MacBook Pro uses s24/32 format, however, which miniaudio does not currently support. + */ + propAddress.mSelector = kAudioStreamPropertyAvailableVirtualFormats; /*kAudioStreamPropertyAvailablePhysicalFormats;*/ + propAddress.mScope = (deviceType == ma_device_type_playback) ? kAudioObjectPropertyScopeOutput : kAudioObjectPropertyScopeInput; + propAddress.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + status = ((ma_AudioObjectGetPropertyDataSize_proc)pContext->coreaudio.AudioObjectGetPropertyDataSize)(deviceObjectID, &propAddress, 0, NULL, &dataSize); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + + pDescriptions = (AudioStreamRangedDescription*)ma_malloc(dataSize, &pContext->allocationCallbacks); + if (pDescriptions == NULL) { + return MA_OUT_OF_MEMORY; + } + + status = ((ma_AudioObjectGetPropertyData_proc)pContext->coreaudio.AudioObjectGetPropertyData)(deviceObjectID, &propAddress, 0, NULL, &dataSize, pDescriptions); + if (status != noErr) { + ma_free(pDescriptions, &pContext->allocationCallbacks); + return ma_result_from_OSStatus(status); + } + + *pDescriptionCount = dataSize / sizeof(*pDescriptions); + *ppDescriptions = pDescriptions; + return MA_SUCCESS; +} + + +static ma_result ma_get_AudioObject_channel_layout(ma_context* pContext, AudioObjectID deviceObjectID, ma_device_type deviceType, AudioChannelLayout** ppChannelLayout) /* NOTE: Free the returned pointer with ma_free(). */ +{ + AudioObjectPropertyAddress propAddress; + UInt32 dataSize; + OSStatus status; + AudioChannelLayout* pChannelLayout; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(ppChannelLayout != NULL); + + *ppChannelLayout = NULL; /* Safety. */ + + propAddress.mSelector = kAudioDevicePropertyPreferredChannelLayout; + propAddress.mScope = (deviceType == ma_device_type_playback) ? kAudioObjectPropertyScopeOutput : kAudioObjectPropertyScopeInput; + propAddress.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + status = ((ma_AudioObjectGetPropertyDataSize_proc)pContext->coreaudio.AudioObjectGetPropertyDataSize)(deviceObjectID, &propAddress, 0, NULL, &dataSize); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + + pChannelLayout = (AudioChannelLayout*)ma_malloc(dataSize, &pContext->allocationCallbacks); + if (pChannelLayout == NULL) { + return MA_OUT_OF_MEMORY; + } + + status = ((ma_AudioObjectGetPropertyData_proc)pContext->coreaudio.AudioObjectGetPropertyData)(deviceObjectID, &propAddress, 0, NULL, &dataSize, pChannelLayout); + if (status != noErr) { + ma_free(pChannelLayout, &pContext->allocationCallbacks); + return ma_result_from_OSStatus(status); + } + + *ppChannelLayout = pChannelLayout; + return MA_SUCCESS; +} + +static ma_result ma_get_AudioObject_channel_count(ma_context* pContext, AudioObjectID deviceObjectID, ma_device_type deviceType, ma_uint32* pChannelCount) +{ + AudioChannelLayout* pChannelLayout; + ma_result result; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pChannelCount != NULL); + + *pChannelCount = 0; /* Safety. */ + + result = ma_get_AudioObject_channel_layout(pContext, deviceObjectID, deviceType, &pChannelLayout); + if (result != MA_SUCCESS) { + return result; + } + + if (pChannelLayout->mChannelLayoutTag == kAudioChannelLayoutTag_UseChannelDescriptions) { + *pChannelCount = pChannelLayout->mNumberChannelDescriptions; + } else if (pChannelLayout->mChannelLayoutTag == kAudioChannelLayoutTag_UseChannelBitmap) { + *pChannelCount = ma_count_set_bits(pChannelLayout->mChannelBitmap); + } else { + *pChannelCount = AudioChannelLayoutTag_GetNumberOfChannels(pChannelLayout->mChannelLayoutTag); + } + + ma_free(pChannelLayout, &pContext->allocationCallbacks); + return MA_SUCCESS; +} + +#if 0 +static ma_result ma_get_AudioObject_channel_map(ma_context* pContext, AudioObjectID deviceObjectID, ma_device_type deviceType, ma_channel* pChannelMap, size_t channelMapCap) +{ + AudioChannelLayout* pChannelLayout; + ma_result result; + + MA_ASSERT(pContext != NULL); + + result = ma_get_AudioObject_channel_layout(pContext, deviceObjectID, deviceType, &pChannelLayout); + if (result != MA_SUCCESS) { + return result; /* Rather than always failing here, would it be more robust to simply assume a default? */ + } + + result = ma_get_channel_map_from_AudioChannelLayout(pChannelLayout, pChannelMap, channelMapCap); + if (result != MA_SUCCESS) { + ma_free(pChannelLayout, &pContext->allocationCallbacks); + return result; + } + + ma_free(pChannelLayout, &pContext->allocationCallbacks); + return result; +} +#endif + +static ma_result ma_get_AudioObject_sample_rates(ma_context* pContext, AudioObjectID deviceObjectID, ma_device_type deviceType, UInt32* pSampleRateRangesCount, AudioValueRange** ppSampleRateRanges) /* NOTE: Free the returned pointer with ma_free(). */ +{ + AudioObjectPropertyAddress propAddress; + UInt32 dataSize; + OSStatus status; + AudioValueRange* pSampleRateRanges; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pSampleRateRangesCount != NULL); + MA_ASSERT(ppSampleRateRanges != NULL); + + /* Safety. */ + *pSampleRateRangesCount = 0; + *ppSampleRateRanges = NULL; + + propAddress.mSelector = kAudioDevicePropertyAvailableNominalSampleRates; + propAddress.mScope = (deviceType == ma_device_type_playback) ? kAudioObjectPropertyScopeOutput : kAudioObjectPropertyScopeInput; + propAddress.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + status = ((ma_AudioObjectGetPropertyDataSize_proc)pContext->coreaudio.AudioObjectGetPropertyDataSize)(deviceObjectID, &propAddress, 0, NULL, &dataSize); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + + pSampleRateRanges = (AudioValueRange*)ma_malloc(dataSize, &pContext->allocationCallbacks); + if (pSampleRateRanges == NULL) { + return MA_OUT_OF_MEMORY; + } + + status = ((ma_AudioObjectGetPropertyData_proc)pContext->coreaudio.AudioObjectGetPropertyData)(deviceObjectID, &propAddress, 0, NULL, &dataSize, pSampleRateRanges); + if (status != noErr) { + ma_free(pSampleRateRanges, &pContext->allocationCallbacks); + return ma_result_from_OSStatus(status); + } + + *pSampleRateRangesCount = dataSize / sizeof(*pSampleRateRanges); + *ppSampleRateRanges = pSampleRateRanges; + return MA_SUCCESS; +} + +#if 0 +static ma_result ma_get_AudioObject_get_closest_sample_rate(ma_context* pContext, AudioObjectID deviceObjectID, ma_device_type deviceType, ma_uint32 sampleRateIn, ma_uint32* pSampleRateOut) +{ + UInt32 sampleRateRangeCount; + AudioValueRange* pSampleRateRanges; + ma_result result; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pSampleRateOut != NULL); + + *pSampleRateOut = 0; /* Safety. */ + + result = ma_get_AudioObject_sample_rates(pContext, deviceObjectID, deviceType, &sampleRateRangeCount, &pSampleRateRanges); + if (result != MA_SUCCESS) { + return result; + } + + if (sampleRateRangeCount == 0) { + ma_free(pSampleRateRanges, &pContext->allocationCallbacks); + return MA_ERROR; /* Should never hit this case should we? */ + } + + if (sampleRateIn == 0) { + /* Search in order of miniaudio's preferred priority. */ + UInt32 iMALSampleRate; + for (iMALSampleRate = 0; iMALSampleRate < ma_countof(g_maStandardSampleRatePriorities); ++iMALSampleRate) { + ma_uint32 malSampleRate = g_maStandardSampleRatePriorities[iMALSampleRate]; + UInt32 iCASampleRate; + for (iCASampleRate = 0; iCASampleRate < sampleRateRangeCount; ++iCASampleRate) { + AudioValueRange caSampleRate = pSampleRateRanges[iCASampleRate]; + if (caSampleRate.mMinimum <= malSampleRate && caSampleRate.mMaximum >= malSampleRate) { + *pSampleRateOut = malSampleRate; + ma_free(pSampleRateRanges, &pContext->allocationCallbacks); + return MA_SUCCESS; + } + } + } + + /* + If we get here it means none of miniaudio's standard sample rates matched any of the supported sample rates from the device. In this + case we just fall back to the first one reported by Core Audio. + */ + MA_ASSERT(sampleRateRangeCount > 0); + + *pSampleRateOut = pSampleRateRanges[0].mMinimum; + ma_free(pSampleRateRanges, &pContext->allocationCallbacks); + return MA_SUCCESS; + } else { + /* Find the closest match to this sample rate. */ + UInt32 currentAbsoluteDifference = INT32_MAX; + UInt32 iCurrentClosestRange = (UInt32)-1; + UInt32 iRange; + for (iRange = 0; iRange < sampleRateRangeCount; ++iRange) { + if (pSampleRateRanges[iRange].mMinimum <= sampleRateIn && pSampleRateRanges[iRange].mMaximum >= sampleRateIn) { + *pSampleRateOut = sampleRateIn; + ma_free(pSampleRateRanges, &pContext->allocationCallbacks); + return MA_SUCCESS; + } else { + UInt32 absoluteDifference; + if (pSampleRateRanges[iRange].mMinimum > sampleRateIn) { + absoluteDifference = pSampleRateRanges[iRange].mMinimum - sampleRateIn; + } else { + absoluteDifference = sampleRateIn - pSampleRateRanges[iRange].mMaximum; + } + + if (currentAbsoluteDifference > absoluteDifference) { + currentAbsoluteDifference = absoluteDifference; + iCurrentClosestRange = iRange; + } + } + } + + MA_ASSERT(iCurrentClosestRange != (UInt32)-1); + + *pSampleRateOut = pSampleRateRanges[iCurrentClosestRange].mMinimum; + ma_free(pSampleRateRanges, &pContext->allocationCallbacks); + return MA_SUCCESS; + } + + /* Should never get here, but it would mean we weren't able to find any suitable sample rates. */ + /*ma_free(pSampleRateRanges, &pContext->allocationCallbacks);*/ + /*return MA_ERROR;*/ +} +#endif + +static ma_result ma_get_AudioObject_closest_buffer_size_in_frames(ma_context* pContext, AudioObjectID deviceObjectID, ma_device_type deviceType, ma_uint32 bufferSizeInFramesIn, ma_uint32* pBufferSizeInFramesOut) +{ + AudioObjectPropertyAddress propAddress; + AudioValueRange bufferSizeRange; + UInt32 dataSize; + OSStatus status; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pBufferSizeInFramesOut != NULL); + + *pBufferSizeInFramesOut = 0; /* Safety. */ + + propAddress.mSelector = kAudioDevicePropertyBufferFrameSizeRange; + propAddress.mScope = (deviceType == ma_device_type_playback) ? kAudioObjectPropertyScopeOutput : kAudioObjectPropertyScopeInput; + propAddress.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + dataSize = sizeof(bufferSizeRange); + status = ((ma_AudioObjectGetPropertyData_proc)pContext->coreaudio.AudioObjectGetPropertyData)(deviceObjectID, &propAddress, 0, NULL, &dataSize, &bufferSizeRange); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + + /* This is just a clamp. */ + if (bufferSizeInFramesIn < bufferSizeRange.mMinimum) { + *pBufferSizeInFramesOut = (ma_uint32)bufferSizeRange.mMinimum; + } else if (bufferSizeInFramesIn > bufferSizeRange.mMaximum) { + *pBufferSizeInFramesOut = (ma_uint32)bufferSizeRange.mMaximum; + } else { + *pBufferSizeInFramesOut = bufferSizeInFramesIn; + } + + return MA_SUCCESS; +} + +static ma_result ma_set_AudioObject_buffer_size_in_frames(ma_context* pContext, AudioObjectID deviceObjectID, ma_device_type deviceType, ma_uint32* pPeriodSizeInOut) +{ + ma_result result; + ma_uint32 chosenBufferSizeInFrames; + AudioObjectPropertyAddress propAddress; + UInt32 dataSize; + OSStatus status; + + MA_ASSERT(pContext != NULL); + + result = ma_get_AudioObject_closest_buffer_size_in_frames(pContext, deviceObjectID, deviceType, *pPeriodSizeInOut, &chosenBufferSizeInFrames); + if (result != MA_SUCCESS) { + return result; + } + + /* Try setting the size of the buffer... If this fails we just use whatever is currently set. */ + propAddress.mSelector = kAudioDevicePropertyBufferFrameSize; + propAddress.mScope = (deviceType == ma_device_type_playback) ? kAudioObjectPropertyScopeOutput : kAudioObjectPropertyScopeInput; + propAddress.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + ((ma_AudioObjectSetPropertyData_proc)pContext->coreaudio.AudioObjectSetPropertyData)(deviceObjectID, &propAddress, 0, NULL, sizeof(chosenBufferSizeInFrames), &chosenBufferSizeInFrames); + + /* Get the actual size of the buffer. */ + dataSize = sizeof(*pPeriodSizeInOut); + status = ((ma_AudioObjectGetPropertyData_proc)pContext->coreaudio.AudioObjectGetPropertyData)(deviceObjectID, &propAddress, 0, NULL, &dataSize, &chosenBufferSizeInFrames); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + + *pPeriodSizeInOut = chosenBufferSizeInFrames; + return MA_SUCCESS; +} + +static ma_result ma_find_default_AudioObjectID(ma_context* pContext, ma_device_type deviceType, AudioObjectID* pDeviceObjectID) +{ + AudioObjectPropertyAddress propAddressDefaultDevice; + UInt32 defaultDeviceObjectIDSize = sizeof(AudioObjectID); + AudioObjectID defaultDeviceObjectID; + OSStatus status; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pDeviceObjectID != NULL); + + /* Safety. */ + *pDeviceObjectID = 0; + + propAddressDefaultDevice.mScope = kAudioObjectPropertyScopeGlobal; + propAddressDefaultDevice.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + if (deviceType == ma_device_type_playback) { + propAddressDefaultDevice.mSelector = kAudioHardwarePropertyDefaultOutputDevice; + } else { + propAddressDefaultDevice.mSelector = kAudioHardwarePropertyDefaultInputDevice; + } + + defaultDeviceObjectIDSize = sizeof(AudioObjectID); + status = ((ma_AudioObjectGetPropertyData_proc)pContext->coreaudio.AudioObjectGetPropertyData)(kAudioObjectSystemObject, &propAddressDefaultDevice, 0, NULL, &defaultDeviceObjectIDSize, &defaultDeviceObjectID); + if (status == noErr) { + *pDeviceObjectID = defaultDeviceObjectID; + return MA_SUCCESS; + } + + /* If we get here it means we couldn't find the device. */ + return MA_NO_DEVICE; +} + +static ma_result ma_find_AudioObjectID(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, AudioObjectID* pDeviceObjectID) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pDeviceObjectID != NULL); + + /* Safety. */ + *pDeviceObjectID = 0; + + if (pDeviceID == NULL) { + /* Default device. */ + return ma_find_default_AudioObjectID(pContext, deviceType, pDeviceObjectID); + } else { + /* Explicit device. */ + UInt32 deviceCount; + AudioObjectID* pDeviceObjectIDs; + ma_result result; + UInt32 iDevice; + + result = ma_get_device_object_ids__coreaudio(pContext, &deviceCount, &pDeviceObjectIDs); + if (result != MA_SUCCESS) { + return result; + } + + for (iDevice = 0; iDevice < deviceCount; ++iDevice) { + AudioObjectID deviceObjectID = pDeviceObjectIDs[iDevice]; + + char uid[256]; + if (ma_get_AudioObject_uid(pContext, deviceObjectID, sizeof(uid), uid) != MA_SUCCESS) { + continue; + } + + if (deviceType == ma_device_type_playback) { + if (ma_does_AudioObject_support_playback(pContext, deviceObjectID)) { + if (strcmp(uid, pDeviceID->coreaudio) == 0) { + *pDeviceObjectID = deviceObjectID; + ma_free(pDeviceObjectIDs, &pContext->allocationCallbacks); + return MA_SUCCESS; + } + } + } else { + if (ma_does_AudioObject_support_capture(pContext, deviceObjectID)) { + if (strcmp(uid, pDeviceID->coreaudio) == 0) { + *pDeviceObjectID = deviceObjectID; + ma_free(pDeviceObjectIDs, &pContext->allocationCallbacks); + return MA_SUCCESS; + } + } + } + } + + ma_free(pDeviceObjectIDs, &pContext->allocationCallbacks); + } + + /* If we get here it means we couldn't find the device. */ + return MA_NO_DEVICE; +} + + +static ma_result ma_find_best_format__coreaudio(ma_context* pContext, AudioObjectID deviceObjectID, ma_device_type deviceType, ma_format format, ma_uint32 channels, ma_uint32 sampleRate, const AudioStreamBasicDescription* pOrigFormat, AudioStreamBasicDescription* pFormat) +{ + UInt32 deviceFormatDescriptionCount; + AudioStreamRangedDescription* pDeviceFormatDescriptions; + ma_result result; + ma_uint32 desiredSampleRate; + ma_uint32 desiredChannelCount; + ma_format desiredFormat; + AudioStreamBasicDescription bestDeviceFormatSoFar; + ma_bool32 hasSupportedFormat; + UInt32 iFormat; + + result = ma_get_AudioObject_stream_descriptions(pContext, deviceObjectID, deviceType, &deviceFormatDescriptionCount, &pDeviceFormatDescriptions); + if (result != MA_SUCCESS) { + return result; + } + + desiredSampleRate = sampleRate; + if (desiredSampleRate == 0) { + desiredSampleRate = (ma_uint32)pOrigFormat->mSampleRate; + } + + desiredChannelCount = channels; + if (desiredChannelCount == 0) { + desiredChannelCount = pOrigFormat->mChannelsPerFrame; + } + + desiredFormat = format; + if (desiredFormat == ma_format_unknown) { + result = ma_format_from_AudioStreamBasicDescription(pOrigFormat, &desiredFormat); + if (result != MA_SUCCESS || desiredFormat == ma_format_unknown) { + desiredFormat = g_maFormatPriorities[0]; + } + } + + /* + If we get here it means we don't have an exact match to what the client is asking for. We'll need to find the closest one. The next + loop will check for formats that have the same sample rate to what we're asking for. If there is, we prefer that one in all cases. + */ + MA_ZERO_OBJECT(&bestDeviceFormatSoFar); + + hasSupportedFormat = MA_FALSE; + for (iFormat = 0; iFormat < deviceFormatDescriptionCount; ++iFormat) { + ma_format formatFromDescription; + ma_result formatResult = ma_format_from_AudioStreamBasicDescription(&pDeviceFormatDescriptions[iFormat].mFormat, &formatFromDescription); + if (formatResult == MA_SUCCESS && formatFromDescription != ma_format_unknown) { + hasSupportedFormat = MA_TRUE; + bestDeviceFormatSoFar = pDeviceFormatDescriptions[iFormat].mFormat; + break; + } + } + + if (!hasSupportedFormat) { + ma_free(pDeviceFormatDescriptions, &pContext->allocationCallbacks); + return MA_FORMAT_NOT_SUPPORTED; + } + + + for (iFormat = 0; iFormat < deviceFormatDescriptionCount; ++iFormat) { + AudioStreamBasicDescription thisDeviceFormat = pDeviceFormatDescriptions[iFormat].mFormat; + ma_format thisSampleFormat; + ma_result formatResult; + ma_format bestSampleFormatSoFar; + + /* If the format is not supported by miniaudio we need to skip this one entirely. */ + formatResult = ma_format_from_AudioStreamBasicDescription(&pDeviceFormatDescriptions[iFormat].mFormat, &thisSampleFormat); + if (formatResult != MA_SUCCESS || thisSampleFormat == ma_format_unknown) { + continue; /* The format is not supported by miniaudio. Skip. */ + } + + ma_format_from_AudioStreamBasicDescription(&bestDeviceFormatSoFar, &bestSampleFormatSoFar); + + /* Getting here means the format is supported by miniaudio which makes this format a candidate. */ + if (thisDeviceFormat.mSampleRate != desiredSampleRate) { + /* + The sample rate does not match, but this format could still be usable, although it's a very low priority. If the best format + so far has an equal sample rate we can just ignore this one. + */ + if (bestDeviceFormatSoFar.mSampleRate == desiredSampleRate) { + continue; /* The best sample rate so far has the same sample rate as what we requested which means it's still the best so far. Skip this format. */ + } else { + /* In this case, neither the best format so far nor this one have the same sample rate. Check the channel count next. */ + if (thisDeviceFormat.mChannelsPerFrame != desiredChannelCount) { + /* This format has a different sample rate _and_ a different channel count. */ + if (bestDeviceFormatSoFar.mChannelsPerFrame == desiredChannelCount) { + continue; /* No change to the best format. */ + } else { + /* + Both this format and the best so far have different sample rates and different channel counts. Whichever has the + best format is the new best. + */ + if (ma_get_format_priority_index(thisSampleFormat) < ma_get_format_priority_index(bestSampleFormatSoFar)) { + bestDeviceFormatSoFar = thisDeviceFormat; + continue; + } else { + continue; /* No change to the best format. */ + } + } + } else { + /* This format has a different sample rate but the desired channel count. */ + if (bestDeviceFormatSoFar.mChannelsPerFrame == desiredChannelCount) { + /* Both this format and the best so far have the desired channel count. Whichever has the best format is the new best. */ + if (ma_get_format_priority_index(thisSampleFormat) < ma_get_format_priority_index(bestSampleFormatSoFar)) { + bestDeviceFormatSoFar = thisDeviceFormat; + continue; + } else { + continue; /* No change to the best format for now. */ + } + } else { + /* This format has the desired channel count, but the best so far does not. We have a new best. */ + bestDeviceFormatSoFar = thisDeviceFormat; + continue; + } + } + } + } else { + /* + The sample rates match which makes this format a very high priority contender. If the best format so far has a different + sample rate it needs to be replaced with this one. + */ + if (bestDeviceFormatSoFar.mSampleRate != desiredSampleRate) { + bestDeviceFormatSoFar = thisDeviceFormat; + continue; + } else { + /* In this case both this format and the best format so far have the same sample rate. Check the channel count next. */ + if (thisDeviceFormat.mChannelsPerFrame == desiredChannelCount) { + /* + In this case this format has the same channel count as what the client is requesting. If the best format so far has + a different count, this one becomes the new best. + */ + if (bestDeviceFormatSoFar.mChannelsPerFrame != desiredChannelCount) { + bestDeviceFormatSoFar = thisDeviceFormat; + continue; + } else { + /* In this case both this format and the best so far have the ideal sample rate and channel count. Check the format. */ + if (thisSampleFormat == desiredFormat) { + bestDeviceFormatSoFar = thisDeviceFormat; + break; /* Found the exact match. */ + } else { + /* The formats are different. The new best format is the one with the highest priority format according to miniaudio. */ + if (ma_get_format_priority_index(thisSampleFormat) < ma_get_format_priority_index(bestSampleFormatSoFar)) { + bestDeviceFormatSoFar = thisDeviceFormat; + continue; + } else { + continue; /* No change to the best format for now. */ + } + } + } + } else { + /* + In this case the channel count is different to what the client has requested. If the best so far has the same channel + count as the requested count then it remains the best. + */ + if (bestDeviceFormatSoFar.mChannelsPerFrame == desiredChannelCount) { + continue; + } else { + /* + This is the case where both have the same sample rate (good) but different channel counts. Right now both have about + the same priority, but we need to compare the format now. + */ + if (thisSampleFormat == bestSampleFormatSoFar) { + if (ma_get_format_priority_index(thisSampleFormat) < ma_get_format_priority_index(bestSampleFormatSoFar)) { + bestDeviceFormatSoFar = thisDeviceFormat; + continue; + } else { + continue; /* No change to the best format for now. */ + } + } + } + } + } + } + } + + *pFormat = bestDeviceFormatSoFar; + + ma_free(pDeviceFormatDescriptions, &pContext->allocationCallbacks); + return MA_SUCCESS; +} + +static ma_result ma_get_AudioUnit_channel_map(ma_context* pContext, AudioUnit audioUnit, ma_device_type deviceType, ma_channel* pChannelMap, size_t channelMapCap) +{ + AudioUnitScope deviceScope; + AudioUnitElement deviceBus; + UInt32 channelLayoutSize; + OSStatus status; + AudioChannelLayout* pChannelLayout; + ma_result result; + + MA_ASSERT(pContext != NULL); + + if (deviceType == ma_device_type_playback) { + deviceScope = kAudioUnitScope_Input; + deviceBus = MA_COREAUDIO_OUTPUT_BUS; + } else { + deviceScope = kAudioUnitScope_Output; + deviceBus = MA_COREAUDIO_INPUT_BUS; + } + + status = ((ma_AudioUnitGetPropertyInfo_proc)pContext->coreaudio.AudioUnitGetPropertyInfo)(audioUnit, kAudioUnitProperty_AudioChannelLayout, deviceScope, deviceBus, &channelLayoutSize, NULL); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + + pChannelLayout = (AudioChannelLayout*)ma_malloc(channelLayoutSize, &pContext->allocationCallbacks); + if (pChannelLayout == NULL) { + return MA_OUT_OF_MEMORY; + } + + status = ((ma_AudioUnitGetProperty_proc)pContext->coreaudio.AudioUnitGetProperty)(audioUnit, kAudioUnitProperty_AudioChannelLayout, deviceScope, deviceBus, pChannelLayout, &channelLayoutSize); + if (status != noErr) { + ma_free(pChannelLayout, &pContext->allocationCallbacks); + return ma_result_from_OSStatus(status); + } + + result = ma_get_channel_map_from_AudioChannelLayout(pChannelLayout, pChannelMap, channelMapCap); + if (result != MA_SUCCESS) { + ma_free(pChannelLayout, &pContext->allocationCallbacks); + return result; + } + + ma_free(pChannelLayout, &pContext->allocationCallbacks); + return MA_SUCCESS; +} +#endif /* MA_APPLE_DESKTOP */ + + +#if !defined(MA_APPLE_DESKTOP) +static void ma_AVAudioSessionPortDescription_to_device_info(AVAudioSessionPortDescription* pPortDesc, ma_device_info* pInfo) +{ + MA_ZERO_OBJECT(pInfo); + ma_strncpy_s(pInfo->name, sizeof(pInfo->name), [pPortDesc.portName UTF8String], (size_t)-1); + ma_strncpy_s(pInfo->id.coreaudio, sizeof(pInfo->id.coreaudio), [pPortDesc.UID UTF8String], (size_t)-1); +} +#endif + +static ma_result ma_context_enumerate_devices__coreaudio(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ +#if defined(MA_APPLE_DESKTOP) + UInt32 deviceCount; + AudioObjectID* pDeviceObjectIDs; + AudioObjectID defaultDeviceObjectIDPlayback; + AudioObjectID defaultDeviceObjectIDCapture; + ma_result result; + UInt32 iDevice; + + ma_find_default_AudioObjectID(pContext, ma_device_type_playback, &defaultDeviceObjectIDPlayback); /* OK if this fails. */ + ma_find_default_AudioObjectID(pContext, ma_device_type_capture, &defaultDeviceObjectIDCapture); /* OK if this fails. */ + + result = ma_get_device_object_ids__coreaudio(pContext, &deviceCount, &pDeviceObjectIDs); + if (result != MA_SUCCESS) { + return result; + } + + for (iDevice = 0; iDevice < deviceCount; ++iDevice) { + AudioObjectID deviceObjectID = pDeviceObjectIDs[iDevice]; + ma_device_info info; + + MA_ZERO_OBJECT(&info); + if (ma_get_AudioObject_uid(pContext, deviceObjectID, sizeof(info.id.coreaudio), info.id.coreaudio) != MA_SUCCESS) { + continue; + } + if (ma_get_AudioObject_name(pContext, deviceObjectID, sizeof(info.name), info.name) != MA_SUCCESS) { + continue; + } + + if (ma_does_AudioObject_support_playback(pContext, deviceObjectID)) { + if (deviceObjectID == defaultDeviceObjectIDPlayback) { + info.isDefault = MA_TRUE; + } + + if (!callback(pContext, ma_device_type_playback, &info, pUserData)) { + break; + } + } + if (ma_does_AudioObject_support_capture(pContext, deviceObjectID)) { + if (deviceObjectID == defaultDeviceObjectIDCapture) { + info.isDefault = MA_TRUE; + } + + if (!callback(pContext, ma_device_type_capture, &info, pUserData)) { + break; + } + } + } + + ma_free(pDeviceObjectIDs, &pContext->allocationCallbacks); +#else + ma_device_info info; + NSArray *pInputs = [[[AVAudioSession sharedInstance] currentRoute] inputs]; + NSArray *pOutputs = [[[AVAudioSession sharedInstance] currentRoute] outputs]; + + for (AVAudioSessionPortDescription* pPortDesc in pOutputs) { + ma_AVAudioSessionPortDescription_to_device_info(pPortDesc, &info); + if (!callback(pContext, ma_device_type_playback, &info, pUserData)) { + return MA_SUCCESS; + } + } + + for (AVAudioSessionPortDescription* pPortDesc in pInputs) { + ma_AVAudioSessionPortDescription_to_device_info(pPortDesc, &info); + if (!callback(pContext, ma_device_type_capture, &info, pUserData)) { + return MA_SUCCESS; + } + } +#endif + + return MA_SUCCESS; +} + +static ma_result ma_context_get_device_info__coreaudio(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + ma_result result; + + MA_ASSERT(pContext != NULL); + +#if defined(MA_APPLE_DESKTOP) + /* Desktop */ + { + AudioObjectID deviceObjectID; + AudioObjectID defaultDeviceObjectID; + UInt32 streamDescriptionCount; + AudioStreamRangedDescription* pStreamDescriptions; + UInt32 iStreamDescription; + UInt32 sampleRateRangeCount; + AudioValueRange* pSampleRateRanges; + + ma_find_default_AudioObjectID(pContext, deviceType, &defaultDeviceObjectID); /* OK if this fails. */ + + result = ma_find_AudioObjectID(pContext, deviceType, pDeviceID, &deviceObjectID); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_get_AudioObject_uid(pContext, deviceObjectID, sizeof(pDeviceInfo->id.coreaudio), pDeviceInfo->id.coreaudio); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_get_AudioObject_name(pContext, deviceObjectID, sizeof(pDeviceInfo->name), pDeviceInfo->name); + if (result != MA_SUCCESS) { + return result; + } + + if (deviceObjectID == defaultDeviceObjectID) { + pDeviceInfo->isDefault = MA_TRUE; + } + + /* + There could be a large number of permutations here. Fortunately there is only a single channel count + being reported which reduces this quite a bit. For sample rates we're only reporting those that are + one of miniaudio's recognized "standard" rates. If there are still more formats than can fit into + our fixed sized array we'll just need to truncate them. This is unlikely and will probably only happen + if some driver performs software data conversion and therefore reports every possible format and + sample rate. + */ + pDeviceInfo->nativeDataFormatCount = 0; + + /* Formats. */ + { + ma_format uniqueFormats[ma_format_count]; + ma_uint32 uniqueFormatCount = 0; + ma_uint32 channels; + + /* Channels. */ + result = ma_get_AudioObject_channel_count(pContext, deviceObjectID, deviceType, &channels); + if (result != MA_SUCCESS) { + return result; + } + + /* Formats. */ + result = ma_get_AudioObject_stream_descriptions(pContext, deviceObjectID, deviceType, &streamDescriptionCount, &pStreamDescriptions); + if (result != MA_SUCCESS) { + return result; + } + + for (iStreamDescription = 0; iStreamDescription < streamDescriptionCount; ++iStreamDescription) { + ma_format format; + ma_bool32 hasFormatBeenHandled = MA_FALSE; + ma_uint32 iOutputFormat; + ma_uint32 iSampleRate; + + result = ma_format_from_AudioStreamBasicDescription(&pStreamDescriptions[iStreamDescription].mFormat, &format); + if (result != MA_SUCCESS) { + continue; + } + + MA_ASSERT(format != ma_format_unknown); + + /* Make sure the format isn't already in the output list. */ + for (iOutputFormat = 0; iOutputFormat < uniqueFormatCount; ++iOutputFormat) { + if (uniqueFormats[iOutputFormat] == format) { + hasFormatBeenHandled = MA_TRUE; + break; + } + } + + /* If we've already handled this format just skip it. */ + if (hasFormatBeenHandled) { + continue; + } + + uniqueFormats[uniqueFormatCount] = format; + uniqueFormatCount += 1; + + /* Sample Rates */ + result = ma_get_AudioObject_sample_rates(pContext, deviceObjectID, deviceType, &sampleRateRangeCount, &pSampleRateRanges); + if (result != MA_SUCCESS) { + return result; + } + + /* + Annoyingly Core Audio reports a sample rate range. We just get all the standard rates that are + between this range. + */ + for (iSampleRate = 0; iSampleRate < sampleRateRangeCount; ++iSampleRate) { + ma_uint32 iStandardSampleRate; + for (iStandardSampleRate = 0; iStandardSampleRate < ma_countof(g_maStandardSampleRatePriorities); iStandardSampleRate += 1) { + ma_uint32 standardSampleRate = g_maStandardSampleRatePriorities[iStandardSampleRate]; + if (standardSampleRate >= pSampleRateRanges[iSampleRate].mMinimum && standardSampleRate <= pSampleRateRanges[iSampleRate].mMaximum) { + /* We have a new data format. Add it to the list. */ + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].format = format; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].channels = channels; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].sampleRate = standardSampleRate; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].flags = 0; + pDeviceInfo->nativeDataFormatCount += 1; + + if (pDeviceInfo->nativeDataFormatCount >= ma_countof(pDeviceInfo->nativeDataFormats)) { + break; /* No more room for any more formats. */ + } + } + } + } + + ma_free(pSampleRateRanges, &pContext->allocationCallbacks); + + if (pDeviceInfo->nativeDataFormatCount >= ma_countof(pDeviceInfo->nativeDataFormats)) { + break; /* No more room for any more formats. */ + } + } + + ma_free(pStreamDescriptions, &pContext->allocationCallbacks); + } + } +#else + /* Mobile */ + { + AudioComponentDescription desc; + AudioComponent component; + AudioUnit audioUnit; + OSStatus status; + AudioUnitScope formatScope; + AudioUnitElement formatElement; + AudioStreamBasicDescription bestFormat; + UInt32 propSize; + + /* We want to ensure we use a consistent device name to device enumeration. */ + if (pDeviceID != NULL && pDeviceID->coreaudio[0] != '\0') { + ma_bool32 found = MA_FALSE; + if (deviceType == ma_device_type_playback) { + NSArray *pOutputs = [[[AVAudioSession sharedInstance] currentRoute] outputs]; + for (AVAudioSessionPortDescription* pPortDesc in pOutputs) { + if (strcmp(pDeviceID->coreaudio, [pPortDesc.UID UTF8String]) == 0) { + ma_AVAudioSessionPortDescription_to_device_info(pPortDesc, pDeviceInfo); + found = MA_TRUE; + break; + } + } + } else { + NSArray *pInputs = [[[AVAudioSession sharedInstance] currentRoute] inputs]; + for (AVAudioSessionPortDescription* pPortDesc in pInputs) { + if (strcmp(pDeviceID->coreaudio, [pPortDesc.UID UTF8String]) == 0) { + ma_AVAudioSessionPortDescription_to_device_info(pPortDesc, pDeviceInfo); + found = MA_TRUE; + break; + } + } + } + + if (!found) { + return MA_DOES_NOT_EXIST; + } + } else { + if (deviceType == ma_device_type_playback) { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + } else { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + } + } + + + /* + Retrieving device information is more annoying on mobile than desktop. For simplicity I'm locking this down to whatever format is + reported on a temporary I/O unit. The problem, however, is that this doesn't return a value for the sample rate which we need to + retrieve from the AVAudioSession shared instance. + */ + desc.componentType = kAudioUnitType_Output; + desc.componentSubType = kAudioUnitSubType_RemoteIO; + desc.componentManufacturer = kAudioUnitManufacturer_Apple; + desc.componentFlags = 0; + desc.componentFlagsMask = 0; + + component = ((ma_AudioComponentFindNext_proc)pContext->coreaudio.AudioComponentFindNext)(NULL, &desc); + if (component == NULL) { + return MA_FAILED_TO_INIT_BACKEND; + } + + status = ((ma_AudioComponentInstanceNew_proc)pContext->coreaudio.AudioComponentInstanceNew)(component, &audioUnit); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + + formatScope = (deviceType == ma_device_type_playback) ? kAudioUnitScope_Input : kAudioUnitScope_Output; + formatElement = (deviceType == ma_device_type_playback) ? MA_COREAUDIO_OUTPUT_BUS : MA_COREAUDIO_INPUT_BUS; + + propSize = sizeof(bestFormat); + status = ((ma_AudioUnitGetProperty_proc)pContext->coreaudio.AudioUnitGetProperty)(audioUnit, kAudioUnitProperty_StreamFormat, formatScope, formatElement, &bestFormat, &propSize); + if (status != noErr) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(audioUnit); + return ma_result_from_OSStatus(status); + } + + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(audioUnit); + audioUnit = NULL; + + /* Only a single format is being reported for iOS. */ + pDeviceInfo->nativeDataFormatCount = 1; + + result = ma_format_from_AudioStreamBasicDescription(&bestFormat, &pDeviceInfo->nativeDataFormats[0].format); + if (result != MA_SUCCESS) { + return result; + } + + pDeviceInfo->nativeDataFormats[0].channels = bestFormat.mChannelsPerFrame; + + /* + It looks like Apple are wanting to push the whole AVAudioSession thing. Thus, we need to use that to determine device settings. To do + this we just get the shared instance and inspect. + */ + @autoreleasepool { + AVAudioSession* pAudioSession = [AVAudioSession sharedInstance]; + MA_ASSERT(pAudioSession != NULL); + + pDeviceInfo->nativeDataFormats[0].sampleRate = (ma_uint32)pAudioSession.sampleRate; + } + } +#endif + + (void)pDeviceInfo; /* Unused. */ + return MA_SUCCESS; +} + +static AudioBufferList* ma_allocate_AudioBufferList__coreaudio(ma_uint32 sizeInFrames, ma_format format, ma_uint32 channels, ma_stream_layout layout, const ma_allocation_callbacks* pAllocationCallbacks) +{ + AudioBufferList* pBufferList; + UInt32 audioBufferSizeInBytes; + size_t allocationSize; + + MA_ASSERT(sizeInFrames > 0); + MA_ASSERT(format != ma_format_unknown); + MA_ASSERT(channels > 0); + + allocationSize = sizeof(AudioBufferList) - sizeof(AudioBuffer); /* Subtract sizeof(AudioBuffer) because that part is dynamically sized. */ + if (layout == ma_stream_layout_interleaved) { + /* Interleaved case. This is the simple case because we just have one buffer. */ + allocationSize += sizeof(AudioBuffer) * 1; + } else { + /* Non-interleaved case. This is the more complex case because there's more than one buffer. */ + allocationSize += sizeof(AudioBuffer) * channels; + } + + allocationSize += sizeInFrames * ma_get_bytes_per_frame(format, channels); + + pBufferList = (AudioBufferList*)ma_malloc(allocationSize, pAllocationCallbacks); + if (pBufferList == NULL) { + return NULL; + } + + audioBufferSizeInBytes = (UInt32)(sizeInFrames * ma_get_bytes_per_sample(format)); + + if (layout == ma_stream_layout_interleaved) { + pBufferList->mNumberBuffers = 1; + pBufferList->mBuffers[0].mNumberChannels = channels; + pBufferList->mBuffers[0].mDataByteSize = audioBufferSizeInBytes * channels; + pBufferList->mBuffers[0].mData = (ma_uint8*)pBufferList + sizeof(AudioBufferList); + } else { + ma_uint32 iBuffer; + pBufferList->mNumberBuffers = channels; + for (iBuffer = 0; iBuffer < pBufferList->mNumberBuffers; ++iBuffer) { + pBufferList->mBuffers[iBuffer].mNumberChannels = 1; + pBufferList->mBuffers[iBuffer].mDataByteSize = audioBufferSizeInBytes; + pBufferList->mBuffers[iBuffer].mData = (ma_uint8*)pBufferList + ((sizeof(AudioBufferList) - sizeof(AudioBuffer)) + (sizeof(AudioBuffer) * channels)) + (audioBufferSizeInBytes * iBuffer); + } + } + + return pBufferList; +} + +static ma_result ma_device_realloc_AudioBufferList__coreaudio(ma_device* pDevice, ma_uint32 sizeInFrames, ma_format format, ma_uint32 channels, ma_stream_layout layout) +{ + MA_ASSERT(pDevice != NULL); + MA_ASSERT(format != ma_format_unknown); + MA_ASSERT(channels > 0); + + /* Only resize the buffer if necessary. */ + if (pDevice->coreaudio.audioBufferCapInFrames < sizeInFrames) { + AudioBufferList* pNewAudioBufferList; + + pNewAudioBufferList = ma_allocate_AudioBufferList__coreaudio(sizeInFrames, format, channels, layout, &pDevice->pContext->allocationCallbacks); + if (pNewAudioBufferList == NULL) { + return MA_OUT_OF_MEMORY; + } + + /* At this point we'll have a new AudioBufferList and we can free the old one. */ + ma_free(pDevice->coreaudio.pAudioBufferList, &pDevice->pContext->allocationCallbacks); + pDevice->coreaudio.pAudioBufferList = pNewAudioBufferList; + pDevice->coreaudio.audioBufferCapInFrames = sizeInFrames; + } + + /* Getting here means the capacity of the audio is fine. */ + return MA_SUCCESS; +} + + +static OSStatus ma_on_output__coreaudio(void* pUserData, AudioUnitRenderActionFlags* pActionFlags, const AudioTimeStamp* pTimeStamp, UInt32 busNumber, UInt32 frameCount, AudioBufferList* pBufferList) +{ + ma_device* pDevice = (ma_device*)pUserData; + ma_stream_layout layout; + + MA_ASSERT(pDevice != NULL); + + /*ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "INFO: Output Callback: busNumber=%d, frameCount=%d, mNumberBuffers=%d\n", (int)busNumber, (int)frameCount, (int)pBufferList->mNumberBuffers);*/ + + /* We need to check whether or not we are outputting interleaved or non-interleaved samples. The way we do this is slightly different for each type. */ + layout = ma_stream_layout_interleaved; + if (pBufferList->mBuffers[0].mNumberChannels != pDevice->playback.internalChannels) { + layout = ma_stream_layout_deinterleaved; + } + + if (layout == ma_stream_layout_interleaved) { + /* For now we can assume everything is interleaved. */ + UInt32 iBuffer; + for (iBuffer = 0; iBuffer < pBufferList->mNumberBuffers; ++iBuffer) { + if (pBufferList->mBuffers[iBuffer].mNumberChannels == pDevice->playback.internalChannels) { + ma_uint32 frameCountForThisBuffer = pBufferList->mBuffers[iBuffer].mDataByteSize / ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels); + if (frameCountForThisBuffer > 0) { + ma_device_handle_backend_data_callback(pDevice, pBufferList->mBuffers[iBuffer].mData, NULL, frameCountForThisBuffer); + } + + /*a_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, " frameCount=%d, mNumberChannels=%d, mDataByteSize=%d\n", (int)frameCount, (int)pBufferList->mBuffers[iBuffer].mNumberChannels, (int)pBufferList->mBuffers[iBuffer].mDataByteSize);*/ + } else { + /* + This case is where the number of channels in the output buffer do not match our internal channels. It could mean that it's + not interleaved, in which case we can't handle right now since miniaudio does not yet support non-interleaved streams. We just + output silence here. + */ + MA_ZERO_MEMORY(pBufferList->mBuffers[iBuffer].mData, pBufferList->mBuffers[iBuffer].mDataByteSize); + /*ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, " WARNING: Outputting silence. frameCount=%d, mNumberChannels=%d, mDataByteSize=%d\n", (int)frameCount, (int)pBufferList->mBuffers[iBuffer].mNumberChannels, (int)pBufferList->mBuffers[iBuffer].mDataByteSize);*/ + } + } + } else { + /* This is the deinterleaved case. We need to update each buffer in groups of internalChannels. This assumes each buffer is the same size. */ + MA_ASSERT(pDevice->playback.internalChannels <= MA_MAX_CHANNELS); /* This should have been validated at initialization time. */ + + /* + For safety we'll check that the internal channels is a multiple of the buffer count. If it's not it means something + very strange has happened and we're not going to support it. + */ + if ((pBufferList->mNumberBuffers % pDevice->playback.internalChannels) == 0) { + ma_uint8 tempBuffer[4096]; + UInt32 iBuffer; + + for (iBuffer = 0; iBuffer < pBufferList->mNumberBuffers; iBuffer += pDevice->playback.internalChannels) { + ma_uint32 frameCountPerBuffer = pBufferList->mBuffers[iBuffer].mDataByteSize / ma_get_bytes_per_sample(pDevice->playback.internalFormat); + ma_uint32 framesRemaining = frameCountPerBuffer; + + while (framesRemaining > 0) { + void* ppDeinterleavedBuffers[MA_MAX_CHANNELS]; + ma_uint32 iChannel; + ma_uint32 framesToRead = sizeof(tempBuffer) / ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels); + if (framesToRead > framesRemaining) { + framesToRead = framesRemaining; + } + + ma_device_handle_backend_data_callback(pDevice, tempBuffer, NULL, framesToRead); + + for (iChannel = 0; iChannel < pDevice->playback.internalChannels; ++iChannel) { + ppDeinterleavedBuffers[iChannel] = (void*)ma_offset_ptr(pBufferList->mBuffers[iBuffer+iChannel].mData, (frameCountPerBuffer - framesRemaining) * ma_get_bytes_per_sample(pDevice->playback.internalFormat)); + } + + ma_deinterleave_pcm_frames(pDevice->playback.internalFormat, pDevice->playback.internalChannels, framesToRead, tempBuffer, ppDeinterleavedBuffers); + + framesRemaining -= framesToRead; + } + } + } + } + + (void)pActionFlags; + (void)pTimeStamp; + (void)busNumber; + (void)frameCount; + + return noErr; +} + +static OSStatus ma_on_input__coreaudio(void* pUserData, AudioUnitRenderActionFlags* pActionFlags, const AudioTimeStamp* pTimeStamp, UInt32 busNumber, UInt32 frameCount, AudioBufferList* pUnusedBufferList) +{ + ma_device* pDevice = (ma_device*)pUserData; + AudioBufferList* pRenderedBufferList; + ma_result result; + ma_stream_layout layout; + ma_uint32 iBuffer; + OSStatus status; + + MA_ASSERT(pDevice != NULL); + + pRenderedBufferList = (AudioBufferList*)pDevice->coreaudio.pAudioBufferList; + MA_ASSERT(pRenderedBufferList); + + /* We need to check whether or not we are outputting interleaved or non-interleaved samples. The way we do this is slightly different for each type. */ + layout = ma_stream_layout_interleaved; + if (pRenderedBufferList->mBuffers[0].mNumberChannels != pDevice->capture.internalChannels) { + layout = ma_stream_layout_deinterleaved; + } + + /*ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "INFO: Input Callback: busNumber=%d, frameCount=%d, mNumberBuffers=%d\n", (int)busNumber, (int)frameCount, (int)pRenderedBufferList->mNumberBuffers);*/ + + /* + There has been a situation reported where frame count passed into this function is greater than the capacity of + our capture buffer. There doesn't seem to be a reliable way to determine what the maximum frame count will be, + so we need to instead resort to dynamically reallocating our buffer to ensure it's large enough to capture the + number of frames requested by this callback. + */ + result = ma_device_realloc_AudioBufferList__coreaudio(pDevice, frameCount, pDevice->capture.internalFormat, pDevice->capture.internalChannels, layout); + if (result != MA_SUCCESS) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "Failed to allocate AudioBufferList for capture.\n"); + return noErr; + } + + pRenderedBufferList = (AudioBufferList*)pDevice->coreaudio.pAudioBufferList; + MA_ASSERT(pRenderedBufferList); + + /* + When you call AudioUnitRender(), Core Audio tries to be helpful by setting the mDataByteSize to the number of bytes + that were actually rendered. The problem with this is that the next call can fail with -50 due to the size no longer + being set to the capacity of the buffer, but instead the size in bytes of the previous render. This will cause a + problem when a future call to this callback specifies a larger number of frames. + + To work around this we need to explicitly set the size of each buffer to their respective size in bytes. + */ + for (iBuffer = 0; iBuffer < pRenderedBufferList->mNumberBuffers; ++iBuffer) { + pRenderedBufferList->mBuffers[iBuffer].mDataByteSize = pDevice->coreaudio.audioBufferCapInFrames * ma_get_bytes_per_sample(pDevice->capture.internalFormat) * pRenderedBufferList->mBuffers[iBuffer].mNumberChannels; + /*printf("DEBUG: nDataByteSize = %d\n", (int)pRenderedBufferList->mBuffers[iBuffer].mDataByteSize);*/ + } + + status = ((ma_AudioUnitRender_proc)pDevice->pContext->coreaudio.AudioUnitRender)((AudioUnit)pDevice->coreaudio.audioUnitCapture, pActionFlags, pTimeStamp, busNumber, frameCount, pRenderedBufferList); + if (status != noErr) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "ERROR: AudioUnitRender() failed with %d.\n", (int)status); + return status; + } + + if (layout == ma_stream_layout_interleaved) { + for (iBuffer = 0; iBuffer < pRenderedBufferList->mNumberBuffers; ++iBuffer) { + if (pRenderedBufferList->mBuffers[iBuffer].mNumberChannels == pDevice->capture.internalChannels) { + ma_device_handle_backend_data_callback(pDevice, NULL, pRenderedBufferList->mBuffers[iBuffer].mData, frameCount); + /*ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, " mDataByteSize=%d.\n", (int)pRenderedBufferList->mBuffers[iBuffer].mDataByteSize);*/ + } else { + /* + This case is where the number of channels in the output buffer do not match our internal channels. It could mean that it's + not interleaved, in which case we can't handle right now since miniaudio does not yet support non-interleaved streams. + */ + ma_uint8 silentBuffer[4096]; + ma_uint32 framesRemaining; + + MA_ZERO_MEMORY(silentBuffer, sizeof(silentBuffer)); + + framesRemaining = frameCount; + while (framesRemaining > 0) { + ma_uint32 framesToSend = sizeof(silentBuffer) / ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels); + if (framesToSend > framesRemaining) { + framesToSend = framesRemaining; + } + + ma_device_handle_backend_data_callback(pDevice, NULL, silentBuffer, framesToSend); + + framesRemaining -= framesToSend; + } + + /*ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, " WARNING: Outputting silence. frameCount=%d, mNumberChannels=%d, mDataByteSize=%d\n", (int)frameCount, (int)pRenderedBufferList->mBuffers[iBuffer].mNumberChannels, (int)pRenderedBufferList->mBuffers[iBuffer].mDataByteSize);*/ + } + } + } else { + /* This is the deinterleaved case. We need to interleave the audio data before sending it to the client. This assumes each buffer is the same size. */ + MA_ASSERT(pDevice->capture.internalChannels <= MA_MAX_CHANNELS); /* This should have been validated at initialization time. */ + + /* + For safety we'll check that the internal channels is a multiple of the buffer count. If it's not it means something + very strange has happened and we're not going to support it. + */ + if ((pRenderedBufferList->mNumberBuffers % pDevice->capture.internalChannels) == 0) { + ma_uint8 tempBuffer[4096]; + for (iBuffer = 0; iBuffer < pRenderedBufferList->mNumberBuffers; iBuffer += pDevice->capture.internalChannels) { + ma_uint32 framesRemaining = frameCount; + while (framesRemaining > 0) { + void* ppDeinterleavedBuffers[MA_MAX_CHANNELS]; + ma_uint32 iChannel; + ma_uint32 framesToSend = sizeof(tempBuffer) / ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels); + if (framesToSend > framesRemaining) { + framesToSend = framesRemaining; + } + + for (iChannel = 0; iChannel < pDevice->capture.internalChannels; ++iChannel) { + ppDeinterleavedBuffers[iChannel] = (void*)ma_offset_ptr(pRenderedBufferList->mBuffers[iBuffer+iChannel].mData, (frameCount - framesRemaining) * ma_get_bytes_per_sample(pDevice->capture.internalFormat)); + } + + ma_interleave_pcm_frames(pDevice->capture.internalFormat, pDevice->capture.internalChannels, framesToSend, (const void**)ppDeinterleavedBuffers, tempBuffer); + ma_device_handle_backend_data_callback(pDevice, NULL, tempBuffer, framesToSend); + + framesRemaining -= framesToSend; + } + } + } + } + + (void)pActionFlags; + (void)pTimeStamp; + (void)busNumber; + (void)frameCount; + (void)pUnusedBufferList; + + return noErr; +} + +static void on_start_stop__coreaudio(void* pUserData, AudioUnit audioUnit, AudioUnitPropertyID propertyID, AudioUnitScope scope, AudioUnitElement element) +{ + ma_device* pDevice = (ma_device*)pUserData; + MA_ASSERT(pDevice != NULL); + + /* Don't do anything if it looks like we're just reinitializing due to a device switch. */ + if (((audioUnit == pDevice->coreaudio.audioUnitPlayback) && pDevice->coreaudio.isSwitchingPlaybackDevice) || + ((audioUnit == pDevice->coreaudio.audioUnitCapture) && pDevice->coreaudio.isSwitchingCaptureDevice)) { + return; + } + + /* + There's been a report of a deadlock here when triggered by ma_device_uninit(). It looks like + AudioUnitGetProprty (called below) and AudioComponentInstanceDispose (called in ma_device_uninit) + can try waiting on the same lock. I'm going to try working around this by not calling any Core + Audio APIs in the callback when the device has been stopped or uninitialized. + */ + if (ma_device_get_state(pDevice) == ma_device_state_uninitialized || ma_device_get_state(pDevice) == ma_device_state_stopping || ma_device_get_state(pDevice) == ma_device_state_stopped) { + ma_device__on_notification_stopped(pDevice); + } else { + UInt32 isRunning; + UInt32 isRunningSize = sizeof(isRunning); + OSStatus status = ((ma_AudioUnitGetProperty_proc)pDevice->pContext->coreaudio.AudioUnitGetProperty)(audioUnit, kAudioOutputUnitProperty_IsRunning, scope, element, &isRunning, &isRunningSize); + if (status != noErr) { + goto done; /* Don't really know what to do in this case... just ignore it, I suppose... */ + } + + if (!isRunning) { + /* + The stop event is a bit annoying in Core Audio because it will be called when we automatically switch the default device. Some scenarios to consider: + + 1) When the device is unplugged, this will be called _before_ the default device change notification. + 2) When the device is changed via the default device change notification, this will be called _after_ the switch. + + For case #1, we just check if there's a new default device available. If so, we just ignore the stop event. For case #2 we check a flag. + */ + if (((audioUnit == pDevice->coreaudio.audioUnitPlayback) && pDevice->coreaudio.isDefaultPlaybackDevice) || + ((audioUnit == pDevice->coreaudio.audioUnitCapture) && pDevice->coreaudio.isDefaultCaptureDevice)) { + /* + It looks like the device is switching through an external event, such as the user unplugging the device or changing the default device + via the operating system's sound settings. If we're re-initializing the device, we just terminate because we want the stopping of the + device to be seamless to the client (we don't want them receiving the stopped event and thinking that the device has stopped when it + hasn't!). + */ + if (((audioUnit == pDevice->coreaudio.audioUnitPlayback) && pDevice->coreaudio.isSwitchingPlaybackDevice) || + ((audioUnit == pDevice->coreaudio.audioUnitCapture) && pDevice->coreaudio.isSwitchingCaptureDevice)) { + goto done; + } + + /* + Getting here means the device is not reinitializing which means it may have been unplugged. From what I can see, it looks like Core Audio + will try switching to the new default device seamlessly. We need to somehow find a way to determine whether or not Core Audio will most + likely be successful in switching to the new device. + + TODO: Try to predict if Core Audio will switch devices. If not, the stopped callback needs to be posted. + */ + goto done; + } + + /* Getting here means we need to stop the device. */ + ma_device__on_notification_stopped(pDevice); + } + } + + (void)propertyID; /* Unused. */ + +done: + /* Always signal the stop event. It's possible for the "else" case to get hit which can happen during an interruption. */ + ma_event_signal(&pDevice->coreaudio.stopEvent); +} + +#if defined(MA_APPLE_DESKTOP) +static ma_spinlock g_DeviceTrackingInitLock_CoreAudio = 0; /* A spinlock for mutal exclusion of the init/uninit of the global tracking data. Initialization to 0 is what we need. */ +static ma_uint32 g_DeviceTrackingInitCounter_CoreAudio = 0; +static ma_mutex g_DeviceTrackingMutex_CoreAudio; +static ma_device** g_ppTrackedDevices_CoreAudio = NULL; +static ma_uint32 g_TrackedDeviceCap_CoreAudio = 0; +static ma_uint32 g_TrackedDeviceCount_CoreAudio = 0; + +static OSStatus ma_default_device_changed__coreaudio(AudioObjectID objectID, UInt32 addressCount, const AudioObjectPropertyAddress* pAddresses, void* pUserData) +{ + ma_device_type deviceType; + + /* Not sure if I really need to check this, but it makes me feel better. */ + if (addressCount == 0) { + return noErr; + } + + if (pAddresses[0].mSelector == kAudioHardwarePropertyDefaultOutputDevice) { + deviceType = ma_device_type_playback; + } else if (pAddresses[0].mSelector == kAudioHardwarePropertyDefaultInputDevice) { + deviceType = ma_device_type_capture; + } else { + return noErr; /* Should never hit this. */ + } + + ma_mutex_lock(&g_DeviceTrackingMutex_CoreAudio); + { + ma_uint32 iDevice; + for (iDevice = 0; iDevice < g_TrackedDeviceCount_CoreAudio; iDevice += 1) { + ma_result reinitResult; + ma_device* pDevice; + + pDevice = g_ppTrackedDevices_CoreAudio[iDevice]; + if (pDevice->type == deviceType || pDevice->type == ma_device_type_duplex) { + if (deviceType == ma_device_type_playback) { + pDevice->coreaudio.isSwitchingPlaybackDevice = MA_TRUE; + reinitResult = ma_device_reinit_internal__coreaudio(pDevice, deviceType, MA_TRUE); + pDevice->coreaudio.isSwitchingPlaybackDevice = MA_FALSE; + } else { + pDevice->coreaudio.isSwitchingCaptureDevice = MA_TRUE; + reinitResult = ma_device_reinit_internal__coreaudio(pDevice, deviceType, MA_TRUE); + pDevice->coreaudio.isSwitchingCaptureDevice = MA_FALSE; + } + + if (reinitResult == MA_SUCCESS) { + ma_device__post_init_setup(pDevice, deviceType); + + /* Restart the device if required. If this fails we need to stop the device entirely. */ + if (ma_device_get_state(pDevice) == ma_device_state_started) { + OSStatus status; + if (deviceType == ma_device_type_playback) { + status = ((ma_AudioOutputUnitStart_proc)pDevice->pContext->coreaudio.AudioOutputUnitStart)((AudioUnit)pDevice->coreaudio.audioUnitPlayback); + if (status != noErr) { + if (pDevice->type == ma_device_type_duplex) { + ((ma_AudioOutputUnitStop_proc)pDevice->pContext->coreaudio.AudioOutputUnitStop)((AudioUnit)pDevice->coreaudio.audioUnitCapture); + } + ma_device__set_state(pDevice, ma_device_state_stopped); + } + } else if (deviceType == ma_device_type_capture) { + status = ((ma_AudioOutputUnitStart_proc)pDevice->pContext->coreaudio.AudioOutputUnitStart)((AudioUnit)pDevice->coreaudio.audioUnitCapture); + if (status != noErr) { + if (pDevice->type == ma_device_type_duplex) { + ((ma_AudioOutputUnitStop_proc)pDevice->pContext->coreaudio.AudioOutputUnitStop)((AudioUnit)pDevice->coreaudio.audioUnitPlayback); + } + ma_device__set_state(pDevice, ma_device_state_stopped); + } + } + } + + ma_device__on_notification_rerouted(pDevice); + } + } + } + } + ma_mutex_unlock(&g_DeviceTrackingMutex_CoreAudio); + + /* Unused parameters. */ + (void)objectID; + (void)pUserData; + + return noErr; +} + +static ma_result ma_context__init_device_tracking__coreaudio(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + + ma_spinlock_lock(&g_DeviceTrackingInitLock_CoreAudio); + { + /* Don't do anything if we've already initialized device tracking. */ + if (g_DeviceTrackingInitCounter_CoreAudio == 0) { + AudioObjectPropertyAddress propAddress; + propAddress.mScope = kAudioObjectPropertyScopeGlobal; + propAddress.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + ma_mutex_init(&g_DeviceTrackingMutex_CoreAudio); + + propAddress.mSelector = kAudioHardwarePropertyDefaultInputDevice; + ((ma_AudioObjectAddPropertyListener_proc)pContext->coreaudio.AudioObjectAddPropertyListener)(kAudioObjectSystemObject, &propAddress, &ma_default_device_changed__coreaudio, NULL); + + propAddress.mSelector = kAudioHardwarePropertyDefaultOutputDevice; + ((ma_AudioObjectAddPropertyListener_proc)pContext->coreaudio.AudioObjectAddPropertyListener)(kAudioObjectSystemObject, &propAddress, &ma_default_device_changed__coreaudio, NULL); + + } + g_DeviceTrackingInitCounter_CoreAudio += 1; + } + ma_spinlock_unlock(&g_DeviceTrackingInitLock_CoreAudio); + + return MA_SUCCESS; +} + +static ma_result ma_context__uninit_device_tracking__coreaudio(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + + ma_spinlock_lock(&g_DeviceTrackingInitLock_CoreAudio); + { + if (g_DeviceTrackingInitCounter_CoreAudio > 0) + g_DeviceTrackingInitCounter_CoreAudio -= 1; + + if (g_DeviceTrackingInitCounter_CoreAudio == 0) { + AudioObjectPropertyAddress propAddress; + propAddress.mScope = kAudioObjectPropertyScopeGlobal; + propAddress.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + propAddress.mSelector = kAudioHardwarePropertyDefaultInputDevice; + ((ma_AudioObjectRemovePropertyListener_proc)pContext->coreaudio.AudioObjectRemovePropertyListener)(kAudioObjectSystemObject, &propAddress, &ma_default_device_changed__coreaudio, NULL); + + propAddress.mSelector = kAudioHardwarePropertyDefaultOutputDevice; + ((ma_AudioObjectRemovePropertyListener_proc)pContext->coreaudio.AudioObjectRemovePropertyListener)(kAudioObjectSystemObject, &propAddress, &ma_default_device_changed__coreaudio, NULL); + + /* At this point there should be no tracked devices. If not there's an error somewhere. */ + if (g_ppTrackedDevices_CoreAudio != NULL) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_WARNING, "You have uninitialized all contexts while an associated device is still active."); + ma_spinlock_unlock(&g_DeviceTrackingInitLock_CoreAudio); + return MA_INVALID_OPERATION; + } + + ma_mutex_uninit(&g_DeviceTrackingMutex_CoreAudio); + } + } + ma_spinlock_unlock(&g_DeviceTrackingInitLock_CoreAudio); + + return MA_SUCCESS; +} + +static ma_result ma_device__track__coreaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + ma_mutex_lock(&g_DeviceTrackingMutex_CoreAudio); + { + /* Allocate memory if required. */ + if (g_TrackedDeviceCap_CoreAudio <= g_TrackedDeviceCount_CoreAudio) { + ma_uint32 newCap; + ma_device** ppNewDevices; + + newCap = g_TrackedDeviceCap_CoreAudio * 2; + if (newCap == 0) { + newCap = 1; + } + + ppNewDevices = (ma_device**)ma_realloc(g_ppTrackedDevices_CoreAudio, sizeof(*g_ppTrackedDevices_CoreAudio)*newCap, &pDevice->pContext->allocationCallbacks); + if (ppNewDevices == NULL) { + ma_mutex_unlock(&g_DeviceTrackingMutex_CoreAudio); + return MA_OUT_OF_MEMORY; + } + + g_ppTrackedDevices_CoreAudio = ppNewDevices; + g_TrackedDeviceCap_CoreAudio = newCap; + } + + g_ppTrackedDevices_CoreAudio[g_TrackedDeviceCount_CoreAudio] = pDevice; + g_TrackedDeviceCount_CoreAudio += 1; + } + ma_mutex_unlock(&g_DeviceTrackingMutex_CoreAudio); + + return MA_SUCCESS; +} + +static ma_result ma_device__untrack__coreaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + ma_mutex_lock(&g_DeviceTrackingMutex_CoreAudio); + { + ma_uint32 iDevice; + for (iDevice = 0; iDevice < g_TrackedDeviceCount_CoreAudio; iDevice += 1) { + if (g_ppTrackedDevices_CoreAudio[iDevice] == pDevice) { + /* We've found the device. We now need to remove it from the list. */ + ma_uint32 jDevice; + for (jDevice = iDevice; jDevice < g_TrackedDeviceCount_CoreAudio-1; jDevice += 1) { + g_ppTrackedDevices_CoreAudio[jDevice] = g_ppTrackedDevices_CoreAudio[jDevice+1]; + } + + g_TrackedDeviceCount_CoreAudio -= 1; + + /* If there's nothing else in the list we need to free memory. */ + if (g_TrackedDeviceCount_CoreAudio == 0) { + ma_free(g_ppTrackedDevices_CoreAudio, &pDevice->pContext->allocationCallbacks); + g_ppTrackedDevices_CoreAudio = NULL; + g_TrackedDeviceCap_CoreAudio = 0; + } + + break; + } + } + } + ma_mutex_unlock(&g_DeviceTrackingMutex_CoreAudio); + + return MA_SUCCESS; +} +#endif + +#if defined(MA_APPLE_MOBILE) +@interface ma_ios_notification_handler:NSObject { + ma_device* m_pDevice; +} +@end + +@implementation ma_ios_notification_handler +-(id)init:(ma_device*)pDevice +{ + self = [super init]; + m_pDevice = pDevice; + + /* For route changes. */ + [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(handle_route_change:) name:AVAudioSessionRouteChangeNotification object:[AVAudioSession sharedInstance]]; + + /* For interruptions. */ + [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(handle_interruption:) name:AVAudioSessionInterruptionNotification object:[AVAudioSession sharedInstance]]; + + return self; +} + +-(void)dealloc +{ + [self remove_handler]; + + #if defined(__has_feature) + #if !__has_feature(objc_arc) + [super dealloc]; + #endif + #endif +} + +-(void)remove_handler +{ + [[NSNotificationCenter defaultCenter] removeObserver:self name:AVAudioSessionRouteChangeNotification object:nil]; + [[NSNotificationCenter defaultCenter] removeObserver:self name:AVAudioSessionInterruptionNotification object:nil]; +} + +-(void)handle_interruption:(NSNotification*)pNotification +{ + NSInteger type = [[[pNotification userInfo] objectForKey:AVAudioSessionInterruptionTypeKey] integerValue]; + switch (type) + { + case AVAudioSessionInterruptionTypeBegan: + { + ma_log_postf(ma_device_get_log(m_pDevice), MA_LOG_LEVEL_INFO, "[Core Audio] Interruption: AVAudioSessionInterruptionTypeBegan\n"); + + /* + Core Audio will have stopped the internal device automatically, but we need explicitly + stop it at a higher level to ensure miniaudio-specific state is updated for consistency. + */ + ma_device_stop(m_pDevice); + + /* + Fire the notification after the device has been stopped to ensure it's in the correct + state when the notification handler is invoked. + */ + ma_device__on_notification_interruption_began(m_pDevice); + } break; + + case AVAudioSessionInterruptionTypeEnded: + { + ma_log_postf(ma_device_get_log(m_pDevice), MA_LOG_LEVEL_INFO, "[Core Audio] Interruption: AVAudioSessionInterruptionTypeEnded\n"); + ma_device__on_notification_interruption_ended(m_pDevice); + } break; + } +} + +-(void)handle_route_change:(NSNotification*)pNotification +{ + AVAudioSession* pSession = [AVAudioSession sharedInstance]; + + NSInteger reason = [[[pNotification userInfo] objectForKey:AVAudioSessionRouteChangeReasonKey] integerValue]; + switch (reason) + { + case AVAudioSessionRouteChangeReasonOldDeviceUnavailable: + { + ma_log_postf(ma_device_get_log(m_pDevice), MA_LOG_LEVEL_INFO, "[Core Audio] Route Changed: AVAudioSessionRouteChangeReasonOldDeviceUnavailable\n"); + } break; + + case AVAudioSessionRouteChangeReasonNewDeviceAvailable: + { + ma_log_postf(ma_device_get_log(m_pDevice), MA_LOG_LEVEL_INFO, "[Core Audio] Route Changed: AVAudioSessionRouteChangeReasonNewDeviceAvailable\n"); + } break; + + case AVAudioSessionRouteChangeReasonNoSuitableRouteForCategory: + { + ma_log_postf(ma_device_get_log(m_pDevice), MA_LOG_LEVEL_INFO, "[Core Audio] Route Changed: AVAudioSessionRouteChangeReasonNoSuitableRouteForCategory\n"); + } break; + + case AVAudioSessionRouteChangeReasonWakeFromSleep: + { + ma_log_postf(ma_device_get_log(m_pDevice), MA_LOG_LEVEL_INFO, "[Core Audio] Route Changed: AVAudioSessionRouteChangeReasonWakeFromSleep\n"); + } break; + + case AVAudioSessionRouteChangeReasonOverride: + { + ma_log_postf(ma_device_get_log(m_pDevice), MA_LOG_LEVEL_INFO, "[Core Audio] Route Changed: AVAudioSessionRouteChangeReasonOverride\n"); + } break; + + case AVAudioSessionRouteChangeReasonCategoryChange: + { + ma_log_postf(ma_device_get_log(m_pDevice), MA_LOG_LEVEL_INFO, "[Core Audio] Route Changed: AVAudioSessionRouteChangeReasonCategoryChange\n"); + } break; + + case AVAudioSessionRouteChangeReasonUnknown: + default: + { + ma_log_postf(ma_device_get_log(m_pDevice), MA_LOG_LEVEL_INFO, "[Core Audio] Route Changed: AVAudioSessionRouteChangeReasonUnknown\n"); + } break; + } + + ma_log_postf(ma_device_get_log(m_pDevice), MA_LOG_LEVEL_DEBUG, "[Core Audio] Changing Route. inputNumberChannels=%d; outputNumberOfChannels=%d\n", (int)pSession.inputNumberOfChannels, (int)pSession.outputNumberOfChannels); + + /* Let the application know about the route change. */ + ma_device__on_notification_rerouted(m_pDevice); +} +@end +#endif + +static ma_result ma_device_uninit__coreaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + MA_ASSERT(ma_device_get_state(pDevice) == ma_device_state_uninitialized); + +#if defined(MA_APPLE_DESKTOP) + /* + Make sure we're no longer tracking the device. It doesn't matter if we call this for a non-default device because it'll + just gracefully ignore it. + */ + ma_device__untrack__coreaudio(pDevice); +#endif +#if defined(MA_APPLE_MOBILE) + if (pDevice->coreaudio.pNotificationHandler != NULL) { + ma_ios_notification_handler* pNotificationHandler = (MA_BRIDGE_TRANSFER ma_ios_notification_handler*)pDevice->coreaudio.pNotificationHandler; + [pNotificationHandler remove_handler]; + } +#endif + + if (pDevice->coreaudio.audioUnitCapture != NULL) { + ((ma_AudioComponentInstanceDispose_proc)pDevice->pContext->coreaudio.AudioComponentInstanceDispose)((AudioUnit)pDevice->coreaudio.audioUnitCapture); + } + if (pDevice->coreaudio.audioUnitPlayback != NULL) { + ((ma_AudioComponentInstanceDispose_proc)pDevice->pContext->coreaudio.AudioComponentInstanceDispose)((AudioUnit)pDevice->coreaudio.audioUnitPlayback); + } + + if (pDevice->coreaudio.pAudioBufferList) { + ma_free(pDevice->coreaudio.pAudioBufferList, &pDevice->pContext->allocationCallbacks); + } + + return MA_SUCCESS; +} + +typedef struct +{ + ma_bool32 allowNominalSampleRateChange; + + /* Input. */ + ma_format formatIn; + ma_uint32 channelsIn; + ma_uint32 sampleRateIn; + ma_channel channelMapIn[MA_MAX_CHANNELS]; + ma_uint32 periodSizeInFramesIn; + ma_uint32 periodSizeInMillisecondsIn; + ma_uint32 periodsIn; + ma_share_mode shareMode; + ma_performance_profile performanceProfile; + ma_bool32 registerStopEvent; + + /* Output. */ +#if defined(MA_APPLE_DESKTOP) + AudioObjectID deviceObjectID; +#endif + AudioComponent component; + AudioUnit audioUnit; + AudioBufferList* pAudioBufferList; /* Only used for input devices. */ + ma_format formatOut; + ma_uint32 channelsOut; + ma_uint32 sampleRateOut; + ma_channel channelMapOut[MA_MAX_CHANNELS]; + ma_uint32 periodSizeInFramesOut; + ma_uint32 periodsOut; + char deviceName[256]; +} ma_device_init_internal_data__coreaudio; + +static ma_result ma_device_init_internal__coreaudio(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_init_internal_data__coreaudio* pData, void* pDevice_DoNotReference) /* <-- pDevice is typed as void* intentionally so as to avoid accidentally referencing it. */ +{ + ma_result result = MA_SUCCESS; + OSStatus status; + UInt32 enableIOFlag; + AudioStreamBasicDescription bestFormat; + ma_uint32 actualPeriodSizeInFrames; + AURenderCallbackStruct callbackInfo; +#if defined(MA_APPLE_DESKTOP) + AudioObjectID deviceObjectID; +#endif + + /* This API should only be used for a single device type: playback or capture. No full-duplex mode. */ + if (deviceType == ma_device_type_duplex) { + return MA_INVALID_ARGS; + } + + MA_ASSERT(pContext != NULL); + MA_ASSERT(deviceType == ma_device_type_playback || deviceType == ma_device_type_capture); + +#if defined(MA_APPLE_DESKTOP) + pData->deviceObjectID = 0; +#endif + pData->component = NULL; + pData->audioUnit = NULL; + pData->pAudioBufferList = NULL; + +#if defined(MA_APPLE_DESKTOP) + result = ma_find_AudioObjectID(pContext, deviceType, pDeviceID, &deviceObjectID); + if (result != MA_SUCCESS) { + return result; + } + + pData->deviceObjectID = deviceObjectID; +#endif + + /* Core audio doesn't really use the notion of a period so we can leave this unmodified, but not too over the top. */ + pData->periodsOut = pData->periodsIn; + if (pData->periodsOut == 0) { + pData->periodsOut = MA_DEFAULT_PERIODS; + } + if (pData->periodsOut > 16) { + pData->periodsOut = 16; + } + + + /* Audio unit. */ + status = ((ma_AudioComponentInstanceNew_proc)pContext->coreaudio.AudioComponentInstanceNew)((AudioComponent)pContext->coreaudio.component, (AudioUnit*)&pData->audioUnit); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + + + /* The input/output buses need to be explicitly enabled and disabled. We set the flag based on the output unit first, then we just swap it for input. */ + enableIOFlag = 1; + if (deviceType == ma_device_type_capture) { + enableIOFlag = 0; + } + + status = ((ma_AudioUnitSetProperty_proc)pContext->coreaudio.AudioUnitSetProperty)(pData->audioUnit, kAudioOutputUnitProperty_EnableIO, kAudioUnitScope_Output, MA_COREAUDIO_OUTPUT_BUS, &enableIOFlag, sizeof(enableIOFlag)); + if (status != noErr) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return ma_result_from_OSStatus(status); + } + + enableIOFlag = (enableIOFlag == 0) ? 1 : 0; + status = ((ma_AudioUnitSetProperty_proc)pContext->coreaudio.AudioUnitSetProperty)(pData->audioUnit, kAudioOutputUnitProperty_EnableIO, kAudioUnitScope_Input, MA_COREAUDIO_INPUT_BUS, &enableIOFlag, sizeof(enableIOFlag)); + if (status != noErr) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return ma_result_from_OSStatus(status); + } + + + /* Set the device to use with this audio unit. This is only used on desktop since we are using defaults on mobile. */ +#if defined(MA_APPLE_DESKTOP) + status = ((ma_AudioUnitSetProperty_proc)pContext->coreaudio.AudioUnitSetProperty)(pData->audioUnit, kAudioOutputUnitProperty_CurrentDevice, kAudioUnitScope_Global, 0, &deviceObjectID, sizeof(deviceObjectID)); + if (status != noErr) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return ma_result_from_OSStatus(result); + } +#else + /* + For some reason it looks like Apple is only allowing selection of the input device. There does not appear to be any way to change + the default output route. I have no idea why this is like this, but for now we'll only be able to configure capture devices. + */ + if (pDeviceID != NULL) { + if (deviceType == ma_device_type_capture) { + ma_bool32 found = MA_FALSE; + NSArray *pInputs = [[[AVAudioSession sharedInstance] currentRoute] inputs]; + for (AVAudioSessionPortDescription* pPortDesc in pInputs) { + if (strcmp(pDeviceID->coreaudio, [pPortDesc.UID UTF8String]) == 0) { + [[AVAudioSession sharedInstance] setPreferredInput:pPortDesc error:nil]; + found = MA_TRUE; + break; + } + } + + if (found == MA_FALSE) { + return MA_DOES_NOT_EXIST; + } + } + } +#endif + + /* + Format. This is the hardest part of initialization because there's a few variables to take into account. + 1) The format must be supported by the device. + 2) The format must be supported miniaudio. + 3) There's a priority that miniaudio prefers. + + Ideally we would like to use a format that's as close to the hardware as possible so we can get as close to a passthrough as possible. The + most important property is the sample rate. miniaudio can do format conversion for any sample rate and channel count, but cannot do the same + for the sample data format. If the sample data format is not supported by miniaudio it must be ignored completely. + + On mobile platforms this is a bit different. We just force the use of whatever the audio unit's current format is set to. + */ + { + AudioStreamBasicDescription origFormat; + UInt32 origFormatSize = sizeof(origFormat); + AudioUnitScope formatScope = (deviceType == ma_device_type_playback) ? kAudioUnitScope_Input : kAudioUnitScope_Output; + AudioUnitElement formatElement = (deviceType == ma_device_type_playback) ? MA_COREAUDIO_OUTPUT_BUS : MA_COREAUDIO_INPUT_BUS; + + if (deviceType == ma_device_type_playback) { + status = ((ma_AudioUnitGetProperty_proc)pContext->coreaudio.AudioUnitGetProperty)(pData->audioUnit, kAudioUnitProperty_StreamFormat, kAudioUnitScope_Output, MA_COREAUDIO_OUTPUT_BUS, &origFormat, &origFormatSize); + } else { + status = ((ma_AudioUnitGetProperty_proc)pContext->coreaudio.AudioUnitGetProperty)(pData->audioUnit, kAudioUnitProperty_StreamFormat, kAudioUnitScope_Input, MA_COREAUDIO_INPUT_BUS, &origFormat, &origFormatSize); + } + if (status != noErr) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return ma_result_from_OSStatus(status); + } + + #if defined(MA_APPLE_DESKTOP) + result = ma_find_best_format__coreaudio(pContext, deviceObjectID, deviceType, pData->formatIn, pData->channelsIn, pData->sampleRateIn, &origFormat, &bestFormat); + if (result != MA_SUCCESS) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return result; + } + + /* + Technical Note TN2091: Device input using the HAL Output Audio Unit + https://developer.apple.com/library/archive/technotes/tn2091/_index.html + + This documentation says the following: + + The internal AudioConverter can handle any *simple* conversion. Typically, this means that a client can specify ANY + variant of the PCM formats. Consequently, the device's sample rate should match the desired sample rate. If sample rate + conversion is needed, it can be accomplished by buffering the input and converting the data on a separate thread with + another AudioConverter. + + The important part here is the mention that it can handle *simple* conversions, which does *not* include sample rate. We + therefore want to ensure the sample rate stays consistent. This document is specifically for input, but I'm going to play it + safe and apply the same rule to output as well. + + I have tried going against the documentation by setting the sample rate anyway, but this just results in AudioUnitRender() + returning a result code of -10863. I have also tried changing the format directly on the input scope on the input bus, but + this just results in `ca_require: IsStreamFormatWritable(inScope, inElement) NotWritable` when trying to set the format. + + Something that does seem to work, however, has been setting the nominal sample rate on the device object. The problem with + this, however, is that it actually changes the sample rate at the operating system level and not just the application. This + could be intrusive to the user, however, so I don't think it's wise to make this the default. Instead I'm making this a + configuration option. When the `coreaudio.allowNominalSampleRateChange` config option is set to true, changing the sample + rate will be allowed. Otherwise it'll be fixed to the current sample rate. To check the system-defined sample rate, run + the Audio MIDI Setup program that comes installed on macOS and observe how the sample rate changes as the sample rate is + changed by miniaudio. + */ + if (pData->allowNominalSampleRateChange) { + AudioValueRange sampleRateRange; + AudioObjectPropertyAddress propAddress; + + sampleRateRange.mMinimum = bestFormat.mSampleRate; + sampleRateRange.mMaximum = bestFormat.mSampleRate; + + propAddress.mSelector = kAudioDevicePropertyNominalSampleRate; + propAddress.mScope = (deviceType == ma_device_type_playback) ? kAudioObjectPropertyScopeOutput : kAudioObjectPropertyScopeInput; + propAddress.mElement = AUDIO_OBJECT_PROPERTY_ELEMENT; + + status = ((ma_AudioObjectSetPropertyData_proc)pContext->coreaudio.AudioObjectSetPropertyData)(deviceObjectID, &propAddress, 0, NULL, sizeof(sampleRateRange), &sampleRateRange); + if (status != noErr) { + bestFormat.mSampleRate = origFormat.mSampleRate; + } + } else { + bestFormat.mSampleRate = origFormat.mSampleRate; + } + + status = ((ma_AudioUnitSetProperty_proc)pContext->coreaudio.AudioUnitSetProperty)(pData->audioUnit, kAudioUnitProperty_StreamFormat, formatScope, formatElement, &bestFormat, sizeof(bestFormat)); + if (status != noErr) { + /* We failed to set the format, so fall back to the current format of the audio unit. */ + bestFormat = origFormat; + } + #else + bestFormat = origFormat; + + /* + Sample rate is a little different here because for some reason kAudioUnitProperty_StreamFormat returns 0... Oh well. We need to instead try + setting the sample rate to what the user has requested and then just see the results of it. Need to use some Objective-C here for this since + it depends on Apple's AVAudioSession API. To do this we just get the shared AVAudioSession instance and then set it. Note that from what I + can tell, it looks like the sample rate is shared between playback and capture for everything. + */ + @autoreleasepool { + AVAudioSession* pAudioSession = [AVAudioSession sharedInstance]; + MA_ASSERT(pAudioSession != NULL); + + [pAudioSession setPreferredSampleRate:(double)pData->sampleRateIn error:nil]; + bestFormat.mSampleRate = pAudioSession.sampleRate; + + /* + I've had a report that the channel count returned by AudioUnitGetProperty above is inconsistent with + AVAudioSession outputNumberOfChannels. I'm going to try using the AVAudioSession values instead. + + UPDATE 20/02/2025: + When testing on the simulator with an iPhone 15 and iOS 17 I get an error when initializing the audio + unit if set the input channels to pAudioSession.inputNumberOfChannels. What is happening is the channel + count returned from AudioUnitGetProperty() above is set to 2, but pAudioSession is reporting a channel + count of 1. When this happens, the call to AudioUnitSetProprty() below just down below will succeed, but + AudioUnitInitialize() further down will fail. The only solution I have come up with is to not set the + channel count to pAudioSession.inputNumberOfChannels. + */ + if (deviceType == ma_device_type_playback) { + bestFormat.mChannelsPerFrame = (UInt32)pAudioSession.outputNumberOfChannels; + } + + #if 0 + if (deviceType == ma_device_type_capture) { + /*printf("DEBUG: bestFormat.mChannelsPerFrame = %d; pAudioSession.inputNumberOfChannels = %d\n", (int)bestFormat.mChannelsPerFrame, (int)pAudioSession.inputNumberOfChannels);*/ + bestFormat.mChannelsPerFrame = (UInt32)pAudioSession.inputNumberOfChannels; + } + #endif + } + + + status = ((ma_AudioUnitSetProperty_proc)pContext->coreaudio.AudioUnitSetProperty)(pData->audioUnit, kAudioUnitProperty_StreamFormat, formatScope, formatElement, &bestFormat, sizeof(bestFormat)); + if (status != noErr) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return ma_result_from_OSStatus(status); + } + #endif + + result = ma_format_from_AudioStreamBasicDescription(&bestFormat, &pData->formatOut); + if (result != MA_SUCCESS) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return result; + } + + if (pData->formatOut == ma_format_unknown) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return MA_FORMAT_NOT_SUPPORTED; + } + + pData->channelsOut = bestFormat.mChannelsPerFrame; + pData->sampleRateOut = (ma_uint32)bestFormat.mSampleRate; + } + + /* Clamp the channel count for safety. */ + if (pData->channelsOut > MA_MAX_CHANNELS) { + pData->channelsOut = MA_MAX_CHANNELS; + } + + /* + Internal channel map. This is weird in my testing. If I use the AudioObject to get the + channel map, the channel descriptions are set to "Unknown" for some reason. To work around + this it looks like retrieving it from the AudioUnit will work. However, and this is where + it gets weird, it doesn't seem to work with capture devices, nor at all on iOS... Therefore + I'm going to fall back to a default assumption in these cases. + */ +#if defined(MA_APPLE_DESKTOP) + result = ma_get_AudioUnit_channel_map(pContext, pData->audioUnit, deviceType, pData->channelMapOut, pData->channelsOut); + if (result != MA_SUCCESS) { + #if 0 + /* Try falling back to the channel map from the AudioObject. */ + result = ma_get_AudioObject_channel_map(pContext, deviceObjectID, deviceType, pData->channelMapOut, pData->channelsOut); + if (result != MA_SUCCESS) { + return result; + } + #else + /* Fall back to default assumptions. */ + ma_channel_map_init_standard(ma_standard_channel_map_default, pData->channelMapOut, ma_countof(pData->channelMapOut), pData->channelsOut); + #endif + } +#else + /* TODO: Figure out how to get the channel map using AVAudioSession. */ + ma_channel_map_init_standard(ma_standard_channel_map_default, pData->channelMapOut, ma_countof(pData->channelMapOut), pData->channelsOut); +#endif + + + /* Buffer size. Not allowing this to be configurable on iOS. */ + if (pData->periodSizeInFramesIn == 0) { + if (pData->periodSizeInMillisecondsIn == 0) { + if (pData->performanceProfile == ma_performance_profile_low_latency) { + actualPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_LOW_LATENCY, pData->sampleRateOut); + } else { + actualPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_CONSERVATIVE, pData->sampleRateOut); + } + } else { + actualPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(pData->periodSizeInMillisecondsIn, pData->sampleRateOut); + } + } else { + actualPeriodSizeInFrames = pData->periodSizeInFramesIn; + } + +#if defined(MA_APPLE_DESKTOP) + result = ma_set_AudioObject_buffer_size_in_frames(pContext, deviceObjectID, deviceType, &actualPeriodSizeInFrames); + if (result != MA_SUCCESS) { + return result; + } +#else + /* + On iOS, the size of the IO buffer needs to be specified in seconds and is a floating point + number. I don't trust any potential truncation errors due to converting from float to integer + so I'm going to explicitly set the actual period size to the next power of 2. + */ + @autoreleasepool { + AVAudioSession* pAudioSession = [AVAudioSession sharedInstance]; + MA_ASSERT(pAudioSession != NULL); + + [pAudioSession setPreferredIOBufferDuration:((float)actualPeriodSizeInFrames / pAudioSession.sampleRate) error:nil]; + actualPeriodSizeInFrames = ma_next_power_of_2((ma_uint32)(pAudioSession.IOBufferDuration * pAudioSession.sampleRate)); + } +#endif + + + /* + During testing I discovered that the buffer size can be too big. You'll get an error like this: + + kAudioUnitErr_TooManyFramesToProcess : inFramesToProcess=4096, mMaxFramesPerSlice=512 + + Note how inFramesToProcess is smaller than mMaxFramesPerSlice. To fix, we need to set kAudioUnitProperty_MaximumFramesPerSlice to that + of the size of our buffer, or do it the other way around and set our buffer size to the kAudioUnitProperty_MaximumFramesPerSlice. + */ + status = ((ma_AudioUnitSetProperty_proc)pContext->coreaudio.AudioUnitSetProperty)(pData->audioUnit, kAudioUnitProperty_MaximumFramesPerSlice, kAudioUnitScope_Global, 0, &actualPeriodSizeInFrames, sizeof(actualPeriodSizeInFrames)); + if (status != noErr) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return ma_result_from_OSStatus(status); + } + + pData->periodSizeInFramesOut = (ma_uint32)actualPeriodSizeInFrames; + + /* We need a buffer list if this is an input device. We render into this in the input callback. */ + if (deviceType == ma_device_type_capture) { + ma_bool32 isInterleaved = (bestFormat.mFormatFlags & kAudioFormatFlagIsNonInterleaved) == 0; + AudioBufferList* pBufferList; + + pBufferList = ma_allocate_AudioBufferList__coreaudio(pData->periodSizeInFramesOut, pData->formatOut, pData->channelsOut, (isInterleaved) ? ma_stream_layout_interleaved : ma_stream_layout_deinterleaved, &pContext->allocationCallbacks); + if (pBufferList == NULL) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return MA_OUT_OF_MEMORY; + } + + pData->pAudioBufferList = pBufferList; + } + + /* Callbacks. */ + callbackInfo.inputProcRefCon = pDevice_DoNotReference; + if (deviceType == ma_device_type_playback) { + callbackInfo.inputProc = ma_on_output__coreaudio; + status = ((ma_AudioUnitSetProperty_proc)pContext->coreaudio.AudioUnitSetProperty)(pData->audioUnit, kAudioUnitProperty_SetRenderCallback, kAudioUnitScope_Global, 0, &callbackInfo, sizeof(callbackInfo)); + if (status != noErr) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return ma_result_from_OSStatus(status); + } + } else { + callbackInfo.inputProc = ma_on_input__coreaudio; + status = ((ma_AudioUnitSetProperty_proc)pContext->coreaudio.AudioUnitSetProperty)(pData->audioUnit, kAudioOutputUnitProperty_SetInputCallback, kAudioUnitScope_Global, 0, &callbackInfo, sizeof(callbackInfo)); + if (status != noErr) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return ma_result_from_OSStatus(status); + } + } + + /* We need to listen for stop events. */ + if (pData->registerStopEvent) { + status = ((ma_AudioUnitAddPropertyListener_proc)pContext->coreaudio.AudioUnitAddPropertyListener)(pData->audioUnit, kAudioOutputUnitProperty_IsRunning, on_start_stop__coreaudio, pDevice_DoNotReference); + if (status != noErr) { + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return ma_result_from_OSStatus(status); + } + } + + /* Initialize the audio unit. */ + status = ((ma_AudioUnitInitialize_proc)pContext->coreaudio.AudioUnitInitialize)(pData->audioUnit); + if (status != noErr) { + ma_free(pData->pAudioBufferList, &pContext->allocationCallbacks); + pData->pAudioBufferList = NULL; + ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); + return ma_result_from_OSStatus(status); + } + + /* Grab the name. */ +#if defined(MA_APPLE_DESKTOP) + ma_get_AudioObject_name(pContext, deviceObjectID, sizeof(pData->deviceName), pData->deviceName); +#else + if (deviceType == ma_device_type_playback) { + ma_strcpy_s(pData->deviceName, sizeof(pData->deviceName), MA_DEFAULT_PLAYBACK_DEVICE_NAME); + } else { + ma_strcpy_s(pData->deviceName, sizeof(pData->deviceName), MA_DEFAULT_CAPTURE_DEVICE_NAME); + } +#endif + + return result; +} + +#if defined(MA_APPLE_DESKTOP) +static ma_result ma_device_reinit_internal__coreaudio(ma_device* pDevice, ma_device_type deviceType, ma_bool32 disposePreviousAudioUnit) +{ + ma_device_init_internal_data__coreaudio data; + ma_result result; + + /* This should only be called for playback or capture, not duplex. */ + if (deviceType == ma_device_type_duplex) { + return MA_INVALID_ARGS; + } + + data.allowNominalSampleRateChange = MA_FALSE; /* Don't change the nominal sample rate when switching devices. */ + + if (deviceType == ma_device_type_capture) { + data.formatIn = pDevice->capture.format; + data.channelsIn = pDevice->capture.channels; + data.sampleRateIn = pDevice->sampleRate; + MA_COPY_MEMORY(data.channelMapIn, pDevice->capture.channelMap, sizeof(pDevice->capture.channelMap)); + data.shareMode = pDevice->capture.shareMode; + data.performanceProfile = pDevice->coreaudio.originalPerformanceProfile; + data.registerStopEvent = MA_TRUE; + + if (disposePreviousAudioUnit) { + ((ma_AudioOutputUnitStop_proc)pDevice->pContext->coreaudio.AudioOutputUnitStop)((AudioUnit)pDevice->coreaudio.audioUnitCapture); + ((ma_AudioComponentInstanceDispose_proc)pDevice->pContext->coreaudio.AudioComponentInstanceDispose)((AudioUnit)pDevice->coreaudio.audioUnitCapture); + } + if (pDevice->coreaudio.pAudioBufferList) { + ma_free(pDevice->coreaudio.pAudioBufferList, &pDevice->pContext->allocationCallbacks); + } + } else if (deviceType == ma_device_type_playback) { + data.formatIn = pDevice->playback.format; + data.channelsIn = pDevice->playback.channels; + data.sampleRateIn = pDevice->sampleRate; + MA_COPY_MEMORY(data.channelMapIn, pDevice->playback.channelMap, sizeof(pDevice->playback.channelMap)); + data.shareMode = pDevice->playback.shareMode; + data.performanceProfile = pDevice->coreaudio.originalPerformanceProfile; + data.registerStopEvent = (pDevice->type != ma_device_type_duplex); + + if (disposePreviousAudioUnit) { + ((ma_AudioOutputUnitStop_proc)pDevice->pContext->coreaudio.AudioOutputUnitStop)((AudioUnit)pDevice->coreaudio.audioUnitPlayback); + ((ma_AudioComponentInstanceDispose_proc)pDevice->pContext->coreaudio.AudioComponentInstanceDispose)((AudioUnit)pDevice->coreaudio.audioUnitPlayback); + } + } + data.periodSizeInFramesIn = pDevice->coreaudio.originalPeriodSizeInFrames; + data.periodSizeInMillisecondsIn = pDevice->coreaudio.originalPeriodSizeInMilliseconds; + data.periodsIn = pDevice->coreaudio.originalPeriods; + + /* Need at least 3 periods for duplex. */ + if (data.periodsIn < 3 && pDevice->type == ma_device_type_duplex) { + data.periodsIn = 3; + } + + result = ma_device_init_internal__coreaudio(pDevice->pContext, deviceType, NULL, &data, (void*)pDevice); + if (result != MA_SUCCESS) { + return result; + } + + if (deviceType == ma_device_type_capture) { + #if defined(MA_APPLE_DESKTOP) + pDevice->coreaudio.deviceObjectIDCapture = (ma_uint32)data.deviceObjectID; + ma_get_AudioObject_uid(pDevice->pContext, pDevice->coreaudio.deviceObjectIDCapture, sizeof(pDevice->capture.id.coreaudio), pDevice->capture.id.coreaudio); + #endif + pDevice->coreaudio.audioUnitCapture = (ma_ptr)data.audioUnit; + pDevice->coreaudio.pAudioBufferList = (ma_ptr)data.pAudioBufferList; + pDevice->coreaudio.audioBufferCapInFrames = data.periodSizeInFramesOut; + + pDevice->capture.internalFormat = data.formatOut; + pDevice->capture.internalChannels = data.channelsOut; + pDevice->capture.internalSampleRate = data.sampleRateOut; + MA_COPY_MEMORY(pDevice->capture.internalChannelMap, data.channelMapOut, sizeof(data.channelMapOut)); + pDevice->capture.internalPeriodSizeInFrames = data.periodSizeInFramesOut; + pDevice->capture.internalPeriods = data.periodsOut; + } else if (deviceType == ma_device_type_playback) { + #if defined(MA_APPLE_DESKTOP) + pDevice->coreaudio.deviceObjectIDPlayback = (ma_uint32)data.deviceObjectID; + ma_get_AudioObject_uid(pDevice->pContext, pDevice->coreaudio.deviceObjectIDPlayback, sizeof(pDevice->playback.id.coreaudio), pDevice->playback.id.coreaudio); + #endif + pDevice->coreaudio.audioUnitPlayback = (ma_ptr)data.audioUnit; + + pDevice->playback.internalFormat = data.formatOut; + pDevice->playback.internalChannels = data.channelsOut; + pDevice->playback.internalSampleRate = data.sampleRateOut; + MA_COPY_MEMORY(pDevice->playback.internalChannelMap, data.channelMapOut, sizeof(data.channelMapOut)); + pDevice->playback.internalPeriodSizeInFrames = data.periodSizeInFramesOut; + pDevice->playback.internalPeriods = data.periodsOut; + } + + return MA_SUCCESS; +} +#endif /* MA_APPLE_DESKTOP */ + +static ma_result ma_device_init__coreaudio(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + ma_result result; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pConfig != NULL); + + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + /* No exclusive mode with the Core Audio backend for now. */ + if (((pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) && pDescriptorCapture->shareMode == ma_share_mode_exclusive) || + ((pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) && pDescriptorPlayback->shareMode == ma_share_mode_exclusive)) { + return MA_SHARE_MODE_NOT_SUPPORTED; + } + + /* Capture needs to be initialized first. */ + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + ma_device_init_internal_data__coreaudio data; + data.allowNominalSampleRateChange = pConfig->coreaudio.allowNominalSampleRateChange; + data.formatIn = pDescriptorCapture->format; + data.channelsIn = pDescriptorCapture->channels; + data.sampleRateIn = pDescriptorCapture->sampleRate; + MA_COPY_MEMORY(data.channelMapIn, pDescriptorCapture->channelMap, sizeof(pDescriptorCapture->channelMap)); + data.periodSizeInFramesIn = pDescriptorCapture->periodSizeInFrames; + data.periodSizeInMillisecondsIn = pDescriptorCapture->periodSizeInMilliseconds; + data.periodsIn = pDescriptorCapture->periodCount; + data.shareMode = pDescriptorCapture->shareMode; + data.performanceProfile = pConfig->performanceProfile; + data.registerStopEvent = MA_TRUE; + + /* Need at least 3 periods for duplex. */ + if (data.periodsIn < 3 && pConfig->deviceType == ma_device_type_duplex) { + data.periodsIn = 3; + } + + result = ma_device_init_internal__coreaudio(pDevice->pContext, ma_device_type_capture, pDescriptorCapture->pDeviceID, &data, (void*)pDevice); + if (result != MA_SUCCESS) { + return result; + } + + pDevice->coreaudio.isDefaultCaptureDevice = (pConfig->capture.pDeviceID == NULL); + #if defined(MA_APPLE_DESKTOP) + pDevice->coreaudio.deviceObjectIDCapture = (ma_uint32)data.deviceObjectID; + #endif + pDevice->coreaudio.audioUnitCapture = (ma_ptr)data.audioUnit; + pDevice->coreaudio.pAudioBufferList = (ma_ptr)data.pAudioBufferList; + pDevice->coreaudio.audioBufferCapInFrames = data.periodSizeInFramesOut; + pDevice->coreaudio.originalPeriodSizeInFrames = pDescriptorCapture->periodSizeInFrames; + pDevice->coreaudio.originalPeriodSizeInMilliseconds = pDescriptorCapture->periodSizeInMilliseconds; + pDevice->coreaudio.originalPeriods = pDescriptorCapture->periodCount; + pDevice->coreaudio.originalPerformanceProfile = pConfig->performanceProfile; + + pDescriptorCapture->format = data.formatOut; + pDescriptorCapture->channels = data.channelsOut; + pDescriptorCapture->sampleRate = data.sampleRateOut; + MA_COPY_MEMORY(pDescriptorCapture->channelMap, data.channelMapOut, sizeof(data.channelMapOut)); + pDescriptorCapture->periodSizeInFrames = data.periodSizeInFramesOut; + pDescriptorCapture->periodCount = data.periodsOut; + + #if defined(MA_APPLE_DESKTOP) + ma_get_AudioObject_uid(pDevice->pContext, pDevice->coreaudio.deviceObjectIDCapture, sizeof(pDevice->capture.id.coreaudio), pDevice->capture.id.coreaudio); + + /* + If we are using the default device we'll need to listen for changes to the system's default device so we can seamlessly + switch the device in the background. + */ + if (pConfig->capture.pDeviceID == NULL) { + ma_device__track__coreaudio(pDevice); + } + #endif + } + + /* Playback. */ + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ma_device_init_internal_data__coreaudio data; + data.allowNominalSampleRateChange = pConfig->coreaudio.allowNominalSampleRateChange; + data.formatIn = pDescriptorPlayback->format; + data.channelsIn = pDescriptorPlayback->channels; + data.sampleRateIn = pDescriptorPlayback->sampleRate; + MA_COPY_MEMORY(data.channelMapIn, pDescriptorPlayback->channelMap, sizeof(pDescriptorPlayback->channelMap)); + data.shareMode = pDescriptorPlayback->shareMode; + data.performanceProfile = pConfig->performanceProfile; + + /* In full-duplex mode we want the playback buffer to be the same size as the capture buffer. */ + if (pConfig->deviceType == ma_device_type_duplex) { + data.periodSizeInFramesIn = pDescriptorCapture->periodSizeInFrames; + data.periodsIn = pDescriptorCapture->periodCount; + data.registerStopEvent = MA_FALSE; + } else { + data.periodSizeInFramesIn = pDescriptorPlayback->periodSizeInFrames; + data.periodSizeInMillisecondsIn = pDescriptorPlayback->periodSizeInMilliseconds; + data.periodsIn = pDescriptorPlayback->periodCount; + data.registerStopEvent = MA_TRUE; + } + + result = ma_device_init_internal__coreaudio(pDevice->pContext, ma_device_type_playback, pDescriptorPlayback->pDeviceID, &data, (void*)pDevice); + if (result != MA_SUCCESS) { + if (pConfig->deviceType == ma_device_type_duplex) { + ((ma_AudioComponentInstanceDispose_proc)pDevice->pContext->coreaudio.AudioComponentInstanceDispose)((AudioUnit)pDevice->coreaudio.audioUnitCapture); + if (pDevice->coreaudio.pAudioBufferList) { + ma_free(pDevice->coreaudio.pAudioBufferList, &pDevice->pContext->allocationCallbacks); + } + } + return result; + } + + pDevice->coreaudio.isDefaultPlaybackDevice = (pConfig->playback.pDeviceID == NULL); + #if defined(MA_APPLE_DESKTOP) + pDevice->coreaudio.deviceObjectIDPlayback = (ma_uint32)data.deviceObjectID; + #endif + pDevice->coreaudio.audioUnitPlayback = (ma_ptr)data.audioUnit; + pDevice->coreaudio.originalPeriodSizeInFrames = pDescriptorPlayback->periodSizeInFrames; + pDevice->coreaudio.originalPeriodSizeInMilliseconds = pDescriptorPlayback->periodSizeInMilliseconds; + pDevice->coreaudio.originalPeriods = pDescriptorPlayback->periodCount; + pDevice->coreaudio.originalPerformanceProfile = pConfig->performanceProfile; + + pDescriptorPlayback->format = data.formatOut; + pDescriptorPlayback->channels = data.channelsOut; + pDescriptorPlayback->sampleRate = data.sampleRateOut; + MA_COPY_MEMORY(pDescriptorPlayback->channelMap, data.channelMapOut, sizeof(data.channelMapOut)); + pDescriptorPlayback->periodSizeInFrames = data.periodSizeInFramesOut; + pDescriptorPlayback->periodCount = data.periodsOut; + + #if defined(MA_APPLE_DESKTOP) + ma_get_AudioObject_uid(pDevice->pContext, pDevice->coreaudio.deviceObjectIDPlayback, sizeof(pDevice->playback.id.coreaudio), pDevice->playback.id.coreaudio); + + /* + If we are using the default device we'll need to listen for changes to the system's default device so we can seamlessly + switch the device in the background. + */ + if (pDescriptorPlayback->pDeviceID == NULL && (pConfig->deviceType != ma_device_type_duplex || pDescriptorCapture->pDeviceID != NULL)) { + ma_device__track__coreaudio(pDevice); + } + #endif + } + + + + /* + When stopping the device, a callback is called on another thread. We need to wait for this callback + before returning from ma_device_stop(). This event is used for this. + */ + ma_event_init(&pDevice->coreaudio.stopEvent); + + /* + We need to detect when a route has changed so we can update the data conversion pipeline accordingly. This is done + differently on non-Desktop Apple platforms. + */ +#if defined(MA_APPLE_MOBILE) + pDevice->coreaudio.pNotificationHandler = (MA_BRIDGE_RETAINED void*)[[ma_ios_notification_handler alloc] init:pDevice]; +#endif + + return MA_SUCCESS; +} + + +static ma_result ma_device_start__coreaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + OSStatus status = ((ma_AudioOutputUnitStart_proc)pDevice->pContext->coreaudio.AudioOutputUnitStart)((AudioUnit)pDevice->coreaudio.audioUnitCapture); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + OSStatus status = ((ma_AudioOutputUnitStart_proc)pDevice->pContext->coreaudio.AudioOutputUnitStart)((AudioUnit)pDevice->coreaudio.audioUnitPlayback); + if (status != noErr) { + if (pDevice->type == ma_device_type_duplex) { + ((ma_AudioOutputUnitStop_proc)pDevice->pContext->coreaudio.AudioOutputUnitStop)((AudioUnit)pDevice->coreaudio.audioUnitCapture); + } + return ma_result_from_OSStatus(status); + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__coreaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + /* It's not clear from the documentation whether or not AudioOutputUnitStop() actually drains the device or not. */ + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + OSStatus status = ((ma_AudioOutputUnitStop_proc)pDevice->pContext->coreaudio.AudioOutputUnitStop)((AudioUnit)pDevice->coreaudio.audioUnitCapture); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + OSStatus status = ((ma_AudioOutputUnitStop_proc)pDevice->pContext->coreaudio.AudioOutputUnitStop)((AudioUnit)pDevice->coreaudio.audioUnitPlayback); + if (status != noErr) { + return ma_result_from_OSStatus(status); + } + } + + /* We need to wait for the callback to finish before returning. */ + ma_event_wait(&pDevice->coreaudio.stopEvent); + return MA_SUCCESS; +} + + +static ma_result ma_context_uninit__coreaudio(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_coreaudio); + +#if defined(MA_APPLE_MOBILE) + if (!pContext->coreaudio.noAudioSessionDeactivate) { + if (![[AVAudioSession sharedInstance] setActive:false error:nil]) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "Failed to deactivate audio session."); + return MA_FAILED_TO_INIT_BACKEND; + } + } +#endif + +#if !defined(MA_NO_RUNTIME_LINKING) && !defined(MA_APPLE_MOBILE) + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit); + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hCoreAudio); + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hCoreFoundation); +#endif + +#if !defined(MA_APPLE_MOBILE) + ma_context__uninit_device_tracking__coreaudio(pContext); +#endif + + (void)pContext; + return MA_SUCCESS; +} + +#if defined(MA_APPLE_MOBILE) && defined(__IPHONE_12_0) +static AVAudioSessionCategory ma_to_AVAudioSessionCategory(ma_ios_session_category category) +{ + /* The "default" and "none" categories are treated different and should not be used as an input into this function. */ + MA_ASSERT(category != ma_ios_session_category_default); + MA_ASSERT(category != ma_ios_session_category_none); + + switch (category) { + case ma_ios_session_category_ambient: return AVAudioSessionCategoryAmbient; + case ma_ios_session_category_solo_ambient: return AVAudioSessionCategorySoloAmbient; + case ma_ios_session_category_playback: return AVAudioSessionCategoryPlayback; + case ma_ios_session_category_record: return AVAudioSessionCategoryRecord; + case ma_ios_session_category_play_and_record: return AVAudioSessionCategoryPlayAndRecord; + case ma_ios_session_category_multi_route: return AVAudioSessionCategoryMultiRoute; + case ma_ios_session_category_none: return AVAudioSessionCategoryAmbient; + case ma_ios_session_category_default: return AVAudioSessionCategoryAmbient; + default: return AVAudioSessionCategoryAmbient; + } +} +#endif + +static ma_result ma_context_init__coreaudio(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ +#if !defined(MA_APPLE_MOBILE) + ma_result result; +#endif + + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pContext != NULL); + +#if defined(MA_APPLE_MOBILE) + @autoreleasepool { + AVAudioSession* pAudioSession = [AVAudioSession sharedInstance]; + AVAudioSessionCategoryOptions options = pConfig->coreaudio.sessionCategoryOptions; + + MA_ASSERT(pAudioSession != NULL); + + if (pConfig->coreaudio.sessionCategory == ma_ios_session_category_default) { + /* + I'm going to use trial and error to determine our default session category. First we'll try PlayAndRecord. If that fails + we'll try Playback and if that fails we'll try record. If all of these fail we'll just not set the category. + */ + #if !defined(MA_APPLE_TV) && !defined(MA_APPLE_WATCH) + options |= AVAudioSessionCategoryOptionDefaultToSpeaker; + #endif + + if ([pAudioSession setCategory: AVAudioSessionCategoryPlayAndRecord withOptions:options error:nil]) { + /* Using PlayAndRecord */ + } else if ([pAudioSession setCategory: AVAudioSessionCategoryPlayback withOptions:options error:nil]) { + /* Using Playback */ + } else if ([pAudioSession setCategory: AVAudioSessionCategoryRecord withOptions:options error:nil]) { + /* Using Record */ + } else { + /* Leave as default? */ + } + } else { + if (pConfig->coreaudio.sessionCategory != ma_ios_session_category_none) { + #if defined(__IPHONE_12_0) + if (![pAudioSession setCategory: ma_to_AVAudioSessionCategory(pConfig->coreaudio.sessionCategory) withOptions:options error:nil]) { + return MA_INVALID_OPERATION; /* Failed to set session category. */ + } + #else + /* Ignore the session category on version 11 and older, but post a warning. */ + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_WARNING, "Session category only supported in iOS 12 and newer."); + #endif + } + } + + if (!pConfig->coreaudio.noAudioSessionActivate) { + if (![pAudioSession setActive:true error:nil]) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "Failed to activate audio session."); + return MA_FAILED_TO_INIT_BACKEND; + } + } + } +#endif + +#if !defined(MA_NO_RUNTIME_LINKING) && !defined(MA_APPLE_MOBILE) + pContext->coreaudio.hCoreFoundation = ma_dlopen(ma_context_get_log(pContext), "/System/Library/Frameworks/CoreFoundation.framework/CoreFoundation"); + if (pContext->coreaudio.hCoreFoundation == NULL) { + return MA_API_NOT_FOUND; + } + + pContext->coreaudio.CFStringGetCString = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hCoreFoundation, "CFStringGetCString"); + pContext->coreaudio.CFRelease = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hCoreFoundation, "CFRelease"); + + + pContext->coreaudio.hCoreAudio = ma_dlopen(ma_context_get_log(pContext), "/System/Library/Frameworks/CoreAudio.framework/CoreAudio"); + if (pContext->coreaudio.hCoreAudio == NULL) { + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hCoreFoundation); + return MA_API_NOT_FOUND; + } + + pContext->coreaudio.AudioObjectGetPropertyData = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hCoreAudio, "AudioObjectGetPropertyData"); + pContext->coreaudio.AudioObjectGetPropertyDataSize = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hCoreAudio, "AudioObjectGetPropertyDataSize"); + pContext->coreaudio.AudioObjectSetPropertyData = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hCoreAudio, "AudioObjectSetPropertyData"); + pContext->coreaudio.AudioObjectAddPropertyListener = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hCoreAudio, "AudioObjectAddPropertyListener"); + pContext->coreaudio.AudioObjectRemovePropertyListener = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hCoreAudio, "AudioObjectRemovePropertyListener"); + + /* + It looks like Apple has moved some APIs from AudioUnit into AudioToolbox on more recent versions of macOS. They are still + defined in AudioUnit, but just in case they decide to remove them from there entirely I'm going to implement a fallback. + The way it'll work is that it'll first try AudioUnit, and if the required symbols are not present there we'll fall back to + AudioToolbox. + */ + pContext->coreaudio.hAudioUnit = ma_dlopen(ma_context_get_log(pContext), "/System/Library/Frameworks/AudioUnit.framework/AudioUnit"); + if (pContext->coreaudio.hAudioUnit == NULL) { + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hCoreAudio); + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hCoreFoundation); + return MA_API_NOT_FOUND; + } + + if (ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioComponentFindNext") == NULL) { + /* Couldn't find the required symbols in AudioUnit, so fall back to AudioToolbox. */ + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit); + pContext->coreaudio.hAudioUnit = ma_dlopen(ma_context_get_log(pContext), "/System/Library/Frameworks/AudioToolbox.framework/AudioToolbox"); + if (pContext->coreaudio.hAudioUnit == NULL) { + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hCoreAudio); + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hCoreFoundation); + return MA_API_NOT_FOUND; + } + } + + pContext->coreaudio.AudioComponentFindNext = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioComponentFindNext"); + pContext->coreaudio.AudioComponentInstanceDispose = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioComponentInstanceDispose"); + pContext->coreaudio.AudioComponentInstanceNew = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioComponentInstanceNew"); + pContext->coreaudio.AudioOutputUnitStart = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioOutputUnitStart"); + pContext->coreaudio.AudioOutputUnitStop = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioOutputUnitStop"); + pContext->coreaudio.AudioUnitAddPropertyListener = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioUnitAddPropertyListener"); + pContext->coreaudio.AudioUnitGetPropertyInfo = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioUnitGetPropertyInfo"); + pContext->coreaudio.AudioUnitGetProperty = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioUnitGetProperty"); + pContext->coreaudio.AudioUnitSetProperty = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioUnitSetProperty"); + pContext->coreaudio.AudioUnitInitialize = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioUnitInitialize"); + pContext->coreaudio.AudioUnitRender = ma_dlsym(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit, "AudioUnitRender"); +#else + pContext->coreaudio.CFStringGetCString = (ma_proc)CFStringGetCString; + pContext->coreaudio.CFRelease = (ma_proc)CFRelease; + + #if defined(MA_APPLE_DESKTOP) + pContext->coreaudio.AudioObjectGetPropertyData = (ma_proc)AudioObjectGetPropertyData; + pContext->coreaudio.AudioObjectGetPropertyDataSize = (ma_proc)AudioObjectGetPropertyDataSize; + pContext->coreaudio.AudioObjectSetPropertyData = (ma_proc)AudioObjectSetPropertyData; + pContext->coreaudio.AudioObjectAddPropertyListener = (ma_proc)AudioObjectAddPropertyListener; + pContext->coreaudio.AudioObjectRemovePropertyListener = (ma_proc)AudioObjectRemovePropertyListener; + #endif + + pContext->coreaudio.AudioComponentFindNext = (ma_proc)AudioComponentFindNext; + pContext->coreaudio.AudioComponentInstanceDispose = (ma_proc)AudioComponentInstanceDispose; + pContext->coreaudio.AudioComponentInstanceNew = (ma_proc)AudioComponentInstanceNew; + pContext->coreaudio.AudioOutputUnitStart = (ma_proc)AudioOutputUnitStart; + pContext->coreaudio.AudioOutputUnitStop = (ma_proc)AudioOutputUnitStop; + pContext->coreaudio.AudioUnitAddPropertyListener = (ma_proc)AudioUnitAddPropertyListener; + pContext->coreaudio.AudioUnitGetPropertyInfo = (ma_proc)AudioUnitGetPropertyInfo; + pContext->coreaudio.AudioUnitGetProperty = (ma_proc)AudioUnitGetProperty; + pContext->coreaudio.AudioUnitSetProperty = (ma_proc)AudioUnitSetProperty; + pContext->coreaudio.AudioUnitInitialize = (ma_proc)AudioUnitInitialize; + pContext->coreaudio.AudioUnitRender = (ma_proc)AudioUnitRender; +#endif + + /* Audio component. */ + { + AudioComponentDescription desc; + desc.componentType = kAudioUnitType_Output; + #if defined(MA_APPLE_DESKTOP) + desc.componentSubType = kAudioUnitSubType_HALOutput; + #else + desc.componentSubType = kAudioUnitSubType_RemoteIO; + #endif + desc.componentManufacturer = kAudioUnitManufacturer_Apple; + desc.componentFlags = 0; + desc.componentFlagsMask = 0; + + pContext->coreaudio.component = ((ma_AudioComponentFindNext_proc)pContext->coreaudio.AudioComponentFindNext)(NULL, &desc); + if (pContext->coreaudio.component == NULL) { + #if !defined(MA_NO_RUNTIME_LINKING) && !defined(MA_APPLE_MOBILE) + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit); + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hCoreAudio); + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hCoreFoundation); + #endif + return MA_FAILED_TO_INIT_BACKEND; + } + } + +#if !defined(MA_APPLE_MOBILE) + result = ma_context__init_device_tracking__coreaudio(pContext); + if (result != MA_SUCCESS) { + #if !defined(MA_NO_RUNTIME_LINKING) && !defined(MA_APPLE_MOBILE) + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hAudioUnit); + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hCoreAudio); + ma_dlclose(ma_context_get_log(pContext), pContext->coreaudio.hCoreFoundation); + #endif + return result; + } +#endif + + pContext->coreaudio.noAudioSessionDeactivate = pConfig->coreaudio.noAudioSessionDeactivate; + + pCallbacks->onContextInit = ma_context_init__coreaudio; + pCallbacks->onContextUninit = ma_context_uninit__coreaudio; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__coreaudio; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__coreaudio; + pCallbacks->onDeviceInit = ma_device_init__coreaudio; + pCallbacks->onDeviceUninit = ma_device_uninit__coreaudio; + pCallbacks->onDeviceStart = ma_device_start__coreaudio; + pCallbacks->onDeviceStop = ma_device_stop__coreaudio; + pCallbacks->onDeviceRead = NULL; + pCallbacks->onDeviceWrite = NULL; + pCallbacks->onDeviceDataLoop = NULL; + + return MA_SUCCESS; +} +#endif /* MA_HAS_COREAUDIO */ + + + +/****************************************************************************** + +sndio Backend + +******************************************************************************/ +#ifdef MA_HAS_SNDIO +#include + +/* +Only supporting OpenBSD. This did not work very well at all on FreeBSD when I tried it. Not sure if this is due +to miniaudio's implementation or if it's some kind of system configuration issue, but basically the default device +just doesn't emit any sound, or at times you'll hear tiny pieces. I will consider enabling this when there's +demand for it or if I can get it tested and debugged more thoroughly. +*/ +#if 0 +#if defined(__NetBSD__) || defined(__OpenBSD__) +#include +#endif +#if defined(__FreeBSD__) || defined(__DragonFly__) +#include +#endif +#endif + +#define MA_SIO_DEVANY "default" +#define MA_SIO_PLAY 1 +#define MA_SIO_REC 2 +#define MA_SIO_NENC 8 +#define MA_SIO_NCHAN 8 +#define MA_SIO_NRATE 16 +#define MA_SIO_NCONF 4 + +struct ma_sio_hdl; /* <-- Opaque */ + +struct ma_sio_par +{ + unsigned int bits; + unsigned int bps; + unsigned int sig; + unsigned int le; + unsigned int msb; + unsigned int rchan; + unsigned int pchan; + unsigned int rate; + unsigned int bufsz; + unsigned int xrun; + unsigned int round; + unsigned int appbufsz; + int __pad[3]; + unsigned int __magic; +}; + +struct ma_sio_enc +{ + unsigned int bits; + unsigned int bps; + unsigned int sig; + unsigned int le; + unsigned int msb; +}; + +struct ma_sio_conf +{ + unsigned int enc; + unsigned int rchan; + unsigned int pchan; + unsigned int rate; +}; + +struct ma_sio_cap +{ + struct ma_sio_enc enc[MA_SIO_NENC]; + unsigned int rchan[MA_SIO_NCHAN]; + unsigned int pchan[MA_SIO_NCHAN]; + unsigned int rate[MA_SIO_NRATE]; + int __pad[7]; + unsigned int nconf; + struct ma_sio_conf confs[MA_SIO_NCONF]; +}; + +typedef struct ma_sio_hdl* (* ma_sio_open_proc) (const char*, unsigned int, int); +typedef void (* ma_sio_close_proc) (struct ma_sio_hdl*); +typedef int (* ma_sio_setpar_proc) (struct ma_sio_hdl*, struct ma_sio_par*); +typedef int (* ma_sio_getpar_proc) (struct ma_sio_hdl*, struct ma_sio_par*); +typedef int (* ma_sio_getcap_proc) (struct ma_sio_hdl*, struct ma_sio_cap*); +typedef size_t (* ma_sio_write_proc) (struct ma_sio_hdl*, const void*, size_t); +typedef size_t (* ma_sio_read_proc) (struct ma_sio_hdl*, void*, size_t); +typedef int (* ma_sio_start_proc) (struct ma_sio_hdl*); +typedef int (* ma_sio_stop_proc) (struct ma_sio_hdl*); +typedef int (* ma_sio_initpar_proc)(struct ma_sio_par*); + +static ma_uint32 ma_get_standard_sample_rate_priority_index__sndio(ma_uint32 sampleRate) /* Lower = higher priority */ +{ + ma_uint32 i; + for (i = 0; i < ma_countof(g_maStandardSampleRatePriorities); ++i) { + if (g_maStandardSampleRatePriorities[i] == sampleRate) { + return i; + } + } + + return (ma_uint32)-1; +} + +static ma_format ma_format_from_sio_enc__sndio(unsigned int bits, unsigned int bps, unsigned int sig, unsigned int le, unsigned int msb) +{ + /* We only support native-endian right now. */ + if ((ma_is_little_endian() && le == 0) || (ma_is_big_endian() && le == 1)) { + return ma_format_unknown; + } + + if (bits == 8 && bps == 1 && sig == 0) { + return ma_format_u8; + } + if (bits == 16 && bps == 2 && sig == 1) { + return ma_format_s16; + } + if (bits == 24 && bps == 3 && sig == 1) { + return ma_format_s24; + } + if (bits == 24 && bps == 4 && sig == 1 && msb == 0) { + /*return ma_format_s24_32;*/ + } + if (bits == 32 && bps == 4 && sig == 1) { + return ma_format_s32; + } + + return ma_format_unknown; +} + +static ma_format ma_find_best_format_from_sio_cap__sndio(struct ma_sio_cap* caps) +{ + ma_format bestFormat; + unsigned int iConfig; + + MA_ASSERT(caps != NULL); + + bestFormat = ma_format_unknown; + for (iConfig = 0; iConfig < caps->nconf; iConfig += 1) { + unsigned int iEncoding; + for (iEncoding = 0; iEncoding < MA_SIO_NENC; iEncoding += 1) { + unsigned int bits; + unsigned int bps; + unsigned int sig; + unsigned int le; + unsigned int msb; + ma_format format; + + if ((caps->confs[iConfig].enc & (1UL << iEncoding)) == 0) { + continue; + } + + bits = caps->enc[iEncoding].bits; + bps = caps->enc[iEncoding].bps; + sig = caps->enc[iEncoding].sig; + le = caps->enc[iEncoding].le; + msb = caps->enc[iEncoding].msb; + format = ma_format_from_sio_enc__sndio(bits, bps, sig, le, msb); + if (format == ma_format_unknown) { + continue; /* Format not supported. */ + } + + if (bestFormat == ma_format_unknown) { + bestFormat = format; + } else { + if (ma_get_format_priority_index(bestFormat) > ma_get_format_priority_index(format)) { /* <-- Lower = better. */ + bestFormat = format; + } + } + } + } + + return bestFormat; +} + +static ma_uint32 ma_find_best_channels_from_sio_cap__sndio(struct ma_sio_cap* caps, ma_device_type deviceType, ma_format requiredFormat) +{ + ma_uint32 maxChannels; + unsigned int iConfig; + + MA_ASSERT(caps != NULL); + MA_ASSERT(requiredFormat != ma_format_unknown); + + /* Just pick whatever configuration has the most channels. */ + maxChannels = 0; + for (iConfig = 0; iConfig < caps->nconf; iConfig += 1) { + /* The encoding should be of requiredFormat. */ + unsigned int iEncoding; + for (iEncoding = 0; iEncoding < MA_SIO_NENC; iEncoding += 1) { + unsigned int iChannel; + unsigned int bits; + unsigned int bps; + unsigned int sig; + unsigned int le; + unsigned int msb; + ma_format format; + + if ((caps->confs[iConfig].enc & (1UL << iEncoding)) == 0) { + continue; + } + + bits = caps->enc[iEncoding].bits; + bps = caps->enc[iEncoding].bps; + sig = caps->enc[iEncoding].sig; + le = caps->enc[iEncoding].le; + msb = caps->enc[iEncoding].msb; + format = ma_format_from_sio_enc__sndio(bits, bps, sig, le, msb); + if (format != requiredFormat) { + continue; + } + + /* Getting here means the format is supported. Iterate over each channel count and grab the biggest one. */ + for (iChannel = 0; iChannel < MA_SIO_NCHAN; iChannel += 1) { + unsigned int chan = 0; + unsigned int channels; + + if (deviceType == ma_device_type_playback) { + chan = caps->confs[iConfig].pchan; + } else { + chan = caps->confs[iConfig].rchan; + } + + if ((chan & (1UL << iChannel)) == 0) { + continue; + } + + if (deviceType == ma_device_type_playback) { + channels = caps->pchan[iChannel]; + } else { + channels = caps->rchan[iChannel]; + } + + if (maxChannels < channels) { + maxChannels = channels; + } + } + } + } + + return maxChannels; +} + +static ma_uint32 ma_find_best_sample_rate_from_sio_cap__sndio(struct ma_sio_cap* caps, ma_device_type deviceType, ma_format requiredFormat, ma_uint32 requiredChannels) +{ + ma_uint32 firstSampleRate; + ma_uint32 bestSampleRate; + unsigned int iConfig; + + MA_ASSERT(caps != NULL); + MA_ASSERT(requiredFormat != ma_format_unknown); + MA_ASSERT(requiredChannels > 0); + MA_ASSERT(requiredChannels <= MA_MAX_CHANNELS); + + firstSampleRate = 0; /* <-- If the device does not support a standard rate we'll fall back to the first one that's found. */ + bestSampleRate = 0; + + for (iConfig = 0; iConfig < caps->nconf; iConfig += 1) { + /* The encoding should be of requiredFormat. */ + unsigned int iEncoding; + for (iEncoding = 0; iEncoding < MA_SIO_NENC; iEncoding += 1) { + unsigned int iChannel; + unsigned int bits; + unsigned int bps; + unsigned int sig; + unsigned int le; + unsigned int msb; + ma_format format; + + if ((caps->confs[iConfig].enc & (1UL << iEncoding)) == 0) { + continue; + } + + bits = caps->enc[iEncoding].bits; + bps = caps->enc[iEncoding].bps; + sig = caps->enc[iEncoding].sig; + le = caps->enc[iEncoding].le; + msb = caps->enc[iEncoding].msb; + format = ma_format_from_sio_enc__sndio(bits, bps, sig, le, msb); + if (format != requiredFormat) { + continue; + } + + /* Getting here means the format is supported. Iterate over each channel count and grab the biggest one. */ + for (iChannel = 0; iChannel < MA_SIO_NCHAN; iChannel += 1) { + unsigned int chan = 0; + unsigned int channels; + unsigned int iRate; + + if (deviceType == ma_device_type_playback) { + chan = caps->confs[iConfig].pchan; + } else { + chan = caps->confs[iConfig].rchan; + } + + if ((chan & (1UL << iChannel)) == 0) { + continue; + } + + if (deviceType == ma_device_type_playback) { + channels = caps->pchan[iChannel]; + } else { + channels = caps->rchan[iChannel]; + } + + if (channels != requiredChannels) { + continue; + } + + /* Getting here means we have found a compatible encoding/channel pair. */ + for (iRate = 0; iRate < MA_SIO_NRATE; iRate += 1) { + ma_uint32 rate = (ma_uint32)caps->rate[iRate]; + ma_uint32 ratePriority; + + if (firstSampleRate == 0) { + firstSampleRate = rate; + } + + /* Disregard this rate if it's not a standard one. */ + ratePriority = ma_get_standard_sample_rate_priority_index__sndio(rate); + if (ratePriority == (ma_uint32)-1) { + continue; + } + + if (ma_get_standard_sample_rate_priority_index__sndio(bestSampleRate) > ratePriority) { /* Lower = better. */ + bestSampleRate = rate; + } + } + } + } + } + + /* If a standard sample rate was not found just fall back to the first one that was iterated. */ + if (bestSampleRate == 0) { + bestSampleRate = firstSampleRate; + } + + return bestSampleRate; +} + + +static ma_result ma_context_enumerate_devices__sndio(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + ma_bool32 isTerminating = MA_FALSE; + struct ma_sio_hdl* handle; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + /* sndio doesn't seem to have a good device enumeration API, so I'm therefore only enumerating over default devices for now. */ + + /* Playback. */ + if (!isTerminating) { + handle = ((ma_sio_open_proc)pContext->sndio.sio_open)(MA_SIO_DEVANY, MA_SIO_PLAY, 0); + if (handle != NULL) { + /* Supports playback. */ + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_strcpy_s(deviceInfo.id.sndio, sizeof(deviceInfo.id.sndio), MA_SIO_DEVANY); + ma_strcpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_PLAYBACK_DEVICE_NAME); + + isTerminating = !callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + + ((ma_sio_close_proc)pContext->sndio.sio_close)(handle); + } + } + + /* Capture. */ + if (!isTerminating) { + handle = ((ma_sio_open_proc)pContext->sndio.sio_open)(MA_SIO_DEVANY, MA_SIO_REC, 0); + if (handle != NULL) { + /* Supports capture. */ + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_strcpy_s(deviceInfo.id.sndio, sizeof(deviceInfo.id.sndio), "default"); + ma_strcpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_CAPTURE_DEVICE_NAME); + + isTerminating = !callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + + ((ma_sio_close_proc)pContext->sndio.sio_close)(handle); + } + } + + return MA_SUCCESS; +} + +static ma_result ma_context_get_device_info__sndio(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + char devid[256]; + struct ma_sio_hdl* handle; + struct ma_sio_cap caps; + unsigned int iConfig; + + MA_ASSERT(pContext != NULL); + + /* We need to open the device before we can get information about it. */ + if (pDeviceID == NULL) { + ma_strcpy_s(devid, sizeof(devid), MA_SIO_DEVANY); + ma_strcpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), (deviceType == ma_device_type_playback) ? MA_DEFAULT_PLAYBACK_DEVICE_NAME : MA_DEFAULT_CAPTURE_DEVICE_NAME); + } else { + ma_strcpy_s(devid, sizeof(devid), pDeviceID->sndio); + ma_strcpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), devid); + } + + handle = ((ma_sio_open_proc)pContext->sndio.sio_open)(devid, (deviceType == ma_device_type_playback) ? MA_SIO_PLAY : MA_SIO_REC, 0); + if (handle == NULL) { + return MA_NO_DEVICE; + } + + if (((ma_sio_getcap_proc)pContext->sndio.sio_getcap)(handle, &caps) == 0) { + return MA_ERROR; + } + + pDeviceInfo->nativeDataFormatCount = 0; + + for (iConfig = 0; iConfig < caps.nconf; iConfig += 1) { + /* + The main thing we care about is that the encoding is supported by miniaudio. If it is, we want to give + preference to some formats over others. + */ + unsigned int iEncoding; + unsigned int iChannel; + unsigned int iRate; + + for (iEncoding = 0; iEncoding < MA_SIO_NENC; iEncoding += 1) { + unsigned int bits; + unsigned int bps; + unsigned int sig; + unsigned int le; + unsigned int msb; + ma_format format; + + if ((caps.confs[iConfig].enc & (1UL << iEncoding)) == 0) { + continue; + } + + bits = caps.enc[iEncoding].bits; + bps = caps.enc[iEncoding].bps; + sig = caps.enc[iEncoding].sig; + le = caps.enc[iEncoding].le; + msb = caps.enc[iEncoding].msb; + format = ma_format_from_sio_enc__sndio(bits, bps, sig, le, msb); + if (format == ma_format_unknown) { + continue; /* Format not supported. */ + } + + + /* Channels. */ + for (iChannel = 0; iChannel < MA_SIO_NCHAN; iChannel += 1) { + unsigned int chan = 0; + unsigned int channels; + + if (deviceType == ma_device_type_playback) { + chan = caps.confs[iConfig].pchan; + } else { + chan = caps.confs[iConfig].rchan; + } + + if ((chan & (1UL << iChannel)) == 0) { + continue; + } + + if (deviceType == ma_device_type_playback) { + channels = caps.pchan[iChannel]; + } else { + channels = caps.rchan[iChannel]; + } + + + /* Sample Rates. */ + for (iRate = 0; iRate < MA_SIO_NRATE; iRate += 1) { + if ((caps.confs[iConfig].rate & (1UL << iRate)) != 0) { + ma_device_info_add_native_data_format(pDeviceInfo, format, channels, caps.rate[iRate], 0); + } + } + } + } + } + + ((ma_sio_close_proc)pContext->sndio.sio_close)(handle); + return MA_SUCCESS; +} + +static ma_result ma_device_uninit__sndio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ((ma_sio_close_proc)pDevice->pContext->sndio.sio_close)((struct ma_sio_hdl*)pDevice->sndio.handleCapture); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ((ma_sio_close_proc)pDevice->pContext->sndio.sio_close)((struct ma_sio_hdl*)pDevice->sndio.handlePlayback); + } + + return MA_SUCCESS; +} + +static ma_result ma_device_init_handle__sndio(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptor, ma_device_type deviceType) +{ + const char* pDeviceName; + ma_ptr handle; + int openFlags = 0; + struct ma_sio_cap caps; + struct ma_sio_par par; + const ma_device_id* pDeviceID; + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_format internalFormat; + ma_uint32 internalChannels; + ma_uint32 internalSampleRate; + ma_uint32 internalPeriodSizeInFrames; + ma_uint32 internalPeriods; + + MA_ASSERT(pConfig != NULL); + MA_ASSERT(deviceType != ma_device_type_duplex); + MA_ASSERT(pDevice != NULL); + + if (deviceType == ma_device_type_capture) { + openFlags = MA_SIO_REC; + } else { + openFlags = MA_SIO_PLAY; + } + + pDeviceID = pDescriptor->pDeviceID; + format = pDescriptor->format; + channels = pDescriptor->channels; + sampleRate = pDescriptor->sampleRate; + + pDeviceName = MA_SIO_DEVANY; + if (pDeviceID != NULL) { + pDeviceName = pDeviceID->sndio; + } + + handle = (ma_ptr)((ma_sio_open_proc)pDevice->pContext->sndio.sio_open)(pDeviceName, openFlags, 0); + if (handle == NULL) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[sndio] Failed to open device."); + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + + /* We need to retrieve the device caps to determine the most appropriate format to use. */ + if (((ma_sio_getcap_proc)pDevice->pContext->sndio.sio_getcap)((struct ma_sio_hdl*)handle, &caps) == 0) { + ((ma_sio_close_proc)pDevice->pContext->sndio.sio_close)((struct ma_sio_hdl*)handle); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[sndio] Failed to retrieve device caps."); + return MA_ERROR; + } + + /* + Note: sndio reports a huge range of available channels. This is inconvenient for us because there's no real + way, as far as I can tell, to get the _actual_ channel count of the device. I'm therefore restricting this + to the requested channels, regardless of whether or not the default channel count is requested. + + For hardware devices, I'm suspecting only a single channel count will be reported and we can safely use the + value returned by ma_find_best_channels_from_sio_cap__sndio(). + */ + if (deviceType == ma_device_type_capture) { + if (format == ma_format_unknown) { + format = ma_find_best_format_from_sio_cap__sndio(&caps); + } + + if (channels == 0) { + if (strlen(pDeviceName) > strlen("rsnd/") && strncmp(pDeviceName, "rsnd/", strlen("rsnd/")) == 0) { + channels = ma_find_best_channels_from_sio_cap__sndio(&caps, deviceType, format); + } else { + channels = MA_DEFAULT_CHANNELS; + } + } + } else { + if (format == ma_format_unknown) { + format = ma_find_best_format_from_sio_cap__sndio(&caps); + } + + if (channels == 0) { + if (strlen(pDeviceName) > strlen("rsnd/") && strncmp(pDeviceName, "rsnd/", strlen("rsnd/")) == 0) { + channels = ma_find_best_channels_from_sio_cap__sndio(&caps, deviceType, format); + } else { + channels = MA_DEFAULT_CHANNELS; + } + } + } + + if (sampleRate == 0) { + sampleRate = ma_find_best_sample_rate_from_sio_cap__sndio(&caps, pConfig->deviceType, format, channels); + } + + + ((ma_sio_initpar_proc)pDevice->pContext->sndio.sio_initpar)(&par); + par.msb = 0; + par.le = ma_is_little_endian(); + + switch (format) { + case ma_format_u8: + { + par.bits = 8; + par.bps = 1; + par.sig = 0; + } break; + + case ma_format_s24: + { + par.bits = 24; + par.bps = 3; + par.sig = 1; + } break; + + case ma_format_s32: + { + par.bits = 32; + par.bps = 4; + par.sig = 1; + } break; + + case ma_format_s16: + case ma_format_f32: + case ma_format_unknown: + default: + { + par.bits = 16; + par.bps = 2; + par.sig = 1; + } break; + } + + if (deviceType == ma_device_type_capture) { + par.rchan = channels; + } else { + par.pchan = channels; + } + + par.rate = sampleRate; + + internalPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptor, par.rate, pConfig->performanceProfile); + + par.round = internalPeriodSizeInFrames; + par.appbufsz = par.round * pDescriptor->periodCount; + + if (((ma_sio_setpar_proc)pDevice->pContext->sndio.sio_setpar)((struct ma_sio_hdl*)handle, &par) == 0) { + ((ma_sio_close_proc)pDevice->pContext->sndio.sio_close)((struct ma_sio_hdl*)handle); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[sndio] Failed to set buffer size."); + return MA_ERROR; + } + + if (((ma_sio_getpar_proc)pDevice->pContext->sndio.sio_getpar)((struct ma_sio_hdl*)handle, &par) == 0) { + ((ma_sio_close_proc)pDevice->pContext->sndio.sio_close)((struct ma_sio_hdl*)handle); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[sndio] Failed to retrieve buffer size."); + return MA_ERROR; + } + + internalFormat = ma_format_from_sio_enc__sndio(par.bits, par.bps, par.sig, par.le, par.msb); + internalChannels = (deviceType == ma_device_type_capture) ? par.rchan : par.pchan; + internalSampleRate = par.rate; + internalPeriods = par.appbufsz / par.round; + internalPeriodSizeInFrames = par.round; + + if (deviceType == ma_device_type_capture) { + pDevice->sndio.handleCapture = handle; + } else { + pDevice->sndio.handlePlayback = handle; + } + + pDescriptor->format = internalFormat; + pDescriptor->channels = internalChannels; + pDescriptor->sampleRate = internalSampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_sndio, pDescriptor->channelMap, ma_countof(pDescriptor->channelMap), internalChannels); + pDescriptor->periodSizeInFrames = internalPeriodSizeInFrames; + pDescriptor->periodCount = internalPeriods; + + return MA_SUCCESS; +} + +static ma_result ma_device_init__sndio(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + MA_ASSERT(pDevice != NULL); + + MA_ZERO_OBJECT(&pDevice->sndio); + + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + ma_result result = ma_device_init_handle__sndio(pDevice, pConfig, pDescriptorCapture, ma_device_type_capture); + if (result != MA_SUCCESS) { + return result; + } + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ma_result result = ma_device_init_handle__sndio(pDevice, pConfig, pDescriptorPlayback, ma_device_type_playback); + if (result != MA_SUCCESS) { + return result; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_start__sndio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ((ma_sio_start_proc)pDevice->pContext->sndio.sio_start)((struct ma_sio_hdl*)pDevice->sndio.handleCapture); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ((ma_sio_start_proc)pDevice->pContext->sndio.sio_start)((struct ma_sio_hdl*)pDevice->sndio.handlePlayback); /* <-- Doesn't actually playback until data is written. */ + } + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__sndio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + /* + From the documentation: + + The sio_stop() function puts the audio subsystem in the same state as before sio_start() is called. It stops recording, drains the play buffer and then + stops playback. If samples to play are queued but playback hasn't started yet then playback is forced immediately; playback will actually stop once the + buffer is drained. In no case are samples in the play buffer discarded. + + Therefore, sio_stop() performs all of the necessary draining for us. + */ + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ((ma_sio_stop_proc)pDevice->pContext->sndio.sio_stop)((struct ma_sio_hdl*)pDevice->sndio.handleCapture); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ((ma_sio_stop_proc)pDevice->pContext->sndio.sio_stop)((struct ma_sio_hdl*)pDevice->sndio.handlePlayback); + } + + return MA_SUCCESS; +} + +static ma_result ma_device_write__sndio(ma_device* pDevice, const void* pPCMFrames, ma_uint32 frameCount, ma_uint32* pFramesWritten) +{ + int result; + + if (pFramesWritten != NULL) { + *pFramesWritten = 0; + } + + result = ((ma_sio_write_proc)pDevice->pContext->sndio.sio_write)((struct ma_sio_hdl*)pDevice->sndio.handlePlayback, pPCMFrames, frameCount * ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels)); + if (result == 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[sndio] Failed to send data from the client to the device."); + return MA_IO_ERROR; + } + + if (pFramesWritten != NULL) { + *pFramesWritten = frameCount; + } + + return MA_SUCCESS; +} + +static ma_result ma_device_read__sndio(ma_device* pDevice, void* pPCMFrames, ma_uint32 frameCount, ma_uint32* pFramesRead) +{ + int result; + + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + result = ((ma_sio_read_proc)pDevice->pContext->sndio.sio_read)((struct ma_sio_hdl*)pDevice->sndio.handleCapture, pPCMFrames, frameCount * ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels)); + if (result == 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[sndio] Failed to read data from the device to be sent to the device."); + return MA_IO_ERROR; + } + + if (pFramesRead != NULL) { + *pFramesRead = frameCount; + } + + return MA_SUCCESS; +} + +static ma_result ma_context_uninit__sndio(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_sndio); + + (void)pContext; + return MA_SUCCESS; +} + +static ma_result ma_context_init__sndio(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ +#ifndef MA_NO_RUNTIME_LINKING + const char* libsndioNames[] = { + "libsndio.so" + }; + size_t i; + + for (i = 0; i < ma_countof(libsndioNames); ++i) { + pContext->sndio.sndioSO = ma_dlopen(ma_context_get_log(pContext), libsndioNames[i]); + if (pContext->sndio.sndioSO != NULL) { + break; + } + } + + if (pContext->sndio.sndioSO == NULL) { + return MA_NO_BACKEND; + } + + pContext->sndio.sio_open = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->sndio.sndioSO, "sio_open"); + pContext->sndio.sio_close = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->sndio.sndioSO, "sio_close"); + pContext->sndio.sio_setpar = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->sndio.sndioSO, "sio_setpar"); + pContext->sndio.sio_getpar = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->sndio.sndioSO, "sio_getpar"); + pContext->sndio.sio_getcap = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->sndio.sndioSO, "sio_getcap"); + pContext->sndio.sio_write = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->sndio.sndioSO, "sio_write"); + pContext->sndio.sio_read = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->sndio.sndioSO, "sio_read"); + pContext->sndio.sio_start = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->sndio.sndioSO, "sio_start"); + pContext->sndio.sio_stop = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->sndio.sndioSO, "sio_stop"); + pContext->sndio.sio_initpar = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->sndio.sndioSO, "sio_initpar"); +#else + pContext->sndio.sio_open = sio_open; + pContext->sndio.sio_close = sio_close; + pContext->sndio.sio_setpar = sio_setpar; + pContext->sndio.sio_getpar = sio_getpar; + pContext->sndio.sio_getcap = sio_getcap; + pContext->sndio.sio_write = sio_write; + pContext->sndio.sio_read = sio_read; + pContext->sndio.sio_start = sio_start; + pContext->sndio.sio_stop = sio_stop; + pContext->sndio.sio_initpar = sio_initpar; +#endif + + pCallbacks->onContextInit = ma_context_init__sndio; + pCallbacks->onContextUninit = ma_context_uninit__sndio; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__sndio; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__sndio; + pCallbacks->onDeviceInit = ma_device_init__sndio; + pCallbacks->onDeviceUninit = ma_device_uninit__sndio; + pCallbacks->onDeviceStart = ma_device_start__sndio; + pCallbacks->onDeviceStop = ma_device_stop__sndio; + pCallbacks->onDeviceRead = ma_device_read__sndio; + pCallbacks->onDeviceWrite = ma_device_write__sndio; + pCallbacks->onDeviceDataLoop = NULL; + + (void)pConfig; + return MA_SUCCESS; +} +#endif /* MA_HAS_SNDIO */ + + + +/****************************************************************************** + +audio(4) Backend + +******************************************************************************/ +#ifdef MA_HAS_AUDIO4 +#include +#include +#include +#include +#include +#include +#include + +#ifdef __NetBSD__ +#include +#endif + +#if defined(__OpenBSD__) + #include + #if defined(OpenBSD) && OpenBSD >= 201709 + #define MA_AUDIO4_USE_NEW_API + #endif +#endif + +static void ma_construct_device_id__audio4(char* id, size_t idSize, const char* base, int deviceIndex) +{ + size_t baseLen; + + MA_ASSERT(id != NULL); + MA_ASSERT(idSize > 0); + MA_ASSERT(deviceIndex >= 0); + + baseLen = strlen(base); + MA_ASSERT(idSize > baseLen); + + ma_strcpy_s(id, idSize, base); + ma_itoa_s(deviceIndex, id+baseLen, idSize-baseLen, 10); +} + +static ma_result ma_extract_device_index_from_id__audio4(const char* id, const char* base, int* pIndexOut) +{ + size_t idLen; + size_t baseLen; + const char* deviceIndexStr; + + MA_ASSERT(id != NULL); + MA_ASSERT(base != NULL); + MA_ASSERT(pIndexOut != NULL); + + idLen = strlen(id); + baseLen = strlen(base); + if (idLen <= baseLen) { + return MA_ERROR; /* Doesn't look like the id starts with the base. */ + } + + if (strncmp(id, base, baseLen) != 0) { + return MA_ERROR; /* ID does not begin with base. */ + } + + deviceIndexStr = id + baseLen; + if (deviceIndexStr[0] == '\0') { + return MA_ERROR; /* No index specified in the ID. */ + } + + if (pIndexOut) { + *pIndexOut = atoi(deviceIndexStr); + } + + return MA_SUCCESS; +} + + +#if !defined(MA_AUDIO4_USE_NEW_API) /* Old API */ +static ma_format ma_format_from_encoding__audio4(unsigned int encoding, unsigned int precision) +{ + if (precision == 8 && (encoding == AUDIO_ENCODING_ULINEAR || encoding == AUDIO_ENCODING_ULINEAR || encoding == AUDIO_ENCODING_ULINEAR_LE || encoding == AUDIO_ENCODING_ULINEAR_BE)) { + return ma_format_u8; + } else { + if (ma_is_little_endian() && encoding == AUDIO_ENCODING_SLINEAR_LE) { + if (precision == 16) { + return ma_format_s16; + } else if (precision == 24) { + return ma_format_s24; + } else if (precision == 32) { + return ma_format_s32; + } + } else if (ma_is_big_endian() && encoding == AUDIO_ENCODING_SLINEAR_BE) { + if (precision == 16) { + return ma_format_s16; + } else if (precision == 24) { + return ma_format_s24; + } else if (precision == 32) { + return ma_format_s32; + } + } + } + + return ma_format_unknown; /* Encoding not supported. */ +} + +static void ma_encoding_from_format__audio4(ma_format format, unsigned int* pEncoding, unsigned int* pPrecision) +{ + MA_ASSERT(pEncoding != NULL); + MA_ASSERT(pPrecision != NULL); + + switch (format) + { + case ma_format_u8: + { + *pEncoding = AUDIO_ENCODING_ULINEAR; + *pPrecision = 8; + } break; + + case ma_format_s24: + { + *pEncoding = (ma_is_little_endian()) ? AUDIO_ENCODING_SLINEAR_LE : AUDIO_ENCODING_SLINEAR_BE; + *pPrecision = 24; + } break; + + case ma_format_s32: + { + *pEncoding = (ma_is_little_endian()) ? AUDIO_ENCODING_SLINEAR_LE : AUDIO_ENCODING_SLINEAR_BE; + *pPrecision = 32; + } break; + + case ma_format_s16: + case ma_format_f32: + case ma_format_unknown: + default: + { + *pEncoding = (ma_is_little_endian()) ? AUDIO_ENCODING_SLINEAR_LE : AUDIO_ENCODING_SLINEAR_BE; + *pPrecision = 16; + } break; + } +} + +static ma_format ma_format_from_prinfo__audio4(struct audio_prinfo* prinfo) +{ + return ma_format_from_encoding__audio4(prinfo->encoding, prinfo->precision); +} + +static ma_format ma_best_format_from_fd__audio4(int fd, ma_format preferredFormat) +{ + audio_encoding_t encoding; + ma_uint32 iFormat; + int counter = 0; + + /* First check to see if the preferred format is supported. */ + if (preferredFormat != ma_format_unknown) { + counter = 0; + for (;;) { + MA_ZERO_OBJECT(&encoding); + encoding.index = counter; + if (ioctl(fd, AUDIO_GETENC, &encoding) < 0) { + break; + } + + if (preferredFormat == ma_format_from_encoding__audio4(encoding.encoding, encoding.precision)) { + return preferredFormat; /* Found the preferred format. */ + } + + /* Getting here means this encoding does not match our preferred format so we need to more on to the next encoding. */ + counter += 1; + } + } + + /* Getting here means our preferred format is not supported, so fall back to our standard priorities. */ + for (iFormat = 0; iFormat < ma_countof(g_maFormatPriorities); iFormat += 1) { + ma_format format = g_maFormatPriorities[iFormat]; + + counter = 0; + for (;;) { + MA_ZERO_OBJECT(&encoding); + encoding.index = counter; + if (ioctl(fd, AUDIO_GETENC, &encoding) < 0) { + break; + } + + if (format == ma_format_from_encoding__audio4(encoding.encoding, encoding.precision)) { + return format; /* Found a workable format. */ + } + + /* Getting here means this encoding does not match our preferred format so we need to more on to the next encoding. */ + counter += 1; + } + } + + /* Getting here means not appropriate format was found. */ + return ma_format_unknown; +} +#else +static ma_format ma_format_from_swpar__audio4(struct audio_swpar* par) +{ + if (par->bits == 8 && par->bps == 1 && par->sig == 0) { + return ma_format_u8; + } + if (par->bits == 16 && par->bps == 2 && par->sig == 1 && par->le == ma_is_little_endian()) { + return ma_format_s16; + } + if (par->bits == 24 && par->bps == 3 && par->sig == 1 && par->le == ma_is_little_endian()) { + return ma_format_s24; + } + if (par->bits == 32 && par->bps == 4 && par->sig == 1 && par->le == ma_is_little_endian()) { + return ma_format_f32; + } + + /* Format not supported. */ + return ma_format_unknown; +} +#endif + +static ma_result ma_context_get_device_info_from_fd__audio4(ma_context* pContext, ma_device_type deviceType, int fd, ma_device_info* pDeviceInfo) +{ + audio_device_t fdDevice; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(fd >= 0); + MA_ASSERT(pDeviceInfo != NULL); + + (void)pContext; + (void)deviceType; + + if (ioctl(fd, AUDIO_GETDEV, &fdDevice) < 0) { + return MA_ERROR; /* Failed to retrieve device info. */ + } + + /* Name. */ + ma_strcpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), fdDevice.name); + + #if !defined(MA_AUDIO4_USE_NEW_API) + { + audio_info_t fdInfo; + int counter = 0; + ma_uint32 channels; + ma_uint32 sampleRate; + +#if defined(__NetBSD__) && (__NetBSD_Version__ >= 900000000) + if (ioctl(fd, AUDIO_GETFORMAT, &fdInfo) < 0) { + return MA_ERROR; + } +#else + if (ioctl(fd, AUDIO_GETINFO, &fdInfo) < 0) { + return MA_ERROR; + } +#endif + + if (deviceType == ma_device_type_playback) { + channels = fdInfo.play.channels; + sampleRate = fdInfo.play.sample_rate; + } else { + channels = fdInfo.record.channels; + sampleRate = fdInfo.record.sample_rate; + } + + /* Supported formats. We get this by looking at the encodings. */ + pDeviceInfo->nativeDataFormatCount = 0; + for (;;) { + audio_encoding_t encoding; + ma_format format; + + MA_ZERO_OBJECT(&encoding); + encoding.index = counter; + if (ioctl(fd, AUDIO_GETENC, &encoding) < 0) { + break; + } + + format = ma_format_from_encoding__audio4(encoding.encoding, encoding.precision); + if (format != ma_format_unknown) { + ma_device_info_add_native_data_format(pDeviceInfo, format, channels, sampleRate, 0); + } + + counter += 1; + } + } + #else + { + struct audio_swpar fdPar; + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + + if (ioctl(fd, AUDIO_GETPAR, &fdPar) < 0) { + return MA_ERROR; + } + + format = ma_format_from_swpar__audio4(&fdPar); + if (format == ma_format_unknown) { + return MA_FORMAT_NOT_SUPPORTED; + } + + if (deviceType == ma_device_type_playback) { + channels = fdPar.pchan; + } else { + channels = fdPar.rchan; + } + + sampleRate = fdPar.rate; + + pDeviceInfo->nativeDataFormatCount = 0; + ma_device_info_add_native_data_format(pDeviceInfo, format, channels, sampleRate, 0); + } + #endif + + return MA_SUCCESS; +} + +static ma_result ma_context_enumerate_devices__audio4(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + const int maxDevices = 64; + char devpath[256]; + int iDevice; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + /* + Every device will be named "/dev/audioN", with a "/dev/audioctlN" equivalent. We use the "/dev/audioctlN" + version here since we can open it even when another process has control of the "/dev/audioN" device. + */ + for (iDevice = 0; iDevice < maxDevices; ++iDevice) { + struct stat st; + int fd; + ma_bool32 isTerminating = MA_FALSE; + + ma_strcpy_s(devpath, sizeof(devpath), "/dev/audioctl"); + ma_itoa_s(iDevice, devpath+strlen(devpath), sizeof(devpath)-strlen(devpath), 10); + + if (stat(devpath, &st) < 0) { + break; + } + + /* The device exists, but we need to check if it's usable as playback and/or capture. */ + + /* Playback. */ + if (!isTerminating) { + fd = open(devpath, O_RDONLY, 0); + if (fd >= 0) { + /* Supports playback. */ + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_construct_device_id__audio4(deviceInfo.id.audio4, sizeof(deviceInfo.id.audio4), "/dev/audio", iDevice); + if (ma_context_get_device_info_from_fd__audio4(pContext, ma_device_type_playback, fd, &deviceInfo) == MA_SUCCESS) { + isTerminating = !callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + } + + close(fd); + } + } + + /* Capture. */ + if (!isTerminating) { + fd = open(devpath, O_WRONLY, 0); + if (fd >= 0) { + /* Supports capture. */ + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_construct_device_id__audio4(deviceInfo.id.audio4, sizeof(deviceInfo.id.audio4), "/dev/audio", iDevice); + if (ma_context_get_device_info_from_fd__audio4(pContext, ma_device_type_capture, fd, &deviceInfo) == MA_SUCCESS) { + isTerminating = !callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + } + + close(fd); + } + } + + if (isTerminating) { + break; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_context_get_device_info__audio4(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + int fd = -1; + int deviceIndex = -1; + char ctlid[256]; + ma_result result; + + MA_ASSERT(pContext != NULL); + + /* + We need to open the "/dev/audioctlN" device to get the info. To do this we need to extract the number + from the device ID which will be in "/dev/audioN" format. + */ + if (pDeviceID == NULL) { + /* Default device. */ + ma_strcpy_s(ctlid, sizeof(ctlid), "/dev/audioctl"); + } else { + /* Specific device. We need to convert from "/dev/audioN" to "/dev/audioctlN". */ + result = ma_extract_device_index_from_id__audio4(pDeviceID->audio4, "/dev/audio", &deviceIndex); + if (result != MA_SUCCESS) { + return result; + } + + ma_construct_device_id__audio4(ctlid, sizeof(ctlid), "/dev/audioctl", deviceIndex); + } + + fd = open(ctlid, (deviceType == ma_device_type_playback) ? O_WRONLY : O_RDONLY, 0); + if (fd == -1) { + return MA_NO_DEVICE; + } + + if (deviceIndex == -1) { + ma_strcpy_s(pDeviceInfo->id.audio4, sizeof(pDeviceInfo->id.audio4), "/dev/audio"); + } else { + ma_construct_device_id__audio4(pDeviceInfo->id.audio4, sizeof(pDeviceInfo->id.audio4), "/dev/audio", deviceIndex); + } + + result = ma_context_get_device_info_from_fd__audio4(pContext, deviceType, fd, pDeviceInfo); + + close(fd); + return result; +} + +static ma_result ma_device_uninit__audio4(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + close(pDevice->audio4.fdCapture); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + close(pDevice->audio4.fdPlayback); + } + + return MA_SUCCESS; +} + +static ma_result ma_device_init_fd__audio4(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptor, ma_device_type deviceType) +{ + const char* pDefaultDeviceNames[] = { + "/dev/audio", + "/dev/audio0" + }; + const char* pDefaultDeviceCtlNames[] = { + "/dev/audioctl", + "/dev/audioctl0" + }; + int fd; + int fdFlags = 0; + size_t iDefaultDevice = (size_t)-1; + ma_format internalFormat; + ma_uint32 internalChannels; + ma_uint32 internalSampleRate; + ma_uint32 internalPeriodSizeInFrames; + ma_uint32 internalPeriods; + + MA_ASSERT(pConfig != NULL); + MA_ASSERT(deviceType != ma_device_type_duplex); + MA_ASSERT(pDevice != NULL); + + /* The first thing to do is open the file. */ + if (deviceType == ma_device_type_capture) { + fdFlags = O_RDONLY; + } else { + fdFlags = O_WRONLY; + } + /*fdFlags |= O_NONBLOCK;*/ + + /* Find the index of the default device as a start. We'll use this index later. Set it to (size_t)-1 otherwise. */ + if (pDescriptor->pDeviceID == NULL) { + /* Default device. */ + for (iDefaultDevice = 0; iDefaultDevice < ma_countof(pDefaultDeviceNames); ++iDefaultDevice) { + fd = open(pDefaultDeviceNames[iDefaultDevice], fdFlags, 0); + if (fd != -1) { + break; + } + } + } else { + /* Specific device. */ + fd = open(pDescriptor->pDeviceID->audio4, fdFlags, 0); + + for (iDefaultDevice = 0; iDefaultDevice < ma_countof(pDefaultDeviceNames); iDefaultDevice += 1) { + if (ma_strcmp(pDefaultDeviceNames[iDefaultDevice], pDescriptor->pDeviceID->audio4) == 0) { + break; + } + } + + if (iDefaultDevice == ma_countof(pDefaultDeviceNames)) { + iDefaultDevice = (size_t)-1; + } + } + + if (fd == -1) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] Failed to open device."); + return ma_result_from_errno(errno); + } + + #if !defined(MA_AUDIO4_USE_NEW_API) /* Old API */ + { + audio_info_t fdInfo; + int fdInfoResult = -1; + + /* + The documentation is a little bit unclear to me as to how it handles formats. It says the + following: + + Regardless of formats supported by underlying driver, the audio driver accepts the + following formats. + + By then the next sentence says this: + + `encoding` and `precision` are one of the values obtained by AUDIO_GETENC. + + It sounds like a direct contradiction to me. I'm going to play this safe any only use the + best sample format returned by AUDIO_GETENC. If the requested format is supported we'll + use that, but otherwise we'll just use our standard format priorities to pick an + appropriate one. + */ + AUDIO_INITINFO(&fdInfo); + + /* + Get the default format from the audioctl file if we're asking for a default device. If we + retrieve it from /dev/audio it'll default to mono 8000Hz. + */ + if (iDefaultDevice != (size_t)-1) { + /* We're using a default device. Get the info from the /dev/audioctl file instead of /dev/audio. */ + int fdctl = open(pDefaultDeviceCtlNames[iDefaultDevice], fdFlags, 0); + if (fdctl != -1) { +#if defined(__NetBSD__) && (__NetBSD_Version__ >= 900000000) + fdInfoResult = ioctl(fdctl, AUDIO_GETFORMAT, &fdInfo); +#else + fdInfoResult = ioctl(fdctl, AUDIO_GETINFO, &fdInfo); +#endif + close(fdctl); + } + } + + if (fdInfoResult == -1) { + /* We still don't have the default device info so just retrieve it from the main audio device. */ + if (ioctl(fd, AUDIO_GETINFO, &fdInfo) < 0) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] AUDIO_GETINFO failed."); + return ma_result_from_errno(errno); + } + } + + /* We get the driver to do as much of the data conversion as possible. */ + if (deviceType == ma_device_type_capture) { + fdInfo.mode = AUMODE_RECORD; + ma_encoding_from_format__audio4(ma_best_format_from_fd__audio4(fd, pDescriptor->format), &fdInfo.record.encoding, &fdInfo.record.precision); + + if (pDescriptor->channels != 0) { + fdInfo.record.channels = ma_clamp(pDescriptor->channels, 1, 12); /* From the documentation: `channels` ranges from 1 to 12. */ + } + + if (pDescriptor->sampleRate != 0) { + fdInfo.record.sample_rate = ma_clamp(pDescriptor->sampleRate, 1000, 192000); /* From the documentation: `frequency` ranges from 1000Hz to 192000Hz. (They mean `sample_rate` instead of `frequency`.) */ + } + } else { + fdInfo.mode = AUMODE_PLAY; + ma_encoding_from_format__audio4(ma_best_format_from_fd__audio4(fd, pDescriptor->format), &fdInfo.play.encoding, &fdInfo.play.precision); + + if (pDescriptor->channels != 0) { + fdInfo.play.channels = ma_clamp(pDescriptor->channels, 1, 12); /* From the documentation: `channels` ranges from 1 to 12. */ + } + + if (pDescriptor->sampleRate != 0) { + fdInfo.play.sample_rate = ma_clamp(pDescriptor->sampleRate, 1000, 192000); /* From the documentation: `frequency` ranges from 1000Hz to 192000Hz. (They mean `sample_rate` instead of `frequency`.) */ + } + } + + if (ioctl(fd, AUDIO_SETINFO, &fdInfo) < 0) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] Failed to set device format. AUDIO_SETINFO failed."); + return ma_result_from_errno(errno); + } + + if (ioctl(fd, AUDIO_GETINFO, &fdInfo) < 0) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] AUDIO_GETINFO failed."); + return ma_result_from_errno(errno); + } + + if (deviceType == ma_device_type_capture) { + internalFormat = ma_format_from_prinfo__audio4(&fdInfo.record); + internalChannels = fdInfo.record.channels; + internalSampleRate = fdInfo.record.sample_rate; + } else { + internalFormat = ma_format_from_prinfo__audio4(&fdInfo.play); + internalChannels = fdInfo.play.channels; + internalSampleRate = fdInfo.play.sample_rate; + } + + if (internalFormat == ma_format_unknown) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] The device's internal device format is not supported by miniaudio. The device is unusable."); + return MA_FORMAT_NOT_SUPPORTED; + } + + /* Buffer. */ + { + ma_uint32 internalPeriodSizeInBytes; + + internalPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptor, internalSampleRate, pConfig->performanceProfile); + + internalPeriodSizeInBytes = internalPeriodSizeInFrames * ma_get_bytes_per_frame(internalFormat, internalChannels); + if (internalPeriodSizeInBytes < 16) { + internalPeriodSizeInBytes = 16; + } + + internalPeriods = pDescriptor->periodCount; + if (internalPeriods < 2) { + internalPeriods = 2; + } + + /* What miniaudio calls a period, audio4 calls a block. */ + AUDIO_INITINFO(&fdInfo); + fdInfo.hiwat = internalPeriods; + fdInfo.lowat = internalPeriods-1; + fdInfo.blocksize = internalPeriodSizeInBytes; + if (ioctl(fd, AUDIO_SETINFO, &fdInfo) < 0) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] Failed to set internal buffer size. AUDIO_SETINFO failed."); + return ma_result_from_errno(errno); + } + + internalPeriods = fdInfo.hiwat; + internalPeriodSizeInFrames = fdInfo.blocksize / ma_get_bytes_per_frame(internalFormat, internalChannels); + } + } + #else + { + struct audio_swpar fdPar; + + /* We need to retrieve the format of the device so we can know the channel count and sample rate. Then we can calculate the buffer size. */ + if (ioctl(fd, AUDIO_GETPAR, &fdPar) < 0) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] Failed to retrieve initial device parameters."); + return ma_result_from_errno(errno); + } + + internalFormat = ma_format_from_swpar__audio4(&fdPar); + internalChannels = (deviceType == ma_device_type_capture) ? fdPar.rchan : fdPar.pchan; + internalSampleRate = fdPar.rate; + + if (internalFormat == ma_format_unknown) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] The device's internal device format is not supported by miniaudio. The device is unusable."); + return MA_FORMAT_NOT_SUPPORTED; + } + + /* Buffer. */ + { + ma_uint32 internalPeriodSizeInBytes; + + internalPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptor, internalSampleRate, pConfig->performanceProfile); + + /* What miniaudio calls a period, audio4 calls a block. */ + internalPeriodSizeInBytes = internalPeriodSizeInFrames * ma_get_bytes_per_frame(internalFormat, internalChannels); + if (internalPeriodSizeInBytes < 16) { + internalPeriodSizeInBytes = 16; + } + + fdPar.nblks = pDescriptor->periodCount; + fdPar.round = internalPeriodSizeInBytes; + + if (ioctl(fd, AUDIO_SETPAR, &fdPar) < 0) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] Failed to set device parameters."); + return ma_result_from_errno(errno); + } + + if (ioctl(fd, AUDIO_GETPAR, &fdPar) < 0) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] Failed to retrieve actual device parameters."); + return ma_result_from_errno(errno); + } + } + + internalFormat = ma_format_from_swpar__audio4(&fdPar); + internalChannels = (deviceType == ma_device_type_capture) ? fdPar.rchan : fdPar.pchan; + internalSampleRate = fdPar.rate; + internalPeriods = fdPar.nblks; + internalPeriodSizeInFrames = fdPar.round / ma_get_bytes_per_frame(internalFormat, internalChannels); + } + #endif + + if (internalFormat == ma_format_unknown) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] The device's internal device format is not supported by miniaudio. The device is unusable."); + return MA_FORMAT_NOT_SUPPORTED; + } + + if (deviceType == ma_device_type_capture) { + pDevice->audio4.fdCapture = fd; + } else { + pDevice->audio4.fdPlayback = fd; + } + + pDescriptor->format = internalFormat; + pDescriptor->channels = internalChannels; + pDescriptor->sampleRate = internalSampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_sound4, pDescriptor->channelMap, ma_countof(pDescriptor->channelMap), internalChannels); + pDescriptor->periodSizeInFrames = internalPeriodSizeInFrames; + pDescriptor->periodCount = internalPeriods; + + return MA_SUCCESS; +} + +static ma_result ma_device_init__audio4(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + MA_ASSERT(pDevice != NULL); + + MA_ZERO_OBJECT(&pDevice->audio4); + + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + pDevice->audio4.fdCapture = -1; + pDevice->audio4.fdPlayback = -1; + + /* + The version of the operating system dictates whether or not the device is exclusive or shared. NetBSD + introduced in-kernel mixing which means it's shared. All other BSD flavours are exclusive as far as + I'm aware. + */ +#if defined(__NetBSD_Version__) && __NetBSD_Version__ >= 800000000 + /* NetBSD 8.0+ */ + if (((pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) && pDescriptorPlayback->shareMode == ma_share_mode_exclusive) || + ((pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) && pDescriptorCapture->shareMode == ma_share_mode_exclusive)) { + return MA_SHARE_MODE_NOT_SUPPORTED; + } +#else + /* All other flavors. */ +#endif + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + ma_result result = ma_device_init_fd__audio4(pDevice, pConfig, pDescriptorCapture, ma_device_type_capture); + if (result != MA_SUCCESS) { + return result; + } + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ma_result result = ma_device_init_fd__audio4(pDevice, pConfig, pDescriptorPlayback, ma_device_type_playback); + if (result != MA_SUCCESS) { + if (pConfig->deviceType == ma_device_type_duplex) { + close(pDevice->audio4.fdCapture); + } + return result; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_start__audio4(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + if (pDevice->audio4.fdCapture == -1) { + return MA_INVALID_ARGS; + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + if (pDevice->audio4.fdPlayback == -1) { + return MA_INVALID_ARGS; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_stop_fd__audio4(ma_device* pDevice, int fd) +{ + if (fd == -1) { + return MA_INVALID_ARGS; + } + +#if !defined(MA_AUDIO4_USE_NEW_API) + if (ioctl(fd, AUDIO_FLUSH, 0) < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] Failed to stop device. AUDIO_FLUSH failed."); + return ma_result_from_errno(errno); + } +#else + if (ioctl(fd, AUDIO_STOP, 0) < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] Failed to stop device. AUDIO_STOP failed."); + return ma_result_from_errno(errno); + } +#endif + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__audio4(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ma_result result; + + result = ma_device_stop_fd__audio4(pDevice, pDevice->audio4.fdCapture); + if (result != MA_SUCCESS) { + return result; + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ma_result result; + + /* Drain the device first. If this fails we'll just need to flush without draining. Unfortunately draining isn't available on newer version of OpenBSD. */ + #if !defined(MA_AUDIO4_USE_NEW_API) + ioctl(pDevice->audio4.fdPlayback, AUDIO_DRAIN, 0); + #endif + + /* Here is where the device is stopped immediately. */ + result = ma_device_stop_fd__audio4(pDevice, pDevice->audio4.fdPlayback); + if (result != MA_SUCCESS) { + return result; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_write__audio4(ma_device* pDevice, const void* pPCMFrames, ma_uint32 frameCount, ma_uint32* pFramesWritten) +{ + int result; + + if (pFramesWritten != NULL) { + *pFramesWritten = 0; + } + + result = write(pDevice->audio4.fdPlayback, pPCMFrames, frameCount * ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels)); + if (result < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] Failed to write data to the device."); + return ma_result_from_errno(errno); + } + + if (pFramesWritten != NULL) { + *pFramesWritten = (ma_uint32)result / ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels); + } + + return MA_SUCCESS; +} + +static ma_result ma_device_read__audio4(ma_device* pDevice, void* pPCMFrames, ma_uint32 frameCount, ma_uint32* pFramesRead) +{ + int result; + + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + result = read(pDevice->audio4.fdCapture, pPCMFrames, frameCount * ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels)); + if (result < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[audio4] Failed to read data from the device."); + return ma_result_from_errno(errno); + } + + if (pFramesRead != NULL) { + *pFramesRead = (ma_uint32)result / ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels); + } + + return MA_SUCCESS; +} + +static ma_result ma_context_uninit__audio4(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_audio4); + + (void)pContext; + return MA_SUCCESS; +} + +static ma_result ma_context_init__audio4(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ + MA_ASSERT(pContext != NULL); + + (void)pConfig; + + pCallbacks->onContextInit = ma_context_init__audio4; + pCallbacks->onContextUninit = ma_context_uninit__audio4; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__audio4; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__audio4; + pCallbacks->onDeviceInit = ma_device_init__audio4; + pCallbacks->onDeviceUninit = ma_device_uninit__audio4; + pCallbacks->onDeviceStart = ma_device_start__audio4; + pCallbacks->onDeviceStop = ma_device_stop__audio4; + pCallbacks->onDeviceRead = ma_device_read__audio4; + pCallbacks->onDeviceWrite = ma_device_write__audio4; + pCallbacks->onDeviceDataLoop = NULL; + + return MA_SUCCESS; +} +#endif /* MA_HAS_AUDIO4 */ + + +/****************************************************************************** + +OSS Backend + +******************************************************************************/ +#ifdef MA_HAS_OSS +#include +#include +#include +#include + +#ifndef SNDCTL_DSP_HALT +#define SNDCTL_DSP_HALT SNDCTL_DSP_RESET +#endif + +#define MA_OSS_DEFAULT_DEVICE_NAME "/dev/dsp" + +static int ma_open_temp_device__oss(void) +{ + /* The OSS sample code uses "/dev/mixer" as the device for getting system properties so I'm going to do the same. */ + int fd = open("/dev/mixer", O_RDONLY, 0); + if (fd >= 0) { + return fd; + } + + return -1; +} + +static ma_result ma_context_open_device__oss(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_share_mode shareMode, int* pfd) +{ + const char* deviceName; + int flags; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pfd != NULL); + (void)pContext; + + *pfd = -1; + + /* This function should only be called for playback or capture, not duplex. */ + if (deviceType == ma_device_type_duplex) { + return MA_INVALID_ARGS; + } + + deviceName = MA_OSS_DEFAULT_DEVICE_NAME; + if (pDeviceID != NULL) { + deviceName = pDeviceID->oss; + } + + flags = (deviceType == ma_device_type_playback) ? O_WRONLY : O_RDONLY; + if (shareMode == ma_share_mode_exclusive) { + flags |= O_EXCL; + } + + *pfd = open(deviceName, flags, 0); + if (*pfd == -1) { + return ma_result_from_errno(errno); + } + + return MA_SUCCESS; +} + +static ma_result ma_context_enumerate_devices__oss(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + int fd; + oss_sysinfo si; + int result; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + fd = ma_open_temp_device__oss(); + if (fd == -1) { + ma_log_post(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[OSS] Failed to open a temporary device for retrieving system information used for device enumeration."); + return MA_NO_BACKEND; + } + + result = ioctl(fd, SNDCTL_SYSINFO, &si); + if (result != -1) { + int iAudioDevice; + for (iAudioDevice = 0; iAudioDevice < si.numaudios; ++iAudioDevice) { + oss_audioinfo ai; + ai.dev = iAudioDevice; + result = ioctl(fd, SNDCTL_AUDIOINFO, &ai); + if (result != -1) { + if (ai.devnode[0] != '\0') { /* <-- Can be blank, according to documentation. */ + ma_device_info deviceInfo; + ma_bool32 isTerminating = MA_FALSE; + + MA_ZERO_OBJECT(&deviceInfo); + + /* ID */ + ma_strncpy_s(deviceInfo.id.oss, sizeof(deviceInfo.id.oss), ai.devnode, (size_t)-1); + + /* + The human readable device name should be in the "ai.handle" variable, but it can + sometimes be empty in which case we just fall back to "ai.name" which is less user + friendly, but usually has a value. + */ + if (ai.handle[0] != '\0') { + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), ai.handle, (size_t)-1); + } else { + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), ai.name, (size_t)-1); + } + + /* The device can be both playback and capture. */ + if (!isTerminating && (ai.caps & PCM_CAP_OUTPUT) != 0) { + isTerminating = !callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + } + if (!isTerminating && (ai.caps & PCM_CAP_INPUT) != 0) { + isTerminating = !callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + } + + if (isTerminating) { + break; + } + } + } + } + } else { + close(fd); + ma_log_post(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[OSS] Failed to retrieve system information for device enumeration."); + return MA_NO_BACKEND; + } + + close(fd); + return MA_SUCCESS; +} + +static void ma_context_add_native_data_format__oss(ma_context* pContext, oss_audioinfo* pAudioInfo, ma_format format, ma_device_info* pDeviceInfo) +{ + unsigned int minChannels; + unsigned int maxChannels; + unsigned int iRate; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pAudioInfo != NULL); + MA_ASSERT(pDeviceInfo != NULL); + + /* If we support all channels we just report 0. */ + minChannels = ma_clamp(pAudioInfo->min_channels, MA_MIN_CHANNELS, MA_MAX_CHANNELS); + maxChannels = ma_clamp(pAudioInfo->max_channels, MA_MIN_CHANNELS, MA_MAX_CHANNELS); + + /* + OSS has this annoying thing where sample rates can be reported in two ways. We prefer explicitness, + which OSS has in the form of nrates/rates, however there are times where nrates can be 0, in which + case we'll need to use min_rate and max_rate and report only standard rates. + */ + if (pAudioInfo->nrates > 0) { + for (iRate = 0; iRate < pAudioInfo->nrates; iRate += 1) { + unsigned int rate = pAudioInfo->rates[iRate]; + + if (minChannels == MA_MIN_CHANNELS && maxChannels == MA_MAX_CHANNELS) { + ma_device_info_add_native_data_format(pDeviceInfo, format, 0, rate, 0); /* Set the channel count to 0 to indicate that all channel counts are supported. */ + } else { + unsigned int iChannel; + for (iChannel = minChannels; iChannel <= maxChannels; iChannel += 1) { + ma_device_info_add_native_data_format(pDeviceInfo, format, iChannel, rate, 0); + } + } + } + } else { + for (iRate = 0; iRate < ma_countof(g_maStandardSampleRatePriorities); iRate += 1) { + ma_uint32 standardRate = g_maStandardSampleRatePriorities[iRate]; + + if (standardRate >= (ma_uint32)pAudioInfo->min_rate && standardRate <= (ma_uint32)pAudioInfo->max_rate) { + if (minChannels == MA_MIN_CHANNELS && maxChannels == MA_MAX_CHANNELS) { + ma_device_info_add_native_data_format(pDeviceInfo, format, 0, standardRate, 0); /* Set the channel count to 0 to indicate that all channel counts are supported. */ + } else { + unsigned int iChannel; + for (iChannel = minChannels; iChannel <= maxChannels; iChannel += 1) { + ma_device_info_add_native_data_format(pDeviceInfo, format, iChannel, standardRate, 0); + } + } + } + } + } +} + +static ma_result ma_context_get_device_info__oss(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + ma_bool32 foundDevice; + int fdTemp; + oss_sysinfo si; + int result; + + MA_ASSERT(pContext != NULL); + + /* Handle the default device a little differently. */ + if (pDeviceID == NULL) { + if (deviceType == ma_device_type_playback) { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + } else { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + } + + return MA_SUCCESS; + } + + + /* If we get here it means we are _not_ using the default device. */ + foundDevice = MA_FALSE; + + fdTemp = ma_open_temp_device__oss(); + if (fdTemp == -1) { + ma_log_post(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[OSS] Failed to open a temporary device for retrieving system information used for device enumeration."); + return MA_NO_BACKEND; + } + + result = ioctl(fdTemp, SNDCTL_SYSINFO, &si); + if (result != -1) { + int iAudioDevice; + for (iAudioDevice = 0; iAudioDevice < si.numaudios; ++iAudioDevice) { + oss_audioinfo ai; + ai.dev = iAudioDevice; + result = ioctl(fdTemp, SNDCTL_AUDIOINFO, &ai); + if (result != -1) { + if (ma_strcmp(ai.devnode, pDeviceID->oss) == 0) { + /* It has the same name, so now just confirm the type. */ + if ((deviceType == ma_device_type_playback && ((ai.caps & PCM_CAP_OUTPUT) != 0)) || + (deviceType == ma_device_type_capture && ((ai.caps & PCM_CAP_INPUT) != 0))) { + unsigned int formatMask; + + /* ID */ + ma_strncpy_s(pDeviceInfo->id.oss, sizeof(pDeviceInfo->id.oss), ai.devnode, (size_t)-1); + + /* + The human readable device name should be in the "ai.handle" variable, but it can + sometimes be empty in which case we just fall back to "ai.name" which is less user + friendly, but usually has a value. + */ + if (ai.handle[0] != '\0') { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), ai.handle, (size_t)-1); + } else { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), ai.name, (size_t)-1); + } + + + pDeviceInfo->nativeDataFormatCount = 0; + + if (deviceType == ma_device_type_playback) { + formatMask = ai.oformats; + } else { + formatMask = ai.iformats; + } + + if (((formatMask & AFMT_S16_LE) != 0 && ma_is_little_endian()) || (AFMT_S16_BE && ma_is_big_endian())) { + ma_context_add_native_data_format__oss(pContext, &ai, ma_format_s16, pDeviceInfo); + } + if (((formatMask & AFMT_S32_LE) != 0 && ma_is_little_endian()) || (AFMT_S32_BE && ma_is_big_endian())) { + ma_context_add_native_data_format__oss(pContext, &ai, ma_format_s32, pDeviceInfo); + } + if ((formatMask & AFMT_U8) != 0) { + ma_context_add_native_data_format__oss(pContext, &ai, ma_format_u8, pDeviceInfo); + } + + foundDevice = MA_TRUE; + break; + } + } + } + } + } else { + close(fdTemp); + ma_log_post(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[OSS] Failed to retrieve system information for device enumeration."); + return MA_NO_BACKEND; + } + + + close(fdTemp); + + if (!foundDevice) { + return MA_NO_DEVICE; + } + + return MA_SUCCESS; +} + +static ma_result ma_device_uninit__oss(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + close(pDevice->oss.fdCapture); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + close(pDevice->oss.fdPlayback); + } + + return MA_SUCCESS; +} + +static int ma_format_to_oss(ma_format format) +{ + int ossFormat = AFMT_U8; + switch (format) { + case ma_format_s16: ossFormat = (ma_is_little_endian()) ? AFMT_S16_LE : AFMT_S16_BE; break; + case ma_format_s24: ossFormat = (ma_is_little_endian()) ? AFMT_S32_LE : AFMT_S32_BE; break; + case ma_format_s32: ossFormat = (ma_is_little_endian()) ? AFMT_S32_LE : AFMT_S32_BE; break; + case ma_format_f32: ossFormat = (ma_is_little_endian()) ? AFMT_S16_LE : AFMT_S16_BE; break; + case ma_format_u8: + default: ossFormat = AFMT_U8; break; + } + + return ossFormat; +} + +static ma_format ma_format_from_oss(int ossFormat) +{ + if (ossFormat == AFMT_U8) { + return ma_format_u8; + } else { + if (ma_is_little_endian()) { + switch (ossFormat) { + case AFMT_S16_LE: return ma_format_s16; + case AFMT_S32_LE: return ma_format_s32; + default: return ma_format_unknown; + } + } else { + switch (ossFormat) { + case AFMT_S16_BE: return ma_format_s16; + case AFMT_S32_BE: return ma_format_s32; + default: return ma_format_unknown; + } + } + } + + return ma_format_unknown; +} + +static ma_result ma_device_init_fd__oss(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptor, ma_device_type deviceType) +{ + ma_result result; + int ossResult; + int fd; + const ma_device_id* pDeviceID = NULL; + ma_share_mode shareMode; + int ossFormat; + int ossChannels; + int ossSampleRate; + int ossFragment; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pConfig != NULL); + MA_ASSERT(deviceType != ma_device_type_duplex); + + pDeviceID = pDescriptor->pDeviceID; + shareMode = pDescriptor->shareMode; + ossFormat = ma_format_to_oss((pDescriptor->format != ma_format_unknown) ? pDescriptor->format : ma_format_s16); /* Use s16 by default because OSS doesn't like floating point. */ + ossChannels = (int)(pDescriptor->channels > 0) ? pDescriptor->channels : MA_DEFAULT_CHANNELS; + ossSampleRate = (int)(pDescriptor->sampleRate > 0) ? pDescriptor->sampleRate : MA_DEFAULT_SAMPLE_RATE; + + result = ma_context_open_device__oss(pDevice->pContext, deviceType, pDeviceID, shareMode, &fd); + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OSS] Failed to open device."); + return result; + } + + /* + The OSS documentation is very clear about the order we should be initializing the device's properties: + 1) Format + 2) Channels + 3) Sample rate. + */ + + /* Format. */ + ossResult = ioctl(fd, SNDCTL_DSP_SETFMT, &ossFormat); + if (ossResult == -1) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OSS] Failed to set format."); + return ma_result_from_errno(errno); + } + + /* Channels. */ + ossResult = ioctl(fd, SNDCTL_DSP_CHANNELS, &ossChannels); + if (ossResult == -1) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OSS] Failed to set channel count."); + return ma_result_from_errno(errno); + } + + /* Sample Rate. */ + ossResult = ioctl(fd, SNDCTL_DSP_SPEED, &ossSampleRate); + if (ossResult == -1) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OSS] Failed to set sample rate."); + return ma_result_from_errno(errno); + } + + /* + Buffer. + + The documentation says that the fragment settings should be set as soon as possible, but I'm not sure if + it should be done before or after format/channels/rate. + + OSS wants the fragment size in bytes and a power of 2. When setting, we specify the power, not the actual + value. + */ + { + ma_uint32 periodSizeInFrames; + ma_uint32 periodSizeInBytes; + ma_uint32 ossFragmentSizePower; + + periodSizeInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptor, (ma_uint32)ossSampleRate, pConfig->performanceProfile); + + periodSizeInBytes = ma_round_to_power_of_2(periodSizeInFrames * ma_get_bytes_per_frame(ma_format_from_oss(ossFormat), ossChannels)); + if (periodSizeInBytes < 16) { + periodSizeInBytes = 16; + } + + ossFragmentSizePower = 4; + periodSizeInBytes >>= 4; + while (periodSizeInBytes >>= 1) { + ossFragmentSizePower += 1; + } + + ossFragment = (int)((pConfig->periods << 16) | ossFragmentSizePower); + ossResult = ioctl(fd, SNDCTL_DSP_SETFRAGMENT, &ossFragment); + if (ossResult == -1) { + close(fd); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OSS] Failed to set fragment size and period count."); + return ma_result_from_errno(errno); + } + } + + /* Internal settings. */ + if (deviceType == ma_device_type_capture) { + pDevice->oss.fdCapture = fd; + } else { + pDevice->oss.fdPlayback = fd; + } + + pDescriptor->format = ma_format_from_oss(ossFormat); + pDescriptor->channels = ossChannels; + pDescriptor->sampleRate = ossSampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_sound4, pDescriptor->channelMap, ma_countof(pDescriptor->channelMap), pDescriptor->channels); + pDescriptor->periodCount = (ma_uint32)(ossFragment >> 16); + pDescriptor->periodSizeInFrames = (ma_uint32)(1 << (ossFragment & 0xFFFF)) / ma_get_bytes_per_frame(pDescriptor->format, pDescriptor->channels); + + if (pDescriptor->format == ma_format_unknown) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OSS] The device's internal format is not supported by miniaudio."); + return MA_FORMAT_NOT_SUPPORTED; + } + + return MA_SUCCESS; +} + +static ma_result ma_device_init__oss(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pConfig != NULL); + + MA_ZERO_OBJECT(&pDevice->oss); + + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + ma_result result = ma_device_init_fd__oss(pDevice, pConfig, pDescriptorCapture, ma_device_type_capture); + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OSS] Failed to open device."); + return result; + } + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ma_result result = ma_device_init_fd__oss(pDevice, pConfig, pDescriptorPlayback, ma_device_type_playback); + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OSS] Failed to open device."); + return result; + } + } + + return MA_SUCCESS; +} + +/* +Note on Starting and Stopping +============================= +In the past I was using SNDCTL_DSP_HALT to stop the device, however this results in issues when +trying to resume the device again. If we use SNDCTL_DSP_HALT, the next write() or read() will +fail. Instead what we need to do is just not write or read to and from the device when the +device is not running. + +As a result, both the start and stop functions for OSS are just empty stubs. The starting and +stopping logic is handled by ma_device_write__oss() and ma_device_read__oss(). These will check +the device state, and if the device is stopped they will simply not do any kind of processing. + +The downside to this technique is that I've noticed a fairly lengthy delay in stopping the +device, up to a second. This is on a virtual machine, and as such might just be due to the +virtual drivers, but I'm not fully sure. I am not sure how to work around this problem so for +the moment that's just how it's going to have to be. + +When starting the device, OSS will automatically start it when write() or read() is called. +*/ +static ma_result ma_device_start__oss(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + /* The device is automatically started with reading and writing. */ + (void)pDevice; + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__oss(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + /* See note above on why this is empty. */ + (void)pDevice; + + return MA_SUCCESS; +} + +static ma_result ma_device_write__oss(ma_device* pDevice, const void* pPCMFrames, ma_uint32 frameCount, ma_uint32* pFramesWritten) +{ + int resultOSS; + ma_uint32 deviceState; + + if (pFramesWritten != NULL) { + *pFramesWritten = 0; + } + + /* Don't do any processing if the device is stopped. */ + deviceState = ma_device_get_state(pDevice); + if (deviceState != ma_device_state_started && deviceState != ma_device_state_starting) { + return MA_SUCCESS; + } + + resultOSS = write(pDevice->oss.fdPlayback, pPCMFrames, frameCount * ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels)); + if (resultOSS < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OSS] Failed to send data from the client to the device."); + return ma_result_from_errno(errno); + } + + if (pFramesWritten != NULL) { + *pFramesWritten = (ma_uint32)resultOSS / ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels); + } + + return MA_SUCCESS; +} + +static ma_result ma_device_read__oss(ma_device* pDevice, void* pPCMFrames, ma_uint32 frameCount, ma_uint32* pFramesRead) +{ + int resultOSS; + ma_uint32 deviceState; + + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + /* Don't do any processing if the device is stopped. */ + deviceState = ma_device_get_state(pDevice); + if (deviceState != ma_device_state_started && deviceState != ma_device_state_starting) { + return MA_SUCCESS; + } + + resultOSS = read(pDevice->oss.fdCapture, pPCMFrames, frameCount * ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels)); + if (resultOSS < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OSS] Failed to read data from the device to be sent to the client."); + return ma_result_from_errno(errno); + } + + if (pFramesRead != NULL) { + *pFramesRead = (ma_uint32)resultOSS / ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels); + } + + return MA_SUCCESS; +} + +static ma_result ma_context_uninit__oss(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_oss); + + (void)pContext; + return MA_SUCCESS; +} + +static ma_result ma_context_init__oss(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ + int fd; + int ossVersion; + int result; + + MA_ASSERT(pContext != NULL); + + (void)pConfig; + + /* Try opening a temporary device first so we can get version information. This is closed at the end. */ + fd = ma_open_temp_device__oss(); + if (fd == -1) { + ma_log_post(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[OSS] Failed to open temporary device for retrieving system properties."); /* Looks liks OSS isn't installed, or there are no available devices. */ + return MA_NO_BACKEND; + } + + /* Grab the OSS version. */ + ossVersion = 0; + result = ioctl(fd, OSS_GETVERSION, &ossVersion); + if (result == -1) { + close(fd); + ma_log_post(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[OSS] Failed to retrieve OSS version."); + return MA_NO_BACKEND; + } + + /* The file handle to temp device is no longer needed. Close ASAP. */ + close(fd); + + pContext->oss.versionMajor = ((ossVersion & 0xFF0000) >> 16); + pContext->oss.versionMinor = ((ossVersion & 0x00FF00) >> 8); + + pCallbacks->onContextInit = ma_context_init__oss; + pCallbacks->onContextUninit = ma_context_uninit__oss; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__oss; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__oss; + pCallbacks->onDeviceInit = ma_device_init__oss; + pCallbacks->onDeviceUninit = ma_device_uninit__oss; + pCallbacks->onDeviceStart = ma_device_start__oss; + pCallbacks->onDeviceStop = ma_device_stop__oss; + pCallbacks->onDeviceRead = ma_device_read__oss; + pCallbacks->onDeviceWrite = ma_device_write__oss; + pCallbacks->onDeviceDataLoop = NULL; + + return MA_SUCCESS; +} +#endif /* MA_HAS_OSS */ + + + + + +/****************************************************************************** + +AAudio Backend + +******************************************************************************/ +#ifdef MA_HAS_AAUDIO + +#ifdef MA_NO_RUNTIME_LINKING + #include +#endif + +typedef int32_t ma_aaudio_result_t; +typedef int32_t ma_aaudio_direction_t; +typedef int32_t ma_aaudio_sharing_mode_t; +typedef int32_t ma_aaudio_format_t; +typedef int32_t ma_aaudio_stream_state_t; +typedef int32_t ma_aaudio_performance_mode_t; +typedef int32_t ma_aaudio_usage_t; +typedef int32_t ma_aaudio_content_type_t; +typedef int32_t ma_aaudio_input_preset_t; +typedef int32_t ma_aaudio_allowed_capture_policy_t; +typedef int32_t ma_aaudio_data_callback_result_t; +typedef struct ma_AAudioStreamBuilder_t* ma_AAudioStreamBuilder; +typedef struct ma_AAudioStream_t* ma_AAudioStream; + +#define MA_AAUDIO_UNSPECIFIED 0 + +/* Result codes. miniaudio only cares about the success code. */ +#define MA_AAUDIO_OK 0 + +/* Directions. */ +#define MA_AAUDIO_DIRECTION_OUTPUT 0 +#define MA_AAUDIO_DIRECTION_INPUT 1 + +/* Sharing modes. */ +#define MA_AAUDIO_SHARING_MODE_EXCLUSIVE 0 +#define MA_AAUDIO_SHARING_MODE_SHARED 1 + +/* Formats. */ +#define MA_AAUDIO_FORMAT_PCM_I16 1 +#define MA_AAUDIO_FORMAT_PCM_FLOAT 2 + +/* Stream states. */ +#define MA_AAUDIO_STREAM_STATE_UNINITIALIZED 0 +#define MA_AAUDIO_STREAM_STATE_UNKNOWN 1 +#define MA_AAUDIO_STREAM_STATE_OPEN 2 +#define MA_AAUDIO_STREAM_STATE_STARTING 3 +#define MA_AAUDIO_STREAM_STATE_STARTED 4 +#define MA_AAUDIO_STREAM_STATE_PAUSING 5 +#define MA_AAUDIO_STREAM_STATE_PAUSED 6 +#define MA_AAUDIO_STREAM_STATE_FLUSHING 7 +#define MA_AAUDIO_STREAM_STATE_FLUSHED 8 +#define MA_AAUDIO_STREAM_STATE_STOPPING 9 +#define MA_AAUDIO_STREAM_STATE_STOPPED 10 +#define MA_AAUDIO_STREAM_STATE_CLOSING 11 +#define MA_AAUDIO_STREAM_STATE_CLOSED 12 +#define MA_AAUDIO_STREAM_STATE_DISCONNECTED 13 + +/* Performance modes. */ +#define MA_AAUDIO_PERFORMANCE_MODE_NONE 10 +#define MA_AAUDIO_PERFORMANCE_MODE_POWER_SAVING 11 +#define MA_AAUDIO_PERFORMANCE_MODE_LOW_LATENCY 12 + +/* Usage types. */ +#define MA_AAUDIO_USAGE_MEDIA 1 +#define MA_AAUDIO_USAGE_VOICE_COMMUNICATION 2 +#define MA_AAUDIO_USAGE_VOICE_COMMUNICATION_SIGNALLING 3 +#define MA_AAUDIO_USAGE_ALARM 4 +#define MA_AAUDIO_USAGE_NOTIFICATION 5 +#define MA_AAUDIO_USAGE_NOTIFICATION_RINGTONE 6 +#define MA_AAUDIO_USAGE_NOTIFICATION_EVENT 10 +#define MA_AAUDIO_USAGE_ASSISTANCE_ACCESSIBILITY 11 +#define MA_AAUDIO_USAGE_ASSISTANCE_NAVIGATION_GUIDANCE 12 +#define MA_AAUDIO_USAGE_ASSISTANCE_SONIFICATION 13 +#define MA_AAUDIO_USAGE_GAME 14 +#define MA_AAUDIO_USAGE_ASSISTANT 16 +#define MA_AAUDIO_SYSTEM_USAGE_EMERGENCY 1000 +#define MA_AAUDIO_SYSTEM_USAGE_SAFETY 1001 +#define MA_AAUDIO_SYSTEM_USAGE_VEHICLE_STATUS 1002 +#define MA_AAUDIO_SYSTEM_USAGE_ANNOUNCEMENT 1003 + +/* Content types. */ +#define MA_AAUDIO_CONTENT_TYPE_SPEECH 1 +#define MA_AAUDIO_CONTENT_TYPE_MUSIC 2 +#define MA_AAUDIO_CONTENT_TYPE_MOVIE 3 +#define MA_AAUDIO_CONTENT_TYPE_SONIFICATION 4 + +/* Input presets. */ +#define MA_AAUDIO_INPUT_PRESET_GENERIC 1 +#define MA_AAUDIO_INPUT_PRESET_CAMCORDER 5 +#define MA_AAUDIO_INPUT_PRESET_VOICE_RECOGNITION 6 +#define MA_AAUDIO_INPUT_PRESET_VOICE_COMMUNICATION 7 +#define MA_AAUDIO_INPUT_PRESET_UNPROCESSED 9 +#define MA_AAUDIO_INPUT_PRESET_VOICE_PERFORMANCE 10 + +/* Allowed Capture Policies */ +#define MA_AAUDIO_ALLOW_CAPTURE_BY_ALL 1 +#define MA_AAUDIO_ALLOW_CAPTURE_BY_SYSTEM 2 +#define MA_AAUDIO_ALLOW_CAPTURE_BY_NONE 3 + +/* Callback results. */ +#define MA_AAUDIO_CALLBACK_RESULT_CONTINUE 0 +#define MA_AAUDIO_CALLBACK_RESULT_STOP 1 + + +typedef ma_aaudio_data_callback_result_t (* ma_AAudioStream_dataCallback) (ma_AAudioStream* pStream, void* pUserData, void* pAudioData, int32_t numFrames); +typedef void (* ma_AAudioStream_errorCallback)(ma_AAudioStream *pStream, void *pUserData, ma_aaudio_result_t error); + +typedef ma_aaudio_result_t (* MA_PFN_AAudio_createStreamBuilder) (ma_AAudioStreamBuilder** ppBuilder); +typedef ma_aaudio_result_t (* MA_PFN_AAudioStreamBuilder_delete) (ma_AAudioStreamBuilder* pBuilder); +typedef void (* MA_PFN_AAudioStreamBuilder_setDeviceId) (ma_AAudioStreamBuilder* pBuilder, int32_t deviceId); +typedef void (* MA_PFN_AAudioStreamBuilder_setDirection) (ma_AAudioStreamBuilder* pBuilder, ma_aaudio_direction_t direction); +typedef void (* MA_PFN_AAudioStreamBuilder_setSharingMode) (ma_AAudioStreamBuilder* pBuilder, ma_aaudio_sharing_mode_t sharingMode); +typedef void (* MA_PFN_AAudioStreamBuilder_setFormat) (ma_AAudioStreamBuilder* pBuilder, ma_aaudio_format_t format); +typedef void (* MA_PFN_AAudioStreamBuilder_setChannelCount) (ma_AAudioStreamBuilder* pBuilder, int32_t channelCount); +typedef void (* MA_PFN_AAudioStreamBuilder_setSampleRate) (ma_AAudioStreamBuilder* pBuilder, int32_t sampleRate); +typedef void (* MA_PFN_AAudioStreamBuilder_setBufferCapacityInFrames)(ma_AAudioStreamBuilder* pBuilder, int32_t numFrames); +typedef void (* MA_PFN_AAudioStreamBuilder_setFramesPerDataCallback) (ma_AAudioStreamBuilder* pBuilder, int32_t numFrames); +typedef void (* MA_PFN_AAudioStreamBuilder_setDataCallback) (ma_AAudioStreamBuilder* pBuilder, ma_AAudioStream_dataCallback callback, void* pUserData); +typedef void (* MA_PFN_AAudioStreamBuilder_setErrorCallback) (ma_AAudioStreamBuilder* pBuilder, ma_AAudioStream_errorCallback callback, void* pUserData); +typedef void (* MA_PFN_AAudioStreamBuilder_setPerformanceMode) (ma_AAudioStreamBuilder* pBuilder, ma_aaudio_performance_mode_t mode); +typedef void (* MA_PFN_AAudioStreamBuilder_setUsage) (ma_AAudioStreamBuilder* pBuilder, ma_aaudio_usage_t contentType); +typedef void (* MA_PFN_AAudioStreamBuilder_setContentType) (ma_AAudioStreamBuilder* pBuilder, ma_aaudio_content_type_t contentType); +typedef void (* MA_PFN_AAudioStreamBuilder_setInputPreset) (ma_AAudioStreamBuilder* pBuilder, ma_aaudio_input_preset_t inputPreset); +typedef void (* MA_PFN_AAudioStreamBuilder_setAllowedCapturePolicy) (ma_AAudioStreamBuilder* pBuilder, ma_aaudio_allowed_capture_policy_t policy); +typedef ma_aaudio_result_t (* MA_PFN_AAudioStreamBuilder_openStream) (ma_AAudioStreamBuilder* pBuilder, ma_AAudioStream** ppStream); +typedef ma_aaudio_result_t (* MA_PFN_AAudioStream_close) (ma_AAudioStream* pStream); +typedef ma_aaudio_stream_state_t (* MA_PFN_AAudioStream_getState) (ma_AAudioStream* pStream); +typedef ma_aaudio_result_t (* MA_PFN_AAudioStream_waitForStateChange) (ma_AAudioStream* pStream, ma_aaudio_stream_state_t inputState, ma_aaudio_stream_state_t* pNextState, int64_t timeoutInNanoseconds); +typedef ma_aaudio_format_t (* MA_PFN_AAudioStream_getFormat) (ma_AAudioStream* pStream); +typedef int32_t (* MA_PFN_AAudioStream_getChannelCount) (ma_AAudioStream* pStream); +typedef int32_t (* MA_PFN_AAudioStream_getSampleRate) (ma_AAudioStream* pStream); +typedef int32_t (* MA_PFN_AAudioStream_getBufferCapacityInFrames) (ma_AAudioStream* pStream); +typedef int32_t (* MA_PFN_AAudioStream_getFramesPerDataCallback) (ma_AAudioStream* pStream); +typedef int32_t (* MA_PFN_AAudioStream_getFramesPerBurst) (ma_AAudioStream* pStream); +typedef ma_aaudio_result_t (* MA_PFN_AAudioStream_requestStart) (ma_AAudioStream* pStream); +typedef ma_aaudio_result_t (* MA_PFN_AAudioStream_requestStop) (ma_AAudioStream* pStream); + +static ma_result ma_result_from_aaudio(ma_aaudio_result_t resultAA) +{ + switch (resultAA) + { + case MA_AAUDIO_OK: return MA_SUCCESS; + default: break; + } + + return MA_ERROR; +} + +static ma_aaudio_usage_t ma_to_usage__aaudio(ma_aaudio_usage usage) +{ + switch (usage) { + case ma_aaudio_usage_media: return MA_AAUDIO_USAGE_MEDIA; + case ma_aaudio_usage_voice_communication: return MA_AAUDIO_USAGE_VOICE_COMMUNICATION; + case ma_aaudio_usage_voice_communication_signalling: return MA_AAUDIO_USAGE_VOICE_COMMUNICATION_SIGNALLING; + case ma_aaudio_usage_alarm: return MA_AAUDIO_USAGE_ALARM; + case ma_aaudio_usage_notification: return MA_AAUDIO_USAGE_NOTIFICATION; + case ma_aaudio_usage_notification_ringtone: return MA_AAUDIO_USAGE_NOTIFICATION_RINGTONE; + case ma_aaudio_usage_notification_event: return MA_AAUDIO_USAGE_NOTIFICATION_EVENT; + case ma_aaudio_usage_assistance_accessibility: return MA_AAUDIO_USAGE_ASSISTANCE_ACCESSIBILITY; + case ma_aaudio_usage_assistance_navigation_guidance: return MA_AAUDIO_USAGE_ASSISTANCE_NAVIGATION_GUIDANCE; + case ma_aaudio_usage_assistance_sonification: return MA_AAUDIO_USAGE_ASSISTANCE_SONIFICATION; + case ma_aaudio_usage_game: return MA_AAUDIO_USAGE_GAME; + case ma_aaudio_usage_assitant: return MA_AAUDIO_USAGE_ASSISTANT; + case ma_aaudio_usage_emergency: return MA_AAUDIO_SYSTEM_USAGE_EMERGENCY; + case ma_aaudio_usage_safety: return MA_AAUDIO_SYSTEM_USAGE_SAFETY; + case ma_aaudio_usage_vehicle_status: return MA_AAUDIO_SYSTEM_USAGE_VEHICLE_STATUS; + case ma_aaudio_usage_announcement: return MA_AAUDIO_SYSTEM_USAGE_ANNOUNCEMENT; + default: break; + } + + return MA_AAUDIO_USAGE_MEDIA; +} + +static ma_aaudio_content_type_t ma_to_content_type__aaudio(ma_aaudio_content_type contentType) +{ + switch (contentType) { + case ma_aaudio_content_type_speech: return MA_AAUDIO_CONTENT_TYPE_SPEECH; + case ma_aaudio_content_type_music: return MA_AAUDIO_CONTENT_TYPE_MUSIC; + case ma_aaudio_content_type_movie: return MA_AAUDIO_CONTENT_TYPE_MOVIE; + case ma_aaudio_content_type_sonification: return MA_AAUDIO_CONTENT_TYPE_SONIFICATION; + default: break; + } + + return MA_AAUDIO_CONTENT_TYPE_SPEECH; +} + +static ma_aaudio_input_preset_t ma_to_input_preset__aaudio(ma_aaudio_input_preset inputPreset) +{ + switch (inputPreset) { + case ma_aaudio_input_preset_generic: return MA_AAUDIO_INPUT_PRESET_GENERIC; + case ma_aaudio_input_preset_camcorder: return MA_AAUDIO_INPUT_PRESET_CAMCORDER; + case ma_aaudio_input_preset_voice_recognition: return MA_AAUDIO_INPUT_PRESET_VOICE_RECOGNITION; + case ma_aaudio_input_preset_voice_communication: return MA_AAUDIO_INPUT_PRESET_VOICE_COMMUNICATION; + case ma_aaudio_input_preset_unprocessed: return MA_AAUDIO_INPUT_PRESET_UNPROCESSED; + case ma_aaudio_input_preset_voice_performance: return MA_AAUDIO_INPUT_PRESET_VOICE_PERFORMANCE; + default: break; + } + + return MA_AAUDIO_INPUT_PRESET_GENERIC; +} + +static ma_aaudio_allowed_capture_policy_t ma_to_allowed_capture_policy__aaudio(ma_aaudio_allowed_capture_policy allowedCapturePolicy) +{ + switch (allowedCapturePolicy) { + case ma_aaudio_allow_capture_by_all: return MA_AAUDIO_ALLOW_CAPTURE_BY_ALL; + case ma_aaudio_allow_capture_by_system: return MA_AAUDIO_ALLOW_CAPTURE_BY_SYSTEM; + case ma_aaudio_allow_capture_by_none: return MA_AAUDIO_ALLOW_CAPTURE_BY_NONE; + default: break; + } + + return MA_AAUDIO_ALLOW_CAPTURE_BY_ALL; +} + +static void ma_stream_error_callback__aaudio(ma_AAudioStream* pStream, void* pUserData, ma_aaudio_result_t error) +{ + ma_result result; + ma_job job; + ma_device* pDevice = (ma_device*)pUserData; + MA_ASSERT(pDevice != NULL); + + (void)error; + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[AAudio] ERROR CALLBACK: error=%d, AAudioStream_getState()=%d\n", error, ((MA_PFN_AAudioStream_getState)pDevice->pContext->aaudio.AAudioStream_getState)(pStream)); + + /* + When we get an error, we'll assume that the stream is in an erroneous state and needs to be restarted. From the documentation, + we cannot do this from the error callback. Therefore we are going to use an event thread for the AAudio backend to do this + cleanly and safely. + */ + if (ma_atomic_bool32_get(&pDevice->aaudio.isTearingDown)) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[AAudio] Device Disconnected. Tearing down device.\n"); + } + else { + job = ma_job_init(MA_JOB_TYPE_DEVICE_AAUDIO_REROUTE); + job.data.device.aaudio.reroute.pDevice = pDevice; + + if (pStream == pDevice->aaudio.pStreamCapture) { + job.data.device.aaudio.reroute.deviceType = ma_device_type_capture; + } else { + job.data.device.aaudio.reroute.deviceType = ma_device_type_playback; + } + + result = ma_device_job_thread_post(&pDevice->pContext->aaudio.jobThread, &job); + if (result != MA_SUCCESS) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[AAudio] Device Disconnected. Failed to post job for rerouting.\n"); + return; + } + } +} + +static ma_aaudio_data_callback_result_t ma_stream_data_callback_capture__aaudio(ma_AAudioStream* pStream, void* pUserData, void* pAudioData, int32_t frameCount) +{ + ma_device* pDevice = (ma_device*)pUserData; + MA_ASSERT(pDevice != NULL); + + if (frameCount > 0) { + ma_device_handle_backend_data_callback(pDevice, NULL, pAudioData, (ma_uint32)frameCount); + } + + (void)pStream; + return MA_AAUDIO_CALLBACK_RESULT_CONTINUE; +} + +static ma_aaudio_data_callback_result_t ma_stream_data_callback_playback__aaudio(ma_AAudioStream* pStream, void* pUserData, void* pAudioData, int32_t frameCount) +{ + ma_device* pDevice = (ma_device*)pUserData; + MA_ASSERT(pDevice != NULL); + + /* + I've had a report that AAudio can sometimes post a frame count of 0. We need to check for that here + so we don't get any errors at a deeper level. I'm doing the same with the capture side for safety, + though I've not yet had any reports about that one. + */ + if (frameCount > 0) { + ma_device_handle_backend_data_callback(pDevice, pAudioData, NULL, (ma_uint32)frameCount); + } + + (void)pStream; + return MA_AAUDIO_CALLBACK_RESULT_CONTINUE; +} + +static ma_result ma_create_and_configure_AAudioStreamBuilder__aaudio(ma_context* pContext, const ma_device_id* pDeviceID, ma_device_type deviceType, ma_share_mode shareMode, const ma_device_descriptor* pDescriptor, const ma_device_config* pConfig, ma_device* pDevice, ma_AAudioStreamBuilder** ppBuilder) +{ + ma_AAudioStreamBuilder* pBuilder; + ma_aaudio_result_t resultAA; + + /* Safety. */ + *ppBuilder = NULL; + + resultAA = ((MA_PFN_AAudio_createStreamBuilder)pContext->aaudio.AAudio_createStreamBuilder)(&pBuilder); + if (resultAA != MA_AAUDIO_OK) { + return ma_result_from_aaudio(resultAA); + } + + if (pDeviceID != NULL) { + ((MA_PFN_AAudioStreamBuilder_setDeviceId)pContext->aaudio.AAudioStreamBuilder_setDeviceId)(pBuilder, pDeviceID->aaudio); + } + + ((MA_PFN_AAudioStreamBuilder_setDirection)pContext->aaudio.AAudioStreamBuilder_setDirection)(pBuilder, (deviceType == ma_device_type_playback) ? MA_AAUDIO_DIRECTION_OUTPUT : MA_AAUDIO_DIRECTION_INPUT); + ((MA_PFN_AAudioStreamBuilder_setSharingMode)pContext->aaudio.AAudioStreamBuilder_setSharingMode)(pBuilder, (shareMode == ma_share_mode_shared) ? MA_AAUDIO_SHARING_MODE_SHARED : MA_AAUDIO_SHARING_MODE_EXCLUSIVE); + + + /* If we have a device descriptor make sure we configure the stream builder to take our requested parameters. */ + if (pDescriptor != NULL) { + MA_ASSERT(pConfig != NULL); /* We must have a device config if we also have a descriptor. The config is required for AAudio specific configuration options. */ + + if (pDescriptor->sampleRate != 0) { + ((MA_PFN_AAudioStreamBuilder_setSampleRate)pContext->aaudio.AAudioStreamBuilder_setSampleRate)(pBuilder, pDescriptor->sampleRate); + } + + if (pDescriptor->channels != 0) { + ((MA_PFN_AAudioStreamBuilder_setChannelCount)pContext->aaudio.AAudioStreamBuilder_setChannelCount)(pBuilder, pDescriptor->channels); + } + + if (pDescriptor->format != ma_format_unknown) { + ((MA_PFN_AAudioStreamBuilder_setFormat)pContext->aaudio.AAudioStreamBuilder_setFormat)(pBuilder, (pDescriptor->format == ma_format_s16) ? MA_AAUDIO_FORMAT_PCM_I16 : MA_AAUDIO_FORMAT_PCM_FLOAT); + } + + + /* + There have been reports where setting the frames per data callback results in an error. + In particular, re-routing may inadvertently switch from low-latency mode, resulting in a less stable + stream from the legacy path (AudioStreamLegacy). To address this, we simply don't set the value. It + can still be set if it's explicitly requested via the aaudio.allowSetBufferCapacity variable in the + device config. + */ + if ((!pConfig->aaudio.enableCompatibilityWorkarounds || ma_android_sdk_version() > 30) && pConfig->aaudio.allowSetBufferCapacity) { + /* + AAudio is annoying when it comes to its buffer calculation stuff because it doesn't let you + retrieve the actual sample rate until after you've opened the stream. But you need to configure + the buffer capacity before you open the stream... :/ + + To solve, we're just going to assume MA_DEFAULT_SAMPLE_RATE (48000) and move on. + */ + ma_uint32 bufferCapacityInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptor, pDescriptor->sampleRate, pConfig->performanceProfile) * pDescriptor->periodCount; + + ((MA_PFN_AAudioStreamBuilder_setBufferCapacityInFrames)pContext->aaudio.AAudioStreamBuilder_setBufferCapacityInFrames)(pBuilder, bufferCapacityInFrames); + ((MA_PFN_AAudioStreamBuilder_setFramesPerDataCallback)pContext->aaudio.AAudioStreamBuilder_setFramesPerDataCallback)(pBuilder, bufferCapacityInFrames / pDescriptor->periodCount); + } + + if (deviceType == ma_device_type_capture) { + if (pConfig->aaudio.inputPreset != ma_aaudio_input_preset_default && pContext->aaudio.AAudioStreamBuilder_setInputPreset != NULL) { + ((MA_PFN_AAudioStreamBuilder_setInputPreset)pContext->aaudio.AAudioStreamBuilder_setInputPreset)(pBuilder, ma_to_input_preset__aaudio(pConfig->aaudio.inputPreset)); + } + + ((MA_PFN_AAudioStreamBuilder_setDataCallback)pContext->aaudio.AAudioStreamBuilder_setDataCallback)(pBuilder, ma_stream_data_callback_capture__aaudio, (void*)pDevice); + } else { + if (pConfig->aaudio.usage != ma_aaudio_usage_default && pContext->aaudio.AAudioStreamBuilder_setUsage != NULL) { + ((MA_PFN_AAudioStreamBuilder_setUsage)pContext->aaudio.AAudioStreamBuilder_setUsage)(pBuilder, ma_to_usage__aaudio(pConfig->aaudio.usage)); + } + + if (pConfig->aaudio.contentType != ma_aaudio_content_type_default && pContext->aaudio.AAudioStreamBuilder_setContentType != NULL) { + ((MA_PFN_AAudioStreamBuilder_setContentType)pContext->aaudio.AAudioStreamBuilder_setContentType)(pBuilder, ma_to_content_type__aaudio(pConfig->aaudio.contentType)); + } + + if (pConfig->aaudio.allowedCapturePolicy != ma_aaudio_allow_capture_default && pContext->aaudio.AAudioStreamBuilder_setAllowedCapturePolicy != NULL) { + ((MA_PFN_AAudioStreamBuilder_setAllowedCapturePolicy)pContext->aaudio.AAudioStreamBuilder_setAllowedCapturePolicy)(pBuilder, ma_to_allowed_capture_policy__aaudio(pConfig->aaudio.allowedCapturePolicy)); + } + + ((MA_PFN_AAudioStreamBuilder_setDataCallback)pContext->aaudio.AAudioStreamBuilder_setDataCallback)(pBuilder, ma_stream_data_callback_playback__aaudio, (void*)pDevice); + } + + /* + If we set AAUDIO_PERFORMANCE_MODE_LOW_LATENCY, we allow for MMAP (non-legacy path). + Since there's a mapping between miniaudio's performance profiles and AAudio's performance modes, let's use it. + Beware though, with a conservative performance profile, AAudio will indeed take the legacy path. + */ + ((MA_PFN_AAudioStreamBuilder_setPerformanceMode)pContext->aaudio.AAudioStreamBuilder_setPerformanceMode)(pBuilder, (pConfig->performanceProfile == ma_performance_profile_low_latency) ? MA_AAUDIO_PERFORMANCE_MODE_LOW_LATENCY : MA_AAUDIO_PERFORMANCE_MODE_NONE); + + /* We need to set an error callback to detect device changes. */ + if (pDevice != NULL) { /* <-- pDevice should never be null if pDescriptor is not null, which is always the case if we hit this branch. Check anyway for safety. */ + ((MA_PFN_AAudioStreamBuilder_setErrorCallback)pContext->aaudio.AAudioStreamBuilder_setErrorCallback)(pBuilder, ma_stream_error_callback__aaudio, (void*)pDevice); + } + } + + *ppBuilder = pBuilder; + + return MA_SUCCESS; +} + +static ma_result ma_open_stream_and_close_builder__aaudio(ma_context* pContext, ma_AAudioStreamBuilder* pBuilder, ma_AAudioStream** ppStream) +{ + ma_result result; + + result = ma_result_from_aaudio(((MA_PFN_AAudioStreamBuilder_openStream)pContext->aaudio.AAudioStreamBuilder_openStream)(pBuilder, ppStream)); + ((MA_PFN_AAudioStreamBuilder_delete)pContext->aaudio.AAudioStreamBuilder_delete)(pBuilder); + + return result; +} + +static ma_result ma_open_stream_basic__aaudio(ma_context* pContext, const ma_device_id* pDeviceID, ma_device_type deviceType, ma_share_mode shareMode, ma_AAudioStream** ppStream) +{ + ma_result result; + ma_AAudioStreamBuilder* pBuilder; + + *ppStream = NULL; + + result = ma_create_and_configure_AAudioStreamBuilder__aaudio(pContext, pDeviceID, deviceType, shareMode, NULL, NULL, NULL, &pBuilder); + if (result != MA_SUCCESS) { + return result; + } + + /* Let's give AAudio a hint to avoid the legacy path (AudioStreamLegacy). */ + ((MA_PFN_AAudioStreamBuilder_setPerformanceMode)pContext->aaudio.AAudioStreamBuilder_setPerformanceMode)(pBuilder, MA_AAUDIO_PERFORMANCE_MODE_LOW_LATENCY); + + return ma_open_stream_and_close_builder__aaudio(pContext, pBuilder, ppStream); +} + +static ma_result ma_open_stream__aaudio(ma_device* pDevice, const ma_device_config* pConfig, ma_device_type deviceType, const ma_device_descriptor* pDescriptor, ma_AAudioStream** ppStream) +{ + ma_result result; + ma_AAudioStreamBuilder* pBuilder; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pDescriptor != NULL); + MA_ASSERT(deviceType != ma_device_type_duplex); /* This function should not be called for a full-duplex device type. */ + + *ppStream = NULL; + + result = ma_create_and_configure_AAudioStreamBuilder__aaudio(pDevice->pContext, pDescriptor->pDeviceID, deviceType, pDescriptor->shareMode, pDescriptor, pConfig, pDevice, &pBuilder); + if (result != MA_SUCCESS) { + return result; + } + + return ma_open_stream_and_close_builder__aaudio(pDevice->pContext, pBuilder, ppStream); +} + +static ma_result ma_close_stream__aaudio(ma_context* pContext, ma_AAudioStream* pStream) +{ + if (pStream == NULL) { + return MA_INVALID_ARGS; + } + + return ma_result_from_aaudio(((MA_PFN_AAudioStream_close)pContext->aaudio.AAudioStream_close)(pStream)); +} + +static ma_bool32 ma_has_default_device__aaudio(ma_context* pContext, ma_device_type deviceType) +{ + /* The only way to know this is to try creating a stream. */ + ma_AAudioStream* pStream; + ma_result result = ma_open_stream_basic__aaudio(pContext, NULL, deviceType, ma_share_mode_shared, &pStream); + if (result != MA_SUCCESS) { + return MA_FALSE; + } + + ma_close_stream__aaudio(pContext, pStream); + return MA_TRUE; +} + +static ma_result ma_wait_for_simple_state_transition__aaudio(ma_context* pContext, ma_AAudioStream* pStream, ma_aaudio_stream_state_t oldState, ma_aaudio_stream_state_t newState) +{ + ma_aaudio_stream_state_t actualNewState; + ma_aaudio_result_t resultAA = ((MA_PFN_AAudioStream_waitForStateChange)pContext->aaudio.AAudioStream_waitForStateChange)(pStream, oldState, &actualNewState, 5000000000); /* 5 second timeout. */ + if (resultAA != MA_AAUDIO_OK) { + return ma_result_from_aaudio(resultAA); + } + + if (newState != actualNewState) { + return MA_ERROR; /* Failed to transition into the expected state. */ + } + + return MA_SUCCESS; +} + + +static ma_result ma_context_enumerate_devices__aaudio(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + ma_bool32 cbResult = MA_TRUE; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + /* Unfortunately AAudio does not have an enumeration API. Therefore I'm only going to report default devices, but only if it can instantiate a stream. */ + + /* Playback. */ + if (cbResult) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + deviceInfo.id.aaudio = MA_AAUDIO_UNSPECIFIED; + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + + if (ma_has_default_device__aaudio(pContext, ma_device_type_playback)) { + cbResult = callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + } + } + + /* Capture. */ + if (cbResult) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + deviceInfo.id.aaudio = MA_AAUDIO_UNSPECIFIED; + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + + if (ma_has_default_device__aaudio(pContext, ma_device_type_capture)) { + cbResult = callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + } + } + + return MA_SUCCESS; +} + +static void ma_context_add_native_data_format_from_AAudioStream_ex__aaudio(ma_context* pContext, ma_AAudioStream* pStream, ma_format format, ma_uint32 flags, ma_device_info* pDeviceInfo) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pStream != NULL); + MA_ASSERT(pDeviceInfo != NULL); + + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].format = format; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].channels = ((MA_PFN_AAudioStream_getChannelCount)pContext->aaudio.AAudioStream_getChannelCount)(pStream); + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].sampleRate = ((MA_PFN_AAudioStream_getSampleRate)pContext->aaudio.AAudioStream_getSampleRate)(pStream); + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].flags = flags; + pDeviceInfo->nativeDataFormatCount += 1; +} + +static void ma_context_add_native_data_format_from_AAudioStream__aaudio(ma_context* pContext, ma_AAudioStream* pStream, ma_uint32 flags, ma_device_info* pDeviceInfo) +{ + /* AAudio supports s16 and f32. */ + ma_context_add_native_data_format_from_AAudioStream_ex__aaudio(pContext, pStream, ma_format_f32, flags, pDeviceInfo); + ma_context_add_native_data_format_from_AAudioStream_ex__aaudio(pContext, pStream, ma_format_s16, flags, pDeviceInfo); +} + +static ma_result ma_context_get_device_info__aaudio(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + ma_AAudioStream* pStream; + ma_result result; + + MA_ASSERT(pContext != NULL); + + /* ID */ + if (pDeviceID != NULL) { + pDeviceInfo->id.aaudio = pDeviceID->aaudio; + } else { + pDeviceInfo->id.aaudio = MA_AAUDIO_UNSPECIFIED; + } + + /* Name */ + if (deviceType == ma_device_type_playback) { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + } else { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + } + + + pDeviceInfo->nativeDataFormatCount = 0; + + /* We'll need to open the device to get accurate sample rate and channel count information. */ + result = ma_open_stream_basic__aaudio(pContext, pDeviceID, deviceType, ma_share_mode_shared, &pStream); + if (result != MA_SUCCESS) { + return result; + } + + ma_context_add_native_data_format_from_AAudioStream__aaudio(pContext, pStream, 0, pDeviceInfo); + + ma_close_stream__aaudio(pContext, pStream); + pStream = NULL; + + return MA_SUCCESS; +} + +static ma_result ma_close_streams__aaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + /* When rerouting, streams may have been closed and never re-opened. Hence the extra checks below. */ + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ma_close_stream__aaudio(pDevice->pContext, (ma_AAudioStream*)pDevice->aaudio.pStreamCapture); + pDevice->aaudio.pStreamCapture = NULL; + } + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ma_close_stream__aaudio(pDevice->pContext, (ma_AAudioStream*)pDevice->aaudio.pStreamPlayback); + pDevice->aaudio.pStreamPlayback = NULL; + } + + return MA_SUCCESS; +} + +static ma_result ma_device_uninit__aaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + /* + Note: Closing the streams may cause a timeout error, which would then trigger rerouting in our error callback. + We must not schedule a reroute when device is getting destroyed. + */ + ma_atomic_bool32_set(&pDevice->aaudio.isTearingDown, MA_TRUE); + + /* Wait for any rerouting to finish before attempting to close the streams. */ + ma_mutex_lock(&pDevice->aaudio.rerouteLock); + { + ma_close_streams__aaudio(pDevice); + } + ma_mutex_unlock(&pDevice->aaudio.rerouteLock); + + /* Destroy rerouting lock. */ + ma_mutex_uninit(&pDevice->aaudio.rerouteLock); + + return MA_SUCCESS; +} + +static ma_result ma_device_init_by_type__aaudio(ma_device* pDevice, const ma_device_config* pConfig, ma_device_type deviceType, ma_device_descriptor* pDescriptor, ma_AAudioStream** ppStream) +{ + ma_result result; + int32_t bufferCapacityInFrames; + int32_t framesPerDataCallback; + ma_AAudioStream* pStream; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pDescriptor != NULL); + + *ppStream = NULL; /* Safety. */ + + /* First step is to open the stream. From there we'll be able to extract the internal configuration. */ + result = ma_open_stream__aaudio(pDevice, pConfig, deviceType, pDescriptor, &pStream); + if (result != MA_SUCCESS) { + return result; /* Failed to open the AAudio stream. */ + } + + /* Now extract the internal configuration. */ + pDescriptor->format = (((MA_PFN_AAudioStream_getFormat)pDevice->pContext->aaudio.AAudioStream_getFormat)(pStream) == MA_AAUDIO_FORMAT_PCM_I16) ? ma_format_s16 : ma_format_f32; + pDescriptor->channels = ((MA_PFN_AAudioStream_getChannelCount)pDevice->pContext->aaudio.AAudioStream_getChannelCount)(pStream); + pDescriptor->sampleRate = ((MA_PFN_AAudioStream_getSampleRate)pDevice->pContext->aaudio.AAudioStream_getSampleRate)(pStream); + + /* For the channel map we need to be sure we don't overflow any buffers. */ + if (pDescriptor->channels <= MA_MAX_CHANNELS) { + ma_channel_map_init_standard(ma_standard_channel_map_default, pDescriptor->channelMap, ma_countof(pDescriptor->channelMap), pDescriptor->channels); /* <-- Cannot find info on channel order, so assuming a default. */ + } else { + ma_channel_map_init_blank(pDescriptor->channelMap, MA_MAX_CHANNELS); /* Too many channels. Use a blank channel map. */ + } + + bufferCapacityInFrames = ((MA_PFN_AAudioStream_getBufferCapacityInFrames)pDevice->pContext->aaudio.AAudioStream_getBufferCapacityInFrames)(pStream); + framesPerDataCallback = ((MA_PFN_AAudioStream_getFramesPerDataCallback)pDevice->pContext->aaudio.AAudioStream_getFramesPerDataCallback)(pStream); + + if (framesPerDataCallback > 0) { + pDescriptor->periodSizeInFrames = framesPerDataCallback; + pDescriptor->periodCount = bufferCapacityInFrames / framesPerDataCallback; + } else { + pDescriptor->periodSizeInFrames = bufferCapacityInFrames; + pDescriptor->periodCount = 1; + } + + *ppStream = pStream; + + return MA_SUCCESS; +} + +static ma_result ma_device_init_streams__aaudio(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + ma_result result; + + MA_ASSERT(pDevice != NULL); + + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + pDevice->aaudio.usage = pConfig->aaudio.usage; + pDevice->aaudio.contentType = pConfig->aaudio.contentType; + pDevice->aaudio.inputPreset = pConfig->aaudio.inputPreset; + pDevice->aaudio.allowedCapturePolicy = pConfig->aaudio.allowedCapturePolicy; + pDevice->aaudio.noAutoStartAfterReroute = pConfig->aaudio.noAutoStartAfterReroute; + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + result = ma_device_init_by_type__aaudio(pDevice, pConfig, ma_device_type_capture, pDescriptorCapture, (ma_AAudioStream**)&pDevice->aaudio.pStreamCapture); + if (result != MA_SUCCESS) { + return result; + } + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + result = ma_device_init_by_type__aaudio(pDevice, pConfig, ma_device_type_playback, pDescriptorPlayback, (ma_AAudioStream**)&pDevice->aaudio.pStreamPlayback); + if (result != MA_SUCCESS) { + return result; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_init__aaudio(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + ma_result result; + + MA_ASSERT(pDevice != NULL); + + result = ma_device_init_streams__aaudio(pDevice, pConfig, pDescriptorPlayback, pDescriptorCapture); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_mutex_init(&pDevice->aaudio.rerouteLock); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +static ma_result ma_device_start_stream__aaudio(ma_device* pDevice, ma_AAudioStream* pStream) +{ + ma_aaudio_result_t resultAA; + ma_aaudio_stream_state_t currentState; + + MA_ASSERT(pDevice != NULL); + + if (pStream == NULL) { + return MA_INVALID_ARGS; + } + + resultAA = ((MA_PFN_AAudioStream_requestStart)pDevice->pContext->aaudio.AAudioStream_requestStart)(pStream); + if (resultAA != MA_AAUDIO_OK) { + return ma_result_from_aaudio(resultAA); + } + + /* Do we actually need to wait for the device to transition into its started state? */ + + /* The device should be in either a starting or started state. If it's not set to started we need to wait for it to transition. It should go from starting to started. */ + currentState = ((MA_PFN_AAudioStream_getState)pDevice->pContext->aaudio.AAudioStream_getState)(pStream); + if (currentState != MA_AAUDIO_STREAM_STATE_STARTED) { + ma_result result; + + if (currentState != MA_AAUDIO_STREAM_STATE_STARTING) { + return MA_ERROR; /* Expecting the stream to be a starting or started state. */ + } + + result = ma_wait_for_simple_state_transition__aaudio(pDevice->pContext, pStream, currentState, MA_AAUDIO_STREAM_STATE_STARTED); + if (result != MA_SUCCESS) { + return result; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_stop_stream__aaudio(ma_device* pDevice, ma_AAudioStream* pStream) +{ + ma_aaudio_result_t resultAA; + ma_aaudio_stream_state_t currentState; + + MA_ASSERT(pDevice != NULL); + + if (pStream == NULL) { + return MA_INVALID_ARGS; + } + + /* + From the AAudio documentation: + + The stream will stop after all of the data currently buffered has been played. + + This maps with miniaudio's requirement that device's be drained which means we don't need to implement any draining logic. + */ + currentState = ((MA_PFN_AAudioStream_getState)pDevice->pContext->aaudio.AAudioStream_getState)(pStream); + if (currentState == MA_AAUDIO_STREAM_STATE_DISCONNECTED) { + return MA_SUCCESS; /* The device is disconnected. Don't try stopping it. */ + } + + resultAA = ((MA_PFN_AAudioStream_requestStop)pDevice->pContext->aaudio.AAudioStream_requestStop)(pStream); + if (resultAA != MA_AAUDIO_OK) { + return ma_result_from_aaudio(resultAA); + } + + /* The device should be in either a stopping or stopped state. If it's not set to started we need to wait for it to transition. It should go from stopping to stopped. */ + currentState = ((MA_PFN_AAudioStream_getState)pDevice->pContext->aaudio.AAudioStream_getState)(pStream); + if (currentState != MA_AAUDIO_STREAM_STATE_STOPPED) { + ma_result result; + + if (currentState != MA_AAUDIO_STREAM_STATE_STOPPING) { + return MA_ERROR; /* Expecting the stream to be a stopping or stopped state. */ + } + + result = ma_wait_for_simple_state_transition__aaudio(pDevice->pContext, pStream, currentState, MA_AAUDIO_STREAM_STATE_STOPPED); + if (result != MA_SUCCESS) { + return result; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_start__aaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ma_result result = ma_device_start_stream__aaudio(pDevice, (ma_AAudioStream*)pDevice->aaudio.pStreamCapture); + if (result != MA_SUCCESS) { + return result; + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ma_result result = ma_device_start_stream__aaudio(pDevice, (ma_AAudioStream*)pDevice->aaudio.pStreamPlayback); + if (result != MA_SUCCESS) { + if (pDevice->type == ma_device_type_duplex) { + ma_device_stop_stream__aaudio(pDevice, (ma_AAudioStream*)pDevice->aaudio.pStreamCapture); + } + return result; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__aaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ma_result result = ma_device_stop_stream__aaudio(pDevice, (ma_AAudioStream*)pDevice->aaudio.pStreamCapture); + if (result != MA_SUCCESS) { + return result; + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ma_result result = ma_device_stop_stream__aaudio(pDevice, (ma_AAudioStream*)pDevice->aaudio.pStreamPlayback); + if (result != MA_SUCCESS) { + return result; + } + } + + ma_device__on_notification_stopped(pDevice); + + return MA_SUCCESS; +} + +static ma_result ma_device_reinit__aaudio(ma_device* pDevice, ma_device_type deviceType) +{ + const ma_int32 maxAttempts = 4; /* Reasonable retry limit. */ + + ma_result result; + ma_int32 iAttempt; + + MA_ASSERT(pDevice != NULL); + + /* We got disconnected! Retry a few times, until we find a connected device! */ + iAttempt = 0; + while (iAttempt++ < maxAttempts) { + /* Device tearing down? No need to reroute! */ + if (ma_atomic_bool32_get(&pDevice->aaudio.isTearingDown)) { + result = MA_SUCCESS; /* Caller should continue as normal. */ + break; + } + + /* The first thing to do is close the streams. */ + ma_close_streams__aaudio(pDevice); + + /* Now we need to reinitialize each streams. The hardest part with this is just filling output the config and descriptors. */ + ma_device_config deviceConfig; + ma_device_descriptor descriptorPlayback; + ma_device_descriptor descriptorCapture; + + deviceConfig = ma_device_config_init(deviceType); + deviceConfig.playback.pDeviceID = NULL; /* Only doing rerouting with default devices. */ + deviceConfig.playback.shareMode = pDevice->playback.shareMode; + deviceConfig.playback.format = pDevice->playback.format; + deviceConfig.playback.channels = pDevice->playback.channels; + deviceConfig.capture.pDeviceID = NULL; /* Only doing rerouting with default devices. */ + deviceConfig.capture.shareMode = pDevice->capture.shareMode; + deviceConfig.capture.format = pDevice->capture.format; + deviceConfig.capture.channels = pDevice->capture.channels; + deviceConfig.sampleRate = pDevice->sampleRate; + deviceConfig.aaudio.usage = pDevice->aaudio.usage; + deviceConfig.aaudio.contentType = pDevice->aaudio.contentType; + deviceConfig.aaudio.inputPreset = pDevice->aaudio.inputPreset; + deviceConfig.aaudio.allowedCapturePolicy = pDevice->aaudio.allowedCapturePolicy; + deviceConfig.aaudio.noAutoStartAfterReroute = pDevice->aaudio.noAutoStartAfterReroute; + deviceConfig.periods = 1; + + /* Try to get an accurate period size. */ + if (deviceType == ma_device_type_playback || deviceType == ma_device_type_duplex) { + deviceConfig.periodSizeInFrames = pDevice->playback.internalPeriodSizeInFrames; + } else { + deviceConfig.periodSizeInFrames = pDevice->capture.internalPeriodSizeInFrames; + } + + if (deviceType == ma_device_type_capture || deviceType == ma_device_type_duplex || deviceType == ma_device_type_loopback) { + descriptorCapture.pDeviceID = deviceConfig.capture.pDeviceID; + descriptorCapture.shareMode = deviceConfig.capture.shareMode; + descriptorCapture.format = deviceConfig.capture.format; + descriptorCapture.channels = deviceConfig.capture.channels; + descriptorCapture.sampleRate = deviceConfig.sampleRate; + descriptorCapture.periodSizeInFrames = deviceConfig.periodSizeInFrames; + descriptorCapture.periodCount = deviceConfig.periods; + } + + if (deviceType == ma_device_type_playback || deviceType == ma_device_type_duplex) { + descriptorPlayback.pDeviceID = deviceConfig.playback.pDeviceID; + descriptorPlayback.shareMode = deviceConfig.playback.shareMode; + descriptorPlayback.format = deviceConfig.playback.format; + descriptorPlayback.channels = deviceConfig.playback.channels; + descriptorPlayback.sampleRate = deviceConfig.sampleRate; + descriptorPlayback.periodSizeInFrames = deviceConfig.periodSizeInFrames; + descriptorPlayback.periodCount = deviceConfig.periods; + } + + result = ma_device_init_streams__aaudio(pDevice, &deviceConfig, &descriptorPlayback, &descriptorCapture); + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[AAudio] Failed to create stream after route change."); + /* Reroute failed! */ + break; + } + + result = ma_device_post_init(pDevice, deviceType, &descriptorPlayback, &descriptorCapture); + if (result != MA_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[AAudio] Failed to initialize device after route change."); + ma_close_streams__aaudio(pDevice); + /* Reroute failed! */ + break; + } + + /* We'll only ever do this in response to a reroute. */ + ma_device__on_notification_rerouted(pDevice); + + /* If the device is started, start the streams. Maybe make this configurable? */ + if (ma_device_get_state(pDevice) == ma_device_state_started) { + if (pDevice->aaudio.noAutoStartAfterReroute == MA_FALSE) { + result = ma_device_start__aaudio(pDevice); + if (result != MA_SUCCESS) { + if (iAttempt < maxAttempts) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[AAudio] Failed to start stream after route change, retrying(%d)", iAttempt); + } else { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[AAudio] Failed to start stream after route change, giving up."); + } + } + } else { + ma_device_stop(pDevice); /* Do a full device stop so we set internal state correctly. */ + } + } + + if (result == MA_SUCCESS) { + /* Reroute successful! */ + break; + } + } + + return result; +} + +static ma_result ma_device_get_info__aaudio(ma_device* pDevice, ma_device_type type, ma_device_info* pDeviceInfo) +{ + ma_AAudioStream* pStream = NULL; + + MA_ASSERT(pDevice != NULL); + MA_ASSERT(type != ma_device_type_duplex); + MA_ASSERT(pDeviceInfo != NULL); + + if (type == ma_device_type_capture) { + pStream = (ma_AAudioStream*)pDevice->aaudio.pStreamCapture; + pDeviceInfo->id.aaudio = pDevice->capture.id.aaudio; + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); /* Only supporting default devices. */ + } + if (type == ma_device_type_playback) { + pStream = (ma_AAudioStream*)pDevice->aaudio.pStreamPlayback; + pDeviceInfo->id.aaudio = pDevice->playback.id.aaudio; + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); /* Only supporting default devices. */ + } + + /* Safety. Should never happen. */ + if (pStream == NULL) { + return MA_INVALID_OPERATION; + } + + pDeviceInfo->nativeDataFormatCount = 0; + ma_context_add_native_data_format_from_AAudioStream__aaudio(pDevice->pContext, pStream, 0, pDeviceInfo); + + return MA_SUCCESS; +} + + +static ma_result ma_context_uninit__aaudio(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_aaudio); + + ma_device_job_thread_uninit(&pContext->aaudio.jobThread, &pContext->allocationCallbacks); + + ma_dlclose(ma_context_get_log(pContext), pContext->aaudio.hAAudio); + pContext->aaudio.hAAudio = NULL; + + return MA_SUCCESS; +} + +static ma_result ma_context_init__aaudio(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ +#if !defined(MA_NO_RUNTIME_LINKING) + size_t i; + const char* libNames[] = { + "libaaudio.so" + }; + + for (i = 0; i < ma_countof(libNames); ++i) { + pContext->aaudio.hAAudio = ma_dlopen(ma_context_get_log(pContext), libNames[i]); + if (pContext->aaudio.hAAudio != NULL) { + break; + } + } + + if (pContext->aaudio.hAAudio == NULL) { + return MA_FAILED_TO_INIT_BACKEND; + } + + pContext->aaudio.AAudio_createStreamBuilder = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudio_createStreamBuilder"); + pContext->aaudio.AAudioStreamBuilder_delete = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_delete"); + pContext->aaudio.AAudioStreamBuilder_setDeviceId = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setDeviceId"); + pContext->aaudio.AAudioStreamBuilder_setDirection = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setDirection"); + pContext->aaudio.AAudioStreamBuilder_setSharingMode = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setSharingMode"); + pContext->aaudio.AAudioStreamBuilder_setFormat = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setFormat"); + pContext->aaudio.AAudioStreamBuilder_setChannelCount = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setChannelCount"); + pContext->aaudio.AAudioStreamBuilder_setSampleRate = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setSampleRate"); + pContext->aaudio.AAudioStreamBuilder_setBufferCapacityInFrames = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setBufferCapacityInFrames"); + pContext->aaudio.AAudioStreamBuilder_setFramesPerDataCallback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setFramesPerDataCallback"); + pContext->aaudio.AAudioStreamBuilder_setDataCallback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setDataCallback"); + pContext->aaudio.AAudioStreamBuilder_setErrorCallback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setErrorCallback"); + pContext->aaudio.AAudioStreamBuilder_setPerformanceMode = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setPerformanceMode"); + pContext->aaudio.AAudioStreamBuilder_setUsage = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setUsage"); + pContext->aaudio.AAudioStreamBuilder_setContentType = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setContentType"); + pContext->aaudio.AAudioStreamBuilder_setInputPreset = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setInputPreset"); + pContext->aaudio.AAudioStreamBuilder_setAllowedCapturePolicy = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_setAllowedCapturePolicy"); + pContext->aaudio.AAudioStreamBuilder_openStream = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStreamBuilder_openStream"); + pContext->aaudio.AAudioStream_close = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_close"); + pContext->aaudio.AAudioStream_getState = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_getState"); + pContext->aaudio.AAudioStream_waitForStateChange = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_waitForStateChange"); + pContext->aaudio.AAudioStream_getFormat = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_getFormat"); + pContext->aaudio.AAudioStream_getChannelCount = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_getChannelCount"); + pContext->aaudio.AAudioStream_getSampleRate = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_getSampleRate"); + pContext->aaudio.AAudioStream_getBufferCapacityInFrames = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_getBufferCapacityInFrames"); + pContext->aaudio.AAudioStream_getFramesPerDataCallback = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_getFramesPerDataCallback"); + pContext->aaudio.AAudioStream_getFramesPerBurst = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_getFramesPerBurst"); + pContext->aaudio.AAudioStream_requestStart = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_requestStart"); + pContext->aaudio.AAudioStream_requestStop = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_requestStop"); +#else + pContext->aaudio.AAudio_createStreamBuilder = (ma_proc)AAudio_createStreamBuilder; + pContext->aaudio.AAudioStreamBuilder_delete = (ma_proc)AAudioStreamBuilder_delete; + pContext->aaudio.AAudioStreamBuilder_setDeviceId = (ma_proc)AAudioStreamBuilder_setDeviceId; + pContext->aaudio.AAudioStreamBuilder_setDirection = (ma_proc)AAudioStreamBuilder_setDirection; + pContext->aaudio.AAudioStreamBuilder_setSharingMode = (ma_proc)AAudioStreamBuilder_setSharingMode; + pContext->aaudio.AAudioStreamBuilder_setFormat = (ma_proc)AAudioStreamBuilder_setFormat; + pContext->aaudio.AAudioStreamBuilder_setChannelCount = (ma_proc)AAudioStreamBuilder_setChannelCount; + pContext->aaudio.AAudioStreamBuilder_setSampleRate = (ma_proc)AAudioStreamBuilder_setSampleRate; + pContext->aaudio.AAudioStreamBuilder_setBufferCapacityInFrames = (ma_proc)AAudioStreamBuilder_setBufferCapacityInFrames; + pContext->aaudio.AAudioStreamBuilder_setFramesPerDataCallback = (ma_proc)AAudioStreamBuilder_setFramesPerDataCallback; + pContext->aaudio.AAudioStreamBuilder_setDataCallback = (ma_proc)AAudioStreamBuilder_setDataCallback; + pContext->aaudio.AAudioStreamBuilder_setErrorCallback = (ma_proc)AAudioStreamBuilder_setErrorCallback; + pContext->aaudio.AAudioStreamBuilder_setPerformanceMode = (ma_proc)AAudioStreamBuilder_setPerformanceMode; + pContext->aaudio.AAudioStreamBuilder_setUsage = (ma_proc)AAudioStreamBuilder_setUsage; + pContext->aaudio.AAudioStreamBuilder_setContentType = (ma_proc)AAudioStreamBuilder_setContentType; + pContext->aaudio.AAudioStreamBuilder_setInputPreset = (ma_proc)AAudioStreamBuilder_setInputPreset; + #if defined(__ANDROID_API__) && __ANDROID_API__ >= 29 + pContext->aaudio.AAudioStreamBuilder_setAllowedCapturePolicy = (ma_proc)AAudioStreamBuilder_setAllowedCapturePolicy; + #endif + pContext->aaudio.AAudioStreamBuilder_openStream = (ma_proc)AAudioStreamBuilder_openStream; + pContext->aaudio.AAudioStream_close = (ma_proc)AAudioStream_close; + pContext->aaudio.AAudioStream_getState = (ma_proc)AAudioStream_getState; + pContext->aaudio.AAudioStream_waitForStateChange = (ma_proc)AAudioStream_waitForStateChange; + pContext->aaudio.AAudioStream_getFormat = (ma_proc)AAudioStream_getFormat; + pContext->aaudio.AAudioStream_getChannelCount = (ma_proc)AAudioStream_getChannelCount; + pContext->aaudio.AAudioStream_getSampleRate = (ma_proc)AAudioStream_getSampleRate; + pContext->aaudio.AAudioStream_getBufferCapacityInFrames = (ma_proc)AAudioStream_getBufferCapacityInFrames; + pContext->aaudio.AAudioStream_getFramesPerDataCallback = (ma_proc)AAudioStream_getFramesPerDataCallback; + pContext->aaudio.AAudioStream_getFramesPerBurst = (ma_proc)AAudioStream_getFramesPerBurst; + pContext->aaudio.AAudioStream_requestStart = (ma_proc)AAudioStream_requestStart; + pContext->aaudio.AAudioStream_requestStop = (ma_proc)AAudioStream_requestStop; +#endif + + pCallbacks->onContextInit = ma_context_init__aaudio; + pCallbacks->onContextUninit = ma_context_uninit__aaudio; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__aaudio; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__aaudio; + pCallbacks->onDeviceInit = ma_device_init__aaudio; + pCallbacks->onDeviceUninit = ma_device_uninit__aaudio; + pCallbacks->onDeviceStart = ma_device_start__aaudio; + pCallbacks->onDeviceStop = ma_device_stop__aaudio; + pCallbacks->onDeviceRead = NULL; /* Not used because AAudio is asynchronous. */ + pCallbacks->onDeviceWrite = NULL; /* Not used because AAudio is asynchronous. */ + pCallbacks->onDeviceDataLoop = NULL; /* Not used because AAudio is asynchronous. */ + pCallbacks->onDeviceGetInfo = ma_device_get_info__aaudio; + + + /* We need a job thread so we can deal with rerouting. */ + { + ma_result result; + ma_device_job_thread_config jobThreadConfig; + + jobThreadConfig = ma_device_job_thread_config_init(); + + result = ma_device_job_thread_init(&jobThreadConfig, &pContext->allocationCallbacks, &pContext->aaudio.jobThread); + if (result != MA_SUCCESS) { + ma_dlclose(ma_context_get_log(pContext), pContext->aaudio.hAAudio); + pContext->aaudio.hAAudio = NULL; + return result; + } + } + + + (void)pConfig; + return MA_SUCCESS; +} + +static ma_result ma_job_process__device__aaudio_reroute(ma_job* pJob) +{ + ma_result result = MA_SUCCESS; + ma_device* pDevice; + + MA_ASSERT(pJob != NULL); + + pDevice = (ma_device*)pJob->data.device.aaudio.reroute.pDevice; + MA_ASSERT(pDevice != NULL); + + ma_mutex_lock(&pDevice->aaudio.rerouteLock); + { + /* Here is where we need to reroute the device. To do this we need to uninitialize the stream and reinitialize it. */ + result = ma_device_reinit__aaudio(pDevice, (ma_device_type)pJob->data.device.aaudio.reroute.deviceType); + if (result != MA_SUCCESS) { + /* + Getting here means we failed to reroute the device. The best thing I can think of here is to + just stop the device. + */ + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[AAudio] Stopping device due to reroute failure."); + ma_device_stop(pDevice); + } + } + ma_mutex_unlock(&pDevice->aaudio.rerouteLock); + + return result; +} +#else +/* Getting here means there is no AAudio backend so we need a no-op job implementation. */ +static ma_result ma_job_process__device__aaudio_reroute(ma_job* pJob) +{ + return ma_job_process__noop(pJob); +} +#endif /* AAudio */ + + +/****************************************************************************** + +OpenSL|ES Backend + +******************************************************************************/ +#ifdef MA_HAS_OPENSL +#include +#ifdef MA_ANDROID +#include +#endif + +typedef SLresult (SLAPIENTRY * ma_slCreateEngine_proc)(SLObjectItf* pEngine, SLuint32 numOptions, SLEngineOption* pEngineOptions, SLuint32 numInterfaces, SLInterfaceID* pInterfaceIds, SLboolean* pInterfaceRequired); + +/* OpenSL|ES has one-per-application objects :( */ +static SLObjectItf g_maEngineObjectSL = NULL; +static SLEngineItf g_maEngineSL = NULL; +static ma_uint32 g_maOpenSLInitCounter = 0; +static ma_spinlock g_maOpenSLSpinlock = 0; /* For init/uninit. */ + +#define MA_OPENSL_OBJ(p) (*((SLObjectItf)(p))) +#define MA_OPENSL_OUTPUTMIX(p) (*((SLOutputMixItf)(p))) +#define MA_OPENSL_PLAY(p) (*((SLPlayItf)(p))) +#define MA_OPENSL_RECORD(p) (*((SLRecordItf)(p))) + +#ifdef MA_ANDROID +#define MA_OPENSL_BUFFERQUEUE(p) (*((SLAndroidSimpleBufferQueueItf)(p))) +#else +#define MA_OPENSL_BUFFERQUEUE(p) (*((SLBufferQueueItf)(p))) +#endif + +static ma_result ma_result_from_OpenSL(SLuint32 result) +{ + switch (result) + { + case SL_RESULT_SUCCESS: return MA_SUCCESS; + case SL_RESULT_PRECONDITIONS_VIOLATED: return MA_ERROR; + case SL_RESULT_PARAMETER_INVALID: return MA_INVALID_ARGS; + case SL_RESULT_MEMORY_FAILURE: return MA_OUT_OF_MEMORY; + case SL_RESULT_RESOURCE_ERROR: return MA_INVALID_DATA; + case SL_RESULT_RESOURCE_LOST: return MA_ERROR; + case SL_RESULT_IO_ERROR: return MA_IO_ERROR; + case SL_RESULT_BUFFER_INSUFFICIENT: return MA_NO_SPACE; + case SL_RESULT_CONTENT_CORRUPTED: return MA_INVALID_DATA; + case SL_RESULT_CONTENT_UNSUPPORTED: return MA_FORMAT_NOT_SUPPORTED; + case SL_RESULT_CONTENT_NOT_FOUND: return MA_ERROR; + case SL_RESULT_PERMISSION_DENIED: return MA_ACCESS_DENIED; + case SL_RESULT_FEATURE_UNSUPPORTED: return MA_NOT_IMPLEMENTED; + case SL_RESULT_INTERNAL_ERROR: return MA_ERROR; + case SL_RESULT_UNKNOWN_ERROR: return MA_ERROR; + case SL_RESULT_OPERATION_ABORTED: return MA_ERROR; + case SL_RESULT_CONTROL_LOST: return MA_ERROR; + default: return MA_ERROR; + } +} + +/* Converts an individual OpenSL-style channel identifier (SL_SPEAKER_FRONT_LEFT, etc.) to miniaudio. */ +static ma_uint8 ma_channel_id_to_ma__opensl(SLuint32 id) +{ + switch (id) + { + case SL_SPEAKER_FRONT_LEFT: return MA_CHANNEL_FRONT_LEFT; + case SL_SPEAKER_FRONT_RIGHT: return MA_CHANNEL_FRONT_RIGHT; + case SL_SPEAKER_FRONT_CENTER: return MA_CHANNEL_FRONT_CENTER; + case SL_SPEAKER_LOW_FREQUENCY: return MA_CHANNEL_LFE; + case SL_SPEAKER_BACK_LEFT: return MA_CHANNEL_BACK_LEFT; + case SL_SPEAKER_BACK_RIGHT: return MA_CHANNEL_BACK_RIGHT; + case SL_SPEAKER_FRONT_LEFT_OF_CENTER: return MA_CHANNEL_FRONT_LEFT_CENTER; + case SL_SPEAKER_FRONT_RIGHT_OF_CENTER: return MA_CHANNEL_FRONT_RIGHT_CENTER; + case SL_SPEAKER_BACK_CENTER: return MA_CHANNEL_BACK_CENTER; + case SL_SPEAKER_SIDE_LEFT: return MA_CHANNEL_SIDE_LEFT; + case SL_SPEAKER_SIDE_RIGHT: return MA_CHANNEL_SIDE_RIGHT; + case SL_SPEAKER_TOP_CENTER: return MA_CHANNEL_TOP_CENTER; + case SL_SPEAKER_TOP_FRONT_LEFT: return MA_CHANNEL_TOP_FRONT_LEFT; + case SL_SPEAKER_TOP_FRONT_CENTER: return MA_CHANNEL_TOP_FRONT_CENTER; + case SL_SPEAKER_TOP_FRONT_RIGHT: return MA_CHANNEL_TOP_FRONT_RIGHT; + case SL_SPEAKER_TOP_BACK_LEFT: return MA_CHANNEL_TOP_BACK_LEFT; + case SL_SPEAKER_TOP_BACK_CENTER: return MA_CHANNEL_TOP_BACK_CENTER; + case SL_SPEAKER_TOP_BACK_RIGHT: return MA_CHANNEL_TOP_BACK_RIGHT; + default: return 0; + } +} + +/* Converts an individual miniaudio channel identifier (MA_CHANNEL_FRONT_LEFT, etc.) to OpenSL-style. */ +static SLuint32 ma_channel_id_to_opensl(ma_uint8 id) +{ + switch (id) + { + case MA_CHANNEL_MONO: return SL_SPEAKER_FRONT_CENTER; + case MA_CHANNEL_FRONT_LEFT: return SL_SPEAKER_FRONT_LEFT; + case MA_CHANNEL_FRONT_RIGHT: return SL_SPEAKER_FRONT_RIGHT; + case MA_CHANNEL_FRONT_CENTER: return SL_SPEAKER_FRONT_CENTER; + case MA_CHANNEL_LFE: return SL_SPEAKER_LOW_FREQUENCY; + case MA_CHANNEL_BACK_LEFT: return SL_SPEAKER_BACK_LEFT; + case MA_CHANNEL_BACK_RIGHT: return SL_SPEAKER_BACK_RIGHT; + case MA_CHANNEL_FRONT_LEFT_CENTER: return SL_SPEAKER_FRONT_LEFT_OF_CENTER; + case MA_CHANNEL_FRONT_RIGHT_CENTER: return SL_SPEAKER_FRONT_RIGHT_OF_CENTER; + case MA_CHANNEL_BACK_CENTER: return SL_SPEAKER_BACK_CENTER; + case MA_CHANNEL_SIDE_LEFT: return SL_SPEAKER_SIDE_LEFT; + case MA_CHANNEL_SIDE_RIGHT: return SL_SPEAKER_SIDE_RIGHT; + case MA_CHANNEL_TOP_CENTER: return SL_SPEAKER_TOP_CENTER; + case MA_CHANNEL_TOP_FRONT_LEFT: return SL_SPEAKER_TOP_FRONT_LEFT; + case MA_CHANNEL_TOP_FRONT_CENTER: return SL_SPEAKER_TOP_FRONT_CENTER; + case MA_CHANNEL_TOP_FRONT_RIGHT: return SL_SPEAKER_TOP_FRONT_RIGHT; + case MA_CHANNEL_TOP_BACK_LEFT: return SL_SPEAKER_TOP_BACK_LEFT; + case MA_CHANNEL_TOP_BACK_CENTER: return SL_SPEAKER_TOP_BACK_CENTER; + case MA_CHANNEL_TOP_BACK_RIGHT: return SL_SPEAKER_TOP_BACK_RIGHT; + default: return 0; + } +} + +/* Converts a channel mapping to an OpenSL-style channel mask. */ +static SLuint32 ma_channel_map_to_channel_mask__opensl(const ma_channel* pChannelMap, ma_uint32 channels) +{ + SLuint32 channelMask = 0; + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; ++iChannel) { + channelMask |= ma_channel_id_to_opensl(pChannelMap[iChannel]); + } + + return channelMask; +} + +/* Converts an OpenSL-style channel mask to a miniaudio channel map. */ +static void ma_channel_mask_to_channel_map__opensl(SLuint32 channelMask, ma_uint32 channels, ma_channel* pChannelMap) +{ + if (channels == 1 && channelMask == 0) { + pChannelMap[0] = MA_CHANNEL_MONO; + } else if (channels == 2 && channelMask == 0) { + pChannelMap[0] = MA_CHANNEL_FRONT_LEFT; + pChannelMap[1] = MA_CHANNEL_FRONT_RIGHT; + } else { + if (channels == 1 && (channelMask & SL_SPEAKER_FRONT_CENTER) != 0) { + pChannelMap[0] = MA_CHANNEL_MONO; + } else { + /* Just iterate over each bit. */ + ma_uint32 iChannel = 0; + ma_uint32 iBit; + for (iBit = 0; iBit < 32 && iChannel < channels; ++iBit) { + SLuint32 bitValue = (channelMask & (1UL << iBit)); + if (bitValue != 0) { + /* The bit is set. */ + pChannelMap[iChannel] = ma_channel_id_to_ma__opensl(bitValue); + iChannel += 1; + } + } + } + } +} + +static SLuint32 ma_round_to_standard_sample_rate__opensl(SLuint32 samplesPerSec) +{ + if (samplesPerSec <= SL_SAMPLINGRATE_8) { + return SL_SAMPLINGRATE_8; + } + if (samplesPerSec <= SL_SAMPLINGRATE_11_025) { + return SL_SAMPLINGRATE_11_025; + } + if (samplesPerSec <= SL_SAMPLINGRATE_12) { + return SL_SAMPLINGRATE_12; + } + if (samplesPerSec <= SL_SAMPLINGRATE_16) { + return SL_SAMPLINGRATE_16; + } + if (samplesPerSec <= SL_SAMPLINGRATE_22_05) { + return SL_SAMPLINGRATE_22_05; + } + if (samplesPerSec <= SL_SAMPLINGRATE_24) { + return SL_SAMPLINGRATE_24; + } + if (samplesPerSec <= SL_SAMPLINGRATE_32) { + return SL_SAMPLINGRATE_32; + } + if (samplesPerSec <= SL_SAMPLINGRATE_44_1) { + return SL_SAMPLINGRATE_44_1; + } + if (samplesPerSec <= SL_SAMPLINGRATE_48) { + return SL_SAMPLINGRATE_48; + } + + /* Android doesn't support more than 48000. */ +#ifndef MA_ANDROID + if (samplesPerSec <= SL_SAMPLINGRATE_64) { + return SL_SAMPLINGRATE_64; + } + if (samplesPerSec <= SL_SAMPLINGRATE_88_2) { + return SL_SAMPLINGRATE_88_2; + } + if (samplesPerSec <= SL_SAMPLINGRATE_96) { + return SL_SAMPLINGRATE_96; + } + if (samplesPerSec <= SL_SAMPLINGRATE_192) { + return SL_SAMPLINGRATE_192; + } +#endif + + return SL_SAMPLINGRATE_16; +} + + +static SLint32 ma_to_stream_type__opensl(ma_opensl_stream_type streamType) +{ + switch (streamType) { + case ma_opensl_stream_type_voice: return SL_ANDROID_STREAM_VOICE; + case ma_opensl_stream_type_system: return SL_ANDROID_STREAM_SYSTEM; + case ma_opensl_stream_type_ring: return SL_ANDROID_STREAM_RING; + case ma_opensl_stream_type_media: return SL_ANDROID_STREAM_MEDIA; + case ma_opensl_stream_type_alarm: return SL_ANDROID_STREAM_ALARM; + case ma_opensl_stream_type_notification: return SL_ANDROID_STREAM_NOTIFICATION; + default: break; + } + + return SL_ANDROID_STREAM_VOICE; +} + +static SLint32 ma_to_recording_preset__opensl(ma_opensl_recording_preset recordingPreset) +{ + switch (recordingPreset) { + case ma_opensl_recording_preset_generic: return SL_ANDROID_RECORDING_PRESET_GENERIC; + case ma_opensl_recording_preset_camcorder: return SL_ANDROID_RECORDING_PRESET_CAMCORDER; + case ma_opensl_recording_preset_voice_recognition: return SL_ANDROID_RECORDING_PRESET_VOICE_RECOGNITION; + case ma_opensl_recording_preset_voice_communication: return SL_ANDROID_RECORDING_PRESET_VOICE_COMMUNICATION; + case ma_opensl_recording_preset_voice_unprocessed: return SL_ANDROID_RECORDING_PRESET_UNPROCESSED; + default: break; + } + + return SL_ANDROID_RECORDING_PRESET_NONE; +} + + +static ma_result ma_context_enumerate_devices__opensl(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + ma_bool32 cbResult; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + MA_ASSERT(g_maOpenSLInitCounter > 0); /* <-- If you trigger this it means you've either not initialized the context, or you've uninitialized it and then attempted to enumerate devices. */ + if (g_maOpenSLInitCounter == 0) { + return MA_INVALID_OPERATION; + } + + /* + TODO: Test Me. + + This is currently untested, so for now we are just returning default devices. + */ +#if 0 && !defined(MA_ANDROID) + ma_bool32 isTerminated = MA_FALSE; + + SLuint32 pDeviceIDs[128]; + SLint32 deviceCount = sizeof(pDeviceIDs) / sizeof(pDeviceIDs[0]); + + SLAudioIODeviceCapabilitiesItf deviceCaps; + SLresult resultSL = (*g_maEngineObjectSL)->GetInterface(g_maEngineObjectSL, (SLInterfaceID)pContext->opensl.SL_IID_AUDIOIODEVICECAPABILITIES, &deviceCaps); + if (resultSL != SL_RESULT_SUCCESS) { + /* The interface may not be supported so just report a default device. */ + goto return_default_device; + } + + /* Playback */ + if (!isTerminated) { + resultSL = (*deviceCaps)->GetAvailableAudioOutputs(deviceCaps, &deviceCount, pDeviceIDs); + if (resultSL != SL_RESULT_SUCCESS) { + return ma_result_from_OpenSL(resultSL); + } + + for (SLint32 iDevice = 0; iDevice < deviceCount; ++iDevice) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + deviceInfo.id.opensl = pDeviceIDs[iDevice]; + + SLAudioOutputDescriptor desc; + resultSL = (*deviceCaps)->QueryAudioOutputCapabilities(deviceCaps, deviceInfo.id.opensl, &desc); + if (resultSL == SL_RESULT_SUCCESS) { + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), (const char*)desc.pDeviceName, (size_t)-1); + + ma_bool32 cbResult = callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + if (cbResult == MA_FALSE) { + isTerminated = MA_TRUE; + break; + } + } + } + } + + /* Capture */ + if (!isTerminated) { + resultSL = (*deviceCaps)->GetAvailableAudioInputs(deviceCaps, &deviceCount, pDeviceIDs); + if (resultSL != SL_RESULT_SUCCESS) { + return ma_result_from_OpenSL(resultSL); + } + + for (SLint32 iDevice = 0; iDevice < deviceCount; ++iDevice) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + deviceInfo.id.opensl = pDeviceIDs[iDevice]; + + SLAudioInputDescriptor desc; + resultSL = (*deviceCaps)->QueryAudioInputCapabilities(deviceCaps, deviceInfo.id.opensl, &desc); + if (resultSL == SL_RESULT_SUCCESS) { + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), (const char*)desc.deviceName, (size_t)-1); + + ma_bool32 cbResult = callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + if (cbResult == MA_FALSE) { + isTerminated = MA_TRUE; + break; + } + } + } + } + + return MA_SUCCESS; +#else + goto return_default_device; +#endif + +return_default_device:; + cbResult = MA_TRUE; + + /* Playback. */ + if (cbResult) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + deviceInfo.id.opensl = SL_DEFAULTDEVICEID_AUDIOOUTPUT; + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + cbResult = callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + } + + /* Capture. */ + if (cbResult) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + deviceInfo.id.opensl = SL_DEFAULTDEVICEID_AUDIOINPUT; + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + cbResult = callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + } + + return MA_SUCCESS; +} + +static void ma_context_add_data_format_ex__opensl(ma_context* pContext, ma_format format, ma_uint32 channels, ma_uint32 sampleRate, ma_device_info* pDeviceInfo) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pDeviceInfo != NULL); + + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].format = format; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].channels = channels; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].sampleRate = sampleRate; + pDeviceInfo->nativeDataFormats[pDeviceInfo->nativeDataFormatCount].flags = 0; + pDeviceInfo->nativeDataFormatCount += 1; +} + +static void ma_context_add_data_format__opensl(ma_context* pContext, ma_format format, ma_device_info* pDeviceInfo) +{ + ma_uint32 minChannels = 1; + ma_uint32 maxChannels = 2; + ma_uint32 minSampleRate = (ma_uint32)ma_standard_sample_rate_8000; + ma_uint32 maxSampleRate = (ma_uint32)ma_standard_sample_rate_48000; + ma_uint32 iChannel; + ma_uint32 iSampleRate; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(pDeviceInfo != NULL); + + /* + Each sample format can support mono and stereo, and we'll support a small subset of standard + rates (up to 48000). A better solution would be to somehow find a native sample rate. + */ + for (iChannel = minChannels; iChannel < maxChannels; iChannel += 1) { + for (iSampleRate = 0; iSampleRate < ma_countof(g_maStandardSampleRatePriorities); iSampleRate += 1) { + ma_uint32 standardSampleRate = g_maStandardSampleRatePriorities[iSampleRate]; + if (standardSampleRate >= minSampleRate && standardSampleRate <= maxSampleRate) { + ma_context_add_data_format_ex__opensl(pContext, format, iChannel, standardSampleRate, pDeviceInfo); + } + } + } +} + +static ma_result ma_context_get_device_info__opensl(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + MA_ASSERT(pContext != NULL); + + MA_ASSERT(g_maOpenSLInitCounter > 0); /* <-- If you trigger this it means you've either not initialized the context, or you've uninitialized it and then attempted to get device info. */ + if (g_maOpenSLInitCounter == 0) { + return MA_INVALID_OPERATION; + } + + /* + TODO: Test Me. + + This is currently untested, so for now we are just returning default devices. + */ +#if 0 && !defined(MA_ANDROID) + SLAudioIODeviceCapabilitiesItf deviceCaps; + SLresult resultSL = (*g_maEngineObjectSL)->GetInterface(g_maEngineObjectSL, (SLInterfaceID)pContext->opensl.SL_IID_AUDIOIODEVICECAPABILITIES, &deviceCaps); + if (resultSL != SL_RESULT_SUCCESS) { + /* The interface may not be supported so just report a default device. */ + goto return_default_device; + } + + if (deviceType == ma_device_type_playback) { + SLAudioOutputDescriptor desc; + resultSL = (*deviceCaps)->QueryAudioOutputCapabilities(deviceCaps, pDeviceID->opensl, &desc); + if (resultSL != SL_RESULT_SUCCESS) { + return ma_result_from_OpenSL(resultSL); + } + + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), (const char*)desc.pDeviceName, (size_t)-1); + } else { + SLAudioInputDescriptor desc; + resultSL = (*deviceCaps)->QueryAudioInputCapabilities(deviceCaps, pDeviceID->opensl, &desc); + if (resultSL != SL_RESULT_SUCCESS) { + return ma_result_from_OpenSL(resultSL); + } + + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), (const char*)desc.deviceName, (size_t)-1); + } + + goto return_detailed_info; +#else + goto return_default_device; +#endif + +return_default_device: + if (pDeviceID != NULL) { + if ((deviceType == ma_device_type_playback && pDeviceID->opensl != SL_DEFAULTDEVICEID_AUDIOOUTPUT) || + (deviceType == ma_device_type_capture && pDeviceID->opensl != SL_DEFAULTDEVICEID_AUDIOINPUT)) { + return MA_NO_DEVICE; /* Don't know the device. */ + } + } + + /* ID and Name / Description */ + if (deviceType == ma_device_type_playback) { + pDeviceInfo->id.opensl = SL_DEFAULTDEVICEID_AUDIOOUTPUT; + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + } else { + pDeviceInfo->id.opensl = SL_DEFAULTDEVICEID_AUDIOINPUT; + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + } + + pDeviceInfo->isDefault = MA_TRUE; + + goto return_detailed_info; + + +return_detailed_info: + + /* + For now we're just outputting a set of values that are supported by the API but not necessarily supported + by the device natively. Later on we should work on this so that it more closely reflects the device's + actual native format. + */ + pDeviceInfo->nativeDataFormatCount = 0; +#if defined(MA_ANDROID) && __ANDROID_API__ >= 21 + ma_context_add_data_format__opensl(pContext, ma_format_f32, pDeviceInfo); +#endif + ma_context_add_data_format__opensl(pContext, ma_format_s16, pDeviceInfo); + ma_context_add_data_format__opensl(pContext, ma_format_u8, pDeviceInfo); + + return MA_SUCCESS; +} + + +#ifdef MA_ANDROID +/*void ma_buffer_queue_callback_capture__opensl_android(SLAndroidSimpleBufferQueueItf pBufferQueue, SLuint32 eventFlags, const void* pBuffer, SLuint32 bufferSize, SLuint32 dataUsed, void* pContext)*/ +static void ma_buffer_queue_callback_capture__opensl_android(SLAndroidSimpleBufferQueueItf pBufferQueue, void* pUserData) +{ + ma_device* pDevice = (ma_device*)pUserData; + size_t periodSizeInBytes; + ma_uint8* pBuffer; + SLresult resultSL; + + MA_ASSERT(pDevice != NULL); + + (void)pBufferQueue; + + /* + For now, don't do anything unless the buffer was fully processed. From what I can tell, it looks like + OpenSL|ES 1.1 improves on buffer queues to the point that we could much more intelligently handle this, + but unfortunately it looks like Android is only supporting OpenSL|ES 1.0.1 for now :( + */ + + /* Don't do anything if the device is not started. */ + if (ma_device_get_state(pDevice) != ma_device_state_started) { + return; + } + + /* Don't do anything if the device is being drained. */ + if (pDevice->opensl.isDrainingCapture) { + return; + } + + periodSizeInBytes = pDevice->capture.internalPeriodSizeInFrames * ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels); + pBuffer = pDevice->opensl.pBufferCapture + (pDevice->opensl.currentBufferIndexCapture * periodSizeInBytes); + + ma_device_handle_backend_data_callback(pDevice, NULL, pBuffer, pDevice->capture.internalPeriodSizeInFrames); + + resultSL = MA_OPENSL_BUFFERQUEUE(pDevice->opensl.pBufferQueueCapture)->Enqueue((SLAndroidSimpleBufferQueueItf)pDevice->opensl.pBufferQueueCapture, pBuffer, periodSizeInBytes); + if (resultSL != SL_RESULT_SUCCESS) { + return; + } + + pDevice->opensl.currentBufferIndexCapture = (pDevice->opensl.currentBufferIndexCapture + 1) % pDevice->capture.internalPeriods; +} + +static void ma_buffer_queue_callback_playback__opensl_android(SLAndroidSimpleBufferQueueItf pBufferQueue, void* pUserData) +{ + ma_device* pDevice = (ma_device*)pUserData; + size_t periodSizeInBytes; + ma_uint8* pBuffer; + SLresult resultSL; + + MA_ASSERT(pDevice != NULL); + + (void)pBufferQueue; + + /* Don't do anything if the device is not started. */ + if (ma_device_get_state(pDevice) != ma_device_state_started) { + return; + } + + /* Don't do anything if the device is being drained. */ + if (pDevice->opensl.isDrainingPlayback) { + return; + } + + periodSizeInBytes = pDevice->playback.internalPeriodSizeInFrames * ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels); + pBuffer = pDevice->opensl.pBufferPlayback + (pDevice->opensl.currentBufferIndexPlayback * periodSizeInBytes); + + ma_device_handle_backend_data_callback(pDevice, pBuffer, NULL, pDevice->playback.internalPeriodSizeInFrames); + + resultSL = MA_OPENSL_BUFFERQUEUE(pDevice->opensl.pBufferQueuePlayback)->Enqueue((SLAndroidSimpleBufferQueueItf)pDevice->opensl.pBufferQueuePlayback, pBuffer, periodSizeInBytes); + if (resultSL != SL_RESULT_SUCCESS) { + return; + } + + pDevice->opensl.currentBufferIndexPlayback = (pDevice->opensl.currentBufferIndexPlayback + 1) % pDevice->playback.internalPeriods; +} +#endif + +static ma_result ma_device_uninit__opensl(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + MA_ASSERT(g_maOpenSLInitCounter > 0); /* <-- If you trigger this it means you've either not initialized the context, or you've uninitialized it before uninitializing the device. */ + if (g_maOpenSLInitCounter == 0) { + return MA_INVALID_OPERATION; + } + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + if (pDevice->opensl.pAudioRecorderObj) { + MA_OPENSL_OBJ(pDevice->opensl.pAudioRecorderObj)->Destroy((SLObjectItf)pDevice->opensl.pAudioRecorderObj); + } + + ma_free(pDevice->opensl.pBufferCapture, &pDevice->pContext->allocationCallbacks); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + if (pDevice->opensl.pAudioPlayerObj) { + MA_OPENSL_OBJ(pDevice->opensl.pAudioPlayerObj)->Destroy((SLObjectItf)pDevice->opensl.pAudioPlayerObj); + } + if (pDevice->opensl.pOutputMixObj) { + MA_OPENSL_OBJ(pDevice->opensl.pOutputMixObj)->Destroy((SLObjectItf)pDevice->opensl.pOutputMixObj); + } + + ma_free(pDevice->opensl.pBufferPlayback, &pDevice->pContext->allocationCallbacks); + } + + return MA_SUCCESS; +} + +#if defined(MA_ANDROID) && __ANDROID_API__ >= 21 +typedef SLAndroidDataFormat_PCM_EX ma_SLDataFormat_PCM; +#else +typedef SLDataFormat_PCM ma_SLDataFormat_PCM; +#endif + +static ma_result ma_SLDataFormat_PCM_init__opensl(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, const ma_channel* channelMap, ma_SLDataFormat_PCM* pDataFormat) +{ + /* We need to convert our format/channels/rate so that they aren't set to default. */ + if (format == ma_format_unknown) { + format = MA_DEFAULT_FORMAT; + } + if (channels == 0) { + channels = MA_DEFAULT_CHANNELS; + } + if (sampleRate == 0) { + sampleRate = MA_DEFAULT_SAMPLE_RATE; + } + +#if defined(MA_ANDROID) && __ANDROID_API__ >= 21 + if (format == ma_format_f32) { + pDataFormat->formatType = SL_ANDROID_DATAFORMAT_PCM_EX; + pDataFormat->representation = SL_ANDROID_PCM_REPRESENTATION_FLOAT; + } else { + pDataFormat->formatType = SL_DATAFORMAT_PCM; + } +#else + pDataFormat->formatType = SL_DATAFORMAT_PCM; +#endif + + pDataFormat->numChannels = channels; + ((SLDataFormat_PCM*)pDataFormat)->samplesPerSec = ma_round_to_standard_sample_rate__opensl(sampleRate * 1000); /* In millihertz. Annoyingly, the sample rate variable is named differently between SLAndroidDataFormat_PCM_EX and SLDataFormat_PCM */ + pDataFormat->bitsPerSample = ma_get_bytes_per_sample(format) * 8; + pDataFormat->channelMask = ma_channel_map_to_channel_mask__opensl(channelMap, channels); + pDataFormat->endianness = (ma_is_little_endian()) ? SL_BYTEORDER_LITTLEENDIAN : SL_BYTEORDER_BIGENDIAN; + + /* + Android has a few restrictions on the format as documented here: https://developer.android.com/ndk/guides/audio/opensl-for-android.html + - Only mono and stereo is supported. + - Only u8 and s16 formats are supported. + - Maximum sample rate of 48000. + */ +#ifdef MA_ANDROID + if (pDataFormat->numChannels > 2) { + pDataFormat->numChannels = 2; + } +#if __ANDROID_API__ >= 21 + if (pDataFormat->formatType == SL_ANDROID_DATAFORMAT_PCM_EX) { + /* It's floating point. */ + MA_ASSERT(pDataFormat->representation == SL_ANDROID_PCM_REPRESENTATION_FLOAT); + if (pDataFormat->bitsPerSample > 32) { + pDataFormat->bitsPerSample = 32; + } + } else { + if (pDataFormat->bitsPerSample > 16) { + pDataFormat->bitsPerSample = 16; + } + } +#else + if (pDataFormat->bitsPerSample > 16) { + pDataFormat->bitsPerSample = 16; + } +#endif + if (((SLDataFormat_PCM*)pDataFormat)->samplesPerSec > SL_SAMPLINGRATE_48) { + ((SLDataFormat_PCM*)pDataFormat)->samplesPerSec = SL_SAMPLINGRATE_48; + } +#endif + + pDataFormat->containerSize = pDataFormat->bitsPerSample; /* Always tightly packed for now. */ + + return MA_SUCCESS; +} + +static ma_result ma_deconstruct_SLDataFormat_PCM__opensl(ma_SLDataFormat_PCM* pDataFormat, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + ma_bool32 isFloatingPoint = MA_FALSE; +#if defined(MA_ANDROID) && __ANDROID_API__ >= 21 + if (pDataFormat->formatType == SL_ANDROID_DATAFORMAT_PCM_EX) { + MA_ASSERT(pDataFormat->representation == SL_ANDROID_PCM_REPRESENTATION_FLOAT); + isFloatingPoint = MA_TRUE; + } +#endif + if (isFloatingPoint) { + if (pDataFormat->bitsPerSample == 32) { + *pFormat = ma_format_f32; + } + } else { + if (pDataFormat->bitsPerSample == 8) { + *pFormat = ma_format_u8; + } else if (pDataFormat->bitsPerSample == 16) { + *pFormat = ma_format_s16; + } else if (pDataFormat->bitsPerSample == 24) { + *pFormat = ma_format_s24; + } else if (pDataFormat->bitsPerSample == 32) { + *pFormat = ma_format_s32; + } + } + + *pChannels = pDataFormat->numChannels; + *pSampleRate = ((SLDataFormat_PCM*)pDataFormat)->samplesPerSec / 1000; + ma_channel_mask_to_channel_map__opensl(pDataFormat->channelMask, ma_min(pDataFormat->numChannels, channelMapCap), pChannelMap); + + return MA_SUCCESS; +} + +static ma_result ma_device_init__opensl(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ +#ifdef MA_ANDROID + SLDataLocator_AndroidSimpleBufferQueue queue; + SLresult resultSL; + size_t bufferSizeInBytes; + SLInterfaceID itfIDs[2]; + const SLboolean itfIDsRequired[] = { + SL_BOOLEAN_TRUE, /* SL_IID_ANDROIDSIMPLEBUFFERQUEUE */ + SL_BOOLEAN_FALSE /* SL_IID_ANDROIDCONFIGURATION */ + }; +#endif + + MA_ASSERT(g_maOpenSLInitCounter > 0); /* <-- If you trigger this it means you've either not initialized the context, or you've uninitialized it and then attempted to initialize a new device. */ + if (g_maOpenSLInitCounter == 0) { + return MA_INVALID_OPERATION; + } + + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + /* + For now, only supporting Android implementations of OpenSL|ES since that's the only one I've + been able to test with and I currently depend on Android-specific extensions (simple buffer + queues). + */ +#ifdef MA_ANDROID + itfIDs[0] = (SLInterfaceID)pDevice->pContext->opensl.SL_IID_ANDROIDSIMPLEBUFFERQUEUE; + itfIDs[1] = (SLInterfaceID)pDevice->pContext->opensl.SL_IID_ANDROIDCONFIGURATION; + + /* No exclusive mode with OpenSL|ES. */ + if (((pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) && pDescriptorPlayback->shareMode == ma_share_mode_exclusive) || + ((pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) && pDescriptorCapture->shareMode == ma_share_mode_exclusive)) { + return MA_SHARE_MODE_NOT_SUPPORTED; + } + + /* Now we can start initializing the device properly. */ + MA_ASSERT(pDevice != NULL); + MA_ZERO_OBJECT(&pDevice->opensl); + + queue.locatorType = SL_DATALOCATOR_ANDROIDSIMPLEBUFFERQUEUE; + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + ma_SLDataFormat_PCM pcm; + SLDataLocator_IODevice locatorDevice; + SLDataSource source; + SLDataSink sink; + SLAndroidConfigurationItf pRecorderConfig; + + ma_SLDataFormat_PCM_init__opensl(pDescriptorCapture->format, pDescriptorCapture->channels, pDescriptorCapture->sampleRate, pDescriptorCapture->channelMap, &pcm); + + locatorDevice.locatorType = SL_DATALOCATOR_IODEVICE; + locatorDevice.deviceType = SL_IODEVICE_AUDIOINPUT; + locatorDevice.deviceID = SL_DEFAULTDEVICEID_AUDIOINPUT; /* Must always use the default device with Android. */ + locatorDevice.device = NULL; + + source.pLocator = &locatorDevice; + source.pFormat = NULL; + + queue.numBuffers = pDescriptorCapture->periodCount; + + sink.pLocator = &queue; + sink.pFormat = (SLDataFormat_PCM*)&pcm; + + resultSL = (*g_maEngineSL)->CreateAudioRecorder(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioRecorderObj, &source, &sink, ma_countof(itfIDs), itfIDs, itfIDsRequired); + if (resultSL == SL_RESULT_CONTENT_UNSUPPORTED || resultSL == SL_RESULT_PARAMETER_INVALID) { + /* Unsupported format. Fall back to something safer and try again. If this fails, just abort. */ + pcm.formatType = SL_DATAFORMAT_PCM; + pcm.numChannels = 1; + ((SLDataFormat_PCM*)&pcm)->samplesPerSec = SL_SAMPLINGRATE_16; /* The name of the sample rate variable is different between SLAndroidDataFormat_PCM_EX and SLDataFormat_PCM. */ + pcm.bitsPerSample = 16; + pcm.containerSize = pcm.bitsPerSample; /* Always tightly packed for now. */ + pcm.channelMask = 0; + resultSL = (*g_maEngineSL)->CreateAudioRecorder(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioRecorderObj, &source, &sink, ma_countof(itfIDs), itfIDs, itfIDsRequired); + } + + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to create audio recorder."); + return ma_result_from_OpenSL(resultSL); + } + + + /* Set the recording preset before realizing the player. */ + if (pConfig->opensl.recordingPreset != ma_opensl_recording_preset_default) { + resultSL = MA_OPENSL_OBJ(pDevice->opensl.pAudioRecorderObj)->GetInterface((SLObjectItf)pDevice->opensl.pAudioRecorderObj, (SLInterfaceID)pDevice->pContext->opensl.SL_IID_ANDROIDCONFIGURATION, &pRecorderConfig); + if (resultSL == SL_RESULT_SUCCESS) { + SLint32 recordingPreset = ma_to_recording_preset__opensl(pConfig->opensl.recordingPreset); + resultSL = (*pRecorderConfig)->SetConfiguration(pRecorderConfig, SL_ANDROID_KEY_RECORDING_PRESET, &recordingPreset, sizeof(SLint32)); + if (resultSL != SL_RESULT_SUCCESS) { + /* Failed to set the configuration. Just keep going. */ + } + } + } + + resultSL = MA_OPENSL_OBJ(pDevice->opensl.pAudioRecorderObj)->Realize((SLObjectItf)pDevice->opensl.pAudioRecorderObj, SL_BOOLEAN_FALSE); + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to realize audio recorder."); + return ma_result_from_OpenSL(resultSL); + } + + resultSL = MA_OPENSL_OBJ(pDevice->opensl.pAudioRecorderObj)->GetInterface((SLObjectItf)pDevice->opensl.pAudioRecorderObj, (SLInterfaceID)pDevice->pContext->opensl.SL_IID_RECORD, &pDevice->opensl.pAudioRecorder); + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to retrieve SL_IID_RECORD interface."); + return ma_result_from_OpenSL(resultSL); + } + + resultSL = MA_OPENSL_OBJ(pDevice->opensl.pAudioRecorderObj)->GetInterface((SLObjectItf)pDevice->opensl.pAudioRecorderObj, (SLInterfaceID)pDevice->pContext->opensl.SL_IID_ANDROIDSIMPLEBUFFERQUEUE, &pDevice->opensl.pBufferQueueCapture); + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to retrieve SL_IID_ANDROIDSIMPLEBUFFERQUEUE interface."); + return ma_result_from_OpenSL(resultSL); + } + + resultSL = MA_OPENSL_BUFFERQUEUE(pDevice->opensl.pBufferQueueCapture)->RegisterCallback((SLAndroidSimpleBufferQueueItf)pDevice->opensl.pBufferQueueCapture, ma_buffer_queue_callback_capture__opensl_android, pDevice); + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to register buffer queue callback."); + return ma_result_from_OpenSL(resultSL); + } + + /* The internal format is determined by the "pcm" object. */ + ma_deconstruct_SLDataFormat_PCM__opensl(&pcm, &pDescriptorCapture->format, &pDescriptorCapture->channels, &pDescriptorCapture->sampleRate, pDescriptorCapture->channelMap, ma_countof(pDescriptorCapture->channelMap)); + + /* Buffer. */ + pDescriptorCapture->periodSizeInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptorCapture, pDescriptorCapture->sampleRate, pConfig->performanceProfile); + pDevice->opensl.currentBufferIndexCapture = 0; + + bufferSizeInBytes = pDescriptorCapture->periodSizeInFrames * ma_get_bytes_per_frame(pDescriptorCapture->format, pDescriptorCapture->channels) * pDescriptorCapture->periodCount; + pDevice->opensl.pBufferCapture = (ma_uint8*)ma_calloc(bufferSizeInBytes, &pDevice->pContext->allocationCallbacks); + if (pDevice->opensl.pBufferCapture == NULL) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to allocate memory for data buffer."); + return MA_OUT_OF_MEMORY; + } + MA_ZERO_MEMORY(pDevice->opensl.pBufferCapture, bufferSizeInBytes); + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ma_SLDataFormat_PCM pcm; + SLDataSource source; + SLDataLocator_OutputMix outmixLocator; + SLDataSink sink; + SLAndroidConfigurationItf pPlayerConfig; + + ma_SLDataFormat_PCM_init__opensl(pDescriptorPlayback->format, pDescriptorPlayback->channels, pDescriptorPlayback->sampleRate, pDescriptorPlayback->channelMap, &pcm); + + resultSL = (*g_maEngineSL)->CreateOutputMix(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pOutputMixObj, 0, NULL, NULL); + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to create output mix."); + return ma_result_from_OpenSL(resultSL); + } + + resultSL = MA_OPENSL_OBJ(pDevice->opensl.pOutputMixObj)->Realize((SLObjectItf)pDevice->opensl.pOutputMixObj, SL_BOOLEAN_FALSE); + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to realize output mix object."); + return ma_result_from_OpenSL(resultSL); + } + + resultSL = MA_OPENSL_OBJ(pDevice->opensl.pOutputMixObj)->GetInterface((SLObjectItf)pDevice->opensl.pOutputMixObj, (SLInterfaceID)pDevice->pContext->opensl.SL_IID_OUTPUTMIX, &pDevice->opensl.pOutputMix); + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to retrieve SL_IID_OUTPUTMIX interface."); + return ma_result_from_OpenSL(resultSL); + } + + /* Set the output device. */ + if (pDescriptorPlayback->pDeviceID != NULL) { + SLuint32 deviceID_OpenSL = pDescriptorPlayback->pDeviceID->opensl; + MA_OPENSL_OUTPUTMIX(pDevice->opensl.pOutputMix)->ReRoute((SLOutputMixItf)pDevice->opensl.pOutputMix, 1, &deviceID_OpenSL); + } + + queue.numBuffers = pDescriptorPlayback->periodCount; + + source.pLocator = &queue; + source.pFormat = (SLDataFormat_PCM*)&pcm; + + outmixLocator.locatorType = SL_DATALOCATOR_OUTPUTMIX; + outmixLocator.outputMix = (SLObjectItf)pDevice->opensl.pOutputMixObj; + + sink.pLocator = &outmixLocator; + sink.pFormat = NULL; + + resultSL = (*g_maEngineSL)->CreateAudioPlayer(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioPlayerObj, &source, &sink, ma_countof(itfIDs), itfIDs, itfIDsRequired); + if (resultSL == SL_RESULT_CONTENT_UNSUPPORTED || resultSL == SL_RESULT_PARAMETER_INVALID) { + /* Unsupported format. Fall back to something safer and try again. If this fails, just abort. */ + pcm.formatType = SL_DATAFORMAT_PCM; + pcm.numChannels = 2; + ((SLDataFormat_PCM*)&pcm)->samplesPerSec = SL_SAMPLINGRATE_16; + pcm.bitsPerSample = 16; + pcm.containerSize = pcm.bitsPerSample; /* Always tightly packed for now. */ + pcm.channelMask = SL_SPEAKER_FRONT_LEFT | SL_SPEAKER_FRONT_RIGHT; + resultSL = (*g_maEngineSL)->CreateAudioPlayer(g_maEngineSL, (SLObjectItf*)&pDevice->opensl.pAudioPlayerObj, &source, &sink, ma_countof(itfIDs), itfIDs, itfIDsRequired); + } + + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to create audio player."); + return ma_result_from_OpenSL(resultSL); + } + + + /* Set the stream type before realizing the player. */ + if (pConfig->opensl.streamType != ma_opensl_stream_type_default) { + resultSL = MA_OPENSL_OBJ(pDevice->opensl.pAudioPlayerObj)->GetInterface((SLObjectItf)pDevice->opensl.pAudioPlayerObj, (SLInterfaceID)pDevice->pContext->opensl.SL_IID_ANDROIDCONFIGURATION, &pPlayerConfig); + if (resultSL == SL_RESULT_SUCCESS) { + SLint32 streamType = ma_to_stream_type__opensl(pConfig->opensl.streamType); + resultSL = (*pPlayerConfig)->SetConfiguration(pPlayerConfig, SL_ANDROID_KEY_STREAM_TYPE, &streamType, sizeof(SLint32)); + if (resultSL != SL_RESULT_SUCCESS) { + /* Failed to set the configuration. Just keep going. */ + } + } + } + + resultSL = MA_OPENSL_OBJ(pDevice->opensl.pAudioPlayerObj)->Realize((SLObjectItf)pDevice->opensl.pAudioPlayerObj, SL_BOOLEAN_FALSE); + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to realize audio player."); + return ma_result_from_OpenSL(resultSL); + } + + resultSL = MA_OPENSL_OBJ(pDevice->opensl.pAudioPlayerObj)->GetInterface((SLObjectItf)pDevice->opensl.pAudioPlayerObj, (SLInterfaceID)pDevice->pContext->opensl.SL_IID_PLAY, &pDevice->opensl.pAudioPlayer); + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to retrieve SL_IID_PLAY interface."); + return ma_result_from_OpenSL(resultSL); + } + + resultSL = MA_OPENSL_OBJ(pDevice->opensl.pAudioPlayerObj)->GetInterface((SLObjectItf)pDevice->opensl.pAudioPlayerObj, (SLInterfaceID)pDevice->pContext->opensl.SL_IID_ANDROIDSIMPLEBUFFERQUEUE, &pDevice->opensl.pBufferQueuePlayback); + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to retrieve SL_IID_ANDROIDSIMPLEBUFFERQUEUE interface."); + return ma_result_from_OpenSL(resultSL); + } + + resultSL = MA_OPENSL_BUFFERQUEUE(pDevice->opensl.pBufferQueuePlayback)->RegisterCallback((SLAndroidSimpleBufferQueueItf)pDevice->opensl.pBufferQueuePlayback, ma_buffer_queue_callback_playback__opensl_android, pDevice); + if (resultSL != SL_RESULT_SUCCESS) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to register buffer queue callback."); + return ma_result_from_OpenSL(resultSL); + } + + /* The internal format is determined by the "pcm" object. */ + ma_deconstruct_SLDataFormat_PCM__opensl(&pcm, &pDescriptorPlayback->format, &pDescriptorPlayback->channels, &pDescriptorPlayback->sampleRate, pDescriptorPlayback->channelMap, ma_countof(pDescriptorPlayback->channelMap)); + + /* Buffer. */ + pDescriptorPlayback->periodSizeInFrames = ma_calculate_buffer_size_in_frames_from_descriptor(pDescriptorPlayback, pDescriptorPlayback->sampleRate, pConfig->performanceProfile); + pDevice->opensl.currentBufferIndexPlayback = 0; + + bufferSizeInBytes = pDescriptorPlayback->periodSizeInFrames * ma_get_bytes_per_frame(pDescriptorPlayback->format, pDescriptorPlayback->channels) * pDescriptorPlayback->periodCount; + pDevice->opensl.pBufferPlayback = (ma_uint8*)ma_calloc(bufferSizeInBytes, &pDevice->pContext->allocationCallbacks); + if (pDevice->opensl.pBufferPlayback == NULL) { + ma_device_uninit__opensl(pDevice); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to allocate memory for data buffer."); + return MA_OUT_OF_MEMORY; + } + MA_ZERO_MEMORY(pDevice->opensl.pBufferPlayback, bufferSizeInBytes); + } + + return MA_SUCCESS; +#else + return MA_NO_BACKEND; /* Non-Android implementations are not supported. */ +#endif +} + +static ma_result ma_device_start__opensl(ma_device* pDevice) +{ + SLresult resultSL; + size_t periodSizeInBytes; + ma_uint32 iPeriod; + + MA_ASSERT(pDevice != NULL); + + MA_ASSERT(g_maOpenSLInitCounter > 0); /* <-- If you trigger this it means you've either not initialized the context, or you've uninitialized it and then attempted to start the device. */ + if (g_maOpenSLInitCounter == 0) { + return MA_INVALID_OPERATION; + } + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + resultSL = MA_OPENSL_RECORD(pDevice->opensl.pAudioRecorder)->SetRecordState((SLRecordItf)pDevice->opensl.pAudioRecorder, SL_RECORDSTATE_RECORDING); + if (resultSL != SL_RESULT_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to start internal capture device."); + return ma_result_from_OpenSL(resultSL); + } + + periodSizeInBytes = pDevice->capture.internalPeriodSizeInFrames * ma_get_bytes_per_frame(pDevice->capture.internalFormat, pDevice->capture.internalChannels); + for (iPeriod = 0; iPeriod < pDevice->capture.internalPeriods; ++iPeriod) { + resultSL = MA_OPENSL_BUFFERQUEUE(pDevice->opensl.pBufferQueueCapture)->Enqueue((SLAndroidSimpleBufferQueueItf)pDevice->opensl.pBufferQueueCapture, pDevice->opensl.pBufferCapture + (periodSizeInBytes * iPeriod), periodSizeInBytes); + if (resultSL != SL_RESULT_SUCCESS) { + MA_OPENSL_RECORD(pDevice->opensl.pAudioRecorder)->SetRecordState((SLRecordItf)pDevice->opensl.pAudioRecorder, SL_RECORDSTATE_STOPPED); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to enqueue buffer for capture device."); + return ma_result_from_OpenSL(resultSL); + } + } + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + resultSL = MA_OPENSL_PLAY(pDevice->opensl.pAudioPlayer)->SetPlayState((SLPlayItf)pDevice->opensl.pAudioPlayer, SL_PLAYSTATE_PLAYING); + if (resultSL != SL_RESULT_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to start internal playback device."); + return ma_result_from_OpenSL(resultSL); + } + + /* In playback mode (no duplex) we need to load some initial buffers. In duplex mode we need to enqueue silent buffers. */ + if (pDevice->type == ma_device_type_duplex) { + MA_ZERO_MEMORY(pDevice->opensl.pBufferPlayback, pDevice->playback.internalPeriodSizeInFrames * pDevice->playback.internalPeriods * ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels)); + } else { + ma_device__read_frames_from_client(pDevice, pDevice->playback.internalPeriodSizeInFrames * pDevice->playback.internalPeriods, pDevice->opensl.pBufferPlayback); + } + + periodSizeInBytes = pDevice->playback.internalPeriodSizeInFrames * ma_get_bytes_per_frame(pDevice->playback.internalFormat, pDevice->playback.internalChannels); + for (iPeriod = 0; iPeriod < pDevice->playback.internalPeriods; ++iPeriod) { + resultSL = MA_OPENSL_BUFFERQUEUE(pDevice->opensl.pBufferQueuePlayback)->Enqueue((SLAndroidSimpleBufferQueueItf)pDevice->opensl.pBufferQueuePlayback, pDevice->opensl.pBufferPlayback + (periodSizeInBytes * iPeriod), periodSizeInBytes); + if (resultSL != SL_RESULT_SUCCESS) { + MA_OPENSL_PLAY(pDevice->opensl.pAudioPlayer)->SetPlayState((SLPlayItf)pDevice->opensl.pAudioPlayer, SL_PLAYSTATE_STOPPED); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to enqueue buffer for playback device."); + return ma_result_from_OpenSL(resultSL); + } + } + } + + return MA_SUCCESS; +} + +static ma_result ma_device_drain__opensl(ma_device* pDevice, ma_device_type deviceType) +{ + SLAndroidSimpleBufferQueueItf pBufferQueue; + + MA_ASSERT(deviceType == ma_device_type_capture || deviceType == ma_device_type_playback); + + if (pDevice->type == ma_device_type_capture) { + pBufferQueue = (SLAndroidSimpleBufferQueueItf)pDevice->opensl.pBufferQueueCapture; + pDevice->opensl.isDrainingCapture = MA_TRUE; + } else { + pBufferQueue = (SLAndroidSimpleBufferQueueItf)pDevice->opensl.pBufferQueuePlayback; + pDevice->opensl.isDrainingPlayback = MA_TRUE; + } + + for (;;) { + SLAndroidSimpleBufferQueueState state; + + MA_OPENSL_BUFFERQUEUE(pBufferQueue)->GetState(pBufferQueue, &state); + if (state.count == 0) { + break; + } + + ma_sleep(10); + } + + if (pDevice->type == ma_device_type_capture) { + pDevice->opensl.isDrainingCapture = MA_FALSE; + } else { + pDevice->opensl.isDrainingPlayback = MA_FALSE; + } + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__opensl(ma_device* pDevice) +{ + SLresult resultSL; + + MA_ASSERT(pDevice != NULL); + + MA_ASSERT(g_maOpenSLInitCounter > 0); /* <-- If you trigger this it means you've either not initialized the context, or you've uninitialized it before stopping/uninitializing the device. */ + if (g_maOpenSLInitCounter == 0) { + return MA_INVALID_OPERATION; + } + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ma_device_drain__opensl(pDevice, ma_device_type_capture); + + resultSL = MA_OPENSL_RECORD(pDevice->opensl.pAudioRecorder)->SetRecordState((SLRecordItf)pDevice->opensl.pAudioRecorder, SL_RECORDSTATE_STOPPED); + if (resultSL != SL_RESULT_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to stop internal capture device."); + return ma_result_from_OpenSL(resultSL); + } + + MA_OPENSL_BUFFERQUEUE(pDevice->opensl.pBufferQueueCapture)->Clear((SLAndroidSimpleBufferQueueItf)pDevice->opensl.pBufferQueueCapture); + } + + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ma_device_drain__opensl(pDevice, ma_device_type_playback); + + resultSL = MA_OPENSL_PLAY(pDevice->opensl.pAudioPlayer)->SetPlayState((SLPlayItf)pDevice->opensl.pAudioPlayer, SL_PLAYSTATE_STOPPED); + if (resultSL != SL_RESULT_SUCCESS) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[OpenSL] Failed to stop internal playback device."); + return ma_result_from_OpenSL(resultSL); + } + + MA_OPENSL_BUFFERQUEUE(pDevice->opensl.pBufferQueuePlayback)->Clear((SLAndroidSimpleBufferQueueItf)pDevice->opensl.pBufferQueuePlayback); + } + + /* Make sure the client is aware that the device has stopped. There may be an OpenSL|ES callback for this, but I haven't found it. */ + ma_device__on_notification_stopped(pDevice); + + return MA_SUCCESS; +} + + +static ma_result ma_context_uninit__opensl(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_opensl); + (void)pContext; + + /* Uninit global data. */ + ma_spinlock_lock(&g_maOpenSLSpinlock); + { + MA_ASSERT(g_maOpenSLInitCounter > 0); /* If you've triggered this, it means you have ma_context_init/uninit mismatch. Each successful call to ma_context_init() must be matched up with a call to ma_context_uninit(). */ + + g_maOpenSLInitCounter -= 1; + if (g_maOpenSLInitCounter == 0) { + (*g_maEngineObjectSL)->Destroy(g_maEngineObjectSL); + } + } + ma_spinlock_unlock(&g_maOpenSLSpinlock); + + return MA_SUCCESS; +} + +static ma_result ma_dlsym_SLInterfaceID__opensl(ma_context* pContext, const char* pName, ma_handle* pHandle) +{ + /* We need to return an error if the symbol cannot be found. This is important because there have been reports that some symbols do not exist. */ + ma_handle* p = (ma_handle*)ma_dlsym(ma_context_get_log(pContext), pContext->opensl.libOpenSLES, pName); + if (p == NULL) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_INFO, "[OpenSL] Cannot find symbol %s", pName); + return MA_NO_BACKEND; + } + + *pHandle = *p; + return MA_SUCCESS; +} + +static ma_result ma_context_init_engine_nolock__opensl(ma_context* pContext) +{ + g_maOpenSLInitCounter += 1; + if (g_maOpenSLInitCounter == 1) { + SLresult resultSL; + + resultSL = ((ma_slCreateEngine_proc)pContext->opensl.slCreateEngine)(&g_maEngineObjectSL, 0, NULL, 0, NULL, NULL); + if (resultSL != SL_RESULT_SUCCESS) { + g_maOpenSLInitCounter -= 1; + return ma_result_from_OpenSL(resultSL); + } + + (*g_maEngineObjectSL)->Realize(g_maEngineObjectSL, SL_BOOLEAN_FALSE); + + resultSL = (*g_maEngineObjectSL)->GetInterface(g_maEngineObjectSL, (SLInterfaceID)pContext->opensl.SL_IID_ENGINE, &g_maEngineSL); + if (resultSL != SL_RESULT_SUCCESS) { + (*g_maEngineObjectSL)->Destroy(g_maEngineObjectSL); + g_maOpenSLInitCounter -= 1; + return ma_result_from_OpenSL(resultSL); + } + } + + return MA_SUCCESS; +} + +static ma_result ma_context_init__opensl(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ + ma_result result; + +#if !defined(MA_NO_RUNTIME_LINKING) + size_t i; + const char* libOpenSLESNames[] = { + "libOpenSLES.so" + }; +#endif + + MA_ASSERT(pContext != NULL); + + (void)pConfig; + +#if !defined(MA_NO_RUNTIME_LINKING) + /* + Dynamically link against libOpenSLES.so. I have now had multiple reports that SL_IID_ANDROIDSIMPLEBUFFERQUEUE cannot be found. One + report was happening at compile time and another at runtime. To try working around this, I'm going to link to libOpenSLES at runtime + and extract the symbols rather than reference them directly. This should, hopefully, fix these issues as the compiler won't see any + references to the symbols and will hopefully skip the checks. + */ + for (i = 0; i < ma_countof(libOpenSLESNames); i += 1) { + pContext->opensl.libOpenSLES = ma_dlopen(ma_context_get_log(pContext), libOpenSLESNames[i]); + if (pContext->opensl.libOpenSLES != NULL) { + break; + } + } + + if (pContext->opensl.libOpenSLES == NULL) { + ma_log_post(ma_context_get_log(pContext), MA_LOG_LEVEL_INFO, "[OpenSL] Could not find libOpenSLES.so"); + return MA_NO_BACKEND; + } + + result = ma_dlsym_SLInterfaceID__opensl(pContext, "SL_IID_ENGINE", &pContext->opensl.SL_IID_ENGINE); + if (result != MA_SUCCESS) { + ma_dlclose(ma_context_get_log(pContext), pContext->opensl.libOpenSLES); + return result; + } + + result = ma_dlsym_SLInterfaceID__opensl(pContext, "SL_IID_AUDIOIODEVICECAPABILITIES", &pContext->opensl.SL_IID_AUDIOIODEVICECAPABILITIES); + if (result != MA_SUCCESS) { + ma_dlclose(ma_context_get_log(pContext), pContext->opensl.libOpenSLES); + return result; + } + + result = ma_dlsym_SLInterfaceID__opensl(pContext, "SL_IID_ANDROIDSIMPLEBUFFERQUEUE", &pContext->opensl.SL_IID_ANDROIDSIMPLEBUFFERQUEUE); + if (result != MA_SUCCESS) { + ma_dlclose(ma_context_get_log(pContext), pContext->opensl.libOpenSLES); + return result; + } + + result = ma_dlsym_SLInterfaceID__opensl(pContext, "SL_IID_RECORD", &pContext->opensl.SL_IID_RECORD); + if (result != MA_SUCCESS) { + ma_dlclose(ma_context_get_log(pContext), pContext->opensl.libOpenSLES); + return result; + } + + result = ma_dlsym_SLInterfaceID__opensl(pContext, "SL_IID_PLAY", &pContext->opensl.SL_IID_PLAY); + if (result != MA_SUCCESS) { + ma_dlclose(ma_context_get_log(pContext), pContext->opensl.libOpenSLES); + return result; + } + + result = ma_dlsym_SLInterfaceID__opensl(pContext, "SL_IID_OUTPUTMIX", &pContext->opensl.SL_IID_OUTPUTMIX); + if (result != MA_SUCCESS) { + ma_dlclose(ma_context_get_log(pContext), pContext->opensl.libOpenSLES); + return result; + } + + result = ma_dlsym_SLInterfaceID__opensl(pContext, "SL_IID_ANDROIDCONFIGURATION", &pContext->opensl.SL_IID_ANDROIDCONFIGURATION); + if (result != MA_SUCCESS) { + ma_dlclose(ma_context_get_log(pContext), pContext->opensl.libOpenSLES); + return result; + } + + pContext->opensl.slCreateEngine = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->opensl.libOpenSLES, "slCreateEngine"); + if (pContext->opensl.slCreateEngine == NULL) { + ma_dlclose(ma_context_get_log(pContext), pContext->opensl.libOpenSLES); + ma_log_post(ma_context_get_log(pContext), MA_LOG_LEVEL_INFO, "[OpenSL] Cannot find symbol slCreateEngine."); + return MA_NO_BACKEND; + } +#else + pContext->opensl.SL_IID_ENGINE = (ma_handle)SL_IID_ENGINE; + pContext->opensl.SL_IID_AUDIOIODEVICECAPABILITIES = (ma_handle)SL_IID_AUDIOIODEVICECAPABILITIES; + pContext->opensl.SL_IID_ANDROIDSIMPLEBUFFERQUEUE = (ma_handle)SL_IID_ANDROIDSIMPLEBUFFERQUEUE; + pContext->opensl.SL_IID_RECORD = (ma_handle)SL_IID_RECORD; + pContext->opensl.SL_IID_PLAY = (ma_handle)SL_IID_PLAY; + pContext->opensl.SL_IID_OUTPUTMIX = (ma_handle)SL_IID_OUTPUTMIX; + pContext->opensl.SL_IID_ANDROIDCONFIGURATION = (ma_handle)SL_IID_ANDROIDCONFIGURATION; + pContext->opensl.slCreateEngine = (ma_proc)slCreateEngine; +#endif + + + /* Initialize global data first if applicable. */ + ma_spinlock_lock(&g_maOpenSLSpinlock); + { + result = ma_context_init_engine_nolock__opensl(pContext); + } + ma_spinlock_unlock(&g_maOpenSLSpinlock); + + if (result != MA_SUCCESS) { + ma_dlclose(ma_context_get_log(pContext), pContext->opensl.libOpenSLES); + ma_log_post(ma_context_get_log(pContext), MA_LOG_LEVEL_INFO, "[OpenSL] Failed to initialize OpenSL engine."); + return result; + } + + pCallbacks->onContextInit = ma_context_init__opensl; + pCallbacks->onContextUninit = ma_context_uninit__opensl; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__opensl; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__opensl; + pCallbacks->onDeviceInit = ma_device_init__opensl; + pCallbacks->onDeviceUninit = ma_device_uninit__opensl; + pCallbacks->onDeviceStart = ma_device_start__opensl; + pCallbacks->onDeviceStop = ma_device_stop__opensl; + pCallbacks->onDeviceRead = NULL; /* Not needed because OpenSL|ES is asynchronous. */ + pCallbacks->onDeviceWrite = NULL; /* Not needed because OpenSL|ES is asynchronous. */ + pCallbacks->onDeviceDataLoop = NULL; /* Not needed because OpenSL|ES is asynchronous. */ + + return MA_SUCCESS; +} +#endif /* OpenSL|ES */ + + +/****************************************************************************** + +Web Audio Backend + +******************************************************************************/ +#ifdef MA_HAS_WEBAUDIO +#include + +#if (__EMSCRIPTEN_major__ > 3) || (__EMSCRIPTEN_major__ == 3 && (__EMSCRIPTEN_minor__ > 1 || (__EMSCRIPTEN_minor__ == 1 && __EMSCRIPTEN_tiny__ >= 32))) + #include + #define MA_SUPPORT_AUDIO_WORKLETS + + #if (__EMSCRIPTEN_major__ > 3) || (__EMSCRIPTEN_major__ == 3 && (__EMSCRIPTEN_minor__ > 1 || (__EMSCRIPTEN_minor__ == 1 && __EMSCRIPTEN_tiny__ >= 70))) + #define MA_SUPPORT_AUDIO_WORKLETS_VARIABLE_BUFFER_SIZE + #endif +#endif + +/* +TODO: Version 0.12: Swap this logic around so that AudioWorklets are used by default. Add MA_NO_AUDIO_WORKLETS. +*/ +#if defined(MA_ENABLE_AUDIO_WORKLETS) && defined(MA_SUPPORT_AUDIO_WORKLETS) + #define MA_USE_AUDIO_WORKLETS +#endif + +/* The thread stack size must be a multiple of 16. */ +#ifndef MA_AUDIO_WORKLETS_THREAD_STACK_SIZE +#define MA_AUDIO_WORKLETS_THREAD_STACK_SIZE 131072 +#endif + +#if defined(MA_USE_AUDIO_WORKLETS) +#define MA_WEBAUDIO_LATENCY_HINT_BALANCED "balanced" +#define MA_WEBAUDIO_LATENCY_HINT_INTERACTIVE "interactive" +#define MA_WEBAUDIO_LATENCY_HINT_PLAYBACK "playback" +#endif + +static ma_bool32 ma_is_capture_supported__webaudio() +{ + return EM_ASM_INT({ + return (navigator.mediaDevices !== undefined && navigator.mediaDevices.getUserMedia !== undefined); + }, 0) != 0; /* Must pass in a dummy argument for C99 compatibility. */ +} + +#ifdef __cplusplus +extern "C" { +#endif +void* EMSCRIPTEN_KEEPALIVE ma_malloc_emscripten(size_t sz, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_malloc(sz, pAllocationCallbacks); +} + +void EMSCRIPTEN_KEEPALIVE ma_free_emscripten(void* p, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_free(p, pAllocationCallbacks); +} + +void EMSCRIPTEN_KEEPALIVE ma_device_process_pcm_frames_capture__webaudio(ma_device* pDevice, int frameCount, float* pFrames) +{ + ma_device_handle_backend_data_callback(pDevice, NULL, pFrames, (ma_uint32)frameCount); +} + +void EMSCRIPTEN_KEEPALIVE ma_device_process_pcm_frames_playback__webaudio(ma_device* pDevice, int frameCount, float* pFrames) +{ + ma_device_handle_backend_data_callback(pDevice, pFrames, NULL, (ma_uint32)frameCount); +} +#ifdef __cplusplus +} +#endif + +static ma_result ma_context_enumerate_devices__webaudio(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + ma_bool32 cbResult = MA_TRUE; + + MA_ASSERT(pContext != NULL); + MA_ASSERT(callback != NULL); + + /* Only supporting default devices for now. */ + + /* Playback. */ + if (cbResult) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + deviceInfo.isDefault = MA_TRUE; /* Only supporting default devices. */ + cbResult = callback(pContext, ma_device_type_playback, &deviceInfo, pUserData); + } + + /* Capture. */ + if (cbResult) { + if (ma_is_capture_supported__webaudio()) { + ma_device_info deviceInfo; + MA_ZERO_OBJECT(&deviceInfo); + ma_strncpy_s(deviceInfo.name, sizeof(deviceInfo.name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + deviceInfo.isDefault = MA_TRUE; /* Only supporting default devices. */ + cbResult = callback(pContext, ma_device_type_capture, &deviceInfo, pUserData); + } + } + + return MA_SUCCESS; +} + +static ma_result ma_context_get_device_info__webaudio(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + MA_ASSERT(pContext != NULL); + + if (deviceType == ma_device_type_capture && !ma_is_capture_supported__webaudio()) { + return MA_NO_DEVICE; + } + + MA_ZERO_MEMORY(pDeviceInfo->id.webaudio, sizeof(pDeviceInfo->id.webaudio)); + + /* Only supporting default devices for now. */ + (void)pDeviceID; + if (deviceType == ma_device_type_playback) { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + } else { + ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + } + + /* Only supporting default devices. */ + pDeviceInfo->isDefault = MA_TRUE; + + /* Web Audio can support any number of channels and sample rates. It only supports f32 formats, however. */ + pDeviceInfo->nativeDataFormats[0].flags = 0; + pDeviceInfo->nativeDataFormats[0].format = ma_format_unknown; + pDeviceInfo->nativeDataFormats[0].channels = 0; /* All channels are supported. */ + pDeviceInfo->nativeDataFormats[0].sampleRate = EM_ASM_INT({ + try { + var temp = new (window.AudioContext || window.webkitAudioContext)(); + var sampleRate = temp.sampleRate; + temp.close(); + return sampleRate; + } catch(e) { + return 0; + } + }, 0); /* Must pass in a dummy argument for C99 compatibility. */ + + if (pDeviceInfo->nativeDataFormats[0].sampleRate == 0) { + return MA_NO_DEVICE; + } + + pDeviceInfo->nativeDataFormatCount = 1; + + return MA_SUCCESS; +} + +static ma_result ma_device_uninit__webaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + #if defined(MA_USE_AUDIO_WORKLETS) + { + EM_ASM({ + var device = window.miniaudio.get_device_by_index($0); + + if (device.streamNode !== undefined) { + device.streamNode.disconnect(); + device.streamNode = undefined; + } + + device.pDevice = undefined; + }, pDevice->webaudio.deviceIndex); + + emscripten_destroy_web_audio_node(pDevice->webaudio.audioWorklet); + emscripten_destroy_audio_context(pDevice->webaudio.audioContext); + ma_free(pDevice->webaudio.pStackBuffer, &pDevice->pContext->allocationCallbacks); + } + #else + { + EM_ASM({ + var device = window.miniaudio.get_device_by_index($0); + + /* Make sure all nodes are disconnected and marked for collection. */ + if (device.scriptNode !== undefined) { + device.scriptNode.onaudioprocess = function(e) {}; /* We want to reset the callback to ensure it doesn't get called after AudioContext.close() has returned. Shouldn't happen since we're disconnecting, but just to be safe... */ + device.scriptNode.disconnect(); + device.scriptNode = undefined; + } + + if (device.streamNode !== undefined) { + device.streamNode.disconnect(); + device.streamNode = undefined; + } + + /* + Stop the device. I think there is a chance the callback could get fired after calling this, hence why we want + to clear the callback before closing. + */ + device.webaudio.close(); + device.webaudio = undefined; + device.pDevice = undefined; + }, pDevice->webaudio.deviceIndex); + } + #endif + + /* Clean up the device on the JS side. */ + EM_ASM({ + window.miniaudio.untrack_device_by_index($0); + }, pDevice->webaudio.deviceIndex); + + ma_free(pDevice->webaudio.pIntermediaryBuffer, &pDevice->pContext->allocationCallbacks); + + return MA_SUCCESS; +} + +#if !defined(MA_USE_AUDIO_WORKLETS) +static ma_uint32 ma_calculate_period_size_in_frames_from_descriptor__webaudio(const ma_device_descriptor* pDescriptor, ma_uint32 nativeSampleRate, ma_performance_profile performanceProfile) +{ + /* + There have been reports of the default buffer size being too small on some browsers. If we're using + the default buffer size, we'll make sure the period size is bigger than our standard defaults. + */ + ma_uint32 periodSizeInFrames; + + if (nativeSampleRate == 0) { + nativeSampleRate = MA_DEFAULT_SAMPLE_RATE; + } + + if (pDescriptor->periodSizeInFrames == 0) { + if (pDescriptor->periodSizeInMilliseconds == 0) { + if (performanceProfile == ma_performance_profile_low_latency) { + periodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(33, nativeSampleRate); /* 1 frame @ 30 FPS */ + } else { + periodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(333, nativeSampleRate); + } + } else { + periodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(pDescriptor->periodSizeInMilliseconds, nativeSampleRate); + } + } else { + periodSizeInFrames = pDescriptor->periodSizeInFrames; + } + + /* The size of the buffer must be a power of 2 and between 256 and 16384. */ + if (periodSizeInFrames < 256) { + periodSizeInFrames = 256; + } else if (periodSizeInFrames > 16384) { + periodSizeInFrames = 16384; + } else { + periodSizeInFrames = ma_next_power_of_2(periodSizeInFrames); + } + + return periodSizeInFrames; +} +#endif + + +#if defined(MA_USE_AUDIO_WORKLETS) +typedef struct +{ + ma_device* pDevice; + const ma_device_config* pConfig; + ma_device_descriptor* pDescriptorPlayback; + ma_device_descriptor* pDescriptorCapture; +} ma_audio_worklet_thread_initialized_data; + +static EM_BOOL ma_audio_worklet_process_callback__webaudio(int inputCount, const AudioSampleFrame* pInputs, int outputCount, AudioSampleFrame* pOutputs, int paramCount, const AudioParamFrame* pParams, void* pUserData) +{ + ma_device* pDevice = (ma_device*)pUserData; + ma_uint32 frameCount; + + (void)paramCount; + (void)pParams; + + /* + The Emscripten documentation says that it'll always be 128 frames being passed in. Hard coding it like that feels + like a very bad idea to me. Even if it's hard coded in the backend, the API and documentation should always refer + to variables instead of a hard coded number. In any case, will follow along for the time being. + + Unfortunately the audio data is not interleaved so we'll need to convert it before we give the data to miniaudio + for further processing. + */ + if (pDevice->type == ma_device_type_playback) { + frameCount = pDevice->playback.internalPeriodSizeInFrames; + } else { + frameCount = pDevice->capture.internalPeriodSizeInFrames; + } + + /* + If this is called by the device has not yet been started we need to return early, making sure we output silence to + the output buffer. + */ + if (ma_device_get_state(pDevice) != ma_device_state_started) { + for (int i = 0; i < outputCount; i += 1) { + MA_ZERO_MEMORY(pOutputs[i].data, pOutputs[i].numberOfChannels * frameCount * sizeof(float)); + } + + return EM_TRUE; + } + + if (inputCount > 0) { + /* Input data needs to be interleaved before we hand it to the client. */ + for (ma_uint32 iChannel = 0; iChannel < pDevice->capture.internalChannels; iChannel += 1) { + for (ma_uint32 iFrame = 0; iFrame < frameCount; iFrame += 1) { + pDevice->webaudio.pIntermediaryBuffer[iFrame*pDevice->capture.internalChannels + iChannel] = pInputs[0].data[frameCount*iChannel + iFrame]; + } + } + + ma_device_process_pcm_frames_capture__webaudio(pDevice, frameCount, pDevice->webaudio.pIntermediaryBuffer); + } + + if (outputCount > 0) { + /* If it's a capture-only device, we'll need to output silence. */ + if (pDevice->type == ma_device_type_capture) { + for (int i = 0; i < outputCount; i += 1) { + MA_ZERO_MEMORY(pOutputs[i].data, pOutputs[i].numberOfChannels * frameCount * sizeof(float)); + } + } else { + ma_device_process_pcm_frames_playback__webaudio(pDevice, frameCount, pDevice->webaudio.pIntermediaryBuffer); + + /* We've read the data from the client. Now we need to deinterleave the buffer and output to the output buffer. */ + for (ma_uint32 iChannel = 0; iChannel < pDevice->playback.internalChannels; iChannel += 1) { + for (ma_uint32 iFrame = 0; iFrame < frameCount; iFrame += 1) { + pOutputs[0].data[frameCount*iChannel + iFrame] = pDevice->webaudio.pIntermediaryBuffer[iFrame*pDevice->playback.internalChannels + iChannel]; + } + } + + /* + Just above we output data to the first output buffer. Here we just make sure we're putting silence into any + remaining output buffers. + */ + for (int i = 1; i < outputCount; i += 1) { /* <-- Note that the counter starts at 1 instead of 0. */ + MA_ZERO_MEMORY(pOutputs[i].data, pOutputs[i].numberOfChannels * frameCount * sizeof(float)); + } + } + } + + return EM_TRUE; +} + + +static void ma_audio_worklet_processor_created__webaudio(EMSCRIPTEN_WEBAUDIO_T audioContext, EM_BOOL success, void* pUserData) +{ + ma_audio_worklet_thread_initialized_data* pParameters = (ma_audio_worklet_thread_initialized_data*)pUserData; + EmscriptenAudioWorkletNodeCreateOptions audioWorkletOptions; + int channels = 0; + size_t intermediaryBufferSizeInFrames; + int sampleRate; + + if (success == EM_FALSE) { + pParameters->pDevice->webaudio.initResult = MA_ERROR; + ma_free(pParameters, &pParameters->pDevice->pContext->allocationCallbacks); + return; + } + + /* The next step is to initialize the audio worklet node. */ + MA_ZERO_OBJECT(&audioWorkletOptions); + + /* + The way channel counts work with Web Audio is confusing. As far as I can tell, there's no way to know the channel + count from MediaStreamAudioSourceNode (what we use for capture)? The only way to have control is to configure an + output channel count on the capture side. This is slightly confusing for capture mode because intuitively you + wouldn't actually connect an output to an input-only node, but this is what we'll have to do in order to have + proper control over the channel count. In the capture case, we'll have to output silence to its output node. + */ + if (pParameters->pConfig->deviceType == ma_device_type_capture) { + channels = (int)((pParameters->pDescriptorCapture->channels > 0) ? pParameters->pDescriptorCapture->channels : MA_DEFAULT_CHANNELS); + audioWorkletOptions.numberOfInputs = 1; + } else { + channels = (int)((pParameters->pDescriptorPlayback->channels > 0) ? pParameters->pDescriptorPlayback->channels : MA_DEFAULT_CHANNELS); + + if (pParameters->pConfig->deviceType == ma_device_type_duplex) { + audioWorkletOptions.numberOfInputs = 1; + } else { + audioWorkletOptions.numberOfInputs = 0; + } + } + + audioWorkletOptions.numberOfOutputs = 1; + audioWorkletOptions.outputChannelCounts = &channels; + + + /* + Now that we know the channel count to use we can allocate the intermediary buffer. The + intermediary buffer is used for interleaving and deinterleaving. + */ + #if defined(MA_SUPPORT_AUDIO_WORKLETS_VARIABLE_BUFFER_SIZE) + { + intermediaryBufferSizeInFrames = (size_t)emscripten_audio_context_quantum_size(audioContext); + } + #else + { + intermediaryBufferSizeInFrames = 128; + } + #endif + + pParameters->pDevice->webaudio.pIntermediaryBuffer = (float*)ma_malloc(intermediaryBufferSizeInFrames * (ma_uint32)channels * sizeof(float), &pParameters->pDevice->pContext->allocationCallbacks); + if (pParameters->pDevice->webaudio.pIntermediaryBuffer == NULL) { + pParameters->pDevice->webaudio.initResult = MA_OUT_OF_MEMORY; + ma_free(pParameters, &pParameters->pDevice->pContext->allocationCallbacks); + return; + } + + pParameters->pDevice->webaudio.audioWorklet = emscripten_create_wasm_audio_worklet_node(audioContext, "miniaudio", &audioWorkletOptions, &ma_audio_worklet_process_callback__webaudio, pParameters->pDevice); + + /* With the audio worklet initialized we can now attach it to the graph. */ + if (pParameters->pConfig->deviceType == ma_device_type_capture || pParameters->pConfig->deviceType == ma_device_type_duplex) { + ma_result attachmentResult = (ma_result)EM_ASM_INT({ + var getUserMediaResult = 0; + var audioWorklet = emscriptenGetAudioObject($0); + var audioContext = emscriptenGetAudioObject($1); + + navigator.mediaDevices.getUserMedia({audio:true, video:false}) + .then(function(stream) { + audioContext.streamNode = audioContext.createMediaStreamSource(stream); + audioContext.streamNode.connect(audioWorklet); + audioWorklet.connect(audioContext.destination); + getUserMediaResult = 0; /* 0 = MA_SUCCESS */ + }) + .catch(function(error) { + console.log("navigator.mediaDevices.getUserMedia Failed: " + error); + getUserMediaResult = -1; /* -1 = MA_ERROR */ + }); + + return getUserMediaResult; + }, pParameters->pDevice->webaudio.audioWorklet, audioContext); + + if (attachmentResult != MA_SUCCESS) { + ma_log_postf(ma_device_get_log(pParameters->pDevice), MA_LOG_LEVEL_ERROR, "Web Audio: Failed to connect capture node."); + emscripten_destroy_web_audio_node(pParameters->pDevice->webaudio.audioWorklet); + pParameters->pDevice->webaudio.initResult = attachmentResult; + ma_free(pParameters, &pParameters->pDevice->pContext->allocationCallbacks); + return; + } + } + + /* If it's playback only we can now attach the worklet node to the graph. This has already been done for the duplex case. */ + if (pParameters->pConfig->deviceType == ma_device_type_playback) { + ma_result attachmentResult = (ma_result)EM_ASM_INT({ + var audioWorklet = emscriptenGetAudioObject($0); + var audioContext = emscriptenGetAudioObject($1); + audioWorklet.connect(audioContext.destination); + return 0; /* 0 = MA_SUCCESS */ + }, pParameters->pDevice->webaudio.audioWorklet, audioContext); + + if (attachmentResult != MA_SUCCESS) { + ma_log_postf(ma_device_get_log(pParameters->pDevice), MA_LOG_LEVEL_ERROR, "Web Audio: Failed to connect playback node."); + pParameters->pDevice->webaudio.initResult = attachmentResult; + ma_free(pParameters, &pParameters->pDevice->pContext->allocationCallbacks); + return; + } + } + + /* We need to update the descriptors so that they reflect the internal data format. Both capture and playback should be the same. */ + sampleRate = EM_ASM_INT({ return emscriptenGetAudioObject($0).sampleRate; }, audioContext); + + if (pParameters->pDescriptorCapture != NULL) { + pParameters->pDescriptorCapture->format = ma_format_f32; + pParameters->pDescriptorCapture->channels = (ma_uint32)channels; + pParameters->pDescriptorCapture->sampleRate = (ma_uint32)sampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_webaudio, pParameters->pDescriptorCapture->channelMap, ma_countof(pParameters->pDescriptorCapture->channelMap), pParameters->pDescriptorCapture->channels); + pParameters->pDescriptorCapture->periodSizeInFrames = intermediaryBufferSizeInFrames; + pParameters->pDescriptorCapture->periodCount = 1; + } + + if (pParameters->pDescriptorPlayback != NULL) { + pParameters->pDescriptorPlayback->format = ma_format_f32; + pParameters->pDescriptorPlayback->channels = (ma_uint32)channels; + pParameters->pDescriptorPlayback->sampleRate = (ma_uint32)sampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_webaudio, pParameters->pDescriptorPlayback->channelMap, ma_countof(pParameters->pDescriptorPlayback->channelMap), pParameters->pDescriptorPlayback->channels); + pParameters->pDescriptorPlayback->periodSizeInFrames = intermediaryBufferSizeInFrames; + pParameters->pDescriptorPlayback->periodCount = 1; + } + + /* At this point we're done and we can return. */ + ma_log_postf(ma_device_get_log(pParameters->pDevice), MA_LOG_LEVEL_DEBUG, "AudioWorklets: Created worklet node: %d\n", pParameters->pDevice->webaudio.audioWorklet); + pParameters->pDevice->webaudio.initResult = MA_SUCCESS; + ma_free(pParameters, &pParameters->pDevice->pContext->allocationCallbacks); +} + +static void ma_audio_worklet_thread_initialized__webaudio(EMSCRIPTEN_WEBAUDIO_T audioContext, EM_BOOL success, void* pUserData) +{ + ma_audio_worklet_thread_initialized_data* pParameters = (ma_audio_worklet_thread_initialized_data*)pUserData; + WebAudioWorkletProcessorCreateOptions workletProcessorOptions; + + MA_ASSERT(pParameters != NULL); + + if (success == EM_FALSE) { + pParameters->pDevice->webaudio.initResult = MA_ERROR; + return; + } + + MA_ZERO_OBJECT(&workletProcessorOptions); + workletProcessorOptions.name = "miniaudio"; /* I'm not entirely sure what to call this. Does this need to be globally unique, or does it need only be unique for a given AudioContext? */ + + emscripten_create_wasm_audio_worklet_processor_async(audioContext, &workletProcessorOptions, ma_audio_worklet_processor_created__webaudio, pParameters); +} +#endif + +static ma_result ma_device_init__webaudio(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + if (pConfig->deviceType == ma_device_type_loopback) { + return MA_DEVICE_TYPE_NOT_SUPPORTED; + } + + /* No exclusive mode with Web Audio. */ + if (((pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) && pDescriptorPlayback->shareMode == ma_share_mode_exclusive) || + ((pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) && pDescriptorCapture->shareMode == ma_share_mode_exclusive)) { + return MA_SHARE_MODE_NOT_SUPPORTED; + } + + /* + With AudioWorklets we'll have just a single AudioContext. I'm not sure why I'm not doing this for ScriptProcessorNode so + it might be worthwhile to look into that as well. + */ + #if defined(MA_USE_AUDIO_WORKLETS) + { + EmscriptenWebAudioCreateAttributes audioContextAttributes; + ma_audio_worklet_thread_initialized_data* pInitParameters; + void* pStackBuffer; + + if (pConfig->performanceProfile == ma_performance_profile_conservative) { + audioContextAttributes.latencyHint = MA_WEBAUDIO_LATENCY_HINT_PLAYBACK; + } else { + audioContextAttributes.latencyHint = MA_WEBAUDIO_LATENCY_HINT_INTERACTIVE; + } + + /* + In my testing, Firefox does not seem to capture audio data properly if the sample rate is set + to anything other than 48K. This does not seem to be the case for other browsers. For this reason, + if the device type is anything other than playback, we'll leave the sample rate as-is and let the + browser pick the appropriate rate for us. + */ + if (pConfig->deviceType == ma_device_type_playback) { + audioContextAttributes.sampleRate = pDescriptorPlayback->sampleRate; + } else { + audioContextAttributes.sampleRate = 0; + } + + /* It's not clear if this can return an error. None of the tests in the Emscripten repository check for this, so neither am I for now. */ + pDevice->webaudio.audioContext = emscripten_create_audio_context(&audioContextAttributes); + + /* + With the context created we can now create the worklet. We can only have a single worklet per audio + context which means we'll need to craft this appropriately to handle duplex devices correctly. + */ + + /* + We now need to create a worker thread. This is a bit weird because we need to allocate our + own buffer for the thread's stack. The stack needs to be aligned to 16 bytes. I'm going to + allocate this on the heap to keep it simple. + */ + pStackBuffer = ma_aligned_malloc(MA_AUDIO_WORKLETS_THREAD_STACK_SIZE, 16, &pDevice->pContext->allocationCallbacks); + if (pStackBuffer == NULL) { + emscripten_destroy_audio_context(pDevice->webaudio.audioContext); + return MA_OUT_OF_MEMORY; + } + + /* Our thread initialization parameters need to be allocated on the heap so they don't go out of scope. */ + pInitParameters = (ma_audio_worklet_thread_initialized_data*)ma_malloc(sizeof(*pInitParameters), &pDevice->pContext->allocationCallbacks); + if (pInitParameters == NULL) { + ma_free(pStackBuffer, &pDevice->pContext->allocationCallbacks); + emscripten_destroy_audio_context(pDevice->webaudio.audioContext); + return MA_OUT_OF_MEMORY; + } + + pInitParameters->pDevice = pDevice; + pInitParameters->pConfig = pConfig; + pInitParameters->pDescriptorPlayback = pDescriptorPlayback; + pInitParameters->pDescriptorCapture = pDescriptorCapture; + + /* + We need to flag the device as not yet initialized so we can wait on it later. Unfortunately all of + the Emscripten WebAudio stuff is asynchronous. + */ + pDevice->webaudio.initResult = MA_BUSY; + { + emscripten_start_wasm_audio_worklet_thread_async(pDevice->webaudio.audioContext, pStackBuffer, MA_AUDIO_WORKLETS_THREAD_STACK_SIZE, ma_audio_worklet_thread_initialized__webaudio, pInitParameters); + } + while (pDevice->webaudio.initResult == MA_BUSY) { emscripten_sleep(1); } /* We must wait for initialization to complete. We're just spinning here. The emscripten_sleep() call is why we need to build with `-sASYNCIFY`. */ + + /* Initialization is now complete. Descriptors were updated when the worklet was initialized. */ + if (pDevice->webaudio.initResult != MA_SUCCESS) { + ma_free(pStackBuffer, &pDevice->pContext->allocationCallbacks); + emscripten_destroy_audio_context(pDevice->webaudio.audioContext); + return pDevice->webaudio.initResult; + } + + /* We need to add an entry to the miniaudio.devices list on the JS side so we can do some JS/C interop. */ + pDevice->webaudio.deviceIndex = EM_ASM_INT({ + return window.miniaudio.track_device({ + webaudio: emscriptenGetAudioObject($0), + state: 1, /* 1 = ma_device_state_stopped */ + pDevice: $1 + }); + }, pDevice->webaudio.audioContext, pDevice); + + return MA_SUCCESS; + } + #else + { + /* ScriptProcessorNode. This path requires us to do almost everything in JS, but we'll do as much as we can in C. */ + ma_uint32 deviceIndex; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_uint32 periodSizeInFrames; + + /* The channel count will depend on the device type. If it's a capture, use its, otherwise use the playback side. */ + if (pConfig->deviceType == ma_device_type_capture) { + channels = (pDescriptorCapture->channels > 0) ? pDescriptorCapture->channels : MA_DEFAULT_CHANNELS; + } else { + channels = (pDescriptorPlayback->channels > 0) ? pDescriptorPlayback->channels : MA_DEFAULT_CHANNELS; + } + + /* + When testing in Firefox, I've seen it where capture mode fails if the sample rate is changed to anything other than it's + native rate. For this reason we're leaving the sample rate untouched for capture devices. + */ + if (pConfig->deviceType == ma_device_type_playback) { + sampleRate = pDescriptorPlayback->sampleRate; + } else { + sampleRate = 0; /* Let the browser decide when capturing. */ + } + + /* The period size needs to be a power of 2. */ + if (pConfig->deviceType == ma_device_type_capture) { + periodSizeInFrames = ma_calculate_period_size_in_frames_from_descriptor__webaudio(pDescriptorCapture, sampleRate, pConfig->performanceProfile); + } else { + periodSizeInFrames = ma_calculate_period_size_in_frames_from_descriptor__webaudio(pDescriptorPlayback, sampleRate, pConfig->performanceProfile); + } + + /* We need an intermediary buffer for doing interleaving and deinterleaving. */ + pDevice->webaudio.pIntermediaryBuffer = (float*)ma_malloc(periodSizeInFrames * channels * sizeof(float), &pDevice->pContext->allocationCallbacks); + if (pDevice->webaudio.pIntermediaryBuffer == NULL) { + return MA_OUT_OF_MEMORY; + } + + deviceIndex = EM_ASM_INT({ + var deviceType = $0; + var channels = $1; + var sampleRate = $2; + var bufferSize = $3; + var pIntermediaryBuffer = $4; + var pDevice = $5; + + if (typeof(window.miniaudio) === 'undefined') { + return -1; /* Context not initialized. */ + } + + var device = {}; + + /* First thing we need is an AudioContext. */ + var audioContextOptions = {}; + if (deviceType == window.miniaudio.device_type.playback && sampleRate != 0) { + audioContextOptions.sampleRate = sampleRate; + } + + device.webaudio = new (window.AudioContext || window.webkitAudioContext)(audioContextOptions); + device.webaudio.suspend(); /* The AudioContext must be created in a suspended state. */ + device.state = window.miniaudio.device_state.stopped; + + /* + We need to create a ScriptProcessorNode. The channel situation is the same as the AudioWorklet path in that we + need to specify an output and configure the channel count there. + */ + var channelCountIn = 0; + var channelCountOut = channels; + if (deviceType != window.miniaudio.device_type.playback) { + channelCountIn = channels; + } + + device.scriptNode = device.webaudio.createScriptProcessor(bufferSize, channelCountIn, channelCountOut); + + /* The node processing callback. */ + device.scriptNode.onaudioprocess = function(e) { + if (device.intermediaryBufferView == null || device.intermediaryBufferView.length == 0) { + device.intermediaryBufferView = new Float32Array(HEAPF32.buffer, pIntermediaryBuffer, bufferSize * channels); + } + + /* Do the capture side first. */ + if (deviceType == window.miniaudio.device_type.capture || deviceType == window.miniaudio.device_type.duplex) { + /* The data must be interleaved before being processed miniaudio. */ + for (var iChannel = 0; iChannel < channels; iChannel += 1) { + var inputBuffer = e.inputBuffer.getChannelData(iChannel); + var intermediaryBuffer = device.intermediaryBufferView; + + for (var iFrame = 0; iFrame < bufferSize; iFrame += 1) { + intermediaryBuffer[iFrame*channels + iChannel] = inputBuffer[iFrame]; + } + } + + _ma_device_process_pcm_frames_capture__webaudio(pDevice, bufferSize, pIntermediaryBuffer); + } + + if (deviceType == window.miniaudio.device_type.playback || deviceType == window.miniaudio.device_type.duplex) { + _ma_device_process_pcm_frames_playback__webaudio(pDevice, bufferSize, pIntermediaryBuffer); + + for (var iChannel = 0; iChannel < e.outputBuffer.numberOfChannels; ++iChannel) { + var outputBuffer = e.outputBuffer.getChannelData(iChannel); + var intermediaryBuffer = device.intermediaryBufferView; + + for (var iFrame = 0; iFrame < bufferSize; iFrame += 1) { + outputBuffer[iFrame] = intermediaryBuffer[iFrame*channels + iChannel]; + } + } + } else { + /* It's a capture-only device. Make sure the output is silenced. */ + for (var iChannel = 0; iChannel < e.outputBuffer.numberOfChannels; ++iChannel) { + e.outputBuffer.getChannelData(iChannel).fill(0.0); + } + } + }; + + /* Now we need to connect our node to the graph. */ + if (deviceType == window.miniaudio.device_type.capture || deviceType == window.miniaudio.device_type.duplex) { + navigator.mediaDevices.getUserMedia({audio:true, video:false}) + .then(function(stream) { + device.streamNode = device.webaudio.createMediaStreamSource(stream); + device.streamNode.connect(device.scriptNode); + device.scriptNode.connect(device.webaudio.destination); + }) + .catch(function(error) { + console.log("Failed to get user media: " + error); + }); + } + + if (deviceType == window.miniaudio.device_type.playback) { + device.scriptNode.connect(device.webaudio.destination); + } + + device.pDevice = pDevice; + + return window.miniaudio.track_device(device); + }, pConfig->deviceType, channels, sampleRate, periodSizeInFrames, pDevice->webaudio.pIntermediaryBuffer, pDevice); + + if (deviceIndex < 0) { + return MA_FAILED_TO_OPEN_BACKEND_DEVICE; + } + + pDevice->webaudio.deviceIndex = deviceIndex; + + /* Grab the sample rate from the audio context directly. */ + sampleRate = (ma_uint32)EM_ASM_INT({ return window.miniaudio.get_device_by_index($0).webaudio.sampleRate; }, deviceIndex); + + if (pDescriptorCapture != NULL) { + pDescriptorCapture->format = ma_format_f32; + pDescriptorCapture->channels = channels; + pDescriptorCapture->sampleRate = sampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_webaudio, pDescriptorCapture->channelMap, ma_countof(pDescriptorCapture->channelMap), pDescriptorCapture->channels); + pDescriptorCapture->periodSizeInFrames = periodSizeInFrames; + pDescriptorCapture->periodCount = 1; + } + + if (pDescriptorPlayback != NULL) { + pDescriptorPlayback->format = ma_format_f32; + pDescriptorPlayback->channels = channels; + pDescriptorPlayback->sampleRate = sampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_webaudio, pDescriptorPlayback->channelMap, ma_countof(pDescriptorPlayback->channelMap), pDescriptorPlayback->channels); + pDescriptorPlayback->periodSizeInFrames = periodSizeInFrames; + pDescriptorPlayback->periodCount = 1; + } + + return MA_SUCCESS; + } + #endif +} + +static ma_result ma_device_start__webaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + EM_ASM({ + var device = window.miniaudio.get_device_by_index($0); + device.webaudio.resume(); + device.state = window.miniaudio.device_state.started; + }, pDevice->webaudio.deviceIndex); + + return MA_SUCCESS; +} + +static ma_result ma_device_stop__webaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + /* + From the WebAudio API documentation for AudioContext.suspend(): + + Suspends the progression of AudioContext's currentTime, allows any current context processing blocks that are already processed to be played to the + destination, and then allows the system to release its claim on audio hardware. + + I read this to mean that "any current context processing blocks" are processed by suspend() - i.e. They they are drained. We therefore shouldn't need to + do any kind of explicit draining. + */ + EM_ASM({ + var device = window.miniaudio.get_device_by_index($0); + device.webaudio.suspend(); + device.state = window.miniaudio.device_state.stopped; + }, pDevice->webaudio.deviceIndex); + + ma_device__on_notification_stopped(pDevice); + + return MA_SUCCESS; +} + +static ma_result ma_context_uninit__webaudio(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + MA_ASSERT(pContext->backend == ma_backend_webaudio); + + (void)pContext; /* Unused. */ + + /* Remove the global miniaudio object from window if there are no more references to it. */ + EM_ASM({ + if (typeof(window.miniaudio) !== 'undefined') { + window.miniaudio.unlock_event_types.map(function(event_type) { + document.removeEventListener(event_type, window.miniaudio.unlock, true); + }); + + window.miniaudio.referenceCount -= 1; + if (window.miniaudio.referenceCount === 0) { + delete window.miniaudio; + } + } + }); + + return MA_SUCCESS; +} + +static ma_result ma_context_init__webaudio(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) +{ + int resultFromJS; + + MA_ASSERT(pContext != NULL); + + (void)pConfig; /* Unused. */ + + /* Here is where our global JavaScript object is initialized. */ + resultFromJS = EM_ASM_INT({ + if (typeof window === 'undefined' || (window.AudioContext || window.webkitAudioContext) === undefined) { + return 0; /* Web Audio not supported. */ + } + + if (typeof(window.miniaudio) === 'undefined') { + window.miniaudio = { + referenceCount: 0 + }; + + /* Device types. */ + window.miniaudio.device_type = {}; + window.miniaudio.device_type.playback = $0; + window.miniaudio.device_type.capture = $1; + window.miniaudio.device_type.duplex = $2; + + /* Device states. */ + window.miniaudio.device_state = {}; + window.miniaudio.device_state.stopped = $3; + window.miniaudio.device_state.started = $4; + + /* Device cache for mapping devices to indexes for JavaScript/C interop. */ + let miniaudio = window.miniaudio; + miniaudio.devices = []; + + miniaudio.track_device = function(device) { + /* Try inserting into a free slot first. */ + for (var iDevice = 0; iDevice < miniaudio.devices.length; ++iDevice) { + if (miniaudio.devices[iDevice] == null) { + miniaudio.devices[iDevice] = device; + return iDevice; + } + } + + /* Getting here means there is no empty slots in the array so we just push to the end. */ + miniaudio.devices.push(device); + return miniaudio.devices.length - 1; + }; + + miniaudio.untrack_device_by_index = function(deviceIndex) { + /* We just set the device's slot to null. The slot will get reused in the next call to ma_track_device. */ + miniaudio.devices[deviceIndex] = null; + + /* Trim the array if possible. */ + while (miniaudio.devices.length > 0) { + if (miniaudio.devices[miniaudio.devices.length-1] == null) { + miniaudio.devices.pop(); + } else { + break; + } + } + }; + + miniaudio.untrack_device = function(device) { + for (var iDevice = 0; iDevice < miniaudio.devices.length; ++iDevice) { + if (miniaudio.devices[iDevice] == device) { + return miniaudio.untrack_device_by_index(iDevice); + } + } + }; + + miniaudio.get_device_by_index = function(deviceIndex) { + return miniaudio.devices[deviceIndex]; + }; + + miniaudio.unlock_event_types = (function(){ + return ['touchend', 'click']; + })(); + + miniaudio.unlock = function() { + for(var i = 0; i < miniaudio.devices.length; ++i) { + var device = miniaudio.devices[i]; + if (device != null && + device.webaudio != null && + device.state === miniaudio.device_state.started) { + + device.webaudio.resume().then(() => { + _ma_device__on_notification_unlocked(device.pDevice); + }, + (error) => {console.error("Failed to resume audiocontext", error); + }); + } + } + miniaudio.unlock_event_types.map(function(event_type) { + document.removeEventListener(event_type, miniaudio.unlock, true); + }); + }; + + miniaudio.unlock_event_types.map(function(event_type) { + document.addEventListener(event_type, miniaudio.unlock, true); + }); + } + + window.miniaudio.referenceCount += 1; + + return 1; + }, ma_device_type_playback, ma_device_type_capture, ma_device_type_duplex, ma_device_state_stopped, ma_device_state_started); + + if (resultFromJS != 1) { + return MA_FAILED_TO_INIT_BACKEND; + } + + pCallbacks->onContextInit = ma_context_init__webaudio; + pCallbacks->onContextUninit = ma_context_uninit__webaudio; + pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__webaudio; + pCallbacks->onContextGetDeviceInfo = ma_context_get_device_info__webaudio; + pCallbacks->onDeviceInit = ma_device_init__webaudio; + pCallbacks->onDeviceUninit = ma_device_uninit__webaudio; + pCallbacks->onDeviceStart = ma_device_start__webaudio; + pCallbacks->onDeviceStop = ma_device_stop__webaudio; + pCallbacks->onDeviceRead = NULL; /* Not needed because WebAudio is asynchronous. */ + pCallbacks->onDeviceWrite = NULL; /* Not needed because WebAudio is asynchronous. */ + pCallbacks->onDeviceDataLoop = NULL; /* Not needed because WebAudio is asynchronous. */ + + return MA_SUCCESS; +} +#endif /* MA_HAS_WEBAUDIO */ + + + +static ma_bool32 ma__is_channel_map_valid(const ma_channel* pChannelMap, ma_uint32 channels) +{ + /* A blank channel map should be allowed, in which case it should use an appropriate default which will depend on context. */ + if (pChannelMap != NULL && pChannelMap[0] != MA_CHANNEL_NONE) { + ma_uint32 iChannel; + + if (channels == 0 || channels > MA_MAX_CHANNELS) { + return MA_FALSE; /* Channel count out of range. */ + } + + /* A channel cannot be present in the channel map more than once. */ + for (iChannel = 0; iChannel < channels; ++iChannel) { + ma_uint32 jChannel; + for (jChannel = iChannel + 1; jChannel < channels; ++jChannel) { + if (pChannelMap[iChannel] == pChannelMap[jChannel]) { + return MA_FALSE; + } + } + } + } + + return MA_TRUE; +} + + +static ma_bool32 ma_context_is_backend_asynchronous(ma_context* pContext) +{ + MA_ASSERT(pContext != NULL); + + if (pContext->callbacks.onDeviceRead == NULL && pContext->callbacks.onDeviceWrite == NULL) { + if (pContext->callbacks.onDeviceDataLoop == NULL) { + return MA_TRUE; + } else { + return MA_FALSE; + } + } else { + return MA_FALSE; + } +} + + +static ma_result ma_device__post_init_setup(ma_device* pDevice, ma_device_type deviceType) +{ + ma_result result; + + MA_ASSERT(pDevice != NULL); + + if (deviceType == ma_device_type_capture || deviceType == ma_device_type_duplex || deviceType == ma_device_type_loopback) { + if (pDevice->capture.format == ma_format_unknown) { + pDevice->capture.format = pDevice->capture.internalFormat; + } + if (pDevice->capture.channels == 0) { + pDevice->capture.channels = pDevice->capture.internalChannels; + } + if (pDevice->capture.channelMap[0] == MA_CHANNEL_NONE) { + MA_ASSERT(pDevice->capture.channels <= MA_MAX_CHANNELS); + if (pDevice->capture.internalChannels == pDevice->capture.channels) { + ma_channel_map_copy(pDevice->capture.channelMap, pDevice->capture.internalChannelMap, pDevice->capture.channels); + } else { + if (pDevice->capture.channelMixMode == ma_channel_mix_mode_simple) { + ma_channel_map_init_blank(pDevice->capture.channelMap, pDevice->capture.channels); + } else { + ma_channel_map_init_standard(ma_standard_channel_map_default, pDevice->capture.channelMap, ma_countof(pDevice->capture.channelMap), pDevice->capture.channels); + } + } + } + } + + if (deviceType == ma_device_type_playback || deviceType == ma_device_type_duplex) { + if (pDevice->playback.format == ma_format_unknown) { + pDevice->playback.format = pDevice->playback.internalFormat; + } + if (pDevice->playback.channels == 0) { + pDevice->playback.channels = pDevice->playback.internalChannels; + } + if (pDevice->playback.channelMap[0] == MA_CHANNEL_NONE) { + MA_ASSERT(pDevice->playback.channels <= MA_MAX_CHANNELS); + if (pDevice->playback.internalChannels == pDevice->playback.channels) { + ma_channel_map_copy(pDevice->playback.channelMap, pDevice->playback.internalChannelMap, pDevice->playback.channels); + } else { + if (pDevice->playback.channelMixMode == ma_channel_mix_mode_simple) { + ma_channel_map_init_blank(pDevice->playback.channelMap, pDevice->playback.channels); + } else { + ma_channel_map_init_standard(ma_standard_channel_map_default, pDevice->playback.channelMap, ma_countof(pDevice->playback.channelMap), pDevice->playback.channels); + } + } + } + } + + if (pDevice->sampleRate == 0) { + if (deviceType == ma_device_type_capture || deviceType == ma_device_type_duplex || deviceType == ma_device_type_loopback) { + pDevice->sampleRate = pDevice->capture.internalSampleRate; + } else { + pDevice->sampleRate = pDevice->playback.internalSampleRate; + } + } + + /* Data converters. */ + if (deviceType == ma_device_type_capture || deviceType == ma_device_type_duplex || deviceType == ma_device_type_loopback) { + /* Converting from internal device format to client format. */ + ma_data_converter_config converterConfig = ma_data_converter_config_init_default(); + converterConfig.formatIn = pDevice->capture.internalFormat; + converterConfig.channelsIn = pDevice->capture.internalChannels; + converterConfig.sampleRateIn = pDevice->capture.internalSampleRate; + converterConfig.pChannelMapIn = pDevice->capture.internalChannelMap; + converterConfig.formatOut = pDevice->capture.format; + converterConfig.channelsOut = pDevice->capture.channels; + converterConfig.sampleRateOut = pDevice->sampleRate; + converterConfig.pChannelMapOut = pDevice->capture.channelMap; + converterConfig.channelMixMode = pDevice->capture.channelMixMode; + converterConfig.calculateLFEFromSpatialChannels = pDevice->capture.calculateLFEFromSpatialChannels; + converterConfig.allowDynamicSampleRate = MA_FALSE; + converterConfig.resampling.algorithm = pDevice->resampling.algorithm; + converterConfig.resampling.linear.lpfOrder = pDevice->resampling.linear.lpfOrder; + converterConfig.resampling.pBackendVTable = pDevice->resampling.pBackendVTable; + converterConfig.resampling.pBackendUserData = pDevice->resampling.pBackendUserData; + + /* Make sure the old converter is uninitialized first. */ + if (ma_device_get_state(pDevice) != ma_device_state_uninitialized) { + ma_data_converter_uninit(&pDevice->capture.converter, &pDevice->pContext->allocationCallbacks); + } + + result = ma_data_converter_init(&converterConfig, &pDevice->pContext->allocationCallbacks, &pDevice->capture.converter); + if (result != MA_SUCCESS) { + return result; + } + } + + if (deviceType == ma_device_type_playback || deviceType == ma_device_type_duplex) { + /* Converting from client format to device format. */ + ma_data_converter_config converterConfig = ma_data_converter_config_init_default(); + converterConfig.formatIn = pDevice->playback.format; + converterConfig.channelsIn = pDevice->playback.channels; + converterConfig.sampleRateIn = pDevice->sampleRate; + converterConfig.pChannelMapIn = pDevice->playback.channelMap; + converterConfig.formatOut = pDevice->playback.internalFormat; + converterConfig.channelsOut = pDevice->playback.internalChannels; + converterConfig.sampleRateOut = pDevice->playback.internalSampleRate; + converterConfig.pChannelMapOut = pDevice->playback.internalChannelMap; + converterConfig.channelMixMode = pDevice->playback.channelMixMode; + converterConfig.calculateLFEFromSpatialChannels = pDevice->playback.calculateLFEFromSpatialChannels; + converterConfig.allowDynamicSampleRate = MA_FALSE; + converterConfig.resampling.algorithm = pDevice->resampling.algorithm; + converterConfig.resampling.linear.lpfOrder = pDevice->resampling.linear.lpfOrder; + converterConfig.resampling.pBackendVTable = pDevice->resampling.pBackendVTable; + converterConfig.resampling.pBackendUserData = pDevice->resampling.pBackendUserData; + + /* Make sure the old converter is uninitialized first. */ + if (ma_device_get_state(pDevice) != ma_device_state_uninitialized) { + ma_data_converter_uninit(&pDevice->playback.converter, &pDevice->pContext->allocationCallbacks); + } + + result = ma_data_converter_init(&converterConfig, &pDevice->pContext->allocationCallbacks, &pDevice->playback.converter); + if (result != MA_SUCCESS) { + return result; + } + } + + + /* + If the device is doing playback (ma_device_type_playback or ma_device_type_duplex), there's + a couple of situations where we'll need a heap allocated cache. + + The first is a duplex device for backends that use a callback for data delivery. The reason + this is needed is that the input stage needs to have a buffer to place the input data while it + waits for the playback stage, after which the miniaudio data callback will get fired. This is + not needed for backends that use a blocking API because miniaudio manages temporary buffers on + the stack to achieve this. + + The other situation is when the data converter does not have the ability to query the number + of input frames that are required in order to process a given number of output frames. When + performing data conversion, it's useful if miniaudio know exactly how many frames it needs + from the client in order to generate a given number of output frames. This way, only exactly + the number of frames are needed to be read from the client which means no cache is necessary. + On the other hand, if miniaudio doesn't know how many frames to read, it is forced to read + in fixed sized chunks and then cache any residual unused input frames, those of which will be + processed at a later stage. + */ + if (deviceType == ma_device_type_playback || deviceType == ma_device_type_duplex) { + ma_uint64 unused; + + pDevice->playback.inputCacheConsumed = 0; + pDevice->playback.inputCacheRemaining = 0; + + if (pDevice->type == ma_device_type_duplex || /* Duplex. backend may decide to use ma_device_handle_backend_data_callback() which will require this cache. */ + ma_data_converter_get_required_input_frame_count(&pDevice->playback.converter, 1, &unused) != MA_SUCCESS) /* Data conversion required input frame calculation not supported. */ + { + /* We need a heap allocated cache. We want to size this based on the period size. */ + void* pNewInputCache; + ma_uint64 newInputCacheCap; + ma_uint64 newInputCacheSizeInBytes; + + newInputCacheCap = ma_calculate_frame_count_after_resampling(pDevice->playback.internalSampleRate, pDevice->sampleRate, pDevice->playback.internalPeriodSizeInFrames); + + newInputCacheSizeInBytes = newInputCacheCap * ma_get_bytes_per_frame(pDevice->playback.format, pDevice->playback.channels); + if (newInputCacheSizeInBytes > MA_SIZE_MAX) { + ma_free(pDevice->playback.pInputCache, &pDevice->pContext->allocationCallbacks); + pDevice->playback.pInputCache = NULL; + pDevice->playback.inputCacheCap = 0; + return MA_OUT_OF_MEMORY; /* Allocation too big. Should never hit this, but makes the cast below safer for 32-bit builds. */ + } + + pNewInputCache = ma_realloc(pDevice->playback.pInputCache, (size_t)newInputCacheSizeInBytes, &pDevice->pContext->allocationCallbacks); + if (pNewInputCache == NULL) { + ma_free(pDevice->playback.pInputCache, &pDevice->pContext->allocationCallbacks); + pDevice->playback.pInputCache = NULL; + pDevice->playback.inputCacheCap = 0; + return MA_OUT_OF_MEMORY; + } + + pDevice->playback.pInputCache = pNewInputCache; + pDevice->playback.inputCacheCap = newInputCacheCap; + } else { + /* Heap allocation not required. Make sure we clear out the old cache just in case this function was called in response to a route change. */ + ma_free(pDevice->playback.pInputCache, &pDevice->pContext->allocationCallbacks); + pDevice->playback.pInputCache = NULL; + pDevice->playback.inputCacheCap = 0; + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_device_post_init(ma_device* pDevice, ma_device_type deviceType, const ma_device_descriptor* pDescriptorPlayback, const ma_device_descriptor* pDescriptorCapture) +{ + ma_result result; + + if (pDevice == NULL) { + return MA_INVALID_ARGS; + } + + /* Capture. */ + if (deviceType == ma_device_type_capture || deviceType == ma_device_type_duplex || deviceType == ma_device_type_loopback) { + if (ma_device_descriptor_is_valid(pDescriptorCapture) == MA_FALSE) { + return MA_INVALID_ARGS; + } + + pDevice->capture.internalFormat = pDescriptorCapture->format; + pDevice->capture.internalChannels = pDescriptorCapture->channels; + pDevice->capture.internalSampleRate = pDescriptorCapture->sampleRate; + MA_COPY_MEMORY(pDevice->capture.internalChannelMap, pDescriptorCapture->channelMap, sizeof(pDescriptorCapture->channelMap)); + pDevice->capture.internalPeriodSizeInFrames = pDescriptorCapture->periodSizeInFrames; + pDevice->capture.internalPeriods = pDescriptorCapture->periodCount; + + if (pDevice->capture.internalPeriodSizeInFrames == 0) { + pDevice->capture.internalPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(pDescriptorCapture->periodSizeInMilliseconds, pDescriptorCapture->sampleRate); + } + } + + /* Playback. */ + if (deviceType == ma_device_type_playback || deviceType == ma_device_type_duplex) { + if (ma_device_descriptor_is_valid(pDescriptorPlayback) == MA_FALSE) { + return MA_INVALID_ARGS; + } + + pDevice->playback.internalFormat = pDescriptorPlayback->format; + pDevice->playback.internalChannels = pDescriptorPlayback->channels; + pDevice->playback.internalSampleRate = pDescriptorPlayback->sampleRate; + MA_COPY_MEMORY(pDevice->playback.internalChannelMap, pDescriptorPlayback->channelMap, sizeof(pDescriptorPlayback->channelMap)); + pDevice->playback.internalPeriodSizeInFrames = pDescriptorPlayback->periodSizeInFrames; + pDevice->playback.internalPeriods = pDescriptorPlayback->periodCount; + + if (pDevice->playback.internalPeriodSizeInFrames == 0) { + pDevice->playback.internalPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(pDescriptorPlayback->periodSizeInMilliseconds, pDescriptorPlayback->sampleRate); + } + } + + /* + The name of the device can be retrieved from device info. This may be temporary and replaced with a `ma_device_get_info(pDevice, deviceType)` instead. + For loopback devices, we need to retrieve the name of the playback device. + */ + { + ma_device_info deviceInfo; + + if (deviceType == ma_device_type_capture || deviceType == ma_device_type_duplex || deviceType == ma_device_type_loopback) { + result = ma_device_get_info(pDevice, ma_device_type_capture, &deviceInfo); + if (result == MA_SUCCESS) { + ma_strncpy_s(pDevice->capture.name, sizeof(pDevice->capture.name), deviceInfo.name, (size_t)-1); + } else { + /* We failed to retrieve the device info. Fall back to a default name. */ + if (pDescriptorCapture->pDeviceID == NULL) { + ma_strncpy_s(pDevice->capture.name, sizeof(pDevice->capture.name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + } else { + ma_strncpy_s(pDevice->capture.name, sizeof(pDevice->capture.name), "Capture Device", (size_t)-1); + } + } + } + + if (deviceType == ma_device_type_playback || deviceType == ma_device_type_duplex) { + result = ma_device_get_info(pDevice, ma_device_type_playback, &deviceInfo); + if (result == MA_SUCCESS) { + ma_strncpy_s(pDevice->playback.name, sizeof(pDevice->playback.name), deviceInfo.name, (size_t)-1); + } else { + /* We failed to retrieve the device info. Fall back to a default name. */ + if (pDescriptorPlayback->pDeviceID == NULL) { + ma_strncpy_s(pDevice->playback.name, sizeof(pDevice->playback.name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + } else { + ma_strncpy_s(pDevice->playback.name, sizeof(pDevice->playback.name), "Playback Device", (size_t)-1); + } + } + } + } + + /* Update data conversion. */ + return ma_device__post_init_setup(pDevice, deviceType); /* TODO: Should probably rename ma_device__post_init_setup() to something better. */ +} + + +static ma_thread_result MA_THREADCALL ma_worker_thread(void* pData) +{ + ma_device* pDevice = (ma_device*)pData; +#if defined(MA_WIN32) && !defined(MA_XBOX) + HRESULT CoInitializeResult; +#endif + + MA_ASSERT(pDevice != NULL); + +#if defined(MA_WIN32) && !defined(MA_XBOX) + CoInitializeResult = ma_CoInitializeEx(pDevice->pContext, NULL, MA_COINIT_VALUE); +#endif + + /* + When the device is being initialized its initial state is set to ma_device_state_uninitialized. Before returning from + ma_device_init(), the state needs to be set to something valid. In miniaudio the device's default state immediately + after initialization is stopped, so therefore we need to mark the device as such. miniaudio will wait on the worker + thread to signal an event to know when the worker thread is ready for action. + */ + ma_device__set_state(pDevice, ma_device_state_stopped); + ma_event_signal(&pDevice->stopEvent); + + for (;;) { /* <-- This loop just keeps the thread alive. The main audio loop is inside. */ + ma_result startResult; + ma_result stopResult; /* <-- This will store the result from onDeviceStop(). If it returns an error, we don't fire the stopped notification callback. */ + + /* We wait on an event to know when something has requested that the device be started and the main loop entered. */ + ma_event_wait(&pDevice->wakeupEvent); + + /* Default result code. */ + pDevice->workResult = MA_SUCCESS; + + /* If the reason for the wake up is that we are terminating, just break from the loop. */ + if (ma_device_get_state(pDevice) == ma_device_state_uninitialized) { + break; + } + + /* + Getting to this point means the device is wanting to get started. The function that has requested that the device + be started will be waiting on an event (pDevice->startEvent) which means we need to make sure we signal the event + in both the success and error case. It's important that the state of the device is set _before_ signaling the event. + */ + MA_ASSERT(ma_device_get_state(pDevice) == ma_device_state_starting); + + /* If the device has a start callback, start it now. */ + if (pDevice->pContext->callbacks.onDeviceStart != NULL) { + startResult = pDevice->pContext->callbacks.onDeviceStart(pDevice); + } else { + startResult = MA_SUCCESS; + } + + /* + If starting was not successful we'll need to loop back to the start and wait for something + to happen (pDevice->wakeupEvent). + */ + if (startResult != MA_SUCCESS) { + pDevice->workResult = startResult; + ma_event_signal(&pDevice->startEvent); /* <-- Always signal the start event so ma_device_start() can return as it'll be waiting on it. */ + continue; + } + + /* Make sure the state is set appropriately. */ + ma_device__set_state(pDevice, ma_device_state_started); /* <-- Set this before signaling the event so that the state is always guaranteed to be good after ma_device_start() has returned. */ + ma_event_signal(&pDevice->startEvent); + + ma_device__on_notification_started(pDevice); + + if (pDevice->pContext->callbacks.onDeviceDataLoop != NULL) { + pDevice->pContext->callbacks.onDeviceDataLoop(pDevice); + } else { + /* The backend is not using a custom main loop implementation, so now fall back to the blocking read-write implementation. */ + ma_device_audio_thread__default_read_write(pDevice); + } + + /* Getting here means we have broken from the main loop which happens the application has requested that device be stopped. */ + if (pDevice->pContext->callbacks.onDeviceStop != NULL) { + stopResult = pDevice->pContext->callbacks.onDeviceStop(pDevice); + } else { + stopResult = MA_SUCCESS; /* No stop callback with the backend. Just assume successful. */ + } + + /* + After the device has stopped, make sure an event is posted. Don't post a stopped event if + stopping failed. This can happen on some backends when the underlying stream has been + stopped due to the device being physically unplugged or disabled via an OS setting. + */ + if (stopResult == MA_SUCCESS) { + ma_device__on_notification_stopped(pDevice); + } + + /* If we stopped because the device has been uninitialized, abort now. */ + if (ma_device_get_state(pDevice) == ma_device_state_uninitialized) { + break; + } + + /* A function somewhere is waiting for the device to have stopped for real so we need to signal an event to allow it to continue. */ + ma_device__set_state(pDevice, ma_device_state_stopped); + ma_event_signal(&pDevice->stopEvent); + } + +#if defined(MA_WIN32) && !defined(MA_XBOX) + if (CoInitializeResult == S_OK || CoInitializeResult == S_FALSE) { + ma_CoUninitialize(pDevice->pContext); + } +#endif + + return (ma_thread_result)0; +} + + +/* Helper for determining whether or not the given device is initialized. */ +static ma_bool32 ma_device__is_initialized(ma_device* pDevice) +{ + if (pDevice == NULL) { + return MA_FALSE; + } + + return ma_device_get_state(pDevice) != ma_device_state_uninitialized; +} + + +#ifdef MA_WIN32 +static ma_result ma_context_uninit_backend_apis__win32(ma_context* pContext) +{ + /* For some reason UWP complains when CoUninitialize() is called. I'm just not going to call it on UWP. */ + #if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + { + /* TODO: Remove this once the new single threaded backend system is in place in 0.12. */ + #if !defined(MA_XBOX) + { + if (pContext->win32.CoInitializeResult == S_OK || pContext->win32.CoInitializeResult == S_FALSE) { + ma_CoUninitialize(pContext); /* TODO: Remove this once the new single threaded backend system is in place in 0.12. */ + } + } + #endif + + #if defined(MA_WIN32_DESKTOP) + ma_dlclose(ma_context_get_log(pContext), pContext->win32.hUser32DLL); + ma_dlclose(ma_context_get_log(pContext), pContext->win32.hAdvapi32DLL); + #endif + + ma_dlclose(ma_context_get_log(pContext), pContext->win32.hOle32DLL); + } + #else + { + (void)pContext; + } + #endif + + return MA_SUCCESS; +} + +static ma_result ma_context_init_backend_apis__win32(ma_context* pContext) +{ + /* + TODO: Reassess all of this stuff and move everything to the relevant backends. For example, I think + GetForegroundWindow() and GetDesktopWindow() are only used by the DirectSound backend. + */ + #if (defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK)) && !defined(MA_XBOX) + { + #if defined(MA_WIN32_DESKTOP) + { + /* User32.dll */ + pContext->win32.hUser32DLL = ma_dlopen(ma_context_get_log(pContext), "user32.dll"); + if (pContext->win32.hUser32DLL == NULL) { + return MA_FAILED_TO_INIT_BACKEND; + } + + pContext->win32.GetForegroundWindow = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hUser32DLL, "GetForegroundWindow"); + pContext->win32.GetDesktopWindow = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hUser32DLL, "GetDesktopWindow"); + + + /* Advapi32.dll */ + pContext->win32.hAdvapi32DLL = ma_dlopen(ma_context_get_log(pContext), "advapi32.dll"); + if (pContext->win32.hAdvapi32DLL == NULL) { + return MA_FAILED_TO_INIT_BACKEND; + } + + pContext->win32.RegOpenKeyExA = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hAdvapi32DLL, "RegOpenKeyExA"); + pContext->win32.RegCloseKey = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hAdvapi32DLL, "RegCloseKey"); + pContext->win32.RegQueryValueExA = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hAdvapi32DLL, "RegQueryValueExA"); + } + #endif + + /* Ole32.dll */ + pContext->win32.hOle32DLL = ma_dlopen(ma_context_get_log(pContext), "ole32.dll"); + if (pContext->win32.hOle32DLL == NULL) { + return MA_FAILED_TO_INIT_BACKEND; + } + + pContext->win32.CoInitialize = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hOle32DLL, "CoInitialize"); + pContext->win32.CoInitializeEx = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hOle32DLL, "CoInitializeEx"); + pContext->win32.CoUninitialize = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hOle32DLL, "CoUninitialize"); + pContext->win32.CoCreateInstance = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hOle32DLL, "CoCreateInstance"); + pContext->win32.CoTaskMemFree = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hOle32DLL, "CoTaskMemFree"); + pContext->win32.PropVariantClear = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hOle32DLL, "PropVariantClear"); + pContext->win32.StringFromGUID2 = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->win32.hOle32DLL, "StringFromGUID2"); + } + #else + { + (void)pContext; /* Unused. */ + } + #endif + + /* TODO: Remove this once the new single threaded backend system is in place in 0.12. */ + #if !defined(MA_XBOX) + { + pContext->win32.CoInitializeResult = ma_CoInitializeEx(pContext, NULL, MA_COINIT_VALUE); + } + #endif + + return MA_SUCCESS; +} +#else +static ma_result ma_context_uninit_backend_apis__nix(ma_context* pContext) +{ + (void)pContext; + + return MA_SUCCESS; +} + +static ma_result ma_context_init_backend_apis__nix(ma_context* pContext) +{ + (void)pContext; + + return MA_SUCCESS; +} +#endif + +static ma_result ma_context_init_backend_apis(ma_context* pContext) +{ + ma_result result; +#ifdef MA_WIN32 + result = ma_context_init_backend_apis__win32(pContext); +#else + result = ma_context_init_backend_apis__nix(pContext); +#endif + + return result; +} + +static ma_result ma_context_uninit_backend_apis(ma_context* pContext) +{ + ma_result result; +#ifdef MA_WIN32 + result = ma_context_uninit_backend_apis__win32(pContext); +#else + result = ma_context_uninit_backend_apis__nix(pContext); +#endif + + return result; +} + + +/* The default capacity doesn't need to be too big. */ +#ifndef MA_DEFAULT_DEVICE_JOB_QUEUE_CAPACITY +#define MA_DEFAULT_DEVICE_JOB_QUEUE_CAPACITY 32 +#endif + +MA_API ma_device_job_thread_config ma_device_job_thread_config_init(void) +{ + ma_device_job_thread_config config; + + MA_ZERO_OBJECT(&config); + config.noThread = MA_FALSE; + config.jobQueueCapacity = MA_DEFAULT_DEVICE_JOB_QUEUE_CAPACITY; + config.jobQueueFlags = 0; + + return config; +} + + +static ma_thread_result MA_THREADCALL ma_device_job_thread_entry(void* pUserData) +{ + ma_device_job_thread* pJobThread = (ma_device_job_thread*)pUserData; + MA_ASSERT(pJobThread != NULL); + + for (;;) { + ma_result result; + ma_job job; + + result = ma_device_job_thread_next(pJobThread, &job); + if (result != MA_SUCCESS) { + break; + } + + if (job.toc.breakup.code == MA_JOB_TYPE_QUIT) { + break; + } + + ma_job_process(&job); + } + + return (ma_thread_result)0; +} + +MA_API ma_result ma_device_job_thread_init(const ma_device_job_thread_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_device_job_thread* pJobThread) +{ + ma_result result; + ma_job_queue_config jobQueueConfig; + + if (pJobThread == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pJobThread); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + + /* Initialize the job queue before the thread to ensure it's in a valid state. */ + jobQueueConfig = ma_job_queue_config_init(pConfig->jobQueueFlags, pConfig->jobQueueCapacity); + + result = ma_job_queue_init(&jobQueueConfig, pAllocationCallbacks, &pJobThread->jobQueue); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize job queue. */ + } + + + /* The thread needs to be initialized after the job queue to ensure the thread doesn't try to access it prematurely. */ + if (pConfig->noThread == MA_FALSE) { + result = ma_thread_create(&pJobThread->thread, ma_thread_priority_normal, 0, ma_device_job_thread_entry, pJobThread, pAllocationCallbacks); + if (result != MA_SUCCESS) { + ma_job_queue_uninit(&pJobThread->jobQueue, pAllocationCallbacks); + return result; /* Failed to create the job thread. */ + } + + pJobThread->_hasThread = MA_TRUE; + } else { + pJobThread->_hasThread = MA_FALSE; + } + + + return MA_SUCCESS; +} + +MA_API void ma_device_job_thread_uninit(ma_device_job_thread* pJobThread, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pJobThread == NULL) { + return; + } + + /* The first thing to do is post a quit message to the job queue. If we're using a thread we'll need to wait for it. */ + { + ma_job job = ma_job_init(MA_JOB_TYPE_QUIT); + ma_device_job_thread_post(pJobThread, &job); + } + + /* Wait for the thread to terminate naturally. */ + if (pJobThread->_hasThread) { + ma_thread_wait(&pJobThread->thread); + } + + /* At this point the thread should be terminated so we can safely uninitialize the job queue. */ + ma_job_queue_uninit(&pJobThread->jobQueue, pAllocationCallbacks); +} + +MA_API ma_result ma_device_job_thread_post(ma_device_job_thread* pJobThread, const ma_job* pJob) +{ + if (pJobThread == NULL || pJob == NULL) { + return MA_INVALID_ARGS; + } + + return ma_job_queue_post(&pJobThread->jobQueue, pJob); +} + +MA_API ma_result ma_device_job_thread_next(ma_device_job_thread* pJobThread, ma_job* pJob) +{ + if (pJob == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pJob); + + if (pJobThread == NULL) { + return MA_INVALID_ARGS; + } + + return ma_job_queue_next(&pJobThread->jobQueue, pJob); +} + + +MA_API ma_bool32 ma_device_id_equal(const ma_device_id* pA, const ma_device_id* pB) +{ + size_t i; + + if (pA == NULL || pB == NULL) { + return MA_FALSE; + } + + for (i = 0; i < sizeof(ma_device_id); i += 1) { + if (((const char*)pA)[i] != ((const char*)pB)[i]) { + return MA_FALSE; + } + } + + return MA_TRUE; +} + + + +MA_API ma_context_config ma_context_config_init(void) +{ + ma_context_config config; + MA_ZERO_OBJECT(&config); + + return config; +} + +MA_API ma_result ma_context_init(const ma_backend backends[], ma_uint32 backendCount, const ma_context_config* pConfig, ma_context* pContext) +{ + ma_result result; + ma_context_config defaultConfig; + ma_backend defaultBackends[ma_backend_null+1]; + ma_uint32 iBackend; + ma_backend* pBackendsToIterate; + ma_uint32 backendsToIterateCount; + + if (pContext == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pContext); + + /* Always make sure the config is set first to ensure properties are available as soon as possible. */ + if (pConfig == NULL) { + defaultConfig = ma_context_config_init(); + pConfig = &defaultConfig; + } + + /* Allocation callbacks need to come first because they'll be passed around to other areas. */ + result = ma_allocation_callbacks_init_copy(&pContext->allocationCallbacks, &pConfig->allocationCallbacks); + if (result != MA_SUCCESS) { + return result; + } + + /* Get a lot set up first so we can start logging ASAP. */ + if (pConfig->pLog != NULL) { + pContext->pLog = pConfig->pLog; + } else { + result = ma_log_init(&pContext->allocationCallbacks, &pContext->log); + if (result == MA_SUCCESS) { + pContext->pLog = &pContext->log; + } else { + pContext->pLog = NULL; /* Logging is not available. */ + } + } + + pContext->threadPriority = pConfig->threadPriority; + pContext->threadStackSize = pConfig->threadStackSize; + pContext->pUserData = pConfig->pUserData; + + /* Backend APIs need to be initialized first. This is where external libraries will be loaded and linked. */ + result = ma_context_init_backend_apis(pContext); + if (result != MA_SUCCESS) { + return result; + } + + for (iBackend = 0; iBackend <= ma_backend_null; ++iBackend) { + defaultBackends[iBackend] = (ma_backend)iBackend; + } + + pBackendsToIterate = (ma_backend*)backends; + backendsToIterateCount = backendCount; + if (pBackendsToIterate == NULL) { + pBackendsToIterate = (ma_backend*)defaultBackends; + backendsToIterateCount = ma_countof(defaultBackends); + } + + MA_ASSERT(pBackendsToIterate != NULL); + + for (iBackend = 0; iBackend < backendsToIterateCount; iBackend += 1) { + ma_backend backend = pBackendsToIterate[iBackend]; + + /* Make sure all callbacks are reset so we don't accidentally drag in any from previously failed initialization attempts. */ + MA_ZERO_OBJECT(&pContext->callbacks); + + /* These backends are using the new callback system. */ + switch (backend) { + #ifdef MA_HAS_WASAPI + case ma_backend_wasapi: + { + pContext->callbacks.onContextInit = ma_context_init__wasapi; + } break; + #endif + #ifdef MA_HAS_DSOUND + case ma_backend_dsound: + { + pContext->callbacks.onContextInit = ma_context_init__dsound; + } break; + #endif + #ifdef MA_HAS_WINMM + case ma_backend_winmm: + { + pContext->callbacks.onContextInit = ma_context_init__winmm; + } break; + #endif + #ifdef MA_HAS_COREAUDIO + case ma_backend_coreaudio: + { + pContext->callbacks.onContextInit = ma_context_init__coreaudio; + } break; + #endif + #ifdef MA_HAS_SNDIO + case ma_backend_sndio: + { + pContext->callbacks.onContextInit = ma_context_init__sndio; + } break; + #endif + #ifdef MA_HAS_AUDIO4 + case ma_backend_audio4: + { + pContext->callbacks.onContextInit = ma_context_init__audio4; + } break; + #endif + #ifdef MA_HAS_OSS + case ma_backend_oss: + { + pContext->callbacks.onContextInit = ma_context_init__oss; + } break; + #endif + #ifdef MA_HAS_PULSEAUDIO + case ma_backend_pulseaudio: + { + pContext->callbacks.onContextInit = ma_context_init__pulse; + } break; + #endif + #ifdef MA_HAS_ALSA + case ma_backend_alsa: + { + pContext->callbacks.onContextInit = ma_context_init__alsa; + } break; + #endif + #ifdef MA_HAS_JACK + case ma_backend_jack: + { + pContext->callbacks.onContextInit = ma_context_init__jack; + } break; + #endif + #ifdef MA_HAS_AAUDIO + case ma_backend_aaudio: + { + if (ma_is_backend_enabled(backend)) { + pContext->callbacks.onContextInit = ma_context_init__aaudio; + } + } break; + #endif + #ifdef MA_HAS_OPENSL + case ma_backend_opensl: + { + if (ma_is_backend_enabled(backend)) { + pContext->callbacks.onContextInit = ma_context_init__opensl; + } + } break; + #endif + #ifdef MA_HAS_WEBAUDIO + case ma_backend_webaudio: + { + pContext->callbacks.onContextInit = ma_context_init__webaudio; + } break; + #endif + #ifdef MA_HAS_CUSTOM + case ma_backend_custom: + { + /* Slightly different logic for custom backends. Custom backends can optionally set all of their callbacks in the config. */ + pContext->callbacks = pConfig->custom; + } break; + #endif + #ifdef MA_HAS_NULL + case ma_backend_null: + { + pContext->callbacks.onContextInit = ma_context_init__null; + } break; + #endif + + default: break; + } + + if (pContext->callbacks.onContextInit != NULL) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, "Attempting to initialize %s backend...\n", ma_get_backend_name(backend)); + result = pContext->callbacks.onContextInit(pContext, pConfig, &pContext->callbacks); + } else { + /* Getting here means the onContextInit callback is not set which means the backend is not enabled. Special case for the custom backend. */ + if (backend != ma_backend_custom) { + result = MA_BACKEND_NOT_ENABLED; + } else { + #if !defined(MA_HAS_CUSTOM) + result = MA_BACKEND_NOT_ENABLED; + #else + result = MA_NO_BACKEND; + #endif + } + } + + /* If this iteration was successful, return. */ + if (result == MA_SUCCESS) { + result = ma_mutex_init(&pContext->deviceEnumLock); + if (result != MA_SUCCESS) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_WARNING, "Failed to initialize mutex for device enumeration. ma_context_get_devices() is not thread safe.\n"); + } + + result = ma_mutex_init(&pContext->deviceInfoLock); + if (result != MA_SUCCESS) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_WARNING, "Failed to initialize mutex for device info retrieval. ma_context_get_device_info() is not thread safe.\n"); + } + + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, "System Architecture:\n"); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, " Endian: %s\n", ma_is_little_endian() ? "LE" : "BE"); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, " SSE2: %s\n", ma_has_sse2() ? "YES" : "NO"); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, " AVX2: %s\n", ma_has_avx2() ? "YES" : "NO"); + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, " NEON: %s\n", ma_has_neon() ? "YES" : "NO"); + + pContext->backend = backend; + return result; + } else { + if (result == MA_BACKEND_NOT_ENABLED) { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, "%s backend is disabled.\n", ma_get_backend_name(backend)); + } else { + ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_DEBUG, "Failed to initialize %s backend.\n", ma_get_backend_name(backend)); + } + } + } + + /* If we get here it means an error occurred. */ + MA_ZERO_OBJECT(pContext); /* Safety. */ + return MA_NO_BACKEND; +} + +MA_API ma_result ma_context_uninit(ma_context* pContext) +{ + if (pContext == NULL) { + return MA_INVALID_ARGS; + } + + if (pContext->callbacks.onContextUninit != NULL) { + pContext->callbacks.onContextUninit(pContext); + } + + ma_mutex_uninit(&pContext->deviceEnumLock); + ma_mutex_uninit(&pContext->deviceInfoLock); + ma_free(pContext->pDeviceInfos, &pContext->allocationCallbacks); + ma_context_uninit_backend_apis(pContext); + + if (pContext->pLog == &pContext->log) { + ma_log_uninit(&pContext->log); + } + + return MA_SUCCESS; +} + +MA_API size_t ma_context_sizeof(void) +{ + return sizeof(ma_context); +} + + +MA_API ma_log* ma_context_get_log(ma_context* pContext) +{ + if (pContext == NULL) { + return NULL; + } + + return pContext->pLog; +} + + +MA_API ma_result ma_context_enumerate_devices(ma_context* pContext, ma_enum_devices_callback_proc callback, void* pUserData) +{ + ma_result result; + + if (pContext == NULL || callback == NULL) { + return MA_INVALID_ARGS; + } + + if (pContext->callbacks.onContextEnumerateDevices == NULL) { + return MA_INVALID_OPERATION; + } + + ma_mutex_lock(&pContext->deviceEnumLock); + { + result = pContext->callbacks.onContextEnumerateDevices(pContext, callback, pUserData); + } + ma_mutex_unlock(&pContext->deviceEnumLock); + + return result; +} + + +static ma_bool32 ma_context_get_devices__enum_callback(ma_context* pContext, ma_device_type deviceType, const ma_device_info* pInfo, void* pUserData) +{ + /* + We need to insert the device info into our main internal buffer. Where it goes depends on the device type. If it's a capture device + it's just appended to the end. If it's a playback device it's inserted just before the first capture device. + */ + + /* + First make sure we have room. Since the number of devices we add to the list is usually relatively small I've decided to use a + simple fixed size increment for buffer expansion. + */ + const ma_uint32 bufferExpansionCount = 2; + const ma_uint32 totalDeviceInfoCount = pContext->playbackDeviceInfoCount + pContext->captureDeviceInfoCount; + + if (totalDeviceInfoCount >= pContext->deviceInfoCapacity) { + ma_uint32 newCapacity = pContext->deviceInfoCapacity + bufferExpansionCount; + ma_device_info* pNewInfos = (ma_device_info*)ma_realloc(pContext->pDeviceInfos, sizeof(*pContext->pDeviceInfos)*newCapacity, &pContext->allocationCallbacks); + if (pNewInfos == NULL) { + return MA_FALSE; /* Out of memory. */ + } + + pContext->pDeviceInfos = pNewInfos; + pContext->deviceInfoCapacity = newCapacity; + } + + if (deviceType == ma_device_type_playback) { + /* Playback. Insert just before the first capture device. */ + + /* The first thing to do is move all of the capture devices down a slot. */ + ma_uint32 iFirstCaptureDevice = pContext->playbackDeviceInfoCount; + size_t iCaptureDevice; + for (iCaptureDevice = totalDeviceInfoCount; iCaptureDevice > iFirstCaptureDevice; --iCaptureDevice) { + pContext->pDeviceInfos[iCaptureDevice] = pContext->pDeviceInfos[iCaptureDevice-1]; + } + + /* Now just insert where the first capture device was before moving it down a slot. */ + pContext->pDeviceInfos[iFirstCaptureDevice] = *pInfo; + pContext->playbackDeviceInfoCount += 1; + } else { + /* Capture. Insert at the end. */ + pContext->pDeviceInfos[totalDeviceInfoCount] = *pInfo; + pContext->captureDeviceInfoCount += 1; + } + + (void)pUserData; + return MA_TRUE; +} + +MA_API ma_result ma_context_get_devices(ma_context* pContext, ma_device_info** ppPlaybackDeviceInfos, ma_uint32* pPlaybackDeviceCount, ma_device_info** ppCaptureDeviceInfos, ma_uint32* pCaptureDeviceCount) +{ + ma_result result; + + /* Safety. */ + if (ppPlaybackDeviceInfos != NULL) *ppPlaybackDeviceInfos = NULL; + if (pPlaybackDeviceCount != NULL) *pPlaybackDeviceCount = 0; + if (ppCaptureDeviceInfos != NULL) *ppCaptureDeviceInfos = NULL; + if (pCaptureDeviceCount != NULL) *pCaptureDeviceCount = 0; + + if (pContext == NULL) { + return MA_INVALID_ARGS; + } + + if (pContext->callbacks.onContextEnumerateDevices == NULL) { + return MA_INVALID_OPERATION; + } + + /* Note that we don't use ma_context_enumerate_devices() here because we want to do locking at a higher level. */ + ma_mutex_lock(&pContext->deviceEnumLock); + { + /* Reset everything first. */ + pContext->playbackDeviceInfoCount = 0; + pContext->captureDeviceInfoCount = 0; + + /* Now enumerate over available devices. */ + result = pContext->callbacks.onContextEnumerateDevices(pContext, ma_context_get_devices__enum_callback, NULL); + if (result == MA_SUCCESS) { + /* Playback devices. */ + if (ppPlaybackDeviceInfos != NULL) { + *ppPlaybackDeviceInfos = pContext->pDeviceInfos; + } + if (pPlaybackDeviceCount != NULL) { + *pPlaybackDeviceCount = pContext->playbackDeviceInfoCount; + } + + /* Capture devices. */ + if (ppCaptureDeviceInfos != NULL) { + *ppCaptureDeviceInfos = pContext->pDeviceInfos; + /* Capture devices come after playback devices. */ + if (pContext->playbackDeviceInfoCount > 0) { + /* Conditional, because NULL+0 is undefined behavior. */ + *ppCaptureDeviceInfos += pContext->playbackDeviceInfoCount; + } + } + if (pCaptureDeviceCount != NULL) { + *pCaptureDeviceCount = pContext->captureDeviceInfoCount; + } + } + } + ma_mutex_unlock(&pContext->deviceEnumLock); + + return result; +} + +MA_API ma_result ma_context_get_device_info(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_info* pDeviceInfo) +{ + ma_result result; + ma_device_info deviceInfo; + + /* NOTE: Do not clear pDeviceInfo on entry. The reason is the pDeviceID may actually point to pDeviceInfo->id which will break things. */ + if (pContext == NULL || pDeviceInfo == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(&deviceInfo); + + /* Help the backend out by copying over the device ID if we have one. */ + if (pDeviceID != NULL) { + MA_COPY_MEMORY(&deviceInfo.id, pDeviceID, sizeof(*pDeviceID)); + } + + if (pContext->callbacks.onContextGetDeviceInfo == NULL) { + return MA_INVALID_OPERATION; + } + + ma_mutex_lock(&pContext->deviceInfoLock); + { + result = pContext->callbacks.onContextGetDeviceInfo(pContext, deviceType, pDeviceID, &deviceInfo); + } + ma_mutex_unlock(&pContext->deviceInfoLock); + + *pDeviceInfo = deviceInfo; + return result; +} + +MA_API ma_bool32 ma_context_is_loopback_supported(ma_context* pContext) +{ + if (pContext == NULL) { + return MA_FALSE; + } + + return ma_is_loopback_supported(pContext->backend); +} + + +MA_API ma_device_config ma_device_config_init(ma_device_type deviceType) +{ + ma_device_config config; + MA_ZERO_OBJECT(&config); + config.deviceType = deviceType; + config.resampling = ma_resampler_config_init(ma_format_unknown, 0, 0, 0, ma_resample_algorithm_linear); /* Format/channels/rate don't matter here. */ + + return config; +} + +MA_API ma_result ma_device_init(ma_context* pContext, const ma_device_config* pConfig, ma_device* pDevice) +{ + ma_result result; + ma_device_descriptor descriptorPlayback; + ma_device_descriptor descriptorCapture; + + /* The context can be null, in which case we self-manage it. */ + if (pContext == NULL) { + return ma_device_init_ex(NULL, 0, NULL, pConfig, pDevice); + } + + if (pDevice == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pDevice); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + /* Check that we have our callbacks defined. */ + if (pContext->callbacks.onDeviceInit == NULL) { + return MA_INVALID_OPERATION; + } + + /* Basic config validation. */ + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { + if (pConfig->capture.channels > MA_MAX_CHANNELS) { + return MA_INVALID_ARGS; + } + + if (!ma__is_channel_map_valid(pConfig->capture.pChannelMap, pConfig->capture.channels)) { + return MA_INVALID_ARGS; + } + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex || pConfig->deviceType == ma_device_type_loopback) { + if (pConfig->playback.channels > MA_MAX_CHANNELS) { + return MA_INVALID_ARGS; + } + + if (!ma__is_channel_map_valid(pConfig->playback.pChannelMap, pConfig->playback.channels)) { + return MA_INVALID_ARGS; + } + } + + pDevice->pContext = pContext; + + /* Set the user data and log callback ASAP to ensure it is available for the entire initialization process. */ + pDevice->pUserData = pConfig->pUserData; + pDevice->onData = pConfig->dataCallback; + pDevice->onNotification = pConfig->notificationCallback; + pDevice->onStop = pConfig->stopCallback; + + if (pConfig->playback.pDeviceID != NULL) { + MA_COPY_MEMORY(&pDevice->playback.id, pConfig->playback.pDeviceID, sizeof(pDevice->playback.id)); + pDevice->playback.pID = &pDevice->playback.id; + } else { + pDevice->playback.pID = NULL; + } + + if (pConfig->capture.pDeviceID != NULL) { + MA_COPY_MEMORY(&pDevice->capture.id, pConfig->capture.pDeviceID, sizeof(pDevice->capture.id)); + pDevice->capture.pID = &pDevice->capture.id; + } else { + pDevice->capture.pID = NULL; + } + + pDevice->noPreSilencedOutputBuffer = pConfig->noPreSilencedOutputBuffer; + pDevice->noClip = pConfig->noClip; + pDevice->noDisableDenormals = pConfig->noDisableDenormals; + pDevice->noFixedSizedCallback = pConfig->noFixedSizedCallback; + ma_atomic_float_set(&pDevice->masterVolumeFactor, 1); + + pDevice->type = pConfig->deviceType; + pDevice->sampleRate = pConfig->sampleRate; + pDevice->resampling.algorithm = pConfig->resampling.algorithm; + pDevice->resampling.linear.lpfOrder = pConfig->resampling.linear.lpfOrder; + pDevice->resampling.pBackendVTable = pConfig->resampling.pBackendVTable; + pDevice->resampling.pBackendUserData = pConfig->resampling.pBackendUserData; + + pDevice->capture.shareMode = pConfig->capture.shareMode; + pDevice->capture.format = pConfig->capture.format; + pDevice->capture.channels = pConfig->capture.channels; + ma_channel_map_copy_or_default(pDevice->capture.channelMap, ma_countof(pDevice->capture.channelMap), pConfig->capture.pChannelMap, pConfig->capture.channels); + pDevice->capture.channelMixMode = pConfig->capture.channelMixMode; + pDevice->capture.calculateLFEFromSpatialChannels = pConfig->capture.calculateLFEFromSpatialChannels; + + pDevice->playback.shareMode = pConfig->playback.shareMode; + pDevice->playback.format = pConfig->playback.format; + pDevice->playback.channels = pConfig->playback.channels; + ma_channel_map_copy_or_default(pDevice->playback.channelMap, ma_countof(pDevice->playback.channelMap), pConfig->playback.pChannelMap, pConfig->playback.channels); + pDevice->playback.channelMixMode = pConfig->playback.channelMixMode; + pDevice->playback.calculateLFEFromSpatialChannels = pConfig->playback.calculateLFEFromSpatialChannels; + + result = ma_mutex_init(&pDevice->startStopLock); + if (result != MA_SUCCESS) { + return result; + } + + /* + When the device is started, the worker thread is the one that does the actual startup of the backend device. We + use a semaphore to wait for the background thread to finish the work. The same applies for stopping the device. + + Each of these semaphores is released internally by the worker thread when the work is completed. The start + semaphore is also used to wake up the worker thread. + */ + result = ma_event_init(&pDevice->wakeupEvent); + if (result != MA_SUCCESS) { + ma_mutex_uninit(&pDevice->startStopLock); + return result; + } + + result = ma_event_init(&pDevice->startEvent); + if (result != MA_SUCCESS) { + ma_event_uninit(&pDevice->wakeupEvent); + ma_mutex_uninit(&pDevice->startStopLock); + return result; + } + + result = ma_event_init(&pDevice->stopEvent); + if (result != MA_SUCCESS) { + ma_event_uninit(&pDevice->startEvent); + ma_event_uninit(&pDevice->wakeupEvent); + ma_mutex_uninit(&pDevice->startStopLock); + return result; + } + + + MA_ZERO_OBJECT(&descriptorPlayback); + descriptorPlayback.pDeviceID = pConfig->playback.pDeviceID; + descriptorPlayback.shareMode = pConfig->playback.shareMode; + descriptorPlayback.format = pConfig->playback.format; + descriptorPlayback.channels = pConfig->playback.channels; + descriptorPlayback.sampleRate = pConfig->sampleRate; + ma_channel_map_copy_or_default(descriptorPlayback.channelMap, ma_countof(descriptorPlayback.channelMap), pConfig->playback.pChannelMap, pConfig->playback.channels); + descriptorPlayback.periodSizeInFrames = pConfig->periodSizeInFrames; + descriptorPlayback.periodSizeInMilliseconds = pConfig->periodSizeInMilliseconds; + descriptorPlayback.periodCount = pConfig->periods; + + if (descriptorPlayback.periodCount == 0) { + descriptorPlayback.periodCount = MA_DEFAULT_PERIODS; + } + + + MA_ZERO_OBJECT(&descriptorCapture); + descriptorCapture.pDeviceID = pConfig->capture.pDeviceID; + descriptorCapture.shareMode = pConfig->capture.shareMode; + descriptorCapture.format = pConfig->capture.format; + descriptorCapture.channels = pConfig->capture.channels; + descriptorCapture.sampleRate = pConfig->sampleRate; + ma_channel_map_copy_or_default(descriptorCapture.channelMap, ma_countof(descriptorCapture.channelMap), pConfig->capture.pChannelMap, pConfig->capture.channels); + descriptorCapture.periodSizeInFrames = pConfig->periodSizeInFrames; + descriptorCapture.periodSizeInMilliseconds = pConfig->periodSizeInMilliseconds; + descriptorCapture.periodCount = pConfig->periods; + + if (descriptorCapture.periodCount == 0) { + descriptorCapture.periodCount = MA_DEFAULT_PERIODS; + } + + + result = pContext->callbacks.onDeviceInit(pDevice, pConfig, &descriptorPlayback, &descriptorCapture); + if (result != MA_SUCCESS) { + ma_event_uninit(&pDevice->startEvent); + ma_event_uninit(&pDevice->wakeupEvent); + ma_mutex_uninit(&pDevice->startStopLock); + return result; + } + +#if 0 + /* + On output the descriptors will contain the *actual* data format of the device. We need this to know how to convert the data between + the requested format and the internal format. + */ + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex || pConfig->deviceType == ma_device_type_loopback) { + if (!ma_device_descriptor_is_valid(&descriptorCapture)) { + ma_device_uninit(pDevice); + return MA_INVALID_ARGS; + } + + pDevice->capture.internalFormat = descriptorCapture.format; + pDevice->capture.internalChannels = descriptorCapture.channels; + pDevice->capture.internalSampleRate = descriptorCapture.sampleRate; + ma_channel_map_copy(pDevice->capture.internalChannelMap, descriptorCapture.channelMap, descriptorCapture.channels); + pDevice->capture.internalPeriodSizeInFrames = descriptorCapture.periodSizeInFrames; + pDevice->capture.internalPeriods = descriptorCapture.periodCount; + + if (pDevice->capture.internalPeriodSizeInFrames == 0) { + pDevice->capture.internalPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(descriptorCapture.periodSizeInMilliseconds, descriptorCapture.sampleRate); + } + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + if (!ma_device_descriptor_is_valid(&descriptorPlayback)) { + ma_device_uninit(pDevice); + return MA_INVALID_ARGS; + } + + pDevice->playback.internalFormat = descriptorPlayback.format; + pDevice->playback.internalChannels = descriptorPlayback.channels; + pDevice->playback.internalSampleRate = descriptorPlayback.sampleRate; + ma_channel_map_copy(pDevice->playback.internalChannelMap, descriptorPlayback.channelMap, descriptorPlayback.channels); + pDevice->playback.internalPeriodSizeInFrames = descriptorPlayback.periodSizeInFrames; + pDevice->playback.internalPeriods = descriptorPlayback.periodCount; + + if (pDevice->playback.internalPeriodSizeInFrames == 0) { + pDevice->playback.internalPeriodSizeInFrames = ma_calculate_buffer_size_in_frames_from_milliseconds(descriptorPlayback.periodSizeInMilliseconds, descriptorPlayback.sampleRate); + } + } + + + /* + The name of the device can be retrieved from device info. This may be temporary and replaced with a `ma_device_get_info(pDevice, deviceType)` instead. + For loopback devices, we need to retrieve the name of the playback device. + */ + { + ma_device_info deviceInfo; + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex || pConfig->deviceType == ma_device_type_loopback) { + result = ma_device_get_info(pDevice, (pConfig->deviceType == ma_device_type_loopback) ? ma_device_type_playback : ma_device_type_capture, &deviceInfo); + if (result == MA_SUCCESS) { + ma_strncpy_s(pDevice->capture.name, sizeof(pDevice->capture.name), deviceInfo.name, (size_t)-1); + } else { + /* We failed to retrieve the device info. Fall back to a default name. */ + if (descriptorCapture.pDeviceID == NULL) { + ma_strncpy_s(pDevice->capture.name, sizeof(pDevice->capture.name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); + } else { + ma_strncpy_s(pDevice->capture.name, sizeof(pDevice->capture.name), "Capture Device", (size_t)-1); + } + } + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + result = ma_device_get_info(pDevice, ma_device_type_playback, &deviceInfo); + if (result == MA_SUCCESS) { + ma_strncpy_s(pDevice->playback.name, sizeof(pDevice->playback.name), deviceInfo.name, (size_t)-1); + } else { + /* We failed to retrieve the device info. Fall back to a default name. */ + if (descriptorPlayback.pDeviceID == NULL) { + ma_strncpy_s(pDevice->playback.name, sizeof(pDevice->playback.name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); + } else { + ma_strncpy_s(pDevice->playback.name, sizeof(pDevice->playback.name), "Playback Device", (size_t)-1); + } + } + } + } + + + ma_device__post_init_setup(pDevice, pConfig->deviceType); +#endif + + result = ma_device_post_init(pDevice, pConfig->deviceType, &descriptorPlayback, &descriptorCapture); + if (result != MA_SUCCESS) { + ma_device_uninit(pDevice); + return result; + } + + + /* + If we're using fixed sized callbacks we'll need to make use of an intermediary buffer. Needs to + be done after post_init_setup() because we'll need access to the sample rate. + */ + if (pConfig->noFixedSizedCallback == MA_FALSE) { + /* We're using a fixed sized data callback so we'll need an intermediary buffer. */ + ma_uint32 intermediaryBufferCap = pConfig->periodSizeInFrames; + if (intermediaryBufferCap == 0) { + intermediaryBufferCap = ma_calculate_buffer_size_in_frames_from_milliseconds(pConfig->periodSizeInMilliseconds, pDevice->sampleRate); + } + + if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex || pConfig->deviceType == ma_device_type_loopback) { + ma_uint32 intermediaryBufferSizeInBytes; + + pDevice->capture.intermediaryBufferLen = 0; + pDevice->capture.intermediaryBufferCap = intermediaryBufferCap; + if (pDevice->capture.intermediaryBufferCap == 0) { + pDevice->capture.intermediaryBufferCap = pDevice->capture.internalPeriodSizeInFrames; + } + + intermediaryBufferSizeInBytes = pDevice->capture.intermediaryBufferCap * ma_get_bytes_per_frame(pDevice->capture.format, pDevice->capture.channels); + + pDevice->capture.pIntermediaryBuffer = ma_malloc((size_t)intermediaryBufferSizeInBytes, &pContext->allocationCallbacks); + if (pDevice->capture.pIntermediaryBuffer == NULL) { + ma_device_uninit(pDevice); + return MA_OUT_OF_MEMORY; + } + + /* Silence the buffer for safety. */ + ma_silence_pcm_frames(pDevice->capture.pIntermediaryBuffer, pDevice->capture.intermediaryBufferCap, pDevice->capture.format, pDevice->capture.channels); + pDevice->capture.intermediaryBufferLen = pDevice->capture.intermediaryBufferCap; + } + + if (pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) { + ma_uint64 intermediaryBufferSizeInBytes; + + pDevice->playback.intermediaryBufferLen = 0; + if (pConfig->deviceType == ma_device_type_duplex) { + pDevice->playback.intermediaryBufferCap = pDevice->capture.intermediaryBufferCap; /* In duplex mode, make sure the intermediary buffer is always the same size as the capture side. */ + } else { + pDevice->playback.intermediaryBufferCap = intermediaryBufferCap; + if (pDevice->playback.intermediaryBufferCap == 0) { + pDevice->playback.intermediaryBufferCap = pDevice->playback.internalPeriodSizeInFrames; + } + } + + intermediaryBufferSizeInBytes = pDevice->playback.intermediaryBufferCap * ma_get_bytes_per_frame(pDevice->playback.format, pDevice->playback.channels); + + pDevice->playback.pIntermediaryBuffer = ma_malloc((size_t)intermediaryBufferSizeInBytes, &pContext->allocationCallbacks); + if (pDevice->playback.pIntermediaryBuffer == NULL) { + ma_device_uninit(pDevice); + return MA_OUT_OF_MEMORY; + } + + /* Silence the buffer for safety. */ + ma_silence_pcm_frames(pDevice->playback.pIntermediaryBuffer, pDevice->playback.intermediaryBufferCap, pDevice->playback.format, pDevice->playback.channels); + pDevice->playback.intermediaryBufferLen = 0; + } + } else { + /* Not using a fixed sized data callback so no need for an intermediary buffer. */ + } + + + /* Some backends don't require the worker thread. */ + if (!ma_context_is_backend_asynchronous(pContext)) { + /* The worker thread. */ + result = ma_thread_create(&pDevice->thread, pContext->threadPriority, pContext->threadStackSize, ma_worker_thread, pDevice, &pContext->allocationCallbacks); + if (result != MA_SUCCESS) { + ma_device_uninit(pDevice); + return result; + } + + /* Wait for the worker thread to put the device into its stopped state for real. */ + ma_event_wait(&pDevice->stopEvent); + MA_ASSERT(ma_device_get_state(pDevice) == ma_device_state_stopped); + } else { + /* + If the backend is asynchronous and the device is duplex, we'll need an intermediary ring buffer. Note that this needs to be done + after ma_device__post_init_setup(). + */ + if (ma_context_is_backend_asynchronous(pContext)) { + if (pConfig->deviceType == ma_device_type_duplex) { + result = ma_duplex_rb_init(pDevice->capture.format, pDevice->capture.channels, pDevice->sampleRate, pDevice->capture.internalSampleRate, pDevice->capture.internalPeriodSizeInFrames, &pDevice->pContext->allocationCallbacks, &pDevice->duplexRB); + if (result != MA_SUCCESS) { + ma_device_uninit(pDevice); + return result; + } + } + } + + ma_device__set_state(pDevice, ma_device_state_stopped); + } + + /* Log device information. */ + { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[%s]\n", ma_get_backend_name(pDevice->pContext->backend)); + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex || pDevice->type == ma_device_type_loopback) { + char name[MA_MAX_DEVICE_NAME_LENGTH + 1]; + ma_device_get_name(pDevice, ma_device_type_capture, name, sizeof(name), NULL); + + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " %s (%s)\n", name, "Capture"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Format: %s -> %s\n", ma_get_format_name(pDevice->capture.internalFormat), ma_get_format_name(pDevice->capture.format)); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Channels: %d -> %d\n", pDevice->capture.internalChannels, pDevice->capture.channels); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Sample Rate: %d -> %d\n", pDevice->capture.internalSampleRate, pDevice->sampleRate); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Buffer Size: %d*%d (%d)\n", pDevice->capture.internalPeriodSizeInFrames, pDevice->capture.internalPeriods, (pDevice->capture.internalPeriodSizeInFrames * pDevice->capture.internalPeriods)); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Conversion:\n"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Pre Format Conversion: %s\n", pDevice->capture.converter.hasPreFormatConversion ? "YES" : "NO"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Post Format Conversion: %s\n", pDevice->capture.converter.hasPostFormatConversion ? "YES" : "NO"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Channel Routing: %s\n", pDevice->capture.converter.hasChannelConverter ? "YES" : "NO"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Resampling: %s\n", pDevice->capture.converter.hasResampler ? "YES" : "NO"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Passthrough: %s\n", pDevice->capture.converter.isPassthrough ? "YES" : "NO"); + { + char channelMapStr[1024]; + ma_channel_map_to_string(pDevice->capture.internalChannelMap, pDevice->capture.internalChannels, channelMapStr, sizeof(channelMapStr)); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Channel Map In: {%s}\n", channelMapStr); + + ma_channel_map_to_string(pDevice->capture.channelMap, pDevice->capture.channels, channelMapStr, sizeof(channelMapStr)); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Channel Map Out: {%s}\n", channelMapStr); + } + } + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + char name[MA_MAX_DEVICE_NAME_LENGTH + 1]; + ma_device_get_name(pDevice, ma_device_type_playback, name, sizeof(name), NULL); + + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " %s (%s)\n", name, "Playback"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Format: %s -> %s\n", ma_get_format_name(pDevice->playback.format), ma_get_format_name(pDevice->playback.internalFormat)); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Channels: %d -> %d\n", pDevice->playback.channels, pDevice->playback.internalChannels); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Sample Rate: %d -> %d\n", pDevice->sampleRate, pDevice->playback.internalSampleRate); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Buffer Size: %d*%d (%d)\n", pDevice->playback.internalPeriodSizeInFrames, pDevice->playback.internalPeriods, (pDevice->playback.internalPeriodSizeInFrames * pDevice->playback.internalPeriods)); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Conversion:\n"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Pre Format Conversion: %s\n", pDevice->playback.converter.hasPreFormatConversion ? "YES" : "NO"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Post Format Conversion: %s\n", pDevice->playback.converter.hasPostFormatConversion ? "YES" : "NO"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Channel Routing: %s\n", pDevice->playback.converter.hasChannelConverter ? "YES" : "NO"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Resampling: %s\n", pDevice->playback.converter.hasResampler ? "YES" : "NO"); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Passthrough: %s\n", pDevice->playback.converter.isPassthrough ? "YES" : "NO"); + { + char channelMapStr[1024]; + ma_channel_map_to_string(pDevice->playback.channelMap, pDevice->playback.channels, channelMapStr, sizeof(channelMapStr)); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Channel Map In: {%s}\n", channelMapStr); + + ma_channel_map_to_string(pDevice->playback.internalChannelMap, pDevice->playback.internalChannels, channelMapStr, sizeof(channelMapStr)); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Channel Map Out: {%s}\n", channelMapStr); + } + } + } + + MA_ASSERT(ma_device_get_state(pDevice) == ma_device_state_stopped); + return MA_SUCCESS; +} + +MA_API ma_result ma_device_init_ex(const ma_backend backends[], ma_uint32 backendCount, const ma_context_config* pContextConfig, const ma_device_config* pConfig, ma_device* pDevice) +{ + ma_result result; + ma_context* pContext; + ma_backend defaultBackends[ma_backend_null+1]; + ma_uint32 iBackend; + ma_backend* pBackendsToIterate; + ma_uint32 backendsToIterateCount; + ma_allocation_callbacks allocationCallbacks; + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pContextConfig != NULL) { + result = ma_allocation_callbacks_init_copy(&allocationCallbacks, &pContextConfig->allocationCallbacks); + if (result != MA_SUCCESS) { + return result; + } + } else { + allocationCallbacks = ma_allocation_callbacks_init_default(); + } + + pContext = (ma_context*)ma_malloc(sizeof(*pContext), &allocationCallbacks); + if (pContext == NULL) { + return MA_OUT_OF_MEMORY; + } + + for (iBackend = 0; iBackend <= ma_backend_null; ++iBackend) { + defaultBackends[iBackend] = (ma_backend)iBackend; + } + + pBackendsToIterate = (ma_backend*)backends; + backendsToIterateCount = backendCount; + if (pBackendsToIterate == NULL) { + pBackendsToIterate = (ma_backend*)defaultBackends; + backendsToIterateCount = ma_countof(defaultBackends); + } + + result = MA_NO_BACKEND; + + for (iBackend = 0; iBackend < backendsToIterateCount; ++iBackend) { + /* + This is a hack for iOS. If the context config is null, there's a good chance the + `ma_device_init(NULL, &deviceConfig, pDevice);` pattern is being used. In this + case, set the session category based on the device type. + */ + #if defined(MA_APPLE_MOBILE) + ma_context_config contextConfig; + + if (pContextConfig == NULL) { + contextConfig = ma_context_config_init(); + switch (pConfig->deviceType) { + case ma_device_type_duplex: { + contextConfig.coreaudio.sessionCategory = ma_ios_session_category_play_and_record; + } break; + case ma_device_type_capture: { + contextConfig.coreaudio.sessionCategory = ma_ios_session_category_record; + } break; + case ma_device_type_playback: + default: { + contextConfig.coreaudio.sessionCategory = ma_ios_session_category_playback; + } break; + } + + pContextConfig = &contextConfig; + } + #endif + + result = ma_context_init(&pBackendsToIterate[iBackend], 1, pContextConfig, pContext); + if (result == MA_SUCCESS) { + result = ma_device_init(pContext, pConfig, pDevice); + if (result == MA_SUCCESS) { + break; /* Success. */ + } else { + ma_context_uninit(pContext); /* Failure. */ + } + } + } + + if (result != MA_SUCCESS) { + ma_free(pContext, &allocationCallbacks); + return result; + } + + pDevice->isOwnerOfContext = MA_TRUE; + return result; +} + +MA_API void ma_device_uninit(ma_device* pDevice) +{ + if (!ma_device__is_initialized(pDevice)) { + return; + } + + /* + It's possible for the miniaudio side of the device and the backend to not be in sync due to + system-level situations such as the computer being put into sleep mode and the backend not + notifying miniaudio of the fact the device has stopped. It's possible for this to result in a + deadlock due to miniaudio thinking the device is in a running state, when in fact it's not + running at all. For this reason I am no longer explicitly stopping the device. I don't think + this should affect anyone in practice since uninitializing the backend will naturally stop the + device anyway. + */ + #if 0 + { + /* Make sure the device is stopped first. The backends will probably handle this naturally, but I like to do it explicitly for my own sanity. */ + if (ma_device_is_started(pDevice)) { + ma_device_stop(pDevice); + } + } + #endif + + /* Putting the device into an uninitialized state will make the worker thread return. */ + ma_device__set_state(pDevice, ma_device_state_uninitialized); + + /* Wake up the worker thread and wait for it to properly terminate. */ + if (!ma_context_is_backend_asynchronous(pDevice->pContext)) { + ma_event_signal(&pDevice->wakeupEvent); + ma_thread_wait(&pDevice->thread); + } + + if (pDevice->pContext->callbacks.onDeviceUninit != NULL) { + pDevice->pContext->callbacks.onDeviceUninit(pDevice); + } + + + ma_event_uninit(&pDevice->stopEvent); + ma_event_uninit(&pDevice->startEvent); + ma_event_uninit(&pDevice->wakeupEvent); + ma_mutex_uninit(&pDevice->startStopLock); + + if (ma_context_is_backend_asynchronous(pDevice->pContext)) { + if (pDevice->type == ma_device_type_duplex) { + ma_duplex_rb_uninit(&pDevice->duplexRB); + } + } + + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex || pDevice->type == ma_device_type_loopback) { + ma_data_converter_uninit(&pDevice->capture.converter, &pDevice->pContext->allocationCallbacks); + } + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ma_data_converter_uninit(&pDevice->playback.converter, &pDevice->pContext->allocationCallbacks); + } + + if (pDevice->playback.pInputCache != NULL) { + ma_free(pDevice->playback.pInputCache, &pDevice->pContext->allocationCallbacks); + } + + if (pDevice->capture.pIntermediaryBuffer != NULL) { + ma_free(pDevice->capture.pIntermediaryBuffer, &pDevice->pContext->allocationCallbacks); + } + if (pDevice->playback.pIntermediaryBuffer != NULL) { + ma_free(pDevice->playback.pIntermediaryBuffer, &pDevice->pContext->allocationCallbacks); + } + + if (pDevice->isOwnerOfContext) { + ma_allocation_callbacks allocationCallbacks = pDevice->pContext->allocationCallbacks; + + ma_context_uninit(pDevice->pContext); + ma_free(pDevice->pContext, &allocationCallbacks); + } + + MA_ZERO_OBJECT(pDevice); +} + +MA_API ma_context* ma_device_get_context(ma_device* pDevice) +{ + if (pDevice == NULL) { + return NULL; + } + + return pDevice->pContext; +} + +MA_API ma_log* ma_device_get_log(ma_device* pDevice) +{ + return ma_context_get_log(ma_device_get_context(pDevice)); +} + +MA_API ma_result ma_device_get_info(ma_device* pDevice, ma_device_type type, ma_device_info* pDeviceInfo) +{ + if (pDeviceInfo == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pDeviceInfo); + + if (pDevice == NULL) { + return MA_INVALID_ARGS; + } + + /* If the onDeviceGetInfo() callback is set, use that. Otherwise we'll fall back to ma_context_get_device_info(). */ + if (pDevice->pContext->callbacks.onDeviceGetInfo != NULL) { + return pDevice->pContext->callbacks.onDeviceGetInfo(pDevice, type, pDeviceInfo); + } + + /* Getting here means onDeviceGetInfo is not implemented so we need to fall back to an alternative. */ + if (type == ma_device_type_playback) { + return ma_context_get_device_info(pDevice->pContext, type, pDevice->playback.pID, pDeviceInfo); + } else { + /* + Here we're getting the capture side, which is the branch we'll be entering for a loopback + device, since loopback is capturing. However, if the device is using the default device ID, + it won't get the correct information because it'll think we're asking for the default + capture device, where in fact for loopback we want the default *playback* device. We'll do + a bit of a hack here to make sure we get the correct info. + */ + if (pDevice->type == ma_device_type_loopback && pDevice->capture.pID == NULL) { + type = ma_device_type_playback; + } + + return ma_context_get_device_info(pDevice->pContext, type, pDevice->capture.pID, pDeviceInfo); + } +} + +MA_API ma_result ma_device_get_name(ma_device* pDevice, ma_device_type type, char* pName, size_t nameCap, size_t* pLengthNotIncludingNullTerminator) +{ + ma_result result; + ma_device_info deviceInfo; + + if (pLengthNotIncludingNullTerminator != NULL) { + *pLengthNotIncludingNullTerminator = 0; + } + + if (pName != NULL && nameCap > 0) { + pName[0] = '\0'; + } + + result = ma_device_get_info(pDevice, type, &deviceInfo); + if (result != MA_SUCCESS) { + return result; + } + + if (pName != NULL) { + ma_strncpy_s(pName, nameCap, deviceInfo.name, (size_t)-1); + + /* + For safety, make sure the length is based on the truncated output string rather than the + source. Otherwise the caller might assume the output buffer contains more content than it + actually does. + */ + if (pLengthNotIncludingNullTerminator != NULL) { + *pLengthNotIncludingNullTerminator = strlen(pName); + } + } else { + /* Name not specified. Just report the length of the source string. */ + if (pLengthNotIncludingNullTerminator != NULL) { + *pLengthNotIncludingNullTerminator = strlen(deviceInfo.name); + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_device_start(ma_device* pDevice) +{ + ma_result result; + + if (pDevice == NULL) { + return MA_INVALID_ARGS; + } + + if (ma_device_get_state(pDevice) == ma_device_state_uninitialized) { + return MA_INVALID_OPERATION; /* Not initialized. */ + } + + if (ma_device_get_state(pDevice) == ma_device_state_started) { + return MA_SUCCESS; /* Already started. */ + } + + ma_mutex_lock(&pDevice->startStopLock); + { + /* + We need to check again if the device is in a started state because it's possible for one thread to have started the device + while another was waiting on the mutex. + */ + if (ma_device_get_state(pDevice) == ma_device_state_started) { + ma_mutex_unlock(&pDevice->startStopLock); + return MA_SUCCESS; /* Already started. */ + } + + /* Starting and stopping are wrapped in a mutex which means we can assert that the device is in a stopped or paused state. */ + MA_ASSERT(ma_device_get_state(pDevice) == ma_device_state_stopped); + + ma_device__set_state(pDevice, ma_device_state_starting); + + /* Asynchronous backends need to be handled differently. */ + if (ma_context_is_backend_asynchronous(pDevice->pContext)) { + if (pDevice->pContext->callbacks.onDeviceStart != NULL) { + result = pDevice->pContext->callbacks.onDeviceStart(pDevice); + } else { + result = MA_INVALID_OPERATION; + } + + if (result == MA_SUCCESS) { + ma_device__set_state(pDevice, ma_device_state_started); + ma_device__on_notification_started(pDevice); + } + } else { + /* + Synchronous backends are started by signaling an event that's being waited on in the worker thread. We first wake up the + thread and then wait for the start event. + */ + ma_event_signal(&pDevice->wakeupEvent); + + /* + Wait for the worker thread to finish starting the device. Note that the worker thread will be the one who puts the device + into the started state. Don't call ma_device__set_state() here. + */ + ma_event_wait(&pDevice->startEvent); + result = pDevice->workResult; + } + + /* We changed the state from stopped to started, so if we failed, make sure we put the state back to stopped. */ + if (result != MA_SUCCESS) { + ma_device__set_state(pDevice, ma_device_state_stopped); + } + } + ma_mutex_unlock(&pDevice->startStopLock); + + return result; +} + +MA_API ma_result ma_device_stop(ma_device* pDevice) +{ + ma_result result; + + if (pDevice == NULL) { + return MA_INVALID_ARGS; + } + + if (ma_device_get_state(pDevice) == ma_device_state_uninitialized) { + return MA_INVALID_OPERATION; /* Not initialized. */ + } + + if (ma_device_get_state(pDevice) == ma_device_state_stopped) { + return MA_SUCCESS; /* Already stopped. */ + } + + ma_mutex_lock(&pDevice->startStopLock); + { + /* + We need to check again if the device is in a stopped state because it's possible for one thread to have stopped the device + while another was waiting on the mutex. + */ + if (ma_device_get_state(pDevice) == ma_device_state_stopped) { + ma_mutex_unlock(&pDevice->startStopLock); + return MA_SUCCESS; /* Already stopped. */ + } + + /* Starting and stopping are wrapped in a mutex which means we can assert that the device is in a started or paused state. */ + MA_ASSERT(ma_device_get_state(pDevice) == ma_device_state_started); + + ma_device__set_state(pDevice, ma_device_state_stopping); + + /* Asynchronous backends need to be handled differently. */ + if (ma_context_is_backend_asynchronous(pDevice->pContext)) { + /* Asynchronous backends must have a stop operation. */ + if (pDevice->pContext->callbacks.onDeviceStop != NULL) { + result = pDevice->pContext->callbacks.onDeviceStop(pDevice); + } else { + result = MA_INVALID_OPERATION; + } + + ma_device__set_state(pDevice, ma_device_state_stopped); + } else { + /* + Synchronous backends. The stop callback is always called from the worker thread. Do not call the stop callback here. If + the backend is implementing its own audio thread loop we'll need to wake it up if required. Note that we need to make + sure the state of the device is *not* playing right now, which it shouldn't be since we set it above. This is super + important though, so I'm asserting it here as well for extra safety in case we accidentally change something later. + */ + MA_ASSERT(ma_device_get_state(pDevice) != ma_device_state_started); + + if (pDevice->pContext->callbacks.onDeviceDataLoopWakeup != NULL) { + pDevice->pContext->callbacks.onDeviceDataLoopWakeup(pDevice); + } + + /* + We need to wait for the worker thread to become available for work before returning. Note that the worker thread will be + the one who puts the device into the stopped state. Don't call ma_device__set_state() here. + */ + ma_event_wait(&pDevice->stopEvent); + result = MA_SUCCESS; + } + + /* + This is a safety measure to ensure the internal buffer has been cleared so any leftover + does not get played the next time the device starts. Ideally this should be drained by + the backend first. + */ + pDevice->playback.intermediaryBufferLen = 0; + pDevice->playback.inputCacheConsumed = 0; + pDevice->playback.inputCacheRemaining = 0; + } + ma_mutex_unlock(&pDevice->startStopLock); + + return result; +} + +MA_API ma_bool32 ma_device_is_started(const ma_device* pDevice) +{ + return ma_device_get_state(pDevice) == ma_device_state_started; +} + +MA_API ma_device_state ma_device_get_state(const ma_device* pDevice) +{ + if (pDevice == NULL) { + return ma_device_state_uninitialized; + } + + return ma_atomic_device_state_get((ma_atomic_device_state*)&pDevice->state); /* Naughty cast to get rid of a const warning. */ +} + +MA_API ma_result ma_device_set_master_volume(ma_device* pDevice, float volume) +{ + if (pDevice == NULL) { + return MA_INVALID_ARGS; + } + + if (volume < 0.0f) { + return MA_INVALID_ARGS; + } + + ma_atomic_float_set(&pDevice->masterVolumeFactor, volume); + + return MA_SUCCESS; +} + +MA_API ma_result ma_device_get_master_volume(ma_device* pDevice, float* pVolume) +{ + if (pVolume == NULL) { + return MA_INVALID_ARGS; + } + + if (pDevice == NULL) { + *pVolume = 0; + return MA_INVALID_ARGS; + } + + *pVolume = ma_atomic_float_get(&pDevice->masterVolumeFactor); + + return MA_SUCCESS; +} + +MA_API ma_result ma_device_set_master_volume_db(ma_device* pDevice, float gainDB) +{ + if (gainDB > 0) { + return MA_INVALID_ARGS; + } + + return ma_device_set_master_volume(pDevice, ma_volume_db_to_linear(gainDB)); +} + +MA_API ma_result ma_device_get_master_volume_db(ma_device* pDevice, float* pGainDB) +{ + float factor; + ma_result result; + + if (pGainDB == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_device_get_master_volume(pDevice, &factor); + if (result != MA_SUCCESS) { + *pGainDB = 0; + return result; + } + + *pGainDB = ma_volume_linear_to_db(factor); + + return MA_SUCCESS; +} + + +MA_API ma_result ma_device_handle_backend_data_callback(ma_device* pDevice, void* pOutput, const void* pInput, ma_uint32 frameCount) +{ + if (pDevice == NULL) { + return MA_INVALID_ARGS; + } + + if (pOutput == NULL && pInput == NULL) { + return MA_INVALID_ARGS; + } + + /* + There is an assert deeper in the code that checks that frameCount > 0. Since this is a public facing + API we'll need to check for that here. I've had reports that AAudio can sometimes post a frame count + of 0. + */ + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + if (pDevice->type == ma_device_type_duplex) { + if (pInput != NULL) { + ma_device__handle_duplex_callback_capture(pDevice, frameCount, pInput, &pDevice->duplexRB.rb); + } + + if (pOutput != NULL) { + ma_device__handle_duplex_callback_playback(pDevice, frameCount, pOutput, &pDevice->duplexRB.rb); + } + } else { + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_loopback) { + if (pInput == NULL) { + return MA_INVALID_ARGS; + } + + ma_device__send_frames_to_client(pDevice, frameCount, pInput); + } + + if (pDevice->type == ma_device_type_playback) { + if (pOutput == NULL) { + return MA_INVALID_ARGS; + } + + ma_device__read_frames_from_client(pDevice, frameCount, pOutput); + } + } + + return MA_SUCCESS; +} + +MA_API ma_uint32 ma_calculate_buffer_size_in_frames_from_descriptor(const ma_device_descriptor* pDescriptor, ma_uint32 nativeSampleRate, ma_performance_profile performanceProfile) +{ + if (pDescriptor == NULL) { + return 0; + } + + /* + We must have a non-0 native sample rate, but some backends don't allow retrieval of this at the + time when the size of the buffer needs to be determined. In this case we need to just take a best + guess and move on. We'll try using the sample rate in pDescriptor first. If that's not set we'll + just fall back to MA_DEFAULT_SAMPLE_RATE. + */ + if (nativeSampleRate == 0) { + nativeSampleRate = pDescriptor->sampleRate; + } + if (nativeSampleRate == 0) { + nativeSampleRate = MA_DEFAULT_SAMPLE_RATE; + } + + MA_ASSERT(nativeSampleRate != 0); + + if (pDescriptor->periodSizeInFrames == 0) { + if (pDescriptor->periodSizeInMilliseconds == 0) { + if (performanceProfile == ma_performance_profile_low_latency) { + return ma_calculate_buffer_size_in_frames_from_milliseconds(MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_LOW_LATENCY, nativeSampleRate); + } else { + return ma_calculate_buffer_size_in_frames_from_milliseconds(MA_DEFAULT_PERIOD_SIZE_IN_MILLISECONDS_CONSERVATIVE, nativeSampleRate); + } + } else { + return ma_calculate_buffer_size_in_frames_from_milliseconds(pDescriptor->periodSizeInMilliseconds, nativeSampleRate); + } + } else { + return pDescriptor->periodSizeInFrames; + } +} +#endif /* MA_NO_DEVICE_IO */ + + +MA_API ma_uint32 ma_calculate_buffer_size_in_milliseconds_from_frames(ma_uint32 bufferSizeInFrames, ma_uint32 sampleRate) +{ + /* Prevent a division by zero. */ + if (sampleRate == 0) { + return 0; + } + + return (bufferSizeInFrames*1000 + (sampleRate - 1)) / sampleRate; +} + +MA_API ma_uint32 ma_calculate_buffer_size_in_frames_from_milliseconds(ma_uint32 bufferSizeInMilliseconds, ma_uint32 sampleRate) +{ + /* Prevent a division by zero. */ + if (sampleRate == 0) { + return 0; + } + + return bufferSizeInMilliseconds*sampleRate / 1000; +} + +MA_API void ma_copy_pcm_frames(void* dst, const void* src, ma_uint64 frameCount, ma_format format, ma_uint32 channels) +{ + if (dst == src) { + return; /* No-op. */ + } + + ma_copy_memory_64(dst, src, frameCount * ma_get_bytes_per_frame(format, channels)); +} + +MA_API void ma_silence_pcm_frames(void* p, ma_uint64 frameCount, ma_format format, ma_uint32 channels) +{ + if (format == ma_format_u8) { + ma_uint64 sampleCount = frameCount * channels; + ma_uint64 iSample; + for (iSample = 0; iSample < sampleCount; iSample += 1) { + ((ma_uint8*)p)[iSample] = 128; + } + } else { + ma_zero_memory_64(p, frameCount * ma_get_bytes_per_frame(format, channels)); + } +} + +MA_API void* ma_offset_pcm_frames_ptr(void* p, ma_uint64 offsetInFrames, ma_format format, ma_uint32 channels) +{ + return ma_offset_ptr(p, offsetInFrames * ma_get_bytes_per_frame(format, channels)); +} + +MA_API const void* ma_offset_pcm_frames_const_ptr(const void* p, ma_uint64 offsetInFrames, ma_format format, ma_uint32 channels) +{ + return ma_offset_ptr(p, offsetInFrames * ma_get_bytes_per_frame(format, channels)); +} + + +MA_API void ma_clip_samples_u8(ma_uint8* pDst, const ma_int16* pSrc, ma_uint64 count) +{ + ma_uint64 iSample; + + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + for (iSample = 0; iSample < count; iSample += 1) { + pDst[iSample] = ma_clip_u8(pSrc[iSample]); + } +} + +MA_API void ma_clip_samples_s16(ma_int16* pDst, const ma_int32* pSrc, ma_uint64 count) +{ + ma_uint64 iSample; + + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + for (iSample = 0; iSample < count; iSample += 1) { + pDst[iSample] = ma_clip_s16(pSrc[iSample]); + } +} + +MA_API void ma_clip_samples_s24(ma_uint8* pDst, const ma_int64* pSrc, ma_uint64 count) +{ + ma_uint64 iSample; + + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + for (iSample = 0; iSample < count; iSample += 1) { + ma_int64 s = ma_clip_s24(pSrc[iSample]); + pDst[iSample*3 + 0] = (ma_uint8)((s & 0x000000FF) >> 0); + pDst[iSample*3 + 1] = (ma_uint8)((s & 0x0000FF00) >> 8); + pDst[iSample*3 + 2] = (ma_uint8)((s & 0x00FF0000) >> 16); + } +} + +MA_API void ma_clip_samples_s32(ma_int32* pDst, const ma_int64* pSrc, ma_uint64 count) +{ + ma_uint64 iSample; + + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + for (iSample = 0; iSample < count; iSample += 1) { + pDst[iSample] = ma_clip_s32(pSrc[iSample]); + } +} + +MA_API void ma_clip_samples_f32(float* pDst, const float* pSrc, ma_uint64 count) +{ + ma_uint64 iSample; + + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + for (iSample = 0; iSample < count; iSample += 1) { + pDst[iSample] = ma_clip_f32(pSrc[iSample]); + } +} + +MA_API void ma_clip_pcm_frames(void* pDst, const void* pSrc, ma_uint64 frameCount, ma_format format, ma_uint32 channels) +{ + ma_uint64 sampleCount; + + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + sampleCount = frameCount * channels; + + switch (format) { + case ma_format_u8: ma_clip_samples_u8( (ma_uint8*)pDst, (const ma_int16*)pSrc, sampleCount); break; + case ma_format_s16: ma_clip_samples_s16((ma_int16*)pDst, (const ma_int32*)pSrc, sampleCount); break; + case ma_format_s24: ma_clip_samples_s24((ma_uint8*)pDst, (const ma_int64*)pSrc, sampleCount); break; + case ma_format_s32: ma_clip_samples_s32((ma_int32*)pDst, (const ma_int64*)pSrc, sampleCount); break; + case ma_format_f32: ma_clip_samples_f32(( float*)pDst, (const float*)pSrc, sampleCount); break; + + /* Do nothing if we don't know the format. We're including these here to silence a compiler warning about enums not being handled by the switch. */ + case ma_format_unknown: + case ma_format_count: + break; + } +} + + +MA_API void ma_copy_and_apply_volume_factor_u8(ma_uint8* pSamplesOut, const ma_uint8* pSamplesIn, ma_uint64 sampleCount, float factor) +{ + ma_uint64 iSample; + + if (pSamplesOut == NULL || pSamplesIn == NULL) { + return; + } + + for (iSample = 0; iSample < sampleCount; iSample += 1) { + pSamplesOut[iSample] = (ma_uint8)(pSamplesIn[iSample] * factor); + } +} + +MA_API void ma_copy_and_apply_volume_factor_s16(ma_int16* pSamplesOut, const ma_int16* pSamplesIn, ma_uint64 sampleCount, float factor) +{ + ma_uint64 iSample; + + if (pSamplesOut == NULL || pSamplesIn == NULL) { + return; + } + + for (iSample = 0; iSample < sampleCount; iSample += 1) { + pSamplesOut[iSample] = (ma_int16)(pSamplesIn[iSample] * factor); + } +} + +MA_API void ma_copy_and_apply_volume_factor_s24(void* pSamplesOut, const void* pSamplesIn, ma_uint64 sampleCount, float factor) +{ + ma_uint64 iSample; + ma_uint8* pSamplesOut8; + ma_uint8* pSamplesIn8; + + if (pSamplesOut == NULL || pSamplesIn == NULL) { + return; + } + + pSamplesOut8 = (ma_uint8*)pSamplesOut; + pSamplesIn8 = (ma_uint8*)pSamplesIn; + + for (iSample = 0; iSample < sampleCount; iSample += 1) { + ma_int32 sampleS32; + + sampleS32 = (ma_int32)(((ma_uint32)(pSamplesIn8[iSample*3+0]) << 8) | ((ma_uint32)(pSamplesIn8[iSample*3+1]) << 16) | ((ma_uint32)(pSamplesIn8[iSample*3+2])) << 24); + sampleS32 = (ma_int32)(sampleS32 * factor); + + pSamplesOut8[iSample*3+0] = (ma_uint8)(((ma_uint32)sampleS32 & 0x0000FF00) >> 8); + pSamplesOut8[iSample*3+1] = (ma_uint8)(((ma_uint32)sampleS32 & 0x00FF0000) >> 16); + pSamplesOut8[iSample*3+2] = (ma_uint8)(((ma_uint32)sampleS32 & 0xFF000000) >> 24); + } +} + +MA_API void ma_copy_and_apply_volume_factor_s32(ma_int32* pSamplesOut, const ma_int32* pSamplesIn, ma_uint64 sampleCount, float factor) +{ + ma_uint64 iSample; + + if (pSamplesOut == NULL || pSamplesIn == NULL) { + return; + } + + for (iSample = 0; iSample < sampleCount; iSample += 1) { + pSamplesOut[iSample] = (ma_int32)(pSamplesIn[iSample] * factor); + } +} + +MA_API void ma_copy_and_apply_volume_factor_f32(float* pSamplesOut, const float* pSamplesIn, ma_uint64 sampleCount, float factor) +{ + ma_uint64 iSample; + + if (pSamplesOut == NULL || pSamplesIn == NULL) { + return; + } + + if (factor == 1) { + if (pSamplesOut == pSamplesIn) { + /* In place. No-op. */ + } else { + /* Just a copy. */ + for (iSample = 0; iSample < sampleCount; iSample += 1) { + pSamplesOut[iSample] = pSamplesIn[iSample]; + } + } + } else { + for (iSample = 0; iSample < sampleCount; iSample += 1) { + pSamplesOut[iSample] = pSamplesIn[iSample] * factor; + } + } +} + +MA_API void ma_apply_volume_factor_u8(ma_uint8* pSamples, ma_uint64 sampleCount, float factor) +{ + ma_copy_and_apply_volume_factor_u8(pSamples, pSamples, sampleCount, factor); +} + +MA_API void ma_apply_volume_factor_s16(ma_int16* pSamples, ma_uint64 sampleCount, float factor) +{ + ma_copy_and_apply_volume_factor_s16(pSamples, pSamples, sampleCount, factor); +} + +MA_API void ma_apply_volume_factor_s24(void* pSamples, ma_uint64 sampleCount, float factor) +{ + ma_copy_and_apply_volume_factor_s24(pSamples, pSamples, sampleCount, factor); +} + +MA_API void ma_apply_volume_factor_s32(ma_int32* pSamples, ma_uint64 sampleCount, float factor) +{ + ma_copy_and_apply_volume_factor_s32(pSamples, pSamples, sampleCount, factor); +} + +MA_API void ma_apply_volume_factor_f32(float* pSamples, ma_uint64 sampleCount, float factor) +{ + ma_copy_and_apply_volume_factor_f32(pSamples, pSamples, sampleCount, factor); +} + +MA_API void ma_copy_and_apply_volume_factor_pcm_frames_u8(ma_uint8* pFramesOut, const ma_uint8* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float factor) +{ + ma_copy_and_apply_volume_factor_u8(pFramesOut, pFramesIn, frameCount*channels, factor); +} + +MA_API void ma_copy_and_apply_volume_factor_pcm_frames_s16(ma_int16* pFramesOut, const ma_int16* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float factor) +{ + ma_copy_and_apply_volume_factor_s16(pFramesOut, pFramesIn, frameCount*channels, factor); +} + +MA_API void ma_copy_and_apply_volume_factor_pcm_frames_s24(void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float factor) +{ + ma_copy_and_apply_volume_factor_s24(pFramesOut, pFramesIn, frameCount*channels, factor); +} + +MA_API void ma_copy_and_apply_volume_factor_pcm_frames_s32(ma_int32* pFramesOut, const ma_int32* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float factor) +{ + ma_copy_and_apply_volume_factor_s32(pFramesOut, pFramesIn, frameCount*channels, factor); +} + +MA_API void ma_copy_and_apply_volume_factor_pcm_frames_f32(float* pFramesOut, const float* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float factor) +{ + ma_copy_and_apply_volume_factor_f32(pFramesOut, pFramesIn, frameCount*channels, factor); +} + +MA_API void ma_copy_and_apply_volume_factor_pcm_frames(void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount, ma_format format, ma_uint32 channels, float factor) +{ + switch (format) + { + case ma_format_u8: ma_copy_and_apply_volume_factor_pcm_frames_u8 ((ma_uint8*)pFramesOut, (const ma_uint8*)pFramesIn, frameCount, channels, factor); return; + case ma_format_s16: ma_copy_and_apply_volume_factor_pcm_frames_s16((ma_int16*)pFramesOut, (const ma_int16*)pFramesIn, frameCount, channels, factor); return; + case ma_format_s24: ma_copy_and_apply_volume_factor_pcm_frames_s24( pFramesOut, pFramesIn, frameCount, channels, factor); return; + case ma_format_s32: ma_copy_and_apply_volume_factor_pcm_frames_s32((ma_int32*)pFramesOut, (const ma_int32*)pFramesIn, frameCount, channels, factor); return; + case ma_format_f32: ma_copy_and_apply_volume_factor_pcm_frames_f32( (float*)pFramesOut, (const float*)pFramesIn, frameCount, channels, factor); return; + default: return; /* Do nothing. */ + } +} + +MA_API void ma_apply_volume_factor_pcm_frames_u8(ma_uint8* pFrames, ma_uint64 frameCount, ma_uint32 channels, float factor) +{ + ma_copy_and_apply_volume_factor_pcm_frames_u8(pFrames, pFrames, frameCount, channels, factor); +} + +MA_API void ma_apply_volume_factor_pcm_frames_s16(ma_int16* pFrames, ma_uint64 frameCount, ma_uint32 channels, float factor) +{ + ma_copy_and_apply_volume_factor_pcm_frames_s16(pFrames, pFrames, frameCount, channels, factor); +} + +MA_API void ma_apply_volume_factor_pcm_frames_s24(void* pFrames, ma_uint64 frameCount, ma_uint32 channels, float factor) +{ + ma_copy_and_apply_volume_factor_pcm_frames_s24(pFrames, pFrames, frameCount, channels, factor); +} + +MA_API void ma_apply_volume_factor_pcm_frames_s32(ma_int32* pFrames, ma_uint64 frameCount, ma_uint32 channels, float factor) +{ + ma_copy_and_apply_volume_factor_pcm_frames_s32(pFrames, pFrames, frameCount, channels, factor); +} + +MA_API void ma_apply_volume_factor_pcm_frames_f32(float* pFrames, ma_uint64 frameCount, ma_uint32 channels, float factor) +{ + ma_copy_and_apply_volume_factor_pcm_frames_f32(pFrames, pFrames, frameCount, channels, factor); +} + +MA_API void ma_apply_volume_factor_pcm_frames(void* pFramesOut, ma_uint64 frameCount, ma_format format, ma_uint32 channels, float factor) +{ + ma_copy_and_apply_volume_factor_pcm_frames(pFramesOut, pFramesOut, frameCount, format, channels, factor); +} + + +MA_API void ma_copy_and_apply_volume_factor_per_channel_f32(float* pFramesOut, const float* pFramesIn, ma_uint64 frameCount, ma_uint32 channels, float* pChannelGains) +{ + ma_uint64 iFrame; + + if (channels == 2) { + /* TODO: Do an optimized implementation for stereo and mono. Can do a SIMD optimized implementation as well. */ + } + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOut[iFrame * channels + iChannel] = pFramesIn[iFrame * channels + iChannel] * pChannelGains[iChannel]; + } + } +} + + + +static MA_INLINE ma_int16 ma_apply_volume_unclipped_u8(ma_int16 x, ma_int16 volume) +{ + return (ma_int16)(((ma_int32)x * (ma_int32)volume) >> 8); +} + +static MA_INLINE ma_int32 ma_apply_volume_unclipped_s16(ma_int32 x, ma_int16 volume) +{ + return (ma_int32)((x * volume) >> 8); +} + +static MA_INLINE ma_int64 ma_apply_volume_unclipped_s24(ma_int64 x, ma_int16 volume) +{ + return (ma_int64)((x * volume) >> 8); +} + +static MA_INLINE ma_int64 ma_apply_volume_unclipped_s32(ma_int64 x, ma_int16 volume) +{ + return (ma_int64)((x * volume) >> 8); +} + +static MA_INLINE float ma_apply_volume_unclipped_f32(float x, float volume) +{ + return x * volume; +} + + +MA_API void ma_copy_and_apply_volume_and_clip_samples_u8(ma_uint8* pDst, const ma_int16* pSrc, ma_uint64 count, float volume) +{ + ma_uint64 iSample; + ma_int16 volumeFixed; + + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + volumeFixed = ma_float_to_fixed_16(volume); + + for (iSample = 0; iSample < count; iSample += 1) { + pDst[iSample] = ma_clip_u8(ma_apply_volume_unclipped_u8(pSrc[iSample], volumeFixed)); + } +} + +MA_API void ma_copy_and_apply_volume_and_clip_samples_s16(ma_int16* pDst, const ma_int32* pSrc, ma_uint64 count, float volume) +{ + ma_uint64 iSample; + ma_int16 volumeFixed; + + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + volumeFixed = ma_float_to_fixed_16(volume); + + for (iSample = 0; iSample < count; iSample += 1) { + pDst[iSample] = ma_clip_s16(ma_apply_volume_unclipped_s16(pSrc[iSample], volumeFixed)); + } +} + +MA_API void ma_copy_and_apply_volume_and_clip_samples_s24(ma_uint8* pDst, const ma_int64* pSrc, ma_uint64 count, float volume) +{ + ma_uint64 iSample; + ma_int16 volumeFixed; + + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + volumeFixed = ma_float_to_fixed_16(volume); + + for (iSample = 0; iSample < count; iSample += 1) { + ma_int64 s = ma_clip_s24(ma_apply_volume_unclipped_s24(pSrc[iSample], volumeFixed)); + pDst[iSample*3 + 0] = (ma_uint8)((s & 0x000000FF) >> 0); + pDst[iSample*3 + 1] = (ma_uint8)((s & 0x0000FF00) >> 8); + pDst[iSample*3 + 2] = (ma_uint8)((s & 0x00FF0000) >> 16); + } +} + +MA_API void ma_copy_and_apply_volume_and_clip_samples_s32(ma_int32* pDst, const ma_int64* pSrc, ma_uint64 count, float volume) +{ + ma_uint64 iSample; + ma_int16 volumeFixed; + + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + volumeFixed = ma_float_to_fixed_16(volume); + + for (iSample = 0; iSample < count; iSample += 1) { + pDst[iSample] = ma_clip_s32(ma_apply_volume_unclipped_s32(pSrc[iSample], volumeFixed)); + } +} + +MA_API void ma_copy_and_apply_volume_and_clip_samples_f32(float* pDst, const float* pSrc, ma_uint64 count, float volume) +{ + ma_uint64 iSample; + + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + /* For the f32 case we need to make sure this supports in-place processing where the input and output buffers are the same. */ + + for (iSample = 0; iSample < count; iSample += 1) { + pDst[iSample] = ma_clip_f32(ma_apply_volume_unclipped_f32(pSrc[iSample], volume)); + } +} + +MA_API void ma_copy_and_apply_volume_and_clip_pcm_frames(void* pDst, const void* pSrc, ma_uint64 frameCount, ma_format format, ma_uint32 channels, float volume) +{ + MA_ASSERT(pDst != NULL); + MA_ASSERT(pSrc != NULL); + + if (volume == 1) { + ma_clip_pcm_frames(pDst, pSrc, frameCount, format, channels); /* Optimized case for volume = 1. */ + } else if (volume == 0) { + ma_silence_pcm_frames(pDst, frameCount, format, channels); /* Optimized case for volume = 0. */ + } else { + ma_uint64 sampleCount = frameCount * channels; + + switch (format) { + case ma_format_u8: ma_copy_and_apply_volume_and_clip_samples_u8( (ma_uint8*)pDst, (const ma_int16*)pSrc, sampleCount, volume); break; + case ma_format_s16: ma_copy_and_apply_volume_and_clip_samples_s16((ma_int16*)pDst, (const ma_int32*)pSrc, sampleCount, volume); break; + case ma_format_s24: ma_copy_and_apply_volume_and_clip_samples_s24((ma_uint8*)pDst, (const ma_int64*)pSrc, sampleCount, volume); break; + case ma_format_s32: ma_copy_and_apply_volume_and_clip_samples_s32((ma_int32*)pDst, (const ma_int64*)pSrc, sampleCount, volume); break; + case ma_format_f32: ma_copy_and_apply_volume_and_clip_samples_f32(( float*)pDst, (const float*)pSrc, sampleCount, volume); break; + + /* Do nothing if we don't know the format. We're including these here to silence a compiler warning about enums not being handled by the switch. */ + case ma_format_unknown: + case ma_format_count: + break; + } + } +} + + + +MA_API float ma_volume_linear_to_db(float factor) +{ + return 20*ma_log10f(factor); +} + +MA_API float ma_volume_db_to_linear(float gain) +{ + return ma_powf(10, gain/20.0f); +} + + +MA_API ma_result ma_mix_pcm_frames_f32(float* pDst, const float* pSrc, ma_uint64 frameCount, ma_uint32 channels, float volume) +{ + ma_uint64 iSample; + ma_uint64 sampleCount; + + if (pDst == NULL || pSrc == NULL || channels == 0) { + return MA_INVALID_ARGS; + } + + if (volume == 0) { + return MA_SUCCESS; /* No changes if the volume is 0. */ + } + + sampleCount = frameCount * channels; + + if (volume == 1) { + for (iSample = 0; iSample < sampleCount; iSample += 1) { + pDst[iSample] += pSrc[iSample]; + } + } else { + for (iSample = 0; iSample < sampleCount; iSample += 1) { + pDst[iSample] += ma_apply_volume_unclipped_f32(pSrc[iSample], volume); + } + } + + return MA_SUCCESS; +} + + + +/************************************************************************************************************************************************************** + +Format Conversion + +**************************************************************************************************************************************************************/ + +static MA_INLINE ma_int16 ma_pcm_sample_f32_to_s16(float x) +{ + return (ma_int16)(x * 32767.0f); +} + +static MA_INLINE ma_int16 ma_pcm_sample_u8_to_s16_no_scale(ma_uint8 x) +{ + return (ma_int16)((ma_int16)x - 128); +} + +static MA_INLINE ma_int64 ma_pcm_sample_s24_to_s32_no_scale(const ma_uint8* x) +{ + return (ma_int64)(((ma_uint64)x[0] << 40) | ((ma_uint64)x[1] << 48) | ((ma_uint64)x[2] << 56)) >> 40; /* Make sure the sign bits are maintained. */ +} + +static MA_INLINE void ma_pcm_sample_s32_to_s24_no_scale(ma_int64 x, ma_uint8* s24) +{ + s24[0] = (ma_uint8)((x & 0x000000FF) >> 0); + s24[1] = (ma_uint8)((x & 0x0000FF00) >> 8); + s24[2] = (ma_uint8)((x & 0x00FF0000) >> 16); +} + + +/* u8 */ +MA_API void ma_pcm_u8_to_u8(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + (void)ditherMode; + ma_copy_memory_64(dst, src, count * sizeof(ma_uint8)); +} + + +static MA_INLINE void ma_pcm_u8_to_s16__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_int16* dst_s16 = (ma_int16*)dst; + const ma_uint8* src_u8 = (const ma_uint8*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int16 x = src_u8[i]; + x = (ma_int16)(x - 128); + x = (ma_int16)(x << 8); + dst_s16[i] = x; + } + + (void)ditherMode; +} + +static MA_INLINE void ma_pcm_u8_to_s16__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_s16__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_u8_to_s16__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_s16__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_u8_to_s16__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_s16__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_u8_to_s16(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_u8_to_s16__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_u8_to_s16__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_u8_to_s16__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_u8_to_s16__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_u8_to_s24__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint8* dst_s24 = (ma_uint8*)dst; + const ma_uint8* src_u8 = (const ma_uint8*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int16 x = src_u8[i]; + x = (ma_int16)(x - 128); + + dst_s24[i*3+0] = 0; + dst_s24[i*3+1] = 0; + dst_s24[i*3+2] = (ma_uint8)((ma_int8)x); + } + + (void)ditherMode; +} + +static MA_INLINE void ma_pcm_u8_to_s24__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_s24__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_u8_to_s24__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_s24__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_u8_to_s24__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_s24__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_u8_to_s24(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_u8_to_s24__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_u8_to_s24__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_u8_to_s24__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_u8_to_s24__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_u8_to_s32__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_int32* dst_s32 = (ma_int32*)dst; + const ma_uint8* src_u8 = (const ma_uint8*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int32 x = src_u8[i]; + x = x - 128; + x = x << 24; + dst_s32[i] = x; + } + + (void)ditherMode; +} + +static MA_INLINE void ma_pcm_u8_to_s32__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_s32__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_u8_to_s32__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_s32__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_u8_to_s32__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_s32__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_u8_to_s32(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_u8_to_s32__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_u8_to_s32__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_u8_to_s32__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_u8_to_s32__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_u8_to_f32__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + float* dst_f32 = (float*)dst; + const ma_uint8* src_u8 = (const ma_uint8*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + float x = (float)src_u8[i]; + x = x * 0.00784313725490196078f; /* 0..255 to 0..2 */ + x = x - 1; /* 0..2 to -1..1 */ + + dst_f32[i] = x; + } + + (void)ditherMode; +} + +static MA_INLINE void ma_pcm_u8_to_f32__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_f32__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_u8_to_f32__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_f32__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_u8_to_f32__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_u8_to_f32__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_u8_to_f32(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_u8_to_f32__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_u8_to_f32__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_u8_to_f32__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_u8_to_f32__optimized(dst, src, count, ditherMode); + } +#endif +} + + +#ifdef MA_USE_REFERENCE_CONVERSION_APIS +static MA_INLINE void ma_pcm_interleave_u8__reference(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_uint8* dst_u8 = (ma_uint8*)dst; + const ma_uint8** src_u8 = (const ma_uint8**)src; + + ma_uint64 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + dst_u8[iFrame*channels + iChannel] = src_u8[iChannel][iFrame]; + } + } +} +#else +static MA_INLINE void ma_pcm_interleave_u8__optimized(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_uint8* dst_u8 = (ma_uint8*)dst; + const ma_uint8** src_u8 = (const ma_uint8**)src; + + if (channels == 1) { + ma_copy_memory_64(dst, src[0], frameCount * sizeof(ma_uint8)); + } else if (channels == 2) { + ma_uint64 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + dst_u8[iFrame*2 + 0] = src_u8[0][iFrame]; + dst_u8[iFrame*2 + 1] = src_u8[1][iFrame]; + } + } else { + ma_uint64 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + dst_u8[iFrame*channels + iChannel] = src_u8[iChannel][iFrame]; + } + } + } +} +#endif + +MA_API void ma_pcm_interleave_u8(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_interleave_u8__reference(dst, src, frameCount, channels); +#else + ma_pcm_interleave_u8__optimized(dst, src, frameCount, channels); +#endif +} + + +static MA_INLINE void ma_pcm_deinterleave_u8__reference(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_uint8** dst_u8 = (ma_uint8**)dst; + const ma_uint8* src_u8 = (const ma_uint8*)src; + + ma_uint64 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + dst_u8[iChannel][iFrame] = src_u8[iFrame*channels + iChannel]; + } + } +} + +static MA_INLINE void ma_pcm_deinterleave_u8__optimized(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_pcm_deinterleave_u8__reference(dst, src, frameCount, channels); +} + +MA_API void ma_pcm_deinterleave_u8(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_deinterleave_u8__reference(dst, src, frameCount, channels); +#else + ma_pcm_deinterleave_u8__optimized(dst, src, frameCount, channels); +#endif +} + + +/* s16 */ +static MA_INLINE void ma_pcm_s16_to_u8__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint8* dst_u8 = (ma_uint8*)dst; + const ma_int16* src_s16 = (const ma_int16*)src; + + if (ditherMode == ma_dither_mode_none) { + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int16 x = src_s16[i]; + x = (ma_int16)(x >> 8); + x = (ma_int16)(x + 128); + dst_u8[i] = (ma_uint8)x; + } + } else { + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int16 x = src_s16[i]; + + /* Dither. Don't overflow. */ + ma_int32 dither = ma_dither_s32(ditherMode, -0x80, 0x7F); + if ((x + dither) <= 0x7FFF) { + x = (ma_int16)(x + dither); + } else { + x = 0x7FFF; + } + + x = (ma_int16)(x >> 8); + x = (ma_int16)(x + 128); + dst_u8[i] = (ma_uint8)x; + } + } +} + +static MA_INLINE void ma_pcm_s16_to_u8__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_u8__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s16_to_u8__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_u8__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s16_to_u8__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_u8__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s16_to_u8(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s16_to_u8__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s16_to_u8__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s16_to_u8__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s16_to_u8__optimized(dst, src, count, ditherMode); + } +#endif +} + + +MA_API void ma_pcm_s16_to_s16(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + (void)ditherMode; + ma_copy_memory_64(dst, src, count * sizeof(ma_int16)); +} + + +static MA_INLINE void ma_pcm_s16_to_s24__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint8* dst_s24 = (ma_uint8*)dst; + const ma_int16* src_s16 = (const ma_int16*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + dst_s24[i*3+0] = 0; + dst_s24[i*3+1] = (ma_uint8)(src_s16[i] & 0xFF); + dst_s24[i*3+2] = (ma_uint8)(src_s16[i] >> 8); + } + + (void)ditherMode; +} + +static MA_INLINE void ma_pcm_s16_to_s24__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_s24__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s16_to_s24__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_s24__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s16_to_s24__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_s24__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s16_to_s24(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s16_to_s24__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s16_to_s24__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s16_to_s24__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s16_to_s24__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_s16_to_s32__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_int32* dst_s32 = (ma_int32*)dst; + const ma_int16* src_s16 = (const ma_int16*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + dst_s32[i] = (ma_int32)src_s16[i] << 16; + } + + (void)ditherMode; +} + +static MA_INLINE void ma_pcm_s16_to_s32__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_s32__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s16_to_s32__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_s32__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s16_to_s32__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_s32__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s16_to_s32(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s16_to_s32__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s16_to_s32__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s16_to_s32__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s16_to_s32__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_s16_to_f32__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + float* dst_f32 = (float*)dst; + const ma_int16* src_s16 = (const ma_int16*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + float x = (float)src_s16[i]; + +#if 0 + /* The accurate way. */ + x = x + 32768.0f; /* -32768..32767 to 0..65535 */ + x = x * 0.00003051804379339284f; /* 0..65535 to 0..2 */ + x = x - 1; /* 0..2 to -1..1 */ +#else + /* The fast way. */ + x = x * 0.000030517578125f; /* -32768..32767 to -1..0.999969482421875 */ +#endif + + dst_f32[i] = x; + } + + (void)ditherMode; +} + +static MA_INLINE void ma_pcm_s16_to_f32__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_f32__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s16_to_f32__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_f32__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s16_to_f32__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s16_to_f32__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s16_to_f32(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s16_to_f32__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s16_to_f32__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s16_to_f32__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s16_to_f32__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_interleave_s16__reference(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_int16* dst_s16 = (ma_int16*)dst; + const ma_int16** src_s16 = (const ma_int16**)src; + + ma_uint64 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + dst_s16[iFrame*channels + iChannel] = src_s16[iChannel][iFrame]; + } + } +} + +static MA_INLINE void ma_pcm_interleave_s16__optimized(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_pcm_interleave_s16__reference(dst, src, frameCount, channels); +} + +MA_API void ma_pcm_interleave_s16(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_interleave_s16__reference(dst, src, frameCount, channels); +#else + ma_pcm_interleave_s16__optimized(dst, src, frameCount, channels); +#endif +} + + +static MA_INLINE void ma_pcm_deinterleave_s16__reference(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_int16** dst_s16 = (ma_int16**)dst; + const ma_int16* src_s16 = (const ma_int16*)src; + + ma_uint64 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + dst_s16[iChannel][iFrame] = src_s16[iFrame*channels + iChannel]; + } + } +} + +static MA_INLINE void ma_pcm_deinterleave_s16__optimized(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_pcm_deinterleave_s16__reference(dst, src, frameCount, channels); +} + +MA_API void ma_pcm_deinterleave_s16(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_deinterleave_s16__reference(dst, src, frameCount, channels); +#else + ma_pcm_deinterleave_s16__optimized(dst, src, frameCount, channels); +#endif +} + + +/* s24 */ +static MA_INLINE void ma_pcm_s24_to_u8__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint8* dst_u8 = (ma_uint8*)dst; + const ma_uint8* src_s24 = (const ma_uint8*)src; + + if (ditherMode == ma_dither_mode_none) { + ma_uint64 i; + for (i = 0; i < count; i += 1) { + dst_u8[i] = (ma_uint8)((ma_int8)src_s24[i*3 + 2] + 128); + } + } else { + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int32 x = (ma_int32)(((ma_uint32)(src_s24[i*3+0]) << 8) | ((ma_uint32)(src_s24[i*3+1]) << 16) | ((ma_uint32)(src_s24[i*3+2])) << 24); + + /* Dither. Don't overflow. */ + ma_int32 dither = ma_dither_s32(ditherMode, -0x800000, 0x7FFFFF); + if ((ma_int64)x + dither <= 0x7FFFFFFF) { + x = x + dither; + } else { + x = 0x7FFFFFFF; + } + + x = x >> 24; + x = x + 128; + dst_u8[i] = (ma_uint8)x; + } + } +} + +static MA_INLINE void ma_pcm_s24_to_u8__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_u8__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s24_to_u8__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_u8__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s24_to_u8__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_u8__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s24_to_u8(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s24_to_u8__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s24_to_u8__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s24_to_u8__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s24_to_u8__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_s24_to_s16__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_int16* dst_s16 = (ma_int16*)dst; + const ma_uint8* src_s24 = (const ma_uint8*)src; + + if (ditherMode == ma_dither_mode_none) { + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_uint16 dst_lo = ((ma_uint16)src_s24[i*3 + 1]); + ma_uint16 dst_hi = (ma_uint16)((ma_uint16)src_s24[i*3 + 2] << 8); + dst_s16[i] = (ma_int16)(dst_lo | dst_hi); + } + } else { + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int32 x = (ma_int32)(((ma_uint32)(src_s24[i*3+0]) << 8) | ((ma_uint32)(src_s24[i*3+1]) << 16) | ((ma_uint32)(src_s24[i*3+2])) << 24); + + /* Dither. Don't overflow. */ + ma_int32 dither = ma_dither_s32(ditherMode, -0x8000, 0x7FFF); + if ((ma_int64)x + dither <= 0x7FFFFFFF) { + x = x + dither; + } else { + x = 0x7FFFFFFF; + } + + x = x >> 16; + dst_s16[i] = (ma_int16)x; + } + } +} + +static MA_INLINE void ma_pcm_s24_to_s16__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_s16__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s24_to_s16__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_s16__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s24_to_s16__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_s16__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s24_to_s16(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s24_to_s16__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s24_to_s16__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s24_to_s16__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s24_to_s16__optimized(dst, src, count, ditherMode); + } +#endif +} + + +MA_API void ma_pcm_s24_to_s24(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + (void)ditherMode; + + ma_copy_memory_64(dst, src, count * 3); +} + + +static MA_INLINE void ma_pcm_s24_to_s32__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_int32* dst_s32 = (ma_int32*)dst; + const ma_uint8* src_s24 = (const ma_uint8*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + dst_s32[i] = (ma_int32)(((ma_uint32)(src_s24[i*3+0]) << 8) | ((ma_uint32)(src_s24[i*3+1]) << 16) | ((ma_uint32)(src_s24[i*3+2])) << 24); + } + + (void)ditherMode; +} + +static MA_INLINE void ma_pcm_s24_to_s32__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_s32__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s24_to_s32__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_s32__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s24_to_s32__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_s32__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s24_to_s32(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s24_to_s32__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s24_to_s32__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s24_to_s32__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s24_to_s32__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_s24_to_f32__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + float* dst_f32 = (float*)dst; + const ma_uint8* src_s24 = (const ma_uint8*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + float x = (float)(((ma_int32)(((ma_uint32)(src_s24[i*3+0]) << 8) | ((ma_uint32)(src_s24[i*3+1]) << 16) | ((ma_uint32)(src_s24[i*3+2])) << 24)) >> 8); + +#if 0 + /* The accurate way. */ + x = x + 8388608.0f; /* -8388608..8388607 to 0..16777215 */ + x = x * 0.00000011920929665621f; /* 0..16777215 to 0..2 */ + x = x - 1; /* 0..2 to -1..1 */ +#else + /* The fast way. */ + x = x * 0.00000011920928955078125f; /* -8388608..8388607 to -1..0.999969482421875 */ +#endif + + dst_f32[i] = x; + } + + (void)ditherMode; +} + +static MA_INLINE void ma_pcm_s24_to_f32__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_f32__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s24_to_f32__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_f32__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s24_to_f32__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s24_to_f32__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s24_to_f32(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s24_to_f32__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s24_to_f32__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s24_to_f32__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s24_to_f32__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_interleave_s24__reference(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_uint8* dst8 = (ma_uint8*)dst; + const ma_uint8** src8 = (const ma_uint8**)src; + + ma_uint64 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + dst8[iFrame*3*channels + iChannel*3 + 0] = src8[iChannel][iFrame*3 + 0]; + dst8[iFrame*3*channels + iChannel*3 + 1] = src8[iChannel][iFrame*3 + 1]; + dst8[iFrame*3*channels + iChannel*3 + 2] = src8[iChannel][iFrame*3 + 2]; + } + } +} + +static MA_INLINE void ma_pcm_interleave_s24__optimized(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_pcm_interleave_s24__reference(dst, src, frameCount, channels); +} + +MA_API void ma_pcm_interleave_s24(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_interleave_s24__reference(dst, src, frameCount, channels); +#else + ma_pcm_interleave_s24__optimized(dst, src, frameCount, channels); +#endif +} + + +static MA_INLINE void ma_pcm_deinterleave_s24__reference(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_uint8** dst8 = (ma_uint8**)dst; + const ma_uint8* src8 = (const ma_uint8*)src; + + ma_uint32 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + dst8[iChannel][iFrame*3 + 0] = src8[iFrame*3*channels + iChannel*3 + 0]; + dst8[iChannel][iFrame*3 + 1] = src8[iFrame*3*channels + iChannel*3 + 1]; + dst8[iChannel][iFrame*3 + 2] = src8[iFrame*3*channels + iChannel*3 + 2]; + } + } +} + +static MA_INLINE void ma_pcm_deinterleave_s24__optimized(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_pcm_deinterleave_s24__reference(dst, src, frameCount, channels); +} + +MA_API void ma_pcm_deinterleave_s24(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_deinterleave_s24__reference(dst, src, frameCount, channels); +#else + ma_pcm_deinterleave_s24__optimized(dst, src, frameCount, channels); +#endif +} + + + +/* s32 */ +static MA_INLINE void ma_pcm_s32_to_u8__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint8* dst_u8 = (ma_uint8*)dst; + const ma_int32* src_s32 = (const ma_int32*)src; + + if (ditherMode == ma_dither_mode_none) { + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int32 x = src_s32[i]; + x = x >> 24; + x = x + 128; + dst_u8[i] = (ma_uint8)x; + } + } else { + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int32 x = src_s32[i]; + + /* Dither. Don't overflow. */ + ma_int32 dither = ma_dither_s32(ditherMode, -0x800000, 0x7FFFFF); + if ((ma_int64)x + dither <= 0x7FFFFFFF) { + x = x + dither; + } else { + x = 0x7FFFFFFF; + } + + x = x >> 24; + x = x + 128; + dst_u8[i] = (ma_uint8)x; + } + } +} + +static MA_INLINE void ma_pcm_s32_to_u8__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_u8__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s32_to_u8__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_u8__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s32_to_u8__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_u8__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s32_to_u8(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s32_to_u8__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s32_to_u8__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s32_to_u8__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s32_to_u8__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_s32_to_s16__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_int16* dst_s16 = (ma_int16*)dst; + const ma_int32* src_s32 = (const ma_int32*)src; + + if (ditherMode == ma_dither_mode_none) { + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int32 x = src_s32[i]; + x = x >> 16; + dst_s16[i] = (ma_int16)x; + } + } else { + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int32 x = src_s32[i]; + + /* Dither. Don't overflow. */ + ma_int32 dither = ma_dither_s32(ditherMode, -0x8000, 0x7FFF); + if ((ma_int64)x + dither <= 0x7FFFFFFF) { + x = x + dither; + } else { + x = 0x7FFFFFFF; + } + + x = x >> 16; + dst_s16[i] = (ma_int16)x; + } + } +} + +static MA_INLINE void ma_pcm_s32_to_s16__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_s16__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s32_to_s16__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_s16__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s32_to_s16__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_s16__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s32_to_s16(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s32_to_s16__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s32_to_s16__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s32_to_s16__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s32_to_s16__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_s32_to_s24__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint8* dst_s24 = (ma_uint8*)dst; + const ma_int32* src_s32 = (const ma_int32*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_uint32 x = (ma_uint32)src_s32[i]; + dst_s24[i*3+0] = (ma_uint8)((x & 0x0000FF00) >> 8); + dst_s24[i*3+1] = (ma_uint8)((x & 0x00FF0000) >> 16); + dst_s24[i*3+2] = (ma_uint8)((x & 0xFF000000) >> 24); + } + + (void)ditherMode; /* No dithering for s32 -> s24. */ +} + +static MA_INLINE void ma_pcm_s32_to_s24__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_s24__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s32_to_s24__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_s24__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s32_to_s24__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_s24__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s32_to_s24(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s32_to_s24__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s32_to_s24__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s32_to_s24__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s32_to_s24__optimized(dst, src, count, ditherMode); + } +#endif +} + + +MA_API void ma_pcm_s32_to_s32(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + (void)ditherMode; + + ma_copy_memory_64(dst, src, count * sizeof(ma_int32)); +} + + +static MA_INLINE void ma_pcm_s32_to_f32__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + float* dst_f32 = (float*)dst; + const ma_int32* src_s32 = (const ma_int32*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + double x = src_s32[i]; + +#if 0 + x = x + 2147483648.0; + x = x * 0.0000000004656612873077392578125; + x = x - 1; +#else + x = x / 2147483648.0; +#endif + + dst_f32[i] = (float)x; + } + + (void)ditherMode; /* No dithering for s32 -> f32. */ +} + +static MA_INLINE void ma_pcm_s32_to_f32__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_f32__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_s32_to_f32__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_f32__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_s32_to_f32__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_s32_to_f32__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_s32_to_f32(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_s32_to_f32__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_s32_to_f32__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_s32_to_f32__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_s32_to_f32__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_interleave_s32__reference(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_int32* dst_s32 = (ma_int32*)dst; + const ma_int32** src_s32 = (const ma_int32**)src; + + ma_uint64 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + dst_s32[iFrame*channels + iChannel] = src_s32[iChannel][iFrame]; + } + } +} + +static MA_INLINE void ma_pcm_interleave_s32__optimized(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_pcm_interleave_s32__reference(dst, src, frameCount, channels); +} + +MA_API void ma_pcm_interleave_s32(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_interleave_s32__reference(dst, src, frameCount, channels); +#else + ma_pcm_interleave_s32__optimized(dst, src, frameCount, channels); +#endif +} + + +static MA_INLINE void ma_pcm_deinterleave_s32__reference(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_int32** dst_s32 = (ma_int32**)dst; + const ma_int32* src_s32 = (const ma_int32*)src; + + ma_uint64 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + dst_s32[iChannel][iFrame] = src_s32[iFrame*channels + iChannel]; + } + } +} + +static MA_INLINE void ma_pcm_deinterleave_s32__optimized(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_pcm_deinterleave_s32__reference(dst, src, frameCount, channels); +} + +MA_API void ma_pcm_deinterleave_s32(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_deinterleave_s32__reference(dst, src, frameCount, channels); +#else + ma_pcm_deinterleave_s32__optimized(dst, src, frameCount, channels); +#endif +} + + +/* f32 */ +static MA_INLINE void ma_pcm_f32_to_u8__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint64 i; + + ma_uint8* dst_u8 = (ma_uint8*)dst; + const float* src_f32 = (const float*)src; + + float ditherMin = 0; + float ditherMax = 0; + if (ditherMode != ma_dither_mode_none) { + ditherMin = 1.0f / -128; + ditherMax = 1.0f / 127; + } + + for (i = 0; i < count; i += 1) { + float x = src_f32[i]; + x = x + ma_dither_f32(ditherMode, ditherMin, ditherMax); + x = ((x < -1) ? -1 : ((x > 1) ? 1 : x)); /* clip */ + x = x + 1; /* -1..1 to 0..2 */ + x = x * 127.5f; /* 0..2 to 0..255 */ + + dst_u8[i] = (ma_uint8)x; + } +} + +static MA_INLINE void ma_pcm_f32_to_u8__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_f32_to_u8__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_f32_to_u8__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_f32_to_u8__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_f32_to_u8__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_f32_to_u8__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_f32_to_u8(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_f32_to_u8__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_f32_to_u8__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_f32_to_u8__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_f32_to_u8__optimized(dst, src, count, ditherMode); + } +#endif +} + +#ifdef MA_USE_REFERENCE_CONVERSION_APIS +static MA_INLINE void ma_pcm_f32_to_s16__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint64 i; + + ma_int16* dst_s16 = (ma_int16*)dst; + const float* src_f32 = (const float*)src; + + float ditherMin = 0; + float ditherMax = 0; + if (ditherMode != ma_dither_mode_none) { + ditherMin = 1.0f / -32768; + ditherMax = 1.0f / 32767; + } + + for (i = 0; i < count; i += 1) { + float x = src_f32[i]; + x = x + ma_dither_f32(ditherMode, ditherMin, ditherMax); + x = ((x < -1) ? -1 : ((x > 1) ? 1 : x)); /* clip */ + +#if 0 + /* The accurate way. */ + x = x + 1; /* -1..1 to 0..2 */ + x = x * 32767.5f; /* 0..2 to 0..65535 */ + x = x - 32768.0f; /* 0...65535 to -32768..32767 */ +#else + /* The fast way. */ + x = x * 32767.0f; /* -1..1 to -32767..32767 */ +#endif + + dst_s16[i] = (ma_int16)x; + } +} +#else +static MA_INLINE void ma_pcm_f32_to_s16__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint64 i; + ma_uint64 i4; + ma_uint64 count4; + + ma_int16* dst_s16 = (ma_int16*)dst; + const float* src_f32 = (const float*)src; + + float ditherMin = 0; + float ditherMax = 0; + if (ditherMode != ma_dither_mode_none) { + ditherMin = 1.0f / -32768; + ditherMax = 1.0f / 32767; + } + + /* Unrolled. */ + i = 0; + count4 = count >> 2; + for (i4 = 0; i4 < count4; i4 += 1) { + float d0 = ma_dither_f32(ditherMode, ditherMin, ditherMax); + float d1 = ma_dither_f32(ditherMode, ditherMin, ditherMax); + float d2 = ma_dither_f32(ditherMode, ditherMin, ditherMax); + float d3 = ma_dither_f32(ditherMode, ditherMin, ditherMax); + + float x0 = src_f32[i+0]; + float x1 = src_f32[i+1]; + float x2 = src_f32[i+2]; + float x3 = src_f32[i+3]; + + x0 = x0 + d0; + x1 = x1 + d1; + x2 = x2 + d2; + x3 = x3 + d3; + + x0 = ((x0 < -1) ? -1 : ((x0 > 1) ? 1 : x0)); + x1 = ((x1 < -1) ? -1 : ((x1 > 1) ? 1 : x1)); + x2 = ((x2 < -1) ? -1 : ((x2 > 1) ? 1 : x2)); + x3 = ((x3 < -1) ? -1 : ((x3 > 1) ? 1 : x3)); + + x0 = x0 * 32767.0f; + x1 = x1 * 32767.0f; + x2 = x2 * 32767.0f; + x3 = x3 * 32767.0f; + + dst_s16[i+0] = (ma_int16)x0; + dst_s16[i+1] = (ma_int16)x1; + dst_s16[i+2] = (ma_int16)x2; + dst_s16[i+3] = (ma_int16)x3; + + i += 4; + } + + /* Leftover. */ + for (; i < count; i += 1) { + float x = src_f32[i]; + x = x + ma_dither_f32(ditherMode, ditherMin, ditherMax); + x = ((x < -1) ? -1 : ((x > 1) ? 1 : x)); /* clip */ + x = x * 32767.0f; /* -1..1 to -32767..32767 */ + + dst_s16[i] = (ma_int16)x; + } +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_f32_to_s16__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint64 i; + ma_uint64 i8; + ma_uint64 count8; + ma_int16* dst_s16; + const float* src_f32; + float ditherMin; + float ditherMax; + + /* Both the input and output buffers need to be aligned to 16 bytes. */ + if ((((ma_uintptr)dst & 15) != 0) || (((ma_uintptr)src & 15) != 0)) { + ma_pcm_f32_to_s16__optimized(dst, src, count, ditherMode); + return; + } + + dst_s16 = (ma_int16*)dst; + src_f32 = (const float*)src; + + ditherMin = 0; + ditherMax = 0; + if (ditherMode != ma_dither_mode_none) { + ditherMin = 1.0f / -32768; + ditherMax = 1.0f / 32767; + } + + i = 0; + + /* SSE2. SSE allows us to output 8 s16's at a time which means our loop is unrolled 8 times. */ + count8 = count >> 3; + for (i8 = 0; i8 < count8; i8 += 1) { + __m128 d0; + __m128 d1; + __m128 x0; + __m128 x1; + + if (ditherMode == ma_dither_mode_none) { + d0 = _mm_set1_ps(0); + d1 = _mm_set1_ps(0); + } else if (ditherMode == ma_dither_mode_rectangle) { + d0 = _mm_set_ps( + ma_dither_f32_rectangle(ditherMin, ditherMax), + ma_dither_f32_rectangle(ditherMin, ditherMax), + ma_dither_f32_rectangle(ditherMin, ditherMax), + ma_dither_f32_rectangle(ditherMin, ditherMax) + ); + d1 = _mm_set_ps( + ma_dither_f32_rectangle(ditherMin, ditherMax), + ma_dither_f32_rectangle(ditherMin, ditherMax), + ma_dither_f32_rectangle(ditherMin, ditherMax), + ma_dither_f32_rectangle(ditherMin, ditherMax) + ); + } else { + d0 = _mm_set_ps( + ma_dither_f32_triangle(ditherMin, ditherMax), + ma_dither_f32_triangle(ditherMin, ditherMax), + ma_dither_f32_triangle(ditherMin, ditherMax), + ma_dither_f32_triangle(ditherMin, ditherMax) + ); + d1 = _mm_set_ps( + ma_dither_f32_triangle(ditherMin, ditherMax), + ma_dither_f32_triangle(ditherMin, ditherMax), + ma_dither_f32_triangle(ditherMin, ditherMax), + ma_dither_f32_triangle(ditherMin, ditherMax) + ); + } + + x0 = *((__m128*)(src_f32 + i) + 0); + x1 = *((__m128*)(src_f32 + i) + 1); + + x0 = _mm_add_ps(x0, d0); + x1 = _mm_add_ps(x1, d1); + + x0 = _mm_mul_ps(x0, _mm_set1_ps(32767.0f)); + x1 = _mm_mul_ps(x1, _mm_set1_ps(32767.0f)); + + _mm_stream_si128(((__m128i*)(dst_s16 + i)), _mm_packs_epi32(_mm_cvttps_epi32(x0), _mm_cvttps_epi32(x1))); + + i += 8; + } + + + /* Leftover. */ + for (; i < count; i += 1) { + float x = src_f32[i]; + x = x + ma_dither_f32(ditherMode, ditherMin, ditherMax); + x = ((x < -1) ? -1 : ((x > 1) ? 1 : x)); /* clip */ + x = x * 32767.0f; /* -1..1 to -32767..32767 */ + + dst_s16[i] = (ma_int16)x; + } +} +#endif /* SSE2 */ + +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_f32_to_s16__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint64 i; + ma_uint64 i8; + ma_uint64 count8; + ma_int16* dst_s16; + const float* src_f32; + float ditherMin; + float ditherMax; + + if (!ma_has_neon()) { + ma_pcm_f32_to_s16__optimized(dst, src, count, ditherMode); + return; + } + + /* Both the input and output buffers need to be aligned to 16 bytes. */ + if ((((ma_uintptr)dst & 15) != 0) || (((ma_uintptr)src & 15) != 0)) { + ma_pcm_f32_to_s16__optimized(dst, src, count, ditherMode); + return; + } + + dst_s16 = (ma_int16*)dst; + src_f32 = (const float*)src; + + ditherMin = 0; + ditherMax = 0; + if (ditherMode != ma_dither_mode_none) { + ditherMin = 1.0f / -32768; + ditherMax = 1.0f / 32767; + } + + i = 0; + + /* NEON. NEON allows us to output 8 s16's at a time which means our loop is unrolled 8 times. */ + count8 = count >> 3; + for (i8 = 0; i8 < count8; i8 += 1) { + float32x4_t d0; + float32x4_t d1; + float32x4_t x0; + float32x4_t x1; + int32x4_t i0; + int32x4_t i1; + + if (ditherMode == ma_dither_mode_none) { + d0 = vmovq_n_f32(0); + d1 = vmovq_n_f32(0); + } else if (ditherMode == ma_dither_mode_rectangle) { + float d0v[4]; + float d1v[4]; + + d0v[0] = ma_dither_f32_rectangle(ditherMin, ditherMax); + d0v[1] = ma_dither_f32_rectangle(ditherMin, ditherMax); + d0v[2] = ma_dither_f32_rectangle(ditherMin, ditherMax); + d0v[3] = ma_dither_f32_rectangle(ditherMin, ditherMax); + d0 = vld1q_f32(d0v); + + d1v[0] = ma_dither_f32_rectangle(ditherMin, ditherMax); + d1v[1] = ma_dither_f32_rectangle(ditherMin, ditherMax); + d1v[2] = ma_dither_f32_rectangle(ditherMin, ditherMax); + d1v[3] = ma_dither_f32_rectangle(ditherMin, ditherMax); + d1 = vld1q_f32(d1v); + } else { + float d0v[4]; + float d1v[4]; + + d0v[0] = ma_dither_f32_triangle(ditherMin, ditherMax); + d0v[1] = ma_dither_f32_triangle(ditherMin, ditherMax); + d0v[2] = ma_dither_f32_triangle(ditherMin, ditherMax); + d0v[3] = ma_dither_f32_triangle(ditherMin, ditherMax); + d0 = vld1q_f32(d0v); + + d1v[0] = ma_dither_f32_triangle(ditherMin, ditherMax); + d1v[1] = ma_dither_f32_triangle(ditherMin, ditherMax); + d1v[2] = ma_dither_f32_triangle(ditherMin, ditherMax); + d1v[3] = ma_dither_f32_triangle(ditherMin, ditherMax); + d1 = vld1q_f32(d1v); + } + + x0 = *((float32x4_t*)(src_f32 + i) + 0); + x1 = *((float32x4_t*)(src_f32 + i) + 1); + + x0 = vaddq_f32(x0, d0); + x1 = vaddq_f32(x1, d1); + + x0 = vmulq_n_f32(x0, 32767.0f); + x1 = vmulq_n_f32(x1, 32767.0f); + + i0 = vcvtq_s32_f32(x0); + i1 = vcvtq_s32_f32(x1); + *((int16x8_t*)(dst_s16 + i)) = vcombine_s16(vqmovn_s32(i0), vqmovn_s32(i1)); + + i += 8; + } + + + /* Leftover. */ + for (; i < count; i += 1) { + float x = src_f32[i]; + x = x + ma_dither_f32(ditherMode, ditherMin, ditherMax); + x = ((x < -1) ? -1 : ((x > 1) ? 1 : x)); /* clip */ + x = x * 32767.0f; /* -1..1 to -32767..32767 */ + + dst_s16[i] = (ma_int16)x; + } +} +#endif /* Neon */ +#endif /* MA_USE_REFERENCE_CONVERSION_APIS */ + +MA_API void ma_pcm_f32_to_s16(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_f32_to_s16__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_f32_to_s16__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_f32_to_s16__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_f32_to_s16__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_f32_to_s24__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_uint8* dst_s24 = (ma_uint8*)dst; + const float* src_f32 = (const float*)src; + + ma_uint64 i; + for (i = 0; i < count; i += 1) { + ma_int32 r; + float x = src_f32[i]; + x = ((x < -1) ? -1 : ((x > 1) ? 1 : x)); /* clip */ + +#if 0 + /* The accurate way. */ + x = x + 1; /* -1..1 to 0..2 */ + x = x * 8388607.5f; /* 0..2 to 0..16777215 */ + x = x - 8388608.0f; /* 0..16777215 to -8388608..8388607 */ +#else + /* The fast way. */ + x = x * 8388607.0f; /* -1..1 to -8388607..8388607 */ +#endif + + r = (ma_int32)x; + dst_s24[(i*3)+0] = (ma_uint8)((r & 0x0000FF) >> 0); + dst_s24[(i*3)+1] = (ma_uint8)((r & 0x00FF00) >> 8); + dst_s24[(i*3)+2] = (ma_uint8)((r & 0xFF0000) >> 16); + } + + (void)ditherMode; /* No dithering for f32 -> s24. */ +} + +static MA_INLINE void ma_pcm_f32_to_s24__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_f32_to_s24__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_f32_to_s24__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_f32_to_s24__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_f32_to_s24__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_f32_to_s24__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_f32_to_s24(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_f32_to_s24__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_f32_to_s24__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_f32_to_s24__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_f32_to_s24__optimized(dst, src, count, ditherMode); + } +#endif +} + + +static MA_INLINE void ma_pcm_f32_to_s32__reference(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_int32* dst_s32 = (ma_int32*)dst; + const float* src_f32 = (const float*)src; + + ma_uint32 i; + for (i = 0; i < count; i += 1) { + double x = src_f32[i]; + x = ((x < -1) ? -1 : ((x > 1) ? 1 : x)); /* clip */ + +#if 0 + /* The accurate way. */ + x = x + 1; /* -1..1 to 0..2 */ + x = x * 2147483647.5; /* 0..2 to 0..4294967295 */ + x = x - 2147483648.0; /* 0...4294967295 to -2147483648..2147483647 */ +#else + /* The fast way. */ + x = x * 2147483647.0; /* -1..1 to -2147483647..2147483647 */ +#endif + + dst_s32[i] = (ma_int32)x; + } + + (void)ditherMode; /* No dithering for f32 -> s32. */ +} + +static MA_INLINE void ma_pcm_f32_to_s32__optimized(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_f32_to_s32__reference(dst, src, count, ditherMode); +} + +#if defined(MA_SUPPORT_SSE2) +static MA_INLINE void ma_pcm_f32_to_s32__sse2(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_f32_to_s32__optimized(dst, src, count, ditherMode); +} +#endif +#if defined(MA_SUPPORT_NEON) +static MA_INLINE void ma_pcm_f32_to_s32__neon(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + ma_pcm_f32_to_s32__optimized(dst, src, count, ditherMode); +} +#endif + +MA_API void ma_pcm_f32_to_s32(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_f32_to_s32__reference(dst, src, count, ditherMode); +#else + # if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_pcm_f32_to_s32__sse2(dst, src, count, ditherMode); + } else + #elif defined(MA_SUPPORT_NEON) + if (ma_has_neon()) { + ma_pcm_f32_to_s32__neon(dst, src, count, ditherMode); + } else + #endif + { + ma_pcm_f32_to_s32__optimized(dst, src, count, ditherMode); + } +#endif +} + + +MA_API void ma_pcm_f32_to_f32(void* dst, const void* src, ma_uint64 count, ma_dither_mode ditherMode) +{ + (void)ditherMode; + + ma_copy_memory_64(dst, src, count * sizeof(float)); +} + + +static void ma_pcm_interleave_f32__reference(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ + float* dst_f32 = (float*)dst; + const float** src_f32 = (const float**)src; + + ma_uint64 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + dst_f32[iFrame*channels + iChannel] = src_f32[iChannel][iFrame]; + } + } +} + +static void ma_pcm_interleave_f32__optimized(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_pcm_interleave_f32__reference(dst, src, frameCount, channels); +} + +MA_API void ma_pcm_interleave_f32(void* dst, const void** src, ma_uint64 frameCount, ma_uint32 channels) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_interleave_f32__reference(dst, src, frameCount, channels); +#else + ma_pcm_interleave_f32__optimized(dst, src, frameCount, channels); +#endif +} + + +static void ma_pcm_deinterleave_f32__reference(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ + float** dst_f32 = (float**)dst; + const float* src_f32 = (const float*)src; + + ma_uint64 iFrame; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; iChannel += 1) { + dst_f32[iChannel][iFrame] = src_f32[iFrame*channels + iChannel]; + } + } +} + +static void ma_pcm_deinterleave_f32__optimized(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ + ma_pcm_deinterleave_f32__reference(dst, src, frameCount, channels); +} + +MA_API void ma_pcm_deinterleave_f32(void** dst, const void* src, ma_uint64 frameCount, ma_uint32 channels) +{ +#ifdef MA_USE_REFERENCE_CONVERSION_APIS + ma_pcm_deinterleave_f32__reference(dst, src, frameCount, channels); +#else + ma_pcm_deinterleave_f32__optimized(dst, src, frameCount, channels); +#endif +} + + +MA_API void ma_pcm_convert(void* pOut, ma_format formatOut, const void* pIn, ma_format formatIn, ma_uint64 sampleCount, ma_dither_mode ditherMode) +{ + if (formatOut == formatIn) { + ma_copy_memory_64(pOut, pIn, sampleCount * ma_get_bytes_per_sample(formatOut)); + return; + } + + switch (formatIn) + { + case ma_format_u8: + { + switch (formatOut) + { + case ma_format_s16: ma_pcm_u8_to_s16(pOut, pIn, sampleCount, ditherMode); return; + case ma_format_s24: ma_pcm_u8_to_s24(pOut, pIn, sampleCount, ditherMode); return; + case ma_format_s32: ma_pcm_u8_to_s32(pOut, pIn, sampleCount, ditherMode); return; + case ma_format_f32: ma_pcm_u8_to_f32(pOut, pIn, sampleCount, ditherMode); return; + default: break; + } + } break; + + case ma_format_s16: + { + switch (formatOut) + { + case ma_format_u8: ma_pcm_s16_to_u8( pOut, pIn, sampleCount, ditherMode); return; + case ma_format_s24: ma_pcm_s16_to_s24(pOut, pIn, sampleCount, ditherMode); return; + case ma_format_s32: ma_pcm_s16_to_s32(pOut, pIn, sampleCount, ditherMode); return; + case ma_format_f32: ma_pcm_s16_to_f32(pOut, pIn, sampleCount, ditherMode); return; + default: break; + } + } break; + + case ma_format_s24: + { + switch (formatOut) + { + case ma_format_u8: ma_pcm_s24_to_u8( pOut, pIn, sampleCount, ditherMode); return; + case ma_format_s16: ma_pcm_s24_to_s16(pOut, pIn, sampleCount, ditherMode); return; + case ma_format_s32: ma_pcm_s24_to_s32(pOut, pIn, sampleCount, ditherMode); return; + case ma_format_f32: ma_pcm_s24_to_f32(pOut, pIn, sampleCount, ditherMode); return; + default: break; + } + } break; + + case ma_format_s32: + { + switch (formatOut) + { + case ma_format_u8: ma_pcm_s32_to_u8( pOut, pIn, sampleCount, ditherMode); return; + case ma_format_s16: ma_pcm_s32_to_s16(pOut, pIn, sampleCount, ditherMode); return; + case ma_format_s24: ma_pcm_s32_to_s24(pOut, pIn, sampleCount, ditherMode); return; + case ma_format_f32: ma_pcm_s32_to_f32(pOut, pIn, sampleCount, ditherMode); return; + default: break; + } + } break; + + case ma_format_f32: + { + switch (formatOut) + { + case ma_format_u8: ma_pcm_f32_to_u8( pOut, pIn, sampleCount, ditherMode); return; + case ma_format_s16: ma_pcm_f32_to_s16(pOut, pIn, sampleCount, ditherMode); return; + case ma_format_s24: ma_pcm_f32_to_s24(pOut, pIn, sampleCount, ditherMode); return; + case ma_format_s32: ma_pcm_f32_to_s32(pOut, pIn, sampleCount, ditherMode); return; + default: break; + } + } break; + + default: break; + } +} + +MA_API void ma_convert_pcm_frames_format(void* pOut, ma_format formatOut, const void* pIn, ma_format formatIn, ma_uint64 frameCount, ma_uint32 channels, ma_dither_mode ditherMode) +{ + ma_pcm_convert(pOut, formatOut, pIn, formatIn, frameCount * channels, ditherMode); +} + +MA_API void ma_deinterleave_pcm_frames(ma_format format, ma_uint32 channels, ma_uint64 frameCount, const void* pInterleavedPCMFrames, void** ppDeinterleavedPCMFrames) +{ + if (pInterleavedPCMFrames == NULL || ppDeinterleavedPCMFrames == NULL) { + return; /* Invalid args. */ + } + + /* For efficiency we do this per format. */ + switch (format) { + case ma_format_s16: + { + const ma_int16* pSrcS16 = (const ma_int16*)pInterleavedPCMFrames; + ma_uint64 iPCMFrame; + for (iPCMFrame = 0; iPCMFrame < frameCount; ++iPCMFrame) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; ++iChannel) { + ma_int16* pDstS16 = (ma_int16*)ppDeinterleavedPCMFrames[iChannel]; + pDstS16[iPCMFrame] = pSrcS16[iPCMFrame*channels+iChannel]; + } + } + } break; + + case ma_format_f32: + { + const float* pSrcF32 = (const float*)pInterleavedPCMFrames; + ma_uint64 iPCMFrame; + for (iPCMFrame = 0; iPCMFrame < frameCount; ++iPCMFrame) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; ++iChannel) { + float* pDstF32 = (float*)ppDeinterleavedPCMFrames[iChannel]; + pDstF32[iPCMFrame] = pSrcF32[iPCMFrame*channels+iChannel]; + } + } + } break; + + default: + { + ma_uint32 sampleSizeInBytes = ma_get_bytes_per_sample(format); + ma_uint64 iPCMFrame; + for (iPCMFrame = 0; iPCMFrame < frameCount; ++iPCMFrame) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; ++iChannel) { + void* pDst = ma_offset_ptr(ppDeinterleavedPCMFrames[iChannel], iPCMFrame*sampleSizeInBytes); + const void* pSrc = ma_offset_ptr(pInterleavedPCMFrames, (iPCMFrame*channels+iChannel)*sampleSizeInBytes); + memcpy(pDst, pSrc, sampleSizeInBytes); + } + } + } break; + } +} + +MA_API void ma_interleave_pcm_frames(ma_format format, ma_uint32 channels, ma_uint64 frameCount, const void** ppDeinterleavedPCMFrames, void* pInterleavedPCMFrames) +{ + switch (format) + { + case ma_format_s16: + { + ma_int16* pDstS16 = (ma_int16*)pInterleavedPCMFrames; + ma_uint64 iPCMFrame; + for (iPCMFrame = 0; iPCMFrame < frameCount; ++iPCMFrame) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; ++iChannel) { + const ma_int16* pSrcS16 = (const ma_int16*)ppDeinterleavedPCMFrames[iChannel]; + pDstS16[iPCMFrame*channels+iChannel] = pSrcS16[iPCMFrame]; + } + } + } break; + + case ma_format_f32: + { + float* pDstF32 = (float*)pInterleavedPCMFrames; + ma_uint64 iPCMFrame; + for (iPCMFrame = 0; iPCMFrame < frameCount; ++iPCMFrame) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; ++iChannel) { + const float* pSrcF32 = (const float*)ppDeinterleavedPCMFrames[iChannel]; + pDstF32[iPCMFrame*channels+iChannel] = pSrcF32[iPCMFrame]; + } + } + } break; + + default: + { + ma_uint32 sampleSizeInBytes = ma_get_bytes_per_sample(format); + ma_uint64 iPCMFrame; + for (iPCMFrame = 0; iPCMFrame < frameCount; ++iPCMFrame) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; ++iChannel) { + void* pDst = ma_offset_ptr(pInterleavedPCMFrames, (iPCMFrame*channels+iChannel)*sampleSizeInBytes); + const void* pSrc = ma_offset_ptr(ppDeinterleavedPCMFrames[iChannel], iPCMFrame*sampleSizeInBytes); + memcpy(pDst, pSrc, sampleSizeInBytes); + } + } + } break; + } +} + + +/************************************************************************************************************************************************************** + +Biquad Filter + +**************************************************************************************************************************************************************/ +#ifndef MA_BIQUAD_FIXED_POINT_SHIFT +#define MA_BIQUAD_FIXED_POINT_SHIFT 14 +#endif + +static ma_int32 ma_biquad_float_to_fp(double x) +{ + return (ma_int32)(x * (1 << MA_BIQUAD_FIXED_POINT_SHIFT)); +} + +MA_API ma_biquad_config ma_biquad_config_init(ma_format format, ma_uint32 channels, double b0, double b1, double b2, double a0, double a1, double a2) +{ + ma_biquad_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.b0 = b0; + config.b1 = b1; + config.b2 = b2; + config.a0 = a0; + config.a1 = a1; + config.a2 = a2; + + return config; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t r1Offset; + size_t r2Offset; +} ma_biquad_heap_layout; + +static ma_result ma_biquad_get_heap_layout(const ma_biquad_config* pConfig, ma_biquad_heap_layout* pHeapLayout) +{ + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->channels == 0) { + return MA_INVALID_ARGS; + } + + pHeapLayout->sizeInBytes = 0; + + /* R0 */ + pHeapLayout->r1Offset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += sizeof(ma_biquad_coefficient) * pConfig->channels; + + /* R1 */ + pHeapLayout->r2Offset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += sizeof(ma_biquad_coefficient) * pConfig->channels; + + /* Make sure allocation size is aligned. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + +MA_API ma_result ma_biquad_get_heap_size(const ma_biquad_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_biquad_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_biquad_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_biquad_init_preallocated(const ma_biquad_config* pConfig, void* pHeap, ma_biquad* pBQ) +{ + ma_result result; + ma_biquad_heap_layout heapLayout; + + if (pBQ == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pBQ); + + result = ma_biquad_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pBQ->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pBQ->pR1 = (ma_biquad_coefficient*)ma_offset_ptr(pHeap, heapLayout.r1Offset); + pBQ->pR2 = (ma_biquad_coefficient*)ma_offset_ptr(pHeap, heapLayout.r2Offset); + + return ma_biquad_reinit(pConfig, pBQ); +} + +MA_API ma_result ma_biquad_init(const ma_biquad_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_biquad* pBQ) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_biquad_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_biquad_init_preallocated(pConfig, pHeap, pBQ); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pBQ->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_biquad_uninit(ma_biquad* pBQ, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pBQ == NULL) { + return; + } + + if (pBQ->_ownsHeap) { + ma_free(pBQ->_pHeap, pAllocationCallbacks); + } +} + +MA_API ma_result ma_biquad_reinit(const ma_biquad_config* pConfig, ma_biquad* pBQ) +{ + if (pBQ == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->a0 == 0) { + return MA_INVALID_ARGS; /* Division by zero. */ + } + + /* Only supporting f32 and s16. */ + if (pConfig->format != ma_format_f32 && pConfig->format != ma_format_s16) { + return MA_INVALID_ARGS; + } + + /* The format cannot be changed after initialization. */ + if (pBQ->format != ma_format_unknown && pBQ->format != pConfig->format) { + return MA_INVALID_OPERATION; + } + + /* The channel count cannot be changed after initialization. */ + if (pBQ->channels != 0 && pBQ->channels != pConfig->channels) { + return MA_INVALID_OPERATION; + } + + + pBQ->format = pConfig->format; + pBQ->channels = pConfig->channels; + + /* Normalize. */ + if (pConfig->format == ma_format_f32) { + pBQ->b0.f32 = (float)(pConfig->b0 / pConfig->a0); + pBQ->b1.f32 = (float)(pConfig->b1 / pConfig->a0); + pBQ->b2.f32 = (float)(pConfig->b2 / pConfig->a0); + pBQ->a1.f32 = (float)(pConfig->a1 / pConfig->a0); + pBQ->a2.f32 = (float)(pConfig->a2 / pConfig->a0); + } else { + pBQ->b0.s32 = ma_biquad_float_to_fp(pConfig->b0 / pConfig->a0); + pBQ->b1.s32 = ma_biquad_float_to_fp(pConfig->b1 / pConfig->a0); + pBQ->b2.s32 = ma_biquad_float_to_fp(pConfig->b2 / pConfig->a0); + pBQ->a1.s32 = ma_biquad_float_to_fp(pConfig->a1 / pConfig->a0); + pBQ->a2.s32 = ma_biquad_float_to_fp(pConfig->a2 / pConfig->a0); + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_biquad_clear_cache(ma_biquad* pBQ) +{ + if (pBQ == NULL) { + return MA_INVALID_ARGS; + } + + if (pBQ->format == ma_format_f32) { + pBQ->pR1->f32 = 0; + pBQ->pR2->f32 = 0; + } else { + pBQ->pR1->s32 = 0; + pBQ->pR2->s32 = 0; + } + + return MA_SUCCESS; +} + +static MA_INLINE void ma_biquad_process_pcm_frame_f32__direct_form_2_transposed(ma_biquad* pBQ, float* pY, const float* pX) +{ + ma_uint32 c; + const ma_uint32 channels = pBQ->channels; + const float b0 = pBQ->b0.f32; + const float b1 = pBQ->b1.f32; + const float b2 = pBQ->b2.f32; + const float a1 = pBQ->a1.f32; + const float a2 = pBQ->a2.f32; + + MA_ASSUME(channels > 0); + for (c = 0; c < channels; c += 1) { + float r1 = pBQ->pR1[c].f32; + float r2 = pBQ->pR2[c].f32; + float x = pX[c]; + float y; + + y = b0*x + r1; + r1 = b1*x - a1*y + r2; + r2 = b2*x - a2*y; + + pY[c] = y; + pBQ->pR1[c].f32 = r1; + pBQ->pR2[c].f32 = r2; + } +} + +static MA_INLINE void ma_biquad_process_pcm_frame_f32(ma_biquad* pBQ, float* pY, const float* pX) +{ + ma_biquad_process_pcm_frame_f32__direct_form_2_transposed(pBQ, pY, pX); +} + +static MA_INLINE void ma_biquad_process_pcm_frame_s16__direct_form_2_transposed(ma_biquad* pBQ, ma_int16* pY, const ma_int16* pX) +{ + ma_uint32 c; + const ma_uint32 channels = pBQ->channels; + const ma_int32 b0 = pBQ->b0.s32; + const ma_int32 b1 = pBQ->b1.s32; + const ma_int32 b2 = pBQ->b2.s32; + const ma_int32 a1 = pBQ->a1.s32; + const ma_int32 a2 = pBQ->a2.s32; + + MA_ASSUME(channels > 0); + for (c = 0; c < channels; c += 1) { + ma_int32 r1 = pBQ->pR1[c].s32; + ma_int32 r2 = pBQ->pR2[c].s32; + ma_int32 x = pX[c]; + ma_int32 y; + + y = (b0*x + r1) >> MA_BIQUAD_FIXED_POINT_SHIFT; + r1 = (b1*x - a1*y + r2); + r2 = (b2*x - a2*y); + + pY[c] = (ma_int16)ma_clamp(y, -32768, 32767); + pBQ->pR1[c].s32 = r1; + pBQ->pR2[c].s32 = r2; + } +} + +static MA_INLINE void ma_biquad_process_pcm_frame_s16(ma_biquad* pBQ, ma_int16* pY, const ma_int16* pX) +{ + ma_biquad_process_pcm_frame_s16__direct_form_2_transposed(pBQ, pY, pX); +} + +MA_API ma_result ma_biquad_process_pcm_frames(ma_biquad* pBQ, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + ma_uint32 n; + + if (pBQ == NULL || pFramesOut == NULL || pFramesIn == NULL) { + return MA_INVALID_ARGS; + } + + /* Note that the logic below needs to support in-place filtering. That is, it must support the case where pFramesOut and pFramesIn are the same. */ + + if (pBQ->format == ma_format_f32) { + /* */ float* pY = ( float*)pFramesOut; + const float* pX = (const float*)pFramesIn; + + for (n = 0; n < frameCount; n += 1) { + ma_biquad_process_pcm_frame_f32__direct_form_2_transposed(pBQ, pY, pX); + pY += pBQ->channels; + pX += pBQ->channels; + } + } else if (pBQ->format == ma_format_s16) { + /* */ ma_int16* pY = ( ma_int16*)pFramesOut; + const ma_int16* pX = (const ma_int16*)pFramesIn; + + for (n = 0; n < frameCount; n += 1) { + ma_biquad_process_pcm_frame_s16__direct_form_2_transposed(pBQ, pY, pX); + pY += pBQ->channels; + pX += pBQ->channels; + } + } else { + MA_ASSERT(MA_FALSE); + return MA_INVALID_ARGS; /* Format not supported. Should never hit this because it's checked in ma_biquad_init() and ma_biquad_reinit(). */ + } + + return MA_SUCCESS; +} + +MA_API ma_uint32 ma_biquad_get_latency(const ma_biquad* pBQ) +{ + if (pBQ == NULL) { + return 0; + } + + return 2; +} + + +/************************************************************************************************************************************************************** + +Low-Pass Filter + +**************************************************************************************************************************************************************/ +MA_API ma_lpf1_config ma_lpf1_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency) +{ + ma_lpf1_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.cutoffFrequency = cutoffFrequency; + config.q = 0.5; + + return config; +} + +MA_API ma_lpf2_config ma_lpf2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, double q) +{ + ma_lpf2_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.cutoffFrequency = cutoffFrequency; + config.q = q; + + /* Q cannot be 0 or else it'll result in a division by 0. In this case just default to 0.707107. */ + if (config.q == 0) { + config.q = 0.707107; + } + + return config; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t r1Offset; +} ma_lpf1_heap_layout; + +static ma_result ma_lpf1_get_heap_layout(const ma_lpf1_config* pConfig, ma_lpf1_heap_layout* pHeapLayout) +{ + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->channels == 0) { + return MA_INVALID_ARGS; + } + + pHeapLayout->sizeInBytes = 0; + + /* R1 */ + pHeapLayout->r1Offset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += sizeof(ma_biquad_coefficient) * pConfig->channels; + + /* Make sure allocation size is aligned. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + +MA_API ma_result ma_lpf1_get_heap_size(const ma_lpf1_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_lpf1_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_lpf1_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_lpf1_init_preallocated(const ma_lpf1_config* pConfig, void* pHeap, ma_lpf1* pLPF) +{ + ma_result result; + ma_lpf1_heap_layout heapLayout; + + if (pLPF == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pLPF); + + result = ma_lpf1_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pLPF->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pLPF->pR1 = (ma_biquad_coefficient*)ma_offset_ptr(pHeap, heapLayout.r1Offset); + + return ma_lpf1_reinit(pConfig, pLPF); +} + +MA_API ma_result ma_lpf1_init(const ma_lpf1_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_lpf1* pLPF) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_lpf1_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_lpf1_init_preallocated(pConfig, pHeap, pLPF); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pLPF->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_lpf1_uninit(ma_lpf1* pLPF, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pLPF == NULL) { + return; + } + + if (pLPF->_ownsHeap) { + ma_free(pLPF->_pHeap, pAllocationCallbacks); + } +} + +MA_API ma_result ma_lpf1_reinit(const ma_lpf1_config* pConfig, ma_lpf1* pLPF) +{ + double a; + + if (pLPF == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + /* Only supporting f32 and s16. */ + if (pConfig->format != ma_format_f32 && pConfig->format != ma_format_s16) { + return MA_INVALID_ARGS; + } + + /* The format cannot be changed after initialization. */ + if (pLPF->format != ma_format_unknown && pLPF->format != pConfig->format) { + return MA_INVALID_OPERATION; + } + + /* The channel count cannot be changed after initialization. */ + if (pLPF->channels != 0 && pLPF->channels != pConfig->channels) { + return MA_INVALID_OPERATION; + } + + pLPF->format = pConfig->format; + pLPF->channels = pConfig->channels; + + a = ma_expd(-2 * MA_PI_D * pConfig->cutoffFrequency / pConfig->sampleRate); + if (pConfig->format == ma_format_f32) { + pLPF->a.f32 = (float)a; + } else { + pLPF->a.s32 = ma_biquad_float_to_fp(a); + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_lpf1_clear_cache(ma_lpf1* pLPF) +{ + if (pLPF == NULL) { + return MA_INVALID_ARGS; + } + + if (pLPF->format == ma_format_f32) { + pLPF->a.f32 = 0; + } else { + pLPF->a.s32 = 0; + } + + return MA_SUCCESS; +} + +static MA_INLINE void ma_lpf1_process_pcm_frame_f32(ma_lpf1* pLPF, float* pY, const float* pX) +{ + ma_uint32 c; + const ma_uint32 channels = pLPF->channels; + const float a = pLPF->a.f32; + const float b = 1 - a; + + MA_ASSUME(channels > 0); + for (c = 0; c < channels; c += 1) { + float r1 = pLPF->pR1[c].f32; + float x = pX[c]; + float y; + + y = b*x + a*r1; + + pY[c] = y; + pLPF->pR1[c].f32 = y; + } +} + +static MA_INLINE void ma_lpf1_process_pcm_frame_s16(ma_lpf1* pLPF, ma_int16* pY, const ma_int16* pX) +{ + ma_uint32 c; + const ma_uint32 channels = pLPF->channels; + const ma_int32 a = pLPF->a.s32; + const ma_int32 b = ((1 << MA_BIQUAD_FIXED_POINT_SHIFT) - a); + + MA_ASSUME(channels > 0); + for (c = 0; c < channels; c += 1) { + ma_int32 r1 = pLPF->pR1[c].s32; + ma_int32 x = pX[c]; + ma_int32 y; + + y = (b*x + a*r1) >> MA_BIQUAD_FIXED_POINT_SHIFT; + + pY[c] = (ma_int16)y; + pLPF->pR1[c].s32 = (ma_int32)y; + } +} + +MA_API ma_result ma_lpf1_process_pcm_frames(ma_lpf1* pLPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + ma_uint32 n; + + if (pLPF == NULL || pFramesOut == NULL || pFramesIn == NULL) { + return MA_INVALID_ARGS; + } + + /* Note that the logic below needs to support in-place filtering. That is, it must support the case where pFramesOut and pFramesIn are the same. */ + + if (pLPF->format == ma_format_f32) { + /* */ float* pY = ( float*)pFramesOut; + const float* pX = (const float*)pFramesIn; + + for (n = 0; n < frameCount; n += 1) { + ma_lpf1_process_pcm_frame_f32(pLPF, pY, pX); + pY += pLPF->channels; + pX += pLPF->channels; + } + } else if (pLPF->format == ma_format_s16) { + /* */ ma_int16* pY = ( ma_int16*)pFramesOut; + const ma_int16* pX = (const ma_int16*)pFramesIn; + + for (n = 0; n < frameCount; n += 1) { + ma_lpf1_process_pcm_frame_s16(pLPF, pY, pX); + pY += pLPF->channels; + pX += pLPF->channels; + } + } else { + MA_ASSERT(MA_FALSE); + return MA_INVALID_ARGS; /* Format not supported. Should never hit this because it's checked in ma_biquad_init() and ma_biquad_reinit(). */ + } + + return MA_SUCCESS; +} + +MA_API ma_uint32 ma_lpf1_get_latency(const ma_lpf1* pLPF) +{ + if (pLPF == NULL) { + return 0; + } + + return 1; +} + + +static MA_INLINE ma_biquad_config ma_lpf2__get_biquad_config(const ma_lpf2_config* pConfig) +{ + ma_biquad_config bqConfig; + double q; + double w; + double s; + double c; + double a; + + MA_ASSERT(pConfig != NULL); + + q = pConfig->q; + w = 2 * MA_PI_D * pConfig->cutoffFrequency / pConfig->sampleRate; + s = ma_sind(w); + c = ma_cosd(w); + a = s / (2*q); + + bqConfig.b0 = (1 - c) / 2; + bqConfig.b1 = 1 - c; + bqConfig.b2 = (1 - c) / 2; + bqConfig.a0 = 1 + a; + bqConfig.a1 = -2 * c; + bqConfig.a2 = 1 - a; + + bqConfig.format = pConfig->format; + bqConfig.channels = pConfig->channels; + + return bqConfig; +} + +MA_API ma_result ma_lpf2_get_heap_size(const ma_lpf2_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_biquad_config bqConfig; + bqConfig = ma_lpf2__get_biquad_config(pConfig); + + return ma_biquad_get_heap_size(&bqConfig, pHeapSizeInBytes); +} + +MA_API ma_result ma_lpf2_init_preallocated(const ma_lpf2_config* pConfig, void* pHeap, ma_lpf2* pLPF) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pLPF == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pLPF); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_lpf2__get_biquad_config(pConfig); + result = ma_biquad_init_preallocated(&bqConfig, pHeap, &pLPF->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_lpf2_init(const ma_lpf2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_lpf2* pLPF) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_lpf2_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_lpf2_init_preallocated(pConfig, pHeap, pLPF); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pLPF->bq._ownsHeap = MA_TRUE; /* <-- This will cause the biquad to take ownership of the heap and free it when it's uninitialized. */ + return MA_SUCCESS; +} + +MA_API void ma_lpf2_uninit(ma_lpf2* pLPF, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pLPF == NULL) { + return; + } + + ma_biquad_uninit(&pLPF->bq, pAllocationCallbacks); /* <-- This will free the heap allocation. */ +} + +MA_API ma_result ma_lpf2_reinit(const ma_lpf2_config* pConfig, ma_lpf2* pLPF) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pLPF == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_lpf2__get_biquad_config(pConfig); + result = ma_biquad_reinit(&bqConfig, &pLPF->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_lpf2_clear_cache(ma_lpf2* pLPF) +{ + if (pLPF == NULL) { + return MA_INVALID_ARGS; + } + + ma_biquad_clear_cache(&pLPF->bq); + + return MA_SUCCESS; +} + +static MA_INLINE void ma_lpf2_process_pcm_frame_s16(ma_lpf2* pLPF, ma_int16* pFrameOut, const ma_int16* pFrameIn) +{ + ma_biquad_process_pcm_frame_s16(&pLPF->bq, pFrameOut, pFrameIn); +} + +static MA_INLINE void ma_lpf2_process_pcm_frame_f32(ma_lpf2* pLPF, float* pFrameOut, const float* pFrameIn) +{ + ma_biquad_process_pcm_frame_f32(&pLPF->bq, pFrameOut, pFrameIn); +} + +MA_API ma_result ma_lpf2_process_pcm_frames(ma_lpf2* pLPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + if (pLPF == NULL) { + return MA_INVALID_ARGS; + } + + return ma_biquad_process_pcm_frames(&pLPF->bq, pFramesOut, pFramesIn, frameCount); +} + +MA_API ma_uint32 ma_lpf2_get_latency(const ma_lpf2* pLPF) +{ + if (pLPF == NULL) { + return 0; + } + + return ma_biquad_get_latency(&pLPF->bq); +} + + +MA_API ma_lpf_config ma_lpf_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order) +{ + ma_lpf_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.cutoffFrequency = cutoffFrequency; + config.order = ma_min(order, MA_MAX_FILTER_ORDER); + + return config; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t lpf1Offset; + size_t lpf2Offset; /* Offset of the first second order filter. Subsequent filters will come straight after, and will each have the same heap size. */ +} ma_lpf_heap_layout; + +static void ma_lpf_calculate_sub_lpf_counts(ma_uint32 order, ma_uint32* pLPF1Count, ma_uint32* pLPF2Count) +{ + MA_ASSERT(pLPF1Count != NULL); + MA_ASSERT(pLPF2Count != NULL); + + *pLPF1Count = order % 2; + *pLPF2Count = order / 2; +} + +static ma_result ma_lpf_get_heap_layout(const ma_lpf_config* pConfig, ma_lpf_heap_layout* pHeapLayout) +{ + ma_result result; + ma_uint32 lpf1Count; + ma_uint32 lpf2Count; + ma_uint32 ilpf1; + ma_uint32 ilpf2; + + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->channels == 0) { + return MA_INVALID_ARGS; + } + + if (pConfig->order > MA_MAX_FILTER_ORDER) { + return MA_INVALID_ARGS; + } + + ma_lpf_calculate_sub_lpf_counts(pConfig->order, &lpf1Count, &lpf2Count); + + pHeapLayout->sizeInBytes = 0; + + /* LPF 1 */ + pHeapLayout->lpf1Offset = pHeapLayout->sizeInBytes; + for (ilpf1 = 0; ilpf1 < lpf1Count; ilpf1 += 1) { + size_t lpf1HeapSizeInBytes; + ma_lpf1_config lpf1Config = ma_lpf1_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency); + + result = ma_lpf1_get_heap_size(&lpf1Config, &lpf1HeapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->sizeInBytes += sizeof(ma_lpf1) + lpf1HeapSizeInBytes; + } + + /* LPF 2*/ + pHeapLayout->lpf2Offset = pHeapLayout->sizeInBytes; + for (ilpf2 = 0; ilpf2 < lpf2Count; ilpf2 += 1) { + size_t lpf2HeapSizeInBytes; + ma_lpf2_config lpf2Config = ma_lpf2_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency, 0.707107); /* <-- The "q" parameter does not matter for the purpose of calculating the heap size. */ + + result = ma_lpf2_get_heap_size(&lpf2Config, &lpf2HeapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->sizeInBytes += sizeof(ma_lpf2) + lpf2HeapSizeInBytes; + } + + /* Make sure allocation size is aligned. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + +static ma_result ma_lpf_reinit__internal(const ma_lpf_config* pConfig, void* pHeap, ma_lpf* pLPF, ma_bool32 isNew) +{ + ma_result result; + ma_uint32 lpf1Count; + ma_uint32 lpf2Count; + ma_uint32 ilpf1; + ma_uint32 ilpf2; + ma_lpf_heap_layout heapLayout; /* Only used if isNew is true. */ + + if (pLPF == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + /* Only supporting f32 and s16. */ + if (pConfig->format != ma_format_f32 && pConfig->format != ma_format_s16) { + return MA_INVALID_ARGS; + } + + /* The format cannot be changed after initialization. */ + if (pLPF->format != ma_format_unknown && pLPF->format != pConfig->format) { + return MA_INVALID_OPERATION; + } + + /* The channel count cannot be changed after initialization. */ + if (pLPF->channels != 0 && pLPF->channels != pConfig->channels) { + return MA_INVALID_OPERATION; + } + + if (pConfig->order > MA_MAX_FILTER_ORDER) { + return MA_INVALID_ARGS; + } + + ma_lpf_calculate_sub_lpf_counts(pConfig->order, &lpf1Count, &lpf2Count); + + /* The filter order can't change between reinits. */ + if (!isNew) { + if (pLPF->lpf1Count != lpf1Count || pLPF->lpf2Count != lpf2Count) { + return MA_INVALID_OPERATION; + } + } + + if (isNew) { + result = ma_lpf_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pLPF->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pLPF->pLPF1 = (ma_lpf1*)ma_offset_ptr(pHeap, heapLayout.lpf1Offset); + pLPF->pLPF2 = (ma_lpf2*)ma_offset_ptr(pHeap, heapLayout.lpf2Offset); + } else { + MA_ZERO_OBJECT(&heapLayout); /* To silence a compiler warning. */ + } + + for (ilpf1 = 0; ilpf1 < lpf1Count; ilpf1 += 1) { + ma_lpf1_config lpf1Config = ma_lpf1_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency); + + if (isNew) { + size_t lpf1HeapSizeInBytes; + + result = ma_lpf1_get_heap_size(&lpf1Config, &lpf1HeapSizeInBytes); + if (result == MA_SUCCESS) { + result = ma_lpf1_init_preallocated(&lpf1Config, ma_offset_ptr(pHeap, heapLayout.lpf1Offset + (sizeof(ma_lpf1) * lpf1Count) + (ilpf1 * lpf1HeapSizeInBytes)), &pLPF->pLPF1[ilpf1]); + } + } else { + result = ma_lpf1_reinit(&lpf1Config, &pLPF->pLPF1[ilpf1]); + } + + if (result != MA_SUCCESS) { + ma_uint32 jlpf1; + + for (jlpf1 = 0; jlpf1 < ilpf1; jlpf1 += 1) { + ma_lpf1_uninit(&pLPF->pLPF1[jlpf1], NULL); /* No need for allocation callbacks here since we used a preallocated heap allocation. */ + } + + return result; + } + } + + for (ilpf2 = 0; ilpf2 < lpf2Count; ilpf2 += 1) { + ma_lpf2_config lpf2Config; + double q; + double a; + + /* Tempting to use 0.707107, but won't result in a Butterworth filter if the order is > 2. */ + if (lpf1Count == 1) { + a = (1 + ilpf2*1) * (MA_PI_D/(pConfig->order*1)); /* Odd order. */ + } else { + a = (1 + ilpf2*2) * (MA_PI_D/(pConfig->order*2)); /* Even order. */ + } + q = 1 / (2*ma_cosd(a)); + + lpf2Config = ma_lpf2_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency, q); + + if (isNew) { + size_t lpf2HeapSizeInBytes; + + result = ma_lpf2_get_heap_size(&lpf2Config, &lpf2HeapSizeInBytes); + if (result == MA_SUCCESS) { + result = ma_lpf2_init_preallocated(&lpf2Config, ma_offset_ptr(pHeap, heapLayout.lpf2Offset + (sizeof(ma_lpf2) * lpf2Count) + (ilpf2 * lpf2HeapSizeInBytes)), &pLPF->pLPF2[ilpf2]); + } + } else { + result = ma_lpf2_reinit(&lpf2Config, &pLPF->pLPF2[ilpf2]); + } + + if (result != MA_SUCCESS) { + ma_uint32 jlpf1; + ma_uint32 jlpf2; + + for (jlpf1 = 0; jlpf1 < lpf1Count; jlpf1 += 1) { + ma_lpf1_uninit(&pLPF->pLPF1[jlpf1], NULL); /* No need for allocation callbacks here since we used a preallocated heap allocation. */ + } + + for (jlpf2 = 0; jlpf2 < ilpf2; jlpf2 += 1) { + ma_lpf2_uninit(&pLPF->pLPF2[jlpf2], NULL); /* No need for allocation callbacks here since we used a preallocated heap allocation. */ + } + + return result; + } + } + + pLPF->lpf1Count = lpf1Count; + pLPF->lpf2Count = lpf2Count; + pLPF->format = pConfig->format; + pLPF->channels = pConfig->channels; + pLPF->sampleRate = pConfig->sampleRate; + + return MA_SUCCESS; +} + +MA_API ma_result ma_lpf_get_heap_size(const ma_lpf_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_lpf_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_lpf_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return result; +} + +MA_API ma_result ma_lpf_init_preallocated(const ma_lpf_config* pConfig, void* pHeap, ma_lpf* pLPF) +{ + if (pLPF == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pLPF); + + return ma_lpf_reinit__internal(pConfig, pHeap, pLPF, /*isNew*/MA_TRUE); +} + +MA_API ma_result ma_lpf_init(const ma_lpf_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_lpf* pLPF) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_lpf_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_lpf_init_preallocated(pConfig, pHeap, pLPF); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pLPF->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_lpf_uninit(ma_lpf* pLPF, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_uint32 ilpf1; + ma_uint32 ilpf2; + + if (pLPF == NULL) { + return; + } + + for (ilpf1 = 0; ilpf1 < pLPF->lpf1Count; ilpf1 += 1) { + ma_lpf1_uninit(&pLPF->pLPF1[ilpf1], pAllocationCallbacks); + } + + for (ilpf2 = 0; ilpf2 < pLPF->lpf2Count; ilpf2 += 1) { + ma_lpf2_uninit(&pLPF->pLPF2[ilpf2], pAllocationCallbacks); + } + + if (pLPF->_ownsHeap) { + ma_free(pLPF->_pHeap, pAllocationCallbacks); + } +} + +MA_API ma_result ma_lpf_reinit(const ma_lpf_config* pConfig, ma_lpf* pLPF) +{ + return ma_lpf_reinit__internal(pConfig, NULL, pLPF, /*isNew*/MA_FALSE); +} + +MA_API ma_result ma_lpf_clear_cache(ma_lpf* pLPF) +{ + ma_uint32 ilpf1; + ma_uint32 ilpf2; + + if (pLPF == NULL) { + return MA_INVALID_ARGS; + } + + for (ilpf1 = 0; ilpf1 < pLPF->lpf1Count; ilpf1 += 1) { + ma_lpf1_clear_cache(&pLPF->pLPF1[ilpf1]); + } + + for (ilpf2 = 0; ilpf2 < pLPF->lpf2Count; ilpf2 += 1) { + ma_lpf2_clear_cache(&pLPF->pLPF2[ilpf2]); + } + + return MA_SUCCESS; +} + +static MA_INLINE void ma_lpf_process_pcm_frame_f32(ma_lpf* pLPF, float* pY, const void* pX) +{ + ma_uint32 ilpf1; + ma_uint32 ilpf2; + + MA_ASSERT(pLPF->format == ma_format_f32); + + MA_MOVE_MEMORY(pY, pX, ma_get_bytes_per_frame(pLPF->format, pLPF->channels)); + + for (ilpf1 = 0; ilpf1 < pLPF->lpf1Count; ilpf1 += 1) { + ma_lpf1_process_pcm_frame_f32(&pLPF->pLPF1[ilpf1], pY, pY); + } + + for (ilpf2 = 0; ilpf2 < pLPF->lpf2Count; ilpf2 += 1) { + ma_lpf2_process_pcm_frame_f32(&pLPF->pLPF2[ilpf2], pY, pY); + } +} + +static MA_INLINE void ma_lpf_process_pcm_frame_s16(ma_lpf* pLPF, ma_int16* pY, const ma_int16* pX) +{ + ma_uint32 ilpf1; + ma_uint32 ilpf2; + + MA_ASSERT(pLPF->format == ma_format_s16); + + MA_MOVE_MEMORY(pY, pX, ma_get_bytes_per_frame(pLPF->format, pLPF->channels)); + + for (ilpf1 = 0; ilpf1 < pLPF->lpf1Count; ilpf1 += 1) { + ma_lpf1_process_pcm_frame_s16(&pLPF->pLPF1[ilpf1], pY, pY); + } + + for (ilpf2 = 0; ilpf2 < pLPF->lpf2Count; ilpf2 += 1) { + ma_lpf2_process_pcm_frame_s16(&pLPF->pLPF2[ilpf2], pY, pY); + } +} + +MA_API ma_result ma_lpf_process_pcm_frames(ma_lpf* pLPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + ma_result result; + ma_uint32 ilpf1; + ma_uint32 ilpf2; + + if (pLPF == NULL) { + return MA_INVALID_ARGS; + } + + /* Faster path for in-place. */ + if (pFramesOut == pFramesIn) { + for (ilpf1 = 0; ilpf1 < pLPF->lpf1Count; ilpf1 += 1) { + result = ma_lpf1_process_pcm_frames(&pLPF->pLPF1[ilpf1], pFramesOut, pFramesOut, frameCount); + if (result != MA_SUCCESS) { + return result; + } + } + + for (ilpf2 = 0; ilpf2 < pLPF->lpf2Count; ilpf2 += 1) { + result = ma_lpf2_process_pcm_frames(&pLPF->pLPF2[ilpf2], pFramesOut, pFramesOut, frameCount); + if (result != MA_SUCCESS) { + return result; + } + } + } + + /* Slightly slower path for copying. */ + if (pFramesOut != pFramesIn) { + ma_uint32 iFrame; + + /* */ if (pLPF->format == ma_format_f32) { + /* */ float* pFramesOutF32 = ( float*)pFramesOut; + const float* pFramesInF32 = (const float*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_lpf_process_pcm_frame_f32(pLPF, pFramesOutF32, pFramesInF32); + pFramesOutF32 += pLPF->channels; + pFramesInF32 += pLPF->channels; + } + } else if (pLPF->format == ma_format_s16) { + /* */ ma_int16* pFramesOutS16 = ( ma_int16*)pFramesOut; + const ma_int16* pFramesInS16 = (const ma_int16*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_lpf_process_pcm_frame_s16(pLPF, pFramesOutS16, pFramesInS16); + pFramesOutS16 += pLPF->channels; + pFramesInS16 += pLPF->channels; + } + } else { + MA_ASSERT(MA_FALSE); + return MA_INVALID_OPERATION; /* Should never hit this. */ + } + } + + return MA_SUCCESS; +} + +MA_API ma_uint32 ma_lpf_get_latency(const ma_lpf* pLPF) +{ + if (pLPF == NULL) { + return 0; + } + + return pLPF->lpf2Count*2 + pLPF->lpf1Count; +} + + +/************************************************************************************************************************************************************** + +High-Pass Filtering + +**************************************************************************************************************************************************************/ +MA_API ma_hpf1_config ma_hpf1_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency) +{ + ma_hpf1_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.cutoffFrequency = cutoffFrequency; + + return config; +} + +MA_API ma_hpf2_config ma_hpf2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, double q) +{ + ma_hpf2_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.cutoffFrequency = cutoffFrequency; + config.q = q; + + /* Q cannot be 0 or else it'll result in a division by 0. In this case just default to 0.707107. */ + if (config.q == 0) { + config.q = 0.707107; + } + + return config; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t r1Offset; +} ma_hpf1_heap_layout; + +static ma_result ma_hpf1_get_heap_layout(const ma_hpf1_config* pConfig, ma_hpf1_heap_layout* pHeapLayout) +{ + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->channels == 0) { + return MA_INVALID_ARGS; + } + + pHeapLayout->sizeInBytes = 0; + + /* R1 */ + pHeapLayout->r1Offset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += sizeof(ma_biquad_coefficient) * pConfig->channels; + + /* Make sure allocation size is aligned. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + +MA_API ma_result ma_hpf1_get_heap_size(const ma_hpf1_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_hpf1_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_hpf1_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_hpf1_init_preallocated(const ma_hpf1_config* pConfig, void* pHeap, ma_hpf1* pLPF) +{ + ma_result result; + ma_hpf1_heap_layout heapLayout; + + if (pLPF == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pLPF); + + result = ma_hpf1_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pLPF->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pLPF->pR1 = (ma_biquad_coefficient*)ma_offset_ptr(pHeap, heapLayout.r1Offset); + + return ma_hpf1_reinit(pConfig, pLPF); +} + +MA_API ma_result ma_hpf1_init(const ma_hpf1_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hpf1* pLPF) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_hpf1_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_hpf1_init_preallocated(pConfig, pHeap, pLPF); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pLPF->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_hpf1_uninit(ma_hpf1* pHPF, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pHPF == NULL) { + return; + } + + if (pHPF->_ownsHeap) { + ma_free(pHPF->_pHeap, pAllocationCallbacks); + } +} + +MA_API ma_result ma_hpf1_reinit(const ma_hpf1_config* pConfig, ma_hpf1* pHPF) +{ + double a; + + if (pHPF == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + /* Only supporting f32 and s16. */ + if (pConfig->format != ma_format_f32 && pConfig->format != ma_format_s16) { + return MA_INVALID_ARGS; + } + + /* The format cannot be changed after initialization. */ + if (pHPF->format != ma_format_unknown && pHPF->format != pConfig->format) { + return MA_INVALID_OPERATION; + } + + /* The channel count cannot be changed after initialization. */ + if (pHPF->channels != 0 && pHPF->channels != pConfig->channels) { + return MA_INVALID_OPERATION; + } + + pHPF->format = pConfig->format; + pHPF->channels = pConfig->channels; + + a = ma_expd(-2 * MA_PI_D * pConfig->cutoffFrequency / pConfig->sampleRate); + if (pConfig->format == ma_format_f32) { + pHPF->a.f32 = (float)a; + } else { + pHPF->a.s32 = ma_biquad_float_to_fp(a); + } + + return MA_SUCCESS; +} + +static MA_INLINE void ma_hpf1_process_pcm_frame_f32(ma_hpf1* pHPF, float* pY, const float* pX) +{ + ma_uint32 c; + const ma_uint32 channels = pHPF->channels; + const float a = 1 - pHPF->a.f32; + const float b = 1 - a; + + MA_ASSUME(channels > 0); + for (c = 0; c < channels; c += 1) { + float r1 = pHPF->pR1[c].f32; + float x = pX[c]; + float y; + + y = b*x - a*r1; + + pY[c] = y; + pHPF->pR1[c].f32 = y; + } +} + +static MA_INLINE void ma_hpf1_process_pcm_frame_s16(ma_hpf1* pHPF, ma_int16* pY, const ma_int16* pX) +{ + ma_uint32 c; + const ma_uint32 channels = pHPF->channels; + const ma_int32 a = ((1 << MA_BIQUAD_FIXED_POINT_SHIFT) - pHPF->a.s32); + const ma_int32 b = ((1 << MA_BIQUAD_FIXED_POINT_SHIFT) - a); + + MA_ASSUME(channels > 0); + for (c = 0; c < channels; c += 1) { + ma_int32 r1 = pHPF->pR1[c].s32; + ma_int32 x = pX[c]; + ma_int32 y; + + y = (b*x - a*r1) >> MA_BIQUAD_FIXED_POINT_SHIFT; + + pY[c] = (ma_int16)y; + pHPF->pR1[c].s32 = (ma_int32)y; + } +} + +MA_API ma_result ma_hpf1_process_pcm_frames(ma_hpf1* pHPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + ma_uint32 n; + + if (pHPF == NULL || pFramesOut == NULL || pFramesIn == NULL) { + return MA_INVALID_ARGS; + } + + /* Note that the logic below needs to support in-place filtering. That is, it must support the case where pFramesOut and pFramesIn are the same. */ + + if (pHPF->format == ma_format_f32) { + /* */ float* pY = ( float*)pFramesOut; + const float* pX = (const float*)pFramesIn; + + for (n = 0; n < frameCount; n += 1) { + ma_hpf1_process_pcm_frame_f32(pHPF, pY, pX); + pY += pHPF->channels; + pX += pHPF->channels; + } + } else if (pHPF->format == ma_format_s16) { + /* */ ma_int16* pY = ( ma_int16*)pFramesOut; + const ma_int16* pX = (const ma_int16*)pFramesIn; + + for (n = 0; n < frameCount; n += 1) { + ma_hpf1_process_pcm_frame_s16(pHPF, pY, pX); + pY += pHPF->channels; + pX += pHPF->channels; + } + } else { + MA_ASSERT(MA_FALSE); + return MA_INVALID_ARGS; /* Format not supported. Should never hit this because it's checked in ma_biquad_init() and ma_biquad_reinit(). */ + } + + return MA_SUCCESS; +} + +MA_API ma_uint32 ma_hpf1_get_latency(const ma_hpf1* pHPF) +{ + if (pHPF == NULL) { + return 0; + } + + return 1; +} + + +static MA_INLINE ma_biquad_config ma_hpf2__get_biquad_config(const ma_hpf2_config* pConfig) +{ + ma_biquad_config bqConfig; + double q; + double w; + double s; + double c; + double a; + + MA_ASSERT(pConfig != NULL); + + q = pConfig->q; + w = 2 * MA_PI_D * pConfig->cutoffFrequency / pConfig->sampleRate; + s = ma_sind(w); + c = ma_cosd(w); + a = s / (2*q); + + bqConfig.b0 = (1 + c) / 2; + bqConfig.b1 = -(1 + c); + bqConfig.b2 = (1 + c) / 2; + bqConfig.a0 = 1 + a; + bqConfig.a1 = -2 * c; + bqConfig.a2 = 1 - a; + + bqConfig.format = pConfig->format; + bqConfig.channels = pConfig->channels; + + return bqConfig; +} + +MA_API ma_result ma_hpf2_get_heap_size(const ma_hpf2_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_biquad_config bqConfig; + bqConfig = ma_hpf2__get_biquad_config(pConfig); + + return ma_biquad_get_heap_size(&bqConfig, pHeapSizeInBytes); +} + +MA_API ma_result ma_hpf2_init_preallocated(const ma_hpf2_config* pConfig, void* pHeap, ma_hpf2* pHPF) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pHPF == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pHPF); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_hpf2__get_biquad_config(pConfig); + result = ma_biquad_init_preallocated(&bqConfig, pHeap, &pHPF->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_hpf2_init(const ma_hpf2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hpf2* pHPF) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_hpf2_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_hpf2_init_preallocated(pConfig, pHeap, pHPF); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pHPF->bq._ownsHeap = MA_TRUE; /* <-- This will cause the biquad to take ownership of the heap and free it when it's uninitialized. */ + return MA_SUCCESS; +} + +MA_API void ma_hpf2_uninit(ma_hpf2* pHPF, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pHPF == NULL) { + return; + } + + ma_biquad_uninit(&pHPF->bq, pAllocationCallbacks); /* <-- This will free the heap allocation. */ +} + +MA_API ma_result ma_hpf2_reinit(const ma_hpf2_config* pConfig, ma_hpf2* pHPF) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pHPF == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_hpf2__get_biquad_config(pConfig); + result = ma_biquad_reinit(&bqConfig, &pHPF->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +static MA_INLINE void ma_hpf2_process_pcm_frame_s16(ma_hpf2* pHPF, ma_int16* pFrameOut, const ma_int16* pFrameIn) +{ + ma_biquad_process_pcm_frame_s16(&pHPF->bq, pFrameOut, pFrameIn); +} + +static MA_INLINE void ma_hpf2_process_pcm_frame_f32(ma_hpf2* pHPF, float* pFrameOut, const float* pFrameIn) +{ + ma_biquad_process_pcm_frame_f32(&pHPF->bq, pFrameOut, pFrameIn); +} + +MA_API ma_result ma_hpf2_process_pcm_frames(ma_hpf2* pHPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + if (pHPF == NULL) { + return MA_INVALID_ARGS; + } + + return ma_biquad_process_pcm_frames(&pHPF->bq, pFramesOut, pFramesIn, frameCount); +} + +MA_API ma_uint32 ma_hpf2_get_latency(const ma_hpf2* pHPF) +{ + if (pHPF == NULL) { + return 0; + } + + return ma_biquad_get_latency(&pHPF->bq); +} + + +MA_API ma_hpf_config ma_hpf_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order) +{ + ma_hpf_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.cutoffFrequency = cutoffFrequency; + config.order = ma_min(order, MA_MAX_FILTER_ORDER); + + return config; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t hpf1Offset; + size_t hpf2Offset; /* Offset of the first second order filter. Subsequent filters will come straight after, and will each have the same heap size. */ +} ma_hpf_heap_layout; + +static void ma_hpf_calculate_sub_hpf_counts(ma_uint32 order, ma_uint32* pHPF1Count, ma_uint32* pHPF2Count) +{ + MA_ASSERT(pHPF1Count != NULL); + MA_ASSERT(pHPF2Count != NULL); + + *pHPF1Count = order % 2; + *pHPF2Count = order / 2; +} + +static ma_result ma_hpf_get_heap_layout(const ma_hpf_config* pConfig, ma_hpf_heap_layout* pHeapLayout) +{ + ma_result result; + ma_uint32 hpf1Count; + ma_uint32 hpf2Count; + ma_uint32 ihpf1; + ma_uint32 ihpf2; + + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->channels == 0) { + return MA_INVALID_ARGS; + } + + if (pConfig->order > MA_MAX_FILTER_ORDER) { + return MA_INVALID_ARGS; + } + + ma_hpf_calculate_sub_hpf_counts(pConfig->order, &hpf1Count, &hpf2Count); + + pHeapLayout->sizeInBytes = 0; + + /* HPF 1 */ + pHeapLayout->hpf1Offset = pHeapLayout->sizeInBytes; + for (ihpf1 = 0; ihpf1 < hpf1Count; ihpf1 += 1) { + size_t hpf1HeapSizeInBytes; + ma_hpf1_config hpf1Config = ma_hpf1_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency); + + result = ma_hpf1_get_heap_size(&hpf1Config, &hpf1HeapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->sizeInBytes += sizeof(ma_hpf1) + hpf1HeapSizeInBytes; + } + + /* HPF 2*/ + pHeapLayout->hpf2Offset = pHeapLayout->sizeInBytes; + for (ihpf2 = 0; ihpf2 < hpf2Count; ihpf2 += 1) { + size_t hpf2HeapSizeInBytes; + ma_hpf2_config hpf2Config = ma_hpf2_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency, 0.707107); /* <-- The "q" parameter does not matter for the purpose of calculating the heap size. */ + + result = ma_hpf2_get_heap_size(&hpf2Config, &hpf2HeapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->sizeInBytes += sizeof(ma_hpf2) + hpf2HeapSizeInBytes; + } + + /* Make sure allocation size is aligned. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + +static ma_result ma_hpf_reinit__internal(const ma_hpf_config* pConfig, void* pHeap, ma_hpf* pHPF, ma_bool32 isNew) +{ + ma_result result; + ma_uint32 hpf1Count; + ma_uint32 hpf2Count; + ma_uint32 ihpf1; + ma_uint32 ihpf2; + ma_hpf_heap_layout heapLayout; /* Only used if isNew is true. */ + + if (pHPF == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + /* Only supporting f32 and s16. */ + if (pConfig->format != ma_format_f32 && pConfig->format != ma_format_s16) { + return MA_INVALID_ARGS; + } + + /* The format cannot be changed after initialization. */ + if (pHPF->format != ma_format_unknown && pHPF->format != pConfig->format) { + return MA_INVALID_OPERATION; + } + + /* The channel count cannot be changed after initialization. */ + if (pHPF->channels != 0 && pHPF->channels != pConfig->channels) { + return MA_INVALID_OPERATION; + } + + if (pConfig->order > MA_MAX_FILTER_ORDER) { + return MA_INVALID_ARGS; + } + + ma_hpf_calculate_sub_hpf_counts(pConfig->order, &hpf1Count, &hpf2Count); + + /* The filter order can't change between reinits. */ + if (!isNew) { + if (pHPF->hpf1Count != hpf1Count || pHPF->hpf2Count != hpf2Count) { + return MA_INVALID_OPERATION; + } + } + + if (isNew) { + result = ma_hpf_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pHPF->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pHPF->pHPF1 = (ma_hpf1*)ma_offset_ptr(pHeap, heapLayout.hpf1Offset); + pHPF->pHPF2 = (ma_hpf2*)ma_offset_ptr(pHeap, heapLayout.hpf2Offset); + } else { + MA_ZERO_OBJECT(&heapLayout); /* To silence a compiler warning. */ + } + + for (ihpf1 = 0; ihpf1 < hpf1Count; ihpf1 += 1) { + ma_hpf1_config hpf1Config = ma_hpf1_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency); + + if (isNew) { + size_t hpf1HeapSizeInBytes; + + result = ma_hpf1_get_heap_size(&hpf1Config, &hpf1HeapSizeInBytes); + if (result == MA_SUCCESS) { + result = ma_hpf1_init_preallocated(&hpf1Config, ma_offset_ptr(pHeap, heapLayout.hpf1Offset + (sizeof(ma_hpf1) * hpf1Count) + (ihpf1 * hpf1HeapSizeInBytes)), &pHPF->pHPF1[ihpf1]); + } + } else { + result = ma_hpf1_reinit(&hpf1Config, &pHPF->pHPF1[ihpf1]); + } + + if (result != MA_SUCCESS) { + ma_uint32 jhpf1; + + for (jhpf1 = 0; jhpf1 < ihpf1; jhpf1 += 1) { + ma_hpf1_uninit(&pHPF->pHPF1[jhpf1], NULL); /* No need for allocation callbacks here since we used a preallocated heap allocation. */ + } + + return result; + } + } + + for (ihpf2 = 0; ihpf2 < hpf2Count; ihpf2 += 1) { + ma_hpf2_config hpf2Config; + double q; + double a; + + /* Tempting to use 0.707107, but won't result in a Butterworth filter if the order is > 2. */ + if (hpf1Count == 1) { + a = (1 + ihpf2*1) * (MA_PI_D/(pConfig->order*1)); /* Odd order. */ + } else { + a = (1 + ihpf2*2) * (MA_PI_D/(pConfig->order*2)); /* Even order. */ + } + q = 1 / (2*ma_cosd(a)); + + hpf2Config = ma_hpf2_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency, q); + + if (isNew) { + size_t hpf2HeapSizeInBytes; + + result = ma_hpf2_get_heap_size(&hpf2Config, &hpf2HeapSizeInBytes); + if (result == MA_SUCCESS) { + result = ma_hpf2_init_preallocated(&hpf2Config, ma_offset_ptr(pHeap, heapLayout.hpf2Offset + (sizeof(ma_hpf2) * hpf2Count) + (ihpf2 * hpf2HeapSizeInBytes)), &pHPF->pHPF2[ihpf2]); + } + } else { + result = ma_hpf2_reinit(&hpf2Config, &pHPF->pHPF2[ihpf2]); + } + + if (result != MA_SUCCESS) { + ma_uint32 jhpf1; + ma_uint32 jhpf2; + + for (jhpf1 = 0; jhpf1 < hpf1Count; jhpf1 += 1) { + ma_hpf1_uninit(&pHPF->pHPF1[jhpf1], NULL); /* No need for allocation callbacks here since we used a preallocated heap allocation. */ + } + + for (jhpf2 = 0; jhpf2 < ihpf2; jhpf2 += 1) { + ma_hpf2_uninit(&pHPF->pHPF2[jhpf2], NULL); /* No need for allocation callbacks here since we used a preallocated heap allocation. */ + } + + return result; + } + } + + pHPF->hpf1Count = hpf1Count; + pHPF->hpf2Count = hpf2Count; + pHPF->format = pConfig->format; + pHPF->channels = pConfig->channels; + pHPF->sampleRate = pConfig->sampleRate; + + return MA_SUCCESS; +} + +MA_API ma_result ma_hpf_get_heap_size(const ma_hpf_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_hpf_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_hpf_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return result; +} + +MA_API ma_result ma_hpf_init_preallocated(const ma_hpf_config* pConfig, void* pHeap, ma_hpf* pLPF) +{ + if (pLPF == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pLPF); + + return ma_hpf_reinit__internal(pConfig, pHeap, pLPF, /*isNew*/MA_TRUE); +} + +MA_API ma_result ma_hpf_init(const ma_hpf_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hpf* pHPF) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_hpf_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_hpf_init_preallocated(pConfig, pHeap, pHPF); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pHPF->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_hpf_uninit(ma_hpf* pHPF, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_uint32 ihpf1; + ma_uint32 ihpf2; + + if (pHPF == NULL) { + return; + } + + for (ihpf1 = 0; ihpf1 < pHPF->hpf1Count; ihpf1 += 1) { + ma_hpf1_uninit(&pHPF->pHPF1[ihpf1], pAllocationCallbacks); + } + + for (ihpf2 = 0; ihpf2 < pHPF->hpf2Count; ihpf2 += 1) { + ma_hpf2_uninit(&pHPF->pHPF2[ihpf2], pAllocationCallbacks); + } + + if (pHPF->_ownsHeap) { + ma_free(pHPF->_pHeap, pAllocationCallbacks); + } +} + +MA_API ma_result ma_hpf_reinit(const ma_hpf_config* pConfig, ma_hpf* pHPF) +{ + return ma_hpf_reinit__internal(pConfig, NULL, pHPF, /*isNew*/MA_FALSE); +} + +MA_API ma_result ma_hpf_process_pcm_frames(ma_hpf* pHPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + ma_result result; + ma_uint32 ihpf1; + ma_uint32 ihpf2; + + if (pHPF == NULL) { + return MA_INVALID_ARGS; + } + + /* Faster path for in-place. */ + if (pFramesOut == pFramesIn) { + for (ihpf1 = 0; ihpf1 < pHPF->hpf1Count; ihpf1 += 1) { + result = ma_hpf1_process_pcm_frames(&pHPF->pHPF1[ihpf1], pFramesOut, pFramesOut, frameCount); + if (result != MA_SUCCESS) { + return result; + } + } + + for (ihpf2 = 0; ihpf2 < pHPF->hpf2Count; ihpf2 += 1) { + result = ma_hpf2_process_pcm_frames(&pHPF->pHPF2[ihpf2], pFramesOut, pFramesOut, frameCount); + if (result != MA_SUCCESS) { + return result; + } + } + } + + /* Slightly slower path for copying. */ + if (pFramesOut != pFramesIn) { + ma_uint32 iFrame; + + /* */ if (pHPF->format == ma_format_f32) { + /* */ float* pFramesOutF32 = ( float*)pFramesOut; + const float* pFramesInF32 = (const float*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + MA_COPY_MEMORY(pFramesOutF32, pFramesInF32, ma_get_bytes_per_frame(pHPF->format, pHPF->channels)); + + for (ihpf1 = 0; ihpf1 < pHPF->hpf1Count; ihpf1 += 1) { + ma_hpf1_process_pcm_frame_f32(&pHPF->pHPF1[ihpf1], pFramesOutF32, pFramesOutF32); + } + + for (ihpf2 = 0; ihpf2 < pHPF->hpf2Count; ihpf2 += 1) { + ma_hpf2_process_pcm_frame_f32(&pHPF->pHPF2[ihpf2], pFramesOutF32, pFramesOutF32); + } + + pFramesOutF32 += pHPF->channels; + pFramesInF32 += pHPF->channels; + } + } else if (pHPF->format == ma_format_s16) { + /* */ ma_int16* pFramesOutS16 = ( ma_int16*)pFramesOut; + const ma_int16* pFramesInS16 = (const ma_int16*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + MA_COPY_MEMORY(pFramesOutS16, pFramesInS16, ma_get_bytes_per_frame(pHPF->format, pHPF->channels)); + + for (ihpf1 = 0; ihpf1 < pHPF->hpf1Count; ihpf1 += 1) { + ma_hpf1_process_pcm_frame_s16(&pHPF->pHPF1[ihpf1], pFramesOutS16, pFramesOutS16); + } + + for (ihpf2 = 0; ihpf2 < pHPF->hpf2Count; ihpf2 += 1) { + ma_hpf2_process_pcm_frame_s16(&pHPF->pHPF2[ihpf2], pFramesOutS16, pFramesOutS16); + } + + pFramesOutS16 += pHPF->channels; + pFramesInS16 += pHPF->channels; + } + } else { + MA_ASSERT(MA_FALSE); + return MA_INVALID_OPERATION; /* Should never hit this. */ + } + } + + return MA_SUCCESS; +} + +MA_API ma_uint32 ma_hpf_get_latency(const ma_hpf* pHPF) +{ + if (pHPF == NULL) { + return 0; + } + + return pHPF->hpf2Count*2 + pHPF->hpf1Count; +} + + +/************************************************************************************************************************************************************** + +Band-Pass Filtering + +**************************************************************************************************************************************************************/ +MA_API ma_bpf2_config ma_bpf2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, double q) +{ + ma_bpf2_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.cutoffFrequency = cutoffFrequency; + config.q = q; + + /* Q cannot be 0 or else it'll result in a division by 0. In this case just default to 0.707107. */ + if (config.q == 0) { + config.q = 0.707107; + } + + return config; +} + + +static MA_INLINE ma_biquad_config ma_bpf2__get_biquad_config(const ma_bpf2_config* pConfig) +{ + ma_biquad_config bqConfig; + double q; + double w; + double s; + double c; + double a; + + MA_ASSERT(pConfig != NULL); + + q = pConfig->q; + w = 2 * MA_PI_D * pConfig->cutoffFrequency / pConfig->sampleRate; + s = ma_sind(w); + c = ma_cosd(w); + a = s / (2*q); + + bqConfig.b0 = q * a; + bqConfig.b1 = 0; + bqConfig.b2 = -q * a; + bqConfig.a0 = 1 + a; + bqConfig.a1 = -2 * c; + bqConfig.a2 = 1 - a; + + bqConfig.format = pConfig->format; + bqConfig.channels = pConfig->channels; + + return bqConfig; +} + +MA_API ma_result ma_bpf2_get_heap_size(const ma_bpf2_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_biquad_config bqConfig; + bqConfig = ma_bpf2__get_biquad_config(pConfig); + + return ma_biquad_get_heap_size(&bqConfig, pHeapSizeInBytes); +} + +MA_API ma_result ma_bpf2_init_preallocated(const ma_bpf2_config* pConfig, void* pHeap, ma_bpf2* pBPF) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pBPF == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pBPF); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_bpf2__get_biquad_config(pConfig); + result = ma_biquad_init_preallocated(&bqConfig, pHeap, &pBPF->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_bpf2_init(const ma_bpf2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_bpf2* pBPF) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_bpf2_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_bpf2_init_preallocated(pConfig, pHeap, pBPF); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pBPF->bq._ownsHeap = MA_TRUE; /* <-- This will cause the biquad to take ownership of the heap and free it when it's uninitialized. */ + return MA_SUCCESS; +} + +MA_API void ma_bpf2_uninit(ma_bpf2* pBPF, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pBPF == NULL) { + return; + } + + ma_biquad_uninit(&pBPF->bq, pAllocationCallbacks); /* <-- This will free the heap allocation. */ +} + +MA_API ma_result ma_bpf2_reinit(const ma_bpf2_config* pConfig, ma_bpf2* pBPF) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pBPF == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_bpf2__get_biquad_config(pConfig); + result = ma_biquad_reinit(&bqConfig, &pBPF->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +static MA_INLINE void ma_bpf2_process_pcm_frame_s16(ma_bpf2* pBPF, ma_int16* pFrameOut, const ma_int16* pFrameIn) +{ + ma_biquad_process_pcm_frame_s16(&pBPF->bq, pFrameOut, pFrameIn); +} + +static MA_INLINE void ma_bpf2_process_pcm_frame_f32(ma_bpf2* pBPF, float* pFrameOut, const float* pFrameIn) +{ + ma_biquad_process_pcm_frame_f32(&pBPF->bq, pFrameOut, pFrameIn); +} + +MA_API ma_result ma_bpf2_process_pcm_frames(ma_bpf2* pBPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + if (pBPF == NULL) { + return MA_INVALID_ARGS; + } + + return ma_biquad_process_pcm_frames(&pBPF->bq, pFramesOut, pFramesIn, frameCount); +} + +MA_API ma_uint32 ma_bpf2_get_latency(const ma_bpf2* pBPF) +{ + if (pBPF == NULL) { + return 0; + } + + return ma_biquad_get_latency(&pBPF->bq); +} + + +MA_API ma_bpf_config ma_bpf_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order) +{ + ma_bpf_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.cutoffFrequency = cutoffFrequency; + config.order = ma_min(order, MA_MAX_FILTER_ORDER); + + return config; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t bpf2Offset; +} ma_bpf_heap_layout; + +static ma_result ma_bpf_get_heap_layout(const ma_bpf_config* pConfig, ma_bpf_heap_layout* pHeapLayout) +{ + ma_result result; + ma_uint32 bpf2Count; + ma_uint32 ibpf2; + + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->order > MA_MAX_FILTER_ORDER) { + return MA_INVALID_ARGS; + } + + /* We must have an even number of order. */ + if ((pConfig->order & 0x1) != 0) { + return MA_INVALID_ARGS; + } + + bpf2Count = pConfig->order / 2; + + pHeapLayout->sizeInBytes = 0; + + /* BPF 2 */ + pHeapLayout->bpf2Offset = pHeapLayout->sizeInBytes; + for (ibpf2 = 0; ibpf2 < bpf2Count; ibpf2 += 1) { + size_t bpf2HeapSizeInBytes; + ma_bpf2_config bpf2Config = ma_bpf2_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency, 0.707107); /* <-- The "q" parameter does not matter for the purpose of calculating the heap size. */ + + result = ma_bpf2_get_heap_size(&bpf2Config, &bpf2HeapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->sizeInBytes += sizeof(ma_bpf2) + bpf2HeapSizeInBytes; + } + + /* Make sure allocation size is aligned. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + +static ma_result ma_bpf_reinit__internal(const ma_bpf_config* pConfig, void* pHeap, ma_bpf* pBPF, ma_bool32 isNew) +{ + ma_result result; + ma_uint32 bpf2Count; + ma_uint32 ibpf2; + ma_bpf_heap_layout heapLayout; /* Only used if isNew is true. */ + + if (pBPF == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + /* Only supporting f32 and s16. */ + if (pConfig->format != ma_format_f32 && pConfig->format != ma_format_s16) { + return MA_INVALID_ARGS; + } + + /* The format cannot be changed after initialization. */ + if (pBPF->format != ma_format_unknown && pBPF->format != pConfig->format) { + return MA_INVALID_OPERATION; + } + + /* The channel count cannot be changed after initialization. */ + if (pBPF->channels != 0 && pBPF->channels != pConfig->channels) { + return MA_INVALID_OPERATION; + } + + if (pConfig->order > MA_MAX_FILTER_ORDER) { + return MA_INVALID_ARGS; + } + + /* We must have an even number of order. */ + if ((pConfig->order & 0x1) != 0) { + return MA_INVALID_ARGS; + } + + bpf2Count = pConfig->order / 2; + + /* The filter order can't change between reinits. */ + if (!isNew) { + if (pBPF->bpf2Count != bpf2Count) { + return MA_INVALID_OPERATION; + } + } + + if (isNew) { + result = ma_bpf_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pBPF->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pBPF->pBPF2 = (ma_bpf2*)ma_offset_ptr(pHeap, heapLayout.bpf2Offset); + } else { + MA_ZERO_OBJECT(&heapLayout); + } + + for (ibpf2 = 0; ibpf2 < bpf2Count; ibpf2 += 1) { + ma_bpf2_config bpf2Config; + double q; + + /* TODO: Calculate Q to make this a proper Butterworth filter. */ + q = 0.707107; + + bpf2Config = ma_bpf2_config_init(pConfig->format, pConfig->channels, pConfig->sampleRate, pConfig->cutoffFrequency, q); + + if (isNew) { + size_t bpf2HeapSizeInBytes; + + result = ma_bpf2_get_heap_size(&bpf2Config, &bpf2HeapSizeInBytes); + if (result == MA_SUCCESS) { + result = ma_bpf2_init_preallocated(&bpf2Config, ma_offset_ptr(pHeap, heapLayout.bpf2Offset + (sizeof(ma_bpf2) * bpf2Count) + (ibpf2 * bpf2HeapSizeInBytes)), &pBPF->pBPF2[ibpf2]); + } + } else { + result = ma_bpf2_reinit(&bpf2Config, &pBPF->pBPF2[ibpf2]); + } + + if (result != MA_SUCCESS) { + return result; + } + } + + pBPF->bpf2Count = bpf2Count; + pBPF->format = pConfig->format; + pBPF->channels = pConfig->channels; + + return MA_SUCCESS; +} + + +MA_API ma_result ma_bpf_get_heap_size(const ma_bpf_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_bpf_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_bpf_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_bpf_init_preallocated(const ma_bpf_config* pConfig, void* pHeap, ma_bpf* pBPF) +{ + if (pBPF == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pBPF); + + return ma_bpf_reinit__internal(pConfig, pHeap, pBPF, /*isNew*/MA_TRUE); +} + +MA_API ma_result ma_bpf_init(const ma_bpf_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_bpf* pBPF) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_bpf_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_bpf_init_preallocated(pConfig, pHeap, pBPF); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pBPF->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_bpf_uninit(ma_bpf* pBPF, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_uint32 ibpf2; + + if (pBPF == NULL) { + return; + } + + for (ibpf2 = 0; ibpf2 < pBPF->bpf2Count; ibpf2 += 1) { + ma_bpf2_uninit(&pBPF->pBPF2[ibpf2], pAllocationCallbacks); + } + + if (pBPF->_ownsHeap) { + ma_free(pBPF->_pHeap, pAllocationCallbacks); + } +} + +MA_API ma_result ma_bpf_reinit(const ma_bpf_config* pConfig, ma_bpf* pBPF) +{ + return ma_bpf_reinit__internal(pConfig, NULL, pBPF, /*isNew*/MA_FALSE); +} + +MA_API ma_result ma_bpf_process_pcm_frames(ma_bpf* pBPF, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + ma_result result; + ma_uint32 ibpf2; + + if (pBPF == NULL) { + return MA_INVALID_ARGS; + } + + /* Faster path for in-place. */ + if (pFramesOut == pFramesIn) { + for (ibpf2 = 0; ibpf2 < pBPF->bpf2Count; ibpf2 += 1) { + result = ma_bpf2_process_pcm_frames(&pBPF->pBPF2[ibpf2], pFramesOut, pFramesOut, frameCount); + if (result != MA_SUCCESS) { + return result; + } + } + } + + /* Slightly slower path for copying. */ + if (pFramesOut != pFramesIn) { + ma_uint32 iFrame; + + /* */ if (pBPF->format == ma_format_f32) { + /* */ float* pFramesOutF32 = ( float*)pFramesOut; + const float* pFramesInF32 = (const float*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + MA_COPY_MEMORY(pFramesOutF32, pFramesInF32, ma_get_bytes_per_frame(pBPF->format, pBPF->channels)); + + for (ibpf2 = 0; ibpf2 < pBPF->bpf2Count; ibpf2 += 1) { + ma_bpf2_process_pcm_frame_f32(&pBPF->pBPF2[ibpf2], pFramesOutF32, pFramesOutF32); + } + + pFramesOutF32 += pBPF->channels; + pFramesInF32 += pBPF->channels; + } + } else if (pBPF->format == ma_format_s16) { + /* */ ma_int16* pFramesOutS16 = ( ma_int16*)pFramesOut; + const ma_int16* pFramesInS16 = (const ma_int16*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + MA_COPY_MEMORY(pFramesOutS16, pFramesInS16, ma_get_bytes_per_frame(pBPF->format, pBPF->channels)); + + for (ibpf2 = 0; ibpf2 < pBPF->bpf2Count; ibpf2 += 1) { + ma_bpf2_process_pcm_frame_s16(&pBPF->pBPF2[ibpf2], pFramesOutS16, pFramesOutS16); + } + + pFramesOutS16 += pBPF->channels; + pFramesInS16 += pBPF->channels; + } + } else { + MA_ASSERT(MA_FALSE); + return MA_INVALID_OPERATION; /* Should never hit this. */ + } + } + + return MA_SUCCESS; +} + +MA_API ma_uint32 ma_bpf_get_latency(const ma_bpf* pBPF) +{ + if (pBPF == NULL) { + return 0; + } + + return pBPF->bpf2Count*2; +} + + +/************************************************************************************************************************************************************** + +Notching Filter + +**************************************************************************************************************************************************************/ +MA_API ma_notch2_config ma_notch2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double q, double frequency) +{ + ma_notch2_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.q = q; + config.frequency = frequency; + + if (config.q == 0) { + config.q = 0.707107; + } + + return config; +} + + +static MA_INLINE ma_biquad_config ma_notch2__get_biquad_config(const ma_notch2_config* pConfig) +{ + ma_biquad_config bqConfig; + double q; + double w; + double s; + double c; + double a; + + MA_ASSERT(pConfig != NULL); + + q = pConfig->q; + w = 2 * MA_PI_D * pConfig->frequency / pConfig->sampleRate; + s = ma_sind(w); + c = ma_cosd(w); + a = s / (2*q); + + bqConfig.b0 = 1; + bqConfig.b1 = -2 * c; + bqConfig.b2 = 1; + bqConfig.a0 = 1 + a; + bqConfig.a1 = -2 * c; + bqConfig.a2 = 1 - a; + + bqConfig.format = pConfig->format; + bqConfig.channels = pConfig->channels; + + return bqConfig; +} + +MA_API ma_result ma_notch2_get_heap_size(const ma_notch2_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_biquad_config bqConfig; + bqConfig = ma_notch2__get_biquad_config(pConfig); + + return ma_biquad_get_heap_size(&bqConfig, pHeapSizeInBytes); +} + +MA_API ma_result ma_notch2_init_preallocated(const ma_notch2_config* pConfig, void* pHeap, ma_notch2* pFilter) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pFilter == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pFilter); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_notch2__get_biquad_config(pConfig); + result = ma_biquad_init_preallocated(&bqConfig, pHeap, &pFilter->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_notch2_init(const ma_notch2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_notch2* pFilter) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_notch2_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_notch2_init_preallocated(pConfig, pHeap, pFilter); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pFilter->bq._ownsHeap = MA_TRUE; /* <-- This will cause the biquad to take ownership of the heap and free it when it's uninitialized. */ + return MA_SUCCESS; +} + +MA_API void ma_notch2_uninit(ma_notch2* pFilter, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pFilter == NULL) { + return; + } + + ma_biquad_uninit(&pFilter->bq, pAllocationCallbacks); /* <-- This will free the heap allocation. */ +} + +MA_API ma_result ma_notch2_reinit(const ma_notch2_config* pConfig, ma_notch2* pFilter) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pFilter == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_notch2__get_biquad_config(pConfig); + result = ma_biquad_reinit(&bqConfig, &pFilter->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +static MA_INLINE void ma_notch2_process_pcm_frame_s16(ma_notch2* pFilter, ma_int16* pFrameOut, const ma_int16* pFrameIn) +{ + ma_biquad_process_pcm_frame_s16(&pFilter->bq, pFrameOut, pFrameIn); +} + +static MA_INLINE void ma_notch2_process_pcm_frame_f32(ma_notch2* pFilter, float* pFrameOut, const float* pFrameIn) +{ + ma_biquad_process_pcm_frame_f32(&pFilter->bq, pFrameOut, pFrameIn); +} + +MA_API ma_result ma_notch2_process_pcm_frames(ma_notch2* pFilter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + if (pFilter == NULL) { + return MA_INVALID_ARGS; + } + + return ma_biquad_process_pcm_frames(&pFilter->bq, pFramesOut, pFramesIn, frameCount); +} + +MA_API ma_uint32 ma_notch2_get_latency(const ma_notch2* pFilter) +{ + if (pFilter == NULL) { + return 0; + } + + return ma_biquad_get_latency(&pFilter->bq); +} + + + +/************************************************************************************************************************************************************** + +Peaking EQ Filter + +**************************************************************************************************************************************************************/ +MA_API ma_peak2_config ma_peak2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double q, double frequency) +{ + ma_peak2_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.gainDB = gainDB; + config.q = q; + config.frequency = frequency; + + if (config.q == 0) { + config.q = 0.707107; + } + + return config; +} + + +static MA_INLINE ma_biquad_config ma_peak2__get_biquad_config(const ma_peak2_config* pConfig) +{ + ma_biquad_config bqConfig; + double q; + double w; + double s; + double c; + double a; + double A; + + MA_ASSERT(pConfig != NULL); + + q = pConfig->q; + w = 2 * MA_PI_D * pConfig->frequency / pConfig->sampleRate; + s = ma_sind(w); + c = ma_cosd(w); + a = s / (2*q); + A = ma_powd(10, (pConfig->gainDB / 40)); + + bqConfig.b0 = 1 + (a * A); + bqConfig.b1 = -2 * c; + bqConfig.b2 = 1 - (a * A); + bqConfig.a0 = 1 + (a / A); + bqConfig.a1 = -2 * c; + bqConfig.a2 = 1 - (a / A); + + bqConfig.format = pConfig->format; + bqConfig.channels = pConfig->channels; + + return bqConfig; +} + +MA_API ma_result ma_peak2_get_heap_size(const ma_peak2_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_biquad_config bqConfig; + bqConfig = ma_peak2__get_biquad_config(pConfig); + + return ma_biquad_get_heap_size(&bqConfig, pHeapSizeInBytes); +} + +MA_API ma_result ma_peak2_init_preallocated(const ma_peak2_config* pConfig, void* pHeap, ma_peak2* pFilter) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pFilter == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pFilter); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_peak2__get_biquad_config(pConfig); + result = ma_biquad_init_preallocated(&bqConfig, pHeap, &pFilter->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_peak2_init(const ma_peak2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_peak2* pFilter) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_peak2_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_peak2_init_preallocated(pConfig, pHeap, pFilter); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pFilter->bq._ownsHeap = MA_TRUE; /* <-- This will cause the biquad to take ownership of the heap and free it when it's uninitialized. */ + return MA_SUCCESS; +} + +MA_API void ma_peak2_uninit(ma_peak2* pFilter, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pFilter == NULL) { + return; + } + + ma_biquad_uninit(&pFilter->bq, pAllocationCallbacks); /* <-- This will free the heap allocation. */ +} + +MA_API ma_result ma_peak2_reinit(const ma_peak2_config* pConfig, ma_peak2* pFilter) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pFilter == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_peak2__get_biquad_config(pConfig); + result = ma_biquad_reinit(&bqConfig, &pFilter->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +static MA_INLINE void ma_peak2_process_pcm_frame_s16(ma_peak2* pFilter, ma_int16* pFrameOut, const ma_int16* pFrameIn) +{ + ma_biquad_process_pcm_frame_s16(&pFilter->bq, pFrameOut, pFrameIn); +} + +static MA_INLINE void ma_peak2_process_pcm_frame_f32(ma_peak2* pFilter, float* pFrameOut, const float* pFrameIn) +{ + ma_biquad_process_pcm_frame_f32(&pFilter->bq, pFrameOut, pFrameIn); +} + +MA_API ma_result ma_peak2_process_pcm_frames(ma_peak2* pFilter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + if (pFilter == NULL) { + return MA_INVALID_ARGS; + } + + return ma_biquad_process_pcm_frames(&pFilter->bq, pFramesOut, pFramesIn, frameCount); +} + +MA_API ma_uint32 ma_peak2_get_latency(const ma_peak2* pFilter) +{ + if (pFilter == NULL) { + return 0; + } + + return ma_biquad_get_latency(&pFilter->bq); +} + + +/************************************************************************************************************************************************************** + +Low Shelf Filter + +**************************************************************************************************************************************************************/ +MA_API ma_loshelf2_config ma_loshelf2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double shelfSlope, double frequency) +{ + ma_loshelf2_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.gainDB = gainDB; + config.shelfSlope = shelfSlope; + config.frequency = frequency; + + return config; +} + + +static MA_INLINE ma_biquad_config ma_loshelf2__get_biquad_config(const ma_loshelf2_config* pConfig) +{ + ma_biquad_config bqConfig; + double w; + double s; + double c; + double A; + double S; + double a; + double sqrtA; + + MA_ASSERT(pConfig != NULL); + + w = 2 * MA_PI_D * pConfig->frequency / pConfig->sampleRate; + s = ma_sind(w); + c = ma_cosd(w); + A = ma_powd(10, (pConfig->gainDB / 40)); + S = pConfig->shelfSlope; + a = s/2 * ma_sqrtd((A + 1/A) * (1/S - 1) + 2); + sqrtA = 2*ma_sqrtd(A)*a; + + bqConfig.b0 = A * ((A + 1) - (A - 1)*c + sqrtA); + bqConfig.b1 = 2 * A * ((A - 1) - (A + 1)*c); + bqConfig.b2 = A * ((A + 1) - (A - 1)*c - sqrtA); + bqConfig.a0 = (A + 1) + (A - 1)*c + sqrtA; + bqConfig.a1 = -2 * ((A - 1) + (A + 1)*c); + bqConfig.a2 = (A + 1) + (A - 1)*c - sqrtA; + + bqConfig.format = pConfig->format; + bqConfig.channels = pConfig->channels; + + return bqConfig; +} + +MA_API ma_result ma_loshelf2_get_heap_size(const ma_loshelf2_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_biquad_config bqConfig; + bqConfig = ma_loshelf2__get_biquad_config(pConfig); + + return ma_biquad_get_heap_size(&bqConfig, pHeapSizeInBytes); +} + +MA_API ma_result ma_loshelf2_init_preallocated(const ma_loshelf2_config* pConfig, void* pHeap, ma_loshelf2* pFilter) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pFilter == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pFilter); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_loshelf2__get_biquad_config(pConfig); + result = ma_biquad_init_preallocated(&bqConfig, pHeap, &pFilter->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_loshelf2_init(const ma_loshelf2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_loshelf2* pFilter) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_loshelf2_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_loshelf2_init_preallocated(pConfig, pHeap, pFilter); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pFilter->bq._ownsHeap = MA_TRUE; /* <-- This will cause the biquad to take ownership of the heap and free it when it's uninitialized. */ + return MA_SUCCESS; +} + +MA_API void ma_loshelf2_uninit(ma_loshelf2* pFilter, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pFilter == NULL) { + return; + } + + ma_biquad_uninit(&pFilter->bq, pAllocationCallbacks); /* <-- This will free the heap allocation. */ +} + +MA_API ma_result ma_loshelf2_reinit(const ma_loshelf2_config* pConfig, ma_loshelf2* pFilter) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pFilter == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_loshelf2__get_biquad_config(pConfig); + result = ma_biquad_reinit(&bqConfig, &pFilter->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +static MA_INLINE void ma_loshelf2_process_pcm_frame_s16(ma_loshelf2* pFilter, ma_int16* pFrameOut, const ma_int16* pFrameIn) +{ + ma_biquad_process_pcm_frame_s16(&pFilter->bq, pFrameOut, pFrameIn); +} + +static MA_INLINE void ma_loshelf2_process_pcm_frame_f32(ma_loshelf2* pFilter, float* pFrameOut, const float* pFrameIn) +{ + ma_biquad_process_pcm_frame_f32(&pFilter->bq, pFrameOut, pFrameIn); +} + +MA_API ma_result ma_loshelf2_process_pcm_frames(ma_loshelf2* pFilter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + if (pFilter == NULL) { + return MA_INVALID_ARGS; + } + + return ma_biquad_process_pcm_frames(&pFilter->bq, pFramesOut, pFramesIn, frameCount); +} + +MA_API ma_uint32 ma_loshelf2_get_latency(const ma_loshelf2* pFilter) +{ + if (pFilter == NULL) { + return 0; + } + + return ma_biquad_get_latency(&pFilter->bq); +} + + +/************************************************************************************************************************************************************** + +High Shelf Filter + +**************************************************************************************************************************************************************/ +MA_API ma_hishelf2_config ma_hishelf2_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double shelfSlope, double frequency) +{ + ma_hishelf2_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.gainDB = gainDB; + config.shelfSlope = shelfSlope; + config.frequency = frequency; + + return config; +} + + +static MA_INLINE ma_biquad_config ma_hishelf2__get_biquad_config(const ma_hishelf2_config* pConfig) +{ + ma_biquad_config bqConfig; + double w; + double s; + double c; + double A; + double S; + double a; + double sqrtA; + + MA_ASSERT(pConfig != NULL); + + w = 2 * MA_PI_D * pConfig->frequency / pConfig->sampleRate; + s = ma_sind(w); + c = ma_cosd(w); + A = ma_powd(10, (pConfig->gainDB / 40)); + S = pConfig->shelfSlope; + a = s/2 * ma_sqrtd((A + 1/A) * (1/S - 1) + 2); + sqrtA = 2*ma_sqrtd(A)*a; + + bqConfig.b0 = A * ((A + 1) + (A - 1)*c + sqrtA); + bqConfig.b1 = -2 * A * ((A - 1) + (A + 1)*c); + bqConfig.b2 = A * ((A + 1) + (A - 1)*c - sqrtA); + bqConfig.a0 = (A + 1) - (A - 1)*c + sqrtA; + bqConfig.a1 = 2 * ((A - 1) - (A + 1)*c); + bqConfig.a2 = (A + 1) - (A - 1)*c - sqrtA; + + bqConfig.format = pConfig->format; + bqConfig.channels = pConfig->channels; + + return bqConfig; +} + +MA_API ma_result ma_hishelf2_get_heap_size(const ma_hishelf2_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_biquad_config bqConfig; + bqConfig = ma_hishelf2__get_biquad_config(pConfig); + + return ma_biquad_get_heap_size(&bqConfig, pHeapSizeInBytes); +} + +MA_API ma_result ma_hishelf2_init_preallocated(const ma_hishelf2_config* pConfig, void* pHeap, ma_hishelf2* pFilter) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pFilter == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pFilter); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_hishelf2__get_biquad_config(pConfig); + result = ma_biquad_init_preallocated(&bqConfig, pHeap, &pFilter->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_hishelf2_init(const ma_hishelf2_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hishelf2* pFilter) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_hishelf2_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_hishelf2_init_preallocated(pConfig, pHeap, pFilter); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pFilter->bq._ownsHeap = MA_TRUE; /* <-- This will cause the biquad to take ownership of the heap and free it when it's uninitialized. */ + return MA_SUCCESS; +} + +MA_API void ma_hishelf2_uninit(ma_hishelf2* pFilter, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pFilter == NULL) { + return; + } + + ma_biquad_uninit(&pFilter->bq, pAllocationCallbacks); /* <-- This will free the heap allocation. */ +} + +MA_API ma_result ma_hishelf2_reinit(const ma_hishelf2_config* pConfig, ma_hishelf2* pFilter) +{ + ma_result result; + ma_biquad_config bqConfig; + + if (pFilter == NULL || pConfig == NULL) { + return MA_INVALID_ARGS; + } + + bqConfig = ma_hishelf2__get_biquad_config(pConfig); + result = ma_biquad_reinit(&bqConfig, &pFilter->bq); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +static MA_INLINE void ma_hishelf2_process_pcm_frame_s16(ma_hishelf2* pFilter, ma_int16* pFrameOut, const ma_int16* pFrameIn) +{ + ma_biquad_process_pcm_frame_s16(&pFilter->bq, pFrameOut, pFrameIn); +} + +static MA_INLINE void ma_hishelf2_process_pcm_frame_f32(ma_hishelf2* pFilter, float* pFrameOut, const float* pFrameIn) +{ + ma_biquad_process_pcm_frame_f32(&pFilter->bq, pFrameOut, pFrameIn); +} + +MA_API ma_result ma_hishelf2_process_pcm_frames(ma_hishelf2* pFilter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + if (pFilter == NULL) { + return MA_INVALID_ARGS; + } + + return ma_biquad_process_pcm_frames(&pFilter->bq, pFramesOut, pFramesIn, frameCount); +} + +MA_API ma_uint32 ma_hishelf2_get_latency(const ma_hishelf2* pFilter) +{ + if (pFilter == NULL) { + return 0; + } + + return ma_biquad_get_latency(&pFilter->bq); +} + + + +/* +Delay +*/ +MA_API ma_delay_config ma_delay_config_init(ma_uint32 channels, ma_uint32 sampleRate, ma_uint32 delayInFrames, float decay) +{ + ma_delay_config config; + + MA_ZERO_OBJECT(&config); + config.channels = channels; + config.sampleRate = sampleRate; + config.delayInFrames = delayInFrames; + config.delayStart = (decay == 0) ? MA_TRUE : MA_FALSE; /* Delay the start if it looks like we're not configuring an echo. */ + config.wet = 1; + config.dry = 1; + config.decay = decay; + + return config; +} + + +MA_API ma_result ma_delay_init(const ma_delay_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_delay* pDelay) +{ + if (pDelay == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pDelay); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->decay < 0 || pConfig->decay > 1) { + return MA_INVALID_ARGS; + } + + pDelay->config = *pConfig; + pDelay->bufferSizeInFrames = pConfig->delayInFrames; + pDelay->cursor = 0; + + pDelay->pBuffer = (float*)ma_malloc((size_t)(pDelay->bufferSizeInFrames * ma_get_bytes_per_frame(ma_format_f32, pConfig->channels)), pAllocationCallbacks); + if (pDelay->pBuffer == NULL) { + return MA_OUT_OF_MEMORY; + } + + ma_silence_pcm_frames(pDelay->pBuffer, pDelay->bufferSizeInFrames, ma_format_f32, pConfig->channels); + + return MA_SUCCESS; +} + +MA_API void ma_delay_uninit(ma_delay* pDelay, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pDelay == NULL) { + return; + } + + ma_free(pDelay->pBuffer, pAllocationCallbacks); +} + +MA_API ma_result ma_delay_process_pcm_frames(ma_delay* pDelay, void* pFramesOut, const void* pFramesIn, ma_uint32 frameCount) +{ + ma_uint32 iFrame; + ma_uint32 iChannel; + float* pFramesOutF32 = (float*)pFramesOut; + const float* pFramesInF32 = (const float*)pFramesIn; + + if (pDelay == NULL || pFramesOut == NULL || pFramesIn == NULL) { + return MA_INVALID_ARGS; + } + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < pDelay->config.channels; iChannel += 1) { + ma_uint32 iBuffer = (pDelay->cursor * pDelay->config.channels) + iChannel; + + if (pDelay->config.delayStart) { + /* Delayed start. */ + + /* Read */ + pFramesOutF32[iChannel] = pDelay->pBuffer[iBuffer] * pDelay->config.wet; + + /* Feedback */ + pDelay->pBuffer[iBuffer] = (pDelay->pBuffer[iBuffer] * pDelay->config.decay) + (pFramesInF32[iChannel] * pDelay->config.dry); + } else { + /* Immediate start */ + + /* Feedback */ + pDelay->pBuffer[iBuffer] = (pDelay->pBuffer[iBuffer] * pDelay->config.decay) + (pFramesInF32[iChannel] * pDelay->config.dry); + + /* Read */ + pFramesOutF32[iChannel] = pDelay->pBuffer[iBuffer] * pDelay->config.wet; + } + } + + pDelay->cursor = (pDelay->cursor + 1) % pDelay->bufferSizeInFrames; + + pFramesOutF32 += pDelay->config.channels; + pFramesInF32 += pDelay->config.channels; + } + + return MA_SUCCESS; +} + +MA_API void ma_delay_set_wet(ma_delay* pDelay, float value) +{ + if (pDelay == NULL) { + return; + } + + pDelay->config.wet = value; +} + +MA_API float ma_delay_get_wet(const ma_delay* pDelay) +{ + if (pDelay == NULL) { + return 0; + } + + return pDelay->config.wet; +} + +MA_API void ma_delay_set_dry(ma_delay* pDelay, float value) +{ + if (pDelay == NULL) { + return; + } + + pDelay->config.dry = value; +} + +MA_API float ma_delay_get_dry(const ma_delay* pDelay) +{ + if (pDelay == NULL) { + return 0; + } + + return pDelay->config.dry; +} + +MA_API void ma_delay_set_decay(ma_delay* pDelay, float value) +{ + if (pDelay == NULL) { + return; + } + + pDelay->config.decay = value; +} + +MA_API float ma_delay_get_decay(const ma_delay* pDelay) +{ + if (pDelay == NULL) { + return 0; + } + + return pDelay->config.decay; +} + + +MA_API ma_gainer_config ma_gainer_config_init(ma_uint32 channels, ma_uint32 smoothTimeInFrames) +{ + ma_gainer_config config; + + MA_ZERO_OBJECT(&config); + config.channels = channels; + config.smoothTimeInFrames = smoothTimeInFrames; + + return config; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t oldGainsOffset; + size_t newGainsOffset; +} ma_gainer_heap_layout; + +static ma_result ma_gainer_get_heap_layout(const ma_gainer_config* pConfig, ma_gainer_heap_layout* pHeapLayout) +{ + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->channels == 0) { + return MA_INVALID_ARGS; + } + + pHeapLayout->sizeInBytes = 0; + + /* Old gains. */ + pHeapLayout->oldGainsOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += sizeof(float) * pConfig->channels; + + /* New gains. */ + pHeapLayout->newGainsOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += sizeof(float) * pConfig->channels; + + /* Alignment. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + + +MA_API ma_result ma_gainer_get_heap_size(const ma_gainer_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_gainer_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_gainer_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + + +MA_API ma_result ma_gainer_init_preallocated(const ma_gainer_config* pConfig, void* pHeap, ma_gainer* pGainer) +{ + ma_result result; + ma_gainer_heap_layout heapLayout; + ma_uint32 iChannel; + + if (pGainer == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pGainer); + + if (pConfig == NULL || pHeap == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_gainer_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pGainer->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pGainer->pOldGains = (float*)ma_offset_ptr(pHeap, heapLayout.oldGainsOffset); + pGainer->pNewGains = (float*)ma_offset_ptr(pHeap, heapLayout.newGainsOffset); + pGainer->masterVolume = 1; + + pGainer->config = *pConfig; + pGainer->t = (ma_uint32)-1; /* No interpolation by default. */ + + for (iChannel = 0; iChannel < pConfig->channels; iChannel += 1) { + pGainer->pOldGains[iChannel] = 1; + pGainer->pNewGains[iChannel] = 1; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_gainer_init(const ma_gainer_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_gainer* pGainer) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_gainer_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; /* Failed to retrieve the size of the heap allocation. */ + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_gainer_init_preallocated(pConfig, pHeap, pGainer); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pGainer->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_gainer_uninit(ma_gainer* pGainer, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pGainer == NULL) { + return; + } + + if (pGainer->_ownsHeap) { + ma_free(pGainer->_pHeap, pAllocationCallbacks); + } +} + +static float ma_gainer_calculate_current_gain(const ma_gainer* pGainer, ma_uint32 channel) +{ + float a = (float)pGainer->t / pGainer->config.smoothTimeInFrames; + return ma_mix_f32_fast(pGainer->pOldGains[channel], pGainer->pNewGains[channel], a); +} + +static /*__attribute__((noinline))*/ ma_result ma_gainer_process_pcm_frames_internal(ma_gainer * pGainer, void* MA_RESTRICT pFramesOut, const void* MA_RESTRICT pFramesIn, ma_uint64 frameCount) +{ + ma_uint64 iFrame; + ma_uint32 iChannel; + ma_uint64 interpolatedFrameCount; + + MA_ASSERT(pGainer != NULL); + + /* + We don't necessarily need to apply a linear interpolation for the entire frameCount frames. When + linear interpolation is not needed we can do a simple volume adjustment which will be more + efficient than a lerp with an alpha value of 1. + + To do this, all we need to do is determine how many frames need to have a lerp applied. Then we + just process that number of frames with linear interpolation. After that we run on an optimized + path which just applies the new gains without a lerp. + */ + if (pGainer->t >= pGainer->config.smoothTimeInFrames) { + interpolatedFrameCount = 0; + } else { + interpolatedFrameCount = pGainer->t - pGainer->config.smoothTimeInFrames; + if (interpolatedFrameCount > frameCount) { + interpolatedFrameCount = frameCount; + } + } + + /* + Start off with our interpolated frames. When we do this, we'll adjust frameCount and our pointers + so that the fast path can work naturally without consideration of the interpolated path. + */ + if (interpolatedFrameCount > 0) { + /* We can allow the input and output buffers to be null in which case we'll just update the internal timer. */ + if (pFramesOut != NULL && pFramesIn != NULL) { + /* + All we're really doing here is moving the old gains towards the new gains. We don't want to + be modifying the gains inside the ma_gainer object because that will break things. Instead + we can make a copy here on the stack. For extreme channel counts we can fall back to a slower + implementation which just uses a standard lerp. + */ + float* pFramesOutF32 = (float*)pFramesOut; + const float* pFramesInF32 = (const float*)pFramesIn; + float a = (float)pGainer->t / pGainer->config.smoothTimeInFrames; + float d = 1.0f / pGainer->config.smoothTimeInFrames; + + if (pGainer->config.channels <= 32) { + float pRunningGain[32]; + float pRunningGainDelta[32]; /* Could this be heap-allocated as part of the ma_gainer object? */ + + /* Initialize the running gain. */ + for (iChannel = 0; iChannel < pGainer->config.channels; iChannel += 1) { + float t = (pGainer->pNewGains[iChannel] - pGainer->pOldGains[iChannel]) * pGainer->masterVolume; + pRunningGainDelta[iChannel] = t * d; + pRunningGain[iChannel] = (pGainer->pOldGains[iChannel] * pGainer->masterVolume) + (t * a); + } + + iFrame = 0; + + /* Optimized paths for common channel counts. This is mostly just experimenting with some SIMD ideas. It's not necessarily final. */ + if (pGainer->config.channels == 2) { + #if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + ma_uint64 unrolledLoopCount = interpolatedFrameCount >> 1; + + /* Expand some arrays so we can have a clean SIMD loop below. */ + __m128 runningGainDelta0 = _mm_set_ps(pRunningGainDelta[1], pRunningGainDelta[0], pRunningGainDelta[1], pRunningGainDelta[0]); + __m128 runningGain0 = _mm_set_ps(pRunningGain[1] + pRunningGainDelta[1], pRunningGain[0] + pRunningGainDelta[0], pRunningGain[1], pRunningGain[0]); + + for (; iFrame < unrolledLoopCount; iFrame += 1) { + _mm_storeu_ps(&pFramesOutF32[iFrame*4 + 0], _mm_mul_ps(_mm_loadu_ps(&pFramesInF32[iFrame*4 + 0]), runningGain0)); + runningGain0 = _mm_add_ps(runningGain0, runningGainDelta0); + } + + iFrame = unrolledLoopCount << 1; + } else + #endif + { + /* + Two different scalar implementations here. Clang (and I assume GCC) will vectorize + both of these, but the bottom version results in a nicer vectorization with less + instructions emitted. The problem, however, is that the bottom version runs slower + when compiled with MSVC. The top version will be partially vectorized by MSVC. + */ + #if defined(_MSC_VER) && !defined(__clang__) + ma_uint64 unrolledLoopCount = interpolatedFrameCount >> 1; + + /* Expand some arrays so we can have a clean 4x SIMD operation in the loop. */ + pRunningGainDelta[2] = pRunningGainDelta[0]; + pRunningGainDelta[3] = pRunningGainDelta[1]; + pRunningGain[2] = pRunningGain[0] + pRunningGainDelta[0]; + pRunningGain[3] = pRunningGain[1] + pRunningGainDelta[1]; + + for (; iFrame < unrolledLoopCount; iFrame += 1) { + pFramesOutF32[iFrame*4 + 0] = pFramesInF32[iFrame*4 + 0] * pRunningGain[0]; + pFramesOutF32[iFrame*4 + 1] = pFramesInF32[iFrame*4 + 1] * pRunningGain[1]; + pFramesOutF32[iFrame*4 + 2] = pFramesInF32[iFrame*4 + 2] * pRunningGain[2]; + pFramesOutF32[iFrame*4 + 3] = pFramesInF32[iFrame*4 + 3] * pRunningGain[3]; + + /* Move the running gain forward towards the new gain. */ + pRunningGain[0] += pRunningGainDelta[0]; + pRunningGain[1] += pRunningGainDelta[1]; + pRunningGain[2] += pRunningGainDelta[2]; + pRunningGain[3] += pRunningGainDelta[3]; + } + + iFrame = unrolledLoopCount << 1; + #else + for (; iFrame < interpolatedFrameCount; iFrame += 1) { + for (iChannel = 0; iChannel < 2; iChannel += 1) { + pFramesOutF32[iFrame*2 + iChannel] = pFramesInF32[iFrame*2 + iChannel] * pRunningGain[iChannel]; + } + + for (iChannel = 0; iChannel < 2; iChannel += 1) { + pRunningGain[iChannel] += pRunningGainDelta[iChannel]; + } + } + #endif + } + } else if (pGainer->config.channels == 6) { + #if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + /* + For 6 channels things are a bit more complicated because 6 isn't cleanly divisible by 4. We need to do 2 frames + at a time, meaning we'll be doing 12 samples in a group. Like the stereo case we'll need to expand some arrays + so we can do clean 4x SIMD operations. + */ + ma_uint64 unrolledLoopCount = interpolatedFrameCount >> 1; + + /* Expand some arrays so we can have a clean SIMD loop below. */ + __m128 runningGainDelta0 = _mm_set_ps(pRunningGainDelta[3], pRunningGainDelta[2], pRunningGainDelta[1], pRunningGainDelta[0]); + __m128 runningGainDelta1 = _mm_set_ps(pRunningGainDelta[1], pRunningGainDelta[0], pRunningGainDelta[5], pRunningGainDelta[4]); + __m128 runningGainDelta2 = _mm_set_ps(pRunningGainDelta[5], pRunningGainDelta[4], pRunningGainDelta[3], pRunningGainDelta[2]); + + __m128 runningGain0 = _mm_set_ps(pRunningGain[3], pRunningGain[2], pRunningGain[1], pRunningGain[0]); + __m128 runningGain1 = _mm_set_ps(pRunningGain[1] + pRunningGainDelta[1], pRunningGain[0] + pRunningGainDelta[0], pRunningGain[5], pRunningGain[4]); + __m128 runningGain2 = _mm_set_ps(pRunningGain[5] + pRunningGainDelta[5], pRunningGain[4] + pRunningGainDelta[4], pRunningGain[3] + pRunningGainDelta[3], pRunningGain[2] + pRunningGainDelta[2]); + + for (; iFrame < unrolledLoopCount; iFrame += 1) { + _mm_storeu_ps(&pFramesOutF32[iFrame*12 + 0], _mm_mul_ps(_mm_loadu_ps(&pFramesInF32[iFrame*12 + 0]), runningGain0)); + _mm_storeu_ps(&pFramesOutF32[iFrame*12 + 4], _mm_mul_ps(_mm_loadu_ps(&pFramesInF32[iFrame*12 + 4]), runningGain1)); + _mm_storeu_ps(&pFramesOutF32[iFrame*12 + 8], _mm_mul_ps(_mm_loadu_ps(&pFramesInF32[iFrame*12 + 8]), runningGain2)); + + runningGain0 = _mm_add_ps(runningGain0, runningGainDelta0); + runningGain1 = _mm_add_ps(runningGain1, runningGainDelta1); + runningGain2 = _mm_add_ps(runningGain2, runningGainDelta2); + } + + iFrame = unrolledLoopCount << 1; + } else + #endif + { + for (; iFrame < interpolatedFrameCount; iFrame += 1) { + for (iChannel = 0; iChannel < 6; iChannel += 1) { + pFramesOutF32[iFrame*6 + iChannel] = pFramesInF32[iFrame*6 + iChannel] * pRunningGain[iChannel]; + } + + /* Move the running gain forward towards the new gain. */ + for (iChannel = 0; iChannel < 6; iChannel += 1) { + pRunningGain[iChannel] += pRunningGainDelta[iChannel]; + } + } + } + } else if (pGainer->config.channels == 8) { + /* For 8 channels we can just go over frame by frame and do all eight channels as 2 separate 4x SIMD operations. */ + #if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + __m128 runningGainDelta0 = _mm_loadu_ps(&pRunningGainDelta[0]); + __m128 runningGainDelta1 = _mm_loadu_ps(&pRunningGainDelta[4]); + __m128 runningGain0 = _mm_loadu_ps(&pRunningGain[0]); + __m128 runningGain1 = _mm_loadu_ps(&pRunningGain[4]); + + for (; iFrame < interpolatedFrameCount; iFrame += 1) { + _mm_storeu_ps(&pFramesOutF32[iFrame*8 + 0], _mm_mul_ps(_mm_loadu_ps(&pFramesInF32[iFrame*8 + 0]), runningGain0)); + _mm_storeu_ps(&pFramesOutF32[iFrame*8 + 4], _mm_mul_ps(_mm_loadu_ps(&pFramesInF32[iFrame*8 + 4]), runningGain1)); + + runningGain0 = _mm_add_ps(runningGain0, runningGainDelta0); + runningGain1 = _mm_add_ps(runningGain1, runningGainDelta1); + } + } else + #endif + { + /* This is crafted so that it auto-vectorizes when compiled with Clang. */ + for (; iFrame < interpolatedFrameCount; iFrame += 1) { + for (iChannel = 0; iChannel < 8; iChannel += 1) { + pFramesOutF32[iFrame*8 + iChannel] = pFramesInF32[iFrame*8 + iChannel] * pRunningGain[iChannel]; + } + + /* Move the running gain forward towards the new gain. */ + for (iChannel = 0; iChannel < 8; iChannel += 1) { + pRunningGain[iChannel] += pRunningGainDelta[iChannel]; + } + } + } + } + + for (; iFrame < interpolatedFrameCount; iFrame += 1) { + for (iChannel = 0; iChannel < pGainer->config.channels; iChannel += 1) { + pFramesOutF32[iFrame*pGainer->config.channels + iChannel] = pFramesInF32[iFrame*pGainer->config.channels + iChannel] * pRunningGain[iChannel]; + pRunningGain[iChannel] += pRunningGainDelta[iChannel]; + } + } + } else { + /* Slower path for extreme channel counts where we can't fit enough on the stack. We could also move this to the heap as part of the ma_gainer object which might even be better since it'll only be updated when the gains actually change. */ + for (iFrame = 0; iFrame < interpolatedFrameCount; iFrame += 1) { + for (iChannel = 0; iChannel < pGainer->config.channels; iChannel += 1) { + pFramesOutF32[iFrame*pGainer->config.channels + iChannel] = pFramesInF32[iFrame*pGainer->config.channels + iChannel] * ma_mix_f32_fast(pGainer->pOldGains[iChannel], pGainer->pNewGains[iChannel], a) * pGainer->masterVolume; + } + + a += d; + } + } + + pFramesOut = ma_offset_ptr(pFramesOut, interpolatedFrameCount * sizeof(float)); + pFramesIn = ma_offset_ptr(pFramesIn, interpolatedFrameCount * sizeof(float)); + } + + frameCount -= interpolatedFrameCount; + + /* Make sure the timer is updated. */ + pGainer->t = (ma_uint32)ma_min(pGainer->t + interpolatedFrameCount, pGainer->config.smoothTimeInFrames); + } + + /* All we need to do here is apply the new gains using an optimized path. */ + if (pFramesOut != NULL && pFramesIn != NULL) { + if (pGainer->config.channels <= 32) { + float gains[32]; + for (iChannel = 0; iChannel < pGainer->config.channels; iChannel += 1) { + gains[iChannel] = pGainer->pNewGains[iChannel] * pGainer->masterVolume; + } + + ma_copy_and_apply_volume_factor_per_channel_f32((float*)pFramesOut, (const float*)pFramesIn, frameCount, pGainer->config.channels, gains); + } else { + /* Slow path. Too many channels to fit on the stack. Need to apply a master volume as a separate path. */ + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < pGainer->config.channels; iChannel += 1) { + ((float*)pFramesOut)[iFrame*pGainer->config.channels + iChannel] = ((const float*)pFramesIn)[iFrame*pGainer->config.channels + iChannel] * pGainer->pNewGains[iChannel] * pGainer->masterVolume; + } + } + } + } + + /* Now that some frames have been processed we need to make sure future changes to the gain are interpolated. */ + if (pGainer->t == (ma_uint32)-1) { + pGainer->t = (ma_uint32)ma_min(pGainer->config.smoothTimeInFrames, frameCount); + } + +#if 0 + if (pGainer->t >= pGainer->config.smoothTimeInFrames) { + /* Fast path. No gain calculation required. */ + ma_copy_and_apply_volume_factor_per_channel_f32(pFramesOutF32, pFramesInF32, frameCount, pGainer->config.channels, pGainer->pNewGains); + ma_apply_volume_factor_f32(pFramesOutF32, frameCount * pGainer->config.channels, pGainer->masterVolume); + + /* Now that some frames have been processed we need to make sure future changes to the gain are interpolated. */ + if (pGainer->t == (ma_uint32)-1) { + pGainer->t = pGainer->config.smoothTimeInFrames; + } + } else { + /* Slow path. Need to interpolate the gain for each channel individually. */ + + /* We can allow the input and output buffers to be null in which case we'll just update the internal timer. */ + if (pFramesOut != NULL && pFramesIn != NULL) { + float a = (float)pGainer->t / pGainer->config.smoothTimeInFrames; + float d = 1.0f / pGainer->config.smoothTimeInFrames; + ma_uint32 channelCount = pGainer->config.channels; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < channelCount; iChannel += 1) { + pFramesOutF32[iChannel] = pFramesInF32[iChannel] * ma_mix_f32_fast(pGainer->pOldGains[iChannel], pGainer->pNewGains[iChannel], a) * pGainer->masterVolume; + } + + pFramesOutF32 += channelCount; + pFramesInF32 += channelCount; + + a += d; + if (a > 1) { + a = 1; + } + } + } + + pGainer->t = (ma_uint32)ma_min(pGainer->t + frameCount, pGainer->config.smoothTimeInFrames); + + #if 0 /* Reference implementation. */ + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + /* We can allow the input and output buffers to be null in which case we'll just update the internal timer. */ + if (pFramesOut != NULL && pFramesIn != NULL) { + for (iChannel = 0; iChannel < pGainer->config.channels; iChannel += 1) { + pFramesOutF32[iFrame * pGainer->config.channels + iChannel] = pFramesInF32[iFrame * pGainer->config.channels + iChannel] * ma_gainer_calculate_current_gain(pGainer, iChannel) * pGainer->masterVolume; + } + } + + /* Move interpolation time forward, but don't go beyond our smoothing time. */ + pGainer->t = ma_min(pGainer->t + 1, pGainer->config.smoothTimeInFrames); + } + #endif + } +#endif + + return MA_SUCCESS; +} + +MA_API ma_result ma_gainer_process_pcm_frames(ma_gainer* pGainer, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + if (pGainer == NULL) { + return MA_INVALID_ARGS; + } + + /* + ma_gainer_process_pcm_frames_internal() marks pFramesOut and pFramesIn with MA_RESTRICT which + helps with auto-vectorization. + */ + return ma_gainer_process_pcm_frames_internal(pGainer, pFramesOut, pFramesIn, frameCount); +} + +static void ma_gainer_set_gain_by_index(ma_gainer* pGainer, float newGain, ma_uint32 iChannel) +{ + pGainer->pOldGains[iChannel] = ma_gainer_calculate_current_gain(pGainer, iChannel); + pGainer->pNewGains[iChannel] = newGain; +} + +static void ma_gainer_reset_smoothing_time(ma_gainer* pGainer) +{ + if (pGainer->t == (ma_uint32)-1) { + pGainer->t = pGainer->config.smoothTimeInFrames; /* No smoothing required for initial gains setting. */ + } else { + pGainer->t = 0; + } +} + +MA_API ma_result ma_gainer_set_gain(ma_gainer* pGainer, float newGain) +{ + ma_uint32 iChannel; + + if (pGainer == NULL) { + return MA_INVALID_ARGS; + } + + for (iChannel = 0; iChannel < pGainer->config.channels; iChannel += 1) { + ma_gainer_set_gain_by_index(pGainer, newGain, iChannel); + } + + /* The smoothing time needs to be reset to ensure we always interpolate by the configured smoothing time, but only if it's not the first setting. */ + ma_gainer_reset_smoothing_time(pGainer); + + return MA_SUCCESS; +} + +MA_API ma_result ma_gainer_set_gains(ma_gainer* pGainer, float* pNewGains) +{ + ma_uint32 iChannel; + + if (pGainer == NULL || pNewGains == NULL) { + return MA_INVALID_ARGS; + } + + for (iChannel = 0; iChannel < pGainer->config.channels; iChannel += 1) { + ma_gainer_set_gain_by_index(pGainer, pNewGains[iChannel], iChannel); + } + + /* The smoothing time needs to be reset to ensure we always interpolate by the configured smoothing time, but only if it's not the first setting. */ + ma_gainer_reset_smoothing_time(pGainer); + + return MA_SUCCESS; +} + +MA_API ma_result ma_gainer_set_master_volume(ma_gainer* pGainer, float volume) +{ + if (pGainer == NULL) { + return MA_INVALID_ARGS; + } + + pGainer->masterVolume = volume; + + return MA_SUCCESS; +} + +MA_API ma_result ma_gainer_get_master_volume(const ma_gainer* pGainer, float* pVolume) +{ + if (pGainer == NULL || pVolume == NULL) { + return MA_INVALID_ARGS; + } + + *pVolume = pGainer->masterVolume; + + return MA_SUCCESS; +} + + +MA_API ma_panner_config ma_panner_config_init(ma_format format, ma_uint32 channels) +{ + ma_panner_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.mode = ma_pan_mode_balance; /* Set to balancing mode by default because it's consistent with other audio engines and most likely what the caller is expecting. */ + config.pan = 0; + + return config; +} + + +MA_API ma_result ma_panner_init(const ma_panner_config* pConfig, ma_panner* pPanner) +{ + if (pPanner == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pPanner); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + pPanner->format = pConfig->format; + pPanner->channels = pConfig->channels; + pPanner->mode = pConfig->mode; + pPanner->pan = pConfig->pan; + + return MA_SUCCESS; +} + +static void ma_stereo_balance_pcm_frames_f32(float* pFramesOut, const float* pFramesIn, ma_uint64 frameCount, float pan) +{ + ma_uint64 iFrame; + + if (pan > 0) { + float factor = 1.0f - pan; + if (pFramesOut == pFramesIn) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + pFramesOut[iFrame*2 + 0] = pFramesIn[iFrame*2 + 0] * factor; + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + pFramesOut[iFrame*2 + 0] = pFramesIn[iFrame*2 + 0] * factor; + pFramesOut[iFrame*2 + 1] = pFramesIn[iFrame*2 + 1]; + } + } + } else { + float factor = 1.0f + pan; + if (pFramesOut == pFramesIn) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + pFramesOut[iFrame*2 + 1] = pFramesIn[iFrame*2 + 1] * factor; + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + pFramesOut[iFrame*2 + 0] = pFramesIn[iFrame*2 + 0]; + pFramesOut[iFrame*2 + 1] = pFramesIn[iFrame*2 + 1] * factor; + } + } + } +} + +static void ma_stereo_balance_pcm_frames(void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount, ma_format format, float pan) +{ + if (pan == 0) { + /* Fast path. No panning required. */ + if (pFramesOut == pFramesIn) { + /* No-op */ + } else { + ma_copy_pcm_frames(pFramesOut, pFramesIn, frameCount, format, 2); + } + + return; + } + + switch (format) { + case ma_format_f32: ma_stereo_balance_pcm_frames_f32((float*)pFramesOut, (float*)pFramesIn, frameCount, pan); break; + + /* Unknown format. Just copy. */ + default: + { + ma_copy_pcm_frames(pFramesOut, pFramesIn, frameCount, format, 2); + } break; + } +} + + +static void ma_stereo_pan_pcm_frames_f32(float* pFramesOut, const float* pFramesIn, ma_uint64 frameCount, float pan) +{ + ma_uint64 iFrame; + + if (pan > 0) { + float factorL0 = 1.0f - pan; + float factorL1 = 0.0f + pan; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float sample0 = (pFramesIn[iFrame*2 + 0] * factorL0); + float sample1 = (pFramesIn[iFrame*2 + 0] * factorL1) + pFramesIn[iFrame*2 + 1]; + + pFramesOut[iFrame*2 + 0] = sample0; + pFramesOut[iFrame*2 + 1] = sample1; + } + } else { + float factorR0 = 0.0f - pan; + float factorR1 = 1.0f + pan; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float sample0 = pFramesIn[iFrame*2 + 0] + (pFramesIn[iFrame*2 + 1] * factorR0); + float sample1 = (pFramesIn[iFrame*2 + 1] * factorR1); + + pFramesOut[iFrame*2 + 0] = sample0; + pFramesOut[iFrame*2 + 1] = sample1; + } + } +} + +static void ma_stereo_pan_pcm_frames(void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount, ma_format format, float pan) +{ + if (pan == 0) { + /* Fast path. No panning required. */ + if (pFramesOut == pFramesIn) { + /* No-op */ + } else { + ma_copy_pcm_frames(pFramesOut, pFramesIn, frameCount, format, 2); + } + + return; + } + + switch (format) { + case ma_format_f32: ma_stereo_pan_pcm_frames_f32((float*)pFramesOut, (float*)pFramesIn, frameCount, pan); break; + + /* Unknown format. Just copy. */ + default: + { + ma_copy_pcm_frames(pFramesOut, pFramesIn, frameCount, format, 2); + } break; + } +} + +MA_API ma_result ma_panner_process_pcm_frames(ma_panner* pPanner, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + if (pPanner == NULL || pFramesOut == NULL || pFramesIn == NULL) { + return MA_INVALID_ARGS; + } + + if (pPanner->channels == 2) { + /* Stereo case. For now assume channel 0 is left and channel right is 1, but should probably add support for a channel map. */ + if (pPanner->mode == ma_pan_mode_balance) { + ma_stereo_balance_pcm_frames(pFramesOut, pFramesIn, frameCount, pPanner->format, pPanner->pan); + } else { + ma_stereo_pan_pcm_frames(pFramesOut, pFramesIn, frameCount, pPanner->format, pPanner->pan); + } + } else { + if (pPanner->channels == 1) { + /* Panning has no effect on mono streams. */ + ma_copy_pcm_frames(pFramesOut, pFramesIn, frameCount, pPanner->format, pPanner->channels); + } else { + /* For now we're not going to support non-stereo set ups. Not sure how I want to handle this case just yet. */ + ma_copy_pcm_frames(pFramesOut, pFramesIn, frameCount, pPanner->format, pPanner->channels); + } + } + + return MA_SUCCESS; +} + +MA_API void ma_panner_set_mode(ma_panner* pPanner, ma_pan_mode mode) +{ + if (pPanner == NULL) { + return; + } + + pPanner->mode = mode; +} + +MA_API ma_pan_mode ma_panner_get_mode(const ma_panner* pPanner) +{ + if (pPanner == NULL) { + return ma_pan_mode_balance; + } + + return pPanner->mode; +} + +MA_API void ma_panner_set_pan(ma_panner* pPanner, float pan) +{ + if (pPanner == NULL) { + return; + } + + pPanner->pan = ma_clamp(pan, -1.0f, 1.0f); +} + +MA_API float ma_panner_get_pan(const ma_panner* pPanner) +{ + if (pPanner == NULL) { + return 0; + } + + return pPanner->pan; +} + + + + +MA_API ma_fader_config ma_fader_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate) +{ + ma_fader_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + + return config; +} + + +MA_API ma_result ma_fader_init(const ma_fader_config* pConfig, ma_fader* pFader) +{ + if (pFader == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pFader); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + /* Only f32 is supported for now. */ + if (pConfig->format != ma_format_f32) { + return MA_INVALID_ARGS; + } + + pFader->config = *pConfig; + pFader->volumeBeg = 1; + pFader->volumeEnd = 1; + pFader->lengthInFrames = 0; + pFader->cursorInFrames = 0; + + return MA_SUCCESS; +} + +MA_API ma_result ma_fader_process_pcm_frames(ma_fader* pFader, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + if (pFader == NULL) { + return MA_INVALID_ARGS; + } + + /* If the cursor is still negative we need to just copy the absolute number of those frames, but no more than frameCount. */ + if (pFader->cursorInFrames < 0) { + ma_uint64 absCursorInFrames = (ma_uint64)0 - pFader->cursorInFrames; + if (absCursorInFrames > frameCount) { + absCursorInFrames = frameCount; + } + + ma_copy_pcm_frames(pFramesOut, pFramesIn, absCursorInFrames, pFader->config.format, pFader->config.channels); + + pFader->cursorInFrames += absCursorInFrames; + frameCount -= absCursorInFrames; + pFramesOut = ma_offset_ptr(pFramesOut, ma_get_bytes_per_frame(pFader->config.format, pFader->config.channels)*absCursorInFrames); + pFramesIn = ma_offset_ptr(pFramesIn, ma_get_bytes_per_frame(pFader->config.format, pFader->config.channels)*absCursorInFrames); + } + + if (pFader->cursorInFrames >= 0) { + /* + For now we need to clamp frameCount so that the cursor never overflows 32-bits. This is required for + the conversion to a float which we use for the linear interpolation. This might be changed later. + */ + if (frameCount + pFader->cursorInFrames > UINT_MAX) { + frameCount = UINT_MAX - pFader->cursorInFrames; + } + + /* Optimized path if volumeBeg and volumeEnd are equal. */ + if (pFader->volumeBeg == pFader->volumeEnd) { + if (pFader->volumeBeg == 1) { + /* Straight copy. */ + ma_copy_pcm_frames(pFramesOut, pFramesIn, frameCount, pFader->config.format, pFader->config.channels); + } else { + /* Copy with volume. */ + ma_copy_and_apply_volume_and_clip_pcm_frames(pFramesOut, pFramesIn, frameCount, pFader->config.format, pFader->config.channels, pFader->volumeBeg); + } + } else { + /* Slower path. Volumes are different, so may need to do an interpolation. */ + if ((ma_uint64)pFader->cursorInFrames >= pFader->lengthInFrames) { + /* Fast path. We've gone past the end of the fade period so just apply the end volume to all samples. */ + ma_copy_and_apply_volume_and_clip_pcm_frames(pFramesOut, pFramesIn, frameCount, pFader->config.format, pFader->config.channels, pFader->volumeEnd); + } else { + /* Slow path. This is where we do the actual fading. */ + ma_uint64 iFrame; + ma_uint32 iChannel; + + /* For now we only support f32. Support for other formats might be added later. */ + if (pFader->config.format == ma_format_f32) { + const float* pFramesInF32 = (const float*)pFramesIn; + /* */ float* pFramesOutF32 = ( float*)pFramesOut; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float a = (ma_uint32)ma_min(pFader->cursorInFrames + iFrame, pFader->lengthInFrames) / (float)((ma_uint32)pFader->lengthInFrames); /* Safe cast due to the frameCount clamp at the top of this function. */ + float volume = ma_mix_f32_fast(pFader->volumeBeg, pFader->volumeEnd, a); + + for (iChannel = 0; iChannel < pFader->config.channels; iChannel += 1) { + pFramesOutF32[iFrame*pFader->config.channels + iChannel] = pFramesInF32[iFrame*pFader->config.channels + iChannel] * volume; + } + } + } else { + return MA_NOT_IMPLEMENTED; + } + } + } + } + + pFader->cursorInFrames += frameCount; + + return MA_SUCCESS; +} + +MA_API void ma_fader_get_data_format(const ma_fader* pFader, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate) +{ + if (pFader == NULL) { + return; + } + + if (pFormat != NULL) { + *pFormat = pFader->config.format; + } + + if (pChannels != NULL) { + *pChannels = pFader->config.channels; + } + + if (pSampleRate != NULL) { + *pSampleRate = pFader->config.sampleRate; + } +} + +MA_API void ma_fader_set_fade(ma_fader* pFader, float volumeBeg, float volumeEnd, ma_uint64 lengthInFrames) +{ + ma_fader_set_fade_ex(pFader, volumeBeg, volumeEnd, lengthInFrames, 0); +} + +MA_API void ma_fader_set_fade_ex(ma_fader* pFader, float volumeBeg, float volumeEnd, ma_uint64 lengthInFrames, ma_int64 startOffsetInFrames) +{ + if (pFader == NULL) { + return; + } + + /* If the volume is negative, use current volume. */ + if (volumeBeg < 0) { + volumeBeg = ma_fader_get_current_volume(pFader); + } + + /* + The length needs to be clamped to 32-bits due to how we convert it to a float for linear + interpolation reasons. I might change this requirement later, but for now it's not important. + */ + if (lengthInFrames > UINT_MAX) { + lengthInFrames = UINT_MAX; + } + + /* The start offset needs to be clamped to ensure it doesn't overflow a signed number. */ + if (startOffsetInFrames > INT_MAX) { + startOffsetInFrames = INT_MAX; + } + + pFader->volumeBeg = volumeBeg; + pFader->volumeEnd = volumeEnd; + pFader->lengthInFrames = lengthInFrames; + pFader->cursorInFrames = -startOffsetInFrames; +} + +MA_API float ma_fader_get_current_volume(const ma_fader* pFader) +{ + if (pFader == NULL) { + return 0.0f; + } + + /* Any frames prior to the start of the fade period will be at unfaded volume. */ + if (pFader->cursorInFrames < 0) { + return 1.0f; + } + + /* The current volume depends on the position of the cursor. */ + if (pFader->cursorInFrames == 0) { + return pFader->volumeBeg; + } else if ((ma_uint64)pFader->cursorInFrames >= pFader->lengthInFrames) { /* Safe case because the < 0 case was checked above. */ + return pFader->volumeEnd; + } else { + /* The cursor is somewhere inside the fading period. We can figure this out with a simple linear interpolation between volumeBeg and volumeEnd based on our cursor position. */ + return ma_mix_f32_fast(pFader->volumeBeg, pFader->volumeEnd, (ma_uint32)pFader->cursorInFrames / (float)((ma_uint32)pFader->lengthInFrames)); /* Safe cast to uint32 because we clamp it in ma_fader_process_pcm_frames(). */ + } +} + + + + + +MA_API ma_vec3f ma_vec3f_init_3f(float x, float y, float z) +{ + ma_vec3f v; + + v.x = x; + v.y = y; + v.z = z; + + return v; +} + +MA_API ma_vec3f ma_vec3f_sub(ma_vec3f a, ma_vec3f b) +{ + return ma_vec3f_init_3f( + a.x - b.x, + a.y - b.y, + a.z - b.z + ); +} + +MA_API ma_vec3f ma_vec3f_neg(ma_vec3f a) +{ + return ma_vec3f_init_3f( + -a.x, + -a.y, + -a.z + ); +} + +MA_API float ma_vec3f_dot(ma_vec3f a, ma_vec3f b) +{ + return a.x*b.x + a.y*b.y + a.z*b.z; +} + +MA_API float ma_vec3f_len2(ma_vec3f v) +{ + return ma_vec3f_dot(v, v); +} + +MA_API float ma_vec3f_len(ma_vec3f v) +{ + return (float)ma_sqrtd(ma_vec3f_len2(v)); +} + + + +MA_API float ma_vec3f_dist(ma_vec3f a, ma_vec3f b) +{ + return ma_vec3f_len(ma_vec3f_sub(a, b)); +} + +MA_API ma_vec3f ma_vec3f_normalize(ma_vec3f v) +{ + float invLen; + float len2 = ma_vec3f_len2(v); + if (len2 == 0) { + return ma_vec3f_init_3f(0, 0, 0); + } + + invLen = ma_rsqrtf(len2); + v.x *= invLen; + v.y *= invLen; + v.z *= invLen; + + return v; +} + +MA_API ma_vec3f ma_vec3f_cross(ma_vec3f a, ma_vec3f b) +{ + return ma_vec3f_init_3f( + a.y*b.z - a.z*b.y, + a.z*b.x - a.x*b.z, + a.x*b.y - a.y*b.x + ); +} + + +MA_API void ma_atomic_vec3f_init(ma_atomic_vec3f* v, ma_vec3f value) +{ + v->v = value; + v->lock = 0; /* Important this is initialized to 0. */ +} + +MA_API void ma_atomic_vec3f_set(ma_atomic_vec3f* v, ma_vec3f value) +{ + ma_spinlock_lock(&v->lock); + { + v->v = value; + } + ma_spinlock_unlock(&v->lock); +} + +MA_API ma_vec3f ma_atomic_vec3f_get(ma_atomic_vec3f* v) +{ + ma_vec3f r; + + ma_spinlock_lock(&v->lock); + { + r = v->v; + } + ma_spinlock_unlock(&v->lock); + + return r; +} + + + +static void ma_channel_map_apply_f32(float* pFramesOut, const ma_channel* pChannelMapOut, ma_uint32 channelsOut, const float* pFramesIn, const ma_channel* pChannelMapIn, ma_uint32 channelsIn, ma_uint64 frameCount, ma_channel_mix_mode mode, ma_mono_expansion_mode monoExpansionMode); +static ma_bool32 ma_is_spatial_channel_position(ma_channel channelPosition); + + +#ifndef MA_DEFAULT_SPEED_OF_SOUND +#define MA_DEFAULT_SPEED_OF_SOUND 343.3f +#endif + +/* +These vectors represent the direction that speakers are facing from the center point. They're used +for panning in the spatializer. Must be normalized. +*/ +static ma_vec3f g_maChannelDirections[MA_CHANNEL_POSITION_COUNT] = { + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_NONE */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_MONO */ + {-0.7071f, 0.0f, -0.7071f }, /* MA_CHANNEL_FRONT_LEFT */ + {+0.7071f, 0.0f, -0.7071f }, /* MA_CHANNEL_FRONT_RIGHT */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_FRONT_CENTER */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_LFE */ + {-0.7071f, 0.0f, +0.7071f }, /* MA_CHANNEL_BACK_LEFT */ + {+0.7071f, 0.0f, +0.7071f }, /* MA_CHANNEL_BACK_RIGHT */ + {-0.3162f, 0.0f, -0.9487f }, /* MA_CHANNEL_FRONT_LEFT_CENTER */ + {+0.3162f, 0.0f, -0.9487f }, /* MA_CHANNEL_FRONT_RIGHT_CENTER */ + { 0.0f, 0.0f, +1.0f }, /* MA_CHANNEL_BACK_CENTER */ + {-1.0f, 0.0f, 0.0f }, /* MA_CHANNEL_SIDE_LEFT */ + {+1.0f, 0.0f, 0.0f }, /* MA_CHANNEL_SIDE_RIGHT */ + { 0.0f, +1.0f, 0.0f }, /* MA_CHANNEL_TOP_CENTER */ + {-0.5774f, +0.5774f, -0.5774f }, /* MA_CHANNEL_TOP_FRONT_LEFT */ + { 0.0f, +0.7071f, -0.7071f }, /* MA_CHANNEL_TOP_FRONT_CENTER */ + {+0.5774f, +0.5774f, -0.5774f }, /* MA_CHANNEL_TOP_FRONT_RIGHT */ + {-0.5774f, +0.5774f, +0.5774f }, /* MA_CHANNEL_TOP_BACK_LEFT */ + { 0.0f, +0.7071f, +0.7071f }, /* MA_CHANNEL_TOP_BACK_CENTER */ + {+0.5774f, +0.5774f, +0.5774f }, /* MA_CHANNEL_TOP_BACK_RIGHT */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_0 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_1 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_2 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_3 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_4 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_5 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_6 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_7 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_8 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_9 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_10 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_11 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_12 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_13 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_14 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_15 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_16 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_17 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_18 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_19 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_20 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_21 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_22 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_23 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_24 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_25 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_26 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_27 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_28 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_29 */ + { 0.0f, 0.0f, -1.0f }, /* MA_CHANNEL_AUX_30 */ + { 0.0f, 0.0f, -1.0f } /* MA_CHANNEL_AUX_31 */ +}; + +static ma_vec3f ma_get_channel_direction(ma_channel channel) +{ + if (channel >= MA_CHANNEL_POSITION_COUNT) { + return ma_vec3f_init_3f(0, 0, -1); + } else { + return g_maChannelDirections[channel]; + } +} + + + +static float ma_attenuation_inverse(float distance, float minDistance, float maxDistance, float rolloff) +{ + if (minDistance >= maxDistance) { + return 1; /* To avoid division by zero. Do not attenuate. */ + } + + return minDistance / (minDistance + rolloff * (ma_clamp(distance, minDistance, maxDistance) - minDistance)); +} + +static float ma_attenuation_linear(float distance, float minDistance, float maxDistance, float rolloff) +{ + if (minDistance >= maxDistance) { + return 1; /* To avoid division by zero. Do not attenuate. */ + } + + return 1 - rolloff * (ma_clamp(distance, minDistance, maxDistance) - minDistance) / (maxDistance - minDistance); +} + +static float ma_attenuation_exponential(float distance, float minDistance, float maxDistance, float rolloff) +{ + if (minDistance >= maxDistance) { + return 1; /* To avoid division by zero. Do not attenuate. */ + } + + return (float)ma_powd(ma_clamp(distance, minDistance, maxDistance) / minDistance, -rolloff); +} + + +/* +Doppler Effect calculation taken from the OpenAL spec, with two main differences: + + 1) The source to listener vector will have already been calculated at an earlier step so we can + just use that directly. We need only the position of the source relative to the origin. + + 2) We don't scale by a frequency because we actually just want the ratio which we'll plug straight + into the resampler directly. +*/ +static float ma_doppler_pitch(ma_vec3f relativePosition, ma_vec3f sourceVelocity, ma_vec3f listenVelocity, float speedOfSound, float dopplerFactor) +{ + float len; + float vls; + float vss; + + len = ma_vec3f_len(relativePosition); + + /* + There's a case where the position of the source will be right on top of the listener in which + case the length will be 0 and we'll end up with a division by zero. We can just return a ratio + of 1.0 in this case. This is not considered in the OpenAL spec, but is necessary. + */ + if (len == 0) { + return 1.0; + } + + vls = ma_vec3f_dot(relativePosition, listenVelocity) / len; + vss = ma_vec3f_dot(relativePosition, sourceVelocity) / len; + + vls = ma_min(vls, speedOfSound / dopplerFactor); + vss = ma_min(vss, speedOfSound / dopplerFactor); + + return (speedOfSound - dopplerFactor*vls) / (speedOfSound - dopplerFactor*vss); +} + + +static void ma_get_default_channel_map_for_spatializer(ma_channel* pChannelMap, size_t channelMapCap, ma_uint32 channelCount) +{ + /* + Special case for stereo. Want to default the left and right speakers to side left and side + right so that they're facing directly down the X axis rather than slightly forward. Not + doing this will result in sounds being quieter when behind the listener. This might + actually be good for some scenarios, but I don't think it's an appropriate default because + it can be a bit unexpected. + */ + if (channelCount == 2) { + pChannelMap[0] = MA_CHANNEL_SIDE_LEFT; + pChannelMap[1] = MA_CHANNEL_SIDE_RIGHT; + } else { + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, channelCount); + } +} + + +MA_API ma_spatializer_listener_config ma_spatializer_listener_config_init(ma_uint32 channelsOut) +{ + ma_spatializer_listener_config config; + + MA_ZERO_OBJECT(&config); + config.channelsOut = channelsOut; + config.pChannelMapOut = NULL; + config.handedness = ma_handedness_right; + config.worldUp = ma_vec3f_init_3f(0, 1, 0); + config.coneInnerAngleInRadians = 6.283185f; /* 360 degrees. */ + config.coneOuterAngleInRadians = 6.283185f; /* 360 degrees. */ + config.coneOuterGain = 0; + config.speedOfSound = 343.3f; /* Same as OpenAL. Used for doppler effect. */ + + return config; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t channelMapOutOffset; +} ma_spatializer_listener_heap_layout; + +static ma_result ma_spatializer_listener_get_heap_layout(const ma_spatializer_listener_config* pConfig, ma_spatializer_listener_heap_layout* pHeapLayout) +{ + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->channelsOut == 0) { + return MA_INVALID_ARGS; + } + + pHeapLayout->sizeInBytes = 0; + + /* Channel map. We always need this, even for passthroughs. */ + pHeapLayout->channelMapOutOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(sizeof(*pConfig->pChannelMapOut) * pConfig->channelsOut); + + return MA_SUCCESS; +} + + +MA_API ma_result ma_spatializer_listener_get_heap_size(const ma_spatializer_listener_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_spatializer_listener_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_spatializer_listener_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_spatializer_listener_init_preallocated(const ma_spatializer_listener_config* pConfig, void* pHeap, ma_spatializer_listener* pListener) +{ + ma_result result; + ma_spatializer_listener_heap_layout heapLayout; + + if (pListener == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pListener); + + result = ma_spatializer_listener_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pListener->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pListener->config = *pConfig; + ma_atomic_vec3f_init(&pListener->position, ma_vec3f_init_3f(0, 0, 0)); + ma_atomic_vec3f_init(&pListener->direction, ma_vec3f_init_3f(0, 0, -1)); + ma_atomic_vec3f_init(&pListener->velocity, ma_vec3f_init_3f(0, 0, 0)); + pListener->isEnabled = MA_TRUE; + + /* Swap the forward direction if we're left handed (it was initialized based on right handed). */ + if (pListener->config.handedness == ma_handedness_left) { + ma_vec3f negDir = ma_vec3f_neg(ma_spatializer_listener_get_direction(pListener)); + ma_spatializer_listener_set_direction(pListener, negDir.x, negDir.y, negDir.z); + } + + + /* We must always have a valid channel map. */ + pListener->config.pChannelMapOut = (ma_channel*)ma_offset_ptr(pHeap, heapLayout.channelMapOutOffset); + + /* Use a slightly different default channel map for stereo. */ + if (pConfig->pChannelMapOut == NULL) { + ma_get_default_channel_map_for_spatializer(pListener->config.pChannelMapOut, pConfig->channelsOut, pConfig->channelsOut); + } else { + ma_channel_map_copy_or_default(pListener->config.pChannelMapOut, pConfig->channelsOut, pConfig->pChannelMapOut, pConfig->channelsOut); + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_spatializer_listener_init(const ma_spatializer_listener_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_spatializer_listener* pListener) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_spatializer_listener_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_spatializer_listener_init_preallocated(pConfig, pHeap, pListener); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pListener->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_spatializer_listener_uninit(ma_spatializer_listener* pListener, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pListener == NULL) { + return; + } + + if (pListener->_ownsHeap) { + ma_free(pListener->_pHeap, pAllocationCallbacks); + } +} + +MA_API ma_channel* ma_spatializer_listener_get_channel_map(ma_spatializer_listener* pListener) +{ + if (pListener == NULL) { + return NULL; + } + + return pListener->config.pChannelMapOut; +} + +MA_API void ma_spatializer_listener_set_cone(ma_spatializer_listener* pListener, float innerAngleInRadians, float outerAngleInRadians, float outerGain) +{ + if (pListener == NULL) { + return; + } + + pListener->config.coneInnerAngleInRadians = innerAngleInRadians; + pListener->config.coneOuterAngleInRadians = outerAngleInRadians; + pListener->config.coneOuterGain = outerGain; +} + +MA_API void ma_spatializer_listener_get_cone(const ma_spatializer_listener* pListener, float* pInnerAngleInRadians, float* pOuterAngleInRadians, float* pOuterGain) +{ + if (pListener == NULL) { + return; + } + + if (pInnerAngleInRadians != NULL) { + *pInnerAngleInRadians = pListener->config.coneInnerAngleInRadians; + } + + if (pOuterAngleInRadians != NULL) { + *pOuterAngleInRadians = pListener->config.coneOuterAngleInRadians; + } + + if (pOuterGain != NULL) { + *pOuterGain = pListener->config.coneOuterGain; + } +} + +MA_API void ma_spatializer_listener_set_position(ma_spatializer_listener* pListener, float x, float y, float z) +{ + if (pListener == NULL) { + return; + } + + ma_atomic_vec3f_set(&pListener->position, ma_vec3f_init_3f(x, y, z)); +} + +MA_API ma_vec3f ma_spatializer_listener_get_position(const ma_spatializer_listener* pListener) +{ + if (pListener == NULL) { + return ma_vec3f_init_3f(0, 0, 0); + } + + return ma_atomic_vec3f_get((ma_atomic_vec3f*)&pListener->position); /* Naughty const-cast. It's just for atomically loading the vec3 which should be safe. */ +} + +MA_API void ma_spatializer_listener_set_direction(ma_spatializer_listener* pListener, float x, float y, float z) +{ + if (pListener == NULL) { + return; + } + + ma_atomic_vec3f_set(&pListener->direction, ma_vec3f_init_3f(x, y, z)); +} + +MA_API ma_vec3f ma_spatializer_listener_get_direction(const ma_spatializer_listener* pListener) +{ + if (pListener == NULL) { + return ma_vec3f_init_3f(0, 0, -1); + } + + return ma_atomic_vec3f_get((ma_atomic_vec3f*)&pListener->direction); /* Naughty const-cast. It's just for atomically loading the vec3 which should be safe. */ +} + +MA_API void ma_spatializer_listener_set_velocity(ma_spatializer_listener* pListener, float x, float y, float z) +{ + if (pListener == NULL) { + return; + } + + ma_atomic_vec3f_set(&pListener->velocity, ma_vec3f_init_3f(x, y, z)); +} + +MA_API ma_vec3f ma_spatializer_listener_get_velocity(const ma_spatializer_listener* pListener) +{ + if (pListener == NULL) { + return ma_vec3f_init_3f(0, 0, 0); + } + + return ma_atomic_vec3f_get((ma_atomic_vec3f*)&pListener->velocity); /* Naughty const-cast. It's just for atomically loading the vec3 which should be safe. */ +} + +MA_API void ma_spatializer_listener_set_speed_of_sound(ma_spatializer_listener* pListener, float speedOfSound) +{ + if (pListener == NULL) { + return; + } + + pListener->config.speedOfSound = speedOfSound; +} + +MA_API float ma_spatializer_listener_get_speed_of_sound(const ma_spatializer_listener* pListener) +{ + if (pListener == NULL) { + return 0; + } + + return pListener->config.speedOfSound; +} + +MA_API void ma_spatializer_listener_set_world_up(ma_spatializer_listener* pListener, float x, float y, float z) +{ + if (pListener == NULL) { + return; + } + + pListener->config.worldUp = ma_vec3f_init_3f(x, y, z); +} + +MA_API ma_vec3f ma_spatializer_listener_get_world_up(const ma_spatializer_listener* pListener) +{ + if (pListener == NULL) { + return ma_vec3f_init_3f(0, 1, 0); + } + + return pListener->config.worldUp; +} + +MA_API void ma_spatializer_listener_set_enabled(ma_spatializer_listener* pListener, ma_bool32 isEnabled) +{ + if (pListener == NULL) { + return; + } + + pListener->isEnabled = isEnabled; +} + +MA_API ma_bool32 ma_spatializer_listener_is_enabled(const ma_spatializer_listener* pListener) +{ + if (pListener == NULL) { + return MA_FALSE; + } + + return pListener->isEnabled; +} + + + + +MA_API ma_spatializer_config ma_spatializer_config_init(ma_uint32 channelsIn, ma_uint32 channelsOut) +{ + ma_spatializer_config config; + + MA_ZERO_OBJECT(&config); + config.channelsIn = channelsIn; + config.channelsOut = channelsOut; + config.pChannelMapIn = NULL; + config.attenuationModel = ma_attenuation_model_inverse; + config.positioning = ma_positioning_absolute; + config.handedness = ma_handedness_right; + config.minGain = 0; + config.maxGain = 1; + config.minDistance = 1; + config.maxDistance = MA_FLT_MAX; + config.rolloff = 1; + config.coneInnerAngleInRadians = 6.283185f; /* 360 degrees. */ + config.coneOuterAngleInRadians = 6.283185f; /* 360 degrees. */ + config.coneOuterGain = 0.0f; + config.dopplerFactor = 1; + config.directionalAttenuationFactor = 1; + config.minSpatializationChannelGain = 0.2f; + config.gainSmoothTimeInFrames = 360; /* 7.5ms @ 48K. */ + + return config; +} + + +static ma_gainer_config ma_spatializer_gainer_config_init(const ma_spatializer_config* pConfig) +{ + MA_ASSERT(pConfig != NULL); + return ma_gainer_config_init(pConfig->channelsOut, pConfig->gainSmoothTimeInFrames); +} + +static ma_result ma_spatializer_validate_config(const ma_spatializer_config* pConfig) +{ + MA_ASSERT(pConfig != NULL); + + if (pConfig->channelsIn == 0 || pConfig->channelsOut == 0) { + return MA_INVALID_ARGS; + } + + return MA_SUCCESS; +} + +typedef struct +{ + size_t sizeInBytes; + size_t channelMapInOffset; + size_t newChannelGainsOffset; + size_t gainerOffset; +} ma_spatializer_heap_layout; + +static ma_result ma_spatializer_get_heap_layout(const ma_spatializer_config* pConfig, ma_spatializer_heap_layout* pHeapLayout) +{ + ma_result result; + + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_spatializer_validate_config(pConfig); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->sizeInBytes = 0; + + /* Channel map. */ + pHeapLayout->channelMapInOffset = MA_SIZE_MAX; /* <-- MA_SIZE_MAX indicates no allocation necessary. */ + if (pConfig->pChannelMapIn != NULL) { + pHeapLayout->channelMapInOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(sizeof(*pConfig->pChannelMapIn) * pConfig->channelsIn); + } + + /* New channel gains for output. */ + pHeapLayout->newChannelGainsOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(sizeof(float) * pConfig->channelsOut); + + /* Gainer. */ + { + size_t gainerHeapSizeInBytes; + ma_gainer_config gainerConfig; + + gainerConfig = ma_spatializer_gainer_config_init(pConfig); + + result = ma_gainer_get_heap_size(&gainerConfig, &gainerHeapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->gainerOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(gainerHeapSizeInBytes); + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_spatializer_get_heap_size(const ma_spatializer_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_spatializer_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; /* Safety. */ + + result = ma_spatializer_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + + +MA_API ma_result ma_spatializer_init_preallocated(const ma_spatializer_config* pConfig, void* pHeap, ma_spatializer* pSpatializer) +{ + ma_result result; + ma_spatializer_heap_layout heapLayout; + ma_gainer_config gainerConfig; + + if (pSpatializer == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pSpatializer); + + if (pConfig == NULL || pHeap == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_spatializer_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pSpatializer->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pSpatializer->channelsIn = pConfig->channelsIn; + pSpatializer->channelsOut = pConfig->channelsOut; + pSpatializer->attenuationModel = pConfig->attenuationModel; + pSpatializer->positioning = pConfig->positioning; + pSpatializer->handedness = pConfig->handedness; + pSpatializer->minGain = pConfig->minGain; + pSpatializer->maxGain = pConfig->maxGain; + pSpatializer->minDistance = pConfig->minDistance; + pSpatializer->maxDistance = pConfig->maxDistance; + pSpatializer->rolloff = pConfig->rolloff; + pSpatializer->coneInnerAngleInRadians = pConfig->coneInnerAngleInRadians; + pSpatializer->coneOuterAngleInRadians = pConfig->coneOuterAngleInRadians; + pSpatializer->coneOuterGain = pConfig->coneOuterGain; + pSpatializer->dopplerFactor = pConfig->dopplerFactor; + pSpatializer->minSpatializationChannelGain = pConfig->minSpatializationChannelGain; + pSpatializer->directionalAttenuationFactor = pConfig->directionalAttenuationFactor; + pSpatializer->gainSmoothTimeInFrames = pConfig->gainSmoothTimeInFrames; + ma_atomic_vec3f_init(&pSpatializer->position, ma_vec3f_init_3f(0, 0, 0)); + ma_atomic_vec3f_init(&pSpatializer->direction, ma_vec3f_init_3f(0, 0, -1)); + ma_atomic_vec3f_init(&pSpatializer->velocity, ma_vec3f_init_3f(0, 0, 0)); + pSpatializer->dopplerPitch = 1; + + /* Swap the forward direction if we're left handed (it was initialized based on right handed). */ + if (pSpatializer->handedness == ma_handedness_left) { + ma_vec3f negDir = ma_vec3f_neg(ma_spatializer_get_direction(pSpatializer)); + ma_spatializer_set_direction(pSpatializer, negDir.x, negDir.y, negDir.z); + } + + /* Channel map. This will be on the heap. */ + if (pConfig->pChannelMapIn != NULL) { + pSpatializer->pChannelMapIn = (ma_channel*)ma_offset_ptr(pHeap, heapLayout.channelMapInOffset); + ma_channel_map_copy_or_default(pSpatializer->pChannelMapIn, pSpatializer->channelsIn, pConfig->pChannelMapIn, pSpatializer->channelsIn); + } + + /* New channel gains for output channels. */ + pSpatializer->pNewChannelGainsOut = (float*)ma_offset_ptr(pHeap, heapLayout.newChannelGainsOffset); + + /* Gainer. */ + gainerConfig = ma_spatializer_gainer_config_init(pConfig); + + result = ma_gainer_init_preallocated(&gainerConfig, ma_offset_ptr(pHeap, heapLayout.gainerOffset), &pSpatializer->gainer); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize the gainer. */ + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_spatializer_init(const ma_spatializer_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_spatializer* pSpatializer) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + /* We'll need a heap allocation to retrieve the size. */ + result = ma_spatializer_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_spatializer_init_preallocated(pConfig, pHeap, pSpatializer); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pSpatializer->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_spatializer_uninit(ma_spatializer* pSpatializer, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pSpatializer == NULL) { + return; + } + + ma_gainer_uninit(&pSpatializer->gainer, pAllocationCallbacks); + + if (pSpatializer->_ownsHeap) { + ma_free(pSpatializer->_pHeap, pAllocationCallbacks); + } +} + +static float ma_calculate_angular_gain(ma_vec3f dirA, ma_vec3f dirB, float coneInnerAngleInRadians, float coneOuterAngleInRadians, float coneOuterGain) +{ + /* + Angular attenuation. + + Unlike distance gain, the math for this is not specified by the OpenAL spec so we'll just go ahead and figure + this out for ourselves at the expense of possibly being inconsistent with other implementations. + + To do cone attenuation, I'm just using the same math that we'd use to implement a basic spotlight in OpenGL. We + just need to get the direction from the source to the listener and then do a dot product against that and the + direction of the spotlight. Then we just compare that dot product against the cosine of the inner and outer + angles. If the dot product is greater than the outer angle, we just use coneOuterGain. If it's less than + the inner angle, we just use a gain of 1. Otherwise we linearly interpolate between 1 and coneOuterGain. + */ + if (coneInnerAngleInRadians < 6.283185f) { + float angularGain = 1; + float cutoffInner = (float)ma_cosd(coneInnerAngleInRadians*0.5f); + float cutoffOuter = (float)ma_cosd(coneOuterAngleInRadians*0.5f); + float d; + + d = ma_vec3f_dot(dirA, dirB); + + if (d > cutoffInner) { + /* It's inside the inner angle. */ + angularGain = 1; + } else { + /* It's outside the inner angle. */ + if (d > cutoffOuter) { + /* It's between the inner and outer angle. We need to linearly interpolate between 1 and coneOuterGain. */ + angularGain = ma_mix_f32(coneOuterGain, 1, (d - cutoffOuter) / (cutoffInner - cutoffOuter)); + } else { + /* It's outside the outer angle. */ + angularGain = coneOuterGain; + } + } + + /*printf("d = %f; cutoffInner = %f; cutoffOuter = %f; angularGain = %f\n", d, cutoffInner, cutoffOuter, angularGain);*/ + return angularGain; + } else { + /* Inner angle is 360 degrees so no need to do any attenuation. */ + return 1; + } +} + +MA_API ma_result ma_spatializer_process_pcm_frames(ma_spatializer* pSpatializer, ma_spatializer_listener* pListener, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + ma_channel* pChannelMapIn; + ma_channel* pChannelMapOut; + + if (pSpatializer == NULL || pListener == NULL) { + return MA_INVALID_ARGS; + } + + pChannelMapIn = pSpatializer->pChannelMapIn; + pChannelMapOut = pListener->config.pChannelMapOut; + + /* If we're not spatializing we need to run an optimized path. */ + if (ma_atomic_load_i32(&pSpatializer->attenuationModel) == ma_attenuation_model_none) { + if (ma_spatializer_listener_is_enabled(pListener)) { + /* No attenuation is required, but we'll need to do some channel conversion. */ + if (pSpatializer->channelsIn == pSpatializer->channelsOut) { + ma_copy_pcm_frames(pFramesOut, pFramesIn, frameCount, ma_format_f32, pSpatializer->channelsIn); + } else { + ma_channel_map_apply_f32((float*)pFramesOut, pChannelMapOut, pSpatializer->channelsOut, (const float*)pFramesIn, pChannelMapIn, pSpatializer->channelsIn, frameCount, ma_channel_mix_mode_rectangular, ma_mono_expansion_mode_default); /* Safe casts to float* because f32 is the only supported format. */ + } + } else { + /* The listener is disabled. Output silence. */ + ma_silence_pcm_frames(pFramesOut, frameCount, ma_format_f32, pSpatializer->channelsOut); + } + + /* + We're not doing attenuation so don't bother with doppler for now. I'm not sure if this is + the correct thinking so might need to review this later. + */ + pSpatializer->dopplerPitch = 1; + } else { + /* + Let's first determine which listener the sound is closest to. Need to keep in mind that we + might not have a world or any listeners, in which case we just spatializer based on the + listener being positioned at the origin (0, 0, 0). + */ + ma_vec3f relativePosNormalized; + ma_vec3f relativePos; /* The position relative to the listener. */ + ma_vec3f relativeDir; /* The direction of the sound, relative to the listener. */ + ma_vec3f listenerVel; /* The velocity of the listener. For doppler pitch calculation. */ + float speedOfSound; + float distance = 0; + float gain = 1; + ma_uint32 iChannel; + const ma_uint32 channelsOut = pSpatializer->channelsOut; + const ma_uint32 channelsIn = pSpatializer->channelsIn; + float minDistance = ma_spatializer_get_min_distance(pSpatializer); + float maxDistance = ma_spatializer_get_max_distance(pSpatializer); + float rolloff = ma_spatializer_get_rolloff(pSpatializer); + float dopplerFactor = ma_spatializer_get_doppler_factor(pSpatializer); + + /* + We'll need the listener velocity for doppler pitch calculations. The speed of sound is + defined by the listener, so we'll grab that here too. + */ + listenerVel = ma_spatializer_listener_get_velocity(pListener); + speedOfSound = pListener->config.speedOfSound; + + if (ma_spatializer_get_positioning(pSpatializer) == ma_positioning_relative) { + relativePos = ma_spatializer_get_position(pSpatializer); + relativeDir = ma_spatializer_get_direction(pSpatializer); + } else { + /* + We're using absolute positioning. We need to transform the sound's position and + direction so that it's relative to listener. Later on we'll use this for determining + the factors to apply to each channel to apply the panning effect. + */ + ma_spatializer_get_relative_position_and_direction(pSpatializer, pListener, &relativePos, &relativeDir); + } + + distance = ma_vec3f_len(relativePos); + + /* We've gathered the data, so now we can apply some spatialization. */ + switch (ma_spatializer_get_attenuation_model(pSpatializer)) { + case ma_attenuation_model_inverse: + { + gain = ma_attenuation_inverse(distance, minDistance, maxDistance, rolloff); + } break; + case ma_attenuation_model_linear: + { + gain = ma_attenuation_linear(distance, minDistance, maxDistance, rolloff); + } break; + case ma_attenuation_model_exponential: + { + gain = ma_attenuation_exponential(distance, minDistance, maxDistance, rolloff); + } break; + case ma_attenuation_model_none: + default: + { + gain = 1; + } break; + } + + /* Normalize the position. */ + if (distance > 0.001f) { + float distanceInv = 1/distance; + relativePosNormalized = relativePos; + relativePosNormalized.x *= distanceInv; + relativePosNormalized.y *= distanceInv; + relativePosNormalized.z *= distanceInv; + } else { + distance = 0; + relativePosNormalized = ma_vec3f_init_3f(0, 0, 0); + } + + /* + Angular attenuation. + + Unlike distance gain, the math for this is not specified by the OpenAL spec so we'll just go ahead and figure + this out for ourselves at the expense of possibly being inconsistent with other implementations. + + To do cone attenuation, I'm just using the same math that we'd use to implement a basic spotlight in OpenGL. We + just need to get the direction from the source to the listener and then do a dot product against that and the + direction of the spotlight. Then we just compare that dot product against the cosine of the inner and outer + angles. If the dot product is greater than the outer angle, we just use coneOuterGain. If it's less than + the inner angle, we just use a gain of 1. Otherwise we linearly interpolate between 1 and coneOuterGain. + */ + if (distance > 0) { + /* Source angular gain. */ + float spatializerConeInnerAngle; + float spatializerConeOuterAngle; + float spatializerConeOuterGain; + ma_spatializer_get_cone(pSpatializer, &spatializerConeInnerAngle, &spatializerConeOuterAngle, &spatializerConeOuterGain); + + gain *= ma_calculate_angular_gain(relativeDir, ma_vec3f_neg(relativePosNormalized), spatializerConeInnerAngle, spatializerConeOuterAngle, spatializerConeOuterGain); + + /* + We're supporting angular gain on the listener as well for those who want to reduce the volume of sounds that + are positioned behind the listener. On default settings, this will have no effect. + */ + if (pListener != NULL && pListener->config.coneInnerAngleInRadians < 6.283185f) { + ma_vec3f listenerDirection; + float listenerInnerAngle; + float listenerOuterAngle; + float listenerOuterGain; + + if (pListener->config.handedness == ma_handedness_right) { + listenerDirection = ma_vec3f_init_3f(0, 0, -1); + } else { + listenerDirection = ma_vec3f_init_3f(0, 0, +1); + } + + listenerInnerAngle = pListener->config.coneInnerAngleInRadians; + listenerOuterAngle = pListener->config.coneOuterAngleInRadians; + listenerOuterGain = pListener->config.coneOuterGain; + + gain *= ma_calculate_angular_gain(listenerDirection, relativePosNormalized, listenerInnerAngle, listenerOuterAngle, listenerOuterGain); + } + } else { + /* The sound is right on top of the listener. Don't do any angular attenuation. */ + } + + + /* Clamp the gain. */ + gain = ma_clamp(gain, ma_spatializer_get_min_gain(pSpatializer), ma_spatializer_get_max_gain(pSpatializer)); + + /* + The gain needs to be applied per-channel here. The spatialization code below will be changing the per-channel + gains which will then eventually be passed into the gainer which will deal with smoothing the gain transitions + to avoid harsh changes in gain. + */ + for (iChannel = 0; iChannel < channelsOut; iChannel += 1) { + pSpatializer->pNewChannelGainsOut[iChannel] = gain; + } + + /* + Convert to our output channel count. If the listener is disabled we just output silence here. We cannot ignore + the whole section of code here because we need to update some internal spatialization state. + */ + if (ma_spatializer_listener_is_enabled(pListener)) { + ma_channel_map_apply_f32((float*)pFramesOut, pChannelMapOut, channelsOut, (const float*)pFramesIn, pChannelMapIn, channelsIn, frameCount, ma_channel_mix_mode_rectangular, ma_mono_expansion_mode_default); + } else { + ma_silence_pcm_frames(pFramesOut, frameCount, ma_format_f32, pSpatializer->channelsOut); + } + + + /* + Panning. This is where we'll apply the gain and convert to the output channel count. We have an optimized path for + when we're converting to a mono stream. In that case we don't really need to do any panning - we just apply the + gain to the final output. + */ + /*printf("distance=%f; gain=%f\n", distance, gain);*/ + + /* We must have a valid channel map here to ensure we spatialize properly. */ + MA_ASSERT(pChannelMapOut != NULL); + + /* + We're not converting to mono so we'll want to apply some panning. This is where the feeling of something being + to the left, right, infront or behind the listener is calculated. I'm just using a basic model here. Note that + the code below is not based on any specific algorithm. I'm just implementing this off the top of my head and + seeing how it goes. There might be better ways to do this. + + To determine the direction of the sound relative to a speaker I'm using dot products. Each speaker is given a + direction. For example, the left channel in a stereo system will be -1 on the X axis and the right channel will + be +1 on the X axis. A dot product is performed against the direction vector of the channel and the normalized + position of the sound. + */ + + /* + Calculate our per-channel gains. We do this based on the normalized relative position of the sound and it's + relation to the direction of the channel. + */ + if (distance > 0) { + ma_vec3f unitPos = relativePos; + float distanceInv = 1/distance; + unitPos.x *= distanceInv; + unitPos.y *= distanceInv; + unitPos.z *= distanceInv; + + for (iChannel = 0; iChannel < channelsOut; iChannel += 1) { + ma_channel channelOut; + float d; + float dMin; + + channelOut = ma_channel_map_get_channel(pChannelMapOut, channelsOut, iChannel); + if (ma_is_spatial_channel_position(channelOut)) { + d = ma_mix_f32_fast(1, ma_vec3f_dot(unitPos, ma_get_channel_direction(channelOut)), ma_spatializer_get_directional_attenuation_factor(pSpatializer)); + } else { + d = 1; /* It's not a spatial channel so there's no real notion of direction. */ + } + + /* + In my testing, if the panning effect is too aggressive it makes spatialization feel uncomfortable. + The "dMin" variable below is used to control the aggressiveness of the panning effect. When set to + 0, panning will be most extreme and any sounds that are positioned on the opposite side of the + speaker will be completely silent from that speaker. Not only does this feel uncomfortable, it + doesn't even remotely represent the real world at all because sounds that come from your right side + are still clearly audible from your left side. Setting "dMin" to 1 will result in no panning at + all, which is also not ideal. By setting it to something greater than 0, the spatialization effect + becomes much less dramatic and a lot more bearable. + + Summary: 0 = more extreme panning; 1 = no panning. + */ + dMin = pSpatializer->minSpatializationChannelGain; + + /* + At this point, "d" will be positive if the sound is on the same side as the channel and negative if + it's on the opposite side. It will be in the range of -1..1. There's two ways I can think of to + calculate a panning value. The first is to simply convert it to 0..1, however this has a problem + which I'm not entirely happy with. Considering a stereo system, when a sound is positioned right + in front of the listener it'll result in each speaker getting a gain of 0.5. I don't know if I like + the idea of having a scaling factor of 0.5 being applied to a sound when it's sitting right in front + of the listener. I would intuitively expect that to be played at full volume, or close to it. + + The second idea I think of is to only apply a reduction in gain when the sound is on the opposite + side of the speaker. That is, reduce the gain only when the dot product is negative. The problem + with this is that there will not be any attenuation as the sound sweeps around the 180 degrees + where the dot product is positive. The idea with this option is that you leave the gain at 1 when + the sound is being played on the same side as the speaker and then you just reduce the volume when + the sound is on the other side. + + The summarize, I think the first option should give a better sense of spatialization, but the second + option is better for preserving the sound's power. + + UPDATE: In my testing, I find the first option to sound better. You can feel the sense of space a + bit better, but you can also hear the reduction in volume when it's right in front. + */ + #if 1 + { + /* + Scale the dot product from -1..1 to 0..1. Will result in a sound directly in front losing power + by being played at 0.5 gain. + */ + d = (d + 1) * 0.5f; /* -1..1 to 0..1 */ + d = ma_max(d, dMin); + pSpatializer->pNewChannelGainsOut[iChannel] *= d; + } + #else + { + /* + Only reduce the volume of the sound if it's on the opposite side. This path keeps the volume more + consistent, but comes at the expense of a worse sense of space and positioning. + */ + if (d < 0) { + d += 1; /* Move into the positive range. */ + d = ma_max(d, dMin); + channelGainsOut[iChannel] *= d; + } + } + #endif + } + } else { + /* Assume the sound is right on top of us. Don't do any panning. */ + } + + /* Now we need to apply the volume to each channel. This needs to run through the gainer to ensure we get a smooth volume transition. */ + ma_gainer_set_gains(&pSpatializer->gainer, pSpatializer->pNewChannelGainsOut); + ma_gainer_process_pcm_frames(&pSpatializer->gainer, pFramesOut, pFramesOut, frameCount); + + /* + Before leaving we'll want to update our doppler pitch so that the caller can apply some + pitch shifting if they desire. Note that we need to negate the relative position here + because the doppler calculation needs to be source-to-listener, but ours is listener-to- + source. + */ + if (dopplerFactor > 0) { + pSpatializer->dopplerPitch = ma_doppler_pitch(ma_vec3f_sub(ma_spatializer_listener_get_position(pListener), ma_spatializer_get_position(pSpatializer)), ma_spatializer_get_velocity(pSpatializer), listenerVel, speedOfSound, dopplerFactor); + } else { + pSpatializer->dopplerPitch = 1; + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_spatializer_set_master_volume(ma_spatializer* pSpatializer, float volume) +{ + if (pSpatializer == NULL) { + return MA_INVALID_ARGS; + } + + return ma_gainer_set_master_volume(&pSpatializer->gainer, volume); +} + +MA_API ma_result ma_spatializer_get_master_volume(const ma_spatializer* pSpatializer, float* pVolume) +{ + if (pSpatializer == NULL) { + return MA_INVALID_ARGS; + } + + return ma_gainer_get_master_volume(&pSpatializer->gainer, pVolume); +} + +MA_API ma_uint32 ma_spatializer_get_input_channels(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return 0; + } + + return pSpatializer->channelsIn; +} + +MA_API ma_uint32 ma_spatializer_get_output_channels(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return 0; + } + + return pSpatializer->channelsOut; +} + +MA_API void ma_spatializer_set_attenuation_model(ma_spatializer* pSpatializer, ma_attenuation_model attenuationModel) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_exchange_i32(&pSpatializer->attenuationModel, attenuationModel); +} + +MA_API ma_attenuation_model ma_spatializer_get_attenuation_model(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return ma_attenuation_model_none; + } + + return (ma_attenuation_model)ma_atomic_load_i32(&pSpatializer->attenuationModel); +} + +MA_API void ma_spatializer_set_positioning(ma_spatializer* pSpatializer, ma_positioning positioning) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_exchange_i32(&pSpatializer->positioning, positioning); +} + +MA_API ma_positioning ma_spatializer_get_positioning(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return ma_positioning_absolute; + } + + return (ma_positioning)ma_atomic_load_i32(&pSpatializer->positioning); +} + +MA_API void ma_spatializer_set_rolloff(ma_spatializer* pSpatializer, float rolloff) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_exchange_f32(&pSpatializer->rolloff, rolloff); +} + +MA_API float ma_spatializer_get_rolloff(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return 0; + } + + return ma_atomic_load_f32(&pSpatializer->rolloff); +} + +MA_API void ma_spatializer_set_min_gain(ma_spatializer* pSpatializer, float minGain) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_exchange_f32(&pSpatializer->minGain, minGain); +} + +MA_API float ma_spatializer_get_min_gain(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return 0; + } + + return ma_atomic_load_f32(&pSpatializer->minGain); +} + +MA_API void ma_spatializer_set_max_gain(ma_spatializer* pSpatializer, float maxGain) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_exchange_f32(&pSpatializer->maxGain, maxGain); +} + +MA_API float ma_spatializer_get_max_gain(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return 0; + } + + return ma_atomic_load_f32(&pSpatializer->maxGain); +} + +MA_API void ma_spatializer_set_min_distance(ma_spatializer* pSpatializer, float minDistance) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_exchange_f32(&pSpatializer->minDistance, minDistance); +} + +MA_API float ma_spatializer_get_min_distance(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return 0; + } + + return ma_atomic_load_f32(&pSpatializer->minDistance); +} + +MA_API void ma_spatializer_set_max_distance(ma_spatializer* pSpatializer, float maxDistance) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_exchange_f32(&pSpatializer->maxDistance, maxDistance); +} + +MA_API float ma_spatializer_get_max_distance(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return 0; + } + + return ma_atomic_load_f32(&pSpatializer->maxDistance); +} + +MA_API void ma_spatializer_set_cone(ma_spatializer* pSpatializer, float innerAngleInRadians, float outerAngleInRadians, float outerGain) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_exchange_f32(&pSpatializer->coneInnerAngleInRadians, innerAngleInRadians); + ma_atomic_exchange_f32(&pSpatializer->coneOuterAngleInRadians, outerAngleInRadians); + ma_atomic_exchange_f32(&pSpatializer->coneOuterGain, outerGain); +} + +MA_API void ma_spatializer_get_cone(const ma_spatializer* pSpatializer, float* pInnerAngleInRadians, float* pOuterAngleInRadians, float* pOuterGain) +{ + if (pSpatializer == NULL) { + return; + } + + if (pInnerAngleInRadians != NULL) { + *pInnerAngleInRadians = ma_atomic_load_f32(&pSpatializer->coneInnerAngleInRadians); + } + + if (pOuterAngleInRadians != NULL) { + *pOuterAngleInRadians = ma_atomic_load_f32(&pSpatializer->coneOuterAngleInRadians); + } + + if (pOuterGain != NULL) { + *pOuterGain = ma_atomic_load_f32(&pSpatializer->coneOuterGain); + } +} + +MA_API void ma_spatializer_set_doppler_factor(ma_spatializer* pSpatializer, float dopplerFactor) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_exchange_f32(&pSpatializer->dopplerFactor, dopplerFactor); +} + +MA_API float ma_spatializer_get_doppler_factor(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return 1; + } + + return ma_atomic_load_f32(&pSpatializer->dopplerFactor); +} + +MA_API void ma_spatializer_set_directional_attenuation_factor(ma_spatializer* pSpatializer, float directionalAttenuationFactor) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_exchange_f32(&pSpatializer->directionalAttenuationFactor, directionalAttenuationFactor); +} + +MA_API float ma_spatializer_get_directional_attenuation_factor(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return 1; + } + + return ma_atomic_load_f32(&pSpatializer->directionalAttenuationFactor); +} + +MA_API void ma_spatializer_set_position(ma_spatializer* pSpatializer, float x, float y, float z) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_vec3f_set(&pSpatializer->position, ma_vec3f_init_3f(x, y, z)); +} + +MA_API ma_vec3f ma_spatializer_get_position(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return ma_vec3f_init_3f(0, 0, 0); + } + + return ma_atomic_vec3f_get((ma_atomic_vec3f*)&pSpatializer->position); /* Naughty const-cast. It's just for atomically loading the vec3 which should be safe. */ +} + +MA_API void ma_spatializer_set_direction(ma_spatializer* pSpatializer, float x, float y, float z) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_vec3f_set(&pSpatializer->direction, ma_vec3f_init_3f(x, y, z)); +} + +MA_API ma_vec3f ma_spatializer_get_direction(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return ma_vec3f_init_3f(0, 0, -1); + } + + return ma_atomic_vec3f_get((ma_atomic_vec3f*)&pSpatializer->direction); /* Naughty const-cast. It's just for atomically loading the vec3 which should be safe. */ +} + +MA_API void ma_spatializer_set_velocity(ma_spatializer* pSpatializer, float x, float y, float z) +{ + if (pSpatializer == NULL) { + return; + } + + ma_atomic_vec3f_set(&pSpatializer->velocity, ma_vec3f_init_3f(x, y, z)); +} + +MA_API ma_vec3f ma_spatializer_get_velocity(const ma_spatializer* pSpatializer) +{ + if (pSpatializer == NULL) { + return ma_vec3f_init_3f(0, 0, 0); + } + + return ma_atomic_vec3f_get((ma_atomic_vec3f*)&pSpatializer->velocity); /* Naughty const-cast. It's just for atomically loading the vec3 which should be safe. */ +} + +MA_API void ma_spatializer_get_relative_position_and_direction(const ma_spatializer* pSpatializer, const ma_spatializer_listener* pListener, ma_vec3f* pRelativePos, ma_vec3f* pRelativeDir) +{ + if (pRelativePos != NULL) { + pRelativePos->x = 0; + pRelativePos->y = 0; + pRelativePos->z = 0; + } + + if (pRelativeDir != NULL) { + pRelativeDir->x = 0; + pRelativeDir->y = 0; + pRelativeDir->z = -1; + } + + if (pSpatializer == NULL) { + return; + } + + if (pListener == NULL || ma_spatializer_get_positioning(pSpatializer) == ma_positioning_relative) { + /* There's no listener or we're using relative positioning. */ + if (pRelativePos != NULL) { + *pRelativePos = ma_spatializer_get_position(pSpatializer); + } + if (pRelativeDir != NULL) { + *pRelativeDir = ma_spatializer_get_direction(pSpatializer); + } + } else { + ma_vec3f spatializerPosition; + ma_vec3f spatializerDirection; + ma_vec3f listenerPosition; + ma_vec3f listenerDirection; + ma_vec3f v; + ma_vec3f axisX; + ma_vec3f axisY; + ma_vec3f axisZ; + float m[4][4]; + + spatializerPosition = ma_spatializer_get_position(pSpatializer); + spatializerDirection = ma_spatializer_get_direction(pSpatializer); + listenerPosition = ma_spatializer_listener_get_position(pListener); + listenerDirection = ma_spatializer_listener_get_direction(pListener); + + /* + We need to calculate the right vector from our forward and up vectors. This is done with + a cross product. + */ + axisZ = ma_vec3f_normalize(listenerDirection); /* Normalization required here because we can't trust the caller. */ + axisX = ma_vec3f_normalize(ma_vec3f_cross(axisZ, pListener->config.worldUp)); /* Normalization required here because the world up vector may not be perpendicular with the forward vector. */ + + /* + The calculation of axisX above can result in a zero-length vector if the listener is + looking straight up on the Y axis. We'll need to fall back to a +X in this case so that + the calculations below don't fall apart. This is where a quaternion based listener and + sound orientation would come in handy. + */ + if (ma_vec3f_len2(axisX) == 0) { + axisX = ma_vec3f_init_3f(1, 0, 0); + } + + axisY = ma_vec3f_cross(axisX, axisZ); /* No normalization is required here because axisX and axisZ are unit length and perpendicular. */ + + /* + We need to swap the X axis if we're left handed because otherwise the cross product above + will have resulted in it pointing in the wrong direction (right handed was assumed in the + cross products above). + */ + if (pListener->config.handedness == ma_handedness_left) { + axisX = ma_vec3f_neg(axisX); + } + + /* Lookat. */ + m[0][0] = axisX.x; m[1][0] = axisX.y; m[2][0] = axisX.z; m[3][0] = -ma_vec3f_dot(axisX, listenerPosition); + m[0][1] = axisY.x; m[1][1] = axisY.y; m[2][1] = axisY.z; m[3][1] = -ma_vec3f_dot(axisY, listenerPosition); + m[0][2] = -axisZ.x; m[1][2] = -axisZ.y; m[2][2] = -axisZ.z; m[3][2] = -ma_vec3f_dot(ma_vec3f_neg(axisZ), listenerPosition); + m[0][3] = 0; m[1][3] = 0; m[2][3] = 0; m[3][3] = 1; + + /* + Multiply the lookat matrix by the spatializer position to transform it to listener + space. This allows calculations to work based on the sound being relative to the + origin which makes things simpler. + */ + if (pRelativePos != NULL) { + v = spatializerPosition; + pRelativePos->x = m[0][0] * v.x + m[1][0] * v.y + m[2][0] * v.z + m[3][0] * 1; + pRelativePos->y = m[0][1] * v.x + m[1][1] * v.y + m[2][1] * v.z + m[3][1] * 1; + pRelativePos->z = m[0][2] * v.x + m[1][2] * v.y + m[2][2] * v.z + m[3][2] * 1; + } + + /* + The direction of the sound needs to also be transformed so that it's relative to the + rotation of the listener. + */ + if (pRelativeDir != NULL) { + v = spatializerDirection; + pRelativeDir->x = m[0][0] * v.x + m[1][0] * v.y + m[2][0] * v.z; + pRelativeDir->y = m[0][1] * v.x + m[1][1] * v.y + m[2][1] * v.z; + pRelativeDir->z = m[0][2] * v.x + m[1][2] * v.y + m[2][2] * v.z; + } + } +} + + + + +/************************************************************************************************************************************************************** + +Resampling + +**************************************************************************************************************************************************************/ +MA_API ma_linear_resampler_config ma_linear_resampler_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut) +{ + ma_linear_resampler_config config; + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRateIn = sampleRateIn; + config.sampleRateOut = sampleRateOut; + config.lpfOrder = ma_min(MA_DEFAULT_RESAMPLER_LPF_ORDER, MA_MAX_FILTER_ORDER); + config.lpfNyquistFactor = 1; + + return config; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t x0Offset; + size_t x1Offset; + size_t lpfOffset; +} ma_linear_resampler_heap_layout; + + +static void ma_linear_resampler_adjust_timer_for_new_rate(ma_linear_resampler* pResampler, ma_uint32 oldSampleRateOut, ma_uint32 newSampleRateOut) +{ + /* + So what's happening here? Basically we need to adjust the fractional component of the time advance based on the new rate. The old time advance will + be based on the old sample rate, but we are needing to adjust it to that it's based on the new sample rate. + */ + ma_uint32 oldRateTimeWhole = pResampler->inTimeFrac / oldSampleRateOut; /* <-- This should almost never be anything other than 0, but leaving it here to make this more general and robust just in case. */ + ma_uint32 oldRateTimeFract = pResampler->inTimeFrac % oldSampleRateOut; + + pResampler->inTimeFrac = + (oldRateTimeWhole * newSampleRateOut) + + ((oldRateTimeFract * newSampleRateOut) / oldSampleRateOut); + + /* Make sure the fractional part is less than the output sample rate. */ + pResampler->inTimeInt += pResampler->inTimeFrac / pResampler->config.sampleRateOut; + pResampler->inTimeFrac = pResampler->inTimeFrac % pResampler->config.sampleRateOut; +} + +static ma_result ma_linear_resampler_set_rate_internal(ma_linear_resampler* pResampler, void* pHeap, ma_linear_resampler_heap_layout* pHeapLayout, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut, ma_bool32 isResamplerAlreadyInitialized) +{ + ma_result result; + ma_uint32 gcf; + ma_uint32 lpfSampleRate; + double lpfCutoffFrequency; + ma_lpf_config lpfConfig; + ma_uint32 oldSampleRateOut; /* Required for adjusting time advance down the bottom. */ + + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + if (sampleRateIn == 0 || sampleRateOut == 0) { + return MA_INVALID_ARGS; + } + + oldSampleRateOut = pResampler->config.sampleRateOut; + + pResampler->config.sampleRateIn = sampleRateIn; + pResampler->config.sampleRateOut = sampleRateOut; + + /* Simplify the sample rate. */ + gcf = ma_gcf_u32(pResampler->config.sampleRateIn, pResampler->config.sampleRateOut); + pResampler->config.sampleRateIn /= gcf; + pResampler->config.sampleRateOut /= gcf; + + /* Always initialize the low-pass filter, even when the order is 0. */ + if (pResampler->config.lpfOrder > MA_MAX_FILTER_ORDER) { + return MA_INVALID_ARGS; + } + + lpfSampleRate = (ma_uint32)(ma_max(pResampler->config.sampleRateIn, pResampler->config.sampleRateOut)); + lpfCutoffFrequency = ( double)(ma_min(pResampler->config.sampleRateIn, pResampler->config.sampleRateOut) * 0.5 * pResampler->config.lpfNyquistFactor); + + lpfConfig = ma_lpf_config_init(pResampler->config.format, pResampler->config.channels, lpfSampleRate, lpfCutoffFrequency, pResampler->config.lpfOrder); + + /* + If the resampler is already initialized we don't want to do a fresh initialization of the low-pass filter because it will result in the cached frames + getting cleared. Instead we re-initialize the filter which will maintain any cached frames. + */ + if (isResamplerAlreadyInitialized) { + result = ma_lpf_reinit(&lpfConfig, &pResampler->lpf); + } else { + result = ma_lpf_init_preallocated(&lpfConfig, ma_offset_ptr(pHeap, pHeapLayout->lpfOffset), &pResampler->lpf); + } + + if (result != MA_SUCCESS) { + return result; + } + + + pResampler->inAdvanceInt = pResampler->config.sampleRateIn / pResampler->config.sampleRateOut; + pResampler->inAdvanceFrac = pResampler->config.sampleRateIn % pResampler->config.sampleRateOut; + + /* Our timer was based on the old rate. We need to adjust it so that it's based on the new rate. */ + ma_linear_resampler_adjust_timer_for_new_rate(pResampler, oldSampleRateOut, pResampler->config.sampleRateOut); + + return MA_SUCCESS; +} + +static ma_result ma_linear_resampler_get_heap_layout(const ma_linear_resampler_config* pConfig, ma_linear_resampler_heap_layout* pHeapLayout) +{ + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->format != ma_format_f32 && pConfig->format != ma_format_s16) { + return MA_INVALID_ARGS; + } + + if (pConfig->channels == 0) { + return MA_INVALID_ARGS; + } + + pHeapLayout->sizeInBytes = 0; + + /* x0 */ + pHeapLayout->x0Offset = pHeapLayout->sizeInBytes; + if (pConfig->format == ma_format_f32) { + pHeapLayout->sizeInBytes += sizeof(float) * pConfig->channels; + } else { + pHeapLayout->sizeInBytes += sizeof(ma_int16) * pConfig->channels; + } + + /* x1 */ + pHeapLayout->x1Offset = pHeapLayout->sizeInBytes; + if (pConfig->format == ma_format_f32) { + pHeapLayout->sizeInBytes += sizeof(float) * pConfig->channels; + } else { + pHeapLayout->sizeInBytes += sizeof(ma_int16) * pConfig->channels; + } + + /* LPF */ + pHeapLayout->lpfOffset = ma_align_64(pHeapLayout->sizeInBytes); + { + ma_result result; + size_t lpfHeapSizeInBytes; + ma_lpf_config lpfConfig = ma_lpf_config_init(pConfig->format, pConfig->channels, 1, 1, pConfig->lpfOrder); /* Sample rate and cutoff frequency do not matter. */ + + result = ma_lpf_get_heap_size(&lpfConfig, &lpfHeapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->sizeInBytes += lpfHeapSizeInBytes; + } + + /* Make sure allocation size is aligned. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + +MA_API ma_result ma_linear_resampler_get_heap_size(const ma_linear_resampler_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_linear_resampler_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_linear_resampler_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_linear_resampler_init_preallocated(const ma_linear_resampler_config* pConfig, void* pHeap, ma_linear_resampler* pResampler) +{ + ma_result result; + ma_linear_resampler_heap_layout heapLayout; + + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pResampler); + + result = ma_linear_resampler_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pResampler->config = *pConfig; + + pResampler->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + if (pConfig->format == ma_format_f32) { + pResampler->x0.f32 = (float*)ma_offset_ptr(pHeap, heapLayout.x0Offset); + pResampler->x1.f32 = (float*)ma_offset_ptr(pHeap, heapLayout.x1Offset); + } else { + pResampler->x0.s16 = (ma_int16*)ma_offset_ptr(pHeap, heapLayout.x0Offset); + pResampler->x1.s16 = (ma_int16*)ma_offset_ptr(pHeap, heapLayout.x1Offset); + } + + /* Setting the rate will set up the filter and time advances for us. */ + result = ma_linear_resampler_set_rate_internal(pResampler, pHeap, &heapLayout, pConfig->sampleRateIn, pConfig->sampleRateOut, /* isResamplerAlreadyInitialized = */ MA_FALSE); + if (result != MA_SUCCESS) { + return result; + } + + pResampler->inTimeInt = 1; /* Set this to one to force an input sample to always be loaded for the first output frame. */ + pResampler->inTimeFrac = 0; + + return MA_SUCCESS; +} + +MA_API ma_result ma_linear_resampler_init(const ma_linear_resampler_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_linear_resampler* pResampler) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_linear_resampler_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_linear_resampler_init_preallocated(pConfig, pHeap, pResampler); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pResampler->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_linear_resampler_uninit(ma_linear_resampler* pResampler, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pResampler == NULL) { + return; + } + + ma_lpf_uninit(&pResampler->lpf, pAllocationCallbacks); + + if (pResampler->_ownsHeap) { + ma_free(pResampler->_pHeap, pAllocationCallbacks); + } +} + +static MA_INLINE ma_int16 ma_linear_resampler_mix_s16(ma_int16 x, ma_int16 y, ma_int32 a, const ma_int32 shift) +{ + ma_int32 b; + ma_int32 c; + ma_int32 r; + + MA_ASSERT(a <= (1<> shift); +} + +static void ma_linear_resampler_interpolate_frame_s16(ma_linear_resampler* pResampler, ma_int16* MA_RESTRICT pFrameOut) +{ + ma_uint32 c; + ma_uint32 a; + const ma_uint32 channels = pResampler->config.channels; + const ma_uint32 shift = 12; + + MA_ASSERT(pResampler != NULL); + MA_ASSERT(pFrameOut != NULL); + + a = (pResampler->inTimeFrac << shift) / pResampler->config.sampleRateOut; + + MA_ASSUME(channels > 0); + for (c = 0; c < channels; c += 1) { + ma_int16 s = ma_linear_resampler_mix_s16(pResampler->x0.s16[c], pResampler->x1.s16[c], a, shift); + pFrameOut[c] = s; + } +} + + +static void ma_linear_resampler_interpolate_frame_f32(ma_linear_resampler* pResampler, float* MA_RESTRICT pFrameOut) +{ + ma_uint32 c; + float a; + const ma_uint32 channels = pResampler->config.channels; + + MA_ASSERT(pResampler != NULL); + MA_ASSERT(pFrameOut != NULL); + + a = (float)pResampler->inTimeFrac / pResampler->config.sampleRateOut; + + MA_ASSUME(channels > 0); + for (c = 0; c < channels; c += 1) { + float s = ma_mix_f32_fast(pResampler->x0.f32[c], pResampler->x1.f32[c], a); + pFrameOut[c] = s; + } +} + +static ma_result ma_linear_resampler_process_pcm_frames_s16_downsample(ma_linear_resampler* pResampler, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + const ma_int16* pFramesInS16; + /* */ ma_int16* pFramesOutS16; + ma_uint64 frameCountIn; + ma_uint64 frameCountOut; + ma_uint64 framesProcessedIn; + ma_uint64 framesProcessedOut; + + MA_ASSERT(pResampler != NULL); + MA_ASSERT(pFrameCountIn != NULL); + MA_ASSERT(pFrameCountOut != NULL); + + pFramesInS16 = (const ma_int16*)pFramesIn; + pFramesOutS16 = ( ma_int16*)pFramesOut; + frameCountIn = *pFrameCountIn; + frameCountOut = *pFrameCountOut; + framesProcessedIn = 0; + framesProcessedOut = 0; + + while (framesProcessedOut < frameCountOut) { + /* Before interpolating we need to load the buffers. When doing this we need to ensure we run every input sample through the filter. */ + while (pResampler->inTimeInt > 0 && frameCountIn > framesProcessedIn) { + ma_uint32 iChannel; + + if (pFramesInS16 != NULL) { + for (iChannel = 0; iChannel < pResampler->config.channels; iChannel += 1) { + pResampler->x0.s16[iChannel] = pResampler->x1.s16[iChannel]; + pResampler->x1.s16[iChannel] = pFramesInS16[iChannel]; + } + pFramesInS16 += pResampler->config.channels; + } else { + for (iChannel = 0; iChannel < pResampler->config.channels; iChannel += 1) { + pResampler->x0.s16[iChannel] = pResampler->x1.s16[iChannel]; + pResampler->x1.s16[iChannel] = 0; + } + } + + /* Filter. Do not apply filtering if sample rates are the same or else you'll get dangerous glitching. */ + if (pResampler->config.sampleRateIn != pResampler->config.sampleRateOut) { + ma_lpf_process_pcm_frame_s16(&pResampler->lpf, pResampler->x1.s16, pResampler->x1.s16); + } + + framesProcessedIn += 1; + pResampler->inTimeInt -= 1; + } + + if (pResampler->inTimeInt > 0) { + break; /* Ran out of input data. */ + } + + /* Getting here means the frames have been loaded and filtered and we can generate the next output frame. */ + if (pFramesOutS16 != NULL) { + MA_ASSERT(pResampler->inTimeInt == 0); + ma_linear_resampler_interpolate_frame_s16(pResampler, pFramesOutS16); + + pFramesOutS16 += pResampler->config.channels; + } + + framesProcessedOut += 1; + + /* Advance time forward. */ + pResampler->inTimeInt += pResampler->inAdvanceInt; + pResampler->inTimeFrac += pResampler->inAdvanceFrac; + if (pResampler->inTimeFrac >= pResampler->config.sampleRateOut) { + pResampler->inTimeFrac -= pResampler->config.sampleRateOut; + pResampler->inTimeInt += 1; + } + } + + *pFrameCountIn = framesProcessedIn; + *pFrameCountOut = framesProcessedOut; + + return MA_SUCCESS; +} + +static ma_result ma_linear_resampler_process_pcm_frames_s16_upsample(ma_linear_resampler* pResampler, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + const ma_int16* pFramesInS16; + /* */ ma_int16* pFramesOutS16; + ma_uint64 frameCountIn; + ma_uint64 frameCountOut; + ma_uint64 framesProcessedIn; + ma_uint64 framesProcessedOut; + + MA_ASSERT(pResampler != NULL); + MA_ASSERT(pFrameCountIn != NULL); + MA_ASSERT(pFrameCountOut != NULL); + + pFramesInS16 = (const ma_int16*)pFramesIn; + pFramesOutS16 = ( ma_int16*)pFramesOut; + frameCountIn = *pFrameCountIn; + frameCountOut = *pFrameCountOut; + framesProcessedIn = 0; + framesProcessedOut = 0; + + while (framesProcessedOut < frameCountOut) { + /* Before interpolating we need to load the buffers. */ + while (pResampler->inTimeInt > 0 && frameCountIn > framesProcessedIn) { + ma_uint32 iChannel; + + if (pFramesInS16 != NULL) { + for (iChannel = 0; iChannel < pResampler->config.channels; iChannel += 1) { + pResampler->x0.s16[iChannel] = pResampler->x1.s16[iChannel]; + pResampler->x1.s16[iChannel] = pFramesInS16[iChannel]; + } + pFramesInS16 += pResampler->config.channels; + } else { + for (iChannel = 0; iChannel < pResampler->config.channels; iChannel += 1) { + pResampler->x0.s16[iChannel] = pResampler->x1.s16[iChannel]; + pResampler->x1.s16[iChannel] = 0; + } + } + + framesProcessedIn += 1; + pResampler->inTimeInt -= 1; + } + + if (pResampler->inTimeInt > 0) { + break; /* Ran out of input data. */ + } + + /* Getting here means the frames have been loaded and we can generate the next output frame. */ + if (pFramesOutS16 != NULL) { + MA_ASSERT(pResampler->inTimeInt == 0); + ma_linear_resampler_interpolate_frame_s16(pResampler, pFramesOutS16); + + /* Filter. Do not apply filtering if sample rates are the same or else you'll get dangerous glitching. */ + if (pResampler->config.sampleRateIn != pResampler->config.sampleRateOut) { + ma_lpf_process_pcm_frame_s16(&pResampler->lpf, pFramesOutS16, pFramesOutS16); + } + + pFramesOutS16 += pResampler->config.channels; + } + + framesProcessedOut += 1; + + /* Advance time forward. */ + pResampler->inTimeInt += pResampler->inAdvanceInt; + pResampler->inTimeFrac += pResampler->inAdvanceFrac; + if (pResampler->inTimeFrac >= pResampler->config.sampleRateOut) { + pResampler->inTimeFrac -= pResampler->config.sampleRateOut; + pResampler->inTimeInt += 1; + } + } + + *pFrameCountIn = framesProcessedIn; + *pFrameCountOut = framesProcessedOut; + + return MA_SUCCESS; +} + +static ma_result ma_linear_resampler_process_pcm_frames_s16(ma_linear_resampler* pResampler, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + MA_ASSERT(pResampler != NULL); + + if (pResampler->config.sampleRateIn > pResampler->config.sampleRateOut) { + return ma_linear_resampler_process_pcm_frames_s16_downsample(pResampler, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + } else { + return ma_linear_resampler_process_pcm_frames_s16_upsample(pResampler, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + } +} + + +static ma_result ma_linear_resampler_process_pcm_frames_f32_downsample(ma_linear_resampler* pResampler, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + const float* pFramesInF32; + /* */ float* pFramesOutF32; + ma_uint64 frameCountIn; + ma_uint64 frameCountOut; + ma_uint64 framesProcessedIn; + ma_uint64 framesProcessedOut; + + MA_ASSERT(pResampler != NULL); + MA_ASSERT(pFrameCountIn != NULL); + MA_ASSERT(pFrameCountOut != NULL); + + pFramesInF32 = (const float*)pFramesIn; + pFramesOutF32 = ( float*)pFramesOut; + frameCountIn = *pFrameCountIn; + frameCountOut = *pFrameCountOut; + framesProcessedIn = 0; + framesProcessedOut = 0; + + while (framesProcessedOut < frameCountOut) { + /* Before interpolating we need to load the buffers. When doing this we need to ensure we run every input sample through the filter. */ + while (pResampler->inTimeInt > 0 && frameCountIn > framesProcessedIn) { + ma_uint32 iChannel; + + if (pFramesInF32 != NULL) { + for (iChannel = 0; iChannel < pResampler->config.channels; iChannel += 1) { + pResampler->x0.f32[iChannel] = pResampler->x1.f32[iChannel]; + pResampler->x1.f32[iChannel] = pFramesInF32[iChannel]; + } + pFramesInF32 += pResampler->config.channels; + } else { + for (iChannel = 0; iChannel < pResampler->config.channels; iChannel += 1) { + pResampler->x0.f32[iChannel] = pResampler->x1.f32[iChannel]; + pResampler->x1.f32[iChannel] = 0; + } + } + + /* Filter. Do not apply filtering if sample rates are the same or else you'll get dangerous glitching. */ + if (pResampler->config.sampleRateIn != pResampler->config.sampleRateOut) { + ma_lpf_process_pcm_frame_f32(&pResampler->lpf, pResampler->x1.f32, pResampler->x1.f32); + } + + framesProcessedIn += 1; + pResampler->inTimeInt -= 1; + } + + if (pResampler->inTimeInt > 0) { + break; /* Ran out of input data. */ + } + + /* Getting here means the frames have been loaded and filtered and we can generate the next output frame. */ + if (pFramesOutF32 != NULL) { + MA_ASSERT(pResampler->inTimeInt == 0); + ma_linear_resampler_interpolate_frame_f32(pResampler, pFramesOutF32); + + pFramesOutF32 += pResampler->config.channels; + } + + framesProcessedOut += 1; + + /* Advance time forward. */ + pResampler->inTimeInt += pResampler->inAdvanceInt; + pResampler->inTimeFrac += pResampler->inAdvanceFrac; + if (pResampler->inTimeFrac >= pResampler->config.sampleRateOut) { + pResampler->inTimeFrac -= pResampler->config.sampleRateOut; + pResampler->inTimeInt += 1; + } + } + + *pFrameCountIn = framesProcessedIn; + *pFrameCountOut = framesProcessedOut; + + return MA_SUCCESS; +} + +static ma_result ma_linear_resampler_process_pcm_frames_f32_upsample(ma_linear_resampler* pResampler, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + const float* pFramesInF32; + /* */ float* pFramesOutF32; + ma_uint64 frameCountIn; + ma_uint64 frameCountOut; + ma_uint64 framesProcessedIn; + ma_uint64 framesProcessedOut; + + MA_ASSERT(pResampler != NULL); + MA_ASSERT(pFrameCountIn != NULL); + MA_ASSERT(pFrameCountOut != NULL); + + pFramesInF32 = (const float*)pFramesIn; + pFramesOutF32 = ( float*)pFramesOut; + frameCountIn = *pFrameCountIn; + frameCountOut = *pFrameCountOut; + framesProcessedIn = 0; + framesProcessedOut = 0; + + while (framesProcessedOut < frameCountOut) { + /* Before interpolating we need to load the buffers. */ + while (pResampler->inTimeInt > 0 && frameCountIn > framesProcessedIn) { + ma_uint32 iChannel; + + if (pFramesInF32 != NULL) { + for (iChannel = 0; iChannel < pResampler->config.channels; iChannel += 1) { + pResampler->x0.f32[iChannel] = pResampler->x1.f32[iChannel]; + pResampler->x1.f32[iChannel] = pFramesInF32[iChannel]; + } + pFramesInF32 += pResampler->config.channels; + } else { + for (iChannel = 0; iChannel < pResampler->config.channels; iChannel += 1) { + pResampler->x0.f32[iChannel] = pResampler->x1.f32[iChannel]; + pResampler->x1.f32[iChannel] = 0; + } + } + + framesProcessedIn += 1; + pResampler->inTimeInt -= 1; + } + + if (pResampler->inTimeInt > 0) { + break; /* Ran out of input data. */ + } + + /* Getting here means the frames have been loaded and we can generate the next output frame. */ + if (pFramesOutF32 != NULL) { + MA_ASSERT(pResampler->inTimeInt == 0); + ma_linear_resampler_interpolate_frame_f32(pResampler, pFramesOutF32); + + /* Filter. Do not apply filtering if sample rates are the same or else you'll get dangerous glitching. */ + if (pResampler->config.sampleRateIn != pResampler->config.sampleRateOut) { + ma_lpf_process_pcm_frame_f32(&pResampler->lpf, pFramesOutF32, pFramesOutF32); + } + + pFramesOutF32 += pResampler->config.channels; + } + + framesProcessedOut += 1; + + /* Advance time forward. */ + pResampler->inTimeInt += pResampler->inAdvanceInt; + pResampler->inTimeFrac += pResampler->inAdvanceFrac; + if (pResampler->inTimeFrac >= pResampler->config.sampleRateOut) { + pResampler->inTimeFrac -= pResampler->config.sampleRateOut; + pResampler->inTimeInt += 1; + } + } + + *pFrameCountIn = framesProcessedIn; + *pFrameCountOut = framesProcessedOut; + + return MA_SUCCESS; +} + +static ma_result ma_linear_resampler_process_pcm_frames_f32(ma_linear_resampler* pResampler, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + MA_ASSERT(pResampler != NULL); + + if (pResampler->config.sampleRateIn > pResampler->config.sampleRateOut) { + return ma_linear_resampler_process_pcm_frames_f32_downsample(pResampler, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + } else { + return ma_linear_resampler_process_pcm_frames_f32_upsample(pResampler, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + } +} + + +MA_API ma_result ma_linear_resampler_process_pcm_frames(ma_linear_resampler* pResampler, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + /* */ if (pResampler->config.format == ma_format_s16) { + return ma_linear_resampler_process_pcm_frames_s16(pResampler, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + } else if (pResampler->config.format == ma_format_f32) { + return ma_linear_resampler_process_pcm_frames_f32(pResampler, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + } else { + /* Should never get here. Getting here means the format is not supported and you didn't check the return value of ma_linear_resampler_init(). */ + MA_ASSERT(MA_FALSE); + return MA_INVALID_ARGS; + } +} + + +MA_API ma_result ma_linear_resampler_set_rate(ma_linear_resampler* pResampler, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut) +{ + return ma_linear_resampler_set_rate_internal(pResampler, NULL, NULL, sampleRateIn, sampleRateOut, /* isResamplerAlreadyInitialized = */ MA_TRUE); +} + +MA_API ma_result ma_linear_resampler_set_rate_ratio(ma_linear_resampler* pResampler, float ratioInOut) +{ + ma_uint32 n; + ma_uint32 d; + + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + if (ratioInOut <= 0) { + return MA_INVALID_ARGS; + } + + d = 1000000; + n = (ma_uint32)(ratioInOut * d); + + if (n == 0) { + return MA_INVALID_ARGS; /* Ratio too small. */ + } + + MA_ASSERT(n != 0); + + return ma_linear_resampler_set_rate(pResampler, n, d); +} + +MA_API ma_uint64 ma_linear_resampler_get_input_latency(const ma_linear_resampler* pResampler) +{ + if (pResampler == NULL) { + return 0; + } + + return 1 + ma_lpf_get_latency(&pResampler->lpf); +} + +MA_API ma_uint64 ma_linear_resampler_get_output_latency(const ma_linear_resampler* pResampler) +{ + if (pResampler == NULL) { + return 0; + } + + return ma_linear_resampler_get_input_latency(pResampler) * pResampler->config.sampleRateOut / pResampler->config.sampleRateIn; +} + +MA_API ma_result ma_linear_resampler_get_required_input_frame_count(const ma_linear_resampler* pResampler, ma_uint64 outputFrameCount, ma_uint64* pInputFrameCount) +{ + ma_uint64 inputFrameCount; + + if (pInputFrameCount == NULL) { + return MA_INVALID_ARGS; + } + + *pInputFrameCount = 0; + + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + if (outputFrameCount == 0) { + return MA_SUCCESS; + } + + /* Any whole input frames are consumed before the first output frame is generated. */ + inputFrameCount = pResampler->inTimeInt; + outputFrameCount -= 1; + + /* The rest of the output frames can be calculated in constant time. */ + inputFrameCount += outputFrameCount * pResampler->inAdvanceInt; + inputFrameCount += (pResampler->inTimeFrac + (outputFrameCount * pResampler->inAdvanceFrac)) / pResampler->config.sampleRateOut; + + *pInputFrameCount = inputFrameCount; + + return MA_SUCCESS; +} + +MA_API ma_result ma_linear_resampler_get_expected_output_frame_count(const ma_linear_resampler* pResampler, ma_uint64 inputFrameCount, ma_uint64* pOutputFrameCount) +{ + ma_uint64 outputFrameCount; + ma_uint64 preliminaryInputFrameCountFromFrac; + ma_uint64 preliminaryInputFrameCount; + + if (pOutputFrameCount == NULL) { + return MA_INVALID_ARGS; + } + + *pOutputFrameCount = 0; + + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + /* + The first step is to get a preliminary output frame count. This will either be exactly equal to what we need, or less by 1. We need to + determine how many input frames will be consumed by this value. If it's greater than our original input frame count it means we won't + be able to generate an extra frame because we will have run out of input data. Otherwise we will have enough input for the generation + of an extra output frame. This add-by-one logic is necessary due to how the data loading logic works when processing frames. + */ + outputFrameCount = (inputFrameCount * pResampler->config.sampleRateOut) / pResampler->config.sampleRateIn; + + /* + We need to determine how many *whole* input frames will have been processed to generate our preliminary output frame count. This is + used in the logic below to determine whether or not we need to add an extra output frame. + */ + preliminaryInputFrameCountFromFrac = (pResampler->inTimeFrac + outputFrameCount*pResampler->inAdvanceFrac) / pResampler->config.sampleRateOut; + preliminaryInputFrameCount = (pResampler->inTimeInt + outputFrameCount*pResampler->inAdvanceInt ) + preliminaryInputFrameCountFromFrac; + + /* + If the total number of *whole* input frames that would be required to generate our preliminary output frame count is greater than + the amount of whole input frames we have available as input we need to *not* add an extra output frame as there won't be enough data + to actually process. Otherwise we need to add the extra output frame. + */ + if (preliminaryInputFrameCount <= inputFrameCount) { + outputFrameCount += 1; + } + + *pOutputFrameCount = outputFrameCount; + + return MA_SUCCESS; +} + +MA_API ma_result ma_linear_resampler_reset(ma_linear_resampler* pResampler) +{ + ma_uint32 iChannel; + + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + /* Timers need to be cleared back to zero. */ + pResampler->inTimeInt = 1; /* Set this to one to force an input sample to always be loaded for the first output frame. */ + pResampler->inTimeFrac = 0; + + /* Cached samples need to be cleared. */ + if (pResampler->config.format == ma_format_f32) { + for (iChannel = 0; iChannel < pResampler->config.channels; iChannel += 1) { + pResampler->x0.f32[iChannel] = 0; + pResampler->x1.f32[iChannel] = 0; + } + } else { + for (iChannel = 0; iChannel < pResampler->config.channels; iChannel += 1) { + pResampler->x0.s16[iChannel] = 0; + pResampler->x1.s16[iChannel] = 0; + } + } + + /* The low pass filter needs to have its cache reset. */ + ma_lpf_clear_cache(&pResampler->lpf); + + return MA_SUCCESS; +} + + + +/* Linear resampler backend vtable. */ +static ma_linear_resampler_config ma_resampling_backend_get_config__linear(const ma_resampler_config* pConfig) +{ + ma_linear_resampler_config linearConfig; + + linearConfig = ma_linear_resampler_config_init(pConfig->format, pConfig->channels, pConfig->sampleRateIn, pConfig->sampleRateOut); + linearConfig.lpfOrder = pConfig->linear.lpfOrder; + + return linearConfig; +} + +static ma_result ma_resampling_backend_get_heap_size__linear(void* pUserData, const ma_resampler_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_linear_resampler_config linearConfig; + + (void)pUserData; + + linearConfig = ma_resampling_backend_get_config__linear(pConfig); + + return ma_linear_resampler_get_heap_size(&linearConfig, pHeapSizeInBytes); +} + +static ma_result ma_resampling_backend_init__linear(void* pUserData, const ma_resampler_config* pConfig, void* pHeap, ma_resampling_backend** ppBackend) +{ + ma_resampler* pResampler = (ma_resampler*)pUserData; + ma_result result; + ma_linear_resampler_config linearConfig; + + (void)pUserData; + + linearConfig = ma_resampling_backend_get_config__linear(pConfig); + + result = ma_linear_resampler_init_preallocated(&linearConfig, pHeap, &pResampler->state.linear); + if (result != MA_SUCCESS) { + return result; + } + + *ppBackend = &pResampler->state.linear; + + return MA_SUCCESS; +} + +static void ma_resampling_backend_uninit__linear(void* pUserData, ma_resampling_backend* pBackend, const ma_allocation_callbacks* pAllocationCallbacks) +{ + (void)pUserData; + + ma_linear_resampler_uninit((ma_linear_resampler*)pBackend, pAllocationCallbacks); +} + +static ma_result ma_resampling_backend_process__linear(void* pUserData, ma_resampling_backend* pBackend, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + (void)pUserData; + + return ma_linear_resampler_process_pcm_frames((ma_linear_resampler*)pBackend, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); +} + +static ma_result ma_resampling_backend_set_rate__linear(void* pUserData, ma_resampling_backend* pBackend, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut) +{ + (void)pUserData; + + return ma_linear_resampler_set_rate((ma_linear_resampler*)pBackend, sampleRateIn, sampleRateOut); +} + +static ma_uint64 ma_resampling_backend_get_input_latency__linear(void* pUserData, const ma_resampling_backend* pBackend) +{ + (void)pUserData; + + return ma_linear_resampler_get_input_latency((const ma_linear_resampler*)pBackend); +} + +static ma_uint64 ma_resampling_backend_get_output_latency__linear(void* pUserData, const ma_resampling_backend* pBackend) +{ + (void)pUserData; + + return ma_linear_resampler_get_output_latency((const ma_linear_resampler*)pBackend); +} + +static ma_result ma_resampling_backend_get_required_input_frame_count__linear(void* pUserData, const ma_resampling_backend* pBackend, ma_uint64 outputFrameCount, ma_uint64* pInputFrameCount) +{ + (void)pUserData; + + return ma_linear_resampler_get_required_input_frame_count((const ma_linear_resampler*)pBackend, outputFrameCount, pInputFrameCount); +} + +static ma_result ma_resampling_backend_get_expected_output_frame_count__linear(void* pUserData, const ma_resampling_backend* pBackend, ma_uint64 inputFrameCount, ma_uint64* pOutputFrameCount) +{ + (void)pUserData; + + return ma_linear_resampler_get_expected_output_frame_count((const ma_linear_resampler*)pBackend, inputFrameCount, pOutputFrameCount); +} + +static ma_result ma_resampling_backend_reset__linear(void* pUserData, ma_resampling_backend* pBackend) +{ + (void)pUserData; + + return ma_linear_resampler_reset((ma_linear_resampler*)pBackend); +} + +static ma_resampling_backend_vtable g_ma_linear_resampler_vtable = +{ + ma_resampling_backend_get_heap_size__linear, + ma_resampling_backend_init__linear, + ma_resampling_backend_uninit__linear, + ma_resampling_backend_process__linear, + ma_resampling_backend_set_rate__linear, + ma_resampling_backend_get_input_latency__linear, + ma_resampling_backend_get_output_latency__linear, + ma_resampling_backend_get_required_input_frame_count__linear, + ma_resampling_backend_get_expected_output_frame_count__linear, + ma_resampling_backend_reset__linear +}; + + + +MA_API ma_resampler_config ma_resampler_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut, ma_resample_algorithm algorithm) +{ + ma_resampler_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRateIn = sampleRateIn; + config.sampleRateOut = sampleRateOut; + config.algorithm = algorithm; + + /* Linear. */ + config.linear.lpfOrder = ma_min(MA_DEFAULT_RESAMPLER_LPF_ORDER, MA_MAX_FILTER_ORDER); + + return config; +} + +static ma_result ma_resampler_get_vtable(const ma_resampler_config* pConfig, ma_resampler* pResampler, ma_resampling_backend_vtable** ppVTable, void** ppUserData) +{ + MA_ASSERT(pConfig != NULL); + MA_ASSERT(ppVTable != NULL); + MA_ASSERT(ppUserData != NULL); + + /* Safety. */ + *ppVTable = NULL; + *ppUserData = NULL; + + switch (pConfig->algorithm) + { + case ma_resample_algorithm_linear: + { + *ppVTable = &g_ma_linear_resampler_vtable; + *ppUserData = pResampler; + } break; + + case ma_resample_algorithm_custom: + { + *ppVTable = pConfig->pBackendVTable; + *ppUserData = pConfig->pBackendUserData; + } break; + + default: return MA_INVALID_ARGS; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_resampler_get_heap_size(const ma_resampler_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_resampling_backend_vtable* pVTable; + void* pVTableUserData; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_resampler_get_vtable(pConfig, NULL, &pVTable, &pVTableUserData); + if (result != MA_SUCCESS) { + return result; + } + + if (pVTable == NULL || pVTable->onGetHeapSize == NULL) { + return MA_NOT_IMPLEMENTED; + } + + result = pVTable->onGetHeapSize(pVTableUserData, pConfig, pHeapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_resampler_init_preallocated(const ma_resampler_config* pConfig, void* pHeap, ma_resampler* pResampler) +{ + ma_result result; + + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pResampler); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + pResampler->_pHeap = pHeap; + pResampler->format = pConfig->format; + pResampler->channels = pConfig->channels; + pResampler->sampleRateIn = pConfig->sampleRateIn; + pResampler->sampleRateOut = pConfig->sampleRateOut; + + result = ma_resampler_get_vtable(pConfig, pResampler, &pResampler->pBackendVTable, &pResampler->pBackendUserData); + if (result != MA_SUCCESS) { + return result; + } + + if (pResampler->pBackendVTable == NULL || pResampler->pBackendVTable->onInit == NULL) { + return MA_NOT_IMPLEMENTED; /* onInit not implemented. */ + } + + result = pResampler->pBackendVTable->onInit(pResampler->pBackendUserData, pConfig, pHeap, &pResampler->pBackend); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_resampler_init(const ma_resampler_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_resampler* pResampler) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_resampler_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_resampler_init_preallocated(pConfig, pHeap, pResampler); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pResampler->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_resampler_uninit(ma_resampler* pResampler, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pResampler == NULL) { + return; + } + + if (pResampler->pBackendVTable == NULL || pResampler->pBackendVTable->onUninit == NULL) { + return; + } + + pResampler->pBackendVTable->onUninit(pResampler->pBackendUserData, pResampler->pBackend, pAllocationCallbacks); + + if (pResampler->_ownsHeap) { + ma_free(pResampler->_pHeap, pAllocationCallbacks); + } +} + +MA_API ma_result ma_resampler_process_pcm_frames(ma_resampler* pResampler, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + if (pFrameCountOut == NULL && pFrameCountIn == NULL) { + return MA_INVALID_ARGS; + } + + if (pResampler->pBackendVTable == NULL || pResampler->pBackendVTable->onProcess == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pResampler->pBackendVTable->onProcess(pResampler->pBackendUserData, pResampler->pBackend, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); +} + +MA_API ma_result ma_resampler_set_rate(ma_resampler* pResampler, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut) +{ + ma_result result; + + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + if (sampleRateIn == 0 || sampleRateOut == 0) { + return MA_INVALID_ARGS; + } + + if (pResampler->pBackendVTable == NULL || pResampler->pBackendVTable->onSetRate == NULL) { + return MA_NOT_IMPLEMENTED; + } + + result = pResampler->pBackendVTable->onSetRate(pResampler->pBackendUserData, pResampler->pBackend, sampleRateIn, sampleRateOut); + if (result != MA_SUCCESS) { + return result; + } + + pResampler->sampleRateIn = sampleRateIn; + pResampler->sampleRateOut = sampleRateOut; + + return MA_SUCCESS; +} + +MA_API ma_result ma_resampler_set_rate_ratio(ma_resampler* pResampler, float ratio) +{ + ma_uint32 n; + ma_uint32 d; + + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + if (ratio <= 0) { + return MA_INVALID_ARGS; + } + + d = 1000; + n = (ma_uint32)(ratio * d); + + if (n == 0) { + return MA_INVALID_ARGS; /* Ratio too small. */ + } + + MA_ASSERT(n != 0); + + return ma_resampler_set_rate(pResampler, n, d); +} + +MA_API ma_uint64 ma_resampler_get_input_latency(const ma_resampler* pResampler) +{ + if (pResampler == NULL) { + return 0; + } + + if (pResampler->pBackendVTable == NULL || pResampler->pBackendVTable->onGetInputLatency == NULL) { + return 0; + } + + return pResampler->pBackendVTable->onGetInputLatency(pResampler->pBackendUserData, pResampler->pBackend); +} + +MA_API ma_uint64 ma_resampler_get_output_latency(const ma_resampler* pResampler) +{ + if (pResampler == NULL) { + return 0; + } + + if (pResampler->pBackendVTable == NULL || pResampler->pBackendVTable->onGetOutputLatency == NULL) { + return 0; + } + + return pResampler->pBackendVTable->onGetOutputLatency(pResampler->pBackendUserData, pResampler->pBackend); +} + +MA_API ma_result ma_resampler_get_required_input_frame_count(const ma_resampler* pResampler, ma_uint64 outputFrameCount, ma_uint64* pInputFrameCount) +{ + if (pInputFrameCount == NULL) { + return MA_INVALID_ARGS; + } + + *pInputFrameCount = 0; + + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + if (pResampler->pBackendVTable == NULL || pResampler->pBackendVTable->onGetRequiredInputFrameCount == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pResampler->pBackendVTable->onGetRequiredInputFrameCount(pResampler->pBackendUserData, pResampler->pBackend, outputFrameCount, pInputFrameCount); +} + +MA_API ma_result ma_resampler_get_expected_output_frame_count(const ma_resampler* pResampler, ma_uint64 inputFrameCount, ma_uint64* pOutputFrameCount) +{ + if (pOutputFrameCount == NULL) { + return MA_INVALID_ARGS; + } + + *pOutputFrameCount = 0; + + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + if (pResampler->pBackendVTable == NULL || pResampler->pBackendVTable->onGetExpectedOutputFrameCount == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pResampler->pBackendVTable->onGetExpectedOutputFrameCount(pResampler->pBackendUserData, pResampler->pBackend, inputFrameCount, pOutputFrameCount); +} + +MA_API ma_result ma_resampler_reset(ma_resampler* pResampler) +{ + if (pResampler == NULL) { + return MA_INVALID_ARGS; + } + + if (pResampler->pBackendVTable == NULL || pResampler->pBackendVTable->onReset == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pResampler->pBackendVTable->onReset(pResampler->pBackendUserData, pResampler->pBackend); +} + +/************************************************************************************************************************************************************** + +Channel Conversion + +**************************************************************************************************************************************************************/ +#ifndef MA_CHANNEL_CONVERTER_FIXED_POINT_SHIFT +#define MA_CHANNEL_CONVERTER_FIXED_POINT_SHIFT 12 +#endif + +#define MA_PLANE_LEFT 0 +#define MA_PLANE_RIGHT 1 +#define MA_PLANE_FRONT 2 +#define MA_PLANE_BACK 3 +#define MA_PLANE_BOTTOM 4 +#define MA_PLANE_TOP 5 + +static float g_maChannelPlaneRatios[MA_CHANNEL_POSITION_COUNT][6] = { + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_NONE */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_MONO */ + { 0.5f, 0.0f, 0.5f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_FRONT_LEFT */ + { 0.0f, 0.5f, 0.5f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_FRONT_RIGHT */ + { 0.0f, 0.0f, 1.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_FRONT_CENTER */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_LFE */ + { 0.5f, 0.0f, 0.0f, 0.5f, 0.0f, 0.0f}, /* MA_CHANNEL_BACK_LEFT */ + { 0.0f, 0.5f, 0.0f, 0.5f, 0.0f, 0.0f}, /* MA_CHANNEL_BACK_RIGHT */ + { 0.25f, 0.0f, 0.75f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_FRONT_LEFT_CENTER */ + { 0.0f, 0.25f, 0.75f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_FRONT_RIGHT_CENTER */ + { 0.0f, 0.0f, 0.0f, 1.0f, 0.0f, 0.0f}, /* MA_CHANNEL_BACK_CENTER */ + { 1.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_SIDE_LEFT */ + { 0.0f, 1.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_SIDE_RIGHT */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 1.0f}, /* MA_CHANNEL_TOP_CENTER */ + { 0.33f, 0.0f, 0.33f, 0.0f, 0.0f, 0.34f}, /* MA_CHANNEL_TOP_FRONT_LEFT */ + { 0.0f, 0.0f, 0.5f, 0.0f, 0.0f, 0.5f}, /* MA_CHANNEL_TOP_FRONT_CENTER */ + { 0.0f, 0.33f, 0.33f, 0.0f, 0.0f, 0.34f}, /* MA_CHANNEL_TOP_FRONT_RIGHT */ + { 0.33f, 0.0f, 0.0f, 0.33f, 0.0f, 0.34f}, /* MA_CHANNEL_TOP_BACK_LEFT */ + { 0.0f, 0.0f, 0.0f, 0.5f, 0.0f, 0.5f}, /* MA_CHANNEL_TOP_BACK_CENTER */ + { 0.0f, 0.33f, 0.0f, 0.33f, 0.0f, 0.34f}, /* MA_CHANNEL_TOP_BACK_RIGHT */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_0 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_1 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_2 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_3 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_4 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_5 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_6 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_7 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_8 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_9 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_10 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_11 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_12 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_13 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_14 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_15 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_16 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_17 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_18 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_19 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_20 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_21 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_22 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_23 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_24 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_25 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_26 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_27 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_28 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_29 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_30 */ + { 0.0f, 0.0f, 0.0f, 0.0f, 0.0f, 0.0f}, /* MA_CHANNEL_AUX_31 */ +}; + +static float ma_calculate_channel_position_rectangular_weight(ma_channel channelPositionA, ma_channel channelPositionB) +{ + /* + Imagine the following simplified example: You have a single input speaker which is the front/left speaker which you want to convert to + the following output configuration: + + - front/left + - side/left + - back/left + + The front/left output is easy - it the same speaker position so it receives the full contribution of the front/left input. The amount + of contribution to apply to the side/left and back/left speakers, however, is a bit more complicated. + + Imagine the front/left speaker as emitting audio from two planes - the front plane and the left plane. You can think of the front/left + speaker emitting half of its total volume from the front, and the other half from the left. Since part of its volume is being emitted + from the left side, and the side/left and back/left channels also emit audio from the left plane, one would expect that they would + receive some amount of contribution from front/left speaker. The amount of contribution depends on how many planes are shared between + the two speakers. Note that in the examples below I've added a top/front/left speaker as an example just to show how the math works + across 3 spatial dimensions. + + The first thing to do is figure out how each speaker's volume is spread over each of plane: + - front/left: 2 planes (front and left) = 1/2 = half its total volume on each plane + - side/left: 1 plane (left only) = 1/1 = entire volume from left plane + - back/left: 2 planes (back and left) = 1/2 = half its total volume on each plane + - top/front/left: 3 planes (top, front and left) = 1/3 = one third its total volume on each plane + + The amount of volume each channel contributes to each of its planes is what controls how much it is willing to given and take to other + channels on the same plane. The volume that is willing to the given by one channel is multiplied by the volume that is willing to be + taken by the other to produce the final contribution. + */ + + /* Contribution = Sum(Volume to Give * Volume to Take) */ + float contribution = + g_maChannelPlaneRatios[channelPositionA][0] * g_maChannelPlaneRatios[channelPositionB][0] + + g_maChannelPlaneRatios[channelPositionA][1] * g_maChannelPlaneRatios[channelPositionB][1] + + g_maChannelPlaneRatios[channelPositionA][2] * g_maChannelPlaneRatios[channelPositionB][2] + + g_maChannelPlaneRatios[channelPositionA][3] * g_maChannelPlaneRatios[channelPositionB][3] + + g_maChannelPlaneRatios[channelPositionA][4] * g_maChannelPlaneRatios[channelPositionB][4] + + g_maChannelPlaneRatios[channelPositionA][5] * g_maChannelPlaneRatios[channelPositionB][5]; + + return contribution; +} + +MA_API ma_channel_converter_config ma_channel_converter_config_init(ma_format format, ma_uint32 channelsIn, const ma_channel* pChannelMapIn, ma_uint32 channelsOut, const ma_channel* pChannelMapOut, ma_channel_mix_mode mixingMode) +{ + ma_channel_converter_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channelsIn = channelsIn; + config.channelsOut = channelsOut; + config.pChannelMapIn = pChannelMapIn; + config.pChannelMapOut = pChannelMapOut; + config.mixingMode = mixingMode; + + return config; +} + +static ma_int32 ma_channel_converter_float_to_fixed(float x) +{ + return (ma_int32)(x * (1< 0); + + for (iChannel = 0; iChannel < channels; ++iChannel) { + if (ma_is_spatial_channel_position(ma_channel_map_get_channel(pChannelMap, channels, iChannel))) { + spatialChannelCount++; + } + } + + return spatialChannelCount; +} + +static ma_bool32 ma_is_spatial_channel_position(ma_channel channelPosition) +{ + int i; + + if (channelPosition == MA_CHANNEL_NONE || channelPosition == MA_CHANNEL_MONO || channelPosition == MA_CHANNEL_LFE) { + return MA_FALSE; + } + + if (channelPosition >= MA_CHANNEL_AUX_0) { + return MA_FALSE; + } + + for (i = 0; i < 6; ++i) { /* Each side of a cube. */ + if (g_maChannelPlaneRatios[channelPosition][i] != 0) { + return MA_TRUE; + } + } + + return MA_FALSE; +} + + +static ma_bool32 ma_channel_map_is_passthrough(const ma_channel* pChannelMapIn, ma_uint32 channelsIn, const ma_channel* pChannelMapOut, ma_uint32 channelsOut) +{ + if (channelsOut == channelsIn) { + return ma_channel_map_is_equal(pChannelMapOut, pChannelMapIn, channelsOut); + } else { + return MA_FALSE; /* Channel counts differ, so cannot be a passthrough. */ + } +} + +static ma_channel_conversion_path ma_channel_map_get_conversion_path(const ma_channel* pChannelMapIn, ma_uint32 channelsIn, const ma_channel* pChannelMapOut, ma_uint32 channelsOut, ma_channel_mix_mode mode) +{ + if (ma_channel_map_is_passthrough(pChannelMapIn, channelsIn, pChannelMapOut, channelsOut)) { + return ma_channel_conversion_path_passthrough; + } + + if (channelsOut == 1 && (pChannelMapOut == NULL || pChannelMapOut[0] == MA_CHANNEL_MONO)) { + return ma_channel_conversion_path_mono_out; + } + + if (channelsIn == 1 && (pChannelMapIn == NULL || pChannelMapIn[0] == MA_CHANNEL_MONO)) { + return ma_channel_conversion_path_mono_in; + } + + if (mode == ma_channel_mix_mode_custom_weights) { + return ma_channel_conversion_path_weights; + } + + /* + We can use a simple shuffle if both channel maps have the same channel count and all channel + positions are present in both. + */ + if (channelsIn == channelsOut) { + ma_uint32 iChannelIn; + ma_bool32 areAllChannelPositionsPresent = MA_TRUE; + for (iChannelIn = 0; iChannelIn < channelsIn; ++iChannelIn) { + ma_bool32 isInputChannelPositionInOutput = ma_channel_map_contains_channel_position(channelsOut, pChannelMapOut, ma_channel_map_get_channel(pChannelMapIn, channelsIn, iChannelIn)); + if (!isInputChannelPositionInOutput) { + areAllChannelPositionsPresent = MA_FALSE; + break; + } + } + + if (areAllChannelPositionsPresent) { + return ma_channel_conversion_path_shuffle; + } + } + + /* Getting here means we'll need to use weights. */ + return ma_channel_conversion_path_weights; +} + + +static ma_result ma_channel_map_build_shuffle_table(const ma_channel* pChannelMapIn, ma_uint32 channelCountIn, const ma_channel* pChannelMapOut, ma_uint32 channelCountOut, ma_uint8* pShuffleTable) +{ + ma_uint32 iChannelIn; + ma_uint32 iChannelOut; + + if (pShuffleTable == NULL || channelCountIn == 0 || channelCountOut == 0) { + return MA_INVALID_ARGS; + } + + /* + When building the shuffle table we just do a 1:1 mapping based on the first occurrence of a channel. If the + input channel has more than one occurrence of a channel position, the second one will be ignored. + */ + for (iChannelOut = 0; iChannelOut < channelCountOut; iChannelOut += 1) { + ma_channel channelOut; + + /* Default to MA_CHANNEL_INDEX_NULL so that if a mapping is not found it'll be set appropriately. */ + pShuffleTable[iChannelOut] = MA_CHANNEL_INDEX_NULL; + + channelOut = ma_channel_map_get_channel(pChannelMapOut, channelCountOut, iChannelOut); + for (iChannelIn = 0; iChannelIn < channelCountIn; iChannelIn += 1) { + ma_channel channelIn; + + channelIn = ma_channel_map_get_channel(pChannelMapIn, channelCountIn, iChannelIn); + if (channelOut == channelIn) { + pShuffleTable[iChannelOut] = (ma_uint8)iChannelIn; + break; + } + + /* + Getting here means the channels don't exactly match, but we are going to support some + relaxed matching for practicality. If, for example, there are two stereo channel maps, + but one uses front left/right and the other uses side left/right, it makes logical + sense to just map these. The way we'll do it is we'll check if there is a logical + corresponding mapping, and if so, apply it, but we will *not* break from the loop, + thereby giving the loop a chance to find an exact match later which will take priority. + */ + switch (channelOut) + { + /* Left channels. */ + case MA_CHANNEL_FRONT_LEFT: + case MA_CHANNEL_SIDE_LEFT: + { + switch (channelIn) { + case MA_CHANNEL_FRONT_LEFT: + case MA_CHANNEL_SIDE_LEFT: + { + pShuffleTable[iChannelOut] = (ma_uint8)iChannelIn; + } break; + } + } break; + + /* Right channels. */ + case MA_CHANNEL_FRONT_RIGHT: + case MA_CHANNEL_SIDE_RIGHT: + { + switch (channelIn) { + case MA_CHANNEL_FRONT_RIGHT: + case MA_CHANNEL_SIDE_RIGHT: + { + pShuffleTable[iChannelOut] = (ma_uint8)iChannelIn; + } break; + } + } break; + + default: break; + } + } + } + + return MA_SUCCESS; +} + + +static void ma_channel_map_apply_shuffle_table_u8(ma_uint8* pFramesOut, ma_uint32 channelsOut, const ma_uint8* pFramesIn, ma_uint32 channelsIn, ma_uint64 frameCount, const ma_uint8* pShuffleTable) +{ + ma_uint64 iFrame; + ma_uint32 iChannelOut; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_uint8 iChannelIn = pShuffleTable[iChannelOut]; + if (iChannelIn < channelsIn) { /* For safety, and to deal with MA_CHANNEL_INDEX_NULL. */ + pFramesOut[iChannelOut] = pFramesIn[iChannelIn]; + } else { + pFramesOut[iChannelOut] = 0; + } + } + + pFramesOut += channelsOut; + pFramesIn += channelsIn; + } +} + +static void ma_channel_map_apply_shuffle_table_s16(ma_int16* pFramesOut, ma_uint32 channelsOut, const ma_int16* pFramesIn, ma_uint32 channelsIn, ma_uint64 frameCount, const ma_uint8* pShuffleTable) +{ + ma_uint64 iFrame; + ma_uint32 iChannelOut; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_uint8 iChannelIn = pShuffleTable[iChannelOut]; + if (iChannelIn < channelsIn) { /* For safety, and to deal with MA_CHANNEL_INDEX_NULL. */ + pFramesOut[iChannelOut] = pFramesIn[iChannelIn]; + } else { + pFramesOut[iChannelOut] = 0; + } + } + + pFramesOut += channelsOut; + pFramesIn += channelsIn; + } +} + +static void ma_channel_map_apply_shuffle_table_s24(ma_uint8* pFramesOut, ma_uint32 channelsOut, const ma_uint8* pFramesIn, ma_uint32 channelsIn, ma_uint64 frameCount, const ma_uint8* pShuffleTable) +{ + ma_uint64 iFrame; + ma_uint32 iChannelOut; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_uint8 iChannelIn = pShuffleTable[iChannelOut]; + if (iChannelIn < channelsIn) { /* For safety, and to deal with MA_CHANNEL_INDEX_NULL. */ + pFramesOut[iChannelOut*3 + 0] = pFramesIn[iChannelIn*3 + 0]; + pFramesOut[iChannelOut*3 + 1] = pFramesIn[iChannelIn*3 + 1]; + pFramesOut[iChannelOut*3 + 2] = pFramesIn[iChannelIn*3 + 2]; + } else { + pFramesOut[iChannelOut*3 + 0] = 0; + } pFramesOut[iChannelOut*3 + 1] = 0; + } pFramesOut[iChannelOut*3 + 2] = 0; + + pFramesOut += channelsOut*3; + pFramesIn += channelsIn*3; + } +} + +static void ma_channel_map_apply_shuffle_table_s32(ma_int32* pFramesOut, ma_uint32 channelsOut, const ma_int32* pFramesIn, ma_uint32 channelsIn, ma_uint64 frameCount, const ma_uint8* pShuffleTable) +{ + ma_uint64 iFrame; + ma_uint32 iChannelOut; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_uint8 iChannelIn = pShuffleTable[iChannelOut]; + if (iChannelIn < channelsIn) { /* For safety, and to deal with MA_CHANNEL_INDEX_NULL. */ + pFramesOut[iChannelOut] = pFramesIn[iChannelIn]; + } else { + pFramesOut[iChannelOut] = 0; + } + } + + pFramesOut += channelsOut; + pFramesIn += channelsIn; + } +} + +static void ma_channel_map_apply_shuffle_table_f32(float* pFramesOut, ma_uint32 channelsOut, const float* pFramesIn, ma_uint32 channelsIn, ma_uint64 frameCount, const ma_uint8* pShuffleTable) +{ + ma_uint64 iFrame; + ma_uint32 iChannelOut; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_uint8 iChannelIn = pShuffleTable[iChannelOut]; + if (iChannelIn < channelsIn) { /* For safety, and to deal with MA_CHANNEL_INDEX_NULL. */ + pFramesOut[iChannelOut] = pFramesIn[iChannelIn]; + } else { + pFramesOut[iChannelOut] = 0; + } + } + + pFramesOut += channelsOut; + pFramesIn += channelsIn; + } +} + +static ma_result ma_channel_map_apply_shuffle_table(void* pFramesOut, ma_uint32 channelsOut, const void* pFramesIn, ma_uint32 channelsIn, ma_uint64 frameCount, const ma_uint8* pShuffleTable, ma_format format) +{ + if (pFramesOut == NULL || pFramesIn == NULL || channelsOut == 0 || pShuffleTable == NULL) { + return MA_INVALID_ARGS; + } + + switch (format) + { + case ma_format_u8: + { + ma_channel_map_apply_shuffle_table_u8((ma_uint8*)pFramesOut, channelsOut, (const ma_uint8*)pFramesIn, channelsIn, frameCount, pShuffleTable); + } break; + + case ma_format_s16: + { + ma_channel_map_apply_shuffle_table_s16((ma_int16*)pFramesOut, channelsOut, (const ma_int16*)pFramesIn, channelsIn, frameCount, pShuffleTable); + } break; + + case ma_format_s24: + { + ma_channel_map_apply_shuffle_table_s24((ma_uint8*)pFramesOut, channelsOut, (const ma_uint8*)pFramesIn, channelsIn, frameCount, pShuffleTable); + } break; + + case ma_format_s32: + { + ma_channel_map_apply_shuffle_table_s32((ma_int32*)pFramesOut, channelsOut, (const ma_int32*)pFramesIn, channelsIn, frameCount, pShuffleTable); + } break; + + case ma_format_f32: + { + ma_channel_map_apply_shuffle_table_f32((float*)pFramesOut, channelsOut, (const float*)pFramesIn, channelsIn, frameCount, pShuffleTable); + } break; + + default: return MA_INVALID_ARGS; /* Unknown format. */ + } + + return MA_SUCCESS; +} + +static ma_result ma_channel_map_apply_mono_out_f32(float* pFramesOut, const float* pFramesIn, const ma_channel* pChannelMapIn, ma_uint32 channelsIn, ma_uint64 frameCount) +{ + ma_uint64 iFrame; + ma_uint32 iChannelIn; + ma_uint32 accumulationCount; + + if (pFramesOut == NULL || pFramesIn == NULL || channelsIn == 0) { + return MA_INVALID_ARGS; + } + + /* In this case the output stream needs to be the average of all channels, ignoring NONE. */ + + /* A quick pre-processing step to get the accumulation counter since we're ignoring NONE channels. */ + accumulationCount = 0; + for (iChannelIn = 0; iChannelIn < channelsIn; iChannelIn += 1) { + if (ma_channel_map_get_channel(pChannelMapIn, channelsIn, iChannelIn) != MA_CHANNEL_NONE) { + accumulationCount += 1; + } + } + + if (accumulationCount > 0) { /* <-- Prevent a division by zero. */ + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float accumulation = 0; + + for (iChannelIn = 0; iChannelIn < channelsIn; iChannelIn += 1) { + ma_channel channelIn = ma_channel_map_get_channel(pChannelMapIn, channelsIn, iChannelIn); + if (channelIn != MA_CHANNEL_NONE) { + accumulation += pFramesIn[iChannelIn]; + } + } + + pFramesOut[0] = accumulation / accumulationCount; + pFramesOut += 1; + pFramesIn += channelsIn; + } + } else { + ma_silence_pcm_frames(pFramesOut, frameCount, ma_format_f32, 1); + } + + return MA_SUCCESS; +} + +static ma_result ma_channel_map_apply_mono_in_f32(float* MA_RESTRICT pFramesOut, const ma_channel* pChannelMapOut, ma_uint32 channelsOut, const float* MA_RESTRICT pFramesIn, ma_uint64 frameCount, ma_mono_expansion_mode monoExpansionMode) +{ + ma_uint64 iFrame; + ma_uint32 iChannelOut; + + if (pFramesOut == NULL || channelsOut == 0 || pFramesIn == NULL) { + return MA_INVALID_ARGS; + } + + /* Note that the MA_CHANNEL_NONE channel must be ignored in all cases. */ + switch (monoExpansionMode) + { + case ma_mono_expansion_mode_average: + { + float weight; + ma_uint32 validChannelCount = 0; + + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_channel channelOut = ma_channel_map_get_channel(pChannelMapOut, channelsOut, iChannelOut); + if (channelOut != MA_CHANNEL_NONE) { + validChannelCount += 1; + } + } + + weight = 1.0f / validChannelCount; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_channel channelOut = ma_channel_map_get_channel(pChannelMapOut, channelsOut, iChannelOut); + if (channelOut != MA_CHANNEL_NONE) { + pFramesOut[iChannelOut] = pFramesIn[0] * weight; + } + } + + pFramesOut += channelsOut; + pFramesIn += 1; + } + } break; + + case ma_mono_expansion_mode_stereo_only: + { + if (channelsOut >= 2) { + ma_uint32 iChannelLeft = (ma_uint32)-1; + ma_uint32 iChannelRight = (ma_uint32)-1; + + /* + We first need to find our stereo channels. We prefer front-left and front-right, but + if they're not available, we'll also try side-left and side-right. If neither are + available we'll fall through to the default case below. + */ + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_channel channelOut = ma_channel_map_get_channel(pChannelMapOut, channelsOut, iChannelOut); + if (channelOut == MA_CHANNEL_SIDE_LEFT) { + iChannelLeft = iChannelOut; + } + if (channelOut == MA_CHANNEL_SIDE_RIGHT) { + iChannelRight = iChannelOut; + } + } + + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_channel channelOut = ma_channel_map_get_channel(pChannelMapOut, channelsOut, iChannelOut); + if (channelOut == MA_CHANNEL_FRONT_LEFT) { + iChannelLeft = iChannelOut; + } + if (channelOut == MA_CHANNEL_FRONT_RIGHT) { + iChannelRight = iChannelOut; + } + } + + + if (iChannelLeft != (ma_uint32)-1 && iChannelRight != (ma_uint32)-1) { + /* We found our stereo channels so we can duplicate the signal across those channels. */ + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_channel channelOut = ma_channel_map_get_channel(pChannelMapOut, channelsOut, iChannelOut); + if (channelOut != MA_CHANNEL_NONE) { + if (iChannelOut == iChannelLeft || iChannelOut == iChannelRight) { + pFramesOut[iChannelOut] = pFramesIn[0]; + } else { + pFramesOut[iChannelOut] = 0.0f; + } + } + } + + pFramesOut += channelsOut; + pFramesIn += 1; + } + + break; /* Get out of the switch. */ + } else { + /* Fallthrough. Does not have left and right channels. */ + goto default_handler; + } + } else { + /* Fallthrough. Does not have stereo channels. */ + goto default_handler; + } + }; /* Fallthrough. See comments above. */ + + case ma_mono_expansion_mode_duplicate: + default: + { + default_handler: + { + if (channelsOut <= MA_MAX_CHANNELS) { + ma_bool32 hasEmptyChannel = MA_FALSE; + ma_channel channelPositions[MA_MAX_CHANNELS]; + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + channelPositions[iChannelOut] = ma_channel_map_get_channel(pChannelMapOut, channelsOut, iChannelOut); + if (channelPositions[iChannelOut] == MA_CHANNEL_NONE) { + hasEmptyChannel = MA_TRUE; + } + } + + if (hasEmptyChannel == MA_FALSE) { + /* + Faster path when there's no MA_CHANNEL_NONE channel positions. This should hopefully + help the compiler with auto-vectorization.m + */ + if (channelsOut == 2) { + #if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + /* We want to do two frames in each iteration. */ + ma_uint64 unrolledFrameCount = frameCount >> 1; + + for (iFrame = 0; iFrame < unrolledFrameCount; iFrame += 1) { + __m128 in0 = _mm_set1_ps(pFramesIn[iFrame*2 + 0]); + __m128 in1 = _mm_set1_ps(pFramesIn[iFrame*2 + 1]); + _mm_storeu_ps(&pFramesOut[iFrame*4 + 0], _mm_shuffle_ps(in0, in1, _MM_SHUFFLE(0, 0, 0, 0))); + } + + /* Tail. */ + iFrame = unrolledFrameCount << 1; + goto generic_on_fastpath; + } else + #endif + { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < 2; iChannelOut += 1) { + pFramesOut[iFrame*2 + iChannelOut] = pFramesIn[iFrame]; + } + } + } + } else if (channelsOut == 6) { + #if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + /* We want to do two frames in each iteration so we can have a multiple of 4 samples. */ + ma_uint64 unrolledFrameCount = frameCount >> 1; + + for (iFrame = 0; iFrame < unrolledFrameCount; iFrame += 1) { + __m128 in0 = _mm_set1_ps(pFramesIn[iFrame*2 + 0]); + __m128 in1 = _mm_set1_ps(pFramesIn[iFrame*2 + 1]); + + _mm_storeu_ps(&pFramesOut[iFrame*12 + 0], in0); + _mm_storeu_ps(&pFramesOut[iFrame*12 + 4], _mm_shuffle_ps(in0, in1, _MM_SHUFFLE(0, 0, 0, 0))); + _mm_storeu_ps(&pFramesOut[iFrame*12 + 8], in1); + } + + /* Tail. */ + iFrame = unrolledFrameCount << 1; + goto generic_on_fastpath; + } else + #endif + { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < 6; iChannelOut += 1) { + pFramesOut[iFrame*6 + iChannelOut] = pFramesIn[iFrame]; + } + } + } + } else if (channelsOut == 8) { + #if defined(MA_SUPPORT_SSE2) + if (ma_has_sse2()) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + __m128 in = _mm_set1_ps(pFramesIn[iFrame]); + _mm_storeu_ps(&pFramesOut[iFrame*8 + 0], in); + _mm_storeu_ps(&pFramesOut[iFrame*8 + 4], in); + } + } else + #endif + { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < 8; iChannelOut += 1) { + pFramesOut[iFrame*8 + iChannelOut] = pFramesIn[iFrame]; + } + } + } + } else { + iFrame = 0; + + #if defined(MA_SUPPORT_SSE2) /* For silencing a warning with non-x86 builds. */ + generic_on_fastpath: + #endif + { + for (; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + pFramesOut[iFrame*channelsOut + iChannelOut] = pFramesIn[iFrame]; + } + } + } + } + } else { + /* Slow path. Need to handle MA_CHANNEL_NONE. */ + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + if (channelPositions[iChannelOut] != MA_CHANNEL_NONE) { + pFramesOut[iFrame*channelsOut + iChannelOut] = pFramesIn[iFrame]; + } + } + } + } + } else { + /* Slow path. Too many channels to store on the stack. */ + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_channel channelOut = ma_channel_map_get_channel(pChannelMapOut, channelsOut, iChannelOut); + if (channelOut != MA_CHANNEL_NONE) { + pFramesOut[iFrame*channelsOut + iChannelOut] = pFramesIn[iFrame]; + } + } + } + } + } + } break; + } + + return MA_SUCCESS; +} + +static void ma_channel_map_apply_f32(float* pFramesOut, const ma_channel* pChannelMapOut, ma_uint32 channelsOut, const float* pFramesIn, const ma_channel* pChannelMapIn, ma_uint32 channelsIn, ma_uint64 frameCount, ma_channel_mix_mode mode, ma_mono_expansion_mode monoExpansionMode) +{ + ma_channel_conversion_path conversionPath = ma_channel_map_get_conversion_path(pChannelMapIn, channelsIn, pChannelMapOut, channelsOut, mode); + + /* Optimized Path: Passthrough */ + if (conversionPath == ma_channel_conversion_path_passthrough) { + ma_copy_pcm_frames(pFramesOut, pFramesIn, frameCount, ma_format_f32, channelsOut); + return; + } + + /* Special Path: Mono Output. */ + if (conversionPath == ma_channel_conversion_path_mono_out) { + ma_channel_map_apply_mono_out_f32(pFramesOut, pFramesIn, pChannelMapIn, channelsIn, frameCount); + return; + } + + /* Special Path: Mono Input. */ + if (conversionPath == ma_channel_conversion_path_mono_in) { + ma_channel_map_apply_mono_in_f32(pFramesOut, pChannelMapOut, channelsOut, pFramesIn, frameCount, monoExpansionMode); + return; + } + + /* Getting here means we aren't running on an optimized conversion path. */ + if (channelsOut <= MA_MAX_CHANNELS) { + ma_result result; + + if (mode == ma_channel_mix_mode_simple) { + ma_channel shuffleTable[MA_MAX_CHANNELS]; + + result = ma_channel_map_build_shuffle_table(pChannelMapIn, channelsIn, pChannelMapOut, channelsOut, shuffleTable); + if (result != MA_SUCCESS) { + return; + } + + result = ma_channel_map_apply_shuffle_table(pFramesOut, channelsOut, pFramesIn, channelsIn, frameCount, shuffleTable, ma_format_f32); + if (result != MA_SUCCESS) { + return; + } + } else { + ma_uint32 iFrame; + ma_uint32 iChannelOut; + ma_uint32 iChannelIn; + float weights[32][32]; /* Do not use MA_MAX_CHANNELS here! */ + + /* + If we have a small enough number of channels, pre-compute the weights. Otherwise we'll just need to + fall back to a slower path because otherwise we'll run out of stack space. + */ + if (channelsIn <= ma_countof(weights) && channelsOut <= ma_countof(weights)) { + /* Pre-compute weights. */ + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + ma_channel channelOut = ma_channel_map_get_channel(pChannelMapOut, channelsOut, iChannelOut); + for (iChannelIn = 0; iChannelIn < channelsIn; iChannelIn += 1) { + ma_channel channelIn = ma_channel_map_get_channel(pChannelMapIn, channelsIn, iChannelIn); + weights[iChannelOut][iChannelIn] = ma_calculate_channel_position_rectangular_weight(channelOut, channelIn); + } + } + + iFrame = 0; + + /* Experiment: Try an optimized unroll for some specific cases to see how it improves performance. RESULT: Good gains. */ + if (channelsOut == 8) { + /* Experiment 2: Expand the inner loop to see what kind of different it makes. RESULT: Small, but worthwhile gain. */ + if (channelsIn == 2) { + for (; iFrame < frameCount; iFrame += 1) { + float accumulation[8] = { 0, 0, 0, 0, 0, 0, 0, 0 }; + + accumulation[0] += pFramesIn[iFrame*2 + 0] * weights[0][0]; + accumulation[1] += pFramesIn[iFrame*2 + 0] * weights[1][0]; + accumulation[2] += pFramesIn[iFrame*2 + 0] * weights[2][0]; + accumulation[3] += pFramesIn[iFrame*2 + 0] * weights[3][0]; + accumulation[4] += pFramesIn[iFrame*2 + 0] * weights[4][0]; + accumulation[5] += pFramesIn[iFrame*2 + 0] * weights[5][0]; + accumulation[6] += pFramesIn[iFrame*2 + 0] * weights[6][0]; + accumulation[7] += pFramesIn[iFrame*2 + 0] * weights[7][0]; + + accumulation[0] += pFramesIn[iFrame*2 + 1] * weights[0][1]; + accumulation[1] += pFramesIn[iFrame*2 + 1] * weights[1][1]; + accumulation[2] += pFramesIn[iFrame*2 + 1] * weights[2][1]; + accumulation[3] += pFramesIn[iFrame*2 + 1] * weights[3][1]; + accumulation[4] += pFramesIn[iFrame*2 + 1] * weights[4][1]; + accumulation[5] += pFramesIn[iFrame*2 + 1] * weights[5][1]; + accumulation[6] += pFramesIn[iFrame*2 + 1] * weights[6][1]; + accumulation[7] += pFramesIn[iFrame*2 + 1] * weights[7][1]; + + pFramesOut[iFrame*8 + 0] = accumulation[0]; + pFramesOut[iFrame*8 + 1] = accumulation[1]; + pFramesOut[iFrame*8 + 2] = accumulation[2]; + pFramesOut[iFrame*8 + 3] = accumulation[3]; + pFramesOut[iFrame*8 + 4] = accumulation[4]; + pFramesOut[iFrame*8 + 5] = accumulation[5]; + pFramesOut[iFrame*8 + 6] = accumulation[6]; + pFramesOut[iFrame*8 + 7] = accumulation[7]; + } + } else { + /* When outputting to 8 channels, we can do everything in groups of two 4x SIMD operations. */ + for (; iFrame < frameCount; iFrame += 1) { + float accumulation[8] = { 0, 0, 0, 0, 0, 0, 0, 0 }; + + for (iChannelIn = 0; iChannelIn < channelsIn; iChannelIn += 1) { + accumulation[0] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[0][iChannelIn]; + accumulation[1] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[1][iChannelIn]; + accumulation[2] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[2][iChannelIn]; + accumulation[3] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[3][iChannelIn]; + accumulation[4] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[4][iChannelIn]; + accumulation[5] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[5][iChannelIn]; + accumulation[6] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[6][iChannelIn]; + accumulation[7] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[7][iChannelIn]; + } + + pFramesOut[iFrame*8 + 0] = accumulation[0]; + pFramesOut[iFrame*8 + 1] = accumulation[1]; + pFramesOut[iFrame*8 + 2] = accumulation[2]; + pFramesOut[iFrame*8 + 3] = accumulation[3]; + pFramesOut[iFrame*8 + 4] = accumulation[4]; + pFramesOut[iFrame*8 + 5] = accumulation[5]; + pFramesOut[iFrame*8 + 6] = accumulation[6]; + pFramesOut[iFrame*8 + 7] = accumulation[7]; + } + } + } else if (channelsOut == 6) { + /* + When outputting to 6 channels we unfortunately don't have a nice multiple of 4 to do 4x SIMD operations. Instead we'll + expand our weights and do two frames at a time. + */ + for (; iFrame < frameCount; iFrame += 1) { + float accumulation[12] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 }; + + for (iChannelIn = 0; iChannelIn < channelsIn; iChannelIn += 1) { + accumulation[0] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[0][iChannelIn]; + accumulation[1] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[1][iChannelIn]; + accumulation[2] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[2][iChannelIn]; + accumulation[3] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[3][iChannelIn]; + accumulation[4] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[4][iChannelIn]; + accumulation[5] += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[5][iChannelIn]; + } + + pFramesOut[iFrame*6 + 0] = accumulation[0]; + pFramesOut[iFrame*6 + 1] = accumulation[1]; + pFramesOut[iFrame*6 + 2] = accumulation[2]; + pFramesOut[iFrame*6 + 3] = accumulation[3]; + pFramesOut[iFrame*6 + 4] = accumulation[4]; + pFramesOut[iFrame*6 + 5] = accumulation[5]; + } + } + + /* Leftover frames. */ + for (; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + float accumulation = 0; + + for (iChannelIn = 0; iChannelIn < channelsIn; iChannelIn += 1) { + accumulation += pFramesIn[iFrame*channelsIn + iChannelIn] * weights[iChannelOut][iChannelIn]; + } + + pFramesOut[iFrame*channelsOut + iChannelOut] = accumulation; + } + } + } else { + /* Cannot pre-compute weights because not enough room in stack-allocated buffer. */ + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelOut = 0; iChannelOut < channelsOut; iChannelOut += 1) { + float accumulation = 0; + ma_channel channelOut = ma_channel_map_get_channel(pChannelMapOut, channelsOut, iChannelOut); + + for (iChannelIn = 0; iChannelIn < channelsIn; iChannelIn += 1) { + ma_channel channelIn = ma_channel_map_get_channel(pChannelMapIn, channelsIn, iChannelIn); + accumulation += pFramesIn[iFrame*channelsIn + iChannelIn] * ma_calculate_channel_position_rectangular_weight(channelOut, channelIn); + } + + pFramesOut[iFrame*channelsOut + iChannelOut] = accumulation; + } + } + } + } + } else { + /* Fall back to silence. If you hit this, what are you doing with so many channels?! */ + ma_silence_pcm_frames(pFramesOut, frameCount, ma_format_f32, channelsOut); + } +} + + +typedef struct +{ + size_t sizeInBytes; + size_t channelMapInOffset; + size_t channelMapOutOffset; + size_t shuffleTableOffset; + size_t weightsOffset; +} ma_channel_converter_heap_layout; + +static ma_channel_conversion_path ma_channel_converter_config_get_conversion_path(const ma_channel_converter_config* pConfig) +{ + return ma_channel_map_get_conversion_path(pConfig->pChannelMapIn, pConfig->channelsIn, pConfig->pChannelMapOut, pConfig->channelsOut, pConfig->mixingMode); +} + +static ma_result ma_channel_converter_get_heap_layout(const ma_channel_converter_config* pConfig, ma_channel_converter_heap_layout* pHeapLayout) +{ + ma_channel_conversion_path conversionPath; + + MA_ASSERT(pHeapLayout != NULL); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->channelsIn == 0 || pConfig->channelsOut == 0) { + return MA_INVALID_ARGS; + } + + if (!ma_channel_map_is_valid(pConfig->pChannelMapIn, pConfig->channelsIn)) { + return MA_INVALID_ARGS; + } + + if (!ma_channel_map_is_valid(pConfig->pChannelMapOut, pConfig->channelsOut)) { + return MA_INVALID_ARGS; + } + + pHeapLayout->sizeInBytes = 0; + + /* Input channel map. Only need to allocate this if we have an input channel map (otherwise default channel map is assumed). */ + pHeapLayout->channelMapInOffset = pHeapLayout->sizeInBytes; + if (pConfig->pChannelMapIn != NULL) { + pHeapLayout->sizeInBytes += sizeof(ma_channel) * pConfig->channelsIn; + } + + /* Output channel map. Only need to allocate this if we have an output channel map (otherwise default channel map is assumed). */ + pHeapLayout->channelMapOutOffset = pHeapLayout->sizeInBytes; + if (pConfig->pChannelMapOut != NULL) { + pHeapLayout->sizeInBytes += sizeof(ma_channel) * pConfig->channelsOut; + } + + /* Alignment for the next section. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + /* Whether or not we use weights of a shuffle table depends on the channel map themselves and the algorithm we've chosen. */ + conversionPath = ma_channel_converter_config_get_conversion_path(pConfig); + + /* Shuffle table */ + pHeapLayout->shuffleTableOffset = pHeapLayout->sizeInBytes; + if (conversionPath == ma_channel_conversion_path_shuffle) { + pHeapLayout->sizeInBytes += sizeof(ma_uint8) * pConfig->channelsOut; + } + + /* Weights */ + pHeapLayout->weightsOffset = pHeapLayout->sizeInBytes; + if (conversionPath == ma_channel_conversion_path_weights) { + pHeapLayout->sizeInBytes += sizeof(float*) * pConfig->channelsIn; + pHeapLayout->sizeInBytes += sizeof(float ) * pConfig->channelsIn * pConfig->channelsOut; + } + + /* Make sure allocation size is aligned. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + +MA_API ma_result ma_channel_converter_get_heap_size(const ma_channel_converter_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_channel_converter_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_channel_converter_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_channel_converter_init_preallocated(const ma_channel_converter_config* pConfig, void* pHeap, ma_channel_converter* pConverter) +{ + ma_result result; + ma_channel_converter_heap_layout heapLayout; + + if (pConverter == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pConverter); + + result = ma_channel_converter_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pConverter->_pHeap = pHeap; + MA_ZERO_MEMORY(pConverter->_pHeap, heapLayout.sizeInBytes); + + pConverter->format = pConfig->format; + pConverter->channelsIn = pConfig->channelsIn; + pConverter->channelsOut = pConfig->channelsOut; + pConverter->mixingMode = pConfig->mixingMode; + + if (pConfig->pChannelMapIn != NULL) { + pConverter->pChannelMapIn = (ma_channel*)ma_offset_ptr(pHeap, heapLayout.channelMapInOffset); + ma_channel_map_copy_or_default(pConverter->pChannelMapIn, pConfig->channelsIn, pConfig->pChannelMapIn, pConfig->channelsIn); + } else { + pConverter->pChannelMapIn = NULL; /* Use default channel map. */ + } + + if (pConfig->pChannelMapOut != NULL) { + pConverter->pChannelMapOut = (ma_channel*)ma_offset_ptr(pHeap, heapLayout.channelMapOutOffset); + ma_channel_map_copy_or_default(pConverter->pChannelMapOut, pConfig->channelsOut, pConfig->pChannelMapOut, pConfig->channelsOut); + } else { + pConverter->pChannelMapOut = NULL; /* Use default channel map. */ + } + + pConverter->conversionPath = ma_channel_converter_config_get_conversion_path(pConfig); + + if (pConverter->conversionPath == ma_channel_conversion_path_shuffle) { + pConverter->pShuffleTable = (ma_uint8*)ma_offset_ptr(pHeap, heapLayout.shuffleTableOffset); + ma_channel_map_build_shuffle_table(pConverter->pChannelMapIn, pConverter->channelsIn, pConverter->pChannelMapOut, pConverter->channelsOut, pConverter->pShuffleTable); + } + + if (pConverter->conversionPath == ma_channel_conversion_path_weights) { + ma_uint32 iChannelIn; + ma_uint32 iChannelOut; + + if (pConverter->format == ma_format_f32) { + pConverter->weights.f32 = (float** )ma_offset_ptr(pHeap, heapLayout.weightsOffset); + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; iChannelIn += 1) { + pConverter->weights.f32[iChannelIn] = (float*)ma_offset_ptr(pHeap, heapLayout.weightsOffset + ((sizeof(float*) * pConverter->channelsIn) + (sizeof(float) * pConverter->channelsOut * iChannelIn))); + } + } else { + pConverter->weights.s16 = (ma_int32**)ma_offset_ptr(pHeap, heapLayout.weightsOffset); + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; iChannelIn += 1) { + pConverter->weights.s16[iChannelIn] = (ma_int32*)ma_offset_ptr(pHeap, heapLayout.weightsOffset + ((sizeof(ma_int32*) * pConverter->channelsIn) + (sizeof(ma_int32) * pConverter->channelsOut * iChannelIn))); + } + } + + /* Silence our weights by default. */ + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; iChannelIn += 1) { + for (iChannelOut = 0; iChannelOut < pConverter->channelsOut; iChannelOut += 1) { + if (pConverter->format == ma_format_f32) { + pConverter->weights.f32[iChannelIn][iChannelOut] = 0.0f; + } else { + pConverter->weights.s16[iChannelIn][iChannelOut] = 0; + } + } + } + + /* + We now need to fill out our weights table. This is determined by the mixing mode. + */ + + /* In all cases we need to make sure all channels that are present in both channel maps have a 1:1 mapping. */ + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; ++iChannelIn) { + ma_channel channelPosIn = ma_channel_map_get_channel(pConverter->pChannelMapIn, pConverter->channelsIn, iChannelIn); + + for (iChannelOut = 0; iChannelOut < pConverter->channelsOut; ++iChannelOut) { + ma_channel channelPosOut = ma_channel_map_get_channel(pConverter->pChannelMapOut, pConverter->channelsOut, iChannelOut); + + if (channelPosIn == channelPosOut) { + float weight = 1; + + if (pConverter->format == ma_format_f32) { + pConverter->weights.f32[iChannelIn][iChannelOut] = weight; + } else { + pConverter->weights.s16[iChannelIn][iChannelOut] = ma_channel_converter_float_to_fixed(weight); + } + } + } + } + + switch (pConverter->mixingMode) + { + case ma_channel_mix_mode_custom_weights: + { + if (pConfig->ppWeights == NULL) { + return MA_INVALID_ARGS; /* Config specified a custom weights mixing mode, but no custom weights have been specified. */ + } + + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; iChannelIn += 1) { + for (iChannelOut = 0; iChannelOut < pConverter->channelsOut; iChannelOut += 1) { + float weight = pConfig->ppWeights[iChannelIn][iChannelOut]; + + if (pConverter->format == ma_format_f32) { + pConverter->weights.f32[iChannelIn][iChannelOut] = weight; + } else { + pConverter->weights.s16[iChannelIn][iChannelOut] = ma_channel_converter_float_to_fixed(weight); + } + } + } + } break; + + case ma_channel_mix_mode_simple: + { + /* + In simple mode, only set weights for channels that have exactly matching types, leave the rest at + zero. The 1:1 mappings have already been covered before this switch statement. + */ + } break; + + case ma_channel_mix_mode_rectangular: + default: + { + /* Unmapped input channels. */ + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; ++iChannelIn) { + ma_channel channelPosIn = ma_channel_map_get_channel(pConverter->pChannelMapIn, pConverter->channelsIn, iChannelIn); + + if (ma_is_spatial_channel_position(channelPosIn)) { + if (!ma_channel_map_contains_channel_position(pConverter->channelsOut, pConverter->pChannelMapOut, channelPosIn)) { + for (iChannelOut = 0; iChannelOut < pConverter->channelsOut; ++iChannelOut) { + ma_channel channelPosOut = ma_channel_map_get_channel(pConverter->pChannelMapOut, pConverter->channelsOut, iChannelOut); + + if (ma_is_spatial_channel_position(channelPosOut)) { + float weight = 0; + if (pConverter->mixingMode == ma_channel_mix_mode_rectangular) { + weight = ma_calculate_channel_position_rectangular_weight(channelPosIn, channelPosOut); + } + + /* Only apply the weight if we haven't already got some contribution from the respective channels. */ + if (pConverter->format == ma_format_f32) { + if (pConverter->weights.f32[iChannelIn][iChannelOut] == 0) { + pConverter->weights.f32[iChannelIn][iChannelOut] = weight; + } + } else { + if (pConverter->weights.s16[iChannelIn][iChannelOut] == 0) { + pConverter->weights.s16[iChannelIn][iChannelOut] = ma_channel_converter_float_to_fixed(weight); + } + } + } + } + } + } + } + + /* Unmapped output channels. */ + for (iChannelOut = 0; iChannelOut < pConverter->channelsOut; ++iChannelOut) { + ma_channel channelPosOut = ma_channel_map_get_channel(pConverter->pChannelMapOut, pConverter->channelsOut, iChannelOut); + + if (ma_is_spatial_channel_position(channelPosOut)) { + if (!ma_channel_map_contains_channel_position(pConverter->channelsIn, pConverter->pChannelMapIn, channelPosOut)) { + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; ++iChannelIn) { + ma_channel channelPosIn = ma_channel_map_get_channel(pConverter->pChannelMapIn, pConverter->channelsIn, iChannelIn); + + if (ma_is_spatial_channel_position(channelPosIn)) { + float weight = 0; + if (pConverter->mixingMode == ma_channel_mix_mode_rectangular) { + weight = ma_calculate_channel_position_rectangular_weight(channelPosIn, channelPosOut); + } + + /* Only apply the weight if we haven't already got some contribution from the respective channels. */ + if (pConverter->format == ma_format_f32) { + if (pConverter->weights.f32[iChannelIn][iChannelOut] == 0) { + pConverter->weights.f32[iChannelIn][iChannelOut] = weight; + } + } else { + if (pConverter->weights.s16[iChannelIn][iChannelOut] == 0) { + pConverter->weights.s16[iChannelIn][iChannelOut] = ma_channel_converter_float_to_fixed(weight); + } + } + } + } + } + } + } + + /* If LFE is in the output channel map but was not present in the input channel map, configure its weight now */ + if (pConfig->calculateLFEFromSpatialChannels) { + if (!ma_channel_map_contains_channel_position(pConverter->channelsIn, pConverter->pChannelMapIn, MA_CHANNEL_LFE)) { + ma_uint32 spatialChannelCount = ma_channel_map_get_spatial_channel_count(pConverter->pChannelMapIn, pConverter->channelsIn); + ma_uint32 iChannelOutLFE; + + if (spatialChannelCount > 0 && ma_channel_map_find_channel_position(pConverter->channelsOut, pConverter->pChannelMapOut, MA_CHANNEL_LFE, &iChannelOutLFE)) { + const float weightForLFE = 1.0f / spatialChannelCount; + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; ++iChannelIn) { + const ma_channel channelPosIn = ma_channel_map_get_channel(pConverter->pChannelMapIn, pConverter->channelsIn, iChannelIn); + if (ma_is_spatial_channel_position(channelPosIn)) { + if (pConverter->format == ma_format_f32) { + if (pConverter->weights.f32[iChannelIn][iChannelOutLFE] == 0) { + pConverter->weights.f32[iChannelIn][iChannelOutLFE] = weightForLFE; + } + } else { + if (pConverter->weights.s16[iChannelIn][iChannelOutLFE] == 0) { + pConverter->weights.s16[iChannelIn][iChannelOutLFE] = ma_channel_converter_float_to_fixed(weightForLFE); + } + } + } + } + } + } + } + } break; + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_channel_converter_init(const ma_channel_converter_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_channel_converter* pConverter) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_channel_converter_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_channel_converter_init_preallocated(pConfig, pHeap, pConverter); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pConverter->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_channel_converter_uninit(ma_channel_converter* pConverter, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pConverter == NULL) { + return; + } + + if (pConverter->_ownsHeap) { + ma_free(pConverter->_pHeap, pAllocationCallbacks); + } +} + +static ma_result ma_channel_converter_process_pcm_frames__passthrough(ma_channel_converter* pConverter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + MA_ASSERT(pConverter != NULL); + MA_ASSERT(pFramesOut != NULL); + MA_ASSERT(pFramesIn != NULL); + + ma_copy_memory_64(pFramesOut, pFramesIn, frameCount * ma_get_bytes_per_frame(pConverter->format, pConverter->channelsOut)); + return MA_SUCCESS; +} + +static ma_result ma_channel_converter_process_pcm_frames__shuffle(ma_channel_converter* pConverter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + MA_ASSERT(pConverter != NULL); + MA_ASSERT(pFramesOut != NULL); + MA_ASSERT(pFramesIn != NULL); + MA_ASSERT(pConverter->channelsIn == pConverter->channelsOut); + + return ma_channel_map_apply_shuffle_table(pFramesOut, pConverter->channelsOut, pFramesIn, pConverter->channelsIn, frameCount, pConverter->pShuffleTable, pConverter->format); +} + +static ma_result ma_channel_converter_process_pcm_frames__mono_in(ma_channel_converter* pConverter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + ma_uint64 iFrame; + + MA_ASSERT(pConverter != NULL); + MA_ASSERT(pFramesOut != NULL); + MA_ASSERT(pFramesIn != NULL); + MA_ASSERT(pConverter->channelsIn == 1); + + switch (pConverter->format) + { + case ma_format_u8: + { + /* */ ma_uint8* pFramesOutU8 = ( ma_uint8*)pFramesOut; + const ma_uint8* pFramesInU8 = (const ma_uint8*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < pConverter->channelsOut; iChannel += 1) { + pFramesOutU8[iFrame*pConverter->channelsOut + iChannel] = pFramesInU8[iFrame]; + } + } + } break; + + case ma_format_s16: + { + /* */ ma_int16* pFramesOutS16 = ( ma_int16*)pFramesOut; + const ma_int16* pFramesInS16 = (const ma_int16*)pFramesIn; + + if (pConverter->channelsOut == 2) { + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + pFramesOutS16[iFrame*2 + 0] = pFramesInS16[iFrame]; + pFramesOutS16[iFrame*2 + 1] = pFramesInS16[iFrame]; + } + } else { + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < pConverter->channelsOut; iChannel += 1) { + pFramesOutS16[iFrame*pConverter->channelsOut + iChannel] = pFramesInS16[iFrame]; + } + } + } + } break; + + case ma_format_s24: + { + /* */ ma_uint8* pFramesOutS24 = ( ma_uint8*)pFramesOut; + const ma_uint8* pFramesInS24 = (const ma_uint8*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < pConverter->channelsOut; iChannel += 1) { + ma_uint64 iSampleOut = iFrame*pConverter->channelsOut + iChannel; + ma_uint64 iSampleIn = iFrame; + pFramesOutS24[iSampleOut*3 + 0] = pFramesInS24[iSampleIn*3 + 0]; + pFramesOutS24[iSampleOut*3 + 1] = pFramesInS24[iSampleIn*3 + 1]; + pFramesOutS24[iSampleOut*3 + 2] = pFramesInS24[iSampleIn*3 + 2]; + } + } + } break; + + case ma_format_s32: + { + /* */ ma_int32* pFramesOutS32 = ( ma_int32*)pFramesOut; + const ma_int32* pFramesInS32 = (const ma_int32*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < pConverter->channelsOut; iChannel += 1) { + pFramesOutS32[iFrame*pConverter->channelsOut + iChannel] = pFramesInS32[iFrame]; + } + } + } break; + + case ma_format_f32: + { + /* */ float* pFramesOutF32 = ( float*)pFramesOut; + const float* pFramesInF32 = (const float*)pFramesIn; + + if (pConverter->channelsOut == 2) { + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + pFramesOutF32[iFrame*2 + 0] = pFramesInF32[iFrame]; + pFramesOutF32[iFrame*2 + 1] = pFramesInF32[iFrame]; + } + } else { + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < pConverter->channelsOut; iChannel += 1) { + pFramesOutF32[iFrame*pConverter->channelsOut + iChannel] = pFramesInF32[iFrame]; + } + } + } + } break; + + default: return MA_INVALID_OPERATION; /* Unknown format. */ + } + + return MA_SUCCESS; +} + +static ma_result ma_channel_converter_process_pcm_frames__mono_out(ma_channel_converter* pConverter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + ma_uint64 iFrame; + ma_uint32 iChannel; + + MA_ASSERT(pConverter != NULL); + MA_ASSERT(pFramesOut != NULL); + MA_ASSERT(pFramesIn != NULL); + MA_ASSERT(pConverter->channelsOut == 1); + + switch (pConverter->format) + { + case ma_format_u8: + { + /* */ ma_uint8* pFramesOutU8 = ( ma_uint8*)pFramesOut; + const ma_uint8* pFramesInU8 = (const ma_uint8*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + ma_int32 t = 0; + for (iChannel = 0; iChannel < pConverter->channelsIn; iChannel += 1) { + t += ma_pcm_sample_u8_to_s16_no_scale(pFramesInU8[iFrame*pConverter->channelsIn + iChannel]); + } + + pFramesOutU8[iFrame] = ma_clip_u8(t / pConverter->channelsOut); + } + } break; + + case ma_format_s16: + { + /* */ ma_int16* pFramesOutS16 = ( ma_int16*)pFramesOut; + const ma_int16* pFramesInS16 = (const ma_int16*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + ma_int32 t = 0; + for (iChannel = 0; iChannel < pConverter->channelsIn; iChannel += 1) { + t += pFramesInS16[iFrame*pConverter->channelsIn + iChannel]; + } + + pFramesOutS16[iFrame] = (ma_int16)(t / pConverter->channelsIn); + } + } break; + + case ma_format_s24: + { + /* */ ma_uint8* pFramesOutS24 = ( ma_uint8*)pFramesOut; + const ma_uint8* pFramesInS24 = (const ma_uint8*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + ma_int64 t = 0; + for (iChannel = 0; iChannel < pConverter->channelsIn; iChannel += 1) { + t += ma_pcm_sample_s24_to_s32_no_scale(&pFramesInS24[(iFrame*pConverter->channelsIn + iChannel)*3]); + } + + ma_pcm_sample_s32_to_s24_no_scale(t / pConverter->channelsIn, &pFramesOutS24[iFrame*3]); + } + } break; + + case ma_format_s32: + { + /* */ ma_int32* pFramesOutS32 = ( ma_int32*)pFramesOut; + const ma_int32* pFramesInS32 = (const ma_int32*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + ma_int64 t = 0; + for (iChannel = 0; iChannel < pConverter->channelsIn; iChannel += 1) { + t += pFramesInS32[iFrame*pConverter->channelsIn + iChannel]; + } + + pFramesOutS32[iFrame] = (ma_int32)(t / pConverter->channelsIn); + } + } break; + + case ma_format_f32: + { + /* */ float* pFramesOutF32 = ( float*)pFramesOut; + const float* pFramesInF32 = (const float*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; ++iFrame) { + float t = 0; + for (iChannel = 0; iChannel < pConverter->channelsIn; iChannel += 1) { + t += pFramesInF32[iFrame*pConverter->channelsIn + iChannel]; + } + + pFramesOutF32[iFrame] = t / pConverter->channelsIn; + } + } break; + + default: return MA_INVALID_OPERATION; /* Unknown format. */ + } + + return MA_SUCCESS; +} + +static ma_result ma_channel_converter_process_pcm_frames__weights(ma_channel_converter* pConverter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + ma_uint32 iFrame; + ma_uint32 iChannelIn; + ma_uint32 iChannelOut; + + MA_ASSERT(pConverter != NULL); + MA_ASSERT(pFramesOut != NULL); + MA_ASSERT(pFramesIn != NULL); + + /* This is the more complicated case. Each of the output channels is accumulated with 0 or more input channels. */ + + /* Clear. */ + ma_zero_memory_64(pFramesOut, frameCount * ma_get_bytes_per_frame(pConverter->format, pConverter->channelsOut)); + + /* Accumulate. */ + switch (pConverter->format) + { + case ma_format_u8: + { + /* */ ma_uint8* pFramesOutU8 = ( ma_uint8*)pFramesOut; + const ma_uint8* pFramesInU8 = (const ma_uint8*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; ++iChannelIn) { + for (iChannelOut = 0; iChannelOut < pConverter->channelsOut; ++iChannelOut) { + ma_int16 u8_O = ma_pcm_sample_u8_to_s16_no_scale(pFramesOutU8[iFrame*pConverter->channelsOut + iChannelOut]); + ma_int16 u8_I = ma_pcm_sample_u8_to_s16_no_scale(pFramesInU8 [iFrame*pConverter->channelsIn + iChannelIn ]); + ma_int32 s = (ma_int32)ma_clamp(u8_O + ((u8_I * pConverter->weights.s16[iChannelIn][iChannelOut]) >> MA_CHANNEL_CONVERTER_FIXED_POINT_SHIFT), -128, 127); + pFramesOutU8[iFrame*pConverter->channelsOut + iChannelOut] = ma_clip_u8((ma_int16)s); + } + } + } + } break; + + case ma_format_s16: + { + /* */ ma_int16* pFramesOutS16 = ( ma_int16*)pFramesOut; + const ma_int16* pFramesInS16 = (const ma_int16*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; ++iChannelIn) { + for (iChannelOut = 0; iChannelOut < pConverter->channelsOut; ++iChannelOut) { + ma_int32 s = pFramesOutS16[iFrame*pConverter->channelsOut + iChannelOut]; + s += (pFramesInS16[iFrame*pConverter->channelsIn + iChannelIn] * pConverter->weights.s16[iChannelIn][iChannelOut]) >> MA_CHANNEL_CONVERTER_FIXED_POINT_SHIFT; + + pFramesOutS16[iFrame*pConverter->channelsOut + iChannelOut] = (ma_int16)ma_clamp(s, -32768, 32767); + } + } + } + } break; + + case ma_format_s24: + { + /* */ ma_uint8* pFramesOutS24 = ( ma_uint8*)pFramesOut; + const ma_uint8* pFramesInS24 = (const ma_uint8*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; ++iChannelIn) { + for (iChannelOut = 0; iChannelOut < pConverter->channelsOut; ++iChannelOut) { + ma_int64 s24_O = ma_pcm_sample_s24_to_s32_no_scale(&pFramesOutS24[(iFrame*pConverter->channelsOut + iChannelOut)*3]); + ma_int64 s24_I = ma_pcm_sample_s24_to_s32_no_scale(&pFramesInS24 [(iFrame*pConverter->channelsIn + iChannelIn )*3]); + ma_int64 s24 = (ma_int32)ma_clamp(s24_O + ((s24_I * pConverter->weights.s16[iChannelIn][iChannelOut]) >> MA_CHANNEL_CONVERTER_FIXED_POINT_SHIFT), -8388608, 8388607); + ma_pcm_sample_s32_to_s24_no_scale(s24, &pFramesOutS24[(iFrame*pConverter->channelsOut + iChannelOut)*3]); + } + } + } + } break; + + case ma_format_s32: + { + /* */ ma_int32* pFramesOutS32 = ( ma_int32*)pFramesOut; + const ma_int32* pFramesInS32 = (const ma_int32*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; ++iChannelIn) { + for (iChannelOut = 0; iChannelOut < pConverter->channelsOut; ++iChannelOut) { + ma_int64 s = pFramesOutS32[iFrame*pConverter->channelsOut + iChannelOut]; + s += ((ma_int64)pFramesInS32[iFrame*pConverter->channelsIn + iChannelIn] * pConverter->weights.s16[iChannelIn][iChannelOut]) >> MA_CHANNEL_CONVERTER_FIXED_POINT_SHIFT; + + pFramesOutS32[iFrame*pConverter->channelsOut + iChannelOut] = ma_clip_s32(s); + } + } + } + } break; + + case ma_format_f32: + { + /* */ float* pFramesOutF32 = ( float*)pFramesOut; + const float* pFramesInF32 = (const float*)pFramesIn; + + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannelIn = 0; iChannelIn < pConverter->channelsIn; ++iChannelIn) { + for (iChannelOut = 0; iChannelOut < pConverter->channelsOut; ++iChannelOut) { + pFramesOutF32[iFrame*pConverter->channelsOut + iChannelOut] += pFramesInF32[iFrame*pConverter->channelsIn + iChannelIn] * pConverter->weights.f32[iChannelIn][iChannelOut]; + } + } + } + } break; + + default: return MA_INVALID_OPERATION; /* Unknown format. */ + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_channel_converter_process_pcm_frames(ma_channel_converter* pConverter, void* pFramesOut, const void* pFramesIn, ma_uint64 frameCount) +{ + if (pConverter == NULL) { + return MA_INVALID_ARGS; + } + + if (pFramesOut == NULL) { + return MA_INVALID_ARGS; + } + + if (pFramesIn == NULL) { + ma_zero_memory_64(pFramesOut, frameCount * ma_get_bytes_per_frame(pConverter->format, pConverter->channelsOut)); + return MA_SUCCESS; + } + + switch (pConverter->conversionPath) + { + case ma_channel_conversion_path_passthrough: return ma_channel_converter_process_pcm_frames__passthrough(pConverter, pFramesOut, pFramesIn, frameCount); + case ma_channel_conversion_path_mono_out: return ma_channel_converter_process_pcm_frames__mono_out(pConverter, pFramesOut, pFramesIn, frameCount); + case ma_channel_conversion_path_mono_in: return ma_channel_converter_process_pcm_frames__mono_in(pConverter, pFramesOut, pFramesIn, frameCount); + case ma_channel_conversion_path_shuffle: return ma_channel_converter_process_pcm_frames__shuffle(pConverter, pFramesOut, pFramesIn, frameCount); + case ma_channel_conversion_path_weights: + default: + { + return ma_channel_converter_process_pcm_frames__weights(pConverter, pFramesOut, pFramesIn, frameCount); + } + } +} + +MA_API ma_result ma_channel_converter_get_input_channel_map(const ma_channel_converter* pConverter, ma_channel* pChannelMap, size_t channelMapCap) +{ + if (pConverter == NULL || pChannelMap == NULL) { + return MA_INVALID_ARGS; + } + + ma_channel_map_copy_or_default(pChannelMap, channelMapCap, pConverter->pChannelMapIn, pConverter->channelsIn); + + return MA_SUCCESS; +} + +MA_API ma_result ma_channel_converter_get_output_channel_map(const ma_channel_converter* pConverter, ma_channel* pChannelMap, size_t channelMapCap) +{ + if (pConverter == NULL || pChannelMap == NULL) { + return MA_INVALID_ARGS; + } + + ma_channel_map_copy_or_default(pChannelMap, channelMapCap, pConverter->pChannelMapOut, pConverter->channelsOut); + + return MA_SUCCESS; +} + + +/************************************************************************************************************************************************************** + +Data Conversion + +**************************************************************************************************************************************************************/ +MA_API ma_data_converter_config ma_data_converter_config_init_default(void) +{ + ma_data_converter_config config; + MA_ZERO_OBJECT(&config); + + config.ditherMode = ma_dither_mode_none; + config.resampling.algorithm = ma_resample_algorithm_linear; + config.allowDynamicSampleRate = MA_FALSE; /* Disable dynamic sample rates by default because dynamic rate adjustments should be quite rare and it allows an optimization for cases when the in and out sample rates are the same. */ + + /* Linear resampling defaults. */ + config.resampling.linear.lpfOrder = 1; + + return config; +} + +MA_API ma_data_converter_config ma_data_converter_config_init(ma_format formatIn, ma_format formatOut, ma_uint32 channelsIn, ma_uint32 channelsOut, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut) +{ + ma_data_converter_config config = ma_data_converter_config_init_default(); + config.formatIn = formatIn; + config.formatOut = formatOut; + config.channelsIn = channelsIn; + config.channelsOut = channelsOut; + config.sampleRateIn = sampleRateIn; + config.sampleRateOut = sampleRateOut; + + return config; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t channelConverterOffset; + size_t resamplerOffset; +} ma_data_converter_heap_layout; + +static ma_bool32 ma_data_converter_config_is_resampler_required(const ma_data_converter_config* pConfig) +{ + MA_ASSERT(pConfig != NULL); + + return pConfig->allowDynamicSampleRate || pConfig->sampleRateIn != pConfig->sampleRateOut; +} + +static ma_format ma_data_converter_config_get_mid_format(const ma_data_converter_config* pConfig) +{ + MA_ASSERT(pConfig != NULL); + + /* + We want to avoid as much data conversion as possible. The channel converter and linear + resampler both support s16 and f32 natively. We need to decide on the format to use for this + stage. We call this the mid format because it's used in the middle stage of the conversion + pipeline. If the output format is either s16 or f32 we use that one. If that is not the case it + will do the same thing for the input format. If it's neither we just use f32. If we are using a + custom resampling backend, we can only guarantee that f32 will be supported so we'll be forced + to use that if resampling is required. + */ + if (ma_data_converter_config_is_resampler_required(pConfig) && pConfig->resampling.algorithm != ma_resample_algorithm_linear) { + return ma_format_f32; /* <-- Force f32 since that is the only one we can guarantee will be supported by the resampler. */ + } else { + /* */ if (pConfig->formatOut == ma_format_s16 || pConfig->formatOut == ma_format_f32) { + return pConfig->formatOut; + } else if (pConfig->formatIn == ma_format_s16 || pConfig->formatIn == ma_format_f32) { + return pConfig->formatIn; + } else { + return ma_format_f32; + } + } +} + +static ma_channel_converter_config ma_channel_converter_config_init_from_data_converter_config(const ma_data_converter_config* pConfig) +{ + ma_channel_converter_config channelConverterConfig; + + MA_ASSERT(pConfig != NULL); + + channelConverterConfig = ma_channel_converter_config_init(ma_data_converter_config_get_mid_format(pConfig), pConfig->channelsIn, pConfig->pChannelMapIn, pConfig->channelsOut, pConfig->pChannelMapOut, pConfig->channelMixMode); + channelConverterConfig.ppWeights = pConfig->ppChannelWeights; + channelConverterConfig.calculateLFEFromSpatialChannels = pConfig->calculateLFEFromSpatialChannels; + + return channelConverterConfig; +} + +static ma_resampler_config ma_resampler_config_init_from_data_converter_config(const ma_data_converter_config* pConfig) +{ + ma_resampler_config resamplerConfig; + ma_uint32 resamplerChannels; + + MA_ASSERT(pConfig != NULL); + + /* The resampler is the most expensive part of the conversion process, so we need to do it at the stage where the channel count is at it's lowest. */ + if (pConfig->channelsIn < pConfig->channelsOut) { + resamplerChannels = pConfig->channelsIn; + } else { + resamplerChannels = pConfig->channelsOut; + } + + resamplerConfig = ma_resampler_config_init(ma_data_converter_config_get_mid_format(pConfig), resamplerChannels, pConfig->sampleRateIn, pConfig->sampleRateOut, pConfig->resampling.algorithm); + resamplerConfig.linear = pConfig->resampling.linear; + resamplerConfig.pBackendVTable = pConfig->resampling.pBackendVTable; + resamplerConfig.pBackendUserData = pConfig->resampling.pBackendUserData; + + return resamplerConfig; +} + +static ma_result ma_data_converter_get_heap_layout(const ma_data_converter_config* pConfig, ma_data_converter_heap_layout* pHeapLayout) +{ + ma_result result; + + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->channelsIn == 0 || pConfig->channelsOut == 0) { + return MA_INVALID_ARGS; + } + + pHeapLayout->sizeInBytes = 0; + + /* Channel converter. */ + pHeapLayout->channelConverterOffset = pHeapLayout->sizeInBytes; + { + size_t heapSizeInBytes; + ma_channel_converter_config channelConverterConfig = ma_channel_converter_config_init_from_data_converter_config(pConfig); + + result = ma_channel_converter_get_heap_size(&channelConverterConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->sizeInBytes += heapSizeInBytes; + } + + /* Resampler. */ + pHeapLayout->resamplerOffset = pHeapLayout->sizeInBytes; + if (ma_data_converter_config_is_resampler_required(pConfig)) { + size_t heapSizeInBytes; + ma_resampler_config resamplerConfig = ma_resampler_config_init_from_data_converter_config(pConfig); + + result = ma_resampler_get_heap_size(&resamplerConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->sizeInBytes += heapSizeInBytes; + } + + /* Make sure allocation size is aligned. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + +MA_API ma_result ma_data_converter_get_heap_size(const ma_data_converter_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_data_converter_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_data_converter_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_data_converter_init_preallocated(const ma_data_converter_config* pConfig, void* pHeap, ma_data_converter* pConverter) +{ + ma_result result; + ma_data_converter_heap_layout heapLayout; + ma_format midFormat; + ma_bool32 isResamplingRequired; + + if (pConverter == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pConverter); + + result = ma_data_converter_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pConverter->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pConverter->formatIn = pConfig->formatIn; + pConverter->formatOut = pConfig->formatOut; + pConverter->channelsIn = pConfig->channelsIn; + pConverter->channelsOut = pConfig->channelsOut; + pConverter->sampleRateIn = pConfig->sampleRateIn; + pConverter->sampleRateOut = pConfig->sampleRateOut; + pConverter->ditherMode = pConfig->ditherMode; + + /* + Determine if resampling is required. We need to do this so we can determine an appropriate + mid format to use. If resampling is required, the mid format must be ma_format_f32 since + that is the only one that is guaranteed to supported by custom resampling backends. + */ + isResamplingRequired = ma_data_converter_config_is_resampler_required(pConfig); + midFormat = ma_data_converter_config_get_mid_format(pConfig); + + + /* Channel converter. We always initialize this, but we check if it configures itself as a passthrough to determine whether or not it's needed. */ + { + ma_channel_converter_config channelConverterConfig = ma_channel_converter_config_init_from_data_converter_config(pConfig); + + result = ma_channel_converter_init_preallocated(&channelConverterConfig, ma_offset_ptr(pHeap, heapLayout.channelConverterOffset), &pConverter->channelConverter); + if (result != MA_SUCCESS) { + return result; + } + + /* If the channel converter is not a passthrough we need to enable it. Otherwise we can skip it. */ + if (pConverter->channelConverter.conversionPath != ma_channel_conversion_path_passthrough) { + pConverter->hasChannelConverter = MA_TRUE; + } + } + + + /* Resampler. */ + if (isResamplingRequired) { + ma_resampler_config resamplerConfig = ma_resampler_config_init_from_data_converter_config(pConfig); + + result = ma_resampler_init_preallocated(&resamplerConfig, ma_offset_ptr(pHeap, heapLayout.resamplerOffset), &pConverter->resampler); + if (result != MA_SUCCESS) { + return result; + } + + pConverter->hasResampler = MA_TRUE; + } + + + /* We can simplify pre- and post-format conversion if we have neither channel conversion nor resampling. */ + if (pConverter->hasChannelConverter == MA_FALSE && pConverter->hasResampler == MA_FALSE) { + /* We have neither channel conversion nor resampling so we'll only need one of pre- or post-format conversion, or none if the input and output formats are the same. */ + if (pConverter->formatIn == pConverter->formatOut) { + /* The formats are the same so we can just pass through. */ + pConverter->hasPreFormatConversion = MA_FALSE; + pConverter->hasPostFormatConversion = MA_FALSE; + } else { + /* The formats are different so we need to do either pre- or post-format conversion. It doesn't matter which. */ + pConverter->hasPreFormatConversion = MA_FALSE; + pConverter->hasPostFormatConversion = MA_TRUE; + } + } else { + /* We have a channel converter and/or resampler so we'll need channel conversion based on the mid format. */ + if (pConverter->formatIn != midFormat) { + pConverter->hasPreFormatConversion = MA_TRUE; + } + if (pConverter->formatOut != midFormat) { + pConverter->hasPostFormatConversion = MA_TRUE; + } + } + + /* We can enable passthrough optimizations if applicable. Note that we'll only be able to do this if the sample rate is static. */ + if (pConverter->hasPreFormatConversion == MA_FALSE && + pConverter->hasPostFormatConversion == MA_FALSE && + pConverter->hasChannelConverter == MA_FALSE && + pConverter->hasResampler == MA_FALSE) { + pConverter->isPassthrough = MA_TRUE; + } + + + /* We now need to determine our execution path. */ + if (pConverter->isPassthrough) { + pConverter->executionPath = ma_data_converter_execution_path_passthrough; + } else { + if (pConverter->channelsIn < pConverter->channelsOut) { + /* Do resampling first, if necessary. */ + MA_ASSERT(pConverter->hasChannelConverter == MA_TRUE); + + if (pConverter->hasResampler) { + pConverter->executionPath = ma_data_converter_execution_path_resample_first; + } else { + pConverter->executionPath = ma_data_converter_execution_path_channels_only; + } + } else { + /* Do channel conversion first, if necessary. */ + if (pConverter->hasChannelConverter) { + if (pConverter->hasResampler) { + pConverter->executionPath = ma_data_converter_execution_path_channels_first; + } else { + pConverter->executionPath = ma_data_converter_execution_path_channels_only; + } + } else { + /* Channel routing not required. */ + if (pConverter->hasResampler) { + pConverter->executionPath = ma_data_converter_execution_path_resample_only; + } else { + pConverter->executionPath = ma_data_converter_execution_path_format_only; + } + } + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_data_converter_init(const ma_data_converter_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_converter* pConverter) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_data_converter_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_data_converter_init_preallocated(pConfig, pHeap, pConverter); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pConverter->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_data_converter_uninit(ma_data_converter* pConverter, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pConverter == NULL) { + return; + } + + if (pConverter->hasResampler) { + ma_resampler_uninit(&pConverter->resampler, pAllocationCallbacks); + } + + ma_channel_converter_uninit(&pConverter->channelConverter, pAllocationCallbacks); + + if (pConverter->_ownsHeap) { + ma_free(pConverter->_pHeap, pAllocationCallbacks); + } +} + +static ma_result ma_data_converter_process_pcm_frames__passthrough(ma_data_converter* pConverter, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + ma_uint64 frameCountIn; + ma_uint64 frameCountOut; + ma_uint64 frameCount; + + MA_ASSERT(pConverter != NULL); + + frameCountIn = 0; + if (pFrameCountIn != NULL) { + frameCountIn = *pFrameCountIn; + } + + frameCountOut = 0; + if (pFrameCountOut != NULL) { + frameCountOut = *pFrameCountOut; + } + + frameCount = ma_min(frameCountIn, frameCountOut); + + if (pFramesOut != NULL) { + if (pFramesIn != NULL) { + ma_copy_memory_64(pFramesOut, pFramesIn, frameCount * ma_get_bytes_per_frame(pConverter->formatOut, pConverter->channelsOut)); + } else { + ma_zero_memory_64(pFramesOut, frameCount * ma_get_bytes_per_frame(pConverter->formatOut, pConverter->channelsOut)); + } + } + + if (pFrameCountIn != NULL) { + *pFrameCountIn = frameCount; + } + if (pFrameCountOut != NULL) { + *pFrameCountOut = frameCount; + } + + return MA_SUCCESS; +} + +static ma_result ma_data_converter_process_pcm_frames__format_only(ma_data_converter* pConverter, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + ma_uint64 frameCountIn; + ma_uint64 frameCountOut; + ma_uint64 frameCount; + + MA_ASSERT(pConverter != NULL); + + frameCountIn = 0; + if (pFrameCountIn != NULL) { + frameCountIn = *pFrameCountIn; + } + + frameCountOut = 0; + if (pFrameCountOut != NULL) { + frameCountOut = *pFrameCountOut; + } + + frameCount = ma_min(frameCountIn, frameCountOut); + + if (pFramesOut != NULL) { + if (pFramesIn != NULL) { + ma_convert_pcm_frames_format(pFramesOut, pConverter->formatOut, pFramesIn, pConverter->formatIn, frameCount, pConverter->channelsIn, pConverter->ditherMode); + } else { + ma_zero_memory_64(pFramesOut, frameCount * ma_get_bytes_per_frame(pConverter->formatOut, pConverter->channelsOut)); + } + } + + if (pFrameCountIn != NULL) { + *pFrameCountIn = frameCount; + } + if (pFrameCountOut != NULL) { + *pFrameCountOut = frameCount; + } + + return MA_SUCCESS; +} + + +static ma_result ma_data_converter_process_pcm_frames__resample_with_format_conversion(ma_data_converter* pConverter, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + ma_result result = MA_SUCCESS; + ma_uint64 frameCountIn; + ma_uint64 frameCountOut; + ma_uint64 framesProcessedIn; + ma_uint64 framesProcessedOut; + + MA_ASSERT(pConverter != NULL); + + frameCountIn = 0; + if (pFrameCountIn != NULL) { + frameCountIn = *pFrameCountIn; + } + + frameCountOut = 0; + if (pFrameCountOut != NULL) { + frameCountOut = *pFrameCountOut; + } + + framesProcessedIn = 0; + framesProcessedOut = 0; + + while (framesProcessedOut < frameCountOut) { + ma_uint8 pTempBufferOut[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + const ma_uint32 tempBufferOutCap = sizeof(pTempBufferOut) / ma_get_bytes_per_frame(pConverter->resampler.format, pConverter->resampler.channels); + const void* pFramesInThisIteration; + /* */ void* pFramesOutThisIteration; + ma_uint64 frameCountInThisIteration; + ma_uint64 frameCountOutThisIteration; + + if (pFramesIn != NULL) { + pFramesInThisIteration = ma_offset_ptr(pFramesIn, framesProcessedIn * ma_get_bytes_per_frame(pConverter->formatIn, pConverter->channelsIn)); + } else { + pFramesInThisIteration = NULL; + } + + if (pFramesOut != NULL) { + pFramesOutThisIteration = ma_offset_ptr(pFramesOut, framesProcessedOut * ma_get_bytes_per_frame(pConverter->formatOut, pConverter->channelsOut)); + } else { + pFramesOutThisIteration = NULL; + } + + /* Do a pre format conversion if necessary. */ + if (pConverter->hasPreFormatConversion) { + ma_uint8 pTempBufferIn[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + const ma_uint32 tempBufferInCap = sizeof(pTempBufferIn) / ma_get_bytes_per_frame(pConverter->resampler.format, pConverter->resampler.channels); + + frameCountInThisIteration = (frameCountIn - framesProcessedIn); + if (frameCountInThisIteration > tempBufferInCap) { + frameCountInThisIteration = tempBufferInCap; + } + + if (pConverter->hasPostFormatConversion) { + if (frameCountInThisIteration > tempBufferOutCap) { + frameCountInThisIteration = tempBufferOutCap; + } + } + + if (pFramesInThisIteration != NULL) { + ma_convert_pcm_frames_format(pTempBufferIn, pConverter->resampler.format, pFramesInThisIteration, pConverter->formatIn, frameCountInThisIteration, pConverter->channelsIn, pConverter->ditherMode); + } else { + MA_ZERO_MEMORY(pTempBufferIn, sizeof(pTempBufferIn)); + } + + frameCountOutThisIteration = (frameCountOut - framesProcessedOut); + + if (pConverter->hasPostFormatConversion) { + /* Both input and output conversion required. Output to the temp buffer. */ + if (frameCountOutThisIteration > tempBufferOutCap) { + frameCountOutThisIteration = tempBufferOutCap; + } + + result = ma_resampler_process_pcm_frames(&pConverter->resampler, pTempBufferIn, &frameCountInThisIteration, pTempBufferOut, &frameCountOutThisIteration); + } else { + /* Only pre-format required. Output straight to the output buffer. */ + result = ma_resampler_process_pcm_frames(&pConverter->resampler, pTempBufferIn, &frameCountInThisIteration, pFramesOutThisIteration, &frameCountOutThisIteration); + } + + if (result != MA_SUCCESS) { + break; + } + } else { + /* No pre-format required. Just read straight from the input buffer. */ + MA_ASSERT(pConverter->hasPostFormatConversion == MA_TRUE); + + frameCountInThisIteration = (frameCountIn - framesProcessedIn); + frameCountOutThisIteration = (frameCountOut - framesProcessedOut); + if (frameCountOutThisIteration > tempBufferOutCap) { + frameCountOutThisIteration = tempBufferOutCap; + } + + result = ma_resampler_process_pcm_frames(&pConverter->resampler, pFramesInThisIteration, &frameCountInThisIteration, pTempBufferOut, &frameCountOutThisIteration); + if (result != MA_SUCCESS) { + break; + } + } + + /* If we are doing a post format conversion we need to do that now. */ + if (pConverter->hasPostFormatConversion) { + if (pFramesOutThisIteration != NULL) { + ma_convert_pcm_frames_format(pFramesOutThisIteration, pConverter->formatOut, pTempBufferOut, pConverter->resampler.format, frameCountOutThisIteration, pConverter->resampler.channels, pConverter->ditherMode); + } + } + + framesProcessedIn += frameCountInThisIteration; + framesProcessedOut += frameCountOutThisIteration; + + MA_ASSERT(framesProcessedIn <= frameCountIn); + MA_ASSERT(framesProcessedOut <= frameCountOut); + + if (frameCountOutThisIteration == 0) { + break; /* Consumed all of our input data. */ + } + } + + if (pFrameCountIn != NULL) { + *pFrameCountIn = framesProcessedIn; + } + if (pFrameCountOut != NULL) { + *pFrameCountOut = framesProcessedOut; + } + + return result; +} + +static ma_result ma_data_converter_process_pcm_frames__resample_only(ma_data_converter* pConverter, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + MA_ASSERT(pConverter != NULL); + + if (pConverter->hasPreFormatConversion == MA_FALSE && pConverter->hasPostFormatConversion == MA_FALSE) { + /* Neither pre- nor post-format required. This is simple case where only resampling is required. */ + return ma_resampler_process_pcm_frames(&pConverter->resampler, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + } else { + /* Format conversion required. */ + return ma_data_converter_process_pcm_frames__resample_with_format_conversion(pConverter, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + } +} + +static ma_result ma_data_converter_process_pcm_frames__channels_only(ma_data_converter* pConverter, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + ma_result result; + ma_uint64 frameCountIn; + ma_uint64 frameCountOut; + ma_uint64 frameCount; + + MA_ASSERT(pConverter != NULL); + + frameCountIn = 0; + if (pFrameCountIn != NULL) { + frameCountIn = *pFrameCountIn; + } + + frameCountOut = 0; + if (pFrameCountOut != NULL) { + frameCountOut = *pFrameCountOut; + } + + frameCount = ma_min(frameCountIn, frameCountOut); + + if (pConverter->hasPreFormatConversion == MA_FALSE && pConverter->hasPostFormatConversion == MA_FALSE) { + /* No format conversion required. */ + result = ma_channel_converter_process_pcm_frames(&pConverter->channelConverter, pFramesOut, pFramesIn, frameCount); + if (result != MA_SUCCESS) { + return result; + } + } else { + /* Format conversion required. */ + ma_uint64 framesProcessed = 0; + + while (framesProcessed < frameCount) { + ma_uint8 pTempBufferOut[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + const ma_uint32 tempBufferOutCap = sizeof(pTempBufferOut) / ma_get_bytes_per_frame(pConverter->channelConverter.format, pConverter->channelConverter.channelsOut); + const void* pFramesInThisIteration; + /* */ void* pFramesOutThisIteration; + ma_uint64 frameCountThisIteration; + + if (pFramesIn != NULL) { + pFramesInThisIteration = ma_offset_ptr(pFramesIn, framesProcessed * ma_get_bytes_per_frame(pConverter->formatIn, pConverter->channelsIn)); + } else { + pFramesInThisIteration = NULL; + } + + if (pFramesOut != NULL) { + pFramesOutThisIteration = ma_offset_ptr(pFramesOut, framesProcessed * ma_get_bytes_per_frame(pConverter->formatOut, pConverter->channelsOut)); + } else { + pFramesOutThisIteration = NULL; + } + + /* Do a pre format conversion if necessary. */ + if (pConverter->hasPreFormatConversion) { + ma_uint8 pTempBufferIn[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + const ma_uint32 tempBufferInCap = sizeof(pTempBufferIn) / ma_get_bytes_per_frame(pConverter->channelConverter.format, pConverter->channelConverter.channelsIn); + + frameCountThisIteration = (frameCount - framesProcessed); + if (frameCountThisIteration > tempBufferInCap) { + frameCountThisIteration = tempBufferInCap; + } + + if (pConverter->hasPostFormatConversion) { + if (frameCountThisIteration > tempBufferOutCap) { + frameCountThisIteration = tempBufferOutCap; + } + } + + if (pFramesInThisIteration != NULL) { + ma_convert_pcm_frames_format(pTempBufferIn, pConverter->channelConverter.format, pFramesInThisIteration, pConverter->formatIn, frameCountThisIteration, pConverter->channelsIn, pConverter->ditherMode); + } else { + MA_ZERO_MEMORY(pTempBufferIn, sizeof(pTempBufferIn)); + } + + if (pConverter->hasPostFormatConversion) { + /* Both input and output conversion required. Output to the temp buffer. */ + result = ma_channel_converter_process_pcm_frames(&pConverter->channelConverter, pTempBufferOut, pTempBufferIn, frameCountThisIteration); + } else { + /* Only pre-format required. Output straight to the output buffer. */ + result = ma_channel_converter_process_pcm_frames(&pConverter->channelConverter, pFramesOutThisIteration, pTempBufferIn, frameCountThisIteration); + } + + if (result != MA_SUCCESS) { + break; + } + } else { + /* No pre-format required. Just read straight from the input buffer. */ + MA_ASSERT(pConverter->hasPostFormatConversion == MA_TRUE); + + frameCountThisIteration = (frameCount - framesProcessed); + if (frameCountThisIteration > tempBufferOutCap) { + frameCountThisIteration = tempBufferOutCap; + } + + result = ma_channel_converter_process_pcm_frames(&pConverter->channelConverter, pTempBufferOut, pFramesInThisIteration, frameCountThisIteration); + if (result != MA_SUCCESS) { + break; + } + } + + /* If we are doing a post format conversion we need to do that now. */ + if (pConverter->hasPostFormatConversion) { + if (pFramesOutThisIteration != NULL) { + ma_convert_pcm_frames_format(pFramesOutThisIteration, pConverter->formatOut, pTempBufferOut, pConverter->channelConverter.format, frameCountThisIteration, pConverter->channelConverter.channelsOut, pConverter->ditherMode); + } + } + + framesProcessed += frameCountThisIteration; + } + } + + if (pFrameCountIn != NULL) { + *pFrameCountIn = frameCount; + } + if (pFrameCountOut != NULL) { + *pFrameCountOut = frameCount; + } + + return MA_SUCCESS; +} + +static ma_result ma_data_converter_process_pcm_frames__resample_first(ma_data_converter* pConverter, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + ma_result result; + ma_uint64 frameCountIn; + ma_uint64 frameCountOut; + ma_uint64 framesProcessedIn; + ma_uint64 framesProcessedOut; + ma_uint8 pTempBufferIn[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; /* In resampler format. */ + ma_uint64 tempBufferInCap; + ma_uint8 pTempBufferMid[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; /* In resampler format, channel converter input format. */ + ma_uint64 tempBufferMidCap; + ma_uint8 pTempBufferOut[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; /* In channel converter output format. */ + ma_uint64 tempBufferOutCap; + + MA_ASSERT(pConverter != NULL); + MA_ASSERT(pConverter->resampler.format == pConverter->channelConverter.format); + MA_ASSERT(pConverter->resampler.channels == pConverter->channelConverter.channelsIn); + MA_ASSERT(pConverter->resampler.channels < pConverter->channelConverter.channelsOut); + + frameCountIn = 0; + if (pFrameCountIn != NULL) { + frameCountIn = *pFrameCountIn; + } + + frameCountOut = 0; + if (pFrameCountOut != NULL) { + frameCountOut = *pFrameCountOut; + } + + framesProcessedIn = 0; + framesProcessedOut = 0; + + tempBufferInCap = sizeof(pTempBufferIn) / ma_get_bytes_per_frame(pConverter->resampler.format, pConverter->resampler.channels); + tempBufferMidCap = sizeof(pTempBufferIn) / ma_get_bytes_per_frame(pConverter->resampler.format, pConverter->resampler.channels); + tempBufferOutCap = sizeof(pTempBufferOut) / ma_get_bytes_per_frame(pConverter->channelConverter.format, pConverter->channelConverter.channelsOut); + + while (framesProcessedOut < frameCountOut) { + ma_uint64 frameCountInThisIteration; + ma_uint64 frameCountOutThisIteration; + const void* pRunningFramesIn = NULL; + void* pRunningFramesOut = NULL; + const void* pResampleBufferIn; + void* pChannelsBufferOut; + + if (pFramesIn != NULL) { + pRunningFramesIn = ma_offset_ptr(pFramesIn, framesProcessedIn * ma_get_bytes_per_frame(pConverter->formatIn, pConverter->channelsIn)); + } + if (pFramesOut != NULL) { + pRunningFramesOut = ma_offset_ptr(pFramesOut, framesProcessedOut * ma_get_bytes_per_frame(pConverter->formatOut, pConverter->channelsOut)); + } + + /* Run input data through the resampler and output it to the temporary buffer. */ + frameCountInThisIteration = (frameCountIn - framesProcessedIn); + + if (pConverter->hasPreFormatConversion) { + if (frameCountInThisIteration > tempBufferInCap) { + frameCountInThisIteration = tempBufferInCap; + } + } + + frameCountOutThisIteration = (frameCountOut - framesProcessedOut); + if (frameCountOutThisIteration > tempBufferMidCap) { + frameCountOutThisIteration = tempBufferMidCap; + } + + /* We can't read more frames than can fit in the output buffer. */ + if (pConverter->hasPostFormatConversion) { + if (frameCountOutThisIteration > tempBufferOutCap) { + frameCountOutThisIteration = tempBufferOutCap; + } + } + + /* We need to ensure we don't try to process too many input frames that we run out of room in the output buffer. If this happens we'll end up glitching. */ + + /* + We need to try to predict how many input frames will be required for the resampler. If the + resampler can tell us, we'll use that. Otherwise we'll need to make a best guess. The further + off we are from this, the more wasted format conversions we'll end up doing. + */ + #if 1 + { + ma_uint64 requiredInputFrameCount; + + result = ma_resampler_get_required_input_frame_count(&pConverter->resampler, frameCountOutThisIteration, &requiredInputFrameCount); + if (result != MA_SUCCESS) { + /* Fall back to a best guess. */ + requiredInputFrameCount = (frameCountOutThisIteration * pConverter->resampler.sampleRateIn) / pConverter->resampler.sampleRateOut; + } + + if (frameCountInThisIteration > requiredInputFrameCount) { + frameCountInThisIteration = requiredInputFrameCount; + } + } + #endif + + if (pConverter->hasPreFormatConversion) { + if (pFramesIn != NULL) { + ma_convert_pcm_frames_format(pTempBufferIn, pConverter->resampler.format, pRunningFramesIn, pConverter->formatIn, frameCountInThisIteration, pConverter->channelsIn, pConverter->ditherMode); + pResampleBufferIn = pTempBufferIn; + } else { + pResampleBufferIn = NULL; + } + } else { + pResampleBufferIn = pRunningFramesIn; + } + + result = ma_resampler_process_pcm_frames(&pConverter->resampler, pResampleBufferIn, &frameCountInThisIteration, pTempBufferMid, &frameCountOutThisIteration); + if (result != MA_SUCCESS) { + return result; + } + + + /* + The input data has been resampled so now we need to run it through the channel converter. The input data is always contained in pTempBufferMid. We only need to do + this part if we have an output buffer. + */ + if (pFramesOut != NULL) { + if (pConverter->hasPostFormatConversion) { + pChannelsBufferOut = pTempBufferOut; + } else { + pChannelsBufferOut = pRunningFramesOut; + } + + result = ma_channel_converter_process_pcm_frames(&pConverter->channelConverter, pChannelsBufferOut, pTempBufferMid, frameCountOutThisIteration); + if (result != MA_SUCCESS) { + return result; + } + + /* Finally we do post format conversion. */ + if (pConverter->hasPostFormatConversion) { + ma_convert_pcm_frames_format(pRunningFramesOut, pConverter->formatOut, pChannelsBufferOut, pConverter->channelConverter.format, frameCountOutThisIteration, pConverter->channelConverter.channelsOut, pConverter->ditherMode); + } + } + + + framesProcessedIn += frameCountInThisIteration; + framesProcessedOut += frameCountOutThisIteration; + + MA_ASSERT(framesProcessedIn <= frameCountIn); + MA_ASSERT(framesProcessedOut <= frameCountOut); + + if (frameCountOutThisIteration == 0) { + break; /* Consumed all of our input data. */ + } + } + + if (pFrameCountIn != NULL) { + *pFrameCountIn = framesProcessedIn; + } + if (pFrameCountOut != NULL) { + *pFrameCountOut = framesProcessedOut; + } + + return MA_SUCCESS; +} + +static ma_result ma_data_converter_process_pcm_frames__channels_first(ma_data_converter* pConverter, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + ma_result result; + ma_uint64 frameCountIn; + ma_uint64 frameCountOut; + ma_uint64 framesProcessedIn; + ma_uint64 framesProcessedOut; + ma_uint8 pTempBufferIn[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; /* In resampler format. */ + ma_uint64 tempBufferInCap; + ma_uint8 pTempBufferMid[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; /* In resampler format, channel converter input format. */ + ma_uint64 tempBufferMidCap; + ma_uint8 pTempBufferOut[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; /* In channel converter output format. */ + ma_uint64 tempBufferOutCap; + + MA_ASSERT(pConverter != NULL); + MA_ASSERT(pConverter->resampler.format == pConverter->channelConverter.format); + MA_ASSERT(pConverter->resampler.channels == pConverter->channelConverter.channelsOut); + MA_ASSERT(pConverter->resampler.channels <= pConverter->channelConverter.channelsIn); + + frameCountIn = 0; + if (pFrameCountIn != NULL) { + frameCountIn = *pFrameCountIn; + } + + frameCountOut = 0; + if (pFrameCountOut != NULL) { + frameCountOut = *pFrameCountOut; + } + + framesProcessedIn = 0; + framesProcessedOut = 0; + + tempBufferInCap = sizeof(pTempBufferIn) / ma_get_bytes_per_frame(pConverter->channelConverter.format, pConverter->channelConverter.channelsIn); + tempBufferMidCap = sizeof(pTempBufferIn) / ma_get_bytes_per_frame(pConverter->channelConverter.format, pConverter->channelConverter.channelsOut); + tempBufferOutCap = sizeof(pTempBufferOut) / ma_get_bytes_per_frame(pConverter->resampler.format, pConverter->resampler.channels); + + while (framesProcessedOut < frameCountOut) { + ma_uint64 frameCountInThisIteration; + ma_uint64 frameCountOutThisIteration; + const void* pRunningFramesIn = NULL; + void* pRunningFramesOut = NULL; + const void* pChannelsBufferIn; + void* pResampleBufferOut; + + if (pFramesIn != NULL) { + pRunningFramesIn = ma_offset_ptr(pFramesIn, framesProcessedIn * ma_get_bytes_per_frame(pConverter->formatIn, pConverter->channelsIn)); + } + if (pFramesOut != NULL) { + pRunningFramesOut = ma_offset_ptr(pFramesOut, framesProcessedOut * ma_get_bytes_per_frame(pConverter->formatOut, pConverter->channelsOut)); + } + + /* + Before doing any processing we need to determine how many frames we should try processing + this iteration, for both input and output. The resampler requires us to perform format and + channel conversion before passing any data into it. If we get our input count wrong, we'll + end up performing redundant pre-processing. This isn't the end of the world, but it does + result in some inefficiencies proportionate to how far our estimates are off. + + If the resampler has a means to calculate exactly how much we'll need, we'll use that. + Otherwise we'll make a best guess. In order to do this, we'll need to calculate the output + frame count first. + */ + frameCountOutThisIteration = (frameCountOut - framesProcessedOut); + if (frameCountOutThisIteration > tempBufferMidCap) { + frameCountOutThisIteration = tempBufferMidCap; + } + + if (pConverter->hasPostFormatConversion) { + if (frameCountOutThisIteration > tempBufferOutCap) { + frameCountOutThisIteration = tempBufferOutCap; + } + } + + /* Now that we have the output frame count we can determine the input frame count. */ + frameCountInThisIteration = (frameCountIn - framesProcessedIn); + if (pConverter->hasPreFormatConversion) { + if (frameCountInThisIteration > tempBufferInCap) { + frameCountInThisIteration = tempBufferInCap; + } + } + + if (frameCountInThisIteration > tempBufferMidCap) { + frameCountInThisIteration = tempBufferMidCap; + } + + #if 1 + { + ma_uint64 requiredInputFrameCount; + + result = ma_resampler_get_required_input_frame_count(&pConverter->resampler, frameCountOutThisIteration, &requiredInputFrameCount); + if (result != MA_SUCCESS) { + /* Fall back to a best guess. */ + requiredInputFrameCount = (frameCountOutThisIteration * pConverter->resampler.sampleRateIn) / pConverter->resampler.sampleRateOut; + } + + if (frameCountInThisIteration > requiredInputFrameCount) { + frameCountInThisIteration = requiredInputFrameCount; + } + } + #endif + + + /* Pre format conversion. */ + if (pConverter->hasPreFormatConversion) { + if (pRunningFramesIn != NULL) { + ma_convert_pcm_frames_format(pTempBufferIn, pConverter->channelConverter.format, pRunningFramesIn, pConverter->formatIn, frameCountInThisIteration, pConverter->channelsIn, pConverter->ditherMode); + pChannelsBufferIn = pTempBufferIn; + } else { + pChannelsBufferIn = NULL; + } + } else { + pChannelsBufferIn = pRunningFramesIn; + } + + + /* Channel conversion. */ + result = ma_channel_converter_process_pcm_frames(&pConverter->channelConverter, pTempBufferMid, pChannelsBufferIn, frameCountInThisIteration); + if (result != MA_SUCCESS) { + return result; + } + + + /* Resampling. */ + if (pConverter->hasPostFormatConversion) { + pResampleBufferOut = pTempBufferOut; + } else { + pResampleBufferOut = pRunningFramesOut; + } + + result = ma_resampler_process_pcm_frames(&pConverter->resampler, pTempBufferMid, &frameCountInThisIteration, pResampleBufferOut, &frameCountOutThisIteration); + if (result != MA_SUCCESS) { + return result; + } + + + /* Post format conversion. */ + if (pConverter->hasPostFormatConversion) { + if (pRunningFramesOut != NULL) { + ma_convert_pcm_frames_format(pRunningFramesOut, pConverter->formatOut, pResampleBufferOut, pConverter->resampler.format, frameCountOutThisIteration, pConverter->channelsOut, pConverter->ditherMode); + } + } + + + framesProcessedIn += frameCountInThisIteration; + framesProcessedOut += frameCountOutThisIteration; + + MA_ASSERT(framesProcessedIn <= frameCountIn); + MA_ASSERT(framesProcessedOut <= frameCountOut); + + if (frameCountOutThisIteration == 0) { + break; /* Consumed all of our input data. */ + } + } + + if (pFrameCountIn != NULL) { + *pFrameCountIn = framesProcessedIn; + } + if (pFrameCountOut != NULL) { + *pFrameCountOut = framesProcessedOut; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_data_converter_process_pcm_frames(ma_data_converter* pConverter, const void* pFramesIn, ma_uint64* pFrameCountIn, void* pFramesOut, ma_uint64* pFrameCountOut) +{ + if (pConverter == NULL) { + return MA_INVALID_ARGS; + } + + switch (pConverter->executionPath) + { + case ma_data_converter_execution_path_passthrough: return ma_data_converter_process_pcm_frames__passthrough(pConverter, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + case ma_data_converter_execution_path_format_only: return ma_data_converter_process_pcm_frames__format_only(pConverter, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + case ma_data_converter_execution_path_channels_only: return ma_data_converter_process_pcm_frames__channels_only(pConverter, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + case ma_data_converter_execution_path_resample_only: return ma_data_converter_process_pcm_frames__resample_only(pConverter, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + case ma_data_converter_execution_path_resample_first: return ma_data_converter_process_pcm_frames__resample_first(pConverter, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + case ma_data_converter_execution_path_channels_first: return ma_data_converter_process_pcm_frames__channels_first(pConverter, pFramesIn, pFrameCountIn, pFramesOut, pFrameCountOut); + default: return MA_INVALID_OPERATION; /* Should never hit this. */ + } +} + +MA_API ma_result ma_data_converter_set_rate(ma_data_converter* pConverter, ma_uint32 sampleRateIn, ma_uint32 sampleRateOut) +{ + if (pConverter == NULL) { + return MA_INVALID_ARGS; + } + + if (pConverter->hasResampler == MA_FALSE) { + return MA_INVALID_OPERATION; /* Dynamic resampling not enabled. */ + } + + return ma_resampler_set_rate(&pConverter->resampler, sampleRateIn, sampleRateOut); +} + +MA_API ma_result ma_data_converter_set_rate_ratio(ma_data_converter* pConverter, float ratioInOut) +{ + if (pConverter == NULL) { + return MA_INVALID_ARGS; + } + + if (pConverter->hasResampler == MA_FALSE) { + return MA_INVALID_OPERATION; /* Dynamic resampling not enabled. */ + } + + return ma_resampler_set_rate_ratio(&pConverter->resampler, ratioInOut); +} + +MA_API ma_uint64 ma_data_converter_get_input_latency(const ma_data_converter* pConverter) +{ + if (pConverter == NULL) { + return 0; + } + + if (pConverter->hasResampler) { + return ma_resampler_get_input_latency(&pConverter->resampler); + } + + return 0; /* No latency without a resampler. */ +} + +MA_API ma_uint64 ma_data_converter_get_output_latency(const ma_data_converter* pConverter) +{ + if (pConverter == NULL) { + return 0; + } + + if (pConverter->hasResampler) { + return ma_resampler_get_output_latency(&pConverter->resampler); + } + + return 0; /* No latency without a resampler. */ +} + +MA_API ma_result ma_data_converter_get_required_input_frame_count(const ma_data_converter* pConverter, ma_uint64 outputFrameCount, ma_uint64* pInputFrameCount) +{ + if (pInputFrameCount == NULL) { + return MA_INVALID_ARGS; + } + + *pInputFrameCount = 0; + + if (pConverter == NULL) { + return MA_INVALID_ARGS; + } + + if (pConverter->hasResampler) { + return ma_resampler_get_required_input_frame_count(&pConverter->resampler, outputFrameCount, pInputFrameCount); + } else { + *pInputFrameCount = outputFrameCount; /* 1:1 */ + return MA_SUCCESS; + } +} + +MA_API ma_result ma_data_converter_get_expected_output_frame_count(const ma_data_converter* pConverter, ma_uint64 inputFrameCount, ma_uint64* pOutputFrameCount) +{ + if (pOutputFrameCount == NULL) { + return MA_INVALID_ARGS; + } + + *pOutputFrameCount = 0; + + if (pConverter == NULL) { + return MA_INVALID_ARGS; + } + + if (pConverter->hasResampler) { + return ma_resampler_get_expected_output_frame_count(&pConverter->resampler, inputFrameCount, pOutputFrameCount); + } else { + *pOutputFrameCount = inputFrameCount; /* 1:1 */ + return MA_SUCCESS; + } +} + +MA_API ma_result ma_data_converter_get_input_channel_map(const ma_data_converter* pConverter, ma_channel* pChannelMap, size_t channelMapCap) +{ + if (pConverter == NULL || pChannelMap == NULL) { + return MA_INVALID_ARGS; + } + + if (pConverter->hasChannelConverter) { + ma_channel_converter_get_output_channel_map(&pConverter->channelConverter, pChannelMap, channelMapCap); + } else { + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, pConverter->channelsOut); + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_data_converter_get_output_channel_map(const ma_data_converter* pConverter, ma_channel* pChannelMap, size_t channelMapCap) +{ + if (pConverter == NULL || pChannelMap == NULL) { + return MA_INVALID_ARGS; + } + + if (pConverter->hasChannelConverter) { + ma_channel_converter_get_input_channel_map(&pConverter->channelConverter, pChannelMap, channelMapCap); + } else { + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, pConverter->channelsIn); + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_data_converter_reset(ma_data_converter* pConverter) +{ + if (pConverter == NULL) { + return MA_INVALID_ARGS; + } + + /* There's nothing to do if we're not resampling. */ + if (pConverter->hasResampler == MA_FALSE) { + return MA_SUCCESS; + } + + return ma_resampler_reset(&pConverter->resampler); +} + + + +/************************************************************************************************************************************************************** + +Channel Maps + +**************************************************************************************************************************************************************/ +static ma_channel ma_channel_map_init_standard_channel(ma_standard_channel_map standardChannelMap, ma_uint32 channelCount, ma_uint32 channelIndex); + +MA_API ma_channel ma_channel_map_get_channel(const ma_channel* pChannelMap, ma_uint32 channelCount, ma_uint32 channelIndex) +{ + if (pChannelMap == NULL) { + return ma_channel_map_init_standard_channel(ma_standard_channel_map_default, channelCount, channelIndex); + } else { + if (channelIndex >= channelCount) { + return MA_CHANNEL_NONE; + } + + return pChannelMap[channelIndex]; + } +} + +MA_API void ma_channel_map_init_blank(ma_channel* pChannelMap, ma_uint32 channels) +{ + if (pChannelMap == NULL) { + return; + } + + MA_ZERO_MEMORY(pChannelMap, sizeof(*pChannelMap) * channels); +} + + +static ma_channel ma_channel_map_init_standard_channel_microsoft(ma_uint32 channelCount, ma_uint32 channelIndex) +{ + if (channelCount == 0 || channelIndex >= channelCount) { + return MA_CHANNEL_NONE; + } + + /* This is the Microsoft channel map. Based off the speaker configurations mentioned here: https://docs.microsoft.com/en-us/windows-hardware/drivers/ddi/content/ksmedia/ns-ksmedia-ksaudio_channel_config */ + switch (channelCount) + { + case 0: return MA_CHANNEL_NONE; + + case 1: + { + return MA_CHANNEL_MONO; + } break; + + case 2: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + } + } break; + + case 3: /* No defined, but best guess. */ + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + } + } break; + + case 4: + { + switch (channelIndex) { + #ifndef MA_USE_QUAD_MICROSOFT_CHANNEL_MAP + /* Surround. Using the Surround profile has the advantage of the 3rd channel (MA_CHANNEL_FRONT_CENTER) mapping nicely with higher channel counts. */ + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_BACK_CENTER; + #else + /* Quad. */ + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + #endif + } + } break; + + case 5: /* Not defined, but best guess. */ + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_BACK_LEFT; + case 4: return MA_CHANNEL_BACK_RIGHT; + } + } break; + + case 6: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_LFE; + case 4: return MA_CHANNEL_SIDE_LEFT; + case 5: return MA_CHANNEL_SIDE_RIGHT; + } + } break; + + case 7: /* Not defined, but best guess. */ + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_LFE; + case 4: return MA_CHANNEL_BACK_CENTER; + case 5: return MA_CHANNEL_SIDE_LEFT; + case 6: return MA_CHANNEL_SIDE_RIGHT; + } + } break; + + case 8: + default: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_LFE; + case 4: return MA_CHANNEL_BACK_LEFT; + case 5: return MA_CHANNEL_BACK_RIGHT; + case 6: return MA_CHANNEL_SIDE_LEFT; + case 7: return MA_CHANNEL_SIDE_RIGHT; + } + } break; + } + + if (channelCount > 8) { + if (channelIndex < 32) { /* We have 32 AUX channels. */ + return (ma_channel)(MA_CHANNEL_AUX_0 + (channelIndex - 8)); + } + } + + /* Getting here means we don't know how to map the channel position so just return MA_CHANNEL_NONE. */ + return MA_CHANNEL_NONE; +} + +static ma_channel ma_channel_map_init_standard_channel_alsa(ma_uint32 channelCount, ma_uint32 channelIndex) +{ + switch (channelCount) + { + case 0: return MA_CHANNEL_NONE; + + case 1: + { + return MA_CHANNEL_MONO; + } break; + + case 2: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + } + } break; + + case 3: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + } + } break; + + case 4: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + } + } break; + + case 5: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + case 4: return MA_CHANNEL_FRONT_CENTER; + } + } break; + + case 6: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + case 4: return MA_CHANNEL_FRONT_CENTER; + case 5: return MA_CHANNEL_LFE; + } + } break; + + case 7: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + case 4: return MA_CHANNEL_FRONT_CENTER; + case 5: return MA_CHANNEL_LFE; + case 6: return MA_CHANNEL_BACK_CENTER; + } + } break; + + case 8: + default: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + case 4: return MA_CHANNEL_FRONT_CENTER; + case 5: return MA_CHANNEL_LFE; + case 6: return MA_CHANNEL_SIDE_LEFT; + case 7: return MA_CHANNEL_SIDE_RIGHT; + } + } break; + } + + if (channelCount > 8) { + if (channelIndex < 32) { /* We have 32 AUX channels. */ + return (ma_channel)(MA_CHANNEL_AUX_0 + (channelIndex - 8)); + } + } + + /* Getting here means we don't know how to map the channel position so just return MA_CHANNEL_NONE. */ + return MA_CHANNEL_NONE; +} + +static ma_channel ma_channel_map_init_standard_channel_rfc3551(ma_uint32 channelCount, ma_uint32 channelIndex) +{ + switch (channelCount) + { + case 0: return MA_CHANNEL_NONE; + + case 1: + { + return MA_CHANNEL_MONO; + } break; + + case 2: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + } + } break; + + case 3: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + } + } break; + + case 4: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 3: return MA_CHANNEL_BACK_CENTER; + } + } break; + + case 5: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_BACK_LEFT; + case 4: return MA_CHANNEL_BACK_RIGHT; + } + } break; + + case 6: + default: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_SIDE_LEFT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_FRONT_RIGHT; + case 4: return MA_CHANNEL_SIDE_RIGHT; + case 5: return MA_CHANNEL_BACK_CENTER; + } + } break; + } + + if (channelCount > 6) { + if (channelIndex < 32) { /* We have 32 AUX channels. */ + return (ma_channel)(MA_CHANNEL_AUX_0 + (channelIndex - 6)); + } + } + + /* Getting here means we don't know how to map the channel position so just return MA_CHANNEL_NONE. */ + return MA_CHANNEL_NONE; +} + +static ma_channel ma_channel_map_init_standard_channel_flac(ma_uint32 channelCount, ma_uint32 channelIndex) +{ + switch (channelCount) + { + case 0: return MA_CHANNEL_NONE; + + case 1: + { + return MA_CHANNEL_MONO; + } break; + + case 2: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + } + } break; + + case 3: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + } + } break; + + case 4: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + } + } break; + + case 5: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_BACK_LEFT; + case 4: return MA_CHANNEL_BACK_RIGHT; + } + } break; + + case 6: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_LFE; + case 4: return MA_CHANNEL_BACK_LEFT; + case 5: return MA_CHANNEL_BACK_RIGHT; + } + } break; + + case 7: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_LFE; + case 4: return MA_CHANNEL_BACK_CENTER; + case 5: return MA_CHANNEL_SIDE_LEFT; + case 6: return MA_CHANNEL_SIDE_RIGHT; + } + } break; + + case 8: + default: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_LFE; + case 4: return MA_CHANNEL_BACK_LEFT; + case 5: return MA_CHANNEL_BACK_RIGHT; + case 6: return MA_CHANNEL_SIDE_LEFT; + case 7: return MA_CHANNEL_SIDE_RIGHT; + } + } break; + } + + if (channelCount > 8) { + if (channelIndex < 32) { /* We have 32 AUX channels. */ + return (ma_channel)(MA_CHANNEL_AUX_0 + (channelIndex - 8)); + } + } + + /* Getting here means we don't know how to map the channel position so just return MA_CHANNEL_NONE. */ + return MA_CHANNEL_NONE; +} + +static ma_channel ma_channel_map_init_standard_channel_vorbis(ma_uint32 channelCount, ma_uint32 channelIndex) +{ + switch (channelCount) + { + case 0: return MA_CHANNEL_NONE; + + case 1: + { + return MA_CHANNEL_MONO; + } break; + + case 2: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + } + } break; + + case 3: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_CENTER; + case 2: return MA_CHANNEL_FRONT_RIGHT; + } + } break; + + case 4: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + } + } break; + + case 5: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_CENTER; + case 2: return MA_CHANNEL_FRONT_RIGHT; + case 3: return MA_CHANNEL_BACK_LEFT; + case 4: return MA_CHANNEL_BACK_RIGHT; + } + } break; + + case 6: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_CENTER; + case 2: return MA_CHANNEL_FRONT_RIGHT; + case 3: return MA_CHANNEL_BACK_LEFT; + case 4: return MA_CHANNEL_BACK_RIGHT; + case 5: return MA_CHANNEL_LFE; + } + } break; + + case 7: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_CENTER; + case 2: return MA_CHANNEL_FRONT_RIGHT; + case 3: return MA_CHANNEL_SIDE_LEFT; + case 4: return MA_CHANNEL_SIDE_RIGHT; + case 5: return MA_CHANNEL_BACK_CENTER; + case 6: return MA_CHANNEL_LFE; + } + } break; + + case 8: + default: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_CENTER; + case 2: return MA_CHANNEL_FRONT_RIGHT; + case 3: return MA_CHANNEL_SIDE_LEFT; + case 4: return MA_CHANNEL_SIDE_RIGHT; + case 5: return MA_CHANNEL_BACK_LEFT; + case 6: return MA_CHANNEL_BACK_RIGHT; + case 7: return MA_CHANNEL_LFE; + } + } break; + } + + if (channelCount > 8) { + if (channelIndex < 32) { /* We have 32 AUX channels. */ + return (ma_channel)(MA_CHANNEL_AUX_0 + (channelIndex - 8)); + } + } + + /* Getting here means we don't know how to map the channel position so just return MA_CHANNEL_NONE. */ + return MA_CHANNEL_NONE; +} + +static ma_channel ma_channel_map_init_standard_channel_sound4(ma_uint32 channelCount, ma_uint32 channelIndex) +{ + switch (channelCount) + { + case 0: return MA_CHANNEL_NONE; + + case 1: + { + return MA_CHANNEL_MONO; + } break; + + case 2: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + } + } break; + + case 3: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + } + } break; + + case 4: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + } + } break; + + case 5: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + case 3: return MA_CHANNEL_BACK_LEFT; + case 4: return MA_CHANNEL_BACK_RIGHT; + } + } break; + + case 6: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_CENTER; + case 2: return MA_CHANNEL_FRONT_RIGHT; + case 3: return MA_CHANNEL_BACK_LEFT; + case 4: return MA_CHANNEL_BACK_RIGHT; + case 5: return MA_CHANNEL_LFE; + } + } break; + + case 7: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_CENTER; + case 2: return MA_CHANNEL_FRONT_RIGHT; + case 3: return MA_CHANNEL_SIDE_LEFT; + case 4: return MA_CHANNEL_SIDE_RIGHT; + case 5: return MA_CHANNEL_BACK_CENTER; + case 6: return MA_CHANNEL_LFE; + } + } break; + + case 8: + default: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_CENTER; + case 2: return MA_CHANNEL_FRONT_RIGHT; + case 3: return MA_CHANNEL_SIDE_LEFT; + case 4: return MA_CHANNEL_SIDE_RIGHT; + case 5: return MA_CHANNEL_BACK_LEFT; + case 6: return MA_CHANNEL_BACK_RIGHT; + case 7: return MA_CHANNEL_LFE; + } + } break; + } + + if (channelCount > 8) { + if (channelIndex < 32) { /* We have 32 AUX channels. */ + return (ma_channel)(MA_CHANNEL_AUX_0 + (channelIndex - 8)); + } + } + + /* Getting here means we don't know how to map the channel position so just return MA_CHANNEL_NONE. */ + return MA_CHANNEL_NONE; +} + +static ma_channel ma_channel_map_init_standard_channel_sndio(ma_uint32 channelCount, ma_uint32 channelIndex) +{ + switch (channelCount) + { + case 0: return MA_CHANNEL_NONE; + + case 1: + { + return MA_CHANNEL_MONO; + } break; + + case 2: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + } + } break; + + case 3: /* No defined, but best guess. */ + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_FRONT_CENTER; + } + } break; + + case 4: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + } + } break; + + case 5: /* Not defined, but best guess. */ + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + case 4: return MA_CHANNEL_FRONT_CENTER; + } + } break; + + case 6: + default: + { + switch (channelIndex) { + case 0: return MA_CHANNEL_FRONT_LEFT; + case 1: return MA_CHANNEL_FRONT_RIGHT; + case 2: return MA_CHANNEL_BACK_LEFT; + case 3: return MA_CHANNEL_BACK_RIGHT; + case 4: return MA_CHANNEL_FRONT_CENTER; + case 5: return MA_CHANNEL_LFE; + } + } break; + } + + if (channelCount > 6) { + if (channelIndex < 32) { /* We have 32 AUX channels. */ + return (ma_channel)(MA_CHANNEL_AUX_0 + (channelIndex - 6)); + } + } + + /* Getting here means we don't know how to map the channel position so just return MA_CHANNEL_NONE. */ + return MA_CHANNEL_NONE; +} + + +static ma_channel ma_channel_map_init_standard_channel(ma_standard_channel_map standardChannelMap, ma_uint32 channelCount, ma_uint32 channelIndex) +{ + if (channelCount == 0 || channelIndex >= channelCount) { + return MA_CHANNEL_NONE; + } + + switch (standardChannelMap) + { + case ma_standard_channel_map_alsa: + { + return ma_channel_map_init_standard_channel_alsa(channelCount, channelIndex); + } break; + + case ma_standard_channel_map_rfc3551: + { + return ma_channel_map_init_standard_channel_rfc3551(channelCount, channelIndex); + } break; + + case ma_standard_channel_map_flac: + { + return ma_channel_map_init_standard_channel_flac(channelCount, channelIndex); + } break; + + case ma_standard_channel_map_vorbis: + { + return ma_channel_map_init_standard_channel_vorbis(channelCount, channelIndex); + } break; + + case ma_standard_channel_map_sound4: + { + return ma_channel_map_init_standard_channel_sound4(channelCount, channelIndex); + } break; + + case ma_standard_channel_map_sndio: + { + return ma_channel_map_init_standard_channel_sndio(channelCount, channelIndex); + } break; + + case ma_standard_channel_map_microsoft: /* Also default. */ + /*case ma_standard_channel_map_default;*/ + default: + { + return ma_channel_map_init_standard_channel_microsoft(channelCount, channelIndex); + } break; + } +} + +MA_API void ma_channel_map_init_standard(ma_standard_channel_map standardChannelMap, ma_channel* pChannelMap, size_t channelMapCap, ma_uint32 channels) +{ + ma_uint32 iChannel; + + if (pChannelMap == NULL || channelMapCap == 0 || channels == 0) { + return; + } + + for (iChannel = 0; iChannel < channels; iChannel += 1) { + if (channelMapCap == 0) { + break; /* Ran out of room. */ + } + + pChannelMap[0] = ma_channel_map_init_standard_channel(standardChannelMap, channels, iChannel); + pChannelMap += 1; + channelMapCap -= 1; + } +} + +MA_API void ma_channel_map_copy(ma_channel* pOut, const ma_channel* pIn, ma_uint32 channels) +{ + if (pOut != NULL && pIn != NULL && channels > 0) { + MA_COPY_MEMORY(pOut, pIn, sizeof(*pOut) * channels); + } +} + +MA_API void ma_channel_map_copy_or_default(ma_channel* pOut, size_t channelMapCapOut, const ma_channel* pIn, ma_uint32 channels) +{ + if (pOut == NULL || channels == 0) { + return; + } + + if (pIn != NULL) { + ma_channel_map_copy(pOut, pIn, channels); + } else { + ma_channel_map_init_standard(ma_standard_channel_map_default, pOut, channelMapCapOut, channels); + } +} + +MA_API ma_bool32 ma_channel_map_is_valid(const ma_channel* pChannelMap, ma_uint32 channels) +{ + /* A channel count of 0 is invalid. */ + if (channels == 0) { + return MA_FALSE; + } + + /* It does not make sense to have a mono channel when there is more than 1 channel. */ + if (channels > 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < channels; ++iChannel) { + if (ma_channel_map_get_channel(pChannelMap, channels, iChannel) == MA_CHANNEL_MONO) { + return MA_FALSE; + } + } + } + + return MA_TRUE; +} + +MA_API ma_bool32 ma_channel_map_is_equal(const ma_channel* pChannelMapA, const ma_channel* pChannelMapB, ma_uint32 channels) +{ + ma_uint32 iChannel; + + if (pChannelMapA == pChannelMapB) { + return MA_TRUE; + } + + for (iChannel = 0; iChannel < channels; ++iChannel) { + if (ma_channel_map_get_channel(pChannelMapA, channels, iChannel) != ma_channel_map_get_channel(pChannelMapB, channels, iChannel)) { + return MA_FALSE; + } + } + + return MA_TRUE; +} + +MA_API ma_bool32 ma_channel_map_is_blank(const ma_channel* pChannelMap, ma_uint32 channels) +{ + ma_uint32 iChannel; + + /* A null channel map is equivalent to the default channel map. */ + if (pChannelMap == NULL) { + return MA_FALSE; + } + + for (iChannel = 0; iChannel < channels; ++iChannel) { + if (pChannelMap[iChannel] != MA_CHANNEL_NONE) { + return MA_FALSE; + } + } + + return MA_TRUE; +} + +MA_API ma_bool32 ma_channel_map_contains_channel_position(ma_uint32 channels, const ma_channel* pChannelMap, ma_channel channelPosition) +{ + return ma_channel_map_find_channel_position(channels, pChannelMap, channelPosition, NULL); +} + +MA_API ma_bool32 ma_channel_map_find_channel_position(ma_uint32 channels, const ma_channel* pChannelMap, ma_channel channelPosition, ma_uint32* pChannelIndex) +{ + ma_uint32 iChannel; + + if (pChannelIndex != NULL) { + *pChannelIndex = (ma_uint32)-1; + } + + for (iChannel = 0; iChannel < channels; ++iChannel) { + if (ma_channel_map_get_channel(pChannelMap, channels, iChannel) == channelPosition) { + if (pChannelIndex != NULL) { + *pChannelIndex = iChannel; + } + + return MA_TRUE; + } + } + + /* Getting here means the channel position was not found. */ + return MA_FALSE; +} + +MA_API size_t ma_channel_map_to_string(const ma_channel* pChannelMap, ma_uint32 channels, char* pBufferOut, size_t bufferCap) +{ + size_t len; + ma_uint32 iChannel; + + len = 0; + + for (iChannel = 0; iChannel < channels; iChannel += 1) { + const char* pChannelStr = ma_channel_position_to_string(ma_channel_map_get_channel(pChannelMap, channels, iChannel)); + size_t channelStrLen = strlen(pChannelStr); + + /* Append the string if necessary. */ + if (pBufferOut != NULL && bufferCap > len + channelStrLen) { + MA_COPY_MEMORY(pBufferOut + len, pChannelStr, channelStrLen); + } + len += channelStrLen; + + /* Append a space if it's not the last item. */ + if (iChannel+1 < channels) { + if (pBufferOut != NULL && bufferCap > len + 1) { + pBufferOut[len] = ' '; + } + len += 1; + } + } + + /* Null terminate. Don't increment the length here. */ + if (pBufferOut != NULL) { + if (bufferCap > len) { + pBufferOut[len] = '\0'; + } else if (bufferCap > 0) { + pBufferOut[bufferCap - 1] = '\0'; + } + } + + return len; +} + +MA_API const char* ma_channel_position_to_string(ma_channel channel) +{ + switch (channel) + { + case MA_CHANNEL_NONE : return "CHANNEL_NONE"; + case MA_CHANNEL_MONO : return "CHANNEL_MONO"; + case MA_CHANNEL_FRONT_LEFT : return "CHANNEL_FRONT_LEFT"; + case MA_CHANNEL_FRONT_RIGHT : return "CHANNEL_FRONT_RIGHT"; + case MA_CHANNEL_FRONT_CENTER : return "CHANNEL_FRONT_CENTER"; + case MA_CHANNEL_LFE : return "CHANNEL_LFE"; + case MA_CHANNEL_BACK_LEFT : return "CHANNEL_BACK_LEFT"; + case MA_CHANNEL_BACK_RIGHT : return "CHANNEL_BACK_RIGHT"; + case MA_CHANNEL_FRONT_LEFT_CENTER : return "CHANNEL_FRONT_LEFT_CENTER"; + case MA_CHANNEL_FRONT_RIGHT_CENTER: return "CHANNEL_FRONT_RIGHT_CENTER"; + case MA_CHANNEL_BACK_CENTER : return "CHANNEL_BACK_CENTER"; + case MA_CHANNEL_SIDE_LEFT : return "CHANNEL_SIDE_LEFT"; + case MA_CHANNEL_SIDE_RIGHT : return "CHANNEL_SIDE_RIGHT"; + case MA_CHANNEL_TOP_CENTER : return "CHANNEL_TOP_CENTER"; + case MA_CHANNEL_TOP_FRONT_LEFT : return "CHANNEL_TOP_FRONT_LEFT"; + case MA_CHANNEL_TOP_FRONT_CENTER : return "CHANNEL_TOP_FRONT_CENTER"; + case MA_CHANNEL_TOP_FRONT_RIGHT : return "CHANNEL_TOP_FRONT_RIGHT"; + case MA_CHANNEL_TOP_BACK_LEFT : return "CHANNEL_TOP_BACK_LEFT"; + case MA_CHANNEL_TOP_BACK_CENTER : return "CHANNEL_TOP_BACK_CENTER"; + case MA_CHANNEL_TOP_BACK_RIGHT : return "CHANNEL_TOP_BACK_RIGHT"; + case MA_CHANNEL_AUX_0 : return "CHANNEL_AUX_0"; + case MA_CHANNEL_AUX_1 : return "CHANNEL_AUX_1"; + case MA_CHANNEL_AUX_2 : return "CHANNEL_AUX_2"; + case MA_CHANNEL_AUX_3 : return "CHANNEL_AUX_3"; + case MA_CHANNEL_AUX_4 : return "CHANNEL_AUX_4"; + case MA_CHANNEL_AUX_5 : return "CHANNEL_AUX_5"; + case MA_CHANNEL_AUX_6 : return "CHANNEL_AUX_6"; + case MA_CHANNEL_AUX_7 : return "CHANNEL_AUX_7"; + case MA_CHANNEL_AUX_8 : return "CHANNEL_AUX_8"; + case MA_CHANNEL_AUX_9 : return "CHANNEL_AUX_9"; + case MA_CHANNEL_AUX_10 : return "CHANNEL_AUX_10"; + case MA_CHANNEL_AUX_11 : return "CHANNEL_AUX_11"; + case MA_CHANNEL_AUX_12 : return "CHANNEL_AUX_12"; + case MA_CHANNEL_AUX_13 : return "CHANNEL_AUX_13"; + case MA_CHANNEL_AUX_14 : return "CHANNEL_AUX_14"; + case MA_CHANNEL_AUX_15 : return "CHANNEL_AUX_15"; + case MA_CHANNEL_AUX_16 : return "CHANNEL_AUX_16"; + case MA_CHANNEL_AUX_17 : return "CHANNEL_AUX_17"; + case MA_CHANNEL_AUX_18 : return "CHANNEL_AUX_18"; + case MA_CHANNEL_AUX_19 : return "CHANNEL_AUX_19"; + case MA_CHANNEL_AUX_20 : return "CHANNEL_AUX_20"; + case MA_CHANNEL_AUX_21 : return "CHANNEL_AUX_21"; + case MA_CHANNEL_AUX_22 : return "CHANNEL_AUX_22"; + case MA_CHANNEL_AUX_23 : return "CHANNEL_AUX_23"; + case MA_CHANNEL_AUX_24 : return "CHANNEL_AUX_24"; + case MA_CHANNEL_AUX_25 : return "CHANNEL_AUX_25"; + case MA_CHANNEL_AUX_26 : return "CHANNEL_AUX_26"; + case MA_CHANNEL_AUX_27 : return "CHANNEL_AUX_27"; + case MA_CHANNEL_AUX_28 : return "CHANNEL_AUX_28"; + case MA_CHANNEL_AUX_29 : return "CHANNEL_AUX_29"; + case MA_CHANNEL_AUX_30 : return "CHANNEL_AUX_30"; + case MA_CHANNEL_AUX_31 : return "CHANNEL_AUX_31"; + default: break; + } + + return "UNKNOWN"; +} + + + +/************************************************************************************************************************************************************** + +Conversion Helpers + +**************************************************************************************************************************************************************/ +MA_API ma_uint64 ma_convert_frames(void* pOut, ma_uint64 frameCountOut, ma_format formatOut, ma_uint32 channelsOut, ma_uint32 sampleRateOut, const void* pIn, ma_uint64 frameCountIn, ma_format formatIn, ma_uint32 channelsIn, ma_uint32 sampleRateIn) +{ + ma_data_converter_config config; + + config = ma_data_converter_config_init(formatIn, formatOut, channelsIn, channelsOut, sampleRateIn, sampleRateOut); + config.resampling.linear.lpfOrder = ma_min(MA_DEFAULT_RESAMPLER_LPF_ORDER, MA_MAX_FILTER_ORDER); + + return ma_convert_frames_ex(pOut, frameCountOut, pIn, frameCountIn, &config); +} + +MA_API ma_uint64 ma_convert_frames_ex(void* pOut, ma_uint64 frameCountOut, const void* pIn, ma_uint64 frameCountIn, const ma_data_converter_config* pConfig) +{ + ma_result result; + ma_data_converter converter; + + if (frameCountIn == 0 || pConfig == NULL) { + return 0; + } + + result = ma_data_converter_init(pConfig, NULL, &converter); + if (result != MA_SUCCESS) { + return 0; /* Failed to initialize the data converter. */ + } + + if (pOut == NULL) { + result = ma_data_converter_get_expected_output_frame_count(&converter, frameCountIn, &frameCountOut); + if (result != MA_SUCCESS) { + if (result == MA_NOT_IMPLEMENTED) { + /* No way to calculate the number of frames, so we'll need to brute force it and loop. */ + frameCountOut = 0; + + while (frameCountIn > 0) { + ma_uint64 framesProcessedIn = frameCountIn; + ma_uint64 framesProcessedOut = 0xFFFFFFFF; + + result = ma_data_converter_process_pcm_frames(&converter, pIn, &framesProcessedIn, NULL, &framesProcessedOut); + if (result != MA_SUCCESS) { + break; + } + + frameCountIn -= framesProcessedIn; + } + } + } + } else { + result = ma_data_converter_process_pcm_frames(&converter, pIn, &frameCountIn, pOut, &frameCountOut); + if (result != MA_SUCCESS) { + frameCountOut = 0; + } + } + + ma_data_converter_uninit(&converter, NULL); + return frameCountOut; +} + + +/************************************************************************************************************************************************************** + +Ring Buffer + +**************************************************************************************************************************************************************/ +static MA_INLINE ma_uint32 ma_rb__extract_offset_in_bytes(ma_uint32 encodedOffset) +{ + return encodedOffset & 0x7FFFFFFF; +} + +static MA_INLINE ma_uint32 ma_rb__extract_offset_loop_flag(ma_uint32 encodedOffset) +{ + return encodedOffset & 0x80000000; +} + +static MA_INLINE void* ma_rb__get_read_ptr(ma_rb* pRB) +{ + MA_ASSERT(pRB != NULL); + return ma_offset_ptr(pRB->pBuffer, ma_rb__extract_offset_in_bytes(ma_atomic_load_32(&pRB->encodedReadOffset))); +} + +static MA_INLINE void* ma_rb__get_write_ptr(ma_rb* pRB) +{ + MA_ASSERT(pRB != NULL); + return ma_offset_ptr(pRB->pBuffer, ma_rb__extract_offset_in_bytes(ma_atomic_load_32(&pRB->encodedWriteOffset))); +} + +static MA_INLINE ma_uint32 ma_rb__construct_offset(ma_uint32 offsetInBytes, ma_uint32 offsetLoopFlag) +{ + return offsetLoopFlag | offsetInBytes; +} + +static MA_INLINE void ma_rb__deconstruct_offset(ma_uint32 encodedOffset, ma_uint32* pOffsetInBytes, ma_uint32* pOffsetLoopFlag) +{ + MA_ASSERT(pOffsetInBytes != NULL); + MA_ASSERT(pOffsetLoopFlag != NULL); + + *pOffsetInBytes = ma_rb__extract_offset_in_bytes(encodedOffset); + *pOffsetLoopFlag = ma_rb__extract_offset_loop_flag(encodedOffset); +} + + +MA_API ma_result ma_rb_init_ex(size_t subbufferSizeInBytes, size_t subbufferCount, size_t subbufferStrideInBytes, void* pOptionalPreallocatedBuffer, const ma_allocation_callbacks* pAllocationCallbacks, ma_rb* pRB) +{ + ma_result result; + const ma_uint32 maxSubBufferSize = 0x7FFFFFFF - (MA_SIMD_ALIGNMENT-1); + + if (pRB == NULL) { + return MA_INVALID_ARGS; + } + + if (subbufferSizeInBytes == 0 || subbufferCount == 0) { + return MA_INVALID_ARGS; + } + + if (subbufferSizeInBytes > maxSubBufferSize) { + return MA_INVALID_ARGS; /* Maximum buffer size is ~2GB. The most significant bit is a flag for use internally. */ + } + + + MA_ZERO_OBJECT(pRB); + + result = ma_allocation_callbacks_init_copy(&pRB->allocationCallbacks, pAllocationCallbacks); + if (result != MA_SUCCESS) { + return result; + } + + pRB->subbufferSizeInBytes = (ma_uint32)subbufferSizeInBytes; + pRB->subbufferCount = (ma_uint32)subbufferCount; + + if (pOptionalPreallocatedBuffer != NULL) { + pRB->subbufferStrideInBytes = (ma_uint32)subbufferStrideInBytes; + pRB->pBuffer = pOptionalPreallocatedBuffer; + } else { + size_t bufferSizeInBytes; + + /* + Here is where we allocate our own buffer. We always want to align this to MA_SIMD_ALIGNMENT for future SIMD optimization opportunity. To do this + we need to make sure the stride is a multiple of MA_SIMD_ALIGNMENT. + */ + pRB->subbufferStrideInBytes = ma_align(pRB->subbufferSizeInBytes, MA_SIMD_ALIGNMENT); + + bufferSizeInBytes = (size_t)pRB->subbufferCount*pRB->subbufferStrideInBytes; + pRB->pBuffer = ma_aligned_malloc(bufferSizeInBytes, MA_SIMD_ALIGNMENT, &pRB->allocationCallbacks); + if (pRB->pBuffer == NULL) { + return MA_OUT_OF_MEMORY; + } + + MA_ZERO_MEMORY(pRB->pBuffer, bufferSizeInBytes); + pRB->ownsBuffer = MA_TRUE; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_rb_init(size_t bufferSizeInBytes, void* pOptionalPreallocatedBuffer, const ma_allocation_callbacks* pAllocationCallbacks, ma_rb* pRB) +{ + return ma_rb_init_ex(bufferSizeInBytes, 1, 0, pOptionalPreallocatedBuffer, pAllocationCallbacks, pRB); +} + +MA_API void ma_rb_uninit(ma_rb* pRB) +{ + if (pRB == NULL) { + return; + } + + if (pRB->ownsBuffer) { + ma_aligned_free(pRB->pBuffer, &pRB->allocationCallbacks); + } +} + +MA_API void ma_rb_reset(ma_rb* pRB) +{ + if (pRB == NULL) { + return; + } + + ma_atomic_exchange_32(&pRB->encodedReadOffset, 0); + ma_atomic_exchange_32(&pRB->encodedWriteOffset, 0); +} + +MA_API ma_result ma_rb_acquire_read(ma_rb* pRB, size_t* pSizeInBytes, void** ppBufferOut) +{ + ma_uint32 writeOffset; + ma_uint32 writeOffsetInBytes; + ma_uint32 writeOffsetLoopFlag; + ma_uint32 readOffset; + ma_uint32 readOffsetInBytes; + ma_uint32 readOffsetLoopFlag; + size_t bytesAvailable; + size_t bytesRequested; + + if (pRB == NULL || pSizeInBytes == NULL || ppBufferOut == NULL) { + return MA_INVALID_ARGS; + } + + /* The returned buffer should never move ahead of the write pointer. */ + writeOffset = ma_atomic_load_32(&pRB->encodedWriteOffset); + ma_rb__deconstruct_offset(writeOffset, &writeOffsetInBytes, &writeOffsetLoopFlag); + + readOffset = ma_atomic_load_32(&pRB->encodedReadOffset); + ma_rb__deconstruct_offset(readOffset, &readOffsetInBytes, &readOffsetLoopFlag); + + /* + The number of bytes available depends on whether or not the read and write pointers are on the same loop iteration. If so, we + can only read up to the write pointer. If not, we can only read up to the end of the buffer. + */ + if (readOffsetLoopFlag == writeOffsetLoopFlag) { + bytesAvailable = writeOffsetInBytes - readOffsetInBytes; + } else { + bytesAvailable = pRB->subbufferSizeInBytes - readOffsetInBytes; + } + + bytesRequested = *pSizeInBytes; + if (bytesRequested > bytesAvailable) { + bytesRequested = bytesAvailable; + } + + *pSizeInBytes = bytesRequested; + (*ppBufferOut) = ma_rb__get_read_ptr(pRB); + + return MA_SUCCESS; +} + +MA_API ma_result ma_rb_commit_read(ma_rb* pRB, size_t sizeInBytes) +{ + ma_uint32 readOffset; + ma_uint32 readOffsetInBytes; + ma_uint32 readOffsetLoopFlag; + ma_uint32 newReadOffsetInBytes; + ma_uint32 newReadOffsetLoopFlag; + + if (pRB == NULL) { + return MA_INVALID_ARGS; + } + + readOffset = ma_atomic_load_32(&pRB->encodedReadOffset); + ma_rb__deconstruct_offset(readOffset, &readOffsetInBytes, &readOffsetLoopFlag); + + /* Check that sizeInBytes is correct. It should never go beyond the end of the buffer. */ + newReadOffsetInBytes = (ma_uint32)(readOffsetInBytes + sizeInBytes); + if (newReadOffsetInBytes > pRB->subbufferSizeInBytes) { + return MA_INVALID_ARGS; /* <-- sizeInBytes will cause the read offset to overflow. */ + } + + /* Move the read pointer back to the start if necessary. */ + newReadOffsetLoopFlag = readOffsetLoopFlag; + if (newReadOffsetInBytes == pRB->subbufferSizeInBytes) { + newReadOffsetInBytes = 0; + newReadOffsetLoopFlag ^= 0x80000000; + } + + ma_atomic_exchange_32(&pRB->encodedReadOffset, ma_rb__construct_offset(newReadOffsetInBytes, newReadOffsetLoopFlag)); + + return MA_SUCCESS; +} + +MA_API ma_result ma_rb_acquire_write(ma_rb* pRB, size_t* pSizeInBytes, void** ppBufferOut) +{ + ma_uint32 readOffset; + ma_uint32 readOffsetInBytes; + ma_uint32 readOffsetLoopFlag; + ma_uint32 writeOffset; + ma_uint32 writeOffsetInBytes; + ma_uint32 writeOffsetLoopFlag; + size_t bytesAvailable; + size_t bytesRequested; + + if (pRB == NULL || pSizeInBytes == NULL || ppBufferOut == NULL) { + return MA_INVALID_ARGS; + } + + /* The returned buffer should never overtake the read buffer. */ + readOffset = ma_atomic_load_32(&pRB->encodedReadOffset); + ma_rb__deconstruct_offset(readOffset, &readOffsetInBytes, &readOffsetLoopFlag); + + writeOffset = ma_atomic_load_32(&pRB->encodedWriteOffset); + ma_rb__deconstruct_offset(writeOffset, &writeOffsetInBytes, &writeOffsetLoopFlag); + + /* + In the case of writing, if the write pointer and the read pointer are on the same loop iteration we can only + write up to the end of the buffer. Otherwise we can only write up to the read pointer. The write pointer should + never overtake the read pointer. + */ + if (writeOffsetLoopFlag == readOffsetLoopFlag) { + bytesAvailable = pRB->subbufferSizeInBytes - writeOffsetInBytes; + } else { + bytesAvailable = readOffsetInBytes - writeOffsetInBytes; + } + + bytesRequested = *pSizeInBytes; + if (bytesRequested > bytesAvailable) { + bytesRequested = bytesAvailable; + } + + *pSizeInBytes = bytesRequested; + *ppBufferOut = ma_rb__get_write_ptr(pRB); + + /* Clear the buffer if desired. */ + if (pRB->clearOnWriteAcquire) { + MA_ZERO_MEMORY(*ppBufferOut, *pSizeInBytes); + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_rb_commit_write(ma_rb* pRB, size_t sizeInBytes) +{ + ma_uint32 writeOffset; + ma_uint32 writeOffsetInBytes; + ma_uint32 writeOffsetLoopFlag; + ma_uint32 newWriteOffsetInBytes; + ma_uint32 newWriteOffsetLoopFlag; + + if (pRB == NULL) { + return MA_INVALID_ARGS; + } + + writeOffset = ma_atomic_load_32(&pRB->encodedWriteOffset); + ma_rb__deconstruct_offset(writeOffset, &writeOffsetInBytes, &writeOffsetLoopFlag); + + /* Check that sizeInBytes is correct. It should never go beyond the end of the buffer. */ + newWriteOffsetInBytes = (ma_uint32)(writeOffsetInBytes + sizeInBytes); + if (newWriteOffsetInBytes > pRB->subbufferSizeInBytes) { + return MA_INVALID_ARGS; /* <-- sizeInBytes will cause the read offset to overflow. */ + } + + /* Move the read pointer back to the start if necessary. */ + newWriteOffsetLoopFlag = writeOffsetLoopFlag; + if (newWriteOffsetInBytes == pRB->subbufferSizeInBytes) { + newWriteOffsetInBytes = 0; + newWriteOffsetLoopFlag ^= 0x80000000; + } + + ma_atomic_exchange_32(&pRB->encodedWriteOffset, ma_rb__construct_offset(newWriteOffsetInBytes, newWriteOffsetLoopFlag)); + + return MA_SUCCESS; +} + +MA_API ma_result ma_rb_seek_read(ma_rb* pRB, size_t offsetInBytes) +{ + ma_uint32 readOffset; + ma_uint32 readOffsetInBytes; + ma_uint32 readOffsetLoopFlag; + ma_uint32 writeOffset; + ma_uint32 writeOffsetInBytes; + ma_uint32 writeOffsetLoopFlag; + ma_uint32 newReadOffsetInBytes; + ma_uint32 newReadOffsetLoopFlag; + + if (pRB == NULL || offsetInBytes > pRB->subbufferSizeInBytes) { + return MA_INVALID_ARGS; + } + + readOffset = ma_atomic_load_32(&pRB->encodedReadOffset); + ma_rb__deconstruct_offset(readOffset, &readOffsetInBytes, &readOffsetLoopFlag); + + writeOffset = ma_atomic_load_32(&pRB->encodedWriteOffset); + ma_rb__deconstruct_offset(writeOffset, &writeOffsetInBytes, &writeOffsetLoopFlag); + + newReadOffsetLoopFlag = readOffsetLoopFlag; + + /* We cannot go past the write buffer. */ + if (readOffsetLoopFlag == writeOffsetLoopFlag) { + if ((readOffsetInBytes + offsetInBytes) > writeOffsetInBytes) { + newReadOffsetInBytes = writeOffsetInBytes; + } else { + newReadOffsetInBytes = (ma_uint32)(readOffsetInBytes + offsetInBytes); + } + } else { + /* May end up looping. */ + if ((readOffsetInBytes + offsetInBytes) >= pRB->subbufferSizeInBytes) { + newReadOffsetInBytes = (ma_uint32)(readOffsetInBytes + offsetInBytes) - pRB->subbufferSizeInBytes; + newReadOffsetLoopFlag ^= 0x80000000; /* <-- Looped. */ + } else { + newReadOffsetInBytes = (ma_uint32)(readOffsetInBytes + offsetInBytes); + } + } + + ma_atomic_exchange_32(&pRB->encodedReadOffset, ma_rb__construct_offset(newReadOffsetInBytes, newReadOffsetLoopFlag)); + return MA_SUCCESS; +} + +MA_API ma_result ma_rb_seek_write(ma_rb* pRB, size_t offsetInBytes) +{ + ma_uint32 readOffset; + ma_uint32 readOffsetInBytes; + ma_uint32 readOffsetLoopFlag; + ma_uint32 writeOffset; + ma_uint32 writeOffsetInBytes; + ma_uint32 writeOffsetLoopFlag; + ma_uint32 newWriteOffsetInBytes; + ma_uint32 newWriteOffsetLoopFlag; + + if (pRB == NULL) { + return MA_INVALID_ARGS; + } + + readOffset = ma_atomic_load_32(&pRB->encodedReadOffset); + ma_rb__deconstruct_offset(readOffset, &readOffsetInBytes, &readOffsetLoopFlag); + + writeOffset = ma_atomic_load_32(&pRB->encodedWriteOffset); + ma_rb__deconstruct_offset(writeOffset, &writeOffsetInBytes, &writeOffsetLoopFlag); + + newWriteOffsetLoopFlag = writeOffsetLoopFlag; + + /* We cannot go past the write buffer. */ + if (readOffsetLoopFlag == writeOffsetLoopFlag) { + /* May end up looping. */ + if ((writeOffsetInBytes + offsetInBytes) >= pRB->subbufferSizeInBytes) { + newWriteOffsetInBytes = (ma_uint32)(writeOffsetInBytes + offsetInBytes) - pRB->subbufferSizeInBytes; + newWriteOffsetLoopFlag ^= 0x80000000; /* <-- Looped. */ + } else { + newWriteOffsetInBytes = (ma_uint32)(writeOffsetInBytes + offsetInBytes); + } + } else { + if ((writeOffsetInBytes + offsetInBytes) > readOffsetInBytes) { + newWriteOffsetInBytes = readOffsetInBytes; + } else { + newWriteOffsetInBytes = (ma_uint32)(writeOffsetInBytes + offsetInBytes); + } + } + + ma_atomic_exchange_32(&pRB->encodedWriteOffset, ma_rb__construct_offset(newWriteOffsetInBytes, newWriteOffsetLoopFlag)); + return MA_SUCCESS; +} + +MA_API ma_int32 ma_rb_pointer_distance(ma_rb* pRB) +{ + ma_uint32 readOffset; + ma_uint32 readOffsetInBytes; + ma_uint32 readOffsetLoopFlag; + ma_uint32 writeOffset; + ma_uint32 writeOffsetInBytes; + ma_uint32 writeOffsetLoopFlag; + + if (pRB == NULL) { + return 0; + } + + readOffset = ma_atomic_load_32(&pRB->encodedReadOffset); + ma_rb__deconstruct_offset(readOffset, &readOffsetInBytes, &readOffsetLoopFlag); + + writeOffset = ma_atomic_load_32(&pRB->encodedWriteOffset); + ma_rb__deconstruct_offset(writeOffset, &writeOffsetInBytes, &writeOffsetLoopFlag); + + if (readOffsetLoopFlag == writeOffsetLoopFlag) { + return writeOffsetInBytes - readOffsetInBytes; + } else { + return writeOffsetInBytes + (pRB->subbufferSizeInBytes - readOffsetInBytes); + } +} + +MA_API ma_uint32 ma_rb_available_read(ma_rb* pRB) +{ + ma_int32 dist; + + if (pRB == NULL) { + return 0; + } + + dist = ma_rb_pointer_distance(pRB); + if (dist < 0) { + return 0; + } + + return dist; +} + +MA_API ma_uint32 ma_rb_available_write(ma_rb* pRB) +{ + if (pRB == NULL) { + return 0; + } + + return (ma_uint32)(ma_rb_get_subbuffer_size(pRB) - ma_rb_pointer_distance(pRB)); +} + +MA_API size_t ma_rb_get_subbuffer_size(ma_rb* pRB) +{ + if (pRB == NULL) { + return 0; + } + + return pRB->subbufferSizeInBytes; +} + +MA_API size_t ma_rb_get_subbuffer_stride(ma_rb* pRB) +{ + if (pRB == NULL) { + return 0; + } + + if (pRB->subbufferStrideInBytes == 0) { + return (size_t)pRB->subbufferSizeInBytes; + } + + return (size_t)pRB->subbufferStrideInBytes; +} + +MA_API size_t ma_rb_get_subbuffer_offset(ma_rb* pRB, size_t subbufferIndex) +{ + if (pRB == NULL) { + return 0; + } + + return subbufferIndex * ma_rb_get_subbuffer_stride(pRB); +} + +MA_API void* ma_rb_get_subbuffer_ptr(ma_rb* pRB, size_t subbufferIndex, void* pBuffer) +{ + if (pRB == NULL) { + return NULL; + } + + return ma_offset_ptr(pBuffer, ma_rb_get_subbuffer_offset(pRB, subbufferIndex)); +} + + + +static ma_result ma_pcm_rb_data_source__on_read(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + /* Since there's no notion of an end, we don't ever want to return MA_AT_END here. But it is possible to return 0. */ + ma_pcm_rb* pRB = (ma_pcm_rb*)pDataSource; + ma_result result; + ma_uint64 totalFramesRead; + + MA_ASSERT(pRB != NULL); + + /* We need to run this in a loop since the ring buffer itself may loop. */ + totalFramesRead = 0; + while (totalFramesRead < frameCount) { + void* pMappedBuffer; + ma_uint32 mappedFrameCount; + ma_uint64 framesToRead = frameCount - totalFramesRead; + if (framesToRead > 0xFFFFFFFF) { + framesToRead = 0xFFFFFFFF; + } + + mappedFrameCount = (ma_uint32)framesToRead; + result = ma_pcm_rb_acquire_read(pRB, &mappedFrameCount, &pMappedBuffer); + if (result != MA_SUCCESS) { + break; + } + + if (mappedFrameCount == 0) { + break; /* <-- End of ring buffer. */ + } + + ma_copy_pcm_frames(ma_offset_pcm_frames_ptr(pFramesOut, totalFramesRead, pRB->format, pRB->channels), pMappedBuffer, mappedFrameCount, pRB->format, pRB->channels); + + result = ma_pcm_rb_commit_read(pRB, mappedFrameCount); + if (result != MA_SUCCESS) { + break; + } + + totalFramesRead += mappedFrameCount; + } + + /* + There is no notion of an "end" in a ring buffer. If we didn't have enough data to fill the requested frame + count we'll need to pad with silence. If we don't do this, totalFramesRead might equal 0 which will result + in the data source layer at a higher level translating this to MA_AT_END which is incorrect for a ring buffer. + */ + if (totalFramesRead < frameCount) { + ma_silence_pcm_frames(ma_offset_pcm_frames_ptr(pFramesOut, totalFramesRead, pRB->format, pRB->channels), (frameCount - totalFramesRead), pRB->format, pRB->channels); + totalFramesRead = frameCount; + } + + *pFramesRead = totalFramesRead; + return MA_SUCCESS; +} + +static ma_result ma_pcm_rb_data_source__on_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + ma_pcm_rb* pRB = (ma_pcm_rb*)pDataSource; + MA_ASSERT(pRB != NULL); + + if (pFormat != NULL) { + *pFormat = pRB->format; + } + + if (pChannels != NULL) { + *pChannels = pRB->channels; + } + + if (pSampleRate != NULL) { + *pSampleRate = pRB->sampleRate; + } + + /* Just assume the default channel map. */ + if (pChannelMap != NULL) { + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, pRB->channels); + } + + return MA_SUCCESS; +} + +static ma_data_source_vtable ma_gRBDataSourceVTable = +{ + ma_pcm_rb_data_source__on_read, + NULL, /* onSeek */ + ma_pcm_rb_data_source__on_get_data_format, + NULL, /* onGetCursor */ + NULL, /* onGetLength */ + NULL, /* onSetLooping */ + 0 +}; + +static MA_INLINE ma_uint32 ma_pcm_rb_get_bpf(ma_pcm_rb* pRB) +{ + MA_ASSERT(pRB != NULL); + + return ma_get_bytes_per_frame(pRB->format, pRB->channels); +} + +MA_API ma_result ma_pcm_rb_init_ex(ma_format format, ma_uint32 channels, ma_uint32 subbufferSizeInFrames, ma_uint32 subbufferCount, ma_uint32 subbufferStrideInFrames, void* pOptionalPreallocatedBuffer, const ma_allocation_callbacks* pAllocationCallbacks, ma_pcm_rb* pRB) +{ + ma_uint32 bpf; + ma_result result; + + if (pRB == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pRB); + + bpf = ma_get_bytes_per_frame(format, channels); + if (bpf == 0) { + return MA_INVALID_ARGS; + } + + result = ma_rb_init_ex(subbufferSizeInFrames*bpf, subbufferCount, subbufferStrideInFrames*bpf, pOptionalPreallocatedBuffer, pAllocationCallbacks, &pRB->rb); + if (result != MA_SUCCESS) { + return result; + } + + pRB->format = format; + pRB->channels = channels; + pRB->sampleRate = 0; /* The sample rate is not passed in as a parameter. */ + + /* The PCM ring buffer is a data source. We need to get that set up as well. */ + { + ma_data_source_config dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &ma_gRBDataSourceVTable; + + result = ma_data_source_init(&dataSourceConfig, &pRB->ds); + if (result != MA_SUCCESS) { + ma_rb_uninit(&pRB->rb); + return result; + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_pcm_rb_init(ma_format format, ma_uint32 channels, ma_uint32 bufferSizeInFrames, void* pOptionalPreallocatedBuffer, const ma_allocation_callbacks* pAllocationCallbacks, ma_pcm_rb* pRB) +{ + return ma_pcm_rb_init_ex(format, channels, bufferSizeInFrames, 1, 0, pOptionalPreallocatedBuffer, pAllocationCallbacks, pRB); +} + +MA_API void ma_pcm_rb_uninit(ma_pcm_rb* pRB) +{ + if (pRB == NULL) { + return; + } + + ma_data_source_uninit(&pRB->ds); + ma_rb_uninit(&pRB->rb); +} + +MA_API void ma_pcm_rb_reset(ma_pcm_rb* pRB) +{ + if (pRB == NULL) { + return; + } + + ma_rb_reset(&pRB->rb); +} + +MA_API ma_result ma_pcm_rb_acquire_read(ma_pcm_rb* pRB, ma_uint32* pSizeInFrames, void** ppBufferOut) +{ + size_t sizeInBytes; + ma_result result; + + if (pRB == NULL || pSizeInFrames == NULL) { + return MA_INVALID_ARGS; + } + + sizeInBytes = *pSizeInFrames * ma_pcm_rb_get_bpf(pRB); + + result = ma_rb_acquire_read(&pRB->rb, &sizeInBytes, ppBufferOut); + if (result != MA_SUCCESS) { + return result; + } + + *pSizeInFrames = (ma_uint32)(sizeInBytes / (size_t)ma_pcm_rb_get_bpf(pRB)); + return MA_SUCCESS; +} + +MA_API ma_result ma_pcm_rb_commit_read(ma_pcm_rb* pRB, ma_uint32 sizeInFrames) +{ + if (pRB == NULL) { + return MA_INVALID_ARGS; + } + + return ma_rb_commit_read(&pRB->rb, sizeInFrames * ma_pcm_rb_get_bpf(pRB)); +} + +MA_API ma_result ma_pcm_rb_acquire_write(ma_pcm_rb* pRB, ma_uint32* pSizeInFrames, void** ppBufferOut) +{ + size_t sizeInBytes; + ma_result result; + + if (pRB == NULL) { + return MA_INVALID_ARGS; + } + + sizeInBytes = *pSizeInFrames * ma_pcm_rb_get_bpf(pRB); + + result = ma_rb_acquire_write(&pRB->rb, &sizeInBytes, ppBufferOut); + if (result != MA_SUCCESS) { + return result; + } + + *pSizeInFrames = (ma_uint32)(sizeInBytes / ma_pcm_rb_get_bpf(pRB)); + return MA_SUCCESS; +} + +MA_API ma_result ma_pcm_rb_commit_write(ma_pcm_rb* pRB, ma_uint32 sizeInFrames) +{ + if (pRB == NULL) { + return MA_INVALID_ARGS; + } + + return ma_rb_commit_write(&pRB->rb, sizeInFrames * ma_pcm_rb_get_bpf(pRB)); +} + +MA_API ma_result ma_pcm_rb_seek_read(ma_pcm_rb* pRB, ma_uint32 offsetInFrames) +{ + if (pRB == NULL) { + return MA_INVALID_ARGS; + } + + return ma_rb_seek_read(&pRB->rb, offsetInFrames * ma_pcm_rb_get_bpf(pRB)); +} + +MA_API ma_result ma_pcm_rb_seek_write(ma_pcm_rb* pRB, ma_uint32 offsetInFrames) +{ + if (pRB == NULL) { + return MA_INVALID_ARGS; + } + + return ma_rb_seek_write(&pRB->rb, offsetInFrames * ma_pcm_rb_get_bpf(pRB)); +} + +MA_API ma_int32 ma_pcm_rb_pointer_distance(ma_pcm_rb* pRB) +{ + if (pRB == NULL) { + return 0; + } + + return ma_rb_pointer_distance(&pRB->rb) / ma_pcm_rb_get_bpf(pRB); +} + +MA_API ma_uint32 ma_pcm_rb_available_read(ma_pcm_rb* pRB) +{ + if (pRB == NULL) { + return 0; + } + + return ma_rb_available_read(&pRB->rb) / ma_pcm_rb_get_bpf(pRB); +} + +MA_API ma_uint32 ma_pcm_rb_available_write(ma_pcm_rb* pRB) +{ + if (pRB == NULL) { + return 0; + } + + return ma_rb_available_write(&pRB->rb) / ma_pcm_rb_get_bpf(pRB); +} + +MA_API ma_uint32 ma_pcm_rb_get_subbuffer_size(ma_pcm_rb* pRB) +{ + if (pRB == NULL) { + return 0; + } + + return (ma_uint32)(ma_rb_get_subbuffer_size(&pRB->rb) / ma_pcm_rb_get_bpf(pRB)); +} + +MA_API ma_uint32 ma_pcm_rb_get_subbuffer_stride(ma_pcm_rb* pRB) +{ + if (pRB == NULL) { + return 0; + } + + return (ma_uint32)(ma_rb_get_subbuffer_stride(&pRB->rb) / ma_pcm_rb_get_bpf(pRB)); +} + +MA_API ma_uint32 ma_pcm_rb_get_subbuffer_offset(ma_pcm_rb* pRB, ma_uint32 subbufferIndex) +{ + if (pRB == NULL) { + return 0; + } + + return (ma_uint32)(ma_rb_get_subbuffer_offset(&pRB->rb, subbufferIndex) / ma_pcm_rb_get_bpf(pRB)); +} + +MA_API void* ma_pcm_rb_get_subbuffer_ptr(ma_pcm_rb* pRB, ma_uint32 subbufferIndex, void* pBuffer) +{ + if (pRB == NULL) { + return NULL; + } + + return ma_rb_get_subbuffer_ptr(&pRB->rb, subbufferIndex, pBuffer); +} + +MA_API ma_format ma_pcm_rb_get_format(const ma_pcm_rb* pRB) +{ + if (pRB == NULL) { + return ma_format_unknown; + } + + return pRB->format; +} + +MA_API ma_uint32 ma_pcm_rb_get_channels(const ma_pcm_rb* pRB) +{ + if (pRB == NULL) { + return 0; + } + + return pRB->channels; +} + +MA_API ma_uint32 ma_pcm_rb_get_sample_rate(const ma_pcm_rb* pRB) +{ + if (pRB == NULL) { + return 0; + } + + return pRB->sampleRate; +} + +MA_API void ma_pcm_rb_set_sample_rate(ma_pcm_rb* pRB, ma_uint32 sampleRate) +{ + if (pRB == NULL) { + return; + } + + pRB->sampleRate = sampleRate; +} + + + +MA_API ma_result ma_duplex_rb_init(ma_format captureFormat, ma_uint32 captureChannels, ma_uint32 sampleRate, ma_uint32 captureInternalSampleRate, ma_uint32 captureInternalPeriodSizeInFrames, const ma_allocation_callbacks* pAllocationCallbacks, ma_duplex_rb* pRB) +{ + ma_result result; + ma_uint32 sizeInFrames; + + sizeInFrames = (ma_uint32)ma_calculate_frame_count_after_resampling(sampleRate, captureInternalSampleRate, captureInternalPeriodSizeInFrames * 5); + if (sizeInFrames == 0) { + return MA_INVALID_ARGS; + } + + result = ma_pcm_rb_init(captureFormat, captureChannels, sizeInFrames, NULL, pAllocationCallbacks, &pRB->rb); + if (result != MA_SUCCESS) { + return result; + } + + /* Seek forward a bit so we have a bit of a buffer in case of desyncs. */ + ma_pcm_rb_seek_write((ma_pcm_rb*)pRB, captureInternalPeriodSizeInFrames * 2); + + return MA_SUCCESS; +} + +MA_API ma_result ma_duplex_rb_uninit(ma_duplex_rb* pRB) +{ + ma_pcm_rb_uninit((ma_pcm_rb*)pRB); + return MA_SUCCESS; +} + + + +/************************************************************************************************************************************************************** + +Miscellaneous Helpers + +**************************************************************************************************************************************************************/ +MA_API const char* ma_result_description(ma_result result) +{ + switch (result) + { + case MA_SUCCESS: return "No error"; + case MA_ERROR: return "Unknown error"; + case MA_INVALID_ARGS: return "Invalid argument"; + case MA_INVALID_OPERATION: return "Invalid operation"; + case MA_OUT_OF_MEMORY: return "Out of memory"; + case MA_OUT_OF_RANGE: return "Out of range"; + case MA_ACCESS_DENIED: return "Permission denied"; + case MA_DOES_NOT_EXIST: return "Resource does not exist"; + case MA_ALREADY_EXISTS: return "Resource already exists"; + case MA_TOO_MANY_OPEN_FILES: return "Too many open files"; + case MA_INVALID_FILE: return "Invalid file"; + case MA_TOO_BIG: return "Too large"; + case MA_PATH_TOO_LONG: return "Path too long"; + case MA_NAME_TOO_LONG: return "Name too long"; + case MA_NOT_DIRECTORY: return "Not a directory"; + case MA_IS_DIRECTORY: return "Is a directory"; + case MA_DIRECTORY_NOT_EMPTY: return "Directory not empty"; + case MA_AT_END: return "At end"; + case MA_NO_SPACE: return "No space available"; + case MA_BUSY: return "Device or resource busy"; + case MA_IO_ERROR: return "Input/output error"; + case MA_INTERRUPT: return "Interrupted"; + case MA_UNAVAILABLE: return "Resource unavailable"; + case MA_ALREADY_IN_USE: return "Resource already in use"; + case MA_BAD_ADDRESS: return "Bad address"; + case MA_BAD_SEEK: return "Illegal seek"; + case MA_BAD_PIPE: return "Broken pipe"; + case MA_DEADLOCK: return "Deadlock"; + case MA_TOO_MANY_LINKS: return "Too many links"; + case MA_NOT_IMPLEMENTED: return "Not implemented"; + case MA_NO_MESSAGE: return "No message of desired type"; + case MA_BAD_MESSAGE: return "Invalid message"; + case MA_NO_DATA_AVAILABLE: return "No data available"; + case MA_INVALID_DATA: return "Invalid data"; + case MA_TIMEOUT: return "Timeout"; + case MA_NO_NETWORK: return "Network unavailable"; + case MA_NOT_UNIQUE: return "Not unique"; + case MA_NOT_SOCKET: return "Socket operation on non-socket"; + case MA_NO_ADDRESS: return "Destination address required"; + case MA_BAD_PROTOCOL: return "Protocol wrong type for socket"; + case MA_PROTOCOL_UNAVAILABLE: return "Protocol not available"; + case MA_PROTOCOL_NOT_SUPPORTED: return "Protocol not supported"; + case MA_PROTOCOL_FAMILY_NOT_SUPPORTED: return "Protocol family not supported"; + case MA_ADDRESS_FAMILY_NOT_SUPPORTED: return "Address family not supported"; + case MA_SOCKET_NOT_SUPPORTED: return "Socket type not supported"; + case MA_CONNECTION_RESET: return "Connection reset"; + case MA_ALREADY_CONNECTED: return "Already connected"; + case MA_NOT_CONNECTED: return "Not connected"; + case MA_CONNECTION_REFUSED: return "Connection refused"; + case MA_NO_HOST: return "No host"; + case MA_IN_PROGRESS: return "Operation in progress"; + case MA_CANCELLED: return "Operation cancelled"; + case MA_MEMORY_ALREADY_MAPPED: return "Memory already mapped"; + + case MA_FORMAT_NOT_SUPPORTED: return "Format not supported"; + case MA_DEVICE_TYPE_NOT_SUPPORTED: return "Device type not supported"; + case MA_SHARE_MODE_NOT_SUPPORTED: return "Share mode not supported"; + case MA_NO_BACKEND: return "No backend"; + case MA_NO_DEVICE: return "No device"; + case MA_API_NOT_FOUND: return "API not found"; + case MA_INVALID_DEVICE_CONFIG: return "Invalid device config"; + + case MA_DEVICE_NOT_INITIALIZED: return "Device not initialized"; + case MA_DEVICE_NOT_STARTED: return "Device not started"; + + case MA_FAILED_TO_INIT_BACKEND: return "Failed to initialize backend"; + case MA_FAILED_TO_OPEN_BACKEND_DEVICE: return "Failed to open backend device"; + case MA_FAILED_TO_START_BACKEND_DEVICE: return "Failed to start backend device"; + case MA_FAILED_TO_STOP_BACKEND_DEVICE: return "Failed to stop backend device"; + + default: return "Unknown error"; + } +} + +MA_API void* ma_malloc(size_t sz, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks != NULL) { + if (pAllocationCallbacks->onMalloc != NULL) { + return pAllocationCallbacks->onMalloc(sz, pAllocationCallbacks->pUserData); + } else { + return NULL; /* Do not fall back to the default implementation. */ + } + } else { + return ma__malloc_default(sz, NULL); + } +} + +MA_API void* ma_calloc(size_t sz, const ma_allocation_callbacks* pAllocationCallbacks) +{ + void* p = ma_malloc(sz, pAllocationCallbacks); + if (p != NULL) { + MA_ZERO_MEMORY(p, sz); + } + + return p; +} + +MA_API void* ma_realloc(void* p, size_t sz, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks != NULL) { + if (pAllocationCallbacks->onRealloc != NULL) { + return pAllocationCallbacks->onRealloc(p, sz, pAllocationCallbacks->pUserData); + } else { + return NULL; /* Do not fall back to the default implementation. */ + } + } else { + return ma__realloc_default(p, sz, NULL); + } +} + +MA_API void ma_free(void* p, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (p == NULL) { + return; + } + + if (pAllocationCallbacks != NULL) { + if (pAllocationCallbacks->onFree != NULL) { + pAllocationCallbacks->onFree(p, pAllocationCallbacks->pUserData); + } else { + return; /* Do no fall back to the default implementation. */ + } + } else { + ma__free_default(p, NULL); + } +} + +MA_API void* ma_aligned_malloc(size_t sz, size_t alignment, const ma_allocation_callbacks* pAllocationCallbacks) +{ + size_t extraBytes; + void* pUnaligned; + void* pAligned; + + if (alignment == 0) { + return 0; + } + + extraBytes = alignment-1 + sizeof(void*); + + pUnaligned = ma_malloc(sz + extraBytes, pAllocationCallbacks); + if (pUnaligned == NULL) { + return NULL; + } + + pAligned = (void*)(((ma_uintptr)pUnaligned + extraBytes) & ~((ma_uintptr)(alignment-1))); + ((void**)pAligned)[-1] = pUnaligned; + + return pAligned; +} + +MA_API void ma_aligned_free(void* p, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_free(((void**)p)[-1], pAllocationCallbacks); +} + +MA_API const char* ma_get_format_name(ma_format format) +{ + switch (format) + { + case ma_format_unknown: return "Unknown"; + case ma_format_u8: return "8-bit Unsigned Integer"; + case ma_format_s16: return "16-bit Signed Integer"; + case ma_format_s24: return "24-bit Signed Integer (Tightly Packed)"; + case ma_format_s32: return "32-bit Signed Integer"; + case ma_format_f32: return "32-bit IEEE Floating Point"; + default: return "Invalid"; + } +} + +MA_API void ma_blend_f32(float* pOut, float* pInA, float* pInB, float factor, ma_uint32 channels) +{ + ma_uint32 i; + for (i = 0; i < channels; ++i) { + pOut[i] = ma_mix_f32(pInA[i], pInB[i], factor); + } +} + + +MA_API ma_uint32 ma_get_bytes_per_sample(ma_format format) +{ + ma_uint32 sizes[] = { + 0, /* unknown */ + 1, /* u8 */ + 2, /* s16 */ + 3, /* s24 */ + 4, /* s32 */ + 4, /* f32 */ + }; + return sizes[format]; +} + + + +#define MA_DATA_SOURCE_DEFAULT_RANGE_BEG 0 +#define MA_DATA_SOURCE_DEFAULT_RANGE_END ~((ma_uint64)0) +#define MA_DATA_SOURCE_DEFAULT_LOOP_POINT_BEG 0 +#define MA_DATA_SOURCE_DEFAULT_LOOP_POINT_END ~((ma_uint64)0) + +MA_API ma_data_source_config ma_data_source_config_init(void) +{ + ma_data_source_config config; + + MA_ZERO_OBJECT(&config); + + return config; +} + + +MA_API ma_result ma_data_source_init(const ma_data_source_config* pConfig, ma_data_source* pDataSource) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pDataSourceBase); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->vtable == NULL) { + return MA_INVALID_ARGS; + } + + pDataSourceBase->vtable = pConfig->vtable; + pDataSourceBase->rangeBegInFrames = MA_DATA_SOURCE_DEFAULT_RANGE_BEG; + pDataSourceBase->rangeEndInFrames = MA_DATA_SOURCE_DEFAULT_RANGE_END; + pDataSourceBase->loopBegInFrames = MA_DATA_SOURCE_DEFAULT_LOOP_POINT_BEG; + pDataSourceBase->loopEndInFrames = MA_DATA_SOURCE_DEFAULT_LOOP_POINT_END; + pDataSourceBase->pCurrent = pDataSource; /* Always read from ourself by default. */ + pDataSourceBase->pNext = NULL; + pDataSourceBase->onGetNext = NULL; + + return MA_SUCCESS; +} + +MA_API void ma_data_source_uninit(ma_data_source* pDataSource) +{ + if (pDataSource == NULL) { + return; + } + + /* + This is placeholder in case we need this later. Data sources need to call this in their + uninitialization routine to ensure things work later on if something is added here. + */ +} + +static ma_result ma_data_source_resolve_current(ma_data_source* pDataSource, ma_data_source** ppCurrentDataSource) +{ + ma_data_source_base* pCurrentDataSource = (ma_data_source_base*)pDataSource; + + MA_ASSERT(pDataSource != NULL); + MA_ASSERT(ppCurrentDataSource != NULL); + + if (pCurrentDataSource->pCurrent == NULL) { + /* + The current data source is NULL. If we're using this in the context of a chain we need to return NULL + here so that we don't end up looping. Otherwise we just return the data source itself. + */ + if (pCurrentDataSource->pNext != NULL || pCurrentDataSource->onGetNext != NULL) { + pCurrentDataSource = NULL; + } else { + pCurrentDataSource = (ma_data_source_base*)pDataSource; /* Not being used in a chain. Make sure we just always read from the data source itself at all times. */ + } + } else { + pCurrentDataSource = (ma_data_source_base*)pCurrentDataSource->pCurrent; + } + + *ppCurrentDataSource = pCurrentDataSource; + + return MA_SUCCESS; +} + +static ma_result ma_data_source_read_pcm_frames_from_backend(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + + MA_ASSERT(pDataSourceBase != NULL); + MA_ASSERT(pDataSourceBase->vtable != NULL); + MA_ASSERT(pDataSourceBase->vtable->onRead != NULL); + MA_ASSERT(pFramesRead != NULL); + + if (pFramesOut != NULL) { + return pDataSourceBase->vtable->onRead(pDataSourceBase, pFramesOut, frameCount, pFramesRead); + } else { + /* + No output buffer. Probably seeking forward. Read and discard. Can probably optimize this in terms of + onSeek and onGetCursor, but need to keep in mind that the data source may not implement these functions. + */ + ma_result result; + ma_uint64 framesRead; + ma_format format; + ma_uint32 channels; + ma_uint64 discardBufferCapInFrames; + ma_uint8 pDiscardBuffer[4096]; + + result = ma_data_source_get_data_format(pDataSource, &format, &channels, NULL, NULL, 0); + if (result != MA_SUCCESS) { + return result; + } + + discardBufferCapInFrames = sizeof(pDiscardBuffer) / ma_get_bytes_per_frame(format, channels); + + framesRead = 0; + while (framesRead < frameCount) { + ma_uint64 framesReadThisIteration = 0; + ma_uint64 framesToRead = frameCount - framesRead; + if (framesToRead > discardBufferCapInFrames) { + framesToRead = discardBufferCapInFrames; + } + + result = pDataSourceBase->vtable->onRead(pDataSourceBase, pDiscardBuffer, framesToRead, &framesReadThisIteration); + if (result != MA_SUCCESS) { + return result; + } + + framesRead += framesReadThisIteration; + } + + *pFramesRead = framesRead; + + return MA_SUCCESS; + } +} + +static ma_result ma_data_source_read_pcm_frames_within_range(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + ma_result result; + ma_uint64 framesRead = 0; + ma_bool32 loop = ma_data_source_is_looping(pDataSource); + + if (pDataSourceBase == NULL) { + return MA_AT_END; + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + MA_ASSERT(pDataSourceBase->vtable != NULL); + + if ((pDataSourceBase->vtable->flags & MA_DATA_SOURCE_SELF_MANAGED_RANGE_AND_LOOP_POINT) != 0 || (pDataSourceBase->rangeEndInFrames == ~((ma_uint64)0) && (pDataSourceBase->loopEndInFrames == ~((ma_uint64)0) || loop == MA_FALSE))) { + /* Either the data source is self-managing the range, or no range is set - just read like normal. The data source itself will tell us when the end is reached. */ + result = ma_data_source_read_pcm_frames_from_backend(pDataSource, pFramesOut, frameCount, &framesRead); + } else { + /* Need to clamp to within the range. */ + ma_uint64 relativeCursor; + ma_uint64 absoluteCursor; + + result = ma_data_source_get_cursor_in_pcm_frames(pDataSourceBase, &relativeCursor); + if (result != MA_SUCCESS) { + /* Failed to retrieve the cursor. Cannot read within a range or loop points. Just read like normal - this may happen for things like noise data sources where it doesn't really matter. */ + result = ma_data_source_read_pcm_frames_from_backend(pDataSource, pFramesOut, frameCount, &framesRead); + } else { + ma_uint64 rangeBeg; + ma_uint64 rangeEnd; + + /* We have the cursor. We need to make sure we don't read beyond our range. */ + rangeBeg = pDataSourceBase->rangeBegInFrames; + rangeEnd = pDataSourceBase->rangeEndInFrames; + + absoluteCursor = rangeBeg + relativeCursor; + + /* If looping, make sure we're within range. */ + if (loop) { + if (pDataSourceBase->loopEndInFrames != ~((ma_uint64)0)) { + rangeEnd = ma_min(rangeEnd, pDataSourceBase->rangeBegInFrames + pDataSourceBase->loopEndInFrames); + } + } + + if (frameCount > (rangeEnd - absoluteCursor) && rangeEnd != ~((ma_uint64)0)) { + frameCount = (rangeEnd - absoluteCursor); + } + + /* + If the cursor is sitting on the end of the range the frame count will be set to 0 which can + result in MA_INVALID_ARGS. In this case, we don't want to try reading, but instead return + MA_AT_END so the higher level function can know about it. + */ + if (frameCount > 0) { + result = ma_data_source_read_pcm_frames_from_backend(pDataSource, pFramesOut, frameCount, &framesRead); + } else { + result = MA_AT_END; /* The cursor is sitting on the end of the range which means we're at the end. */ + } + } + } + + if (pFramesRead != NULL) { + *pFramesRead = framesRead; + } + + /* We need to make sure MA_AT_END is returned if we hit the end of the range. */ + if (result == MA_SUCCESS && framesRead == 0) { + result = MA_AT_END; + } + + return result; +} + +MA_API ma_result ma_data_source_read_pcm_frames(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_result result = MA_SUCCESS; + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + ma_data_source_base* pCurrentDataSource; + void* pRunningFramesOut = pFramesOut; + ma_uint64 totalFramesProcessed = 0; + ma_format format; + ma_uint32 channels; + ma_uint32 emptyLoopCounter = 0; /* Keeps track of how many times 0 frames have been read. For infinite loop detection of sounds with no audio data. */ + ma_bool32 loop; + + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + if (pDataSourceBase == NULL) { + return MA_INVALID_ARGS; + } + + loop = ma_data_source_is_looping(pDataSource); + + /* + We need to know the data format so we can advance the output buffer as we read frames. If this + fails, chaining will not work and we'll just read as much as we can from the current source. + */ + if (ma_data_source_get_data_format(pDataSource, &format, &channels, NULL, NULL, 0) != MA_SUCCESS) { + result = ma_data_source_resolve_current(pDataSource, (ma_data_source**)&pCurrentDataSource); + if (result != MA_SUCCESS) { + return result; + } + + return ma_data_source_read_pcm_frames_within_range(pCurrentDataSource, pFramesOut, frameCount, pFramesRead); + } + + /* + Looping is a bit of a special case. When the `loop` argument is true, chaining will not work and + only the current data source will be read from. + */ + + /* Keep reading until we've read as many frames as possible. */ + while (totalFramesProcessed < frameCount) { + ma_uint64 framesProcessed; + ma_uint64 framesRemaining = frameCount - totalFramesProcessed; + + /* We need to resolve the data source that we'll actually be reading from. */ + result = ma_data_source_resolve_current(pDataSource, (ma_data_source**)&pCurrentDataSource); + if (result != MA_SUCCESS) { + break; + } + + if (pCurrentDataSource == NULL) { + break; + } + + result = ma_data_source_read_pcm_frames_within_range(pCurrentDataSource, pRunningFramesOut, framesRemaining, &framesProcessed); + totalFramesProcessed += framesProcessed; + + /* + If we encountered an error from the read callback, make sure it's propagated to the caller. The caller may need to know whether or not MA_BUSY is returned which is + not necessarily considered an error. + */ + if (result != MA_SUCCESS && result != MA_AT_END) { + break; + } + + /* + We can determine if we've reached the end by checking if ma_data_source_read_pcm_frames_within_range() returned + MA_AT_END. To loop back to the start, all we need to do is seek back to the first frame. + */ + if (result == MA_AT_END) { + /* + The result needs to be reset back to MA_SUCCESS (from MA_AT_END) so that we don't + accidentally return MA_AT_END when data has been read in prior loop iterations. at the + end of this function, the result will be checked for MA_SUCCESS, and if the total + number of frames processed is 0, will be explicitly set to MA_AT_END. + */ + result = MA_SUCCESS; + + /* + We reached the end. If we're looping, we just loop back to the start of the current + data source. If we're not looping we need to check if we have another in the chain, and + if so, switch to it. + */ + if (loop) { + if (framesProcessed == 0) { + emptyLoopCounter += 1; + if (emptyLoopCounter > 1) { + break; /* Infinite loop detected. Get out. */ + } + } else { + emptyLoopCounter = 0; + } + + result = ma_data_source_seek_to_pcm_frame(pCurrentDataSource, pCurrentDataSource->loopBegInFrames); + if (result != MA_SUCCESS) { + break; /* Failed to loop. Abort. */ + } + + /* Don't return MA_AT_END for looping sounds. */ + result = MA_SUCCESS; + } else { + if (pCurrentDataSource->pNext != NULL) { + pDataSourceBase->pCurrent = pCurrentDataSource->pNext; + } else if (pCurrentDataSource->onGetNext != NULL) { + pDataSourceBase->pCurrent = pCurrentDataSource->onGetNext(pCurrentDataSource); + if (pDataSourceBase->pCurrent == NULL) { + break; /* Our callback did not return a next data source. We're done. */ + } + } else { + /* Reached the end of the chain. We're done. */ + break; + } + + /* The next data source needs to be rewound to ensure data is read in looping scenarios. */ + result = ma_data_source_seek_to_pcm_frame(pDataSourceBase->pCurrent, 0); + if (result != MA_SUCCESS) { + break; + } + } + } + + if (pRunningFramesOut != NULL) { + pRunningFramesOut = ma_offset_ptr(pRunningFramesOut, framesProcessed * ma_get_bytes_per_frame(format, channels)); + } + } + + if (pFramesRead != NULL) { + *pFramesRead = totalFramesProcessed; + } + + MA_ASSERT(!(result == MA_AT_END && totalFramesProcessed > 0)); /* We should never be returning MA_AT_END if we read some data. */ + + if (result == MA_SUCCESS && totalFramesProcessed == 0) { + result = MA_AT_END; + } + + return result; +} + +MA_API ma_result ma_data_source_seek_pcm_frames(ma_data_source* pDataSource, ma_uint64 frameCount, ma_uint64* pFramesSeeked) +{ + return ma_data_source_read_pcm_frames(pDataSource, NULL, frameCount, pFramesSeeked); +} + +MA_API ma_result ma_data_source_seek_to_pcm_frame(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + + if (pDataSourceBase == NULL) { + return MA_INVALID_ARGS; + } + + if (pDataSourceBase->vtable->onSeek == NULL) { + return MA_NOT_IMPLEMENTED; + } + + if (frameIndex > pDataSourceBase->rangeEndInFrames) { + return MA_INVALID_OPERATION; /* Trying to seek too far forward. */ + } + + MA_ASSERT(pDataSourceBase->vtable != NULL); + + return pDataSourceBase->vtable->onSeek(pDataSource, pDataSourceBase->rangeBegInFrames + frameIndex); +} + +MA_API ma_result ma_data_source_seek_seconds(ma_data_source* pDataSource, float secondCount, float* pSecondsSeeked) +{ + ma_uint64 frameCount; + ma_uint64 framesSeeked = 0; + ma_uint32 sampleRate; + ma_result result; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_data_source_get_data_format(pDataSource, NULL, NULL, &sampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; + } + + /* We need PCM frames instead of seconds */ + frameCount = (ma_uint64)(secondCount * sampleRate); + + result = ma_data_source_seek_pcm_frames(pDataSource, frameCount, &framesSeeked); + + /* VC6 doesn't support division between unsigned 64-bit integer and floating point number. Signed integer needed. This shouldn't affect anything in practice */ + *pSecondsSeeked = (ma_int64)framesSeeked / (float)sampleRate; + return result; +} + +MA_API ma_result ma_data_source_seek_to_second(ma_data_source* pDataSource, float seekPointInSeconds) +{ + ma_uint64 frameIndex; + ma_uint32 sampleRate; + ma_result result; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_data_source_get_data_format(pDataSource, NULL, NULL, &sampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; + } + + /* We need PCM frames instead of seconds */ + frameIndex = (ma_uint64)(seekPointInSeconds * sampleRate); + + return ma_data_source_seek_to_pcm_frame(pDataSource, frameIndex); +} + +MA_API ma_result ma_data_source_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + ma_result result; + ma_format format; + ma_uint32 channels; + ma_uint32 sampleRate; + + /* Initialize to defaults for safety just in case the data source does not implement this callback. */ + if (pFormat != NULL) { + *pFormat = ma_format_unknown; + } + if (pChannels != NULL) { + *pChannels = 0; + } + if (pSampleRate != NULL) { + *pSampleRate = 0; + } + if (pChannelMap != NULL) { + MA_ZERO_MEMORY(pChannelMap, sizeof(*pChannelMap) * channelMapCap); + } + + if (pDataSourceBase == NULL) { + return MA_INVALID_ARGS; + } + + MA_ASSERT(pDataSourceBase->vtable != NULL); + + if (pDataSourceBase->vtable->onGetDataFormat == NULL) { + return MA_NOT_IMPLEMENTED; + } + + result = pDataSourceBase->vtable->onGetDataFormat(pDataSource, &format, &channels, &sampleRate, pChannelMap, channelMapCap); + if (result != MA_SUCCESS) { + return result; + } + + if (pFormat != NULL) { + *pFormat = format; + } + if (pChannels != NULL) { + *pChannels = channels; + } + if (pSampleRate != NULL) { + *pSampleRate = sampleRate; + } + + /* Channel map was passed in directly to the callback. This is safe due to the channelMapCap parameter. */ + + return MA_SUCCESS; +} + +MA_API ma_result ma_data_source_get_cursor_in_pcm_frames(ma_data_source* pDataSource, ma_uint64* pCursor) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + ma_result result; + ma_uint64 cursor; + + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; + + if (pDataSourceBase == NULL) { + return MA_SUCCESS; + } + + MA_ASSERT(pDataSourceBase->vtable != NULL); + + if (pDataSourceBase->vtable->onGetCursor == NULL) { + return MA_NOT_IMPLEMENTED; + } + + result = pDataSourceBase->vtable->onGetCursor(pDataSourceBase, &cursor); + if (result != MA_SUCCESS) { + return result; + } + + /* The cursor needs to be made relative to the start of the range. */ + if (cursor < pDataSourceBase->rangeBegInFrames) { /* Safety check so we don't return some huge number. */ + *pCursor = 0; + } else { + *pCursor = cursor - pDataSourceBase->rangeBegInFrames; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_data_source_get_length_in_pcm_frames(ma_data_source* pDataSource, ma_uint64* pLength) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + + if (pLength == NULL) { + return MA_INVALID_ARGS; + } + + *pLength = 0; + + if (pDataSourceBase == NULL) { + return MA_INVALID_ARGS; + } + + MA_ASSERT(pDataSourceBase->vtable != NULL); + + /* + If we have a range defined we'll use that to determine the length. This is one of rare times + where we'll actually trust the caller. If they've set the range, I think it's mostly safe to + assume they've set it based on some higher level knowledge of the structure of the sound bank. + */ + if (pDataSourceBase->rangeEndInFrames != ~((ma_uint64)0)) { + *pLength = pDataSourceBase->rangeEndInFrames - pDataSourceBase->rangeBegInFrames; + return MA_SUCCESS; + } + + /* + Getting here means a range is not defined so we'll need to get the data source itself to tell + us the length. + */ + if (pDataSourceBase->vtable->onGetLength == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pDataSourceBase->vtable->onGetLength(pDataSource, pLength); +} + +MA_API ma_result ma_data_source_get_cursor_in_seconds(ma_data_source* pDataSource, float* pCursor) +{ + ma_result result; + ma_uint64 cursorInPCMFrames; + ma_uint32 sampleRate; + + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; + + result = ma_data_source_get_cursor_in_pcm_frames(pDataSource, &cursorInPCMFrames); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_data_source_get_data_format(pDataSource, NULL, NULL, &sampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; + } + + /* VC6 does not support division of unsigned 64-bit integers with floating point numbers. Need to use a signed number. This shouldn't effect anything in practice. */ + *pCursor = (ma_int64)cursorInPCMFrames / (float)sampleRate; + + return MA_SUCCESS; +} + +MA_API ma_result ma_data_source_get_length_in_seconds(ma_data_source* pDataSource, float* pLength) +{ + ma_result result; + ma_uint64 lengthInPCMFrames; + ma_uint32 sampleRate; + + if (pLength == NULL) { + return MA_INVALID_ARGS; + } + + *pLength = 0; + + result = ma_data_source_get_length_in_pcm_frames(pDataSource, &lengthInPCMFrames); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_data_source_get_data_format(pDataSource, NULL, NULL, &sampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; + } + + /* VC6 does not support division of unsigned 64-bit integers with floating point numbers. Need to use a signed number. This shouldn't effect anything in practice. */ + *pLength = (ma_int64)lengthInPCMFrames / (float)sampleRate; + + return MA_SUCCESS; +} + +MA_API ma_result ma_data_source_set_looping(ma_data_source* pDataSource, ma_bool32 isLooping) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + ma_atomic_exchange_32(&pDataSourceBase->isLooping, isLooping); + + MA_ASSERT(pDataSourceBase->vtable != NULL); + + /* If there's no callback for this just treat it as a successful no-op. */ + if (pDataSourceBase->vtable->onSetLooping == NULL) { + return MA_SUCCESS; + } + + return pDataSourceBase->vtable->onSetLooping(pDataSource, isLooping); +} + +MA_API ma_bool32 ma_data_source_is_looping(const ma_data_source* pDataSource) +{ + const ma_data_source_base* pDataSourceBase = (const ma_data_source_base*)pDataSource; + + if (pDataSource == NULL) { + return MA_FALSE; + } + + return ma_atomic_load_32(&pDataSourceBase->isLooping); +} + +MA_API ma_result ma_data_source_set_range_in_pcm_frames(ma_data_source* pDataSource, ma_uint64 rangeBegInFrames, ma_uint64 rangeEndInFrames) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + ma_result result; + ma_uint64 relativeCursor; + ma_uint64 absoluteCursor; + ma_bool32 doSeekAdjustment = MA_FALSE; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if (rangeEndInFrames < rangeBegInFrames) { + return MA_INVALID_ARGS; /* The end of the range must come after the beginning. */ + } + + /* + We may need to adjust the position of the cursor to ensure it's clamped to the range. Grab it now + so we can calculate its absolute position before we change the range. + */ + result = ma_data_source_get_cursor_in_pcm_frames(pDataSource, &relativeCursor); + if (result == MA_SUCCESS) { + doSeekAdjustment = MA_TRUE; + absoluteCursor = relativeCursor + pDataSourceBase->rangeBegInFrames; + } else { + /* + We couldn't get the position of the cursor. It probably means the data source has no notion + of a cursor. We'll just leave it at position 0. Don't treat this as an error. + */ + doSeekAdjustment = MA_FALSE; + relativeCursor = 0; + absoluteCursor = 0; + } + + pDataSourceBase->rangeBegInFrames = rangeBegInFrames; + pDataSourceBase->rangeEndInFrames = rangeEndInFrames; + + /* + The commented out logic below was intended to maintain loop points in response to a change in the + range. However, this is not useful because it results in the sound breaking when you move the range + outside of the old loop points. I'm simplifying this by simply resetting the loop points. The + caller is expected to update their loop points if they change the range. + + In practice this should be mostly a non-issue because the majority of the time the range will be + set once right after initialization. + */ + pDataSourceBase->loopBegInFrames = 0; + pDataSourceBase->loopEndInFrames = ~((ma_uint64)0); + + + /* + Seek to within range. Note that our seek positions here are relative to the new range. We don't want + to do this if we failed to retrieve the cursor earlier on because it probably means the data source + has no notion of a cursor. In practice the seek would probably fail (which we silently ignore), but + I'm just not even going to attempt it. + */ + if (doSeekAdjustment) { + if (absoluteCursor < rangeBegInFrames) { + ma_data_source_seek_to_pcm_frame(pDataSource, 0); + } else if (absoluteCursor > rangeEndInFrames) { + ma_data_source_seek_to_pcm_frame(pDataSource, rangeEndInFrames - rangeBegInFrames); + } + } + + return MA_SUCCESS; +} + +MA_API void ma_data_source_get_range_in_pcm_frames(const ma_data_source* pDataSource, ma_uint64* pRangeBegInFrames, ma_uint64* pRangeEndInFrames) +{ + const ma_data_source_base* pDataSourceBase = (const ma_data_source_base*)pDataSource; + + if (pRangeBegInFrames != NULL) { + *pRangeBegInFrames = 0; + } + if (pRangeEndInFrames != NULL) { + *pRangeEndInFrames = 0; + } + + if (pDataSource == NULL) { + return; + } + + if (pRangeBegInFrames != NULL) { + *pRangeBegInFrames = pDataSourceBase->rangeBegInFrames; + } + + if (pRangeEndInFrames != NULL) { + *pRangeEndInFrames = pDataSourceBase->rangeEndInFrames; + } +} + +MA_API ma_result ma_data_source_set_loop_point_in_pcm_frames(ma_data_source* pDataSource, ma_uint64 loopBegInFrames, ma_uint64 loopEndInFrames) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if (loopEndInFrames < loopBegInFrames) { + return MA_INVALID_ARGS; /* The end of the loop point must come after the beginning. */ + } + + if (loopEndInFrames > pDataSourceBase->rangeEndInFrames && loopEndInFrames != ~((ma_uint64)0)) { + return MA_INVALID_ARGS; /* The end of the loop point must not go beyond the range. */ + } + + pDataSourceBase->loopBegInFrames = loopBegInFrames; + pDataSourceBase->loopEndInFrames = loopEndInFrames; + + /* The end cannot exceed the range. */ + if (pDataSourceBase->loopEndInFrames > (pDataSourceBase->rangeEndInFrames - pDataSourceBase->rangeBegInFrames) && pDataSourceBase->loopEndInFrames != ~((ma_uint64)0)) { + pDataSourceBase->loopEndInFrames = (pDataSourceBase->rangeEndInFrames - pDataSourceBase->rangeBegInFrames); + } + + return MA_SUCCESS; +} + +MA_API void ma_data_source_get_loop_point_in_pcm_frames(const ma_data_source* pDataSource, ma_uint64* pLoopBegInFrames, ma_uint64* pLoopEndInFrames) +{ + const ma_data_source_base* pDataSourceBase = (const ma_data_source_base*)pDataSource; + + if (pLoopBegInFrames != NULL) { + *pLoopBegInFrames = 0; + } + if (pLoopEndInFrames != NULL) { + *pLoopEndInFrames = 0; + } + + if (pDataSource == NULL) { + return; + } + + if (pLoopBegInFrames != NULL) { + *pLoopBegInFrames = pDataSourceBase->loopBegInFrames; + } + + if (pLoopEndInFrames != NULL) { + *pLoopEndInFrames = pDataSourceBase->loopEndInFrames; + } +} + +MA_API ma_result ma_data_source_set_current(ma_data_source* pDataSource, ma_data_source* pCurrentDataSource) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + pDataSourceBase->pCurrent = pCurrentDataSource; + + return MA_SUCCESS; +} + +MA_API ma_data_source* ma_data_source_get_current(const ma_data_source* pDataSource) +{ + const ma_data_source_base* pDataSourceBase = (const ma_data_source_base*)pDataSource; + + if (pDataSource == NULL) { + return NULL; + } + + return pDataSourceBase->pCurrent; +} + +MA_API ma_result ma_data_source_set_next(ma_data_source* pDataSource, ma_data_source* pNextDataSource) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + pDataSourceBase->pNext = pNextDataSource; + + return MA_SUCCESS; +} + +MA_API ma_data_source* ma_data_source_get_next(const ma_data_source* pDataSource) +{ + const ma_data_source_base* pDataSourceBase = (const ma_data_source_base*)pDataSource; + + if (pDataSource == NULL) { + return NULL; + } + + return pDataSourceBase->pNext; +} + +MA_API ma_result ma_data_source_set_next_callback(ma_data_source* pDataSource, ma_data_source_get_next_proc onGetNext) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + pDataSourceBase->onGetNext = onGetNext; + + return MA_SUCCESS; +} + +MA_API ma_data_source_get_next_proc ma_data_source_get_next_callback(const ma_data_source* pDataSource) +{ + const ma_data_source_base* pDataSourceBase = (const ma_data_source_base*)pDataSource; + + if (pDataSource == NULL) { + return NULL; + } + + return pDataSourceBase->onGetNext; +} + + +static ma_result ma_audio_buffer_ref__data_source_on_read(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_audio_buffer_ref* pAudioBufferRef = (ma_audio_buffer_ref*)pDataSource; + ma_uint64 framesRead = ma_audio_buffer_ref_read_pcm_frames(pAudioBufferRef, pFramesOut, frameCount, MA_FALSE); + + if (pFramesRead != NULL) { + *pFramesRead = framesRead; + } + + if (framesRead < frameCount || framesRead == 0) { + return MA_AT_END; + } + + return MA_SUCCESS; +} + +static ma_result ma_audio_buffer_ref__data_source_on_seek(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + return ma_audio_buffer_ref_seek_to_pcm_frame((ma_audio_buffer_ref*)pDataSource, frameIndex); +} + +static ma_result ma_audio_buffer_ref__data_source_on_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + ma_audio_buffer_ref* pAudioBufferRef = (ma_audio_buffer_ref*)pDataSource; + + *pFormat = pAudioBufferRef->format; + *pChannels = pAudioBufferRef->channels; + *pSampleRate = pAudioBufferRef->sampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, pAudioBufferRef->channels); + + return MA_SUCCESS; +} + +static ma_result ma_audio_buffer_ref__data_source_on_get_cursor(ma_data_source* pDataSource, ma_uint64* pCursor) +{ + ma_audio_buffer_ref* pAudioBufferRef = (ma_audio_buffer_ref*)pDataSource; + + *pCursor = pAudioBufferRef->cursor; + + return MA_SUCCESS; +} + +static ma_result ma_audio_buffer_ref__data_source_on_get_length(ma_data_source* pDataSource, ma_uint64* pLength) +{ + ma_audio_buffer_ref* pAudioBufferRef = (ma_audio_buffer_ref*)pDataSource; + + *pLength = pAudioBufferRef->sizeInFrames; + + return MA_SUCCESS; +} + +static ma_data_source_vtable g_ma_audio_buffer_ref_data_source_vtable = +{ + ma_audio_buffer_ref__data_source_on_read, + ma_audio_buffer_ref__data_source_on_seek, + ma_audio_buffer_ref__data_source_on_get_data_format, + ma_audio_buffer_ref__data_source_on_get_cursor, + ma_audio_buffer_ref__data_source_on_get_length, + NULL, /* onSetLooping */ + 0 +}; + +MA_API ma_result ma_audio_buffer_ref_init(ma_format format, ma_uint32 channels, const void* pData, ma_uint64 sizeInFrames, ma_audio_buffer_ref* pAudioBufferRef) +{ + ma_result result; + ma_data_source_config dataSourceConfig; + + if (pAudioBufferRef == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pAudioBufferRef); + + dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &g_ma_audio_buffer_ref_data_source_vtable; + + result = ma_data_source_init(&dataSourceConfig, &pAudioBufferRef->ds); + if (result != MA_SUCCESS) { + return result; + } + + pAudioBufferRef->format = format; + pAudioBufferRef->channels = channels; + pAudioBufferRef->sampleRate = 0; /* TODO: Version 0.12. Set this to sampleRate. */ + pAudioBufferRef->cursor = 0; + pAudioBufferRef->sizeInFrames = sizeInFrames; + pAudioBufferRef->pData = pData; + + return MA_SUCCESS; +} + +MA_API void ma_audio_buffer_ref_uninit(ma_audio_buffer_ref* pAudioBufferRef) +{ + if (pAudioBufferRef == NULL) { + return; + } + + ma_data_source_uninit(&pAudioBufferRef->ds); +} + +MA_API ma_result ma_audio_buffer_ref_set_data(ma_audio_buffer_ref* pAudioBufferRef, const void* pData, ma_uint64 sizeInFrames) +{ + if (pAudioBufferRef == NULL) { + return MA_INVALID_ARGS; + } + + pAudioBufferRef->cursor = 0; + pAudioBufferRef->sizeInFrames = sizeInFrames; + pAudioBufferRef->pData = pData; + + return MA_SUCCESS; +} + +MA_API ma_uint64 ma_audio_buffer_ref_read_pcm_frames(ma_audio_buffer_ref* pAudioBufferRef, void* pFramesOut, ma_uint64 frameCount, ma_bool32 loop) +{ + ma_uint64 totalFramesRead = 0; + + if (pAudioBufferRef == NULL) { + return 0; + } + + if (frameCount == 0) { + return 0; + } + + while (totalFramesRead < frameCount) { + ma_uint64 framesAvailable = pAudioBufferRef->sizeInFrames - pAudioBufferRef->cursor; + ma_uint64 framesRemaining = frameCount - totalFramesRead; + ma_uint64 framesToRead; + + framesToRead = framesRemaining; + if (framesToRead > framesAvailable) { + framesToRead = framesAvailable; + } + + if (pFramesOut != NULL) { + ma_copy_pcm_frames(ma_offset_ptr(pFramesOut, totalFramesRead * ma_get_bytes_per_frame(pAudioBufferRef->format, pAudioBufferRef->channels)), ma_offset_ptr(pAudioBufferRef->pData, pAudioBufferRef->cursor * ma_get_bytes_per_frame(pAudioBufferRef->format, pAudioBufferRef->channels)), framesToRead, pAudioBufferRef->format, pAudioBufferRef->channels); + } + + totalFramesRead += framesToRead; + + pAudioBufferRef->cursor += framesToRead; + if (pAudioBufferRef->cursor == pAudioBufferRef->sizeInFrames) { + if (loop) { + pAudioBufferRef->cursor = 0; + } else { + break; /* We've reached the end and we're not looping. Done. */ + } + } + + MA_ASSERT(pAudioBufferRef->cursor < pAudioBufferRef->sizeInFrames); + } + + return totalFramesRead; +} + +MA_API ma_result ma_audio_buffer_ref_seek_to_pcm_frame(ma_audio_buffer_ref* pAudioBufferRef, ma_uint64 frameIndex) +{ + if (pAudioBufferRef == NULL) { + return MA_INVALID_ARGS; + } + + if (frameIndex > pAudioBufferRef->sizeInFrames) { + return MA_INVALID_ARGS; + } + + pAudioBufferRef->cursor = (size_t)frameIndex; + + return MA_SUCCESS; +} + +MA_API ma_result ma_audio_buffer_ref_map(ma_audio_buffer_ref* pAudioBufferRef, void** ppFramesOut, ma_uint64* pFrameCount) +{ + ma_uint64 framesAvailable; + ma_uint64 frameCount = 0; + + if (ppFramesOut != NULL) { + *ppFramesOut = NULL; /* Safety. */ + } + + if (pFrameCount != NULL) { + frameCount = *pFrameCount; + *pFrameCount = 0; /* Safety. */ + } + + if (pAudioBufferRef == NULL || ppFramesOut == NULL || pFrameCount == NULL) { + return MA_INVALID_ARGS; + } + + framesAvailable = pAudioBufferRef->sizeInFrames - pAudioBufferRef->cursor; + if (frameCount > framesAvailable) { + frameCount = framesAvailable; + } + + *ppFramesOut = ma_offset_ptr(pAudioBufferRef->pData, pAudioBufferRef->cursor * ma_get_bytes_per_frame(pAudioBufferRef->format, pAudioBufferRef->channels)); + *pFrameCount = frameCount; + + return MA_SUCCESS; +} + +MA_API ma_result ma_audio_buffer_ref_unmap(ma_audio_buffer_ref* pAudioBufferRef, ma_uint64 frameCount) +{ + ma_uint64 framesAvailable; + + if (pAudioBufferRef == NULL) { + return MA_INVALID_ARGS; + } + + framesAvailable = pAudioBufferRef->sizeInFrames - pAudioBufferRef->cursor; + if (frameCount > framesAvailable) { + return MA_INVALID_ARGS; /* The frame count was too big. This should never happen in an unmapping. Need to make sure the caller is aware of this. */ + } + + pAudioBufferRef->cursor += frameCount; + + if (pAudioBufferRef->cursor == pAudioBufferRef->sizeInFrames) { + return MA_AT_END; /* Successful. Need to tell the caller that the end has been reached so that it can loop if desired. */ + } else { + return MA_SUCCESS; + } +} + +MA_API ma_bool32 ma_audio_buffer_ref_at_end(const ma_audio_buffer_ref* pAudioBufferRef) +{ + if (pAudioBufferRef == NULL) { + return MA_FALSE; + } + + return pAudioBufferRef->cursor == pAudioBufferRef->sizeInFrames; +} + +MA_API ma_result ma_audio_buffer_ref_get_cursor_in_pcm_frames(const ma_audio_buffer_ref* pAudioBufferRef, ma_uint64* pCursor) +{ + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; + + if (pAudioBufferRef == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = pAudioBufferRef->cursor; + + return MA_SUCCESS; +} + +MA_API ma_result ma_audio_buffer_ref_get_length_in_pcm_frames(const ma_audio_buffer_ref* pAudioBufferRef, ma_uint64* pLength) +{ + if (pLength == NULL) { + return MA_INVALID_ARGS; + } + + *pLength = 0; + + if (pAudioBufferRef == NULL) { + return MA_INVALID_ARGS; + } + + *pLength = pAudioBufferRef->sizeInFrames; + + return MA_SUCCESS; +} + +MA_API ma_result ma_audio_buffer_ref_get_available_frames(const ma_audio_buffer_ref* pAudioBufferRef, ma_uint64* pAvailableFrames) +{ + if (pAvailableFrames == NULL) { + return MA_INVALID_ARGS; + } + + *pAvailableFrames = 0; + + if (pAudioBufferRef == NULL) { + return MA_INVALID_ARGS; + } + + if (pAudioBufferRef->sizeInFrames <= pAudioBufferRef->cursor) { + *pAvailableFrames = 0; + } else { + *pAvailableFrames = pAudioBufferRef->sizeInFrames - pAudioBufferRef->cursor; + } + + return MA_SUCCESS; +} + + + + +MA_API ma_audio_buffer_config ma_audio_buffer_config_init(ma_format format, ma_uint32 channels, ma_uint64 sizeInFrames, const void* pData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_audio_buffer_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = 0; /* TODO: Version 0.12. Set this to sampleRate. */ + config.sizeInFrames = sizeInFrames; + config.pData = pData; + ma_allocation_callbacks_init_copy(&config.allocationCallbacks, pAllocationCallbacks); + + return config; +} + +static ma_result ma_audio_buffer_init_ex(const ma_audio_buffer_config* pConfig, ma_bool32 doCopy, ma_audio_buffer* pAudioBuffer) +{ + ma_result result; + + if (pAudioBuffer == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_MEMORY(pAudioBuffer, sizeof(*pAudioBuffer) - sizeof(pAudioBuffer->_pExtraData)); /* Safety. Don't overwrite the extra data. */ + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->sizeInFrames == 0) { + return MA_INVALID_ARGS; /* Not allowing buffer sizes of 0 frames. */ + } + + result = ma_audio_buffer_ref_init(pConfig->format, pConfig->channels, NULL, 0, &pAudioBuffer->ref); + if (result != MA_SUCCESS) { + return result; + } + + /* TODO: Version 0.12. Set this in ma_audio_buffer_ref_init() instead of here. */ + pAudioBuffer->ref.sampleRate = pConfig->sampleRate; + + ma_allocation_callbacks_init_copy(&pAudioBuffer->allocationCallbacks, &pConfig->allocationCallbacks); + + if (doCopy) { + ma_uint64 allocationSizeInBytes; + void* pData; + + allocationSizeInBytes = pConfig->sizeInFrames * ma_get_bytes_per_frame(pConfig->format, pConfig->channels); + if (allocationSizeInBytes > MA_SIZE_MAX) { + return MA_OUT_OF_MEMORY; /* Too big. */ + } + + pData = ma_malloc((size_t)allocationSizeInBytes, &pAudioBuffer->allocationCallbacks); /* Safe cast to size_t. */ + if (pData == NULL) { + return MA_OUT_OF_MEMORY; + } + + if (pConfig->pData != NULL) { + ma_copy_pcm_frames(pData, pConfig->pData, pConfig->sizeInFrames, pConfig->format, pConfig->channels); + } else { + ma_silence_pcm_frames(pData, pConfig->sizeInFrames, pConfig->format, pConfig->channels); + } + + ma_audio_buffer_ref_set_data(&pAudioBuffer->ref, pData, pConfig->sizeInFrames); + pAudioBuffer->ownsData = MA_TRUE; + } else { + ma_audio_buffer_ref_set_data(&pAudioBuffer->ref, pConfig->pData, pConfig->sizeInFrames); + pAudioBuffer->ownsData = MA_FALSE; + } + + return MA_SUCCESS; +} + +static void ma_audio_buffer_uninit_ex(ma_audio_buffer* pAudioBuffer, ma_bool32 doFree) +{ + if (pAudioBuffer == NULL) { + return; + } + + if (pAudioBuffer->ownsData && pAudioBuffer->ref.pData != &pAudioBuffer->_pExtraData[0]) { + ma_free((void*)pAudioBuffer->ref.pData, &pAudioBuffer->allocationCallbacks); /* Naugty const cast, but OK in this case since we've guarded it with the ownsData check. */ + } + + if (doFree) { + ma_free(pAudioBuffer, &pAudioBuffer->allocationCallbacks); + } + + ma_audio_buffer_ref_uninit(&pAudioBuffer->ref); +} + +MA_API ma_result ma_audio_buffer_init(const ma_audio_buffer_config* pConfig, ma_audio_buffer* pAudioBuffer) +{ + return ma_audio_buffer_init_ex(pConfig, MA_FALSE, pAudioBuffer); +} + +MA_API ma_result ma_audio_buffer_init_copy(const ma_audio_buffer_config* pConfig, ma_audio_buffer* pAudioBuffer) +{ + return ma_audio_buffer_init_ex(pConfig, MA_TRUE, pAudioBuffer); +} + +MA_API ma_result ma_audio_buffer_alloc_and_init(const ma_audio_buffer_config* pConfig, ma_audio_buffer** ppAudioBuffer) +{ + ma_result result; + ma_audio_buffer* pAudioBuffer; + ma_audio_buffer_config innerConfig; /* We'll be making some changes to the config, so need to make a copy. */ + ma_uint64 allocationSizeInBytes; + + if (ppAudioBuffer == NULL) { + return MA_INVALID_ARGS; + } + + *ppAudioBuffer = NULL; /* Safety. */ + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + innerConfig = *pConfig; + ma_allocation_callbacks_init_copy(&innerConfig.allocationCallbacks, &pConfig->allocationCallbacks); + + allocationSizeInBytes = sizeof(*pAudioBuffer) - sizeof(pAudioBuffer->_pExtraData) + (pConfig->sizeInFrames * ma_get_bytes_per_frame(pConfig->format, pConfig->channels)); + if (allocationSizeInBytes > MA_SIZE_MAX) { + return MA_OUT_OF_MEMORY; /* Too big. */ + } + + pAudioBuffer = (ma_audio_buffer*)ma_malloc((size_t)allocationSizeInBytes, &innerConfig.allocationCallbacks); /* Safe cast to size_t. */ + if (pAudioBuffer == NULL) { + return MA_OUT_OF_MEMORY; + } + + if (pConfig->pData != NULL) { + ma_copy_pcm_frames(&pAudioBuffer->_pExtraData[0], pConfig->pData, pConfig->sizeInFrames, pConfig->format, pConfig->channels); + } else { + ma_silence_pcm_frames(&pAudioBuffer->_pExtraData[0], pConfig->sizeInFrames, pConfig->format, pConfig->channels); + } + + innerConfig.pData = &pAudioBuffer->_pExtraData[0]; + + result = ma_audio_buffer_init_ex(&innerConfig, MA_FALSE, pAudioBuffer); + if (result != MA_SUCCESS) { + ma_free(pAudioBuffer, &innerConfig.allocationCallbacks); + return result; + } + + *ppAudioBuffer = pAudioBuffer; + + return MA_SUCCESS; +} + +MA_API void ma_audio_buffer_uninit(ma_audio_buffer* pAudioBuffer) +{ + ma_audio_buffer_uninit_ex(pAudioBuffer, MA_FALSE); +} + +MA_API void ma_audio_buffer_uninit_and_free(ma_audio_buffer* pAudioBuffer) +{ + ma_audio_buffer_uninit_ex(pAudioBuffer, MA_TRUE); +} + +MA_API ma_uint64 ma_audio_buffer_read_pcm_frames(ma_audio_buffer* pAudioBuffer, void* pFramesOut, ma_uint64 frameCount, ma_bool32 loop) +{ + if (pAudioBuffer == NULL) { + return 0; + } + + return ma_audio_buffer_ref_read_pcm_frames(&pAudioBuffer->ref, pFramesOut, frameCount, loop); +} + +MA_API ma_result ma_audio_buffer_seek_to_pcm_frame(ma_audio_buffer* pAudioBuffer, ma_uint64 frameIndex) +{ + if (pAudioBuffer == NULL) { + return MA_INVALID_ARGS; + } + + return ma_audio_buffer_ref_seek_to_pcm_frame(&pAudioBuffer->ref, frameIndex); +} + +MA_API ma_result ma_audio_buffer_map(ma_audio_buffer* pAudioBuffer, void** ppFramesOut, ma_uint64* pFrameCount) +{ + if (ppFramesOut != NULL) { + *ppFramesOut = NULL; /* Safety. */ + } + + if (pAudioBuffer == NULL) { + if (pFrameCount != NULL) { + *pFrameCount = 0; + } + + return MA_INVALID_ARGS; + } + + return ma_audio_buffer_ref_map(&pAudioBuffer->ref, ppFramesOut, pFrameCount); +} + +MA_API ma_result ma_audio_buffer_unmap(ma_audio_buffer* pAudioBuffer, ma_uint64 frameCount) +{ + if (pAudioBuffer == NULL) { + return MA_INVALID_ARGS; + } + + return ma_audio_buffer_ref_unmap(&pAudioBuffer->ref, frameCount); +} + +MA_API ma_bool32 ma_audio_buffer_at_end(const ma_audio_buffer* pAudioBuffer) +{ + if (pAudioBuffer == NULL) { + return MA_FALSE; + } + + return ma_audio_buffer_ref_at_end(&pAudioBuffer->ref); +} + +MA_API ma_result ma_audio_buffer_get_cursor_in_pcm_frames(const ma_audio_buffer* pAudioBuffer, ma_uint64* pCursor) +{ + if (pAudioBuffer == NULL) { + return MA_INVALID_ARGS; + } + + return ma_audio_buffer_ref_get_cursor_in_pcm_frames(&pAudioBuffer->ref, pCursor); +} + +MA_API ma_result ma_audio_buffer_get_length_in_pcm_frames(const ma_audio_buffer* pAudioBuffer, ma_uint64* pLength) +{ + if (pAudioBuffer == NULL) { + return MA_INVALID_ARGS; + } + + return ma_audio_buffer_ref_get_length_in_pcm_frames(&pAudioBuffer->ref, pLength); +} + +MA_API ma_result ma_audio_buffer_get_available_frames(const ma_audio_buffer* pAudioBuffer, ma_uint64* pAvailableFrames) +{ + if (pAvailableFrames == NULL) { + return MA_INVALID_ARGS; + } + + *pAvailableFrames = 0; + + if (pAudioBuffer == NULL) { + return MA_INVALID_ARGS; + } + + return ma_audio_buffer_ref_get_available_frames(&pAudioBuffer->ref, pAvailableFrames); +} + + + + + +MA_API ma_result ma_paged_audio_buffer_data_init(ma_format format, ma_uint32 channels, ma_paged_audio_buffer_data* pData) +{ + if (pData == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pData); + + pData->format = format; + pData->channels = channels; + pData->pTail = &pData->head; + + return MA_SUCCESS; +} + +MA_API void ma_paged_audio_buffer_data_uninit(ma_paged_audio_buffer_data* pData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_paged_audio_buffer_page* pPage; + + if (pData == NULL) { + return; + } + + /* All pages need to be freed. */ + pPage = (ma_paged_audio_buffer_page*)ma_atomic_load_ptr(&pData->head.pNext); + while (pPage != NULL) { + ma_paged_audio_buffer_page* pNext = (ma_paged_audio_buffer_page*)ma_atomic_load_ptr(&pPage->pNext); + + ma_free(pPage, pAllocationCallbacks); + pPage = pNext; + } +} + +MA_API ma_paged_audio_buffer_page* ma_paged_audio_buffer_data_get_head(ma_paged_audio_buffer_data* pData) +{ + if (pData == NULL) { + return NULL; + } + + return &pData->head; +} + +MA_API ma_paged_audio_buffer_page* ma_paged_audio_buffer_data_get_tail(ma_paged_audio_buffer_data* pData) +{ + if (pData == NULL) { + return NULL; + } + + return pData->pTail; +} + +MA_API ma_result ma_paged_audio_buffer_data_get_length_in_pcm_frames(ma_paged_audio_buffer_data* pData, ma_uint64* pLength) +{ + ma_paged_audio_buffer_page* pPage; + + if (pLength == NULL) { + return MA_INVALID_ARGS; + } + + *pLength = 0; + + if (pData == NULL) { + return MA_INVALID_ARGS; + } + + /* Calculate the length from the linked list. */ + for (pPage = (ma_paged_audio_buffer_page*)ma_atomic_load_ptr(&pData->head.pNext); pPage != NULL; pPage = (ma_paged_audio_buffer_page*)ma_atomic_load_ptr(&pPage->pNext)) { + *pLength += pPage->sizeInFrames; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_paged_audio_buffer_data_allocate_page(ma_paged_audio_buffer_data* pData, ma_uint64 pageSizeInFrames, const void* pInitialData, const ma_allocation_callbacks* pAllocationCallbacks, ma_paged_audio_buffer_page** ppPage) +{ + ma_paged_audio_buffer_page* pPage; + ma_uint64 allocationSize; + + if (ppPage == NULL) { + return MA_INVALID_ARGS; + } + + *ppPage = NULL; + + if (pData == NULL) { + return MA_INVALID_ARGS; + } + + allocationSize = sizeof(*pPage) + (pageSizeInFrames * ma_get_bytes_per_frame(pData->format, pData->channels)); + if (allocationSize > MA_SIZE_MAX) { + return MA_OUT_OF_MEMORY; /* Too big. */ + } + + pPage = (ma_paged_audio_buffer_page*)ma_malloc((size_t)allocationSize, pAllocationCallbacks); /* Safe cast to size_t. */ + if (pPage == NULL) { + return MA_OUT_OF_MEMORY; + } + + pPage->pNext = NULL; + pPage->sizeInFrames = pageSizeInFrames; + + if (pInitialData != NULL) { + ma_copy_pcm_frames(pPage->pAudioData, pInitialData, pageSizeInFrames, pData->format, pData->channels); + } + + *ppPage = pPage; + + return MA_SUCCESS; +} + +MA_API ma_result ma_paged_audio_buffer_data_free_page(ma_paged_audio_buffer_data* pData, ma_paged_audio_buffer_page* pPage, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pData == NULL || pPage == NULL) { + return MA_INVALID_ARGS; + } + + /* It's assumed the page is not attached to the list. */ + ma_free(pPage, pAllocationCallbacks); + + return MA_SUCCESS; +} + +MA_API ma_result ma_paged_audio_buffer_data_append_page(ma_paged_audio_buffer_data* pData, ma_paged_audio_buffer_page* pPage) +{ + if (pData == NULL || pPage == NULL) { + return MA_INVALID_ARGS; + } + + /* This function assumes the page has been filled with audio data by this point. As soon as we append, the page will be available for reading. */ + + /* First thing to do is update the tail. */ + for (;;) { + ma_paged_audio_buffer_page* pOldTail = (ma_paged_audio_buffer_page*)ma_atomic_load_ptr(&pData->pTail); + ma_paged_audio_buffer_page* pNewTail = pPage; + + if (ma_atomic_compare_exchange_weak_ptr((volatile void**)&pData->pTail, (void**)&pOldTail, pNewTail)) { + /* Here is where we append the page to the list. After this, the page is attached to the list and ready to be read from. */ + ma_atomic_exchange_ptr(&pOldTail->pNext, pPage); + break; /* Done. */ + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_paged_audio_buffer_data_allocate_and_append_page(ma_paged_audio_buffer_data* pData, ma_uint32 pageSizeInFrames, const void* pInitialData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_result result; + ma_paged_audio_buffer_page* pPage; + + result = ma_paged_audio_buffer_data_allocate_page(pData, pageSizeInFrames, pInitialData, pAllocationCallbacks, &pPage); + if (result != MA_SUCCESS) { + return result; + } + + return ma_paged_audio_buffer_data_append_page(pData, pPage); /* <-- Should never fail. */ +} + + +MA_API ma_paged_audio_buffer_config ma_paged_audio_buffer_config_init(ma_paged_audio_buffer_data* pData) +{ + ma_paged_audio_buffer_config config; + + MA_ZERO_OBJECT(&config); + config.pData = pData; + + return config; +} + + +static ma_result ma_paged_audio_buffer__data_source_on_read(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + return ma_paged_audio_buffer_read_pcm_frames((ma_paged_audio_buffer*)pDataSource, pFramesOut, frameCount, pFramesRead); +} + +static ma_result ma_paged_audio_buffer__data_source_on_seek(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + return ma_paged_audio_buffer_seek_to_pcm_frame((ma_paged_audio_buffer*)pDataSource, frameIndex); +} + +static ma_result ma_paged_audio_buffer__data_source_on_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + ma_paged_audio_buffer* pPagedAudioBuffer = (ma_paged_audio_buffer*)pDataSource; + + *pFormat = pPagedAudioBuffer->pData->format; + *pChannels = pPagedAudioBuffer->pData->channels; + *pSampleRate = 0; /* There is no notion of a sample rate with audio buffers. */ + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, pPagedAudioBuffer->pData->channels); + + return MA_SUCCESS; +} + +static ma_result ma_paged_audio_buffer__data_source_on_get_cursor(ma_data_source* pDataSource, ma_uint64* pCursor) +{ + return ma_paged_audio_buffer_get_cursor_in_pcm_frames((ma_paged_audio_buffer*)pDataSource, pCursor); +} + +static ma_result ma_paged_audio_buffer__data_source_on_get_length(ma_data_source* pDataSource, ma_uint64* pLength) +{ + return ma_paged_audio_buffer_get_length_in_pcm_frames((ma_paged_audio_buffer*)pDataSource, pLength); +} + +static ma_data_source_vtable g_ma_paged_audio_buffer_data_source_vtable = +{ + ma_paged_audio_buffer__data_source_on_read, + ma_paged_audio_buffer__data_source_on_seek, + ma_paged_audio_buffer__data_source_on_get_data_format, + ma_paged_audio_buffer__data_source_on_get_cursor, + ma_paged_audio_buffer__data_source_on_get_length, + NULL, /* onSetLooping */ + 0 +}; + +MA_API ma_result ma_paged_audio_buffer_init(const ma_paged_audio_buffer_config* pConfig, ma_paged_audio_buffer* pPagedAudioBuffer) +{ + ma_result result; + ma_data_source_config dataSourceConfig; + + if (pPagedAudioBuffer == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pPagedAudioBuffer); + + /* A config is required for the format and channel count. */ + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->pData == NULL) { + return MA_INVALID_ARGS; /* No underlying data specified. */ + } + + dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &g_ma_paged_audio_buffer_data_source_vtable; + + result = ma_data_source_init(&dataSourceConfig, &pPagedAudioBuffer->ds); + if (result != MA_SUCCESS) { + return result; + } + + pPagedAudioBuffer->pData = pConfig->pData; + pPagedAudioBuffer->pCurrent = ma_paged_audio_buffer_data_get_head(pConfig->pData); + pPagedAudioBuffer->relativeCursor = 0; + pPagedAudioBuffer->absoluteCursor = 0; + + return MA_SUCCESS; +} + +MA_API void ma_paged_audio_buffer_uninit(ma_paged_audio_buffer* pPagedAudioBuffer) +{ + if (pPagedAudioBuffer == NULL) { + return; + } + + /* Nothing to do. The data needs to be deleted separately. */ +} + +MA_API ma_result ma_paged_audio_buffer_read_pcm_frames(ma_paged_audio_buffer* pPagedAudioBuffer, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_result result = MA_SUCCESS; + ma_uint64 totalFramesRead = 0; + ma_format format; + ma_uint32 channels; + + if (pPagedAudioBuffer == NULL) { + return MA_INVALID_ARGS; + } + + format = pPagedAudioBuffer->pData->format; + channels = pPagedAudioBuffer->pData->channels; + + while (totalFramesRead < frameCount) { + /* Read from the current page. The buffer should never be in a state where this is NULL. */ + ma_uint64 framesRemainingInCurrentPage; + ma_uint64 framesRemainingToRead = frameCount - totalFramesRead; + ma_uint64 framesToReadThisIteration; + + MA_ASSERT(pPagedAudioBuffer->pCurrent != NULL); + + framesRemainingInCurrentPage = pPagedAudioBuffer->pCurrent->sizeInFrames - pPagedAudioBuffer->relativeCursor; + + framesToReadThisIteration = ma_min(framesRemainingInCurrentPage, framesRemainingToRead); + ma_copy_pcm_frames(ma_offset_pcm_frames_ptr(pFramesOut, totalFramesRead, format, channels), ma_offset_pcm_frames_ptr(pPagedAudioBuffer->pCurrent->pAudioData, pPagedAudioBuffer->relativeCursor, format, channels), framesToReadThisIteration, format, channels); + totalFramesRead += framesToReadThisIteration; + + pPagedAudioBuffer->absoluteCursor += framesToReadThisIteration; + pPagedAudioBuffer->relativeCursor += framesToReadThisIteration; + + /* Move to the next page if necessary. If there's no more pages, we need to return MA_AT_END. */ + MA_ASSERT(pPagedAudioBuffer->relativeCursor <= pPagedAudioBuffer->pCurrent->sizeInFrames); + + if (pPagedAudioBuffer->relativeCursor == pPagedAudioBuffer->pCurrent->sizeInFrames) { + /* We reached the end of the page. Need to move to the next. If there's no more pages, we're done. */ + ma_paged_audio_buffer_page* pNext = (ma_paged_audio_buffer_page*)ma_atomic_load_ptr(&pPagedAudioBuffer->pCurrent->pNext); + if (pNext == NULL) { + result = MA_AT_END; + break; /* We've reached the end. */ + } else { + pPagedAudioBuffer->pCurrent = pNext; + pPagedAudioBuffer->relativeCursor = 0; + } + } + } + + if (pFramesRead != NULL) { + *pFramesRead = totalFramesRead; + } + + return result; +} + +MA_API ma_result ma_paged_audio_buffer_seek_to_pcm_frame(ma_paged_audio_buffer* pPagedAudioBuffer, ma_uint64 frameIndex) +{ + if (pPagedAudioBuffer == NULL) { + return MA_INVALID_ARGS; + } + + if (frameIndex == pPagedAudioBuffer->absoluteCursor) { + return MA_SUCCESS; /* Nothing to do. */ + } + + if (frameIndex < pPagedAudioBuffer->absoluteCursor) { + /* Moving backwards. Need to move the cursor back to the start, and then move forward. */ + pPagedAudioBuffer->pCurrent = ma_paged_audio_buffer_data_get_head(pPagedAudioBuffer->pData); + pPagedAudioBuffer->absoluteCursor = 0; + pPagedAudioBuffer->relativeCursor = 0; + + /* Fall through to the forward seeking section below. */ + } + + if (frameIndex > pPagedAudioBuffer->absoluteCursor) { + /* Moving forward. */ + ma_paged_audio_buffer_page* pPage; + ma_uint64 runningCursor = 0; + + for (pPage = (ma_paged_audio_buffer_page*)ma_atomic_load_ptr(&ma_paged_audio_buffer_data_get_head(pPagedAudioBuffer->pData)->pNext); pPage != NULL; pPage = (ma_paged_audio_buffer_page*)ma_atomic_load_ptr(&pPage->pNext)) { + ma_uint64 pageRangeBeg = runningCursor; + ma_uint64 pageRangeEnd = pageRangeBeg + pPage->sizeInFrames; + + if (frameIndex >= pageRangeBeg) { + if (frameIndex < pageRangeEnd || (frameIndex == pageRangeEnd && pPage == (ma_paged_audio_buffer_page*)ma_atomic_load_ptr(ma_paged_audio_buffer_data_get_tail(pPagedAudioBuffer->pData)))) { /* A small edge case - allow seeking to the very end of the buffer. */ + /* We found the page. */ + pPagedAudioBuffer->pCurrent = pPage; + pPagedAudioBuffer->absoluteCursor = frameIndex; + pPagedAudioBuffer->relativeCursor = frameIndex - pageRangeBeg; + return MA_SUCCESS; + } + } + + runningCursor = pageRangeEnd; + } + + /* Getting here means we tried seeking too far forward. Don't change any state. */ + return MA_BAD_SEEK; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_paged_audio_buffer_get_cursor_in_pcm_frames(ma_paged_audio_buffer* pPagedAudioBuffer, ma_uint64* pCursor) +{ + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; /* Safety. */ + + if (pPagedAudioBuffer == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = pPagedAudioBuffer->absoluteCursor; + + return MA_SUCCESS; +} + +MA_API ma_result ma_paged_audio_buffer_get_length_in_pcm_frames(ma_paged_audio_buffer* pPagedAudioBuffer, ma_uint64* pLength) +{ + return ma_paged_audio_buffer_data_get_length_in_pcm_frames(pPagedAudioBuffer->pData, pLength); +} + + + +/************************************************************************************************************************************************************** + +VFS + +**************************************************************************************************************************************************************/ +MA_API ma_result ma_vfs_open(ma_vfs* pVFS, const char* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile) +{ + ma_vfs_callbacks* pCallbacks = (ma_vfs_callbacks*)pVFS; + + if (pFile == NULL) { + return MA_INVALID_ARGS; + } + + *pFile = NULL; + + if (pVFS == NULL || pFilePath == NULL || openMode == 0) { + return MA_INVALID_ARGS; + } + + if (pCallbacks->onOpen == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pCallbacks->onOpen(pVFS, pFilePath, openMode, pFile); +} + +MA_API ma_result ma_vfs_open_w(ma_vfs* pVFS, const wchar_t* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile) +{ + ma_vfs_callbacks* pCallbacks = (ma_vfs_callbacks*)pVFS; + + if (pFile == NULL) { + return MA_INVALID_ARGS; + } + + *pFile = NULL; + + if (pVFS == NULL || pFilePath == NULL || openMode == 0) { + return MA_INVALID_ARGS; + } + + if (pCallbacks->onOpenW == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pCallbacks->onOpenW(pVFS, pFilePath, openMode, pFile); +} + +MA_API ma_result ma_vfs_close(ma_vfs* pVFS, ma_vfs_file file) +{ + ma_vfs_callbacks* pCallbacks = (ma_vfs_callbacks*)pVFS; + + if (pVFS == NULL || file == NULL) { + return MA_INVALID_ARGS; + } + + if (pCallbacks->onClose == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pCallbacks->onClose(pVFS, file); +} + +MA_API ma_result ma_vfs_read(ma_vfs* pVFS, ma_vfs_file file, void* pDst, size_t sizeInBytes, size_t* pBytesRead) +{ + ma_vfs_callbacks* pCallbacks = (ma_vfs_callbacks*)pVFS; + ma_result result; + size_t bytesRead = 0; + + if (pBytesRead != NULL) { + *pBytesRead = 0; + } + + if (pVFS == NULL || file == NULL || pDst == NULL) { + return MA_INVALID_ARGS; + } + + if (pCallbacks->onRead == NULL) { + return MA_NOT_IMPLEMENTED; + } + + result = pCallbacks->onRead(pVFS, file, pDst, sizeInBytes, &bytesRead); + + if (pBytesRead != NULL) { + *pBytesRead = bytesRead; + } + + if (result == MA_SUCCESS && bytesRead == 0 && sizeInBytes > 0) { + result = MA_AT_END; + } + + return result; +} + +MA_API ma_result ma_vfs_write(ma_vfs* pVFS, ma_vfs_file file, const void* pSrc, size_t sizeInBytes, size_t* pBytesWritten) +{ + ma_vfs_callbacks* pCallbacks = (ma_vfs_callbacks*)pVFS; + + if (pBytesWritten != NULL) { + *pBytesWritten = 0; + } + + if (pVFS == NULL || file == NULL || pSrc == NULL) { + return MA_INVALID_ARGS; + } + + if (pCallbacks->onWrite == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pCallbacks->onWrite(pVFS, file, pSrc, sizeInBytes, pBytesWritten); +} + +MA_API ma_result ma_vfs_seek(ma_vfs* pVFS, ma_vfs_file file, ma_int64 offset, ma_seek_origin origin) +{ + ma_vfs_callbacks* pCallbacks = (ma_vfs_callbacks*)pVFS; + + if (pVFS == NULL || file == NULL) { + return MA_INVALID_ARGS; + } + + if (pCallbacks->onSeek == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pCallbacks->onSeek(pVFS, file, offset, origin); +} + +MA_API ma_result ma_vfs_tell(ma_vfs* pVFS, ma_vfs_file file, ma_int64* pCursor) +{ + ma_vfs_callbacks* pCallbacks = (ma_vfs_callbacks*)pVFS; + + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; + + if (pVFS == NULL || file == NULL) { + return MA_INVALID_ARGS; + } + + if (pCallbacks->onTell == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pCallbacks->onTell(pVFS, file, pCursor); +} + +MA_API ma_result ma_vfs_info(ma_vfs* pVFS, ma_vfs_file file, ma_file_info* pInfo) +{ + ma_vfs_callbacks* pCallbacks = (ma_vfs_callbacks*)pVFS; + + if (pInfo == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pInfo); + + if (pVFS == NULL || file == NULL) { + return MA_INVALID_ARGS; + } + + if (pCallbacks->onInfo == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pCallbacks->onInfo(pVFS, file, pInfo); +} + + +#if !defined(MA_USE_WIN32_FILEIO) && (defined(MA_WIN32) && (defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_NXDK)) && !defined(MA_NO_WIN32_FILEIO) && !defined(MA_POSIX)) + #define MA_USE_WIN32_FILEIO +#endif + +#if defined(MA_USE_WIN32_FILEIO) +/* +We need to dynamically load SetFilePointer or SetFilePointerEx because older versions of Windows do +not have the Ex version. We therefore need to do some dynamic branching depending on what's available. + +We load these when we load our first file from the default VFS. It's left open for the life of the +program and is left to the OS to uninitialize when the program terminates. +*/ +typedef DWORD (__stdcall * ma_SetFilePointer_proc)(HANDLE hFile, LONG lDistanceToMove, LONG* lpDistanceToMoveHigh, DWORD dwMoveMethod); +typedef BOOL (__stdcall * ma_SetFilePointerEx_proc)(HANDLE hFile, LARGE_INTEGER liDistanceToMove, LARGE_INTEGER* lpNewFilePointer, DWORD dwMoveMethod); + +static ma_handle hKernel32DLL = NULL; +static ma_SetFilePointer_proc ma_SetFilePointer = NULL; +static ma_SetFilePointerEx_proc ma_SetFilePointerEx = NULL; + +static void ma_win32_fileio_init(void) +{ + if (hKernel32DLL == NULL) { + hKernel32DLL = ma_dlopen(NULL, "kernel32.dll"); + if (hKernel32DLL != NULL) { + ma_SetFilePointer = (ma_SetFilePointer_proc) ma_dlsym(NULL, hKernel32DLL, "SetFilePointer"); + ma_SetFilePointerEx = (ma_SetFilePointerEx_proc)ma_dlsym(NULL, hKernel32DLL, "SetFilePointerEx"); + } + } +} + +static void ma_default_vfs__get_open_settings_win32(ma_uint32 openMode, DWORD* pDesiredAccess, DWORD* pShareMode, DWORD* pCreationDisposition) +{ + *pDesiredAccess = 0; + if ((openMode & MA_OPEN_MODE_READ) != 0) { + *pDesiredAccess |= GENERIC_READ; + } + if ((openMode & MA_OPEN_MODE_WRITE) != 0) { + *pDesiredAccess |= GENERIC_WRITE; + } + + *pShareMode = 0; + if ((openMode & MA_OPEN_MODE_READ) != 0) { + *pShareMode |= FILE_SHARE_READ; + } + + if ((openMode & MA_OPEN_MODE_WRITE) != 0) { + *pCreationDisposition = CREATE_ALWAYS; /* Opening in write mode. Truncate. */ + } else { + *pCreationDisposition = OPEN_EXISTING; /* Opening in read mode. File must exist. */ + } +} + +static ma_result ma_default_vfs_open__win32(ma_vfs* pVFS, const char* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile) +{ + HANDLE hFile; + DWORD dwDesiredAccess; + DWORD dwShareMode; + DWORD dwCreationDisposition; + + (void)pVFS; + + /* Load some Win32 symbols dynamically so we can dynamically check for the existence of SetFilePointerEx. */ + ma_win32_fileio_init(); + + ma_default_vfs__get_open_settings_win32(openMode, &dwDesiredAccess, &dwShareMode, &dwCreationDisposition); + + hFile = CreateFileA(pFilePath, dwDesiredAccess, dwShareMode, NULL, dwCreationDisposition, FILE_ATTRIBUTE_NORMAL, NULL); + if (hFile == INVALID_HANDLE_VALUE) { + return ma_result_from_GetLastError(GetLastError()); + } + + *pFile = hFile; + return MA_SUCCESS; +} + +static ma_result ma_default_vfs_open_w__win32(ma_vfs* pVFS, const wchar_t* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile) +{ + #if !defined(MA_XBOX_NXDK) + { + HANDLE hFile; + DWORD dwDesiredAccess; + DWORD dwShareMode; + DWORD dwCreationDisposition; + + (void)pVFS; + + /* Load some Win32 symbols dynamically so we can dynamically check for the existence of SetFilePointerEx. */ + ma_win32_fileio_init(); + + ma_default_vfs__get_open_settings_win32(openMode, &dwDesiredAccess, &dwShareMode, &dwCreationDisposition); + + hFile = CreateFileW(pFilePath, dwDesiredAccess, dwShareMode, NULL, dwCreationDisposition, FILE_ATTRIBUTE_NORMAL, NULL); + if (hFile == INVALID_HANDLE_VALUE) { + return ma_result_from_GetLastError(GetLastError()); + } + + *pFile = hFile; + return MA_SUCCESS; + } + #else + { + /* No CreateFileW() available. */ + return MA_NOT_IMPLEMENTED; + } + #endif +} + +static ma_result ma_default_vfs_close__win32(ma_vfs* pVFS, ma_vfs_file file) +{ + (void)pVFS; + + if (CloseHandle((HANDLE)file) == 0) { + return ma_result_from_GetLastError(GetLastError()); + } + + return MA_SUCCESS; +} + + +static ma_result ma_default_vfs_read__win32(ma_vfs* pVFS, ma_vfs_file file, void* pDst, size_t sizeInBytes, size_t* pBytesRead) +{ + ma_result result = MA_SUCCESS; + size_t totalBytesRead; + + (void)pVFS; + + totalBytesRead = 0; + while (totalBytesRead < sizeInBytes) { + size_t bytesRemaining; + DWORD bytesToRead; + DWORD bytesRead; + BOOL readResult; + + bytesRemaining = sizeInBytes - totalBytesRead; + if (bytesRemaining >= 0xFFFFFFFF) { + bytesToRead = 0xFFFFFFFF; + } else { + bytesToRead = (DWORD)bytesRemaining; + } + + readResult = ReadFile((HANDLE)file, ma_offset_ptr(pDst, totalBytesRead), bytesToRead, &bytesRead, NULL); + if (readResult == 1 && bytesRead == 0) { + result = MA_AT_END; + break; /* EOF */ + } + + totalBytesRead += bytesRead; + + if (bytesRead < bytesToRead) { + break; /* EOF */ + } + + if (readResult == 0) { + result = ma_result_from_GetLastError(GetLastError()); + break; + } + } + + if (pBytesRead != NULL) { + *pBytesRead = totalBytesRead; + } + + return result; +} + +static ma_result ma_default_vfs_write__win32(ma_vfs* pVFS, ma_vfs_file file, const void* pSrc, size_t sizeInBytes, size_t* pBytesWritten) +{ + ma_result result = MA_SUCCESS; + size_t totalBytesWritten; + + (void)pVFS; + + totalBytesWritten = 0; + while (totalBytesWritten < sizeInBytes) { + size_t bytesRemaining; + DWORD bytesToWrite; + DWORD bytesWritten; + BOOL writeResult; + + bytesRemaining = sizeInBytes - totalBytesWritten; + if (bytesRemaining >= 0xFFFFFFFF) { + bytesToWrite = 0xFFFFFFFF; + } else { + bytesToWrite = (DWORD)bytesRemaining; + } + + writeResult = WriteFile((HANDLE)file, ma_offset_ptr(pSrc, totalBytesWritten), bytesToWrite, &bytesWritten, NULL); + totalBytesWritten += bytesWritten; + + if (writeResult == 0) { + result = ma_result_from_GetLastError(GetLastError()); + break; + } + } + + if (pBytesWritten != NULL) { + *pBytesWritten = totalBytesWritten; + } + + return result; +} + + +static ma_result ma_default_vfs_seek__win32(ma_vfs* pVFS, ma_vfs_file file, ma_int64 offset, ma_seek_origin origin) +{ + LARGE_INTEGER liDistanceToMove; + DWORD dwMoveMethod; + BOOL result; + + (void)pVFS; + + liDistanceToMove.QuadPart = offset; + + /* */ if (origin == ma_seek_origin_current) { + dwMoveMethod = FILE_CURRENT; + } else if (origin == ma_seek_origin_end) { + dwMoveMethod = FILE_END; + } else { + dwMoveMethod = FILE_BEGIN; + } + + if (ma_SetFilePointerEx != NULL) { + result = ma_SetFilePointerEx((HANDLE)file, liDistanceToMove, NULL, dwMoveMethod); + } else if (ma_SetFilePointer != NULL) { + /* No SetFilePointerEx() so restrict to 31 bits. */ + if (offset > 0x7FFFFFFF) { + return MA_OUT_OF_RANGE; + } + + result = ma_SetFilePointer((HANDLE)file, (LONG)liDistanceToMove.QuadPart, NULL, dwMoveMethod); + } else { + return MA_NOT_IMPLEMENTED; + } + + if (result == 0) { + return ma_result_from_GetLastError(GetLastError()); + } + + return MA_SUCCESS; +} + +static ma_result ma_default_vfs_tell__win32(ma_vfs* pVFS, ma_vfs_file file, ma_int64* pCursor) +{ + LARGE_INTEGER liZero; + LARGE_INTEGER liTell; + BOOL result; + + (void)pVFS; + + liZero.QuadPart = 0; + + if (ma_SetFilePointerEx != NULL) { + result = ma_SetFilePointerEx((HANDLE)file, liZero, &liTell, FILE_CURRENT); + } else if (ma_SetFilePointer != NULL) { + LONG tell; + + result = ma_SetFilePointer((HANDLE)file, (LONG)liZero.QuadPart, &tell, FILE_CURRENT); + liTell.QuadPart = tell; + } else { + return MA_NOT_IMPLEMENTED; + } + + if (result == 0) { + return ma_result_from_GetLastError(GetLastError()); + } + + if (pCursor != NULL) { + *pCursor = liTell.QuadPart; + } + + return MA_SUCCESS; +} + +static ma_result ma_default_vfs_info__win32(ma_vfs* pVFS, ma_vfs_file file, ma_file_info* pInfo) +{ + (void)pVFS; + + #if !defined(MA_XBOX_NXDK) + { + BY_HANDLE_FILE_INFORMATION fi; + BOOL result; + + result = GetFileInformationByHandle((HANDLE)file, &fi); + if (result == 0) { + return ma_result_from_GetLastError(GetLastError()); + } + + pInfo->sizeInBytes = ((ma_uint64)fi.nFileSizeHigh << 32) | ((ma_uint64)fi.nFileSizeLow); + + return MA_SUCCESS; + } + #else + { + /* GetFileInformationByHandle() is unavailable. */ + return MA_NOT_IMPLEMENTED; + } + #endif +} +#else +static ma_result ma_default_vfs_open__stdio(ma_vfs* pVFS, const char* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile) +{ + ma_result result; + FILE* pFileStd; + const char* pOpenModeStr; + + MA_ASSERT(pFilePath != NULL); + MA_ASSERT(openMode != 0); + MA_ASSERT(pFile != NULL); + + (void)pVFS; + + if ((openMode & MA_OPEN_MODE_READ) != 0) { + if ((openMode & MA_OPEN_MODE_WRITE) != 0) { + pOpenModeStr = "r+"; + } else { + pOpenModeStr = "rb"; + } + } else { + pOpenModeStr = "wb"; + } + + result = ma_fopen(&pFileStd, pFilePath, pOpenModeStr); + if (result != MA_SUCCESS) { + return result; + } + + *pFile = pFileStd; + + return MA_SUCCESS; +} + +static ma_result ma_default_vfs_open_w__stdio(ma_vfs* pVFS, const wchar_t* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile) +{ + ma_result result; + FILE* pFileStd; + const wchar_t* pOpenModeStr; + + MA_ASSERT(pFilePath != NULL); + MA_ASSERT(openMode != 0); + MA_ASSERT(pFile != NULL); + + (void)pVFS; + + if ((openMode & MA_OPEN_MODE_READ) != 0) { + if ((openMode & MA_OPEN_MODE_WRITE) != 0) { + pOpenModeStr = L"r+"; + } else { + pOpenModeStr = L"rb"; + } + } else { + pOpenModeStr = L"wb"; + } + + result = ma_wfopen(&pFileStd, pFilePath, pOpenModeStr, (pVFS != NULL) ? &((ma_default_vfs*)pVFS)->allocationCallbacks : NULL); + if (result != MA_SUCCESS) { + return result; + } + + *pFile = pFileStd; + + return MA_SUCCESS; +} + +static ma_result ma_default_vfs_close__stdio(ma_vfs* pVFS, ma_vfs_file file) +{ + MA_ASSERT(file != NULL); + + (void)pVFS; + + fclose((FILE*)file); + + return MA_SUCCESS; +} + +static ma_result ma_default_vfs_read__stdio(ma_vfs* pVFS, ma_vfs_file file, void* pDst, size_t sizeInBytes, size_t* pBytesRead) +{ + size_t result; + + MA_ASSERT(file != NULL); + MA_ASSERT(pDst != NULL); + + (void)pVFS; + + result = fread(pDst, 1, sizeInBytes, (FILE*)file); + + if (pBytesRead != NULL) { + *pBytesRead = result; + } + + if (result != sizeInBytes) { + if (result == 0 && feof((FILE*)file)) { + return MA_AT_END; + } else { + return ma_result_from_errno(ferror((FILE*)file)); + } + } + + return MA_SUCCESS; +} + +static ma_result ma_default_vfs_write__stdio(ma_vfs* pVFS, ma_vfs_file file, const void* pSrc, size_t sizeInBytes, size_t* pBytesWritten) +{ + size_t result; + + MA_ASSERT(file != NULL); + MA_ASSERT(pSrc != NULL); + + (void)pVFS; + + result = fwrite(pSrc, 1, sizeInBytes, (FILE*)file); + + if (pBytesWritten != NULL) { + *pBytesWritten = result; + } + + if (result != sizeInBytes) { + return ma_result_from_errno(ferror((FILE*)file)); + } + + return MA_SUCCESS; +} + +static ma_result ma_default_vfs_seek__stdio(ma_vfs* pVFS, ma_vfs_file file, ma_int64 offset, ma_seek_origin origin) +{ + int result; + int whence; + + MA_ASSERT(file != NULL); + + (void)pVFS; + + if (origin == ma_seek_origin_start) { + whence = SEEK_SET; + } else if (origin == ma_seek_origin_end) { + whence = SEEK_END; + } else { + whence = SEEK_CUR; + } + +#if defined(_WIN32) + #if defined(_MSC_VER) && _MSC_VER > 1200 + result = _fseeki64((FILE*)file, offset, whence); + #else + /* No _fseeki64() so restrict to 31 bits. */ + if (offset > 0x7FFFFFFF) { + return MA_OUT_OF_RANGE; + } + + result = fseek((FILE*)file, (int)offset, whence); + #endif +#else + result = fseek((FILE*)file, (long int)offset, whence); +#endif + if (result != 0) { + return MA_ERROR; + } + + return MA_SUCCESS; +} + +static ma_result ma_default_vfs_tell__stdio(ma_vfs* pVFS, ma_vfs_file file, ma_int64* pCursor) +{ + ma_int64 result; + + MA_ASSERT(file != NULL); + MA_ASSERT(pCursor != NULL); + + (void)pVFS; + +#if defined(_WIN32) + #if defined(_MSC_VER) && _MSC_VER > 1200 + result = _ftelli64((FILE*)file); + #else + result = ftell((FILE*)file); + #endif +#else + result = ftell((FILE*)file); +#endif + + *pCursor = result; + + return MA_SUCCESS; +} + +#if !defined(_MSC_VER) && !((defined(_POSIX_C_SOURCE) && _POSIX_C_SOURCE >= 1) || defined(_XOPEN_SOURCE) || defined(_POSIX_SOURCE)) && !defined(MA_BSD) +int fileno(FILE *stream); +#endif + +static ma_result ma_default_vfs_info__stdio(ma_vfs* pVFS, ma_vfs_file file, ma_file_info* pInfo) +{ + int fd; + struct stat info; + + MA_ASSERT(file != NULL); + MA_ASSERT(pInfo != NULL); + + (void)pVFS; + +#if defined(_MSC_VER) + fd = _fileno((FILE*)file); +#else + fd = fileno((FILE*)file); +#endif + + if (fstat(fd, &info) != 0) { + return ma_result_from_errno(errno); + } + + pInfo->sizeInBytes = info.st_size; + + return MA_SUCCESS; +} +#endif + + +static ma_result ma_default_vfs_open(ma_vfs* pVFS, const char* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile) +{ + if (pFile == NULL) { + return MA_INVALID_ARGS; + } + + *pFile = NULL; + + if (pFilePath == NULL || openMode == 0) { + return MA_INVALID_ARGS; + } + +#if defined(MA_USE_WIN32_FILEIO) + return ma_default_vfs_open__win32(pVFS, pFilePath, openMode, pFile); +#else + return ma_default_vfs_open__stdio(pVFS, pFilePath, openMode, pFile); +#endif +} + +static ma_result ma_default_vfs_open_w(ma_vfs* pVFS, const wchar_t* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile) +{ + if (pFile == NULL) { + return MA_INVALID_ARGS; + } + + *pFile = NULL; + + if (pFilePath == NULL || openMode == 0) { + return MA_INVALID_ARGS; + } + +#if defined(MA_USE_WIN32_FILEIO) + return ma_default_vfs_open_w__win32(pVFS, pFilePath, openMode, pFile); +#else + return ma_default_vfs_open_w__stdio(pVFS, pFilePath, openMode, pFile); +#endif +} + +static ma_result ma_default_vfs_close(ma_vfs* pVFS, ma_vfs_file file) +{ + if (file == NULL) { + return MA_INVALID_ARGS; + } + +#if defined(MA_USE_WIN32_FILEIO) + return ma_default_vfs_close__win32(pVFS, file); +#else + return ma_default_vfs_close__stdio(pVFS, file); +#endif +} + +static ma_result ma_default_vfs_read(ma_vfs* pVFS, ma_vfs_file file, void* pDst, size_t sizeInBytes, size_t* pBytesRead) +{ + if (pBytesRead != NULL) { + *pBytesRead = 0; + } + + if (file == NULL || pDst == NULL) { + return MA_INVALID_ARGS; + } + +#if defined(MA_USE_WIN32_FILEIO) + return ma_default_vfs_read__win32(pVFS, file, pDst, sizeInBytes, pBytesRead); +#else + return ma_default_vfs_read__stdio(pVFS, file, pDst, sizeInBytes, pBytesRead); +#endif +} + +static ma_result ma_default_vfs_write(ma_vfs* pVFS, ma_vfs_file file, const void* pSrc, size_t sizeInBytes, size_t* pBytesWritten) +{ + if (pBytesWritten != NULL) { + *pBytesWritten = 0; + } + + if (file == NULL || pSrc == NULL) { + return MA_INVALID_ARGS; + } + +#if defined(MA_USE_WIN32_FILEIO) + return ma_default_vfs_write__win32(pVFS, file, pSrc, sizeInBytes, pBytesWritten); +#else + return ma_default_vfs_write__stdio(pVFS, file, pSrc, sizeInBytes, pBytesWritten); +#endif +} + +static ma_result ma_default_vfs_seek(ma_vfs* pVFS, ma_vfs_file file, ma_int64 offset, ma_seek_origin origin) +{ + if (file == NULL) { + return MA_INVALID_ARGS; + } + +#if defined(MA_USE_WIN32_FILEIO) + return ma_default_vfs_seek__win32(pVFS, file, offset, origin); +#else + return ma_default_vfs_seek__stdio(pVFS, file, offset, origin); +#endif +} + +static ma_result ma_default_vfs_tell(ma_vfs* pVFS, ma_vfs_file file, ma_int64* pCursor) +{ + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; + + if (file == NULL) { + return MA_INVALID_ARGS; + } + +#if defined(MA_USE_WIN32_FILEIO) + return ma_default_vfs_tell__win32(pVFS, file, pCursor); +#else + return ma_default_vfs_tell__stdio(pVFS, file, pCursor); +#endif +} + +static ma_result ma_default_vfs_info(ma_vfs* pVFS, ma_vfs_file file, ma_file_info* pInfo) +{ + ma_result result; + + if (pInfo == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pInfo); + + if (file == NULL) { + return MA_INVALID_ARGS; + } + +#if defined(MA_USE_WIN32_FILEIO) + result = ma_default_vfs_info__win32(pVFS, file, pInfo); +#else + result = ma_default_vfs_info__stdio(pVFS, file, pInfo); +#endif + + if (result == MA_NOT_IMPLEMENTED) { + /* Not implemented. Fall back to seek/tell/seek. */ + ma_int64 cursor; + ma_int64 sizeInBytes; + + result = ma_default_vfs_tell(pVFS, file, &cursor); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_default_vfs_seek(pVFS, file, 0, ma_seek_origin_end); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_default_vfs_tell(pVFS, file, &sizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + pInfo->sizeInBytes = sizeInBytes; + + result = ma_default_vfs_seek(pVFS, file, cursor, ma_seek_origin_start); + if (result != MA_SUCCESS) { + return result; + } + + MA_ASSERT(result == MA_SUCCESS); + } + + return result; +} + + +MA_API ma_result ma_default_vfs_init(ma_default_vfs* pVFS, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pVFS == NULL) { + return MA_INVALID_ARGS; + } + + pVFS->cb.onOpen = ma_default_vfs_open; + pVFS->cb.onOpenW = ma_default_vfs_open_w; + pVFS->cb.onClose = ma_default_vfs_close; + pVFS->cb.onRead = ma_default_vfs_read; + pVFS->cb.onWrite = ma_default_vfs_write; + pVFS->cb.onSeek = ma_default_vfs_seek; + pVFS->cb.onTell = ma_default_vfs_tell; + pVFS->cb.onInfo = ma_default_vfs_info; + ma_allocation_callbacks_init_copy(&pVFS->allocationCallbacks, pAllocationCallbacks); + + return MA_SUCCESS; +} + + +MA_API ma_result ma_vfs_or_default_open(ma_vfs* pVFS, const char* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile) +{ + if (pVFS != NULL) { + return ma_vfs_open(pVFS, pFilePath, openMode, pFile); + } else { + return ma_default_vfs_open(pVFS, pFilePath, openMode, pFile); + } +} + +MA_API ma_result ma_vfs_or_default_open_w(ma_vfs* pVFS, const wchar_t* pFilePath, ma_uint32 openMode, ma_vfs_file* pFile) +{ + if (pVFS != NULL) { + return ma_vfs_open_w(pVFS, pFilePath, openMode, pFile); + } else { + return ma_default_vfs_open_w(pVFS, pFilePath, openMode, pFile); + } +} + +MA_API ma_result ma_vfs_or_default_close(ma_vfs* pVFS, ma_vfs_file file) +{ + if (pVFS != NULL) { + return ma_vfs_close(pVFS, file); + } else { + return ma_default_vfs_close(pVFS, file); + } +} + +MA_API ma_result ma_vfs_or_default_read(ma_vfs* pVFS, ma_vfs_file file, void* pDst, size_t sizeInBytes, size_t* pBytesRead) +{ + if (pVFS != NULL) { + return ma_vfs_read(pVFS, file, pDst, sizeInBytes, pBytesRead); + } else { + return ma_default_vfs_read(pVFS, file, pDst, sizeInBytes, pBytesRead); + } +} + +MA_API ma_result ma_vfs_or_default_write(ma_vfs* pVFS, ma_vfs_file file, const void* pSrc, size_t sizeInBytes, size_t* pBytesWritten) +{ + if (pVFS != NULL) { + return ma_vfs_write(pVFS, file, pSrc, sizeInBytes, pBytesWritten); + } else { + return ma_default_vfs_write(pVFS, file, pSrc, sizeInBytes, pBytesWritten); + } +} + +MA_API ma_result ma_vfs_or_default_seek(ma_vfs* pVFS, ma_vfs_file file, ma_int64 offset, ma_seek_origin origin) +{ + if (pVFS != NULL) { + return ma_vfs_seek(pVFS, file, offset, origin); + } else { + return ma_default_vfs_seek(pVFS, file, offset, origin); + } +} + +MA_API ma_result ma_vfs_or_default_tell(ma_vfs* pVFS, ma_vfs_file file, ma_int64* pCursor) +{ + if (pVFS != NULL) { + return ma_vfs_tell(pVFS, file, pCursor); + } else { + return ma_default_vfs_tell(pVFS, file, pCursor); + } +} + +MA_API ma_result ma_vfs_or_default_info(ma_vfs* pVFS, ma_vfs_file file, ma_file_info* pInfo) +{ + if (pVFS != NULL) { + return ma_vfs_info(pVFS, file, pInfo); + } else { + return ma_default_vfs_info(pVFS, file, pInfo); + } +} + + + +static ma_result ma_vfs_open_and_read_file_ex(ma_vfs* pVFS, const char* pFilePath, const wchar_t* pFilePathW, void** ppData, size_t* pSize, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_result result; + ma_vfs_file file; + ma_file_info info; + void* pData; + size_t bytesRead; + + if (ppData != NULL) { + *ppData = NULL; + } + if (pSize != NULL) { + *pSize = 0; + } + + if (ppData == NULL) { + return MA_INVALID_ARGS; + } + + if (pFilePath != NULL) { + result = ma_vfs_or_default_open(pVFS, pFilePath, MA_OPEN_MODE_READ, &file); + } else { + result = ma_vfs_or_default_open_w(pVFS, pFilePathW, MA_OPEN_MODE_READ, &file); + } + if (result != MA_SUCCESS) { + return result; + } + + result = ma_vfs_or_default_info(pVFS, file, &info); + if (result != MA_SUCCESS) { + ma_vfs_or_default_close(pVFS, file); + return result; + } + + if (info.sizeInBytes > MA_SIZE_MAX) { + ma_vfs_or_default_close(pVFS, file); + return MA_TOO_BIG; + } + + pData = ma_malloc((size_t)info.sizeInBytes, pAllocationCallbacks); /* Safe cast. */ + if (pData == NULL) { + ma_vfs_or_default_close(pVFS, file); + return result; + } + + result = ma_vfs_or_default_read(pVFS, file, pData, (size_t)info.sizeInBytes, &bytesRead); /* Safe cast. */ + ma_vfs_or_default_close(pVFS, file); + + if (result != MA_SUCCESS) { + ma_free(pData, pAllocationCallbacks); + return result; + } + + if (pSize != NULL) { + *pSize = bytesRead; + } + + MA_ASSERT(ppData != NULL); + *ppData = pData; + + return MA_SUCCESS; +} + +MA_API ma_result ma_vfs_open_and_read_file(ma_vfs* pVFS, const char* pFilePath, void** ppData, size_t* pSize, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_vfs_open_and_read_file_ex(pVFS, pFilePath, NULL, ppData, pSize, pAllocationCallbacks); +} + +MA_API ma_result ma_vfs_open_and_read_file_w(ma_vfs* pVFS, const wchar_t* pFilePath, void** ppData, size_t* pSize, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_vfs_open_and_read_file_ex(pVFS, NULL, pFilePath, ppData, pSize, pAllocationCallbacks); +} + + + +/************************************************************************************************************************************************************** + +Decoding and Encoding Headers. These are auto-generated from a tool. + +**************************************************************************************************************************************************************/ +#if !defined(MA_NO_WAV) && (!defined(MA_NO_DECODING) || !defined(MA_NO_ENCODING)) +#define MA_HAS_WAV + +/* dr_wav_h begin */ +#ifndef ma_dr_wav_h +#define ma_dr_wav_h +#ifdef __cplusplus +extern "C" { +#endif +#define MA_DR_WAV_STRINGIFY(x) #x +#define MA_DR_WAV_XSTRINGIFY(x) MA_DR_WAV_STRINGIFY(x) +#define MA_DR_WAV_VERSION_MAJOR 0 +#define MA_DR_WAV_VERSION_MINOR 14 +#define MA_DR_WAV_VERSION_REVISION 4 +#define MA_DR_WAV_VERSION_STRING MA_DR_WAV_XSTRINGIFY(MA_DR_WAV_VERSION_MAJOR) "." MA_DR_WAV_XSTRINGIFY(MA_DR_WAV_VERSION_MINOR) "." MA_DR_WAV_XSTRINGIFY(MA_DR_WAV_VERSION_REVISION) +#include +#define MA_DR_WAVE_FORMAT_PCM 0x1 +#define MA_DR_WAVE_FORMAT_ADPCM 0x2 +#define MA_DR_WAVE_FORMAT_IEEE_FLOAT 0x3 +#define MA_DR_WAVE_FORMAT_ALAW 0x6 +#define MA_DR_WAVE_FORMAT_MULAW 0x7 +#define MA_DR_WAVE_FORMAT_DVI_ADPCM 0x11 +#define MA_DR_WAVE_FORMAT_EXTENSIBLE 0xFFFE +#define MA_DR_WAV_SEQUENTIAL 0x00000001 +#define MA_DR_WAV_WITH_METADATA 0x00000002 +MA_API void ma_dr_wav_version(ma_uint32* pMajor, ma_uint32* pMinor, ma_uint32* pRevision); +MA_API const char* ma_dr_wav_version_string(void); +typedef enum +{ + MA_DR_WAV_SEEK_SET, + MA_DR_WAV_SEEK_CUR, + MA_DR_WAV_SEEK_END +} ma_dr_wav_seek_origin; +typedef enum +{ + ma_dr_wav_container_riff, + ma_dr_wav_container_rifx, + ma_dr_wav_container_w64, + ma_dr_wav_container_rf64, + ma_dr_wav_container_aiff +} ma_dr_wav_container; +typedef struct +{ + union + { + ma_uint8 fourcc[4]; + ma_uint8 guid[16]; + } id; + ma_uint64 sizeInBytes; + unsigned int paddingSize; +} ma_dr_wav_chunk_header; +typedef struct +{ + ma_uint16 formatTag; + ma_uint16 channels; + ma_uint32 sampleRate; + ma_uint32 avgBytesPerSec; + ma_uint16 blockAlign; + ma_uint16 bitsPerSample; + ma_uint16 extendedSize; + ma_uint16 validBitsPerSample; + ma_uint32 channelMask; + ma_uint8 subFormat[16]; +} ma_dr_wav_fmt; +MA_API ma_uint16 ma_dr_wav_fmt_get_format(const ma_dr_wav_fmt* pFMT); +typedef size_t (* ma_dr_wav_read_proc)(void* pUserData, void* pBufferOut, size_t bytesToRead); +typedef size_t (* ma_dr_wav_write_proc)(void* pUserData, const void* pData, size_t bytesToWrite); +typedef ma_bool32 (* ma_dr_wav_seek_proc)(void* pUserData, int offset, ma_dr_wav_seek_origin origin); +typedef ma_bool32 (* ma_dr_wav_tell_proc)(void* pUserData, ma_int64* pCursor); +typedef ma_uint64 (* ma_dr_wav_chunk_proc)(void* pChunkUserData, ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, void* pReadSeekUserData, const ma_dr_wav_chunk_header* pChunkHeader, ma_dr_wav_container container, const ma_dr_wav_fmt* pFMT); +typedef struct +{ + const ma_uint8* data; + size_t dataSize; + size_t currentReadPos; +} ma_dr_wav__memory_stream; +typedef struct +{ + void** ppData; + size_t* pDataSize; + size_t dataSize; + size_t dataCapacity; + size_t currentWritePos; +} ma_dr_wav__memory_stream_write; +typedef struct +{ + ma_dr_wav_container container; + ma_uint32 format; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_uint32 bitsPerSample; +} ma_dr_wav_data_format; +typedef enum +{ + ma_dr_wav_metadata_type_none = 0, + ma_dr_wav_metadata_type_unknown = 1 << 0, + ma_dr_wav_metadata_type_smpl = 1 << 1, + ma_dr_wav_metadata_type_inst = 1 << 2, + ma_dr_wav_metadata_type_cue = 1 << 3, + ma_dr_wav_metadata_type_acid = 1 << 4, + ma_dr_wav_metadata_type_bext = 1 << 5, + ma_dr_wav_metadata_type_list_label = 1 << 6, + ma_dr_wav_metadata_type_list_note = 1 << 7, + ma_dr_wav_metadata_type_list_labelled_cue_region = 1 << 8, + ma_dr_wav_metadata_type_list_info_software = 1 << 9, + ma_dr_wav_metadata_type_list_info_copyright = 1 << 10, + ma_dr_wav_metadata_type_list_info_title = 1 << 11, + ma_dr_wav_metadata_type_list_info_artist = 1 << 12, + ma_dr_wav_metadata_type_list_info_comment = 1 << 13, + ma_dr_wav_metadata_type_list_info_date = 1 << 14, + ma_dr_wav_metadata_type_list_info_genre = 1 << 15, + ma_dr_wav_metadata_type_list_info_album = 1 << 16, + ma_dr_wav_metadata_type_list_info_tracknumber = 1 << 17, + ma_dr_wav_metadata_type_list_info_location = 1 << 18, + ma_dr_wav_metadata_type_list_info_organization = 1 << 19, + ma_dr_wav_metadata_type_list_info_keywords = 1 << 20, + ma_dr_wav_metadata_type_list_info_medium = 1 << 21, + ma_dr_wav_metadata_type_list_info_description = 1 << 22, + ma_dr_wav_metadata_type_list_all_info_strings = ma_dr_wav_metadata_type_list_info_software + | ma_dr_wav_metadata_type_list_info_copyright + | ma_dr_wav_metadata_type_list_info_title + | ma_dr_wav_metadata_type_list_info_artist + | ma_dr_wav_metadata_type_list_info_comment + | ma_dr_wav_metadata_type_list_info_date + | ma_dr_wav_metadata_type_list_info_genre + | ma_dr_wav_metadata_type_list_info_album + | ma_dr_wav_metadata_type_list_info_tracknumber + | ma_dr_wav_metadata_type_list_info_location + | ma_dr_wav_metadata_type_list_info_organization + | ma_dr_wav_metadata_type_list_info_keywords + | ma_dr_wav_metadata_type_list_info_medium + | ma_dr_wav_metadata_type_list_info_description, + ma_dr_wav_metadata_type_list_all_adtl = ma_dr_wav_metadata_type_list_label + | ma_dr_wav_metadata_type_list_note + | ma_dr_wav_metadata_type_list_labelled_cue_region, + ma_dr_wav_metadata_type_all = -2, + ma_dr_wav_metadata_type_all_including_unknown = -1 +} ma_dr_wav_metadata_type; +typedef enum +{ + ma_dr_wav_smpl_loop_type_forward = 0, + ma_dr_wav_smpl_loop_type_pingpong = 1, + ma_dr_wav_smpl_loop_type_backward = 2 +} ma_dr_wav_smpl_loop_type; +typedef struct +{ + ma_uint32 cuePointId; + ma_uint32 type; + ma_uint32 firstSampleOffset; + ma_uint32 lastSampleOffset; + ma_uint32 sampleFraction; + ma_uint32 playCount; +} ma_dr_wav_smpl_loop; +typedef struct +{ + ma_uint32 manufacturerId; + ma_uint32 productId; + ma_uint32 samplePeriodNanoseconds; + ma_uint32 midiUnityNote; + ma_uint32 midiPitchFraction; + ma_uint32 smpteFormat; + ma_uint32 smpteOffset; + ma_uint32 sampleLoopCount; + ma_uint32 samplerSpecificDataSizeInBytes; + ma_dr_wav_smpl_loop* pLoops; + ma_uint8* pSamplerSpecificData; +} ma_dr_wav_smpl; +typedef struct +{ + ma_int8 midiUnityNote; + ma_int8 fineTuneCents; + ma_int8 gainDecibels; + ma_int8 lowNote; + ma_int8 highNote; + ma_int8 lowVelocity; + ma_int8 highVelocity; +} ma_dr_wav_inst; +typedef struct +{ + ma_uint32 id; + ma_uint32 playOrderPosition; + ma_uint8 dataChunkId[4]; + ma_uint32 chunkStart; + ma_uint32 blockStart; + ma_uint32 sampleOffset; +} ma_dr_wav_cue_point; +typedef struct +{ + ma_uint32 cuePointCount; + ma_dr_wav_cue_point *pCuePoints; +} ma_dr_wav_cue; +typedef enum +{ + ma_dr_wav_acid_flag_one_shot = 1, + ma_dr_wav_acid_flag_root_note_set = 2, + ma_dr_wav_acid_flag_stretch = 4, + ma_dr_wav_acid_flag_disk_based = 8, + ma_dr_wav_acid_flag_acidizer = 16 +} ma_dr_wav_acid_flag; +typedef struct +{ + ma_uint32 flags; + ma_uint16 midiUnityNote; + ma_uint16 reserved1; + float reserved2; + ma_uint32 numBeats; + ma_uint16 meterDenominator; + ma_uint16 meterNumerator; + float tempo; +} ma_dr_wav_acid; +typedef struct +{ + ma_uint32 cuePointId; + ma_uint32 stringLength; + char* pString; +} ma_dr_wav_list_label_or_note; +typedef struct +{ + char* pDescription; + char* pOriginatorName; + char* pOriginatorReference; + char pOriginationDate[10]; + char pOriginationTime[8]; + ma_uint64 timeReference; + ma_uint16 version; + char* pCodingHistory; + ma_uint32 codingHistorySize; + ma_uint8* pUMID; + ma_uint16 loudnessValue; + ma_uint16 loudnessRange; + ma_uint16 maxTruePeakLevel; + ma_uint16 maxMomentaryLoudness; + ma_uint16 maxShortTermLoudness; +} ma_dr_wav_bext; +typedef struct +{ + ma_uint32 stringLength; + char* pString; +} ma_dr_wav_list_info_text; +typedef struct +{ + ma_uint32 cuePointId; + ma_uint32 sampleLength; + ma_uint8 purposeId[4]; + ma_uint16 country; + ma_uint16 language; + ma_uint16 dialect; + ma_uint16 codePage; + ma_uint32 stringLength; + char* pString; +} ma_dr_wav_list_labelled_cue_region; +typedef enum +{ + ma_dr_wav_metadata_location_invalid, + ma_dr_wav_metadata_location_top_level, + ma_dr_wav_metadata_location_inside_info_list, + ma_dr_wav_metadata_location_inside_adtl_list +} ma_dr_wav_metadata_location; +typedef struct +{ + ma_uint8 id[4]; + ma_dr_wav_metadata_location chunkLocation; + ma_uint32 dataSizeInBytes; + ma_uint8* pData; +} ma_dr_wav_unknown_metadata; +typedef struct +{ + ma_dr_wav_metadata_type type; + union + { + ma_dr_wav_cue cue; + ma_dr_wav_smpl smpl; + ma_dr_wav_acid acid; + ma_dr_wav_inst inst; + ma_dr_wav_bext bext; + ma_dr_wav_list_label_or_note labelOrNote; + ma_dr_wav_list_labelled_cue_region labelledCueRegion; + ma_dr_wav_list_info_text infoText; + ma_dr_wav_unknown_metadata unknown; + } data; +} ma_dr_wav_metadata; +typedef struct +{ + ma_dr_wav_read_proc onRead; + ma_dr_wav_write_proc onWrite; + ma_dr_wav_seek_proc onSeek; + ma_dr_wav_tell_proc onTell; + void* pUserData; + ma_allocation_callbacks allocationCallbacks; + ma_dr_wav_container container; + ma_dr_wav_fmt fmt; + ma_uint32 sampleRate; + ma_uint16 channels; + ma_uint16 bitsPerSample; + ma_uint16 translatedFormatTag; + ma_uint64 totalPCMFrameCount; + ma_uint64 dataChunkDataSize; + ma_uint64 dataChunkDataPos; + ma_uint64 bytesRemaining; + ma_uint64 readCursorInPCMFrames; + ma_uint64 dataChunkDataSizeTargetWrite; + ma_bool32 isSequentialWrite; + ma_dr_wav_metadata* pMetadata; + ma_uint32 metadataCount; + ma_dr_wav__memory_stream memoryStream; + ma_dr_wav__memory_stream_write memoryStreamWrite; + struct + { + ma_uint32 bytesRemainingInBlock; + ma_uint16 predictor[2]; + ma_int32 delta[2]; + ma_int32 cachedFrames[4]; + ma_uint32 cachedFrameCount; + ma_int32 prevFrames[2][2]; + } msadpcm; + struct + { + ma_uint32 bytesRemainingInBlock; + ma_int32 predictor[2]; + ma_int32 stepIndex[2]; + ma_int32 cachedFrames[16]; + ma_uint32 cachedFrameCount; + } ima; + struct + { + ma_bool8 isLE; + ma_bool8 isUnsigned; + } aiff; +} ma_dr_wav; +MA_API ma_bool32 ma_dr_wav_init(ma_dr_wav* pWav, ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_ex(ma_dr_wav* pWav, ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, ma_dr_wav_chunk_proc onChunk, void* pReadSeekTellUserData, void* pChunkUserData, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_with_metadata(ma_dr_wav* pWav, ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, void* pUserData, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_write(ma_dr_wav* pWav, const ma_dr_wav_data_format* pFormat, ma_dr_wav_write_proc onWrite, ma_dr_wav_seek_proc onSeek, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_write_sequential(ma_dr_wav* pWav, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, ma_dr_wav_write_proc onWrite, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_write_sequential_pcm_frames(ma_dr_wav* pWav, const ma_dr_wav_data_format* pFormat, ma_uint64 totalPCMFrameCount, ma_dr_wav_write_proc onWrite, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_write_with_metadata(ma_dr_wav* pWav, const ma_dr_wav_data_format* pFormat, ma_dr_wav_write_proc onWrite, ma_dr_wav_seek_proc onSeek, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks, ma_dr_wav_metadata* pMetadata, ma_uint32 metadataCount); +MA_API ma_uint64 ma_dr_wav_target_write_size_bytes(const ma_dr_wav_data_format* pFormat, ma_uint64 totalFrameCount, ma_dr_wav_metadata* pMetadata, ma_uint32 metadataCount); +MA_API ma_dr_wav_metadata* ma_dr_wav_take_ownership_of_metadata(ma_dr_wav* pWav); +MA_API ma_result ma_dr_wav_uninit(ma_dr_wav* pWav); +MA_API size_t ma_dr_wav_read_raw(ma_dr_wav* pWav, size_t bytesToRead, void* pBufferOut); +MA_API ma_uint64 ma_dr_wav_read_pcm_frames(ma_dr_wav* pWav, ma_uint64 framesToRead, void* pBufferOut); +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_le(ma_dr_wav* pWav, ma_uint64 framesToRead, void* pBufferOut); +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_be(ma_dr_wav* pWav, ma_uint64 framesToRead, void* pBufferOut); +MA_API ma_bool32 ma_dr_wav_seek_to_pcm_frame(ma_dr_wav* pWav, ma_uint64 targetFrameIndex); +MA_API ma_result ma_dr_wav_get_cursor_in_pcm_frames(ma_dr_wav* pWav, ma_uint64* pCursor); +MA_API ma_result ma_dr_wav_get_length_in_pcm_frames(ma_dr_wav* pWav, ma_uint64* pLength); +MA_API size_t ma_dr_wav_write_raw(ma_dr_wav* pWav, size_t bytesToWrite, const void* pData); +MA_API ma_uint64 ma_dr_wav_write_pcm_frames(ma_dr_wav* pWav, ma_uint64 framesToWrite, const void* pData); +MA_API ma_uint64 ma_dr_wav_write_pcm_frames_le(ma_dr_wav* pWav, ma_uint64 framesToWrite, const void* pData); +MA_API ma_uint64 ma_dr_wav_write_pcm_frames_be(ma_dr_wav* pWav, ma_uint64 framesToWrite, const void* pData); +#ifndef MA_DR_WAV_NO_CONVERSION_API +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s16(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut); +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s16le(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut); +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s16be(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut); +MA_API void ma_dr_wav_u8_to_s16(ma_int16* pOut, const ma_uint8* pIn, size_t sampleCount); +MA_API void ma_dr_wav_s24_to_s16(ma_int16* pOut, const ma_uint8* pIn, size_t sampleCount); +MA_API void ma_dr_wav_s32_to_s16(ma_int16* pOut, const ma_int32* pIn, size_t sampleCount); +MA_API void ma_dr_wav_f32_to_s16(ma_int16* pOut, const float* pIn, size_t sampleCount); +MA_API void ma_dr_wav_f64_to_s16(ma_int16* pOut, const double* pIn, size_t sampleCount); +MA_API void ma_dr_wav_alaw_to_s16(ma_int16* pOut, const ma_uint8* pIn, size_t sampleCount); +MA_API void ma_dr_wav_mulaw_to_s16(ma_int16* pOut, const ma_uint8* pIn, size_t sampleCount); +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_f32(ma_dr_wav* pWav, ma_uint64 framesToRead, float* pBufferOut); +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_f32le(ma_dr_wav* pWav, ma_uint64 framesToRead, float* pBufferOut); +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_f32be(ma_dr_wav* pWav, ma_uint64 framesToRead, float* pBufferOut); +MA_API void ma_dr_wav_u8_to_f32(float* pOut, const ma_uint8* pIn, size_t sampleCount); +MA_API void ma_dr_wav_s16_to_f32(float* pOut, const ma_int16* pIn, size_t sampleCount); +MA_API void ma_dr_wav_s24_to_f32(float* pOut, const ma_uint8* pIn, size_t sampleCount); +MA_API void ma_dr_wav_s32_to_f32(float* pOut, const ma_int32* pIn, size_t sampleCount); +MA_API void ma_dr_wav_f64_to_f32(float* pOut, const double* pIn, size_t sampleCount); +MA_API void ma_dr_wav_alaw_to_f32(float* pOut, const ma_uint8* pIn, size_t sampleCount); +MA_API void ma_dr_wav_mulaw_to_f32(float* pOut, const ma_uint8* pIn, size_t sampleCount); +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s32(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int32* pBufferOut); +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s32le(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int32* pBufferOut); +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s32be(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int32* pBufferOut); +MA_API void ma_dr_wav_u8_to_s32(ma_int32* pOut, const ma_uint8* pIn, size_t sampleCount); +MA_API void ma_dr_wav_s16_to_s32(ma_int32* pOut, const ma_int16* pIn, size_t sampleCount); +MA_API void ma_dr_wav_s24_to_s32(ma_int32* pOut, const ma_uint8* pIn, size_t sampleCount); +MA_API void ma_dr_wav_f32_to_s32(ma_int32* pOut, const float* pIn, size_t sampleCount); +MA_API void ma_dr_wav_f64_to_s32(ma_int32* pOut, const double* pIn, size_t sampleCount); +MA_API void ma_dr_wav_alaw_to_s32(ma_int32* pOut, const ma_uint8* pIn, size_t sampleCount); +MA_API void ma_dr_wav_mulaw_to_s32(ma_int32* pOut, const ma_uint8* pIn, size_t sampleCount); +#endif +#ifndef MA_DR_WAV_NO_STDIO +MA_API ma_bool32 ma_dr_wav_init_file(ma_dr_wav* pWav, const char* filename, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_file_ex(ma_dr_wav* pWav, const char* filename, ma_dr_wav_chunk_proc onChunk, void* pChunkUserData, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_file_w(ma_dr_wav* pWav, const wchar_t* filename, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_file_ex_w(ma_dr_wav* pWav, const wchar_t* filename, ma_dr_wav_chunk_proc onChunk, void* pChunkUserData, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_file_with_metadata(ma_dr_wav* pWav, const char* filename, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_file_with_metadata_w(ma_dr_wav* pWav, const wchar_t* filename, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_file_write(ma_dr_wav* pWav, const char* filename, const ma_dr_wav_data_format* pFormat, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_file_write_sequential(ma_dr_wav* pWav, const char* filename, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_file_write_sequential_pcm_frames(ma_dr_wav* pWav, const char* filename, const ma_dr_wav_data_format* pFormat, ma_uint64 totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_file_write_w(ma_dr_wav* pWav, const wchar_t* filename, const ma_dr_wav_data_format* pFormat, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_file_write_sequential_w(ma_dr_wav* pWav, const wchar_t* filename, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_file_write_sequential_pcm_frames_w(ma_dr_wav* pWav, const wchar_t* filename, const ma_dr_wav_data_format* pFormat, ma_uint64 totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +#endif +MA_API ma_bool32 ma_dr_wav_init_memory(ma_dr_wav* pWav, const void* data, size_t dataSize, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_memory_ex(ma_dr_wav* pWav, const void* data, size_t dataSize, ma_dr_wav_chunk_proc onChunk, void* pChunkUserData, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_memory_with_metadata(ma_dr_wav* pWav, const void* data, size_t dataSize, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_memory_write(ma_dr_wav* pWav, void** ppData, size_t* pDataSize, const ma_dr_wav_data_format* pFormat, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_memory_write_sequential(ma_dr_wav* pWav, void** ppData, size_t* pDataSize, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_wav_init_memory_write_sequential_pcm_frames(ma_dr_wav* pWav, void** ppData, size_t* pDataSize, const ma_dr_wav_data_format* pFormat, ma_uint64 totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +#ifndef MA_DR_WAV_NO_CONVERSION_API +MA_API ma_int16* ma_dr_wav_open_and_read_pcm_frames_s16(ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, void* pUserData, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API float* ma_dr_wav_open_and_read_pcm_frames_f32(ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, void* pUserData, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int32* ma_dr_wav_open_and_read_pcm_frames_s32(ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, void* pUserData, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +#ifndef MA_DR_WAV_NO_STDIO +MA_API ma_int16* ma_dr_wav_open_file_and_read_pcm_frames_s16(const char* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API float* ma_dr_wav_open_file_and_read_pcm_frames_f32(const char* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int32* ma_dr_wav_open_file_and_read_pcm_frames_s32(const char* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int16* ma_dr_wav_open_file_and_read_pcm_frames_s16_w(const wchar_t* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API float* ma_dr_wav_open_file_and_read_pcm_frames_f32_w(const wchar_t* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int32* ma_dr_wav_open_file_and_read_pcm_frames_s32_w(const wchar_t* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +#endif +MA_API ma_int16* ma_dr_wav_open_memory_and_read_pcm_frames_s16(const void* data, size_t dataSize, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API float* ma_dr_wav_open_memory_and_read_pcm_frames_f32(const void* data, size_t dataSize, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int32* ma_dr_wav_open_memory_and_read_pcm_frames_s32(const void* data, size_t dataSize, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks); +#endif +MA_API void ma_dr_wav_free(void* p, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_uint16 ma_dr_wav_bytes_to_u16(const ma_uint8* data); +MA_API ma_int16 ma_dr_wav_bytes_to_s16(const ma_uint8* data); +MA_API ma_uint32 ma_dr_wav_bytes_to_u32(const ma_uint8* data); +MA_API ma_int32 ma_dr_wav_bytes_to_s32(const ma_uint8* data); +MA_API ma_uint64 ma_dr_wav_bytes_to_u64(const ma_uint8* data); +MA_API ma_int64 ma_dr_wav_bytes_to_s64(const ma_uint8* data); +MA_API float ma_dr_wav_bytes_to_f32(const ma_uint8* data); +MA_API ma_bool32 ma_dr_wav_guid_equal(const ma_uint8 a[16], const ma_uint8 b[16]); +MA_API ma_bool32 ma_dr_wav_fourcc_equal(const ma_uint8* a, const char* b); +#ifdef __cplusplus +} +#endif +#endif +/* dr_wav_h end */ +#endif /* MA_NO_WAV */ + +#if !defined(MA_NO_FLAC) && !defined(MA_NO_DECODING) +#define MA_HAS_FLAC + +/* dr_flac_h begin */ +#ifndef ma_dr_flac_h +#define ma_dr_flac_h +#ifdef __cplusplus +extern "C" { +#endif +#define MA_DR_FLAC_STRINGIFY(x) #x +#define MA_DR_FLAC_XSTRINGIFY(x) MA_DR_FLAC_STRINGIFY(x) +#define MA_DR_FLAC_VERSION_MAJOR 0 +#define MA_DR_FLAC_VERSION_MINOR 13 +#define MA_DR_FLAC_VERSION_REVISION 3 +#define MA_DR_FLAC_VERSION_STRING MA_DR_FLAC_XSTRINGIFY(MA_DR_FLAC_VERSION_MAJOR) "." MA_DR_FLAC_XSTRINGIFY(MA_DR_FLAC_VERSION_MINOR) "." MA_DR_FLAC_XSTRINGIFY(MA_DR_FLAC_VERSION_REVISION) +#include +#if defined(_MSC_VER) && _MSC_VER >= 1700 + #define MA_DR_FLAC_DEPRECATED __declspec(deprecated) +#elif (defined(__GNUC__) && __GNUC__ >= 4) + #define MA_DR_FLAC_DEPRECATED __attribute__((deprecated)) +#elif defined(__has_feature) + #if __has_feature(attribute_deprecated) + #define MA_DR_FLAC_DEPRECATED __attribute__((deprecated)) + #else + #define MA_DR_FLAC_DEPRECATED + #endif +#else + #define MA_DR_FLAC_DEPRECATED +#endif +MA_API void ma_dr_flac_version(ma_uint32* pMajor, ma_uint32* pMinor, ma_uint32* pRevision); +MA_API const char* ma_dr_flac_version_string(void); +#ifndef MA_DR_FLAC_BUFFER_SIZE +#define MA_DR_FLAC_BUFFER_SIZE 4096 +#endif +#ifdef MA_64BIT +typedef ma_uint64 ma_dr_flac_cache_t; +#else +typedef ma_uint32 ma_dr_flac_cache_t; +#endif +#define MA_DR_FLAC_METADATA_BLOCK_TYPE_STREAMINFO 0 +#define MA_DR_FLAC_METADATA_BLOCK_TYPE_PADDING 1 +#define MA_DR_FLAC_METADATA_BLOCK_TYPE_APPLICATION 2 +#define MA_DR_FLAC_METADATA_BLOCK_TYPE_SEEKTABLE 3 +#define MA_DR_FLAC_METADATA_BLOCK_TYPE_VORBIS_COMMENT 4 +#define MA_DR_FLAC_METADATA_BLOCK_TYPE_CUESHEET 5 +#define MA_DR_FLAC_METADATA_BLOCK_TYPE_PICTURE 6 +#define MA_DR_FLAC_METADATA_BLOCK_TYPE_INVALID 127 +#define MA_DR_FLAC_PICTURE_TYPE_OTHER 0 +#define MA_DR_FLAC_PICTURE_TYPE_FILE_ICON 1 +#define MA_DR_FLAC_PICTURE_TYPE_OTHER_FILE_ICON 2 +#define MA_DR_FLAC_PICTURE_TYPE_COVER_FRONT 3 +#define MA_DR_FLAC_PICTURE_TYPE_COVER_BACK 4 +#define MA_DR_FLAC_PICTURE_TYPE_LEAFLET_PAGE 5 +#define MA_DR_FLAC_PICTURE_TYPE_MEDIA 6 +#define MA_DR_FLAC_PICTURE_TYPE_LEAD_ARTIST 7 +#define MA_DR_FLAC_PICTURE_TYPE_ARTIST 8 +#define MA_DR_FLAC_PICTURE_TYPE_CONDUCTOR 9 +#define MA_DR_FLAC_PICTURE_TYPE_BAND 10 +#define MA_DR_FLAC_PICTURE_TYPE_COMPOSER 11 +#define MA_DR_FLAC_PICTURE_TYPE_LYRICIST 12 +#define MA_DR_FLAC_PICTURE_TYPE_RECORDING_LOCATION 13 +#define MA_DR_FLAC_PICTURE_TYPE_DURING_RECORDING 14 +#define MA_DR_FLAC_PICTURE_TYPE_DURING_PERFORMANCE 15 +#define MA_DR_FLAC_PICTURE_TYPE_SCREEN_CAPTURE 16 +#define MA_DR_FLAC_PICTURE_TYPE_BRIGHT_COLORED_FISH 17 +#define MA_DR_FLAC_PICTURE_TYPE_ILLUSTRATION 18 +#define MA_DR_FLAC_PICTURE_TYPE_BAND_LOGOTYPE 19 +#define MA_DR_FLAC_PICTURE_TYPE_PUBLISHER_LOGOTYPE 20 +typedef enum +{ + ma_dr_flac_container_native, + ma_dr_flac_container_ogg, + ma_dr_flac_container_unknown +} ma_dr_flac_container; +typedef enum +{ + MA_DR_FLAC_SEEK_SET, + MA_DR_FLAC_SEEK_CUR, + MA_DR_FLAC_SEEK_END +} ma_dr_flac_seek_origin; +typedef struct +{ + ma_uint64 firstPCMFrame; + ma_uint64 flacFrameOffset; + ma_uint16 pcmFrameCount; +} ma_dr_flac_seekpoint; +typedef struct +{ + ma_uint16 minBlockSizeInPCMFrames; + ma_uint16 maxBlockSizeInPCMFrames; + ma_uint32 minFrameSizeInPCMFrames; + ma_uint32 maxFrameSizeInPCMFrames; + ma_uint32 sampleRate; + ma_uint8 channels; + ma_uint8 bitsPerSample; + ma_uint64 totalPCMFrameCount; + ma_uint8 md5[16]; +} ma_dr_flac_streaminfo; +typedef struct +{ + ma_uint32 type; + ma_uint32 rawDataSize; + ma_uint64 rawDataOffset; + const void* pRawData; + union + { + ma_dr_flac_streaminfo streaminfo; + struct + { + int unused; + } padding; + struct + { + ma_uint32 id; + const void* pData; + ma_uint32 dataSize; + } application; + struct + { + ma_uint32 seekpointCount; + const ma_dr_flac_seekpoint* pSeekpoints; + } seektable; + struct + { + ma_uint32 vendorLength; + const char* vendor; + ma_uint32 commentCount; + const void* pComments; + } vorbis_comment; + struct + { + char catalog[128]; + ma_uint64 leadInSampleCount; + ma_bool32 isCD; + ma_uint8 trackCount; + const void* pTrackData; + } cuesheet; + struct + { + ma_uint32 type; + ma_uint32 mimeLength; + const char* mime; + ma_uint32 descriptionLength; + const char* description; + ma_uint32 width; + ma_uint32 height; + ma_uint32 colorDepth; + ma_uint32 indexColorCount; + ma_uint32 pictureDataSize; + ma_uint64 pictureDataOffset; + const ma_uint8* pPictureData; + } picture; + } data; +} ma_dr_flac_metadata; +typedef size_t (* ma_dr_flac_read_proc)(void* pUserData, void* pBufferOut, size_t bytesToRead); +typedef ma_bool32 (* ma_dr_flac_seek_proc)(void* pUserData, int offset, ma_dr_flac_seek_origin origin); +typedef ma_bool32 (* ma_dr_flac_tell_proc)(void* pUserData, ma_int64* pCursor); +typedef void (* ma_dr_flac_meta_proc)(void* pUserData, ma_dr_flac_metadata* pMetadata); +typedef struct +{ + const ma_uint8* data; + size_t dataSize; + size_t currentReadPos; +} ma_dr_flac__memory_stream; +typedef struct +{ + ma_dr_flac_read_proc onRead; + ma_dr_flac_seek_proc onSeek; + ma_dr_flac_tell_proc onTell; + void* pUserData; + size_t unalignedByteCount; + ma_dr_flac_cache_t unalignedCache; + ma_uint32 nextL2Line; + ma_uint32 consumedBits; + ma_dr_flac_cache_t cacheL2[MA_DR_FLAC_BUFFER_SIZE/sizeof(ma_dr_flac_cache_t)]; + ma_dr_flac_cache_t cache; + ma_uint16 crc16; + ma_dr_flac_cache_t crc16Cache; + ma_uint32 crc16CacheIgnoredBytes; +} ma_dr_flac_bs; +typedef struct +{ + ma_uint8 subframeType; + ma_uint8 wastedBitsPerSample; + ma_uint8 lpcOrder; + ma_int32* pSamplesS32; +} ma_dr_flac_subframe; +typedef struct +{ + ma_uint64 pcmFrameNumber; + ma_uint32 flacFrameNumber; + ma_uint32 sampleRate; + ma_uint16 blockSizeInPCMFrames; + ma_uint8 channelAssignment; + ma_uint8 bitsPerSample; + ma_uint8 crc8; +} ma_dr_flac_frame_header; +typedef struct +{ + ma_dr_flac_frame_header header; + ma_uint32 pcmFramesRemaining; + ma_dr_flac_subframe subframes[8]; +} ma_dr_flac_frame; +typedef struct +{ + ma_dr_flac_meta_proc onMeta; + void* pUserDataMD; + ma_allocation_callbacks allocationCallbacks; + ma_uint32 sampleRate; + ma_uint8 channels; + ma_uint8 bitsPerSample; + ma_uint16 maxBlockSizeInPCMFrames; + ma_uint64 totalPCMFrameCount; + ma_dr_flac_container container; + ma_uint32 seekpointCount; + ma_dr_flac_frame currentFLACFrame; + ma_uint64 currentPCMFrame; + ma_uint64 firstFLACFramePosInBytes; + ma_dr_flac__memory_stream memoryStream; + ma_int32* pDecodedSamples; + ma_dr_flac_seekpoint* pSeekpoints; + void* _oggbs; + ma_bool32 _noSeekTableSeek : 1; + ma_bool32 _noBinarySearchSeek : 1; + ma_bool32 _noBruteForceSeek : 1; + ma_dr_flac_bs bs; + ma_uint8 pExtraData[1]; +} ma_dr_flac; +MA_API ma_dr_flac* ma_dr_flac_open(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_dr_flac* ma_dr_flac_open_relaxed(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, ma_dr_flac_container container, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_dr_flac* ma_dr_flac_open_with_metadata(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, ma_dr_flac_meta_proc onMeta, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_dr_flac* ma_dr_flac_open_with_metadata_relaxed(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, ma_dr_flac_meta_proc onMeta, ma_dr_flac_container container, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API void ma_dr_flac_close(ma_dr_flac* pFlac); +MA_API ma_uint64 ma_dr_flac_read_pcm_frames_s32(ma_dr_flac* pFlac, ma_uint64 framesToRead, ma_int32* pBufferOut); +MA_API ma_uint64 ma_dr_flac_read_pcm_frames_s16(ma_dr_flac* pFlac, ma_uint64 framesToRead, ma_int16* pBufferOut); +MA_API ma_uint64 ma_dr_flac_read_pcm_frames_f32(ma_dr_flac* pFlac, ma_uint64 framesToRead, float* pBufferOut); +MA_API ma_bool32 ma_dr_flac_seek_to_pcm_frame(ma_dr_flac* pFlac, ma_uint64 pcmFrameIndex); +#ifndef MA_DR_FLAC_NO_STDIO +MA_API ma_dr_flac* ma_dr_flac_open_file(const char* pFileName, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_dr_flac* ma_dr_flac_open_file_w(const wchar_t* pFileName, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_dr_flac* ma_dr_flac_open_file_with_metadata(const char* pFileName, ma_dr_flac_meta_proc onMeta, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_dr_flac* ma_dr_flac_open_file_with_metadata_w(const wchar_t* pFileName, ma_dr_flac_meta_proc onMeta, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +#endif +MA_API ma_dr_flac* ma_dr_flac_open_memory(const void* pData, size_t dataSize, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_dr_flac* ma_dr_flac_open_memory_with_metadata(const void* pData, size_t dataSize, ma_dr_flac_meta_proc onMeta, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int32* ma_dr_flac_open_and_read_pcm_frames_s32(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, void* pUserData, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int16* ma_dr_flac_open_and_read_pcm_frames_s16(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, void* pUserData, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API float* ma_dr_flac_open_and_read_pcm_frames_f32(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, void* pUserData, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +#ifndef MA_DR_FLAC_NO_STDIO +MA_API ma_int32* ma_dr_flac_open_file_and_read_pcm_frames_s32(const char* filename, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int16* ma_dr_flac_open_file_and_read_pcm_frames_s16(const char* filename, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API float* ma_dr_flac_open_file_and_read_pcm_frames_f32(const char* filename, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +#endif +MA_API ma_int32* ma_dr_flac_open_memory_and_read_pcm_frames_s32(const void* data, size_t dataSize, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int16* ma_dr_flac_open_memory_and_read_pcm_frames_s16(const void* data, size_t dataSize, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API float* ma_dr_flac_open_memory_and_read_pcm_frames_f32(const void* data, size_t dataSize, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API void ma_dr_flac_free(void* p, const ma_allocation_callbacks* pAllocationCallbacks); +typedef struct +{ + ma_uint32 countRemaining; + const char* pRunningData; +} ma_dr_flac_vorbis_comment_iterator; +MA_API void ma_dr_flac_init_vorbis_comment_iterator(ma_dr_flac_vorbis_comment_iterator* pIter, ma_uint32 commentCount, const void* pComments); +MA_API const char* ma_dr_flac_next_vorbis_comment(ma_dr_flac_vorbis_comment_iterator* pIter, ma_uint32* pCommentLengthOut); +typedef struct +{ + ma_uint32 countRemaining; + const char* pRunningData; +} ma_dr_flac_cuesheet_track_iterator; +typedef struct +{ + ma_uint64 offset; + ma_uint8 index; + ma_uint8 reserved[3]; +} ma_dr_flac_cuesheet_track_index; +typedef struct +{ + ma_uint64 offset; + ma_uint8 trackNumber; + char ISRC[12]; + ma_bool8 isAudio; + ma_bool8 preEmphasis; + ma_uint8 indexCount; + const ma_dr_flac_cuesheet_track_index* pIndexPoints; +} ma_dr_flac_cuesheet_track; +MA_API void ma_dr_flac_init_cuesheet_track_iterator(ma_dr_flac_cuesheet_track_iterator* pIter, ma_uint32 trackCount, const void* pTrackData); +MA_API ma_bool32 ma_dr_flac_next_cuesheet_track(ma_dr_flac_cuesheet_track_iterator* pIter, ma_dr_flac_cuesheet_track* pCuesheetTrack); +#ifdef __cplusplus +} +#endif +#endif +/* dr_flac_h end */ +#endif /* MA_NO_FLAC */ + +#if !defined(MA_NO_MP3) && !defined(MA_NO_DECODING) +#define MA_HAS_MP3 + +#ifndef MA_DR_MP3_NO_SIMD + #if (defined(MA_NO_NEON) && defined(MA_ARM)) || (defined(MA_NO_SSE2) && (defined(MA_X86) || defined(MA_X64))) + #define MA_DR_MP3_NO_SIMD + #endif +#endif + +/* dr_mp3_h begin */ +#ifndef ma_dr_mp3_h +#define ma_dr_mp3_h +#ifdef __cplusplus +extern "C" { +#endif +#define MA_DR_MP3_STRINGIFY(x) #x +#define MA_DR_MP3_XSTRINGIFY(x) MA_DR_MP3_STRINGIFY(x) +#define MA_DR_MP3_VERSION_MAJOR 0 +#define MA_DR_MP3_VERSION_MINOR 7 +#define MA_DR_MP3_VERSION_REVISION 3 +#define MA_DR_MP3_VERSION_STRING MA_DR_MP3_XSTRINGIFY(MA_DR_MP3_VERSION_MAJOR) "." MA_DR_MP3_XSTRINGIFY(MA_DR_MP3_VERSION_MINOR) "." MA_DR_MP3_XSTRINGIFY(MA_DR_MP3_VERSION_REVISION) +#include +#define MA_DR_MP3_MAX_PCM_FRAMES_PER_MP3_FRAME 1152 +#define MA_DR_MP3_MAX_SAMPLES_PER_FRAME (MA_DR_MP3_MAX_PCM_FRAMES_PER_MP3_FRAME*2) +MA_API void ma_dr_mp3_version(ma_uint32* pMajor, ma_uint32* pMinor, ma_uint32* pRevision); +MA_API const char* ma_dr_mp3_version_string(void); +#define MA_DR_MP3_MAX_BITRESERVOIR_BYTES 511 +#define MA_DR_MP3_MAX_FREE_FORMAT_FRAME_SIZE 2304 +#define MA_DR_MP3_MAX_L3_FRAME_PAYLOAD_BYTES MA_DR_MP3_MAX_FREE_FORMAT_FRAME_SIZE +typedef struct +{ + int frame_bytes, channels, sample_rate, layer, bitrate_kbps; +} ma_dr_mp3dec_frame_info; +typedef struct +{ + const ma_uint8 *buf; + int pos, limit; +} ma_dr_mp3_bs; +typedef struct +{ + const ma_uint8 *sfbtab; + ma_uint16 part_23_length, big_values, scalefac_compress; + ma_uint8 global_gain, block_type, mixed_block_flag, n_long_sfb, n_short_sfb; + ma_uint8 table_select[3], region_count[3], subblock_gain[3]; + ma_uint8 preflag, scalefac_scale, count1_table, scfsi; +} ma_dr_mp3_L3_gr_info; +typedef struct +{ + ma_dr_mp3_bs bs; + ma_uint8 maindata[MA_DR_MP3_MAX_BITRESERVOIR_BYTES + MA_DR_MP3_MAX_L3_FRAME_PAYLOAD_BYTES]; + ma_dr_mp3_L3_gr_info gr_info[4]; + float grbuf[2][576], scf[40], syn[18 + 15][2*32]; + ma_uint8 ist_pos[2][39]; +} ma_dr_mp3dec_scratch; +typedef struct +{ + float mdct_overlap[2][9*32], qmf_state[15*2*32]; + int reserv, free_format_bytes; + ma_uint8 header[4], reserv_buf[511]; + ma_dr_mp3dec_scratch scratch; +} ma_dr_mp3dec; +MA_API void ma_dr_mp3dec_init(ma_dr_mp3dec *dec); +MA_API int ma_dr_mp3dec_decode_frame(ma_dr_mp3dec *dec, const ma_uint8 *mp3, int mp3_bytes, void *pcm, ma_dr_mp3dec_frame_info *info); +MA_API void ma_dr_mp3dec_f32_to_s16(const float *in, ma_int16 *out, size_t num_samples); +typedef enum +{ + MA_DR_MP3_SEEK_SET, + MA_DR_MP3_SEEK_CUR, + MA_DR_MP3_SEEK_END +} ma_dr_mp3_seek_origin; +typedef struct +{ + ma_uint64 seekPosInBytes; + ma_uint64 pcmFrameIndex; + ma_uint16 mp3FramesToDiscard; + ma_uint16 pcmFramesToDiscard; +} ma_dr_mp3_seek_point; +typedef enum +{ + MA_DR_MP3_METADATA_TYPE_ID3V1, + MA_DR_MP3_METADATA_TYPE_ID3V2, + MA_DR_MP3_METADATA_TYPE_APE, + MA_DR_MP3_METADATA_TYPE_XING, + MA_DR_MP3_METADATA_TYPE_VBRI +} ma_dr_mp3_metadata_type; +typedef struct +{ + ma_dr_mp3_metadata_type type; + const void* pRawData; + size_t rawDataSize; +} ma_dr_mp3_metadata; +typedef size_t (* ma_dr_mp3_read_proc)(void* pUserData, void* pBufferOut, size_t bytesToRead); +typedef ma_bool32 (* ma_dr_mp3_seek_proc)(void* pUserData, int offset, ma_dr_mp3_seek_origin origin); +typedef ma_bool32 (* ma_dr_mp3_tell_proc)(void* pUserData, ma_int64* pCursor); +typedef void (* ma_dr_mp3_meta_proc)(void* pUserData, const ma_dr_mp3_metadata* pMetadata); +typedef struct +{ + ma_uint32 channels; + ma_uint32 sampleRate; +} ma_dr_mp3_config; +typedef struct +{ + ma_dr_mp3dec decoder; + ma_uint32 channels; + ma_uint32 sampleRate; + ma_dr_mp3_read_proc onRead; + ma_dr_mp3_seek_proc onSeek; + ma_dr_mp3_meta_proc onMeta; + void* pUserData; + void* pUserDataMeta; + ma_allocation_callbacks allocationCallbacks; + ma_uint32 mp3FrameChannels; + ma_uint32 mp3FrameSampleRate; + ma_uint32 pcmFramesConsumedInMP3Frame; + ma_uint32 pcmFramesRemainingInMP3Frame; + ma_uint8 pcmFrames[sizeof(float)*MA_DR_MP3_MAX_SAMPLES_PER_FRAME]; + ma_uint64 currentPCMFrame; + ma_uint64 streamCursor; + ma_uint64 streamLength; + ma_uint64 streamStartOffset; + ma_dr_mp3_seek_point* pSeekPoints; + ma_uint32 seekPointCount; + ma_uint32 delayInPCMFrames; + ma_uint32 paddingInPCMFrames; + ma_uint64 totalPCMFrameCount; + ma_bool32 isVBR; + ma_bool32 isCBR; + size_t dataSize; + size_t dataCapacity; + size_t dataConsumed; + ma_uint8* pData; + ma_bool32 atEnd; + struct + { + const ma_uint8* pData; + size_t dataSize; + size_t currentReadPos; + } memory; +} ma_dr_mp3; +MA_API ma_bool32 ma_dr_mp3_init(ma_dr_mp3* pMP3, ma_dr_mp3_read_proc onRead, ma_dr_mp3_seek_proc onSeek, ma_dr_mp3_tell_proc onTell, ma_dr_mp3_meta_proc onMeta, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_mp3_init_memory_with_metadata(ma_dr_mp3* pMP3, const void* pData, size_t dataSize, ma_dr_mp3_meta_proc onMeta, void* pUserDataMeta, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_mp3_init_memory(ma_dr_mp3* pMP3, const void* pData, size_t dataSize, const ma_allocation_callbacks* pAllocationCallbacks); +#ifndef MA_DR_MP3_NO_STDIO +MA_API ma_bool32 ma_dr_mp3_init_file_with_metadata(ma_dr_mp3* pMP3, const char* pFilePath, ma_dr_mp3_meta_proc onMeta, void* pUserDataMeta, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_mp3_init_file_with_metadata_w(ma_dr_mp3* pMP3, const wchar_t* pFilePath, ma_dr_mp3_meta_proc onMeta, void* pUserDataMeta, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_mp3_init_file(ma_dr_mp3* pMP3, const char* pFilePath, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_bool32 ma_dr_mp3_init_file_w(ma_dr_mp3* pMP3, const wchar_t* pFilePath, const ma_allocation_callbacks* pAllocationCallbacks); +#endif +MA_API void ma_dr_mp3_uninit(ma_dr_mp3* pMP3); +MA_API ma_uint64 ma_dr_mp3_read_pcm_frames_f32(ma_dr_mp3* pMP3, ma_uint64 framesToRead, float* pBufferOut); +MA_API ma_uint64 ma_dr_mp3_read_pcm_frames_s16(ma_dr_mp3* pMP3, ma_uint64 framesToRead, ma_int16* pBufferOut); +MA_API ma_bool32 ma_dr_mp3_seek_to_pcm_frame(ma_dr_mp3* pMP3, ma_uint64 frameIndex); +MA_API ma_uint64 ma_dr_mp3_get_pcm_frame_count(ma_dr_mp3* pMP3); +MA_API ma_uint64 ma_dr_mp3_get_mp3_frame_count(ma_dr_mp3* pMP3); +MA_API ma_bool32 ma_dr_mp3_get_mp3_and_pcm_frame_count(ma_dr_mp3* pMP3, ma_uint64* pMP3FrameCount, ma_uint64* pPCMFrameCount); +MA_API ma_bool32 ma_dr_mp3_calculate_seek_points(ma_dr_mp3* pMP3, ma_uint32* pSeekPointCount, ma_dr_mp3_seek_point* pSeekPoints); +MA_API ma_bool32 ma_dr_mp3_bind_seek_table(ma_dr_mp3* pMP3, ma_uint32 seekPointCount, ma_dr_mp3_seek_point* pSeekPoints); +MA_API float* ma_dr_mp3_open_and_read_pcm_frames_f32(ma_dr_mp3_read_proc onRead, ma_dr_mp3_seek_proc onSeek, ma_dr_mp3_tell_proc onTell, void* pUserData, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int16* ma_dr_mp3_open_and_read_pcm_frames_s16(ma_dr_mp3_read_proc onRead, ma_dr_mp3_seek_proc onSeek, ma_dr_mp3_tell_proc onTell, void* pUserData, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API float* ma_dr_mp3_open_memory_and_read_pcm_frames_f32(const void* pData, size_t dataSize, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int16* ma_dr_mp3_open_memory_and_read_pcm_frames_s16(const void* pData, size_t dataSize, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +#ifndef MA_DR_MP3_NO_STDIO +MA_API float* ma_dr_mp3_open_file_and_read_pcm_frames_f32(const char* filePath, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_int16* ma_dr_mp3_open_file_and_read_pcm_frames_s16(const char* filePath, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks); +#endif +MA_API void* ma_dr_mp3_malloc(size_t sz, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API void ma_dr_mp3_free(void* p, const ma_allocation_callbacks* pAllocationCallbacks); +#ifdef __cplusplus +} +#endif +#endif +/* dr_mp3_h end */ +#endif /* MA_NO_MP3 */ + + +/************************************************************************************************************************************************************** + +Decoding + +**************************************************************************************************************************************************************/ +#ifndef MA_NO_DECODING + +static ma_result ma_decoder_read_bytes(ma_decoder* pDecoder, void* pBufferOut, size_t bytesToRead, size_t* pBytesRead) +{ + MA_ASSERT(pDecoder != NULL); + + return pDecoder->onRead(pDecoder, pBufferOut, bytesToRead, pBytesRead); +} + +static ma_result ma_decoder_seek_bytes(ma_decoder* pDecoder, ma_int64 byteOffset, ma_seek_origin origin) +{ + MA_ASSERT(pDecoder != NULL); + + return pDecoder->onSeek(pDecoder, byteOffset, origin); +} + +static ma_result ma_decoder_tell_bytes(ma_decoder* pDecoder, ma_int64* pCursor) +{ + MA_ASSERT(pDecoder != NULL); + + if (pDecoder->onTell == NULL) { + return MA_NOT_IMPLEMENTED; + } + + return pDecoder->onTell(pDecoder, pCursor); +} + + +MA_API ma_decoding_backend_config ma_decoding_backend_config_init(ma_format preferredFormat, ma_uint32 seekPointCount) +{ + ma_decoding_backend_config config; + + MA_ZERO_OBJECT(&config); + config.preferredFormat = preferredFormat; + config.seekPointCount = seekPointCount; + + return config; +} + + +MA_API ma_decoder_config ma_decoder_config_init(ma_format outputFormat, ma_uint32 outputChannels, ma_uint32 outputSampleRate) +{ + ma_decoder_config config; + MA_ZERO_OBJECT(&config); + config.format = outputFormat; + config.channels = outputChannels; + config.sampleRate = outputSampleRate; + config.resampling = ma_resampler_config_init(ma_format_unknown, 0, 0, 0, ma_resample_algorithm_linear); /* Format/channels/rate doesn't matter here. */ + config.encodingFormat = ma_encoding_format_unknown; + + /* Note that we are intentionally leaving the channel map empty here which will cause the default channel map to be used. */ + + return config; +} + +MA_API ma_decoder_config ma_decoder_config_init_default(void) +{ + return ma_decoder_config_init(ma_format_unknown, 0, 0); +} + +MA_API ma_decoder_config ma_decoder_config_init_copy(const ma_decoder_config* pConfig) +{ + ma_decoder_config config; + if (pConfig != NULL) { + config = *pConfig; + } else { + MA_ZERO_OBJECT(&config); + } + + return config; +} + +static ma_result ma_decoder__init_data_converter(ma_decoder* pDecoder, const ma_decoder_config* pConfig) +{ + ma_result result; + ma_data_converter_config converterConfig; + ma_format internalFormat; + ma_uint32 internalChannels; + ma_uint32 internalSampleRate; + ma_channel internalChannelMap[MA_MAX_CHANNELS]; + + MA_ASSERT(pDecoder != NULL); + MA_ASSERT(pConfig != NULL); + + result = ma_data_source_get_data_format(pDecoder->pBackend, &internalFormat, &internalChannels, &internalSampleRate, internalChannelMap, ma_countof(internalChannelMap)); + if (result != MA_SUCCESS) { + return result; /* Failed to retrieve the internal data format. */ + } + + + /* Make sure we're not asking for too many channels. */ + if (pConfig->channels > MA_MAX_CHANNELS) { + return MA_INVALID_ARGS; + } + + /* The internal channels should have already been validated at a higher level, but we'll do it again explicitly here for safety. */ + if (internalChannels > MA_MAX_CHANNELS) { + return MA_INVALID_ARGS; + } + + + /* Output format. */ + if (pConfig->format == ma_format_unknown) { + pDecoder->outputFormat = internalFormat; + } else { + pDecoder->outputFormat = pConfig->format; + } + + if (pConfig->channels == 0) { + pDecoder->outputChannels = internalChannels; + } else { + pDecoder->outputChannels = pConfig->channels; + } + + if (pConfig->sampleRate == 0) { + pDecoder->outputSampleRate = internalSampleRate; + } else { + pDecoder->outputSampleRate = pConfig->sampleRate; + } + + converterConfig = ma_data_converter_config_init( + internalFormat, pDecoder->outputFormat, + internalChannels, pDecoder->outputChannels, + internalSampleRate, pDecoder->outputSampleRate + ); + converterConfig.pChannelMapIn = internalChannelMap; + converterConfig.pChannelMapOut = pConfig->pChannelMap; + converterConfig.channelMixMode = pConfig->channelMixMode; + converterConfig.ditherMode = pConfig->ditherMode; + converterConfig.allowDynamicSampleRate = MA_FALSE; /* Never allow dynamic sample rate conversion. Setting this to true will disable passthrough optimizations. */ + converterConfig.resampling = pConfig->resampling; + + result = ma_data_converter_init(&converterConfig, &pDecoder->allocationCallbacks, &pDecoder->converter); + if (result != MA_SUCCESS) { + return result; + } + + /* + Now that we have the decoder we need to determine whether or not we need a heap-allocated cache. We'll + need this if the data converter does not support calculation of the required input frame count. To + determine support for this we'll just run a test. + */ + { + ma_uint64 unused; + + result = ma_data_converter_get_required_input_frame_count(&pDecoder->converter, 1, &unused); + if (result != MA_SUCCESS) { + /* + We were unable to calculate the required input frame count which means we'll need to use + a heap-allocated cache. + */ + ma_uint64 inputCacheCapSizeInBytes; + + pDecoder->inputCacheCap = MA_DATA_CONVERTER_STACK_BUFFER_SIZE / ma_get_bytes_per_frame(internalFormat, internalChannels); + + /* Not strictly necessary, but keeping here for safety in case we change the default value of pDecoder->inputCacheCap. */ + inputCacheCapSizeInBytes = pDecoder->inputCacheCap * ma_get_bytes_per_frame(internalFormat, internalChannels); + if (inputCacheCapSizeInBytes > MA_SIZE_MAX) { + ma_data_converter_uninit(&pDecoder->converter, &pDecoder->allocationCallbacks); + return MA_OUT_OF_MEMORY; + } + + pDecoder->pInputCache = ma_malloc((size_t)inputCacheCapSizeInBytes, &pDecoder->allocationCallbacks); /* Safe cast to size_t. */ + if (pDecoder->pInputCache == NULL) { + ma_data_converter_uninit(&pDecoder->converter, &pDecoder->allocationCallbacks); + return MA_OUT_OF_MEMORY; + } + } + } + + return MA_SUCCESS; +} + + + +static ma_result ma_decoder_internal_on_read__custom(void* pUserData, void* pBufferOut, size_t bytesToRead, size_t* pBytesRead) +{ + ma_decoder* pDecoder = (ma_decoder*)pUserData; + MA_ASSERT(pDecoder != NULL); + + return ma_decoder_read_bytes(pDecoder, pBufferOut, bytesToRead, pBytesRead); +} + +static ma_result ma_decoder_internal_on_seek__custom(void* pUserData, ma_int64 offset, ma_seek_origin origin) +{ + ma_decoder* pDecoder = (ma_decoder*)pUserData; + MA_ASSERT(pDecoder != NULL); + + return ma_decoder_seek_bytes(pDecoder, offset, origin); +} + +static ma_result ma_decoder_internal_on_tell__custom(void* pUserData, ma_int64* pCursor) +{ + ma_decoder* pDecoder = (ma_decoder*)pUserData; + MA_ASSERT(pDecoder != NULL); + + return ma_decoder_tell_bytes(pDecoder, pCursor); +} + + +static ma_result ma_decoder_init_from_vtable__internal(const ma_decoding_backend_vtable* pVTable, void* pVTableUserData, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_decoding_backend_config backendConfig; + ma_data_source* pBackend; + + MA_ASSERT(pVTable != NULL); + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pDecoder != NULL); + + if (pVTable->onInit == NULL) { + return MA_NOT_IMPLEMENTED; + } + + backendConfig = ma_decoding_backend_config_init(pConfig->format, pConfig->seekPointCount); + + result = pVTable->onInit(pVTableUserData, ma_decoder_internal_on_read__custom, ma_decoder_internal_on_seek__custom, ma_decoder_internal_on_tell__custom, pDecoder, &backendConfig, &pDecoder->allocationCallbacks, &pBackend); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize the backend from this vtable. */ + } + + /* Getting here means we were able to initialize the backend so we can now initialize the decoder. */ + pDecoder->pBackend = pBackend; + pDecoder->pBackendVTable = pVTable; + pDecoder->pBackendUserData = pConfig->pCustomBackendUserData; + + return MA_SUCCESS; +} + +static ma_result ma_decoder_init_from_file__internal(const ma_decoding_backend_vtable* pVTable, void* pVTableUserData, const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_decoding_backend_config backendConfig; + ma_data_source* pBackend; + + MA_ASSERT(pVTable != NULL); + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pDecoder != NULL); + + if (pVTable->onInitFile == NULL) { + return MA_NOT_IMPLEMENTED; + } + + backendConfig = ma_decoding_backend_config_init(pConfig->format, pConfig->seekPointCount); + + result = pVTable->onInitFile(pVTableUserData, pFilePath, &backendConfig, &pDecoder->allocationCallbacks, &pBackend); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize the backend from this vtable. */ + } + + /* Getting here means we were able to initialize the backend so we can now initialize the decoder. */ + pDecoder->pBackend = pBackend; + pDecoder->pBackendVTable = pVTable; + pDecoder->pBackendUserData = pConfig->pCustomBackendUserData; + + return MA_SUCCESS; +} + +static ma_result ma_decoder_init_from_file_w__internal(const ma_decoding_backend_vtable* pVTable, void* pVTableUserData, const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_decoding_backend_config backendConfig; + ma_data_source* pBackend; + + MA_ASSERT(pVTable != NULL); + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pDecoder != NULL); + + if (pVTable->onInitFileW == NULL) { + return MA_NOT_IMPLEMENTED; + } + + backendConfig = ma_decoding_backend_config_init(pConfig->format, pConfig->seekPointCount); + + result = pVTable->onInitFileW(pVTableUserData, pFilePath, &backendConfig, &pDecoder->allocationCallbacks, &pBackend); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize the backend from this vtable. */ + } + + /* Getting here means we were able to initialize the backend so we can now initialize the decoder. */ + pDecoder->pBackend = pBackend; + pDecoder->pBackendVTable = pVTable; + pDecoder->pBackendUserData = pConfig->pCustomBackendUserData; + + return MA_SUCCESS; +} + +static ma_result ma_decoder_init_from_memory__internal(const ma_decoding_backend_vtable* pVTable, void* pVTableUserData, const void* pData, size_t dataSize, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_decoding_backend_config backendConfig; + ma_data_source* pBackend; + + MA_ASSERT(pVTable != NULL); + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pDecoder != NULL); + + if (pVTable->onInitMemory == NULL) { + return MA_NOT_IMPLEMENTED; + } + + backendConfig = ma_decoding_backend_config_init(pConfig->format, pConfig->seekPointCount); + + result = pVTable->onInitMemory(pVTableUserData, pData, dataSize, &backendConfig, &pDecoder->allocationCallbacks, &pBackend); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize the backend from this vtable. */ + } + + /* Getting here means we were able to initialize the backend so we can now initialize the decoder. */ + pDecoder->pBackend = pBackend; + pDecoder->pBackendVTable = pVTable; + pDecoder->pBackendUserData = pConfig->pCustomBackendUserData; + + return MA_SUCCESS; +} + + + +static ma_result ma_decoder_init_custom__internal(const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result = MA_NO_BACKEND; + size_t ivtable; + + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pDecoder != NULL); + + if (pConfig->ppCustomBackendVTables == NULL) { + return MA_NO_BACKEND; + } + + /* The order each backend is listed is what defines the priority. */ + for (ivtable = 0; ivtable < pConfig->customBackendCount; ivtable += 1) { + const ma_decoding_backend_vtable* pVTable = pConfig->ppCustomBackendVTables[ivtable]; + if (pVTable != NULL) { + result = ma_decoder_init_from_vtable__internal(pVTable, pConfig->pCustomBackendUserData, pConfig, pDecoder); + if (result == MA_SUCCESS) { + return MA_SUCCESS; + } else { + /* Initialization failed. Move on to the next one, but seek back to the start first so the next vtable starts from the first byte of the file. */ + result = ma_decoder_seek_bytes(pDecoder, 0, ma_seek_origin_start); + if (result != MA_SUCCESS) { + return result; /* Failed to seek back to the start. */ + } + } + } else { + /* No vtable. */ + } + } + + /* Getting here means we couldn't find a backend. */ + return MA_NO_BACKEND; +} + +static ma_result ma_decoder_init_custom_from_file__internal(const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result = MA_NO_BACKEND; + size_t ivtable; + + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pDecoder != NULL); + + if (pConfig->ppCustomBackendVTables == NULL) { + return MA_NO_BACKEND; + } + + /* The order each backend is listed is what defines the priority. */ + for (ivtable = 0; ivtable < pConfig->customBackendCount; ivtable += 1) { + const ma_decoding_backend_vtable* pVTable = pConfig->ppCustomBackendVTables[ivtable]; + if (pVTable != NULL) { + result = ma_decoder_init_from_file__internal(pVTable, pConfig->pCustomBackendUserData, pFilePath, pConfig, pDecoder); + if (result == MA_SUCCESS) { + return MA_SUCCESS; + } + } else { + /* No vtable. */ + } + } + + /* Getting here means we couldn't find a backend. */ + return MA_NO_BACKEND; +} + +static ma_result ma_decoder_init_custom_from_file_w__internal(const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result = MA_NO_BACKEND; + size_t ivtable; + + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pDecoder != NULL); + + if (pConfig->ppCustomBackendVTables == NULL) { + return MA_NO_BACKEND; + } + + /* The order each backend is listed is what defines the priority. */ + for (ivtable = 0; ivtable < pConfig->customBackendCount; ivtable += 1) { + const ma_decoding_backend_vtable* pVTable = pConfig->ppCustomBackendVTables[ivtable]; + if (pVTable != NULL) { + result = ma_decoder_init_from_file_w__internal(pVTable, pConfig->pCustomBackendUserData, pFilePath, pConfig, pDecoder); + if (result == MA_SUCCESS) { + return MA_SUCCESS; + } + } else { + /* No vtable. */ + } + } + + /* Getting here means we couldn't find a backend. */ + return MA_NO_BACKEND; +} + +static ma_result ma_decoder_init_custom_from_memory__internal(const void* pData, size_t dataSize, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result = MA_NO_BACKEND; + size_t ivtable; + + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pDecoder != NULL); + + if (pConfig->ppCustomBackendVTables == NULL) { + return MA_NO_BACKEND; + } + + /* The order each backend is listed is what defines the priority. */ + for (ivtable = 0; ivtable < pConfig->customBackendCount; ivtable += 1) { + const ma_decoding_backend_vtable* pVTable = pConfig->ppCustomBackendVTables[ivtable]; + if (pVTable != NULL) { + result = ma_decoder_init_from_memory__internal(pVTable, pConfig->pCustomBackendUserData, pData, dataSize, pConfig, pDecoder); + if (result == MA_SUCCESS) { + return MA_SUCCESS; + } + } else { + /* No vtable. */ + } + } + + /* Getting here means we couldn't find a backend. */ + return MA_NO_BACKEND; +} + + +/* WAV */ +#ifdef ma_dr_wav_h + +typedef struct +{ + ma_data_source_base ds; + ma_read_proc onRead; + ma_seek_proc onSeek; + ma_tell_proc onTell; + void* pReadSeekTellUserData; + ma_format format; /* Can be f32, s16 or s32. */ +#if !defined(MA_NO_WAV) + ma_dr_wav dr; +#endif +} ma_wav; + +MA_API ma_result ma_wav_init(ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_wav* pWav); +MA_API ma_result ma_wav_init_file(const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_wav* pWav); +MA_API ma_result ma_wav_init_file_w(const wchar_t* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_wav* pWav); +MA_API ma_result ma_wav_init_memory(const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_wav* pWav); +MA_API void ma_wav_uninit(ma_wav* pWav, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_wav_read_pcm_frames(ma_wav* pWav, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_result ma_wav_seek_to_pcm_frame(ma_wav* pWav, ma_uint64 frameIndex); +MA_API ma_result ma_wav_get_data_format(ma_wav* pWav, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_wav_get_cursor_in_pcm_frames(ma_wav* pWav, ma_uint64* pCursor); +MA_API ma_result ma_wav_get_length_in_pcm_frames(ma_wav* pWav, ma_uint64* pLength); + + +static ma_result ma_wav_ds_read(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + return ma_wav_read_pcm_frames((ma_wav*)pDataSource, pFramesOut, frameCount, pFramesRead); +} + +static ma_result ma_wav_ds_seek(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + return ma_wav_seek_to_pcm_frame((ma_wav*)pDataSource, frameIndex); +} + +static ma_result ma_wav_ds_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + return ma_wav_get_data_format((ma_wav*)pDataSource, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); +} + +static ma_result ma_wav_ds_get_cursor(ma_data_source* pDataSource, ma_uint64* pCursor) +{ + return ma_wav_get_cursor_in_pcm_frames((ma_wav*)pDataSource, pCursor); +} + +static ma_result ma_wav_ds_get_length(ma_data_source* pDataSource, ma_uint64* pLength) +{ + return ma_wav_get_length_in_pcm_frames((ma_wav*)pDataSource, pLength); +} + +static ma_data_source_vtable g_ma_wav_ds_vtable = +{ + ma_wav_ds_read, + ma_wav_ds_seek, + ma_wav_ds_get_data_format, + ma_wav_ds_get_cursor, + ma_wav_ds_get_length, + NULL, /* onSetLooping */ + 0 +}; + + +#if !defined(MA_NO_WAV) +static size_t ma_wav_dr_callback__read(void* pUserData, void* pBufferOut, size_t bytesToRead) +{ + ma_wav* pWav = (ma_wav*)pUserData; + ma_result result; + size_t bytesRead; + + MA_ASSERT(pWav != NULL); + + result = pWav->onRead(pWav->pReadSeekTellUserData, pBufferOut, bytesToRead, &bytesRead); + (void)result; + + return bytesRead; +} + +static ma_bool32 ma_wav_dr_callback__seek(void* pUserData, int offset, ma_dr_wav_seek_origin origin) +{ + ma_wav* pWav = (ma_wav*)pUserData; + ma_result result; + ma_seek_origin maSeekOrigin; + + MA_ASSERT(pWav != NULL); + + maSeekOrigin = ma_seek_origin_start; + if (origin == MA_DR_WAV_SEEK_CUR) { + maSeekOrigin = ma_seek_origin_current; + } else if (origin == MA_DR_WAV_SEEK_END) { + maSeekOrigin = ma_seek_origin_end; + } + + result = pWav->onSeek(pWav->pReadSeekTellUserData, offset, maSeekOrigin); + if (result != MA_SUCCESS) { + return MA_FALSE; + } + + return MA_TRUE; +} + +static ma_bool32 ma_wav_dr_callback__tell(void* pUserData, ma_int64* pCursor) +{ + ma_wav* pWav = (ma_wav*)pUserData; + ma_result result; + + MA_ASSERT(pWav != NULL); + MA_ASSERT(pCursor != NULL); + + if (pWav->onTell == NULL) { + return MA_FALSE; /* Not implemented. */ + } + + result = pWav->onTell(pWav->pReadSeekTellUserData, pCursor); + if (result != MA_SUCCESS) { + return MA_FALSE; /* Failed to tell. */ + } + + return MA_TRUE; +} +#endif + +static ma_result ma_wav_init_internal(const ma_decoding_backend_config* pConfig, ma_wav* pWav) +{ + ma_result result; + ma_data_source_config dataSourceConfig; + + if (pWav == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pWav); + pWav->format = ma_format_unknown; /* Use closest match to source file by default. */ + + if (pConfig != NULL && (pConfig->preferredFormat == ma_format_f32 || pConfig->preferredFormat == ma_format_s16 || pConfig->preferredFormat == ma_format_s32)) { + pWav->format = pConfig->preferredFormat; + } else { + /* Getting here means something other than f32 and s16 was specified. Just leave this unset to use the default format. */ + } + + dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &g_ma_wav_ds_vtable; + + result = ma_data_source_init(&dataSourceConfig, &pWav->ds); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize the base data source. */ + } + + return MA_SUCCESS; +} + +static ma_result ma_wav_post_init(ma_wav* pWav) +{ + /* + If an explicit format was not specified, try picking the closest match based on the internal + format. The format needs to be supported by miniaudio. + */ + if (pWav->format == ma_format_unknown) { + switch (pWav->dr.translatedFormatTag) + { + case MA_DR_WAVE_FORMAT_PCM: + { + if (pWav->dr.bitsPerSample == 8) { + pWav->format = ma_format_u8; + } else if (pWav->dr.bitsPerSample == 16) { + pWav->format = ma_format_s16; + } else if (pWav->dr.bitsPerSample == 24) { + pWav->format = ma_format_s24; + } else if (pWav->dr.bitsPerSample == 32) { + pWav->format = ma_format_s32; + } + } break; + + case MA_DR_WAVE_FORMAT_IEEE_FLOAT: + { + if (pWav->dr.bitsPerSample == 32) { + pWav->format = ma_format_f32; + } + } break; + + default: break; + } + + /* Fall back to f32 if we couldn't find anything. */ + if (pWav->format == ma_format_unknown) { + pWav->format = ma_format_f32; + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_wav_init(ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_wav* pWav) +{ + ma_result result; + + result = ma_wav_init_internal(pConfig, pWav); + if (result != MA_SUCCESS) { + return result; + } + + if (onRead == NULL || onSeek == NULL) { + return MA_INVALID_ARGS; /* onRead and onSeek are mandatory. */ + } + + pWav->onRead = onRead; + pWav->onSeek = onSeek; + pWav->onTell = onTell; + pWav->pReadSeekTellUserData = pReadSeekTellUserData; + + #if !defined(MA_NO_WAV) + { + ma_bool32 wavResult; + + wavResult = ma_dr_wav_init(&pWav->dr, ma_wav_dr_callback__read, ma_wav_dr_callback__seek, ma_wav_dr_callback__tell, pWav, pAllocationCallbacks); + if (wavResult != MA_TRUE) { + return MA_INVALID_FILE; + } + + ma_wav_post_init(pWav); + + return MA_SUCCESS; + } + #else + { + /* wav is disabled. */ + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_wav_init_file(const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_wav* pWav) +{ + ma_result result; + + result = ma_wav_init_internal(pConfig, pWav); + if (result != MA_SUCCESS) { + return result; + } + + #if !defined(MA_NO_WAV) + { + ma_bool32 wavResult; + + wavResult = ma_dr_wav_init_file(&pWav->dr, pFilePath, pAllocationCallbacks); + if (wavResult != MA_TRUE) { + return MA_INVALID_FILE; + } + + ma_wav_post_init(pWav); + + return MA_SUCCESS; + } + #else + { + /* wav is disabled. */ + (void)pFilePath; + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_wav_init_file_w(const wchar_t* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_wav* pWav) +{ + ma_result result; + + result = ma_wav_init_internal(pConfig, pWav); + if (result != MA_SUCCESS) { + return result; + } + + #if !defined(MA_NO_WAV) + { + ma_bool32 wavResult; + + wavResult = ma_dr_wav_init_file_w(&pWav->dr, pFilePath, pAllocationCallbacks); + if (wavResult != MA_TRUE) { + return MA_INVALID_FILE; + } + + ma_wav_post_init(pWav); + + return MA_SUCCESS; + } + #else + { + /* wav is disabled. */ + (void)pFilePath; + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_wav_init_memory(const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_wav* pWav) +{ + ma_result result; + + result = ma_wav_init_internal(pConfig, pWav); + if (result != MA_SUCCESS) { + return result; + } + + #if !defined(MA_NO_WAV) + { + ma_bool32 wavResult; + + wavResult = ma_dr_wav_init_memory(&pWav->dr, pData, dataSize, pAllocationCallbacks); + if (wavResult != MA_TRUE) { + return MA_INVALID_FILE; + } + + ma_wav_post_init(pWav); + + return MA_SUCCESS; + } + #else + { + /* wav is disabled. */ + (void)pData; + (void)dataSize; + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API void ma_wav_uninit(ma_wav* pWav, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pWav == NULL) { + return; + } + + (void)pAllocationCallbacks; + + #if !defined(MA_NO_WAV) + { + ma_dr_wav_uninit(&pWav->dr); + } + #else + { + /* wav is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + } + #endif + + ma_data_source_uninit(&pWav->ds); +} + +MA_API ma_result ma_wav_read_pcm_frames(ma_wav* pWav, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + if (pWav == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_WAV) + { + /* We always use floating point format. */ + ma_result result = MA_SUCCESS; /* Must be initialized to MA_SUCCESS. */ + ma_uint64 totalFramesRead = 0; + ma_format format; + + ma_wav_get_data_format(pWav, &format, NULL, NULL, NULL, 0); + + switch (format) + { + case ma_format_f32: + { + totalFramesRead = ma_dr_wav_read_pcm_frames_f32(&pWav->dr, frameCount, (float*)pFramesOut); + } break; + + case ma_format_s16: + { + totalFramesRead = ma_dr_wav_read_pcm_frames_s16(&pWav->dr, frameCount, (ma_int16*)pFramesOut); + } break; + + case ma_format_s32: + { + totalFramesRead = ma_dr_wav_read_pcm_frames_s32(&pWav->dr, frameCount, (ma_int32*)pFramesOut); + } break; + + /* Fallback to a raw read. */ + case ma_format_unknown: return MA_INVALID_OPERATION; /* <-- this should never be hit because initialization would just fall back to a supported format. */ + default: + { + totalFramesRead = ma_dr_wav_read_pcm_frames(&pWav->dr, frameCount, pFramesOut); + } break; + } + + /* In the future we'll update ma_dr_wav to return MA_AT_END for us. */ + if (totalFramesRead == 0) { + result = MA_AT_END; + } + + if (pFramesRead != NULL) { + *pFramesRead = totalFramesRead; + } + + if (result == MA_SUCCESS && totalFramesRead == 0) { + result = MA_AT_END; + } + + return result; + } + #else + { + /* wav is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + + (void)pFramesOut; + (void)frameCount; + (void)pFramesRead; + + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_wav_seek_to_pcm_frame(ma_wav* pWav, ma_uint64 frameIndex) +{ + if (pWav == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_WAV) + { + ma_bool32 wavResult; + + wavResult = ma_dr_wav_seek_to_pcm_frame(&pWav->dr, frameIndex); + if (wavResult != MA_TRUE) { + return MA_ERROR; + } + + return MA_SUCCESS; + } + #else + { + /* wav is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + + (void)frameIndex; + + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_wav_get_data_format(ma_wav* pWav, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + /* Defaults for safety. */ + if (pFormat != NULL) { + *pFormat = ma_format_unknown; + } + if (pChannels != NULL) { + *pChannels = 0; + } + if (pSampleRate != NULL) { + *pSampleRate = 0; + } + if (pChannelMap != NULL) { + MA_ZERO_MEMORY(pChannelMap, sizeof(*pChannelMap) * channelMapCap); + } + + if (pWav == NULL) { + return MA_INVALID_OPERATION; + } + + if (pFormat != NULL) { + *pFormat = pWav->format; + } + + #if !defined(MA_NO_WAV) + { + if (pChannels != NULL) { + *pChannels = pWav->dr.channels; + } + + if (pSampleRate != NULL) { + *pSampleRate = pWav->dr.sampleRate; + } + + if (pChannelMap != NULL) { + ma_channel_map_init_standard(ma_standard_channel_map_microsoft, pChannelMap, channelMapCap, pWav->dr.channels); + } + + return MA_SUCCESS; + } + #else + { + /* wav is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_wav_get_cursor_in_pcm_frames(ma_wav* pWav, ma_uint64* pCursor) +{ + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; /* Safety. */ + + if (pWav == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_WAV) + { + ma_result wavResult = ma_dr_wav_get_cursor_in_pcm_frames(&pWav->dr, pCursor); + if (wavResult != MA_SUCCESS) { + return (ma_result)wavResult; /* ma_dr_wav result codes map to miniaudio's. */ + } + + return MA_SUCCESS; + } + #else + { + /* wav is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_wav_get_length_in_pcm_frames(ma_wav* pWav, ma_uint64* pLength) +{ + if (pLength == NULL) { + return MA_INVALID_ARGS; + } + + *pLength = 0; /* Safety. */ + + if (pWav == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_WAV) + { + ma_result wavResult = ma_dr_wav_get_length_in_pcm_frames(&pWav->dr, pLength); + if (wavResult != MA_SUCCESS) { + return (ma_result)wavResult; /* ma_dr_wav result codes map to miniaudio's. */ + } + + return MA_SUCCESS; + } + #else + { + /* wav is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + + +static ma_result ma_decoding_backend_init__wav(void* pUserData, ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_wav* pWav; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pWav = (ma_wav*)ma_malloc(sizeof(*pWav), pAllocationCallbacks); + if (pWav == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_wav_init(onRead, onSeek, onTell, pReadSeekTellUserData, pConfig, pAllocationCallbacks, pWav); + if (result != MA_SUCCESS) { + ma_free(pWav, pAllocationCallbacks); + return result; + } + + *ppBackend = pWav; + + return MA_SUCCESS; +} + +static ma_result ma_decoding_backend_init_file__wav(void* pUserData, const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_wav* pWav; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pWav = (ma_wav*)ma_malloc(sizeof(*pWav), pAllocationCallbacks); + if (pWav == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_wav_init_file(pFilePath, pConfig, pAllocationCallbacks, pWav); + if (result != MA_SUCCESS) { + ma_free(pWav, pAllocationCallbacks); + return result; + } + + *ppBackend = pWav; + + return MA_SUCCESS; +} + +static ma_result ma_decoding_backend_init_file_w__wav(void* pUserData, const wchar_t* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_wav* pWav; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pWav = (ma_wav*)ma_malloc(sizeof(*pWav), pAllocationCallbacks); + if (pWav == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_wav_init_file_w(pFilePath, pConfig, pAllocationCallbacks, pWav); + if (result != MA_SUCCESS) { + ma_free(pWav, pAllocationCallbacks); + return result; + } + + *ppBackend = pWav; + + return MA_SUCCESS; +} + +static ma_result ma_decoding_backend_init_memory__wav(void* pUserData, const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_wav* pWav; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pWav = (ma_wav*)ma_malloc(sizeof(*pWav), pAllocationCallbacks); + if (pWav == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_wav_init_memory(pData, dataSize, pConfig, pAllocationCallbacks, pWav); + if (result != MA_SUCCESS) { + ma_free(pWav, pAllocationCallbacks); + return result; + } + + *ppBackend = pWav; + + return MA_SUCCESS; +} + +static void ma_decoding_backend_uninit__wav(void* pUserData, ma_data_source* pBackend, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_wav* pWav = (ma_wav*)pBackend; + + (void)pUserData; + + ma_wav_uninit(pWav, pAllocationCallbacks); + ma_free(pWav, pAllocationCallbacks); +} + +static ma_decoding_backend_vtable g_ma_decoding_backend_vtable_wav = +{ + ma_decoding_backend_init__wav, + ma_decoding_backend_init_file__wav, + ma_decoding_backend_init_file_w__wav, + ma_decoding_backend_init_memory__wav, + ma_decoding_backend_uninit__wav +}; + +static ma_result ma_decoder_init_wav__internal(const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_vtable__internal(&g_ma_decoding_backend_vtable_wav, NULL, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_wav_from_file__internal(const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_file__internal(&g_ma_decoding_backend_vtable_wav, NULL, pFilePath, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_wav_from_file_w__internal(const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_file_w__internal(&g_ma_decoding_backend_vtable_wav, NULL, pFilePath, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_wav_from_memory__internal(const void* pData, size_t dataSize, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_memory__internal(&g_ma_decoding_backend_vtable_wav, NULL, pData, dataSize, pConfig, pDecoder); +} +#endif /* ma_dr_wav_h */ + +/* FLAC */ +#ifdef ma_dr_flac_h + +typedef struct +{ + ma_data_source_base ds; + ma_read_proc onRead; + ma_seek_proc onSeek; + ma_tell_proc onTell; + void* pReadSeekTellUserData; + ma_format format; /* Can be f32, s16 or s32. */ +#if !defined(MA_NO_FLAC) + ma_dr_flac* dr; +#endif +} ma_flac; + +MA_API ma_result ma_flac_init(ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_flac* pFlac); +MA_API ma_result ma_flac_init_file(const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_flac* pFlac); +MA_API ma_result ma_flac_init_file_w(const wchar_t* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_flac* pFlac); +MA_API ma_result ma_flac_init_memory(const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_flac* pFlac); +MA_API void ma_flac_uninit(ma_flac* pFlac, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_flac_read_pcm_frames(ma_flac* pFlac, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_result ma_flac_seek_to_pcm_frame(ma_flac* pFlac, ma_uint64 frameIndex); +MA_API ma_result ma_flac_get_data_format(ma_flac* pFlac, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_flac_get_cursor_in_pcm_frames(ma_flac* pFlac, ma_uint64* pCursor); +MA_API ma_result ma_flac_get_length_in_pcm_frames(ma_flac* pFlac, ma_uint64* pLength); + + +static ma_result ma_flac_ds_read(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + return ma_flac_read_pcm_frames((ma_flac*)pDataSource, pFramesOut, frameCount, pFramesRead); +} + +static ma_result ma_flac_ds_seek(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + return ma_flac_seek_to_pcm_frame((ma_flac*)pDataSource, frameIndex); +} + +static ma_result ma_flac_ds_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + return ma_flac_get_data_format((ma_flac*)pDataSource, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); +} + +static ma_result ma_flac_ds_get_cursor(ma_data_source* pDataSource, ma_uint64* pCursor) +{ + return ma_flac_get_cursor_in_pcm_frames((ma_flac*)pDataSource, pCursor); +} + +static ma_result ma_flac_ds_get_length(ma_data_source* pDataSource, ma_uint64* pLength) +{ + return ma_flac_get_length_in_pcm_frames((ma_flac*)pDataSource, pLength); +} + +static ma_data_source_vtable g_ma_flac_ds_vtable = +{ + ma_flac_ds_read, + ma_flac_ds_seek, + ma_flac_ds_get_data_format, + ma_flac_ds_get_cursor, + ma_flac_ds_get_length, + NULL, /* onSetLooping */ + 0 +}; + + +#if !defined(MA_NO_FLAC) +static size_t ma_flac_dr_callback__read(void* pUserData, void* pBufferOut, size_t bytesToRead) +{ + ma_flac* pFlac = (ma_flac*)pUserData; + ma_result result; + size_t bytesRead; + + MA_ASSERT(pFlac != NULL); + + result = pFlac->onRead(pFlac->pReadSeekTellUserData, pBufferOut, bytesToRead, &bytesRead); + (void)result; + + return bytesRead; +} + +static ma_bool32 ma_flac_dr_callback__seek(void* pUserData, int offset, ma_dr_flac_seek_origin origin) +{ + ma_flac* pFlac = (ma_flac*)pUserData; + ma_result result; + ma_seek_origin maSeekOrigin; + + MA_ASSERT(pFlac != NULL); + + maSeekOrigin = ma_seek_origin_start; + if (origin == MA_DR_FLAC_SEEK_CUR) { + maSeekOrigin = ma_seek_origin_current; + } else if (origin == MA_DR_FLAC_SEEK_END) { + maSeekOrigin = ma_seek_origin_end; + } + + result = pFlac->onSeek(pFlac->pReadSeekTellUserData, offset, maSeekOrigin); + if (result != MA_SUCCESS) { + return MA_FALSE; + } + + return MA_TRUE; +} + +static ma_bool32 ma_flac_dr_callback__tell(void* pUserData, ma_int64* pCursor) +{ + ma_flac* pFlac = (ma_flac*)pUserData; + ma_result result; + + MA_ASSERT(pFlac != NULL); + MA_ASSERT(pCursor != NULL); + + if (pFlac->onTell == NULL) { + return MA_FALSE; /* Not implemented. */ + } + + result = pFlac->onTell(pFlac->pReadSeekTellUserData, pCursor); + if (result != MA_SUCCESS) { + return MA_FALSE; /* Failed to tell. */ + } + + return MA_TRUE; +} +#endif + +static ma_result ma_flac_init_internal(const ma_decoding_backend_config* pConfig, ma_flac* pFlac) +{ + ma_result result; + ma_data_source_config dataSourceConfig; + + if (pFlac == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pFlac); + pFlac->format = ma_format_f32; /* f32 by default. */ + + if (pConfig != NULL && (pConfig->preferredFormat == ma_format_f32 || pConfig->preferredFormat == ma_format_s16 || pConfig->preferredFormat == ma_format_s32)) { + pFlac->format = pConfig->preferredFormat; + } else { + /* Getting here means something other than f32 and s16 was specified. Just leave this unset to use the default format. */ + } + + dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &g_ma_flac_ds_vtable; + + result = ma_data_source_init(&dataSourceConfig, &pFlac->ds); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize the base data source. */ + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_flac_init(ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_flac* pFlac) +{ + ma_result result; + + result = ma_flac_init_internal(pConfig, pFlac); + if (result != MA_SUCCESS) { + return result; + } + + if (onRead == NULL || onSeek == NULL) { + return MA_INVALID_ARGS; /* onRead and onSeek are mandatory. */ + } + + pFlac->onRead = onRead; + pFlac->onSeek = onSeek; + pFlac->onTell = onTell; + pFlac->pReadSeekTellUserData = pReadSeekTellUserData; + + #if !defined(MA_NO_FLAC) + { + pFlac->dr = ma_dr_flac_open(ma_flac_dr_callback__read, ma_flac_dr_callback__seek, ma_flac_dr_callback__tell, pFlac, pAllocationCallbacks); + if (pFlac->dr == NULL) { + return MA_INVALID_FILE; + } + + return MA_SUCCESS; + } + #else + { + /* flac is disabled. */ + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_flac_init_file(const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_flac* pFlac) +{ + ma_result result; + + result = ma_flac_init_internal(pConfig, pFlac); + if (result != MA_SUCCESS) { + return result; + } + + #if !defined(MA_NO_FLAC) + { + pFlac->dr = ma_dr_flac_open_file(pFilePath, pAllocationCallbacks); + if (pFlac->dr == NULL) { + return MA_INVALID_FILE; + } + + return MA_SUCCESS; + } + #else + { + /* flac is disabled. */ + (void)pFilePath; + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_flac_init_file_w(const wchar_t* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_flac* pFlac) +{ + ma_result result; + + result = ma_flac_init_internal(pConfig, pFlac); + if (result != MA_SUCCESS) { + return result; + } + + #if !defined(MA_NO_FLAC) + { + pFlac->dr = ma_dr_flac_open_file_w(pFilePath, pAllocationCallbacks); + if (pFlac->dr == NULL) { + return MA_INVALID_FILE; + } + + return MA_SUCCESS; + } + #else + { + /* flac is disabled. */ + (void)pFilePath; + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_flac_init_memory(const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_flac* pFlac) +{ + ma_result result; + + result = ma_flac_init_internal(pConfig, pFlac); + if (result != MA_SUCCESS) { + return result; + } + + #if !defined(MA_NO_FLAC) + { + pFlac->dr = ma_dr_flac_open_memory(pData, dataSize, pAllocationCallbacks); + if (pFlac->dr == NULL) { + return MA_INVALID_FILE; + } + + return MA_SUCCESS; + } + #else + { + /* flac is disabled. */ + (void)pData; + (void)dataSize; + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API void ma_flac_uninit(ma_flac* pFlac, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pFlac == NULL) { + return; + } + + (void)pAllocationCallbacks; + + #if !defined(MA_NO_FLAC) + { + ma_dr_flac_close(pFlac->dr); + } + #else + { + /* flac is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + } + #endif + + ma_data_source_uninit(&pFlac->ds); +} + +MA_API ma_result ma_flac_read_pcm_frames(ma_flac* pFlac, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + if (pFlac == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_FLAC) + { + /* We always use floating point format. */ + ma_result result = MA_SUCCESS; /* Must be initialized to MA_SUCCESS. */ + ma_uint64 totalFramesRead = 0; + ma_format format; + + ma_flac_get_data_format(pFlac, &format, NULL, NULL, NULL, 0); + + switch (format) + { + case ma_format_f32: + { + totalFramesRead = ma_dr_flac_read_pcm_frames_f32(pFlac->dr, frameCount, (float*)pFramesOut); + } break; + + case ma_format_s16: + { + totalFramesRead = ma_dr_flac_read_pcm_frames_s16(pFlac->dr, frameCount, (ma_int16*)pFramesOut); + } break; + + case ma_format_s32: + { + totalFramesRead = ma_dr_flac_read_pcm_frames_s32(pFlac->dr, frameCount, (ma_int32*)pFramesOut); + } break; + + case ma_format_u8: + case ma_format_s24: + case ma_format_unknown: + default: + { + return MA_INVALID_OPERATION; + }; + } + + /* In the future we'll update ma_dr_flac to return MA_AT_END for us. */ + if (totalFramesRead == 0) { + result = MA_AT_END; + } + + if (pFramesRead != NULL) { + *pFramesRead = totalFramesRead; + } + + if (result == MA_SUCCESS && totalFramesRead == 0) { + result = MA_AT_END; + } + + return result; + } + #else + { + /* flac is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + + (void)pFramesOut; + (void)frameCount; + (void)pFramesRead; + + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_flac_seek_to_pcm_frame(ma_flac* pFlac, ma_uint64 frameIndex) +{ + if (pFlac == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_FLAC) + { + ma_bool32 flacResult; + + flacResult = ma_dr_flac_seek_to_pcm_frame(pFlac->dr, frameIndex); + if (flacResult != MA_TRUE) { + return MA_ERROR; + } + + return MA_SUCCESS; + } + #else + { + /* flac is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + + (void)frameIndex; + + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_flac_get_data_format(ma_flac* pFlac, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + /* Defaults for safety. */ + if (pFormat != NULL) { + *pFormat = ma_format_unknown; + } + if (pChannels != NULL) { + *pChannels = 0; + } + if (pSampleRate != NULL) { + *pSampleRate = 0; + } + if (pChannelMap != NULL) { + MA_ZERO_MEMORY(pChannelMap, sizeof(*pChannelMap) * channelMapCap); + } + + if (pFlac == NULL) { + return MA_INVALID_OPERATION; + } + + if (pFormat != NULL) { + *pFormat = pFlac->format; + } + + #if !defined(MA_NO_FLAC) + { + if (pChannels != NULL) { + *pChannels = pFlac->dr->channels; + } + + if (pSampleRate != NULL) { + *pSampleRate = pFlac->dr->sampleRate; + } + + if (pChannelMap != NULL) { + ma_channel_map_init_standard(ma_standard_channel_map_microsoft, pChannelMap, channelMapCap, pFlac->dr->channels); + } + + return MA_SUCCESS; + } + #else + { + /* flac is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_flac_get_cursor_in_pcm_frames(ma_flac* pFlac, ma_uint64* pCursor) +{ + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; /* Safety. */ + + if (pFlac == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_FLAC) + { + *pCursor = pFlac->dr->currentPCMFrame; + + return MA_SUCCESS; + } + #else + { + /* flac is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_flac_get_length_in_pcm_frames(ma_flac* pFlac, ma_uint64* pLength) +{ + if (pLength == NULL) { + return MA_INVALID_ARGS; + } + + *pLength = 0; /* Safety. */ + + if (pFlac == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_FLAC) + { + *pLength = pFlac->dr->totalPCMFrameCount; + + return MA_SUCCESS; + } + #else + { + /* flac is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + + +static ma_result ma_decoding_backend_init__flac(void* pUserData, ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_flac* pFlac; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pFlac = (ma_flac*)ma_malloc(sizeof(*pFlac), pAllocationCallbacks); + if (pFlac == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_flac_init(onRead, onSeek, onTell, pReadSeekTellUserData, pConfig, pAllocationCallbacks, pFlac); + if (result != MA_SUCCESS) { + ma_free(pFlac, pAllocationCallbacks); + return result; + } + + *ppBackend = pFlac; + + return MA_SUCCESS; +} + +static ma_result ma_decoding_backend_init_file__flac(void* pUserData, const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_flac* pFlac; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pFlac = (ma_flac*)ma_malloc(sizeof(*pFlac), pAllocationCallbacks); + if (pFlac == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_flac_init_file(pFilePath, pConfig, pAllocationCallbacks, pFlac); + if (result != MA_SUCCESS) { + ma_free(pFlac, pAllocationCallbacks); + return result; + } + + *ppBackend = pFlac; + + return MA_SUCCESS; +} + +static ma_result ma_decoding_backend_init_file_w__flac(void* pUserData, const wchar_t* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_flac* pFlac; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pFlac = (ma_flac*)ma_malloc(sizeof(*pFlac), pAllocationCallbacks); + if (pFlac == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_flac_init_file_w(pFilePath, pConfig, pAllocationCallbacks, pFlac); + if (result != MA_SUCCESS) { + ma_free(pFlac, pAllocationCallbacks); + return result; + } + + *ppBackend = pFlac; + + return MA_SUCCESS; +} + +static ma_result ma_decoding_backend_init_memory__flac(void* pUserData, const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_flac* pFlac; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pFlac = (ma_flac*)ma_malloc(sizeof(*pFlac), pAllocationCallbacks); + if (pFlac == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_flac_init_memory(pData, dataSize, pConfig, pAllocationCallbacks, pFlac); + if (result != MA_SUCCESS) { + ma_free(pFlac, pAllocationCallbacks); + return result; + } + + *ppBackend = pFlac; + + return MA_SUCCESS; +} + +static void ma_decoding_backend_uninit__flac(void* pUserData, ma_data_source* pBackend, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_flac* pFlac = (ma_flac*)pBackend; + + (void)pUserData; + + ma_flac_uninit(pFlac, pAllocationCallbacks); + ma_free(pFlac, pAllocationCallbacks); +} + +static ma_decoding_backend_vtable g_ma_decoding_backend_vtable_flac = +{ + ma_decoding_backend_init__flac, + ma_decoding_backend_init_file__flac, + ma_decoding_backend_init_file_w__flac, + ma_decoding_backend_init_memory__flac, + ma_decoding_backend_uninit__flac +}; + +static ma_result ma_decoder_init_flac__internal(const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_vtable__internal(&g_ma_decoding_backend_vtable_flac, NULL, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_flac_from_file__internal(const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_file__internal(&g_ma_decoding_backend_vtable_flac, NULL, pFilePath, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_flac_from_file_w__internal(const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_file_w__internal(&g_ma_decoding_backend_vtable_flac, NULL, pFilePath, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_flac_from_memory__internal(const void* pData, size_t dataSize, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_memory__internal(&g_ma_decoding_backend_vtable_flac, NULL, pData, dataSize, pConfig, pDecoder); +} +#endif /* ma_dr_flac_h */ + +/* MP3 */ +#ifdef ma_dr_mp3_h + +typedef struct +{ + ma_data_source_base ds; + ma_read_proc onRead; + ma_seek_proc onSeek; + ma_tell_proc onTell; + void* pReadSeekTellUserData; + ma_format format; /* Can be f32 or s16. */ +#if !defined(MA_NO_MP3) + ma_dr_mp3 dr; + ma_uint32 seekPointCount; + ma_dr_mp3_seek_point* pSeekPoints; /* Only used if seek table generation is used. */ +#endif +} ma_mp3; + +MA_API ma_result ma_mp3_init(ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_mp3* pMP3); +MA_API ma_result ma_mp3_init_file(const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_mp3* pMP3); +MA_API ma_result ma_mp3_init_file_w(const wchar_t* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_mp3* pMP3); +MA_API ma_result ma_mp3_init_memory(const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_mp3* pMP3); +MA_API void ma_mp3_uninit(ma_mp3* pMP3, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_mp3_read_pcm_frames(ma_mp3* pMP3, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_result ma_mp3_seek_to_pcm_frame(ma_mp3* pMP3, ma_uint64 frameIndex); +MA_API ma_result ma_mp3_get_data_format(ma_mp3* pMP3, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_mp3_get_cursor_in_pcm_frames(ma_mp3* pMP3, ma_uint64* pCursor); +MA_API ma_result ma_mp3_get_length_in_pcm_frames(ma_mp3* pMP3, ma_uint64* pLength); + + +static ma_result ma_mp3_ds_read(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + return ma_mp3_read_pcm_frames((ma_mp3*)pDataSource, pFramesOut, frameCount, pFramesRead); +} + +static ma_result ma_mp3_ds_seek(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + return ma_mp3_seek_to_pcm_frame((ma_mp3*)pDataSource, frameIndex); +} + +static ma_result ma_mp3_ds_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + return ma_mp3_get_data_format((ma_mp3*)pDataSource, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); +} + +static ma_result ma_mp3_ds_get_cursor(ma_data_source* pDataSource, ma_uint64* pCursor) +{ + return ma_mp3_get_cursor_in_pcm_frames((ma_mp3*)pDataSource, pCursor); +} + +static ma_result ma_mp3_ds_get_length(ma_data_source* pDataSource, ma_uint64* pLength) +{ + return ma_mp3_get_length_in_pcm_frames((ma_mp3*)pDataSource, pLength); +} + +static ma_data_source_vtable g_ma_mp3_ds_vtable = +{ + ma_mp3_ds_read, + ma_mp3_ds_seek, + ma_mp3_ds_get_data_format, + ma_mp3_ds_get_cursor, + ma_mp3_ds_get_length, + NULL, /* onSetLooping */ + 0 +}; + + +#if !defined(MA_NO_MP3) +static size_t ma_mp3_dr_callback__read(void* pUserData, void* pBufferOut, size_t bytesToRead) +{ + ma_mp3* pMP3 = (ma_mp3*)pUserData; + ma_result result; + size_t bytesRead; + + MA_ASSERT(pMP3 != NULL); + + result = pMP3->onRead(pMP3->pReadSeekTellUserData, pBufferOut, bytesToRead, &bytesRead); + (void)result; + + return bytesRead; +} + +static ma_bool32 ma_mp3_dr_callback__seek(void* pUserData, int offset, ma_dr_mp3_seek_origin origin) +{ + ma_mp3* pMP3 = (ma_mp3*)pUserData; + ma_result result; + ma_seek_origin maSeekOrigin; + + MA_ASSERT(pMP3 != NULL); + + if (origin == MA_DR_MP3_SEEK_SET) { + maSeekOrigin = ma_seek_origin_start; + } else if (origin == MA_DR_MP3_SEEK_END) { + maSeekOrigin = ma_seek_origin_end; + } else { + maSeekOrigin = ma_seek_origin_current; + } + + result = pMP3->onSeek(pMP3->pReadSeekTellUserData, offset, maSeekOrigin); + if (result != MA_SUCCESS) { + return MA_FALSE; + } + + return MA_TRUE; +} + +static ma_bool32 ma_mp3_dr_callback__tell(void* pUserData, ma_int64* pCursor) +{ + ma_mp3* pMP3 = (ma_mp3*)pUserData; + ma_result result; + + MA_ASSERT(pMP3 != NULL); + + result = pMP3->onTell(pMP3->pReadSeekTellUserData, pCursor); + if (result != MA_SUCCESS) { + return MA_FALSE; + } + + return MA_TRUE; +} +#endif + +static ma_result ma_mp3_init_internal(const ma_decoding_backend_config* pConfig, ma_mp3* pMP3) +{ + ma_result result; + ma_data_source_config dataSourceConfig; + + if (pMP3 == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pMP3); + pMP3->format = ma_format_f32; /* f32 by default. */ + + if (pConfig != NULL && (pConfig->preferredFormat == ma_format_f32 || pConfig->preferredFormat == ma_format_s16)) { + pMP3->format = pConfig->preferredFormat; + } else { + /* Getting here means something other than f32 and s16 was specified. Just leave this unset to use the default format. */ + } + + dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &g_ma_mp3_ds_vtable; + + result = ma_data_source_init(&dataSourceConfig, &pMP3->ds); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize the base data source. */ + } + + return MA_SUCCESS; +} + +static ma_result ma_mp3_generate_seek_table(ma_mp3* pMP3, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_bool32 mp3Result; + ma_uint32 seekPointCount = 0; + ma_dr_mp3_seek_point* pSeekPoints = NULL; + + MA_ASSERT(pMP3 != NULL); + MA_ASSERT(pConfig != NULL); + + seekPointCount = pConfig->seekPointCount; + if (seekPointCount > 0) { + pSeekPoints = (ma_dr_mp3_seek_point*)ma_malloc(sizeof(*pMP3->pSeekPoints) * seekPointCount, pAllocationCallbacks); + if (pSeekPoints == NULL) { + return MA_OUT_OF_MEMORY; + } + } + + mp3Result = ma_dr_mp3_calculate_seek_points(&pMP3->dr, &seekPointCount, pSeekPoints); + if (mp3Result != MA_TRUE) { + ma_free(pSeekPoints, pAllocationCallbacks); + return MA_ERROR; + } + + mp3Result = ma_dr_mp3_bind_seek_table(&pMP3->dr, seekPointCount, pSeekPoints); + if (mp3Result != MA_TRUE) { + ma_free(pSeekPoints, pAllocationCallbacks); + return MA_ERROR; + } + + pMP3->seekPointCount = seekPointCount; + pMP3->pSeekPoints = pSeekPoints; + + return MA_SUCCESS; +} + +static ma_result ma_mp3_post_init(ma_mp3* pMP3, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_result result; + + result = ma_mp3_generate_seek_table(pMP3, pConfig, pAllocationCallbacks); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_mp3_init(ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_mp3* pMP3) +{ + ma_result result; + + result = ma_mp3_init_internal(pConfig, pMP3); + if (result != MA_SUCCESS) { + return result; + } + + if (onRead == NULL || onSeek == NULL) { + return MA_INVALID_ARGS; /* onRead and onSeek are mandatory. */ + } + + pMP3->onRead = onRead; + pMP3->onSeek = onSeek; + pMP3->onTell = onTell; + pMP3->pReadSeekTellUserData = pReadSeekTellUserData; + + #if !defined(MA_NO_MP3) + { + ma_bool32 mp3Result; + + mp3Result = ma_dr_mp3_init(&pMP3->dr, ma_mp3_dr_callback__read, ma_mp3_dr_callback__seek, ma_mp3_dr_callback__tell, NULL, pMP3, pAllocationCallbacks); + if (mp3Result != MA_TRUE) { + return MA_INVALID_FILE; + } + + ma_mp3_post_init(pMP3, pConfig, pAllocationCallbacks); + + return MA_SUCCESS; + } + #else + { + /* mp3 is disabled. */ + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_mp3_init_file(const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_mp3* pMP3) +{ + ma_result result; + + result = ma_mp3_init_internal(pConfig, pMP3); + if (result != MA_SUCCESS) { + return result; + } + + #if !defined(MA_NO_MP3) + { + ma_bool32 mp3Result; + + mp3Result = ma_dr_mp3_init_file(&pMP3->dr, pFilePath, pAllocationCallbacks); + if (mp3Result != MA_TRUE) { + return MA_INVALID_FILE; + } + + ma_mp3_post_init(pMP3, pConfig, pAllocationCallbacks); + + return MA_SUCCESS; + } + #else + { + /* mp3 is disabled. */ + (void)pFilePath; + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_mp3_init_file_w(const wchar_t* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_mp3* pMP3) +{ + ma_result result; + + result = ma_mp3_init_internal(pConfig, pMP3); + if (result != MA_SUCCESS) { + return result; + } + + #if !defined(MA_NO_MP3) + { + ma_bool32 mp3Result; + + mp3Result = ma_dr_mp3_init_file_w(&pMP3->dr, pFilePath, pAllocationCallbacks); + if (mp3Result != MA_TRUE) { + return MA_INVALID_FILE; + } + + ma_mp3_post_init(pMP3, pConfig, pAllocationCallbacks); + + return MA_SUCCESS; + } + #else + { + /* mp3 is disabled. */ + (void)pFilePath; + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_mp3_init_memory(const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_mp3* pMP3) +{ + ma_result result; + + result = ma_mp3_init_internal(pConfig, pMP3); + if (result != MA_SUCCESS) { + return result; + } + + #if !defined(MA_NO_MP3) + { + ma_bool32 mp3Result; + + mp3Result = ma_dr_mp3_init_memory(&pMP3->dr, pData, dataSize, pAllocationCallbacks); + if (mp3Result != MA_TRUE) { + return MA_INVALID_FILE; + } + + ma_mp3_post_init(pMP3, pConfig, pAllocationCallbacks); + + return MA_SUCCESS; + } + #else + { + /* mp3 is disabled. */ + (void)pData; + (void)dataSize; + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API void ma_mp3_uninit(ma_mp3* pMP3, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pMP3 == NULL) { + return; + } + + #if !defined(MA_NO_MP3) + { + ma_dr_mp3_uninit(&pMP3->dr); + } + #else + { + /* mp3 is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + } + #endif + + /* Seek points need to be freed after the MP3 decoder has been uninitialized to ensure they're no longer being referenced. */ + ma_free(pMP3->pSeekPoints, pAllocationCallbacks); + + ma_data_source_uninit(&pMP3->ds); +} + +MA_API ma_result ma_mp3_read_pcm_frames(ma_mp3* pMP3, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + if (pMP3 == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_MP3) + { + /* We always use floating point format. */ + ma_result result = MA_SUCCESS; /* Must be initialized to MA_SUCCESS. */ + ma_uint64 totalFramesRead = 0; + ma_format format; + + ma_mp3_get_data_format(pMP3, &format, NULL, NULL, NULL, 0); + + switch (format) + { + case ma_format_f32: + { + totalFramesRead = ma_dr_mp3_read_pcm_frames_f32(&pMP3->dr, frameCount, (float*)pFramesOut); + } break; + + case ma_format_s16: + { + totalFramesRead = ma_dr_mp3_read_pcm_frames_s16(&pMP3->dr, frameCount, (ma_int16*)pFramesOut); + } break; + + case ma_format_u8: + case ma_format_s24: + case ma_format_s32: + case ma_format_unknown: + default: + { + return MA_INVALID_OPERATION; + }; + } + + /* In the future we'll update ma_dr_mp3 to return MA_AT_END for us. */ + if (totalFramesRead == 0) { + result = MA_AT_END; + } + + if (pFramesRead != NULL) { + *pFramesRead = totalFramesRead; + } + + return result; + } + #else + { + /* mp3 is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + + (void)pFramesOut; + (void)frameCount; + (void)pFramesRead; + + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_mp3_seek_to_pcm_frame(ma_mp3* pMP3, ma_uint64 frameIndex) +{ + if (pMP3 == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_MP3) + { + ma_bool32 mp3Result; + + mp3Result = ma_dr_mp3_seek_to_pcm_frame(&pMP3->dr, frameIndex); + if (mp3Result != MA_TRUE) { + return MA_ERROR; + } + + return MA_SUCCESS; + } + #else + { + /* mp3 is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + + (void)frameIndex; + + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_mp3_get_data_format(ma_mp3* pMP3, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + /* Defaults for safety. */ + if (pFormat != NULL) { + *pFormat = ma_format_unknown; + } + if (pChannels != NULL) { + *pChannels = 0; + } + if (pSampleRate != NULL) { + *pSampleRate = 0; + } + if (pChannelMap != NULL) { + MA_ZERO_MEMORY(pChannelMap, sizeof(*pChannelMap) * channelMapCap); + } + + if (pMP3 == NULL) { + return MA_INVALID_OPERATION; + } + + if (pFormat != NULL) { + *pFormat = pMP3->format; + } + + #if !defined(MA_NO_MP3) + { + if (pChannels != NULL) { + *pChannels = pMP3->dr.channels; + } + + if (pSampleRate != NULL) { + *pSampleRate = pMP3->dr.sampleRate; + } + + if (pChannelMap != NULL) { + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, pMP3->dr.channels); + } + + return MA_SUCCESS; + } + #else + { + /* mp3 is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_mp3_get_cursor_in_pcm_frames(ma_mp3* pMP3, ma_uint64* pCursor) +{ + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; /* Safety. */ + + if (pMP3 == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_MP3) + { + *pCursor = pMP3->dr.currentPCMFrame; + + return MA_SUCCESS; + } + #else + { + /* mp3 is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_mp3_get_length_in_pcm_frames(ma_mp3* pMP3, ma_uint64* pLength) +{ + if (pLength == NULL) { + return MA_INVALID_ARGS; + } + + *pLength = 0; /* Safety. */ + + if (pMP3 == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_MP3) + { + *pLength = ma_dr_mp3_get_pcm_frame_count(&pMP3->dr); + + return MA_SUCCESS; + } + #else + { + /* mp3 is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + + +static ma_result ma_decoding_backend_init__mp3(void* pUserData, ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_mp3* pMP3; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pMP3 = (ma_mp3*)ma_malloc(sizeof(*pMP3), pAllocationCallbacks); + if (pMP3 == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_mp3_init(onRead, onSeek, onTell, pReadSeekTellUserData, pConfig, pAllocationCallbacks, pMP3); + if (result != MA_SUCCESS) { + ma_free(pMP3, pAllocationCallbacks); + return result; + } + + *ppBackend = pMP3; + + return MA_SUCCESS; +} + +static ma_result ma_decoding_backend_init_file__mp3(void* pUserData, const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_mp3* pMP3; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pMP3 = (ma_mp3*)ma_malloc(sizeof(*pMP3), pAllocationCallbacks); + if (pMP3 == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_mp3_init_file(pFilePath, pConfig, pAllocationCallbacks, pMP3); + if (result != MA_SUCCESS) { + ma_free(pMP3, pAllocationCallbacks); + return result; + } + + *ppBackend = pMP3; + + return MA_SUCCESS; +} + +static ma_result ma_decoding_backend_init_file_w__mp3(void* pUserData, const wchar_t* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_mp3* pMP3; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pMP3 = (ma_mp3*)ma_malloc(sizeof(*pMP3), pAllocationCallbacks); + if (pMP3 == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_mp3_init_file_w(pFilePath, pConfig, pAllocationCallbacks, pMP3); + if (result != MA_SUCCESS) { + ma_free(pMP3, pAllocationCallbacks); + return result; + } + + *ppBackend = pMP3; + + return MA_SUCCESS; +} + +static ma_result ma_decoding_backend_init_memory__mp3(void* pUserData, const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_mp3* pMP3; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pMP3 = (ma_mp3*)ma_malloc(sizeof(*pMP3), pAllocationCallbacks); + if (pMP3 == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_mp3_init_memory(pData, dataSize, pConfig, pAllocationCallbacks, pMP3); + if (result != MA_SUCCESS) { + ma_free(pMP3, pAllocationCallbacks); + return result; + } + + *ppBackend = pMP3; + + return MA_SUCCESS; +} + +static void ma_decoding_backend_uninit__mp3(void* pUserData, ma_data_source* pBackend, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_mp3* pMP3 = (ma_mp3*)pBackend; + + (void)pUserData; + + ma_mp3_uninit(pMP3, pAllocationCallbacks); + ma_free(pMP3, pAllocationCallbacks); +} + +static ma_decoding_backend_vtable g_ma_decoding_backend_vtable_mp3 = +{ + ma_decoding_backend_init__mp3, + ma_decoding_backend_init_file__mp3, + ma_decoding_backend_init_file_w__mp3, + ma_decoding_backend_init_memory__mp3, + ma_decoding_backend_uninit__mp3 +}; + +static ma_result ma_decoder_init_mp3__internal(const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_vtable__internal(&g_ma_decoding_backend_vtable_mp3, NULL, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_mp3_from_file__internal(const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_file__internal(&g_ma_decoding_backend_vtable_mp3, NULL, pFilePath, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_mp3_from_file_w__internal(const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_file_w__internal(&g_ma_decoding_backend_vtable_mp3, NULL, pFilePath, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_mp3_from_memory__internal(const void* pData, size_t dataSize, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_memory__internal(&g_ma_decoding_backend_vtable_mp3, NULL, pData, dataSize, pConfig, pDecoder); +} +#endif /* ma_dr_mp3_h */ + +/* Vorbis */ +#ifdef STB_VORBIS_INCLUDE_STB_VORBIS_H +#define MA_HAS_VORBIS + +/* The size in bytes of each chunk of data to read from the Vorbis stream. */ +#define MA_VORBIS_DATA_CHUNK_SIZE 4096 + +typedef struct +{ + ma_data_source_base ds; + ma_read_proc onRead; + ma_seek_proc onSeek; + ma_tell_proc onTell; + void* pReadSeekTellUserData; + ma_allocation_callbacks allocationCallbacks; /* Store the allocation callbacks within the structure because we may need to dynamically expand a buffer in ma_stbvorbis_read_pcm_frames() when using push mode. */ + ma_format format; /* Only f32 is allowed with stb_vorbis. */ + ma_uint32 channels; + ma_uint32 sampleRate; + ma_uint64 cursor; +#if !defined(MA_NO_VORBIS) + stb_vorbis* stb; + ma_bool32 usingPushMode; + struct + { + ma_uint8* pData; + size_t dataSize; + size_t dataCapacity; + size_t audioStartOffsetInBytes; + ma_uint32 framesConsumed; /* The number of frames consumed in ppPacketData. */ + ma_uint32 framesRemaining; /* The number of frames remaining in ppPacketData. */ + float** ppPacketData; + } push; +#endif +} ma_stbvorbis; + +MA_API ma_result ma_stbvorbis_init(ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_stbvorbis* pVorbis); +MA_API ma_result ma_stbvorbis_init_file(const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_stbvorbis* pVorbis); +MA_API ma_result ma_stbvorbis_init_memory(const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_stbvorbis* pVorbis); +MA_API void ma_stbvorbis_uninit(ma_stbvorbis* pVorbis, const ma_allocation_callbacks* pAllocationCallbacks); +MA_API ma_result ma_stbvorbis_read_pcm_frames(ma_stbvorbis* pVorbis, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); +MA_API ma_result ma_stbvorbis_seek_to_pcm_frame(ma_stbvorbis* pVorbis, ma_uint64 frameIndex); +MA_API ma_result ma_stbvorbis_get_data_format(ma_stbvorbis* pVorbis, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); +MA_API ma_result ma_stbvorbis_get_cursor_in_pcm_frames(ma_stbvorbis* pVorbis, ma_uint64* pCursor); +MA_API ma_result ma_stbvorbis_get_length_in_pcm_frames(ma_stbvorbis* pVorbis, ma_uint64* pLength); + + +static ma_result ma_stbvorbis_ds_read(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + return ma_stbvorbis_read_pcm_frames((ma_stbvorbis*)pDataSource, pFramesOut, frameCount, pFramesRead); +} + +static ma_result ma_stbvorbis_ds_seek(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + return ma_stbvorbis_seek_to_pcm_frame((ma_stbvorbis*)pDataSource, frameIndex); +} + +static ma_result ma_stbvorbis_ds_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + return ma_stbvorbis_get_data_format((ma_stbvorbis*)pDataSource, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); +} + +static ma_result ma_stbvorbis_ds_get_cursor(ma_data_source* pDataSource, ma_uint64* pCursor) +{ + return ma_stbvorbis_get_cursor_in_pcm_frames((ma_stbvorbis*)pDataSource, pCursor); +} + +static ma_result ma_stbvorbis_ds_get_length(ma_data_source* pDataSource, ma_uint64* pLength) +{ + return ma_stbvorbis_get_length_in_pcm_frames((ma_stbvorbis*)pDataSource, pLength); +} + +static ma_data_source_vtable g_ma_stbvorbis_ds_vtable = +{ + ma_stbvorbis_ds_read, + ma_stbvorbis_ds_seek, + ma_stbvorbis_ds_get_data_format, + ma_stbvorbis_ds_get_cursor, + ma_stbvorbis_ds_get_length, + NULL, /* onSetLooping */ + 0 +}; + + +static ma_result ma_stbvorbis_init_internal(const ma_decoding_backend_config* pConfig, ma_stbvorbis* pVorbis) +{ + ma_result result; + ma_data_source_config dataSourceConfig; + + (void)pConfig; + + if (pVorbis == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pVorbis); + pVorbis->format = ma_format_f32; /* Only supporting f32. */ + + dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &g_ma_stbvorbis_ds_vtable; + + result = ma_data_source_init(&dataSourceConfig, &pVorbis->ds); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize the base data source. */ + } + + return MA_SUCCESS; +} + +#if !defined(MA_NO_VORBIS) +static ma_result ma_stbvorbis_post_init(ma_stbvorbis* pVorbis) +{ + stb_vorbis_info info; + + MA_ASSERT(pVorbis != NULL); + + info = stb_vorbis_get_info(pVorbis->stb); + + pVorbis->channels = info.channels; + pVorbis->sampleRate = info.sample_rate; + + return MA_SUCCESS; +} + +static ma_result ma_stbvorbis_init_internal_decoder_push(ma_stbvorbis* pVorbis) +{ + ma_result result; + stb_vorbis* stb; + size_t dataSize = 0; + size_t dataCapacity = 0; + ma_uint8* pData = NULL; /* <-- Must be initialized to NULL. */ + + for (;;) { + int vorbisError; + int consumedDataSize; /* <-- Fill by stb_vorbis_open_pushdata(). */ + size_t bytesRead; + ma_uint8* pNewData; + + /* Allocate memory for the new chunk. */ + dataCapacity += MA_VORBIS_DATA_CHUNK_SIZE; + pNewData = (ma_uint8*)ma_realloc(pData, dataCapacity, &pVorbis->allocationCallbacks); + if (pNewData == NULL) { + ma_free(pData, &pVorbis->allocationCallbacks); + return MA_OUT_OF_MEMORY; + } + + pData = pNewData; + + /* Read in the next chunk. */ + result = pVorbis->onRead(pVorbis->pReadSeekTellUserData, ma_offset_ptr(pData, dataSize), (dataCapacity - dataSize), &bytesRead); + dataSize += bytesRead; + + if (result != MA_SUCCESS) { + ma_free(pData, &pVorbis->allocationCallbacks); + return result; + } + + /* We have a maximum of 31 bits with stb_vorbis. */ + if (dataSize > INT_MAX) { + ma_free(pData, &pVorbis->allocationCallbacks); + return MA_TOO_BIG; + } + + stb = stb_vorbis_open_pushdata(pData, (int)dataSize, &consumedDataSize, &vorbisError, NULL); + if (stb != NULL) { + /* + Successfully opened the Vorbis decoder. We might have some leftover unprocessed + data so we'll need to move that down to the front. + */ + dataSize -= (size_t)consumedDataSize; /* Consume the data. */ + MA_MOVE_MEMORY(pData, ma_offset_ptr(pData, consumedDataSize), dataSize); + + /* + We need to track the start point so we can seek back to the start of the audio + data when seeking. + */ + pVorbis->push.audioStartOffsetInBytes = consumedDataSize; + + break; + } else { + /* Failed to open the decoder. */ + if (vorbisError == VORBIS_need_more_data) { + continue; + } else { + ma_free(pData, &pVorbis->allocationCallbacks); + return MA_ERROR; /* Failed to open the stb_vorbis decoder. */ + } + } + } + + MA_ASSERT(stb != NULL); + pVorbis->stb = stb; + pVorbis->push.pData = pData; + pVorbis->push.dataSize = dataSize; + pVorbis->push.dataCapacity = dataCapacity; + + return MA_SUCCESS; +} +#endif + +MA_API ma_result ma_stbvorbis_init(ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_stbvorbis* pVorbis) +{ + ma_result result; + + result = ma_stbvorbis_init_internal(pConfig, pVorbis); + if (result != MA_SUCCESS) { + return result; + } + + if (onRead == NULL || onSeek == NULL) { + return MA_INVALID_ARGS; /* onRead and onSeek are mandatory. */ + } + + pVorbis->onRead = onRead; + pVorbis->onSeek = onSeek; + pVorbis->onTell = onTell; + pVorbis->pReadSeekTellUserData = pReadSeekTellUserData; + ma_allocation_callbacks_init_copy(&pVorbis->allocationCallbacks, pAllocationCallbacks); + + #if !defined(MA_NO_VORBIS) + { + /* + stb_vorbis lacks a callback based API for its pulling API which means we're stuck with the + pushing API. In order for us to be able to successfully initialize the decoder we need to + supply it with enough data. We need to keep loading data until we have enough. + */ + result = ma_stbvorbis_init_internal_decoder_push(pVorbis); + if (result != MA_SUCCESS) { + return result; + } + + pVorbis->usingPushMode = MA_TRUE; + + result = ma_stbvorbis_post_init(pVorbis); + if (result != MA_SUCCESS) { + stb_vorbis_close(pVorbis->stb); + ma_free(pVorbis->push.pData, pAllocationCallbacks); + return result; + } + + return MA_SUCCESS; + } + #else + { + /* vorbis is disabled. */ + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_stbvorbis_init_file(const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_stbvorbis* pVorbis) +{ + ma_result result; + + result = ma_stbvorbis_init_internal(pConfig, pVorbis); + if (result != MA_SUCCESS) { + return result; + } + + #if !defined(MA_NO_VORBIS) + { + (void)pAllocationCallbacks; /* Don't know how to make use of this with stb_vorbis. */ + + /* We can use stb_vorbis' pull mode for file based streams. */ + pVorbis->stb = stb_vorbis_open_filename(pFilePath, NULL, NULL); + if (pVorbis->stb == NULL) { + return MA_INVALID_FILE; + } + + pVorbis->usingPushMode = MA_FALSE; + + result = ma_stbvorbis_post_init(pVorbis); + if (result != MA_SUCCESS) { + stb_vorbis_close(pVorbis->stb); + return result; + } + + return MA_SUCCESS; + } + #else + { + /* vorbis is disabled. */ + (void)pFilePath; + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_stbvorbis_init_memory(const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_stbvorbis* pVorbis) +{ + ma_result result; + + result = ma_stbvorbis_init_internal(pConfig, pVorbis); + if (result != MA_SUCCESS) { + return result; + } + + #if !defined(MA_NO_VORBIS) + { + (void)pAllocationCallbacks; + + /* stb_vorbis uses an int as its size specifier, restricting it to 32-bit even on 64-bit systems. *sigh*. */ + if (dataSize > INT_MAX) { + return MA_TOO_BIG; + } + + pVorbis->stb = stb_vorbis_open_memory((const unsigned char*)pData, (int)dataSize, NULL, NULL); + if (pVorbis->stb == NULL) { + return MA_INVALID_FILE; + } + + pVorbis->usingPushMode = MA_FALSE; + + result = ma_stbvorbis_post_init(pVorbis); + if (result != MA_SUCCESS) { + stb_vorbis_close(pVorbis->stb); + return result; + } + + return MA_SUCCESS; + } + #else + { + /* vorbis is disabled. */ + (void)pData; + (void)dataSize; + (void)pAllocationCallbacks; + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API void ma_stbvorbis_uninit(ma_stbvorbis* pVorbis, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pVorbis == NULL) { + return; + } + + #if !defined(MA_NO_VORBIS) + { + stb_vorbis_close(pVorbis->stb); + + /* We'll have to clear some memory if we're using push mode. */ + if (pVorbis->usingPushMode) { + ma_free(pVorbis->push.pData, pAllocationCallbacks); + } + } + #else + { + /* vorbis is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + } + #endif + + ma_data_source_uninit(&pVorbis->ds); +} + +MA_API ma_result ma_stbvorbis_read_pcm_frames(ma_stbvorbis* pVorbis, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + if (pVorbis == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_VORBIS) + { + /* We always use floating point format. */ + ma_result result = MA_SUCCESS; /* Must be initialized to MA_SUCCESS. */ + ma_uint64 totalFramesRead = 0; + ma_format format; + ma_uint32 channels; + + ma_stbvorbis_get_data_format(pVorbis, &format, &channels, NULL, NULL, 0); + + if (format == ma_format_f32) { + /* We read differently depending on whether or not we're using push mode. */ + if (pVorbis->usingPushMode) { + /* Push mode. This is the complex case. */ + float* pFramesOutF32 = (float*)pFramesOut; + + while (totalFramesRead < frameCount) { + /* The first thing to do is read from any already-cached frames. */ + ma_uint32 framesToReadFromCache = (ma_uint32)ma_min(pVorbis->push.framesRemaining, (frameCount - totalFramesRead)); /* Safe cast because pVorbis->framesRemaining is 32-bit. */ + + /* The output pointer can be null in which case we just treat it as a seek. */ + if (pFramesOut != NULL) { + ma_uint64 iFrame; + for (iFrame = 0; iFrame < framesToReadFromCache; iFrame += 1) { + ma_uint32 iChannel; + for (iChannel = 0; iChannel < pVorbis->channels; iChannel += 1) { + pFramesOutF32[iChannel] = pVorbis->push.ppPacketData[iChannel][pVorbis->push.framesConsumed + iFrame]; + } + + pFramesOutF32 += pVorbis->channels; + } + } + + /* Update pointers and counters. */ + pVorbis->push.framesConsumed += framesToReadFromCache; + pVorbis->push.framesRemaining -= framesToReadFromCache; + totalFramesRead += framesToReadFromCache; + + /* Don't bother reading any more frames right now if we've just finished loading. */ + if (totalFramesRead == frameCount) { + break; + } + + MA_ASSERT(pVorbis->push.framesRemaining == 0); + + /* Getting here means we've run out of cached frames. We'll need to load some more. */ + for (;;) { + int samplesRead = 0; + int consumedDataSize; + + /* We need to case dataSize to an int, so make sure we can do it safely. */ + if (pVorbis->push.dataSize > INT_MAX) { + break; /* Too big. */ + } + + consumedDataSize = stb_vorbis_decode_frame_pushdata(pVorbis->stb, pVorbis->push.pData, (int)pVorbis->push.dataSize, NULL, &pVorbis->push.ppPacketData, &samplesRead); + if (consumedDataSize != 0) { + /* Successfully decoded a Vorbis frame. Consume the data. */ + pVorbis->push.dataSize -= (size_t)consumedDataSize; + MA_MOVE_MEMORY(pVorbis->push.pData, ma_offset_ptr(pVorbis->push.pData, consumedDataSize), pVorbis->push.dataSize); + + pVorbis->push.framesConsumed = 0; + pVorbis->push.framesRemaining = samplesRead; + + break; + } else { + /* Not enough data. Read more. */ + size_t bytesRead; + + /* Expand the data buffer if necessary. */ + if (pVorbis->push.dataCapacity == pVorbis->push.dataSize) { + size_t newCap = pVorbis->push.dataCapacity + MA_VORBIS_DATA_CHUNK_SIZE; + ma_uint8* pNewData; + + pNewData = (ma_uint8*)ma_realloc(pVorbis->push.pData, newCap, &pVorbis->allocationCallbacks); + if (pNewData == NULL) { + result = MA_OUT_OF_MEMORY; + break; + } + + pVorbis->push.pData = pNewData; + pVorbis->push.dataCapacity = newCap; + } + + /* We should have enough room to load some data. */ + result = pVorbis->onRead(pVorbis->pReadSeekTellUserData, ma_offset_ptr(pVorbis->push.pData, pVorbis->push.dataSize), (pVorbis->push.dataCapacity - pVorbis->push.dataSize), &bytesRead); + pVorbis->push.dataSize += bytesRead; + + if (result != MA_SUCCESS) { + break; /* Failed to read any data. Get out. */ + } + } + } + + /* If we don't have a success code at this point it means we've encountered an error or the end of the file has been reached (probably the latter). */ + if (result != MA_SUCCESS) { + break; + } + } + } else { + /* Pull mode. This is the simple case, but we still need to run in a loop because stb_vorbis loves using 32-bit instead of 64-bit. */ + while (totalFramesRead < frameCount) { + ma_uint64 framesRemaining = (frameCount - totalFramesRead); + int framesRead; + + if (framesRemaining > INT_MAX) { + framesRemaining = INT_MAX; + } + + framesRead = stb_vorbis_get_samples_float_interleaved(pVorbis->stb, channels, (float*)ma_offset_pcm_frames_ptr(pFramesOut, totalFramesRead, format, channels), (int)framesRemaining * channels); /* Safe cast. */ + totalFramesRead += framesRead; + + if (framesRead < (int)framesRemaining) { + break; /* Nothing left to read. Get out. */ + } + } + } + } else { + result = MA_INVALID_ARGS; + } + + pVorbis->cursor += totalFramesRead; + + if (totalFramesRead == 0) { + result = MA_AT_END; + } + + if (pFramesRead != NULL) { + *pFramesRead = totalFramesRead; + } + + if (result == MA_SUCCESS && totalFramesRead == 0) { + result = MA_AT_END; + } + + return result; + } + #else + { + /* vorbis is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + + (void)pFramesOut; + (void)frameCount; + (void)pFramesRead; + + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_stbvorbis_seek_to_pcm_frame(ma_stbvorbis* pVorbis, ma_uint64 frameIndex) +{ + if (pVorbis == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_VORBIS) + { + /* Different seeking methods depending on whether or not we're using push mode. */ + if (pVorbis->usingPushMode) { + /* Push mode. This is the complex case. */ + ma_result result; + float buffer[4096]; + + /* If we're seeking backwards, we need to seek back to the start and then brute-force forward. */ + if (frameIndex < pVorbis->cursor) { + if (frameIndex > 0x7FFFFFFF) { + return MA_INVALID_ARGS; /* Trying to seek beyond the 32-bit maximum of stb_vorbis. */ + } + + /* + This is wildly inefficient due to me having trouble getting sample exact seeking working + robustly with stb_vorbis_flush_pushdata(). The only way I can think to make this work + perfectly is to reinitialize the decoder. Note that we only enter this path when seeking + backwards. This will hopefully be removed once we get our own Vorbis decoder implemented. + */ + stb_vorbis_close(pVorbis->stb); + ma_free(pVorbis->push.pData, &pVorbis->allocationCallbacks); + + MA_ZERO_OBJECT(&pVorbis->push); + + /* Seek to the start of the file. */ + result = pVorbis->onSeek(pVorbis->pReadSeekTellUserData, 0, ma_seek_origin_start); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_stbvorbis_init_internal_decoder_push(pVorbis); + if (result != MA_SUCCESS) { + return result; + } + + /* At this point we should be sitting on the first frame. */ + pVorbis->cursor = 0; + } + + /* We're just brute-forcing this for now. */ + while (pVorbis->cursor < frameIndex) { + ma_uint64 framesRead; + ma_uint64 framesToRead = ma_countof(buffer)/pVorbis->channels; + if (framesToRead > (frameIndex - pVorbis->cursor)) { + framesToRead = (frameIndex - pVorbis->cursor); + } + + result = ma_stbvorbis_read_pcm_frames(pVorbis, buffer, framesToRead, &framesRead); + if (result != MA_SUCCESS) { + return result; + } + } + } else { + /* Pull mode. This is the simple case. */ + int vorbisResult; + + if (frameIndex > UINT_MAX) { + return MA_INVALID_ARGS; /* Trying to seek beyond the 32-bit maximum of stb_vorbis. */ + } + + vorbisResult = stb_vorbis_seek(pVorbis->stb, (unsigned int)frameIndex); /* Safe cast. */ + if (vorbisResult == 0) { + return MA_ERROR; /* See failed. */ + } + + pVorbis->cursor = frameIndex; + } + + return MA_SUCCESS; + } + #else + { + /* vorbis is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + + (void)frameIndex; + + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_stbvorbis_get_data_format(ma_stbvorbis* pVorbis, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + /* Defaults for safety. */ + if (pFormat != NULL) { + *pFormat = ma_format_unknown; + } + if (pChannels != NULL) { + *pChannels = 0; + } + if (pSampleRate != NULL) { + *pSampleRate = 0; + } + if (pChannelMap != NULL) { + MA_ZERO_MEMORY(pChannelMap, sizeof(*pChannelMap) * channelMapCap); + } + + if (pVorbis == NULL) { + return MA_INVALID_OPERATION; + } + + if (pFormat != NULL) { + *pFormat = pVorbis->format; + } + + #if !defined(MA_NO_VORBIS) + { + if (pChannels != NULL) { + *pChannels = pVorbis->channels; + } + + if (pSampleRate != NULL) { + *pSampleRate = pVorbis->sampleRate; + } + + if (pChannelMap != NULL) { + ma_channel_map_init_standard(ma_standard_channel_map_vorbis, pChannelMap, channelMapCap, pVorbis->channels); + } + + return MA_SUCCESS; + } + #else + { + /* vorbis is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_stbvorbis_get_cursor_in_pcm_frames(ma_stbvorbis* pVorbis, ma_uint64* pCursor) +{ + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; /* Safety. */ + + if (pVorbis == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_VORBIS) + { + *pCursor = pVorbis->cursor; + + return MA_SUCCESS; + } + #else + { + /* vorbis is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + +MA_API ma_result ma_stbvorbis_get_length_in_pcm_frames(ma_stbvorbis* pVorbis, ma_uint64* pLength) +{ + if (pLength == NULL) { + return MA_INVALID_ARGS; + } + + *pLength = 0; /* Safety. */ + + if (pVorbis == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_VORBIS) + { + if (pVorbis->usingPushMode) { + *pLength = 0; /* I don't know of a good way to determine this reliably with stb_vorbis and push mode. */ + } else { + *pLength = stb_vorbis_stream_length_in_samples(pVorbis->stb); + } + + return MA_SUCCESS; + } + #else + { + /* vorbis is disabled. Should never hit this since initialization would have failed. */ + MA_ASSERT(MA_FALSE); + return MA_NOT_IMPLEMENTED; + } + #endif +} + + +static ma_result ma_decoding_backend_init__stbvorbis(void* pUserData, ma_read_proc onRead, ma_seek_proc onSeek, ma_tell_proc onTell, void* pReadSeekTellUserData, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_stbvorbis* pVorbis; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pVorbis = (ma_stbvorbis*)ma_malloc(sizeof(*pVorbis), pAllocationCallbacks); + if (pVorbis == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_stbvorbis_init(onRead, onSeek, onTell, pReadSeekTellUserData, pConfig, pAllocationCallbacks, pVorbis); + if (result != MA_SUCCESS) { + ma_free(pVorbis, pAllocationCallbacks); + return result; + } + + *ppBackend = pVorbis; + + return MA_SUCCESS; +} + +static ma_result ma_decoding_backend_init_file__stbvorbis(void* pUserData, const char* pFilePath, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_stbvorbis* pVorbis; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pVorbis = (ma_stbvorbis*)ma_malloc(sizeof(*pVorbis), pAllocationCallbacks); + if (pVorbis == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_stbvorbis_init_file(pFilePath, pConfig, pAllocationCallbacks, pVorbis); + if (result != MA_SUCCESS) { + ma_free(pVorbis, pAllocationCallbacks); + return result; + } + + *ppBackend = pVorbis; + + return MA_SUCCESS; +} + +static ma_result ma_decoding_backend_init_memory__stbvorbis(void* pUserData, const void* pData, size_t dataSize, const ma_decoding_backend_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source** ppBackend) +{ + ma_result result; + ma_stbvorbis* pVorbis; + + (void)pUserData; /* For now not using pUserData, but once we start storing the vorbis decoder state within the ma_decoder structure this will be set to the decoder so we can avoid a malloc. */ + + /* For now we're just allocating the decoder backend on the heap. */ + pVorbis = (ma_stbvorbis*)ma_malloc(sizeof(*pVorbis), pAllocationCallbacks); + if (pVorbis == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_stbvorbis_init_memory(pData, dataSize, pConfig, pAllocationCallbacks, pVorbis); + if (result != MA_SUCCESS) { + ma_free(pVorbis, pAllocationCallbacks); + return result; + } + + *ppBackend = pVorbis; + + return MA_SUCCESS; +} + +static void ma_decoding_backend_uninit__stbvorbis(void* pUserData, ma_data_source* pBackend, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_stbvorbis* pVorbis = (ma_stbvorbis*)pBackend; + + (void)pUserData; + + ma_stbvorbis_uninit(pVorbis, pAllocationCallbacks); + ma_free(pVorbis, pAllocationCallbacks); +} + +static ma_decoding_backend_vtable g_ma_decoding_backend_vtable_stbvorbis = +{ + ma_decoding_backend_init__stbvorbis, + ma_decoding_backend_init_file__stbvorbis, + NULL, /* onInitFileW() */ + ma_decoding_backend_init_memory__stbvorbis, + ma_decoding_backend_uninit__stbvorbis +}; + +static ma_result ma_decoder_init_vorbis__internal(const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_vtable__internal(&g_ma_decoding_backend_vtable_stbvorbis, NULL, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_vorbis_from_file__internal(const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_file__internal(&g_ma_decoding_backend_vtable_stbvorbis, NULL, pFilePath, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_vorbis_from_file_w__internal(const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_file_w__internal(&g_ma_decoding_backend_vtable_stbvorbis, NULL, pFilePath, pConfig, pDecoder); +} + +static ma_result ma_decoder_init_vorbis_from_memory__internal(const void* pData, size_t dataSize, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + return ma_decoder_init_from_memory__internal(&g_ma_decoding_backend_vtable_stbvorbis, NULL, pData, dataSize, pConfig, pDecoder); +} +#endif /* STB_VORBIS_INCLUDE_STB_VORBIS_H */ + + + +static ma_result ma_decoder__init_allocation_callbacks(const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + MA_ASSERT(pDecoder != NULL); + + if (pConfig != NULL) { + return ma_allocation_callbacks_init_copy(&pDecoder->allocationCallbacks, &pConfig->allocationCallbacks); + } else { + pDecoder->allocationCallbacks = ma_allocation_callbacks_init_default(); + return MA_SUCCESS; + } +} + +static ma_result ma_decoder__data_source_on_read(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + return ma_decoder_read_pcm_frames((ma_decoder*)pDataSource, pFramesOut, frameCount, pFramesRead); +} + +static ma_result ma_decoder__data_source_on_seek(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + return ma_decoder_seek_to_pcm_frame((ma_decoder*)pDataSource, frameIndex); +} + +static ma_result ma_decoder__data_source_on_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + return ma_decoder_get_data_format((ma_decoder*)pDataSource, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); +} + +static ma_result ma_decoder__data_source_on_get_cursor(ma_data_source* pDataSource, ma_uint64* pCursor) +{ + return ma_decoder_get_cursor_in_pcm_frames((ma_decoder*)pDataSource, pCursor); +} + +static ma_result ma_decoder__data_source_on_get_length(ma_data_source* pDataSource, ma_uint64* pLength) +{ + return ma_decoder_get_length_in_pcm_frames((ma_decoder*)pDataSource, pLength); +} + +static ma_data_source_vtable g_ma_decoder_data_source_vtable = +{ + ma_decoder__data_source_on_read, + ma_decoder__data_source_on_seek, + ma_decoder__data_source_on_get_data_format, + ma_decoder__data_source_on_get_cursor, + ma_decoder__data_source_on_get_length, + NULL, /* onSetLooping */ + 0 +}; + +static ma_result ma_decoder__preinit(ma_decoder_read_proc onRead, ma_decoder_seek_proc onSeek, ma_decoder_tell_proc onTell, void* pUserData, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_data_source_config dataSourceConfig; + + MA_ASSERT(pConfig != NULL); + + if (pDecoder == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pDecoder); + + dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &g_ma_decoder_data_source_vtable; + + result = ma_data_source_init(&dataSourceConfig, &pDecoder->ds); + if (result != MA_SUCCESS) { + return result; + } + + pDecoder->onRead = onRead; + pDecoder->onSeek = onSeek; + pDecoder->onTell = onTell; + pDecoder->pUserData = pUserData; + + result = ma_decoder__init_allocation_callbacks(pConfig, pDecoder); + if (result != MA_SUCCESS) { + ma_data_source_uninit(&pDecoder->ds); + return result; + } + + return MA_SUCCESS; +} + +static ma_result ma_decoder__postinit(const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + + result = ma_decoder__init_data_converter(pDecoder, pConfig); + + /* If we failed post initialization we need to uninitialize the decoder before returning to prevent a memory leak. */ + if (result != MA_SUCCESS) { + ma_decoder_uninit(pDecoder); + return result; + } + + return result; +} + + +static ma_result ma_decoder_init__internal(ma_decoder_read_proc onRead, ma_decoder_seek_proc onSeek, void* pUserData, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result = MA_NO_BACKEND; + + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pDecoder != NULL); + + /* Silence some warnings in the case that we don't have any decoder backends enabled. */ + (void)onRead; + (void)onSeek; + (void)pUserData; + + + /* If we've specified a specific encoding type, try that first. */ + if (pConfig->encodingFormat != ma_encoding_format_unknown) { + #ifdef MA_HAS_WAV + if (pConfig->encodingFormat == ma_encoding_format_wav) { + result = ma_decoder_init_wav__internal(pConfig, pDecoder); + } + #endif + #ifdef MA_HAS_FLAC + if (pConfig->encodingFormat == ma_encoding_format_flac) { + result = ma_decoder_init_flac__internal(pConfig, pDecoder); + } + #endif + #ifdef MA_HAS_MP3 + if (pConfig->encodingFormat == ma_encoding_format_mp3) { + result = ma_decoder_init_mp3__internal(pConfig, pDecoder); + } + #endif + #ifdef MA_HAS_VORBIS + if (pConfig->encodingFormat == ma_encoding_format_vorbis) { + result = ma_decoder_init_vorbis__internal(pConfig, pDecoder); + } + #endif + + /* If we weren't able to initialize the decoder, seek back to the start to give the next attempts a clean start. */ + if (result != MA_SUCCESS) { + onSeek(pDecoder, 0, ma_seek_origin_start); + } + } + + if (result != MA_SUCCESS) { + /* Getting here means we couldn't load a specific decoding backend based on the encoding format. */ + + /* + We use trial and error to open a decoder. We prioritize custom decoders so that if they + implement the same encoding format they take priority over the built-in decoders. + */ + result = ma_decoder_init_custom__internal(pConfig, pDecoder); + if (result != MA_SUCCESS) { + onSeek(pDecoder, 0, ma_seek_origin_start); + } + + /* + If we get to this point and we still haven't found a decoder, and the caller has requested a + specific encoding format, there's no hope for it. Abort. + */ + if (pConfig->encodingFormat != ma_encoding_format_unknown) { + return MA_NO_BACKEND; + } + + #ifdef MA_HAS_WAV + if (result != MA_SUCCESS) { + result = ma_decoder_init_wav__internal(pConfig, pDecoder); + if (result != MA_SUCCESS) { + onSeek(pDecoder, 0, ma_seek_origin_start); + } + } + #endif + #ifdef MA_HAS_FLAC + if (result != MA_SUCCESS) { + result = ma_decoder_init_flac__internal(pConfig, pDecoder); + if (result != MA_SUCCESS) { + onSeek(pDecoder, 0, ma_seek_origin_start); + } + } + #endif + #ifdef MA_HAS_MP3 + if (result != MA_SUCCESS) { + result = ma_decoder_init_mp3__internal(pConfig, pDecoder); + if (result != MA_SUCCESS) { + onSeek(pDecoder, 0, ma_seek_origin_start); + } + } + #endif + #ifdef MA_HAS_VORBIS + if (result != MA_SUCCESS) { + result = ma_decoder_init_vorbis__internal(pConfig, pDecoder); + if (result != MA_SUCCESS) { + onSeek(pDecoder, 0, ma_seek_origin_start); + } + } + #endif + } + + if (result != MA_SUCCESS) { + return result; + } + + return ma_decoder__postinit(pConfig, pDecoder); +} + +MA_API ma_result ma_decoder_init(ma_decoder_read_proc onRead, ma_decoder_seek_proc onSeek, void* pUserData, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_decoder_config config; + ma_result result; + + config = ma_decoder_config_init_copy(pConfig); + + result = ma_decoder__preinit(onRead, onSeek, NULL, pUserData, &config, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + return ma_decoder_init__internal(onRead, onSeek, pUserData, &config, pDecoder); +} + + +static ma_result ma_decoder__on_read_memory(ma_decoder* pDecoder, void* pBufferOut, size_t bytesToRead, size_t* pBytesRead) +{ + size_t bytesRemaining; + + MA_ASSERT(pDecoder->data.memory.dataSize >= pDecoder->data.memory.currentReadPos); + + if (pBytesRead != NULL) { + *pBytesRead = 0; + } + + bytesRemaining = pDecoder->data.memory.dataSize - pDecoder->data.memory.currentReadPos; + if (bytesToRead > bytesRemaining) { + bytesToRead = bytesRemaining; + } + + if (bytesRemaining == 0) { + return MA_AT_END; + } + + if (bytesToRead > 0) { + MA_COPY_MEMORY(pBufferOut, pDecoder->data.memory.pData + pDecoder->data.memory.currentReadPos, bytesToRead); + pDecoder->data.memory.currentReadPos += bytesToRead; + } + + if (pBytesRead != NULL) { + *pBytesRead = bytesToRead; + } + + return MA_SUCCESS; +} + +static ma_result ma_decoder__on_seek_memory(ma_decoder* pDecoder, ma_int64 byteOffset, ma_seek_origin origin) +{ + if (byteOffset > 0 && (ma_uint64)byteOffset > MA_SIZE_MAX) { + return MA_BAD_SEEK; + } + + if (origin == ma_seek_origin_current) { + if (byteOffset > 0) { + if (pDecoder->data.memory.currentReadPos + byteOffset > pDecoder->data.memory.dataSize) { + byteOffset = (ma_int64)(pDecoder->data.memory.dataSize - pDecoder->data.memory.currentReadPos); /* Trying to seek too far forward. */ + } + + pDecoder->data.memory.currentReadPos += (size_t)byteOffset; + } else { + if (pDecoder->data.memory.currentReadPos < (size_t)-byteOffset) { + byteOffset = -(ma_int64)pDecoder->data.memory.currentReadPos; /* Trying to seek too far backwards. */ + } + + pDecoder->data.memory.currentReadPos -= (size_t)-byteOffset; + } + } else { + if (origin == ma_seek_origin_end) { + if (byteOffset < 0) { + byteOffset = -byteOffset; + } + + if (byteOffset > (ma_int64)pDecoder->data.memory.dataSize) { + pDecoder->data.memory.currentReadPos = 0; /* Trying to seek too far back. */ + } else { + pDecoder->data.memory.currentReadPos = pDecoder->data.memory.dataSize - (size_t)byteOffset; + } + } else { + if ((size_t)byteOffset <= pDecoder->data.memory.dataSize) { + pDecoder->data.memory.currentReadPos = (size_t)byteOffset; + } else { + pDecoder->data.memory.currentReadPos = pDecoder->data.memory.dataSize; /* Trying to seek too far forward. */ + } + } + } + + return MA_SUCCESS; +} + +static ma_result ma_decoder__on_tell_memory(ma_decoder* pDecoder, ma_int64* pCursor) +{ + MA_ASSERT(pDecoder != NULL); + MA_ASSERT(pCursor != NULL); + + *pCursor = (ma_int64)pDecoder->data.memory.currentReadPos; + + return MA_SUCCESS; +} + +static ma_result ma_decoder__preinit_memory_wrapper(const void* pData, size_t dataSize, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result = ma_decoder__preinit(ma_decoder__on_read_memory, ma_decoder__on_seek_memory, ma_decoder__on_tell_memory, NULL, pConfig, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + if (pData == NULL || dataSize == 0) { + return MA_INVALID_ARGS; + } + + pDecoder->data.memory.pData = (const ma_uint8*)pData; + pDecoder->data.memory.dataSize = dataSize; + pDecoder->data.memory.currentReadPos = 0; + + (void)pConfig; + return MA_SUCCESS; +} + +MA_API ma_result ma_decoder_init_memory(const void* pData, size_t dataSize, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_decoder_config config; + + config = ma_decoder_config_init_copy(pConfig); + + result = ma_decoder__preinit(NULL, NULL, NULL, NULL, &config, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + if (pData == NULL || dataSize == 0) { + return MA_INVALID_ARGS; + } + + /* If the backend has support for loading from a file path we'll want to use that. If that all fails we'll fall back to the VFS path. */ + result = MA_NO_BACKEND; + + if (config.encodingFormat != ma_encoding_format_unknown) { + #ifdef MA_HAS_WAV + if (config.encodingFormat == ma_encoding_format_wav) { + result = ma_decoder_init_wav_from_memory__internal(pData, dataSize, &config, pDecoder); + } + #endif + #ifdef MA_HAS_FLAC + if (config.encodingFormat == ma_encoding_format_flac) { + result = ma_decoder_init_flac_from_memory__internal(pData, dataSize, &config, pDecoder); + } + #endif + #ifdef MA_HAS_MP3 + if (config.encodingFormat == ma_encoding_format_mp3) { + result = ma_decoder_init_mp3_from_memory__internal(pData, dataSize, &config, pDecoder); + } + #endif + #ifdef MA_HAS_VORBIS + if (config.encodingFormat == ma_encoding_format_vorbis) { + result = ma_decoder_init_vorbis_from_memory__internal(pData, dataSize, &config, pDecoder); + } + #endif + } + + if (result != MA_SUCCESS) { + /* Getting here means we weren't able to initialize a decoder of a specific encoding format. */ + + /* + We use trial and error to open a decoder. We prioritize custom decoders so that if they + implement the same encoding format they take priority over the built-in decoders. + */ + result = ma_decoder_init_custom_from_memory__internal(pData, dataSize, &config, pDecoder); + + /* + If we get to this point and we still haven't found a decoder, and the caller has requested a + specific encoding format, there's no hope for it. Abort. + */ + if (result != MA_SUCCESS && config.encodingFormat != ma_encoding_format_unknown) { + return MA_NO_BACKEND; + } + + /* Use trial and error for stock decoders. */ + if (result != MA_SUCCESS) { + #ifdef MA_HAS_WAV + if (result != MA_SUCCESS) { + result = ma_decoder_init_wav_from_memory__internal(pData, dataSize, &config, pDecoder); + } + #endif + #ifdef MA_HAS_FLAC + if (result != MA_SUCCESS) { + result = ma_decoder_init_flac_from_memory__internal(pData, dataSize, &config, pDecoder); + } + #endif + #ifdef MA_HAS_MP3 + if (result != MA_SUCCESS) { + result = ma_decoder_init_mp3_from_memory__internal(pData, dataSize, &config, pDecoder); + } + #endif + #ifdef MA_HAS_VORBIS + if (result != MA_SUCCESS) { + result = ma_decoder_init_vorbis_from_memory__internal(pData, dataSize, &config, pDecoder); + } + #endif + } + } + + /* + If at this point we still haven't successfully initialized the decoder it most likely means + the backend doesn't have an implementation for loading from a file path. We'll try using + miniaudio's built-in file IO for loading file. + */ + if (result == MA_SUCCESS) { + /* Initialization was successful. Finish up. */ + result = ma_decoder__postinit(&config, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + } else { + /* Probably no implementation for loading from a block of memory. Use miniaudio's abstraction instead. */ + result = ma_decoder__preinit_memory_wrapper(pData, dataSize, &config, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_decoder_init__internal(ma_decoder__on_read_memory, ma_decoder__on_seek_memory, NULL, &config, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + } + + return MA_SUCCESS; +} + + +#if defined(MA_HAS_WAV) || \ + defined(MA_HAS_MP3) || \ + defined(MA_HAS_FLAC) || \ + defined(MA_HAS_VORBIS) +#define MA_HAS_PATH_API +#endif + +#if defined(MA_HAS_PATH_API) +static const char* ma_path_file_name(const char* path) +{ + const char* fileName; + + if (path == NULL) { + return NULL; + } + + fileName = path; + + /* We just loop through the path until we find the last slash. */ + while (path[0] != '\0') { + if (path[0] == '/' || path[0] == '\\') { + fileName = path; + } + + path += 1; + } + + /* At this point the file name is sitting on a slash, so just move forward. */ + while (fileName[0] != '\0' && (fileName[0] == '/' || fileName[0] == '\\')) { + fileName += 1; + } + + return fileName; +} + +static const wchar_t* ma_path_file_name_w(const wchar_t* path) +{ + const wchar_t* fileName; + + if (path == NULL) { + return NULL; + } + + fileName = path; + + /* We just loop through the path until we find the last slash. */ + while (path[0] != '\0') { + if (path[0] == '/' || path[0] == '\\') { + fileName = path; + } + + path += 1; + } + + /* At this point the file name is sitting on a slash, so just move forward. */ + while (fileName[0] != '\0' && (fileName[0] == '/' || fileName[0] == '\\')) { + fileName += 1; + } + + return fileName; +} + + +static const char* ma_path_extension(const char* path) +{ + const char* extension; + const char* lastOccurance; + + if (path == NULL) { + path = ""; + } + + extension = ma_path_file_name(path); + lastOccurance = NULL; + + /* Just find the last '.' and return. */ + while (extension[0] != '\0') { + if (extension[0] == '.') { + extension += 1; + lastOccurance = extension; + } + + extension += 1; + } + + return (lastOccurance != NULL) ? lastOccurance : extension; +} + +static const wchar_t* ma_path_extension_w(const wchar_t* path) +{ + const wchar_t* extension; + const wchar_t* lastOccurance; + + if (path == NULL) { + path = L""; + } + + extension = ma_path_file_name_w(path); + lastOccurance = NULL; + + /* Just find the last '.' and return. */ + while (extension[0] != '\0') { + if (extension[0] == '.') { + extension += 1; + lastOccurance = extension; + } + + extension += 1; + } + + return (lastOccurance != NULL) ? lastOccurance : extension; +} + + +static ma_bool32 ma_path_extension_equal(const char* path, const char* extension) +{ + const char* ext1; + const char* ext2; + + if (path == NULL || extension == NULL) { + return MA_FALSE; + } + + ext1 = extension; + ext2 = ma_path_extension(path); + +#if defined(_MSC_VER) || defined(__DMC__) + return _stricmp(ext1, ext2) == 0; +#else + return strcasecmp(ext1, ext2) == 0; +#endif +} + +static ma_bool32 ma_path_extension_equal_w(const wchar_t* path, const wchar_t* extension) +{ + const wchar_t* ext1; + const wchar_t* ext2; + + if (path == NULL || extension == NULL) { + return MA_FALSE; + } + + ext1 = extension; + ext2 = ma_path_extension_w(path); + + #if (defined(_MSC_VER) || defined(__WATCOMC__) || defined(__DMC__)) && !defined(MA_XBOX_NXDK) + { + return _wcsicmp(ext1, ext2) == 0; + } + #elif !defined(MA_XBOX_NXDK) && !defined(MA_DOS) + { + /* + I'm not aware of a wide character version of strcasecmp(). I'm therefore converting the extensions to multibyte strings and comparing those. This + isn't the most efficient way to do it, but it should work OK. + */ + char ext1MB[4096]; + char ext2MB[4096]; + const wchar_t* pext1 = ext1; + const wchar_t* pext2 = ext2; + mbstate_t mbs1; + mbstate_t mbs2; + + MA_ZERO_OBJECT(&mbs1); + MA_ZERO_OBJECT(&mbs2); + + if (wcsrtombs(ext1MB, &pext1, sizeof(ext1MB), &mbs1) == (size_t)-1) { + return MA_FALSE; + } + if (wcsrtombs(ext2MB, &pext2, sizeof(ext2MB), &mbs2) == (size_t)-1) { + return MA_FALSE; + } + + return strcasecmp(ext1MB, ext2MB) == 0; + } + #else + { + /* Getting here means we don't have a way to do a case-sensitive comparison for wide strings. Fall back to a simple case-sensitive comparison. */ + /* TODO: Implement our own wchar_t-to-char conversion routine and then use the char* version for comparing. */ + return ma_wcscmp(ext1, ext2) == 0; + } + #endif +} +#endif /* MA_HAS_PATH_API */ + + + +static ma_result ma_decoder__on_read_vfs(ma_decoder* pDecoder, void* pBufferOut, size_t bytesToRead, size_t* pBytesRead) +{ + MA_ASSERT(pDecoder != NULL); + MA_ASSERT(pBufferOut != NULL); + + return ma_vfs_or_default_read(pDecoder->data.vfs.pVFS, pDecoder->data.vfs.file, pBufferOut, bytesToRead, pBytesRead); +} + +static ma_result ma_decoder__on_seek_vfs(ma_decoder* pDecoder, ma_int64 offset, ma_seek_origin origin) +{ + MA_ASSERT(pDecoder != NULL); + + return ma_vfs_or_default_seek(pDecoder->data.vfs.pVFS, pDecoder->data.vfs.file, offset, origin); +} + +static ma_result ma_decoder__on_tell_vfs(ma_decoder* pDecoder, ma_int64* pCursor) +{ + MA_ASSERT(pDecoder != NULL); + + return ma_vfs_or_default_tell(pDecoder->data.vfs.pVFS, pDecoder->data.vfs.file, pCursor); +} + +static ma_result ma_decoder__preinit_vfs(ma_vfs* pVFS, const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_vfs_file file; + + result = ma_decoder__preinit(ma_decoder__on_read_vfs, ma_decoder__on_seek_vfs, ma_decoder__on_tell_vfs, NULL, pConfig, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + if (pFilePath == NULL || pFilePath[0] == '\0') { + return MA_INVALID_ARGS; + } + + result = ma_vfs_or_default_open(pVFS, pFilePath, MA_OPEN_MODE_READ, &file); + if (result != MA_SUCCESS) { + return result; + } + + pDecoder->data.vfs.pVFS = pVFS; + pDecoder->data.vfs.file = file; + + return MA_SUCCESS; +} + +MA_API ma_result ma_decoder_init_vfs(ma_vfs* pVFS, const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_decoder_config config; + + config = ma_decoder_config_init_copy(pConfig); + result = ma_decoder__preinit_vfs(pVFS, pFilePath, &config, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + result = MA_NO_BACKEND; + + if (config.encodingFormat != ma_encoding_format_unknown) { + #ifdef MA_HAS_WAV + if (config.encodingFormat == ma_encoding_format_wav) { + result = ma_decoder_init_wav__internal(&config, pDecoder); + } + #endif + #ifdef MA_HAS_FLAC + if (config.encodingFormat == ma_encoding_format_flac) { + result = ma_decoder_init_flac__internal(&config, pDecoder); + } + #endif + #ifdef MA_HAS_MP3 + if (config.encodingFormat == ma_encoding_format_mp3) { + result = ma_decoder_init_mp3__internal(&config, pDecoder); + } + #endif + #ifdef MA_HAS_VORBIS + if (config.encodingFormat == ma_encoding_format_vorbis) { + result = ma_decoder_init_vorbis__internal(&config, pDecoder); + } + #endif + + /* Make sure we seek back to the start if we didn't initialize a decoder successfully so the next attempts have a fresh start. */ + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + } + + if (result != MA_SUCCESS) { + /* Getting here means we weren't able to initialize a decoder of a specific encoding format. */ + + /* + We use trial and error to open a decoder. We prioritize custom decoders so that if they + implement the same encoding format they take priority over the built-in decoders. + */ + result = ma_decoder_init_custom__internal(&config, pDecoder); + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + + /* + If we get to this point and we still haven't found a decoder, and the caller has requested a + specific encoding format, there's no hope for it. Abort. + */ + if (config.encodingFormat != ma_encoding_format_unknown) { + return MA_NO_BACKEND; + } + + #ifdef MA_HAS_WAV + if (result != MA_SUCCESS && ma_path_extension_equal(pFilePath, "wav")) { + result = ma_decoder_init_wav__internal(&config, pDecoder); + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + } + #endif + #ifdef MA_HAS_FLAC + if (result != MA_SUCCESS && ma_path_extension_equal(pFilePath, "flac")) { + result = ma_decoder_init_flac__internal(&config, pDecoder); + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + } + #endif + #ifdef MA_HAS_MP3 + if (result != MA_SUCCESS && ma_path_extension_equal(pFilePath, "mp3")) { + result = ma_decoder_init_mp3__internal(&config, pDecoder); + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + } + #endif + } + + /* If we still haven't got a result just use trial and error. Otherwise we can finish up. */ + if (result != MA_SUCCESS) { + result = ma_decoder_init__internal(ma_decoder__on_read_vfs, ma_decoder__on_seek_vfs, NULL, &config, pDecoder); + } else { + result = ma_decoder__postinit(&config, pDecoder); + } + + if (result != MA_SUCCESS) { + if (pDecoder->data.vfs.file != NULL) { /* <-- Will be reset to NULL if ma_decoder_uninit() is called in one of the steps above which allows us to avoid a double close of the file. */ + ma_vfs_or_default_close(pVFS, pDecoder->data.vfs.file); + } + + return result; + } + + return MA_SUCCESS; +} + + +static ma_result ma_decoder__preinit_vfs_w(ma_vfs* pVFS, const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_vfs_file file; + + result = ma_decoder__preinit(ma_decoder__on_read_vfs, ma_decoder__on_seek_vfs, ma_decoder__on_tell_vfs, NULL, pConfig, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + if (pFilePath == NULL || pFilePath[0] == '\0') { + return MA_INVALID_ARGS; + } + + result = ma_vfs_or_default_open_w(pVFS, pFilePath, MA_OPEN_MODE_READ, &file); + if (result != MA_SUCCESS) { + return result; + } + + pDecoder->data.vfs.pVFS = pVFS; + pDecoder->data.vfs.file = file; + + return MA_SUCCESS; +} + +MA_API ma_result ma_decoder_init_vfs_w(ma_vfs* pVFS, const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_decoder_config config; + + config = ma_decoder_config_init_copy(pConfig); + result = ma_decoder__preinit_vfs_w(pVFS, pFilePath, &config, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + result = MA_NO_BACKEND; + + if (config.encodingFormat != ma_encoding_format_unknown) { + #ifdef MA_HAS_WAV + if (config.encodingFormat == ma_encoding_format_wav) { + result = ma_decoder_init_wav__internal(&config, pDecoder); + } + #endif + #ifdef MA_HAS_FLAC + if (config.encodingFormat == ma_encoding_format_flac) { + result = ma_decoder_init_flac__internal(&config, pDecoder); + } + #endif + #ifdef MA_HAS_MP3 + if (config.encodingFormat == ma_encoding_format_mp3) { + result = ma_decoder_init_mp3__internal(&config, pDecoder); + } + #endif + #ifdef MA_HAS_VORBIS + if (config.encodingFormat == ma_encoding_format_vorbis) { + result = ma_decoder_init_vorbis__internal(&config, pDecoder); + } + #endif + + /* Make sure we seek back to the start if we didn't initialize a decoder successfully so the next attempts have a fresh start. */ + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + } + + if (result != MA_SUCCESS) { + /* Getting here means we weren't able to initialize a decoder of a specific encoding format. */ + + /* + We use trial and error to open a decoder. We prioritize custom decoders so that if they + implement the same encoding format they take priority over the built-in decoders. + */ + result = ma_decoder_init_custom__internal(&config, pDecoder); + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + + /* + If we get to this point and we still haven't found a decoder, and the caller has requested a + specific encoding format, there's no hope for it. Abort. + */ + if (config.encodingFormat != ma_encoding_format_unknown) { + return MA_NO_BACKEND; + } + + #ifdef MA_HAS_WAV + if (result != MA_SUCCESS && ma_path_extension_equal_w(pFilePath, L"wav")) { + result = ma_decoder_init_wav__internal(&config, pDecoder); + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + } + #endif + #ifdef MA_HAS_FLAC + if (result != MA_SUCCESS && ma_path_extension_equal_w(pFilePath, L"flac")) { + result = ma_decoder_init_flac__internal(&config, pDecoder); + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + } + #endif + #ifdef MA_HAS_MP3 + if (result != MA_SUCCESS && ma_path_extension_equal_w(pFilePath, L"mp3")) { + result = ma_decoder_init_mp3__internal(&config, pDecoder); + if (result != MA_SUCCESS) { + ma_decoder__on_seek_vfs(pDecoder, 0, ma_seek_origin_start); + } + } + #endif + } + + /* If we still haven't got a result just use trial and error. Otherwise we can finish up. */ + if (result != MA_SUCCESS) { + result = ma_decoder_init__internal(ma_decoder__on_read_vfs, ma_decoder__on_seek_vfs, NULL, &config, pDecoder); + } else { + result = ma_decoder__postinit(&config, pDecoder); + } + + if (result != MA_SUCCESS) { + ma_vfs_or_default_close(pVFS, pDecoder->data.vfs.file); + return result; + } + + return MA_SUCCESS; +} + + +static ma_result ma_decoder__preinit_file(const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + + result = ma_decoder__preinit(NULL, NULL, NULL, NULL, pConfig, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + if (pFilePath == NULL || pFilePath[0] == '\0') { + return MA_INVALID_ARGS; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_decoder_init_file(const char* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_decoder_config config; + + config = ma_decoder_config_init_copy(pConfig); + result = ma_decoder__preinit_file(pFilePath, &config, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + /* If the backend has support for loading from a file path we'll want to use that. If that all fails we'll fall back to the VFS path. */ + result = MA_NO_BACKEND; + + if (config.encodingFormat != ma_encoding_format_unknown) { + #ifdef MA_HAS_WAV + if (config.encodingFormat == ma_encoding_format_wav) { + result = ma_decoder_init_wav_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_FLAC + if (config.encodingFormat == ma_encoding_format_flac) { + result = ma_decoder_init_flac_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_MP3 + if (config.encodingFormat == ma_encoding_format_mp3) { + result = ma_decoder_init_mp3_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_VORBIS + if (config.encodingFormat == ma_encoding_format_vorbis) { + result = ma_decoder_init_vorbis_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + } + + if (result != MA_SUCCESS) { + /* Getting here means we weren't able to initialize a decoder of a specific encoding format. */ + + /* + We use trial and error to open a decoder. We prioritize custom decoders so that if they + implement the same encoding format they take priority over the built-in decoders. + */ + result = ma_decoder_init_custom_from_file__internal(pFilePath, &config, pDecoder); + + /* + If we get to this point and we still haven't found a decoder, and the caller has requested a + specific encoding format, there's no hope for it. Abort. + */ + if (result != MA_SUCCESS && config.encodingFormat != ma_encoding_format_unknown) { + return MA_NO_BACKEND; + } + + /* First try loading based on the file extension so we don't waste time opening and closing files. */ + #ifdef MA_HAS_WAV + if (result != MA_SUCCESS && ma_path_extension_equal(pFilePath, "wav")) { + result = ma_decoder_init_wav_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_FLAC + if (result != MA_SUCCESS && ma_path_extension_equal(pFilePath, "flac")) { + result = ma_decoder_init_flac_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_MP3 + if (result != MA_SUCCESS && ma_path_extension_equal(pFilePath, "mp3")) { + result = ma_decoder_init_mp3_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_VORBIS + if (result != MA_SUCCESS && ma_path_extension_equal(pFilePath, "ogg")) { + result = ma_decoder_init_vorbis_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + + /* + If we still haven't got a result just use trial and error. Custom decoders have already been attempted, so here we + need only iterate over our stock decoders. + */ + if (result != MA_SUCCESS) { + #ifdef MA_HAS_WAV + if (result != MA_SUCCESS) { + result = ma_decoder_init_wav_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_FLAC + if (result != MA_SUCCESS) { + result = ma_decoder_init_flac_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_MP3 + if (result != MA_SUCCESS) { + result = ma_decoder_init_mp3_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_VORBIS + if (result != MA_SUCCESS) { + result = ma_decoder_init_vorbis_from_file__internal(pFilePath, &config, pDecoder); + } + #endif + } + } + + /* + If at this point we still haven't successfully initialized the decoder it most likely means + the backend doesn't have an implementation for loading from a file path. We'll try using + miniaudio's built-in file IO for loading file. + */ + if (result == MA_SUCCESS) { + /* Initialization was successful. Finish up. */ + result = ma_decoder__postinit(&config, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + } else { + /* Probably no implementation for loading from a file path. Use miniaudio's file IO instead. */ + result = ma_decoder_init_vfs(NULL, pFilePath, pConfig, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + } + + return MA_SUCCESS; +} + +static ma_result ma_decoder__preinit_file_w(const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + + result = ma_decoder__preinit(NULL, NULL, NULL, NULL, pConfig, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + if (pFilePath == NULL || pFilePath[0] == '\0') { + return MA_INVALID_ARGS; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_decoder_init_file_w(const wchar_t* pFilePath, const ma_decoder_config* pConfig, ma_decoder* pDecoder) +{ + ma_result result; + ma_decoder_config config; + + config = ma_decoder_config_init_copy(pConfig); + result = ma_decoder__preinit_file_w(pFilePath, &config, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + + /* If the backend has support for loading from a file path we'll want to use that. If that all fails we'll fall back to the VFS path. */ + result = MA_NO_BACKEND; + + if (config.encodingFormat != ma_encoding_format_unknown) { + #ifdef MA_HAS_WAV + if (config.encodingFormat == ma_encoding_format_wav) { + result = ma_decoder_init_wav_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_FLAC + if (config.encodingFormat == ma_encoding_format_flac) { + result = ma_decoder_init_flac_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_MP3 + if (config.encodingFormat == ma_encoding_format_mp3) { + result = ma_decoder_init_mp3_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_VORBIS + if (config.encodingFormat == ma_encoding_format_vorbis) { + result = ma_decoder_init_vorbis_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + } + + if (result != MA_SUCCESS) { + /* Getting here means we weren't able to initialize a decoder of a specific encoding format. */ + + /* + We use trial and error to open a decoder. We prioritize custom decoders so that if they + implement the same encoding format they take priority over the built-in decoders. + */ + result = ma_decoder_init_custom_from_file_w__internal(pFilePath, &config, pDecoder); + + /* + If we get to this point and we still haven't found a decoder, and the caller has requested a + specific encoding format, there's no hope for it. Abort. + */ + if (result != MA_SUCCESS && config.encodingFormat != ma_encoding_format_unknown) { + return MA_NO_BACKEND; + } + + /* First try loading based on the file extension so we don't waste time opening and closing files. */ + #ifdef MA_HAS_WAV + if (result != MA_SUCCESS && ma_path_extension_equal_w(pFilePath, L"wav")) { + result = ma_decoder_init_wav_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_FLAC + if (result != MA_SUCCESS && ma_path_extension_equal_w(pFilePath, L"flac")) { + result = ma_decoder_init_flac_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_MP3 + if (result != MA_SUCCESS && ma_path_extension_equal_w(pFilePath, L"mp3")) { + result = ma_decoder_init_mp3_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_VORBIS + if (result != MA_SUCCESS && ma_path_extension_equal_w(pFilePath, L"ogg")) { + result = ma_decoder_init_vorbis_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + + /* + If we still haven't got a result just use trial and error. Custom decoders have already been attempted, so here we + need only iterate over our stock decoders. + */ + if (result != MA_SUCCESS) { + #ifdef MA_HAS_WAV + if (result != MA_SUCCESS) { + result = ma_decoder_init_wav_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_FLAC + if (result != MA_SUCCESS) { + result = ma_decoder_init_flac_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_MP3 + if (result != MA_SUCCESS) { + result = ma_decoder_init_mp3_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + #ifdef MA_HAS_VORBIS + if (result != MA_SUCCESS) { + result = ma_decoder_init_vorbis_from_file_w__internal(pFilePath, &config, pDecoder); + } + #endif + } + } + + /* + If at this point we still haven't successfully initialized the decoder it most likely means + the backend doesn't have an implementation for loading from a file path. We'll try using + miniaudio's built-in file IO for loading file. + */ + if (result == MA_SUCCESS) { + /* Initialization was successful. Finish up. */ + result = ma_decoder__postinit(&config, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + } else { + /* Probably no implementation for loading from a file path. Use miniaudio's file IO instead. */ + result = ma_decoder_init_vfs_w(NULL, pFilePath, pConfig, pDecoder); + if (result != MA_SUCCESS) { + return result; + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_decoder_uninit(ma_decoder* pDecoder) +{ + if (pDecoder == NULL) { + return MA_INVALID_ARGS; + } + + if (pDecoder->pBackend != NULL) { + if (pDecoder->pBackendVTable != NULL && pDecoder->pBackendVTable->onUninit != NULL) { + pDecoder->pBackendVTable->onUninit(pDecoder->pBackendUserData, pDecoder->pBackend, &pDecoder->allocationCallbacks); + } + } + + if (pDecoder->onRead == ma_decoder__on_read_vfs) { + ma_vfs_or_default_close(pDecoder->data.vfs.pVFS, pDecoder->data.vfs.file); + pDecoder->data.vfs.file = NULL; + } + + ma_data_converter_uninit(&pDecoder->converter, &pDecoder->allocationCallbacks); + ma_data_source_uninit(&pDecoder->ds); + + if (pDecoder->pInputCache != NULL) { + ma_free(pDecoder->pInputCache, &pDecoder->allocationCallbacks); + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_decoder_read_pcm_frames(ma_decoder* pDecoder, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_result result = MA_SUCCESS; + ma_uint64 totalFramesReadOut; + void* pRunningFramesOut; + + if (pFramesRead != NULL) { + *pFramesRead = 0; /* Safety. */ + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + if (pDecoder == NULL) { + return MA_INVALID_ARGS; + } + + if (pDecoder->pBackend == NULL) { + return MA_INVALID_OPERATION; + } + + /* Fast path. */ + if (pDecoder->converter.isPassthrough) { + result = ma_data_source_read_pcm_frames(pDecoder->pBackend, pFramesOut, frameCount, &totalFramesReadOut); + } else { + /* + Getting here means we need to do data conversion. If we're seeking forward and are _not_ doing resampling we can run this in a fast path. If we're doing resampling we + need to run through each sample because we need to ensure its internal cache is updated. + */ + if (pFramesOut == NULL && pDecoder->converter.hasResampler == MA_FALSE) { + result = ma_data_source_read_pcm_frames(pDecoder->pBackend, NULL, frameCount, &totalFramesReadOut); + } else { + /* Slow path. Need to run everything through the data converter. */ + ma_format internalFormat; + ma_uint32 internalChannels; + + totalFramesReadOut = 0; + pRunningFramesOut = pFramesOut; + + result = ma_data_source_get_data_format(pDecoder->pBackend, &internalFormat, &internalChannels, NULL, NULL, 0); + if (result != MA_SUCCESS) { + return result; /* Failed to retrieve the internal format and channel count. */ + } + + /* + We run a different path depending on whether or not we are using a heap-allocated + intermediary buffer or not. If the data converter does not support the calculation of + the required number of input frames, we'll use the heap-allocated path. Otherwise we'll + use the stack-allocated path. + */ + if (pDecoder->pInputCache != NULL) { + /* We don't have a way of determining the required number of input frames, so need to persistently store input data in a cache. */ + while (totalFramesReadOut < frameCount) { + ma_uint64 framesToReadThisIterationIn; + ma_uint64 framesToReadThisIterationOut; + + /* If there's any data available in the cache, that needs to get processed first. */ + if (pDecoder->inputCacheRemaining > 0) { + framesToReadThisIterationOut = (frameCount - totalFramesReadOut); + framesToReadThisIterationIn = framesToReadThisIterationOut; + if (framesToReadThisIterationIn > pDecoder->inputCacheRemaining) { + framesToReadThisIterationIn = pDecoder->inputCacheRemaining; + } + + result = ma_data_converter_process_pcm_frames(&pDecoder->converter, ma_offset_pcm_frames_ptr(pDecoder->pInputCache, pDecoder->inputCacheConsumed, internalFormat, internalChannels), &framesToReadThisIterationIn, pRunningFramesOut, &framesToReadThisIterationOut); + if (result != MA_SUCCESS) { + break; + } + + pDecoder->inputCacheConsumed += framesToReadThisIterationIn; + pDecoder->inputCacheRemaining -= framesToReadThisIterationIn; + + totalFramesReadOut += framesToReadThisIterationOut; + + if (pRunningFramesOut != NULL) { + pRunningFramesOut = ma_offset_ptr(pRunningFramesOut, framesToReadThisIterationOut * ma_get_bytes_per_frame(pDecoder->outputFormat, pDecoder->outputChannels)); + } + + if (framesToReadThisIterationIn == 0 && framesToReadThisIterationOut == 0) { + break; /* We're done. */ + } + } + + /* Getting here means there's no data in the cache and we need to fill it up from the data source. */ + if (pDecoder->inputCacheRemaining == 0) { + pDecoder->inputCacheConsumed = 0; + + result = ma_data_source_read_pcm_frames(pDecoder->pBackend, pDecoder->pInputCache, pDecoder->inputCacheCap, &pDecoder->inputCacheRemaining); + if (result != MA_SUCCESS) { + break; + } + } + } + } else { + /* We have a way of determining the required number of input frames so just use the stack. */ + while (totalFramesReadOut < frameCount) { + ma_uint8 pIntermediaryBuffer[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; /* In internal format. */ + ma_uint64 intermediaryBufferCap = sizeof(pIntermediaryBuffer) / ma_get_bytes_per_frame(internalFormat, internalChannels); + ma_uint64 framesToReadThisIterationIn; + ma_uint64 framesReadThisIterationIn; + ma_uint64 framesToReadThisIterationOut; + ma_uint64 framesReadThisIterationOut; + ma_uint64 requiredInputFrameCount; + + framesToReadThisIterationOut = (frameCount - totalFramesReadOut); + framesToReadThisIterationIn = framesToReadThisIterationOut; + if (framesToReadThisIterationIn > intermediaryBufferCap) { + framesToReadThisIterationIn = intermediaryBufferCap; + } + + ma_data_converter_get_required_input_frame_count(&pDecoder->converter, framesToReadThisIterationOut, &requiredInputFrameCount); + if (framesToReadThisIterationIn > requiredInputFrameCount) { + framesToReadThisIterationIn = requiredInputFrameCount; + } + + if (requiredInputFrameCount > 0) { + result = ma_data_source_read_pcm_frames(pDecoder->pBackend, pIntermediaryBuffer, framesToReadThisIterationIn, &framesReadThisIterationIn); + + /* + Note here that even if we've reached the end, we don't want to abort because there might be more output frames needing to be + generated from cached input data, which might happen if resampling is being performed. + */ + if (result != MA_SUCCESS && result != MA_AT_END) { + break; + } + } else { + framesReadThisIterationIn = 0; + pIntermediaryBuffer[0] = 0; /* <-- This is just to silence a static analysis warning. */ + } + + /* + At this point we have our decoded data in input format and now we need to convert to output format. Note that even if we didn't read any + input frames, we still want to try processing frames because there may some output frames generated from cached input data. + */ + framesReadThisIterationOut = framesToReadThisIterationOut; + result = ma_data_converter_process_pcm_frames(&pDecoder->converter, pIntermediaryBuffer, &framesReadThisIterationIn, pRunningFramesOut, &framesReadThisIterationOut); + if (result != MA_SUCCESS) { + break; + } + + totalFramesReadOut += framesReadThisIterationOut; + + if (pRunningFramesOut != NULL) { + pRunningFramesOut = ma_offset_ptr(pRunningFramesOut, framesReadThisIterationOut * ma_get_bytes_per_frame(pDecoder->outputFormat, pDecoder->outputChannels)); + } + + if (framesReadThisIterationIn == 0 && framesReadThisIterationOut == 0) { + break; /* We're done. */ + } + } + } + } + } + + pDecoder->readPointerInPCMFrames += totalFramesReadOut; + + if (pFramesRead != NULL) { + *pFramesRead = totalFramesReadOut; + } + + if (result == MA_SUCCESS && totalFramesReadOut == 0) { + result = MA_AT_END; + } + + return result; +} + +MA_API ma_result ma_decoder_seek_to_pcm_frame(ma_decoder* pDecoder, ma_uint64 frameIndex) +{ + if (pDecoder == NULL) { + return MA_INVALID_ARGS; + } + + if (pDecoder->pBackend != NULL) { + ma_result result; + ma_uint64 internalFrameIndex; + ma_uint32 internalSampleRate; + ma_uint64 currentFrameIndex; + + result = ma_data_source_get_data_format(pDecoder->pBackend, NULL, NULL, &internalSampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; /* Failed to retrieve the internal sample rate. */ + } + + if (internalSampleRate == pDecoder->outputSampleRate) { + internalFrameIndex = frameIndex; + } else { + internalFrameIndex = ma_calculate_frame_count_after_resampling(internalSampleRate, pDecoder->outputSampleRate, frameIndex); + } + + /* Only seek if we're requesting a different frame to what we're currently sitting on. */ + ma_data_source_get_cursor_in_pcm_frames(pDecoder->pBackend, ¤tFrameIndex); + if (currentFrameIndex != internalFrameIndex) { + result = ma_data_source_seek_to_pcm_frame(pDecoder->pBackend, internalFrameIndex); + if (result == MA_SUCCESS) { + pDecoder->readPointerInPCMFrames = frameIndex; + } + + /* Reset the data converter so that any cached data in the resampler is cleared. */ + ma_data_converter_reset(&pDecoder->converter); + } + + return result; + } + + /* Should never get here, but if we do it means onSeekToPCMFrame was not set by the backend. */ + return MA_INVALID_ARGS; +} + +MA_API ma_result ma_decoder_get_data_format(ma_decoder* pDecoder, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + if (pDecoder == NULL) { + return MA_INVALID_ARGS; + } + + if (pFormat != NULL) { + *pFormat = pDecoder->outputFormat; + } + + if (pChannels != NULL) { + *pChannels = pDecoder->outputChannels; + } + + if (pSampleRate != NULL) { + *pSampleRate = pDecoder->outputSampleRate; + } + + if (pChannelMap != NULL) { + ma_data_converter_get_output_channel_map(&pDecoder->converter, pChannelMap, channelMapCap); + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_decoder_get_cursor_in_pcm_frames(ma_decoder* pDecoder, ma_uint64* pCursor) +{ + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; + + if (pDecoder == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = pDecoder->readPointerInPCMFrames; + + return MA_SUCCESS; +} + +MA_API ma_result ma_decoder_get_length_in_pcm_frames(ma_decoder* pDecoder, ma_uint64* pLength) +{ + if (pLength == NULL) { + return MA_INVALID_ARGS; + } + + *pLength = 0; + + if (pDecoder == NULL) { + return MA_INVALID_ARGS; + } + + if (pDecoder->pBackend != NULL) { + ma_result result; + ma_uint64 internalLengthInPCMFrames; + ma_uint32 internalSampleRate; + + result = ma_data_source_get_length_in_pcm_frames(pDecoder->pBackend, &internalLengthInPCMFrames); + if (result != MA_SUCCESS) { + return result; /* Failed to retrieve the internal length. */ + } + + result = ma_data_source_get_data_format(pDecoder->pBackend, NULL, NULL, &internalSampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; /* Failed to retrieve the internal sample rate. */ + } + + if (internalSampleRate == pDecoder->outputSampleRate) { + *pLength = internalLengthInPCMFrames; + } else { + *pLength = ma_calculate_frame_count_after_resampling(pDecoder->outputSampleRate, internalSampleRate, internalLengthInPCMFrames); + } + + return MA_SUCCESS; + } else { + return MA_NO_BACKEND; + } +} + +MA_API ma_result ma_decoder_get_available_frames(ma_decoder* pDecoder, ma_uint64* pAvailableFrames) +{ + ma_result result; + ma_uint64 totalFrameCount; + + if (pAvailableFrames == NULL) { + return MA_INVALID_ARGS; + } + + *pAvailableFrames = 0; + + if (pDecoder == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_decoder_get_length_in_pcm_frames(pDecoder, &totalFrameCount); + if (result != MA_SUCCESS) { + return result; + } + + if (totalFrameCount <= pDecoder->readPointerInPCMFrames) { + *pAvailableFrames = 0; + } else { + *pAvailableFrames = totalFrameCount - pDecoder->readPointerInPCMFrames; + } + + return MA_SUCCESS; +} + + +static ma_result ma_decoder__full_decode_and_uninit(ma_decoder* pDecoder, ma_decoder_config* pConfigOut, ma_uint64* pFrameCountOut, void** ppPCMFramesOut) +{ + ma_result result; + ma_uint64 totalFrameCount; + ma_uint64 bpf; + ma_uint64 dataCapInFrames; + void* pPCMFramesOut; + + MA_ASSERT(pDecoder != NULL); + + totalFrameCount = 0; + bpf = ma_get_bytes_per_frame(pDecoder->outputFormat, pDecoder->outputChannels); + + /* The frame count is unknown until we try reading. Thus, we just run in a loop. */ + dataCapInFrames = 0; + pPCMFramesOut = NULL; + for (;;) { + ma_uint64 frameCountToTryReading; + ma_uint64 framesJustRead; + + /* Make room if there's not enough. */ + if (totalFrameCount == dataCapInFrames) { + void* pNewPCMFramesOut; + ma_uint64 newDataCapInFrames = dataCapInFrames*2; + if (newDataCapInFrames == 0) { + newDataCapInFrames = 4096; + } + + if ((newDataCapInFrames * bpf) > MA_SIZE_MAX) { + ma_free(pPCMFramesOut, &pDecoder->allocationCallbacks); + return MA_TOO_BIG; + } + + pNewPCMFramesOut = (void*)ma_realloc(pPCMFramesOut, (size_t)(newDataCapInFrames * bpf), &pDecoder->allocationCallbacks); + if (pNewPCMFramesOut == NULL) { + ma_free(pPCMFramesOut, &pDecoder->allocationCallbacks); + return MA_OUT_OF_MEMORY; + } + + dataCapInFrames = newDataCapInFrames; + pPCMFramesOut = pNewPCMFramesOut; + } + + frameCountToTryReading = dataCapInFrames - totalFrameCount; + MA_ASSERT(frameCountToTryReading > 0); + + result = ma_decoder_read_pcm_frames(pDecoder, (ma_uint8*)pPCMFramesOut + (totalFrameCount * bpf), frameCountToTryReading, &framesJustRead); + totalFrameCount += framesJustRead; + + if (result != MA_SUCCESS) { + break; + } + + if (framesJustRead < frameCountToTryReading) { + break; + } + } + + + if (pConfigOut != NULL) { + pConfigOut->format = pDecoder->outputFormat; + pConfigOut->channels = pDecoder->outputChannels; + pConfigOut->sampleRate = pDecoder->outputSampleRate; + } + + if (ppPCMFramesOut != NULL) { + *ppPCMFramesOut = pPCMFramesOut; + } else { + ma_free(pPCMFramesOut, &pDecoder->allocationCallbacks); + } + + if (pFrameCountOut != NULL) { + *pFrameCountOut = totalFrameCount; + } + + ma_decoder_uninit(pDecoder); + return MA_SUCCESS; +} + +MA_API ma_result ma_decode_from_vfs(ma_vfs* pVFS, const char* pFilePath, ma_decoder_config* pConfig, ma_uint64* pFrameCountOut, void** ppPCMFramesOut) +{ + ma_result result; + ma_decoder_config config; + ma_decoder decoder; + + if (pFrameCountOut != NULL) { + *pFrameCountOut = 0; + } + if (ppPCMFramesOut != NULL) { + *ppPCMFramesOut = NULL; + } + + config = ma_decoder_config_init_copy(pConfig); + + result = ma_decoder_init_vfs(pVFS, pFilePath, &config, &decoder); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_decoder__full_decode_and_uninit(&decoder, pConfig, pFrameCountOut, ppPCMFramesOut); + + return result; +} + +MA_API ma_result ma_decode_file(const char* pFilePath, ma_decoder_config* pConfig, ma_uint64* pFrameCountOut, void** ppPCMFramesOut) +{ + return ma_decode_from_vfs(NULL, pFilePath, pConfig, pFrameCountOut, ppPCMFramesOut); +} + +MA_API ma_result ma_decode_memory(const void* pData, size_t dataSize, ma_decoder_config* pConfig, ma_uint64* pFrameCountOut, void** ppPCMFramesOut) +{ + ma_decoder_config config; + ma_decoder decoder; + ma_result result; + + if (pFrameCountOut != NULL) { + *pFrameCountOut = 0; + } + if (ppPCMFramesOut != NULL) { + *ppPCMFramesOut = NULL; + } + + if (pData == NULL || dataSize == 0) { + return MA_INVALID_ARGS; + } + + config = ma_decoder_config_init_copy(pConfig); + + result = ma_decoder_init_memory(pData, dataSize, &config, &decoder); + if (result != MA_SUCCESS) { + return result; + } + + return ma_decoder__full_decode_and_uninit(&decoder, pConfig, pFrameCountOut, ppPCMFramesOut); +} +#endif /* MA_NO_DECODING */ + + +#ifndef MA_NO_ENCODING + +#if defined(MA_HAS_WAV) +static size_t ma_encoder__internal_on_write_wav(void* pUserData, const void* pData, size_t bytesToWrite) +{ + ma_encoder* pEncoder = (ma_encoder*)pUserData; + size_t bytesWritten = 0; + + MA_ASSERT(pEncoder != NULL); + + pEncoder->onWrite(pEncoder, pData, bytesToWrite, &bytesWritten); + return bytesWritten; +} + +static ma_bool32 ma_encoder__internal_on_seek_wav(void* pUserData, int offset, ma_dr_wav_seek_origin origin) +{ + ma_encoder* pEncoder = (ma_encoder*)pUserData; + ma_result result; + ma_seek_origin maSeekOrigin; + + MA_ASSERT(pEncoder != NULL); + + maSeekOrigin = ma_seek_origin_start; + if (origin == MA_DR_WAV_SEEK_CUR) { + maSeekOrigin = ma_seek_origin_current; + } else if (origin == MA_DR_WAV_SEEK_END) { + maSeekOrigin = ma_seek_origin_end; + } + + result = pEncoder->onSeek(pEncoder, offset, maSeekOrigin); + if (result != MA_SUCCESS) { + return MA_FALSE; + } else { + return MA_TRUE; + } +} + +static ma_result ma_encoder__on_init_wav(ma_encoder* pEncoder) +{ + ma_dr_wav_data_format wavFormat; + ma_allocation_callbacks allocationCallbacks; + ma_dr_wav* pWav; + + MA_ASSERT(pEncoder != NULL); + + pWav = (ma_dr_wav*)ma_malloc(sizeof(*pWav), &pEncoder->config.allocationCallbacks); + if (pWav == NULL) { + return MA_OUT_OF_MEMORY; + } + + wavFormat.container = ma_dr_wav_container_riff; + wavFormat.channels = pEncoder->config.channels; + wavFormat.sampleRate = pEncoder->config.sampleRate; + wavFormat.bitsPerSample = ma_get_bytes_per_sample(pEncoder->config.format) * 8; + if (pEncoder->config.format == ma_format_f32) { + wavFormat.format = MA_DR_WAVE_FORMAT_IEEE_FLOAT; + } else { + wavFormat.format = MA_DR_WAVE_FORMAT_PCM; + } + + allocationCallbacks.pUserData = pEncoder->config.allocationCallbacks.pUserData; + allocationCallbacks.onMalloc = pEncoder->config.allocationCallbacks.onMalloc; + allocationCallbacks.onRealloc = pEncoder->config.allocationCallbacks.onRealloc; + allocationCallbacks.onFree = pEncoder->config.allocationCallbacks.onFree; + + if (!ma_dr_wav_init_write(pWav, &wavFormat, ma_encoder__internal_on_write_wav, ma_encoder__internal_on_seek_wav, pEncoder, &allocationCallbacks)) { + return MA_ERROR; + } + + pEncoder->pInternalEncoder = pWav; + + return MA_SUCCESS; +} + +static void ma_encoder__on_uninit_wav(ma_encoder* pEncoder) +{ + ma_dr_wav* pWav; + + MA_ASSERT(pEncoder != NULL); + + pWav = (ma_dr_wav*)pEncoder->pInternalEncoder; + MA_ASSERT(pWav != NULL); + + ma_dr_wav_uninit(pWav); + ma_free(pWav, &pEncoder->config.allocationCallbacks); +} + +static ma_result ma_encoder__on_write_pcm_frames_wav(ma_encoder* pEncoder, const void* pFramesIn, ma_uint64 frameCount, ma_uint64* pFramesWritten) +{ + ma_dr_wav* pWav; + ma_uint64 framesWritten; + + MA_ASSERT(pEncoder != NULL); + + pWav = (ma_dr_wav*)pEncoder->pInternalEncoder; + MA_ASSERT(pWav != NULL); + + framesWritten = ma_dr_wav_write_pcm_frames(pWav, frameCount, pFramesIn); + + if (pFramesWritten != NULL) { + *pFramesWritten = framesWritten; + } + + return MA_SUCCESS; +} +#endif + +MA_API ma_encoder_config ma_encoder_config_init(ma_encoding_format encodingFormat, ma_format format, ma_uint32 channels, ma_uint32 sampleRate) +{ + ma_encoder_config config; + + MA_ZERO_OBJECT(&config); + config.encodingFormat = encodingFormat; + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + + return config; +} + +MA_API ma_result ma_encoder_preinit(const ma_encoder_config* pConfig, ma_encoder* pEncoder) +{ + ma_result result; + + if (pEncoder == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pEncoder); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->format == ma_format_unknown || pConfig->channels == 0 || pConfig->sampleRate == 0) { + return MA_INVALID_ARGS; + } + + pEncoder->config = *pConfig; + + result = ma_allocation_callbacks_init_copy(&pEncoder->config.allocationCallbacks, &pConfig->allocationCallbacks); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_encoder_init__internal(ma_encoder_write_proc onWrite, ma_encoder_seek_proc onSeek, void* pUserData, ma_encoder* pEncoder) +{ + ma_result result = MA_SUCCESS; + + /* This assumes ma_encoder_preinit() has been called prior. */ + MA_ASSERT(pEncoder != NULL); + + if (onWrite == NULL || onSeek == NULL) { + return MA_INVALID_ARGS; + } + + pEncoder->onWrite = onWrite; + pEncoder->onSeek = onSeek; + pEncoder->pUserData = pUserData; + + switch (pEncoder->config.encodingFormat) + { + case ma_encoding_format_wav: + { + #if defined(MA_HAS_WAV) + pEncoder->onInit = ma_encoder__on_init_wav; + pEncoder->onUninit = ma_encoder__on_uninit_wav; + pEncoder->onWritePCMFrames = ma_encoder__on_write_pcm_frames_wav; + #else + result = MA_NO_BACKEND; + #endif + } break; + + default: + { + result = MA_INVALID_ARGS; + } break; + } + + /* Getting here means we should have our backend callbacks set up. */ + if (result == MA_SUCCESS) { + result = pEncoder->onInit(pEncoder); + } + + return result; +} + +static ma_result ma_encoder__on_write_vfs(ma_encoder* pEncoder, const void* pBufferIn, size_t bytesToWrite, size_t* pBytesWritten) +{ + return ma_vfs_or_default_write(pEncoder->data.vfs.pVFS, pEncoder->data.vfs.file, pBufferIn, bytesToWrite, pBytesWritten); +} + +static ma_result ma_encoder__on_seek_vfs(ma_encoder* pEncoder, ma_int64 offset, ma_seek_origin origin) +{ + return ma_vfs_or_default_seek(pEncoder->data.vfs.pVFS, pEncoder->data.vfs.file, offset, origin); +} + +MA_API ma_result ma_encoder_init_vfs(ma_vfs* pVFS, const char* pFilePath, const ma_encoder_config* pConfig, ma_encoder* pEncoder) +{ + ma_result result; + ma_vfs_file file; + + result = ma_encoder_preinit(pConfig, pEncoder); + if (result != MA_SUCCESS) { + return result; + } + + /* Now open the file. If this fails we don't need to uninitialize the encoder. */ + result = ma_vfs_or_default_open(pVFS, pFilePath, MA_OPEN_MODE_WRITE, &file); + if (result != MA_SUCCESS) { + return result; + } + + pEncoder->data.vfs.pVFS = pVFS; + pEncoder->data.vfs.file = file; + + result = ma_encoder_init__internal(ma_encoder__on_write_vfs, ma_encoder__on_seek_vfs, NULL, pEncoder); + if (result != MA_SUCCESS) { + ma_vfs_or_default_close(pVFS, file); + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_encoder_init_vfs_w(ma_vfs* pVFS, const wchar_t* pFilePath, const ma_encoder_config* pConfig, ma_encoder* pEncoder) +{ + ma_result result; + ma_vfs_file file; + + result = ma_encoder_preinit(pConfig, pEncoder); + if (result != MA_SUCCESS) { + return result; + } + + /* Now open the file. If this fails we don't need to uninitialize the encoder. */ + result = ma_vfs_or_default_open_w(pVFS, pFilePath, MA_OPEN_MODE_WRITE, &file); + if (result != MA_SUCCESS) { + return result; + } + + pEncoder->data.vfs.pVFS = pVFS; + pEncoder->data.vfs.file = file; + + result = ma_encoder_init__internal(ma_encoder__on_write_vfs, ma_encoder__on_seek_vfs, NULL, pEncoder); + if (result != MA_SUCCESS) { + ma_vfs_or_default_close(pVFS, file); + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_encoder_init_file(const char* pFilePath, const ma_encoder_config* pConfig, ma_encoder* pEncoder) +{ + return ma_encoder_init_vfs(NULL, pFilePath, pConfig, pEncoder); +} + +MA_API ma_result ma_encoder_init_file_w(const wchar_t* pFilePath, const ma_encoder_config* pConfig, ma_encoder* pEncoder) +{ + return ma_encoder_init_vfs_w(NULL, pFilePath, pConfig, pEncoder); +} + +MA_API ma_result ma_encoder_init(ma_encoder_write_proc onWrite, ma_encoder_seek_proc onSeek, void* pUserData, const ma_encoder_config* pConfig, ma_encoder* pEncoder) +{ + ma_result result; + + result = ma_encoder_preinit(pConfig, pEncoder); + if (result != MA_SUCCESS) { + return result; + } + + return ma_encoder_init__internal(onWrite, onSeek, pUserData, pEncoder); +} + + +MA_API void ma_encoder_uninit(ma_encoder* pEncoder) +{ + if (pEncoder == NULL) { + return; + } + + if (pEncoder->onUninit) { + pEncoder->onUninit(pEncoder); + } + + /* If we have a file handle, close it. */ + if (pEncoder->onWrite == ma_encoder__on_write_vfs) { + ma_vfs_or_default_close(pEncoder->data.vfs.pVFS, pEncoder->data.vfs.file); + pEncoder->data.vfs.file = NULL; + } +} + + +MA_API ma_result ma_encoder_write_pcm_frames(ma_encoder* pEncoder, const void* pFramesIn, ma_uint64 frameCount, ma_uint64* pFramesWritten) +{ + if (pFramesWritten != NULL) { + *pFramesWritten = 0; + } + + if (pEncoder == NULL || pFramesIn == NULL) { + return MA_INVALID_ARGS; + } + + return pEncoder->onWritePCMFrames(pEncoder, pFramesIn, frameCount, pFramesWritten); +} +#endif /* MA_NO_ENCODING */ + + + +/************************************************************************************************************************************************************** + +Generation + +**************************************************************************************************************************************************************/ +#ifndef MA_NO_GENERATION +MA_API ma_waveform_config ma_waveform_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, ma_waveform_type type, double amplitude, double frequency) +{ + ma_waveform_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.type = type; + config.amplitude = amplitude; + config.frequency = frequency; + + return config; +} + +static ma_result ma_waveform__data_source_on_read(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + return ma_waveform_read_pcm_frames((ma_waveform*)pDataSource, pFramesOut, frameCount, pFramesRead); +} + +static ma_result ma_waveform__data_source_on_seek(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + return ma_waveform_seek_to_pcm_frame((ma_waveform*)pDataSource, frameIndex); +} + +static ma_result ma_waveform__data_source_on_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + ma_waveform* pWaveform = (ma_waveform*)pDataSource; + + *pFormat = pWaveform->config.format; + *pChannels = pWaveform->config.channels; + *pSampleRate = pWaveform->config.sampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, pWaveform->config.channels); + + return MA_SUCCESS; +} + +static ma_result ma_waveform__data_source_on_get_cursor(ma_data_source* pDataSource, ma_uint64* pCursor) +{ + ma_waveform* pWaveform = (ma_waveform*)pDataSource; + + *pCursor = (ma_uint64)(pWaveform->time / pWaveform->advance); + + return MA_SUCCESS; +} + +static double ma_waveform__calculate_advance(ma_uint32 sampleRate, double frequency) +{ + return (1.0 / (sampleRate / frequency)); +} + +static void ma_waveform__update_advance(ma_waveform* pWaveform) +{ + pWaveform->advance = ma_waveform__calculate_advance(pWaveform->config.sampleRate, pWaveform->config.frequency); +} + +static ma_data_source_vtable g_ma_waveform_data_source_vtable = +{ + ma_waveform__data_source_on_read, + ma_waveform__data_source_on_seek, + ma_waveform__data_source_on_get_data_format, + ma_waveform__data_source_on_get_cursor, + NULL, /* onGetLength. There's no notion of a length in waveforms. */ + NULL, /* onSetLooping */ + 0 +}; + +MA_API ma_result ma_waveform_init(const ma_waveform_config* pConfig, ma_waveform* pWaveform) +{ + ma_result result; + ma_data_source_config dataSourceConfig; + + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pWaveform); + + dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &g_ma_waveform_data_source_vtable; + + result = ma_data_source_init(&dataSourceConfig, &pWaveform->ds); + if (result != MA_SUCCESS) { + return result; + } + + pWaveform->config = *pConfig; + pWaveform->advance = ma_waveform__calculate_advance(pWaveform->config.sampleRate, pWaveform->config.frequency); + pWaveform->time = 0; + + return MA_SUCCESS; +} + +MA_API void ma_waveform_uninit(ma_waveform* pWaveform) +{ + if (pWaveform == NULL) { + return; + } + + ma_data_source_uninit(&pWaveform->ds); +} + +MA_API ma_result ma_waveform_set_amplitude(ma_waveform* pWaveform, double amplitude) +{ + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + pWaveform->config.amplitude = amplitude; + return MA_SUCCESS; +} + +MA_API ma_result ma_waveform_set_frequency(ma_waveform* pWaveform, double frequency) +{ + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + pWaveform->config.frequency = frequency; + ma_waveform__update_advance(pWaveform); + + return MA_SUCCESS; +} + +MA_API ma_result ma_waveform_set_type(ma_waveform* pWaveform, ma_waveform_type type) +{ + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + pWaveform->config.type = type; + return MA_SUCCESS; +} + +MA_API ma_result ma_waveform_set_sample_rate(ma_waveform* pWaveform, ma_uint32 sampleRate) +{ + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + pWaveform->config.sampleRate = sampleRate; + ma_waveform__update_advance(pWaveform); + + return MA_SUCCESS; +} + +static float ma_waveform_sine_f32(double time, double amplitude) +{ + return (float)(ma_sind(MA_TAU_D * time) * amplitude); +} + +static ma_int16 ma_waveform_sine_s16(double time, double amplitude) +{ + return ma_pcm_sample_f32_to_s16(ma_waveform_sine_f32(time, amplitude)); +} + +static float ma_waveform_square_f32(double time, double dutyCycle, double amplitude) +{ + double f = time - (ma_int64)time; + double r; + + if (f < dutyCycle) { + r = amplitude; + } else { + r = -amplitude; + } + + return (float)r; +} + +static ma_int16 ma_waveform_square_s16(double time, double dutyCycle, double amplitude) +{ + return ma_pcm_sample_f32_to_s16(ma_waveform_square_f32(time, dutyCycle, amplitude)); +} + +static float ma_waveform_triangle_f32(double time, double amplitude) +{ + double f = time - (ma_int64)time; + double r; + + r = 2 * ma_abs(2 * (f - 0.5)) - 1; + + return (float)(r * amplitude); +} + +static ma_int16 ma_waveform_triangle_s16(double time, double amplitude) +{ + return ma_pcm_sample_f32_to_s16(ma_waveform_triangle_f32(time, amplitude)); +} + +static float ma_waveform_sawtooth_f32(double time, double amplitude) +{ + double f = time - (ma_int64)time; + double r; + + r = 2 * (f - 0.5); + + return (float)(r * amplitude); +} + +static ma_int16 ma_waveform_sawtooth_s16(double time, double amplitude) +{ + return ma_pcm_sample_f32_to_s16(ma_waveform_sawtooth_f32(time, amplitude)); +} + +static void ma_waveform_read_pcm_frames__sine(ma_waveform* pWaveform, void* pFramesOut, ma_uint64 frameCount) +{ + ma_uint64 iFrame; + ma_uint64 iChannel; + ma_uint32 bps = ma_get_bytes_per_sample(pWaveform->config.format); + ma_uint32 bpf = bps * pWaveform->config.channels; + + MA_ASSERT(pWaveform != NULL); + MA_ASSERT(pFramesOut != NULL); + + if (pWaveform->config.format == ma_format_f32) { + float* pFramesOutF32 = (float*)pFramesOut; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_waveform_sine_f32(pWaveform->time, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + pFramesOutF32[iFrame*pWaveform->config.channels + iChannel] = s; + } + } + } else if (pWaveform->config.format == ma_format_s16) { + ma_int16* pFramesOutS16 = (ma_int16*)pFramesOut; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_int16 s = ma_waveform_sine_s16(pWaveform->time, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + pFramesOutS16[iFrame*pWaveform->config.channels + iChannel] = s; + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_waveform_sine_f32(pWaveform->time, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + ma_pcm_convert(ma_offset_ptr(pFramesOut, iFrame*bpf + iChannel*bps), pWaveform->config.format, &s, ma_format_f32, 1, ma_dither_mode_none); + } + } + } +} + +static void ma_waveform_read_pcm_frames__square(ma_waveform* pWaveform, double dutyCycle, void* pFramesOut, ma_uint64 frameCount) +{ + ma_uint64 iFrame; + ma_uint64 iChannel; + ma_uint32 bps = ma_get_bytes_per_sample(pWaveform->config.format); + ma_uint32 bpf = bps * pWaveform->config.channels; + + MA_ASSERT(pWaveform != NULL); + MA_ASSERT(pFramesOut != NULL); + + if (pWaveform->config.format == ma_format_f32) { + float* pFramesOutF32 = (float*)pFramesOut; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_waveform_square_f32(pWaveform->time, dutyCycle, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + pFramesOutF32[iFrame*pWaveform->config.channels + iChannel] = s; + } + } + } else if (pWaveform->config.format == ma_format_s16) { + ma_int16* pFramesOutS16 = (ma_int16*)pFramesOut; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_int16 s = ma_waveform_square_s16(pWaveform->time, dutyCycle, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + pFramesOutS16[iFrame*pWaveform->config.channels + iChannel] = s; + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_waveform_square_f32(pWaveform->time, dutyCycle, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + ma_pcm_convert(ma_offset_ptr(pFramesOut, iFrame*bpf + iChannel*bps), pWaveform->config.format, &s, ma_format_f32, 1, ma_dither_mode_none); + } + } + } +} + +static void ma_waveform_read_pcm_frames__triangle(ma_waveform* pWaveform, void* pFramesOut, ma_uint64 frameCount) +{ + ma_uint64 iFrame; + ma_uint64 iChannel; + ma_uint32 bps = ma_get_bytes_per_sample(pWaveform->config.format); + ma_uint32 bpf = bps * pWaveform->config.channels; + + MA_ASSERT(pWaveform != NULL); + MA_ASSERT(pFramesOut != NULL); + + if (pWaveform->config.format == ma_format_f32) { + float* pFramesOutF32 = (float*)pFramesOut; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_waveform_triangle_f32(pWaveform->time, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + pFramesOutF32[iFrame*pWaveform->config.channels + iChannel] = s; + } + } + } else if (pWaveform->config.format == ma_format_s16) { + ma_int16* pFramesOutS16 = (ma_int16*)pFramesOut; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_int16 s = ma_waveform_triangle_s16(pWaveform->time, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + pFramesOutS16[iFrame*pWaveform->config.channels + iChannel] = s; + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_waveform_triangle_f32(pWaveform->time, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + ma_pcm_convert(ma_offset_ptr(pFramesOut, iFrame*bpf + iChannel*bps), pWaveform->config.format, &s, ma_format_f32, 1, ma_dither_mode_none); + } + } + } +} + +static void ma_waveform_read_pcm_frames__sawtooth(ma_waveform* pWaveform, void* pFramesOut, ma_uint64 frameCount) +{ + ma_uint64 iFrame; + ma_uint64 iChannel; + ma_uint32 bps = ma_get_bytes_per_sample(pWaveform->config.format); + ma_uint32 bpf = bps * pWaveform->config.channels; + + MA_ASSERT(pWaveform != NULL); + MA_ASSERT(pFramesOut != NULL); + + if (pWaveform->config.format == ma_format_f32) { + float* pFramesOutF32 = (float*)pFramesOut; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_waveform_sawtooth_f32(pWaveform->time, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + pFramesOutF32[iFrame*pWaveform->config.channels + iChannel] = s; + } + } + } else if (pWaveform->config.format == ma_format_s16) { + ma_int16* pFramesOutS16 = (ma_int16*)pFramesOut; + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_int16 s = ma_waveform_sawtooth_s16(pWaveform->time, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + pFramesOutS16[iFrame*pWaveform->config.channels + iChannel] = s; + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_waveform_sawtooth_f32(pWaveform->time, pWaveform->config.amplitude); + pWaveform->time += pWaveform->advance; + + for (iChannel = 0; iChannel < pWaveform->config.channels; iChannel += 1) { + ma_pcm_convert(ma_offset_ptr(pFramesOut, iFrame*bpf + iChannel*bps), pWaveform->config.format, &s, ma_format_f32, 1, ma_dither_mode_none); + } + } + } +} + +MA_API ma_result ma_waveform_read_pcm_frames(ma_waveform* pWaveform, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + if (pFramesOut != NULL) { + switch (pWaveform->config.type) + { + case ma_waveform_type_sine: + { + ma_waveform_read_pcm_frames__sine(pWaveform, pFramesOut, frameCount); + } break; + + case ma_waveform_type_square: + { + ma_waveform_read_pcm_frames__square(pWaveform, 0.5, pFramesOut, frameCount); + } break; + + case ma_waveform_type_triangle: + { + ma_waveform_read_pcm_frames__triangle(pWaveform, pFramesOut, frameCount); + } break; + + case ma_waveform_type_sawtooth: + { + ma_waveform_read_pcm_frames__sawtooth(pWaveform, pFramesOut, frameCount); + } break; + + default: return MA_INVALID_OPERATION; /* Unknown waveform type. */ + } + } else { + pWaveform->time += pWaveform->advance * (ma_int64)frameCount; /* Cast to int64 required for VC6. Won't affect anything in practice. */ + } + + if (pFramesRead != NULL) { + *pFramesRead = frameCount; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_waveform_seek_to_pcm_frame(ma_waveform* pWaveform, ma_uint64 frameIndex) +{ + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + pWaveform->time = pWaveform->advance * (ma_int64)frameIndex; /* Casting for VC6. Won't be an issue in practice. */ + + return MA_SUCCESS; +} + +MA_API ma_pulsewave_config ma_pulsewave_config_init(ma_format format, ma_uint32 channels, ma_uint32 sampleRate, double dutyCycle, double amplitude, double frequency) +{ + ma_pulsewave_config config; + + MA_ZERO_OBJECT(&config); + config.format = format; + config.channels = channels; + config.sampleRate = sampleRate; + config.dutyCycle = dutyCycle; + config.amplitude = amplitude; + config.frequency = frequency; + + return config; +} + +MA_API ma_result ma_pulsewave_init(const ma_pulsewave_config* pConfig, ma_pulsewave* pWaveform) +{ + ma_result result; + ma_waveform_config config; + + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pWaveform); + + config = ma_waveform_config_init( + pConfig->format, + pConfig->channels, + pConfig->sampleRate, + ma_waveform_type_square, + pConfig->amplitude, + pConfig->frequency + ); + + result = ma_waveform_init(&config, &pWaveform->waveform); + ma_pulsewave_set_duty_cycle(pWaveform, pConfig->dutyCycle); + + return result; +} + +MA_API void ma_pulsewave_uninit(ma_pulsewave* pWaveform) +{ + if (pWaveform == NULL) { + return; + } + + ma_waveform_uninit(&pWaveform->waveform); +} + +MA_API ma_result ma_pulsewave_read_pcm_frames(ma_pulsewave* pWaveform, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + if (pFramesOut != NULL) { + ma_waveform_read_pcm_frames__square(&pWaveform->waveform, pWaveform->config.dutyCycle, pFramesOut, frameCount); + } else { + pWaveform->waveform.time += pWaveform->waveform.advance * (ma_int64)frameCount; /* Cast to int64 required for VC6. Won't affect anything in practice. */ + } + + if (pFramesRead != NULL) { + *pFramesRead = frameCount; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_pulsewave_seek_to_pcm_frame(ma_pulsewave* pWaveform, ma_uint64 frameIndex) +{ + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + ma_waveform_seek_to_pcm_frame(&pWaveform->waveform, frameIndex); + + return MA_SUCCESS; +} + +MA_API ma_result ma_pulsewave_set_amplitude(ma_pulsewave* pWaveform, double amplitude) +{ + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + pWaveform->config.amplitude = amplitude; + ma_waveform_set_amplitude(&pWaveform->waveform, amplitude); + + return MA_SUCCESS; +} + +MA_API ma_result ma_pulsewave_set_frequency(ma_pulsewave* pWaveform, double frequency) +{ + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + pWaveform->config.frequency = frequency; + ma_waveform_set_frequency(&pWaveform->waveform, frequency); + + return MA_SUCCESS; +} + +MA_API ma_result ma_pulsewave_set_sample_rate(ma_pulsewave* pWaveform, ma_uint32 sampleRate) +{ + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + pWaveform->config.sampleRate = sampleRate; + ma_waveform_set_sample_rate(&pWaveform->waveform, sampleRate); + + return MA_SUCCESS; +} + +MA_API ma_result ma_pulsewave_set_duty_cycle(ma_pulsewave* pWaveform, double dutyCycle) +{ + if (pWaveform == NULL) { + return MA_INVALID_ARGS; + } + + pWaveform->config.dutyCycle = dutyCycle; + + return MA_SUCCESS; +} + + + +MA_API ma_noise_config ma_noise_config_init(ma_format format, ma_uint32 channels, ma_noise_type type, ma_int32 seed, double amplitude) +{ + ma_noise_config config; + MA_ZERO_OBJECT(&config); + + config.format = format; + config.channels = channels; + config.type = type; + config.seed = seed; + config.amplitude = amplitude; + + if (config.seed == 0) { + config.seed = MA_DEFAULT_LCG_SEED; + } + + return config; +} + + +static ma_result ma_noise__data_source_on_read(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + return ma_noise_read_pcm_frames((ma_noise*)pDataSource, pFramesOut, frameCount, pFramesRead); +} + +static ma_result ma_noise__data_source_on_seek(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + /* No-op. Just pretend to be successful. */ + (void)pDataSource; + (void)frameIndex; + return MA_SUCCESS; +} + +static ma_result ma_noise__data_source_on_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + ma_noise* pNoise = (ma_noise*)pDataSource; + + *pFormat = pNoise->config.format; + *pChannels = pNoise->config.channels; + *pSampleRate = 0; /* There is no notion of sample rate with noise generation. */ + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, pNoise->config.channels); + + return MA_SUCCESS; +} + +static ma_data_source_vtable g_ma_noise_data_source_vtable = +{ + ma_noise__data_source_on_read, + ma_noise__data_source_on_seek, /* No-op for noise. */ + ma_noise__data_source_on_get_data_format, + NULL, /* onGetCursor. No notion of a cursor for noise. */ + NULL, /* onGetLength. No notion of a length for noise. */ + NULL, /* onSetLooping */ + 0 +}; + + +#ifndef MA_PINK_NOISE_BIN_SIZE +#define MA_PINK_NOISE_BIN_SIZE 16 +#endif + +typedef struct +{ + size_t sizeInBytes; + struct + { + size_t binOffset; + size_t accumulationOffset; + size_t counterOffset; + } pink; + struct + { + size_t accumulationOffset; + } brownian; +} ma_noise_heap_layout; + +static ma_result ma_noise_get_heap_layout(const ma_noise_config* pConfig, ma_noise_heap_layout* pHeapLayout) +{ + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->channels == 0) { + return MA_INVALID_ARGS; + } + + pHeapLayout->sizeInBytes = 0; + + /* Pink. */ + if (pConfig->type == ma_noise_type_pink) { + /* bin */ + pHeapLayout->pink.binOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += sizeof(double*) * pConfig->channels; + pHeapLayout->sizeInBytes += sizeof(double ) * pConfig->channels * MA_PINK_NOISE_BIN_SIZE; + + /* accumulation */ + pHeapLayout->pink.accumulationOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += sizeof(double) * pConfig->channels; + + /* counter */ + pHeapLayout->pink.counterOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += sizeof(ma_uint32) * pConfig->channels; + } + + /* Brownian. */ + if (pConfig->type == ma_noise_type_brownian) { + /* accumulation */ + pHeapLayout->brownian.accumulationOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += sizeof(double) * pConfig->channels; + } + + /* Make sure allocation size is aligned. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + +MA_API ma_result ma_noise_get_heap_size(const ma_noise_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_noise_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_noise_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_noise_init_preallocated(const ma_noise_config* pConfig, void* pHeap, ma_noise* pNoise) +{ + ma_result result; + ma_noise_heap_layout heapLayout; + ma_data_source_config dataSourceConfig; + ma_uint32 iChannel; + + if (pNoise == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pNoise); + + result = ma_noise_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pNoise->_pHeap = pHeap; + MA_ZERO_MEMORY(pNoise->_pHeap, heapLayout.sizeInBytes); + + dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &g_ma_noise_data_source_vtable; + + result = ma_data_source_init(&dataSourceConfig, &pNoise->ds); + if (result != MA_SUCCESS) { + return result; + } + + pNoise->config = *pConfig; + ma_lcg_seed(&pNoise->lcg, pConfig->seed); + + if (pNoise->config.type == ma_noise_type_pink) { + pNoise->state.pink.bin = (double** )ma_offset_ptr(pHeap, heapLayout.pink.binOffset); + pNoise->state.pink.accumulation = (double* )ma_offset_ptr(pHeap, heapLayout.pink.accumulationOffset); + pNoise->state.pink.counter = (ma_uint32*)ma_offset_ptr(pHeap, heapLayout.pink.counterOffset); + + for (iChannel = 0; iChannel < pConfig->channels; iChannel += 1) { + pNoise->state.pink.bin[iChannel] = (double*)ma_offset_ptr(pHeap, heapLayout.pink.binOffset + (sizeof(double*) * pConfig->channels) + (sizeof(double) * MA_PINK_NOISE_BIN_SIZE * iChannel)); + pNoise->state.pink.accumulation[iChannel] = 0; + pNoise->state.pink.counter[iChannel] = 1; + } + } + + if (pNoise->config.type == ma_noise_type_brownian) { + pNoise->state.brownian.accumulation = (double*)ma_offset_ptr(pHeap, heapLayout.brownian.accumulationOffset); + + for (iChannel = 0; iChannel < pConfig->channels; iChannel += 1) { + pNoise->state.brownian.accumulation[iChannel] = 0; + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_noise_init(const ma_noise_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_noise* pNoise) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_noise_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_noise_init_preallocated(pConfig, pHeap, pNoise); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pNoise->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_noise_uninit(ma_noise* pNoise, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pNoise == NULL) { + return; + } + + ma_data_source_uninit(&pNoise->ds); + + if (pNoise->_ownsHeap) { + ma_free(pNoise->_pHeap, pAllocationCallbacks); + } +} + +MA_API ma_result ma_noise_set_amplitude(ma_noise* pNoise, double amplitude) +{ + if (pNoise == NULL) { + return MA_INVALID_ARGS; + } + + pNoise->config.amplitude = amplitude; + return MA_SUCCESS; +} + +MA_API ma_result ma_noise_set_seed(ma_noise* pNoise, ma_int32 seed) +{ + if (pNoise == NULL) { + return MA_INVALID_ARGS; + } + + pNoise->lcg.state = seed; + return MA_SUCCESS; +} + + +MA_API ma_result ma_noise_set_type(ma_noise* pNoise, ma_noise_type type) +{ + if (pNoise == NULL) { + return MA_INVALID_ARGS; + } + + /* + This function should never have been implemented in the first place. Changing the type dynamically is not + supported. Instead you need to uninitialize and reinitialize a fresh `ma_noise` object. This function + will be removed in version 0.12. + */ + MA_ASSERT(MA_FALSE); + (void)type; + + return MA_INVALID_OPERATION; +} + +static MA_INLINE float ma_noise_f32_white(ma_noise* pNoise) +{ + return (float)(ma_lcg_rand_f64(&pNoise->lcg) * pNoise->config.amplitude); +} + +static MA_INLINE ma_int16 ma_noise_s16_white(ma_noise* pNoise) +{ + return ma_pcm_sample_f32_to_s16(ma_noise_f32_white(pNoise)); +} + +static MA_INLINE ma_uint64 ma_noise_read_pcm_frames__white(ma_noise* pNoise, void* pFramesOut, ma_uint64 frameCount) +{ + ma_uint64 iFrame; + ma_uint32 iChannel; + const ma_uint32 channels = pNoise->config.channels; + MA_ASSUME(channels > 0); + + if (pNoise->config.format == ma_format_f32) { + float* pFramesOutF32 = (float*)pFramesOut; + if (pNoise->config.duplicateChannels) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_noise_f32_white(pNoise); + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutF32[iFrame*channels + iChannel] = s; + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutF32[iFrame*channels + iChannel] = ma_noise_f32_white(pNoise); + } + } + } + } else if (pNoise->config.format == ma_format_s16) { + ma_int16* pFramesOutS16 = (ma_int16*)pFramesOut; + if (pNoise->config.duplicateChannels) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_int16 s = ma_noise_s16_white(pNoise); + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutS16[iFrame*channels + iChannel] = s; + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutS16[iFrame*channels + iChannel] = ma_noise_s16_white(pNoise); + } + } + } + } else { + const ma_uint32 bps = ma_get_bytes_per_sample(pNoise->config.format); + const ma_uint32 bpf = bps * channels; + + if (pNoise->config.duplicateChannels) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_noise_f32_white(pNoise); + for (iChannel = 0; iChannel < channels; iChannel += 1) { + ma_pcm_convert(ma_offset_ptr(pFramesOut, iFrame*bpf + iChannel*bps), pNoise->config.format, &s, ma_format_f32, 1, ma_dither_mode_none); + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < channels; iChannel += 1) { + float s = ma_noise_f32_white(pNoise); + ma_pcm_convert(ma_offset_ptr(pFramesOut, iFrame*bpf + iChannel*bps), pNoise->config.format, &s, ma_format_f32, 1, ma_dither_mode_none); + } + } + } + } + + return frameCount; +} + + +static MA_INLINE unsigned int ma_tzcnt32(unsigned int x) +{ + unsigned int n; + + /* Special case for odd numbers since they should happen about half the time. */ + if (x & 0x1) { + return 0; + } + + if (x == 0) { + return sizeof(x) << 3; + } + + n = 1; + if ((x & 0x0000FFFF) == 0) { x >>= 16; n += 16; } + if ((x & 0x000000FF) == 0) { x >>= 8; n += 8; } + if ((x & 0x0000000F) == 0) { x >>= 4; n += 4; } + if ((x & 0x00000003) == 0) { x >>= 2; n += 2; } + n -= x & 0x00000001; + + return n; +} + +/* +Pink noise generation based on Tonic (public domain) with modifications. https://github.com/TonicAudio/Tonic/blob/master/src/Tonic/Noise.h + +This is basically _the_ reference for pink noise from what I've found: http://www.firstpr.com.au/dsp/pink-noise/ +*/ +static MA_INLINE float ma_noise_f32_pink(ma_noise* pNoise, ma_uint32 iChannel) +{ + double result; + double binPrev; + double binNext; + unsigned int ibin; + + ibin = ma_tzcnt32(pNoise->state.pink.counter[iChannel]) & (MA_PINK_NOISE_BIN_SIZE - 1); + + binPrev = pNoise->state.pink.bin[iChannel][ibin]; + binNext = ma_lcg_rand_f64(&pNoise->lcg); + pNoise->state.pink.bin[iChannel][ibin] = binNext; + + pNoise->state.pink.accumulation[iChannel] += (binNext - binPrev); + pNoise->state.pink.counter[iChannel] += 1; + + result = (ma_lcg_rand_f64(&pNoise->lcg) + pNoise->state.pink.accumulation[iChannel]); + result /= 10; + + return (float)(result * pNoise->config.amplitude); +} + +static MA_INLINE ma_int16 ma_noise_s16_pink(ma_noise* pNoise, ma_uint32 iChannel) +{ + return ma_pcm_sample_f32_to_s16(ma_noise_f32_pink(pNoise, iChannel)); +} + +static MA_INLINE ma_uint64 ma_noise_read_pcm_frames__pink(ma_noise* pNoise, void* pFramesOut, ma_uint64 frameCount) +{ + ma_uint64 iFrame; + ma_uint32 iChannel; + const ma_uint32 channels = pNoise->config.channels; + MA_ASSUME(channels > 0); + + if (pNoise->config.format == ma_format_f32) { + float* pFramesOutF32 = (float*)pFramesOut; + if (pNoise->config.duplicateChannels) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_noise_f32_pink(pNoise, 0); + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutF32[iFrame*channels + iChannel] = s; + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutF32[iFrame*channels + iChannel] = ma_noise_f32_pink(pNoise, iChannel); + } + } + } + } else if (pNoise->config.format == ma_format_s16) { + ma_int16* pFramesOutS16 = (ma_int16*)pFramesOut; + if (pNoise->config.duplicateChannels) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_int16 s = ma_noise_s16_pink(pNoise, 0); + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutS16[iFrame*channels + iChannel] = s; + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutS16[iFrame*channels + iChannel] = ma_noise_s16_pink(pNoise, iChannel); + } + } + } + } else { + const ma_uint32 bps = ma_get_bytes_per_sample(pNoise->config.format); + const ma_uint32 bpf = bps * channels; + + if (pNoise->config.duplicateChannels) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_noise_f32_pink(pNoise, 0); + for (iChannel = 0; iChannel < channels; iChannel += 1) { + ma_pcm_convert(ma_offset_ptr(pFramesOut, iFrame*bpf + iChannel*bps), pNoise->config.format, &s, ma_format_f32, 1, ma_dither_mode_none); + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < channels; iChannel += 1) { + float s = ma_noise_f32_pink(pNoise, iChannel); + ma_pcm_convert(ma_offset_ptr(pFramesOut, iFrame*bpf + iChannel*bps), pNoise->config.format, &s, ma_format_f32, 1, ma_dither_mode_none); + } + } + } + } + + return frameCount; +} + + +static MA_INLINE float ma_noise_f32_brownian(ma_noise* pNoise, ma_uint32 iChannel) +{ + double result; + + result = (ma_lcg_rand_f64(&pNoise->lcg) + pNoise->state.brownian.accumulation[iChannel]); + result /= 1.005; /* Don't escape the -1..1 range on average. */ + + pNoise->state.brownian.accumulation[iChannel] = result; + result /= 20; + + return (float)(result * pNoise->config.amplitude); +} + +static MA_INLINE ma_int16 ma_noise_s16_brownian(ma_noise* pNoise, ma_uint32 iChannel) +{ + return ma_pcm_sample_f32_to_s16(ma_noise_f32_brownian(pNoise, iChannel)); +} + +static MA_INLINE ma_uint64 ma_noise_read_pcm_frames__brownian(ma_noise* pNoise, void* pFramesOut, ma_uint64 frameCount) +{ + ma_uint64 iFrame; + ma_uint32 iChannel; + const ma_uint32 channels = pNoise->config.channels; + MA_ASSUME(channels > 0); + + if (pNoise->config.format == ma_format_f32) { + float* pFramesOutF32 = (float*)pFramesOut; + if (pNoise->config.duplicateChannels) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_noise_f32_brownian(pNoise, 0); + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutF32[iFrame*channels + iChannel] = s; + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutF32[iFrame*channels + iChannel] = ma_noise_f32_brownian(pNoise, iChannel); + } + } + } + } else if (pNoise->config.format == ma_format_s16) { + ma_int16* pFramesOutS16 = (ma_int16*)pFramesOut; + if (pNoise->config.duplicateChannels) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + ma_int16 s = ma_noise_s16_brownian(pNoise, 0); + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutS16[iFrame*channels + iChannel] = s; + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < channels; iChannel += 1) { + pFramesOutS16[iFrame*channels + iChannel] = ma_noise_s16_brownian(pNoise, iChannel); + } + } + } + } else { + const ma_uint32 bps = ma_get_bytes_per_sample(pNoise->config.format); + const ma_uint32 bpf = bps * channels; + + if (pNoise->config.duplicateChannels) { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + float s = ma_noise_f32_brownian(pNoise, 0); + for (iChannel = 0; iChannel < channels; iChannel += 1) { + ma_pcm_convert(ma_offset_ptr(pFramesOut, iFrame*bpf + iChannel*bps), pNoise->config.format, &s, ma_format_f32, 1, ma_dither_mode_none); + } + } + } else { + for (iFrame = 0; iFrame < frameCount; iFrame += 1) { + for (iChannel = 0; iChannel < channels; iChannel += 1) { + float s = ma_noise_f32_brownian(pNoise, iChannel); + ma_pcm_convert(ma_offset_ptr(pFramesOut, iFrame*bpf + iChannel*bps), pNoise->config.format, &s, ma_format_f32, 1, ma_dither_mode_none); + } + } + } + } + + return frameCount; +} + +MA_API ma_result ma_noise_read_pcm_frames(ma_noise* pNoise, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_uint64 framesRead = 0; + + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + if (pNoise == NULL) { + return MA_INVALID_ARGS; + } + + /* The output buffer is allowed to be NULL. Since we aren't tracking cursors or anything we can just do nothing and pretend to be successful. */ + if (pFramesOut == NULL) { + framesRead = frameCount; + } else { + switch (pNoise->config.type) { + case ma_noise_type_white: framesRead = ma_noise_read_pcm_frames__white (pNoise, pFramesOut, frameCount); break; + case ma_noise_type_pink: framesRead = ma_noise_read_pcm_frames__pink (pNoise, pFramesOut, frameCount); break; + case ma_noise_type_brownian: framesRead = ma_noise_read_pcm_frames__brownian(pNoise, pFramesOut, frameCount); break; + default: return MA_INVALID_OPERATION; /* Unknown noise type. */ + } + } + + if (pFramesRead != NULL) { + *pFramesRead = framesRead; + } + + return MA_SUCCESS; +} +#endif /* MA_NO_GENERATION */ + + + +#ifndef MA_NO_RESOURCE_MANAGER +#ifndef MA_RESOURCE_MANAGER_PAGE_SIZE_IN_MILLISECONDS +#define MA_RESOURCE_MANAGER_PAGE_SIZE_IN_MILLISECONDS 1000 +#endif + +#ifndef MA_JOB_TYPE_RESOURCE_MANAGER_QUEUE_CAPACITY +#define MA_JOB_TYPE_RESOURCE_MANAGER_QUEUE_CAPACITY 1024 +#endif + +MA_API ma_resource_manager_pipeline_notifications ma_resource_manager_pipeline_notifications_init(void) +{ + ma_resource_manager_pipeline_notifications notifications; + + MA_ZERO_OBJECT(¬ifications); + + return notifications; +} + +static void ma_resource_manager_pipeline_notifications_signal_all_notifications(const ma_resource_manager_pipeline_notifications* pPipelineNotifications) +{ + if (pPipelineNotifications == NULL) { + return; + } + + if (pPipelineNotifications->init.pNotification) { ma_async_notification_signal(pPipelineNotifications->init.pNotification); } + if (pPipelineNotifications->done.pNotification) { ma_async_notification_signal(pPipelineNotifications->done.pNotification); } +} + +static void ma_resource_manager_pipeline_notifications_acquire_all_fences(const ma_resource_manager_pipeline_notifications* pPipelineNotifications) +{ + if (pPipelineNotifications == NULL) { + return; + } + + if (pPipelineNotifications->init.pFence != NULL) { ma_fence_acquire(pPipelineNotifications->init.pFence); } + if (pPipelineNotifications->done.pFence != NULL) { ma_fence_acquire(pPipelineNotifications->done.pFence); } +} + +static void ma_resource_manager_pipeline_notifications_release_all_fences(const ma_resource_manager_pipeline_notifications* pPipelineNotifications) +{ + if (pPipelineNotifications == NULL) { + return; + } + + if (pPipelineNotifications->init.pFence != NULL) { ma_fence_release(pPipelineNotifications->init.pFence); } + if (pPipelineNotifications->done.pFence != NULL) { ma_fence_release(pPipelineNotifications->done.pFence); } +} + + + +#ifndef MA_DEFAULT_HASH_SEED +#define MA_DEFAULT_HASH_SEED 42 +#endif + +/* MurmurHash3. Based on code from https://github.com/PeterScott/murmur3/blob/master/murmur3.c (public domain). */ +#if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))) + #pragma GCC diagnostic push + #if __GNUC__ >= 7 + #pragma GCC diagnostic ignored "-Wimplicit-fallthrough" + #endif +#endif + +static MA_INLINE ma_uint32 ma_rotl32(ma_uint32 x, ma_int8 r) +{ + return (x << r) | (x >> (32 - r)); +} + +static MA_INLINE ma_uint32 ma_hash_getblock(const ma_uint32* blocks, int i) +{ + ma_uint32 block; + + /* Try silencing a sanitization warning about unaligned access by doing a memcpy() instead of assignment. */ + MA_COPY_MEMORY(&block, ma_offset_ptr(blocks, i * (int) sizeof(block)), sizeof(block)); + + if (ma_is_little_endian()) { + return block; + } else { + return ma_swap_endian_uint32(block); + } +} + +static MA_INLINE ma_uint32 ma_hash_fmix32(ma_uint32 h) +{ + h ^= h >> 16; + h *= 0x85ebca6b; + h ^= h >> 13; + h *= 0xc2b2ae35; + h ^= h >> 16; + + return h; +} + +static ma_uint32 ma_hash_32(const void* key, int len, ma_uint32 seed) +{ + const ma_uint8* data = (const ma_uint8*)key; + const ma_uint32* blocks; + const ma_uint8* tail; + const int nblocks = len / 4; + ma_uint32 h1 = seed; + ma_uint32 c1 = 0xcc9e2d51; + ma_uint32 c2 = 0x1b873593; + ma_uint32 k1; + int i; + + blocks = (const ma_uint32 *)(data + nblocks*4); + + for(i = -nblocks; i; i++) { + k1 = ma_hash_getblock(blocks,i); + + k1 *= c1; + k1 = ma_rotl32(k1, 15); + k1 *= c2; + + h1 ^= k1; + h1 = ma_rotl32(h1, 13); + h1 = h1*5 + 0xe6546b64; + } + + + tail = (const ma_uint8*)(data + nblocks*4); + + k1 = 0; + switch(len & 3) { + case 3: k1 ^= tail[2] << 16; + case 2: k1 ^= tail[1] << 8; + case 1: k1 ^= tail[0]; + k1 *= c1; k1 = ma_rotl32(k1, 15); k1 *= c2; h1 ^= k1; + }; + + + h1 ^= len; + h1 = ma_hash_fmix32(h1); + + return h1; +} + +#if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))) + #pragma GCC diagnostic push +#endif +/* End MurmurHash3 */ + +static ma_uint32 ma_hash_string_32(const char* str) +{ + return ma_hash_32(str, (int)strlen(str), MA_DEFAULT_HASH_SEED); +} + +static ma_uint32 ma_hash_string_w_32(const wchar_t* str) +{ + return ma_hash_32(str, (int)ma_wcslen(str) * sizeof(*str), MA_DEFAULT_HASH_SEED); +} + + + + +/* +Basic BST Functions +*/ +static ma_result ma_resource_manager_data_buffer_node_search(ma_resource_manager* pResourceManager, ma_uint32 hashedName32, ma_resource_manager_data_buffer_node** ppDataBufferNode) +{ + ma_resource_manager_data_buffer_node* pCurrentNode; + + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(ppDataBufferNode != NULL); + + pCurrentNode = pResourceManager->pRootDataBufferNode; + while (pCurrentNode != NULL) { + if (hashedName32 == pCurrentNode->hashedName32) { + break; /* Found. */ + } else if (hashedName32 < pCurrentNode->hashedName32) { + pCurrentNode = pCurrentNode->pChildLo; + } else { + pCurrentNode = pCurrentNode->pChildHi; + } + } + + *ppDataBufferNode = pCurrentNode; + + if (pCurrentNode == NULL) { + return MA_DOES_NOT_EXIST; + } else { + return MA_SUCCESS; + } +} + +static ma_result ma_resource_manager_data_buffer_node_insert_point(ma_resource_manager* pResourceManager, ma_uint32 hashedName32, ma_resource_manager_data_buffer_node** ppInsertPoint) +{ + ma_result result = MA_SUCCESS; + ma_resource_manager_data_buffer_node* pCurrentNode; + + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(ppInsertPoint != NULL); + + *ppInsertPoint = NULL; + + if (pResourceManager->pRootDataBufferNode == NULL) { + return MA_SUCCESS; /* No items. */ + } + + /* We need to find the node that will become the parent of the new node. If a node is found that already has the same hashed name we need to return MA_ALREADY_EXISTS. */ + pCurrentNode = pResourceManager->pRootDataBufferNode; + while (pCurrentNode != NULL) { + if (hashedName32 == pCurrentNode->hashedName32) { + result = MA_ALREADY_EXISTS; + break; + } else { + if (hashedName32 < pCurrentNode->hashedName32) { + if (pCurrentNode->pChildLo == NULL) { + result = MA_SUCCESS; + break; + } else { + pCurrentNode = pCurrentNode->pChildLo; + } + } else { + if (pCurrentNode->pChildHi == NULL) { + result = MA_SUCCESS; + break; + } else { + pCurrentNode = pCurrentNode->pChildHi; + } + } + } + } + + *ppInsertPoint = pCurrentNode; + return result; +} + +static ma_result ma_resource_manager_data_buffer_node_insert_at(ma_resource_manager* pResourceManager, ma_resource_manager_data_buffer_node* pDataBufferNode, ma_resource_manager_data_buffer_node* pInsertPoint) +{ + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pDataBufferNode != NULL); + + /* The key must have been set before calling this function. */ + MA_ASSERT(pDataBufferNode->hashedName32 != 0); + + if (pInsertPoint == NULL) { + /* It's the first node. */ + pResourceManager->pRootDataBufferNode = pDataBufferNode; + } else { + /* It's not the first node. It needs to be inserted. */ + if (pDataBufferNode->hashedName32 < pInsertPoint->hashedName32) { + MA_ASSERT(pInsertPoint->pChildLo == NULL); + pInsertPoint->pChildLo = pDataBufferNode; + } else { + MA_ASSERT(pInsertPoint->pChildHi == NULL); + pInsertPoint->pChildHi = pDataBufferNode; + } + } + + pDataBufferNode->pParent = pInsertPoint; + + return MA_SUCCESS; +} + +#if 0 /* Unused for now. */ +static ma_result ma_resource_manager_data_buffer_node_insert(ma_resource_manager* pResourceManager, ma_resource_manager_data_buffer_node* pDataBufferNode) +{ + ma_result result; + ma_resource_manager_data_buffer_node* pInsertPoint; + + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pDataBufferNode != NULL); + + result = ma_resource_manager_data_buffer_node_insert_point(pResourceManager, pDataBufferNode->hashedName32, &pInsertPoint); + if (result != MA_SUCCESS) { + return MA_INVALID_ARGS; + } + + return ma_resource_manager_data_buffer_node_insert_at(pResourceManager, pDataBufferNode, pInsertPoint); +} +#endif + +static MA_INLINE ma_resource_manager_data_buffer_node* ma_resource_manager_data_buffer_node_find_min(ma_resource_manager_data_buffer_node* pDataBufferNode) +{ + ma_resource_manager_data_buffer_node* pCurrentNode; + + MA_ASSERT(pDataBufferNode != NULL); + + pCurrentNode = pDataBufferNode; + while (pCurrentNode->pChildLo != NULL) { + pCurrentNode = pCurrentNode->pChildLo; + } + + return pCurrentNode; +} + +static MA_INLINE ma_resource_manager_data_buffer_node* ma_resource_manager_data_buffer_node_find_max(ma_resource_manager_data_buffer_node* pDataBufferNode) +{ + ma_resource_manager_data_buffer_node* pCurrentNode; + + MA_ASSERT(pDataBufferNode != NULL); + + pCurrentNode = pDataBufferNode; + while (pCurrentNode->pChildHi != NULL) { + pCurrentNode = pCurrentNode->pChildHi; + } + + return pCurrentNode; +} + +static MA_INLINE ma_resource_manager_data_buffer_node* ma_resource_manager_data_buffer_node_find_inorder_successor(ma_resource_manager_data_buffer_node* pDataBufferNode) +{ + MA_ASSERT(pDataBufferNode != NULL); + MA_ASSERT(pDataBufferNode->pChildHi != NULL); + + return ma_resource_manager_data_buffer_node_find_min(pDataBufferNode->pChildHi); +} + +#if 0 /* Currently unused, but might make use of this later. */ +static MA_INLINE ma_resource_manager_data_buffer_node* ma_resource_manager_data_buffer_node_find_inorder_predecessor(ma_resource_manager_data_buffer_node* pDataBufferNode) +{ + MA_ASSERT(pDataBufferNode != NULL); + MA_ASSERT(pDataBufferNode->pChildLo != NULL); + + return ma_resource_manager_data_buffer_node_find_max(pDataBufferNode->pChildLo); +} +#endif + +static ma_result ma_resource_manager_data_buffer_node_remove(ma_resource_manager* pResourceManager, ma_resource_manager_data_buffer_node* pDataBufferNode) +{ + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pDataBufferNode != NULL); + + if (pDataBufferNode->pChildLo == NULL) { + if (pDataBufferNode->pChildHi == NULL) { + /* Simple case - deleting a buffer with no children. */ + if (pDataBufferNode->pParent == NULL) { + MA_ASSERT(pResourceManager->pRootDataBufferNode == pDataBufferNode); /* There is only a single buffer in the tree which should be equal to the root node. */ + pResourceManager->pRootDataBufferNode = NULL; + } else { + if (pDataBufferNode->pParent->pChildLo == pDataBufferNode) { + pDataBufferNode->pParent->pChildLo = NULL; + } else { + pDataBufferNode->pParent->pChildHi = NULL; + } + } + } else { + /* Node has one child - pChildHi != NULL. */ + pDataBufferNode->pChildHi->pParent = pDataBufferNode->pParent; + + if (pDataBufferNode->pParent == NULL) { + MA_ASSERT(pResourceManager->pRootDataBufferNode == pDataBufferNode); + pResourceManager->pRootDataBufferNode = pDataBufferNode->pChildHi; + } else { + if (pDataBufferNode->pParent->pChildLo == pDataBufferNode) { + pDataBufferNode->pParent->pChildLo = pDataBufferNode->pChildHi; + } else { + pDataBufferNode->pParent->pChildHi = pDataBufferNode->pChildHi; + } + } + } + } else { + if (pDataBufferNode->pChildHi == NULL) { + /* Node has one child - pChildLo != NULL. */ + pDataBufferNode->pChildLo->pParent = pDataBufferNode->pParent; + + if (pDataBufferNode->pParent == NULL) { + MA_ASSERT(pResourceManager->pRootDataBufferNode == pDataBufferNode); + pResourceManager->pRootDataBufferNode = pDataBufferNode->pChildLo; + } else { + if (pDataBufferNode->pParent->pChildLo == pDataBufferNode) { + pDataBufferNode->pParent->pChildLo = pDataBufferNode->pChildLo; + } else { + pDataBufferNode->pParent->pChildHi = pDataBufferNode->pChildLo; + } + } + } else { + /* Complex case - deleting a node with two children. */ + ma_resource_manager_data_buffer_node* pReplacementDataBufferNode; + + /* For now we are just going to use the in-order successor as the replacement, but we may want to try to keep this balanced by switching between the two. */ + pReplacementDataBufferNode = ma_resource_manager_data_buffer_node_find_inorder_successor(pDataBufferNode); + MA_ASSERT(pReplacementDataBufferNode != NULL); + + /* + Now that we have our replacement node we can make the change. The simple way to do this would be to just exchange the values, and then remove the replacement + node, however we track specific nodes via pointers which means we can't just swap out the values. We need to instead just change the pointers around. The + replacement node should have at most 1 child. Therefore, we can detach it in terms of our simpler cases above. What we're essentially doing is detaching the + replacement node and reinserting it into the same position as the deleted node. + */ + MA_ASSERT(pReplacementDataBufferNode->pParent != NULL); /* The replacement node should never be the root which means it should always have a parent. */ + MA_ASSERT(pReplacementDataBufferNode->pChildLo == NULL); /* Because we used in-order successor. This would be pChildHi == NULL if we used in-order predecessor. */ + + if (pReplacementDataBufferNode->pChildHi == NULL) { + if (pReplacementDataBufferNode->pParent->pChildLo == pReplacementDataBufferNode) { + pReplacementDataBufferNode->pParent->pChildLo = NULL; + } else { + pReplacementDataBufferNode->pParent->pChildHi = NULL; + } + } else { + pReplacementDataBufferNode->pChildHi->pParent = pReplacementDataBufferNode->pParent; + if (pReplacementDataBufferNode->pParent->pChildLo == pReplacementDataBufferNode) { + pReplacementDataBufferNode->pParent->pChildLo = pReplacementDataBufferNode->pChildHi; + } else { + pReplacementDataBufferNode->pParent->pChildHi = pReplacementDataBufferNode->pChildHi; + } + } + + + /* The replacement node has essentially been detached from the binary tree, so now we need to replace the old data buffer with it. The first thing to update is the parent */ + if (pDataBufferNode->pParent != NULL) { + if (pDataBufferNode->pParent->pChildLo == pDataBufferNode) { + pDataBufferNode->pParent->pChildLo = pReplacementDataBufferNode; + } else { + pDataBufferNode->pParent->pChildHi = pReplacementDataBufferNode; + } + } + + /* Now need to update the replacement node's pointers. */ + pReplacementDataBufferNode->pParent = pDataBufferNode->pParent; + pReplacementDataBufferNode->pChildLo = pDataBufferNode->pChildLo; + pReplacementDataBufferNode->pChildHi = pDataBufferNode->pChildHi; + + /* Now the children of the replacement node need to have their parent pointers updated. */ + if (pReplacementDataBufferNode->pChildLo != NULL) { + pReplacementDataBufferNode->pChildLo->pParent = pReplacementDataBufferNode; + } + if (pReplacementDataBufferNode->pChildHi != NULL) { + pReplacementDataBufferNode->pChildHi->pParent = pReplacementDataBufferNode; + } + + /* Now the root node needs to be updated. */ + if (pResourceManager->pRootDataBufferNode == pDataBufferNode) { + pResourceManager->pRootDataBufferNode = pReplacementDataBufferNode; + } + } + } + + return MA_SUCCESS; +} + +#if 0 /* Unused for now. */ +static ma_result ma_resource_manager_data_buffer_node_remove_by_key(ma_resource_manager* pResourceManager, ma_uint32 hashedName32) +{ + ma_result result; + ma_resource_manager_data_buffer_node* pDataBufferNode; + + result = ma_resource_manager_data_buffer_search(pResourceManager, hashedName32, &pDataBufferNode); + if (result != MA_SUCCESS) { + return result; /* Could not find the data buffer. */ + } + + return ma_resource_manager_data_buffer_remove(pResourceManager, pDataBufferNode); +} +#endif + +static ma_resource_manager_data_supply_type ma_resource_manager_data_buffer_node_get_data_supply_type(ma_resource_manager_data_buffer_node* pDataBufferNode) +{ + return (ma_resource_manager_data_supply_type)ma_atomic_load_i32(&pDataBufferNode->data.type); +} + +static void ma_resource_manager_data_buffer_node_set_data_supply_type(ma_resource_manager_data_buffer_node* pDataBufferNode, ma_resource_manager_data_supply_type supplyType) +{ + ma_atomic_exchange_i32(&pDataBufferNode->data.type, supplyType); +} + +static ma_result ma_resource_manager_data_buffer_node_increment_ref(ma_resource_manager* pResourceManager, ma_resource_manager_data_buffer_node* pDataBufferNode, ma_uint32* pNewRefCount) +{ + ma_uint32 refCount; + + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pDataBufferNode != NULL); + + (void)pResourceManager; + + refCount = ma_atomic_fetch_add_32(&pDataBufferNode->refCount, 1) + 1; + + if (pNewRefCount != NULL) { + *pNewRefCount = refCount; + } + + return MA_SUCCESS; +} + +static ma_result ma_resource_manager_data_buffer_node_decrement_ref(ma_resource_manager* pResourceManager, ma_resource_manager_data_buffer_node* pDataBufferNode, ma_uint32* pNewRefCount) +{ + ma_uint32 refCount; + + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pDataBufferNode != NULL); + + (void)pResourceManager; + + refCount = ma_atomic_fetch_sub_32(&pDataBufferNode->refCount, 1) - 1; + + if (pNewRefCount != NULL) { + *pNewRefCount = refCount; + } + + return MA_SUCCESS; +} + +static void ma_resource_manager_data_buffer_node_free(ma_resource_manager* pResourceManager, ma_resource_manager_data_buffer_node* pDataBufferNode) +{ + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pDataBufferNode != NULL); + + if (pDataBufferNode->isDataOwnedByResourceManager) { + if (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBufferNode) == ma_resource_manager_data_supply_type_encoded) { + ma_free((void*)pDataBufferNode->data.backend.encoded.pData, &pResourceManager->config.allocationCallbacks); + pDataBufferNode->data.backend.encoded.pData = NULL; + pDataBufferNode->data.backend.encoded.sizeInBytes = 0; + } else if (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBufferNode) == ma_resource_manager_data_supply_type_decoded) { + ma_free((void*)pDataBufferNode->data.backend.decoded.pData, &pResourceManager->config.allocationCallbacks); + pDataBufferNode->data.backend.decoded.pData = NULL; + pDataBufferNode->data.backend.decoded.totalFrameCount = 0; + } else if (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBufferNode) == ma_resource_manager_data_supply_type_decoded_paged) { + ma_paged_audio_buffer_data_uninit(&pDataBufferNode->data.backend.decodedPaged.data, &pResourceManager->config.allocationCallbacks); + } else { + /* Should never hit this if the node was successfully initialized. */ + MA_ASSERT(pDataBufferNode->result != MA_SUCCESS); + } + } + + /* The data buffer itself needs to be freed. */ + ma_free(pDataBufferNode, &pResourceManager->config.allocationCallbacks); +} + +static ma_result ma_resource_manager_data_buffer_node_result(const ma_resource_manager_data_buffer_node* pDataBufferNode) +{ + MA_ASSERT(pDataBufferNode != NULL); + + return (ma_result)ma_atomic_load_i32((ma_result*)&pDataBufferNode->result); /* Need a naughty const-cast here. */ +} + + +static ma_bool32 ma_resource_manager_is_threading_enabled(const ma_resource_manager* pResourceManager) +{ + MA_ASSERT(pResourceManager != NULL); + + return (pResourceManager->config.flags & MA_RESOURCE_MANAGER_FLAG_NO_THREADING) == 0; +} + + +typedef struct +{ + union + { + ma_async_notification_event e; + ma_async_notification_poll p; + } backend; /* Must be the first member. */ + ma_resource_manager* pResourceManager; +} ma_resource_manager_inline_notification; + +static ma_result ma_resource_manager_inline_notification_init(ma_resource_manager* pResourceManager, ma_resource_manager_inline_notification* pNotification) +{ + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pNotification != NULL); + + pNotification->pResourceManager = pResourceManager; + + if (ma_resource_manager_is_threading_enabled(pResourceManager)) { + return ma_async_notification_event_init(&pNotification->backend.e); + } else { + return ma_async_notification_poll_init(&pNotification->backend.p); + } +} + +static void ma_resource_manager_inline_notification_uninit(ma_resource_manager_inline_notification* pNotification) +{ + MA_ASSERT(pNotification != NULL); + + if (ma_resource_manager_is_threading_enabled(pNotification->pResourceManager)) { + ma_async_notification_event_uninit(&pNotification->backend.e); + } else { + /* No need to uninitialize a polling notification. */ + } +} + +static void ma_resource_manager_inline_notification_wait(ma_resource_manager_inline_notification* pNotification) +{ + MA_ASSERT(pNotification != NULL); + + if (ma_resource_manager_is_threading_enabled(pNotification->pResourceManager)) { + ma_async_notification_event_wait(&pNotification->backend.e); + } else { + while (ma_async_notification_poll_is_signalled(&pNotification->backend.p) == MA_FALSE) { + ma_result result = ma_resource_manager_process_next_job(pNotification->pResourceManager); + if (result == MA_NO_DATA_AVAILABLE || result == MA_CANCELLED) { + break; + } + } + } +} + +static void ma_resource_manager_inline_notification_wait_and_uninit(ma_resource_manager_inline_notification* pNotification) +{ + ma_resource_manager_inline_notification_wait(pNotification); + ma_resource_manager_inline_notification_uninit(pNotification); +} + + +static void ma_resource_manager_data_buffer_bst_lock(ma_resource_manager* pResourceManager) +{ + MA_ASSERT(pResourceManager != NULL); + + if (ma_resource_manager_is_threading_enabled(pResourceManager)) { + #ifndef MA_NO_THREADING + { + ma_mutex_lock(&pResourceManager->dataBufferBSTLock); + } + #else + { + MA_ASSERT(MA_FALSE); /* Should never hit this. */ + } + #endif + } else { + /* Threading not enabled. Do nothing. */ + } +} + +static void ma_resource_manager_data_buffer_bst_unlock(ma_resource_manager* pResourceManager) +{ + MA_ASSERT(pResourceManager != NULL); + + if (ma_resource_manager_is_threading_enabled(pResourceManager)) { + #ifndef MA_NO_THREADING + { + ma_mutex_unlock(&pResourceManager->dataBufferBSTLock); + } + #else + { + MA_ASSERT(MA_FALSE); /* Should never hit this. */ + } + #endif + } else { + /* Threading not enabled. Do nothing. */ + } +} + +#ifndef MA_NO_THREADING +static ma_thread_result MA_THREADCALL ma_resource_manager_job_thread(void* pUserData) +{ + ma_resource_manager* pResourceManager = (ma_resource_manager*)pUserData; + MA_ASSERT(pResourceManager != NULL); + + for (;;) { + ma_result result; + ma_job job; + + result = ma_resource_manager_next_job(pResourceManager, &job); + if (result != MA_SUCCESS) { + break; + } + + /* Terminate if we got a quit message. */ + if (job.toc.breakup.code == MA_JOB_TYPE_QUIT) { + break; + } + + ma_job_process(&job); + } + + return (ma_thread_result)0; +} +#endif + +MA_API ma_resource_manager_config ma_resource_manager_config_init(void) +{ + ma_resource_manager_config config; + + MA_ZERO_OBJECT(&config); + config.decodedFormat = ma_format_unknown; + config.decodedChannels = 0; + config.decodedSampleRate = 0; + config.jobThreadCount = 1; /* A single miniaudio-managed job thread by default. */ + config.jobQueueCapacity = MA_JOB_TYPE_RESOURCE_MANAGER_QUEUE_CAPACITY; + config.resampling = ma_resampler_config_init(ma_format_unknown, 0, 0, 0, ma_resample_algorithm_linear); /* Format/channels/rate doesn't matter here. */ + + /* Flags. */ + config.flags = 0; + #ifdef MA_NO_THREADING + { + /* Threading is disabled at compile time so disable threading at runtime as well by default. */ + config.flags |= MA_RESOURCE_MANAGER_FLAG_NO_THREADING; + config.jobThreadCount = 0; + } + #endif + + return config; +} + + +MA_API ma_result ma_resource_manager_init(const ma_resource_manager_config* pConfig, ma_resource_manager* pResourceManager) +{ + ma_result result; + ma_job_queue_config jobQueueConfig; + + if (pResourceManager == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pResourceManager); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + #ifndef MA_NO_THREADING + { + if (pConfig->jobThreadCount > ma_countof(pResourceManager->jobThreads)) { + return MA_INVALID_ARGS; /* Requesting too many job threads. */ + } + } + #endif + + pResourceManager->config = *pConfig; + ma_allocation_callbacks_init_copy(&pResourceManager->config.allocationCallbacks, &pConfig->allocationCallbacks); + + /* Get the log set up early so we can start using it as soon as possible. */ + if (pResourceManager->config.pLog == NULL) { + result = ma_log_init(&pResourceManager->config.allocationCallbacks, &pResourceManager->log); + if (result == MA_SUCCESS) { + pResourceManager->config.pLog = &pResourceManager->log; + } else { + pResourceManager->config.pLog = NULL; /* Logging is unavailable. */ + } + } + + if (pResourceManager->config.pVFS == NULL) { + result = ma_default_vfs_init(&pResourceManager->defaultVFS, &pResourceManager->config.allocationCallbacks); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize the default file system. */ + } + + pResourceManager->config.pVFS = &pResourceManager->defaultVFS; + } + + /* If threading has been disabled at compile time, enforce it at run time as well. */ + #ifdef MA_NO_THREADING + { + pResourceManager->config.flags |= MA_RESOURCE_MANAGER_FLAG_NO_THREADING; + } + #endif + + /* We need to force MA_RESOURCE_MANAGER_FLAG_NON_BLOCKING if MA_RESOURCE_MANAGER_FLAG_NO_THREADING is set. */ + if ((pResourceManager->config.flags & MA_RESOURCE_MANAGER_FLAG_NO_THREADING) != 0) { + pResourceManager->config.flags |= MA_RESOURCE_MANAGER_FLAG_NON_BLOCKING; + + /* We cannot allow job threads when MA_RESOURCE_MANAGER_FLAG_NO_THREADING has been set. This is an invalid use case. */ + if (pResourceManager->config.jobThreadCount > 0) { + return MA_INVALID_ARGS; + } + } + + /* Job queue. */ + jobQueueConfig.capacity = pResourceManager->config.jobQueueCapacity; + jobQueueConfig.flags = 0; + if ((pResourceManager->config.flags & MA_RESOURCE_MANAGER_FLAG_NON_BLOCKING) != 0) { + if (pResourceManager->config.jobThreadCount > 0) { + return MA_INVALID_ARGS; /* Non-blocking mode is only valid for self-managed job threads. */ + } + + jobQueueConfig.flags |= MA_JOB_QUEUE_FLAG_NON_BLOCKING; + } + + result = ma_job_queue_init(&jobQueueConfig, &pResourceManager->config.allocationCallbacks, &pResourceManager->jobQueue); + if (result != MA_SUCCESS) { + return result; + } + + + /* Custom decoding backends. */ + if (pConfig->ppCustomDecodingBackendVTables != NULL && pConfig->customDecodingBackendCount > 0) { + size_t sizeInBytes = sizeof(*pResourceManager->config.ppCustomDecodingBackendVTables) * pConfig->customDecodingBackendCount; + ma_decoding_backend_vtable** ppCustomDecodingBackendVTables; + + ppCustomDecodingBackendVTables = (ma_decoding_backend_vtable**)ma_malloc(sizeInBytes, &pResourceManager->config.allocationCallbacks); + if (pResourceManager->config.ppCustomDecodingBackendVTables == NULL) { + ma_job_queue_uninit(&pResourceManager->jobQueue, &pResourceManager->config.allocationCallbacks); + return MA_OUT_OF_MEMORY; + } + + MA_COPY_MEMORY(ppCustomDecodingBackendVTables, pConfig->ppCustomDecodingBackendVTables, sizeInBytes); + + pResourceManager->config.ppCustomDecodingBackendVTables = ppCustomDecodingBackendVTables; + pResourceManager->config.customDecodingBackendCount = pConfig->customDecodingBackendCount; + pResourceManager->config.pCustomDecodingBackendUserData = pConfig->pCustomDecodingBackendUserData; + } + + + + /* Here is where we initialize our threading stuff. We don't do this if we don't support threading. */ + if (ma_resource_manager_is_threading_enabled(pResourceManager)) { + #ifndef MA_NO_THREADING + { + ma_uint32 iJobThread; + + /* Data buffer lock. */ + result = ma_mutex_init(&pResourceManager->dataBufferBSTLock); + if (result != MA_SUCCESS) { + ma_job_queue_uninit(&pResourceManager->jobQueue, &pResourceManager->config.allocationCallbacks); + return result; + } + + /* Create the job threads last to ensure the threads has access to valid data. */ + for (iJobThread = 0; iJobThread < pResourceManager->config.jobThreadCount; iJobThread += 1) { + result = ma_thread_create(&pResourceManager->jobThreads[iJobThread], ma_thread_priority_normal, pResourceManager->config.jobThreadStackSize, ma_resource_manager_job_thread, pResourceManager, &pResourceManager->config.allocationCallbacks); + if (result != MA_SUCCESS) { + ma_mutex_uninit(&pResourceManager->dataBufferBSTLock); + ma_job_queue_uninit(&pResourceManager->jobQueue, &pResourceManager->config.allocationCallbacks); + return result; + } + } + } + #else + { + /* Threading is disabled at compile time. We should never get here because validation checks should have already been performed. */ + MA_ASSERT(MA_FALSE); + } + #endif + } + + return MA_SUCCESS; +} + + +static void ma_resource_manager_delete_all_data_buffer_nodes(ma_resource_manager* pResourceManager) +{ + MA_ASSERT(pResourceManager); + + /* If everything was done properly, there shouldn't be any active data buffers. */ + while (pResourceManager->pRootDataBufferNode != NULL) { + ma_resource_manager_data_buffer_node* pDataBufferNode = pResourceManager->pRootDataBufferNode; + ma_resource_manager_data_buffer_node_remove(pResourceManager, pDataBufferNode); + + /* The data buffer has been removed from the BST, so now we need to free its data. */ + ma_resource_manager_data_buffer_node_free(pResourceManager, pDataBufferNode); + } +} + +MA_API void ma_resource_manager_uninit(ma_resource_manager* pResourceManager) +{ + if (pResourceManager == NULL) { + return; + } + + /* + Job threads need to be killed first. To do this we need to post a quit message to the message queue and then wait for the thread. The quit message will never be removed from the + queue which means it will never not be returned after being encountered for the first time which means all threads will eventually receive it. + */ + ma_resource_manager_post_job_quit(pResourceManager); + + /* Wait for every job to finish before continuing to ensure nothing is sill trying to access any of our objects below. */ + if (ma_resource_manager_is_threading_enabled(pResourceManager)) { + #ifndef MA_NO_THREADING + { + ma_uint32 iJobThread; + + for (iJobThread = 0; iJobThread < pResourceManager->config.jobThreadCount; iJobThread += 1) { + ma_thread_wait(&pResourceManager->jobThreads[iJobThread]); + } + } + #else + { + MA_ASSERT(MA_FALSE); /* Should never hit this. */ + } + #endif + } + + /* At this point the thread should have returned and no other thread should be accessing our data. We can now delete all data buffers. */ + ma_resource_manager_delete_all_data_buffer_nodes(pResourceManager); + + /* The job queue is no longer needed. */ + ma_job_queue_uninit(&pResourceManager->jobQueue, &pResourceManager->config.allocationCallbacks); + + /* We're no longer doing anything with data buffers so the lock can now be uninitialized. */ + if (ma_resource_manager_is_threading_enabled(pResourceManager)) { + #ifndef MA_NO_THREADING + { + ma_mutex_uninit(&pResourceManager->dataBufferBSTLock); + } + #else + { + MA_ASSERT(MA_FALSE); /* Should never hit this. */ + } + #endif + } + + ma_free((ma_decoding_backend_vtable**)pResourceManager->config.ppCustomDecodingBackendVTables, &pResourceManager->config.allocationCallbacks); /* <-- Naughty const-cast, but this is safe. */ + + if (pResourceManager->config.pLog == &pResourceManager->log) { + ma_log_uninit(&pResourceManager->log); + } +} + +MA_API ma_log* ma_resource_manager_get_log(ma_resource_manager* pResourceManager) +{ + if (pResourceManager == NULL) { + return NULL; + } + + return pResourceManager->config.pLog; +} + + + +MA_API ma_resource_manager_data_source_config ma_resource_manager_data_source_config_init(void) +{ + ma_resource_manager_data_source_config config; + + MA_ZERO_OBJECT(&config); + config.rangeBegInPCMFrames = MA_DATA_SOURCE_DEFAULT_RANGE_BEG; + config.rangeEndInPCMFrames = MA_DATA_SOURCE_DEFAULT_RANGE_END; + config.loopPointBegInPCMFrames = MA_DATA_SOURCE_DEFAULT_LOOP_POINT_BEG; + config.loopPointEndInPCMFrames = MA_DATA_SOURCE_DEFAULT_LOOP_POINT_END; + config.isLooping = MA_FALSE; + + return config; +} + + +static ma_decoder_config ma_resource_manager__init_decoder_config(ma_resource_manager* pResourceManager) +{ + ma_decoder_config config; + + config = ma_decoder_config_init(pResourceManager->config.decodedFormat, pResourceManager->config.decodedChannels, pResourceManager->config.decodedSampleRate); + config.allocationCallbacks = pResourceManager->config.allocationCallbacks; + config.ppCustomBackendVTables = pResourceManager->config.ppCustomDecodingBackendVTables; + config.customBackendCount = pResourceManager->config.customDecodingBackendCount; + config.pCustomBackendUserData = pResourceManager->config.pCustomDecodingBackendUserData; + config.resampling = pResourceManager->config.resampling; + + return config; +} + +static ma_result ma_resource_manager__init_decoder(ma_resource_manager* pResourceManager, const char* pFilePath, const wchar_t* pFilePathW, ma_decoder* pDecoder) +{ + ma_result result; + ma_decoder_config config; + + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pFilePath != NULL || pFilePathW != NULL); + MA_ASSERT(pDecoder != NULL); + + config = ma_resource_manager__init_decoder_config(pResourceManager); + + if (pFilePath != NULL) { + result = ma_decoder_init_vfs(pResourceManager->config.pVFS, pFilePath, &config, pDecoder); + if (result != MA_SUCCESS) { + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_WARNING, "Failed to load file \"%s\". %s.\n", pFilePath, ma_result_description(result)); + return result; + } + } else { + result = ma_decoder_init_vfs_w(pResourceManager->config.pVFS, pFilePathW, &config, pDecoder); + if (result != MA_SUCCESS) { + #if (defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L) || defined(_MSC_VER) + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_WARNING, "Failed to load file \"%ls\". %s.\n", pFilePathW, ma_result_description(result)); + #endif + return result; + } + } + + return MA_SUCCESS; +} + +static ma_bool32 ma_resource_manager_data_buffer_has_connector(ma_resource_manager_data_buffer* pDataBuffer) +{ + return ma_atomic_bool32_get(&pDataBuffer->isConnectorInitialized); +} + +static ma_data_source* ma_resource_manager_data_buffer_get_connector(ma_resource_manager_data_buffer* pDataBuffer) +{ + if (ma_resource_manager_data_buffer_has_connector(pDataBuffer) == MA_FALSE) { + return NULL; /* Connector not yet initialized. */ + } + + switch (pDataBuffer->pNode->data.type) + { + case ma_resource_manager_data_supply_type_encoded: return &pDataBuffer->connector.decoder; + case ma_resource_manager_data_supply_type_decoded: return &pDataBuffer->connector.buffer; + case ma_resource_manager_data_supply_type_decoded_paged: return &pDataBuffer->connector.pagedBuffer; + + case ma_resource_manager_data_supply_type_unknown: + default: + { + ma_log_postf(ma_resource_manager_get_log(pDataBuffer->pResourceManager), MA_LOG_LEVEL_ERROR, "Failed to retrieve data buffer connector. Unknown data supply type.\n"); + return NULL; + }; + }; +} + +static ma_result ma_resource_manager_data_buffer_init_connector(ma_resource_manager_data_buffer* pDataBuffer, const ma_resource_manager_data_source_config* pConfig, ma_async_notification* pInitNotification, ma_fence* pInitFence) +{ + ma_result result; + + MA_ASSERT(pDataBuffer != NULL); + MA_ASSERT(pConfig != NULL); + MA_ASSERT(ma_resource_manager_data_buffer_has_connector(pDataBuffer) == MA_FALSE); + + /* The underlying data buffer must be initialized before we'll be able to know how to initialize the backend. */ + result = ma_resource_manager_data_buffer_node_result(pDataBuffer->pNode); + if (result != MA_SUCCESS && result != MA_BUSY) { + return result; /* The data buffer is in an erroneous state. */ + } + + /* + We need to initialize either a ma_decoder or an ma_audio_buffer depending on whether or not the backing data is encoded or decoded. These act as the + "instance" to the data and are used to form the connection between underlying data buffer and the data source. If the data buffer is decoded, we can use + an ma_audio_buffer. This enables us to use memory mapping when mixing which saves us a bit of data movement overhead. + */ + switch (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBuffer->pNode)) + { + case ma_resource_manager_data_supply_type_encoded: /* Connector is a decoder. */ + { + ma_decoder_config config; + config = ma_resource_manager__init_decoder_config(pDataBuffer->pResourceManager); + result = ma_decoder_init_memory(pDataBuffer->pNode->data.backend.encoded.pData, pDataBuffer->pNode->data.backend.encoded.sizeInBytes, &config, &pDataBuffer->connector.decoder); + } break; + + case ma_resource_manager_data_supply_type_decoded: /* Connector is an audio buffer. */ + { + ma_audio_buffer_config config; + config = ma_audio_buffer_config_init(pDataBuffer->pNode->data.backend.decoded.format, pDataBuffer->pNode->data.backend.decoded.channels, pDataBuffer->pNode->data.backend.decoded.totalFrameCount, pDataBuffer->pNode->data.backend.decoded.pData, NULL); + result = ma_audio_buffer_init(&config, &pDataBuffer->connector.buffer); + } break; + + case ma_resource_manager_data_supply_type_decoded_paged: /* Connector is a paged audio buffer. */ + { + ma_paged_audio_buffer_config config; + config = ma_paged_audio_buffer_config_init(&pDataBuffer->pNode->data.backend.decodedPaged.data); + result = ma_paged_audio_buffer_init(&config, &pDataBuffer->connector.pagedBuffer); + } break; + + case ma_resource_manager_data_supply_type_unknown: + default: + { + /* Unknown data supply type. Should never happen. Need to post an error here. */ + return MA_INVALID_ARGS; + }; + } + + /* + Initialization of the connector is when we can fire the init notification. This will give the application access to + the format/channels/rate of the data source. + */ + if (result == MA_SUCCESS) { + /* + The resource manager supports the ability to set the range and loop settings via a config at + initialization time. This results in an case where the ranges could be set explicitly via + ma_data_source_set_*() before we get to this point here. If this happens, we'll end up + hitting a case where we just override those settings which results in what feels like a bug. + + To address this we only change the relevant properties if they're not equal to defaults. If + they're equal to defaults there's no need to change them anyway. If they're *not* set to the + default values, we can assume the user has set the range and loop settings via the config. If + they're doing their own calls to ma_data_source_set_*() in addition to setting them via the + config, that's entirely on the caller and any synchronization issue becomes their problem. + */ + if (pConfig->rangeBegInPCMFrames != MA_DATA_SOURCE_DEFAULT_RANGE_BEG || pConfig->rangeEndInPCMFrames != MA_DATA_SOURCE_DEFAULT_RANGE_END) { + ma_data_source_set_range_in_pcm_frames(pDataBuffer, pConfig->rangeBegInPCMFrames, pConfig->rangeEndInPCMFrames); + } + + if (pConfig->loopPointBegInPCMFrames != MA_DATA_SOURCE_DEFAULT_LOOP_POINT_BEG || pConfig->loopPointEndInPCMFrames != MA_DATA_SOURCE_DEFAULT_LOOP_POINT_END) { + ma_data_source_set_loop_point_in_pcm_frames(pDataBuffer, pConfig->loopPointBegInPCMFrames, pConfig->loopPointEndInPCMFrames); + } + + if (pConfig->isLooping != MA_FALSE) { + ma_data_source_set_looping(pDataBuffer, pConfig->isLooping); + } + + ma_atomic_bool32_set(&pDataBuffer->isConnectorInitialized, MA_TRUE); + + if (pInitNotification != NULL) { + ma_async_notification_signal(pInitNotification); + } + + if (pInitFence != NULL) { + ma_fence_release(pInitFence); + } + } + + /* At this point the backend should be initialized. We do *not* want to set pDataSource->result here - that needs to be done at a higher level to ensure it's done as the last step. */ + return result; +} + +static ma_result ma_resource_manager_data_buffer_uninit_connector(ma_resource_manager* pResourceManager, ma_resource_manager_data_buffer* pDataBuffer) +{ + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pDataBuffer != NULL); + + (void)pResourceManager; + + switch (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBuffer->pNode)) + { + case ma_resource_manager_data_supply_type_encoded: /* Connector is a decoder. */ + { + ma_decoder_uninit(&pDataBuffer->connector.decoder); + } break; + + case ma_resource_manager_data_supply_type_decoded: /* Connector is an audio buffer. */ + { + ma_audio_buffer_uninit(&pDataBuffer->connector.buffer); + } break; + + case ma_resource_manager_data_supply_type_decoded_paged: /* Connector is a paged audio buffer. */ + { + ma_paged_audio_buffer_uninit(&pDataBuffer->connector.pagedBuffer); + } break; + + case ma_resource_manager_data_supply_type_unknown: + default: + { + /* Unknown data supply type. Should never happen. Need to post an error here. */ + return MA_INVALID_ARGS; + }; + } + + return MA_SUCCESS; +} + +static ma_uint32 ma_resource_manager_data_buffer_node_next_execution_order(ma_resource_manager_data_buffer_node* pDataBufferNode) +{ + MA_ASSERT(pDataBufferNode != NULL); + return ma_atomic_fetch_add_32(&pDataBufferNode->executionCounter, 1); +} + +static ma_result ma_resource_manager_data_buffer_node_init_supply_encoded(ma_resource_manager* pResourceManager, ma_resource_manager_data_buffer_node* pDataBufferNode, const char* pFilePath, const wchar_t* pFilePathW) +{ + ma_result result; + size_t dataSizeInBytes; + void* pData; + + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pDataBufferNode != NULL); + MA_ASSERT(pFilePath != NULL || pFilePathW != NULL); + + result = ma_vfs_open_and_read_file_ex(pResourceManager->config.pVFS, pFilePath, pFilePathW, &pData, &dataSizeInBytes, &pResourceManager->config.allocationCallbacks); + if (result != MA_SUCCESS) { + if (pFilePath != NULL) { + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_WARNING, "Failed to load file \"%s\". %s.\n", pFilePath, ma_result_description(result)); + } else { + #if (defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L) || defined(_MSC_VER) + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_WARNING, "Failed to load file \"%ls\". %s.\n", pFilePathW, ma_result_description(result)); + #endif + } + + return result; + } + + pDataBufferNode->data.backend.encoded.pData = pData; + pDataBufferNode->data.backend.encoded.sizeInBytes = dataSizeInBytes; + ma_resource_manager_data_buffer_node_set_data_supply_type(pDataBufferNode, ma_resource_manager_data_supply_type_encoded); /* <-- Must be set last. */ + + return MA_SUCCESS; +} + +static ma_result ma_resource_manager_data_buffer_node_init_supply_decoded(ma_resource_manager* pResourceManager, ma_resource_manager_data_buffer_node* pDataBufferNode, const char* pFilePath, const wchar_t* pFilePathW, ma_uint32 flags, ma_decoder** ppDecoder) +{ + ma_result result = MA_SUCCESS; + ma_decoder* pDecoder; + ma_uint64 totalFrameCount; + + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pDataBufferNode != NULL); + MA_ASSERT(ppDecoder != NULL); + MA_ASSERT(pFilePath != NULL || pFilePathW != NULL); + + *ppDecoder = NULL; /* For safety. */ + + pDecoder = (ma_decoder*)ma_malloc(sizeof(*pDecoder), &pResourceManager->config.allocationCallbacks); + if (pDecoder == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_resource_manager__init_decoder(pResourceManager, pFilePath, pFilePathW, pDecoder); + if (result != MA_SUCCESS) { + ma_free(pDecoder, &pResourceManager->config.allocationCallbacks); + return result; + } + + /* + At this point we have the decoder and we now need to initialize the data supply. This will + be either a decoded buffer, or a decoded paged buffer. A regular buffer is just one big heap + allocated buffer, whereas a paged buffer is a linked list of paged-sized buffers. The latter + is used when the length of a sound is unknown until a full decode has been performed. + */ + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_UNKNOWN_LENGTH) == 0) { + result = ma_decoder_get_length_in_pcm_frames(pDecoder, &totalFrameCount); + if (result != MA_SUCCESS) { + return result; + } + } else { + totalFrameCount = 0; + } + + if (totalFrameCount > 0) { + /* It's a known length. The data supply is a regular decoded buffer. */ + ma_uint64 dataSizeInBytes; + void* pData; + + dataSizeInBytes = totalFrameCount * ma_get_bytes_per_frame(pDecoder->outputFormat, pDecoder->outputChannels); + if (dataSizeInBytes > MA_SIZE_MAX) { + ma_decoder_uninit(pDecoder); + ma_free(pDecoder, &pResourceManager->config.allocationCallbacks); + return MA_TOO_BIG; + } + + pData = ma_malloc((size_t)dataSizeInBytes, &pResourceManager->config.allocationCallbacks); + if (pData == NULL) { + ma_decoder_uninit(pDecoder); + ma_free(pDecoder, &pResourceManager->config.allocationCallbacks); + return MA_OUT_OF_MEMORY; + } + + /* The buffer needs to be initialized to silence in case the caller reads from it. */ + ma_silence_pcm_frames(pData, totalFrameCount, pDecoder->outputFormat, pDecoder->outputChannels); + + /* Data has been allocated and the data supply can now be initialized. */ + pDataBufferNode->data.backend.decoded.pData = pData; + pDataBufferNode->data.backend.decoded.totalFrameCount = totalFrameCount; + pDataBufferNode->data.backend.decoded.format = pDecoder->outputFormat; + pDataBufferNode->data.backend.decoded.channels = pDecoder->outputChannels; + pDataBufferNode->data.backend.decoded.sampleRate = pDecoder->outputSampleRate; + pDataBufferNode->data.backend.decoded.decodedFrameCount = 0; + ma_resource_manager_data_buffer_node_set_data_supply_type(pDataBufferNode, ma_resource_manager_data_supply_type_decoded); /* <-- Must be set last. */ + } else { + /* + It's an unknown length. The data supply is a paged decoded buffer. Setting this up is + actually easier than the non-paged decoded buffer because we just need to initialize + a ma_paged_audio_buffer object. + */ + result = ma_paged_audio_buffer_data_init(pDecoder->outputFormat, pDecoder->outputChannels, &pDataBufferNode->data.backend.decodedPaged.data); + if (result != MA_SUCCESS) { + ma_decoder_uninit(pDecoder); + ma_free(pDecoder, &pResourceManager->config.allocationCallbacks); + return result; + } + + pDataBufferNode->data.backend.decodedPaged.sampleRate = pDecoder->outputSampleRate; + pDataBufferNode->data.backend.decodedPaged.decodedFrameCount = 0; + ma_resource_manager_data_buffer_node_set_data_supply_type(pDataBufferNode, ma_resource_manager_data_supply_type_decoded_paged); /* <-- Must be set last. */ + } + + *ppDecoder = pDecoder; + + return MA_SUCCESS; +} + +static ma_result ma_resource_manager_data_buffer_node_decode_next_page(ma_resource_manager* pResourceManager, ma_resource_manager_data_buffer_node* pDataBufferNode, ma_decoder* pDecoder) +{ + ma_result result = MA_SUCCESS; + ma_uint64 pageSizeInFrames; + ma_uint64 framesToTryReading; + ma_uint64 framesRead; + + MA_ASSERT(pResourceManager != NULL); + MA_ASSERT(pDataBufferNode != NULL); + MA_ASSERT(pDecoder != NULL); + + /* We need to know the size of a page in frames to know how many frames to decode. */ + pageSizeInFrames = MA_RESOURCE_MANAGER_PAGE_SIZE_IN_MILLISECONDS * (pDecoder->outputSampleRate/1000); + framesToTryReading = pageSizeInFrames; + + /* + Here is where we do the decoding of the next page. We'll run a slightly different path depending + on whether or not we're using a flat or paged buffer because the allocation of the page differs + between the two. For a flat buffer it's an offset to an already-allocated buffer. For a paged + buffer, we need to allocate a new page and attach it to the linked list. + */ + switch (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBufferNode)) + { + case ma_resource_manager_data_supply_type_decoded: + { + /* The destination buffer is an offset to the existing buffer. Don't read more than we originally retrieved when we first initialized the decoder. */ + void* pDst; + ma_uint64 framesRemaining = pDataBufferNode->data.backend.decoded.totalFrameCount - pDataBufferNode->data.backend.decoded.decodedFrameCount; + if (framesToTryReading > framesRemaining) { + framesToTryReading = framesRemaining; + } + + if (framesToTryReading > 0) { + pDst = ma_offset_ptr( + pDataBufferNode->data.backend.decoded.pData, + pDataBufferNode->data.backend.decoded.decodedFrameCount * ma_get_bytes_per_frame(pDataBufferNode->data.backend.decoded.format, pDataBufferNode->data.backend.decoded.channels) + ); + MA_ASSERT(pDst != NULL); + + result = ma_decoder_read_pcm_frames(pDecoder, pDst, framesToTryReading, &framesRead); + if (framesRead > 0) { + pDataBufferNode->data.backend.decoded.decodedFrameCount += framesRead; + } + } else { + framesRead = 0; + } + } break; + + case ma_resource_manager_data_supply_type_decoded_paged: + { + /* The destination buffer is a freshly allocated page. */ + ma_paged_audio_buffer_page* pPage; + + result = ma_paged_audio_buffer_data_allocate_page(&pDataBufferNode->data.backend.decodedPaged.data, framesToTryReading, NULL, &pResourceManager->config.allocationCallbacks, &pPage); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_decoder_read_pcm_frames(pDecoder, pPage->pAudioData, framesToTryReading, &framesRead); + if (result == MA_SUCCESS && framesRead > 0) { + pPage->sizeInFrames = framesRead; + + result = ma_paged_audio_buffer_data_append_page(&pDataBufferNode->data.backend.decodedPaged.data, pPage); + if (result == MA_SUCCESS) { + pDataBufferNode->data.backend.decodedPaged.decodedFrameCount += framesRead; + } else { + /* Failed to append the page. Just abort and set the status to MA_AT_END. */ + ma_paged_audio_buffer_data_free_page(&pDataBufferNode->data.backend.decodedPaged.data, pPage, &pResourceManager->config.allocationCallbacks); + result = MA_AT_END; + } + } else { + /* No frames were read. Free the page and just set the status to MA_AT_END. */ + ma_paged_audio_buffer_data_free_page(&pDataBufferNode->data.backend.decodedPaged.data, pPage, &pResourceManager->config.allocationCallbacks); + result = MA_AT_END; + } + } break; + + case ma_resource_manager_data_supply_type_encoded: + case ma_resource_manager_data_supply_type_unknown: + default: + { + /* Unexpected data supply type. */ + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_ERROR, "Unexpected data supply type (%d) when decoding page.", ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBufferNode)); + return MA_ERROR; + }; + } + + if (result == MA_SUCCESS && framesRead == 0) { + result = MA_AT_END; + } + + return result; +} + +static ma_result ma_resource_manager_data_buffer_node_acquire_critical_section(ma_resource_manager* pResourceManager, const char* pFilePath, const wchar_t* pFilePathW, ma_uint32 hashedName32, ma_uint32 flags, const ma_resource_manager_data_supply* pExistingData, ma_fence* pInitFence, ma_fence* pDoneFence, ma_resource_manager_inline_notification* pInitNotification, ma_resource_manager_data_buffer_node** ppDataBufferNode) +{ + ma_result result = MA_SUCCESS; + ma_resource_manager_data_buffer_node* pDataBufferNode = NULL; + ma_resource_manager_data_buffer_node* pInsertPoint; + + if (ppDataBufferNode != NULL) { + *ppDataBufferNode = NULL; + } + + result = ma_resource_manager_data_buffer_node_insert_point(pResourceManager, hashedName32, &pInsertPoint); + if (result == MA_ALREADY_EXISTS) { + /* The node already exists. We just need to increment the reference count. */ + pDataBufferNode = pInsertPoint; + + result = ma_resource_manager_data_buffer_node_increment_ref(pResourceManager, pDataBufferNode, NULL); + if (result != MA_SUCCESS) { + return result; /* Should never happen. Failed to increment the reference count. */ + } + + result = MA_ALREADY_EXISTS; + goto done; + } else { + /* + The node does not already exist. We need to post a LOAD_DATA_BUFFER_NODE job here. This + needs to be done inside the critical section to ensure an uninitialization of the node + does not occur before initialization on another thread. + */ + pDataBufferNode = (ma_resource_manager_data_buffer_node*)ma_malloc(sizeof(*pDataBufferNode), &pResourceManager->config.allocationCallbacks); + if (pDataBufferNode == NULL) { + return MA_OUT_OF_MEMORY; + } + + MA_ZERO_OBJECT(pDataBufferNode); + pDataBufferNode->hashedName32 = hashedName32; + pDataBufferNode->refCount = 1; /* Always set to 1 by default (this is our first reference). */ + + if (pExistingData == NULL) { + pDataBufferNode->data.type = ma_resource_manager_data_supply_type_unknown; /* <-- We won't know this until we start decoding. */ + pDataBufferNode->result = MA_BUSY; /* Must be set to MA_BUSY before we leave the critical section, so might as well do it now. */ + pDataBufferNode->isDataOwnedByResourceManager = MA_TRUE; + } else { + pDataBufferNode->data = *pExistingData; + pDataBufferNode->result = MA_SUCCESS; /* Not loading asynchronously, so just set the status */ + pDataBufferNode->isDataOwnedByResourceManager = MA_FALSE; + } + + result = ma_resource_manager_data_buffer_node_insert_at(pResourceManager, pDataBufferNode, pInsertPoint); + if (result != MA_SUCCESS) { + ma_free(pDataBufferNode, &pResourceManager->config.allocationCallbacks); + return result; /* Should never happen. Failed to insert the data buffer into the BST. */ + } + + /* + Here is where we'll post the job, but only if we're loading asynchronously. If we're + loading synchronously we'll defer loading to a later stage, outside of the critical + section. + */ + if (pDataBufferNode->isDataOwnedByResourceManager && (flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC) != 0) { + /* Loading asynchronously. Post the job. */ + ma_job job; + char* pFilePathCopy = NULL; + wchar_t* pFilePathWCopy = NULL; + + /* We need a copy of the file path. We should probably make this more efficient, but for now we'll do a transient memory allocation. */ + if (pFilePath != NULL) { + pFilePathCopy = ma_copy_string(pFilePath, &pResourceManager->config.allocationCallbacks); + } else { + pFilePathWCopy = ma_copy_string_w(pFilePathW, &pResourceManager->config.allocationCallbacks); + } + + if (pFilePathCopy == NULL && pFilePathWCopy == NULL) { + ma_resource_manager_data_buffer_node_remove(pResourceManager, pDataBufferNode); + ma_free(pDataBufferNode, &pResourceManager->config.allocationCallbacks); + return MA_OUT_OF_MEMORY; + } + + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { + ma_resource_manager_inline_notification_init(pResourceManager, pInitNotification); + } + + /* Acquire init and done fences before posting the job. These will be unacquired by the job thread. */ + if (pInitFence != NULL) { ma_fence_acquire(pInitFence); } + if (pDoneFence != NULL) { ma_fence_acquire(pDoneFence); } + + /* We now have everything we need to post the job to the job thread. */ + job = ma_job_init(MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_BUFFER_NODE); + job.order = ma_resource_manager_data_buffer_node_next_execution_order(pDataBufferNode); + job.data.resourceManager.loadDataBufferNode.pResourceManager = pResourceManager; + job.data.resourceManager.loadDataBufferNode.pDataBufferNode = pDataBufferNode; + job.data.resourceManager.loadDataBufferNode.pFilePath = pFilePathCopy; + job.data.resourceManager.loadDataBufferNode.pFilePathW = pFilePathWCopy; + job.data.resourceManager.loadDataBufferNode.flags = flags; + job.data.resourceManager.loadDataBufferNode.pInitNotification = ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) ? pInitNotification : NULL; + job.data.resourceManager.loadDataBufferNode.pDoneNotification = NULL; + job.data.resourceManager.loadDataBufferNode.pInitFence = pInitFence; + job.data.resourceManager.loadDataBufferNode.pDoneFence = pDoneFence; + + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { + result = ma_job_process(&job); + } else { + result = ma_resource_manager_post_job(pResourceManager, &job); + } + + if (result != MA_SUCCESS) { + /* Failed to post job. Probably ran out of memory. */ + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_ERROR, "Failed to post MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_BUFFER_NODE job. %s.\n", ma_result_description(result)); + + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { + ma_resource_manager_inline_notification_uninit(pInitNotification); + } else { + /* + Fences were acquired before posting the job, but since the job was not able to + be posted, we need to make sure we release them so nothing gets stuck waiting. + + In the WAIT_INIT case, these will have already been released in ma_job_process() + so we should only release fences in this branch. + */ + if (pInitFence != NULL) { ma_fence_release(pInitFence); } + if (pDoneFence != NULL) { ma_fence_release(pDoneFence); } + + /* These will have been freed by the job thread, but with WAIT_INIT they will already have happened since the job has already been handled. */ + ma_free(pFilePathCopy, &pResourceManager->config.allocationCallbacks); + ma_free(pFilePathWCopy, &pResourceManager->config.allocationCallbacks); + } + + ma_resource_manager_data_buffer_node_remove(pResourceManager, pDataBufferNode); + ma_free(pDataBufferNode, &pResourceManager->config.allocationCallbacks); + + return result; + } + } + } + +done: + if (ppDataBufferNode != NULL) { + *ppDataBufferNode = pDataBufferNode; + } + + return result; +} + +static ma_result ma_resource_manager_data_buffer_node_acquire(ma_resource_manager* pResourceManager, const char* pFilePath, const wchar_t* pFilePathW, ma_uint32 hashedName32, ma_uint32 flags, const ma_resource_manager_data_supply* pExistingData, ma_fence* pInitFence, ma_fence* pDoneFence, ma_resource_manager_data_buffer_node** ppDataBufferNode) +{ + ma_result result = MA_SUCCESS; + ma_bool32 nodeAlreadyExists = MA_FALSE; + ma_resource_manager_data_buffer_node* pDataBufferNode = NULL; + ma_resource_manager_inline_notification initNotification; /* Used when the WAIT_INIT flag is set. */ + + if (ppDataBufferNode != NULL) { + *ppDataBufferNode = NULL; /* Safety. */ + } + + if (pResourceManager == NULL || (pFilePath == NULL && pFilePathW == NULL && hashedName32 == 0)) { + return MA_INVALID_ARGS; + } + + /* If we're specifying existing data, it must be valid. */ + if (pExistingData != NULL && pExistingData->type == ma_resource_manager_data_supply_type_unknown) { + return MA_INVALID_ARGS; + } + + /* If we don't support threading, remove the ASYNC flag to make the rest of this a bit simpler. */ + if (ma_resource_manager_is_threading_enabled(pResourceManager) == MA_FALSE) { + flags &= ~MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC; + } + + if (hashedName32 == 0) { + if (pFilePath != NULL) { + hashedName32 = ma_hash_string_32(pFilePath); + } else { + hashedName32 = ma_hash_string_w_32(pFilePathW); + } + } + + /* + Here is where we either increment the node's reference count or allocate a new one and add it + to the BST. When allocating a new node, we need to make sure the LOAD_DATA_BUFFER_NODE job is + posted inside the critical section just in case the caller immediately uninitializes the node + as this will ensure the FREE_DATA_BUFFER_NODE job is given an execution order such that the + node is not uninitialized before initialization. + */ + ma_resource_manager_data_buffer_bst_lock(pResourceManager); + { + result = ma_resource_manager_data_buffer_node_acquire_critical_section(pResourceManager, pFilePath, pFilePathW, hashedName32, flags, pExistingData, pInitFence, pDoneFence, &initNotification, &pDataBufferNode); + } + ma_resource_manager_data_buffer_bst_unlock(pResourceManager); + + if (result == MA_ALREADY_EXISTS) { + nodeAlreadyExists = MA_TRUE; + result = MA_SUCCESS; + } else { + if (result != MA_SUCCESS) { + return result; + } + } + + /* + If we're loading synchronously, we'll need to load everything now. When loading asynchronously, + a job will have been posted inside the BST critical section so that an uninitialization can be + allocated an appropriate execution order thereby preventing it from being uninitialized before + the node is initialized by the decoding thread(s). + */ + if (nodeAlreadyExists == MA_FALSE) { /* Don't need to try loading anything if the node already exists. */ + if (pFilePath == NULL && pFilePathW == NULL) { + /* + If this path is hit, it means a buffer is being copied (i.e. initialized from only the + hashed name), but that node has been freed in the meantime, probably from some other + thread. This is an invalid operation. + */ + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_WARNING, "Cloning data buffer node failed because the source node was released. The source node must remain valid until the cloning has completed.\n"); + result = MA_INVALID_OPERATION; + goto done; + } + + if (pDataBufferNode->isDataOwnedByResourceManager) { + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC) == 0) { + /* Loading synchronously. Load the sound in it's entirety here. */ + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_DECODE) == 0) { + /* No decoding. This is the simple case - just store the file contents in memory. */ + result = ma_resource_manager_data_buffer_node_init_supply_encoded(pResourceManager, pDataBufferNode, pFilePath, pFilePathW); + if (result != MA_SUCCESS) { + goto done; + } + } else { + /* Decoding. We do this the same way as we do when loading asynchronously. */ + ma_decoder* pDecoder; + result = ma_resource_manager_data_buffer_node_init_supply_decoded(pResourceManager, pDataBufferNode, pFilePath, pFilePathW, flags, &pDecoder); + if (result != MA_SUCCESS) { + goto done; + } + + /* We have the decoder, now decode page by page just like we do when loading asynchronously. */ + for (;;) { + /* Decode next page. */ + result = ma_resource_manager_data_buffer_node_decode_next_page(pResourceManager, pDataBufferNode, pDecoder); + if (result != MA_SUCCESS) { + break; /* Will return MA_AT_END when the last page has been decoded. */ + } + } + + /* Reaching the end needs to be considered successful. */ + if (result == MA_AT_END) { + result = MA_SUCCESS; + } + + /* + At this point the data buffer is either fully decoded or some error occurred. Either + way, the decoder is no longer necessary. + */ + ma_decoder_uninit(pDecoder); + ma_free(pDecoder, &pResourceManager->config.allocationCallbacks); + } + + /* Getting here means we were successful. Make sure the status of the node is updated accordingly. */ + ma_atomic_exchange_i32(&pDataBufferNode->result, result); + } else { + /* Loading asynchronously. We may need to wait for initialization. */ + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { + ma_resource_manager_inline_notification_wait(&initNotification); + } + } + } else { + /* The data is not managed by the resource manager so there's nothing else to do. */ + MA_ASSERT(pExistingData != NULL); + } + } + +done: + /* If we failed to initialize the data buffer we need to free it. */ + if (result != MA_SUCCESS) { + if (nodeAlreadyExists == MA_FALSE) { + ma_resource_manager_data_buffer_node_remove(pResourceManager, pDataBufferNode); + ma_free(pDataBufferNode, &pResourceManager->config.allocationCallbacks); + } + } + + /* + The init notification needs to be uninitialized. This will be used if the node does not already + exist, and we've specified ASYNC | WAIT_INIT. + */ + if (nodeAlreadyExists == MA_FALSE && pDataBufferNode->isDataOwnedByResourceManager && (flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC) != 0) { + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { + ma_resource_manager_inline_notification_uninit(&initNotification); + } + } + + if (ppDataBufferNode != NULL) { + *ppDataBufferNode = pDataBufferNode; + } + + return result; +} + +static ma_result ma_resource_manager_data_buffer_node_unacquire(ma_resource_manager* pResourceManager, ma_resource_manager_data_buffer_node* pDataBufferNode, const char* pName, const wchar_t* pNameW) +{ + ma_result result = MA_SUCCESS; + ma_uint32 refCount = 0xFFFFFFFF; /* The new reference count of the node after decrementing. Initialize to non-0 to be safe we don't fall into the freeing path. */ + ma_uint32 hashedName32 = 0; + + if (pResourceManager == NULL) { + return MA_INVALID_ARGS; + } + + if (pDataBufferNode == NULL) { + if (pName == NULL && pNameW == NULL) { + return MA_INVALID_ARGS; + } + + if (pName != NULL) { + hashedName32 = ma_hash_string_32(pName); + } else { + hashedName32 = ma_hash_string_w_32(pNameW); + } + } + + /* + The first thing to do is decrement the reference counter of the node. Then, if the reference + count is zero, we need to free the node. If the node is still in the process of loading, we'll + need to post a job to the job queue to free the node. Otherwise we'll just do it here. + */ + ma_resource_manager_data_buffer_bst_lock(pResourceManager); + { + /* Might need to find the node. Must be done inside the critical section. */ + if (pDataBufferNode == NULL) { + result = ma_resource_manager_data_buffer_node_search(pResourceManager, hashedName32, &pDataBufferNode); + if (result != MA_SUCCESS) { + goto stage2; /* Couldn't find the node. */ + } + } + + result = ma_resource_manager_data_buffer_node_decrement_ref(pResourceManager, pDataBufferNode, &refCount); + if (result != MA_SUCCESS) { + goto stage2; /* Should never happen. */ + } + + if (refCount == 0) { + result = ma_resource_manager_data_buffer_node_remove(pResourceManager, pDataBufferNode); + if (result != MA_SUCCESS) { + goto stage2; /* An error occurred when trying to remove the data buffer. This should never happen. */ + } + } + } + ma_resource_manager_data_buffer_bst_unlock(pResourceManager); + +stage2: + if (result != MA_SUCCESS) { + return result; + } + + /* + Here is where we need to free the node. We don't want to do this inside the critical section + above because we want to keep that as small as possible for multi-threaded efficiency. + */ + if (refCount == 0) { + if (ma_resource_manager_data_buffer_node_result(pDataBufferNode) == MA_BUSY) { + /* The sound is still loading. We need to delay the freeing of the node to a safe time. */ + ma_job job; + + /* We need to mark the node as unavailable for the sake of the resource manager worker threads. */ + ma_atomic_exchange_i32(&pDataBufferNode->result, MA_UNAVAILABLE); + + job = ma_job_init(MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_BUFFER_NODE); + job.order = ma_resource_manager_data_buffer_node_next_execution_order(pDataBufferNode); + job.data.resourceManager.freeDataBufferNode.pResourceManager = pResourceManager; + job.data.resourceManager.freeDataBufferNode.pDataBufferNode = pDataBufferNode; + + result = ma_resource_manager_post_job(pResourceManager, &job); + if (result != MA_SUCCESS) { + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_ERROR, "Failed to post MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_BUFFER_NODE job. %s.\n", ma_result_description(result)); + return result; + } + + /* If we don't support threading, process the job queue here. */ + if (ma_resource_manager_is_threading_enabled(pResourceManager) == MA_FALSE) { + while (ma_resource_manager_data_buffer_node_result(pDataBufferNode) == MA_BUSY) { + result = ma_resource_manager_process_next_job(pResourceManager); + if (result == MA_NO_DATA_AVAILABLE || result == MA_CANCELLED) { + result = MA_SUCCESS; + break; + } + } + } else { + /* Threading is enabled. The job queue will deal with the rest of the cleanup from here. */ + } + } else { + /* The sound isn't loading so we can just free the node here. */ + ma_resource_manager_data_buffer_node_free(pResourceManager, pDataBufferNode); + } + } + + return result; +} + + + +static ma_uint32 ma_resource_manager_data_buffer_next_execution_order(ma_resource_manager_data_buffer* pDataBuffer) +{ + MA_ASSERT(pDataBuffer != NULL); + return ma_atomic_fetch_add_32(&pDataBuffer->executionCounter, 1); +} + +static ma_result ma_resource_manager_data_buffer_cb__read_pcm_frames(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + return ma_resource_manager_data_buffer_read_pcm_frames((ma_resource_manager_data_buffer*)pDataSource, pFramesOut, frameCount, pFramesRead); +} + +static ma_result ma_resource_manager_data_buffer_cb__seek_to_pcm_frame(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + return ma_resource_manager_data_buffer_seek_to_pcm_frame((ma_resource_manager_data_buffer*)pDataSource, frameIndex); +} + +static ma_result ma_resource_manager_data_buffer_cb__get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + return ma_resource_manager_data_buffer_get_data_format((ma_resource_manager_data_buffer*)pDataSource, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); +} + +static ma_result ma_resource_manager_data_buffer_cb__get_cursor_in_pcm_frames(ma_data_source* pDataSource, ma_uint64* pCursor) +{ + return ma_resource_manager_data_buffer_get_cursor_in_pcm_frames((ma_resource_manager_data_buffer*)pDataSource, pCursor); +} + +static ma_result ma_resource_manager_data_buffer_cb__get_length_in_pcm_frames(ma_data_source* pDataSource, ma_uint64* pLength) +{ + return ma_resource_manager_data_buffer_get_length_in_pcm_frames((ma_resource_manager_data_buffer*)pDataSource, pLength); +} + +static ma_result ma_resource_manager_data_buffer_cb__set_looping(ma_data_source* pDataSource, ma_bool32 isLooping) +{ + ma_resource_manager_data_buffer* pDataBuffer = (ma_resource_manager_data_buffer*)pDataSource; + MA_ASSERT(pDataBuffer != NULL); + + ma_atomic_exchange_32(&pDataBuffer->isLooping, isLooping); + + /* The looping state needs to be set on the connector as well or else looping won't work when we read audio data. */ + ma_data_source_set_looping(ma_resource_manager_data_buffer_get_connector(pDataBuffer), isLooping); + + return MA_SUCCESS; +} + +static ma_data_source_vtable g_ma_resource_manager_data_buffer_vtable = +{ + ma_resource_manager_data_buffer_cb__read_pcm_frames, + ma_resource_manager_data_buffer_cb__seek_to_pcm_frame, + ma_resource_manager_data_buffer_cb__get_data_format, + ma_resource_manager_data_buffer_cb__get_cursor_in_pcm_frames, + ma_resource_manager_data_buffer_cb__get_length_in_pcm_frames, + ma_resource_manager_data_buffer_cb__set_looping, + 0 +}; + +static ma_result ma_resource_manager_data_buffer_init_ex_internal(ma_resource_manager* pResourceManager, const ma_resource_manager_data_source_config* pConfig, ma_uint32 hashedName32, ma_resource_manager_data_buffer* pDataBuffer) +{ + ma_result result = MA_SUCCESS; + ma_resource_manager_data_buffer_node* pDataBufferNode; + ma_data_source_config dataSourceConfig; + ma_bool32 async; + ma_uint32 flags; + ma_resource_manager_pipeline_notifications notifications; + + if (pDataBuffer == NULL) { + if (pConfig != NULL && pConfig->pNotifications != NULL) { + ma_resource_manager_pipeline_notifications_signal_all_notifications(pConfig->pNotifications); + } + + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pDataBuffer); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->pNotifications != NULL) { + notifications = *pConfig->pNotifications; /* From here on out we should be referencing `notifications` instead of `pNotifications`. Set this to NULL to catch errors at testing time. */ + } else { + MA_ZERO_OBJECT(¬ifications); + } + + /* For safety, always remove the ASYNC flag if threading is disabled on the resource manager. */ + flags = pConfig->flags; + if (ma_resource_manager_is_threading_enabled(pResourceManager) == MA_FALSE) { + flags &= ~MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC; + } + + if (pConfig->isLooping) { + flags |= MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING; + } + + async = (flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC) != 0; + + /* + Fences need to be acquired before doing anything. These must be acquired and released outside of + the node to ensure there's no holes where ma_fence_wait() could prematurely return before the + data buffer has completed initialization. + + When loading asynchronously, the node acquisition routine below will acquire the fences on this + thread and then release them on the async thread when the operation is complete. + + These fences are always released at the "done" tag at the end of this function. They'll be + acquired a second if loading asynchronously. This double acquisition system is just done to + simplify code maintenance. + */ + ma_resource_manager_pipeline_notifications_acquire_all_fences(¬ifications); + { + /* We first need to acquire a node. If ASYNC is not set, this will not return until the entire sound has been loaded. */ + result = ma_resource_manager_data_buffer_node_acquire(pResourceManager, pConfig->pFilePath, pConfig->pFilePathW, hashedName32, flags, NULL, notifications.init.pFence, notifications.done.pFence, &pDataBufferNode); + if (result != MA_SUCCESS) { + ma_resource_manager_pipeline_notifications_signal_all_notifications(¬ifications); + goto done; + } + + dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &g_ma_resource_manager_data_buffer_vtable; + + result = ma_data_source_init(&dataSourceConfig, &pDataBuffer->ds); + if (result != MA_SUCCESS) { + ma_resource_manager_data_buffer_node_unacquire(pResourceManager, pDataBufferNode, NULL, NULL); + ma_resource_manager_pipeline_notifications_signal_all_notifications(¬ifications); + goto done; + } + + pDataBuffer->pResourceManager = pResourceManager; + pDataBuffer->pNode = pDataBufferNode; + pDataBuffer->flags = flags; + pDataBuffer->result = MA_BUSY; /* Always default to MA_BUSY for safety. It'll be overwritten when loading completes or an error occurs. */ + + /* If we're loading asynchronously we need to post a job to the job queue to initialize the connector. */ + if (async == MA_FALSE || ma_resource_manager_data_buffer_node_result(pDataBufferNode) == MA_SUCCESS) { + /* Loading synchronously or the data has already been fully loaded. We can just initialize the connector from here without a job. */ + result = ma_resource_manager_data_buffer_init_connector(pDataBuffer, pConfig, NULL, NULL); + ma_atomic_exchange_i32(&pDataBuffer->result, result); + + ma_resource_manager_pipeline_notifications_signal_all_notifications(¬ifications); + goto done; + } else { + /* The node's data supply isn't initialized yet. The caller has requested that we load asynchronously so we need to post a job to do this. */ + ma_job job; + ma_resource_manager_inline_notification initNotification; /* Used when the WAIT_INIT flag is set. */ + + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { + ma_resource_manager_inline_notification_init(pResourceManager, &initNotification); + } + + /* + The status of the data buffer needs to be set to MA_BUSY before posting the job so that the + worker thread is aware of its busy state. If the LOAD_DATA_BUFFER job sees a status other + than MA_BUSY, it'll assume an error and fall through to an early exit. + */ + ma_atomic_exchange_i32(&pDataBuffer->result, MA_BUSY); + + /* Acquire fences a second time. These will be released by the async thread. */ + ma_resource_manager_pipeline_notifications_acquire_all_fences(¬ifications); + + job = ma_job_init(MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_BUFFER); + job.order = ma_resource_manager_data_buffer_next_execution_order(pDataBuffer); + job.data.resourceManager.loadDataBuffer.pDataBuffer = pDataBuffer; + job.data.resourceManager.loadDataBuffer.pInitNotification = ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) ? &initNotification : notifications.init.pNotification; + job.data.resourceManager.loadDataBuffer.pDoneNotification = notifications.done.pNotification; + job.data.resourceManager.loadDataBuffer.pInitFence = notifications.init.pFence; + job.data.resourceManager.loadDataBuffer.pDoneFence = notifications.done.pFence; + job.data.resourceManager.loadDataBuffer.rangeBegInPCMFrames = pConfig->rangeBegInPCMFrames; + job.data.resourceManager.loadDataBuffer.rangeEndInPCMFrames = pConfig->rangeEndInPCMFrames; + job.data.resourceManager.loadDataBuffer.loopPointBegInPCMFrames = pConfig->loopPointBegInPCMFrames; + job.data.resourceManager.loadDataBuffer.loopPointEndInPCMFrames = pConfig->loopPointEndInPCMFrames; + job.data.resourceManager.loadDataBuffer.isLooping = (flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING) != 0; + + /* If we need to wait for initialization to complete we can just process the job in place. */ + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { + result = ma_job_process(&job); + } else { + result = ma_resource_manager_post_job(pResourceManager, &job); + } + + if (result != MA_SUCCESS) { + /* We failed to post the job. Most likely there isn't enough room in the queue's buffer. */ + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_ERROR, "Failed to post MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_BUFFER job. %s.\n", ma_result_description(result)); + ma_atomic_exchange_i32(&pDataBuffer->result, result); + + /* Release the fences after the result has been set on the data buffer. */ + ma_resource_manager_pipeline_notifications_release_all_fences(¬ifications); + } else { + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { + ma_resource_manager_inline_notification_wait(&initNotification); + + if (notifications.init.pNotification != NULL) { + ma_async_notification_signal(notifications.init.pNotification); + } + + /* NOTE: Do not release the init fence here. It will have been done by the job. */ + + /* Make sure we return an error if initialization failed on the async thread. */ + result = ma_resource_manager_data_buffer_result(pDataBuffer); + if (result == MA_BUSY) { + result = MA_SUCCESS; + } + } + } + + if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { + ma_resource_manager_inline_notification_uninit(&initNotification); + } + } + + if (result != MA_SUCCESS) { + ma_resource_manager_data_buffer_node_unacquire(pResourceManager, pDataBufferNode, NULL, NULL); + goto done; + } + } +done: + if (result == MA_SUCCESS) { + if (pConfig->initialSeekPointInPCMFrames > 0) { + ma_resource_manager_data_buffer_seek_to_pcm_frame(pDataBuffer, pConfig->initialSeekPointInPCMFrames); + } + } + + ma_resource_manager_pipeline_notifications_release_all_fences(¬ifications); + + return result; +} + +MA_API ma_result ma_resource_manager_data_buffer_init_ex(ma_resource_manager* pResourceManager, const ma_resource_manager_data_source_config* pConfig, ma_resource_manager_data_buffer* pDataBuffer) +{ + return ma_resource_manager_data_buffer_init_ex_internal(pResourceManager, pConfig, 0, pDataBuffer); +} + +MA_API ma_result ma_resource_manager_data_buffer_init(ma_resource_manager* pResourceManager, const char* pFilePath, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_buffer* pDataBuffer) +{ + ma_resource_manager_data_source_config config; + + config = ma_resource_manager_data_source_config_init(); + config.pFilePath = pFilePath; + config.flags = flags; + config.pNotifications = pNotifications; + + return ma_resource_manager_data_buffer_init_ex(pResourceManager, &config, pDataBuffer); +} + +MA_API ma_result ma_resource_manager_data_buffer_init_w(ma_resource_manager* pResourceManager, const wchar_t* pFilePath, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_buffer* pDataBuffer) +{ + ma_resource_manager_data_source_config config; + + config = ma_resource_manager_data_source_config_init(); + config.pFilePathW = pFilePath; + config.flags = flags; + config.pNotifications = pNotifications; + + return ma_resource_manager_data_buffer_init_ex(pResourceManager, &config, pDataBuffer); +} + +MA_API ma_result ma_resource_manager_data_buffer_init_copy(ma_resource_manager* pResourceManager, const ma_resource_manager_data_buffer* pExistingDataBuffer, ma_resource_manager_data_buffer* pDataBuffer) +{ + ma_resource_manager_data_source_config config; + + if (pExistingDataBuffer == NULL) { + return MA_INVALID_ARGS; + } + + MA_ASSERT(pExistingDataBuffer->pNode != NULL); /* <-- If you've triggered this, you've passed in an invalid existing data buffer. */ + + config = ma_resource_manager_data_source_config_init(); + config.flags = pExistingDataBuffer->flags; + + return ma_resource_manager_data_buffer_init_ex_internal(pResourceManager, &config, pExistingDataBuffer->pNode->hashedName32, pDataBuffer); +} + +static ma_result ma_resource_manager_data_buffer_uninit_internal(ma_resource_manager_data_buffer* pDataBuffer) +{ + MA_ASSERT(pDataBuffer != NULL); + + /* The connector should be uninitialized first. */ + ma_resource_manager_data_buffer_uninit_connector(pDataBuffer->pResourceManager, pDataBuffer); + + /* With the connector uninitialized we can unacquire the node. */ + ma_resource_manager_data_buffer_node_unacquire(pDataBuffer->pResourceManager, pDataBuffer->pNode, NULL, NULL); + + /* The base data source needs to be uninitialized as well. */ + ma_data_source_uninit(&pDataBuffer->ds); + + return MA_SUCCESS; +} + +MA_API ma_result ma_resource_manager_data_buffer_uninit(ma_resource_manager_data_buffer* pDataBuffer) +{ + ma_result result; + + if (pDataBuffer == NULL) { + return MA_INVALID_ARGS; + } + + if (ma_resource_manager_data_buffer_result(pDataBuffer) == MA_SUCCESS) { + /* The data buffer can be deleted synchronously. */ + return ma_resource_manager_data_buffer_uninit_internal(pDataBuffer); + } else { + /* + The data buffer needs to be deleted asynchronously because it's still loading. With the status set to MA_UNAVAILABLE, no more pages will + be loaded and the uninitialization should happen fairly quickly. Since the caller owns the data buffer, we need to wait for this event + to get processed before returning. + */ + ma_resource_manager_inline_notification notification; + ma_job job; + + /* + We need to mark the node as unavailable so we don't try reading from it anymore, but also to + let the loading thread know that it needs to abort it's loading procedure. + */ + ma_atomic_exchange_i32(&pDataBuffer->result, MA_UNAVAILABLE); + + result = ma_resource_manager_inline_notification_init(pDataBuffer->pResourceManager, ¬ification); + if (result != MA_SUCCESS) { + return result; /* Failed to create the notification. This should rarely, if ever, happen. */ + } + + job = ma_job_init(MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_BUFFER); + job.order = ma_resource_manager_data_buffer_next_execution_order(pDataBuffer); + job.data.resourceManager.freeDataBuffer.pDataBuffer = pDataBuffer; + job.data.resourceManager.freeDataBuffer.pDoneNotification = ¬ification; + job.data.resourceManager.freeDataBuffer.pDoneFence = NULL; + + result = ma_resource_manager_post_job(pDataBuffer->pResourceManager, &job); + if (result != MA_SUCCESS) { + ma_resource_manager_inline_notification_uninit(¬ification); + return result; + } + + ma_resource_manager_inline_notification_wait_and_uninit(¬ification); + } + + return result; +} + +MA_API ma_result ma_resource_manager_data_buffer_read_pcm_frames(ma_resource_manager_data_buffer* pDataBuffer, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_result result = MA_SUCCESS; + ma_uint64 framesRead = 0; + ma_bool32 isDecodedBufferBusy = MA_FALSE; + + /* Safety. */ + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + /* + We cannot be using the data buffer after it's been uninitialized. If you trigger this assert it means you're trying to read from the data buffer after + it's been uninitialized or is in the process of uninitializing. + */ + MA_ASSERT(ma_resource_manager_data_buffer_node_result(pDataBuffer->pNode) != MA_UNAVAILABLE); + + /* If the node is not initialized we need to abort with a busy code. */ + if (ma_resource_manager_data_buffer_has_connector(pDataBuffer) == MA_FALSE) { + return MA_BUSY; /* Still loading. */ + } + + /* + If we've got a seek scheduled we'll want to do that before reading. However, for paged buffers, there's + a chance that the sound hasn't yet been decoded up to the seek point will result in the seek failing. If + this happens, we need to keep the seek scheduled and return MA_BUSY. + */ + if (pDataBuffer->seekToCursorOnNextRead) { + pDataBuffer->seekToCursorOnNextRead = MA_FALSE; + + result = ma_data_source_seek_to_pcm_frame(ma_resource_manager_data_buffer_get_connector(pDataBuffer), pDataBuffer->seekTargetInPCMFrames); + if (result != MA_SUCCESS) { + if (result == MA_BAD_SEEK && ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBuffer->pNode) == ma_resource_manager_data_supply_type_decoded_paged) { + pDataBuffer->seekToCursorOnNextRead = MA_TRUE; /* Keep the seek scheduled. We just haven't loaded enough data yet to do the seek properly. */ + return MA_BUSY; + } + + return result; + } + } + + /* + For decoded buffers (not paged) we need to check beforehand how many frames we have available. We cannot + exceed this amount. We'll read as much as we can, and then return MA_BUSY. + */ + if (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBuffer->pNode) == ma_resource_manager_data_supply_type_decoded) { + ma_uint64 availableFrames; + + isDecodedBufferBusy = (ma_resource_manager_data_buffer_node_result(pDataBuffer->pNode) == MA_BUSY); + + if (ma_resource_manager_data_buffer_get_available_frames(pDataBuffer, &availableFrames) == MA_SUCCESS) { + /* Don't try reading more than the available frame count if the data buffer node is still loading. */ + if (isDecodedBufferBusy) { + if (frameCount > availableFrames) { + frameCount = availableFrames; + + /* + If there's no frames available we want to set the status to MA_AT_END. The logic below + will check if the node is busy, and if so, change it to MA_BUSY. The reason we do this + is because we don't want to call `ma_data_source_read_pcm_frames()` if the frame count + is 0 because that'll result in a situation where it's possible MA_AT_END won't get + returned. + */ + if (frameCount == 0) { + result = MA_AT_END; + } + } else { + isDecodedBufferBusy = MA_FALSE; /* We have enough frames available in the buffer to avoid a MA_BUSY status. */ + } + } else { + /* + Getting here means the buffer has been fully loaded. We can just pass the frame count straight + into ma_data_source_read_pcm_frames() below and let ma_data_source handle it. + */ + } + } + } + + /* Don't attempt to read anything if we've got no frames available. */ + if (frameCount > 0) { + result = ma_data_source_read_pcm_frames(ma_resource_manager_data_buffer_get_connector(pDataBuffer), pFramesOut, frameCount, &framesRead); + } + + /* + If we returned MA_AT_END, but the node is still loading, we don't want to return that code or else the caller will interpret the sound + as at the end and terminate decoding. + */ + if (result == MA_AT_END) { + if (ma_resource_manager_data_buffer_node_result(pDataBuffer->pNode) == MA_BUSY) { + result = MA_BUSY; + } + } + + if (isDecodedBufferBusy) { + result = MA_BUSY; + } + + if (pFramesRead != NULL) { + *pFramesRead = framesRead; + } + + if (result == MA_SUCCESS && framesRead == 0) { + result = MA_AT_END; + } + + return result; +} + +MA_API ma_result ma_resource_manager_data_buffer_seek_to_pcm_frame(ma_resource_manager_data_buffer* pDataBuffer, ma_uint64 frameIndex) +{ + ma_result result; + + /* We cannot be using the data source after it's been uninitialized. */ + MA_ASSERT(ma_resource_manager_data_buffer_node_result(pDataBuffer->pNode) != MA_UNAVAILABLE); + + /* If we haven't yet got a connector we need to abort. */ + if (ma_resource_manager_data_buffer_has_connector(pDataBuffer) == MA_FALSE) { + pDataBuffer->seekTargetInPCMFrames = frameIndex; + pDataBuffer->seekToCursorOnNextRead = MA_TRUE; + return MA_BUSY; /* Still loading. */ + } + + result = ma_data_source_seek_to_pcm_frame(ma_resource_manager_data_buffer_get_connector(pDataBuffer), frameIndex); + if (result != MA_SUCCESS) { + return result; + } + + pDataBuffer->seekTargetInPCMFrames = ~(ma_uint64)0; /* <-- For identification purposes. */ + pDataBuffer->seekToCursorOnNextRead = MA_FALSE; + + return MA_SUCCESS; +} + +MA_API ma_result ma_resource_manager_data_buffer_get_data_format(ma_resource_manager_data_buffer* pDataBuffer, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + /* We cannot be using the data source after it's been uninitialized. */ + MA_ASSERT(ma_resource_manager_data_buffer_node_result(pDataBuffer->pNode) != MA_UNAVAILABLE); + + switch (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBuffer->pNode)) + { + case ma_resource_manager_data_supply_type_encoded: + { + return ma_data_source_get_data_format(&pDataBuffer->connector.decoder, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); + }; + + case ma_resource_manager_data_supply_type_decoded: + { + *pFormat = pDataBuffer->pNode->data.backend.decoded.format; + *pChannels = pDataBuffer->pNode->data.backend.decoded.channels; + *pSampleRate = pDataBuffer->pNode->data.backend.decoded.sampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, pDataBuffer->pNode->data.backend.decoded.channels); + return MA_SUCCESS; + }; + + case ma_resource_manager_data_supply_type_decoded_paged: + { + *pFormat = pDataBuffer->pNode->data.backend.decodedPaged.data.format; + *pChannels = pDataBuffer->pNode->data.backend.decodedPaged.data.channels; + *pSampleRate = pDataBuffer->pNode->data.backend.decodedPaged.sampleRate; + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, pDataBuffer->pNode->data.backend.decoded.channels); + return MA_SUCCESS; + }; + + case ma_resource_manager_data_supply_type_unknown: + { + return MA_BUSY; /* Still loading. */ + }; + + default: + { + /* Unknown supply type. Should never hit this. */ + return MA_INVALID_ARGS; + } + } +} + +MA_API ma_result ma_resource_manager_data_buffer_get_cursor_in_pcm_frames(ma_resource_manager_data_buffer* pDataBuffer, ma_uint64* pCursor) +{ + if (pDataBuffer == NULL || pCursor == NULL) { + return MA_INVALID_ARGS; + } + + /* We cannot be using the data source after it's been uninitialized. */ + MA_ASSERT(ma_resource_manager_data_buffer_node_result(pDataBuffer->pNode) != MA_UNAVAILABLE); + + *pCursor = 0; + + switch (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBuffer->pNode)) + { + case ma_resource_manager_data_supply_type_encoded: + { + return ma_decoder_get_cursor_in_pcm_frames(&pDataBuffer->connector.decoder, pCursor); + }; + + case ma_resource_manager_data_supply_type_decoded: + { + return ma_audio_buffer_get_cursor_in_pcm_frames(&pDataBuffer->connector.buffer, pCursor); + }; + + case ma_resource_manager_data_supply_type_decoded_paged: + { + return ma_paged_audio_buffer_get_cursor_in_pcm_frames(&pDataBuffer->connector.pagedBuffer, pCursor); + }; + + case ma_resource_manager_data_supply_type_unknown: + { + return MA_BUSY; + }; + + default: + { + return MA_INVALID_ARGS; + } + } +} + +MA_API ma_result ma_resource_manager_data_buffer_get_length_in_pcm_frames(ma_resource_manager_data_buffer* pDataBuffer, ma_uint64* pLength) +{ + if (pDataBuffer == NULL || pLength == NULL) { + return MA_INVALID_ARGS; + } + + /* We cannot be using the data source after it's been uninitialized. */ + MA_ASSERT(ma_resource_manager_data_buffer_node_result(pDataBuffer->pNode) != MA_UNAVAILABLE); + + if (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBuffer->pNode) == ma_resource_manager_data_supply_type_unknown) { + return MA_BUSY; /* Still loading. */ + } + + return ma_data_source_get_length_in_pcm_frames(ma_resource_manager_data_buffer_get_connector(pDataBuffer), pLength); +} + +MA_API ma_result ma_resource_manager_data_buffer_result(const ma_resource_manager_data_buffer* pDataBuffer) +{ + if (pDataBuffer == NULL) { + return MA_INVALID_ARGS; + } + + return (ma_result)ma_atomic_load_i32((ma_result*)&pDataBuffer->result); /* Need a naughty const-cast here. */ +} + +MA_API ma_result ma_resource_manager_data_buffer_set_looping(ma_resource_manager_data_buffer* pDataBuffer, ma_bool32 isLooping) +{ + return ma_data_source_set_looping(pDataBuffer, isLooping); +} + +MA_API ma_bool32 ma_resource_manager_data_buffer_is_looping(const ma_resource_manager_data_buffer* pDataBuffer) +{ + return ma_data_source_is_looping(pDataBuffer); +} + +MA_API ma_result ma_resource_manager_data_buffer_get_available_frames(ma_resource_manager_data_buffer* pDataBuffer, ma_uint64* pAvailableFrames) +{ + if (pAvailableFrames == NULL) { + return MA_INVALID_ARGS; + } + + *pAvailableFrames = 0; + + if (pDataBuffer == NULL) { + return MA_INVALID_ARGS; + } + + if (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBuffer->pNode) == ma_resource_manager_data_supply_type_unknown) { + if (ma_resource_manager_data_buffer_node_result(pDataBuffer->pNode) == MA_BUSY) { + return MA_BUSY; + } else { + return MA_INVALID_OPERATION; /* No connector. */ + } + } + + switch (ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBuffer->pNode)) + { + case ma_resource_manager_data_supply_type_encoded: + { + return ma_decoder_get_available_frames(&pDataBuffer->connector.decoder, pAvailableFrames); + }; + + case ma_resource_manager_data_supply_type_decoded: + { + return ma_audio_buffer_get_available_frames(&pDataBuffer->connector.buffer, pAvailableFrames); + }; + + case ma_resource_manager_data_supply_type_decoded_paged: + { + ma_uint64 cursor; + ma_paged_audio_buffer_get_cursor_in_pcm_frames(&pDataBuffer->connector.pagedBuffer, &cursor); + + if (pDataBuffer->pNode->data.backend.decodedPaged.decodedFrameCount > cursor) { + *pAvailableFrames = pDataBuffer->pNode->data.backend.decodedPaged.decodedFrameCount - cursor; + } else { + *pAvailableFrames = 0; + } + + return MA_SUCCESS; + }; + + case ma_resource_manager_data_supply_type_unknown: + default: + { + /* Unknown supply type. Should never hit this. */ + return MA_INVALID_ARGS; + } + } +} + +MA_API ma_result ma_resource_manager_register_file(ma_resource_manager* pResourceManager, const char* pFilePath, ma_uint32 flags) +{ + return ma_resource_manager_data_buffer_node_acquire(pResourceManager, pFilePath, NULL, 0, flags, NULL, NULL, NULL, NULL); +} + +MA_API ma_result ma_resource_manager_register_file_w(ma_resource_manager* pResourceManager, const wchar_t* pFilePath, ma_uint32 flags) +{ + return ma_resource_manager_data_buffer_node_acquire(pResourceManager, NULL, pFilePath, 0, flags, NULL, NULL, NULL, NULL); +} + + +static ma_result ma_resource_manager_register_data(ma_resource_manager* pResourceManager, const char* pName, const wchar_t* pNameW, ma_resource_manager_data_supply* pExistingData) +{ + return ma_resource_manager_data_buffer_node_acquire(pResourceManager, pName, pNameW, 0, 0, pExistingData, NULL, NULL, NULL); +} + +static ma_result ma_resource_manager_register_decoded_data_internal(ma_resource_manager* pResourceManager, const char* pName, const wchar_t* pNameW, const void* pData, ma_uint64 frameCount, ma_format format, ma_uint32 channels, ma_uint32 sampleRate) +{ + ma_resource_manager_data_supply data; + data.type = ma_resource_manager_data_supply_type_decoded; + data.backend.decoded.pData = pData; + data.backend.decoded.totalFrameCount = frameCount; + data.backend.decoded.format = format; + data.backend.decoded.channels = channels; + data.backend.decoded.sampleRate = sampleRate; + + return ma_resource_manager_register_data(pResourceManager, pName, pNameW, &data); +} + +MA_API ma_result ma_resource_manager_register_decoded_data(ma_resource_manager* pResourceManager, const char* pName, const void* pData, ma_uint64 frameCount, ma_format format, ma_uint32 channels, ma_uint32 sampleRate) +{ + return ma_resource_manager_register_decoded_data_internal(pResourceManager, pName, NULL, pData, frameCount, format, channels, sampleRate); +} + +MA_API ma_result ma_resource_manager_register_decoded_data_w(ma_resource_manager* pResourceManager, const wchar_t* pName, const void* pData, ma_uint64 frameCount, ma_format format, ma_uint32 channels, ma_uint32 sampleRate) +{ + return ma_resource_manager_register_decoded_data_internal(pResourceManager, NULL, pName, pData, frameCount, format, channels, sampleRate); +} + + +static ma_result ma_resource_manager_register_encoded_data_internal(ma_resource_manager* pResourceManager, const char* pName, const wchar_t* pNameW, const void* pData, size_t sizeInBytes) +{ + ma_resource_manager_data_supply data; + data.type = ma_resource_manager_data_supply_type_encoded; + data.backend.encoded.pData = pData; + data.backend.encoded.sizeInBytes = sizeInBytes; + + return ma_resource_manager_register_data(pResourceManager, pName, pNameW, &data); +} + +MA_API ma_result ma_resource_manager_register_encoded_data(ma_resource_manager* pResourceManager, const char* pName, const void* pData, size_t sizeInBytes) +{ + return ma_resource_manager_register_encoded_data_internal(pResourceManager, pName, NULL, pData, sizeInBytes); +} + +MA_API ma_result ma_resource_manager_register_encoded_data_w(ma_resource_manager* pResourceManager, const wchar_t* pName, const void* pData, size_t sizeInBytes) +{ + return ma_resource_manager_register_encoded_data_internal(pResourceManager, NULL, pName, pData, sizeInBytes); +} + + +MA_API ma_result ma_resource_manager_unregister_file(ma_resource_manager* pResourceManager, const char* pFilePath) +{ + return ma_resource_manager_unregister_data(pResourceManager, pFilePath); +} + +MA_API ma_result ma_resource_manager_unregister_file_w(ma_resource_manager* pResourceManager, const wchar_t* pFilePath) +{ + return ma_resource_manager_unregister_data_w(pResourceManager, pFilePath); +} + +MA_API ma_result ma_resource_manager_unregister_data(ma_resource_manager* pResourceManager, const char* pName) +{ + return ma_resource_manager_data_buffer_node_unacquire(pResourceManager, NULL, pName, NULL); +} + +MA_API ma_result ma_resource_manager_unregister_data_w(ma_resource_manager* pResourceManager, const wchar_t* pName) +{ + return ma_resource_manager_data_buffer_node_unacquire(pResourceManager, NULL, NULL, pName); +} + + +static ma_uint32 ma_resource_manager_data_stream_next_execution_order(ma_resource_manager_data_stream* pDataStream) +{ + MA_ASSERT(pDataStream != NULL); + return ma_atomic_fetch_add_32(&pDataStream->executionCounter, 1); +} + +static ma_bool32 ma_resource_manager_data_stream_is_decoder_at_end(const ma_resource_manager_data_stream* pDataStream) +{ + MA_ASSERT(pDataStream != NULL); + return ma_atomic_load_32((ma_bool32*)&pDataStream->isDecoderAtEnd); +} + +static ma_uint32 ma_resource_manager_data_stream_seek_counter(const ma_resource_manager_data_stream* pDataStream) +{ + MA_ASSERT(pDataStream != NULL); + return ma_atomic_load_32((ma_uint32*)&pDataStream->seekCounter); +} + + +static ma_result ma_resource_manager_data_stream_cb__read_pcm_frames(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + return ma_resource_manager_data_stream_read_pcm_frames((ma_resource_manager_data_stream*)pDataSource, pFramesOut, frameCount, pFramesRead); +} + +static ma_result ma_resource_manager_data_stream_cb__seek_to_pcm_frame(ma_data_source* pDataSource, ma_uint64 frameIndex) +{ + return ma_resource_manager_data_stream_seek_to_pcm_frame((ma_resource_manager_data_stream*)pDataSource, frameIndex); +} + +static ma_result ma_resource_manager_data_stream_cb__get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + return ma_resource_manager_data_stream_get_data_format((ma_resource_manager_data_stream*)pDataSource, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); +} + +static ma_result ma_resource_manager_data_stream_cb__get_cursor_in_pcm_frames(ma_data_source* pDataSource, ma_uint64* pCursor) +{ + return ma_resource_manager_data_stream_get_cursor_in_pcm_frames((ma_resource_manager_data_stream*)pDataSource, pCursor); +} + +static ma_result ma_resource_manager_data_stream_cb__get_length_in_pcm_frames(ma_data_source* pDataSource, ma_uint64* pLength) +{ + return ma_resource_manager_data_stream_get_length_in_pcm_frames((ma_resource_manager_data_stream*)pDataSource, pLength); +} + +static ma_result ma_resource_manager_data_stream_cb__set_looping(ma_data_source* pDataSource, ma_bool32 isLooping) +{ + ma_resource_manager_data_stream* pDataStream = (ma_resource_manager_data_stream*)pDataSource; + MA_ASSERT(pDataStream != NULL); + + ma_atomic_exchange_32(&pDataStream->isLooping, isLooping); + + return MA_SUCCESS; +} + +static ma_data_source_vtable g_ma_resource_manager_data_stream_vtable = +{ + ma_resource_manager_data_stream_cb__read_pcm_frames, + ma_resource_manager_data_stream_cb__seek_to_pcm_frame, + ma_resource_manager_data_stream_cb__get_data_format, + ma_resource_manager_data_stream_cb__get_cursor_in_pcm_frames, + ma_resource_manager_data_stream_cb__get_length_in_pcm_frames, + ma_resource_manager_data_stream_cb__set_looping, + 0 /*MA_DATA_SOURCE_SELF_MANAGED_RANGE_AND_LOOP_POINT*/ +}; + +static void ma_resource_manager_data_stream_set_absolute_cursor(ma_resource_manager_data_stream* pDataStream, ma_uint64 absoluteCursor) +{ + /* Loop if possible. */ + if (absoluteCursor > pDataStream->totalLengthInPCMFrames && pDataStream->totalLengthInPCMFrames > 0) { + absoluteCursor = absoluteCursor % pDataStream->totalLengthInPCMFrames; + } + + ma_atomic_exchange_64(&pDataStream->absoluteCursor, absoluteCursor); +} + +MA_API ma_result ma_resource_manager_data_stream_init_ex(ma_resource_manager* pResourceManager, const ma_resource_manager_data_source_config* pConfig, ma_resource_manager_data_stream* pDataStream) +{ + ma_result result; + ma_data_source_config dataSourceConfig; + char* pFilePathCopy = NULL; + wchar_t* pFilePathWCopy = NULL; + ma_job job; + ma_bool32 waitBeforeReturning = MA_FALSE; + ma_resource_manager_inline_notification waitNotification; + ma_resource_manager_pipeline_notifications notifications; + ma_uint32 flags; + + if (pDataStream == NULL) { + if (pConfig != NULL && pConfig->pNotifications != NULL) { + ma_resource_manager_pipeline_notifications_signal_all_notifications(pConfig->pNotifications); + } + + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pDataStream); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->pNotifications != NULL) { + notifications = *pConfig->pNotifications; /* From here on out, `notifications` should be used instead of `pNotifications`. Setting this to NULL to catch any errors at testing time. */ + } else { + MA_ZERO_OBJECT(¬ifications); + } + + dataSourceConfig = ma_data_source_config_init(); + dataSourceConfig.vtable = &g_ma_resource_manager_data_stream_vtable; + + result = ma_data_source_init(&dataSourceConfig, &pDataStream->ds); + if (result != MA_SUCCESS) { + ma_resource_manager_pipeline_notifications_signal_all_notifications(¬ifications); + return result; + } + + flags = pConfig->flags; + if (pConfig->isLooping) { + flags |= MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING; + } + + pDataStream->pResourceManager = pResourceManager; + pDataStream->flags = pConfig->flags; + pDataStream->result = MA_BUSY; + + ma_data_source_set_range_in_pcm_frames(pDataStream, pConfig->rangeBegInPCMFrames, pConfig->rangeEndInPCMFrames); + ma_data_source_set_loop_point_in_pcm_frames(pDataStream, pConfig->loopPointBegInPCMFrames, pConfig->loopPointEndInPCMFrames); + ma_data_source_set_looping(pDataStream, (flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING) != 0); + + if (pResourceManager == NULL || (pConfig->pFilePath == NULL && pConfig->pFilePathW == NULL)) { + ma_resource_manager_pipeline_notifications_signal_all_notifications(¬ifications); + return MA_INVALID_ARGS; + } + + /* We want all access to the VFS and the internal decoder to happen on the job thread just to keep things easier to manage for the VFS. */ + + /* We need a copy of the file path. We should probably make this more efficient, but for now we'll do a transient memory allocation. */ + if (pConfig->pFilePath != NULL) { + pFilePathCopy = ma_copy_string(pConfig->pFilePath, &pResourceManager->config.allocationCallbacks); + } else { + pFilePathWCopy = ma_copy_string_w(pConfig->pFilePathW, &pResourceManager->config.allocationCallbacks); + } + + if (pFilePathCopy == NULL && pFilePathWCopy == NULL) { + ma_resource_manager_pipeline_notifications_signal_all_notifications(¬ifications); + return MA_OUT_OF_MEMORY; + } + + /* + We need to check for the presence of MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC. If it's not set, we need to wait before returning. Otherwise we + can return immediately. Likewise, we'll also check for MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT and do the same. + */ + if ((pConfig->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC) == 0 || (pConfig->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { + waitBeforeReturning = MA_TRUE; + ma_resource_manager_inline_notification_init(pResourceManager, &waitNotification); + } + + ma_resource_manager_pipeline_notifications_acquire_all_fences(¬ifications); + + /* Set the absolute cursor to our initial seek position so retrieval of the cursor returns a good value. */ + ma_resource_manager_data_stream_set_absolute_cursor(pDataStream, pConfig->initialSeekPointInPCMFrames); + + /* We now have everything we need to post the job. This is the last thing we need to do from here. The rest will be done by the job thread. */ + job = ma_job_init(MA_JOB_TYPE_RESOURCE_MANAGER_LOAD_DATA_STREAM); + job.order = ma_resource_manager_data_stream_next_execution_order(pDataStream); + job.data.resourceManager.loadDataStream.pDataStream = pDataStream; + job.data.resourceManager.loadDataStream.pFilePath = pFilePathCopy; + job.data.resourceManager.loadDataStream.pFilePathW = pFilePathWCopy; + job.data.resourceManager.loadDataStream.initialSeekPoint = pConfig->initialSeekPointInPCMFrames; + job.data.resourceManager.loadDataStream.pInitNotification = (waitBeforeReturning == MA_TRUE) ? &waitNotification : notifications.init.pNotification; + job.data.resourceManager.loadDataStream.pInitFence = notifications.init.pFence; + result = ma_resource_manager_post_job(pResourceManager, &job); + if (result != MA_SUCCESS) { + ma_resource_manager_pipeline_notifications_signal_all_notifications(¬ifications); + ma_resource_manager_pipeline_notifications_release_all_fences(¬ifications); + + if (waitBeforeReturning) { + ma_resource_manager_inline_notification_uninit(&waitNotification); + } + + ma_free(pFilePathCopy, &pResourceManager->config.allocationCallbacks); + ma_free(pFilePathWCopy, &pResourceManager->config.allocationCallbacks); + return result; + } + + /* Wait if needed. */ + if (waitBeforeReturning) { + ma_resource_manager_inline_notification_wait_and_uninit(&waitNotification); + + if (notifications.init.pNotification != NULL) { + ma_async_notification_signal(notifications.init.pNotification); + } + + /* + If there was an error during initialization make sure we return that result here. We don't want to do this + if we're not waiting because it will most likely be in a busy state. + */ + if (pDataStream->result != MA_SUCCESS) { + return pDataStream->result; + } + + /* NOTE: Do not release pInitFence here. That will be done by the job. */ + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_resource_manager_data_stream_init(ma_resource_manager* pResourceManager, const char* pFilePath, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_stream* pDataStream) +{ + ma_resource_manager_data_source_config config; + + config = ma_resource_manager_data_source_config_init(); + config.pFilePath = pFilePath; + config.flags = flags; + config.pNotifications = pNotifications; + + return ma_resource_manager_data_stream_init_ex(pResourceManager, &config, pDataStream); +} + +MA_API ma_result ma_resource_manager_data_stream_init_w(ma_resource_manager* pResourceManager, const wchar_t* pFilePath, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_stream* pDataStream) +{ + ma_resource_manager_data_source_config config; + + config = ma_resource_manager_data_source_config_init(); + config.pFilePathW = pFilePath; + config.flags = flags; + config.pNotifications = pNotifications; + + return ma_resource_manager_data_stream_init_ex(pResourceManager, &config, pDataStream); +} + +MA_API ma_result ma_resource_manager_data_stream_uninit(ma_resource_manager_data_stream* pDataStream) +{ + ma_resource_manager_inline_notification freeEvent; + ma_job job; + + if (pDataStream == NULL) { + return MA_INVALID_ARGS; + } + + /* The first thing to do is set the result to unavailable. This will prevent future page decoding. */ + ma_atomic_exchange_i32(&pDataStream->result, MA_UNAVAILABLE); + + /* + We need to post a job to ensure we're not in the middle or decoding or anything. Because the object is owned by the caller, we'll need + to wait for it to complete before returning which means we need an event. + */ + ma_resource_manager_inline_notification_init(pDataStream->pResourceManager, &freeEvent); + + job = ma_job_init(MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_STREAM); + job.order = ma_resource_manager_data_stream_next_execution_order(pDataStream); + job.data.resourceManager.freeDataStream.pDataStream = pDataStream; + job.data.resourceManager.freeDataStream.pDoneNotification = &freeEvent; + job.data.resourceManager.freeDataStream.pDoneFence = NULL; + ma_resource_manager_post_job(pDataStream->pResourceManager, &job); + + /* We need to wait for the job to finish processing before we return. */ + ma_resource_manager_inline_notification_wait_and_uninit(&freeEvent); + + return MA_SUCCESS; +} + + +static ma_uint32 ma_resource_manager_data_stream_get_page_size_in_frames(ma_resource_manager_data_stream* pDataStream) +{ + MA_ASSERT(pDataStream != NULL); + MA_ASSERT(pDataStream->isDecoderInitialized == MA_TRUE); + + return MA_RESOURCE_MANAGER_PAGE_SIZE_IN_MILLISECONDS * (pDataStream->decoder.outputSampleRate/1000); +} + +static void* ma_resource_manager_data_stream_get_page_data_pointer(ma_resource_manager_data_stream* pDataStream, ma_uint32 pageIndex, ma_uint32 relativeCursor) +{ + MA_ASSERT(pDataStream != NULL); + MA_ASSERT(pDataStream->isDecoderInitialized == MA_TRUE); + MA_ASSERT(pageIndex == 0 || pageIndex == 1); + + return ma_offset_ptr(pDataStream->pPageData, ((ma_resource_manager_data_stream_get_page_size_in_frames(pDataStream) * pageIndex) + relativeCursor) * ma_get_bytes_per_frame(pDataStream->decoder.outputFormat, pDataStream->decoder.outputChannels)); +} + +static void ma_resource_manager_data_stream_fill_page(ma_resource_manager_data_stream* pDataStream, ma_uint32 pageIndex) +{ + ma_result result = MA_SUCCESS; + ma_uint64 pageSizeInFrames; + ma_uint64 totalFramesReadForThisPage = 0; + void* pPageData = ma_resource_manager_data_stream_get_page_data_pointer(pDataStream, pageIndex, 0); + + pageSizeInFrames = ma_resource_manager_data_stream_get_page_size_in_frames(pDataStream); + + /* The decoder needs to inherit the stream's looping and range state. */ + { + ma_uint64 rangeBeg; + ma_uint64 rangeEnd; + ma_uint64 loopPointBeg; + ma_uint64 loopPointEnd; + + ma_data_source_set_looping(&pDataStream->decoder, ma_resource_manager_data_stream_is_looping(pDataStream)); + + ma_data_source_get_range_in_pcm_frames(pDataStream, &rangeBeg, &rangeEnd); + ma_data_source_set_range_in_pcm_frames(&pDataStream->decoder, rangeBeg, rangeEnd); + + ma_data_source_get_loop_point_in_pcm_frames(pDataStream, &loopPointBeg, &loopPointEnd); + ma_data_source_set_loop_point_in_pcm_frames(&pDataStream->decoder, loopPointBeg, loopPointEnd); + } + + /* Just read straight from the decoder. It will deal with ranges and looping for us. */ + result = ma_data_source_read_pcm_frames(&pDataStream->decoder, pPageData, pageSizeInFrames, &totalFramesReadForThisPage); + if (result == MA_AT_END || totalFramesReadForThisPage < pageSizeInFrames) { + ma_atomic_exchange_32(&pDataStream->isDecoderAtEnd, MA_TRUE); + } + + ma_atomic_exchange_32(&pDataStream->pageFrameCount[pageIndex], (ma_uint32)totalFramesReadForThisPage); + ma_atomic_exchange_32(&pDataStream->isPageValid[pageIndex], MA_TRUE); +} + +static void ma_resource_manager_data_stream_fill_pages(ma_resource_manager_data_stream* pDataStream) +{ + ma_uint32 iPage; + + MA_ASSERT(pDataStream != NULL); + + for (iPage = 0; iPage < 2; iPage += 1) { + ma_resource_manager_data_stream_fill_page(pDataStream, iPage); + } +} + + +static ma_result ma_resource_manager_data_stream_map(ma_resource_manager_data_stream* pDataStream, void** ppFramesOut, ma_uint64* pFrameCount) +{ + ma_uint64 framesAvailable; + ma_uint64 frameCount = 0; + + /* We cannot be using the data source after it's been uninitialized. */ + MA_ASSERT(ma_resource_manager_data_stream_result(pDataStream) != MA_UNAVAILABLE); + + if (pFrameCount != NULL) { + frameCount = *pFrameCount; + *pFrameCount = 0; + } + if (ppFramesOut != NULL) { + *ppFramesOut = NULL; + } + + if (pDataStream == NULL || ppFramesOut == NULL || pFrameCount == NULL) { + return MA_INVALID_ARGS; + } + + if (ma_resource_manager_data_stream_result(pDataStream) != MA_SUCCESS) { + return MA_INVALID_OPERATION; + } + + /* Don't attempt to read while we're in the middle of seeking. Tell the caller that we're busy. */ + if (ma_resource_manager_data_stream_seek_counter(pDataStream) > 0) { + return MA_BUSY; + } + + /* If the page we're on is invalid it means we've caught up to the job thread. */ + if (ma_atomic_load_32(&pDataStream->isPageValid[pDataStream->currentPageIndex]) == MA_FALSE) { + framesAvailable = 0; + } else { + /* + The page we're on is valid so we must have some frames available. We need to make sure that we don't overflow into the next page, even if it's valid. The reason is + that the unmap process will only post an update for one page at a time. Keeping mapping tied to page boundaries makes this simpler. + */ + ma_uint32 currentPageFrameCount = ma_atomic_load_32(&pDataStream->pageFrameCount[pDataStream->currentPageIndex]); + MA_ASSERT(currentPageFrameCount >= pDataStream->relativeCursor); + + framesAvailable = currentPageFrameCount - pDataStream->relativeCursor; + } + + /* If there's no frames available and the result is set to MA_AT_END we need to return MA_AT_END. */ + if (framesAvailable == 0) { + if (ma_resource_manager_data_stream_is_decoder_at_end(pDataStream)) { + return MA_AT_END; + } else { + return MA_BUSY; /* There are no frames available, but we're not marked as EOF so we might have caught up to the job thread. Need to return MA_BUSY and wait for more data. */ + } + } + + MA_ASSERT(framesAvailable > 0); + + if (frameCount > framesAvailable) { + frameCount = framesAvailable; + } + + *ppFramesOut = ma_resource_manager_data_stream_get_page_data_pointer(pDataStream, pDataStream->currentPageIndex, pDataStream->relativeCursor); + *pFrameCount = frameCount; + + return MA_SUCCESS; +} + +static ma_result ma_resource_manager_data_stream_unmap(ma_resource_manager_data_stream* pDataStream, ma_uint64 frameCount) +{ + ma_uint32 newRelativeCursor; + ma_uint32 pageSizeInFrames; + ma_job job; + + /* We cannot be using the data source after it's been uninitialized. */ + MA_ASSERT(ma_resource_manager_data_stream_result(pDataStream) != MA_UNAVAILABLE); + + if (pDataStream == NULL) { + return MA_INVALID_ARGS; + } + + if (ma_resource_manager_data_stream_result(pDataStream) != MA_SUCCESS) { + return MA_INVALID_OPERATION; + } + + /* The frame count should always fit inside a 32-bit integer. */ + if (frameCount > 0xFFFFFFFF) { + return MA_INVALID_ARGS; + } + + pageSizeInFrames = ma_resource_manager_data_stream_get_page_size_in_frames(pDataStream); + + /* The absolute cursor needs to be updated for ma_resource_manager_data_stream_get_cursor_in_pcm_frames(). */ + ma_resource_manager_data_stream_set_absolute_cursor(pDataStream, ma_atomic_load_64(&pDataStream->absoluteCursor) + frameCount); + + /* Here is where we need to check if we need to load a new page, and if so, post a job to load it. */ + newRelativeCursor = pDataStream->relativeCursor + (ma_uint32)frameCount; + + /* If the new cursor has flowed over to the next page we need to mark the old one as invalid and post an event for it. */ + if (newRelativeCursor >= pageSizeInFrames) { + newRelativeCursor -= pageSizeInFrames; + + /* Here is where we post the job start decoding. */ + job = ma_job_init(MA_JOB_TYPE_RESOURCE_MANAGER_PAGE_DATA_STREAM); + job.order = ma_resource_manager_data_stream_next_execution_order(pDataStream); + job.data.resourceManager.pageDataStream.pDataStream = pDataStream; + job.data.resourceManager.pageDataStream.pageIndex = pDataStream->currentPageIndex; + + /* The page needs to be marked as invalid so that the public API doesn't try reading from it. */ + ma_atomic_exchange_32(&pDataStream->isPageValid[pDataStream->currentPageIndex], MA_FALSE); + + /* Before posting the job we need to make sure we set some state. */ + pDataStream->relativeCursor = newRelativeCursor; + pDataStream->currentPageIndex = (pDataStream->currentPageIndex + 1) & 0x01; + return ma_resource_manager_post_job(pDataStream->pResourceManager, &job); + } else { + /* We haven't moved into a new page so we can just move the cursor forward. */ + pDataStream->relativeCursor = newRelativeCursor; + return MA_SUCCESS; + } +} + + +MA_API ma_result ma_resource_manager_data_stream_read_pcm_frames(ma_resource_manager_data_stream* pDataStream, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_result result = MA_SUCCESS; + ma_uint64 totalFramesProcessed; + ma_format format; + ma_uint32 channels; + + /* Safety. */ + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + + /* We cannot be using the data source after it's been uninitialized. */ + MA_ASSERT(ma_resource_manager_data_stream_result(pDataStream) != MA_UNAVAILABLE); + + if (pDataStream == NULL) { + return MA_INVALID_ARGS; + } + + if (ma_resource_manager_data_stream_result(pDataStream) != MA_SUCCESS) { + return MA_INVALID_OPERATION; + } + + /* Don't attempt to read while we're in the middle of seeking. Tell the caller that we're busy. */ + if (ma_resource_manager_data_stream_seek_counter(pDataStream) > 0) { + return MA_BUSY; + } + + ma_resource_manager_data_stream_get_data_format(pDataStream, &format, &channels, NULL, NULL, 0); + + /* Reading is implemented in terms of map/unmap. We need to run this in a loop because mapping is clamped against page boundaries. */ + totalFramesProcessed = 0; + while (totalFramesProcessed < frameCount) { + void* pMappedFrames; + ma_uint64 mappedFrameCount; + + mappedFrameCount = frameCount - totalFramesProcessed; + result = ma_resource_manager_data_stream_map(pDataStream, &pMappedFrames, &mappedFrameCount); + if (result != MA_SUCCESS) { + break; + } + + /* Copy the mapped data to the output buffer if we have one. It's allowed for pFramesOut to be NULL in which case a relative forward seek is performed. */ + if (pFramesOut != NULL) { + ma_copy_pcm_frames(ma_offset_pcm_frames_ptr(pFramesOut, totalFramesProcessed, format, channels), pMappedFrames, mappedFrameCount, format, channels); + } + + totalFramesProcessed += mappedFrameCount; + + result = ma_resource_manager_data_stream_unmap(pDataStream, mappedFrameCount); + if (result != MA_SUCCESS) { + break; /* This is really bad - will only get an error here if we failed to post a job to the queue for loading the next page. */ + } + } + + if (pFramesRead != NULL) { + *pFramesRead = totalFramesProcessed; + } + + if (result == MA_SUCCESS && totalFramesProcessed == 0) { + result = MA_AT_END; + } + + return result; +} + +MA_API ma_result ma_resource_manager_data_stream_seek_to_pcm_frame(ma_resource_manager_data_stream* pDataStream, ma_uint64 frameIndex) +{ + ma_job job; + ma_result streamResult; + + streamResult = ma_resource_manager_data_stream_result(pDataStream); + + /* We cannot be using the data source after it's been uninitialized. */ + MA_ASSERT(streamResult != MA_UNAVAILABLE); + + if (pDataStream == NULL) { + return MA_INVALID_ARGS; + } + + if (streamResult != MA_SUCCESS && streamResult != MA_BUSY) { + return MA_INVALID_OPERATION; + } + + /* If we're not already seeking and we're sitting on the same frame, just make this a no-op. */ + if (ma_atomic_load_32(&pDataStream->seekCounter) == 0) { + if (ma_atomic_load_64(&pDataStream->absoluteCursor) == frameIndex) { + return MA_SUCCESS; + } + } + + + /* Increment the seek counter first to indicate to read_paged_pcm_frames() and map_paged_pcm_frames() that we are in the middle of a seek and MA_BUSY should be returned. */ + ma_atomic_fetch_add_32(&pDataStream->seekCounter, 1); + + /* Update the absolute cursor so that ma_resource_manager_data_stream_get_cursor_in_pcm_frames() returns the new position. */ + ma_resource_manager_data_stream_set_absolute_cursor(pDataStream, frameIndex); + + /* + We need to clear our currently loaded pages so that the stream starts playback from the new seek point as soon as possible. These are for the purpose of the public + API and will be ignored by the seek job. The seek job will operate on the assumption that both pages have been marked as invalid and the cursor is at the start of + the first page. + */ + pDataStream->relativeCursor = 0; + pDataStream->currentPageIndex = 0; + ma_atomic_exchange_32(&pDataStream->isPageValid[0], MA_FALSE); + ma_atomic_exchange_32(&pDataStream->isPageValid[1], MA_FALSE); + + /* Make sure the data stream is not marked as at the end or else if we seek in response to hitting the end, we won't be able to read any more data. */ + ma_atomic_exchange_32(&pDataStream->isDecoderAtEnd, MA_FALSE); + + /* + The public API is not allowed to touch the internal decoder so we need to use a job to perform the seek. When seeking, the job thread will assume both pages + are invalid and any content contained within them will be discarded and replaced with newly decoded data. + */ + job = ma_job_init(MA_JOB_TYPE_RESOURCE_MANAGER_SEEK_DATA_STREAM); + job.order = ma_resource_manager_data_stream_next_execution_order(pDataStream); + job.data.resourceManager.seekDataStream.pDataStream = pDataStream; + job.data.resourceManager.seekDataStream.frameIndex = frameIndex; + return ma_resource_manager_post_job(pDataStream->pResourceManager, &job); +} + +MA_API ma_result ma_resource_manager_data_stream_get_data_format(ma_resource_manager_data_stream* pDataStream, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + /* We cannot be using the data source after it's been uninitialized. */ + MA_ASSERT(ma_resource_manager_data_stream_result(pDataStream) != MA_UNAVAILABLE); + + if (pFormat != NULL) { + *pFormat = ma_format_unknown; + } + + if (pChannels != NULL) { + *pChannels = 0; + } + + if (pSampleRate != NULL) { + *pSampleRate = 0; + } + + if (pChannelMap != NULL) { + MA_ZERO_MEMORY(pChannelMap, sizeof(*pChannelMap) * channelMapCap); + } + + if (pDataStream == NULL) { + return MA_INVALID_ARGS; + } + + if (ma_resource_manager_data_stream_result(pDataStream) != MA_SUCCESS) { + return MA_INVALID_OPERATION; + } + + /* + We're being a little bit naughty here and accessing the internal decoder from the public API. The output data format is constant, and we've defined this function + such that the application is responsible for ensuring it's not called while uninitializing so it should be safe. + */ + return ma_data_source_get_data_format(&pDataStream->decoder, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); +} + +MA_API ma_result ma_resource_manager_data_stream_get_cursor_in_pcm_frames(ma_resource_manager_data_stream* pDataStream, ma_uint64* pCursor) +{ + ma_result result; + + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + + *pCursor = 0; + + /* We cannot be using the data source after it's been uninitialized. */ + MA_ASSERT(ma_resource_manager_data_stream_result(pDataStream) != MA_UNAVAILABLE); + + if (pDataStream == NULL) { + return MA_INVALID_ARGS; + } + + /* + If the stream is in an erroneous state we need to return an invalid operation. We can allow + this to be called when the data stream is in a busy state because the caller may have asked + for an initial seek position and it's convenient to return that as the cursor position. + */ + result = ma_resource_manager_data_stream_result(pDataStream); + if (result != MA_SUCCESS && result != MA_BUSY) { + return MA_INVALID_OPERATION; + } + + *pCursor = ma_atomic_load_64(&pDataStream->absoluteCursor); + + return MA_SUCCESS; +} + +MA_API ma_result ma_resource_manager_data_stream_get_length_in_pcm_frames(ma_resource_manager_data_stream* pDataStream, ma_uint64* pLength) +{ + ma_result streamResult; + + if (pLength == NULL) { + return MA_INVALID_ARGS; + } + + *pLength = 0; + + streamResult = ma_resource_manager_data_stream_result(pDataStream); + + /* We cannot be using the data source after it's been uninitialized. */ + MA_ASSERT(streamResult != MA_UNAVAILABLE); + + if (pDataStream == NULL) { + return MA_INVALID_ARGS; + } + + if (streamResult != MA_SUCCESS) { + return streamResult; + } + + /* + We most definitely do not want to be calling ma_decoder_get_length_in_pcm_frames() directly. Instead we want to use a cached value that we + calculated when we initialized it on the job thread. + */ + *pLength = pDataStream->totalLengthInPCMFrames; + if (*pLength == 0) { + return MA_NOT_IMPLEMENTED; /* Some decoders may not have a known length. */ + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_resource_manager_data_stream_result(const ma_resource_manager_data_stream* pDataStream) +{ + if (pDataStream == NULL) { + return MA_INVALID_ARGS; + } + + return (ma_result)ma_atomic_load_i32(&pDataStream->result); +} + +MA_API ma_result ma_resource_manager_data_stream_set_looping(ma_resource_manager_data_stream* pDataStream, ma_bool32 isLooping) +{ + return ma_data_source_set_looping(pDataStream, isLooping); +} + +MA_API ma_bool32 ma_resource_manager_data_stream_is_looping(const ma_resource_manager_data_stream* pDataStream) +{ + if (pDataStream == NULL) { + return MA_FALSE; + } + + return ma_atomic_load_32((ma_bool32*)&pDataStream->isLooping); /* Naughty const-cast. Value won't change from here in practice (maybe from another thread). */ +} + +MA_API ma_result ma_resource_manager_data_stream_get_available_frames(ma_resource_manager_data_stream* pDataStream, ma_uint64* pAvailableFrames) +{ + ma_uint32 pageIndex0; + ma_uint32 pageIndex1; + ma_uint32 relativeCursor; + ma_uint64 availableFrames; + + if (pAvailableFrames == NULL) { + return MA_INVALID_ARGS; + } + + *pAvailableFrames = 0; + + if (pDataStream == NULL) { + return MA_INVALID_ARGS; + } + + pageIndex0 = pDataStream->currentPageIndex; + pageIndex1 = (pDataStream->currentPageIndex + 1) & 0x01; + relativeCursor = pDataStream->relativeCursor; + + availableFrames = 0; + if (ma_atomic_load_32(&pDataStream->isPageValid[pageIndex0])) { + availableFrames += ma_atomic_load_32(&pDataStream->pageFrameCount[pageIndex0]) - relativeCursor; + if (ma_atomic_load_32(&pDataStream->isPageValid[pageIndex1])) { + availableFrames += ma_atomic_load_32(&pDataStream->pageFrameCount[pageIndex1]); + } + } + + *pAvailableFrames = availableFrames; + return MA_SUCCESS; +} + + +static ma_result ma_resource_manager_data_source_preinit(ma_resource_manager* pResourceManager, const ma_resource_manager_data_source_config* pConfig, ma_resource_manager_data_source* pDataSource) +{ + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pDataSource); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pResourceManager == NULL) { + return MA_INVALID_ARGS; + } + + pDataSource->flags = pConfig->flags; + if (pConfig->isLooping) { + pDataSource->flags |= MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_resource_manager_data_source_init_ex(ma_resource_manager* pResourceManager, const ma_resource_manager_data_source_config* pConfig, ma_resource_manager_data_source* pDataSource) +{ + ma_result result; + + result = ma_resource_manager_data_source_preinit(pResourceManager, pConfig, pDataSource); + if (result != MA_SUCCESS) { + return result; + } + + /* The data source itself is just a data stream or a data buffer. */ + if ((pConfig->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_init_ex(pResourceManager, pConfig, &pDataSource->backend.stream); + } else { + return ma_resource_manager_data_buffer_init_ex(pResourceManager, pConfig, &pDataSource->backend.buffer); + } +} + +MA_API ma_result ma_resource_manager_data_source_init(ma_resource_manager* pResourceManager, const char* pName, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_source* pDataSource) +{ + ma_resource_manager_data_source_config config; + + config = ma_resource_manager_data_source_config_init(); + config.pFilePath = pName; + config.flags = flags; + config.pNotifications = pNotifications; + + return ma_resource_manager_data_source_init_ex(pResourceManager, &config, pDataSource); +} + +MA_API ma_result ma_resource_manager_data_source_init_w(ma_resource_manager* pResourceManager, const wchar_t* pName, ma_uint32 flags, const ma_resource_manager_pipeline_notifications* pNotifications, ma_resource_manager_data_source* pDataSource) +{ + ma_resource_manager_data_source_config config; + + config = ma_resource_manager_data_source_config_init(); + config.pFilePathW = pName; + config.flags = flags; + config.pNotifications = pNotifications; + + return ma_resource_manager_data_source_init_ex(pResourceManager, &config, pDataSource); +} + +MA_API ma_result ma_resource_manager_data_source_init_copy(ma_resource_manager* pResourceManager, const ma_resource_manager_data_source* pExistingDataSource, ma_resource_manager_data_source* pDataSource) +{ + ma_result result; + ma_resource_manager_data_source_config config; + + if (pExistingDataSource == NULL) { + return MA_INVALID_ARGS; + } + + config = ma_resource_manager_data_source_config_init(); + config.flags = pExistingDataSource->flags; + + result = ma_resource_manager_data_source_preinit(pResourceManager, &config, pDataSource); + if (result != MA_SUCCESS) { + return result; + } + + /* Copying can only be done from data buffers. Streams cannot be copied. */ + if ((pExistingDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return MA_INVALID_OPERATION; + } + + return ma_resource_manager_data_buffer_init_copy(pResourceManager, &pExistingDataSource->backend.buffer, &pDataSource->backend.buffer); +} + +MA_API ma_result ma_resource_manager_data_source_uninit(ma_resource_manager_data_source* pDataSource) +{ + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + /* All we need to is uninitialize the underlying data buffer or data stream. */ + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_uninit(&pDataSource->backend.stream); + } else { + return ma_resource_manager_data_buffer_uninit(&pDataSource->backend.buffer); + } +} + +MA_API ma_result ma_resource_manager_data_source_read_pcm_frames(ma_resource_manager_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + /* Safety. */ + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_read_pcm_frames(&pDataSource->backend.stream, pFramesOut, frameCount, pFramesRead); + } else { + return ma_resource_manager_data_buffer_read_pcm_frames(&pDataSource->backend.buffer, pFramesOut, frameCount, pFramesRead); + } +} + +MA_API ma_result ma_resource_manager_data_source_seek_to_pcm_frame(ma_resource_manager_data_source* pDataSource, ma_uint64 frameIndex) +{ + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_seek_to_pcm_frame(&pDataSource->backend.stream, frameIndex); + } else { + return ma_resource_manager_data_buffer_seek_to_pcm_frame(&pDataSource->backend.buffer, frameIndex); + } +} + +MA_API ma_result ma_resource_manager_data_source_map(ma_resource_manager_data_source* pDataSource, void** ppFramesOut, ma_uint64* pFrameCount) +{ + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_map(&pDataSource->backend.stream, ppFramesOut, pFrameCount); + } else { + return MA_NOT_IMPLEMENTED; /* Mapping not supported with data buffers. */ + } +} + +MA_API ma_result ma_resource_manager_data_source_unmap(ma_resource_manager_data_source* pDataSource, ma_uint64 frameCount) +{ + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_unmap(&pDataSource->backend.stream, frameCount); + } else { + return MA_NOT_IMPLEMENTED; /* Mapping not supported with data buffers. */ + } +} + +MA_API ma_result ma_resource_manager_data_source_get_data_format(ma_resource_manager_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_get_data_format(&pDataSource->backend.stream, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); + } else { + return ma_resource_manager_data_buffer_get_data_format(&pDataSource->backend.buffer, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); + } +} + +MA_API ma_result ma_resource_manager_data_source_get_cursor_in_pcm_frames(ma_resource_manager_data_source* pDataSource, ma_uint64* pCursor) +{ + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_get_cursor_in_pcm_frames(&pDataSource->backend.stream, pCursor); + } else { + return ma_resource_manager_data_buffer_get_cursor_in_pcm_frames(&pDataSource->backend.buffer, pCursor); + } +} + +MA_API ma_result ma_resource_manager_data_source_get_length_in_pcm_frames(ma_resource_manager_data_source* pDataSource, ma_uint64* pLength) +{ + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_get_length_in_pcm_frames(&pDataSource->backend.stream, pLength); + } else { + return ma_resource_manager_data_buffer_get_length_in_pcm_frames(&pDataSource->backend.buffer, pLength); + } +} + +MA_API ma_result ma_resource_manager_data_source_result(const ma_resource_manager_data_source* pDataSource) +{ + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_result(&pDataSource->backend.stream); + } else { + return ma_resource_manager_data_buffer_result(&pDataSource->backend.buffer); + } +} + +MA_API ma_result ma_resource_manager_data_source_set_looping(ma_resource_manager_data_source* pDataSource, ma_bool32 isLooping) +{ + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_set_looping(&pDataSource->backend.stream, isLooping); + } else { + return ma_resource_manager_data_buffer_set_looping(&pDataSource->backend.buffer, isLooping); + } +} + +MA_API ma_bool32 ma_resource_manager_data_source_is_looping(const ma_resource_manager_data_source* pDataSource) +{ + if (pDataSource == NULL) { + return MA_FALSE; + } + + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_is_looping(&pDataSource->backend.stream); + } else { + return ma_resource_manager_data_buffer_is_looping(&pDataSource->backend.buffer); + } +} + +MA_API ma_result ma_resource_manager_data_source_get_available_frames(ma_resource_manager_data_source* pDataSource, ma_uint64* pAvailableFrames) +{ + if (pAvailableFrames == NULL) { + return MA_INVALID_ARGS; + } + + *pAvailableFrames = 0; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + if ((pDataSource->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM) != 0) { + return ma_resource_manager_data_stream_get_available_frames(&pDataSource->backend.stream, pAvailableFrames); + } else { + return ma_resource_manager_data_buffer_get_available_frames(&pDataSource->backend.buffer, pAvailableFrames); + } +} + + +MA_API ma_result ma_resource_manager_post_job(ma_resource_manager* pResourceManager, const ma_job* pJob) +{ + if (pResourceManager == NULL) { + return MA_INVALID_ARGS; + } + + return ma_job_queue_post(&pResourceManager->jobQueue, pJob); +} + +MA_API ma_result ma_resource_manager_post_job_quit(ma_resource_manager* pResourceManager) +{ + ma_job job = ma_job_init(MA_JOB_TYPE_QUIT); + return ma_resource_manager_post_job(pResourceManager, &job); +} + +MA_API ma_result ma_resource_manager_next_job(ma_resource_manager* pResourceManager, ma_job* pJob) +{ + if (pResourceManager == NULL) { + return MA_INVALID_ARGS; + } + + return ma_job_queue_next(&pResourceManager->jobQueue, pJob); +} + + +static ma_result ma_job_process__resource_manager__load_data_buffer_node(ma_job* pJob) +{ + ma_result result = MA_SUCCESS; + ma_resource_manager* pResourceManager; + ma_resource_manager_data_buffer_node* pDataBufferNode; + + MA_ASSERT(pJob != NULL); + + pResourceManager = (ma_resource_manager*)pJob->data.resourceManager.loadDataBufferNode.pResourceManager; + MA_ASSERT(pResourceManager != NULL); + + pDataBufferNode = (ma_resource_manager_data_buffer_node*)pJob->data.resourceManager.loadDataBufferNode.pDataBufferNode; + MA_ASSERT(pDataBufferNode != NULL); + MA_ASSERT(pDataBufferNode->isDataOwnedByResourceManager == MA_TRUE); /* The data should always be owned by the resource manager. */ + + /* The data buffer is not getting deleted, but we may be getting executed out of order. If so, we need to push the job back onto the queue and return. */ + if (pJob->order != ma_atomic_load_32(&pDataBufferNode->executionPointer)) { + return ma_resource_manager_post_job(pResourceManager, pJob); /* Attempting to execute out of order. Probably interleaved with a MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_BUFFER job. */ + } + + /* First thing we need to do is check whether or not the data buffer is getting deleted. If so we just abort. */ + if (ma_resource_manager_data_buffer_node_result(pDataBufferNode) != MA_BUSY) { + result = ma_resource_manager_data_buffer_node_result(pDataBufferNode); /* The data buffer may be getting deleted before it's even been loaded. */ + goto done; + } + + /* + We're ready to start loading. Essentially what we're doing here is initializing the data supply + of the node. Once this is complete, data buffers can have their connectors initialized which + will allow then to have audio data read from them. + + Note that when the data supply type has been moved away from "unknown", that is when other threads + will determine that the node is available for data delivery and the data buffer connectors can be + initialized. Therefore, it's important that it is set after the data supply has been initialized. + */ + if ((pJob->data.resourceManager.loadDataBufferNode.flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_DECODE) != 0) { + /* + Decoding. This is the complex case because we're not going to be doing the entire decoding + process here. Instead it's going to be split of multiple jobs and loaded in pages. The + reason for this is to evenly distribute decoding time across multiple sounds, rather than + having one huge sound hog all the available processing resources. + + The first thing we do is initialize a decoder. This is allocated on the heap and is passed + around to the paging jobs. When the last paging job has completed it's processing, it'll + free the decoder for us. + + This job does not do any actual decoding. It instead just posts a PAGE_DATA_BUFFER_NODE job + which is where the actual decoding work will be done. However, once this job is complete, + the node will be in a state where data buffer connectors can be initialized. + */ + ma_decoder* pDecoder; /* <-- Free'd on the last page decode. */ + ma_job pageDataBufferNodeJob; + + /* Allocate the decoder by initializing a decoded data supply. */ + result = ma_resource_manager_data_buffer_node_init_supply_decoded(pResourceManager, pDataBufferNode, pJob->data.resourceManager.loadDataBufferNode.pFilePath, pJob->data.resourceManager.loadDataBufferNode.pFilePathW, pJob->data.resourceManager.loadDataBufferNode.flags, &pDecoder); + + /* + Don't ever propagate an MA_BUSY result code or else the resource manager will think the + node is just busy decoding rather than in an error state. This should never happen, but + including this logic for safety just in case. + */ + if (result == MA_BUSY) { + result = MA_ERROR; + } + + if (result != MA_SUCCESS) { + if (pJob->data.resourceManager.loadDataBufferNode.pFilePath != NULL) { + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_WARNING, "Failed to initialize data supply for \"%s\". %s.\n", pJob->data.resourceManager.loadDataBufferNode.pFilePath, ma_result_description(result)); + } else { + #if (defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L) || defined(_MSC_VER) + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_WARNING, "Failed to initialize data supply for \"%ls\", %s.\n", pJob->data.resourceManager.loadDataBufferNode.pFilePathW, ma_result_description(result)); + #endif + } + + goto done; + } + + /* + At this point the node's data supply is initialized and other threads can start initializing + their data buffer connectors. However, no data will actually be available until we start to + actually decode it. To do this, we need to post a paging job which is where the decoding + work is done. + + Note that if an error occurred at an earlier point, this section will have been skipped. + */ + pageDataBufferNodeJob = ma_job_init(MA_JOB_TYPE_RESOURCE_MANAGER_PAGE_DATA_BUFFER_NODE); + pageDataBufferNodeJob.order = ma_resource_manager_data_buffer_node_next_execution_order(pDataBufferNode); + pageDataBufferNodeJob.data.resourceManager.pageDataBufferNode.pResourceManager = pResourceManager; + pageDataBufferNodeJob.data.resourceManager.pageDataBufferNode.pDataBufferNode = pDataBufferNode; + pageDataBufferNodeJob.data.resourceManager.pageDataBufferNode.pDecoder = pDecoder; + pageDataBufferNodeJob.data.resourceManager.pageDataBufferNode.pDoneNotification = pJob->data.resourceManager.loadDataBufferNode.pDoneNotification; + pageDataBufferNodeJob.data.resourceManager.pageDataBufferNode.pDoneFence = pJob->data.resourceManager.loadDataBufferNode.pDoneFence; + + /* The job has been set up so it can now be posted. */ + result = ma_resource_manager_post_job(pResourceManager, &pageDataBufferNodeJob); + + /* + When we get here, we want to make sure the result code is set to MA_BUSY. The reason for + this is that the result will be copied over to the node's internal result variable. In + this case, since the decoding is still in-progress, we need to make sure the result code + is set to MA_BUSY. + */ + if (result != MA_SUCCESS) { + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_ERROR, "Failed to post MA_JOB_TYPE_RESOURCE_MANAGER_PAGE_DATA_BUFFER_NODE job. %s\n", ma_result_description(result)); + ma_decoder_uninit(pDecoder); + ma_free(pDecoder, &pResourceManager->config.allocationCallbacks); + } else { + result = MA_BUSY; + } + } else { + /* No decoding. This is the simple case. We need only read the file content into memory and we're done. */ + result = ma_resource_manager_data_buffer_node_init_supply_encoded(pResourceManager, pDataBufferNode, pJob->data.resourceManager.loadDataBufferNode.pFilePath, pJob->data.resourceManager.loadDataBufferNode.pFilePathW); + } + + +done: + /* File paths are no longer needed. */ + ma_free(pJob->data.resourceManager.loadDataBufferNode.pFilePath, &pResourceManager->config.allocationCallbacks); + ma_free(pJob->data.resourceManager.loadDataBufferNode.pFilePathW, &pResourceManager->config.allocationCallbacks); + + /* + We need to set the result to at the very end to ensure no other threads try reading the data before we've fully initialized the object. Other threads + are going to be inspecting this variable to determine whether or not they're ready to read data. We can only change the result if it's set to MA_BUSY + because otherwise we may be changing away from an error code which would be bad. An example is if the application creates a data buffer, but then + immediately deletes it before we've got to this point. In this case, pDataBuffer->result will be MA_UNAVAILABLE, and setting it to MA_SUCCESS or any + other error code would cause the buffer to look like it's in a state that it's not. + */ + ma_atomic_compare_and_swap_i32(&pDataBufferNode->result, MA_BUSY, result); + + /* At this point initialization is complete and we can signal the notification if any. */ + if (pJob->data.resourceManager.loadDataBufferNode.pInitNotification != NULL) { + ma_async_notification_signal(pJob->data.resourceManager.loadDataBufferNode.pInitNotification); + } + if (pJob->data.resourceManager.loadDataBufferNode.pInitFence != NULL) { + ma_fence_release(pJob->data.resourceManager.loadDataBufferNode.pInitFence); + } + + /* If we have a success result it means we've fully loaded the buffer. This will happen in the non-decoding case. */ + if (result != MA_BUSY) { + if (pJob->data.resourceManager.loadDataBufferNode.pDoneNotification != NULL) { + ma_async_notification_signal(pJob->data.resourceManager.loadDataBufferNode.pDoneNotification); + } + if (pJob->data.resourceManager.loadDataBufferNode.pDoneFence != NULL) { + ma_fence_release(pJob->data.resourceManager.loadDataBufferNode.pDoneFence); + } + } + + /* Increment the node's execution pointer so that the next jobs can be processed. This is how we keep decoding of pages in-order. */ + ma_atomic_fetch_add_32(&pDataBufferNode->executionPointer, 1); + + /* A busy result should be considered successful from the point of view of the job system. */ + if (result == MA_BUSY) { + result = MA_SUCCESS; + } + + return result; +} + +static ma_result ma_job_process__resource_manager__free_data_buffer_node(ma_job* pJob) +{ + ma_resource_manager* pResourceManager; + ma_resource_manager_data_buffer_node* pDataBufferNode; + + MA_ASSERT(pJob != NULL); + + pResourceManager = (ma_resource_manager*)pJob->data.resourceManager.freeDataBufferNode.pResourceManager; + MA_ASSERT(pResourceManager != NULL); + + pDataBufferNode = (ma_resource_manager_data_buffer_node*)pJob->data.resourceManager.freeDataBufferNode.pDataBufferNode; + MA_ASSERT(pDataBufferNode != NULL); + + if (pJob->order != ma_atomic_load_32(&pDataBufferNode->executionPointer)) { + return ma_resource_manager_post_job(pResourceManager, pJob); /* Out of order. */ + } + + /* The event needs to be signalled last. */ + if (pJob->data.resourceManager.freeDataBufferNode.pDoneNotification != NULL) { + ma_async_notification_signal(pJob->data.resourceManager.freeDataBufferNode.pDoneNotification); + } + + if (pJob->data.resourceManager.freeDataBufferNode.pDoneFence != NULL) { + ma_fence_release(pJob->data.resourceManager.freeDataBufferNode.pDoneFence); + } + + ma_atomic_fetch_add_32(&pDataBufferNode->executionPointer, 1); + + ma_resource_manager_data_buffer_node_free(pResourceManager, pDataBufferNode); + + return MA_SUCCESS; +} + +static ma_result ma_job_process__resource_manager__page_data_buffer_node(ma_job* pJob) +{ + ma_result result = MA_SUCCESS; + ma_resource_manager* pResourceManager; + ma_resource_manager_data_buffer_node* pDataBufferNode; + + MA_ASSERT(pJob != NULL); + + pResourceManager = (ma_resource_manager*)pJob->data.resourceManager.pageDataBufferNode.pResourceManager; + MA_ASSERT(pResourceManager != NULL); + + pDataBufferNode = (ma_resource_manager_data_buffer_node*)pJob->data.resourceManager.pageDataBufferNode.pDataBufferNode; + MA_ASSERT(pDataBufferNode != NULL); + + if (pJob->order != ma_atomic_load_32(&pDataBufferNode->executionPointer)) { + return ma_resource_manager_post_job(pResourceManager, pJob); /* Out of order. */ + } + + /* Don't do any more decoding if the data buffer has started the uninitialization process. */ + result = ma_resource_manager_data_buffer_node_result(pDataBufferNode); + if (result != MA_BUSY) { + goto done; + } + + /* We're ready to decode the next page. */ + result = ma_resource_manager_data_buffer_node_decode_next_page(pResourceManager, pDataBufferNode, (ma_decoder*)pJob->data.resourceManager.pageDataBufferNode.pDecoder); + + /* + If we have a success code by this point, we want to post another job. We're going to set the + result back to MA_BUSY to make it clear that there's still more to load. + */ + if (result == MA_SUCCESS) { + ma_job newJob; + newJob = *pJob; /* Everything is the same as the input job, except the execution order. */ + newJob.order = ma_resource_manager_data_buffer_node_next_execution_order(pDataBufferNode); /* We need a fresh execution order. */ + + result = ma_resource_manager_post_job(pResourceManager, &newJob); + + /* Since the sound isn't yet fully decoded we want the status to be set to busy. */ + if (result == MA_SUCCESS) { + result = MA_BUSY; + } + } + +done: + /* If there's still more to decode the result will be set to MA_BUSY. Otherwise we can free the decoder. */ + if (result != MA_BUSY) { + ma_decoder_uninit((ma_decoder*)pJob->data.resourceManager.pageDataBufferNode.pDecoder); + ma_free(pJob->data.resourceManager.pageDataBufferNode.pDecoder, &pResourceManager->config.allocationCallbacks); + } + + /* If we reached the end we need to treat it as successful. */ + if (result == MA_AT_END) { + result = MA_SUCCESS; + } + + /* Make sure we set the result of node in case some error occurred. */ + ma_atomic_compare_and_swap_i32(&pDataBufferNode->result, MA_BUSY, result); + + /* Signal the notification after setting the result in case the notification callback wants to inspect the result code. */ + if (result != MA_BUSY) { + if (pJob->data.resourceManager.pageDataBufferNode.pDoneNotification != NULL) { + ma_async_notification_signal(pJob->data.resourceManager.pageDataBufferNode.pDoneNotification); + } + + if (pJob->data.resourceManager.pageDataBufferNode.pDoneFence != NULL) { + ma_fence_release(pJob->data.resourceManager.pageDataBufferNode.pDoneFence); + } + } + + ma_atomic_fetch_add_32(&pDataBufferNode->executionPointer, 1); + return result; +} + + +static ma_result ma_job_process__resource_manager__load_data_buffer(ma_job* pJob) +{ + ma_result result = MA_SUCCESS; + ma_resource_manager* pResourceManager; + ma_resource_manager_data_buffer* pDataBuffer; + ma_resource_manager_data_supply_type dataSupplyType = ma_resource_manager_data_supply_type_unknown; + ma_bool32 isConnectorInitialized = MA_FALSE; + + /* + All we're doing here is checking if the node has finished loading. If not, we just re-post the job + and keep waiting. Otherwise we increment the execution counter and set the buffer's result code. + */ + MA_ASSERT(pJob != NULL); + + pDataBuffer = (ma_resource_manager_data_buffer*)pJob->data.resourceManager.loadDataBuffer.pDataBuffer; + MA_ASSERT(pDataBuffer != NULL); + + pResourceManager = pDataBuffer->pResourceManager; + + if (pJob->order != ma_atomic_load_32(&pDataBuffer->executionPointer)) { + return ma_resource_manager_post_job(pResourceManager, pJob); /* Attempting to execute out of order. Probably interleaved with a MA_JOB_TYPE_RESOURCE_MANAGER_FREE_DATA_BUFFER job. */ + } + + /* + First thing we need to do is check whether or not the data buffer is getting deleted. If so we + just abort, but making sure we increment the execution pointer. + */ + result = ma_resource_manager_data_buffer_result(pDataBuffer); + if (result != MA_BUSY) { + goto done; /* <-- This will ensure the execution pointer is incremented. */ + } else { + result = MA_SUCCESS; /* <-- Make sure this is reset. */ + (void)result; /* <-- This is to suppress a static analysis diagnostic about "result" not being used. But for safety when I do future maintenance I don't want to delete that assignment. */ + } + + /* Try initializing the connector if we haven't already. */ + isConnectorInitialized = ma_resource_manager_data_buffer_has_connector(pDataBuffer); + if (isConnectorInitialized == MA_FALSE) { + dataSupplyType = ma_resource_manager_data_buffer_node_get_data_supply_type(pDataBuffer->pNode); + + if (dataSupplyType != ma_resource_manager_data_supply_type_unknown) { + /* We can now initialize the connector. If this fails, we need to abort. It's very rare for this to fail. */ + ma_resource_manager_data_source_config dataSourceConfig; /* For setting initial looping state and range. */ + dataSourceConfig = ma_resource_manager_data_source_config_init(); + dataSourceConfig.rangeBegInPCMFrames = pJob->data.resourceManager.loadDataBuffer.rangeBegInPCMFrames; + dataSourceConfig.rangeEndInPCMFrames = pJob->data.resourceManager.loadDataBuffer.rangeEndInPCMFrames; + dataSourceConfig.loopPointBegInPCMFrames = pJob->data.resourceManager.loadDataBuffer.loopPointBegInPCMFrames; + dataSourceConfig.loopPointEndInPCMFrames = pJob->data.resourceManager.loadDataBuffer.loopPointEndInPCMFrames; + dataSourceConfig.isLooping = pJob->data.resourceManager.loadDataBuffer.isLooping; + + result = ma_resource_manager_data_buffer_init_connector(pDataBuffer, &dataSourceConfig, pJob->data.resourceManager.loadDataBuffer.pInitNotification, pJob->data.resourceManager.loadDataBuffer.pInitFence); + if (result != MA_SUCCESS) { + ma_log_postf(ma_resource_manager_get_log(pResourceManager), MA_LOG_LEVEL_ERROR, "Failed to initialize connector for data buffer. %s.\n", ma_result_description(result)); + goto done; + } + } else { + /* Don't have a known data supply type. Most likely the data buffer node is still loading, but it could be that an error occurred. */ + } + } else { + /* The connector is already initialized. Nothing to do here. */ + } + + /* + If the data node is still loading, we need to repost the job and *not* increment the execution + pointer (i.e. we need to not fall through to the "done" label). + + There is a hole between here and the where the data connector is initialized where the data + buffer node may have finished initializing. We need to check for this by checking the result of + the data buffer node and whether or not we had an unknown data supply type at the time of + trying to initialize the data connector. + */ + result = ma_resource_manager_data_buffer_node_result(pDataBuffer->pNode); + if (result == MA_BUSY || (result == MA_SUCCESS && isConnectorInitialized == MA_FALSE && dataSupplyType == ma_resource_manager_data_supply_type_unknown)) { + return ma_resource_manager_post_job(pResourceManager, pJob); + } + +done: + /* Only move away from a busy code so that we don't trash any existing error codes. */ + ma_atomic_compare_and_swap_i32(&pDataBuffer->result, MA_BUSY, result); + + /* Only signal the other threads after the result has been set just for cleanliness sake. */ + if (pJob->data.resourceManager.loadDataBuffer.pDoneNotification != NULL) { + ma_async_notification_signal(pJob->data.resourceManager.loadDataBuffer.pDoneNotification); + } + if (pJob->data.resourceManager.loadDataBuffer.pDoneFence != NULL) { + ma_fence_release(pJob->data.resourceManager.loadDataBuffer.pDoneFence); + } + + /* + If at this point the data buffer has not had it's connector initialized, it means the + notification event was never signalled which means we need to signal it here. + */ + if (ma_resource_manager_data_buffer_has_connector(pDataBuffer) == MA_FALSE && result != MA_SUCCESS) { + if (pJob->data.resourceManager.loadDataBuffer.pInitNotification != NULL) { + ma_async_notification_signal(pJob->data.resourceManager.loadDataBuffer.pInitNotification); + } + if (pJob->data.resourceManager.loadDataBuffer.pInitFence != NULL) { + ma_fence_release(pJob->data.resourceManager.loadDataBuffer.pInitFence); + } + } + + ma_atomic_fetch_add_32(&pDataBuffer->executionPointer, 1); + return result; +} + +static ma_result ma_job_process__resource_manager__free_data_buffer(ma_job* pJob) +{ + ma_resource_manager* pResourceManager; + ma_resource_manager_data_buffer* pDataBuffer; + + MA_ASSERT(pJob != NULL); + + pDataBuffer = (ma_resource_manager_data_buffer*)pJob->data.resourceManager.freeDataBuffer.pDataBuffer; + MA_ASSERT(pDataBuffer != NULL); + + pResourceManager = pDataBuffer->pResourceManager; + + if (pJob->order != ma_atomic_load_32(&pDataBuffer->executionPointer)) { + return ma_resource_manager_post_job(pResourceManager, pJob); /* Out of order. */ + } + + ma_resource_manager_data_buffer_uninit_internal(pDataBuffer); + + /* The event needs to be signalled last. */ + if (pJob->data.resourceManager.freeDataBuffer.pDoneNotification != NULL) { + ma_async_notification_signal(pJob->data.resourceManager.freeDataBuffer.pDoneNotification); + } + + if (pJob->data.resourceManager.freeDataBuffer.pDoneFence != NULL) { + ma_fence_release(pJob->data.resourceManager.freeDataBuffer.pDoneFence); + } + + ma_atomic_fetch_add_32(&pDataBuffer->executionPointer, 1); + return MA_SUCCESS; +} + +static ma_result ma_job_process__resource_manager__load_data_stream(ma_job* pJob) +{ + ma_result result = MA_SUCCESS; + ma_decoder_config decoderConfig; + ma_uint32 pageBufferSizeInBytes; + ma_resource_manager* pResourceManager; + ma_resource_manager_data_stream* pDataStream; + + MA_ASSERT(pJob != NULL); + + pDataStream = (ma_resource_manager_data_stream*)pJob->data.resourceManager.loadDataStream.pDataStream; + MA_ASSERT(pDataStream != NULL); + + pResourceManager = pDataStream->pResourceManager; + + if (pJob->order != ma_atomic_load_32(&pDataStream->executionPointer)) { + return ma_resource_manager_post_job(pResourceManager, pJob); /* Out of order. */ + } + + if (ma_resource_manager_data_stream_result(pDataStream) != MA_BUSY) { + result = MA_INVALID_OPERATION; /* Most likely the data stream is being uninitialized. */ + goto done; + } + + /* We need to initialize the decoder first so we can determine the size of the pages. */ + decoderConfig = ma_resource_manager__init_decoder_config(pResourceManager); + + if (pJob->data.resourceManager.loadDataStream.pFilePath != NULL) { + result = ma_decoder_init_vfs(pResourceManager->config.pVFS, pJob->data.resourceManager.loadDataStream.pFilePath, &decoderConfig, &pDataStream->decoder); + } else { + result = ma_decoder_init_vfs_w(pResourceManager->config.pVFS, pJob->data.resourceManager.loadDataStream.pFilePathW, &decoderConfig, &pDataStream->decoder); + } + if (result != MA_SUCCESS) { + goto done; + } + + /* Retrieve the total length of the file before marking the decoder as loaded. */ + if ((pDataStream->flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_UNKNOWN_LENGTH) == 0) { + result = ma_decoder_get_length_in_pcm_frames(&pDataStream->decoder, &pDataStream->totalLengthInPCMFrames); + if (result != MA_SUCCESS) { + goto done; /* Failed to retrieve the length. */ + } + } else { + pDataStream->totalLengthInPCMFrames = 0; + } + + /* + Only mark the decoder as initialized when the length of the decoder has been retrieved because that can possibly require a scan over the whole file + and we don't want to have another thread trying to access the decoder while it's scanning. + */ + pDataStream->isDecoderInitialized = MA_TRUE; + + /* We have the decoder so we can now initialize our page buffer. */ + pageBufferSizeInBytes = ma_resource_manager_data_stream_get_page_size_in_frames(pDataStream) * 2 * ma_get_bytes_per_frame(pDataStream->decoder.outputFormat, pDataStream->decoder.outputChannels); + + pDataStream->pPageData = ma_malloc(pageBufferSizeInBytes, &pResourceManager->config.allocationCallbacks); + if (pDataStream->pPageData == NULL) { + ma_decoder_uninit(&pDataStream->decoder); + result = MA_OUT_OF_MEMORY; + goto done; + } + + /* Seek to our initial seek point before filling the initial pages. */ + ma_decoder_seek_to_pcm_frame(&pDataStream->decoder, pJob->data.resourceManager.loadDataStream.initialSeekPoint); + + /* We have our decoder and our page buffer, so now we need to fill our pages. */ + ma_resource_manager_data_stream_fill_pages(pDataStream); + + /* And now we're done. We want to make sure the result is MA_SUCCESS. */ + result = MA_SUCCESS; + +done: + ma_free(pJob->data.resourceManager.loadDataStream.pFilePath, &pResourceManager->config.allocationCallbacks); + ma_free(pJob->data.resourceManager.loadDataStream.pFilePathW, &pResourceManager->config.allocationCallbacks); + + /* We can only change the status away from MA_BUSY. If it's set to anything else it means an error has occurred somewhere or the uninitialization process has started (most likely). */ + ma_atomic_compare_and_swap_i32(&pDataStream->result, MA_BUSY, result); + + /* Only signal the other threads after the result has been set just for cleanliness sake. */ + if (pJob->data.resourceManager.loadDataStream.pInitNotification != NULL) { + ma_async_notification_signal(pJob->data.resourceManager.loadDataStream.pInitNotification); + } + if (pJob->data.resourceManager.loadDataStream.pInitFence != NULL) { + ma_fence_release(pJob->data.resourceManager.loadDataStream.pInitFence); + } + + ma_atomic_fetch_add_32(&pDataStream->executionPointer, 1); + return result; +} + +static ma_result ma_job_process__resource_manager__free_data_stream(ma_job* pJob) +{ + ma_resource_manager* pResourceManager; + ma_resource_manager_data_stream* pDataStream; + + MA_ASSERT(pJob != NULL); + + pDataStream = (ma_resource_manager_data_stream*)pJob->data.resourceManager.freeDataStream.pDataStream; + MA_ASSERT(pDataStream != NULL); + + pResourceManager = pDataStream->pResourceManager; + + if (pJob->order != ma_atomic_load_32(&pDataStream->executionPointer)) { + return ma_resource_manager_post_job(pResourceManager, pJob); /* Out of order. */ + } + + /* If our status is not MA_UNAVAILABLE we have a bug somewhere. */ + MA_ASSERT(ma_resource_manager_data_stream_result(pDataStream) == MA_UNAVAILABLE); + + if (pDataStream->isDecoderInitialized) { + ma_decoder_uninit(&pDataStream->decoder); + } + + if (pDataStream->pPageData != NULL) { + ma_free(pDataStream->pPageData, &pResourceManager->config.allocationCallbacks); + pDataStream->pPageData = NULL; /* Just in case... */ + } + + ma_data_source_uninit(&pDataStream->ds); + + /* The event needs to be signalled last. */ + if (pJob->data.resourceManager.freeDataStream.pDoneNotification != NULL) { + ma_async_notification_signal(pJob->data.resourceManager.freeDataStream.pDoneNotification); + } + if (pJob->data.resourceManager.freeDataStream.pDoneFence != NULL) { + ma_fence_release(pJob->data.resourceManager.freeDataStream.pDoneFence); + } + + /*ma_atomic_fetch_add_32(&pDataStream->executionPointer, 1);*/ + return MA_SUCCESS; +} + +static ma_result ma_job_process__resource_manager__page_data_stream(ma_job* pJob) +{ + ma_result result = MA_SUCCESS; + ma_resource_manager* pResourceManager; + ma_resource_manager_data_stream* pDataStream; + + MA_ASSERT(pJob != NULL); + + pDataStream = (ma_resource_manager_data_stream*)pJob->data.resourceManager.pageDataStream.pDataStream; + MA_ASSERT(pDataStream != NULL); + + pResourceManager = pDataStream->pResourceManager; + + if (pJob->order != ma_atomic_load_32(&pDataStream->executionPointer)) { + return ma_resource_manager_post_job(pResourceManager, pJob); /* Out of order. */ + } + + /* For streams, the status should be MA_SUCCESS. */ + if (ma_resource_manager_data_stream_result(pDataStream) != MA_SUCCESS) { + result = MA_INVALID_OPERATION; + goto done; + } + + ma_resource_manager_data_stream_fill_page(pDataStream, pJob->data.resourceManager.pageDataStream.pageIndex); + +done: + ma_atomic_fetch_add_32(&pDataStream->executionPointer, 1); + return result; +} + +static ma_result ma_job_process__resource_manager__seek_data_stream(ma_job* pJob) +{ + ma_result result = MA_SUCCESS; + ma_resource_manager* pResourceManager; + ma_resource_manager_data_stream* pDataStream; + + MA_ASSERT(pJob != NULL); + + pDataStream = (ma_resource_manager_data_stream*)pJob->data.resourceManager.seekDataStream.pDataStream; + MA_ASSERT(pDataStream != NULL); + + pResourceManager = pDataStream->pResourceManager; + + if (pJob->order != ma_atomic_load_32(&pDataStream->executionPointer)) { + return ma_resource_manager_post_job(pResourceManager, pJob); /* Out of order. */ + } + + /* For streams the status should be MA_SUCCESS for this to do anything. */ + if (ma_resource_manager_data_stream_result(pDataStream) != MA_SUCCESS || pDataStream->isDecoderInitialized == MA_FALSE) { + result = MA_INVALID_OPERATION; + goto done; + } + + /* + With seeking we just assume both pages are invalid and the relative frame cursor at position 0. This is basically exactly the same as loading, except + instead of initializing the decoder, we seek to a frame. + */ + ma_decoder_seek_to_pcm_frame(&pDataStream->decoder, pJob->data.resourceManager.seekDataStream.frameIndex); + + /* After seeking we'll need to reload the pages. */ + ma_resource_manager_data_stream_fill_pages(pDataStream); + + /* We need to let the public API know that we're done seeking. */ + ma_atomic_fetch_sub_32(&pDataStream->seekCounter, 1); + +done: + ma_atomic_fetch_add_32(&pDataStream->executionPointer, 1); + return result; +} + +MA_API ma_result ma_resource_manager_process_job(ma_resource_manager* pResourceManager, ma_job* pJob) +{ + if (pResourceManager == NULL || pJob == NULL) { + return MA_INVALID_ARGS; + } + + return ma_job_process(pJob); +} + +MA_API ma_result ma_resource_manager_process_next_job(ma_resource_manager* pResourceManager) +{ + ma_result result; + ma_job job; + + if (pResourceManager == NULL) { + return MA_INVALID_ARGS; + } + + /* This will return MA_CANCELLED if the next job is a quit job. */ + result = ma_resource_manager_next_job(pResourceManager, &job); + if (result != MA_SUCCESS) { + return result; + } + + return ma_job_process(&job); +} +#else +/* We'll get here if the resource manager is being excluded from the build. We need to define the job processing callbacks as no-ops. */ +static ma_result ma_job_process__resource_manager__load_data_buffer_node(ma_job* pJob) { return ma_job_process__noop(pJob); } +static ma_result ma_job_process__resource_manager__free_data_buffer_node(ma_job* pJob) { return ma_job_process__noop(pJob); } +static ma_result ma_job_process__resource_manager__page_data_buffer_node(ma_job* pJob) { return ma_job_process__noop(pJob); } +static ma_result ma_job_process__resource_manager__load_data_buffer(ma_job* pJob) { return ma_job_process__noop(pJob); } +static ma_result ma_job_process__resource_manager__free_data_buffer(ma_job* pJob) { return ma_job_process__noop(pJob); } +static ma_result ma_job_process__resource_manager__load_data_stream(ma_job* pJob) { return ma_job_process__noop(pJob); } +static ma_result ma_job_process__resource_manager__free_data_stream(ma_job* pJob) { return ma_job_process__noop(pJob); } +static ma_result ma_job_process__resource_manager__page_data_stream(ma_job* pJob) { return ma_job_process__noop(pJob); } +static ma_result ma_job_process__resource_manager__seek_data_stream(ma_job* pJob) { return ma_job_process__noop(pJob); } +#endif /* MA_NO_RESOURCE_MANAGER */ + + +#ifndef MA_NO_NODE_GRAPH + +static ma_stack* ma_stack_init(size_t sizeInBytes, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_stack* pStack; + + if (sizeInBytes == 0) { + return NULL; + } + + pStack = (ma_stack*)ma_malloc(sizeof(*pStack) - sizeof(pStack->_data) + sizeInBytes, pAllocationCallbacks); + if (pStack == NULL) { + return NULL; + } + + pStack->offset = 0; + pStack->sizeInBytes = sizeInBytes; + + return pStack; +} + +static void ma_stack_uninit(ma_stack* pStack, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pStack == NULL) { + return; + } + + ma_free(pStack, pAllocationCallbacks); +} + +static void* ma_stack_alloc(ma_stack* pStack, size_t sz) +{ + /* The size of the allocation is stored in the memory directly before the pointer. This needs to include padding to keep it aligned to ma_uintptr */ + void* p = (void*)((char*)pStack->_data + pStack->offset); + size_t* pSize = (size_t*)p; + + sz = (sz + (sizeof(ma_uintptr) - 1)) & ~(sizeof(ma_uintptr) - 1); /* Padding. */ + if (pStack->offset + sz + sizeof(size_t) > pStack->sizeInBytes) { + return NULL; /* Out of memory. */ + } + + pStack->offset += sz + sizeof(size_t); + + *pSize = sz; + return (void*)((char*)p + sizeof(size_t)); +} + +static void ma_stack_free(ma_stack* pStack, void* p) +{ + size_t* pSize; + + if (p == NULL) { + return; + } + + pSize = (size_t*)p - 1; + pStack->offset -= *pSize + sizeof(size_t); +} + + + +/* 10ms @ 48K = 480. Must never exceed 65535. */ +#ifndef MA_DEFAULT_NODE_CACHE_CAP_IN_FRAMES_PER_BUS +#define MA_DEFAULT_NODE_CACHE_CAP_IN_FRAMES_PER_BUS 480 +#endif + +#ifndef MA_DEFAULT_PREMIX_STACK_SIZE_PER_CHANNEL +#define MA_DEFAULT_PREMIX_STACK_SIZE_PER_CHANNEL 524288 +#endif + +static ma_result ma_node_read_pcm_frames(ma_node* pNode, ma_uint32 outputBusIndex, float* pFramesOut, ma_uint32 frameCount, ma_uint32* pFramesRead, ma_uint64 globalTime); + +MA_API void ma_debug_fill_pcm_frames_with_sine_wave(float* pFramesOut, ma_uint32 frameCount, ma_format format, ma_uint32 channels, ma_uint32 sampleRate) +{ + #ifndef MA_NO_GENERATION + { + ma_waveform_config waveformConfig; + ma_waveform waveform; + + waveformConfig = ma_waveform_config_init(format, channels, sampleRate, ma_waveform_type_sine, 1.0, 400); + ma_waveform_init(&waveformConfig, &waveform); + ma_waveform_read_pcm_frames(&waveform, pFramesOut, frameCount, NULL); + } + #else + { + (void)pFramesOut; + (void)frameCount; + (void)format; + (void)channels; + (void)sampleRate; + #if defined(MA_DEBUG_OUTPUT) + { + #if _MSC_VER + #pragma message ("ma_debug_fill_pcm_frames_with_sine_wave() will do nothing because MA_NO_GENERATION is enabled.") + #endif + } + #endif + } + #endif +} + + + +MA_API ma_node_graph_config ma_node_graph_config_init(ma_uint32 channels) +{ + ma_node_graph_config config; + + MA_ZERO_OBJECT(&config); + config.channels = channels; + config.processingSizeInFrames = 0; + + return config; +} + + +static void ma_node_graph_set_is_reading(ma_node_graph* pNodeGraph, ma_bool32 isReading) +{ + MA_ASSERT(pNodeGraph != NULL); + ma_atomic_exchange_32(&pNodeGraph->isReading, isReading); +} + +#if 0 +static ma_bool32 ma_node_graph_is_reading(ma_node_graph* pNodeGraph) +{ + MA_ASSERT(pNodeGraph != NULL); + return ma_atomic_load_32(&pNodeGraph->isReading); +} +#endif + + +static void ma_node_graph_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_node_graph* pNodeGraph = (ma_node_graph*)pNode; + ma_uint64 framesRead; + + ma_node_graph_read_pcm_frames(pNodeGraph, ppFramesOut[0], *pFrameCountOut, &framesRead); + + *pFrameCountOut = (ma_uint32)framesRead; /* Safe cast. */ + + (void)ppFramesIn; + (void)pFrameCountIn; +} + +static ma_node_vtable g_node_graph_node_vtable = +{ + ma_node_graph_node_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 0, /* 0 input buses. */ + 1, /* 1 output bus. */ + 0 /* Flags. */ +}; + +static void ma_node_graph_endpoint_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + MA_ASSERT(pNode != NULL); + MA_ASSERT(ma_node_get_input_bus_count(pNode) == 1); + MA_ASSERT(ma_node_get_output_bus_count(pNode) == 1); + + /* Input channel count needs to be the same as the output channel count. */ + MA_ASSERT(ma_node_get_input_channels(pNode, 0) == ma_node_get_output_channels(pNode, 0)); + + /* We don't need to do anything here because it's a passthrough. */ + (void)pNode; + (void)ppFramesIn; + (void)pFrameCountIn; + (void)ppFramesOut; + (void)pFrameCountOut; + +#if 0 + /* The data has already been mixed. We just need to move it to the output buffer. */ + if (ppFramesIn != NULL) { + ma_copy_pcm_frames(ppFramesOut[0], ppFramesIn[0], *pFrameCountOut, ma_format_f32, ma_node_get_output_channels(pNode, 0)); + } +#endif +} + +static ma_node_vtable g_node_graph_endpoint_vtable = +{ + ma_node_graph_endpoint_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 1, /* 1 input bus. */ + 1, /* 1 output bus. */ + MA_NODE_FLAG_PASSTHROUGH /* Flags. The endpoint is a passthrough. */ +}; + +MA_API ma_result ma_node_graph_init(const ma_node_graph_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_node_graph* pNodeGraph) +{ + ma_result result; + ma_node_config baseConfig; + ma_node_config endpointConfig; + + if (pNodeGraph == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pNodeGraph); + pNodeGraph->processingSizeInFrames = pConfig->processingSizeInFrames; + + /* Base node so we can use the node graph as a node into another graph. */ + baseConfig = ma_node_config_init(); + baseConfig.vtable = &g_node_graph_node_vtable; + baseConfig.pOutputChannels = &pConfig->channels; + + result = ma_node_init(pNodeGraph, &baseConfig, pAllocationCallbacks, &pNodeGraph->base); + if (result != MA_SUCCESS) { + return result; + } + + + /* Endpoint. */ + endpointConfig = ma_node_config_init(); + endpointConfig.vtable = &g_node_graph_endpoint_vtable; + endpointConfig.pInputChannels = &pConfig->channels; + endpointConfig.pOutputChannels = &pConfig->channels; + + result = ma_node_init(pNodeGraph, &endpointConfig, pAllocationCallbacks, &pNodeGraph->endpoint); + if (result != MA_SUCCESS) { + ma_node_uninit(&pNodeGraph->base, pAllocationCallbacks); + return result; + } + + + /* Processing cache. */ + if (pConfig->processingSizeInFrames > 0) { + pNodeGraph->pProcessingCache = (float*)ma_malloc(pConfig->processingSizeInFrames * pConfig->channels * sizeof(float), pAllocationCallbacks); + if (pNodeGraph->pProcessingCache == NULL) { + ma_node_uninit(&pNodeGraph->endpoint, pAllocationCallbacks); + ma_node_uninit(&pNodeGraph->base, pAllocationCallbacks); + return MA_OUT_OF_MEMORY; + } + } + + + /* + We need a pre-mix stack. The size of this stack is configurable via the config. The default value depends on the channel count. + */ + { + size_t preMixStackSizeInBytes = pConfig->preMixStackSizeInBytes; + if (preMixStackSizeInBytes == 0) { + preMixStackSizeInBytes = pConfig->channels * MA_DEFAULT_PREMIX_STACK_SIZE_PER_CHANNEL; + } + + pNodeGraph->pPreMixStack = ma_stack_init(preMixStackSizeInBytes, pAllocationCallbacks); + if (pNodeGraph->pPreMixStack == NULL) { + ma_node_uninit(&pNodeGraph->endpoint, pAllocationCallbacks); + ma_node_uninit(&pNodeGraph->base, pAllocationCallbacks); + if (pNodeGraph->pProcessingCache != NULL) { + ma_free(pNodeGraph->pProcessingCache, pAllocationCallbacks); + } + + return MA_OUT_OF_MEMORY; + } + } + + + return MA_SUCCESS; +} + +MA_API void ma_node_graph_uninit(ma_node_graph* pNodeGraph, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pNodeGraph == NULL) { + return; + } + + ma_node_uninit(&pNodeGraph->endpoint, pAllocationCallbacks); + ma_node_uninit(&pNodeGraph->base, pAllocationCallbacks); + + if (pNodeGraph->pProcessingCache != NULL) { + ma_free(pNodeGraph->pProcessingCache, pAllocationCallbacks); + pNodeGraph->pProcessingCache = NULL; + } + + if (pNodeGraph->pPreMixStack != NULL) { + ma_stack_uninit(pNodeGraph->pPreMixStack, pAllocationCallbacks); + pNodeGraph->pPreMixStack = NULL; + } +} + +MA_API ma_node* ma_node_graph_get_endpoint(ma_node_graph* pNodeGraph) +{ + if (pNodeGraph == NULL) { + return NULL; + } + + return &pNodeGraph->endpoint; +} + +MA_API ma_result ma_node_graph_read_pcm_frames(ma_node_graph* pNodeGraph, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_result result = MA_SUCCESS; + ma_uint64 totalFramesRead; + ma_uint32 channels; + + if (pFramesRead != NULL) { + *pFramesRead = 0; /* Safety. */ + } + + if (pNodeGraph == NULL) { + return MA_INVALID_ARGS; + } + + channels = ma_node_get_output_channels(&pNodeGraph->endpoint, 0); + + + /* We'll be nice and try to do a full read of all frameCount frames. */ + totalFramesRead = 0; + while (totalFramesRead < frameCount) { + ma_uint32 framesJustRead; + ma_uint64 framesToRead; + float* pRunningFramesOut; + + framesToRead = frameCount - totalFramesRead; + if (framesToRead > 0xFFFFFFFF) { + framesToRead = 0xFFFFFFFF; + } + + pRunningFramesOut = (float*)ma_offset_pcm_frames_ptr(pFramesOut, totalFramesRead, ma_format_f32, channels); + + /* If there's anything in the cache, consume that first. */ + if (pNodeGraph->processingCacheFramesRemaining > 0) { + ma_uint32 framesToReadFromCache; + + framesToReadFromCache = (ma_uint32)framesToRead; + if (framesToReadFromCache > pNodeGraph->processingCacheFramesRemaining) { + framesToReadFromCache = pNodeGraph->processingCacheFramesRemaining; + } + + MA_COPY_MEMORY(pRunningFramesOut, pNodeGraph->pProcessingCache, framesToReadFromCache * channels * sizeof(float)); + MA_MOVE_MEMORY(pNodeGraph->pProcessingCache, pNodeGraph->pProcessingCache + (framesToReadFromCache * channels), (pNodeGraph->processingCacheFramesRemaining - framesToReadFromCache) * channels * sizeof(float)); + pNodeGraph->processingCacheFramesRemaining -= framesToReadFromCache; + + totalFramesRead += framesToReadFromCache; + continue; + } else { + /* + If processingSizeInFrames is non-zero, we need to make sure we always read in chunks of that size. If the frame count is less than + that, we need to read into the cache and then continue on. + */ + float* pReadDst = pRunningFramesOut; + + if (pNodeGraph->processingSizeInFrames > 0) { + if (framesToRead < pNodeGraph->processingSizeInFrames) { + pReadDst = pNodeGraph->pProcessingCache; /* We need to read into the cache because otherwise we'll overflow the output buffer. */ + } + + framesToRead = pNodeGraph->processingSizeInFrames; + } + + ma_node_graph_set_is_reading(pNodeGraph, MA_TRUE); + { + result = ma_node_read_pcm_frames(&pNodeGraph->endpoint, 0, pReadDst, (ma_uint32)framesToRead, &framesJustRead, ma_node_get_time(&pNodeGraph->endpoint)); + } + ma_node_graph_set_is_reading(pNodeGraph, MA_FALSE); + + /* + Do not increment the total frames read counter if we read into the cache. We use this to determine how many frames have + been written to the final output buffer. + */ + if (pReadDst == pNodeGraph->pProcessingCache) { + /* We read into the cache. */ + pNodeGraph->processingCacheFramesRemaining = framesJustRead; + } else { + /* We read straight into the output buffer. */ + totalFramesRead += framesJustRead; + } + + if (result != MA_SUCCESS) { + break; + } + + /* Abort if we weren't able to read any frames or else we risk getting stuck in a loop. */ + if (framesJustRead == 0) { + break; + } + } + } + + /* Let's go ahead and silence any leftover frames just for some added safety to ensure the caller doesn't try emitting garbage out of the speakers. */ + if (totalFramesRead < frameCount) { + ma_silence_pcm_frames(ma_offset_pcm_frames_ptr(pFramesOut, totalFramesRead, ma_format_f32, channels), (frameCount - totalFramesRead), ma_format_f32, channels); + } + + if (pFramesRead != NULL) { + *pFramesRead = totalFramesRead; + } + + return result; +} + +MA_API ma_uint32 ma_node_graph_get_channels(const ma_node_graph* pNodeGraph) +{ + if (pNodeGraph == NULL) { + return 0; + } + + return ma_node_get_output_channels(&pNodeGraph->endpoint, 0); +} + +MA_API ma_uint64 ma_node_graph_get_time(const ma_node_graph* pNodeGraph) +{ + if (pNodeGraph == NULL) { + return 0; + } + + return ma_node_get_time(&pNodeGraph->endpoint); /* Global time is just the local time of the endpoint. */ +} + +MA_API ma_result ma_node_graph_set_time(ma_node_graph* pNodeGraph, ma_uint64 globalTime) +{ + if (pNodeGraph == NULL) { + return MA_INVALID_ARGS; + } + + return ma_node_set_time(&pNodeGraph->endpoint, globalTime); /* Global time is just the local time of the endpoint. */ +} + +MA_API ma_uint32 ma_node_graph_get_processing_size_in_frames(const ma_node_graph* pNodeGraph) +{ + if (pNodeGraph == NULL) { + return 0; + } + + return pNodeGraph->processingSizeInFrames; +} + + +#define MA_NODE_OUTPUT_BUS_FLAG_HAS_READ 0x01 /* Whether or not this bus ready to read more data. Only used on nodes with multiple output buses. */ + +static ma_result ma_node_output_bus_init(ma_node* pNode, ma_uint32 outputBusIndex, ma_uint32 channels, ma_node_output_bus* pOutputBus) +{ + MA_ASSERT(pOutputBus != NULL); + MA_ASSERT(outputBusIndex < MA_MAX_NODE_BUS_COUNT); + MA_ASSERT(outputBusIndex < ma_node_get_output_bus_count(pNode)); + MA_ASSERT(channels < 256); + + MA_ZERO_OBJECT(pOutputBus); + + if (channels == 0) { + return MA_INVALID_ARGS; + } + + pOutputBus->pNode = pNode; + pOutputBus->outputBusIndex = (ma_uint8)outputBusIndex; + pOutputBus->channels = (ma_uint8)channels; + pOutputBus->flags = MA_NODE_OUTPUT_BUS_FLAG_HAS_READ; /* <-- Important that this flag is set by default. */ + pOutputBus->volume = 1; + + return MA_SUCCESS; +} + +static void ma_node_output_bus_lock(ma_node_output_bus* pOutputBus) +{ + ma_spinlock_lock(&pOutputBus->lock); +} + +static void ma_node_output_bus_unlock(ma_node_output_bus* pOutputBus) +{ + ma_spinlock_unlock(&pOutputBus->lock); +} + + +static ma_uint32 ma_node_output_bus_get_channels(const ma_node_output_bus* pOutputBus) +{ + return pOutputBus->channels; +} + + +static void ma_node_output_bus_set_has_read(ma_node_output_bus* pOutputBus, ma_bool32 hasRead) +{ + if (hasRead) { + ma_atomic_fetch_or_32(&pOutputBus->flags, MA_NODE_OUTPUT_BUS_FLAG_HAS_READ); + } else { + ma_atomic_fetch_and_32(&pOutputBus->flags, (ma_uint32)~MA_NODE_OUTPUT_BUS_FLAG_HAS_READ); + } +} + +static ma_bool32 ma_node_output_bus_has_read(ma_node_output_bus* pOutputBus) +{ + return (ma_atomic_load_32(&pOutputBus->flags) & MA_NODE_OUTPUT_BUS_FLAG_HAS_READ) != 0; +} + + +static void ma_node_output_bus_set_is_attached(ma_node_output_bus* pOutputBus, ma_bool32 isAttached) +{ + ma_atomic_exchange_32(&pOutputBus->isAttached, isAttached); +} + +static ma_bool32 ma_node_output_bus_is_attached(ma_node_output_bus* pOutputBus) +{ + return ma_atomic_load_32(&pOutputBus->isAttached); +} + + +static ma_result ma_node_output_bus_set_volume(ma_node_output_bus* pOutputBus, float volume) +{ + MA_ASSERT(pOutputBus != NULL); + + if (volume < 0.0f) { + volume = 0.0f; + } + + ma_atomic_exchange_f32(&pOutputBus->volume, volume); + + return MA_SUCCESS; +} + +static float ma_node_output_bus_get_volume(const ma_node_output_bus* pOutputBus) +{ + return ma_atomic_load_f32((float*)&pOutputBus->volume); +} + + +static ma_result ma_node_input_bus_init(ma_uint32 channels, ma_node_input_bus* pInputBus) +{ + MA_ASSERT(pInputBus != NULL); + MA_ASSERT(channels < 256); + + MA_ZERO_OBJECT(pInputBus); + + if (channels == 0) { + return MA_INVALID_ARGS; + } + + pInputBus->channels = (ma_uint8)channels; + + return MA_SUCCESS; +} + +static void ma_node_input_bus_lock(ma_node_input_bus* pInputBus) +{ + MA_ASSERT(pInputBus != NULL); + + ma_spinlock_lock(&pInputBus->lock); +} + +static void ma_node_input_bus_unlock(ma_node_input_bus* pInputBus) +{ + MA_ASSERT(pInputBus != NULL); + + ma_spinlock_unlock(&pInputBus->lock); +} + + +static void ma_node_input_bus_next_begin(ma_node_input_bus* pInputBus) +{ + ma_atomic_fetch_add_32(&pInputBus->nextCounter, 1); +} + +static void ma_node_input_bus_next_end(ma_node_input_bus* pInputBus) +{ + ma_atomic_fetch_sub_32(&pInputBus->nextCounter, 1); +} + +static ma_uint32 ma_node_input_bus_get_next_counter(ma_node_input_bus* pInputBus) +{ + return ma_atomic_load_32(&pInputBus->nextCounter); +} + + +static ma_uint32 ma_node_input_bus_get_channels(const ma_node_input_bus* pInputBus) +{ + return pInputBus->channels; +} + + +static void ma_node_input_bus_detach__no_output_bus_lock(ma_node_input_bus* pInputBus, ma_node_output_bus* pOutputBus) +{ + MA_ASSERT(pInputBus != NULL); + MA_ASSERT(pOutputBus != NULL); + + /* + Mark the output bus as detached first. This will prevent future iterations on the audio thread + from iterating this output bus. + */ + ma_node_output_bus_set_is_attached(pOutputBus, MA_FALSE); + + /* + We cannot use the output bus lock here since it'll be getting used at a higher level, but we do + still need to use the input bus lock since we'll be updating pointers on two different output + buses. The same rules apply here as the attaching case. Although we're using a lock here, we're + *not* using a lock when iterating over the list in the audio thread. We therefore need to craft + this in a way such that the iteration on the audio thread doesn't break. + + The first thing to do is swap out the "next" pointer of the previous output bus with the + new "next" output bus. This is the operation that matters for iteration on the audio thread. + After that, the previous pointer on the new "next" pointer needs to be updated, after which + point the linked list will be in a good state. + */ + ma_node_input_bus_lock(pInputBus); + { + ma_node_output_bus* pOldPrev = (ma_node_output_bus*)ma_atomic_load_ptr(&pOutputBus->pPrev); + ma_node_output_bus* pOldNext = (ma_node_output_bus*)ma_atomic_load_ptr(&pOutputBus->pNext); + + if (pOldPrev != NULL) { + ma_atomic_exchange_ptr(&pOldPrev->pNext, pOldNext); /* <-- This is where the output bus is detached from the list. */ + } + if (pOldNext != NULL) { + ma_atomic_exchange_ptr(&pOldNext->pPrev, pOldPrev); /* <-- This is required for detachment. */ + } + } + ma_node_input_bus_unlock(pInputBus); + + /* At this point the output bus is detached and the linked list is completely unaware of it. Reset some data for safety. */ + ma_atomic_exchange_ptr(&pOutputBus->pNext, NULL); /* Using atomic exchanges here, mainly for the benefit of analysis tools which don't always recognize spinlocks. */ + ma_atomic_exchange_ptr(&pOutputBus->pPrev, NULL); /* As above. */ + pOutputBus->pInputNode = NULL; + pOutputBus->inputNodeInputBusIndex = 0; + + + /* + For thread-safety reasons, we don't want to be returning from this straight away. We need to + wait for the audio thread to finish with the output bus. There's two things we need to wait + for. The first is the part that selects the next output bus in the list, and the other is the + part that reads from the output bus. Basically all we're doing is waiting for the input bus + to stop referencing the output bus. + + We're doing this part last because we want the section above to run while the audio thread + is finishing up with the output bus, just for efficiency reasons. We marked the output bus as + detached right at the top of this function which is going to prevent the audio thread from + iterating the output bus again. + */ + + /* Part 1: Wait for the current iteration to complete. */ + while (ma_node_input_bus_get_next_counter(pInputBus) > 0) { + ma_yield(); + } + + /* Part 2: Wait for any reads to complete. */ + while (ma_atomic_load_32(&pOutputBus->refCount) > 0) { + ma_yield(); + } + + /* + At this point we're done detaching and we can be guaranteed that the audio thread is not going + to attempt to reference this output bus again (until attached again). + */ +} + +#if 0 /* Not used at the moment, but leaving here in case I need it later. */ +static void ma_node_input_bus_detach(ma_node_input_bus* pInputBus, ma_node_output_bus* pOutputBus) +{ + MA_ASSERT(pInputBus != NULL); + MA_ASSERT(pOutputBus != NULL); + + ma_node_output_bus_lock(pOutputBus); + { + ma_node_input_bus_detach__no_output_bus_lock(pInputBus, pOutputBus); + } + ma_node_output_bus_unlock(pOutputBus); +} +#endif + +static void ma_node_input_bus_attach(ma_node_input_bus* pInputBus, ma_node_output_bus* pOutputBus, ma_node* pNewInputNode, ma_uint32 inputNodeInputBusIndex) +{ + MA_ASSERT(pInputBus != NULL); + MA_ASSERT(pOutputBus != NULL); + + ma_node_output_bus_lock(pOutputBus); + { + ma_node_output_bus* pOldInputNode = (ma_node_output_bus*)ma_atomic_load_ptr(&pOutputBus->pInputNode); + + /* Detach from any existing attachment first if necessary. */ + if (pOldInputNode != NULL) { + ma_node_input_bus_detach__no_output_bus_lock(pInputBus, pOutputBus); + } + + /* + At this point we can be sure the output bus is not attached to anything. The linked list in the + old input bus has been updated so that pOutputBus will not get iterated again. + */ + pOutputBus->pInputNode = pNewInputNode; /* No need for an atomic assignment here because modification of this variable always happens within a lock. */ + pOutputBus->inputNodeInputBusIndex = (ma_uint8)inputNodeInputBusIndex; + + /* + Now we need to attach the output bus to the linked list. This involves updating two pointers on + two different output buses so I'm going to go ahead and keep this simple and just use a lock. + There are ways to do this without a lock, but it's just too hard to maintain for its value. + + Although we're locking here, it's important to remember that we're *not* locking when iterating + and reading audio data since that'll be running on the audio thread. As a result we need to be + careful how we craft this so that we don't break iteration. What we're going to do is always + attach the new item so that it becomes the first item in the list. That way, as we're iterating + we won't break any links in the list and iteration will continue safely. The detaching case will + also be crafted in a way as to not break list iteration. It's important to remember to use + atomic exchanges here since no locking is happening on the audio thread during iteration. + */ + ma_node_input_bus_lock(pInputBus); + { + ma_node_output_bus* pNewPrev = &pInputBus->head; + ma_node_output_bus* pNewNext = (ma_node_output_bus*)ma_atomic_load_ptr(&pInputBus->head.pNext); + + /* Update the local output bus. */ + ma_atomic_exchange_ptr(&pOutputBus->pPrev, pNewPrev); + ma_atomic_exchange_ptr(&pOutputBus->pNext, pNewNext); + + /* Update the other output buses to point back to the local output bus. */ + ma_atomic_exchange_ptr(&pInputBus->head.pNext, pOutputBus); /* <-- This is where the output bus is actually attached to the input bus. */ + + /* Do the previous pointer last. This is only used for detachment. */ + if (pNewNext != NULL) { + ma_atomic_exchange_ptr(&pNewNext->pPrev, pOutputBus); + } + } + ma_node_input_bus_unlock(pInputBus); + + /* + Mark the node as attached last. This is used to controlling whether or the output bus will be + iterated on the audio thread. Mainly required for detachment purposes. + */ + ma_node_output_bus_set_is_attached(pOutputBus, MA_TRUE); + } + ma_node_output_bus_unlock(pOutputBus); +} + +static ma_node_output_bus* ma_node_input_bus_next(ma_node_input_bus* pInputBus, ma_node_output_bus* pOutputBus) +{ + ma_node_output_bus* pNext; + + MA_ASSERT(pInputBus != NULL); + + if (pOutputBus == NULL) { + return NULL; + } + + ma_node_input_bus_next_begin(pInputBus); + { + pNext = pOutputBus; + for (;;) { + pNext = (ma_node_output_bus*)ma_atomic_load_ptr(&pNext->pNext); + if (pNext == NULL) { + break; /* Reached the end. */ + } + + if (ma_node_output_bus_is_attached(pNext) == MA_FALSE) { + continue; /* The node is not attached. Keep checking. */ + } + + /* The next node has been selected. */ + break; + } + + /* We need to increment the reference count of the selected node. */ + if (pNext != NULL) { + ma_atomic_fetch_add_32(&pNext->refCount, 1); + } + + /* The previous node is no longer being referenced. */ + ma_atomic_fetch_sub_32(&pOutputBus->refCount, 1); + } + ma_node_input_bus_next_end(pInputBus); + + return pNext; +} + +static ma_node_output_bus* ma_node_input_bus_first(ma_node_input_bus* pInputBus) +{ + return ma_node_input_bus_next(pInputBus, &pInputBus->head); +} + + + +static ma_result ma_node_input_bus_read_pcm_frames(ma_node* pInputNode, ma_node_input_bus* pInputBus, float* pFramesOut, ma_uint32 frameCount, ma_uint32* pFramesRead, ma_uint64 globalTime) +{ + ma_result result = MA_SUCCESS; + ma_node_output_bus* pOutputBus; + ma_node_output_bus* pFirst; + ma_uint32 inputChannels; + ma_bool32 doesOutputBufferHaveContent = MA_FALSE; + + /* + This will be called from the audio thread which means we can't be doing any locking. Basically, + this function will not perform any locking, whereas attaching and detaching will, but crafted in + such a way that we don't need to perform any locking here. The important thing to remember is + to always iterate in a forward direction. + + In order to process any data we need to first read from all input buses. That's where this + function comes in. This iterates over each of the attachments and accumulates/mixes them. We + also convert the channels to the nodes output channel count before mixing. We want to do this + channel conversion so that the caller of this function can invoke the processing callback + without having to do it themselves. + + When we iterate over each of the attachments on the input bus, we need to read as much data as + we can from each of them so that we don't end up with holes between each of the attachments. To + do this, we need to read from each attachment in a loop and read as many frames as we can, up + to `frameCount`. + */ + MA_ASSERT(pInputNode != NULL); + MA_ASSERT(pFramesRead != NULL); /* pFramesRead is critical and must always be specified. On input it's undefined and on output it'll be set to the number of frames actually read. */ + + *pFramesRead = 0; /* Safety. */ + + inputChannels = ma_node_input_bus_get_channels(pInputBus); + + /* + We need to be careful with how we call ma_node_input_bus_first() and ma_node_input_bus_next(). They + are both critical to our lock-free thread-safety system. We can only call ma_node_input_bus_first() + once per iteration, however we have an optimization to checks whether or not it's the first item in + the list. We therefore need to store a pointer to the first item rather than repeatedly calling + ma_node_input_bus_first(). It's safe to keep hold of this pointer, so long as we don't dereference it + after calling ma_node_input_bus_next(), which we won't be. + */ + pFirst = ma_node_input_bus_first(pInputBus); + if (pFirst == NULL) { + return MA_SUCCESS; /* No attachments. Read nothing. */ + } + + for (pOutputBus = pFirst; pOutputBus != NULL; pOutputBus = ma_node_input_bus_next(pInputBus, pOutputBus)) { + ma_uint32 framesProcessed = 0; + ma_bool32 isSilentOutput = MA_FALSE; + + MA_ASSERT(pOutputBus->pNode != NULL); + MA_ASSERT(((ma_node_base*)pOutputBus->pNode)->vtable != NULL); + + isSilentOutput = (((ma_node_base*)pOutputBus->pNode)->vtable->flags & MA_NODE_FLAG_SILENT_OUTPUT) != 0; + + if (pFramesOut != NULL) { + /* Read. */ + while (framesProcessed < frameCount) { + float* pRunningFramesOut; + ma_uint32 framesToRead; + ma_uint32 framesJustRead = 0; + + framesToRead = frameCount - framesProcessed; + pRunningFramesOut = ma_offset_pcm_frames_ptr_f32(pFramesOut, framesProcessed, inputChannels); + + if (doesOutputBufferHaveContent == MA_FALSE) { + /* Fast path. First attachment. We just read straight into the output buffer (no mixing required). */ + result = ma_node_read_pcm_frames(pOutputBus->pNode, pOutputBus->outputBusIndex, pRunningFramesOut, framesToRead, &framesJustRead, globalTime + framesProcessed); + } else { + /* Slow path. Not the first attachment. Mixing required. */ + ma_uint32 preMixBufferCapInFrames = ((ma_node_base*)pInputNode)->cachedDataCapInFramesPerBus; + float* pPreMixBuffer = (float*)ma_stack_alloc(((ma_node_base*)pInputNode)->pNodeGraph->pPreMixStack, preMixBufferCapInFrames * inputChannels * sizeof(float)); + + if (pPreMixBuffer == NULL) { + /* + If you're hitting this assert it means you've got an unusually deep chain of nodes, you've got an excessively large processing + size, or you have a combination of both, and as a result have run out of stack space. You can increase this using the + preMixStackSizeInBytes variable in ma_node_graph_config. If you're using ma_engine, you can do it via the preMixStackSizeInBytes + variable in ma_engine_config. It defaults to 512KB per output channel. + */ + MA_ASSERT(MA_FALSE); + } else { + if (framesToRead > preMixBufferCapInFrames) { + framesToRead = preMixBufferCapInFrames; + } + + result = ma_node_read_pcm_frames(pOutputBus->pNode, pOutputBus->outputBusIndex, pPreMixBuffer, framesToRead, &framesJustRead, globalTime + framesProcessed); + if (result == MA_SUCCESS || result == MA_AT_END) { + if (isSilentOutput == MA_FALSE) { /* Don't mix if the node outputs silence. */ + ma_mix_pcm_frames_f32(pRunningFramesOut, pPreMixBuffer, framesJustRead, inputChannels, /*volume*/1); + } + } + + /* The pre-mix buffer is no longer required. */ + ma_stack_free(((ma_node_base*)pInputNode)->pNodeGraph->pPreMixStack, pPreMixBuffer); + pPreMixBuffer = NULL; + } + } + + framesProcessed += framesJustRead; + + /* If we reached the end or otherwise failed to read any data we need to finish up with this output node. */ + if (result != MA_SUCCESS) { + break; + } + + /* If we didn't read anything, abort so we don't get stuck in a loop. */ + if (framesJustRead == 0) { + break; + } + } + + /* If it's the first attachment we didn't do any mixing. Any leftover samples need to be silenced. */ + if (pOutputBus == pFirst && framesProcessed < frameCount) { + ma_silence_pcm_frames(ma_offset_pcm_frames_ptr(pFramesOut, framesProcessed, ma_format_f32, inputChannels), (frameCount - framesProcessed), ma_format_f32, inputChannels); + } + + if (isSilentOutput == MA_FALSE) { + doesOutputBufferHaveContent = MA_TRUE; + } + } else { + /* Seek. */ + ma_node_read_pcm_frames(pOutputBus->pNode, pOutputBus->outputBusIndex, NULL, frameCount, &framesProcessed, globalTime); + } + } + + /* If we didn't output anything, output silence. */ + if (doesOutputBufferHaveContent == MA_FALSE && pFramesOut != NULL) { + ma_silence_pcm_frames(pFramesOut, frameCount, ma_format_f32, inputChannels); + } + + /* In this path we always "process" the entire amount. */ + *pFramesRead = frameCount; + + return result; +} + + +MA_API ma_node_config ma_node_config_init(void) +{ + ma_node_config config; + + MA_ZERO_OBJECT(&config); + config.initialState = ma_node_state_started; /* Nodes are started by default. */ + config.inputBusCount = MA_NODE_BUS_COUNT_UNKNOWN; + config.outputBusCount = MA_NODE_BUS_COUNT_UNKNOWN; + + return config; +} + +static ma_uint16 ma_node_config_get_cache_size_in_frames(const ma_node_config* pConfig, const ma_node_graph* pNodeGraph) +{ + ma_uint32 cacheSizeInFrames; + + (void)pConfig; + + if (pNodeGraph->processingSizeInFrames > 0) { + cacheSizeInFrames = pNodeGraph->processingSizeInFrames; + } else { + cacheSizeInFrames = MA_DEFAULT_NODE_CACHE_CAP_IN_FRAMES_PER_BUS; + } + + if (cacheSizeInFrames > 0xFFFF) { + cacheSizeInFrames = 0xFFFF; + } + + return (ma_uint16)cacheSizeInFrames; +} + + + +static ma_result ma_node_detach_full(ma_node* pNode); + +static float* ma_node_get_cached_input_ptr(ma_node* pNode, ma_uint32 inputBusIndex) +{ + ma_node_base* pNodeBase = (ma_node_base*)pNode; + ma_uint32 iInputBus; + float* pBasePtr; + + MA_ASSERT(pNodeBase != NULL); + + /* Input data is stored at the front of the buffer. */ + pBasePtr = pNodeBase->pCachedData; + for (iInputBus = 0; iInputBus < inputBusIndex; iInputBus += 1) { + pBasePtr += pNodeBase->cachedDataCapInFramesPerBus * ma_node_input_bus_get_channels(&pNodeBase->pInputBuses[iInputBus]); + } + + return pBasePtr; +} + +static float* ma_node_get_cached_output_ptr(ma_node* pNode, ma_uint32 outputBusIndex) +{ + ma_node_base* pNodeBase = (ma_node_base*)pNode; + ma_uint32 iInputBus; + ma_uint32 iOutputBus; + float* pBasePtr; + + MA_ASSERT(pNodeBase != NULL); + + /* Cached output data starts after the input data. */ + pBasePtr = pNodeBase->pCachedData; + for (iInputBus = 0; iInputBus < ma_node_get_input_bus_count(pNodeBase); iInputBus += 1) { + pBasePtr += pNodeBase->cachedDataCapInFramesPerBus * ma_node_input_bus_get_channels(&pNodeBase->pInputBuses[iInputBus]); + } + + for (iOutputBus = 0; iOutputBus < outputBusIndex; iOutputBus += 1) { + pBasePtr += pNodeBase->cachedDataCapInFramesPerBus * ma_node_output_bus_get_channels(&pNodeBase->pOutputBuses[iOutputBus]); + } + + return pBasePtr; +} + + +typedef struct +{ + size_t sizeInBytes; + size_t inputBusOffset; + size_t outputBusOffset; + size_t cachedDataOffset; + ma_uint32 inputBusCount; /* So it doesn't have to be calculated twice. */ + ma_uint32 outputBusCount; /* So it doesn't have to be calculated twice. */ +} ma_node_heap_layout; + +static ma_result ma_node_translate_bus_counts(const ma_node_config* pConfig, ma_uint32* pInputBusCount, ma_uint32* pOutputBusCount) +{ + ma_uint32 inputBusCount; + ma_uint32 outputBusCount; + + MA_ASSERT(pConfig != NULL); + MA_ASSERT(pInputBusCount != NULL); + MA_ASSERT(pOutputBusCount != NULL); + + /* Bus counts are determined by the vtable, unless they're set to `MA_NODE_BUS_COUNT_UNKNWON`, in which case they're taken from the config. */ + if (pConfig->vtable->inputBusCount == MA_NODE_BUS_COUNT_UNKNOWN) { + inputBusCount = pConfig->inputBusCount; + } else { + inputBusCount = pConfig->vtable->inputBusCount; + + if (pConfig->inputBusCount != MA_NODE_BUS_COUNT_UNKNOWN && pConfig->inputBusCount != pConfig->vtable->inputBusCount) { + return MA_INVALID_ARGS; /* Invalid configuration. You must not specify a conflicting bus count between the node's config and the vtable. */ + } + } + + if (pConfig->vtable->outputBusCount == MA_NODE_BUS_COUNT_UNKNOWN) { + outputBusCount = pConfig->outputBusCount; + } else { + outputBusCount = pConfig->vtable->outputBusCount; + + if (pConfig->outputBusCount != MA_NODE_BUS_COUNT_UNKNOWN && pConfig->outputBusCount != pConfig->vtable->outputBusCount) { + return MA_INVALID_ARGS; /* Invalid configuration. You must not specify a conflicting bus count between the node's config and the vtable. */ + } + } + + /* Bus counts must be within limits. */ + if (inputBusCount > MA_MAX_NODE_BUS_COUNT || outputBusCount > MA_MAX_NODE_BUS_COUNT) { + return MA_INVALID_ARGS; + } + + + /* We must have channel counts for each bus. */ + if ((inputBusCount > 0 && pConfig->pInputChannels == NULL) || (outputBusCount > 0 && pConfig->pOutputChannels == NULL)) { + return MA_INVALID_ARGS; /* You must specify channel counts for each input and output bus. */ + } + + + /* Some special rules for passthrough nodes. */ + if ((pConfig->vtable->flags & MA_NODE_FLAG_PASSTHROUGH) != 0) { + if ((pConfig->vtable->inputBusCount != 0 && pConfig->vtable->inputBusCount != 1) || pConfig->vtable->outputBusCount != 1) { + return MA_INVALID_ARGS; /* Passthrough nodes must have exactly 1 output bus and either 0 or 1 input bus. */ + } + + if (pConfig->pInputChannels[0] != pConfig->pOutputChannels[0]) { + return MA_INVALID_ARGS; /* Passthrough nodes must have the same number of channels between input and output nodes. */ + } + } + + + *pInputBusCount = inputBusCount; + *pOutputBusCount = outputBusCount; + + return MA_SUCCESS; +} + +static ma_result ma_node_get_heap_layout(ma_node_graph* pNodeGraph, const ma_node_config* pConfig, ma_node_heap_layout* pHeapLayout) +{ + ma_result result; + ma_uint32 inputBusCount; + ma_uint32 outputBusCount; + + MA_ASSERT(pHeapLayout != NULL); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL || pConfig->vtable == NULL || pConfig->vtable->onProcess == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_node_translate_bus_counts(pConfig, &inputBusCount, &outputBusCount); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->sizeInBytes = 0; + + /* Input buses. */ + if (inputBusCount > MA_MAX_NODE_LOCAL_BUS_COUNT) { + pHeapLayout->inputBusOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(sizeof(ma_node_input_bus) * inputBusCount); + } else { + pHeapLayout->inputBusOffset = MA_SIZE_MAX; /* MA_SIZE_MAX indicates that no heap allocation is required for the input bus. */ + } + + /* Output buses. */ + if (outputBusCount > MA_MAX_NODE_LOCAL_BUS_COUNT) { + pHeapLayout->outputBusOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(sizeof(ma_node_output_bus) * outputBusCount); + } else { + pHeapLayout->outputBusOffset = MA_SIZE_MAX; + } + + /* + Cached audio data. + + We need to allocate memory for caching both input and output data. We have an optimization + where no caching is necessary for specific conditions: + + - The node has 0 inputs and 1 output. + + When a node meets the above conditions, no cache is allocated. + + The size choice for this buffer is a little bit finicky. We don't want to be too wasteful by + allocating too much, but at the same time we want it be large enough so that enough frames can + be processed for each call to ma_node_read_pcm_frames() so that it keeps things efficient. For + now I'm going with 10ms @ 48K which is 480 frames per bus. This is configurable at compile + time. It might also be worth investigating whether or not this can be configured at run time. + */ + if (inputBusCount == 0 && outputBusCount == 1) { + /* Fast path. No cache needed. */ + pHeapLayout->cachedDataOffset = MA_SIZE_MAX; + } else { + /* Slow path. Cache needed. */ + size_t cachedDataSizeInBytes = 0; + ma_uint32 cacheCapInFrames; + ma_uint32 iBus; + + /* The capacity of the cache is based on our callback processing size. */ + cacheCapInFrames = ma_node_config_get_cache_size_in_frames(pConfig, pNodeGraph); + + for (iBus = 0; iBus < inputBusCount; iBus += 1) { + cachedDataSizeInBytes += cacheCapInFrames * ma_get_bytes_per_frame(ma_format_f32, pConfig->pInputChannels[iBus]); + } + + for (iBus = 0; iBus < outputBusCount; iBus += 1) { + cachedDataSizeInBytes += cacheCapInFrames * ma_get_bytes_per_frame(ma_format_f32, pConfig->pOutputChannels[iBus]); + } + + pHeapLayout->cachedDataOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(cachedDataSizeInBytes); + } + + + /* + Not technically part of the heap, but we can output the input and output bus counts so we can + avoid a redundant call to ma_node_translate_bus_counts(). + */ + pHeapLayout->inputBusCount = inputBusCount; + pHeapLayout->outputBusCount = outputBusCount; + + /* Make sure allocation size is aligned. */ + pHeapLayout->sizeInBytes = ma_align_64(pHeapLayout->sizeInBytes); + + return MA_SUCCESS; +} + +MA_API ma_result ma_node_get_heap_size(ma_node_graph* pNodeGraph, const ma_node_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_node_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_node_get_heap_layout(pNodeGraph, pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_node_init_preallocated(ma_node_graph* pNodeGraph, const ma_node_config* pConfig, void* pHeap, ma_node* pNode) +{ + ma_node_base* pNodeBase = (ma_node_base*)pNode; + ma_result result; + ma_node_heap_layout heapLayout; + ma_uint32 iInputBus; + ma_uint32 iOutputBus; + + if (pNodeBase == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pNodeBase); + + result = ma_node_get_heap_layout(pNodeGraph, pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + pNodeBase->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pNodeBase->pNodeGraph = pNodeGraph; + pNodeBase->vtable = pConfig->vtable; + pNodeBase->state = pConfig->initialState; + pNodeBase->stateTimes[ma_node_state_started] = 0; + pNodeBase->stateTimes[ma_node_state_stopped] = (ma_uint64)(ma_int64)-1; /* Weird casting for VC6 compatibility. */ + pNodeBase->inputBusCount = heapLayout.inputBusCount; + pNodeBase->outputBusCount = heapLayout.outputBusCount; + + if (heapLayout.inputBusOffset != MA_SIZE_MAX) { + pNodeBase->pInputBuses = (ma_node_input_bus*)ma_offset_ptr(pHeap, heapLayout.inputBusOffset); + } else { + pNodeBase->pInputBuses = pNodeBase->_inputBuses; + } + + if (heapLayout.outputBusOffset != MA_SIZE_MAX) { + pNodeBase->pOutputBuses = (ma_node_output_bus*)ma_offset_ptr(pHeap, heapLayout.outputBusOffset); + } else { + pNodeBase->pOutputBuses = pNodeBase->_outputBuses; + } + + if (heapLayout.cachedDataOffset != MA_SIZE_MAX) { + pNodeBase->pCachedData = (float*)ma_offset_ptr(pHeap, heapLayout.cachedDataOffset); + pNodeBase->cachedDataCapInFramesPerBus = ma_node_config_get_cache_size_in_frames(pConfig, pNodeGraph); + } else { + pNodeBase->pCachedData = NULL; + } + + + /* We need to run an initialization step for each input and output bus. */ + for (iInputBus = 0; iInputBus < ma_node_get_input_bus_count(pNodeBase); iInputBus += 1) { + result = ma_node_input_bus_init(pConfig->pInputChannels[iInputBus], &pNodeBase->pInputBuses[iInputBus]); + if (result != MA_SUCCESS) { + return result; + } + } + + for (iOutputBus = 0; iOutputBus < ma_node_get_output_bus_count(pNodeBase); iOutputBus += 1) { + result = ma_node_output_bus_init(pNodeBase, iOutputBus, pConfig->pOutputChannels[iOutputBus], &pNodeBase->pOutputBuses[iOutputBus]); + if (result != MA_SUCCESS) { + return result; + } + } + + + /* The cached data needs to be initialized to silence (or a sine wave tone if we're debugging). */ + if (pNodeBase->pCachedData != NULL) { + ma_uint32 iBus; + + #if 1 /* Toggle this between 0 and 1 to turn debugging on or off. 1 = fill with a sine wave for debugging; 0 = fill with silence. */ + /* For safety we'll go ahead and default the buffer to silence. */ + for (iBus = 0; iBus < ma_node_get_input_bus_count(pNodeBase); iBus += 1) { + ma_silence_pcm_frames(ma_node_get_cached_input_ptr(pNode, iBus), pNodeBase->cachedDataCapInFramesPerBus, ma_format_f32, ma_node_input_bus_get_channels(&pNodeBase->pInputBuses[iBus])); + } + for (iBus = 0; iBus < ma_node_get_output_bus_count(pNodeBase); iBus += 1) { + ma_silence_pcm_frames(ma_node_get_cached_output_ptr(pNode, iBus), pNodeBase->cachedDataCapInFramesPerBus, ma_format_f32, ma_node_output_bus_get_channels(&pNodeBase->pOutputBuses[iBus])); + } + #else + /* For debugging. Default to a sine wave. */ + for (iBus = 0; iBus < ma_node_get_input_bus_count(pNodeBase); iBus += 1) { + ma_debug_fill_pcm_frames_with_sine_wave(ma_node_get_cached_input_ptr(pNode, iBus), pNodeBase->cachedDataCapInFramesPerBus, ma_format_f32, ma_node_input_bus_get_channels(&pNodeBase->pInputBuses[iBus]), 48000); + } + for (iBus = 0; iBus < ma_node_get_output_bus_count(pNodeBase); iBus += 1) { + ma_debug_fill_pcm_frames_with_sine_wave(ma_node_get_cached_output_ptr(pNode, iBus), pNodeBase->cachedDataCapInFramesPerBus, ma_format_f32, ma_node_output_bus_get_channels(&pNodeBase->pOutputBuses[iBus]), 48000); + } + #endif + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_node_init(ma_node_graph* pNodeGraph, const ma_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_node* pNode) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_node_get_heap_size(pNodeGraph, pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_node_init_preallocated(pNodeGraph, pConfig, pHeap, pNode); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + ((ma_node_base*)pNode)->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_node_uninit(ma_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_node_base* pNodeBase = (ma_node_base*)pNode; + + if (pNodeBase == NULL) { + return; + } + + /* + The first thing we need to do is fully detach the node. This will detach all inputs and + outputs. We need to do this first because it will sever the connection with the node graph and + allow us to complete uninitialization without needing to worry about thread-safety with the + audio thread. The detachment process will wait for any local processing of the node to finish. + */ + ma_node_detach_full(pNode); + + /* + At this point the node should be completely unreferenced by the node graph and we can finish up + the uninitialization process without needing to worry about thread-safety. + */ + if (pNodeBase->_ownsHeap) { + ma_free(pNodeBase->_pHeap, pAllocationCallbacks); + } +} + +MA_API ma_node_graph* ma_node_get_node_graph(const ma_node* pNode) +{ + if (pNode == NULL) { + return NULL; + } + + return ((const ma_node_base*)pNode)->pNodeGraph; +} + +MA_API ma_uint32 ma_node_get_input_bus_count(const ma_node* pNode) +{ + if (pNode == NULL) { + return 0; + } + + return ((ma_node_base*)pNode)->inputBusCount; +} + +MA_API ma_uint32 ma_node_get_output_bus_count(const ma_node* pNode) +{ + if (pNode == NULL) { + return 0; + } + + return ((ma_node_base*)pNode)->outputBusCount; +} + + +MA_API ma_uint32 ma_node_get_input_channels(const ma_node* pNode, ma_uint32 inputBusIndex) +{ + const ma_node_base* pNodeBase = (const ma_node_base*)pNode; + + if (pNode == NULL) { + return 0; + } + + if (inputBusIndex >= ma_node_get_input_bus_count(pNode)) { + return 0; /* Invalid bus index. */ + } + + return ma_node_input_bus_get_channels(&pNodeBase->pInputBuses[inputBusIndex]); +} + +MA_API ma_uint32 ma_node_get_output_channels(const ma_node* pNode, ma_uint32 outputBusIndex) +{ + const ma_node_base* pNodeBase = (const ma_node_base*)pNode; + + if (pNode == NULL) { + return 0; + } + + if (outputBusIndex >= ma_node_get_output_bus_count(pNode)) { + return 0; /* Invalid bus index. */ + } + + return ma_node_output_bus_get_channels(&pNodeBase->pOutputBuses[outputBusIndex]); +} + + +static ma_result ma_node_detach_full(ma_node* pNode) +{ + ma_node_base* pNodeBase = (ma_node_base*)pNode; + ma_uint32 iInputBus; + + if (pNodeBase == NULL) { + return MA_INVALID_ARGS; + } + + /* + Make sure the node is completely detached first. This will not return until the output bus is + guaranteed to no longer be referenced by the audio thread. + */ + ma_node_detach_all_output_buses(pNode); + + /* + At this point all output buses will have been detached from the graph and we can be guaranteed + that none of its input nodes will be getting processed by the graph. We can detach these + without needing to worry about the audio thread touching them. + */ + for (iInputBus = 0; iInputBus < ma_node_get_input_bus_count(pNode); iInputBus += 1) { + ma_node_input_bus* pInputBus; + ma_node_output_bus* pOutputBus; + + pInputBus = &pNodeBase->pInputBuses[iInputBus]; + + /* + This is important. We cannot be using ma_node_input_bus_first() or ma_node_input_bus_next(). Those + functions are specifically for the audio thread. We'll instead just manually iterate using standard + linked list logic. We don't need to worry about the audio thread referencing these because the step + above severed the connection to the graph. + */ + for (pOutputBus = (ma_node_output_bus*)ma_atomic_load_ptr(&pInputBus->head.pNext); pOutputBus != NULL; pOutputBus = (ma_node_output_bus*)ma_atomic_load_ptr(&pInputBus->head.pNext)) { + ma_node_detach_output_bus(pOutputBus->pNode, pOutputBus->outputBusIndex); /* This won't do any waiting in practice and should be efficient. */ + } + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_node_detach_output_bus(ma_node* pNode, ma_uint32 outputBusIndex) +{ + ma_result result = MA_SUCCESS; + ma_node_base* pNodeBase = (ma_node_base*)pNode; + ma_node_base* pInputNodeBase; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + if (outputBusIndex >= ma_node_get_output_bus_count(pNode)) { + return MA_INVALID_ARGS; /* Invalid output bus index. */ + } + + /* We need to lock the output bus because we need to inspect the input node and grab its input bus. */ + ma_node_output_bus_lock(&pNodeBase->pOutputBuses[outputBusIndex]); + { + pInputNodeBase = (ma_node_base*)pNodeBase->pOutputBuses[outputBusIndex].pInputNode; + if (pInputNodeBase != NULL) { + ma_node_input_bus_detach__no_output_bus_lock(&pInputNodeBase->pInputBuses[pNodeBase->pOutputBuses[outputBusIndex].inputNodeInputBusIndex], &pNodeBase->pOutputBuses[outputBusIndex]); + } + } + ma_node_output_bus_unlock(&pNodeBase->pOutputBuses[outputBusIndex]); + + return result; +} + +MA_API ma_result ma_node_detach_all_output_buses(ma_node* pNode) +{ + ma_uint32 iOutputBus; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + for (iOutputBus = 0; iOutputBus < ma_node_get_output_bus_count(pNode); iOutputBus += 1) { + ma_node_detach_output_bus(pNode, iOutputBus); + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_node_attach_output_bus(ma_node* pNode, ma_uint32 outputBusIndex, ma_node* pOtherNode, ma_uint32 otherNodeInputBusIndex) +{ + ma_node_base* pNodeBase = (ma_node_base*)pNode; + ma_node_base* pOtherNodeBase = (ma_node_base*)pOtherNode; + + if (pNodeBase == NULL || pOtherNodeBase == NULL) { + return MA_INVALID_ARGS; + } + + if (pNodeBase == pOtherNodeBase) { + return MA_INVALID_OPERATION; /* Cannot attach a node to itself. */ + } + + if (outputBusIndex >= ma_node_get_output_bus_count(pNode) || otherNodeInputBusIndex >= ma_node_get_input_bus_count(pOtherNode)) { + return MA_INVALID_OPERATION; /* Invalid bus index. */ + } + + /* The output channel count of the output node must be the same as the input channel count of the input node. */ + if (ma_node_get_output_channels(pNode, outputBusIndex) != ma_node_get_input_channels(pOtherNode, otherNodeInputBusIndex)) { + return MA_INVALID_OPERATION; /* Channel count is incompatible. */ + } + + /* This will deal with detaching if the output bus is already attached to something. */ + ma_node_input_bus_attach(&pOtherNodeBase->pInputBuses[otherNodeInputBusIndex], &pNodeBase->pOutputBuses[outputBusIndex], pOtherNode, otherNodeInputBusIndex); + + return MA_SUCCESS; +} + +MA_API ma_result ma_node_set_output_bus_volume(ma_node* pNode, ma_uint32 outputBusIndex, float volume) +{ + ma_node_base* pNodeBase = (ma_node_base*)pNode; + + if (pNodeBase == NULL) { + return MA_INVALID_ARGS; + } + + if (outputBusIndex >= ma_node_get_output_bus_count(pNode)) { + return MA_INVALID_ARGS; /* Invalid bus index. */ + } + + return ma_node_output_bus_set_volume(&pNodeBase->pOutputBuses[outputBusIndex], volume); +} + +MA_API float ma_node_get_output_bus_volume(const ma_node* pNode, ma_uint32 outputBusIndex) +{ + const ma_node_base* pNodeBase = (const ma_node_base*)pNode; + + if (pNodeBase == NULL) { + return 0; + } + + if (outputBusIndex >= ma_node_get_output_bus_count(pNode)) { + return 0; /* Invalid bus index. */ + } + + return ma_node_output_bus_get_volume(&pNodeBase->pOutputBuses[outputBusIndex]); +} + +MA_API ma_result ma_node_set_state(ma_node* pNode, ma_node_state state) +{ + ma_node_base* pNodeBase = (ma_node_base*)pNode; + + if (pNodeBase == NULL) { + return MA_INVALID_ARGS; + } + + ma_atomic_exchange_i32(&pNodeBase->state, state); + + return MA_SUCCESS; +} + +MA_API ma_node_state ma_node_get_state(const ma_node* pNode) +{ + const ma_node_base* pNodeBase = (const ma_node_base*)pNode; + + if (pNodeBase == NULL) { + return ma_node_state_stopped; + } + + return (ma_node_state)ma_atomic_load_i32(&pNodeBase->state); +} + +MA_API ma_result ma_node_set_state_time(ma_node* pNode, ma_node_state state, ma_uint64 globalTime) +{ + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + /* Validation check for safety since we'll be using this as an index into stateTimes[]. */ + if (state != ma_node_state_started && state != ma_node_state_stopped) { + return MA_INVALID_ARGS; + } + + ma_atomic_exchange_64(&((ma_node_base*)pNode)->stateTimes[state], globalTime); + + return MA_SUCCESS; +} + +MA_API ma_uint64 ma_node_get_state_time(const ma_node* pNode, ma_node_state state) +{ + if (pNode == NULL) { + return 0; + } + + /* Validation check for safety since we'll be using this as an index into stateTimes[]. */ + if (state != ma_node_state_started && state != ma_node_state_stopped) { + return 0; + } + + return ma_atomic_load_64(&((ma_node_base*)pNode)->stateTimes[state]); +} + +MA_API ma_node_state ma_node_get_state_by_time(const ma_node* pNode, ma_uint64 globalTime) +{ + if (pNode == NULL) { + return ma_node_state_stopped; + } + + return ma_node_get_state_by_time_range(pNode, globalTime, globalTime); +} + +MA_API ma_node_state ma_node_get_state_by_time_range(const ma_node* pNode, ma_uint64 globalTimeBeg, ma_uint64 globalTimeEnd) +{ + ma_node_state state; + + if (pNode == NULL) { + return ma_node_state_stopped; + } + + state = ma_node_get_state(pNode); + + /* An explicitly stopped node is always stopped. */ + if (state == ma_node_state_stopped) { + return ma_node_state_stopped; + } + + /* + Getting here means the node is marked as started, but it may still not be truly started due to + its start time not having been reached yet. Also, the stop time may have also been reached in + which case it'll be considered stopped. + */ + if (ma_node_get_state_time(pNode, ma_node_state_stopped) < globalTimeBeg) { + return ma_node_state_stopped; /* End time is before the start of the range. */ + } + + if (ma_node_get_state_time(pNode, ma_node_state_started) > globalTimeEnd) { + return ma_node_state_stopped; /* Start time is after the end of the range. */ + } + + /* Getting here means the node is marked as started and is within its start/stop times. */ + return ma_node_state_started; +} + +MA_API ma_uint64 ma_node_get_time(const ma_node* pNode) +{ + if (pNode == NULL) { + return 0; + } + + return ma_atomic_load_64(&((ma_node_base*)pNode)->localTime); +} + +MA_API ma_result ma_node_set_time(ma_node* pNode, ma_uint64 localTime) +{ + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + ma_atomic_exchange_64(&((ma_node_base*)pNode)->localTime, localTime); + + return MA_SUCCESS; +} + + + +static void ma_node_process_pcm_frames_internal(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_node_base* pNodeBase = (ma_node_base*)pNode; + + MA_ASSERT(pNode != NULL); + + if (pNodeBase->vtable->onProcess) { + pNodeBase->vtable->onProcess(pNode, ppFramesIn, pFrameCountIn, ppFramesOut, pFrameCountOut); + } +} + +static ma_result ma_node_read_pcm_frames(ma_node* pNode, ma_uint32 outputBusIndex, float* pFramesOut, ma_uint32 frameCount, ma_uint32* pFramesRead, ma_uint64 globalTime) +{ + ma_node_base* pNodeBase = (ma_node_base*)pNode; + ma_result result = MA_SUCCESS; + ma_uint32 iInputBus; + ma_uint32 iOutputBus; + ma_uint32 inputBusCount; + ma_uint32 outputBusCount; + ma_uint32 totalFramesRead = 0; + float* ppFramesIn[MA_MAX_NODE_BUS_COUNT]; + float* ppFramesOut[MA_MAX_NODE_BUS_COUNT]; + ma_uint64 globalTimeBeg; + ma_uint64 globalTimeEnd; + ma_uint64 startTime; + ma_uint64 stopTime; + ma_uint32 timeOffsetBeg; + ma_uint32 timeOffsetEnd; + ma_uint32 frameCountIn; + ma_uint32 frameCountOut; + + /* + pFramesRead is mandatory. It must be used to determine how many frames were read. It's normal and + expected that the number of frames read may be different to that requested. Therefore, the caller + must look at this value to correctly determine how many frames were read. + */ + MA_ASSERT(pFramesRead != NULL); /* <-- If you've triggered this assert, you're using this function wrong. You *must* use this variable and inspect it after the call returns. */ + if (pFramesRead == NULL) { + return MA_INVALID_ARGS; + } + + *pFramesRead = 0; /* Safety. */ + + if (pNodeBase == NULL) { + return MA_INVALID_ARGS; + } + + if (outputBusIndex >= ma_node_get_output_bus_count(pNodeBase)) { + return MA_INVALID_ARGS; /* Invalid output bus index. */ + } + + globalTimeBeg = globalTime; + globalTimeEnd = globalTime + frameCount; + + /* Don't do anything if we're in a stopped state. */ + if (ma_node_get_state_by_time_range(pNode, globalTimeBeg, globalTimeEnd) != ma_node_state_started) { + return MA_SUCCESS; /* We're in a stopped state. This is not an error - we just need to not read anything. */ + } + + startTime = ma_node_get_state_time(pNode, ma_node_state_started); + stopTime = ma_node_get_state_time(pNode, ma_node_state_stopped); + + /* + At this point we know that we are inside our start/stop times. However, we may need to adjust + our frame count and output pointer to accommodate since we could be straddling the time period + that this function is getting called for. + + It's possible (and likely) that the start time does not line up with the output buffer. We + therefore need to offset it by a number of frames to accommodate. The same thing applies for + the stop time. + */ + timeOffsetBeg = (globalTimeBeg < startTime) ? (ma_uint32)(startTime - globalTimeBeg) : 0; + timeOffsetEnd = (globalTimeEnd > stopTime) ? (ma_uint32)(globalTimeEnd - stopTime) : 0; + + /* Trim based on the start offset. We need to silence the start of the buffer. */ + if (timeOffsetBeg > 0) { + MA_ASSERT(timeOffsetBeg <= frameCount); + if (timeOffsetBeg > frameCount) { + timeOffsetBeg = frameCount; + } + + ma_silence_pcm_frames(pFramesOut, timeOffsetBeg, ma_format_f32, ma_node_get_output_channels(pNode, outputBusIndex)); + pFramesOut += timeOffsetBeg * ma_node_get_output_channels(pNode, outputBusIndex); + frameCount -= timeOffsetBeg; + } + + /* Trim based on the end offset. We don't need to silence the tail section because we'll just have a reduced value written to pFramesRead. */ + if (timeOffsetEnd > 0) { + MA_ASSERT(timeOffsetEnd <= frameCount); + if (timeOffsetEnd > frameCount) { + timeOffsetEnd = frameCount; + } + + frameCount -= timeOffsetEnd; + } + + + /* We run on different paths depending on the bus counts. */ + inputBusCount = ma_node_get_input_bus_count(pNode); + outputBusCount = ma_node_get_output_bus_count(pNode); + + /* + Run a simplified path when there are no inputs and one output. In this case there's nothing to + actually read and we can go straight to output. This is a very common scenario because the vast + majority of data source nodes will use this setup so this optimization I think is worthwhile. + */ + if (inputBusCount == 0 && outputBusCount == 1) { + /* Fast path. No need to read from input and no need for any caching. */ + frameCountIn = 0; + frameCountOut = frameCount; /* Just read as much as we can. The callback will return what was actually read. */ + + ppFramesOut[0] = pFramesOut; + + /* + If it's a passthrough we won't be expecting the callback to output anything, so we'll + need to pre-silence the output buffer. + */ + if ((pNodeBase->vtable->flags & MA_NODE_FLAG_PASSTHROUGH) != 0) { + ma_silence_pcm_frames(pFramesOut, frameCount, ma_format_f32, ma_node_get_output_channels(pNode, outputBusIndex)); + } + + ma_node_process_pcm_frames_internal(pNode, NULL, &frameCountIn, ppFramesOut, &frameCountOut); + totalFramesRead = frameCountOut; + } else { + /* Slow path. Need to read input data. */ + if ((pNodeBase->vtable->flags & MA_NODE_FLAG_PASSTHROUGH) != 0) { + /* + Fast path. We're running a passthrough. We need to read directly into the output buffer, but + still fire the callback so that event handling and trigger nodes can do their thing. Since + it's a passthrough there's no need for any kind of caching logic. + */ + MA_ASSERT(outputBusCount == inputBusCount); + MA_ASSERT(outputBusCount == 1); + MA_ASSERT(outputBusIndex == 0); + + /* We just read directly from input bus to output buffer, and then afterwards fire the callback. */ + ppFramesOut[0] = pFramesOut; + ppFramesIn[0] = ppFramesOut[0]; + + result = ma_node_input_bus_read_pcm_frames(pNodeBase, &pNodeBase->pInputBuses[0], ppFramesIn[0], frameCount, &totalFramesRead, globalTime); + if (result == MA_SUCCESS) { + /* Even though it's a passthrough, we still need to fire the callback. */ + frameCountIn = totalFramesRead; + frameCountOut = totalFramesRead; + + if (totalFramesRead > 0) { + ma_node_process_pcm_frames_internal(pNode, (const float**)ppFramesIn, &frameCountIn, ppFramesOut, &frameCountOut); /* From GCC: expected 'const float **' but argument is of type 'float **'. Shouldn't this be implicit? Explicit cast to silence the warning. */ + } + + /* + A passthrough should never have modified the input and output frame counts. If you're + triggering these asserts you need to fix your processing callback. + */ + MA_ASSERT(frameCountIn == totalFramesRead); + MA_ASSERT(frameCountOut == totalFramesRead); + } + } else { + /* Slow path. Need to do caching. */ + ma_uint32 framesToProcessIn; + ma_uint32 framesToProcessOut; + ma_bool32 consumeNullInput = MA_FALSE; + + /* + We use frameCount as a basis for the number of frames to read since that's what's being + requested, however we still need to clamp it to whatever can fit in the cache. + + This will also be used as the basis for determining how many input frames to read. This is + not ideal because it can result in too many input frames being read which introduces latency. + To solve this, nodes can implement an optional callback called onGetRequiredInputFrameCount + which is used as hint to miniaudio as to how many input frames it needs to read at a time. This + callback is completely optional, and if it's not set, miniaudio will assume `frameCount`. + + This function will be called multiple times for each period of time, once for each output node. + We cannot read from each input node each time this function is called. Instead we need to check + whether or not this is first output bus to be read from for this time period, and if so, read + from our input data. + + To determine whether or not we're ready to read data, we check a flag. There will be one flag + for each output. When the flag is set, it means data has been read previously and that we're + ready to advance time forward for our input nodes by reading fresh data. + */ + framesToProcessOut = frameCount; + if (framesToProcessOut > pNodeBase->cachedDataCapInFramesPerBus) { + framesToProcessOut = pNodeBase->cachedDataCapInFramesPerBus; + } + + framesToProcessIn = frameCount; + if (pNodeBase->vtable->onGetRequiredInputFrameCount) { + pNodeBase->vtable->onGetRequiredInputFrameCount(pNode, framesToProcessOut, &framesToProcessIn); /* <-- It does not matter if this fails. */ + } + if (framesToProcessIn > pNodeBase->cachedDataCapInFramesPerBus) { + framesToProcessIn = pNodeBase->cachedDataCapInFramesPerBus; + } + + + MA_ASSERT(framesToProcessIn <= 0xFFFF); + MA_ASSERT(framesToProcessOut <= 0xFFFF); + + if (ma_node_output_bus_has_read(&pNodeBase->pOutputBuses[outputBusIndex])) { + /* Getting here means we need to do another round of processing. */ + pNodeBase->cachedFrameCountOut = 0; + + for (;;) { + frameCountOut = 0; + + /* + We need to prepare our output frame pointers for processing. In the same iteration we need + to mark every output bus as unread so that future calls to this function for different buses + for the current time period don't pull in data when they should instead be reading from cache. + */ + for (iOutputBus = 0; iOutputBus < outputBusCount; iOutputBus += 1) { + ma_node_output_bus_set_has_read(&pNodeBase->pOutputBuses[iOutputBus], MA_FALSE); /* <-- This is what tells the next calls to this function for other output buses for this time period to read from cache instead of pulling in more data. */ + ppFramesOut[iOutputBus] = ma_node_get_cached_output_ptr(pNode, iOutputBus); + } + + /* We only need to read from input buses if there isn't already some data in the cache. */ + if (pNodeBase->cachedFrameCountIn == 0) { + ma_uint32 maxFramesReadIn = 0; + + /* Here is where we pull in data from the input buses. This is what will trigger an advance in time. */ + for (iInputBus = 0; iInputBus < inputBusCount; iInputBus += 1) { + ma_uint32 framesRead; + + /* The first thing to do is get the offset within our bulk allocation to store this input data. */ + ppFramesIn[iInputBus] = ma_node_get_cached_input_ptr(pNode, iInputBus); + + /* Once we've determined our destination pointer we can read. Note that we must inspect the number of frames read and fill any leftovers with silence for safety. */ + result = ma_node_input_bus_read_pcm_frames(pNodeBase, &pNodeBase->pInputBuses[iInputBus], ppFramesIn[iInputBus], framesToProcessIn, &framesRead, globalTime); + if (result != MA_SUCCESS) { + /* It doesn't really matter if we fail because we'll just fill with silence. */ + framesRead = 0; /* Just for safety, but I don't think it's really needed. */ + } + + /* TODO: Minor optimization opportunity here. If no frames were read and the buffer is already filled with silence, no need to re-silence it. */ + /* Any leftover frames need to silenced for safety. */ + if (framesRead < framesToProcessIn) { + ma_silence_pcm_frames(ppFramesIn[iInputBus] + (framesRead * ma_node_get_input_channels(pNodeBase, iInputBus)), (framesToProcessIn - framesRead), ma_format_f32, ma_node_get_input_channels(pNodeBase, iInputBus)); + } + + maxFramesReadIn = ma_max(maxFramesReadIn, framesRead); + } + + /* This was a fresh load of input data so reset our consumption counter. */ + pNodeBase->consumedFrameCountIn = 0; + + /* + We don't want to keep processing if there's nothing to process, so set the number of cached + input frames to the maximum number we read from each attachment (the lesser will be padded + with silence). If we didn't read anything, this will be set to 0 and the entire buffer will + have been assigned to silence. This being equal to 0 is an important property for us because + it allows us to detect when NULL can be passed into the processing callback for the input + buffer for the purpose of continuous processing. + */ + pNodeBase->cachedFrameCountIn = (ma_uint16)maxFramesReadIn; + } else { + /* We don't need to read anything, but we do need to prepare our input frame pointers. */ + for (iInputBus = 0; iInputBus < inputBusCount; iInputBus += 1) { + ppFramesIn[iInputBus] = ma_node_get_cached_input_ptr(pNode, iInputBus) + (pNodeBase->consumedFrameCountIn * ma_node_get_input_channels(pNodeBase, iInputBus)); + } + } + + /* + At this point we have our input data so now we need to do some processing. Sneaky little + optimization here - we can set the pointer to the output buffer for this output bus so + that the final copy into the output buffer is done directly by onProcess(). + */ + if (pFramesOut != NULL) { + ppFramesOut[outputBusIndex] = ma_offset_pcm_frames_ptr_f32(pFramesOut, pNodeBase->cachedFrameCountOut, ma_node_get_output_channels(pNode, outputBusIndex)); + } + + + /* Give the processing function the entire capacity of the output buffer. */ + frameCountOut = (framesToProcessOut - pNodeBase->cachedFrameCountOut); + + /* + We need to treat nodes with continuous processing a little differently. For these ones, + we always want to fire the callback with the requested number of frames, regardless of + pNodeBase->cachedFrameCountIn, which could be 0. Also, we want to check if we can pass + in NULL for the input buffer to the callback. + */ + if ((pNodeBase->vtable->flags & MA_NODE_FLAG_CONTINUOUS_PROCESSING) != 0) { + /* We're using continuous processing. Make sure we specify the whole frame count at all times. */ + frameCountIn = framesToProcessIn; /* Give the processing function as much input data as we've got in the buffer, including any silenced padding from short reads. */ + + if ((pNodeBase->vtable->flags & MA_NODE_FLAG_ALLOW_NULL_INPUT) != 0 && pNodeBase->consumedFrameCountIn == 0 && pNodeBase->cachedFrameCountIn == 0) { + consumeNullInput = MA_TRUE; + } else { + consumeNullInput = MA_FALSE; + } + + /* + Since we're using continuous processing we're always passing in a full frame count + regardless of how much input data was read. If this is greater than what we read as + input, we'll end up with an underflow. We instead need to make sure our cached frame + count is set to the number of frames we'll be passing to the data callback. Not + doing this will result in an underflow when we "consume" the cached data later on. + + Note that this check needs to be done after the "consumeNullInput" check above because + we use the property of cachedFrameCountIn being 0 to determine whether or not we + should be passing in a null pointer to the processing callback for when the node is + configured with MA_NODE_FLAG_ALLOW_NULL_INPUT. + */ + if (pNodeBase->cachedFrameCountIn < (ma_uint16)frameCountIn) { + pNodeBase->cachedFrameCountIn = (ma_uint16)frameCountIn; + } + } else { + frameCountIn = pNodeBase->cachedFrameCountIn; /* Give the processing function as much valid input data as we've got. */ + consumeNullInput = MA_FALSE; + } + + /* + Process data slightly differently depending on whether or not we're consuming NULL + input (checked just above). + */ + if (consumeNullInput) { + ma_node_process_pcm_frames_internal(pNode, NULL, &frameCountIn, ppFramesOut, &frameCountOut); + } else { + /* + We want to skip processing if there's no input data, but we can only do that safely if + we know that there is no chance of any output frames being produced. If continuous + processing is being used, this won't be a problem because the input frame count will + always be non-0. However, if continuous processing is *not* enabled and input and output + data is processed at different rates, we still need to process that last input frame + because there could be a few excess output frames needing to be produced from cached + data. The `MA_NODE_FLAG_DIFFERENT_PROCESSING_RATES` flag is used as the indicator for + determining whether or not we need to process the node even when there are no input + frames available right now. + */ + if (frameCountIn > 0 || (pNodeBase->vtable->flags & MA_NODE_FLAG_DIFFERENT_PROCESSING_RATES) != 0) { + ma_node_process_pcm_frames_internal(pNode, (const float**)ppFramesIn, &frameCountIn, ppFramesOut, &frameCountOut); /* From GCC: expected 'const float **' but argument is of type 'float **'. Shouldn't this be implicit? Explicit cast to silence the warning. */ + } else { + frameCountOut = 0; /* No data was processed. */ + } + } + + /* + Thanks to our sneaky optimization above we don't need to do any data copying directly into + the output buffer - the onProcess() callback just did that for us. We do, however, need to + apply the number of input and output frames that were processed. Note that due to continuous + processing above, we need to do explicit checks here. If we just consumed a NULL input + buffer it means that no actual input data was processed from the internal buffers and we + don't want to be modifying any counters. + */ + if (consumeNullInput == MA_FALSE) { + pNodeBase->consumedFrameCountIn += (ma_uint16)frameCountIn; + pNodeBase->cachedFrameCountIn -= (ma_uint16)frameCountIn; + } + + /* The cached output frame count is always equal to what we just read. */ + pNodeBase->cachedFrameCountOut += (ma_uint16)frameCountOut; + + /* If we couldn't process any data, we're done. The loop needs to be terminated here or else we'll get stuck in a loop. */ + if (pNodeBase->cachedFrameCountOut == framesToProcessOut || (frameCountOut == 0 && frameCountIn == 0)) { + break; + } + } + } else { + /* + We're not needing to read anything from the input buffer so just read directly from our + already-processed data. + */ + if (pFramesOut != NULL) { + ma_copy_pcm_frames(pFramesOut, ma_node_get_cached_output_ptr(pNodeBase, outputBusIndex), pNodeBase->cachedFrameCountOut, ma_format_f32, ma_node_get_output_channels(pNodeBase, outputBusIndex)); + } + } + + /* The number of frames read is always equal to the number of cached output frames. */ + totalFramesRead = pNodeBase->cachedFrameCountOut; + + /* Now that we've read the data, make sure our read flag is set. */ + ma_node_output_bus_set_has_read(&pNodeBase->pOutputBuses[outputBusIndex], MA_TRUE); + } + } + + /* Apply volume, if necessary. */ + ma_apply_volume_factor_f32(pFramesOut, totalFramesRead * ma_node_get_output_channels(pNodeBase, outputBusIndex), ma_node_output_bus_get_volume(&pNodeBase->pOutputBuses[outputBusIndex])); + + /* Advance our local time forward. */ + ma_atomic_fetch_add_64(&pNodeBase->localTime, (ma_uint64)totalFramesRead); + + *pFramesRead = totalFramesRead + timeOffsetBeg; /* Must include the silenced section at the start of the buffer. */ + return result; +} + + + + +/* Data source node. */ +MA_API ma_data_source_node_config ma_data_source_node_config_init(ma_data_source* pDataSource) +{ + ma_data_source_node_config config; + + MA_ZERO_OBJECT(&config); + config.nodeConfig = ma_node_config_init(); + config.pDataSource = pDataSource; + + return config; +} + + +static void ma_data_source_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_data_source_node* pDataSourceNode = (ma_data_source_node*)pNode; + ma_format format; + ma_uint32 channels; + ma_uint32 frameCount; + ma_uint64 framesRead = 0; + + MA_ASSERT(pDataSourceNode != NULL); + MA_ASSERT(pDataSourceNode->pDataSource != NULL); + MA_ASSERT(ma_node_get_input_bus_count(pDataSourceNode) == 0); + MA_ASSERT(ma_node_get_output_bus_count(pDataSourceNode) == 1); + + /* We don't want to read from ppFramesIn at all. Instead we read from the data source. */ + (void)ppFramesIn; + (void)pFrameCountIn; + + frameCount = *pFrameCountOut; + + /* miniaudio should never be calling this with a frame count of zero. */ + MA_ASSERT(frameCount > 0); + + if (ma_data_source_get_data_format(pDataSourceNode->pDataSource, &format, &channels, NULL, NULL, 0) == MA_SUCCESS) { /* <-- Don't care about sample rate here. */ + /* The node graph system requires samples be in floating point format. This is checked in ma_data_source_node_init(). */ + MA_ASSERT(format == ma_format_f32); + (void)format; /* Just to silence some static analysis tools. */ + + ma_data_source_read_pcm_frames(pDataSourceNode->pDataSource, ppFramesOut[0], frameCount, &framesRead); + } + + *pFrameCountOut = (ma_uint32)framesRead; +} + +static ma_node_vtable g_ma_data_source_node_vtable = +{ + ma_data_source_node_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 0, /* 0 input buses. */ + 1, /* 1 output bus. */ + 0 +}; + +MA_API ma_result ma_data_source_node_init(ma_node_graph* pNodeGraph, const ma_data_source_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_data_source_node* pDataSourceNode) +{ + ma_result result; + ma_format format; /* For validating the format, which must be ma_format_f32. */ + ma_uint32 channels; /* For specifying the channel count of the output bus. */ + ma_node_config baseConfig; + + if (pDataSourceNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pDataSourceNode); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_data_source_get_data_format(pConfig->pDataSource, &format, &channels, NULL, NULL, 0); /* Don't care about sample rate. This will check pDataSource for NULL. */ + if (result != MA_SUCCESS) { + return result; + } + + MA_ASSERT(format == ma_format_f32); /* <-- If you've triggered this it means your data source is not outputting floating-point samples. You must configure your data source to use ma_format_f32. */ + if (format != ma_format_f32) { + return MA_INVALID_ARGS; /* Invalid format. */ + } + + /* The channel count is defined by the data source. If the caller has manually changed the channels we just ignore it. */ + baseConfig = pConfig->nodeConfig; + baseConfig.vtable = &g_ma_data_source_node_vtable; /* Explicitly set the vtable here to prevent callers from setting it incorrectly. */ + + /* + The channel count is defined by the data source. It is invalid for the caller to manually set + the channel counts in the config. `ma_data_source_node_config_init()` will have defaulted the + channel count pointer to NULL which is how it must remain. If you trigger any of these asserts + it means you're explicitly setting the channel count. Instead, configure the output channel + count of your data source to be the necessary channel count. + */ + if (baseConfig.pOutputChannels != NULL) { + return MA_INVALID_ARGS; + } + + baseConfig.pOutputChannels = &channels; + + result = ma_node_init(pNodeGraph, &baseConfig, pAllocationCallbacks, &pDataSourceNode->base); + if (result != MA_SUCCESS) { + return result; + } + + pDataSourceNode->pDataSource = pConfig->pDataSource; + + return MA_SUCCESS; +} + +MA_API void ma_data_source_node_uninit(ma_data_source_node* pDataSourceNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_node_uninit(&pDataSourceNode->base, pAllocationCallbacks); +} + +MA_API ma_result ma_data_source_node_set_looping(ma_data_source_node* pDataSourceNode, ma_bool32 isLooping) +{ + if (pDataSourceNode == NULL) { + return MA_INVALID_ARGS; + } + + return ma_data_source_set_looping(pDataSourceNode->pDataSource, isLooping); +} + +MA_API ma_bool32 ma_data_source_node_is_looping(ma_data_source_node* pDataSourceNode) +{ + if (pDataSourceNode == NULL) { + return MA_FALSE; + } + + return ma_data_source_is_looping(pDataSourceNode->pDataSource); +} + + + +/* Splitter Node. */ +MA_API ma_splitter_node_config ma_splitter_node_config_init(ma_uint32 channels) +{ + ma_splitter_node_config config; + + MA_ZERO_OBJECT(&config); + config.nodeConfig = ma_node_config_init(); + config.channels = channels; + config.outputBusCount = 2; + + return config; +} + + +static void ma_splitter_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_node_base* pNodeBase = (ma_node_base*)pNode; + ma_uint32 iOutputBus; + ma_uint32 channels; + + MA_ASSERT(pNodeBase != NULL); + MA_ASSERT(ma_node_get_input_bus_count(pNodeBase) == 1); + + /* We don't need to consider the input frame count - it'll be the same as the output frame count and we process everything. */ + (void)pFrameCountIn; + + /* NOTE: This assumes the same number of channels for all inputs and outputs. This was checked in ma_splitter_node_init(). */ + channels = ma_node_get_input_channels(pNodeBase, 0); + + /* Splitting is just copying the first input bus and copying it over to each output bus. */ + for (iOutputBus = 0; iOutputBus < ma_node_get_output_bus_count(pNodeBase); iOutputBus += 1) { + ma_copy_pcm_frames(ppFramesOut[iOutputBus], ppFramesIn[0], *pFrameCountOut, ma_format_f32, channels); + } +} + +static ma_node_vtable g_ma_splitter_node_vtable = +{ + ma_splitter_node_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 1, /* 1 input bus. */ + MA_NODE_BUS_COUNT_UNKNOWN, /* The output bus count is specified on a per-node basis. */ + 0 +}; + +MA_API ma_result ma_splitter_node_init(ma_node_graph* pNodeGraph, const ma_splitter_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_splitter_node* pSplitterNode) +{ + ma_result result; + ma_node_config baseConfig; + ma_uint32 pInputChannels[1]; + ma_uint32 pOutputChannels[MA_MAX_NODE_BUS_COUNT]; + ma_uint32 iOutputBus; + + if (pSplitterNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pSplitterNode); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->outputBusCount > MA_MAX_NODE_BUS_COUNT) { + return MA_INVALID_ARGS; /* Too many output buses. */ + } + + /* Splitters require the same number of channels between inputs and outputs. */ + pInputChannels[0] = pConfig->channels; + for (iOutputBus = 0; iOutputBus < pConfig->outputBusCount; iOutputBus += 1) { + pOutputChannels[iOutputBus] = pConfig->channels; + } + + baseConfig = pConfig->nodeConfig; + baseConfig.vtable = &g_ma_splitter_node_vtable; + baseConfig.pInputChannels = pInputChannels; + baseConfig.pOutputChannels = pOutputChannels; + baseConfig.outputBusCount = pConfig->outputBusCount; + + result = ma_node_init(pNodeGraph, &baseConfig, pAllocationCallbacks, &pSplitterNode->base); + if (result != MA_SUCCESS) { + return result; /* Failed to initialize the base node. */ + } + + return MA_SUCCESS; +} + +MA_API void ma_splitter_node_uninit(ma_splitter_node* pSplitterNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_node_uninit(pSplitterNode, pAllocationCallbacks); +} + + +/* +Biquad Node +*/ +MA_API ma_biquad_node_config ma_biquad_node_config_init(ma_uint32 channels, float b0, float b1, float b2, float a0, float a1, float a2) +{ + ma_biquad_node_config config; + + config.nodeConfig = ma_node_config_init(); + config.biquad = ma_biquad_config_init(ma_format_f32, channels, b0, b1, b2, a0, a1, a2); + + return config; +} + +static void ma_biquad_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_biquad_node* pLPFNode = (ma_biquad_node*)pNode; + + MA_ASSERT(pNode != NULL); + (void)pFrameCountIn; + + ma_biquad_process_pcm_frames(&pLPFNode->biquad, ppFramesOut[0], ppFramesIn[0], *pFrameCountOut); +} + +static ma_node_vtable g_ma_biquad_node_vtable = +{ + ma_biquad_node_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 1, /* One input. */ + 1, /* One output. */ + 0 /* Default flags. */ +}; + +MA_API ma_result ma_biquad_node_init(ma_node_graph* pNodeGraph, const ma_biquad_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_biquad_node* pNode) +{ + ma_result result; + ma_node_config baseNodeConfig; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pNode); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->biquad.format != ma_format_f32) { + return MA_INVALID_ARGS; /* The format must be f32. */ + } + + result = ma_biquad_init(&pConfig->biquad, pAllocationCallbacks, &pNode->biquad); + if (result != MA_SUCCESS) { + return result; + } + + baseNodeConfig = ma_node_config_init(); + baseNodeConfig.vtable = &g_ma_biquad_node_vtable; + baseNodeConfig.pInputChannels = &pConfig->biquad.channels; + baseNodeConfig.pOutputChannels = &pConfig->biquad.channels; + + result = ma_node_init(pNodeGraph, &baseNodeConfig, pAllocationCallbacks, pNode); + if (result != MA_SUCCESS) { + return result; + } + + return result; +} + +MA_API ma_result ma_biquad_node_reinit(const ma_biquad_config* pConfig, ma_biquad_node* pNode) +{ + ma_biquad_node* pLPFNode = (ma_biquad_node*)pNode; + + MA_ASSERT(pNode != NULL); + + return ma_biquad_reinit(pConfig, &pLPFNode->biquad); +} + +MA_API void ma_biquad_node_uninit(ma_biquad_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_biquad_node* pLPFNode = (ma_biquad_node*)pNode; + + if (pNode == NULL) { + return; + } + + ma_node_uninit(pNode, pAllocationCallbacks); + ma_biquad_uninit(&pLPFNode->biquad, pAllocationCallbacks); +} + + + +/* +Low Pass Filter Node +*/ +MA_API ma_lpf_node_config ma_lpf_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order) +{ + ma_lpf_node_config config; + + config.nodeConfig = ma_node_config_init(); + config.lpf = ma_lpf_config_init(ma_format_f32, channels, sampleRate, cutoffFrequency, order); + + return config; +} + +static void ma_lpf_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_lpf_node* pLPFNode = (ma_lpf_node*)pNode; + + MA_ASSERT(pNode != NULL); + (void)pFrameCountIn; + + ma_lpf_process_pcm_frames(&pLPFNode->lpf, ppFramesOut[0], ppFramesIn[0], *pFrameCountOut); +} + +static ma_node_vtable g_ma_lpf_node_vtable = +{ + ma_lpf_node_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 1, /* One input. */ + 1, /* One output. */ + 0 /* Default flags. */ +}; + +MA_API ma_result ma_lpf_node_init(ma_node_graph* pNodeGraph, const ma_lpf_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_lpf_node* pNode) +{ + ma_result result; + ma_node_config baseNodeConfig; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pNode); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->lpf.format != ma_format_f32) { + return MA_INVALID_ARGS; /* The format must be f32. */ + } + + result = ma_lpf_init(&pConfig->lpf, pAllocationCallbacks, &pNode->lpf); + if (result != MA_SUCCESS) { + return result; + } + + baseNodeConfig = ma_node_config_init(); + baseNodeConfig.vtable = &g_ma_lpf_node_vtable; + baseNodeConfig.pInputChannels = &pConfig->lpf.channels; + baseNodeConfig.pOutputChannels = &pConfig->lpf.channels; + + result = ma_node_init(pNodeGraph, &baseNodeConfig, pAllocationCallbacks, pNode); + if (result != MA_SUCCESS) { + return result; + } + + return result; +} + +MA_API ma_result ma_lpf_node_reinit(const ma_lpf_config* pConfig, ma_lpf_node* pNode) +{ + ma_lpf_node* pLPFNode = (ma_lpf_node*)pNode; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + return ma_lpf_reinit(pConfig, &pLPFNode->lpf); +} + +MA_API void ma_lpf_node_uninit(ma_lpf_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_lpf_node* pLPFNode = (ma_lpf_node*)pNode; + + if (pNode == NULL) { + return; + } + + ma_node_uninit(pNode, pAllocationCallbacks); + ma_lpf_uninit(&pLPFNode->lpf, pAllocationCallbacks); +} + + + +/* +High Pass Filter Node +*/ +MA_API ma_hpf_node_config ma_hpf_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order) +{ + ma_hpf_node_config config; + + config.nodeConfig = ma_node_config_init(); + config.hpf = ma_hpf_config_init(ma_format_f32, channels, sampleRate, cutoffFrequency, order); + + return config; +} + +static void ma_hpf_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_hpf_node* pHPFNode = (ma_hpf_node*)pNode; + + MA_ASSERT(pNode != NULL); + (void)pFrameCountIn; + + ma_hpf_process_pcm_frames(&pHPFNode->hpf, ppFramesOut[0], ppFramesIn[0], *pFrameCountOut); +} + +static ma_node_vtable g_ma_hpf_node_vtable = +{ + ma_hpf_node_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 1, /* One input. */ + 1, /* One output. */ + 0 /* Default flags. */ +}; + +MA_API ma_result ma_hpf_node_init(ma_node_graph* pNodeGraph, const ma_hpf_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hpf_node* pNode) +{ + ma_result result; + ma_node_config baseNodeConfig; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pNode); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->hpf.format != ma_format_f32) { + return MA_INVALID_ARGS; /* The format must be f32. */ + } + + result = ma_hpf_init(&pConfig->hpf, pAllocationCallbacks, &pNode->hpf); + if (result != MA_SUCCESS) { + return result; + } + + baseNodeConfig = ma_node_config_init(); + baseNodeConfig.vtable = &g_ma_hpf_node_vtable; + baseNodeConfig.pInputChannels = &pConfig->hpf.channels; + baseNodeConfig.pOutputChannels = &pConfig->hpf.channels; + + result = ma_node_init(pNodeGraph, &baseNodeConfig, pAllocationCallbacks, pNode); + if (result != MA_SUCCESS) { + return result; + } + + return result; +} + +MA_API ma_result ma_hpf_node_reinit(const ma_hpf_config* pConfig, ma_hpf_node* pNode) +{ + ma_hpf_node* pHPFNode = (ma_hpf_node*)pNode; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + return ma_hpf_reinit(pConfig, &pHPFNode->hpf); +} + +MA_API void ma_hpf_node_uninit(ma_hpf_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_hpf_node* pHPFNode = (ma_hpf_node*)pNode; + + if (pNode == NULL) { + return; + } + + ma_node_uninit(pNode, pAllocationCallbacks); + ma_hpf_uninit(&pHPFNode->hpf, pAllocationCallbacks); +} + + + + +/* +Band Pass Filter Node +*/ +MA_API ma_bpf_node_config ma_bpf_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double cutoffFrequency, ma_uint32 order) +{ + ma_bpf_node_config config; + + config.nodeConfig = ma_node_config_init(); + config.bpf = ma_bpf_config_init(ma_format_f32, channels, sampleRate, cutoffFrequency, order); + + return config; +} + +static void ma_bpf_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_bpf_node* pBPFNode = (ma_bpf_node*)pNode; + + MA_ASSERT(pNode != NULL); + (void)pFrameCountIn; + + ma_bpf_process_pcm_frames(&pBPFNode->bpf, ppFramesOut[0], ppFramesIn[0], *pFrameCountOut); +} + +static ma_node_vtable g_ma_bpf_node_vtable = +{ + ma_bpf_node_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 1, /* One input. */ + 1, /* One output. */ + 0 /* Default flags. */ +}; + +MA_API ma_result ma_bpf_node_init(ma_node_graph* pNodeGraph, const ma_bpf_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_bpf_node* pNode) +{ + ma_result result; + ma_node_config baseNodeConfig; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pNode); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->bpf.format != ma_format_f32) { + return MA_INVALID_ARGS; /* The format must be f32. */ + } + + result = ma_bpf_init(&pConfig->bpf, pAllocationCallbacks, &pNode->bpf); + if (result != MA_SUCCESS) { + return result; + } + + baseNodeConfig = ma_node_config_init(); + baseNodeConfig.vtable = &g_ma_bpf_node_vtable; + baseNodeConfig.pInputChannels = &pConfig->bpf.channels; + baseNodeConfig.pOutputChannels = &pConfig->bpf.channels; + + result = ma_node_init(pNodeGraph, &baseNodeConfig, pAllocationCallbacks, pNode); + if (result != MA_SUCCESS) { + return result; + } + + return result; +} + +MA_API ma_result ma_bpf_node_reinit(const ma_bpf_config* pConfig, ma_bpf_node* pNode) +{ + ma_bpf_node* pBPFNode = (ma_bpf_node*)pNode; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + return ma_bpf_reinit(pConfig, &pBPFNode->bpf); +} + +MA_API void ma_bpf_node_uninit(ma_bpf_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_bpf_node* pBPFNode = (ma_bpf_node*)pNode; + + if (pNode == NULL) { + return; + } + + ma_node_uninit(pNode, pAllocationCallbacks); + ma_bpf_uninit(&pBPFNode->bpf, pAllocationCallbacks); +} + + + +/* +Notching Filter Node +*/ +MA_API ma_notch_node_config ma_notch_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double q, double frequency) +{ + ma_notch_node_config config; + + config.nodeConfig = ma_node_config_init(); + config.notch = ma_notch2_config_init(ma_format_f32, channels, sampleRate, q, frequency); + + return config; +} + +static void ma_notch_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_notch_node* pBPFNode = (ma_notch_node*)pNode; + + MA_ASSERT(pNode != NULL); + (void)pFrameCountIn; + + ma_notch2_process_pcm_frames(&pBPFNode->notch, ppFramesOut[0], ppFramesIn[0], *pFrameCountOut); +} + +static ma_node_vtable g_ma_notch_node_vtable = +{ + ma_notch_node_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 1, /* One input. */ + 1, /* One output. */ + 0 /* Default flags. */ +}; + +MA_API ma_result ma_notch_node_init(ma_node_graph* pNodeGraph, const ma_notch_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_notch_node* pNode) +{ + ma_result result; + ma_node_config baseNodeConfig; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pNode); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->notch.format != ma_format_f32) { + return MA_INVALID_ARGS; /* The format must be f32. */ + } + + result = ma_notch2_init(&pConfig->notch, pAllocationCallbacks, &pNode->notch); + if (result != MA_SUCCESS) { + return result; + } + + baseNodeConfig = ma_node_config_init(); + baseNodeConfig.vtable = &g_ma_notch_node_vtable; + baseNodeConfig.pInputChannels = &pConfig->notch.channels; + baseNodeConfig.pOutputChannels = &pConfig->notch.channels; + + result = ma_node_init(pNodeGraph, &baseNodeConfig, pAllocationCallbacks, pNode); + if (result != MA_SUCCESS) { + return result; + } + + return result; +} + +MA_API ma_result ma_notch_node_reinit(const ma_notch_config* pConfig, ma_notch_node* pNode) +{ + ma_notch_node* pNotchNode = (ma_notch_node*)pNode; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + return ma_notch2_reinit(pConfig, &pNotchNode->notch); +} + +MA_API void ma_notch_node_uninit(ma_notch_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_notch_node* pNotchNode = (ma_notch_node*)pNode; + + if (pNode == NULL) { + return; + } + + ma_node_uninit(pNode, pAllocationCallbacks); + ma_notch2_uninit(&pNotchNode->notch, pAllocationCallbacks); +} + + + +/* +Peaking Filter Node +*/ +MA_API ma_peak_node_config ma_peak_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double q, double frequency) +{ + ma_peak_node_config config; + + config.nodeConfig = ma_node_config_init(); + config.peak = ma_peak2_config_init(ma_format_f32, channels, sampleRate, gainDB, q, frequency); + + return config; +} + +static void ma_peak_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_peak_node* pBPFNode = (ma_peak_node*)pNode; + + MA_ASSERT(pNode != NULL); + (void)pFrameCountIn; + + ma_peak2_process_pcm_frames(&pBPFNode->peak, ppFramesOut[0], ppFramesIn[0], *pFrameCountOut); +} + +static ma_node_vtable g_ma_peak_node_vtable = +{ + ma_peak_node_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 1, /* One input. */ + 1, /* One output. */ + 0 /* Default flags. */ +}; + +MA_API ma_result ma_peak_node_init(ma_node_graph* pNodeGraph, const ma_peak_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_peak_node* pNode) +{ + ma_result result; + ma_node_config baseNodeConfig; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pNode); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->peak.format != ma_format_f32) { + return MA_INVALID_ARGS; /* The format must be f32. */ + } + + result = ma_peak2_init(&pConfig->peak, pAllocationCallbacks, &pNode->peak); + if (result != MA_SUCCESS) { + ma_node_uninit(pNode, pAllocationCallbacks); + return result; + } + + baseNodeConfig = ma_node_config_init(); + baseNodeConfig.vtable = &g_ma_peak_node_vtable; + baseNodeConfig.pInputChannels = &pConfig->peak.channels; + baseNodeConfig.pOutputChannels = &pConfig->peak.channels; + + result = ma_node_init(pNodeGraph, &baseNodeConfig, pAllocationCallbacks, pNode); + if (result != MA_SUCCESS) { + return result; + } + + return result; +} + +MA_API ma_result ma_peak_node_reinit(const ma_peak_config* pConfig, ma_peak_node* pNode) +{ + ma_peak_node* pPeakNode = (ma_peak_node*)pNode; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + return ma_peak2_reinit(pConfig, &pPeakNode->peak); +} + +MA_API void ma_peak_node_uninit(ma_peak_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_peak_node* pPeakNode = (ma_peak_node*)pNode; + + if (pNode == NULL) { + return; + } + + ma_node_uninit(pNode, pAllocationCallbacks); + ma_peak2_uninit(&pPeakNode->peak, pAllocationCallbacks); +} + + + +/* +Low Shelf Filter Node +*/ +MA_API ma_loshelf_node_config ma_loshelf_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double q, double frequency) +{ + ma_loshelf_node_config config; + + config.nodeConfig = ma_node_config_init(); + config.loshelf = ma_loshelf2_config_init(ma_format_f32, channels, sampleRate, gainDB, q, frequency); + + return config; +} + +static void ma_loshelf_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_loshelf_node* pBPFNode = (ma_loshelf_node*)pNode; + + MA_ASSERT(pNode != NULL); + (void)pFrameCountIn; + + ma_loshelf2_process_pcm_frames(&pBPFNode->loshelf, ppFramesOut[0], ppFramesIn[0], *pFrameCountOut); +} + +static ma_node_vtable g_ma_loshelf_node_vtable = +{ + ma_loshelf_node_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 1, /* One input. */ + 1, /* One output. */ + 0 /* Default flags. */ +}; + +MA_API ma_result ma_loshelf_node_init(ma_node_graph* pNodeGraph, const ma_loshelf_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_loshelf_node* pNode) +{ + ma_result result; + ma_node_config baseNodeConfig; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pNode); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->loshelf.format != ma_format_f32) { + return MA_INVALID_ARGS; /* The format must be f32. */ + } + + result = ma_loshelf2_init(&pConfig->loshelf, pAllocationCallbacks, &pNode->loshelf); + if (result != MA_SUCCESS) { + return result; + } + + baseNodeConfig = ma_node_config_init(); + baseNodeConfig.vtable = &g_ma_loshelf_node_vtable; + baseNodeConfig.pInputChannels = &pConfig->loshelf.channels; + baseNodeConfig.pOutputChannels = &pConfig->loshelf.channels; + + result = ma_node_init(pNodeGraph, &baseNodeConfig, pAllocationCallbacks, pNode); + if (result != MA_SUCCESS) { + return result; + } + + return result; +} + +MA_API ma_result ma_loshelf_node_reinit(const ma_loshelf_config* pConfig, ma_loshelf_node* pNode) +{ + ma_loshelf_node* pLoshelfNode = (ma_loshelf_node*)pNode; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + return ma_loshelf2_reinit(pConfig, &pLoshelfNode->loshelf); +} + +MA_API void ma_loshelf_node_uninit(ma_loshelf_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_loshelf_node* pLoshelfNode = (ma_loshelf_node*)pNode; + + if (pNode == NULL) { + return; + } + + ma_node_uninit(pNode, pAllocationCallbacks); + ma_loshelf2_uninit(&pLoshelfNode->loshelf, pAllocationCallbacks); +} + + + +/* +High Shelf Filter Node +*/ +MA_API ma_hishelf_node_config ma_hishelf_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, double gainDB, double q, double frequency) +{ + ma_hishelf_node_config config; + + config.nodeConfig = ma_node_config_init(); + config.hishelf = ma_hishelf2_config_init(ma_format_f32, channels, sampleRate, gainDB, q, frequency); + + return config; +} + +static void ma_hishelf_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_hishelf_node* pBPFNode = (ma_hishelf_node*)pNode; + + MA_ASSERT(pNode != NULL); + (void)pFrameCountIn; + + ma_hishelf2_process_pcm_frames(&pBPFNode->hishelf, ppFramesOut[0], ppFramesIn[0], *pFrameCountOut); +} + +static ma_node_vtable g_ma_hishelf_node_vtable = +{ + ma_hishelf_node_process_pcm_frames, + NULL, /* onGetRequiredInputFrameCount */ + 1, /* One input. */ + 1, /* One output. */ + 0 /* Default flags. */ +}; + +MA_API ma_result ma_hishelf_node_init(ma_node_graph* pNodeGraph, const ma_hishelf_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_hishelf_node* pNode) +{ + ma_result result; + ma_node_config baseNodeConfig; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pNode); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->hishelf.format != ma_format_f32) { + return MA_INVALID_ARGS; /* The format must be f32. */ + } + + result = ma_hishelf2_init(&pConfig->hishelf, pAllocationCallbacks, &pNode->hishelf); + if (result != MA_SUCCESS) { + return result; + } + + baseNodeConfig = ma_node_config_init(); + baseNodeConfig.vtable = &g_ma_hishelf_node_vtable; + baseNodeConfig.pInputChannels = &pConfig->hishelf.channels; + baseNodeConfig.pOutputChannels = &pConfig->hishelf.channels; + + result = ma_node_init(pNodeGraph, &baseNodeConfig, pAllocationCallbacks, pNode); + if (result != MA_SUCCESS) { + return result; + } + + return result; +} + +MA_API ma_result ma_hishelf_node_reinit(const ma_hishelf_config* pConfig, ma_hishelf_node* pNode) +{ + ma_hishelf_node* pHishelfNode = (ma_hishelf_node*)pNode; + + if (pNode == NULL) { + return MA_INVALID_ARGS; + } + + return ma_hishelf2_reinit(pConfig, &pHishelfNode->hishelf); +} + +MA_API void ma_hishelf_node_uninit(ma_hishelf_node* pNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_hishelf_node* pHishelfNode = (ma_hishelf_node*)pNode; + + if (pNode == NULL) { + return; + } + + ma_node_uninit(pNode, pAllocationCallbacks); + ma_hishelf2_uninit(&pHishelfNode->hishelf, pAllocationCallbacks); +} + + + + +MA_API ma_delay_node_config ma_delay_node_config_init(ma_uint32 channels, ma_uint32 sampleRate, ma_uint32 delayInFrames, float decay) +{ + ma_delay_node_config config; + + config.nodeConfig = ma_node_config_init(); + config.delay = ma_delay_config_init(channels, sampleRate, delayInFrames, decay); + + return config; +} + + +static void ma_delay_node_process_pcm_frames(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_delay_node* pDelayNode = (ma_delay_node*)pNode; + + (void)pFrameCountIn; + + ma_delay_process_pcm_frames(&pDelayNode->delay, ppFramesOut[0], ppFramesIn[0], *pFrameCountOut); +} + +static ma_node_vtable g_ma_delay_node_vtable = +{ + ma_delay_node_process_pcm_frames, + NULL, + 1, /* 1 input channels. */ + 1, /* 1 output channel. */ + MA_NODE_FLAG_CONTINUOUS_PROCESSING /* Delay requires continuous processing to ensure the tail get's processed. */ +}; + +MA_API ma_result ma_delay_node_init(ma_node_graph* pNodeGraph, const ma_delay_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_delay_node* pDelayNode) +{ + ma_result result; + ma_node_config baseConfig; + + if (pDelayNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pDelayNode); + + result = ma_delay_init(&pConfig->delay, pAllocationCallbacks, &pDelayNode->delay); + if (result != MA_SUCCESS) { + return result; + } + + baseConfig = pConfig->nodeConfig; + baseConfig.vtable = &g_ma_delay_node_vtable; + baseConfig.pInputChannels = &pConfig->delay.channels; + baseConfig.pOutputChannels = &pConfig->delay.channels; + + result = ma_node_init(pNodeGraph, &baseConfig, pAllocationCallbacks, &pDelayNode->baseNode); + if (result != MA_SUCCESS) { + ma_delay_uninit(&pDelayNode->delay, pAllocationCallbacks); + return result; + } + + return result; +} + +MA_API void ma_delay_node_uninit(ma_delay_node* pDelayNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pDelayNode == NULL) { + return; + } + + /* The base node is always uninitialized first. */ + ma_node_uninit(pDelayNode, pAllocationCallbacks); + ma_delay_uninit(&pDelayNode->delay, pAllocationCallbacks); +} + +MA_API void ma_delay_node_set_wet(ma_delay_node* pDelayNode, float value) +{ + if (pDelayNode == NULL) { + return; + } + + ma_delay_set_wet(&pDelayNode->delay, value); +} + +MA_API float ma_delay_node_get_wet(const ma_delay_node* pDelayNode) +{ + if (pDelayNode == NULL) { + return 0; + } + + return ma_delay_get_wet(&pDelayNode->delay); +} + +MA_API void ma_delay_node_set_dry(ma_delay_node* pDelayNode, float value) +{ + if (pDelayNode == NULL) { + return; + } + + ma_delay_set_dry(&pDelayNode->delay, value); +} + +MA_API float ma_delay_node_get_dry(const ma_delay_node* pDelayNode) +{ + if (pDelayNode == NULL) { + return 0; + } + + return ma_delay_get_dry(&pDelayNode->delay); +} + +MA_API void ma_delay_node_set_decay(ma_delay_node* pDelayNode, float value) +{ + if (pDelayNode == NULL) { + return; + } + + ma_delay_set_decay(&pDelayNode->delay, value); +} + +MA_API float ma_delay_node_get_decay(const ma_delay_node* pDelayNode) +{ + if (pDelayNode == NULL) { + return 0; + } + + return ma_delay_get_decay(&pDelayNode->delay); +} +#endif /* MA_NO_NODE_GRAPH */ + + +/* SECTION: miniaudio_engine.c */ +#if !defined(MA_NO_ENGINE) && !defined(MA_NO_NODE_GRAPH) +/************************************************************************************************************************************************************** + +Engine + +**************************************************************************************************************************************************************/ +#define MA_SEEK_TARGET_NONE (~(ma_uint64)0) + + +static void ma_sound_set_at_end(ma_sound* pSound, ma_bool32 atEnd) +{ + MA_ASSERT(pSound != NULL); + ma_atomic_exchange_32(&pSound->atEnd, atEnd); + + /* + When this function is called the state of the sound will not yet be in a stopped state. This makes it confusing + because an end callback will intuitively expect ma_sound_is_playing() to return false from inside the callback. + I'm therefore no longer firing the callback here and will instead fire it manually in the *next* processing step + when the state should be set to stopped as expected. + */ + #if 0 + /* Fire any callbacks or events. */ + if (atEnd) { + if (pSound->endCallback != NULL) { + pSound->endCallback(pSound->pEndCallbackUserData, pSound); + } + } + #endif +} + +static ma_bool32 ma_sound_get_at_end(const ma_sound* pSound) +{ + MA_ASSERT(pSound != NULL); + return ma_atomic_load_32(&pSound->atEnd); +} + + +MA_API ma_engine_node_config ma_engine_node_config_init(ma_engine* pEngine, ma_engine_node_type type, ma_uint32 flags) +{ + ma_engine_node_config config; + + MA_ZERO_OBJECT(&config); + config.pEngine = pEngine; + config.type = type; + config.isPitchDisabled = (flags & MA_SOUND_FLAG_NO_PITCH) != 0; + config.isSpatializationDisabled = (flags & MA_SOUND_FLAG_NO_SPATIALIZATION) != 0; + config.monoExpansionMode = pEngine->monoExpansionMode; + config.resampling = pEngine->pitchResamplingConfig; + + return config; +} + + +static void ma_engine_node_update_pitch_if_required(ma_engine_node* pEngineNode) +{ + ma_bool32 isUpdateRequired = MA_FALSE; + float newPitch; + + MA_ASSERT(pEngineNode != NULL); + + newPitch = ma_atomic_load_explicit_f32(&pEngineNode->pitch, ma_atomic_memory_order_acquire); + + if (pEngineNode->oldPitch != newPitch) { + pEngineNode->oldPitch = newPitch; + isUpdateRequired = MA_TRUE; + } + + if (pEngineNode->oldDopplerPitch != pEngineNode->spatializer.dopplerPitch) { + pEngineNode->oldDopplerPitch = pEngineNode->spatializer.dopplerPitch; + isUpdateRequired = MA_TRUE; + } + + if (isUpdateRequired) { + float basePitch = (float)pEngineNode->sampleRate / ma_engine_get_sample_rate(pEngineNode->pEngine); + ma_resampler_set_rate_ratio(&pEngineNode->resampler, basePitch * pEngineNode->oldPitch * pEngineNode->oldDopplerPitch); + } +} + +static ma_bool32 ma_engine_node_is_pitching_enabled(const ma_engine_node* pEngineNode) +{ + MA_ASSERT(pEngineNode != NULL); + + /* Don't try to be clever by skipping resampling in the pitch=1 case or else you'll glitch when moving away from 1. */ + return !ma_atomic_load_explicit_32(&pEngineNode->isPitchDisabled, ma_atomic_memory_order_acquire); +} + +static ma_bool32 ma_engine_node_is_spatialization_enabled(const ma_engine_node* pEngineNode) +{ + MA_ASSERT(pEngineNode != NULL); + + return !ma_atomic_load_explicit_32(&pEngineNode->isSpatializationDisabled, ma_atomic_memory_order_acquire); +} + +static ma_result ma_engine_node_set_volume(ma_engine_node* pEngineNode, float volume) +{ + if (pEngineNode == NULL) { + return MA_INVALID_ARGS; + } + + ma_atomic_float_set(&pEngineNode->volume, volume); + + /* If we're not smoothing we should bypass the volume gainer entirely. */ + if (pEngineNode->volumeSmoothTimeInPCMFrames == 0) { + /* We should always have an active spatializer because it can be enabled and disabled dynamically. We can just use that for holding our volume. */ + ma_spatializer_set_master_volume(&pEngineNode->spatializer, volume); + } else { + /* We're using volume smoothing, so apply the master volume to the gainer. */ + ma_gainer_set_gain(&pEngineNode->volumeGainer, volume); + } + + return MA_SUCCESS; +} + +static ma_result ma_engine_node_get_volume(const ma_engine_node* pEngineNode, float* pVolume) +{ + if (pVolume == NULL) { + return MA_INVALID_ARGS; + } + + *pVolume = 0.0f; + + if (pEngineNode == NULL) { + return MA_INVALID_ARGS; + } + + *pVolume = ma_atomic_float_get((ma_atomic_float*)&pEngineNode->volume); + + return MA_SUCCESS; +} + + +static void ma_engine_node_process_pcm_frames__general(ma_engine_node* pEngineNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + ma_uint32 frameCountIn; + ma_uint32 frameCountOut; + ma_uint32 totalFramesProcessedIn; + ma_uint32 totalFramesProcessedOut; + ma_uint32 channelsIn; + ma_uint32 channelsOut; + ma_bool32 isPitchingEnabled; + ma_bool32 isFadingEnabled; + ma_bool32 isSpatializationEnabled; + ma_bool32 isPanningEnabled; + ma_bool32 isVolumeSmoothingEnabled; + + frameCountIn = *pFrameCountIn; + frameCountOut = *pFrameCountOut; + + channelsIn = ma_spatializer_get_input_channels(&pEngineNode->spatializer); + channelsOut = ma_spatializer_get_output_channels(&pEngineNode->spatializer); + + totalFramesProcessedIn = 0; + totalFramesProcessedOut = 0; + + /* Update the fader if applicable. */ + { + ma_uint64 fadeLengthInFrames = ma_atomic_uint64_get(&pEngineNode->fadeSettings.fadeLengthInFrames); + if (fadeLengthInFrames != ~(ma_uint64)0) { + float fadeVolumeBeg = ma_atomic_float_get(&pEngineNode->fadeSettings.volumeBeg); + float fadeVolumeEnd = ma_atomic_float_get(&pEngineNode->fadeSettings.volumeEnd); + ma_int64 fadeStartOffsetInFrames = (ma_int64)ma_atomic_uint64_get(&pEngineNode->fadeSettings.absoluteGlobalTimeInFrames); + if (fadeStartOffsetInFrames == (ma_int64)(~(ma_uint64)0)) { + fadeStartOffsetInFrames = 0; + } else { + fadeStartOffsetInFrames -= ma_engine_get_time_in_pcm_frames(pEngineNode->pEngine); + } + + ma_fader_set_fade_ex(&pEngineNode->fader, fadeVolumeBeg, fadeVolumeEnd, fadeLengthInFrames, fadeStartOffsetInFrames); + + /* Reset the fade length so we don't erroneously apply it again. */ + ma_atomic_uint64_set(&pEngineNode->fadeSettings.fadeLengthInFrames, ~(ma_uint64)0); + } + } + + isPitchingEnabled = ma_engine_node_is_pitching_enabled(pEngineNode); + isFadingEnabled = pEngineNode->fader.volumeBeg != 1 || pEngineNode->fader.volumeEnd != 1; + isSpatializationEnabled = ma_engine_node_is_spatialization_enabled(pEngineNode); + isPanningEnabled = pEngineNode->panner.pan != 0 && channelsOut != 1; + isVolumeSmoothingEnabled = pEngineNode->volumeSmoothTimeInPCMFrames > 0; + + /* Keep going while we've still got data available for processing. */ + while (totalFramesProcessedOut < frameCountOut) { + /* + We need to process in a specific order. We always do resampling first because it's likely + we're going to be increasing the channel count after spatialization. Also, I want to do + fading based on the output sample rate. + + We'll first read into a buffer from the resampler. Then we'll do all processing that + operates on the on the input channel count. We'll then get the spatializer to output to + the output buffer and then do all effects from that point directly in the output buffer + in-place. + + Note that we're always running the resampler if pitching is enabled, even when the pitch + is 1. If we try to be clever and skip resampling when the pitch is 1, we'll get a glitch + when we move away from 1, back to 1, and then away from 1 again. We'll want to implement + any pitch=1 optimizations in the resampler itself. + + There's a small optimization here that we'll utilize since it might be a fairly common + case. When the input and output channel counts are the same, we'll read straight into the + output buffer from the resampler and do everything in-place. + */ + const float* pRunningFramesIn; + float* pRunningFramesOut; + float* pWorkingBuffer; /* This is the buffer that we'll be processing frames in. This is in input channels. */ + float temp[MA_DATA_CONVERTER_STACK_BUFFER_SIZE / sizeof(float)]; + ma_uint32 tempCapInFrames = ma_countof(temp) / channelsIn; + ma_uint32 framesAvailableIn; + ma_uint32 framesAvailableOut; + ma_uint32 framesJustProcessedIn; + ma_uint32 framesJustProcessedOut; + ma_bool32 isWorkingBufferValid = MA_FALSE; + + framesAvailableIn = frameCountIn - totalFramesProcessedIn; + framesAvailableOut = frameCountOut - totalFramesProcessedOut; + + pRunningFramesIn = ma_offset_pcm_frames_const_ptr_f32(ppFramesIn[0], totalFramesProcessedIn, channelsIn); + pRunningFramesOut = ma_offset_pcm_frames_ptr_f32(ppFramesOut[0], totalFramesProcessedOut, channelsOut); + + if (channelsIn == channelsOut) { + /* Fast path. Channel counts are the same. No need for an intermediary input buffer. */ + pWorkingBuffer = pRunningFramesOut; + } else { + /* Slow path. Channel counts are different. Need to use an intermediary input buffer. */ + pWorkingBuffer = temp; + if (framesAvailableOut > tempCapInFrames) { + framesAvailableOut = tempCapInFrames; + } + } + + /* First is resampler. */ + if (isPitchingEnabled) { + ma_uint64 resampleFrameCountIn = framesAvailableIn; + ma_uint64 resampleFrameCountOut = framesAvailableOut; + + ma_resampler_process_pcm_frames(&pEngineNode->resampler, pRunningFramesIn, &resampleFrameCountIn, pWorkingBuffer, &resampleFrameCountOut); + isWorkingBufferValid = MA_TRUE; + + framesJustProcessedIn = (ma_uint32)resampleFrameCountIn; + framesJustProcessedOut = (ma_uint32)resampleFrameCountOut; + } else { + framesJustProcessedIn = ma_min(framesAvailableIn, framesAvailableOut); + framesJustProcessedOut = framesJustProcessedIn; /* When no resampling is being performed, the number of output frames is the same as input frames. */ + } + + /* Fading. */ + if (isFadingEnabled) { + if (isWorkingBufferValid) { + ma_fader_process_pcm_frames(&pEngineNode->fader, pWorkingBuffer, pWorkingBuffer, framesJustProcessedOut); /* In-place processing. */ + } else { + ma_fader_process_pcm_frames(&pEngineNode->fader, pWorkingBuffer, pRunningFramesIn, framesJustProcessedOut); + isWorkingBufferValid = MA_TRUE; + } + } + + /* + If we're using smoothing, we won't be applying volume via the spatializer, but instead from a ma_gainer. In this case + we'll want to apply our volume now. + */ + if (isVolumeSmoothingEnabled) { + if (isWorkingBufferValid) { + ma_gainer_process_pcm_frames(&pEngineNode->volumeGainer, pWorkingBuffer, pWorkingBuffer, framesJustProcessedOut); + } else { + ma_gainer_process_pcm_frames(&pEngineNode->volumeGainer, pWorkingBuffer, pRunningFramesIn, framesJustProcessedOut); + isWorkingBufferValid = MA_TRUE; + } + } + + /* + If at this point we still haven't actually done anything with the working buffer we need + to just read straight from the input buffer. + */ + if (isWorkingBufferValid == MA_FALSE) { + pWorkingBuffer = (float*)pRunningFramesIn; /* Naughty const cast, but it's safe at this point because we won't ever be writing to it from this point out. */ + } + + /* Spatialization. */ + if (isSpatializationEnabled) { + ma_uint32 iListener; + + /* + When determining the listener to use, we first check to see if the sound is pinned to a + specific listener. If so, we use that. Otherwise we just use the closest listener. + */ + if (pEngineNode->pinnedListenerIndex != MA_LISTENER_INDEX_CLOSEST && pEngineNode->pinnedListenerIndex < ma_engine_get_listener_count(pEngineNode->pEngine)) { + iListener = pEngineNode->pinnedListenerIndex; + } else { + ma_vec3f spatializerPosition = ma_spatializer_get_position(&pEngineNode->spatializer); + iListener = ma_engine_find_closest_listener(pEngineNode->pEngine, spatializerPosition.x, spatializerPosition.y, spatializerPosition.z); + } + + ma_spatializer_process_pcm_frames(&pEngineNode->spatializer, &pEngineNode->pEngine->listeners[iListener], pRunningFramesOut, pWorkingBuffer, framesJustProcessedOut); + } else { + /* No spatialization, but we still need to do channel conversion and master volume. */ + float volume; + ma_engine_node_get_volume(pEngineNode, &volume); /* Should never fail. */ + + if (channelsIn == channelsOut) { + /* No channel conversion required. Just copy straight to the output buffer. */ + if (isVolumeSmoothingEnabled) { + /* Volume has already been applied. Just copy straight to the output buffer. */ + ma_copy_pcm_frames(pRunningFramesOut, pWorkingBuffer, framesJustProcessedOut * channelsOut, ma_format_f32, channelsOut); + } else { + /* Volume has not been applied yet. Copy and apply volume in the same pass. */ + ma_copy_and_apply_volume_factor_f32(pRunningFramesOut, pWorkingBuffer, framesJustProcessedOut * channelsOut, volume); + } + } else { + /* Channel conversion required. TODO: Add support for channel maps here. */ + ma_channel_map_apply_f32(pRunningFramesOut, NULL, channelsOut, pWorkingBuffer, NULL, channelsIn, framesJustProcessedOut, ma_channel_mix_mode_simple, pEngineNode->monoExpansionMode); + + /* If we're using smoothing, the volume will have already been applied. */ + if (!isVolumeSmoothingEnabled) { + ma_apply_volume_factor_f32(pRunningFramesOut, framesJustProcessedOut * channelsOut, volume); + } + } + } + + /* At this point we can guarantee that the output buffer contains valid data. We can process everything in place now. */ + + /* Panning. */ + if (isPanningEnabled) { + ma_panner_process_pcm_frames(&pEngineNode->panner, pRunningFramesOut, pRunningFramesOut, framesJustProcessedOut); /* In-place processing. */ + } + + /* We're done for this chunk. */ + totalFramesProcessedIn += framesJustProcessedIn; + totalFramesProcessedOut += framesJustProcessedOut; + + /* If we didn't process any output frames this iteration it means we've either run out of input data, or run out of room in the output buffer. */ + if (framesJustProcessedOut == 0) { + break; + } + } + + /* At this point we're done processing. */ + *pFrameCountIn = totalFramesProcessedIn; + *pFrameCountOut = totalFramesProcessedOut; +} + +static void ma_engine_node_process_pcm_frames__sound(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + /* For sounds, we need to first read from the data source. Then we need to apply the engine effects (pan, pitch, fades, etc.). */ + ma_result result = MA_SUCCESS; + ma_sound* pSound = (ma_sound*)pNode; + ma_uint32 frameCount = *pFrameCountOut; + ma_uint32 totalFramesRead = 0; + ma_format dataSourceFormat; + ma_uint32 dataSourceChannels; + ma_uint8 temp[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; + ma_uint32 tempCapInFrames; + ma_uint64 seekTarget; + + /* This is a data source node which means no input buses. */ + (void)ppFramesIn; + (void)pFrameCountIn; + + /* If we're marked at the end we need to stop the sound and do nothing. */ + if (ma_sound_at_end(pSound)) { + ma_sound_stop(pSound); + + if (pSound->endCallback != NULL) { + pSound->endCallback(pSound->pEndCallbackUserData, pSound); + } + + *pFrameCountOut = 0; + return; + } + + /* If we're seeking, do so now before reading. */ + seekTarget = ma_atomic_load_64(&pSound->seekTarget); + if (seekTarget != MA_SEEK_TARGET_NONE) { + ma_data_source_seek_to_pcm_frame(pSound->pDataSource, seekTarget); + + /* Any time-dependant effects need to have their times updated. */ + ma_node_set_time(pSound, seekTarget); + + ma_atomic_exchange_64(&pSound->seekTarget, MA_SEEK_TARGET_NONE); + } + + /* + We want to update the pitch once. For sounds, this can be either at the start or at the end. If + we don't force this to only ever be updating once, we could end up in a situation where + retrieving the required input frame count ends up being different to what we actually retrieve. + What could happen is that the required input frame count is calculated, the pitch is update, + and then this processing function is called resulting in a different number of input frames + being processed. Do not call this in ma_engine_node_process_pcm_frames__general() or else + you'll hit the aforementioned bug. + */ + ma_engine_node_update_pitch_if_required(&pSound->engineNode); + + /* + For the convenience of the caller, we're doing to allow data sources to use non-floating-point formats and channel counts that differ + from the main engine. + */ + result = ma_data_source_get_data_format(pSound->pDataSource, &dataSourceFormat, &dataSourceChannels, NULL, NULL, 0); + if (result == MA_SUCCESS) { + tempCapInFrames = sizeof(temp) / ma_get_bytes_per_frame(dataSourceFormat, dataSourceChannels); + + /* Keep reading until we've read as much as was requested or we reach the end of the data source. */ + while (totalFramesRead < frameCount) { + ma_uint32 framesRemaining = frameCount - totalFramesRead; + ma_uint64 framesJustRead; + ma_uint32 frameCountIn; + ma_uint32 frameCountOut; + const float* pRunningFramesIn; + float* pRunningFramesOut; + + /* If there's any input frames sitting in the cache get those processed first. */ + if (pSound->processingCacheFramesRemaining > 0) { + pRunningFramesIn = pSound->pProcessingCache; + frameCountIn = pSound->processingCacheFramesRemaining; + + pRunningFramesOut = ma_offset_pcm_frames_ptr_f32(ppFramesOut[0], totalFramesRead, ma_node_get_output_channels(pNode, 0)); + frameCountOut = framesRemaining; + + ma_engine_node_process_pcm_frames__general(&pSound->engineNode, &pRunningFramesIn, &frameCountIn, &pRunningFramesOut, &frameCountOut); + + MA_ASSERT(frameCountIn <= pSound->processingCacheFramesRemaining); + pSound->processingCacheFramesRemaining -= frameCountIn; + + /* Move any remaining data in the cache down. */ + if (pSound->processingCacheFramesRemaining > 0) { + MA_MOVE_MEMORY(pSound->pProcessingCache, ma_offset_pcm_frames_ptr_f32(pSound->pProcessingCache, frameCountIn, dataSourceChannels), pSound->processingCacheFramesRemaining * ma_get_bytes_per_frame(ma_format_f32, dataSourceChannels)); + } + + totalFramesRead += (ma_uint32)frameCountOut; /* Safe cast. */ + + if (result != MA_SUCCESS || ma_sound_at_end(pSound)) { + break; /* Might have reached the end. */ + } + } else { + /* Getting here means there's nothing in the cache. Read more data from the data source. */ + if (dataSourceFormat == ma_format_f32) { + /* Fast path. No conversion to f32 necessary. */ + result = ma_data_source_read_pcm_frames(pSound->pDataSource, pSound->pProcessingCache, pSound->processingCacheCap, &framesJustRead); + } else { + /* Slow path. Need to convert to f32. */ + ma_uint64 totalFramesConverted = 0; + + while (totalFramesConverted < pSound->processingCacheCap) { + ma_uint64 framesConverted; + ma_uint32 framesToConvertThisIteration = pSound->processingCacheCap - (ma_uint32)totalFramesConverted; + if (framesToConvertThisIteration > tempCapInFrames) { + framesToConvertThisIteration = tempCapInFrames; + } + + result = ma_data_source_read_pcm_frames(pSound->pDataSource, temp, framesToConvertThisIteration, &framesConverted); + if (result != MA_SUCCESS) { + break; + } + + ma_convert_pcm_frames_format(ma_offset_pcm_frames_ptr_f32(pSound->pProcessingCache, totalFramesConverted, dataSourceChannels), ma_format_f32, temp, dataSourceFormat, framesConverted, dataSourceChannels, ma_dither_mode_none); + totalFramesConverted += framesConverted; + } + + framesJustRead = totalFramesConverted; + } + + MA_ASSERT(framesJustRead <= pSound->processingCacheCap); + pSound->processingCacheFramesRemaining = (ma_uint32)framesJustRead; + + /* If we reached the end of the sound we'll want to mark it as at the end and stop it. This should never be returned for looping sounds. */ + if (result == MA_AT_END) { + ma_sound_set_at_end(pSound, MA_TRUE); /* This will be set to false in ma_sound_start(). */ + } + + if (result != MA_SUCCESS || ma_sound_at_end(pSound)) { + break; + } + } + } + } + + *pFrameCountOut = totalFramesRead; +} + +static void ma_engine_node_process_pcm_frames__group(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut) +{ + /* + Make sure the pitch is updated before trying to read anything. It's important that this is done + only once and not in ma_engine_node_process_pcm_frames__general(). The reason for this is that + ma_engine_node_process_pcm_frames__general() will call ma_engine_node_get_required_input_frame_count(), + and if another thread modifies the pitch just after that call it can result in a glitch due to + the input rate changing. + */ + ma_engine_node_update_pitch_if_required((ma_engine_node*)pNode); + + /* For groups, the input data has already been read and we just need to apply the effect. */ + ma_engine_node_process_pcm_frames__general((ma_engine_node*)pNode, ppFramesIn, pFrameCountIn, ppFramesOut, pFrameCountOut); +} + + +static ma_node_vtable g_ma_engine_node_vtable__sound = +{ + ma_engine_node_process_pcm_frames__sound, + NULL, /* onGetRequiredInputFrameCount */ + 0, /* Sounds are data source nodes which means they have zero inputs (their input is drawn from the data source itself). */ + 1, /* Sounds have one output bus. */ + 0 /* Default flags. */ +}; + +static ma_node_vtable g_ma_engine_node_vtable__group = +{ + ma_engine_node_process_pcm_frames__group, + NULL, /* onGetRequiredInputFrameCount */ + 1, /* Groups have one input bus. */ + 1, /* Groups have one output bus. */ + MA_NODE_FLAG_DIFFERENT_PROCESSING_RATES /* The engine node does resampling so should let miniaudio know about it. */ +}; + + + +static ma_node_config ma_engine_node_base_node_config_init(const ma_engine_node_config* pConfig) +{ + ma_node_config baseNodeConfig; + + if (pConfig->type == ma_engine_node_type_sound) { + /* Sound. */ + baseNodeConfig = ma_node_config_init(); + baseNodeConfig.vtable = &g_ma_engine_node_vtable__sound; + baseNodeConfig.initialState = ma_node_state_stopped; /* Sounds are stopped by default. */ + } else { + /* Group. */ + baseNodeConfig = ma_node_config_init(); + baseNodeConfig.vtable = &g_ma_engine_node_vtable__group; + baseNodeConfig.initialState = ma_node_state_started; /* Groups are started by default. */ + } + + return baseNodeConfig; +} + +static ma_spatializer_config ma_engine_node_spatializer_config_init(const ma_node_config* pBaseNodeConfig) +{ + return ma_spatializer_config_init(pBaseNodeConfig->pInputChannels[0], pBaseNodeConfig->pOutputChannels[0]); +} + +typedef struct +{ + size_t sizeInBytes; + size_t baseNodeOffset; + size_t resamplerOffset; + size_t spatializerOffset; + size_t gainerOffset; +} ma_engine_node_heap_layout; + +static ma_result ma_engine_node_get_heap_layout(const ma_engine_node_config* pConfig, ma_engine_node_heap_layout* pHeapLayout) +{ + ma_result result; + size_t tempHeapSize; + ma_node_config baseNodeConfig; + ma_resampler_config resamplerConfig; + ma_spatializer_config spatializerConfig; + ma_gainer_config gainerConfig; + ma_uint32 sampleRate; + ma_uint32 channelsIn; + ma_uint32 channelsOut; + ma_channel defaultStereoChannelMap[2] = {MA_CHANNEL_SIDE_LEFT, MA_CHANNEL_SIDE_RIGHT}; /* <-- Consistent with the default channel map of a stereo listener. Means channel conversion can run on a fast path. */ + + MA_ASSERT(pHeapLayout); + + MA_ZERO_OBJECT(pHeapLayout); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + if (pConfig->pEngine == NULL) { + return MA_INVALID_ARGS; /* An engine must be specified. */ + } + + pHeapLayout->sizeInBytes = 0; + + sampleRate = (pConfig->sampleRate > 0) ? pConfig->sampleRate : ma_engine_get_sample_rate(pConfig->pEngine); + channelsIn = (pConfig->channelsIn != 0) ? pConfig->channelsIn : ma_engine_get_channels(pConfig->pEngine); + channelsOut = (pConfig->channelsOut != 0) ? pConfig->channelsOut : ma_engine_get_channels(pConfig->pEngine); + + + /* Base node. */ + baseNodeConfig = ma_engine_node_base_node_config_init(pConfig); + baseNodeConfig.pInputChannels = &channelsIn; + baseNodeConfig.pOutputChannels = &channelsOut; + + result = ma_node_get_heap_size(ma_engine_get_node_graph(pConfig->pEngine), &baseNodeConfig, &tempHeapSize); + if (result != MA_SUCCESS) { + return result; /* Failed to retrieve the size of the heap for the base node. */ + } + + pHeapLayout->baseNodeOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(tempHeapSize); + + + /* Resmapler. */ + resamplerConfig = pConfig->resampling; + resamplerConfig.format = ma_format_f32; + resamplerConfig.channels = channelsIn; + resamplerConfig.sampleRateIn = sampleRate; + resamplerConfig.sampleRateOut = ma_engine_get_sample_rate(pConfig->pEngine); + + result = ma_resampler_get_heap_size(&resamplerConfig, &tempHeapSize); + if (result != MA_SUCCESS) { + return result; /* Failed to retrieve the size of the heap for the resampler. */ + } + + pHeapLayout->resamplerOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(tempHeapSize); + + + /* Spatializer. */ + spatializerConfig = ma_engine_node_spatializer_config_init(&baseNodeConfig); + + if (spatializerConfig.channelsIn == 2) { + spatializerConfig.pChannelMapIn = defaultStereoChannelMap; + } + + result = ma_spatializer_get_heap_size(&spatializerConfig, &tempHeapSize); + if (result != MA_SUCCESS) { + return result; /* Failed to retrieve the size of the heap for the spatializer. */ + } + + pHeapLayout->spatializerOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(tempHeapSize); + + + /* Gainer. Will not be used if we are not using smoothing. */ + if (pConfig->volumeSmoothTimeInPCMFrames > 0) { + gainerConfig = ma_gainer_config_init(channelsIn, pConfig->volumeSmoothTimeInPCMFrames); + + result = ma_gainer_get_heap_size(&gainerConfig, &tempHeapSize); + if (result != MA_SUCCESS) { + return result; + } + + pHeapLayout->gainerOffset = pHeapLayout->sizeInBytes; + pHeapLayout->sizeInBytes += ma_align_64(tempHeapSize); + } + + + return MA_SUCCESS; +} + +MA_API ma_result ma_engine_node_get_heap_size(const ma_engine_node_config* pConfig, size_t* pHeapSizeInBytes) +{ + ma_result result; + ma_engine_node_heap_layout heapLayout; + + if (pHeapSizeInBytes == NULL) { + return MA_INVALID_ARGS; + } + + *pHeapSizeInBytes = 0; + + result = ma_engine_node_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + *pHeapSizeInBytes = heapLayout.sizeInBytes; + + return MA_SUCCESS; +} + +MA_API ma_result ma_engine_node_init_preallocated(const ma_engine_node_config* pConfig, void* pHeap, ma_engine_node* pEngineNode) +{ + ma_result result; + ma_engine_node_heap_layout heapLayout; + ma_node_config baseNodeConfig; + ma_resampler_config resamplerConfig; + ma_fader_config faderConfig; + ma_spatializer_config spatializerConfig; + ma_panner_config pannerConfig; + ma_gainer_config gainerConfig; + ma_uint32 channelsIn; + ma_uint32 channelsOut; + ma_channel defaultStereoChannelMap[2] = {MA_CHANNEL_SIDE_LEFT, MA_CHANNEL_SIDE_RIGHT}; /* <-- Consistent with the default channel map of a stereo listener. Means channel conversion can run on a fast path. */ + + if (pEngineNode == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pEngineNode); + + result = ma_engine_node_get_heap_layout(pConfig, &heapLayout); + if (result != MA_SUCCESS) { + return result; + } + + if (pConfig->pinnedListenerIndex != MA_LISTENER_INDEX_CLOSEST && pConfig->pinnedListenerIndex >= ma_engine_get_listener_count(pConfig->pEngine)) { + return MA_INVALID_ARGS; /* Invalid listener. */ + } + + pEngineNode->_pHeap = pHeap; + MA_ZERO_MEMORY(pHeap, heapLayout.sizeInBytes); + + pEngineNode->pEngine = pConfig->pEngine; + pEngineNode->sampleRate = (pConfig->sampleRate > 0) ? pConfig->sampleRate : ma_engine_get_sample_rate(pEngineNode->pEngine); + pEngineNode->volumeSmoothTimeInPCMFrames = pConfig->volumeSmoothTimeInPCMFrames; + pEngineNode->monoExpansionMode = pConfig->monoExpansionMode; + ma_atomic_float_set(&pEngineNode->volume, 1); + pEngineNode->pitch = 1; + pEngineNode->oldPitch = 1; + pEngineNode->oldDopplerPitch = 1; + pEngineNode->isPitchDisabled = pConfig->isPitchDisabled; + pEngineNode->isSpatializationDisabled = pConfig->isSpatializationDisabled; + pEngineNode->pinnedListenerIndex = pConfig->pinnedListenerIndex; + ma_atomic_float_set(&pEngineNode->fadeSettings.volumeBeg, 1); + ma_atomic_float_set(&pEngineNode->fadeSettings.volumeEnd, 1); + ma_atomic_uint64_set(&pEngineNode->fadeSettings.fadeLengthInFrames, (~(ma_uint64)0)); + ma_atomic_uint64_set(&pEngineNode->fadeSettings.absoluteGlobalTimeInFrames, (~(ma_uint64)0)); /* <-- Indicates that the fade should start immediately. */ + + channelsIn = (pConfig->channelsIn != 0) ? pConfig->channelsIn : ma_engine_get_channels(pConfig->pEngine); + channelsOut = (pConfig->channelsOut != 0) ? pConfig->channelsOut : ma_engine_get_channels(pConfig->pEngine); + + /* + If the sample rate of the sound is different to the engine, make sure pitching is enabled so that the resampler + is activated. Not doing this will result in the sound not being resampled if MA_SOUND_FLAG_NO_PITCH is used. + */ + if (pEngineNode->sampleRate != ma_engine_get_sample_rate(pEngineNode->pEngine)) { + pEngineNode->isPitchDisabled = MA_FALSE; + } + + + /* Base node. */ + baseNodeConfig = ma_engine_node_base_node_config_init(pConfig); + baseNodeConfig.pInputChannels = &channelsIn; + baseNodeConfig.pOutputChannels = &channelsOut; + + result = ma_node_init_preallocated(&pConfig->pEngine->nodeGraph, &baseNodeConfig, ma_offset_ptr(pHeap, heapLayout.baseNodeOffset), &pEngineNode->baseNode); + if (result != MA_SUCCESS) { + goto error0; + } + + + /* + We can now initialize the effects we need in order to implement the engine node. There's a + defined order of operations here, mainly centered around when we convert our channels from the + data source's native channel count to the engine's channel count. As a rule, we want to do as + much computation as possible before spatialization because there's a chance that will increase + the channel count, thereby increasing the amount of work needing to be done to process. + */ + + /* We'll always do resampling first. */ + resamplerConfig = pConfig->resampling; + resamplerConfig.format = ma_format_f32; + resamplerConfig.channels = baseNodeConfig.pInputChannels[0]; + resamplerConfig.sampleRateIn = pEngineNode->sampleRate; + resamplerConfig.sampleRateOut = ma_engine_get_sample_rate(pEngineNode->pEngine); + + result = ma_resampler_init_preallocated(&resamplerConfig, ma_offset_ptr(pHeap, heapLayout.resamplerOffset), &pEngineNode->resampler); + if (result != MA_SUCCESS) { + goto error1; + } + + + /* After resampling will come the fader. */ + faderConfig = ma_fader_config_init(ma_format_f32, baseNodeConfig.pInputChannels[0], ma_engine_get_sample_rate(pEngineNode->pEngine)); + + result = ma_fader_init(&faderConfig, &pEngineNode->fader); + if (result != MA_SUCCESS) { + goto error2; + } + + + /* + Spatialization comes next. We spatialize based on the node's output channel count. It's up the caller to + ensure channels counts link up correctly in the node graph. + */ + spatializerConfig = ma_engine_node_spatializer_config_init(&baseNodeConfig); + spatializerConfig.gainSmoothTimeInFrames = pEngineNode->pEngine->gainSmoothTimeInFrames; + + if (spatializerConfig.channelsIn == 2) { + spatializerConfig.pChannelMapIn = defaultStereoChannelMap; + } + + result = ma_spatializer_init_preallocated(&spatializerConfig, ma_offset_ptr(pHeap, heapLayout.spatializerOffset), &pEngineNode->spatializer); + if (result != MA_SUCCESS) { + goto error2; + } + + + /* + After spatialization comes panning. We need to do this after spatialization because otherwise we wouldn't + be able to pan mono sounds. + */ + pannerConfig = ma_panner_config_init(ma_format_f32, baseNodeConfig.pOutputChannels[0]); + + result = ma_panner_init(&pannerConfig, &pEngineNode->panner); + if (result != MA_SUCCESS) { + goto error3; + } + + + /* We'll need a gainer for smoothing out volume changes if we have a non-zero smooth time. We apply this before converting to the output channel count. */ + if (pConfig->volumeSmoothTimeInPCMFrames > 0) { + gainerConfig = ma_gainer_config_init(channelsIn, pConfig->volumeSmoothTimeInPCMFrames); + + result = ma_gainer_init_preallocated(&gainerConfig, ma_offset_ptr(pHeap, heapLayout.gainerOffset), &pEngineNode->volumeGainer); + if (result != MA_SUCCESS) { + goto error3; + } + } + + + return MA_SUCCESS; + + /* No need for allocation callbacks here because we use a preallocated heap. */ +error3: ma_spatializer_uninit(&pEngineNode->spatializer, NULL); +error2: ma_resampler_uninit(&pEngineNode->resampler, NULL); +error1: ma_node_uninit(&pEngineNode->baseNode, NULL); +error0: return result; +} + +MA_API ma_result ma_engine_node_init(const ma_engine_node_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_engine_node* pEngineNode) +{ + ma_result result; + size_t heapSizeInBytes; + void* pHeap; + + result = ma_engine_node_get_heap_size(pConfig, &heapSizeInBytes); + if (result != MA_SUCCESS) { + return result; + } + + if (heapSizeInBytes > 0) { + pHeap = ma_malloc(heapSizeInBytes, pAllocationCallbacks); + if (pHeap == NULL) { + return MA_OUT_OF_MEMORY; + } + } else { + pHeap = NULL; + } + + result = ma_engine_node_init_preallocated(pConfig, pHeap, pEngineNode); + if (result != MA_SUCCESS) { + ma_free(pHeap, pAllocationCallbacks); + return result; + } + + pEngineNode->_ownsHeap = MA_TRUE; + return MA_SUCCESS; +} + +MA_API void ma_engine_node_uninit(ma_engine_node* pEngineNode, const ma_allocation_callbacks* pAllocationCallbacks) +{ + /* + The base node always needs to be uninitialized first to ensure it's detached from the graph completely before we + destroy anything that might be in the middle of being used by the processing function. + */ + ma_node_uninit(&pEngineNode->baseNode, pAllocationCallbacks); + + /* Now that the node has been uninitialized we can safely uninitialize the rest. */ + if (pEngineNode->volumeSmoothTimeInPCMFrames > 0) { + ma_gainer_uninit(&pEngineNode->volumeGainer, pAllocationCallbacks); + } + + ma_spatializer_uninit(&pEngineNode->spatializer, pAllocationCallbacks); + ma_resampler_uninit(&pEngineNode->resampler, pAllocationCallbacks); + + /* Free the heap last. */ + if (pEngineNode->_ownsHeap) { + ma_free(pEngineNode->_pHeap, pAllocationCallbacks); + } +} + + +MA_API ma_sound_config ma_sound_config_init(void) +{ + return ma_sound_config_init_2(NULL); +} + +MA_API ma_sound_config ma_sound_config_init_2(ma_engine* pEngine) +{ + ma_sound_config config; + + MA_ZERO_OBJECT(&config); + + if (pEngine != NULL) { + config.monoExpansionMode = pEngine->monoExpansionMode; + config.pitchResampling = pEngine->pitchResamplingConfig; + } else { + config.monoExpansionMode = ma_mono_expansion_mode_default; + + config.pitchResampling = ma_resampler_config_init(ma_format_f32, 0, 0, 0, ma_resample_algorithm_linear); + config.pitchResampling.linear.lpfOrder = 0; /* <-- Need to disable low-pass filtering for pitch shifting for now because there's cases where the biquads are becoming unstable. Need to figure out a better fix for this. */ + } + + config.rangeEndInPCMFrames = ~((ma_uint64)0); + config.loopPointEndInPCMFrames = ~((ma_uint64)0); + + return config; +} + +MA_API ma_sound_group_config ma_sound_group_config_init(void) +{ + return ma_sound_group_config_init_2(NULL); +} + +MA_API ma_sound_group_config ma_sound_group_config_init_2(ma_engine* pEngine) +{ + ma_sound_group_config config; + + MA_ZERO_OBJECT(&config); + + if (pEngine != NULL) { + config.monoExpansionMode = pEngine->monoExpansionMode; + config.pitchResampling = pEngine->pitchResamplingConfig; + } else { + config.monoExpansionMode = ma_mono_expansion_mode_default; + + config.pitchResampling = ma_resampler_config_init(ma_format_f32, 0, 0, 0, ma_resample_algorithm_linear); + config.pitchResampling.linear.lpfOrder = 0; /* <-- Need to disable low-pass filtering for pitch shifting for now because there's cases where the biquads are becoming unstable. Need to figure out a better fix for this. */ + } + + return config; +} + + +MA_API ma_engine_config ma_engine_config_init(void) +{ + ma_engine_config config; + + MA_ZERO_OBJECT(&config); + config.listenerCount = 1; /* Always want at least one listener. */ + config.monoExpansionMode = ma_mono_expansion_mode_default; + config.resourceManagerResampling = ma_resampler_config_init(ma_format_unknown, 0, 0, 0, ma_resample_algorithm_linear); + + config.pitchResampling = ma_resampler_config_init(ma_format_f32, 0, 0, 0, ma_resample_algorithm_linear); + config.pitchResampling.linear.lpfOrder = 0; /* <-- Need to disable low-pass filtering for pitch shifting for now because there's cases where the biquads are becoming unstable. Need to figure out a better fix for this. */ + + return config; +} + + +#if !defined(MA_NO_DEVICE_IO) +static void ma_engine_data_callback_internal(ma_device* pDevice, void* pFramesOut, const void* pFramesIn, ma_uint32 frameCount) +{ + ma_engine* pEngine = (ma_engine*)pDevice->pUserData; + + (void)pFramesIn; + + /* + Experiment: Try processing a resource manager job if we're on the Emscripten build. + + This serves two purposes: + + 1) It ensures jobs are actually processed at some point since we cannot guarantee that the + caller is doing the right thing and calling ma_resource_manager_process_next_job(); and + + 2) It's an attempt at working around an issue where processing jobs on the Emscripten main + loop doesn't work as well as it should. When trying to load sounds without the `DECODE` + flag or with the `ASYNC` flag, the sound data is just not able to be loaded in time + before the callback is processed. I think it's got something to do with the single- + threaded nature of Web, but I'm not entirely sure. + */ + #if !defined(MA_NO_RESOURCE_MANAGER) && defined(MA_EMSCRIPTEN) + { + if (pEngine->pResourceManager != NULL) { + if ((pEngine->pResourceManager->config.flags & MA_RESOURCE_MANAGER_FLAG_NO_THREADING) != 0) { + ma_resource_manager_process_next_job(pEngine->pResourceManager); + } + } + } + #endif + + ma_engine_read_pcm_frames(pEngine, pFramesOut, frameCount, NULL); +} + +static ma_uint32 ma_device__get_processing_size_in_frames(ma_device* pDevice) +{ + /* + The processing size is the period size. The device can have a fixed sized processing size, or + it can be decided by the backend in which case it can be variable. + */ + if (pDevice->playback.intermediaryBufferCap > 0) { + /* Using a fixed sized processing callback. */ + return pDevice->playback.intermediaryBufferCap; + } else { + /* Not using a fixed sized processing callback. Need to estimate the processing size based on the backend. */ + return pDevice->playback.internalPeriodSizeInFrames; + } +} +#endif + +MA_API ma_result ma_engine_init(const ma_engine_config* pConfig, ma_engine* pEngine) +{ + ma_result result; + ma_node_graph_config nodeGraphConfig; + ma_engine_config engineConfig; + ma_spatializer_listener_config listenerConfig; + ma_uint32 iListener; + + if (pEngine == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pEngine); + + /* The config is allowed to be NULL in which case we use defaults for everything. */ + if (pConfig != NULL) { + engineConfig = *pConfig; + } else { + engineConfig = ma_engine_config_init(); + } + + pEngine->monoExpansionMode = engineConfig.monoExpansionMode; + pEngine->defaultVolumeSmoothTimeInPCMFrames = engineConfig.defaultVolumeSmoothTimeInPCMFrames; + pEngine->onProcess = engineConfig.onProcess; + pEngine->pProcessUserData = engineConfig.pProcessUserData; + pEngine->pitchResamplingConfig = engineConfig.pitchResampling; + ma_allocation_callbacks_init_copy(&pEngine->allocationCallbacks, &engineConfig.allocationCallbacks); + + #if !defined(MA_NO_RESOURCE_MANAGER) + { + pEngine->pResourceManager = engineConfig.pResourceManager; + } + #endif + + #if !defined(MA_NO_DEVICE_IO) + { + pEngine->pDevice = engineConfig.pDevice; + + /* If we don't have a device, we need one. */ + if (pEngine->pDevice == NULL && engineConfig.noDevice == MA_FALSE) { + ma_device_config deviceConfig; + + pEngine->pDevice = (ma_device*)ma_malloc(sizeof(*pEngine->pDevice), &pEngine->allocationCallbacks); + if (pEngine->pDevice == NULL) { + return MA_OUT_OF_MEMORY; + } + + deviceConfig = ma_device_config_init(ma_device_type_playback); + deviceConfig.playback.pDeviceID = engineConfig.pPlaybackDeviceID; + deviceConfig.playback.format = ma_format_f32; + deviceConfig.playback.channels = engineConfig.channels; + deviceConfig.sampleRate = engineConfig.sampleRate; + deviceConfig.dataCallback = (engineConfig.dataCallback != NULL) ? engineConfig.dataCallback : ma_engine_data_callback_internal; + deviceConfig.pUserData = pEngine; + deviceConfig.notificationCallback = engineConfig.notificationCallback; + deviceConfig.periodSizeInFrames = engineConfig.periodSizeInFrames; + deviceConfig.periodSizeInMilliseconds = engineConfig.periodSizeInMilliseconds; + deviceConfig.noPreSilencedOutputBuffer = MA_TRUE; /* We'll always be outputting to every frame in the callback so there's no need for a pre-silenced buffer. */ + deviceConfig.noClip = MA_TRUE; /* The engine will do clipping itself. */ + + if (engineConfig.pContext == NULL) { + ma_context_config contextConfig = ma_context_config_init(); + contextConfig.allocationCallbacks = pEngine->allocationCallbacks; + contextConfig.pLog = engineConfig.pLog; + + /* If the engine config does not specify a log, use the resource manager's if we have one. */ + #ifndef MA_NO_RESOURCE_MANAGER + { + if (contextConfig.pLog == NULL && engineConfig.pResourceManager != NULL) { + contextConfig.pLog = ma_resource_manager_get_log(engineConfig.pResourceManager); + } + } + #endif + + result = ma_device_init_ex(NULL, 0, &contextConfig, &deviceConfig, pEngine->pDevice); + } else { + result = ma_device_init(engineConfig.pContext, &deviceConfig, pEngine->pDevice); + } + + if (result != MA_SUCCESS) { + ma_free(pEngine->pDevice, &pEngine->allocationCallbacks); + pEngine->pDevice = NULL; + return result; + } + + pEngine->ownsDevice = MA_TRUE; + } + + /* Update the channel count and sample rate of the engine config so we can reference it below. */ + if (pEngine->pDevice != NULL) { + engineConfig.channels = pEngine->pDevice->playback.channels; + engineConfig.sampleRate = pEngine->pDevice->sampleRate; + + /* + The processing size used by the engine is determined by engineConfig.periodSizeInFrames. We want + to make this equal to what the device is using for it's period size. If we don't do that, it's + possible that the node graph will split it's processing into multiple passes which can introduce + glitching. + */ + engineConfig.periodSizeInFrames = ma_device__get_processing_size_in_frames(pEngine->pDevice); + } + } + #endif + + if (engineConfig.channels == 0 || engineConfig.sampleRate == 0) { + return MA_INVALID_ARGS; + } + + pEngine->sampleRate = engineConfig.sampleRate; + + /* The engine always uses either the log that was passed into the config, or the context's log is available. */ + if (engineConfig.pLog != NULL) { + pEngine->pLog = engineConfig.pLog; + } else { + #if !defined(MA_NO_DEVICE_IO) + { + pEngine->pLog = ma_device_get_log(pEngine->pDevice); + } + #else + { + pEngine->pLog = NULL; + } + #endif + } + + + /* The engine is a node graph. This needs to be initialized after we have the device so we can determine the channel count. */ + nodeGraphConfig = ma_node_graph_config_init(engineConfig.channels); + nodeGraphConfig.processingSizeInFrames = engineConfig.periodSizeInFrames; + nodeGraphConfig.preMixStackSizeInBytes = engineConfig.preMixStackSizeInBytes; + + result = ma_node_graph_init(&nodeGraphConfig, &pEngine->allocationCallbacks, &pEngine->nodeGraph); + if (result != MA_SUCCESS) { + goto on_error_1; + } + + + /* We need at least one listener. */ + if (engineConfig.listenerCount == 0) { + engineConfig.listenerCount = 1; + } + + if (engineConfig.listenerCount > MA_ENGINE_MAX_LISTENERS) { + result = MA_INVALID_ARGS; /* Too many listeners. */ + goto on_error_1; + } + + for (iListener = 0; iListener < engineConfig.listenerCount; iListener += 1) { + listenerConfig = ma_spatializer_listener_config_init(ma_node_graph_get_channels(&pEngine->nodeGraph)); + + /* + If we're using a device, use the device's channel map for the listener. Otherwise just use + miniaudio's default channel map. + */ + #if !defined(MA_NO_DEVICE_IO) + { + if (pEngine->pDevice != NULL) { + /* + Temporarily disabled. There is a subtle bug here where front-left and front-right + will be used by the device's channel map, but this is not what we want to use for + spatialization. Instead we want to use side-left and side-right. I need to figure + out a better solution for this. For now, disabling the use of device channel maps. + */ + /*listenerConfig.pChannelMapOut = pEngine->pDevice->playback.channelMap;*/ + } + } + #endif + + result = ma_spatializer_listener_init(&listenerConfig, &pEngine->allocationCallbacks, &pEngine->listeners[iListener]); /* TODO: Change this to a pre-allocated heap. */ + if (result != MA_SUCCESS) { + goto on_error_2; + } + + pEngine->listenerCount += 1; + } + + + /* Gain smoothing for spatialized sounds. */ + pEngine->gainSmoothTimeInFrames = engineConfig.gainSmoothTimeInFrames; + if (pEngine->gainSmoothTimeInFrames == 0) { + ma_uint32 gainSmoothTimeInMilliseconds = engineConfig.gainSmoothTimeInMilliseconds; + if (gainSmoothTimeInMilliseconds == 0) { + gainSmoothTimeInMilliseconds = 8; + } + + pEngine->gainSmoothTimeInFrames = (gainSmoothTimeInMilliseconds * ma_engine_get_sample_rate(pEngine)) / 1000; /* 8ms by default. */ + } + + + /* We need a resource manager. */ + #ifndef MA_NO_RESOURCE_MANAGER + { + if (pEngine->pResourceManager == NULL) { + ma_resource_manager_config resourceManagerConfig; + + pEngine->pResourceManager = (ma_resource_manager*)ma_malloc(sizeof(*pEngine->pResourceManager), &pEngine->allocationCallbacks); + if (pEngine->pResourceManager == NULL) { + result = MA_OUT_OF_MEMORY; + goto on_error_2; + } + + resourceManagerConfig = ma_resource_manager_config_init(); + resourceManagerConfig.pLog = pEngine->pLog; /* Always use the engine's log for internally-managed resource managers. */ + resourceManagerConfig.decodedFormat = ma_format_f32; + resourceManagerConfig.decodedChannels = 0; /* Leave the decoded channel count as 0 so we can get good spatialization. */ + resourceManagerConfig.decodedSampleRate = ma_engine_get_sample_rate(pEngine); + ma_allocation_callbacks_init_copy(&resourceManagerConfig.allocationCallbacks, &pEngine->allocationCallbacks); + resourceManagerConfig.pVFS = engineConfig.pResourceManagerVFS; + resourceManagerConfig.resampling = engineConfig.resourceManagerResampling; + + /* The Emscripten build cannot use threads unless it's targeting pthreads. */ + #if defined(MA_EMSCRIPTEN) && !defined(__EMSCRIPTEN_PTHREADS__) + { + resourceManagerConfig.jobThreadCount = 0; + resourceManagerConfig.flags |= MA_RESOURCE_MANAGER_FLAG_NO_THREADING; + } + #endif + + result = ma_resource_manager_init(&resourceManagerConfig, pEngine->pResourceManager); + if (result != MA_SUCCESS) { + goto on_error_3; + } + + pEngine->ownsResourceManager = MA_TRUE; + } + } + #endif + + /* Setup some stuff for inlined sounds. That is sounds played with ma_engine_play_sound(). */ + pEngine->inlinedSoundLock = 0; + pEngine->pInlinedSoundHead = NULL; + + /* Start the engine if required. This should always be the last step. */ + #if !defined(MA_NO_DEVICE_IO) + { + if (engineConfig.noAutoStart == MA_FALSE && pEngine->pDevice != NULL) { + result = ma_engine_start(pEngine); + if (result != MA_SUCCESS) { + goto on_error_4; /* Failed to start the engine. */ + } + } + } + #endif + + return MA_SUCCESS; + +#if !defined(MA_NO_DEVICE_IO) +on_error_4: +#endif +#if !defined(MA_NO_RESOURCE_MANAGER) +on_error_3: + if (pEngine->ownsResourceManager) { + ma_free(pEngine->pResourceManager, &pEngine->allocationCallbacks); + } +#endif /* MA_NO_RESOURCE_MANAGER */ +on_error_2: + for (iListener = 0; iListener < pEngine->listenerCount; iListener += 1) { + ma_spatializer_listener_uninit(&pEngine->listeners[iListener], &pEngine->allocationCallbacks); + } + + ma_node_graph_uninit(&pEngine->nodeGraph, &pEngine->allocationCallbacks); +on_error_1: + #if !defined(MA_NO_DEVICE_IO) + { + if (pEngine->ownsDevice) { + ma_device_uninit(pEngine->pDevice); + ma_free(pEngine->pDevice, &pEngine->allocationCallbacks); + } + } + #endif + + return result; +} + +MA_API void ma_engine_uninit(ma_engine* pEngine) +{ + ma_uint32 iListener; + + if (pEngine == NULL) { + return; + } + + /* The device must be uninitialized before the node graph to ensure the audio thread doesn't try accessing it. */ + #if !defined(MA_NO_DEVICE_IO) + { + if (pEngine->ownsDevice) { + ma_device_uninit(pEngine->pDevice); + ma_free(pEngine->pDevice, &pEngine->allocationCallbacks); + } else { + if (pEngine->pDevice != NULL) { + ma_device_stop(pEngine->pDevice); + } + } + } + #endif + + /* + All inlined sounds need to be deleted. I'm going to use a lock here just to future proof in case + I want to do some kind of garbage collection later on. + */ + ma_spinlock_lock(&pEngine->inlinedSoundLock); + { + for (;;) { + ma_sound_inlined* pSoundToDelete = pEngine->pInlinedSoundHead; + if (pSoundToDelete == NULL) { + break; /* Done. */ + } + + pEngine->pInlinedSoundHead = pSoundToDelete->pNext; + + ma_sound_uninit(&pSoundToDelete->sound); + ma_free(pSoundToDelete, &pEngine->allocationCallbacks); + } + } + ma_spinlock_unlock(&pEngine->inlinedSoundLock); + + for (iListener = 0; iListener < pEngine->listenerCount; iListener += 1) { + ma_spatializer_listener_uninit(&pEngine->listeners[iListener], &pEngine->allocationCallbacks); + } + + /* Make sure the node graph is uninitialized after the audio thread has been shutdown to prevent accessing of the node graph after being uninitialized. */ + ma_node_graph_uninit(&pEngine->nodeGraph, &pEngine->allocationCallbacks); + + /* Uninitialize the resource manager last to ensure we don't have a thread still trying to access it. */ +#ifndef MA_NO_RESOURCE_MANAGER + if (pEngine->ownsResourceManager) { + ma_resource_manager_uninit(pEngine->pResourceManager); + ma_free(pEngine->pResourceManager, &pEngine->allocationCallbacks); + } +#endif +} + +MA_API ma_result ma_engine_read_pcm_frames(ma_engine* pEngine, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_result result; + ma_uint64 framesRead = 0; + + if (pFramesRead != NULL) { + *pFramesRead = 0; + } + + result = ma_node_graph_read_pcm_frames(&pEngine->nodeGraph, pFramesOut, frameCount, &framesRead); + if (result != MA_SUCCESS) { + return result; + } + + if (pFramesRead != NULL) { + *pFramesRead = framesRead; + } + + if (pEngine->onProcess) { + pEngine->onProcess(pEngine->pProcessUserData, (float*)pFramesOut, framesRead); /* Safe cast to float* because the engine always works on floating point samples. */ + } + + return MA_SUCCESS; +} + +MA_API ma_node_graph* ma_engine_get_node_graph(ma_engine* pEngine) +{ + if (pEngine == NULL) { + return NULL; + } + + return &pEngine->nodeGraph; +} + +#if !defined(MA_NO_RESOURCE_MANAGER) +MA_API ma_resource_manager* ma_engine_get_resource_manager(ma_engine* pEngine) +{ + if (pEngine == NULL) { + return NULL; + } + + #if !defined(MA_NO_RESOURCE_MANAGER) + { + return pEngine->pResourceManager; + } + #else + { + return NULL; + } + #endif +} +#endif + +MA_API ma_device* ma_engine_get_device(ma_engine* pEngine) +{ + if (pEngine == NULL) { + return NULL; + } + + #if !defined(MA_NO_DEVICE_IO) + { + return pEngine->pDevice; + } + #else + { + return NULL; + } + #endif +} + +MA_API ma_log* ma_engine_get_log(ma_engine* pEngine) +{ + if (pEngine == NULL) { + return NULL; + } + + if (pEngine->pLog != NULL) { + return pEngine->pLog; + } else { + #if !defined(MA_NO_DEVICE_IO) + { + return ma_device_get_log(ma_engine_get_device(pEngine)); + } + #else + { + return NULL; + } + #endif + } +} + +MA_API ma_node* ma_engine_get_endpoint(ma_engine* pEngine) +{ + return ma_node_graph_get_endpoint(&pEngine->nodeGraph); +} + +MA_API ma_uint64 ma_engine_get_time_in_pcm_frames(const ma_engine* pEngine) +{ + return ma_node_graph_get_time(&pEngine->nodeGraph); +} + +MA_API ma_uint64 ma_engine_get_time_in_milliseconds(const ma_engine* pEngine) +{ + return ma_engine_get_time_in_pcm_frames(pEngine) * 1000 / ma_engine_get_sample_rate(pEngine); +} + +MA_API ma_result ma_engine_set_time_in_pcm_frames(ma_engine* pEngine, ma_uint64 globalTime) +{ + return ma_node_graph_set_time(&pEngine->nodeGraph, globalTime); +} + +MA_API ma_result ma_engine_set_time_in_milliseconds(ma_engine* pEngine, ma_uint64 globalTime) +{ + return ma_engine_set_time_in_pcm_frames(pEngine, globalTime * ma_engine_get_sample_rate(pEngine) / 1000); +} + +MA_API ma_uint64 ma_engine_get_time(const ma_engine* pEngine) +{ + return ma_engine_get_time_in_pcm_frames(pEngine); +} + +MA_API ma_result ma_engine_set_time(ma_engine* pEngine, ma_uint64 globalTime) +{ + return ma_engine_set_time_in_pcm_frames(pEngine, globalTime); +} + +MA_API ma_uint32 ma_engine_get_channels(const ma_engine* pEngine) +{ + return ma_node_graph_get_channels(&pEngine->nodeGraph); +} + +MA_API ma_uint32 ma_engine_get_sample_rate(const ma_engine* pEngine) +{ + if (pEngine == NULL) { + return 0; + } + + return pEngine->sampleRate; +} + + +MA_API ma_result ma_engine_start(ma_engine* pEngine) +{ + ma_result result; + + if (pEngine == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_DEVICE_IO) + { + if (pEngine->pDevice != NULL) { + result = ma_device_start(pEngine->pDevice); + } else { + result = MA_INVALID_OPERATION; /* The engine is running without a device which means there's no real notion of "starting" the engine. */ + } + } + #else + { + result = MA_INVALID_OPERATION; /* Device IO is disabled, so there's no real notion of "starting" the engine. */ + } + #endif + + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_engine_stop(ma_engine* pEngine) +{ + ma_result result; + + if (pEngine == NULL) { + return MA_INVALID_ARGS; + } + + #if !defined(MA_NO_DEVICE_IO) + { + if (pEngine->pDevice != NULL) { + result = ma_device_stop(pEngine->pDevice); + } else { + result = MA_INVALID_OPERATION; /* The engine is running without a device which means there's no real notion of "stopping" the engine. */ + } + } + #else + { + result = MA_INVALID_OPERATION; /* Device IO is disabled, so there's no real notion of "stopping" the engine. */ + } + #endif + + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + +MA_API ma_result ma_engine_set_volume(ma_engine* pEngine, float volume) +{ + if (pEngine == NULL) { + return MA_INVALID_ARGS; + } + + return ma_node_set_output_bus_volume(ma_node_graph_get_endpoint(&pEngine->nodeGraph), 0, volume); +} + +MA_API float ma_engine_get_volume(ma_engine* pEngine) +{ + if (pEngine == NULL) { + return 0; + } + + return ma_node_get_output_bus_volume(ma_node_graph_get_endpoint(&pEngine->nodeGraph), 0); +} + +MA_API ma_result ma_engine_set_gain_db(ma_engine* pEngine, float gainDB) +{ + return ma_engine_set_volume(pEngine, ma_volume_db_to_linear(gainDB)); +} + +MA_API float ma_engine_get_gain_db(ma_engine* pEngine) +{ + return ma_volume_linear_to_db(ma_engine_get_volume(pEngine)); +} + + +MA_API ma_uint32 ma_engine_get_listener_count(const ma_engine* pEngine) +{ + if (pEngine == NULL) { + return 0; + } + + return pEngine->listenerCount; +} + +MA_API ma_uint32 ma_engine_find_closest_listener(const ma_engine* pEngine, float absolutePosX, float absolutePosY, float absolutePosZ) +{ + ma_uint32 iListener; + ma_uint32 iListenerClosest; + float closestLen2 = MA_FLT_MAX; + + if (pEngine == NULL || pEngine->listenerCount == 1) { + return 0; + } + + iListenerClosest = 0; + for (iListener = 0; iListener < pEngine->listenerCount; iListener += 1) { + if (ma_engine_listener_is_enabled(pEngine, iListener)) { + float len2 = ma_vec3f_len2(ma_vec3f_sub(ma_spatializer_listener_get_position(&pEngine->listeners[iListener]), ma_vec3f_init_3f(absolutePosX, absolutePosY, absolutePosZ))); + if (closestLen2 > len2) { + closestLen2 = len2; + iListenerClosest = iListener; + } + } + } + + MA_ASSERT(iListenerClosest < 255); + return iListenerClosest; +} + +MA_API void ma_engine_listener_set_position(ma_engine* pEngine, ma_uint32 listenerIndex, float x, float y, float z) +{ + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return; + } + + ma_spatializer_listener_set_position(&pEngine->listeners[listenerIndex], x, y, z); +} + +MA_API ma_vec3f ma_engine_listener_get_position(const ma_engine* pEngine, ma_uint32 listenerIndex) +{ + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return ma_vec3f_init_3f(0, 0, 0); + } + + return ma_spatializer_listener_get_position(&pEngine->listeners[listenerIndex]); +} + +MA_API void ma_engine_listener_set_direction(ma_engine* pEngine, ma_uint32 listenerIndex, float x, float y, float z) +{ + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return; + } + + ma_spatializer_listener_set_direction(&pEngine->listeners[listenerIndex], x, y, z); +} + +MA_API ma_vec3f ma_engine_listener_get_direction(const ma_engine* pEngine, ma_uint32 listenerIndex) +{ + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return ma_vec3f_init_3f(0, 0, -1); + } + + return ma_spatializer_listener_get_direction(&pEngine->listeners[listenerIndex]); +} + +MA_API void ma_engine_listener_set_velocity(ma_engine* pEngine, ma_uint32 listenerIndex, float x, float y, float z) +{ + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return; + } + + ma_spatializer_listener_set_velocity(&pEngine->listeners[listenerIndex], x, y, z); +} + +MA_API ma_vec3f ma_engine_listener_get_velocity(const ma_engine* pEngine, ma_uint32 listenerIndex) +{ + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return ma_vec3f_init_3f(0, 0, 0); + } + + return ma_spatializer_listener_get_velocity(&pEngine->listeners[listenerIndex]); +} + +MA_API void ma_engine_listener_set_cone(ma_engine* pEngine, ma_uint32 listenerIndex, float innerAngleInRadians, float outerAngleInRadians, float outerGain) +{ + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return; + } + + ma_spatializer_listener_set_cone(&pEngine->listeners[listenerIndex], innerAngleInRadians, outerAngleInRadians, outerGain); +} + +MA_API void ma_engine_listener_get_cone(const ma_engine* pEngine, ma_uint32 listenerIndex, float* pInnerAngleInRadians, float* pOuterAngleInRadians, float* pOuterGain) +{ + if (pInnerAngleInRadians != NULL) { + *pInnerAngleInRadians = 0; + } + + if (pOuterAngleInRadians != NULL) { + *pOuterAngleInRadians = 0; + } + + if (pOuterGain != NULL) { + *pOuterGain = 0; + } + + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return; + } + + ma_spatializer_listener_get_cone(&pEngine->listeners[listenerIndex], pInnerAngleInRadians, pOuterAngleInRadians, pOuterGain); +} + +MA_API void ma_engine_listener_set_world_up(ma_engine* pEngine, ma_uint32 listenerIndex, float x, float y, float z) +{ + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return; + } + + ma_spatializer_listener_set_world_up(&pEngine->listeners[listenerIndex], x, y, z); +} + +MA_API ma_vec3f ma_engine_listener_get_world_up(const ma_engine* pEngine, ma_uint32 listenerIndex) +{ + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return ma_vec3f_init_3f(0, 1, 0); + } + + return ma_spatializer_listener_get_world_up(&pEngine->listeners[listenerIndex]); +} + +MA_API void ma_engine_listener_set_enabled(ma_engine* pEngine, ma_uint32 listenerIndex, ma_bool32 isEnabled) +{ + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return; + } + + ma_spatializer_listener_set_enabled(&pEngine->listeners[listenerIndex], isEnabled); +} + +MA_API ma_bool32 ma_engine_listener_is_enabled(const ma_engine* pEngine, ma_uint32 listenerIndex) +{ + if (pEngine == NULL || listenerIndex >= pEngine->listenerCount) { + return MA_FALSE; + } + + return ma_spatializer_listener_is_enabled(&pEngine->listeners[listenerIndex]); +} + + +#ifndef MA_NO_RESOURCE_MANAGER +MA_API ma_result ma_engine_play_sound_ex(ma_engine* pEngine, const char* pFilePath, ma_node* pNode, ma_uint32 nodeInputBusIndex) +{ + ma_result result = MA_SUCCESS; + ma_sound_inlined* pSound = NULL; + ma_sound_inlined* pNextSound = NULL; + + if (pEngine == NULL || pFilePath == NULL) { + return MA_INVALID_ARGS; + } + + /* Attach to the endpoint node if nothing is specified. */ + if (pNode == NULL) { + pNode = ma_node_graph_get_endpoint(&pEngine->nodeGraph); + nodeInputBusIndex = 0; + } + + /* + We want to check if we can recycle an already-allocated inlined sound. Since this is just a + helper I'm not *too* concerned about performance here and I'm happy to use a lock to keep + the implementation simple. Maybe this can be optimized later if there's enough demand, but + if this function is being used it probably means the caller doesn't really care too much. + + What we do is check the atEnd flag. When this is true, we can recycle the sound. Otherwise + we just keep iterating. If we reach the end without finding a sound to recycle we just + allocate a new one. This doesn't scale well for a massive number of sounds being played + simultaneously as we don't ever actually free the sound objects. Some kind of garbage + collection routine might be valuable for this which I'll think about. + */ + ma_spinlock_lock(&pEngine->inlinedSoundLock); + { + ma_uint32 soundFlags = 0; + + for (pNextSound = pEngine->pInlinedSoundHead; pNextSound != NULL; pNextSound = pNextSound->pNext) { + if (ma_sound_at_end(&pNextSound->sound)) { + /* + The sound is at the end which means it's available for recycling. All we need to do + is uninitialize it and reinitialize it. All we're doing is recycling memory. + */ + pSound = pNextSound; + ma_atomic_fetch_sub_32(&pEngine->inlinedSoundCount, 1); + break; + } + } + + if (pSound != NULL) { + /* + We actually want to detach the sound from the list here. The reason is because we want the sound + to be in a consistent state at the non-recycled case to simplify the logic below. + */ + if (pEngine->pInlinedSoundHead == pSound) { + pEngine->pInlinedSoundHead = pSound->pNext; + } + + if (pSound->pPrev != NULL) { + pSound->pPrev->pNext = pSound->pNext; + } + if (pSound->pNext != NULL) { + pSound->pNext->pPrev = pSound->pPrev; + } + + /* Now the previous sound needs to be uninitialized. */ + ma_sound_uninit(&pNextSound->sound); + } else { + /* No sound available for recycling. Allocate one now. */ + pSound = (ma_sound_inlined*)ma_malloc(sizeof(*pSound), &pEngine->allocationCallbacks); + } + + if (pSound != NULL) { /* Safety check for the allocation above. */ + /* + At this point we should have memory allocated for the inlined sound. We just need + to initialize it like a normal sound now. + */ + soundFlags |= MA_SOUND_FLAG_ASYNC; /* For inlined sounds we don't want to be sitting around waiting for stuff to load so force an async load. */ + soundFlags |= MA_SOUND_FLAG_NO_DEFAULT_ATTACHMENT; /* We want specific control over where the sound is attached in the graph. We'll attach it manually just before playing the sound. */ + soundFlags |= MA_SOUND_FLAG_NO_PITCH; /* Pitching isn't usable with inlined sounds, so disable it to save on speed. */ + soundFlags |= MA_SOUND_FLAG_NO_SPATIALIZATION; /* Not currently doing spatialization with inlined sounds, but this might actually change later. For now disable spatialization. Will be removed if we ever add support for spatialization here. */ + + result = ma_sound_init_from_file(pEngine, pFilePath, soundFlags, NULL, NULL, &pSound->sound); + if (result == MA_SUCCESS) { + /* Now attach the sound to the graph. */ + result = ma_node_attach_output_bus(pSound, 0, pNode, nodeInputBusIndex); + if (result == MA_SUCCESS) { + /* At this point the sound should be loaded and we can go ahead and add it to the list. The new item becomes the new head. */ + pSound->pNext = pEngine->pInlinedSoundHead; + pSound->pPrev = NULL; + + pEngine->pInlinedSoundHead = pSound; /* <-- This is what attaches the sound to the list. */ + if (pSound->pNext != NULL) { + pSound->pNext->pPrev = pSound; + } + } else { + ma_free(pSound, &pEngine->allocationCallbacks); + } + } else { + ma_free(pSound, &pEngine->allocationCallbacks); + } + } else { + result = MA_OUT_OF_MEMORY; + } + } + ma_spinlock_unlock(&pEngine->inlinedSoundLock); + + if (result != MA_SUCCESS) { + return result; + } + + /* Finally we can start playing the sound. */ + result = ma_sound_start(&pSound->sound); + if (result != MA_SUCCESS) { + /* Failed to start the sound. We need to mark it for recycling and return an error. */ + ma_atomic_exchange_32(&pSound->sound.atEnd, MA_TRUE); + return result; + } + + ma_atomic_fetch_add_32(&pEngine->inlinedSoundCount, 1); + return result; +} + +MA_API ma_result ma_engine_play_sound(ma_engine* pEngine, const char* pFilePath, ma_sound_group* pGroup) +{ + return ma_engine_play_sound_ex(pEngine, pFilePath, pGroup, 0); +} +#endif + + +static ma_result ma_sound_preinit(ma_engine* pEngine, ma_sound* pSound) +{ + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pSound); + pSound->seekTarget = MA_SEEK_TARGET_NONE; + + if (pEngine == NULL) { + return MA_INVALID_ARGS; + } + + return MA_SUCCESS; +} + +static ma_result ma_sound_init_from_data_source_internal(ma_engine* pEngine, const ma_sound_config* pConfig, ma_sound* pSound) +{ + ma_result result; + ma_engine_node_config engineNodeConfig; + ma_engine_node_type type; /* Will be set to ma_engine_node_type_group if no data source is specified. */ + + /* Do not clear pSound to zero here - that's done at a higher level with ma_sound_preinit(). */ + MA_ASSERT(pEngine != NULL); + MA_ASSERT(pSound != NULL); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + pSound->pDataSource = pConfig->pDataSource; + + if (pConfig->pDataSource != NULL) { + type = ma_engine_node_type_sound; + } else { + type = ma_engine_node_type_group; + } + + /* + Sounds are engine nodes. Before we can initialize this we need to determine the channel count. + If we can't do this we need to abort. It's up to the caller to ensure they're using a data + source that provides this information upfront. + */ + engineNodeConfig = ma_engine_node_config_init(pEngine, type, pConfig->flags); + engineNodeConfig.channelsIn = pConfig->channelsIn; + engineNodeConfig.channelsOut = pConfig->channelsOut; + engineNodeConfig.volumeSmoothTimeInPCMFrames = pConfig->volumeSmoothTimeInPCMFrames; + engineNodeConfig.monoExpansionMode = pConfig->monoExpansionMode; + + if (engineNodeConfig.volumeSmoothTimeInPCMFrames == 0) { + engineNodeConfig.volumeSmoothTimeInPCMFrames = pEngine->defaultVolumeSmoothTimeInPCMFrames; + } + + /* If we're loading from a data source the input channel count needs to be the data source's native channel count. */ + if (pConfig->pDataSource != NULL) { + result = ma_data_source_get_data_format(pConfig->pDataSource, NULL, &engineNodeConfig.channelsIn, &engineNodeConfig.sampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; /* Failed to retrieve the channel count. */ + } + + if (engineNodeConfig.channelsIn == 0) { + return MA_INVALID_OPERATION; /* Invalid channel count. */ + } + + if (engineNodeConfig.channelsOut == MA_SOUND_SOURCE_CHANNEL_COUNT) { + engineNodeConfig.channelsOut = engineNodeConfig.channelsIn; + } + } + + + /* Getting here means we should have a valid channel count and we can initialize the engine node. */ + result = ma_engine_node_init(&engineNodeConfig, &pEngine->allocationCallbacks, &pSound->engineNode); + if (result != MA_SUCCESS) { + return result; + } + + /* If no attachment is specified, attach the sound straight to the endpoint. */ + if (pConfig->pInitialAttachment == NULL) { + /* No group. Attach straight to the endpoint by default, unless the caller has requested that it not. */ + if ((pConfig->flags & MA_SOUND_FLAG_NO_DEFAULT_ATTACHMENT) == 0) { + result = ma_node_attach_output_bus(pSound, 0, ma_node_graph_get_endpoint(&pEngine->nodeGraph), 0); + } + } else { + /* An attachment is specified. Attach to it by default. The sound has only a single output bus, and the config will specify which input bus to attach to. */ + result = ma_node_attach_output_bus(pSound, 0, pConfig->pInitialAttachment, pConfig->initialAttachmentInputBusIndex); + } + + if (result != MA_SUCCESS) { + ma_engine_node_uninit(&pSound->engineNode, &pEngine->allocationCallbacks); + return result; + } + + + /* + When pulling data from a data source we need a processing cache to hold onto unprocessed input data from the data source + after doing resampling. + */ + if (pSound->pDataSource != NULL) { + pSound->processingCacheFramesRemaining = 0; + pSound->processingCacheCap = ma_node_graph_get_processing_size_in_frames(&pEngine->nodeGraph); + if (pSound->processingCacheCap == 0) { + pSound->processingCacheCap = 512; + } + + pSound->pProcessingCache = (float*)ma_calloc(pSound->processingCacheCap * ma_get_bytes_per_frame(ma_format_f32, engineNodeConfig.channelsIn), &pEngine->allocationCallbacks); + if (pSound->pProcessingCache == NULL) { + ma_engine_node_uninit(&pSound->engineNode, &pEngine->allocationCallbacks); + return MA_OUT_OF_MEMORY; + } + } + + + /* Apply initial range and looping state to the data source if applicable. */ + if (pConfig->rangeBegInPCMFrames != 0 || pConfig->rangeEndInPCMFrames != ~((ma_uint64)0)) { + ma_data_source_set_range_in_pcm_frames(ma_sound_get_data_source(pSound), pConfig->rangeBegInPCMFrames, pConfig->rangeEndInPCMFrames); + } + + if (pConfig->loopPointBegInPCMFrames != 0 || pConfig->loopPointEndInPCMFrames != ~((ma_uint64)0)) { + ma_data_source_set_loop_point_in_pcm_frames(ma_sound_get_data_source(pSound), pConfig->loopPointBegInPCMFrames, pConfig->loopPointEndInPCMFrames); + } + + ma_sound_set_looping(pSound, pConfig->isLooping || ((pConfig->flags & MA_SOUND_FLAG_LOOPING) != 0)); + + return MA_SUCCESS; +} + +#ifndef MA_NO_RESOURCE_MANAGER +MA_API ma_result ma_sound_init_from_file_internal(ma_engine* pEngine, const ma_sound_config* pConfig, ma_sound* pSound) +{ + ma_result result = MA_SUCCESS; + ma_uint32 flags; + ma_sound_config config; + ma_resource_manager_pipeline_notifications notifications; + + /* + The engine requires knowledge of the channel count of the underlying data source before it can + initialize the sound. Therefore, we need to make the resource manager wait until initialization + of the underlying data source to be initialized so we can get access to the channel count. To + do this, the MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT is forced. + + Because we're initializing the data source before the sound, there's a chance the notification + will get triggered before this function returns. This is OK, so long as the caller is aware of + it and can avoid accessing the sound from within the notification. + */ + flags = pConfig->flags | MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT; + if (pConfig->isLooping) { + flags |= MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING; + } + + pSound->pResourceManagerDataSource = (ma_resource_manager_data_source*)ma_malloc(sizeof(*pSound->pResourceManagerDataSource), &pEngine->allocationCallbacks); + if (pSound->pResourceManagerDataSource == NULL) { + return MA_OUT_OF_MEMORY; + } + + /* Removed in 0.12. Set pDoneFence on the notifications. */ + notifications = pConfig->initNotifications; + if (pConfig->pDoneFence != NULL && notifications.done.pFence == NULL) { + notifications.done.pFence = pConfig->pDoneFence; + } + + /* + We must wrap everything around the fence if one was specified. This ensures ma_fence_wait() does + not return prematurely before the sound has finished initializing. + */ + if (notifications.done.pFence) { ma_fence_acquire(notifications.done.pFence); } + { + ma_resource_manager_data_source_config resourceManagerDataSourceConfig = ma_resource_manager_data_source_config_init(); + resourceManagerDataSourceConfig.pFilePath = pConfig->pFilePath; + resourceManagerDataSourceConfig.pFilePathW = pConfig->pFilePathW; + resourceManagerDataSourceConfig.flags = flags; + resourceManagerDataSourceConfig.pNotifications = ¬ifications; + resourceManagerDataSourceConfig.initialSeekPointInPCMFrames = pConfig->initialSeekPointInPCMFrames; + resourceManagerDataSourceConfig.rangeBegInPCMFrames = pConfig->rangeBegInPCMFrames; + resourceManagerDataSourceConfig.rangeEndInPCMFrames = pConfig->rangeEndInPCMFrames; + resourceManagerDataSourceConfig.loopPointBegInPCMFrames = pConfig->loopPointBegInPCMFrames; + resourceManagerDataSourceConfig.loopPointEndInPCMFrames = pConfig->loopPointEndInPCMFrames; + resourceManagerDataSourceConfig.isLooping = (flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING) != 0; + + result = ma_resource_manager_data_source_init_ex(pEngine->pResourceManager, &resourceManagerDataSourceConfig, pSound->pResourceManagerDataSource); + if (result != MA_SUCCESS) { + ma_free(pSound->pResourceManagerDataSource, &pEngine->allocationCallbacks); + goto done; + } + + pSound->ownsDataSource = MA_TRUE; /* <-- Important. Not setting this will result in the resource manager data source never getting uninitialized. */ + + /* We need to use a slightly customized version of the config so we'll need to make a copy. */ + config = *pConfig; + config.pFilePath = NULL; + config.pFilePathW = NULL; + config.pDataSource = pSound->pResourceManagerDataSource; + + result = ma_sound_init_from_data_source_internal(pEngine, &config, pSound); + if (result != MA_SUCCESS) { + ma_resource_manager_data_source_uninit(pSound->pResourceManagerDataSource); + ma_free(pSound->pResourceManagerDataSource, &pEngine->allocationCallbacks); + MA_ZERO_OBJECT(pSound); + goto done; + } + } +done: + if (notifications.done.pFence) { ma_fence_release(notifications.done.pFence); } + return result; +} + +MA_API ma_result ma_sound_init_from_file(ma_engine* pEngine, const char* pFilePath, ma_uint32 flags, ma_sound_group* pGroup, ma_fence* pDoneFence, ma_sound* pSound) +{ + ma_sound_config config; + + if (pFilePath == NULL) { + return MA_INVALID_ARGS; + } + + config = ma_sound_config_init_2(pEngine); + config.pFilePath = pFilePath; + config.flags = flags; + config.pInitialAttachment = pGroup; + config.pDoneFence = pDoneFence; + + return ma_sound_init_ex(pEngine, &config, pSound); +} + +MA_API ma_result ma_sound_init_from_file_w(ma_engine* pEngine, const wchar_t* pFilePath, ma_uint32 flags, ma_sound_group* pGroup, ma_fence* pDoneFence, ma_sound* pSound) +{ + ma_sound_config config; + + if (pFilePath == NULL) { + return MA_INVALID_ARGS; + } + + config = ma_sound_config_init_2(pEngine); + config.pFilePathW = pFilePath; + config.flags = flags; + config.pInitialAttachment = pGroup; + config.pDoneFence = pDoneFence; + + return ma_sound_init_ex(pEngine, &config, pSound); +} + +MA_API ma_result ma_sound_init_copy(ma_engine* pEngine, const ma_sound* pExistingSound, ma_uint32 flags, ma_sound_group* pGroup, ma_sound* pSound) +{ + ma_result result; + ma_sound_config config; + + result = ma_sound_preinit(pEngine, pSound); + if (result != MA_SUCCESS) { + return result; + } + + if (pExistingSound == NULL) { + return MA_INVALID_ARGS; + } + + /* Cloning only works for data buffers (not streams) that are loaded from the resource manager. */ + if (pExistingSound->pResourceManagerDataSource == NULL) { + return MA_INVALID_OPERATION; + } + + /* + We need to make a clone of the data source. If the data source is not a data buffer (i.e. a stream) + this will fail. + */ + pSound->pResourceManagerDataSource = (ma_resource_manager_data_source*)ma_malloc(sizeof(*pSound->pResourceManagerDataSource), &pEngine->allocationCallbacks); + if (pSound->pResourceManagerDataSource == NULL) { + return MA_OUT_OF_MEMORY; + } + + result = ma_resource_manager_data_source_init_copy(pEngine->pResourceManager, pExistingSound->pResourceManagerDataSource, pSound->pResourceManagerDataSource); + if (result != MA_SUCCESS) { + ma_free(pSound->pResourceManagerDataSource, &pEngine->allocationCallbacks); + return result; + } + + config = ma_sound_config_init_2(pEngine); + config.pDataSource = pSound->pResourceManagerDataSource; + config.flags = flags; + config.pInitialAttachment = pGroup; + config.monoExpansionMode = pExistingSound->engineNode.monoExpansionMode; + config.volumeSmoothTimeInPCMFrames = pExistingSound->engineNode.volumeSmoothTimeInPCMFrames; + + result = ma_sound_init_from_data_source_internal(pEngine, &config, pSound); + if (result != MA_SUCCESS) { + ma_resource_manager_data_source_uninit(pSound->pResourceManagerDataSource); + ma_free(pSound->pResourceManagerDataSource, &pEngine->allocationCallbacks); + MA_ZERO_OBJECT(pSound); + return result; + } + + /* Make sure the sound is marked as the owner of the data source or else it will never get uninitialized. */ + pSound->ownsDataSource = MA_TRUE; + + return MA_SUCCESS; +} +#endif + +MA_API ma_result ma_sound_init_from_data_source(ma_engine* pEngine, ma_data_source* pDataSource, ma_uint32 flags, ma_sound_group* pGroup, ma_sound* pSound) +{ + ma_sound_config config = ma_sound_config_init_2(pEngine); + config.pDataSource = pDataSource; + config.flags = flags; + config.pInitialAttachment = pGroup; + return ma_sound_init_ex(pEngine, &config, pSound); +} + +MA_API ma_result ma_sound_init_ex(ma_engine* pEngine, const ma_sound_config* pConfig, ma_sound* pSound) +{ + ma_result result; + + result = ma_sound_preinit(pEngine, pSound); + if (result != MA_SUCCESS) { + return result; + } + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + pSound->endCallback = pConfig->endCallback; + pSound->pEndCallbackUserData = pConfig->pEndCallbackUserData; + + /* We need to load the sound differently depending on whether or not we're loading from a file. */ +#ifndef MA_NO_RESOURCE_MANAGER + if (pConfig->pFilePath != NULL || pConfig->pFilePathW != NULL) { + return ma_sound_init_from_file_internal(pEngine, pConfig, pSound); + } else +#endif + { + /* + Getting here means we're not loading from a file. We may be loading from an already-initialized + data source, or none at all. If we aren't specifying any data source, we'll be initializing + the equivalent to a group. ma_data_source_init_from_data_source_internal() will deal with this + for us, so no special treatment required here. + */ + return ma_sound_init_from_data_source_internal(pEngine, pConfig, pSound); + } +} + +MA_API void ma_sound_uninit(ma_sound* pSound) +{ + if (pSound == NULL) { + return; + } + + /* + Always uninitialize the node first. This ensures it's detached from the graph and does not return until it has done + so which makes thread safety beyond this point trivial. + */ + ma_engine_node_uninit(&pSound->engineNode, &pSound->engineNode.pEngine->allocationCallbacks); + + if (pSound->pProcessingCache != NULL) { + ma_free(pSound->pProcessingCache, &pSound->engineNode.pEngine->allocationCallbacks); + pSound->pProcessingCache = NULL; + } + + /* Once the sound is detached from the group we can guarantee that it won't be referenced by the mixer thread which means it's safe for us to destroy the data source. */ +#ifndef MA_NO_RESOURCE_MANAGER + if (pSound->ownsDataSource) { + ma_resource_manager_data_source_uninit(pSound->pResourceManagerDataSource); + ma_free(pSound->pResourceManagerDataSource, &pSound->engineNode.pEngine->allocationCallbacks); + pSound->pDataSource = NULL; + } +#else + MA_ASSERT(pSound->ownsDataSource == MA_FALSE); +#endif +} + +MA_API ma_engine* ma_sound_get_engine(const ma_sound* pSound) +{ + if (pSound == NULL) { + return NULL; + } + + return pSound->engineNode.pEngine; +} + +MA_API ma_data_source* ma_sound_get_data_source(const ma_sound* pSound) +{ + if (pSound == NULL) { + return NULL; + } + + return pSound->pDataSource; +} + +MA_API ma_result ma_sound_start(ma_sound* pSound) +{ + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + /* If the sound is already playing, do nothing. */ + if (ma_sound_is_playing(pSound)) { + return MA_SUCCESS; + } + + /* If the sound is at the end it means we want to start from the start again. */ + if (ma_sound_at_end(pSound)) { + ma_result result = ma_data_source_seek_to_pcm_frame(pSound->pDataSource, 0); + if (result != MA_SUCCESS && result != MA_NOT_IMPLEMENTED) { + return result; /* Failed to seek back to the start. */ + } + + /* Make sure we clear the end indicator. */ + ma_atomic_exchange_32(&pSound->atEnd, MA_FALSE); + } + + /* Make sure the sound is started. If there's a start delay, the sound won't actually start until the start time is reached. */ + ma_node_set_state(pSound, ma_node_state_started); + + return MA_SUCCESS; +} + +MA_API ma_result ma_sound_stop(ma_sound* pSound) +{ + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + /* This will stop the sound immediately. Use ma_sound_set_stop_time() to stop the sound at a specific time. */ + ma_node_set_state(pSound, ma_node_state_stopped); + + return MA_SUCCESS; +} + +MA_API ma_result ma_sound_stop_with_fade_in_pcm_frames(ma_sound* pSound, ma_uint64 fadeLengthInFrames) +{ + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + /* Stopping with a fade out requires us to schedule the stop into the future by the fade length. */ + ma_sound_set_stop_time_with_fade_in_pcm_frames(pSound, ma_engine_get_time_in_pcm_frames(ma_sound_get_engine(pSound)) + fadeLengthInFrames, fadeLengthInFrames); + + return MA_SUCCESS; +} + +MA_API ma_result ma_sound_stop_with_fade_in_milliseconds(ma_sound* pSound, ma_uint64 fadeLengthInMilliseconds) +{ + ma_uint64 sampleRate; + + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + sampleRate = ma_engine_get_sample_rate(ma_sound_get_engine(pSound)); + + return ma_sound_stop_with_fade_in_pcm_frames(pSound, (fadeLengthInMilliseconds * sampleRate) / 1000); +} + +MA_API void ma_sound_reset_start_time(ma_sound* pSound) +{ + ma_sound_set_start_time_in_pcm_frames(pSound, 0); +} + +MA_API void ma_sound_reset_stop_time(ma_sound* pSound) +{ + ma_sound_set_stop_time_in_pcm_frames(pSound, ~(ma_uint64)0); +} + +MA_API void ma_sound_reset_fade(ma_sound* pSound) +{ + ma_sound_set_fade_in_pcm_frames(pSound, 0, 1, 0); +} + +MA_API void ma_sound_reset_stop_time_and_fade(ma_sound* pSound) +{ + ma_sound_reset_stop_time(pSound); + ma_sound_reset_fade(pSound); +} + +MA_API void ma_sound_set_volume(ma_sound* pSound, float volume) +{ + if (pSound == NULL) { + return; + } + + ma_engine_node_set_volume(&pSound->engineNode, volume); +} + +MA_API float ma_sound_get_volume(const ma_sound* pSound) +{ + float volume = 0; + + if (pSound == NULL) { + return 0; + } + + ma_engine_node_get_volume(&pSound->engineNode, &volume); + + return volume; +} + +MA_API void ma_sound_set_pan(ma_sound* pSound, float pan) +{ + if (pSound == NULL) { + return; + } + + ma_panner_set_pan(&pSound->engineNode.panner, pan); +} + +MA_API float ma_sound_get_pan(const ma_sound* pSound) +{ + if (pSound == NULL) { + return 0; + } + + return ma_panner_get_pan(&pSound->engineNode.panner); +} + +MA_API void ma_sound_set_pan_mode(ma_sound* pSound, ma_pan_mode panMode) +{ + if (pSound == NULL) { + return; + } + + ma_panner_set_mode(&pSound->engineNode.panner, panMode); +} + +MA_API ma_pan_mode ma_sound_get_pan_mode(const ma_sound* pSound) +{ + if (pSound == NULL) { + return ma_pan_mode_balance; + } + + return ma_panner_get_mode(&pSound->engineNode.panner); +} + +MA_API void ma_sound_set_pitch(ma_sound* pSound, float pitch) +{ + if (pSound == NULL) { + return; + } + + if (pitch <= 0) { + return; + } + + ma_atomic_exchange_explicit_f32(&pSound->engineNode.pitch, pitch, ma_atomic_memory_order_release); +} + +MA_API float ma_sound_get_pitch(const ma_sound* pSound) +{ + if (pSound == NULL) { + return 0; + } + + return ma_atomic_load_f32(&pSound->engineNode.pitch); /* Naughty const-cast for this. */ +} + +MA_API void ma_sound_set_spatialization_enabled(ma_sound* pSound, ma_bool32 enabled) +{ + if (pSound == NULL) { + return; + } + + ma_atomic_exchange_explicit_32(&pSound->engineNode.isSpatializationDisabled, !enabled, ma_atomic_memory_order_release); +} + +MA_API ma_bool32 ma_sound_is_spatialization_enabled(const ma_sound* pSound) +{ + if (pSound == NULL) { + return MA_FALSE; + } + + return ma_engine_node_is_spatialization_enabled(&pSound->engineNode); +} + +MA_API void ma_sound_set_pinned_listener_index(ma_sound* pSound, ma_uint32 listenerIndex) +{ + if (pSound == NULL || listenerIndex >= ma_engine_get_listener_count(ma_sound_get_engine(pSound))) { + return; + } + + ma_atomic_exchange_explicit_32(&pSound->engineNode.pinnedListenerIndex, listenerIndex, ma_atomic_memory_order_release); +} + +MA_API ma_uint32 ma_sound_get_pinned_listener_index(const ma_sound* pSound) +{ + if (pSound == NULL) { + return MA_LISTENER_INDEX_CLOSEST; + } + + return ma_atomic_load_explicit_32(&pSound->engineNode.pinnedListenerIndex, ma_atomic_memory_order_acquire); +} + +MA_API ma_uint32 ma_sound_get_listener_index(const ma_sound* pSound) +{ + ma_uint32 listenerIndex; + + if (pSound == NULL) { + return 0; + } + + listenerIndex = ma_sound_get_pinned_listener_index(pSound); + if (listenerIndex == MA_LISTENER_INDEX_CLOSEST) { + ma_vec3f position = ma_sound_get_position(pSound); + return ma_engine_find_closest_listener(ma_sound_get_engine(pSound), position.x, position.y, position.z); + } + + return listenerIndex; +} + +MA_API ma_vec3f ma_sound_get_direction_to_listener(const ma_sound* pSound) +{ + ma_vec3f relativePos; + ma_engine* pEngine; + + if (pSound == NULL) { + return ma_vec3f_init_3f(0, 0, -1); + } + + pEngine = ma_sound_get_engine(pSound); + if (pEngine == NULL) { + return ma_vec3f_init_3f(0, 0, -1); + } + + ma_spatializer_get_relative_position_and_direction(&pSound->engineNode.spatializer, &pEngine->listeners[ma_sound_get_listener_index(pSound)], &relativePos, NULL); + + return ma_vec3f_normalize(ma_vec3f_neg(relativePos)); +} + +MA_API void ma_sound_set_position(ma_sound* pSound, float x, float y, float z) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_position(&pSound->engineNode.spatializer, x, y, z); +} + +MA_API ma_vec3f ma_sound_get_position(const ma_sound* pSound) +{ + if (pSound == NULL) { + return ma_vec3f_init_3f(0, 0, 0); + } + + return ma_spatializer_get_position(&pSound->engineNode.spatializer); +} + +MA_API void ma_sound_set_direction(ma_sound* pSound, float x, float y, float z) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_direction(&pSound->engineNode.spatializer, x, y, z); +} + +MA_API ma_vec3f ma_sound_get_direction(const ma_sound* pSound) +{ + if (pSound == NULL) { + return ma_vec3f_init_3f(0, 0, 0); + } + + return ma_spatializer_get_direction(&pSound->engineNode.spatializer); +} + +MA_API void ma_sound_set_velocity(ma_sound* pSound, float x, float y, float z) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_velocity(&pSound->engineNode.spatializer, x, y, z); +} + +MA_API ma_vec3f ma_sound_get_velocity(const ma_sound* pSound) +{ + if (pSound == NULL) { + return ma_vec3f_init_3f(0, 0, 0); + } + + return ma_spatializer_get_velocity(&pSound->engineNode.spatializer); +} + +MA_API void ma_sound_set_attenuation_model(ma_sound* pSound, ma_attenuation_model attenuationModel) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_attenuation_model(&pSound->engineNode.spatializer, attenuationModel); +} + +MA_API ma_attenuation_model ma_sound_get_attenuation_model(const ma_sound* pSound) +{ + if (pSound == NULL) { + return ma_attenuation_model_none; + } + + return ma_spatializer_get_attenuation_model(&pSound->engineNode.spatializer); +} + +MA_API void ma_sound_set_positioning(ma_sound* pSound, ma_positioning positioning) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_positioning(&pSound->engineNode.spatializer, positioning); +} + +MA_API ma_positioning ma_sound_get_positioning(const ma_sound* pSound) +{ + if (pSound == NULL) { + return ma_positioning_absolute; + } + + return ma_spatializer_get_positioning(&pSound->engineNode.spatializer); +} + +MA_API void ma_sound_set_rolloff(ma_sound* pSound, float rolloff) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_rolloff(&pSound->engineNode.spatializer, rolloff); +} + +MA_API float ma_sound_get_rolloff(const ma_sound* pSound) +{ + if (pSound == NULL) { + return 0; + } + + return ma_spatializer_get_rolloff(&pSound->engineNode.spatializer); +} + +MA_API void ma_sound_set_min_gain(ma_sound* pSound, float minGain) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_min_gain(&pSound->engineNode.spatializer, minGain); +} + +MA_API float ma_sound_get_min_gain(const ma_sound* pSound) +{ + if (pSound == NULL) { + return 0; + } + + return ma_spatializer_get_min_gain(&pSound->engineNode.spatializer); +} + +MA_API void ma_sound_set_max_gain(ma_sound* pSound, float maxGain) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_max_gain(&pSound->engineNode.spatializer, maxGain); +} + +MA_API float ma_sound_get_max_gain(const ma_sound* pSound) +{ + if (pSound == NULL) { + return 0; + } + + return ma_spatializer_get_max_gain(&pSound->engineNode.spatializer); +} + +MA_API void ma_sound_set_min_distance(ma_sound* pSound, float minDistance) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_min_distance(&pSound->engineNode.spatializer, minDistance); +} + +MA_API float ma_sound_get_min_distance(const ma_sound* pSound) +{ + if (pSound == NULL) { + return 0; + } + + return ma_spatializer_get_min_distance(&pSound->engineNode.spatializer); +} + +MA_API void ma_sound_set_max_distance(ma_sound* pSound, float maxDistance) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_max_distance(&pSound->engineNode.spatializer, maxDistance); +} + +MA_API float ma_sound_get_max_distance(const ma_sound* pSound) +{ + if (pSound == NULL) { + return 0; + } + + return ma_spatializer_get_max_distance(&pSound->engineNode.spatializer); +} + +MA_API void ma_sound_set_cone(ma_sound* pSound, float innerAngleInRadians, float outerAngleInRadians, float outerGain) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_cone(&pSound->engineNode.spatializer, innerAngleInRadians, outerAngleInRadians, outerGain); +} + +MA_API void ma_sound_get_cone(const ma_sound* pSound, float* pInnerAngleInRadians, float* pOuterAngleInRadians, float* pOuterGain) +{ + if (pInnerAngleInRadians != NULL) { + *pInnerAngleInRadians = 0; + } + + if (pOuterAngleInRadians != NULL) { + *pOuterAngleInRadians = 0; + } + + if (pOuterGain != NULL) { + *pOuterGain = 0; + } + + if (pSound == NULL) { + return; + } + + ma_spatializer_get_cone(&pSound->engineNode.spatializer, pInnerAngleInRadians, pOuterAngleInRadians, pOuterGain); +} + +MA_API void ma_sound_set_doppler_factor(ma_sound* pSound, float dopplerFactor) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_doppler_factor(&pSound->engineNode.spatializer, dopplerFactor); +} + +MA_API float ma_sound_get_doppler_factor(const ma_sound* pSound) +{ + if (pSound == NULL) { + return 0; + } + + return ma_spatializer_get_doppler_factor(&pSound->engineNode.spatializer); +} + +MA_API void ma_sound_set_directional_attenuation_factor(ma_sound* pSound, float directionalAttenuationFactor) +{ + if (pSound == NULL) { + return; + } + + ma_spatializer_set_directional_attenuation_factor(&pSound->engineNode.spatializer, directionalAttenuationFactor); +} + +MA_API float ma_sound_get_directional_attenuation_factor(const ma_sound* pSound) +{ + if (pSound == NULL) { + return 1; + } + + return ma_spatializer_get_directional_attenuation_factor(&pSound->engineNode.spatializer); +} + + +MA_API void ma_sound_set_fade_in_pcm_frames(ma_sound* pSound, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInFrames) +{ + if (pSound == NULL) { + return; + } + + ma_sound_set_fade_start_in_pcm_frames(pSound, volumeBeg, volumeEnd, fadeLengthInFrames, (~(ma_uint64)0)); +} + +MA_API void ma_sound_set_fade_in_milliseconds(ma_sound* pSound, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInMilliseconds) +{ + if (pSound == NULL) { + return; + } + + ma_sound_set_fade_in_pcm_frames(pSound, volumeBeg, volumeEnd, (fadeLengthInMilliseconds * pSound->engineNode.fader.config.sampleRate) / 1000); +} + +MA_API void ma_sound_set_fade_start_in_pcm_frames(ma_sound* pSound, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInFrames, ma_uint64 absoluteGlobalTimeInFrames) +{ + if (pSound == NULL) { + return; + } + + /* + We don't want to update the fader at this point because we need to use the engine's current time + to derive the fader's start offset. The timer is being updated on the audio thread so in order to + do this as accurately as possible we'll need to defer this to the audio thread. + */ + ma_atomic_float_set(&pSound->engineNode.fadeSettings.volumeBeg, volumeBeg); + ma_atomic_float_set(&pSound->engineNode.fadeSettings.volumeEnd, volumeEnd); + ma_atomic_uint64_set(&pSound->engineNode.fadeSettings.fadeLengthInFrames, fadeLengthInFrames); + ma_atomic_uint64_set(&pSound->engineNode.fadeSettings.absoluteGlobalTimeInFrames, absoluteGlobalTimeInFrames); +} + +MA_API void ma_sound_set_fade_start_in_milliseconds(ma_sound* pSound, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInMilliseconds, ma_uint64 absoluteGlobalTimeInMilliseconds) +{ + ma_uint32 sampleRate; + + if (pSound == NULL) { + return; + } + + sampleRate = ma_engine_get_sample_rate(ma_sound_get_engine(pSound)); + + ma_sound_set_fade_start_in_pcm_frames(pSound, volumeBeg, volumeEnd, (fadeLengthInMilliseconds * sampleRate) / 1000, (absoluteGlobalTimeInMilliseconds * sampleRate) / 1000); +} + +MA_API float ma_sound_get_current_fade_volume(const ma_sound* pSound) +{ + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + return ma_fader_get_current_volume(&pSound->engineNode.fader); +} + +MA_API void ma_sound_set_start_time_in_pcm_frames(ma_sound* pSound, ma_uint64 absoluteGlobalTimeInFrames) +{ + if (pSound == NULL) { + return; + } + + ma_node_set_state_time(pSound, ma_node_state_started, absoluteGlobalTimeInFrames); +} + +MA_API void ma_sound_set_start_time_in_milliseconds(ma_sound* pSound, ma_uint64 absoluteGlobalTimeInMilliseconds) +{ + if (pSound == NULL) { + return; + } + + ma_sound_set_start_time_in_pcm_frames(pSound, absoluteGlobalTimeInMilliseconds * ma_engine_get_sample_rate(ma_sound_get_engine(pSound)) / 1000); +} + +MA_API void ma_sound_set_stop_time_in_pcm_frames(ma_sound* pSound, ma_uint64 absoluteGlobalTimeInFrames) +{ + if (pSound == NULL) { + return; + } + + ma_sound_set_stop_time_with_fade_in_pcm_frames(pSound, absoluteGlobalTimeInFrames, 0); +} + +MA_API void ma_sound_set_stop_time_in_milliseconds(ma_sound* pSound, ma_uint64 absoluteGlobalTimeInMilliseconds) +{ + if (pSound == NULL) { + return; + } + + ma_sound_set_stop_time_in_pcm_frames(pSound, absoluteGlobalTimeInMilliseconds * ma_engine_get_sample_rate(ma_sound_get_engine(pSound)) / 1000); +} + +MA_API void ma_sound_set_stop_time_with_fade_in_pcm_frames(ma_sound* pSound, ma_uint64 stopAbsoluteGlobalTimeInFrames, ma_uint64 fadeLengthInFrames) +{ + if (pSound == NULL) { + return; + } + + if (fadeLengthInFrames > 0) { + if (fadeLengthInFrames > stopAbsoluteGlobalTimeInFrames) { + fadeLengthInFrames = stopAbsoluteGlobalTimeInFrames; + } + + ma_sound_set_fade_start_in_pcm_frames(pSound, -1, 0, fadeLengthInFrames, stopAbsoluteGlobalTimeInFrames - fadeLengthInFrames); + } + + ma_node_set_state_time(pSound, ma_node_state_stopped, stopAbsoluteGlobalTimeInFrames); +} + +MA_API void ma_sound_set_stop_time_with_fade_in_milliseconds(ma_sound* pSound, ma_uint64 stopAbsoluteGlobalTimeInMilliseconds, ma_uint64 fadeLengthInMilliseconds) +{ + ma_uint32 sampleRate; + + if (pSound == NULL) { + return; + } + + sampleRate = ma_engine_get_sample_rate(ma_sound_get_engine(pSound)); + + ma_sound_set_stop_time_with_fade_in_pcm_frames(pSound, (stopAbsoluteGlobalTimeInMilliseconds * sampleRate) / 1000, (fadeLengthInMilliseconds * sampleRate) / 1000); +} + +MA_API ma_bool32 ma_sound_is_playing(const ma_sound* pSound) +{ + if (pSound == NULL) { + return MA_FALSE; + } + + return ma_node_get_state_by_time(pSound, ma_engine_get_time_in_pcm_frames(ma_sound_get_engine(pSound))) == ma_node_state_started; +} + +MA_API ma_uint64 ma_sound_get_time_in_pcm_frames(const ma_sound* pSound) +{ + if (pSound == NULL) { + return 0; + } + + return ma_node_get_time(pSound); +} + +MA_API ma_uint64 ma_sound_get_time_in_milliseconds(const ma_sound* pSound) +{ + ma_uint32 sampleRate = ma_engine_get_sample_rate(ma_sound_get_engine(pSound)); + if (sampleRate == 0) { + return 0; /* Prevent a division by zero. */ + } + + return ma_sound_get_time_in_pcm_frames(pSound) * 1000 / sampleRate; +} + +MA_API void ma_sound_set_looping(ma_sound* pSound, ma_bool32 isLooping) +{ + if (pSound == NULL) { + return; + } + + /* Looping is only a valid concept if the sound is backed by a data source. */ + if (pSound->pDataSource == NULL) { + return; + } + + /* The looping state needs to be applied to the data source in order for any looping to actually happen. */ + ma_data_source_set_looping(pSound->pDataSource, isLooping); +} + +MA_API ma_bool32 ma_sound_is_looping(const ma_sound* pSound) +{ + if (pSound == NULL) { + return MA_FALSE; + } + + /* There is no notion of looping for sounds that are not backed by a data source. */ + if (pSound->pDataSource == NULL) { + return MA_FALSE; + } + + return ma_data_source_is_looping(pSound->pDataSource); +} + +MA_API ma_bool32 ma_sound_at_end(const ma_sound* pSound) +{ + if (pSound == NULL) { + return MA_FALSE; + } + + /* There is no notion of an end of a sound if it's not backed by a data source. */ + if (pSound->pDataSource == NULL) { + return MA_FALSE; + } + + return ma_sound_get_at_end(pSound); +} + +MA_API ma_result ma_sound_seek_to_pcm_frame(ma_sound* pSound, ma_uint64 frameIndex) +{ + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + /* Seeking is only valid for sounds that are backed by a data source. */ + if (pSound->pDataSource == NULL) { + return MA_INVALID_OPERATION; + } + + /* We can't be seeking while reading at the same time. We just set the seek target and get the mixing thread to do the actual seek. */ + ma_atomic_exchange_64(&pSound->seekTarget, frameIndex); + + return MA_SUCCESS; +} + +MA_API ma_result ma_sound_seek_to_second(ma_sound* pSound, float seekPointInSeconds) +{ + ma_uint64 frameIndex; + ma_uint32 sampleRate; + ma_result result; + + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_sound_get_data_format(pSound, NULL, NULL, &sampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; + } + + /* We need PCM frames. We need to convert first */ + frameIndex = (ma_uint64)(seekPointInSeconds * sampleRate); + + return ma_sound_seek_to_pcm_frame(pSound, frameIndex); +} + +MA_API ma_result ma_sound_get_data_format(const ma_sound* pSound, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) +{ + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + /* The data format is retrieved directly from the data source if the sound is backed by one. Otherwise we pull it from the node. */ + if (pSound->pDataSource == NULL) { + ma_uint32 channels; + + if (pFormat != NULL) { + *pFormat = ma_format_f32; + } + + channels = ma_node_get_input_channels(&pSound->engineNode, 0); + if (pChannels != NULL) { + *pChannels = channels; + } + + if (pSampleRate != NULL) { + *pSampleRate = pSound->engineNode.resampler.sampleRateIn; + } + + if (pChannelMap != NULL) { + ma_channel_map_init_standard(ma_standard_channel_map_default, pChannelMap, channelMapCap, channels); + } + + return MA_SUCCESS; + } else { + return ma_data_source_get_data_format(pSound->pDataSource, pFormat, pChannels, pSampleRate, pChannelMap, channelMapCap); + } +} + +MA_API ma_result ma_sound_get_cursor_in_pcm_frames(const ma_sound* pSound, ma_uint64* pCursor) +{ + ma_uint64 seekTarget; + + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + /* The notion of a cursor is only valid for sounds that are backed by a data source. */ + if (pSound->pDataSource == NULL) { + return MA_INVALID_OPERATION; + } + + seekTarget = ma_atomic_load_64(&pSound->seekTarget); + if (seekTarget != MA_SEEK_TARGET_NONE) { + *pCursor = seekTarget; + return MA_SUCCESS; + } else { + return ma_data_source_get_cursor_in_pcm_frames(pSound->pDataSource, pCursor); + } +} + +MA_API ma_result ma_sound_get_length_in_pcm_frames(const ma_sound* pSound, ma_uint64* pLength) +{ + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + /* The notion of a sound length is only valid for sounds that are backed by a data source. */ + if (pSound->pDataSource == NULL) { + return MA_INVALID_OPERATION; + } + + return ma_data_source_get_length_in_pcm_frames(pSound->pDataSource, pLength); +} + +MA_API ma_result ma_sound_get_cursor_in_seconds(const ma_sound* pSound, float* pCursor) +{ + ma_result result; + ma_uint64 cursorInPCMFrames; + ma_uint32 sampleRate; + + if (pCursor != NULL) { + *pCursor = 0; + } + + result = ma_sound_get_cursor_in_pcm_frames(pSound, &cursorInPCMFrames); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_sound_get_data_format(pSound, NULL, NULL, &sampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; + } + + /* VC6 does not support division of unsigned 64-bit integers with floating point numbers. Need to use a signed number. This shouldn't effect anything in practice. */ + *pCursor = (ma_int64)cursorInPCMFrames / (float)sampleRate; + + return MA_SUCCESS; +} + +MA_API ma_result ma_sound_get_length_in_seconds(const ma_sound* pSound, float* pLength) +{ + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + /* The notion of a sound length is only valid for sounds that are backed by a data source. */ + if (pSound->pDataSource == NULL) { + return MA_INVALID_OPERATION; + } + + return ma_data_source_get_length_in_seconds(pSound->pDataSource, pLength); +} + +MA_API ma_result ma_sound_set_end_callback(ma_sound* pSound, ma_sound_end_proc callback, void* pUserData) +{ + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + /* The notion of an end is only valid for sounds that are backed by a data source. */ + if (pSound->pDataSource == NULL) { + return MA_INVALID_OPERATION; + } + + pSound->endCallback = callback; + pSound->pEndCallbackUserData = pUserData; + + return MA_SUCCESS; +} + + +MA_API ma_result ma_sound_group_init(ma_engine* pEngine, ma_uint32 flags, ma_sound_group* pParentGroup, ma_sound_group* pGroup) +{ + ma_sound_group_config config = ma_sound_group_config_init_2(pEngine); + config.flags = flags; + config.pInitialAttachment = pParentGroup; + return ma_sound_group_init_ex(pEngine, &config, pGroup); +} + +MA_API ma_result ma_sound_group_init_ex(ma_engine* pEngine, const ma_sound_group_config* pConfig, ma_sound_group* pGroup) +{ + ma_sound_config soundConfig; + + if (pGroup == NULL) { + return MA_INVALID_ARGS; + } + + MA_ZERO_OBJECT(pGroup); + + if (pConfig == NULL) { + return MA_INVALID_ARGS; + } + + /* A sound group is just a sound without a data source. */ + soundConfig = *pConfig; + soundConfig.pFilePath = NULL; + soundConfig.pFilePathW = NULL; + soundConfig.pDataSource = NULL; + + /* + Groups need to have spatialization disabled by default because I think it'll be pretty rare + that programs will want to spatialize groups (but not unheard of). Certainly it feels like + disabling this by default feels like the right option. Spatialization can be enabled with a + call to ma_sound_group_set_spatialization_enabled(). + */ + soundConfig.flags |= MA_SOUND_FLAG_NO_SPATIALIZATION; + + return ma_sound_init_ex(pEngine, &soundConfig, pGroup); +} + +MA_API void ma_sound_group_uninit(ma_sound_group* pGroup) +{ + ma_sound_uninit(pGroup); +} + +MA_API ma_engine* ma_sound_group_get_engine(const ma_sound_group* pGroup) +{ + return ma_sound_get_engine(pGroup); +} + +MA_API ma_result ma_sound_group_start(ma_sound_group* pGroup) +{ + return ma_sound_start(pGroup); +} + +MA_API ma_result ma_sound_group_stop(ma_sound_group* pGroup) +{ + return ma_sound_stop(pGroup); +} + +MA_API void ma_sound_group_set_volume(ma_sound_group* pGroup, float volume) +{ + ma_sound_set_volume(pGroup, volume); +} + +MA_API float ma_sound_group_get_volume(const ma_sound_group* pGroup) +{ + return ma_sound_get_volume(pGroup); +} + +MA_API void ma_sound_group_set_pan(ma_sound_group* pGroup, float pan) +{ + ma_sound_set_pan(pGroup, pan); +} + +MA_API float ma_sound_group_get_pan(const ma_sound_group* pGroup) +{ + return ma_sound_get_pan(pGroup); +} + +MA_API void ma_sound_group_set_pan_mode(ma_sound_group* pGroup, ma_pan_mode panMode) +{ + ma_sound_set_pan_mode(pGroup, panMode); +} + +MA_API ma_pan_mode ma_sound_group_get_pan_mode(const ma_sound_group* pGroup) +{ + return ma_sound_get_pan_mode(pGroup); +} + +MA_API void ma_sound_group_set_pitch(ma_sound_group* pGroup, float pitch) +{ + ma_sound_set_pitch(pGroup, pitch); +} + +MA_API float ma_sound_group_get_pitch(const ma_sound_group* pGroup) +{ + return ma_sound_get_pitch(pGroup); +} + +MA_API void ma_sound_group_set_spatialization_enabled(ma_sound_group* pGroup, ma_bool32 enabled) +{ + ma_sound_set_spatialization_enabled(pGroup, enabled); +} + +MA_API ma_bool32 ma_sound_group_is_spatialization_enabled(const ma_sound_group* pGroup) +{ + return ma_sound_is_spatialization_enabled(pGroup); +} + +MA_API void ma_sound_group_set_pinned_listener_index(ma_sound_group* pGroup, ma_uint32 listenerIndex) +{ + ma_sound_set_pinned_listener_index(pGroup, listenerIndex); +} + +MA_API ma_uint32 ma_sound_group_get_pinned_listener_index(const ma_sound_group* pGroup) +{ + return ma_sound_get_pinned_listener_index(pGroup); +} + +MA_API ma_uint32 ma_sound_group_get_listener_index(const ma_sound_group* pGroup) +{ + return ma_sound_get_listener_index(pGroup); +} + +MA_API ma_vec3f ma_sound_group_get_direction_to_listener(const ma_sound_group* pGroup) +{ + return ma_sound_get_direction_to_listener(pGroup); +} + +MA_API void ma_sound_group_set_position(ma_sound_group* pGroup, float x, float y, float z) +{ + ma_sound_set_position(pGroup, x, y, z); +} + +MA_API ma_vec3f ma_sound_group_get_position(const ma_sound_group* pGroup) +{ + return ma_sound_get_position(pGroup); +} + +MA_API void ma_sound_group_set_direction(ma_sound_group* pGroup, float x, float y, float z) +{ + ma_sound_set_direction(pGroup, x, y, z); +} + +MA_API ma_vec3f ma_sound_group_get_direction(const ma_sound_group* pGroup) +{ + return ma_sound_get_direction(pGroup); +} + +MA_API void ma_sound_group_set_velocity(ma_sound_group* pGroup, float x, float y, float z) +{ + ma_sound_set_velocity(pGroup, x, y, z); +} + +MA_API ma_vec3f ma_sound_group_get_velocity(const ma_sound_group* pGroup) +{ + return ma_sound_get_velocity(pGroup); +} + +MA_API void ma_sound_group_set_attenuation_model(ma_sound_group* pGroup, ma_attenuation_model attenuationModel) +{ + ma_sound_set_attenuation_model(pGroup, attenuationModel); +} + +MA_API ma_attenuation_model ma_sound_group_get_attenuation_model(const ma_sound_group* pGroup) +{ + return ma_sound_get_attenuation_model(pGroup); +} + +MA_API void ma_sound_group_set_positioning(ma_sound_group* pGroup, ma_positioning positioning) +{ + ma_sound_set_positioning(pGroup, positioning); +} + +MA_API ma_positioning ma_sound_group_get_positioning(const ma_sound_group* pGroup) +{ + return ma_sound_get_positioning(pGroup); +} + +MA_API void ma_sound_group_set_rolloff(ma_sound_group* pGroup, float rolloff) +{ + ma_sound_set_rolloff(pGroup, rolloff); +} + +MA_API float ma_sound_group_get_rolloff(const ma_sound_group* pGroup) +{ + return ma_sound_get_rolloff(pGroup); +} + +MA_API void ma_sound_group_set_min_gain(ma_sound_group* pGroup, float minGain) +{ + ma_sound_set_min_gain(pGroup, minGain); +} + +MA_API float ma_sound_group_get_min_gain(const ma_sound_group* pGroup) +{ + return ma_sound_get_min_gain(pGroup); +} + +MA_API void ma_sound_group_set_max_gain(ma_sound_group* pGroup, float maxGain) +{ + ma_sound_set_max_gain(pGroup, maxGain); +} + +MA_API float ma_sound_group_get_max_gain(const ma_sound_group* pGroup) +{ + return ma_sound_get_max_gain(pGroup); +} + +MA_API void ma_sound_group_set_min_distance(ma_sound_group* pGroup, float minDistance) +{ + ma_sound_set_min_distance(pGroup, minDistance); +} + +MA_API float ma_sound_group_get_min_distance(const ma_sound_group* pGroup) +{ + return ma_sound_get_min_distance(pGroup); +} + +MA_API void ma_sound_group_set_max_distance(ma_sound_group* pGroup, float maxDistance) +{ + ma_sound_set_max_distance(pGroup, maxDistance); +} + +MA_API float ma_sound_group_get_max_distance(const ma_sound_group* pGroup) +{ + return ma_sound_get_max_distance(pGroup); +} + +MA_API void ma_sound_group_set_cone(ma_sound_group* pGroup, float innerAngleInRadians, float outerAngleInRadians, float outerGain) +{ + ma_sound_set_cone(pGroup, innerAngleInRadians, outerAngleInRadians, outerGain); +} + +MA_API void ma_sound_group_get_cone(const ma_sound_group* pGroup, float* pInnerAngleInRadians, float* pOuterAngleInRadians, float* pOuterGain) +{ + ma_sound_get_cone(pGroup, pInnerAngleInRadians, pOuterAngleInRadians, pOuterGain); +} + +MA_API void ma_sound_group_set_doppler_factor(ma_sound_group* pGroup, float dopplerFactor) +{ + ma_sound_set_doppler_factor(pGroup, dopplerFactor); +} + +MA_API float ma_sound_group_get_doppler_factor(const ma_sound_group* pGroup) +{ + return ma_sound_get_doppler_factor(pGroup); +} + +MA_API void ma_sound_group_set_directional_attenuation_factor(ma_sound_group* pGroup, float directionalAttenuationFactor) +{ + ma_sound_set_directional_attenuation_factor(pGroup, directionalAttenuationFactor); +} + +MA_API float ma_sound_group_get_directional_attenuation_factor(const ma_sound_group* pGroup) +{ + return ma_sound_get_directional_attenuation_factor(pGroup); +} + +MA_API void ma_sound_group_set_fade_in_pcm_frames(ma_sound_group* pGroup, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInFrames) +{ + ma_sound_set_fade_in_pcm_frames(pGroup, volumeBeg, volumeEnd, fadeLengthInFrames); +} + +MA_API void ma_sound_group_set_fade_in_milliseconds(ma_sound_group* pGroup, float volumeBeg, float volumeEnd, ma_uint64 fadeLengthInMilliseconds) +{ + ma_sound_set_fade_in_milliseconds(pGroup, volumeBeg, volumeEnd, fadeLengthInMilliseconds); +} + +MA_API float ma_sound_group_get_current_fade_volume(ma_sound_group* pGroup) +{ + return ma_sound_get_current_fade_volume(pGroup); +} + +MA_API void ma_sound_group_set_start_time_in_pcm_frames(ma_sound_group* pGroup, ma_uint64 absoluteGlobalTimeInFrames) +{ + ma_sound_set_start_time_in_pcm_frames(pGroup, absoluteGlobalTimeInFrames); +} + +MA_API void ma_sound_group_set_start_time_in_milliseconds(ma_sound_group* pGroup, ma_uint64 absoluteGlobalTimeInMilliseconds) +{ + ma_sound_set_start_time_in_milliseconds(pGroup, absoluteGlobalTimeInMilliseconds); +} + +MA_API void ma_sound_group_set_stop_time_in_pcm_frames(ma_sound_group* pGroup, ma_uint64 absoluteGlobalTimeInFrames) +{ + ma_sound_set_stop_time_in_pcm_frames(pGroup, absoluteGlobalTimeInFrames); +} + +MA_API void ma_sound_group_set_stop_time_in_milliseconds(ma_sound_group* pGroup, ma_uint64 absoluteGlobalTimeInMilliseconds) +{ + ma_sound_set_stop_time_in_milliseconds(pGroup, absoluteGlobalTimeInMilliseconds); +} + +MA_API ma_bool32 ma_sound_group_is_playing(const ma_sound_group* pGroup) +{ + return ma_sound_is_playing(pGroup); +} + +MA_API ma_uint64 ma_sound_group_get_time_in_pcm_frames(const ma_sound_group* pGroup) +{ + return ma_sound_get_time_in_pcm_frames(pGroup); +} +#endif /* MA_NO_ENGINE */ +/* END SECTION: miniaudio_engine.c */ + + + +/************************************************************************************************************************************************************** +*************************************************************************************************************************************************************** + +Auto Generated +============== +All code below is auto-generated from a tool. This mostly consists of decoding backend implementations such as ma_dr_wav, ma_dr_flac, etc. If you find a bug in the +code below please report the bug to the respective repository for the relevant project (probably dr_libs). + +*************************************************************************************************************************************************************** +**************************************************************************************************************************************************************/ +#if !defined(MA_NO_WAV) && (!defined(MA_NO_DECODING) || !defined(MA_NO_ENCODING)) +#if !defined(MA_DR_WAV_IMPLEMENTATION) +/* dr_wav_c begin */ +#ifndef ma_dr_wav_c +#define ma_dr_wav_c +#ifdef __MRC__ +#pragma options opt off +#endif +#include +#include +#include +#ifndef MA_DR_WAV_NO_STDIO +#include +#ifndef MA_DR_WAV_NO_WCHAR +#include +#endif +#endif +#ifndef MA_DR_WAV_ASSERT +#include +#define MA_DR_WAV_ASSERT(expression) assert(expression) +#endif +#ifndef MA_DR_WAV_MALLOC +#define MA_DR_WAV_MALLOC(sz) malloc((sz)) +#endif +#ifndef MA_DR_WAV_REALLOC +#define MA_DR_WAV_REALLOC(p, sz) realloc((p), (sz)) +#endif +#ifndef MA_DR_WAV_FREE +#define MA_DR_WAV_FREE(p) free((p)) +#endif +#ifndef MA_DR_WAV_COPY_MEMORY +#define MA_DR_WAV_COPY_MEMORY(dst, src, sz) memcpy((dst), (src), (sz)) +#endif +#ifndef MA_DR_WAV_ZERO_MEMORY +#define MA_DR_WAV_ZERO_MEMORY(p, sz) memset((p), 0, (sz)) +#endif +#ifndef MA_DR_WAV_ZERO_OBJECT +#define MA_DR_WAV_ZERO_OBJECT(p) MA_DR_WAV_ZERO_MEMORY((p), sizeof(*p)) +#endif +#define ma_dr_wav_countof(x) (sizeof(x) / sizeof(x[0])) +#define ma_dr_wav_align(x, a) ((((x) + (a) - 1) / (a)) * (a)) +#define ma_dr_wav_min(a, b) (((a) < (b)) ? (a) : (b)) +#define ma_dr_wav_max(a, b) (((a) > (b)) ? (a) : (b)) +#define ma_dr_wav_clamp(x, lo, hi) (ma_dr_wav_max((lo), ma_dr_wav_min((hi), (x)))) +#define ma_dr_wav_offset_ptr(p, offset) (((ma_uint8*)(p)) + (offset)) +#define MA_DR_WAV_MAX_SIMD_VECTOR_SIZE 32 +#define MA_DR_WAV_INT64_MIN ((ma_int64) ((ma_uint64)0x80000000 << 32)) +#define MA_DR_WAV_INT64_MAX ((ma_int64)(((ma_uint64)0x7FFFFFFF << 32) | 0xFFFFFFFF)) +#if defined(_MSC_VER) && _MSC_VER >= 1400 + #define MA_DR_WAV_HAS_BYTESWAP16_INTRINSIC + #define MA_DR_WAV_HAS_BYTESWAP32_INTRINSIC + #define MA_DR_WAV_HAS_BYTESWAP64_INTRINSIC +#elif defined(__clang__) + #if defined(__has_builtin) + #if __has_builtin(__builtin_bswap16) + #define MA_DR_WAV_HAS_BYTESWAP16_INTRINSIC + #endif + #if __has_builtin(__builtin_bswap32) + #define MA_DR_WAV_HAS_BYTESWAP32_INTRINSIC + #endif + #if __has_builtin(__builtin_bswap64) + #define MA_DR_WAV_HAS_BYTESWAP64_INTRINSIC + #endif + #endif +#elif defined(__GNUC__) + #if ((__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 3)) + #define MA_DR_WAV_HAS_BYTESWAP32_INTRINSIC + #define MA_DR_WAV_HAS_BYTESWAP64_INTRINSIC + #endif + #if ((__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)) + #define MA_DR_WAV_HAS_BYTESWAP16_INTRINSIC + #endif +#endif +MA_API void ma_dr_wav_version(ma_uint32* pMajor, ma_uint32* pMinor, ma_uint32* pRevision) +{ + if (pMajor) { + *pMajor = MA_DR_WAV_VERSION_MAJOR; + } + if (pMinor) { + *pMinor = MA_DR_WAV_VERSION_MINOR; + } + if (pRevision) { + *pRevision = MA_DR_WAV_VERSION_REVISION; + } +} +MA_API const char* ma_dr_wav_version_string(void) +{ + return MA_DR_WAV_VERSION_STRING; +} +#ifndef MA_DR_WAV_MAX_SAMPLE_RATE +#define MA_DR_WAV_MAX_SAMPLE_RATE 384000 +#endif +#ifndef MA_DR_WAV_MAX_CHANNELS +#define MA_DR_WAV_MAX_CHANNELS 256 +#endif +#ifndef MA_DR_WAV_MAX_BITS_PER_SAMPLE +#define MA_DR_WAV_MAX_BITS_PER_SAMPLE 64 +#endif +static const ma_uint8 ma_dr_wavGUID_W64_RIFF[16] = {0x72,0x69,0x66,0x66, 0x2E,0x91, 0xCF,0x11, 0xA5,0xD6, 0x28,0xDB,0x04,0xC1,0x00,0x00}; +static const ma_uint8 ma_dr_wavGUID_W64_WAVE[16] = {0x77,0x61,0x76,0x65, 0xF3,0xAC, 0xD3,0x11, 0x8C,0xD1, 0x00,0xC0,0x4F,0x8E,0xDB,0x8A}; +static const ma_uint8 ma_dr_wavGUID_W64_FMT [16] = {0x66,0x6D,0x74,0x20, 0xF3,0xAC, 0xD3,0x11, 0x8C,0xD1, 0x00,0xC0,0x4F,0x8E,0xDB,0x8A}; +static const ma_uint8 ma_dr_wavGUID_W64_FACT[16] = {0x66,0x61,0x63,0x74, 0xF3,0xAC, 0xD3,0x11, 0x8C,0xD1, 0x00,0xC0,0x4F,0x8E,0xDB,0x8A}; +static const ma_uint8 ma_dr_wavGUID_W64_DATA[16] = {0x64,0x61,0x74,0x61, 0xF3,0xAC, 0xD3,0x11, 0x8C,0xD1, 0x00,0xC0,0x4F,0x8E,0xDB,0x8A}; +static MA_INLINE int ma_dr_wav__is_little_endian(void) +{ +#if defined(MA_X86) || defined(MA_X64) + return MA_TRUE; +#elif defined(__BYTE_ORDER) && defined(__LITTLE_ENDIAN) && __BYTE_ORDER == __LITTLE_ENDIAN + return MA_TRUE; +#else + int n = 1; + return (*(char*)&n) == 1; +#endif +} +static MA_INLINE void ma_dr_wav_bytes_to_guid(const ma_uint8* data, ma_uint8* guid) +{ + int i; + for (i = 0; i < 16; ++i) { + guid[i] = data[i]; + } +} +static MA_INLINE ma_uint16 ma_dr_wav__bswap16(ma_uint16 n) +{ +#ifdef MA_DR_WAV_HAS_BYTESWAP16_INTRINSIC + #if defined(_MSC_VER) + return _byteswap_ushort(n); + #elif defined(__GNUC__) || defined(__clang__) + return __builtin_bswap16(n); + #else + #error "This compiler does not support the byte swap intrinsic." + #endif +#else + return ((n & 0xFF00) >> 8) | + ((n & 0x00FF) << 8); +#endif +} +static MA_INLINE ma_uint32 ma_dr_wav__bswap32(ma_uint32 n) +{ +#ifdef MA_DR_WAV_HAS_BYTESWAP32_INTRINSIC + #if defined(_MSC_VER) + return _byteswap_ulong(n); + #elif defined(__GNUC__) || defined(__clang__) + #if defined(MA_ARM) && (defined(__ARM_ARCH) && __ARM_ARCH >= 6) && !defined(MA_64BIT) + ma_uint32 r; + __asm__ __volatile__ ( + #if defined(MA_64BIT) + "rev %w[out], %w[in]" : [out]"=r"(r) : [in]"r"(n) + #else + "rev %[out], %[in]" : [out]"=r"(r) : [in]"r"(n) + #endif + ); + return r; + #else + return __builtin_bswap32(n); + #endif + #else + #error "This compiler does not support the byte swap intrinsic." + #endif +#else + return ((n & 0xFF000000) >> 24) | + ((n & 0x00FF0000) >> 8) | + ((n & 0x0000FF00) << 8) | + ((n & 0x000000FF) << 24); +#endif +} +static MA_INLINE ma_uint64 ma_dr_wav__bswap64(ma_uint64 n) +{ +#ifdef MA_DR_WAV_HAS_BYTESWAP64_INTRINSIC + #if defined(_MSC_VER) + return _byteswap_uint64(n); + #elif defined(__GNUC__) || defined(__clang__) + return __builtin_bswap64(n); + #else + #error "This compiler does not support the byte swap intrinsic." + #endif +#else + return ((n & ((ma_uint64)0xFF000000 << 32)) >> 56) | + ((n & ((ma_uint64)0x00FF0000 << 32)) >> 40) | + ((n & ((ma_uint64)0x0000FF00 << 32)) >> 24) | + ((n & ((ma_uint64)0x000000FF << 32)) >> 8) | + ((n & ((ma_uint64)0xFF000000 )) << 8) | + ((n & ((ma_uint64)0x00FF0000 )) << 24) | + ((n & ((ma_uint64)0x0000FF00 )) << 40) | + ((n & ((ma_uint64)0x000000FF )) << 56); +#endif +} +static MA_INLINE ma_int16 ma_dr_wav__bswap_s16(ma_int16 n) +{ + return (ma_int16)ma_dr_wav__bswap16((ma_uint16)n); +} +static MA_INLINE void ma_dr_wav__bswap_samples_s16(ma_int16* pSamples, ma_uint64 sampleCount) +{ + ma_uint64 iSample; + for (iSample = 0; iSample < sampleCount; iSample += 1) { + pSamples[iSample] = ma_dr_wav__bswap_s16(pSamples[iSample]); + } +} +static MA_INLINE void ma_dr_wav__bswap_s24(ma_uint8* p) +{ + ma_uint8 t; + t = p[0]; + p[0] = p[2]; + p[2] = t; +} +static MA_INLINE void ma_dr_wav__bswap_samples_s24(ma_uint8* pSamples, ma_uint64 sampleCount) +{ + ma_uint64 iSample; + for (iSample = 0; iSample < sampleCount; iSample += 1) { + ma_uint8* pSample = pSamples + (iSample*3); + ma_dr_wav__bswap_s24(pSample); + } +} +static MA_INLINE ma_int32 ma_dr_wav__bswap_s32(ma_int32 n) +{ + return (ma_int32)ma_dr_wav__bswap32((ma_uint32)n); +} +static MA_INLINE void ma_dr_wav__bswap_samples_s32(ma_int32* pSamples, ma_uint64 sampleCount) +{ + ma_uint64 iSample; + for (iSample = 0; iSample < sampleCount; iSample += 1) { + pSamples[iSample] = ma_dr_wav__bswap_s32(pSamples[iSample]); + } +} +static MA_INLINE ma_int64 ma_dr_wav__bswap_s64(ma_int64 n) +{ + return (ma_int64)ma_dr_wav__bswap64((ma_uint64)n); +} +static MA_INLINE void ma_dr_wav__bswap_samples_s64(ma_int64* pSamples, ma_uint64 sampleCount) +{ + ma_uint64 iSample; + for (iSample = 0; iSample < sampleCount; iSample += 1) { + pSamples[iSample] = ma_dr_wav__bswap_s64(pSamples[iSample]); + } +} +static MA_INLINE float ma_dr_wav__bswap_f32(float n) +{ + union { + ma_uint32 i; + float f; + } x; + x.f = n; + x.i = ma_dr_wav__bswap32(x.i); + return x.f; +} +static MA_INLINE void ma_dr_wav__bswap_samples_f32(float* pSamples, ma_uint64 sampleCount) +{ + ma_uint64 iSample; + for (iSample = 0; iSample < sampleCount; iSample += 1) { + pSamples[iSample] = ma_dr_wav__bswap_f32(pSamples[iSample]); + } +} +static MA_INLINE void ma_dr_wav__bswap_samples(void* pSamples, ma_uint64 sampleCount, ma_uint32 bytesPerSample) +{ + switch (bytesPerSample) + { + case 1: + { + } break; + case 2: + { + ma_dr_wav__bswap_samples_s16((ma_int16*)pSamples, sampleCount); + } break; + case 3: + { + ma_dr_wav__bswap_samples_s24((ma_uint8*)pSamples, sampleCount); + } break; + case 4: + { + ma_dr_wav__bswap_samples_s32((ma_int32*)pSamples, sampleCount); + } break; + case 8: + { + ma_dr_wav__bswap_samples_s64((ma_int64*)pSamples, sampleCount); + } break; + default: + { + MA_DR_WAV_ASSERT(MA_FALSE); + } break; + } +} +MA_PRIVATE MA_INLINE ma_bool32 ma_dr_wav_is_container_be(ma_dr_wav_container container) +{ + if (container == ma_dr_wav_container_rifx || container == ma_dr_wav_container_aiff) { + return MA_TRUE; + } else { + return MA_FALSE; + } +} +MA_PRIVATE MA_INLINE ma_uint16 ma_dr_wav_bytes_to_u16_le(const ma_uint8* data) +{ + return ((ma_uint16)data[0] << 0) | ((ma_uint16)data[1] << 8); +} +MA_PRIVATE MA_INLINE ma_uint16 ma_dr_wav_bytes_to_u16_be(const ma_uint8* data) +{ + return ((ma_uint16)data[1] << 0) | ((ma_uint16)data[0] << 8); +} +MA_PRIVATE MA_INLINE ma_uint16 ma_dr_wav_bytes_to_u16_ex(const ma_uint8* data, ma_dr_wav_container container) +{ + if (ma_dr_wav_is_container_be(container)) { + return ma_dr_wav_bytes_to_u16_be(data); + } else { + return ma_dr_wav_bytes_to_u16_le(data); + } +} +MA_PRIVATE MA_INLINE ma_uint32 ma_dr_wav_bytes_to_u32_le(const ma_uint8* data) +{ + return ((ma_uint32)data[0] << 0) | ((ma_uint32)data[1] << 8) | ((ma_uint32)data[2] << 16) | ((ma_uint32)data[3] << 24); +} +MA_PRIVATE MA_INLINE ma_uint32 ma_dr_wav_bytes_to_u32_be(const ma_uint8* data) +{ + return ((ma_uint32)data[3] << 0) | ((ma_uint32)data[2] << 8) | ((ma_uint32)data[1] << 16) | ((ma_uint32)data[0] << 24); +} +MA_PRIVATE MA_INLINE ma_uint32 ma_dr_wav_bytes_to_u32_ex(const ma_uint8* data, ma_dr_wav_container container) +{ + if (ma_dr_wav_is_container_be(container)) { + return ma_dr_wav_bytes_to_u32_be(data); + } else { + return ma_dr_wav_bytes_to_u32_le(data); + } +} +MA_PRIVATE ma_int64 ma_dr_wav_aiff_extented_to_s64(const ma_uint8* data) +{ + ma_uint32 exponent = ((ma_uint32)data[0] << 8) | data[1]; + ma_uint64 hi = ((ma_uint64)data[2] << 24) | ((ma_uint64)data[3] << 16) | ((ma_uint64)data[4] << 8) | ((ma_uint64)data[5] << 0); + ma_uint64 lo = ((ma_uint64)data[6] << 24) | ((ma_uint64)data[7] << 16) | ((ma_uint64)data[8] << 8) | ((ma_uint64)data[9] << 0); + ma_uint64 significand = (hi << 32) | lo; + int sign = exponent >> 15; + exponent &= 0x7FFF; + if (exponent == 0 && significand == 0) { + return 0; + } else if (exponent == 0x7FFF) { + return sign ? MA_DR_WAV_INT64_MIN : MA_DR_WAV_INT64_MAX; + } + exponent -= 16383; + if (exponent > 63) { + return sign ? MA_DR_WAV_INT64_MIN : MA_DR_WAV_INT64_MAX; + } else if (exponent < 1) { + return 0; + } + significand >>= (63 - exponent); + if (sign) { + return -(ma_int64)significand; + } else { + return (ma_int64)significand; + } +} +MA_PRIVATE void* ma_dr_wav__malloc_default(size_t sz, void* pUserData) +{ + (void)pUserData; + return MA_DR_WAV_MALLOC(sz); +} +MA_PRIVATE void* ma_dr_wav__realloc_default(void* p, size_t sz, void* pUserData) +{ + (void)pUserData; + return MA_DR_WAV_REALLOC(p, sz); +} +MA_PRIVATE void ma_dr_wav__free_default(void* p, void* pUserData) +{ + (void)pUserData; + MA_DR_WAV_FREE(p); +} +MA_PRIVATE void* ma_dr_wav__malloc_from_callbacks(size_t sz, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks == NULL) { + return NULL; + } + if (pAllocationCallbacks->onMalloc != NULL) { + return pAllocationCallbacks->onMalloc(sz, pAllocationCallbacks->pUserData); + } + if (pAllocationCallbacks->onRealloc != NULL) { + return pAllocationCallbacks->onRealloc(NULL, sz, pAllocationCallbacks->pUserData); + } + return NULL; +} +MA_PRIVATE void* ma_dr_wav__realloc_from_callbacks(void* p, size_t szNew, size_t szOld, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks == NULL) { + return NULL; + } + if (pAllocationCallbacks->onRealloc != NULL) { + return pAllocationCallbacks->onRealloc(p, szNew, pAllocationCallbacks->pUserData); + } + if (pAllocationCallbacks->onMalloc != NULL && pAllocationCallbacks->onFree != NULL) { + void* p2; + p2 = pAllocationCallbacks->onMalloc(szNew, pAllocationCallbacks->pUserData); + if (p2 == NULL) { + return NULL; + } + if (p != NULL) { + MA_DR_WAV_COPY_MEMORY(p2, p, szOld); + pAllocationCallbacks->onFree(p, pAllocationCallbacks->pUserData); + } + return p2; + } + return NULL; +} +MA_PRIVATE void ma_dr_wav__free_from_callbacks(void* p, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (p == NULL || pAllocationCallbacks == NULL) { + return; + } + if (pAllocationCallbacks->onFree != NULL) { + pAllocationCallbacks->onFree(p, pAllocationCallbacks->pUserData); + } +} +MA_PRIVATE ma_allocation_callbacks ma_dr_wav_copy_allocation_callbacks_or_defaults(const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks != NULL) { + return *pAllocationCallbacks; + } else { + ma_allocation_callbacks allocationCallbacks; + allocationCallbacks.pUserData = NULL; + allocationCallbacks.onMalloc = ma_dr_wav__malloc_default; + allocationCallbacks.onRealloc = ma_dr_wav__realloc_default; + allocationCallbacks.onFree = ma_dr_wav__free_default; + return allocationCallbacks; + } +} +static MA_INLINE ma_bool32 ma_dr_wav__is_compressed_format_tag(ma_uint16 formatTag) +{ + return + formatTag == MA_DR_WAVE_FORMAT_ADPCM || + formatTag == MA_DR_WAVE_FORMAT_DVI_ADPCM; +} +MA_PRIVATE unsigned int ma_dr_wav__chunk_padding_size_riff(ma_uint64 chunkSize) +{ + return (unsigned int)(chunkSize % 2); +} +MA_PRIVATE unsigned int ma_dr_wav__chunk_padding_size_w64(ma_uint64 chunkSize) +{ + return (unsigned int)(chunkSize % 8); +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__msadpcm(ma_dr_wav* pWav, ma_uint64 samplesToRead, ma_int16* pBufferOut); +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__ima(ma_dr_wav* pWav, ma_uint64 samplesToRead, ma_int16* pBufferOut); +MA_PRIVATE ma_bool32 ma_dr_wav_init_write__internal(ma_dr_wav* pWav, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount); +MA_PRIVATE ma_result ma_dr_wav__read_chunk_header(ma_dr_wav_read_proc onRead, void* pUserData, ma_dr_wav_container container, ma_uint64* pRunningBytesReadOut, ma_dr_wav_chunk_header* pHeaderOut) +{ + if (container == ma_dr_wav_container_riff || container == ma_dr_wav_container_rifx || container == ma_dr_wav_container_rf64 || container == ma_dr_wav_container_aiff) { + ma_uint8 sizeInBytes[4]; + if (onRead(pUserData, pHeaderOut->id.fourcc, 4) != 4) { + return MA_AT_END; + } + if (onRead(pUserData, sizeInBytes, 4) != 4) { + return MA_INVALID_FILE; + } + pHeaderOut->sizeInBytes = ma_dr_wav_bytes_to_u32_ex(sizeInBytes, container); + pHeaderOut->paddingSize = ma_dr_wav__chunk_padding_size_riff(pHeaderOut->sizeInBytes); + *pRunningBytesReadOut += 8; + } else if (container == ma_dr_wav_container_w64) { + ma_uint8 sizeInBytes[8]; + if (onRead(pUserData, pHeaderOut->id.guid, 16) != 16) { + return MA_AT_END; + } + if (onRead(pUserData, sizeInBytes, 8) != 8) { + return MA_INVALID_FILE; + } + pHeaderOut->sizeInBytes = ma_dr_wav_bytes_to_u64(sizeInBytes) - 24; + pHeaderOut->paddingSize = ma_dr_wav__chunk_padding_size_w64(pHeaderOut->sizeInBytes); + *pRunningBytesReadOut += 24; + } else { + return MA_INVALID_FILE; + } + return MA_SUCCESS; +} +MA_PRIVATE ma_bool32 ma_dr_wav__seek_forward(ma_dr_wav_seek_proc onSeek, ma_uint64 offset, void* pUserData) +{ + ma_uint64 bytesRemainingToSeek = offset; + while (bytesRemainingToSeek > 0) { + if (bytesRemainingToSeek > 0x7FFFFFFF) { + if (!onSeek(pUserData, 0x7FFFFFFF, MA_DR_WAV_SEEK_CUR)) { + return MA_FALSE; + } + bytesRemainingToSeek -= 0x7FFFFFFF; + } else { + if (!onSeek(pUserData, (int)bytesRemainingToSeek, MA_DR_WAV_SEEK_CUR)) { + return MA_FALSE; + } + bytesRemainingToSeek = 0; + } + } + return MA_TRUE; +} +MA_PRIVATE ma_bool32 ma_dr_wav__seek_from_start(ma_dr_wav_seek_proc onSeek, ma_uint64 offset, void* pUserData) +{ + if (offset <= 0x7FFFFFFF) { + return onSeek(pUserData, (int)offset, MA_DR_WAV_SEEK_SET); + } + if (!onSeek(pUserData, 0x7FFFFFFF, MA_DR_WAV_SEEK_SET)) { + return MA_FALSE; + } + offset -= 0x7FFFFFFF; + for (;;) { + if (offset <= 0x7FFFFFFF) { + return onSeek(pUserData, (int)offset, MA_DR_WAV_SEEK_CUR); + } + if (!onSeek(pUserData, 0x7FFFFFFF, MA_DR_WAV_SEEK_CUR)) { + return MA_FALSE; + } + offset -= 0x7FFFFFFF; + } +} +MA_PRIVATE size_t ma_dr_wav__on_read(ma_dr_wav_read_proc onRead, void* pUserData, void* pBufferOut, size_t bytesToRead, ma_uint64* pCursor) +{ + size_t bytesRead; + MA_DR_WAV_ASSERT(onRead != NULL); + MA_DR_WAV_ASSERT(pCursor != NULL); + bytesRead = onRead(pUserData, pBufferOut, bytesToRead); + *pCursor += bytesRead; + return bytesRead; +} +#if 0 +MA_PRIVATE ma_bool32 ma_dr_wav__on_seek(ma_dr_wav_seek_proc onSeek, void* pUserData, int offset, ma_dr_wav_seek_origin origin, ma_uint64* pCursor) +{ + MA_DR_WAV_ASSERT(onSeek != NULL); + MA_DR_WAV_ASSERT(pCursor != NULL); + if (!onSeek(pUserData, offset, origin)) { + return MA_FALSE; + } + if (origin == MA_DR_WAV_SEEK_SET) { + *pCursor = offset; + } else { + *pCursor += offset; + } + return MA_TRUE; +} +#endif +#define MA_DR_WAV_SMPL_BYTES 36 +#define MA_DR_WAV_SMPL_LOOP_BYTES 24 +#define MA_DR_WAV_INST_BYTES 7 +#define MA_DR_WAV_ACID_BYTES 24 +#define MA_DR_WAV_CUE_BYTES 4 +#define MA_DR_WAV_BEXT_BYTES 602 +#define MA_DR_WAV_BEXT_DESCRIPTION_BYTES 256 +#define MA_DR_WAV_BEXT_ORIGINATOR_NAME_BYTES 32 +#define MA_DR_WAV_BEXT_ORIGINATOR_REF_BYTES 32 +#define MA_DR_WAV_BEXT_RESERVED_BYTES 180 +#define MA_DR_WAV_BEXT_UMID_BYTES 64 +#define MA_DR_WAV_CUE_POINT_BYTES 24 +#define MA_DR_WAV_LIST_LABEL_OR_NOTE_BYTES 4 +#define MA_DR_WAV_LIST_LABELLED_TEXT_BYTES 20 +#define MA_DR_WAV_METADATA_ALIGNMENT 8 +typedef enum +{ + ma_dr_wav__metadata_parser_stage_count, + ma_dr_wav__metadata_parser_stage_read +} ma_dr_wav__metadata_parser_stage; +typedef struct +{ + ma_dr_wav_read_proc onRead; + ma_dr_wav_seek_proc onSeek; + void *pReadSeekUserData; + ma_dr_wav__metadata_parser_stage stage; + ma_dr_wav_metadata *pMetadata; + ma_uint32 metadataCount; + ma_uint8 *pData; + ma_uint8 *pDataCursor; + ma_uint64 metadataCursor; + ma_uint64 extraCapacity; +} ma_dr_wav__metadata_parser; +MA_PRIVATE size_t ma_dr_wav__metadata_memory_capacity(ma_dr_wav__metadata_parser* pParser) +{ + ma_uint64 cap = sizeof(ma_dr_wav_metadata) * (ma_uint64)pParser->metadataCount + pParser->extraCapacity; + if (cap > MA_SIZE_MAX) { + return 0; + } + return (size_t)cap; +} +MA_PRIVATE ma_uint8* ma_dr_wav__metadata_get_memory(ma_dr_wav__metadata_parser* pParser, size_t size, size_t align) +{ + ma_uint8* pResult; + if (align) { + ma_uintptr modulo = (ma_uintptr)pParser->pDataCursor % align; + if (modulo != 0) { + pParser->pDataCursor += align - modulo; + } + } + pResult = pParser->pDataCursor; + MA_DR_WAV_ASSERT((pResult + size) <= (pParser->pData + ma_dr_wav__metadata_memory_capacity(pParser))); + pParser->pDataCursor += size; + return pResult; +} +MA_PRIVATE void ma_dr_wav__metadata_request_extra_memory_for_stage_2(ma_dr_wav__metadata_parser* pParser, size_t bytes, size_t align) +{ + size_t extra = bytes + (align ? (align - 1) : 0); + pParser->extraCapacity += extra; +} +MA_PRIVATE ma_result ma_dr_wav__metadata_alloc(ma_dr_wav__metadata_parser* pParser, ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pParser->extraCapacity != 0 || pParser->metadataCount != 0) { + pAllocationCallbacks->onFree(pParser->pData, pAllocationCallbacks->pUserData); + pParser->pData = (ma_uint8*)pAllocationCallbacks->onMalloc(ma_dr_wav__metadata_memory_capacity(pParser), pAllocationCallbacks->pUserData); + pParser->pDataCursor = pParser->pData; + if (pParser->pData == NULL) { + return MA_OUT_OF_MEMORY; + } + pParser->pMetadata = (ma_dr_wav_metadata*)ma_dr_wav__metadata_get_memory(pParser, sizeof(ma_dr_wav_metadata) * pParser->metadataCount, 1); + pParser->metadataCursor = 0; + } + return MA_SUCCESS; +} +MA_PRIVATE size_t ma_dr_wav__metadata_parser_read(ma_dr_wav__metadata_parser* pParser, void* pBufferOut, size_t bytesToRead, ma_uint64* pCursor) +{ + if (pCursor != NULL) { + return ma_dr_wav__on_read(pParser->onRead, pParser->pReadSeekUserData, pBufferOut, bytesToRead, pCursor); + } else { + return pParser->onRead(pParser->pReadSeekUserData, pBufferOut, bytesToRead); + } +} +MA_PRIVATE ma_uint64 ma_dr_wav__read_smpl_to_metadata_obj(ma_dr_wav__metadata_parser* pParser, const ma_dr_wav_chunk_header* pChunkHeader, ma_dr_wav_metadata* pMetadata) +{ + ma_uint8 smplHeaderData[MA_DR_WAV_SMPL_BYTES]; + ma_uint64 totalBytesRead = 0; + size_t bytesJustRead; + if (pMetadata == NULL) { + return 0; + } + bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, smplHeaderData, sizeof(smplHeaderData), &totalBytesRead); + MA_DR_WAV_ASSERT(pParser->stage == ma_dr_wav__metadata_parser_stage_read); + MA_DR_WAV_ASSERT(pChunkHeader != NULL); + if (pMetadata != NULL && bytesJustRead == sizeof(smplHeaderData)) { + ma_uint32 iSampleLoop; + pMetadata->type = ma_dr_wav_metadata_type_smpl; + pMetadata->data.smpl.manufacturerId = ma_dr_wav_bytes_to_u32(smplHeaderData + 0); + pMetadata->data.smpl.productId = ma_dr_wav_bytes_to_u32(smplHeaderData + 4); + pMetadata->data.smpl.samplePeriodNanoseconds = ma_dr_wav_bytes_to_u32(smplHeaderData + 8); + pMetadata->data.smpl.midiUnityNote = ma_dr_wav_bytes_to_u32(smplHeaderData + 12); + pMetadata->data.smpl.midiPitchFraction = ma_dr_wav_bytes_to_u32(smplHeaderData + 16); + pMetadata->data.smpl.smpteFormat = ma_dr_wav_bytes_to_u32(smplHeaderData + 20); + pMetadata->data.smpl.smpteOffset = ma_dr_wav_bytes_to_u32(smplHeaderData + 24); + pMetadata->data.smpl.sampleLoopCount = ma_dr_wav_bytes_to_u32(smplHeaderData + 28); + pMetadata->data.smpl.samplerSpecificDataSizeInBytes = ma_dr_wav_bytes_to_u32(smplHeaderData + 32); + if (pMetadata->data.smpl.sampleLoopCount == (pChunkHeader->sizeInBytes - MA_DR_WAV_SMPL_BYTES) / MA_DR_WAV_SMPL_LOOP_BYTES) { + pMetadata->data.smpl.pLoops = (ma_dr_wav_smpl_loop*)ma_dr_wav__metadata_get_memory(pParser, sizeof(ma_dr_wav_smpl_loop) * pMetadata->data.smpl.sampleLoopCount, MA_DR_WAV_METADATA_ALIGNMENT); + for (iSampleLoop = 0; iSampleLoop < pMetadata->data.smpl.sampleLoopCount; ++iSampleLoop) { + ma_uint8 smplLoopData[MA_DR_WAV_SMPL_LOOP_BYTES]; + bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, smplLoopData, sizeof(smplLoopData), &totalBytesRead); + if (bytesJustRead == sizeof(smplLoopData)) { + pMetadata->data.smpl.pLoops[iSampleLoop].cuePointId = ma_dr_wav_bytes_to_u32(smplLoopData + 0); + pMetadata->data.smpl.pLoops[iSampleLoop].type = ma_dr_wav_bytes_to_u32(smplLoopData + 4); + pMetadata->data.smpl.pLoops[iSampleLoop].firstSampleOffset = ma_dr_wav_bytes_to_u32(smplLoopData + 8); + pMetadata->data.smpl.pLoops[iSampleLoop].lastSampleOffset = ma_dr_wav_bytes_to_u32(smplLoopData + 12); + pMetadata->data.smpl.pLoops[iSampleLoop].sampleFraction = ma_dr_wav_bytes_to_u32(smplLoopData + 16); + pMetadata->data.smpl.pLoops[iSampleLoop].playCount = ma_dr_wav_bytes_to_u32(smplLoopData + 20); + } else { + break; + } + } + if (pMetadata->data.smpl.samplerSpecificDataSizeInBytes > 0) { + pMetadata->data.smpl.pSamplerSpecificData = ma_dr_wav__metadata_get_memory(pParser, pMetadata->data.smpl.samplerSpecificDataSizeInBytes, 1); + MA_DR_WAV_ASSERT(pMetadata->data.smpl.pSamplerSpecificData != NULL); + ma_dr_wav__metadata_parser_read(pParser, pMetadata->data.smpl.pSamplerSpecificData, pMetadata->data.smpl.samplerSpecificDataSizeInBytes, &totalBytesRead); + } + } + } + return totalBytesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav__read_cue_to_metadata_obj(ma_dr_wav__metadata_parser* pParser, const ma_dr_wav_chunk_header* pChunkHeader, ma_dr_wav_metadata* pMetadata) +{ + ma_uint8 cueHeaderSectionData[MA_DR_WAV_CUE_BYTES]; + ma_uint64 totalBytesRead = 0; + size_t bytesJustRead; + if (pMetadata == NULL) { + return 0; + } + bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, cueHeaderSectionData, sizeof(cueHeaderSectionData), &totalBytesRead); + MA_DR_WAV_ASSERT(pParser->stage == ma_dr_wav__metadata_parser_stage_read); + if (bytesJustRead == sizeof(cueHeaderSectionData)) { + pMetadata->type = ma_dr_wav_metadata_type_cue; + pMetadata->data.cue.cuePointCount = ma_dr_wav_bytes_to_u32(cueHeaderSectionData); + if (pMetadata->data.cue.cuePointCount == (pChunkHeader->sizeInBytes - MA_DR_WAV_CUE_BYTES) / MA_DR_WAV_CUE_POINT_BYTES) { + pMetadata->data.cue.pCuePoints = (ma_dr_wav_cue_point*)ma_dr_wav__metadata_get_memory(pParser, sizeof(ma_dr_wav_cue_point) * pMetadata->data.cue.cuePointCount, MA_DR_WAV_METADATA_ALIGNMENT); + MA_DR_WAV_ASSERT(pMetadata->data.cue.pCuePoints != NULL); + if (pMetadata->data.cue.cuePointCount > 0) { + ma_uint32 iCuePoint; + for (iCuePoint = 0; iCuePoint < pMetadata->data.cue.cuePointCount; ++iCuePoint) { + ma_uint8 cuePointData[MA_DR_WAV_CUE_POINT_BYTES]; + bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, cuePointData, sizeof(cuePointData), &totalBytesRead); + if (bytesJustRead == sizeof(cuePointData)) { + pMetadata->data.cue.pCuePoints[iCuePoint].id = ma_dr_wav_bytes_to_u32(cuePointData + 0); + pMetadata->data.cue.pCuePoints[iCuePoint].playOrderPosition = ma_dr_wav_bytes_to_u32(cuePointData + 4); + pMetadata->data.cue.pCuePoints[iCuePoint].dataChunkId[0] = cuePointData[8]; + pMetadata->data.cue.pCuePoints[iCuePoint].dataChunkId[1] = cuePointData[9]; + pMetadata->data.cue.pCuePoints[iCuePoint].dataChunkId[2] = cuePointData[10]; + pMetadata->data.cue.pCuePoints[iCuePoint].dataChunkId[3] = cuePointData[11]; + pMetadata->data.cue.pCuePoints[iCuePoint].chunkStart = ma_dr_wav_bytes_to_u32(cuePointData + 12); + pMetadata->data.cue.pCuePoints[iCuePoint].blockStart = ma_dr_wav_bytes_to_u32(cuePointData + 16); + pMetadata->data.cue.pCuePoints[iCuePoint].sampleOffset = ma_dr_wav_bytes_to_u32(cuePointData + 20); + } else { + break; + } + } + } + } + } + return totalBytesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav__read_inst_to_metadata_obj(ma_dr_wav__metadata_parser* pParser, ma_dr_wav_metadata* pMetadata) +{ + ma_uint8 instData[MA_DR_WAV_INST_BYTES]; + ma_uint64 bytesRead; + if (pMetadata == NULL) { + return 0; + } + bytesRead = ma_dr_wav__metadata_parser_read(pParser, instData, sizeof(instData), NULL); + MA_DR_WAV_ASSERT(pParser->stage == ma_dr_wav__metadata_parser_stage_read); + if (bytesRead == sizeof(instData)) { + pMetadata->type = ma_dr_wav_metadata_type_inst; + pMetadata->data.inst.midiUnityNote = (ma_int8)instData[0]; + pMetadata->data.inst.fineTuneCents = (ma_int8)instData[1]; + pMetadata->data.inst.gainDecibels = (ma_int8)instData[2]; + pMetadata->data.inst.lowNote = (ma_int8)instData[3]; + pMetadata->data.inst.highNote = (ma_int8)instData[4]; + pMetadata->data.inst.lowVelocity = (ma_int8)instData[5]; + pMetadata->data.inst.highVelocity = (ma_int8)instData[6]; + } + return bytesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav__read_acid_to_metadata_obj(ma_dr_wav__metadata_parser* pParser, ma_dr_wav_metadata* pMetadata) +{ + ma_uint8 acidData[MA_DR_WAV_ACID_BYTES]; + ma_uint64 bytesRead; + if (pMetadata == NULL) { + return 0; + } + bytesRead = ma_dr_wav__metadata_parser_read(pParser, acidData, sizeof(acidData), NULL); + MA_DR_WAV_ASSERT(pParser->stage == ma_dr_wav__metadata_parser_stage_read); + if (bytesRead == sizeof(acidData)) { + pMetadata->type = ma_dr_wav_metadata_type_acid; + pMetadata->data.acid.flags = ma_dr_wav_bytes_to_u32(acidData + 0); + pMetadata->data.acid.midiUnityNote = ma_dr_wav_bytes_to_u16(acidData + 4); + pMetadata->data.acid.reserved1 = ma_dr_wav_bytes_to_u16(acidData + 6); + pMetadata->data.acid.reserved2 = ma_dr_wav_bytes_to_f32(acidData + 8); + pMetadata->data.acid.numBeats = ma_dr_wav_bytes_to_u32(acidData + 12); + pMetadata->data.acid.meterDenominator = ma_dr_wav_bytes_to_u16(acidData + 16); + pMetadata->data.acid.meterNumerator = ma_dr_wav_bytes_to_u16(acidData + 18); + pMetadata->data.acid.tempo = ma_dr_wav_bytes_to_f32(acidData + 20); + } + return bytesRead; +} +MA_PRIVATE size_t ma_dr_wav__strlen(const char* str) +{ + size_t result = 0; + while (*str++) { + result += 1; + } + return result; +} +MA_PRIVATE size_t ma_dr_wav__strlen_clamped(const char* str, size_t maxToRead) +{ + size_t result = 0; + while (*str++ && result < maxToRead) { + result += 1; + } + return result; +} +MA_PRIVATE char* ma_dr_wav__metadata_copy_string(ma_dr_wav__metadata_parser* pParser, const char* str, size_t maxToRead) +{ + size_t len = ma_dr_wav__strlen_clamped(str, maxToRead); + if (len) { + char* result = (char*)ma_dr_wav__metadata_get_memory(pParser, len + 1, 1); + MA_DR_WAV_ASSERT(result != NULL); + MA_DR_WAV_COPY_MEMORY(result, str, len); + result[len] = '\0'; + return result; + } else { + return NULL; + } +} +typedef struct +{ + const void* pBuffer; + size_t sizeInBytes; + size_t cursor; +} ma_dr_wav_buffer_reader; +MA_PRIVATE ma_result ma_dr_wav_buffer_reader_init(const void* pBuffer, size_t sizeInBytes, ma_dr_wav_buffer_reader* pReader) +{ + MA_DR_WAV_ASSERT(pBuffer != NULL); + MA_DR_WAV_ASSERT(pReader != NULL); + MA_DR_WAV_ZERO_OBJECT(pReader); + pReader->pBuffer = pBuffer; + pReader->sizeInBytes = sizeInBytes; + pReader->cursor = 0; + return MA_SUCCESS; +} +MA_PRIVATE const void* ma_dr_wav_buffer_reader_ptr(const ma_dr_wav_buffer_reader* pReader) +{ + MA_DR_WAV_ASSERT(pReader != NULL); + return ma_dr_wav_offset_ptr(pReader->pBuffer, pReader->cursor); +} +MA_PRIVATE ma_result ma_dr_wav_buffer_reader_seek(ma_dr_wav_buffer_reader* pReader, size_t bytesToSeek) +{ + MA_DR_WAV_ASSERT(pReader != NULL); + if (pReader->cursor + bytesToSeek > pReader->sizeInBytes) { + return MA_BAD_SEEK; + } + pReader->cursor += bytesToSeek; + return MA_SUCCESS; +} +MA_PRIVATE ma_result ma_dr_wav_buffer_reader_read(ma_dr_wav_buffer_reader* pReader, void* pDst, size_t bytesToRead, size_t* pBytesRead) +{ + ma_result result = MA_SUCCESS; + size_t bytesRemaining; + MA_DR_WAV_ASSERT(pReader != NULL); + if (pBytesRead != NULL) { + *pBytesRead = 0; + } + bytesRemaining = (pReader->sizeInBytes - pReader->cursor); + if (bytesToRead > bytesRemaining) { + bytesToRead = bytesRemaining; + } + if (pDst == NULL) { + result = ma_dr_wav_buffer_reader_seek(pReader, bytesToRead); + } else { + MA_DR_WAV_COPY_MEMORY(pDst, ma_dr_wav_buffer_reader_ptr(pReader), bytesToRead); + pReader->cursor += bytesToRead; + } + MA_DR_WAV_ASSERT(pReader->cursor <= pReader->sizeInBytes); + if (result == MA_SUCCESS) { + if (pBytesRead != NULL) { + *pBytesRead = bytesToRead; + } + } + return MA_SUCCESS; +} +MA_PRIVATE ma_result ma_dr_wav_buffer_reader_read_u16(ma_dr_wav_buffer_reader* pReader, ma_uint16* pDst) +{ + ma_result result; + size_t bytesRead; + ma_uint8 data[2]; + MA_DR_WAV_ASSERT(pReader != NULL); + MA_DR_WAV_ASSERT(pDst != NULL); + *pDst = 0; + result = ma_dr_wav_buffer_reader_read(pReader, data, sizeof(*pDst), &bytesRead); + if (result != MA_SUCCESS || bytesRead != sizeof(*pDst)) { + return result; + } + *pDst = ma_dr_wav_bytes_to_u16(data); + return MA_SUCCESS; +} +MA_PRIVATE ma_result ma_dr_wav_buffer_reader_read_u32(ma_dr_wav_buffer_reader* pReader, ma_uint32* pDst) +{ + ma_result result; + size_t bytesRead; + ma_uint8 data[4]; + MA_DR_WAV_ASSERT(pReader != NULL); + MA_DR_WAV_ASSERT(pDst != NULL); + *pDst = 0; + result = ma_dr_wav_buffer_reader_read(pReader, data, sizeof(*pDst), &bytesRead); + if (result != MA_SUCCESS || bytesRead != sizeof(*pDst)) { + return result; + } + *pDst = ma_dr_wav_bytes_to_u32(data); + return MA_SUCCESS; +} +MA_PRIVATE ma_uint64 ma_dr_wav__read_bext_to_metadata_obj(ma_dr_wav__metadata_parser* pParser, ma_dr_wav_metadata* pMetadata, ma_uint64 chunkSize) +{ + ma_uint8 bextData[MA_DR_WAV_BEXT_BYTES]; + size_t bytesRead = ma_dr_wav__metadata_parser_read(pParser, bextData, sizeof(bextData), NULL); + MA_DR_WAV_ASSERT(pParser->stage == ma_dr_wav__metadata_parser_stage_read); + if (bytesRead == sizeof(bextData)) { + ma_dr_wav_buffer_reader reader; + ma_uint32 timeReferenceLow; + ma_uint32 timeReferenceHigh; + size_t extraBytes; + pMetadata->type = ma_dr_wav_metadata_type_bext; + if (ma_dr_wav_buffer_reader_init(bextData, bytesRead, &reader) == MA_SUCCESS) { + pMetadata->data.bext.pDescription = ma_dr_wav__metadata_copy_string(pParser, (const char*)ma_dr_wav_buffer_reader_ptr(&reader), MA_DR_WAV_BEXT_DESCRIPTION_BYTES); + ma_dr_wav_buffer_reader_seek(&reader, MA_DR_WAV_BEXT_DESCRIPTION_BYTES); + pMetadata->data.bext.pOriginatorName = ma_dr_wav__metadata_copy_string(pParser, (const char*)ma_dr_wav_buffer_reader_ptr(&reader), MA_DR_WAV_BEXT_ORIGINATOR_NAME_BYTES); + ma_dr_wav_buffer_reader_seek(&reader, MA_DR_WAV_BEXT_ORIGINATOR_NAME_BYTES); + pMetadata->data.bext.pOriginatorReference = ma_dr_wav__metadata_copy_string(pParser, (const char*)ma_dr_wav_buffer_reader_ptr(&reader), MA_DR_WAV_BEXT_ORIGINATOR_REF_BYTES); + ma_dr_wav_buffer_reader_seek(&reader, MA_DR_WAV_BEXT_ORIGINATOR_REF_BYTES); + ma_dr_wav_buffer_reader_read(&reader, pMetadata->data.bext.pOriginationDate, sizeof(pMetadata->data.bext.pOriginationDate), NULL); + ma_dr_wav_buffer_reader_read(&reader, pMetadata->data.bext.pOriginationTime, sizeof(pMetadata->data.bext.pOriginationTime), NULL); + ma_dr_wav_buffer_reader_read_u32(&reader, &timeReferenceLow); + ma_dr_wav_buffer_reader_read_u32(&reader, &timeReferenceHigh); + pMetadata->data.bext.timeReference = ((ma_uint64)timeReferenceHigh << 32) + timeReferenceLow; + ma_dr_wav_buffer_reader_read_u16(&reader, &pMetadata->data.bext.version); + pMetadata->data.bext.pUMID = ma_dr_wav__metadata_get_memory(pParser, MA_DR_WAV_BEXT_UMID_BYTES, 1); + ma_dr_wav_buffer_reader_read(&reader, pMetadata->data.bext.pUMID, MA_DR_WAV_BEXT_UMID_BYTES, NULL); + ma_dr_wav_buffer_reader_read_u16(&reader, &pMetadata->data.bext.loudnessValue); + ma_dr_wav_buffer_reader_read_u16(&reader, &pMetadata->data.bext.loudnessRange); + ma_dr_wav_buffer_reader_read_u16(&reader, &pMetadata->data.bext.maxTruePeakLevel); + ma_dr_wav_buffer_reader_read_u16(&reader, &pMetadata->data.bext.maxMomentaryLoudness); + ma_dr_wav_buffer_reader_read_u16(&reader, &pMetadata->data.bext.maxShortTermLoudness); + MA_DR_WAV_ASSERT((ma_dr_wav_offset_ptr(ma_dr_wav_buffer_reader_ptr(&reader), MA_DR_WAV_BEXT_RESERVED_BYTES)) == (bextData + MA_DR_WAV_BEXT_BYTES)); + extraBytes = (size_t)(chunkSize - MA_DR_WAV_BEXT_BYTES); + if (extraBytes > 0) { + pMetadata->data.bext.pCodingHistory = (char*)ma_dr_wav__metadata_get_memory(pParser, extraBytes + 1, 1); + MA_DR_WAV_ASSERT(pMetadata->data.bext.pCodingHistory != NULL); + bytesRead += ma_dr_wav__metadata_parser_read(pParser, pMetadata->data.bext.pCodingHistory, extraBytes, NULL); + pMetadata->data.bext.codingHistorySize = (ma_uint32)ma_dr_wav__strlen(pMetadata->data.bext.pCodingHistory); + } else { + pMetadata->data.bext.pCodingHistory = NULL; + pMetadata->data.bext.codingHistorySize = 0; + } + } + } + return bytesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav__read_list_label_or_note_to_metadata_obj(ma_dr_wav__metadata_parser* pParser, ma_dr_wav_metadata* pMetadata, ma_uint64 chunkSize, ma_dr_wav_metadata_type type) +{ + ma_uint8 cueIDBuffer[MA_DR_WAV_LIST_LABEL_OR_NOTE_BYTES]; + ma_uint64 totalBytesRead = 0; + size_t bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, cueIDBuffer, sizeof(cueIDBuffer), &totalBytesRead); + MA_DR_WAV_ASSERT(pParser->stage == ma_dr_wav__metadata_parser_stage_read); + if (bytesJustRead == sizeof(cueIDBuffer)) { + ma_uint32 sizeIncludingNullTerminator; + pMetadata->type = type; + pMetadata->data.labelOrNote.cuePointId = ma_dr_wav_bytes_to_u32(cueIDBuffer); + sizeIncludingNullTerminator = (ma_uint32)chunkSize - MA_DR_WAV_LIST_LABEL_OR_NOTE_BYTES; + if (sizeIncludingNullTerminator > 0) { + pMetadata->data.labelOrNote.stringLength = sizeIncludingNullTerminator - 1; + pMetadata->data.labelOrNote.pString = (char*)ma_dr_wav__metadata_get_memory(pParser, sizeIncludingNullTerminator, 1); + MA_DR_WAV_ASSERT(pMetadata->data.labelOrNote.pString != NULL); + ma_dr_wav__metadata_parser_read(pParser, pMetadata->data.labelOrNote.pString, sizeIncludingNullTerminator, &totalBytesRead); + } else { + pMetadata->data.labelOrNote.stringLength = 0; + pMetadata->data.labelOrNote.pString = NULL; + } + } + return totalBytesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav__read_list_labelled_cue_region_to_metadata_obj(ma_dr_wav__metadata_parser* pParser, ma_dr_wav_metadata* pMetadata, ma_uint64 chunkSize) +{ + ma_uint8 buffer[MA_DR_WAV_LIST_LABELLED_TEXT_BYTES]; + ma_uint64 totalBytesRead = 0; + size_t bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, buffer, sizeof(buffer), &totalBytesRead); + MA_DR_WAV_ASSERT(pParser->stage == ma_dr_wav__metadata_parser_stage_read); + if (bytesJustRead == sizeof(buffer)) { + ma_uint32 sizeIncludingNullTerminator; + pMetadata->type = ma_dr_wav_metadata_type_list_labelled_cue_region; + pMetadata->data.labelledCueRegion.cuePointId = ma_dr_wav_bytes_to_u32(buffer + 0); + pMetadata->data.labelledCueRegion.sampleLength = ma_dr_wav_bytes_to_u32(buffer + 4); + pMetadata->data.labelledCueRegion.purposeId[0] = buffer[8]; + pMetadata->data.labelledCueRegion.purposeId[1] = buffer[9]; + pMetadata->data.labelledCueRegion.purposeId[2] = buffer[10]; + pMetadata->data.labelledCueRegion.purposeId[3] = buffer[11]; + pMetadata->data.labelledCueRegion.country = ma_dr_wav_bytes_to_u16(buffer + 12); + pMetadata->data.labelledCueRegion.language = ma_dr_wav_bytes_to_u16(buffer + 14); + pMetadata->data.labelledCueRegion.dialect = ma_dr_wav_bytes_to_u16(buffer + 16); + pMetadata->data.labelledCueRegion.codePage = ma_dr_wav_bytes_to_u16(buffer + 18); + sizeIncludingNullTerminator = (ma_uint32)chunkSize - MA_DR_WAV_LIST_LABELLED_TEXT_BYTES; + if (sizeIncludingNullTerminator > 0) { + pMetadata->data.labelledCueRegion.stringLength = sizeIncludingNullTerminator - 1; + pMetadata->data.labelledCueRegion.pString = (char*)ma_dr_wav__metadata_get_memory(pParser, sizeIncludingNullTerminator, 1); + MA_DR_WAV_ASSERT(pMetadata->data.labelledCueRegion.pString != NULL); + ma_dr_wav__metadata_parser_read(pParser, pMetadata->data.labelledCueRegion.pString, sizeIncludingNullTerminator, &totalBytesRead); + } else { + pMetadata->data.labelledCueRegion.stringLength = 0; + pMetadata->data.labelledCueRegion.pString = NULL; + } + } + return totalBytesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav__metadata_process_info_text_chunk(ma_dr_wav__metadata_parser* pParser, ma_uint64 chunkSize, ma_dr_wav_metadata_type type) +{ + ma_uint64 bytesRead = 0; + ma_uint32 stringSizeWithNullTerminator = (ma_uint32)chunkSize; + if (pParser->stage == ma_dr_wav__metadata_parser_stage_count) { + pParser->metadataCount += 1; + ma_dr_wav__metadata_request_extra_memory_for_stage_2(pParser, stringSizeWithNullTerminator, 1); + } else { + ma_dr_wav_metadata* pMetadata = &pParser->pMetadata[pParser->metadataCursor]; + pMetadata->type = type; + if (stringSizeWithNullTerminator > 0) { + pMetadata->data.infoText.stringLength = stringSizeWithNullTerminator - 1; + pMetadata->data.infoText.pString = (char*)ma_dr_wav__metadata_get_memory(pParser, stringSizeWithNullTerminator, 1); + MA_DR_WAV_ASSERT(pMetadata->data.infoText.pString != NULL); + bytesRead = ma_dr_wav__metadata_parser_read(pParser, pMetadata->data.infoText.pString, (size_t)stringSizeWithNullTerminator, NULL); + if (bytesRead == chunkSize) { + pParser->metadataCursor += 1; + } else { + } + } else { + pMetadata->data.infoText.stringLength = 0; + pMetadata->data.infoText.pString = NULL; + pParser->metadataCursor += 1; + } + } + return bytesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav__metadata_process_unknown_chunk(ma_dr_wav__metadata_parser* pParser, const ma_uint8* pChunkId, ma_uint64 chunkSize, ma_dr_wav_metadata_location location) +{ + ma_uint64 bytesRead = 0; + if (location == ma_dr_wav_metadata_location_invalid) { + return 0; + } + if (ma_dr_wav_fourcc_equal(pChunkId, "data") || ma_dr_wav_fourcc_equal(pChunkId, "fmt ") || ma_dr_wav_fourcc_equal(pChunkId, "fact")) { + return 0; + } + if (pParser->stage == ma_dr_wav__metadata_parser_stage_count) { + pParser->metadataCount += 1; + ma_dr_wav__metadata_request_extra_memory_for_stage_2(pParser, (size_t)chunkSize, 1); + } else { + ma_dr_wav_metadata* pMetadata = &pParser->pMetadata[pParser->metadataCursor]; + pMetadata->type = ma_dr_wav_metadata_type_unknown; + pMetadata->data.unknown.chunkLocation = location; + pMetadata->data.unknown.id[0] = pChunkId[0]; + pMetadata->data.unknown.id[1] = pChunkId[1]; + pMetadata->data.unknown.id[2] = pChunkId[2]; + pMetadata->data.unknown.id[3] = pChunkId[3]; + pMetadata->data.unknown.dataSizeInBytes = (ma_uint32)chunkSize; + pMetadata->data.unknown.pData = (ma_uint8 *)ma_dr_wav__metadata_get_memory(pParser, (size_t)chunkSize, 1); + MA_DR_WAV_ASSERT(pMetadata->data.unknown.pData != NULL); + bytesRead = ma_dr_wav__metadata_parser_read(pParser, pMetadata->data.unknown.pData, pMetadata->data.unknown.dataSizeInBytes, NULL); + if (bytesRead == pMetadata->data.unknown.dataSizeInBytes) { + pParser->metadataCursor += 1; + } else { + } + } + return bytesRead; +} +MA_PRIVATE ma_bool32 ma_dr_wav__chunk_matches(ma_dr_wav_metadata_type allowedMetadataTypes, const ma_uint8* pChunkID, ma_dr_wav_metadata_type type, const char* pID) +{ + return (allowedMetadataTypes & type) && ma_dr_wav_fourcc_equal(pChunkID, pID); +} +MA_PRIVATE ma_uint64 ma_dr_wav__metadata_process_chunk(ma_dr_wav__metadata_parser* pParser, const ma_dr_wav_chunk_header* pChunkHeader, ma_dr_wav_metadata_type allowedMetadataTypes) +{ + const ma_uint8 *pChunkID = pChunkHeader->id.fourcc; + ma_uint64 bytesRead = 0; + if (ma_dr_wav__chunk_matches(allowedMetadataTypes, pChunkID, ma_dr_wav_metadata_type_smpl, "smpl")) { + if (pChunkHeader->sizeInBytes >= MA_DR_WAV_SMPL_BYTES) { + if (pParser->stage == ma_dr_wav__metadata_parser_stage_count) { + ma_uint8 buffer[4]; + size_t bytesJustRead; + if (!pParser->onSeek(pParser->pReadSeekUserData, 28, MA_DR_WAV_SEEK_CUR)) { + return bytesRead; + } + bytesRead += 28; + bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, buffer, sizeof(buffer), &bytesRead); + if (bytesJustRead == sizeof(buffer)) { + ma_uint32 loopCount = ma_dr_wav_bytes_to_u32(buffer); + ma_uint64 calculatedLoopCount; + calculatedLoopCount = (pChunkHeader->sizeInBytes - MA_DR_WAV_SMPL_BYTES) / MA_DR_WAV_SMPL_LOOP_BYTES; + if (calculatedLoopCount == loopCount) { + bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, buffer, sizeof(buffer), &bytesRead); + if (bytesJustRead == sizeof(buffer)) { + ma_uint32 samplerSpecificDataSizeInBytes = ma_dr_wav_bytes_to_u32(buffer); + pParser->metadataCount += 1; + ma_dr_wav__metadata_request_extra_memory_for_stage_2(pParser, sizeof(ma_dr_wav_smpl_loop) * loopCount, MA_DR_WAV_METADATA_ALIGNMENT); + ma_dr_wav__metadata_request_extra_memory_for_stage_2(pParser, samplerSpecificDataSizeInBytes, 1); + } + } else { + } + } + } else { + bytesRead = ma_dr_wav__read_smpl_to_metadata_obj(pParser, pChunkHeader, &pParser->pMetadata[pParser->metadataCursor]); + if (bytesRead == pChunkHeader->sizeInBytes) { + pParser->metadataCursor += 1; + } else { + } + } + } else { + } + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, pChunkID, ma_dr_wav_metadata_type_inst, "inst")) { + if (pChunkHeader->sizeInBytes == MA_DR_WAV_INST_BYTES) { + if (pParser->stage == ma_dr_wav__metadata_parser_stage_count) { + pParser->metadataCount += 1; + } else { + bytesRead = ma_dr_wav__read_inst_to_metadata_obj(pParser, &pParser->pMetadata[pParser->metadataCursor]); + if (bytesRead == pChunkHeader->sizeInBytes) { + pParser->metadataCursor += 1; + } else { + } + } + } else { + } + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, pChunkID, ma_dr_wav_metadata_type_acid, "acid")) { + if (pChunkHeader->sizeInBytes == MA_DR_WAV_ACID_BYTES) { + if (pParser->stage == ma_dr_wav__metadata_parser_stage_count) { + pParser->metadataCount += 1; + } else { + bytesRead = ma_dr_wav__read_acid_to_metadata_obj(pParser, &pParser->pMetadata[pParser->metadataCursor]); + if (bytesRead == pChunkHeader->sizeInBytes) { + pParser->metadataCursor += 1; + } else { + } + } + } else { + } + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, pChunkID, ma_dr_wav_metadata_type_cue, "cue ")) { + if (pChunkHeader->sizeInBytes >= MA_DR_WAV_CUE_BYTES) { + if (pParser->stage == ma_dr_wav__metadata_parser_stage_count) { + size_t cueCount; + pParser->metadataCount += 1; + cueCount = (size_t)(pChunkHeader->sizeInBytes - MA_DR_WAV_CUE_BYTES) / MA_DR_WAV_CUE_POINT_BYTES; + ma_dr_wav__metadata_request_extra_memory_for_stage_2(pParser, sizeof(ma_dr_wav_cue_point) * cueCount, MA_DR_WAV_METADATA_ALIGNMENT); + } else { + bytesRead = ma_dr_wav__read_cue_to_metadata_obj(pParser, pChunkHeader, &pParser->pMetadata[pParser->metadataCursor]); + if (bytesRead == pChunkHeader->sizeInBytes) { + pParser->metadataCursor += 1; + } else { + } + } + } else { + } + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, pChunkID, ma_dr_wav_metadata_type_bext, "bext")) { + if (pChunkHeader->sizeInBytes >= MA_DR_WAV_BEXT_BYTES) { + if (pParser->stage == ma_dr_wav__metadata_parser_stage_count) { + char buffer[MA_DR_WAV_BEXT_DESCRIPTION_BYTES + 1]; + size_t allocSizeNeeded = MA_DR_WAV_BEXT_UMID_BYTES; + size_t bytesJustRead; + buffer[MA_DR_WAV_BEXT_DESCRIPTION_BYTES] = '\0'; + bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, buffer, MA_DR_WAV_BEXT_DESCRIPTION_BYTES, &bytesRead); + if (bytesJustRead != MA_DR_WAV_BEXT_DESCRIPTION_BYTES) { + return bytesRead; + } + allocSizeNeeded += ma_dr_wav__strlen(buffer) + 1; + buffer[MA_DR_WAV_BEXT_ORIGINATOR_NAME_BYTES] = '\0'; + bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, buffer, MA_DR_WAV_BEXT_ORIGINATOR_NAME_BYTES, &bytesRead); + if (bytesJustRead != MA_DR_WAV_BEXT_ORIGINATOR_NAME_BYTES) { + return bytesRead; + } + allocSizeNeeded += ma_dr_wav__strlen(buffer) + 1; + buffer[MA_DR_WAV_BEXT_ORIGINATOR_REF_BYTES] = '\0'; + bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, buffer, MA_DR_WAV_BEXT_ORIGINATOR_REF_BYTES, &bytesRead); + if (bytesJustRead != MA_DR_WAV_BEXT_ORIGINATOR_REF_BYTES) { + return bytesRead; + } + allocSizeNeeded += ma_dr_wav__strlen(buffer) + 1; + allocSizeNeeded += (size_t)pChunkHeader->sizeInBytes - MA_DR_WAV_BEXT_BYTES + 1; + ma_dr_wav__metadata_request_extra_memory_for_stage_2(pParser, allocSizeNeeded, 1); + pParser->metadataCount += 1; + } else { + bytesRead = ma_dr_wav__read_bext_to_metadata_obj(pParser, &pParser->pMetadata[pParser->metadataCursor], pChunkHeader->sizeInBytes); + if (bytesRead == pChunkHeader->sizeInBytes) { + pParser->metadataCursor += 1; + } else { + } + } + } else { + } + } else if (ma_dr_wav_fourcc_equal(pChunkID, "LIST") || ma_dr_wav_fourcc_equal(pChunkID, "list")) { + ma_dr_wav_metadata_location listType = ma_dr_wav_metadata_location_invalid; + while (bytesRead < pChunkHeader->sizeInBytes) { + ma_uint8 subchunkId[4]; + ma_uint8 subchunkSizeBuffer[4]; + ma_uint64 subchunkDataSize; + ma_uint64 subchunkBytesRead = 0; + ma_uint64 bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, subchunkId, sizeof(subchunkId), &bytesRead); + if (bytesJustRead != sizeof(subchunkId)) { + break; + } + if (ma_dr_wav_fourcc_equal(subchunkId, "adtl")) { + listType = ma_dr_wav_metadata_location_inside_adtl_list; + continue; + } else if (ma_dr_wav_fourcc_equal(subchunkId, "INFO")) { + listType = ma_dr_wav_metadata_location_inside_info_list; + continue; + } + bytesJustRead = ma_dr_wav__metadata_parser_read(pParser, subchunkSizeBuffer, sizeof(subchunkSizeBuffer), &bytesRead); + if (bytesJustRead != sizeof(subchunkSizeBuffer)) { + break; + } + subchunkDataSize = ma_dr_wav_bytes_to_u32(subchunkSizeBuffer); + if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_label, "labl") || ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_note, "note")) { + if (subchunkDataSize >= MA_DR_WAV_LIST_LABEL_OR_NOTE_BYTES) { + ma_uint64 stringSizeWithNullTerm = subchunkDataSize - MA_DR_WAV_LIST_LABEL_OR_NOTE_BYTES; + if (pParser->stage == ma_dr_wav__metadata_parser_stage_count) { + pParser->metadataCount += 1; + ma_dr_wav__metadata_request_extra_memory_for_stage_2(pParser, (size_t)stringSizeWithNullTerm, 1); + } else { + subchunkBytesRead = ma_dr_wav__read_list_label_or_note_to_metadata_obj(pParser, &pParser->pMetadata[pParser->metadataCursor], subchunkDataSize, ma_dr_wav_fourcc_equal(subchunkId, "labl") ? ma_dr_wav_metadata_type_list_label : ma_dr_wav_metadata_type_list_note); + if (subchunkBytesRead == subchunkDataSize) { + pParser->metadataCursor += 1; + } else { + } + } + } else { + } + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_labelled_cue_region, "ltxt")) { + if (subchunkDataSize >= MA_DR_WAV_LIST_LABELLED_TEXT_BYTES) { + ma_uint64 stringSizeWithNullTerminator = subchunkDataSize - MA_DR_WAV_LIST_LABELLED_TEXT_BYTES; + if (pParser->stage == ma_dr_wav__metadata_parser_stage_count) { + pParser->metadataCount += 1; + ma_dr_wav__metadata_request_extra_memory_for_stage_2(pParser, (size_t)stringSizeWithNullTerminator, 1); + } else { + subchunkBytesRead = ma_dr_wav__read_list_labelled_cue_region_to_metadata_obj(pParser, &pParser->pMetadata[pParser->metadataCursor], subchunkDataSize); + if (subchunkBytesRead == subchunkDataSize) { + pParser->metadataCursor += 1; + } else { + } + } + } else { + } + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_software, "ISFT")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_software); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_copyright, "ICOP")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_copyright); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_title, "INAM")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_title); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_artist, "IART")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_artist); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_comment, "ICMT")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_comment); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_date, "ICRD")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_date); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_genre, "IGNR")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_genre); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_album, "IPRD")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_album); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_tracknumber, "ITRK")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_tracknumber); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_location, "IARL")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_location); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_organization, "ICMS")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_organization); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_keywords, "IKEY")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_keywords); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_medium, "IMED")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_medium); + } else if (ma_dr_wav__chunk_matches(allowedMetadataTypes, subchunkId, ma_dr_wav_metadata_type_list_info_description, "ISBJ")) { + subchunkBytesRead = ma_dr_wav__metadata_process_info_text_chunk(pParser, subchunkDataSize, ma_dr_wav_metadata_type_list_info_description); + } else if ((allowedMetadataTypes & ma_dr_wav_metadata_type_unknown) != 0) { + subchunkBytesRead = ma_dr_wav__metadata_process_unknown_chunk(pParser, subchunkId, subchunkDataSize, listType); + } + bytesRead += subchunkBytesRead; + MA_DR_WAV_ASSERT(subchunkBytesRead <= subchunkDataSize); + if (subchunkBytesRead < subchunkDataSize) { + ma_uint64 bytesToSeek = subchunkDataSize - subchunkBytesRead; + if (!pParser->onSeek(pParser->pReadSeekUserData, (int)bytesToSeek, MA_DR_WAV_SEEK_CUR)) { + break; + } + bytesRead += bytesToSeek; + } + if ((subchunkDataSize % 2) == 1) { + if (!pParser->onSeek(pParser->pReadSeekUserData, 1, MA_DR_WAV_SEEK_CUR)) { + break; + } + bytesRead += 1; + } + } + } else if ((allowedMetadataTypes & ma_dr_wav_metadata_type_unknown) != 0) { + bytesRead = ma_dr_wav__metadata_process_unknown_chunk(pParser, pChunkID, pChunkHeader->sizeInBytes, ma_dr_wav_metadata_location_top_level); + } + return bytesRead; +} +MA_PRIVATE ma_uint32 ma_dr_wav_get_bytes_per_pcm_frame(ma_dr_wav* pWav) +{ + ma_uint32 bytesPerFrame; + if ((pWav->bitsPerSample & 0x7) == 0) { + bytesPerFrame = (pWav->bitsPerSample * pWav->fmt.channels) >> 3; + } else { + bytesPerFrame = pWav->fmt.blockAlign; + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ALAW || pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_MULAW) { + if (bytesPerFrame != pWav->fmt.channels) { + return 0; + } + } + return bytesPerFrame; +} +MA_API ma_uint16 ma_dr_wav_fmt_get_format(const ma_dr_wav_fmt* pFMT) +{ + if (pFMT == NULL) { + return 0; + } + if (pFMT->formatTag != MA_DR_WAVE_FORMAT_EXTENSIBLE) { + return pFMT->formatTag; + } else { + return ma_dr_wav_bytes_to_u16(pFMT->subFormat); + } +} +MA_PRIVATE ma_bool32 ma_dr_wav_preinit(ma_dr_wav* pWav, ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, void* pReadSeekTellUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pWav == NULL || onRead == NULL || onSeek == NULL) { + return MA_FALSE; + } + MA_DR_WAV_ZERO_MEMORY(pWav, sizeof(*pWav)); + pWav->onRead = onRead; + pWav->onSeek = onSeek; + pWav->onTell = onTell; + pWav->pUserData = pReadSeekTellUserData; + pWav->allocationCallbacks = ma_dr_wav_copy_allocation_callbacks_or_defaults(pAllocationCallbacks); + if (pWav->allocationCallbacks.onFree == NULL || (pWav->allocationCallbacks.onMalloc == NULL && pWav->allocationCallbacks.onRealloc == NULL)) { + return MA_FALSE; + } + return MA_TRUE; +} +MA_PRIVATE ma_bool32 ma_dr_wav_init__internal(ma_dr_wav* pWav, ma_dr_wav_chunk_proc onChunk, void* pChunkUserData, ma_uint32 flags) +{ + ma_result result; + ma_uint64 cursor; + ma_bool32 sequential; + ma_uint8 riff[4]; + ma_dr_wav_fmt fmt; + unsigned short translatedFormatTag; + ma_uint64 dataChunkSize = 0; + ma_uint64 sampleCountFromFactChunk = 0; + ma_uint64 metadataStartPos; + ma_dr_wav__metadata_parser metadataParser; + ma_bool8 isProcessingMetadata = MA_FALSE; + ma_bool8 foundChunk_fmt = MA_FALSE; + ma_bool8 foundChunk_data = MA_FALSE; + ma_bool8 isAIFCFormType = MA_FALSE; + ma_uint64 aiffFrameCount = 0; + cursor = 0; + sequential = (flags & MA_DR_WAV_SEQUENTIAL) != 0; + MA_DR_WAV_ZERO_OBJECT(&fmt); + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, riff, sizeof(riff), &cursor) != sizeof(riff)) { + return MA_FALSE; + } + if (ma_dr_wav_fourcc_equal(riff, "RIFF")) { + pWav->container = ma_dr_wav_container_riff; + } else if (ma_dr_wav_fourcc_equal(riff, "RIFX")) { + pWav->container = ma_dr_wav_container_rifx; + } else if (ma_dr_wav_fourcc_equal(riff, "riff")) { + int i; + ma_uint8 riff2[12]; + pWav->container = ma_dr_wav_container_w64; + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, riff2, sizeof(riff2), &cursor) != sizeof(riff2)) { + return MA_FALSE; + } + for (i = 0; i < 12; ++i) { + if (riff2[i] != ma_dr_wavGUID_W64_RIFF[i+4]) { + return MA_FALSE; + } + } + } else if (ma_dr_wav_fourcc_equal(riff, "RF64")) { + pWav->container = ma_dr_wav_container_rf64; + } else if (ma_dr_wav_fourcc_equal(riff, "FORM")) { + pWav->container = ma_dr_wav_container_aiff; + } else { + return MA_FALSE; + } + if (pWav->container == ma_dr_wav_container_riff || pWav->container == ma_dr_wav_container_rifx || pWav->container == ma_dr_wav_container_rf64) { + ma_uint8 chunkSizeBytes[4]; + ma_uint8 wave[4]; + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, chunkSizeBytes, sizeof(chunkSizeBytes), &cursor) != sizeof(chunkSizeBytes)) { + return MA_FALSE; + } + if (pWav->container == ma_dr_wav_container_riff || pWav->container == ma_dr_wav_container_rifx) { + if (ma_dr_wav_bytes_to_u32_ex(chunkSizeBytes, pWav->container) < 36) { + } + } else if (pWav->container == ma_dr_wav_container_rf64) { + if (ma_dr_wav_bytes_to_u32_le(chunkSizeBytes) != 0xFFFFFFFF) { + return MA_FALSE; + } + } else { + return MA_FALSE; + } + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, wave, sizeof(wave), &cursor) != sizeof(wave)) { + return MA_FALSE; + } + if (!ma_dr_wav_fourcc_equal(wave, "WAVE")) { + return MA_FALSE; + } + } else if (pWav->container == ma_dr_wav_container_w64) { + ma_uint8 chunkSizeBytes[8]; + ma_uint8 wave[16]; + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, chunkSizeBytes, sizeof(chunkSizeBytes), &cursor) != sizeof(chunkSizeBytes)) { + return MA_FALSE; + } + if (ma_dr_wav_bytes_to_u64(chunkSizeBytes) < 80) { + return MA_FALSE; + } + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, wave, sizeof(wave), &cursor) != sizeof(wave)) { + return MA_FALSE; + } + if (!ma_dr_wav_guid_equal(wave, ma_dr_wavGUID_W64_WAVE)) { + return MA_FALSE; + } + } else if (pWav->container == ma_dr_wav_container_aiff) { + ma_uint8 chunkSizeBytes[4]; + ma_uint8 aiff[4]; + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, chunkSizeBytes, sizeof(chunkSizeBytes), &cursor) != sizeof(chunkSizeBytes)) { + return MA_FALSE; + } + if (ma_dr_wav_bytes_to_u32_be(chunkSizeBytes) < 18) { + return MA_FALSE; + } + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, aiff, sizeof(aiff), &cursor) != sizeof(aiff)) { + return MA_FALSE; + } + if (ma_dr_wav_fourcc_equal(aiff, "AIFF")) { + isAIFCFormType = MA_FALSE; + } else if (ma_dr_wav_fourcc_equal(aiff, "AIFC")) { + isAIFCFormType = MA_TRUE; + } else { + return MA_FALSE; + } + } else { + return MA_FALSE; + } + if (pWav->container == ma_dr_wav_container_rf64) { + ma_uint8 sizeBytes[8]; + ma_uint64 bytesRemainingInChunk; + ma_dr_wav_chunk_header header; + result = ma_dr_wav__read_chunk_header(pWav->onRead, pWav->pUserData, pWav->container, &cursor, &header); + if (result != MA_SUCCESS) { + return MA_FALSE; + } + if (!ma_dr_wav_fourcc_equal(header.id.fourcc, "ds64")) { + return MA_FALSE; + } + bytesRemainingInChunk = header.sizeInBytes + header.paddingSize; + if (!ma_dr_wav__seek_forward(pWav->onSeek, 8, pWav->pUserData)) { + return MA_FALSE; + } + bytesRemainingInChunk -= 8; + cursor += 8; + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, sizeBytes, sizeof(sizeBytes), &cursor) != sizeof(sizeBytes)) { + return MA_FALSE; + } + bytesRemainingInChunk -= 8; + dataChunkSize = ma_dr_wav_bytes_to_u64(sizeBytes); + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, sizeBytes, sizeof(sizeBytes), &cursor) != sizeof(sizeBytes)) { + return MA_FALSE; + } + bytesRemainingInChunk -= 8; + sampleCountFromFactChunk = ma_dr_wav_bytes_to_u64(sizeBytes); + if (!ma_dr_wav__seek_forward(pWav->onSeek, bytesRemainingInChunk, pWav->pUserData)) { + return MA_FALSE; + } + cursor += bytesRemainingInChunk; + } + metadataStartPos = cursor; + isProcessingMetadata = !sequential && ((flags & MA_DR_WAV_WITH_METADATA) != 0); + if (pWav->container != ma_dr_wav_container_riff && pWav->container != ma_dr_wav_container_rf64) { + isProcessingMetadata = MA_FALSE; + } + MA_DR_WAV_ZERO_MEMORY(&metadataParser, sizeof(metadataParser)); + if (isProcessingMetadata) { + metadataParser.onRead = pWav->onRead; + metadataParser.onSeek = pWav->onSeek; + metadataParser.pReadSeekUserData = pWav->pUserData; + metadataParser.stage = ma_dr_wav__metadata_parser_stage_count; + } + for (;;) { + ma_dr_wav_chunk_header header; + ma_uint64 chunkSize; + result = ma_dr_wav__read_chunk_header(pWav->onRead, pWav->pUserData, pWav->container, &cursor, &header); + if (result != MA_SUCCESS) { + break; + } + chunkSize = header.sizeInBytes; + if (!sequential && onChunk != NULL) { + ma_uint64 callbackBytesRead = onChunk(pChunkUserData, pWav->onRead, pWav->onSeek, pWav->pUserData, &header, pWav->container, &fmt); + if (callbackBytesRead > 0) { + if (ma_dr_wav__seek_from_start(pWav->onSeek, cursor, pWav->pUserData) == MA_FALSE) { + return MA_FALSE; + } + } + } + if (((pWav->container == ma_dr_wav_container_riff || pWav->container == ma_dr_wav_container_rifx || pWav->container == ma_dr_wav_container_rf64) && ma_dr_wav_fourcc_equal(header.id.fourcc, "fmt ")) || + ((pWav->container == ma_dr_wav_container_w64) && ma_dr_wav_guid_equal(header.id.guid, ma_dr_wavGUID_W64_FMT))) { + ma_uint8 fmtData[16]; + foundChunk_fmt = MA_TRUE; + if (pWav->onRead(pWav->pUserData, fmtData, sizeof(fmtData)) != sizeof(fmtData)) { + return MA_FALSE; + } + cursor += sizeof(fmtData); + fmt.formatTag = ma_dr_wav_bytes_to_u16_ex(fmtData + 0, pWav->container); + fmt.channels = ma_dr_wav_bytes_to_u16_ex(fmtData + 2, pWav->container); + fmt.sampleRate = ma_dr_wav_bytes_to_u32_ex(fmtData + 4, pWav->container); + fmt.avgBytesPerSec = ma_dr_wav_bytes_to_u32_ex(fmtData + 8, pWav->container); + fmt.blockAlign = ma_dr_wav_bytes_to_u16_ex(fmtData + 12, pWav->container); + fmt.bitsPerSample = ma_dr_wav_bytes_to_u16_ex(fmtData + 14, pWav->container); + fmt.extendedSize = 0; + fmt.validBitsPerSample = 0; + fmt.channelMask = 0; + MA_DR_WAV_ZERO_MEMORY(fmt.subFormat, sizeof(fmt.subFormat)); + if (header.sizeInBytes > 16) { + ma_uint8 fmt_cbSize[2]; + int bytesReadSoFar = 0; + if (pWav->onRead(pWav->pUserData, fmt_cbSize, sizeof(fmt_cbSize)) != sizeof(fmt_cbSize)) { + return MA_FALSE; + } + cursor += sizeof(fmt_cbSize); + bytesReadSoFar = 18; + fmt.extendedSize = ma_dr_wav_bytes_to_u16_ex(fmt_cbSize, pWav->container); + if (fmt.extendedSize > 0) { + if (fmt.formatTag == MA_DR_WAVE_FORMAT_EXTENSIBLE) { + if (fmt.extendedSize != 22) { + return MA_FALSE; + } + } + if (fmt.formatTag == MA_DR_WAVE_FORMAT_EXTENSIBLE) { + ma_uint8 fmtext[22]; + if (pWav->onRead(pWav->pUserData, fmtext, fmt.extendedSize) != fmt.extendedSize) { + return MA_FALSE; + } + fmt.validBitsPerSample = ma_dr_wav_bytes_to_u16_ex(fmtext + 0, pWav->container); + fmt.channelMask = ma_dr_wav_bytes_to_u32_ex(fmtext + 2, pWav->container); + ma_dr_wav_bytes_to_guid(fmtext + 6, fmt.subFormat); + } else { + if (pWav->onSeek(pWav->pUserData, fmt.extendedSize, MA_DR_WAV_SEEK_CUR) == MA_FALSE) { + return MA_FALSE; + } + } + cursor += fmt.extendedSize; + bytesReadSoFar += fmt.extendedSize; + } + if (pWav->onSeek(pWav->pUserData, (int)(header.sizeInBytes - bytesReadSoFar), MA_DR_WAV_SEEK_CUR) == MA_FALSE) { + return MA_FALSE; + } + cursor += (header.sizeInBytes - bytesReadSoFar); + } + if (header.paddingSize > 0) { + if (ma_dr_wav__seek_forward(pWav->onSeek, header.paddingSize, pWav->pUserData) == MA_FALSE) { + break; + } + cursor += header.paddingSize; + } + continue; + } + if (((pWav->container == ma_dr_wav_container_riff || pWav->container == ma_dr_wav_container_rifx || pWav->container == ma_dr_wav_container_rf64) && ma_dr_wav_fourcc_equal(header.id.fourcc, "data")) || + ((pWav->container == ma_dr_wav_container_w64) && ma_dr_wav_guid_equal(header.id.guid, ma_dr_wavGUID_W64_DATA))) { + foundChunk_data = MA_TRUE; + pWav->dataChunkDataPos = cursor; + if (pWav->container != ma_dr_wav_container_rf64) { + dataChunkSize = chunkSize; + } + if (sequential || !isProcessingMetadata) { + break; + } else { + chunkSize += header.paddingSize; + if (ma_dr_wav__seek_forward(pWav->onSeek, chunkSize, pWav->pUserData) == MA_FALSE) { + break; + } + cursor += chunkSize; + continue; + } + } + if (((pWav->container == ma_dr_wav_container_riff || pWav->container == ma_dr_wav_container_rifx || pWav->container == ma_dr_wav_container_rf64) && ma_dr_wav_fourcc_equal(header.id.fourcc, "fact")) || + ((pWav->container == ma_dr_wav_container_w64) && ma_dr_wav_guid_equal(header.id.guid, ma_dr_wavGUID_W64_FACT))) { + if (pWav->container == ma_dr_wav_container_riff || pWav->container == ma_dr_wav_container_rifx) { + ma_uint8 sampleCount[4]; + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, &sampleCount, 4, &cursor) != 4) { + return MA_FALSE; + } + chunkSize -= 4; + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ADPCM) { + sampleCountFromFactChunk = ma_dr_wav_bytes_to_u32_ex(sampleCount, pWav->container); + } else { + sampleCountFromFactChunk = 0; + } + } else if (pWav->container == ma_dr_wav_container_w64) { + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, &sampleCountFromFactChunk, 8, &cursor) != 8) { + return MA_FALSE; + } + chunkSize -= 8; + } else if (pWav->container == ma_dr_wav_container_rf64) { + } + chunkSize += header.paddingSize; + if (ma_dr_wav__seek_forward(pWav->onSeek, chunkSize, pWav->pUserData) == MA_FALSE) { + break; + } + cursor += chunkSize; + continue; + } + if (pWav->container == ma_dr_wav_container_aiff && ma_dr_wav_fourcc_equal(header.id.fourcc, "COMM")) { + ma_uint8 commData[24]; + ma_uint32 commDataBytesToRead; + ma_uint16 channels; + ma_uint32 frameCount; + ma_uint16 sampleSizeInBits; + ma_int64 sampleRate; + ma_uint16 compressionFormat; + foundChunk_fmt = MA_TRUE; + if (isAIFCFormType) { + commDataBytesToRead = 24; + if (header.sizeInBytes < commDataBytesToRead) { + return MA_FALSE; + } + } else { + commDataBytesToRead = 18; + if (header.sizeInBytes != commDataBytesToRead) { + return MA_FALSE; + } + } + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, commData, commDataBytesToRead, &cursor) != commDataBytesToRead) { + return MA_FALSE; + } + channels = ma_dr_wav_bytes_to_u16_ex (commData + 0, pWav->container); + frameCount = ma_dr_wav_bytes_to_u32_ex (commData + 2, pWav->container); + sampleSizeInBits = ma_dr_wav_bytes_to_u16_ex (commData + 6, pWav->container); + sampleRate = ma_dr_wav_aiff_extented_to_s64(commData + 8); + if (sampleRate < 0 || sampleRate > 0xFFFFFFFF) { + return MA_FALSE; + } + if (isAIFCFormType) { + const ma_uint8* type = commData + 18; + if (ma_dr_wav_fourcc_equal(type, "NONE")) { + compressionFormat = MA_DR_WAVE_FORMAT_PCM; + } else if (ma_dr_wav_fourcc_equal(type, "raw ")) { + compressionFormat = MA_DR_WAVE_FORMAT_PCM; + if (sampleSizeInBits == 8) { + pWav->aiff.isUnsigned = MA_TRUE; + } + } else if (ma_dr_wav_fourcc_equal(type, "sowt")) { + compressionFormat = MA_DR_WAVE_FORMAT_PCM; + pWav->aiff.isLE = MA_TRUE; + } else if (ma_dr_wav_fourcc_equal(type, "fl32") || ma_dr_wav_fourcc_equal(type, "fl64") || ma_dr_wav_fourcc_equal(type, "FL32") || ma_dr_wav_fourcc_equal(type, "FL64")) { + compressionFormat = MA_DR_WAVE_FORMAT_IEEE_FLOAT; + } else if (ma_dr_wav_fourcc_equal(type, "alaw") || ma_dr_wav_fourcc_equal(type, "ALAW")) { + compressionFormat = MA_DR_WAVE_FORMAT_ALAW; + } else if (ma_dr_wav_fourcc_equal(type, "ulaw") || ma_dr_wav_fourcc_equal(type, "ULAW")) { + compressionFormat = MA_DR_WAVE_FORMAT_MULAW; + } else if (ma_dr_wav_fourcc_equal(type, "ima4")) { + compressionFormat = MA_DR_WAVE_FORMAT_DVI_ADPCM; + sampleSizeInBits = 4; + (void)compressionFormat; + (void)sampleSizeInBits; + return MA_FALSE; + } else { + return MA_FALSE; + } + } else { + compressionFormat = MA_DR_WAVE_FORMAT_PCM; + } + aiffFrameCount = frameCount; + fmt.formatTag = compressionFormat; + fmt.channels = channels; + fmt.sampleRate = (ma_uint32)sampleRate; + fmt.bitsPerSample = sampleSizeInBits; + fmt.blockAlign = (ma_uint16)(fmt.channels * fmt.bitsPerSample / 8); + fmt.avgBytesPerSec = fmt.blockAlign * fmt.sampleRate; + if (fmt.blockAlign == 0 && compressionFormat == MA_DR_WAVE_FORMAT_DVI_ADPCM) { + fmt.blockAlign = 34 * fmt.channels; + } + if (compressionFormat == MA_DR_WAVE_FORMAT_ALAW || compressionFormat == MA_DR_WAVE_FORMAT_MULAW) { + if (fmt.bitsPerSample > 8) { + fmt.bitsPerSample = 8; + fmt.blockAlign = fmt.channels; + } + } + fmt.bitsPerSample += (fmt.bitsPerSample & 7); + if (isAIFCFormType) { + if (ma_dr_wav__seek_forward(pWav->onSeek, (chunkSize - commDataBytesToRead), pWav->pUserData) == MA_FALSE) { + return MA_FALSE; + } + cursor += (chunkSize - commDataBytesToRead); + } + continue; + } + if (pWav->container == ma_dr_wav_container_aiff && ma_dr_wav_fourcc_equal(header.id.fourcc, "SSND")) { + ma_uint8 offsetAndBlockSizeData[8]; + ma_uint32 offset; + foundChunk_data = MA_TRUE; + if (ma_dr_wav__on_read(pWav->onRead, pWav->pUserData, offsetAndBlockSizeData, sizeof(offsetAndBlockSizeData), &cursor) != sizeof(offsetAndBlockSizeData)) { + return MA_FALSE; + } + offset = ma_dr_wav_bytes_to_u32_ex(offsetAndBlockSizeData + 0, pWav->container); + pWav->dataChunkDataPos = cursor + offset; + dataChunkSize = chunkSize; + if (dataChunkSize > offset) { + dataChunkSize -= offset; + } else { + dataChunkSize = 0; + } + if (sequential) { + if (foundChunk_fmt) { + if (ma_dr_wav__seek_forward(pWav->onSeek, offset, pWav->pUserData) == MA_FALSE) { + return MA_FALSE; + } + cursor += offset; + break; + } else { + return MA_FALSE; + } + } else { + chunkSize += header.paddingSize; + chunkSize -= sizeof(offsetAndBlockSizeData); + if (ma_dr_wav__seek_forward(pWav->onSeek, chunkSize, pWav->pUserData) == MA_FALSE) { + break; + } + cursor += chunkSize; + continue; + } + } + if (isProcessingMetadata) { + ma_dr_wav__metadata_process_chunk(&metadataParser, &header, ma_dr_wav_metadata_type_all_including_unknown); + if (ma_dr_wav__seek_from_start(pWav->onSeek, cursor, pWav->pUserData) == MA_FALSE) { + break; + } + } + chunkSize += header.paddingSize; + if (ma_dr_wav__seek_forward(pWav->onSeek, chunkSize, pWav->pUserData) == MA_FALSE) { + break; + } + cursor += chunkSize; + } + if (!foundChunk_fmt || !foundChunk_data) { + return MA_FALSE; + } + if ((fmt.sampleRate == 0 || fmt.sampleRate > MA_DR_WAV_MAX_SAMPLE_RATE ) || + (fmt.channels == 0 || fmt.channels > MA_DR_WAV_MAX_CHANNELS ) || + (fmt.bitsPerSample == 0 || fmt.bitsPerSample > MA_DR_WAV_MAX_BITS_PER_SAMPLE) || + fmt.blockAlign == 0) { + return MA_FALSE; + } + translatedFormatTag = fmt.formatTag; + if (translatedFormatTag == MA_DR_WAVE_FORMAT_EXTENSIBLE) { + translatedFormatTag = ma_dr_wav_bytes_to_u16_ex(fmt.subFormat + 0, pWav->container); + } + if (!sequential) { + if (!ma_dr_wav__seek_from_start(pWav->onSeek, pWav->dataChunkDataPos, pWav->pUserData)) { + return MA_FALSE; + } + cursor = pWav->dataChunkDataPos; + } + if (isProcessingMetadata && metadataParser.metadataCount > 0) { + if (ma_dr_wav__seek_from_start(pWav->onSeek, metadataStartPos, pWav->pUserData) == MA_FALSE) { + return MA_FALSE; + } + result = ma_dr_wav__metadata_alloc(&metadataParser, &pWav->allocationCallbacks); + if (result != MA_SUCCESS) { + return MA_FALSE; + } + metadataParser.stage = ma_dr_wav__metadata_parser_stage_read; + for (;;) { + ma_dr_wav_chunk_header header; + ma_uint64 metadataBytesRead; + result = ma_dr_wav__read_chunk_header(pWav->onRead, pWav->pUserData, pWav->container, &cursor, &header); + if (result != MA_SUCCESS) { + break; + } + metadataBytesRead = ma_dr_wav__metadata_process_chunk(&metadataParser, &header, ma_dr_wav_metadata_type_all_including_unknown); + if (ma_dr_wav__seek_forward(pWav->onSeek, (header.sizeInBytes + header.paddingSize) - metadataBytesRead, pWav->pUserData) == MA_FALSE) { + ma_dr_wav_free(metadataParser.pMetadata, &pWav->allocationCallbacks); + return MA_FALSE; + } + } + pWav->pMetadata = metadataParser.pMetadata; + pWav->metadataCount = metadataParser.metadataCount; + } + if (pWav->onTell != NULL && pWav->onSeek != NULL) { + if (pWav->onSeek(pWav->pUserData, 0, MA_DR_WAV_SEEK_END) == MA_TRUE) { + ma_int64 fileSize; + if (pWav->onTell(pWav->pUserData, &fileSize)) { + if (dataChunkSize + pWav->dataChunkDataPos > (ma_uint64)fileSize) { + dataChunkSize = (ma_uint64)fileSize - pWav->dataChunkDataPos; + } + } + } else { + } + } + if (dataChunkSize == 0xFFFFFFFF && (pWav->container == ma_dr_wav_container_riff || pWav->container == ma_dr_wav_container_rifx) && pWav->isSequentialWrite == MA_FALSE) { + dataChunkSize = 0; + for (;;) { + ma_uint8 temp[4096]; + size_t bytesRead = pWav->onRead(pWav->pUserData, temp, sizeof(temp)); + dataChunkSize += bytesRead; + if (bytesRead < sizeof(temp)) { + break; + } + } + } + if (ma_dr_wav__seek_from_start(pWav->onSeek, pWav->dataChunkDataPos, pWav->pUserData) == MA_FALSE) { + ma_dr_wav_free(pWav->pMetadata, &pWav->allocationCallbacks); + return MA_FALSE; + } + pWav->fmt = fmt; + pWav->sampleRate = fmt.sampleRate; + pWav->channels = fmt.channels; + pWav->bitsPerSample = fmt.bitsPerSample; + pWav->translatedFormatTag = translatedFormatTag; + if (!ma_dr_wav__is_compressed_format_tag(translatedFormatTag)) { + ma_uint32 bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame > 0) { + dataChunkSize -= (dataChunkSize % bytesPerFrame); + } + } + pWav->bytesRemaining = dataChunkSize; + pWav->dataChunkDataSize = dataChunkSize; + if (sampleCountFromFactChunk != 0) { + pWav->totalPCMFrameCount = sampleCountFromFactChunk; + } else if (aiffFrameCount != 0) { + pWav->totalPCMFrameCount = aiffFrameCount; + } else { + ma_uint32 bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + ma_dr_wav_free(pWav->pMetadata, &pWav->allocationCallbacks); + return MA_FALSE; + } + pWav->totalPCMFrameCount = dataChunkSize / bytesPerFrame; + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ADPCM) { + ma_uint64 totalBlockHeaderSizeInBytes; + ma_uint64 blockCount = dataChunkSize / fmt.blockAlign; + if ((blockCount * fmt.blockAlign) < dataChunkSize) { + blockCount += 1; + } + totalBlockHeaderSizeInBytes = blockCount * (6*fmt.channels); + pWav->totalPCMFrameCount = ((dataChunkSize - totalBlockHeaderSizeInBytes) * 2) / fmt.channels; + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_DVI_ADPCM) { + ma_uint64 totalBlockHeaderSizeInBytes; + ma_uint64 blockCount = dataChunkSize / fmt.blockAlign; + if ((blockCount * fmt.blockAlign) < dataChunkSize) { + blockCount += 1; + } + totalBlockHeaderSizeInBytes = blockCount * (4*fmt.channels); + pWav->totalPCMFrameCount = ((dataChunkSize - totalBlockHeaderSizeInBytes) * 2) / fmt.channels; + pWav->totalPCMFrameCount += blockCount; + } + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ADPCM || pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_DVI_ADPCM) { + if (pWav->channels > 2) { + ma_dr_wav_free(pWav->pMetadata, &pWav->allocationCallbacks); + return MA_FALSE; + } + } + if (ma_dr_wav_get_bytes_per_pcm_frame(pWav) == 0) { + ma_dr_wav_free(pWav->pMetadata, &pWav->allocationCallbacks); + return MA_FALSE; + } +#ifdef MA_DR_WAV_LIBSNDFILE_COMPAT + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ADPCM) { + ma_uint64 blockCount = dataChunkSize / fmt.blockAlign; + pWav->totalPCMFrameCount = (((blockCount * (fmt.blockAlign - (6*pWav->channels))) * 2)) / fmt.channels; + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_DVI_ADPCM) { + ma_uint64 blockCount = dataChunkSize / fmt.blockAlign; + pWav->totalPCMFrameCount = (((blockCount * (fmt.blockAlign - (4*pWav->channels))) * 2) + (blockCount * pWav->channels)) / fmt.channels; + } +#endif + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_wav_init(ma_dr_wav* pWav, ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_wav_init_ex(pWav, onRead, onSeek, onTell, NULL, pUserData, NULL, 0, pAllocationCallbacks); +} +MA_API ma_bool32 ma_dr_wav_init_ex(ma_dr_wav* pWav, ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, ma_dr_wav_chunk_proc onChunk, void* pReadSeekTellUserData, void* pChunkUserData, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (!ma_dr_wav_preinit(pWav, onRead, onSeek, onTell, pReadSeekTellUserData, pAllocationCallbacks)) { + return MA_FALSE; + } + return ma_dr_wav_init__internal(pWav, onChunk, pChunkUserData, flags); +} +MA_API ma_bool32 ma_dr_wav_init_with_metadata(ma_dr_wav* pWav, ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, void* pUserData, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (!ma_dr_wav_preinit(pWav, onRead, onSeek, onTell, pUserData, pAllocationCallbacks)) { + return MA_FALSE; + } + return ma_dr_wav_init__internal(pWav, NULL, NULL, flags | MA_DR_WAV_WITH_METADATA); +} +MA_API ma_dr_wav_metadata* ma_dr_wav_take_ownership_of_metadata(ma_dr_wav* pWav) +{ + ma_dr_wav_metadata *result = pWav->pMetadata; + pWav->pMetadata = NULL; + pWav->metadataCount = 0; + return result; +} +MA_PRIVATE size_t ma_dr_wav__write(ma_dr_wav* pWav, const void* pData, size_t dataSize) +{ + MA_DR_WAV_ASSERT(pWav != NULL); + MA_DR_WAV_ASSERT(pWav->onWrite != NULL); + return pWav->onWrite(pWav->pUserData, pData, dataSize); +} +MA_PRIVATE size_t ma_dr_wav__write_byte(ma_dr_wav* pWav, ma_uint8 byte) +{ + MA_DR_WAV_ASSERT(pWav != NULL); + MA_DR_WAV_ASSERT(pWav->onWrite != NULL); + return pWav->onWrite(pWav->pUserData, &byte, 1); +} +MA_PRIVATE size_t ma_dr_wav__write_u16ne_to_le(ma_dr_wav* pWav, ma_uint16 value) +{ + MA_DR_WAV_ASSERT(pWav != NULL); + MA_DR_WAV_ASSERT(pWav->onWrite != NULL); + if (!ma_dr_wav__is_little_endian()) { + value = ma_dr_wav__bswap16(value); + } + return ma_dr_wav__write(pWav, &value, 2); +} +MA_PRIVATE size_t ma_dr_wav__write_u32ne_to_le(ma_dr_wav* pWav, ma_uint32 value) +{ + MA_DR_WAV_ASSERT(pWav != NULL); + MA_DR_WAV_ASSERT(pWav->onWrite != NULL); + if (!ma_dr_wav__is_little_endian()) { + value = ma_dr_wav__bswap32(value); + } + return ma_dr_wav__write(pWav, &value, 4); +} +MA_PRIVATE size_t ma_dr_wav__write_u64ne_to_le(ma_dr_wav* pWav, ma_uint64 value) +{ + MA_DR_WAV_ASSERT(pWav != NULL); + MA_DR_WAV_ASSERT(pWav->onWrite != NULL); + if (!ma_dr_wav__is_little_endian()) { + value = ma_dr_wav__bswap64(value); + } + return ma_dr_wav__write(pWav, &value, 8); +} +MA_PRIVATE size_t ma_dr_wav__write_f32ne_to_le(ma_dr_wav* pWav, float value) +{ + union { + ma_uint32 u32; + float f32; + } u; + MA_DR_WAV_ASSERT(pWav != NULL); + MA_DR_WAV_ASSERT(pWav->onWrite != NULL); + u.f32 = value; + if (!ma_dr_wav__is_little_endian()) { + u.u32 = ma_dr_wav__bswap32(u.u32); + } + return ma_dr_wav__write(pWav, &u.u32, 4); +} +MA_PRIVATE size_t ma_dr_wav__write_or_count(ma_dr_wav* pWav, const void* pData, size_t dataSize) +{ + if (pWav == NULL) { + return dataSize; + } + return ma_dr_wav__write(pWav, pData, dataSize); +} +MA_PRIVATE size_t ma_dr_wav__write_or_count_byte(ma_dr_wav* pWav, ma_uint8 byte) +{ + if (pWav == NULL) { + return 1; + } + return ma_dr_wav__write_byte(pWav, byte); +} +MA_PRIVATE size_t ma_dr_wav__write_or_count_u16ne_to_le(ma_dr_wav* pWav, ma_uint16 value) +{ + if (pWav == NULL) { + return 2; + } + return ma_dr_wav__write_u16ne_to_le(pWav, value); +} +MA_PRIVATE size_t ma_dr_wav__write_or_count_u32ne_to_le(ma_dr_wav* pWav, ma_uint32 value) +{ + if (pWav == NULL) { + return 4; + } + return ma_dr_wav__write_u32ne_to_le(pWav, value); +} +#if 0 +MA_PRIVATE size_t ma_dr_wav__write_or_count_u64ne_to_le(ma_dr_wav* pWav, ma_uint64 value) +{ + if (pWav == NULL) { + return 8; + } + return ma_dr_wav__write_u64ne_to_le(pWav, value); +} +#endif +MA_PRIVATE size_t ma_dr_wav__write_or_count_f32ne_to_le(ma_dr_wav* pWav, float value) +{ + if (pWav == NULL) { + return 4; + } + return ma_dr_wav__write_f32ne_to_le(pWav, value); +} +MA_PRIVATE size_t ma_dr_wav__write_or_count_string_to_fixed_size_buf(ma_dr_wav* pWav, char* str, size_t bufFixedSize) +{ + size_t len; + if (pWav == NULL) { + return bufFixedSize; + } + len = ma_dr_wav__strlen_clamped(str, bufFixedSize); + ma_dr_wav__write_or_count(pWav, str, len); + if (len < bufFixedSize) { + size_t i; + for (i = 0; i < bufFixedSize - len; ++i) { + ma_dr_wav__write_byte(pWav, 0); + } + } + return bufFixedSize; +} +MA_PRIVATE size_t ma_dr_wav__write_or_count_metadata(ma_dr_wav* pWav, ma_dr_wav_metadata* pMetadatas, ma_uint32 metadataCount) +{ + size_t bytesWritten = 0; + ma_bool32 hasListAdtl = MA_FALSE; + ma_bool32 hasListInfo = MA_FALSE; + ma_uint32 iMetadata; + if (pMetadatas == NULL || metadataCount == 0) { + return 0; + } + for (iMetadata = 0; iMetadata < metadataCount; ++iMetadata) { + ma_dr_wav_metadata* pMetadata = &pMetadatas[iMetadata]; + ma_uint32 chunkSize = 0; + if ((pMetadata->type & ma_dr_wav_metadata_type_list_all_info_strings) || (pMetadata->type == ma_dr_wav_metadata_type_unknown && pMetadata->data.unknown.chunkLocation == ma_dr_wav_metadata_location_inside_info_list)) { + hasListInfo = MA_TRUE; + } + if ((pMetadata->type & ma_dr_wav_metadata_type_list_all_adtl) || (pMetadata->type == ma_dr_wav_metadata_type_unknown && pMetadata->data.unknown.chunkLocation == ma_dr_wav_metadata_location_inside_adtl_list)) { + hasListAdtl = MA_TRUE; + } + switch (pMetadata->type) { + case ma_dr_wav_metadata_type_smpl: + { + ma_uint32 iLoop; + chunkSize = MA_DR_WAV_SMPL_BYTES + MA_DR_WAV_SMPL_LOOP_BYTES * pMetadata->data.smpl.sampleLoopCount + pMetadata->data.smpl.samplerSpecificDataSizeInBytes; + bytesWritten += ma_dr_wav__write_or_count(pWav, "smpl", 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, chunkSize); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.manufacturerId); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.productId); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.samplePeriodNanoseconds); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.midiUnityNote); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.midiPitchFraction); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.smpteFormat); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.smpteOffset); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.sampleLoopCount); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.samplerSpecificDataSizeInBytes); + for (iLoop = 0; iLoop < pMetadata->data.smpl.sampleLoopCount; ++iLoop) { + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.pLoops[iLoop].cuePointId); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.pLoops[iLoop].type); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.pLoops[iLoop].firstSampleOffset); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.pLoops[iLoop].lastSampleOffset); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.pLoops[iLoop].sampleFraction); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.smpl.pLoops[iLoop].playCount); + } + if (pMetadata->data.smpl.samplerSpecificDataSizeInBytes > 0) { + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.smpl.pSamplerSpecificData, pMetadata->data.smpl.samplerSpecificDataSizeInBytes); + } + } break; + case ma_dr_wav_metadata_type_inst: + { + chunkSize = MA_DR_WAV_INST_BYTES; + bytesWritten += ma_dr_wav__write_or_count(pWav, "inst", 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, chunkSize); + bytesWritten += ma_dr_wav__write_or_count(pWav, &pMetadata->data.inst.midiUnityNote, 1); + bytesWritten += ma_dr_wav__write_or_count(pWav, &pMetadata->data.inst.fineTuneCents, 1); + bytesWritten += ma_dr_wav__write_or_count(pWav, &pMetadata->data.inst.gainDecibels, 1); + bytesWritten += ma_dr_wav__write_or_count(pWav, &pMetadata->data.inst.lowNote, 1); + bytesWritten += ma_dr_wav__write_or_count(pWav, &pMetadata->data.inst.highNote, 1); + bytesWritten += ma_dr_wav__write_or_count(pWav, &pMetadata->data.inst.lowVelocity, 1); + bytesWritten += ma_dr_wav__write_or_count(pWav, &pMetadata->data.inst.highVelocity, 1); + } break; + case ma_dr_wav_metadata_type_cue: + { + ma_uint32 iCuePoint; + chunkSize = MA_DR_WAV_CUE_BYTES + MA_DR_WAV_CUE_POINT_BYTES * pMetadata->data.cue.cuePointCount; + bytesWritten += ma_dr_wav__write_or_count(pWav, "cue ", 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, chunkSize); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.cue.cuePointCount); + for (iCuePoint = 0; iCuePoint < pMetadata->data.cue.cuePointCount; ++iCuePoint) { + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.cue.pCuePoints[iCuePoint].id); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.cue.pCuePoints[iCuePoint].playOrderPosition); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.cue.pCuePoints[iCuePoint].dataChunkId, 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.cue.pCuePoints[iCuePoint].chunkStart); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.cue.pCuePoints[iCuePoint].blockStart); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.cue.pCuePoints[iCuePoint].sampleOffset); + } + } break; + case ma_dr_wav_metadata_type_acid: + { + chunkSize = MA_DR_WAV_ACID_BYTES; + bytesWritten += ma_dr_wav__write_or_count(pWav, "acid", 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, chunkSize); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.acid.flags); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.acid.midiUnityNote); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.acid.reserved1); + bytesWritten += ma_dr_wav__write_or_count_f32ne_to_le(pWav, pMetadata->data.acid.reserved2); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.acid.numBeats); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.acid.meterDenominator); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.acid.meterNumerator); + bytesWritten += ma_dr_wav__write_or_count_f32ne_to_le(pWav, pMetadata->data.acid.tempo); + } break; + case ma_dr_wav_metadata_type_bext: + { + char reservedBuf[MA_DR_WAV_BEXT_RESERVED_BYTES]; + ma_uint32 timeReferenceLow; + ma_uint32 timeReferenceHigh; + chunkSize = MA_DR_WAV_BEXT_BYTES + pMetadata->data.bext.codingHistorySize; + bytesWritten += ma_dr_wav__write_or_count(pWav, "bext", 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, chunkSize); + bytesWritten += ma_dr_wav__write_or_count_string_to_fixed_size_buf(pWav, pMetadata->data.bext.pDescription, MA_DR_WAV_BEXT_DESCRIPTION_BYTES); + bytesWritten += ma_dr_wav__write_or_count_string_to_fixed_size_buf(pWav, pMetadata->data.bext.pOriginatorName, MA_DR_WAV_BEXT_ORIGINATOR_NAME_BYTES); + bytesWritten += ma_dr_wav__write_or_count_string_to_fixed_size_buf(pWav, pMetadata->data.bext.pOriginatorReference, MA_DR_WAV_BEXT_ORIGINATOR_REF_BYTES); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.bext.pOriginationDate, sizeof(pMetadata->data.bext.pOriginationDate)); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.bext.pOriginationTime, sizeof(pMetadata->data.bext.pOriginationTime)); + timeReferenceLow = (ma_uint32)(pMetadata->data.bext.timeReference & 0xFFFFFFFF); + timeReferenceHigh = (ma_uint32)(pMetadata->data.bext.timeReference >> 32); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, timeReferenceLow); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, timeReferenceHigh); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.bext.version); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.bext.pUMID, MA_DR_WAV_BEXT_UMID_BYTES); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.bext.loudnessValue); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.bext.loudnessRange); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.bext.maxTruePeakLevel); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.bext.maxMomentaryLoudness); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.bext.maxShortTermLoudness); + MA_DR_WAV_ZERO_MEMORY(reservedBuf, sizeof(reservedBuf)); + bytesWritten += ma_dr_wav__write_or_count(pWav, reservedBuf, sizeof(reservedBuf)); + if (pMetadata->data.bext.codingHistorySize > 0) { + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.bext.pCodingHistory, pMetadata->data.bext.codingHistorySize); + } + } break; + case ma_dr_wav_metadata_type_unknown: + { + if (pMetadata->data.unknown.chunkLocation == ma_dr_wav_metadata_location_top_level) { + chunkSize = pMetadata->data.unknown.dataSizeInBytes; + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.unknown.id, 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, chunkSize); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.unknown.pData, pMetadata->data.unknown.dataSizeInBytes); + } + } break; + default: break; + } + if ((chunkSize % 2) != 0) { + bytesWritten += ma_dr_wav__write_or_count_byte(pWav, 0); + } + } + if (hasListInfo) { + ma_uint32 chunkSize = 4; + for (iMetadata = 0; iMetadata < metadataCount; ++iMetadata) { + ma_dr_wav_metadata* pMetadata = &pMetadatas[iMetadata]; + if ((pMetadata->type & ma_dr_wav_metadata_type_list_all_info_strings)) { + chunkSize += 8; + chunkSize += pMetadata->data.infoText.stringLength + 1; + } else if (pMetadata->type == ma_dr_wav_metadata_type_unknown && pMetadata->data.unknown.chunkLocation == ma_dr_wav_metadata_location_inside_info_list) { + chunkSize += 8; + chunkSize += pMetadata->data.unknown.dataSizeInBytes; + } + if ((chunkSize % 2) != 0) { + chunkSize += 1; + } + } + bytesWritten += ma_dr_wav__write_or_count(pWav, "LIST", 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, chunkSize); + bytesWritten += ma_dr_wav__write_or_count(pWav, "INFO", 4); + for (iMetadata = 0; iMetadata < metadataCount; ++iMetadata) { + ma_dr_wav_metadata* pMetadata = &pMetadatas[iMetadata]; + ma_uint32 subchunkSize = 0; + if (pMetadata->type & ma_dr_wav_metadata_type_list_all_info_strings) { + const char* pID = NULL; + switch (pMetadata->type) { + case ma_dr_wav_metadata_type_list_info_software: pID = "ISFT"; break; + case ma_dr_wav_metadata_type_list_info_copyright: pID = "ICOP"; break; + case ma_dr_wav_metadata_type_list_info_title: pID = "INAM"; break; + case ma_dr_wav_metadata_type_list_info_artist: pID = "IART"; break; + case ma_dr_wav_metadata_type_list_info_comment: pID = "ICMT"; break; + case ma_dr_wav_metadata_type_list_info_date: pID = "ICRD"; break; + case ma_dr_wav_metadata_type_list_info_genre: pID = "IGNR"; break; + case ma_dr_wav_metadata_type_list_info_album: pID = "IPRD"; break; + case ma_dr_wav_metadata_type_list_info_tracknumber: pID = "ITRK"; break; + case ma_dr_wav_metadata_type_list_info_location: pID = "IARL"; break; + case ma_dr_wav_metadata_type_list_info_organization: pID = "ICMS"; break; + case ma_dr_wav_metadata_type_list_info_keywords: pID = "IKEY"; break; + case ma_dr_wav_metadata_type_list_info_medium: pID = "IMED"; break; + case ma_dr_wav_metadata_type_list_info_description: pID = "ISBJ"; break; + default: break; + } + MA_DR_WAV_ASSERT(pID != NULL); + if (pMetadata->data.infoText.stringLength) { + subchunkSize = pMetadata->data.infoText.stringLength + 1; + bytesWritten += ma_dr_wav__write_or_count(pWav, pID, 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, subchunkSize); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.infoText.pString, pMetadata->data.infoText.stringLength); + bytesWritten += ma_dr_wav__write_or_count_byte(pWav, '\0'); + } + } else if (pMetadata->type == ma_dr_wav_metadata_type_unknown && pMetadata->data.unknown.chunkLocation == ma_dr_wav_metadata_location_inside_info_list) { + if (pMetadata->data.unknown.dataSizeInBytes) { + subchunkSize = pMetadata->data.unknown.dataSizeInBytes; + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.unknown.id, 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.unknown.dataSizeInBytes); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.unknown.pData, subchunkSize); + } + } + if ((subchunkSize % 2) != 0) { + bytesWritten += ma_dr_wav__write_or_count_byte(pWav, 0); + } + } + } + if (hasListAdtl) { + ma_uint32 chunkSize = 4; + for (iMetadata = 0; iMetadata < metadataCount; ++iMetadata) { + ma_dr_wav_metadata* pMetadata = &pMetadatas[iMetadata]; + switch (pMetadata->type) + { + case ma_dr_wav_metadata_type_list_label: + case ma_dr_wav_metadata_type_list_note: + { + chunkSize += 8; + chunkSize += MA_DR_WAV_LIST_LABEL_OR_NOTE_BYTES; + if (pMetadata->data.labelOrNote.stringLength > 0) { + chunkSize += pMetadata->data.labelOrNote.stringLength + 1; + } + } break; + case ma_dr_wav_metadata_type_list_labelled_cue_region: + { + chunkSize += 8; + chunkSize += MA_DR_WAV_LIST_LABELLED_TEXT_BYTES; + if (pMetadata->data.labelledCueRegion.stringLength > 0) { + chunkSize += pMetadata->data.labelledCueRegion.stringLength + 1; + } + } break; + case ma_dr_wav_metadata_type_unknown: + { + if (pMetadata->data.unknown.chunkLocation == ma_dr_wav_metadata_location_inside_adtl_list) { + chunkSize += 8; + chunkSize += pMetadata->data.unknown.dataSizeInBytes; + } + } break; + default: break; + } + if ((chunkSize % 2) != 0) { + chunkSize += 1; + } + } + bytesWritten += ma_dr_wav__write_or_count(pWav, "LIST", 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, chunkSize); + bytesWritten += ma_dr_wav__write_or_count(pWav, "adtl", 4); + for (iMetadata = 0; iMetadata < metadataCount; ++iMetadata) { + ma_dr_wav_metadata* pMetadata = &pMetadatas[iMetadata]; + ma_uint32 subchunkSize = 0; + switch (pMetadata->type) + { + case ma_dr_wav_metadata_type_list_label: + case ma_dr_wav_metadata_type_list_note: + { + if (pMetadata->data.labelOrNote.stringLength > 0) { + const char *pID = NULL; + if (pMetadata->type == ma_dr_wav_metadata_type_list_label) { + pID = "labl"; + } + else if (pMetadata->type == ma_dr_wav_metadata_type_list_note) { + pID = "note"; + } + MA_DR_WAV_ASSERT(pID != NULL); + MA_DR_WAV_ASSERT(pMetadata->data.labelOrNote.pString != NULL); + subchunkSize = MA_DR_WAV_LIST_LABEL_OR_NOTE_BYTES; + bytesWritten += ma_dr_wav__write_or_count(pWav, pID, 4); + subchunkSize += pMetadata->data.labelOrNote.stringLength + 1; + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, subchunkSize); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.labelOrNote.cuePointId); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.labelOrNote.pString, pMetadata->data.labelOrNote.stringLength); + bytesWritten += ma_dr_wav__write_or_count_byte(pWav, '\0'); + } + } break; + case ma_dr_wav_metadata_type_list_labelled_cue_region: + { + subchunkSize = MA_DR_WAV_LIST_LABELLED_TEXT_BYTES; + bytesWritten += ma_dr_wav__write_or_count(pWav, "ltxt", 4); + if (pMetadata->data.labelledCueRegion.stringLength > 0) { + subchunkSize += pMetadata->data.labelledCueRegion.stringLength + 1; + } + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, subchunkSize); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.labelledCueRegion.cuePointId); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, pMetadata->data.labelledCueRegion.sampleLength); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.labelledCueRegion.purposeId, 4); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.labelledCueRegion.country); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.labelledCueRegion.language); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.labelledCueRegion.dialect); + bytesWritten += ma_dr_wav__write_or_count_u16ne_to_le(pWav, pMetadata->data.labelledCueRegion.codePage); + if (pMetadata->data.labelledCueRegion.stringLength > 0) { + MA_DR_WAV_ASSERT(pMetadata->data.labelledCueRegion.pString != NULL); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.labelledCueRegion.pString, pMetadata->data.labelledCueRegion.stringLength); + bytesWritten += ma_dr_wav__write_or_count_byte(pWav, '\0'); + } + } break; + case ma_dr_wav_metadata_type_unknown: + { + if (pMetadata->data.unknown.chunkLocation == ma_dr_wav_metadata_location_inside_adtl_list) { + subchunkSize = pMetadata->data.unknown.dataSizeInBytes; + MA_DR_WAV_ASSERT(pMetadata->data.unknown.pData != NULL); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.unknown.id, 4); + bytesWritten += ma_dr_wav__write_or_count_u32ne_to_le(pWav, subchunkSize); + bytesWritten += ma_dr_wav__write_or_count(pWav, pMetadata->data.unknown.pData, subchunkSize); + } + } break; + default: break; + } + if ((subchunkSize % 2) != 0) { + bytesWritten += ma_dr_wav__write_or_count_byte(pWav, 0); + } + } + } + MA_DR_WAV_ASSERT((bytesWritten % 2) == 0); + return bytesWritten; +} +MA_PRIVATE ma_uint32 ma_dr_wav__riff_chunk_size_riff(ma_uint64 dataChunkSize, ma_dr_wav_metadata* pMetadata, ma_uint32 metadataCount) +{ + ma_uint64 chunkSize = 4 + 24 + (ma_uint64)ma_dr_wav__write_or_count_metadata(NULL, pMetadata, metadataCount) + 8 + dataChunkSize + ma_dr_wav__chunk_padding_size_riff(dataChunkSize); + if (chunkSize > 0xFFFFFFFFUL) { + chunkSize = 0xFFFFFFFFUL; + } + return (ma_uint32)chunkSize; +} +MA_PRIVATE ma_uint32 ma_dr_wav__data_chunk_size_riff(ma_uint64 dataChunkSize) +{ + if (dataChunkSize <= 0xFFFFFFFFUL) { + return (ma_uint32)dataChunkSize; + } else { + return 0xFFFFFFFFUL; + } +} +MA_PRIVATE ma_uint64 ma_dr_wav__riff_chunk_size_w64(ma_uint64 dataChunkSize) +{ + ma_uint64 dataSubchunkPaddingSize = ma_dr_wav__chunk_padding_size_w64(dataChunkSize); + return 80 + 24 + dataChunkSize + dataSubchunkPaddingSize; +} +MA_PRIVATE ma_uint64 ma_dr_wav__data_chunk_size_w64(ma_uint64 dataChunkSize) +{ + return 24 + dataChunkSize; +} +MA_PRIVATE ma_uint64 ma_dr_wav__riff_chunk_size_rf64(ma_uint64 dataChunkSize, ma_dr_wav_metadata *metadata, ma_uint32 numMetadata) +{ + ma_uint64 chunkSize = 4 + 36 + 24 + (ma_uint64)ma_dr_wav__write_or_count_metadata(NULL, metadata, numMetadata) + 8 + dataChunkSize + ma_dr_wav__chunk_padding_size_riff(dataChunkSize); + if (chunkSize > 0xFFFFFFFFUL) { + chunkSize = 0xFFFFFFFFUL; + } + return chunkSize; +} +MA_PRIVATE ma_uint64 ma_dr_wav__data_chunk_size_rf64(ma_uint64 dataChunkSize) +{ + return dataChunkSize; +} +MA_PRIVATE ma_bool32 ma_dr_wav_preinit_write(ma_dr_wav* pWav, const ma_dr_wav_data_format* pFormat, ma_bool32 isSequential, ma_dr_wav_write_proc onWrite, ma_dr_wav_seek_proc onSeek, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pWav == NULL || onWrite == NULL) { + return MA_FALSE; + } + if (!isSequential && onSeek == NULL) { + return MA_FALSE; + } + if (pFormat->format == MA_DR_WAVE_FORMAT_EXTENSIBLE) { + return MA_FALSE; + } + if (pFormat->format == MA_DR_WAVE_FORMAT_ADPCM || pFormat->format == MA_DR_WAVE_FORMAT_DVI_ADPCM) { + return MA_FALSE; + } + MA_DR_WAV_ZERO_MEMORY(pWav, sizeof(*pWav)); + pWav->onWrite = onWrite; + pWav->onSeek = onSeek; + pWav->pUserData = pUserData; + pWav->allocationCallbacks = ma_dr_wav_copy_allocation_callbacks_or_defaults(pAllocationCallbacks); + if (pWav->allocationCallbacks.onFree == NULL || (pWav->allocationCallbacks.onMalloc == NULL && pWav->allocationCallbacks.onRealloc == NULL)) { + return MA_FALSE; + } + pWav->fmt.formatTag = (ma_uint16)pFormat->format; + pWav->fmt.channels = (ma_uint16)pFormat->channels; + pWav->fmt.sampleRate = pFormat->sampleRate; + pWav->fmt.avgBytesPerSec = (ma_uint32)((pFormat->bitsPerSample * pFormat->sampleRate * pFormat->channels) / 8); + pWav->fmt.blockAlign = (ma_uint16)((pFormat->channels * pFormat->bitsPerSample) / 8); + pWav->fmt.bitsPerSample = (ma_uint16)pFormat->bitsPerSample; + pWav->fmt.extendedSize = 0; + pWav->isSequentialWrite = isSequential; + return MA_TRUE; +} +MA_PRIVATE ma_bool32 ma_dr_wav_init_write__internal(ma_dr_wav* pWav, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount) +{ + size_t runningPos = 0; + ma_uint64 initialDataChunkSize = 0; + ma_uint64 chunkSizeFMT; + if (pWav->isSequentialWrite) { + initialDataChunkSize = (totalSampleCount * pWav->fmt.bitsPerSample) / 8; + if (pFormat->container == ma_dr_wav_container_riff) { + if (initialDataChunkSize > (0xFFFFFFFFUL - 36)) { + return MA_FALSE; + } + } + } + pWav->dataChunkDataSizeTargetWrite = initialDataChunkSize; + if (pFormat->container == ma_dr_wav_container_riff) { + ma_uint32 chunkSizeRIFF = 36 + (ma_uint32)initialDataChunkSize; + runningPos += ma_dr_wav__write(pWav, "RIFF", 4); + runningPos += ma_dr_wav__write_u32ne_to_le(pWav, chunkSizeRIFF); + runningPos += ma_dr_wav__write(pWav, "WAVE", 4); + } else if (pFormat->container == ma_dr_wav_container_w64) { + ma_uint64 chunkSizeRIFF = 80 + 24 + initialDataChunkSize; + runningPos += ma_dr_wav__write(pWav, ma_dr_wavGUID_W64_RIFF, 16); + runningPos += ma_dr_wav__write_u64ne_to_le(pWav, chunkSizeRIFF); + runningPos += ma_dr_wav__write(pWav, ma_dr_wavGUID_W64_WAVE, 16); + } else if (pFormat->container == ma_dr_wav_container_rf64) { + runningPos += ma_dr_wav__write(pWav, "RF64", 4); + runningPos += ma_dr_wav__write_u32ne_to_le(pWav, 0xFFFFFFFF); + runningPos += ma_dr_wav__write(pWav, "WAVE", 4); + } else { + return MA_FALSE; + } + if (pFormat->container == ma_dr_wav_container_rf64) { + ma_uint32 initialds64ChunkSize = 28; + ma_uint64 initialRiffChunkSize = 8 + initialds64ChunkSize + initialDataChunkSize; + runningPos += ma_dr_wav__write(pWav, "ds64", 4); + runningPos += ma_dr_wav__write_u32ne_to_le(pWav, initialds64ChunkSize); + runningPos += ma_dr_wav__write_u64ne_to_le(pWav, initialRiffChunkSize); + runningPos += ma_dr_wav__write_u64ne_to_le(pWav, initialDataChunkSize); + runningPos += ma_dr_wav__write_u64ne_to_le(pWav, totalSampleCount); + runningPos += ma_dr_wav__write_u32ne_to_le(pWav, 0); + } + if (pFormat->container == ma_dr_wav_container_riff || pFormat->container == ma_dr_wav_container_rf64) { + chunkSizeFMT = 16; + runningPos += ma_dr_wav__write(pWav, "fmt ", 4); + runningPos += ma_dr_wav__write_u32ne_to_le(pWav, (ma_uint32)chunkSizeFMT); + } else if (pFormat->container == ma_dr_wav_container_w64) { + chunkSizeFMT = 40; + runningPos += ma_dr_wav__write(pWav, ma_dr_wavGUID_W64_FMT, 16); + runningPos += ma_dr_wav__write_u64ne_to_le(pWav, chunkSizeFMT); + } + runningPos += ma_dr_wav__write_u16ne_to_le(pWav, pWav->fmt.formatTag); + runningPos += ma_dr_wav__write_u16ne_to_le(pWav, pWav->fmt.channels); + runningPos += ma_dr_wav__write_u32ne_to_le(pWav, pWav->fmt.sampleRate); + runningPos += ma_dr_wav__write_u32ne_to_le(pWav, pWav->fmt.avgBytesPerSec); + runningPos += ma_dr_wav__write_u16ne_to_le(pWav, pWav->fmt.blockAlign); + runningPos += ma_dr_wav__write_u16ne_to_le(pWav, pWav->fmt.bitsPerSample); + if (!pWav->isSequentialWrite && pWav->pMetadata != NULL && pWav->metadataCount > 0 && (pFormat->container == ma_dr_wav_container_riff || pFormat->container == ma_dr_wav_container_rf64)) { + runningPos += ma_dr_wav__write_or_count_metadata(pWav, pWav->pMetadata, pWav->metadataCount); + } + pWav->dataChunkDataPos = runningPos; + if (pFormat->container == ma_dr_wav_container_riff) { + ma_uint32 chunkSizeDATA = (ma_uint32)initialDataChunkSize; + runningPos += ma_dr_wav__write(pWav, "data", 4); + runningPos += ma_dr_wav__write_u32ne_to_le(pWav, chunkSizeDATA); + } else if (pFormat->container == ma_dr_wav_container_w64) { + ma_uint64 chunkSizeDATA = 24 + initialDataChunkSize; + runningPos += ma_dr_wav__write(pWav, ma_dr_wavGUID_W64_DATA, 16); + runningPos += ma_dr_wav__write_u64ne_to_le(pWav, chunkSizeDATA); + } else if (pFormat->container == ma_dr_wav_container_rf64) { + runningPos += ma_dr_wav__write(pWav, "data", 4); + runningPos += ma_dr_wav__write_u32ne_to_le(pWav, 0xFFFFFFFF); + } + pWav->container = pFormat->container; + pWav->channels = (ma_uint16)pFormat->channels; + pWav->sampleRate = pFormat->sampleRate; + pWav->bitsPerSample = (ma_uint16)pFormat->bitsPerSample; + pWav->translatedFormatTag = (ma_uint16)pFormat->format; + pWav->dataChunkDataPos = runningPos; + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_wav_init_write(ma_dr_wav* pWav, const ma_dr_wav_data_format* pFormat, ma_dr_wav_write_proc onWrite, ma_dr_wav_seek_proc onSeek, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (!ma_dr_wav_preinit_write(pWav, pFormat, MA_FALSE, onWrite, onSeek, pUserData, pAllocationCallbacks)) { + return MA_FALSE; + } + return ma_dr_wav_init_write__internal(pWav, pFormat, 0); +} +MA_API ma_bool32 ma_dr_wav_init_write_sequential(ma_dr_wav* pWav, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, ma_dr_wav_write_proc onWrite, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (!ma_dr_wav_preinit_write(pWav, pFormat, MA_TRUE, onWrite, NULL, pUserData, pAllocationCallbacks)) { + return MA_FALSE; + } + return ma_dr_wav_init_write__internal(pWav, pFormat, totalSampleCount); +} +MA_API ma_bool32 ma_dr_wav_init_write_sequential_pcm_frames(ma_dr_wav* pWav, const ma_dr_wav_data_format* pFormat, ma_uint64 totalPCMFrameCount, ma_dr_wav_write_proc onWrite, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pFormat == NULL) { + return MA_FALSE; + } + return ma_dr_wav_init_write_sequential(pWav, pFormat, totalPCMFrameCount*pFormat->channels, onWrite, pUserData, pAllocationCallbacks); +} +MA_API ma_bool32 ma_dr_wav_init_write_with_metadata(ma_dr_wav* pWav, const ma_dr_wav_data_format* pFormat, ma_dr_wav_write_proc onWrite, ma_dr_wav_seek_proc onSeek, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks, ma_dr_wav_metadata* pMetadata, ma_uint32 metadataCount) +{ + if (!ma_dr_wav_preinit_write(pWav, pFormat, MA_FALSE, onWrite, onSeek, pUserData, pAllocationCallbacks)) { + return MA_FALSE; + } + pWav->pMetadata = pMetadata; + pWav->metadataCount = metadataCount; + return ma_dr_wav_init_write__internal(pWav, pFormat, 0); +} +MA_API ma_uint64 ma_dr_wav_target_write_size_bytes(const ma_dr_wav_data_format* pFormat, ma_uint64 totalFrameCount, ma_dr_wav_metadata* pMetadata, ma_uint32 metadataCount) +{ + ma_uint64 targetDataSizeBytes = (ma_uint64)((ma_int64)totalFrameCount * pFormat->channels * pFormat->bitsPerSample/8.0); + ma_uint64 riffChunkSizeBytes; + ma_uint64 fileSizeBytes = 0; + if (pFormat->container == ma_dr_wav_container_riff) { + riffChunkSizeBytes = ma_dr_wav__riff_chunk_size_riff(targetDataSizeBytes, pMetadata, metadataCount); + fileSizeBytes = (8 + riffChunkSizeBytes); + } else if (pFormat->container == ma_dr_wav_container_w64) { + riffChunkSizeBytes = ma_dr_wav__riff_chunk_size_w64(targetDataSizeBytes); + fileSizeBytes = riffChunkSizeBytes; + } else if (pFormat->container == ma_dr_wav_container_rf64) { + riffChunkSizeBytes = ma_dr_wav__riff_chunk_size_rf64(targetDataSizeBytes, pMetadata, metadataCount); + fileSizeBytes = (8 + riffChunkSizeBytes); + } + return fileSizeBytes; +} +#ifndef MA_DR_WAV_NO_STDIO +MA_PRIVATE size_t ma_dr_wav__on_read_stdio(void* pUserData, void* pBufferOut, size_t bytesToRead) +{ + return fread(pBufferOut, 1, bytesToRead, (FILE*)pUserData); +} +MA_PRIVATE size_t ma_dr_wav__on_write_stdio(void* pUserData, const void* pData, size_t bytesToWrite) +{ + return fwrite(pData, 1, bytesToWrite, (FILE*)pUserData); +} +MA_PRIVATE ma_bool32 ma_dr_wav__on_seek_stdio(void* pUserData, int offset, ma_dr_wav_seek_origin origin) +{ + int whence = SEEK_SET; + if (origin == MA_DR_WAV_SEEK_CUR) { + whence = SEEK_CUR; + } else if (origin == MA_DR_WAV_SEEK_END) { + whence = SEEK_END; + } + return fseek((FILE*)pUserData, offset, whence) == 0; +} +MA_PRIVATE ma_bool32 ma_dr_wav__on_tell_stdio(void* pUserData, ma_int64* pCursor) +{ + FILE* pFileStdio = (FILE*)pUserData; + ma_int64 result; + MA_DR_WAV_ASSERT(pFileStdio != NULL); + MA_DR_WAV_ASSERT(pCursor != NULL); +#if defined(_WIN32) && !defined(NXDK) + #if defined(_MSC_VER) && _MSC_VER > 1200 + result = _ftelli64(pFileStdio); + #else + result = ftell(pFileStdio); + #endif +#else + result = ftell(pFileStdio); +#endif + *pCursor = result; + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_wav_init_file(ma_dr_wav* pWav, const char* filename, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_wav_init_file_ex(pWav, filename, NULL, NULL, 0, pAllocationCallbacks); +} +MA_PRIVATE ma_bool32 ma_dr_wav_init_file__internal_FILE(ma_dr_wav* pWav, FILE* pFile, ma_dr_wav_chunk_proc onChunk, void* pChunkUserData, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_bool32 result; + result = ma_dr_wav_preinit(pWav, ma_dr_wav__on_read_stdio, ma_dr_wav__on_seek_stdio, ma_dr_wav__on_tell_stdio, (void*)pFile, pAllocationCallbacks); + if (result != MA_TRUE) { + fclose(pFile); + return result; + } + result = ma_dr_wav_init__internal(pWav, onChunk, pChunkUserData, flags); + if (result != MA_TRUE) { + fclose(pFile); + return result; + } + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_wav_init_file_ex(ma_dr_wav* pWav, const char* filename, ma_dr_wav_chunk_proc onChunk, void* pChunkUserData, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks) +{ + FILE* pFile; + if (ma_fopen(&pFile, filename, "rb") != MA_SUCCESS) { + return MA_FALSE; + } + return ma_dr_wav_init_file__internal_FILE(pWav, pFile, onChunk, pChunkUserData, flags, pAllocationCallbacks); +} +#ifndef MA_DR_WAV_NO_WCHAR +MA_API ma_bool32 ma_dr_wav_init_file_w(ma_dr_wav* pWav, const wchar_t* filename, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_wav_init_file_ex_w(pWav, filename, NULL, NULL, 0, pAllocationCallbacks); +} +MA_API ma_bool32 ma_dr_wav_init_file_ex_w(ma_dr_wav* pWav, const wchar_t* filename, ma_dr_wav_chunk_proc onChunk, void* pChunkUserData, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks) +{ + FILE* pFile; + if (ma_wfopen(&pFile, filename, L"rb", pAllocationCallbacks) != MA_SUCCESS) { + return MA_FALSE; + } + return ma_dr_wav_init_file__internal_FILE(pWav, pFile, onChunk, pChunkUserData, flags, pAllocationCallbacks); +} +#endif +MA_API ma_bool32 ma_dr_wav_init_file_with_metadata(ma_dr_wav* pWav, const char* filename, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks) +{ + FILE* pFile; + if (ma_fopen(&pFile, filename, "rb") != MA_SUCCESS) { + return MA_FALSE; + } + return ma_dr_wav_init_file__internal_FILE(pWav, pFile, NULL, NULL, flags | MA_DR_WAV_WITH_METADATA, pAllocationCallbacks); +} +#ifndef MA_DR_WAV_NO_WCHAR +MA_API ma_bool32 ma_dr_wav_init_file_with_metadata_w(ma_dr_wav* pWav, const wchar_t* filename, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks) +{ + FILE* pFile; + if (ma_wfopen(&pFile, filename, L"rb", pAllocationCallbacks) != MA_SUCCESS) { + return MA_FALSE; + } + return ma_dr_wav_init_file__internal_FILE(pWav, pFile, NULL, NULL, flags | MA_DR_WAV_WITH_METADATA, pAllocationCallbacks); +} +#endif +MA_PRIVATE ma_bool32 ma_dr_wav_init_file_write__internal_FILE(ma_dr_wav* pWav, FILE* pFile, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, ma_bool32 isSequential, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_bool32 result; + result = ma_dr_wav_preinit_write(pWav, pFormat, isSequential, ma_dr_wav__on_write_stdio, ma_dr_wav__on_seek_stdio, (void*)pFile, pAllocationCallbacks); + if (result != MA_TRUE) { + fclose(pFile); + return result; + } + result = ma_dr_wav_init_write__internal(pWav, pFormat, totalSampleCount); + if (result != MA_TRUE) { + fclose(pFile); + return result; + } + return MA_TRUE; +} +MA_PRIVATE ma_bool32 ma_dr_wav_init_file_write__internal(ma_dr_wav* pWav, const char* filename, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, ma_bool32 isSequential, const ma_allocation_callbacks* pAllocationCallbacks) +{ + FILE* pFile; + if (ma_fopen(&pFile, filename, "wb") != MA_SUCCESS) { + return MA_FALSE; + } + return ma_dr_wav_init_file_write__internal_FILE(pWav, pFile, pFormat, totalSampleCount, isSequential, pAllocationCallbacks); +} +#ifndef MA_DR_WAV_NO_WCHAR +MA_PRIVATE ma_bool32 ma_dr_wav_init_file_write_w__internal(ma_dr_wav* pWav, const wchar_t* filename, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, ma_bool32 isSequential, const ma_allocation_callbacks* pAllocationCallbacks) +{ + FILE* pFile; + if (ma_wfopen(&pFile, filename, L"wb", pAllocationCallbacks) != MA_SUCCESS) { + return MA_FALSE; + } + return ma_dr_wav_init_file_write__internal_FILE(pWav, pFile, pFormat, totalSampleCount, isSequential, pAllocationCallbacks); +} +#endif +MA_API ma_bool32 ma_dr_wav_init_file_write(ma_dr_wav* pWav, const char* filename, const ma_dr_wav_data_format* pFormat, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_wav_init_file_write__internal(pWav, filename, pFormat, 0, MA_FALSE, pAllocationCallbacks); +} +MA_API ma_bool32 ma_dr_wav_init_file_write_sequential(ma_dr_wav* pWav, const char* filename, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_wav_init_file_write__internal(pWav, filename, pFormat, totalSampleCount, MA_TRUE, pAllocationCallbacks); +} +MA_API ma_bool32 ma_dr_wav_init_file_write_sequential_pcm_frames(ma_dr_wav* pWav, const char* filename, const ma_dr_wav_data_format* pFormat, ma_uint64 totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pFormat == NULL) { + return MA_FALSE; + } + return ma_dr_wav_init_file_write_sequential(pWav, filename, pFormat, totalPCMFrameCount*pFormat->channels, pAllocationCallbacks); +} +#ifndef MA_DR_WAV_NO_WCHAR +MA_API ma_bool32 ma_dr_wav_init_file_write_w(ma_dr_wav* pWav, const wchar_t* filename, const ma_dr_wav_data_format* pFormat, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_wav_init_file_write_w__internal(pWav, filename, pFormat, 0, MA_FALSE, pAllocationCallbacks); +} +MA_API ma_bool32 ma_dr_wav_init_file_write_sequential_w(ma_dr_wav* pWav, const wchar_t* filename, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_wav_init_file_write_w__internal(pWav, filename, pFormat, totalSampleCount, MA_TRUE, pAllocationCallbacks); +} +MA_API ma_bool32 ma_dr_wav_init_file_write_sequential_pcm_frames_w(ma_dr_wav* pWav, const wchar_t* filename, const ma_dr_wav_data_format* pFormat, ma_uint64 totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pFormat == NULL) { + return MA_FALSE; + } + return ma_dr_wav_init_file_write_sequential_w(pWav, filename, pFormat, totalPCMFrameCount*pFormat->channels, pAllocationCallbacks); +} +#endif +#endif +MA_PRIVATE size_t ma_dr_wav__on_read_memory(void* pUserData, void* pBufferOut, size_t bytesToRead) +{ + ma_dr_wav* pWav = (ma_dr_wav*)pUserData; + size_t bytesRemaining; + MA_DR_WAV_ASSERT(pWav != NULL); + MA_DR_WAV_ASSERT(pWav->memoryStream.dataSize >= pWav->memoryStream.currentReadPos); + bytesRemaining = pWav->memoryStream.dataSize - pWav->memoryStream.currentReadPos; + if (bytesToRead > bytesRemaining) { + bytesToRead = bytesRemaining; + } + if (bytesToRead > 0) { + MA_DR_WAV_COPY_MEMORY(pBufferOut, pWav->memoryStream.data + pWav->memoryStream.currentReadPos, bytesToRead); + pWav->memoryStream.currentReadPos += bytesToRead; + } + return bytesToRead; +} +MA_PRIVATE ma_bool32 ma_dr_wav__on_seek_memory(void* pUserData, int offset, ma_dr_wav_seek_origin origin) +{ + ma_dr_wav* pWav = (ma_dr_wav*)pUserData; + ma_int64 newCursor; + MA_DR_WAV_ASSERT(pWav != NULL); + if (origin == MA_DR_WAV_SEEK_SET) { + newCursor = 0; + } else if (origin == MA_DR_WAV_SEEK_CUR) { + newCursor = (ma_int64)pWav->memoryStream.currentReadPos; + } else if (origin == MA_DR_WAV_SEEK_END) { + newCursor = (ma_int64)pWav->memoryStream.dataSize; + } else { + MA_DR_WAV_ASSERT(!"Invalid seek origin"); + return MA_FALSE; + } + newCursor += offset; + if (newCursor < 0) { + return MA_FALSE; + } + if ((size_t)newCursor > pWav->memoryStream.dataSize) { + return MA_FALSE; + } + pWav->memoryStream.currentReadPos = (size_t)newCursor; + return MA_TRUE; +} +MA_PRIVATE size_t ma_dr_wav__on_write_memory(void* pUserData, const void* pDataIn, size_t bytesToWrite) +{ + ma_dr_wav* pWav = (ma_dr_wav*)pUserData; + size_t bytesRemaining; + MA_DR_WAV_ASSERT(pWav != NULL); + MA_DR_WAV_ASSERT(pWav->memoryStreamWrite.dataCapacity >= pWav->memoryStreamWrite.currentWritePos); + bytesRemaining = pWav->memoryStreamWrite.dataCapacity - pWav->memoryStreamWrite.currentWritePos; + if (bytesRemaining < bytesToWrite) { + void* pNewData; + size_t newDataCapacity = (pWav->memoryStreamWrite.dataCapacity == 0) ? 256 : pWav->memoryStreamWrite.dataCapacity * 2; + if ((newDataCapacity - pWav->memoryStreamWrite.currentWritePos) < bytesToWrite) { + newDataCapacity = pWav->memoryStreamWrite.currentWritePos + bytesToWrite; + } + pNewData = ma_dr_wav__realloc_from_callbacks(*pWav->memoryStreamWrite.ppData, newDataCapacity, pWav->memoryStreamWrite.dataCapacity, &pWav->allocationCallbacks); + if (pNewData == NULL) { + return 0; + } + *pWav->memoryStreamWrite.ppData = pNewData; + pWav->memoryStreamWrite.dataCapacity = newDataCapacity; + } + MA_DR_WAV_COPY_MEMORY(((ma_uint8*)(*pWav->memoryStreamWrite.ppData)) + pWav->memoryStreamWrite.currentWritePos, pDataIn, bytesToWrite); + pWav->memoryStreamWrite.currentWritePos += bytesToWrite; + if (pWav->memoryStreamWrite.dataSize < pWav->memoryStreamWrite.currentWritePos) { + pWav->memoryStreamWrite.dataSize = pWav->memoryStreamWrite.currentWritePos; + } + *pWav->memoryStreamWrite.pDataSize = pWav->memoryStreamWrite.dataSize; + return bytesToWrite; +} +MA_PRIVATE ma_bool32 ma_dr_wav__on_seek_memory_write(void* pUserData, int offset, ma_dr_wav_seek_origin origin) +{ + ma_dr_wav* pWav = (ma_dr_wav*)pUserData; + ma_int64 newCursor; + MA_DR_WAV_ASSERT(pWav != NULL); + if (origin == MA_DR_WAV_SEEK_SET) { + newCursor = 0; + } else if (origin == MA_DR_WAV_SEEK_CUR) { + newCursor = (ma_int64)pWav->memoryStreamWrite.currentWritePos; + } else if (origin == MA_DR_WAV_SEEK_END) { + newCursor = (ma_int64)pWav->memoryStreamWrite.dataSize; + } else { + MA_DR_WAV_ASSERT(!"Invalid seek origin"); + return MA_FALSE; + } + newCursor += offset; + if (newCursor < 0) { + return MA_FALSE; + } + if ((size_t)newCursor > pWav->memoryStreamWrite.dataSize) { + return MA_FALSE; + } + pWav->memoryStreamWrite.currentWritePos = (size_t)newCursor; + return MA_TRUE; +} +MA_PRIVATE ma_bool32 ma_dr_wav__on_tell_memory(void* pUserData, ma_int64* pCursor) +{ + ma_dr_wav* pWav = (ma_dr_wav*)pUserData; + MA_DR_WAV_ASSERT(pWav != NULL); + MA_DR_WAV_ASSERT(pCursor != NULL); + *pCursor = (ma_int64)pWav->memoryStream.currentReadPos; + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_wav_init_memory(ma_dr_wav* pWav, const void* data, size_t dataSize, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_wav_init_memory_ex(pWav, data, dataSize, NULL, NULL, 0, pAllocationCallbacks); +} +MA_API ma_bool32 ma_dr_wav_init_memory_ex(ma_dr_wav* pWav, const void* data, size_t dataSize, ma_dr_wav_chunk_proc onChunk, void* pChunkUserData, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (data == NULL || dataSize == 0) { + return MA_FALSE; + } + if (!ma_dr_wav_preinit(pWav, ma_dr_wav__on_read_memory, ma_dr_wav__on_seek_memory, ma_dr_wav__on_tell_memory, pWav, pAllocationCallbacks)) { + return MA_FALSE; + } + pWav->memoryStream.data = (const ma_uint8*)data; + pWav->memoryStream.dataSize = dataSize; + pWav->memoryStream.currentReadPos = 0; + return ma_dr_wav_init__internal(pWav, onChunk, pChunkUserData, flags); +} +MA_API ma_bool32 ma_dr_wav_init_memory_with_metadata(ma_dr_wav* pWav, const void* data, size_t dataSize, ma_uint32 flags, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (data == NULL || dataSize == 0) { + return MA_FALSE; + } + if (!ma_dr_wav_preinit(pWav, ma_dr_wav__on_read_memory, ma_dr_wav__on_seek_memory, ma_dr_wav__on_tell_memory, pWav, pAllocationCallbacks)) { + return MA_FALSE; + } + pWav->memoryStream.data = (const ma_uint8*)data; + pWav->memoryStream.dataSize = dataSize; + pWav->memoryStream.currentReadPos = 0; + return ma_dr_wav_init__internal(pWav, NULL, NULL, flags | MA_DR_WAV_WITH_METADATA); +} +MA_PRIVATE ma_bool32 ma_dr_wav_init_memory_write__internal(ma_dr_wav* pWav, void** ppData, size_t* pDataSize, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, ma_bool32 isSequential, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (ppData == NULL || pDataSize == NULL) { + return MA_FALSE; + } + *ppData = NULL; + *pDataSize = 0; + if (!ma_dr_wav_preinit_write(pWav, pFormat, isSequential, ma_dr_wav__on_write_memory, ma_dr_wav__on_seek_memory_write, pWav, pAllocationCallbacks)) { + return MA_FALSE; + } + pWav->memoryStreamWrite.ppData = ppData; + pWav->memoryStreamWrite.pDataSize = pDataSize; + pWav->memoryStreamWrite.dataSize = 0; + pWav->memoryStreamWrite.dataCapacity = 0; + pWav->memoryStreamWrite.currentWritePos = 0; + return ma_dr_wav_init_write__internal(pWav, pFormat, totalSampleCount); +} +MA_API ma_bool32 ma_dr_wav_init_memory_write(ma_dr_wav* pWav, void** ppData, size_t* pDataSize, const ma_dr_wav_data_format* pFormat, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_wav_init_memory_write__internal(pWav, ppData, pDataSize, pFormat, 0, MA_FALSE, pAllocationCallbacks); +} +MA_API ma_bool32 ma_dr_wav_init_memory_write_sequential(ma_dr_wav* pWav, void** ppData, size_t* pDataSize, const ma_dr_wav_data_format* pFormat, ma_uint64 totalSampleCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_wav_init_memory_write__internal(pWav, ppData, pDataSize, pFormat, totalSampleCount, MA_TRUE, pAllocationCallbacks); +} +MA_API ma_bool32 ma_dr_wav_init_memory_write_sequential_pcm_frames(ma_dr_wav* pWav, void** ppData, size_t* pDataSize, const ma_dr_wav_data_format* pFormat, ma_uint64 totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pFormat == NULL) { + return MA_FALSE; + } + return ma_dr_wav_init_memory_write_sequential(pWav, ppData, pDataSize, pFormat, totalPCMFrameCount*pFormat->channels, pAllocationCallbacks); +} +MA_API ma_result ma_dr_wav_uninit(ma_dr_wav* pWav) +{ + ma_result result = MA_SUCCESS; + if (pWav == NULL) { + return MA_INVALID_ARGS; + } + if (pWav->onWrite != NULL) { + ma_uint32 paddingSize = 0; + if (pWav->container == ma_dr_wav_container_riff || pWav->container == ma_dr_wav_container_rf64) { + paddingSize = ma_dr_wav__chunk_padding_size_riff(pWav->dataChunkDataSize); + } else { + paddingSize = ma_dr_wav__chunk_padding_size_w64(pWav->dataChunkDataSize); + } + if (paddingSize > 0) { + ma_uint64 paddingData = 0; + ma_dr_wav__write(pWav, &paddingData, paddingSize); + } + if (pWav->onSeek && !pWav->isSequentialWrite) { + if (pWav->container == ma_dr_wav_container_riff) { + if (pWav->onSeek(pWav->pUserData, 4, MA_DR_WAV_SEEK_SET)) { + ma_uint32 riffChunkSize = ma_dr_wav__riff_chunk_size_riff(pWav->dataChunkDataSize, pWav->pMetadata, pWav->metadataCount); + ma_dr_wav__write_u32ne_to_le(pWav, riffChunkSize); + } + if (pWav->onSeek(pWav->pUserData, (int)pWav->dataChunkDataPos - 4, MA_DR_WAV_SEEK_SET)) { + ma_uint32 dataChunkSize = ma_dr_wav__data_chunk_size_riff(pWav->dataChunkDataSize); + ma_dr_wav__write_u32ne_to_le(pWav, dataChunkSize); + } + } else if (pWav->container == ma_dr_wav_container_w64) { + if (pWav->onSeek(pWav->pUserData, 16, MA_DR_WAV_SEEK_SET)) { + ma_uint64 riffChunkSize = ma_dr_wav__riff_chunk_size_w64(pWav->dataChunkDataSize); + ma_dr_wav__write_u64ne_to_le(pWav, riffChunkSize); + } + if (pWav->onSeek(pWav->pUserData, (int)pWav->dataChunkDataPos - 8, MA_DR_WAV_SEEK_SET)) { + ma_uint64 dataChunkSize = ma_dr_wav__data_chunk_size_w64(pWav->dataChunkDataSize); + ma_dr_wav__write_u64ne_to_le(pWav, dataChunkSize); + } + } else if (pWav->container == ma_dr_wav_container_rf64) { + int ds64BodyPos = 12 + 8; + if (pWav->onSeek(pWav->pUserData, ds64BodyPos + 0, MA_DR_WAV_SEEK_SET)) { + ma_uint64 riffChunkSize = ma_dr_wav__riff_chunk_size_rf64(pWav->dataChunkDataSize, pWav->pMetadata, pWav->metadataCount); + ma_dr_wav__write_u64ne_to_le(pWav, riffChunkSize); + } + if (pWav->onSeek(pWav->pUserData, ds64BodyPos + 8, MA_DR_WAV_SEEK_SET)) { + ma_uint64 dataChunkSize = ma_dr_wav__data_chunk_size_rf64(pWav->dataChunkDataSize); + ma_dr_wav__write_u64ne_to_le(pWav, dataChunkSize); + } + } + } + if (pWav->isSequentialWrite) { + if (pWav->dataChunkDataSize != pWav->dataChunkDataSizeTargetWrite) { + result = MA_INVALID_FILE; + } + } + } else { + ma_dr_wav_free(pWav->pMetadata, &pWav->allocationCallbacks); + } +#ifndef MA_DR_WAV_NO_STDIO + if (pWav->onRead == ma_dr_wav__on_read_stdio || pWav->onWrite == ma_dr_wav__on_write_stdio) { + fclose((FILE*)pWav->pUserData); + } +#endif + return result; +} +MA_API size_t ma_dr_wav_read_raw(ma_dr_wav* pWav, size_t bytesToRead, void* pBufferOut) +{ + size_t bytesRead; + ma_uint32 bytesPerFrame; + if (pWav == NULL || bytesToRead == 0) { + return 0; + } + if (bytesToRead > pWav->bytesRemaining) { + bytesToRead = (size_t)pWav->bytesRemaining; + } + if (bytesToRead == 0) { + return 0; + } + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + if (pBufferOut != NULL) { + bytesRead = pWav->onRead(pWav->pUserData, pBufferOut, bytesToRead); + } else { + bytesRead = 0; + while (bytesRead < bytesToRead) { + size_t bytesToSeek = (bytesToRead - bytesRead); + if (bytesToSeek > 0x7FFFFFFF) { + bytesToSeek = 0x7FFFFFFF; + } + if (pWav->onSeek(pWav->pUserData, (int)bytesToSeek, MA_DR_WAV_SEEK_CUR) == MA_FALSE) { + break; + } + bytesRead += bytesToSeek; + } + while (bytesRead < bytesToRead) { + ma_uint8 buffer[4096]; + size_t bytesSeeked; + size_t bytesToSeek = (bytesToRead - bytesRead); + if (bytesToSeek > sizeof(buffer)) { + bytesToSeek = sizeof(buffer); + } + bytesSeeked = pWav->onRead(pWav->pUserData, buffer, bytesToSeek); + bytesRead += bytesSeeked; + if (bytesSeeked < bytesToSeek) { + break; + } + } + } + pWav->readCursorInPCMFrames += bytesRead / bytesPerFrame; + pWav->bytesRemaining -= bytesRead; + return bytesRead; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_le(ma_dr_wav* pWav, ma_uint64 framesToRead, void* pBufferOut) +{ + ma_uint32 bytesPerFrame; + ma_uint64 bytesToRead; + ma_uint64 framesRemainingInFile; + if (pWav == NULL || framesToRead == 0) { + return 0; + } + if (ma_dr_wav__is_compressed_format_tag(pWav->translatedFormatTag)) { + return 0; + } + framesRemainingInFile = pWav->totalPCMFrameCount - pWav->readCursorInPCMFrames; + if (framesToRead > framesRemainingInFile) { + framesToRead = framesRemainingInFile; + } + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesToRead = framesToRead * bytesPerFrame; + if (bytesToRead > MA_SIZE_MAX) { + bytesToRead = (MA_SIZE_MAX / bytesPerFrame) * bytesPerFrame; + } + if (bytesToRead == 0) { + return 0; + } + return ma_dr_wav_read_raw(pWav, (size_t)bytesToRead, pBufferOut) / bytesPerFrame; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_be(ma_dr_wav* pWav, ma_uint64 framesToRead, void* pBufferOut) +{ + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames_le(pWav, framesToRead, pBufferOut); + if (pBufferOut != NULL) { + ma_uint32 bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + ma_dr_wav__bswap_samples(pBufferOut, framesRead*pWav->channels, bytesPerFrame/pWav->channels); + } + return framesRead; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames(ma_dr_wav* pWav, ma_uint64 framesToRead, void* pBufferOut) +{ + ma_uint64 framesRead = 0; + if (ma_dr_wav_is_container_be(pWav->container)) { + if (pWav->container != ma_dr_wav_container_aiff || pWav->aiff.isLE == MA_FALSE) { + if (ma_dr_wav__is_little_endian()) { + framesRead = ma_dr_wav_read_pcm_frames_be(pWav, framesToRead, pBufferOut); + } else { + framesRead = ma_dr_wav_read_pcm_frames_le(pWav, framesToRead, pBufferOut); + } + goto post_process; + } + } + if (ma_dr_wav__is_little_endian()) { + framesRead = ma_dr_wav_read_pcm_frames_le(pWav, framesToRead, pBufferOut); + } else { + framesRead = ma_dr_wav_read_pcm_frames_be(pWav, framesToRead, pBufferOut); + } + post_process: + { + if (pWav->container == ma_dr_wav_container_aiff && pWav->bitsPerSample == 8 && pWav->aiff.isUnsigned == MA_FALSE) { + if (pBufferOut != NULL) { + ma_uint64 iSample; + for (iSample = 0; iSample < framesRead * pWav->channels; iSample += 1) { + ((ma_uint8*)pBufferOut)[iSample] += 128; + } + } + } + } + return framesRead; +} +MA_PRIVATE ma_bool32 ma_dr_wav_seek_to_first_pcm_frame(ma_dr_wav* pWav) +{ + if (pWav->onWrite != NULL) { + return MA_FALSE; + } + if (!pWav->onSeek(pWav->pUserData, (int)pWav->dataChunkDataPos, MA_DR_WAV_SEEK_SET)) { + return MA_FALSE; + } + if (ma_dr_wav__is_compressed_format_tag(pWav->translatedFormatTag)) { + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ADPCM) { + MA_DR_WAV_ZERO_OBJECT(&pWav->msadpcm); + } else if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_DVI_ADPCM) { + MA_DR_WAV_ZERO_OBJECT(&pWav->ima); + } else { + MA_DR_WAV_ASSERT(MA_FALSE); + } + } + pWav->readCursorInPCMFrames = 0; + pWav->bytesRemaining = pWav->dataChunkDataSize; + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_wav_seek_to_pcm_frame(ma_dr_wav* pWav, ma_uint64 targetFrameIndex) +{ + if (pWav == NULL || pWav->onSeek == NULL) { + return MA_FALSE; + } + if (pWav->onWrite != NULL) { + return MA_FALSE; + } + if (pWav->totalPCMFrameCount == 0) { + return MA_TRUE; + } + if (targetFrameIndex > pWav->totalPCMFrameCount) { + targetFrameIndex = pWav->totalPCMFrameCount; + } + if (ma_dr_wav__is_compressed_format_tag(pWav->translatedFormatTag)) { + if (targetFrameIndex < pWav->readCursorInPCMFrames) { + if (!ma_dr_wav_seek_to_first_pcm_frame(pWav)) { + return MA_FALSE; + } + } + if (targetFrameIndex > pWav->readCursorInPCMFrames) { + ma_uint64 offsetInFrames = targetFrameIndex - pWav->readCursorInPCMFrames; + ma_int16 devnull[2048]; + while (offsetInFrames > 0) { + ma_uint64 framesRead = 0; + ma_uint64 framesToRead = offsetInFrames; + if (framesToRead > ma_dr_wav_countof(devnull)/pWav->channels) { + framesToRead = ma_dr_wav_countof(devnull)/pWav->channels; + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ADPCM) { + framesRead = ma_dr_wav_read_pcm_frames_s16__msadpcm(pWav, framesToRead, devnull); + } else if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_DVI_ADPCM) { + framesRead = ma_dr_wav_read_pcm_frames_s16__ima(pWav, framesToRead, devnull); + } else { + MA_DR_WAV_ASSERT(MA_FALSE); + } + if (framesRead != framesToRead) { + return MA_FALSE; + } + offsetInFrames -= framesRead; + } + } + } else { + ma_uint64 totalSizeInBytes; + ma_uint64 currentBytePos; + ma_uint64 targetBytePos; + ma_uint64 offset; + ma_uint32 bytesPerFrame; + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return MA_FALSE; + } + totalSizeInBytes = pWav->totalPCMFrameCount * bytesPerFrame; + currentBytePos = totalSizeInBytes - pWav->bytesRemaining; + targetBytePos = targetFrameIndex * bytesPerFrame; + if (currentBytePos < targetBytePos) { + offset = (targetBytePos - currentBytePos); + } else { + if (!ma_dr_wav_seek_to_first_pcm_frame(pWav)) { + return MA_FALSE; + } + offset = targetBytePos; + } + while (offset > 0) { + int offset32 = ((offset > INT_MAX) ? INT_MAX : (int)offset); + if (!pWav->onSeek(pWav->pUserData, offset32, MA_DR_WAV_SEEK_CUR)) { + return MA_FALSE; + } + pWav->readCursorInPCMFrames += offset32 / bytesPerFrame; + pWav->bytesRemaining -= offset32; + offset -= offset32; + } + } + return MA_TRUE; +} +MA_API ma_result ma_dr_wav_get_cursor_in_pcm_frames(ma_dr_wav* pWav, ma_uint64* pCursor) +{ + if (pCursor == NULL) { + return MA_INVALID_ARGS; + } + *pCursor = 0; + if (pWav == NULL) { + return MA_INVALID_ARGS; + } + *pCursor = pWav->readCursorInPCMFrames; + return MA_SUCCESS; +} +MA_API ma_result ma_dr_wav_get_length_in_pcm_frames(ma_dr_wav* pWav, ma_uint64* pLength) +{ + if (pLength == NULL) { + return MA_INVALID_ARGS; + } + *pLength = 0; + if (pWav == NULL) { + return MA_INVALID_ARGS; + } + *pLength = pWav->totalPCMFrameCount; + return MA_SUCCESS; +} +MA_API size_t ma_dr_wav_write_raw(ma_dr_wav* pWav, size_t bytesToWrite, const void* pData) +{ + size_t bytesWritten; + if (pWav == NULL || bytesToWrite == 0 || pData == NULL) { + return 0; + } + bytesWritten = pWav->onWrite(pWav->pUserData, pData, bytesToWrite); + pWav->dataChunkDataSize += bytesWritten; + return bytesWritten; +} +MA_API ma_uint64 ma_dr_wav_write_pcm_frames_le(ma_dr_wav* pWav, ma_uint64 framesToWrite, const void* pData) +{ + ma_uint64 bytesToWrite; + ma_uint64 bytesWritten; + const ma_uint8* pRunningData; + if (pWav == NULL || framesToWrite == 0 || pData == NULL) { + return 0; + } + bytesToWrite = ((framesToWrite * pWav->channels * pWav->bitsPerSample) / 8); + if (bytesToWrite > MA_SIZE_MAX) { + return 0; + } + bytesWritten = 0; + pRunningData = (const ma_uint8*)pData; + while (bytesToWrite > 0) { + size_t bytesJustWritten; + ma_uint64 bytesToWriteThisIteration; + bytesToWriteThisIteration = bytesToWrite; + MA_DR_WAV_ASSERT(bytesToWriteThisIteration <= MA_SIZE_MAX); + bytesJustWritten = ma_dr_wav_write_raw(pWav, (size_t)bytesToWriteThisIteration, pRunningData); + if (bytesJustWritten == 0) { + break; + } + bytesToWrite -= bytesJustWritten; + bytesWritten += bytesJustWritten; + pRunningData += bytesJustWritten; + } + return (bytesWritten * 8) / pWav->bitsPerSample / pWav->channels; +} +MA_API ma_uint64 ma_dr_wav_write_pcm_frames_be(ma_dr_wav* pWav, ma_uint64 framesToWrite, const void* pData) +{ + ma_uint64 bytesToWrite; + ma_uint64 bytesWritten; + ma_uint32 bytesPerSample; + const ma_uint8* pRunningData; + if (pWav == NULL || framesToWrite == 0 || pData == NULL) { + return 0; + } + bytesToWrite = ((framesToWrite * pWav->channels * pWav->bitsPerSample) / 8); + if (bytesToWrite > MA_SIZE_MAX) { + return 0; + } + bytesWritten = 0; + pRunningData = (const ma_uint8*)pData; + bytesPerSample = ma_dr_wav_get_bytes_per_pcm_frame(pWav) / pWav->channels; + if (bytesPerSample == 0) { + return 0; + } + while (bytesToWrite > 0) { + ma_uint8 temp[4096]; + ma_uint32 sampleCount; + size_t bytesJustWritten; + ma_uint64 bytesToWriteThisIteration; + bytesToWriteThisIteration = bytesToWrite; + MA_DR_WAV_ASSERT(bytesToWriteThisIteration <= MA_SIZE_MAX); + sampleCount = sizeof(temp)/bytesPerSample; + if (bytesToWriteThisIteration > ((ma_uint64)sampleCount)*bytesPerSample) { + bytesToWriteThisIteration = ((ma_uint64)sampleCount)*bytesPerSample; + } + MA_DR_WAV_COPY_MEMORY(temp, pRunningData, (size_t)bytesToWriteThisIteration); + ma_dr_wav__bswap_samples(temp, sampleCount, bytesPerSample); + bytesJustWritten = ma_dr_wav_write_raw(pWav, (size_t)bytesToWriteThisIteration, temp); + if (bytesJustWritten == 0) { + break; + } + bytesToWrite -= bytesJustWritten; + bytesWritten += bytesJustWritten; + pRunningData += bytesJustWritten; + } + return (bytesWritten * 8) / pWav->bitsPerSample / pWav->channels; +} +MA_API ma_uint64 ma_dr_wav_write_pcm_frames(ma_dr_wav* pWav, ma_uint64 framesToWrite, const void* pData) +{ + if (ma_dr_wav__is_little_endian()) { + return ma_dr_wav_write_pcm_frames_le(pWav, framesToWrite, pData); + } else { + return ma_dr_wav_write_pcm_frames_be(pWav, framesToWrite, pData); + } +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__msadpcm(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut) +{ + ma_uint64 totalFramesRead = 0; + static const ma_int32 adaptationTable[] = { + 230, 230, 230, 230, 307, 409, 512, 614, + 768, 614, 512, 409, 307, 230, 230, 230 + }; + static const ma_int32 coeff1Table[] = { 256, 512, 0, 192, 240, 460, 392 }; + static const ma_int32 coeff2Table[] = { 0, -256, 0, 64, 0, -208, -232 }; + MA_DR_WAV_ASSERT(pWav != NULL); + MA_DR_WAV_ASSERT(framesToRead > 0); + while (pWav->readCursorInPCMFrames < pWav->totalPCMFrameCount) { + MA_DR_WAV_ASSERT(framesToRead > 0); + if (pWav->msadpcm.cachedFrameCount == 0 && pWav->msadpcm.bytesRemainingInBlock == 0) { + if (pWav->channels == 1) { + ma_uint8 header[7]; + if (pWav->onRead(pWav->pUserData, header, sizeof(header)) != sizeof(header)) { + return totalFramesRead; + } + pWav->msadpcm.bytesRemainingInBlock = pWav->fmt.blockAlign - sizeof(header); + pWav->msadpcm.predictor[0] = header[0]; + pWav->msadpcm.delta[0] = ma_dr_wav_bytes_to_s16(header + 1); + pWav->msadpcm.prevFrames[0][1] = (ma_int32)ma_dr_wav_bytes_to_s16(header + 3); + pWav->msadpcm.prevFrames[0][0] = (ma_int32)ma_dr_wav_bytes_to_s16(header + 5); + pWav->msadpcm.cachedFrames[2] = pWav->msadpcm.prevFrames[0][0]; + pWav->msadpcm.cachedFrames[3] = pWav->msadpcm.prevFrames[0][1]; + pWav->msadpcm.cachedFrameCount = 2; + if (pWav->msadpcm.predictor[0] >= ma_dr_wav_countof(coeff1Table) || pWav->msadpcm.predictor[0] >= ma_dr_wav_countof(coeff2Table)) { + return totalFramesRead; + } + } else { + ma_uint8 header[14]; + if (pWav->onRead(pWav->pUserData, header, sizeof(header)) != sizeof(header)) { + return totalFramesRead; + } + pWav->msadpcm.bytesRemainingInBlock = pWav->fmt.blockAlign - sizeof(header); + pWav->msadpcm.predictor[0] = header[0]; + pWav->msadpcm.predictor[1] = header[1]; + pWav->msadpcm.delta[0] = ma_dr_wav_bytes_to_s16(header + 2); + pWav->msadpcm.delta[1] = ma_dr_wav_bytes_to_s16(header + 4); + pWav->msadpcm.prevFrames[0][1] = (ma_int32)ma_dr_wav_bytes_to_s16(header + 6); + pWav->msadpcm.prevFrames[1][1] = (ma_int32)ma_dr_wav_bytes_to_s16(header + 8); + pWav->msadpcm.prevFrames[0][0] = (ma_int32)ma_dr_wav_bytes_to_s16(header + 10); + pWav->msadpcm.prevFrames[1][0] = (ma_int32)ma_dr_wav_bytes_to_s16(header + 12); + pWav->msadpcm.cachedFrames[0] = pWav->msadpcm.prevFrames[0][0]; + pWav->msadpcm.cachedFrames[1] = pWav->msadpcm.prevFrames[1][0]; + pWav->msadpcm.cachedFrames[2] = pWav->msadpcm.prevFrames[0][1]; + pWav->msadpcm.cachedFrames[3] = pWav->msadpcm.prevFrames[1][1]; + pWav->msadpcm.cachedFrameCount = 2; + if (pWav->msadpcm.predictor[0] >= ma_dr_wav_countof(coeff1Table) || pWav->msadpcm.predictor[0] >= ma_dr_wav_countof(coeff2Table) || + pWav->msadpcm.predictor[1] >= ma_dr_wav_countof(coeff1Table) || pWav->msadpcm.predictor[1] >= ma_dr_wav_countof(coeff2Table)) { + return totalFramesRead; + } + } + } + while (framesToRead > 0 && pWav->msadpcm.cachedFrameCount > 0 && pWav->readCursorInPCMFrames < pWav->totalPCMFrameCount) { + if (pBufferOut != NULL) { + ma_uint32 iSample = 0; + for (iSample = 0; iSample < pWav->channels; iSample += 1) { + pBufferOut[iSample] = (ma_int16)pWav->msadpcm.cachedFrames[(ma_dr_wav_countof(pWav->msadpcm.cachedFrames) - (pWav->msadpcm.cachedFrameCount*pWav->channels)) + iSample]; + } + pBufferOut += pWav->channels; + } + framesToRead -= 1; + totalFramesRead += 1; + pWav->readCursorInPCMFrames += 1; + pWav->msadpcm.cachedFrameCount -= 1; + } + if (framesToRead == 0) { + break; + } + if (pWav->msadpcm.cachedFrameCount == 0) { + if (pWav->msadpcm.bytesRemainingInBlock == 0) { + continue; + } else { + ma_uint8 nibbles; + ma_int32 nibble0; + ma_int32 nibble1; + if (pWav->onRead(pWav->pUserData, &nibbles, 1) != 1) { + return totalFramesRead; + } + pWav->msadpcm.bytesRemainingInBlock -= 1; + nibble0 = ((nibbles & 0xF0) >> 4); if ((nibbles & 0x80)) { nibble0 |= 0xFFFFFFF0UL; } + nibble1 = ((nibbles & 0x0F) >> 0); if ((nibbles & 0x08)) { nibble1 |= 0xFFFFFFF0UL; } + if (pWav->channels == 1) { + ma_int32 newSample0; + ma_int32 newSample1; + if (pWav->msadpcm.predictor[0] >= ma_dr_wav_countof(coeff1Table) || pWav->msadpcm.predictor[0] >= ma_dr_wav_countof(coeff2Table)) { + return totalFramesRead; + } + newSample0 = ((pWav->msadpcm.prevFrames[0][1] * coeff1Table[pWav->msadpcm.predictor[0]]) + (pWav->msadpcm.prevFrames[0][0] * coeff2Table[pWav->msadpcm.predictor[0]])) >> 8; + newSample0 += nibble0 * pWav->msadpcm.delta[0]; + newSample0 = ma_dr_wav_clamp(newSample0, -32768, 32767); + pWav->msadpcm.delta[0] = (adaptationTable[((nibbles & 0xF0) >> 4)] * pWav->msadpcm.delta[0]) >> 8; + if (pWav->msadpcm.delta[0] < 16) { + pWav->msadpcm.delta[0] = 16; + } + pWav->msadpcm.prevFrames[0][0] = pWav->msadpcm.prevFrames[0][1]; + pWav->msadpcm.prevFrames[0][1] = newSample0; + newSample1 = ((pWav->msadpcm.prevFrames[0][1] * coeff1Table[pWav->msadpcm.predictor[0]]) + (pWav->msadpcm.prevFrames[0][0] * coeff2Table[pWav->msadpcm.predictor[0]])) >> 8; + newSample1 += nibble1 * pWav->msadpcm.delta[0]; + newSample1 = ma_dr_wav_clamp(newSample1, -32768, 32767); + pWav->msadpcm.delta[0] = (adaptationTable[((nibbles & 0x0F) >> 0)] * pWav->msadpcm.delta[0]) >> 8; + if (pWav->msadpcm.delta[0] < 16) { + pWav->msadpcm.delta[0] = 16; + } + pWav->msadpcm.prevFrames[0][0] = pWav->msadpcm.prevFrames[0][1]; + pWav->msadpcm.prevFrames[0][1] = newSample1; + pWav->msadpcm.cachedFrames[2] = newSample0; + pWav->msadpcm.cachedFrames[3] = newSample1; + pWav->msadpcm.cachedFrameCount = 2; + } else { + ma_int32 newSample0; + ma_int32 newSample1; + if (pWav->msadpcm.predictor[0] >= ma_dr_wav_countof(coeff1Table) || pWav->msadpcm.predictor[0] >= ma_dr_wav_countof(coeff2Table)) { + return totalFramesRead; + } + newSample0 = ((pWav->msadpcm.prevFrames[0][1] * coeff1Table[pWav->msadpcm.predictor[0]]) + (pWav->msadpcm.prevFrames[0][0] * coeff2Table[pWav->msadpcm.predictor[0]])) >> 8; + newSample0 += nibble0 * pWav->msadpcm.delta[0]; + newSample0 = ma_dr_wav_clamp(newSample0, -32768, 32767); + pWav->msadpcm.delta[0] = (adaptationTable[((nibbles & 0xF0) >> 4)] * pWav->msadpcm.delta[0]) >> 8; + if (pWav->msadpcm.delta[0] < 16) { + pWav->msadpcm.delta[0] = 16; + } + pWav->msadpcm.prevFrames[0][0] = pWav->msadpcm.prevFrames[0][1]; + pWav->msadpcm.prevFrames[0][1] = newSample0; + if (pWav->msadpcm.predictor[1] >= ma_dr_wav_countof(coeff1Table) || pWav->msadpcm.predictor[1] >= ma_dr_wav_countof(coeff2Table)) { + return totalFramesRead; + } + newSample1 = ((pWav->msadpcm.prevFrames[1][1] * coeff1Table[pWav->msadpcm.predictor[1]]) + (pWav->msadpcm.prevFrames[1][0] * coeff2Table[pWav->msadpcm.predictor[1]])) >> 8; + newSample1 += nibble1 * pWav->msadpcm.delta[1]; + newSample1 = ma_dr_wav_clamp(newSample1, -32768, 32767); + pWav->msadpcm.delta[1] = (adaptationTable[((nibbles & 0x0F) >> 0)] * pWav->msadpcm.delta[1]) >> 8; + if (pWav->msadpcm.delta[1] < 16) { + pWav->msadpcm.delta[1] = 16; + } + pWav->msadpcm.prevFrames[1][0] = pWav->msadpcm.prevFrames[1][1]; + pWav->msadpcm.prevFrames[1][1] = newSample1; + pWav->msadpcm.cachedFrames[2] = newSample0; + pWav->msadpcm.cachedFrames[3] = newSample1; + pWav->msadpcm.cachedFrameCount = 1; + } + } + } + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__ima(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut) +{ + ma_uint64 totalFramesRead = 0; + ma_uint32 iChannel; + static const ma_int32 indexTable[16] = { + -1, -1, -1, -1, 2, 4, 6, 8, + -1, -1, -1, -1, 2, 4, 6, 8 + }; + static const ma_int32 stepTable[89] = { + 7, 8, 9, 10, 11, 12, 13, 14, 16, 17, + 19, 21, 23, 25, 28, 31, 34, 37, 41, 45, + 50, 55, 60, 66, 73, 80, 88, 97, 107, 118, + 130, 143, 157, 173, 190, 209, 230, 253, 279, 307, + 337, 371, 408, 449, 494, 544, 598, 658, 724, 796, + 876, 963, 1060, 1166, 1282, 1411, 1552, 1707, 1878, 2066, + 2272, 2499, 2749, 3024, 3327, 3660, 4026, 4428, 4871, 5358, + 5894, 6484, 7132, 7845, 8630, 9493, 10442, 11487, 12635, 13899, + 15289, 16818, 18500, 20350, 22385, 24623, 27086, 29794, 32767 + }; + MA_DR_WAV_ASSERT(pWav != NULL); + MA_DR_WAV_ASSERT(framesToRead > 0); + while (pWav->readCursorInPCMFrames < pWav->totalPCMFrameCount) { + MA_DR_WAV_ASSERT(framesToRead > 0); + if (pWav->ima.cachedFrameCount == 0 && pWav->ima.bytesRemainingInBlock == 0) { + if (pWav->channels == 1) { + ma_uint8 header[4]; + if (pWav->onRead(pWav->pUserData, header, sizeof(header)) != sizeof(header)) { + return totalFramesRead; + } + pWav->ima.bytesRemainingInBlock = pWav->fmt.blockAlign - sizeof(header); + if (header[2] >= ma_dr_wav_countof(stepTable)) { + pWav->onSeek(pWav->pUserData, pWav->ima.bytesRemainingInBlock, MA_DR_WAV_SEEK_CUR); + pWav->ima.bytesRemainingInBlock = 0; + return totalFramesRead; + } + pWav->ima.predictor[0] = (ma_int16)ma_dr_wav_bytes_to_u16(header + 0); + pWav->ima.stepIndex[0] = ma_dr_wav_clamp(header[2], 0, (ma_int32)ma_dr_wav_countof(stepTable)-1); + pWav->ima.cachedFrames[ma_dr_wav_countof(pWav->ima.cachedFrames) - 1] = pWav->ima.predictor[0]; + pWav->ima.cachedFrameCount = 1; + } else { + ma_uint8 header[8]; + if (pWav->onRead(pWav->pUserData, header, sizeof(header)) != sizeof(header)) { + return totalFramesRead; + } + pWav->ima.bytesRemainingInBlock = pWav->fmt.blockAlign - sizeof(header); + if (header[2] >= ma_dr_wav_countof(stepTable) || header[6] >= ma_dr_wav_countof(stepTable)) { + pWav->onSeek(pWav->pUserData, pWav->ima.bytesRemainingInBlock, MA_DR_WAV_SEEK_CUR); + pWav->ima.bytesRemainingInBlock = 0; + return totalFramesRead; + } + pWav->ima.predictor[0] = ma_dr_wav_bytes_to_s16(header + 0); + pWav->ima.stepIndex[0] = ma_dr_wav_clamp(header[2], 0, (ma_int32)ma_dr_wav_countof(stepTable)-1); + pWav->ima.predictor[1] = ma_dr_wav_bytes_to_s16(header + 4); + pWav->ima.stepIndex[1] = ma_dr_wav_clamp(header[6], 0, (ma_int32)ma_dr_wav_countof(stepTable)-1); + pWav->ima.cachedFrames[ma_dr_wav_countof(pWav->ima.cachedFrames) - 2] = pWav->ima.predictor[0]; + pWav->ima.cachedFrames[ma_dr_wav_countof(pWav->ima.cachedFrames) - 1] = pWav->ima.predictor[1]; + pWav->ima.cachedFrameCount = 1; + } + } + while (framesToRead > 0 && pWav->ima.cachedFrameCount > 0 && pWav->readCursorInPCMFrames < pWav->totalPCMFrameCount) { + if (pBufferOut != NULL) { + ma_uint32 iSample; + for (iSample = 0; iSample < pWav->channels; iSample += 1) { + pBufferOut[iSample] = (ma_int16)pWav->ima.cachedFrames[(ma_dr_wav_countof(pWav->ima.cachedFrames) - (pWav->ima.cachedFrameCount*pWav->channels)) + iSample]; + } + pBufferOut += pWav->channels; + } + framesToRead -= 1; + totalFramesRead += 1; + pWav->readCursorInPCMFrames += 1; + pWav->ima.cachedFrameCount -= 1; + } + if (framesToRead == 0) { + break; + } + if (pWav->ima.cachedFrameCount == 0) { + if (pWav->ima.bytesRemainingInBlock == 0) { + continue; + } else { + pWav->ima.cachedFrameCount = 8; + for (iChannel = 0; iChannel < pWav->channels; ++iChannel) { + ma_uint32 iByte; + ma_uint8 nibbles[4]; + if (pWav->onRead(pWav->pUserData, &nibbles, 4) != 4) { + pWav->ima.cachedFrameCount = 0; + return totalFramesRead; + } + pWav->ima.bytesRemainingInBlock -= 4; + for (iByte = 0; iByte < 4; ++iByte) { + ma_uint8 nibble0 = ((nibbles[iByte] & 0x0F) >> 0); + ma_uint8 nibble1 = ((nibbles[iByte] & 0xF0) >> 4); + ma_int32 step = stepTable[pWav->ima.stepIndex[iChannel]]; + ma_int32 predictor = pWav->ima.predictor[iChannel]; + ma_int32 diff = step >> 3; + if (nibble0 & 1) diff += step >> 2; + if (nibble0 & 2) diff += step >> 1; + if (nibble0 & 4) diff += step; + if (nibble0 & 8) diff = -diff; + predictor = ma_dr_wav_clamp(predictor + diff, -32768, 32767); + pWav->ima.predictor[iChannel] = predictor; + pWav->ima.stepIndex[iChannel] = ma_dr_wav_clamp(pWav->ima.stepIndex[iChannel] + indexTable[nibble0], 0, (ma_int32)ma_dr_wav_countof(stepTable)-1); + pWav->ima.cachedFrames[(ma_dr_wav_countof(pWav->ima.cachedFrames) - (pWav->ima.cachedFrameCount*pWav->channels)) + (iByte*2+0)*pWav->channels + iChannel] = predictor; + step = stepTable[pWav->ima.stepIndex[iChannel]]; + predictor = pWav->ima.predictor[iChannel]; + diff = step >> 3; + if (nibble1 & 1) diff += step >> 2; + if (nibble1 & 2) diff += step >> 1; + if (nibble1 & 4) diff += step; + if (nibble1 & 8) diff = -diff; + predictor = ma_dr_wav_clamp(predictor + diff, -32768, 32767); + pWav->ima.predictor[iChannel] = predictor; + pWav->ima.stepIndex[iChannel] = ma_dr_wav_clamp(pWav->ima.stepIndex[iChannel] + indexTable[nibble1], 0, (ma_int32)ma_dr_wav_countof(stepTable)-1); + pWav->ima.cachedFrames[(ma_dr_wav_countof(pWav->ima.cachedFrames) - (pWav->ima.cachedFrameCount*pWav->channels)) + (iByte*2+1)*pWav->channels + iChannel] = predictor; + } + } + } + } + } + return totalFramesRead; +} +#ifndef MA_DR_WAV_NO_CONVERSION_API +static const unsigned short ma_dr_wav_gAlawTable[256] = { + 0xEA80, 0xEB80, 0xE880, 0xE980, 0xEE80, 0xEF80, 0xEC80, 0xED80, 0xE280, 0xE380, 0xE080, 0xE180, 0xE680, 0xE780, 0xE480, 0xE580, + 0xF540, 0xF5C0, 0xF440, 0xF4C0, 0xF740, 0xF7C0, 0xF640, 0xF6C0, 0xF140, 0xF1C0, 0xF040, 0xF0C0, 0xF340, 0xF3C0, 0xF240, 0xF2C0, + 0xAA00, 0xAE00, 0xA200, 0xA600, 0xBA00, 0xBE00, 0xB200, 0xB600, 0x8A00, 0x8E00, 0x8200, 0x8600, 0x9A00, 0x9E00, 0x9200, 0x9600, + 0xD500, 0xD700, 0xD100, 0xD300, 0xDD00, 0xDF00, 0xD900, 0xDB00, 0xC500, 0xC700, 0xC100, 0xC300, 0xCD00, 0xCF00, 0xC900, 0xCB00, + 0xFEA8, 0xFEB8, 0xFE88, 0xFE98, 0xFEE8, 0xFEF8, 0xFEC8, 0xFED8, 0xFE28, 0xFE38, 0xFE08, 0xFE18, 0xFE68, 0xFE78, 0xFE48, 0xFE58, + 0xFFA8, 0xFFB8, 0xFF88, 0xFF98, 0xFFE8, 0xFFF8, 0xFFC8, 0xFFD8, 0xFF28, 0xFF38, 0xFF08, 0xFF18, 0xFF68, 0xFF78, 0xFF48, 0xFF58, + 0xFAA0, 0xFAE0, 0xFA20, 0xFA60, 0xFBA0, 0xFBE0, 0xFB20, 0xFB60, 0xF8A0, 0xF8E0, 0xF820, 0xF860, 0xF9A0, 0xF9E0, 0xF920, 0xF960, + 0xFD50, 0xFD70, 0xFD10, 0xFD30, 0xFDD0, 0xFDF0, 0xFD90, 0xFDB0, 0xFC50, 0xFC70, 0xFC10, 0xFC30, 0xFCD0, 0xFCF0, 0xFC90, 0xFCB0, + 0x1580, 0x1480, 0x1780, 0x1680, 0x1180, 0x1080, 0x1380, 0x1280, 0x1D80, 0x1C80, 0x1F80, 0x1E80, 0x1980, 0x1880, 0x1B80, 0x1A80, + 0x0AC0, 0x0A40, 0x0BC0, 0x0B40, 0x08C0, 0x0840, 0x09C0, 0x0940, 0x0EC0, 0x0E40, 0x0FC0, 0x0F40, 0x0CC0, 0x0C40, 0x0DC0, 0x0D40, + 0x5600, 0x5200, 0x5E00, 0x5A00, 0x4600, 0x4200, 0x4E00, 0x4A00, 0x7600, 0x7200, 0x7E00, 0x7A00, 0x6600, 0x6200, 0x6E00, 0x6A00, + 0x2B00, 0x2900, 0x2F00, 0x2D00, 0x2300, 0x2100, 0x2700, 0x2500, 0x3B00, 0x3900, 0x3F00, 0x3D00, 0x3300, 0x3100, 0x3700, 0x3500, + 0x0158, 0x0148, 0x0178, 0x0168, 0x0118, 0x0108, 0x0138, 0x0128, 0x01D8, 0x01C8, 0x01F8, 0x01E8, 0x0198, 0x0188, 0x01B8, 0x01A8, + 0x0058, 0x0048, 0x0078, 0x0068, 0x0018, 0x0008, 0x0038, 0x0028, 0x00D8, 0x00C8, 0x00F8, 0x00E8, 0x0098, 0x0088, 0x00B8, 0x00A8, + 0x0560, 0x0520, 0x05E0, 0x05A0, 0x0460, 0x0420, 0x04E0, 0x04A0, 0x0760, 0x0720, 0x07E0, 0x07A0, 0x0660, 0x0620, 0x06E0, 0x06A0, + 0x02B0, 0x0290, 0x02F0, 0x02D0, 0x0230, 0x0210, 0x0270, 0x0250, 0x03B0, 0x0390, 0x03F0, 0x03D0, 0x0330, 0x0310, 0x0370, 0x0350 +}; +static const unsigned short ma_dr_wav_gMulawTable[256] = { + 0x8284, 0x8684, 0x8A84, 0x8E84, 0x9284, 0x9684, 0x9A84, 0x9E84, 0xA284, 0xA684, 0xAA84, 0xAE84, 0xB284, 0xB684, 0xBA84, 0xBE84, + 0xC184, 0xC384, 0xC584, 0xC784, 0xC984, 0xCB84, 0xCD84, 0xCF84, 0xD184, 0xD384, 0xD584, 0xD784, 0xD984, 0xDB84, 0xDD84, 0xDF84, + 0xE104, 0xE204, 0xE304, 0xE404, 0xE504, 0xE604, 0xE704, 0xE804, 0xE904, 0xEA04, 0xEB04, 0xEC04, 0xED04, 0xEE04, 0xEF04, 0xF004, + 0xF0C4, 0xF144, 0xF1C4, 0xF244, 0xF2C4, 0xF344, 0xF3C4, 0xF444, 0xF4C4, 0xF544, 0xF5C4, 0xF644, 0xF6C4, 0xF744, 0xF7C4, 0xF844, + 0xF8A4, 0xF8E4, 0xF924, 0xF964, 0xF9A4, 0xF9E4, 0xFA24, 0xFA64, 0xFAA4, 0xFAE4, 0xFB24, 0xFB64, 0xFBA4, 0xFBE4, 0xFC24, 0xFC64, + 0xFC94, 0xFCB4, 0xFCD4, 0xFCF4, 0xFD14, 0xFD34, 0xFD54, 0xFD74, 0xFD94, 0xFDB4, 0xFDD4, 0xFDF4, 0xFE14, 0xFE34, 0xFE54, 0xFE74, + 0xFE8C, 0xFE9C, 0xFEAC, 0xFEBC, 0xFECC, 0xFEDC, 0xFEEC, 0xFEFC, 0xFF0C, 0xFF1C, 0xFF2C, 0xFF3C, 0xFF4C, 0xFF5C, 0xFF6C, 0xFF7C, + 0xFF88, 0xFF90, 0xFF98, 0xFFA0, 0xFFA8, 0xFFB0, 0xFFB8, 0xFFC0, 0xFFC8, 0xFFD0, 0xFFD8, 0xFFE0, 0xFFE8, 0xFFF0, 0xFFF8, 0x0000, + 0x7D7C, 0x797C, 0x757C, 0x717C, 0x6D7C, 0x697C, 0x657C, 0x617C, 0x5D7C, 0x597C, 0x557C, 0x517C, 0x4D7C, 0x497C, 0x457C, 0x417C, + 0x3E7C, 0x3C7C, 0x3A7C, 0x387C, 0x367C, 0x347C, 0x327C, 0x307C, 0x2E7C, 0x2C7C, 0x2A7C, 0x287C, 0x267C, 0x247C, 0x227C, 0x207C, + 0x1EFC, 0x1DFC, 0x1CFC, 0x1BFC, 0x1AFC, 0x19FC, 0x18FC, 0x17FC, 0x16FC, 0x15FC, 0x14FC, 0x13FC, 0x12FC, 0x11FC, 0x10FC, 0x0FFC, + 0x0F3C, 0x0EBC, 0x0E3C, 0x0DBC, 0x0D3C, 0x0CBC, 0x0C3C, 0x0BBC, 0x0B3C, 0x0ABC, 0x0A3C, 0x09BC, 0x093C, 0x08BC, 0x083C, 0x07BC, + 0x075C, 0x071C, 0x06DC, 0x069C, 0x065C, 0x061C, 0x05DC, 0x059C, 0x055C, 0x051C, 0x04DC, 0x049C, 0x045C, 0x041C, 0x03DC, 0x039C, + 0x036C, 0x034C, 0x032C, 0x030C, 0x02EC, 0x02CC, 0x02AC, 0x028C, 0x026C, 0x024C, 0x022C, 0x020C, 0x01EC, 0x01CC, 0x01AC, 0x018C, + 0x0174, 0x0164, 0x0154, 0x0144, 0x0134, 0x0124, 0x0114, 0x0104, 0x00F4, 0x00E4, 0x00D4, 0x00C4, 0x00B4, 0x00A4, 0x0094, 0x0084, + 0x0078, 0x0070, 0x0068, 0x0060, 0x0058, 0x0050, 0x0048, 0x0040, 0x0038, 0x0030, 0x0028, 0x0020, 0x0018, 0x0010, 0x0008, 0x0000 +}; +static MA_INLINE ma_int16 ma_dr_wav__alaw_to_s16(ma_uint8 sampleIn) +{ + return (short)ma_dr_wav_gAlawTable[sampleIn]; +} +static MA_INLINE ma_int16 ma_dr_wav__mulaw_to_s16(ma_uint8 sampleIn) +{ + return (short)ma_dr_wav_gMulawTable[sampleIn]; +} +MA_PRIVATE void ma_dr_wav__pcm_to_s16(ma_int16* pOut, const ma_uint8* pIn, size_t totalSampleCount, unsigned int bytesPerSample) +{ + size_t i; + if (bytesPerSample == 1) { + ma_dr_wav_u8_to_s16(pOut, pIn, totalSampleCount); + return; + } + if (bytesPerSample == 2) { + for (i = 0; i < totalSampleCount; ++i) { + *pOut++ = ((const ma_int16*)pIn)[i]; + } + return; + } + if (bytesPerSample == 3) { + ma_dr_wav_s24_to_s16(pOut, pIn, totalSampleCount); + return; + } + if (bytesPerSample == 4) { + ma_dr_wav_s32_to_s16(pOut, (const ma_int32*)pIn, totalSampleCount); + return; + } + if (bytesPerSample > 8) { + MA_DR_WAV_ZERO_MEMORY(pOut, totalSampleCount * sizeof(*pOut)); + return; + } + for (i = 0; i < totalSampleCount; ++i) { + ma_uint64 sample = 0; + unsigned int shift = (8 - bytesPerSample) * 8; + unsigned int j; + for (j = 0; j < bytesPerSample; j += 1) { + MA_DR_WAV_ASSERT(j < 8); + sample |= (ma_uint64)(pIn[j]) << shift; + shift += 8; + } + pIn += j; + *pOut++ = (ma_int16)((ma_int64)sample >> 48); + } +} +MA_PRIVATE void ma_dr_wav__ieee_to_s16(ma_int16* pOut, const ma_uint8* pIn, size_t totalSampleCount, unsigned int bytesPerSample) +{ + if (bytesPerSample == 4) { + ma_dr_wav_f32_to_s16(pOut, (const float*)pIn, totalSampleCount); + return; + } else if (bytesPerSample == 8) { + ma_dr_wav_f64_to_s16(pOut, (const double*)pIn, totalSampleCount); + return; + } else { + MA_DR_WAV_ZERO_MEMORY(pOut, totalSampleCount * sizeof(*pOut)); + return; + } +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__pcm(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + if ((pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_PCM && pWav->bitsPerSample == 16) || pBufferOut == NULL) { + return ma_dr_wav_read_pcm_frames(pWav, framesToRead, pBufferOut); + } + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav__pcm_to_s16(pBufferOut, sampleData, (size_t)samplesRead, bytesPerSample); + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__ieee(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + if (pBufferOut == NULL) { + return ma_dr_wav_read_pcm_frames(pWav, framesToRead, NULL); + } + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav__ieee_to_s16(pBufferOut, sampleData, (size_t)samplesRead, bytesPerSample); + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__alaw(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + if (pBufferOut == NULL) { + return ma_dr_wav_read_pcm_frames(pWav, framesToRead, NULL); + } + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav_alaw_to_s16(pBufferOut, sampleData, (size_t)samplesRead); + #ifdef MA_DR_WAV_LIBSNDFILE_COMPAT + { + if (pWav->container == ma_dr_wav_container_aiff) { + ma_uint64 iSample; + for (iSample = 0; iSample < samplesRead; iSample += 1) { + pBufferOut[iSample] = -pBufferOut[iSample]; + } + } + } + #endif + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__mulaw(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + if (pBufferOut == NULL) { + return ma_dr_wav_read_pcm_frames(pWav, framesToRead, NULL); + } + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav_mulaw_to_s16(pBufferOut, sampleData, (size_t)samplesRead); + #ifdef MA_DR_WAV_LIBSNDFILE_COMPAT + { + if (pWav->container == ma_dr_wav_container_aiff) { + ma_uint64 iSample; + for (iSample = 0; iSample < samplesRead; iSample += 1) { + pBufferOut[iSample] = -pBufferOut[iSample]; + } + } + } + #endif + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s16(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut) +{ + if (pWav == NULL || framesToRead == 0) { + return 0; + } + if (pBufferOut == NULL) { + return ma_dr_wav_read_pcm_frames(pWav, framesToRead, NULL); + } + if (framesToRead * pWav->channels * sizeof(ma_int16) > MA_SIZE_MAX) { + framesToRead = MA_SIZE_MAX / sizeof(ma_int16) / pWav->channels; + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_PCM) { + return ma_dr_wav_read_pcm_frames_s16__pcm(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_IEEE_FLOAT) { + return ma_dr_wav_read_pcm_frames_s16__ieee(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ALAW) { + return ma_dr_wav_read_pcm_frames_s16__alaw(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_MULAW) { + return ma_dr_wav_read_pcm_frames_s16__mulaw(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ADPCM) { + return ma_dr_wav_read_pcm_frames_s16__msadpcm(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_DVI_ADPCM) { + return ma_dr_wav_read_pcm_frames_s16__ima(pWav, framesToRead, pBufferOut); + } + return 0; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s16le(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut) +{ + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames_s16(pWav, framesToRead, pBufferOut); + if (pBufferOut != NULL && ma_dr_wav__is_little_endian() == MA_FALSE) { + ma_dr_wav__bswap_samples_s16(pBufferOut, framesRead*pWav->channels); + } + return framesRead; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s16be(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut) +{ + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames_s16(pWav, framesToRead, pBufferOut); + if (pBufferOut != NULL && ma_dr_wav__is_little_endian() == MA_TRUE) { + ma_dr_wav__bswap_samples_s16(pBufferOut, framesRead*pWav->channels); + } + return framesRead; +} +MA_API void ma_dr_wav_u8_to_s16(ma_int16* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + int r; + size_t i; + for (i = 0; i < sampleCount; ++i) { + int x = pIn[i]; + r = x << 8; + r = r - 32768; + pOut[i] = (short)r; + } +} +MA_API void ma_dr_wav_s24_to_s16(ma_int16* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + int r; + size_t i; + for (i = 0; i < sampleCount; ++i) { + int x = ((int)(((unsigned int)(((const ma_uint8*)pIn)[i*3+0]) << 8) | ((unsigned int)(((const ma_uint8*)pIn)[i*3+1]) << 16) | ((unsigned int)(((const ma_uint8*)pIn)[i*3+2])) << 24)) >> 8; + r = x >> 8; + pOut[i] = (short)r; + } +} +MA_API void ma_dr_wav_s32_to_s16(ma_int16* pOut, const ma_int32* pIn, size_t sampleCount) +{ + int r; + size_t i; + for (i = 0; i < sampleCount; ++i) { + int x = pIn[i]; + r = x >> 16; + pOut[i] = (short)r; + } +} +MA_API void ma_dr_wav_f32_to_s16(ma_int16* pOut, const float* pIn, size_t sampleCount) +{ + int r; + size_t i; + for (i = 0; i < sampleCount; ++i) { + float x = pIn[i]; + float c; + c = ((x < -1) ? -1 : ((x > 1) ? 1 : x)); + c = c + 1; + r = (int)(c * 32767.5f); + r = r - 32768; + pOut[i] = (short)r; + } +} +MA_API void ma_dr_wav_f64_to_s16(ma_int16* pOut, const double* pIn, size_t sampleCount) +{ + int r; + size_t i; + for (i = 0; i < sampleCount; ++i) { + double x = pIn[i]; + double c; + c = ((x < -1) ? -1 : ((x > 1) ? 1 : x)); + c = c + 1; + r = (int)(c * 32767.5); + r = r - 32768; + pOut[i] = (short)r; + } +} +MA_API void ma_dr_wav_alaw_to_s16(ma_int16* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + size_t i; + for (i = 0; i < sampleCount; ++i) { + pOut[i] = ma_dr_wav__alaw_to_s16(pIn[i]); + } +} +MA_API void ma_dr_wav_mulaw_to_s16(ma_int16* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + size_t i; + for (i = 0; i < sampleCount; ++i) { + pOut[i] = ma_dr_wav__mulaw_to_s16(pIn[i]); + } +} +MA_PRIVATE void ma_dr_wav__pcm_to_f32(float* pOut, const ma_uint8* pIn, size_t sampleCount, unsigned int bytesPerSample) +{ + unsigned int i; + if (bytesPerSample == 1) { + ma_dr_wav_u8_to_f32(pOut, pIn, sampleCount); + return; + } + if (bytesPerSample == 2) { + ma_dr_wav_s16_to_f32(pOut, (const ma_int16*)pIn, sampleCount); + return; + } + if (bytesPerSample == 3) { + ma_dr_wav_s24_to_f32(pOut, pIn, sampleCount); + return; + } + if (bytesPerSample == 4) { + ma_dr_wav_s32_to_f32(pOut, (const ma_int32*)pIn, sampleCount); + return; + } + if (bytesPerSample > 8) { + MA_DR_WAV_ZERO_MEMORY(pOut, sampleCount * sizeof(*pOut)); + return; + } + for (i = 0; i < sampleCount; ++i) { + ma_uint64 sample = 0; + unsigned int shift = (8 - bytesPerSample) * 8; + unsigned int j; + for (j = 0; j < bytesPerSample; j += 1) { + MA_DR_WAV_ASSERT(j < 8); + sample |= (ma_uint64)(pIn[j]) << shift; + shift += 8; + } + pIn += j; + *pOut++ = (float)((ma_int64)sample / 9223372036854775807.0); + } +} +MA_PRIVATE void ma_dr_wav__ieee_to_f32(float* pOut, const ma_uint8* pIn, size_t sampleCount, unsigned int bytesPerSample) +{ + if (bytesPerSample == 4) { + unsigned int i; + for (i = 0; i < sampleCount; ++i) { + *pOut++ = ((const float*)pIn)[i]; + } + return; + } else if (bytesPerSample == 8) { + ma_dr_wav_f64_to_f32(pOut, (const double*)pIn, sampleCount); + return; + } else { + MA_DR_WAV_ZERO_MEMORY(pOut, sampleCount * sizeof(*pOut)); + return; + } +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_f32__pcm(ma_dr_wav* pWav, ma_uint64 framesToRead, float* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav__pcm_to_f32(pBufferOut, sampleData, (size_t)samplesRead, bytesPerSample); + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_f32__msadpcm_ima(ma_dr_wav* pWav, ma_uint64 framesToRead, float* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_int16 samples16[2048]; + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, ma_dr_wav_countof(samples16)/pWav->channels); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames_s16(pWav, framesToReadThisIteration, samples16); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + ma_dr_wav_s16_to_f32(pBufferOut, samples16, (size_t)(framesRead*pWav->channels)); + pBufferOut += framesRead*pWav->channels; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_f32__ieee(ma_dr_wav* pWav, ma_uint64 framesToRead, float* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_IEEE_FLOAT && pWav->bitsPerSample == 32) { + return ma_dr_wav_read_pcm_frames(pWav, framesToRead, pBufferOut); + } + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav__ieee_to_f32(pBufferOut, sampleData, (size_t)samplesRead, bytesPerSample); + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_f32__alaw(ma_dr_wav* pWav, ma_uint64 framesToRead, float* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav_alaw_to_f32(pBufferOut, sampleData, (size_t)samplesRead); + #ifdef MA_DR_WAV_LIBSNDFILE_COMPAT + { + if (pWav->container == ma_dr_wav_container_aiff) { + ma_uint64 iSample; + for (iSample = 0; iSample < samplesRead; iSample += 1) { + pBufferOut[iSample] = -pBufferOut[iSample]; + } + } + } + #endif + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_f32__mulaw(ma_dr_wav* pWav, ma_uint64 framesToRead, float* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav_mulaw_to_f32(pBufferOut, sampleData, (size_t)samplesRead); + #ifdef MA_DR_WAV_LIBSNDFILE_COMPAT + { + if (pWav->container == ma_dr_wav_container_aiff) { + ma_uint64 iSample; + for (iSample = 0; iSample < samplesRead; iSample += 1) { + pBufferOut[iSample] = -pBufferOut[iSample]; + } + } + } + #endif + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_f32(ma_dr_wav* pWav, ma_uint64 framesToRead, float* pBufferOut) +{ + if (pWav == NULL || framesToRead == 0) { + return 0; + } + if (pBufferOut == NULL) { + return ma_dr_wav_read_pcm_frames(pWav, framesToRead, NULL); + } + if (framesToRead * pWav->channels * sizeof(float) > MA_SIZE_MAX) { + framesToRead = MA_SIZE_MAX / sizeof(float) / pWav->channels; + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_PCM) { + return ma_dr_wav_read_pcm_frames_f32__pcm(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ADPCM || pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_DVI_ADPCM) { + return ma_dr_wav_read_pcm_frames_f32__msadpcm_ima(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_IEEE_FLOAT) { + return ma_dr_wav_read_pcm_frames_f32__ieee(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ALAW) { + return ma_dr_wav_read_pcm_frames_f32__alaw(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_MULAW) { + return ma_dr_wav_read_pcm_frames_f32__mulaw(pWav, framesToRead, pBufferOut); + } + return 0; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_f32le(ma_dr_wav* pWav, ma_uint64 framesToRead, float* pBufferOut) +{ + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames_f32(pWav, framesToRead, pBufferOut); + if (pBufferOut != NULL && ma_dr_wav__is_little_endian() == MA_FALSE) { + ma_dr_wav__bswap_samples_f32(pBufferOut, framesRead*pWav->channels); + } + return framesRead; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_f32be(ma_dr_wav* pWav, ma_uint64 framesToRead, float* pBufferOut) +{ + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames_f32(pWav, framesToRead, pBufferOut); + if (pBufferOut != NULL && ma_dr_wav__is_little_endian() == MA_TRUE) { + ma_dr_wav__bswap_samples_f32(pBufferOut, framesRead*pWav->channels); + } + return framesRead; +} +MA_API void ma_dr_wav_u8_to_f32(float* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } +#ifdef MA_DR_WAV_LIBSNDFILE_COMPAT + for (i = 0; i < sampleCount; ++i) { + *pOut++ = (pIn[i] / 256.0f) * 2 - 1; + } +#else + for (i = 0; i < sampleCount; ++i) { + float x = pIn[i]; + x = x * 0.00784313725490196078f; + x = x - 1; + *pOut++ = x; + } +#endif +} +MA_API void ma_dr_wav_s16_to_f32(float* pOut, const ma_int16* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + *pOut++ = pIn[i] * 0.000030517578125f; + } +} +MA_API void ma_dr_wav_s24_to_f32(float* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + double x; + ma_uint32 a = ((ma_uint32)(pIn[i*3+0]) << 8); + ma_uint32 b = ((ma_uint32)(pIn[i*3+1]) << 16); + ma_uint32 c = ((ma_uint32)(pIn[i*3+2]) << 24); + x = (double)((ma_int32)(a | b | c) >> 8); + *pOut++ = (float)(x * 0.00000011920928955078125); + } +} +MA_API void ma_dr_wav_s32_to_f32(float* pOut, const ma_int32* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + *pOut++ = (float)(pIn[i] / 2147483648.0); + } +} +MA_API void ma_dr_wav_f64_to_f32(float* pOut, const double* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + *pOut++ = (float)pIn[i]; + } +} +MA_API void ma_dr_wav_alaw_to_f32(float* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + *pOut++ = ma_dr_wav__alaw_to_s16(pIn[i]) / 32768.0f; + } +} +MA_API void ma_dr_wav_mulaw_to_f32(float* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + *pOut++ = ma_dr_wav__mulaw_to_s16(pIn[i]) / 32768.0f; + } +} +MA_PRIVATE void ma_dr_wav__pcm_to_s32(ma_int32* pOut, const ma_uint8* pIn, size_t totalSampleCount, unsigned int bytesPerSample) +{ + unsigned int i; + if (bytesPerSample == 1) { + ma_dr_wav_u8_to_s32(pOut, pIn, totalSampleCount); + return; + } + if (bytesPerSample == 2) { + ma_dr_wav_s16_to_s32(pOut, (const ma_int16*)pIn, totalSampleCount); + return; + } + if (bytesPerSample == 3) { + ma_dr_wav_s24_to_s32(pOut, pIn, totalSampleCount); + return; + } + if (bytesPerSample == 4) { + for (i = 0; i < totalSampleCount; ++i) { + *pOut++ = ((const ma_int32*)pIn)[i]; + } + return; + } + if (bytesPerSample > 8) { + MA_DR_WAV_ZERO_MEMORY(pOut, totalSampleCount * sizeof(*pOut)); + return; + } + for (i = 0; i < totalSampleCount; ++i) { + ma_uint64 sample = 0; + unsigned int shift = (8 - bytesPerSample) * 8; + unsigned int j; + for (j = 0; j < bytesPerSample; j += 1) { + MA_DR_WAV_ASSERT(j < 8); + sample |= (ma_uint64)(pIn[j]) << shift; + shift += 8; + } + pIn += j; + *pOut++ = (ma_int32)((ma_int64)sample >> 32); + } +} +MA_PRIVATE void ma_dr_wav__ieee_to_s32(ma_int32* pOut, const ma_uint8* pIn, size_t totalSampleCount, unsigned int bytesPerSample) +{ + if (bytesPerSample == 4) { + ma_dr_wav_f32_to_s32(pOut, (const float*)pIn, totalSampleCount); + return; + } else if (bytesPerSample == 8) { + ma_dr_wav_f64_to_s32(pOut, (const double*)pIn, totalSampleCount); + return; + } else { + MA_DR_WAV_ZERO_MEMORY(pOut, totalSampleCount * sizeof(*pOut)); + return; + } +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s32__pcm(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int32* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_PCM && pWav->bitsPerSample == 32) { + return ma_dr_wav_read_pcm_frames(pWav, framesToRead, pBufferOut); + } + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav__pcm_to_s32(pBufferOut, sampleData, (size_t)samplesRead, bytesPerSample); + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s32__msadpcm_ima(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int32* pBufferOut) +{ + ma_uint64 totalFramesRead = 0; + ma_int16 samples16[2048]; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, ma_dr_wav_countof(samples16)/pWav->channels); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames_s16(pWav, framesToReadThisIteration, samples16); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + ma_dr_wav_s16_to_s32(pBufferOut, samples16, (size_t)(framesRead*pWav->channels)); + pBufferOut += framesRead*pWav->channels; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s32__ieee(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int32* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav__ieee_to_s32(pBufferOut, sampleData, (size_t)samplesRead, bytesPerSample); + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s32__alaw(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int32* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav_alaw_to_s32(pBufferOut, sampleData, (size_t)samplesRead); + #ifdef MA_DR_WAV_LIBSNDFILE_COMPAT + { + if (pWav->container == ma_dr_wav_container_aiff) { + ma_uint64 iSample; + for (iSample = 0; iSample < samplesRead; iSample += 1) { + pBufferOut[iSample] = -pBufferOut[iSample]; + } + } + } + #endif + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s32__mulaw(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int32* pBufferOut) +{ + ma_uint64 totalFramesRead; + ma_uint8 sampleData[4096] = {0}; + ma_uint32 bytesPerFrame; + ma_uint32 bytesPerSample; + ma_uint64 samplesRead; + bytesPerFrame = ma_dr_wav_get_bytes_per_pcm_frame(pWav); + if (bytesPerFrame == 0) { + return 0; + } + bytesPerSample = bytesPerFrame / pWav->channels; + if (bytesPerSample == 0 || (bytesPerFrame % pWav->channels) != 0) { + return 0; + } + totalFramesRead = 0; + while (framesToRead > 0) { + ma_uint64 framesToReadThisIteration = ma_dr_wav_min(framesToRead, sizeof(sampleData)/bytesPerFrame); + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames(pWav, framesToReadThisIteration, sampleData); + if (framesRead == 0) { + break; + } + MA_DR_WAV_ASSERT(framesRead <= framesToReadThisIteration); + samplesRead = framesRead * pWav->channels; + if ((samplesRead * bytesPerSample) > sizeof(sampleData)) { + MA_DR_WAV_ASSERT(MA_FALSE); + break; + } + ma_dr_wav_mulaw_to_s32(pBufferOut, sampleData, (size_t)samplesRead); + #ifdef MA_DR_WAV_LIBSNDFILE_COMPAT + { + if (pWav->container == ma_dr_wav_container_aiff) { + ma_uint64 iSample; + for (iSample = 0; iSample < samplesRead; iSample += 1) { + pBufferOut[iSample] = -pBufferOut[iSample]; + } + } + } + #endif + pBufferOut += samplesRead; + framesToRead -= framesRead; + totalFramesRead += framesRead; + } + return totalFramesRead; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s32(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int32* pBufferOut) +{ + if (pWav == NULL || framesToRead == 0) { + return 0; + } + if (pBufferOut == NULL) { + return ma_dr_wav_read_pcm_frames(pWav, framesToRead, NULL); + } + if (framesToRead * pWav->channels * sizeof(ma_int32) > MA_SIZE_MAX) { + framesToRead = MA_SIZE_MAX / sizeof(ma_int32) / pWav->channels; + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_PCM) { + return ma_dr_wav_read_pcm_frames_s32__pcm(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ADPCM || pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_DVI_ADPCM) { + return ma_dr_wav_read_pcm_frames_s32__msadpcm_ima(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_IEEE_FLOAT) { + return ma_dr_wav_read_pcm_frames_s32__ieee(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_ALAW) { + return ma_dr_wav_read_pcm_frames_s32__alaw(pWav, framesToRead, pBufferOut); + } + if (pWav->translatedFormatTag == MA_DR_WAVE_FORMAT_MULAW) { + return ma_dr_wav_read_pcm_frames_s32__mulaw(pWav, framesToRead, pBufferOut); + } + return 0; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s32le(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int32* pBufferOut) +{ + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames_s32(pWav, framesToRead, pBufferOut); + if (pBufferOut != NULL && ma_dr_wav__is_little_endian() == MA_FALSE) { + ma_dr_wav__bswap_samples_s32(pBufferOut, framesRead*pWav->channels); + } + return framesRead; +} +MA_API ma_uint64 ma_dr_wav_read_pcm_frames_s32be(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int32* pBufferOut) +{ + ma_uint64 framesRead = ma_dr_wav_read_pcm_frames_s32(pWav, framesToRead, pBufferOut); + if (pBufferOut != NULL && ma_dr_wav__is_little_endian() == MA_TRUE) { + ma_dr_wav__bswap_samples_s32(pBufferOut, framesRead*pWav->channels); + } + return framesRead; +} +MA_API void ma_dr_wav_u8_to_s32(ma_int32* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + *pOut++ = ((int)pIn[i] - 128) << 24; + } +} +MA_API void ma_dr_wav_s16_to_s32(ma_int32* pOut, const ma_int16* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + *pOut++ = pIn[i] << 16; + } +} +MA_API void ma_dr_wav_s24_to_s32(ma_int32* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + unsigned int s0 = pIn[i*3 + 0]; + unsigned int s1 = pIn[i*3 + 1]; + unsigned int s2 = pIn[i*3 + 2]; + ma_int32 sample32 = (ma_int32)((s0 << 8) | (s1 << 16) | (s2 << 24)); + *pOut++ = sample32; + } +} +MA_API void ma_dr_wav_f32_to_s32(ma_int32* pOut, const float* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + *pOut++ = (ma_int32)(2147483648.0f * pIn[i]); + } +} +MA_API void ma_dr_wav_f64_to_s32(ma_int32* pOut, const double* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + *pOut++ = (ma_int32)(2147483648.0 * pIn[i]); + } +} +MA_API void ma_dr_wav_alaw_to_s32(ma_int32* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i = 0; i < sampleCount; ++i) { + *pOut++ = ((ma_int32)ma_dr_wav__alaw_to_s16(pIn[i])) << 16; + } +} +MA_API void ma_dr_wav_mulaw_to_s32(ma_int32* pOut, const ma_uint8* pIn, size_t sampleCount) +{ + size_t i; + if (pOut == NULL || pIn == NULL) { + return; + } + for (i= 0; i < sampleCount; ++i) { + *pOut++ = ((ma_int32)ma_dr_wav__mulaw_to_s16(pIn[i])) << 16; + } +} +MA_PRIVATE ma_int16* ma_dr_wav__read_pcm_frames_and_close_s16(ma_dr_wav* pWav, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalFrameCount) +{ + ma_uint64 sampleDataSize; + ma_int16* pSampleData; + ma_uint64 framesRead; + MA_DR_WAV_ASSERT(pWav != NULL); + if (pWav->channels == 0 || pWav->totalPCMFrameCount > MA_SIZE_MAX / pWav->channels / sizeof(ma_int16)) { + ma_dr_wav_uninit(pWav); + return NULL; + } + sampleDataSize = pWav->totalPCMFrameCount * pWav->channels * sizeof(ma_int16); + if (sampleDataSize > MA_SIZE_MAX) { + ma_dr_wav_uninit(pWav); + return NULL; + } + pSampleData = (ma_int16*)ma_dr_wav__malloc_from_callbacks((size_t)sampleDataSize, &pWav->allocationCallbacks); + if (pSampleData == NULL) { + ma_dr_wav_uninit(pWav); + return NULL; + } + framesRead = ma_dr_wav_read_pcm_frames_s16(pWav, (size_t)pWav->totalPCMFrameCount, pSampleData); + if (framesRead != pWav->totalPCMFrameCount) { + ma_dr_wav__free_from_callbacks(pSampleData, &pWav->allocationCallbacks); + ma_dr_wav_uninit(pWav); + return NULL; + } + ma_dr_wav_uninit(pWav); + if (sampleRate) { + *sampleRate = pWav->sampleRate; + } + if (channels) { + *channels = pWav->channels; + } + if (totalFrameCount) { + *totalFrameCount = pWav->totalPCMFrameCount; + } + return pSampleData; +} +MA_PRIVATE float* ma_dr_wav__read_pcm_frames_and_close_f32(ma_dr_wav* pWav, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalFrameCount) +{ + ma_uint64 sampleDataSize; + float* pSampleData; + ma_uint64 framesRead; + MA_DR_WAV_ASSERT(pWav != NULL); + if (pWav->channels == 0 || pWav->totalPCMFrameCount > MA_SIZE_MAX / pWav->channels / sizeof(float)) { + ma_dr_wav_uninit(pWav); + return NULL; + } + sampleDataSize = pWav->totalPCMFrameCount * pWav->channels * sizeof(float); + if (sampleDataSize > MA_SIZE_MAX) { + ma_dr_wav_uninit(pWav); + return NULL; + } + pSampleData = (float*)ma_dr_wav__malloc_from_callbacks((size_t)sampleDataSize, &pWav->allocationCallbacks); + if (pSampleData == NULL) { + ma_dr_wav_uninit(pWav); + return NULL; + } + framesRead = ma_dr_wav_read_pcm_frames_f32(pWav, (size_t)pWav->totalPCMFrameCount, pSampleData); + if (framesRead != pWav->totalPCMFrameCount) { + ma_dr_wav__free_from_callbacks(pSampleData, &pWav->allocationCallbacks); + ma_dr_wav_uninit(pWav); + return NULL; + } + ma_dr_wav_uninit(pWav); + if (sampleRate) { + *sampleRate = pWav->sampleRate; + } + if (channels) { + *channels = pWav->channels; + } + if (totalFrameCount) { + *totalFrameCount = pWav->totalPCMFrameCount; + } + return pSampleData; +} +MA_PRIVATE ma_int32* ma_dr_wav__read_pcm_frames_and_close_s32(ma_dr_wav* pWav, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalFrameCount) +{ + ma_uint64 sampleDataSize; + ma_int32* pSampleData; + ma_uint64 framesRead; + MA_DR_WAV_ASSERT(pWav != NULL); + if (pWav->channels == 0 || pWav->totalPCMFrameCount > MA_SIZE_MAX / pWav->channels / sizeof(ma_int32)) { + ma_dr_wav_uninit(pWav); + return NULL; + } + sampleDataSize = pWav->totalPCMFrameCount * pWav->channels * sizeof(ma_int32); + if (sampleDataSize > MA_SIZE_MAX) { + ma_dr_wav_uninit(pWav); + return NULL; + } + pSampleData = (ma_int32*)ma_dr_wav__malloc_from_callbacks((size_t)sampleDataSize, &pWav->allocationCallbacks); + if (pSampleData == NULL) { + ma_dr_wav_uninit(pWav); + return NULL; + } + framesRead = ma_dr_wav_read_pcm_frames_s32(pWav, (size_t)pWav->totalPCMFrameCount, pSampleData); + if (framesRead != pWav->totalPCMFrameCount) { + ma_dr_wav__free_from_callbacks(pSampleData, &pWav->allocationCallbacks); + ma_dr_wav_uninit(pWav); + return NULL; + } + ma_dr_wav_uninit(pWav); + if (sampleRate) { + *sampleRate = pWav->sampleRate; + } + if (channels) { + *channels = pWav->channels; + } + if (totalFrameCount) { + *totalFrameCount = pWav->totalPCMFrameCount; + } + return pSampleData; +} +MA_API ma_int16* ma_dr_wav_open_and_read_pcm_frames_s16(ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, void* pUserData, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init(&wav, onRead, onSeek, onTell, pUserData, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_s16(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +MA_API float* ma_dr_wav_open_and_read_pcm_frames_f32(ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, void* pUserData, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init(&wav, onRead, onSeek, onTell, pUserData, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_f32(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +MA_API ma_int32* ma_dr_wav_open_and_read_pcm_frames_s32(ma_dr_wav_read_proc onRead, ma_dr_wav_seek_proc onSeek, ma_dr_wav_tell_proc onTell, void* pUserData, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init(&wav, onRead, onSeek, onTell, pUserData, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_s32(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +#ifndef MA_DR_WAV_NO_STDIO +MA_API ma_int16* ma_dr_wav_open_file_and_read_pcm_frames_s16(const char* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init_file(&wav, filename, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_s16(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +MA_API float* ma_dr_wav_open_file_and_read_pcm_frames_f32(const char* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init_file(&wav, filename, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_f32(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +MA_API ma_int32* ma_dr_wav_open_file_and_read_pcm_frames_s32(const char* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init_file(&wav, filename, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_s32(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +#ifndef MA_DR_WAV_NO_WCHAR +MA_API ma_int16* ma_dr_wav_open_file_and_read_pcm_frames_s16_w(const wchar_t* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (channelsOut) { + *channelsOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init_file_w(&wav, filename, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_s16(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +MA_API float* ma_dr_wav_open_file_and_read_pcm_frames_f32_w(const wchar_t* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (channelsOut) { + *channelsOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init_file_w(&wav, filename, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_f32(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +MA_API ma_int32* ma_dr_wav_open_file_and_read_pcm_frames_s32_w(const wchar_t* filename, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (channelsOut) { + *channelsOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init_file_w(&wav, filename, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_s32(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +#endif +#endif +MA_API ma_int16* ma_dr_wav_open_memory_and_read_pcm_frames_s16(const void* data, size_t dataSize, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init_memory(&wav, data, dataSize, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_s16(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +MA_API float* ma_dr_wav_open_memory_and_read_pcm_frames_f32(const void* data, size_t dataSize, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init_memory(&wav, data, dataSize, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_f32(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +MA_API ma_int32* ma_dr_wav_open_memory_and_read_pcm_frames_s32(const void* data, size_t dataSize, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_wav wav; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalFrameCountOut) { + *totalFrameCountOut = 0; + } + if (!ma_dr_wav_init_memory(&wav, data, dataSize, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_wav__read_pcm_frames_and_close_s32(&wav, channelsOut, sampleRateOut, totalFrameCountOut); +} +#endif +MA_API void ma_dr_wav_free(void* p, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks != NULL) { + ma_dr_wav__free_from_callbacks(p, pAllocationCallbacks); + } else { + ma_dr_wav__free_default(p, NULL); + } +} +MA_API ma_uint16 ma_dr_wav_bytes_to_u16(const ma_uint8* data) +{ + return ((ma_uint16)data[0] << 0) | ((ma_uint16)data[1] << 8); +} +MA_API ma_int16 ma_dr_wav_bytes_to_s16(const ma_uint8* data) +{ + return (ma_int16)ma_dr_wav_bytes_to_u16(data); +} +MA_API ma_uint32 ma_dr_wav_bytes_to_u32(const ma_uint8* data) +{ + return ma_dr_wav_bytes_to_u32_le(data); +} +MA_API float ma_dr_wav_bytes_to_f32(const ma_uint8* data) +{ + union { + ma_uint32 u32; + float f32; + } value; + value.u32 = ma_dr_wav_bytes_to_u32(data); + return value.f32; +} +MA_API ma_int32 ma_dr_wav_bytes_to_s32(const ma_uint8* data) +{ + return (ma_int32)ma_dr_wav_bytes_to_u32(data); +} +MA_API ma_uint64 ma_dr_wav_bytes_to_u64(const ma_uint8* data) +{ + return + ((ma_uint64)data[0] << 0) | ((ma_uint64)data[1] << 8) | ((ma_uint64)data[2] << 16) | ((ma_uint64)data[3] << 24) | + ((ma_uint64)data[4] << 32) | ((ma_uint64)data[5] << 40) | ((ma_uint64)data[6] << 48) | ((ma_uint64)data[7] << 56); +} +MA_API ma_int64 ma_dr_wav_bytes_to_s64(const ma_uint8* data) +{ + return (ma_int64)ma_dr_wav_bytes_to_u64(data); +} +MA_API ma_bool32 ma_dr_wav_guid_equal(const ma_uint8 a[16], const ma_uint8 b[16]) +{ + int i; + for (i = 0; i < 16; i += 1) { + if (a[i] != b[i]) { + return MA_FALSE; + } + } + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_wav_fourcc_equal(const ma_uint8* a, const char* b) +{ + return + a[0] == b[0] && + a[1] == b[1] && + a[2] == b[2] && + a[3] == b[3]; +} +#ifdef __MRC__ +#pragma options opt reset +#endif +#endif +/* dr_wav_c end */ +#endif /* MA_DR_WAV_IMPLEMENTATION */ +#endif /* MA_NO_WAV */ + +#if !defined(MA_NO_FLAC) && !defined(MA_NO_DECODING) +#if !defined(MA_DR_FLAC_IMPLEMENTATION) +/* dr_flac_c begin */ +#ifndef ma_dr_flac_c +#define ma_dr_flac_c +#if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))) + #pragma GCC diagnostic push + #if __GNUC__ >= 7 + #pragma GCC diagnostic ignored "-Wimplicit-fallthrough" + #endif +#endif +#ifdef __linux__ + #ifndef _BSD_SOURCE + #define _BSD_SOURCE + #endif + #ifndef _DEFAULT_SOURCE + #define _DEFAULT_SOURCE + #endif + #ifndef __USE_BSD + #define __USE_BSD + #endif + #include +#endif +#include +#include +#if !defined(MA_DR_FLAC_NO_SIMD) + #if defined(MA_X64) || defined(MA_X86) + #if defined(_MSC_VER) && !defined(__clang__) + #if _MSC_VER >= 1400 && !defined(MA_DR_FLAC_NO_SSE2) + #define MA_DR_FLAC_SUPPORT_SSE2 + #endif + #if _MSC_VER >= 1600 && !defined(MA_DR_FLAC_NO_SSE41) + #define MA_DR_FLAC_SUPPORT_SSE41 + #endif + #elif defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 3))) + #if defined(__SSE2__) && !defined(MA_DR_FLAC_NO_SSE2) + #define MA_DR_FLAC_SUPPORT_SSE2 + #endif + #if defined(__SSE4_1__) && !defined(MA_DR_FLAC_NO_SSE41) + #define MA_DR_FLAC_SUPPORT_SSE41 + #endif + #endif + #if !defined(__GNUC__) && !defined(__clang__) && defined(__has_include) + #if !defined(MA_DR_FLAC_SUPPORT_SSE2) && !defined(MA_DR_FLAC_NO_SSE2) && __has_include() + #define MA_DR_FLAC_SUPPORT_SSE2 + #endif + #if !defined(MA_DR_FLAC_SUPPORT_SSE41) && !defined(MA_DR_FLAC_NO_SSE41) && __has_include() + #define MA_DR_FLAC_SUPPORT_SSE41 + #endif + #endif + #if defined(MA_DR_FLAC_SUPPORT_SSE41) + #include + #elif defined(MA_DR_FLAC_SUPPORT_SSE2) + #include + #endif + #endif + #if defined(MA_ARM) + #if !defined(MA_DR_FLAC_NO_NEON) && (defined(__ARM_NEON) || defined(__aarch64__) || defined(_M_ARM64)) + #define MA_DR_FLAC_SUPPORT_NEON + #include + #endif + #endif +#endif +#if !defined(MA_DR_FLAC_NO_SIMD) && (defined(MA_X86) || defined(MA_X64)) + #if defined(_MSC_VER) && !defined(__clang__) + #if _MSC_VER >= 1400 + #include + static void ma_dr_flac__cpuid(int info[4], int fid) + { + __cpuid(info, fid); + } + #else + #define MA_DR_FLAC_NO_CPUID + #endif + #else + #if defined(__GNUC__) || defined(__clang__) + static void ma_dr_flac__cpuid(int info[4], int fid) + { + #if defined(MA_X86) && defined(__PIC__) + __asm__ __volatile__ ( + "xchg{l} {%%}ebx, %k1;" + "cpuid;" + "xchg{l} {%%}ebx, %k1;" + : "=a"(info[0]), "=&r"(info[1]), "=c"(info[2]), "=d"(info[3]) : "a"(fid), "c"(0) + ); + #else + __asm__ __volatile__ ( + "cpuid" : "=a"(info[0]), "=b"(info[1]), "=c"(info[2]), "=d"(info[3]) : "a"(fid), "c"(0) + ); + #endif + } + #else + #define MA_DR_FLAC_NO_CPUID + #endif + #endif +#else + #define MA_DR_FLAC_NO_CPUID +#endif +static MA_INLINE ma_bool32 ma_dr_flac_has_sse2(void) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + #if (defined(MA_X64) || defined(MA_X86)) && !defined(MA_DR_FLAC_NO_SSE2) + #if defined(MA_X64) + return MA_TRUE; + #elif (defined(_M_IX86_FP) && _M_IX86_FP == 2) || defined(__SSE2__) + return MA_TRUE; + #else + #if defined(MA_DR_FLAC_NO_CPUID) + return MA_FALSE; + #else + int info[4]; + ma_dr_flac__cpuid(info, 1); + return (info[3] & (1 << 26)) != 0; + #endif + #endif + #else + return MA_FALSE; + #endif +#else + return MA_FALSE; +#endif +} +static MA_INLINE ma_bool32 ma_dr_flac_has_sse41(void) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE41) + #if (defined(MA_X64) || defined(MA_X86)) && !defined(MA_DR_FLAC_NO_SSE41) + #if defined(__SSE4_1__) || defined(__AVX__) + return MA_TRUE; + #else + #if defined(MA_DR_FLAC_NO_CPUID) + return MA_FALSE; + #else + int info[4]; + ma_dr_flac__cpuid(info, 1); + return (info[2] & (1 << 19)) != 0; + #endif + #endif + #else + return MA_FALSE; + #endif +#else + return MA_FALSE; +#endif +} +#if defined(_MSC_VER) && _MSC_VER >= 1500 && (defined(MA_X86) || defined(MA_X64)) && !defined(__clang__) + #define MA_DR_FLAC_HAS_LZCNT_INTRINSIC +#elif (defined(__GNUC__) && ((__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 7))) + #define MA_DR_FLAC_HAS_LZCNT_INTRINSIC +#elif defined(__clang__) + #if defined(__has_builtin) + #if __has_builtin(__builtin_clzll) || __has_builtin(__builtin_clzl) + #define MA_DR_FLAC_HAS_LZCNT_INTRINSIC + #endif + #endif +#endif +#if defined(_MSC_VER) && _MSC_VER >= 1400 && !defined(__clang__) + #define MA_DR_FLAC_HAS_BYTESWAP16_INTRINSIC + #define MA_DR_FLAC_HAS_BYTESWAP32_INTRINSIC + #define MA_DR_FLAC_HAS_BYTESWAP64_INTRINSIC +#elif defined(__clang__) + #if defined(__has_builtin) + #if __has_builtin(__builtin_bswap16) + #define MA_DR_FLAC_HAS_BYTESWAP16_INTRINSIC + #endif + #if __has_builtin(__builtin_bswap32) + #define MA_DR_FLAC_HAS_BYTESWAP32_INTRINSIC + #endif + #if __has_builtin(__builtin_bswap64) + #define MA_DR_FLAC_HAS_BYTESWAP64_INTRINSIC + #endif + #endif +#elif defined(__GNUC__) + #if ((__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 3)) + #define MA_DR_FLAC_HAS_BYTESWAP32_INTRINSIC + #define MA_DR_FLAC_HAS_BYTESWAP64_INTRINSIC + #endif + #if ((__GNUC__ > 4) || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)) + #define MA_DR_FLAC_HAS_BYTESWAP16_INTRINSIC + #endif +#elif defined(__WATCOMC__) && defined(__386__) + #define MA_DR_FLAC_HAS_BYTESWAP16_INTRINSIC + #define MA_DR_FLAC_HAS_BYTESWAP32_INTRINSIC + #define MA_DR_FLAC_HAS_BYTESWAP64_INTRINSIC + extern __inline ma_uint16 _watcom_bswap16(ma_uint16); + extern __inline ma_uint32 _watcom_bswap32(ma_uint32); + extern __inline ma_uint64 _watcom_bswap64(ma_uint64); +#pragma aux _watcom_bswap16 = \ + "xchg al, ah" \ + parm [ax] \ + value [ax] \ + modify nomemory; +#pragma aux _watcom_bswap32 = \ + "bswap eax" \ + parm [eax] \ + value [eax] \ + modify nomemory; +#pragma aux _watcom_bswap64 = \ + "bswap eax" \ + "bswap edx" \ + "xchg eax,edx" \ + parm [eax edx] \ + value [eax edx] \ + modify nomemory; +#endif +#ifndef MA_DR_FLAC_ASSERT +#include +#define MA_DR_FLAC_ASSERT(expression) assert(expression) +#endif +#ifndef MA_DR_FLAC_MALLOC +#define MA_DR_FLAC_MALLOC(sz) malloc((sz)) +#endif +#ifndef MA_DR_FLAC_REALLOC +#define MA_DR_FLAC_REALLOC(p, sz) realloc((p), (sz)) +#endif +#ifndef MA_DR_FLAC_FREE +#define MA_DR_FLAC_FREE(p) free((p)) +#endif +#ifndef MA_DR_FLAC_COPY_MEMORY +#define MA_DR_FLAC_COPY_MEMORY(dst, src, sz) memcpy((dst), (src), (sz)) +#endif +#ifndef MA_DR_FLAC_ZERO_MEMORY +#define MA_DR_FLAC_ZERO_MEMORY(p, sz) memset((p), 0, (sz)) +#endif +#ifndef MA_DR_FLAC_ZERO_OBJECT +#define MA_DR_FLAC_ZERO_OBJECT(p) MA_DR_FLAC_ZERO_MEMORY((p), sizeof(*(p))) +#endif +#define MA_DR_FLAC_MAX_SIMD_VECTOR_SIZE 64 +#define MA_DR_FLAC_SUBFRAME_CONSTANT 0 +#define MA_DR_FLAC_SUBFRAME_VERBATIM 1 +#define MA_DR_FLAC_SUBFRAME_FIXED 8 +#define MA_DR_FLAC_SUBFRAME_LPC 32 +#define MA_DR_FLAC_SUBFRAME_RESERVED 255 +#define MA_DR_FLAC_RESIDUAL_CODING_METHOD_PARTITIONED_RICE 0 +#define MA_DR_FLAC_RESIDUAL_CODING_METHOD_PARTITIONED_RICE2 1 +#define MA_DR_FLAC_CHANNEL_ASSIGNMENT_INDEPENDENT 0 +#define MA_DR_FLAC_CHANNEL_ASSIGNMENT_LEFT_SIDE 8 +#define MA_DR_FLAC_CHANNEL_ASSIGNMENT_RIGHT_SIDE 9 +#define MA_DR_FLAC_CHANNEL_ASSIGNMENT_MID_SIDE 10 +#define MA_DR_FLAC_SEEKPOINT_SIZE_IN_BYTES 18 +#define MA_DR_FLAC_CUESHEET_TRACK_SIZE_IN_BYTES 36 +#define MA_DR_FLAC_CUESHEET_TRACK_INDEX_SIZE_IN_BYTES 12 +#define ma_dr_flac_align(x, a) ((((x) + (a) - 1) / (a)) * (a)) +MA_API void ma_dr_flac_version(ma_uint32* pMajor, ma_uint32* pMinor, ma_uint32* pRevision) +{ + if (pMajor) { + *pMajor = MA_DR_FLAC_VERSION_MAJOR; + } + if (pMinor) { + *pMinor = MA_DR_FLAC_VERSION_MINOR; + } + if (pRevision) { + *pRevision = MA_DR_FLAC_VERSION_REVISION; + } +} +MA_API const char* ma_dr_flac_version_string(void) +{ + return MA_DR_FLAC_VERSION_STRING; +} +#if defined(__has_feature) + #if __has_feature(thread_sanitizer) + #define MA_DR_FLAC_NO_THREAD_SANITIZE __attribute__((no_sanitize("thread"))) + #else + #define MA_DR_FLAC_NO_THREAD_SANITIZE + #endif +#else + #define MA_DR_FLAC_NO_THREAD_SANITIZE +#endif +#if defined(MA_DR_FLAC_HAS_LZCNT_INTRINSIC) +static ma_bool32 ma_dr_flac__gIsLZCNTSupported = MA_FALSE; +#endif +#ifndef MA_DR_FLAC_NO_CPUID +static ma_bool32 ma_dr_flac__gIsSSE2Supported = MA_FALSE; +static ma_bool32 ma_dr_flac__gIsSSE41Supported = MA_FALSE; +MA_DR_FLAC_NO_THREAD_SANITIZE static void ma_dr_flac__init_cpu_caps(void) +{ + static ma_bool32 isCPUCapsInitialized = MA_FALSE; + if (!isCPUCapsInitialized) { +#if defined(MA_DR_FLAC_HAS_LZCNT_INTRINSIC) + int info[4] = {0}; + ma_dr_flac__cpuid(info, 0x80000001); + ma_dr_flac__gIsLZCNTSupported = (info[2] & (1 << 5)) != 0; +#endif + ma_dr_flac__gIsSSE2Supported = ma_dr_flac_has_sse2(); + ma_dr_flac__gIsSSE41Supported = ma_dr_flac_has_sse41(); + isCPUCapsInitialized = MA_TRUE; + } +} +#else +static ma_bool32 ma_dr_flac__gIsNEONSupported = MA_FALSE; +static MA_INLINE ma_bool32 ma_dr_flac__has_neon(void) +{ +#if defined(MA_DR_FLAC_SUPPORT_NEON) + #if defined(MA_ARM) && !defined(MA_DR_FLAC_NO_NEON) + #if (defined(__ARM_NEON) || defined(__aarch64__) || defined(_M_ARM64)) + return MA_TRUE; + #else + return MA_FALSE; + #endif + #else + return MA_FALSE; + #endif +#else + return MA_FALSE; +#endif +} +MA_DR_FLAC_NO_THREAD_SANITIZE static void ma_dr_flac__init_cpu_caps(void) +{ + ma_dr_flac__gIsNEONSupported = ma_dr_flac__has_neon(); +#if defined(MA_DR_FLAC_HAS_LZCNT_INTRINSIC) && defined(MA_ARM) && (defined(__ARM_ARCH) && __ARM_ARCH >= 5) + ma_dr_flac__gIsLZCNTSupported = MA_TRUE; +#endif +} +#endif +static MA_INLINE ma_bool32 ma_dr_flac__is_little_endian(void) +{ +#if defined(MA_X86) || defined(MA_X64) + return MA_TRUE; +#elif defined(__BYTE_ORDER) && defined(__LITTLE_ENDIAN) && __BYTE_ORDER == __LITTLE_ENDIAN + return MA_TRUE; +#else + int n = 1; + return (*(char*)&n) == 1; +#endif +} +static MA_INLINE ma_uint16 ma_dr_flac__swap_endian_uint16(ma_uint16 n) +{ +#ifdef MA_DR_FLAC_HAS_BYTESWAP16_INTRINSIC + #if defined(_MSC_VER) && !defined(__clang__) + return _byteswap_ushort(n); + #elif defined(__GNUC__) || defined(__clang__) + return __builtin_bswap16(n); + #elif defined(__WATCOMC__) && defined(__386__) + return _watcom_bswap16(n); + #else + #error "This compiler does not support the byte swap intrinsic." + #endif +#else + return ((n & 0xFF00) >> 8) | + ((n & 0x00FF) << 8); +#endif +} +static MA_INLINE ma_uint32 ma_dr_flac__swap_endian_uint32(ma_uint32 n) +{ +#ifdef MA_DR_FLAC_HAS_BYTESWAP32_INTRINSIC + #if defined(_MSC_VER) && !defined(__clang__) + return _byteswap_ulong(n); + #elif defined(__GNUC__) || defined(__clang__) + #if defined(MA_ARM) && (defined(__ARM_ARCH) && __ARM_ARCH >= 6) && !defined(__ARM_ARCH_6M__) && !defined(MA_64BIT) + ma_uint32 r; + __asm__ __volatile__ ( + #if defined(MA_64BIT) + "rev %w[out], %w[in]" : [out]"=r"(r) : [in]"r"(n) + #else + "rev %[out], %[in]" : [out]"=r"(r) : [in]"r"(n) + #endif + ); + return r; + #else + return __builtin_bswap32(n); + #endif + #elif defined(__WATCOMC__) && defined(__386__) + return _watcom_bswap32(n); + #else + #error "This compiler does not support the byte swap intrinsic." + #endif +#else + return ((n & 0xFF000000) >> 24) | + ((n & 0x00FF0000) >> 8) | + ((n & 0x0000FF00) << 8) | + ((n & 0x000000FF) << 24); +#endif +} +static MA_INLINE ma_uint64 ma_dr_flac__swap_endian_uint64(ma_uint64 n) +{ +#ifdef MA_DR_FLAC_HAS_BYTESWAP64_INTRINSIC + #if defined(_MSC_VER) && !defined(__clang__) + return _byteswap_uint64(n); + #elif defined(__GNUC__) || defined(__clang__) + return __builtin_bswap64(n); + #elif defined(__WATCOMC__) && defined(__386__) + return _watcom_bswap64(n); + #else + #error "This compiler does not support the byte swap intrinsic." + #endif +#else + return ((n & ((ma_uint64)0xFF000000 << 32)) >> 56) | + ((n & ((ma_uint64)0x00FF0000 << 32)) >> 40) | + ((n & ((ma_uint64)0x0000FF00 << 32)) >> 24) | + ((n & ((ma_uint64)0x000000FF << 32)) >> 8) | + ((n & ((ma_uint64)0xFF000000 )) << 8) | + ((n & ((ma_uint64)0x00FF0000 )) << 24) | + ((n & ((ma_uint64)0x0000FF00 )) << 40) | + ((n & ((ma_uint64)0x000000FF )) << 56); +#endif +} +static MA_INLINE ma_uint16 ma_dr_flac__be2host_16(ma_uint16 n) +{ + if (ma_dr_flac__is_little_endian()) { + return ma_dr_flac__swap_endian_uint16(n); + } + return n; +} +static MA_INLINE ma_uint32 ma_dr_flac__be2host_32(ma_uint32 n) +{ + if (ma_dr_flac__is_little_endian()) { + return ma_dr_flac__swap_endian_uint32(n); + } + return n; +} +static MA_INLINE ma_uint32 ma_dr_flac__be2host_32_ptr_unaligned(const void* pData) +{ + const ma_uint8* pNum = (ma_uint8*)pData; + return *(pNum) << 24 | *(pNum+1) << 16 | *(pNum+2) << 8 | *(pNum+3); +} +static MA_INLINE ma_uint64 ma_dr_flac__be2host_64(ma_uint64 n) +{ + if (ma_dr_flac__is_little_endian()) { + return ma_dr_flac__swap_endian_uint64(n); + } + return n; +} +static MA_INLINE ma_uint32 ma_dr_flac__le2host_32(ma_uint32 n) +{ + if (!ma_dr_flac__is_little_endian()) { + return ma_dr_flac__swap_endian_uint32(n); + } + return n; +} +static MA_INLINE ma_uint32 ma_dr_flac__le2host_32_ptr_unaligned(const void* pData) +{ + const ma_uint8* pNum = (ma_uint8*)pData; + return *pNum | *(pNum+1) << 8 | *(pNum+2) << 16 | *(pNum+3) << 24; +} +static MA_INLINE ma_uint32 ma_dr_flac__unsynchsafe_32(ma_uint32 n) +{ + ma_uint32 result = 0; + result |= (n & 0x7F000000) >> 3; + result |= (n & 0x007F0000) >> 2; + result |= (n & 0x00007F00) >> 1; + result |= (n & 0x0000007F) >> 0; + return result; +} +static ma_uint8 ma_dr_flac__crc8_table[] = { + 0x00, 0x07, 0x0E, 0x09, 0x1C, 0x1B, 0x12, 0x15, 0x38, 0x3F, 0x36, 0x31, 0x24, 0x23, 0x2A, 0x2D, + 0x70, 0x77, 0x7E, 0x79, 0x6C, 0x6B, 0x62, 0x65, 0x48, 0x4F, 0x46, 0x41, 0x54, 0x53, 0x5A, 0x5D, + 0xE0, 0xE7, 0xEE, 0xE9, 0xFC, 0xFB, 0xF2, 0xF5, 0xD8, 0xDF, 0xD6, 0xD1, 0xC4, 0xC3, 0xCA, 0xCD, + 0x90, 0x97, 0x9E, 0x99, 0x8C, 0x8B, 0x82, 0x85, 0xA8, 0xAF, 0xA6, 0xA1, 0xB4, 0xB3, 0xBA, 0xBD, + 0xC7, 0xC0, 0xC9, 0xCE, 0xDB, 0xDC, 0xD5, 0xD2, 0xFF, 0xF8, 0xF1, 0xF6, 0xE3, 0xE4, 0xED, 0xEA, + 0xB7, 0xB0, 0xB9, 0xBE, 0xAB, 0xAC, 0xA5, 0xA2, 0x8F, 0x88, 0x81, 0x86, 0x93, 0x94, 0x9D, 0x9A, + 0x27, 0x20, 0x29, 0x2E, 0x3B, 0x3C, 0x35, 0x32, 0x1F, 0x18, 0x11, 0x16, 0x03, 0x04, 0x0D, 0x0A, + 0x57, 0x50, 0x59, 0x5E, 0x4B, 0x4C, 0x45, 0x42, 0x6F, 0x68, 0x61, 0x66, 0x73, 0x74, 0x7D, 0x7A, + 0x89, 0x8E, 0x87, 0x80, 0x95, 0x92, 0x9B, 0x9C, 0xB1, 0xB6, 0xBF, 0xB8, 0xAD, 0xAA, 0xA3, 0xA4, + 0xF9, 0xFE, 0xF7, 0xF0, 0xE5, 0xE2, 0xEB, 0xEC, 0xC1, 0xC6, 0xCF, 0xC8, 0xDD, 0xDA, 0xD3, 0xD4, + 0x69, 0x6E, 0x67, 0x60, 0x75, 0x72, 0x7B, 0x7C, 0x51, 0x56, 0x5F, 0x58, 0x4D, 0x4A, 0x43, 0x44, + 0x19, 0x1E, 0x17, 0x10, 0x05, 0x02, 0x0B, 0x0C, 0x21, 0x26, 0x2F, 0x28, 0x3D, 0x3A, 0x33, 0x34, + 0x4E, 0x49, 0x40, 0x47, 0x52, 0x55, 0x5C, 0x5B, 0x76, 0x71, 0x78, 0x7F, 0x6A, 0x6D, 0x64, 0x63, + 0x3E, 0x39, 0x30, 0x37, 0x22, 0x25, 0x2C, 0x2B, 0x06, 0x01, 0x08, 0x0F, 0x1A, 0x1D, 0x14, 0x13, + 0xAE, 0xA9, 0xA0, 0xA7, 0xB2, 0xB5, 0xBC, 0xBB, 0x96, 0x91, 0x98, 0x9F, 0x8A, 0x8D, 0x84, 0x83, + 0xDE, 0xD9, 0xD0, 0xD7, 0xC2, 0xC5, 0xCC, 0xCB, 0xE6, 0xE1, 0xE8, 0xEF, 0xFA, 0xFD, 0xF4, 0xF3 +}; +static ma_uint16 ma_dr_flac__crc16_table[] = { + 0x0000, 0x8005, 0x800F, 0x000A, 0x801B, 0x001E, 0x0014, 0x8011, + 0x8033, 0x0036, 0x003C, 0x8039, 0x0028, 0x802D, 0x8027, 0x0022, + 0x8063, 0x0066, 0x006C, 0x8069, 0x0078, 0x807D, 0x8077, 0x0072, + 0x0050, 0x8055, 0x805F, 0x005A, 0x804B, 0x004E, 0x0044, 0x8041, + 0x80C3, 0x00C6, 0x00CC, 0x80C9, 0x00D8, 0x80DD, 0x80D7, 0x00D2, + 0x00F0, 0x80F5, 0x80FF, 0x00FA, 0x80EB, 0x00EE, 0x00E4, 0x80E1, + 0x00A0, 0x80A5, 0x80AF, 0x00AA, 0x80BB, 0x00BE, 0x00B4, 0x80B1, + 0x8093, 0x0096, 0x009C, 0x8099, 0x0088, 0x808D, 0x8087, 0x0082, + 0x8183, 0x0186, 0x018C, 0x8189, 0x0198, 0x819D, 0x8197, 0x0192, + 0x01B0, 0x81B5, 0x81BF, 0x01BA, 0x81AB, 0x01AE, 0x01A4, 0x81A1, + 0x01E0, 0x81E5, 0x81EF, 0x01EA, 0x81FB, 0x01FE, 0x01F4, 0x81F1, + 0x81D3, 0x01D6, 0x01DC, 0x81D9, 0x01C8, 0x81CD, 0x81C7, 0x01C2, + 0x0140, 0x8145, 0x814F, 0x014A, 0x815B, 0x015E, 0x0154, 0x8151, + 0x8173, 0x0176, 0x017C, 0x8179, 0x0168, 0x816D, 0x8167, 0x0162, + 0x8123, 0x0126, 0x012C, 0x8129, 0x0138, 0x813D, 0x8137, 0x0132, + 0x0110, 0x8115, 0x811F, 0x011A, 0x810B, 0x010E, 0x0104, 0x8101, + 0x8303, 0x0306, 0x030C, 0x8309, 0x0318, 0x831D, 0x8317, 0x0312, + 0x0330, 0x8335, 0x833F, 0x033A, 0x832B, 0x032E, 0x0324, 0x8321, + 0x0360, 0x8365, 0x836F, 0x036A, 0x837B, 0x037E, 0x0374, 0x8371, + 0x8353, 0x0356, 0x035C, 0x8359, 0x0348, 0x834D, 0x8347, 0x0342, + 0x03C0, 0x83C5, 0x83CF, 0x03CA, 0x83DB, 0x03DE, 0x03D4, 0x83D1, + 0x83F3, 0x03F6, 0x03FC, 0x83F9, 0x03E8, 0x83ED, 0x83E7, 0x03E2, + 0x83A3, 0x03A6, 0x03AC, 0x83A9, 0x03B8, 0x83BD, 0x83B7, 0x03B2, + 0x0390, 0x8395, 0x839F, 0x039A, 0x838B, 0x038E, 0x0384, 0x8381, + 0x0280, 0x8285, 0x828F, 0x028A, 0x829B, 0x029E, 0x0294, 0x8291, + 0x82B3, 0x02B6, 0x02BC, 0x82B9, 0x02A8, 0x82AD, 0x82A7, 0x02A2, + 0x82E3, 0x02E6, 0x02EC, 0x82E9, 0x02F8, 0x82FD, 0x82F7, 0x02F2, + 0x02D0, 0x82D5, 0x82DF, 0x02DA, 0x82CB, 0x02CE, 0x02C4, 0x82C1, + 0x8243, 0x0246, 0x024C, 0x8249, 0x0258, 0x825D, 0x8257, 0x0252, + 0x0270, 0x8275, 0x827F, 0x027A, 0x826B, 0x026E, 0x0264, 0x8261, + 0x0220, 0x8225, 0x822F, 0x022A, 0x823B, 0x023E, 0x0234, 0x8231, + 0x8213, 0x0216, 0x021C, 0x8219, 0x0208, 0x820D, 0x8207, 0x0202 +}; +static MA_INLINE ma_uint8 ma_dr_flac_crc8_byte(ma_uint8 crc, ma_uint8 data) +{ + return ma_dr_flac__crc8_table[crc ^ data]; +} +static MA_INLINE ma_uint8 ma_dr_flac_crc8(ma_uint8 crc, ma_uint32 data, ma_uint32 count) +{ +#ifdef MA_DR_FLAC_NO_CRC + (void)crc; + (void)data; + (void)count; + return 0; +#else +#if 0 + ma_uint8 p = 0x07; + for (int i = count-1; i >= 0; --i) { + ma_uint8 bit = (data & (1 << i)) >> i; + if (crc & 0x80) { + crc = ((crc << 1) | bit) ^ p; + } else { + crc = ((crc << 1) | bit); + } + } + return crc; +#else + ma_uint32 wholeBytes; + ma_uint32 leftoverBits; + ma_uint64 leftoverDataMask; + static ma_uint64 leftoverDataMaskTable[8] = { + 0x00, 0x01, 0x03, 0x07, 0x0F, 0x1F, 0x3F, 0x7F + }; + MA_DR_FLAC_ASSERT(count <= 32); + wholeBytes = count >> 3; + leftoverBits = count - (wholeBytes*8); + leftoverDataMask = leftoverDataMaskTable[leftoverBits]; + switch (wholeBytes) { + case 4: crc = ma_dr_flac_crc8_byte(crc, (ma_uint8)((data & (0xFF000000UL << leftoverBits)) >> (24 + leftoverBits))); + case 3: crc = ma_dr_flac_crc8_byte(crc, (ma_uint8)((data & (0x00FF0000UL << leftoverBits)) >> (16 + leftoverBits))); + case 2: crc = ma_dr_flac_crc8_byte(crc, (ma_uint8)((data & (0x0000FF00UL << leftoverBits)) >> ( 8 + leftoverBits))); + case 1: crc = ma_dr_flac_crc8_byte(crc, (ma_uint8)((data & (0x000000FFUL << leftoverBits)) >> ( 0 + leftoverBits))); + case 0: if (leftoverBits > 0) crc = (ma_uint8)((crc << leftoverBits) ^ ma_dr_flac__crc8_table[(crc >> (8 - leftoverBits)) ^ (data & leftoverDataMask)]); + } + return crc; +#endif +#endif +} +static MA_INLINE ma_uint16 ma_dr_flac_crc16_byte(ma_uint16 crc, ma_uint8 data) +{ + return (crc << 8) ^ ma_dr_flac__crc16_table[(ma_uint8)(crc >> 8) ^ data]; +} +static MA_INLINE ma_uint16 ma_dr_flac_crc16_cache(ma_uint16 crc, ma_dr_flac_cache_t data) +{ +#ifdef MA_64BIT + crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 56) & 0xFF)); + crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 48) & 0xFF)); + crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 40) & 0xFF)); + crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 32) & 0xFF)); +#endif + crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 24) & 0xFF)); + crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 16) & 0xFF)); + crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 8) & 0xFF)); + crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 0) & 0xFF)); + return crc; +} +static MA_INLINE ma_uint16 ma_dr_flac_crc16_bytes(ma_uint16 crc, ma_dr_flac_cache_t data, ma_uint32 byteCount) +{ + switch (byteCount) + { +#ifdef MA_64BIT + case 8: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 56) & 0xFF)); + case 7: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 48) & 0xFF)); + case 6: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 40) & 0xFF)); + case 5: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 32) & 0xFF)); +#endif + case 4: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 24) & 0xFF)); + case 3: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 16) & 0xFF)); + case 2: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 8) & 0xFF)); + case 1: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data >> 0) & 0xFF)); + } + return crc; +} +#if 0 +static MA_INLINE ma_uint16 ma_dr_flac_crc16__32bit(ma_uint16 crc, ma_uint32 data, ma_uint32 count) +{ +#ifdef MA_DR_FLAC_NO_CRC + (void)crc; + (void)data; + (void)count; + return 0; +#else +#if 0 + ma_uint16 p = 0x8005; + for (int i = count-1; i >= 0; --i) { + ma_uint16 bit = (data & (1ULL << i)) >> i; + if (r & 0x8000) { + r = ((r << 1) | bit) ^ p; + } else { + r = ((r << 1) | bit); + } + } + return crc; +#else + ma_uint32 wholeBytes; + ma_uint32 leftoverBits; + ma_uint64 leftoverDataMask; + static ma_uint64 leftoverDataMaskTable[8] = { + 0x00, 0x01, 0x03, 0x07, 0x0F, 0x1F, 0x3F, 0x7F + }; + MA_DR_FLAC_ASSERT(count <= 64); + wholeBytes = count >> 3; + leftoverBits = count & 7; + leftoverDataMask = leftoverDataMaskTable[leftoverBits]; + switch (wholeBytes) { + default: + case 4: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (0xFF000000UL << leftoverBits)) >> (24 + leftoverBits))); + case 3: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (0x00FF0000UL << leftoverBits)) >> (16 + leftoverBits))); + case 2: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (0x0000FF00UL << leftoverBits)) >> ( 8 + leftoverBits))); + case 1: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (0x000000FFUL << leftoverBits)) >> ( 0 + leftoverBits))); + case 0: if (leftoverBits > 0) crc = (crc << leftoverBits) ^ ma_dr_flac__crc16_table[(crc >> (16 - leftoverBits)) ^ (data & leftoverDataMask)]; + } + return crc; +#endif +#endif +} +static MA_INLINE ma_uint16 ma_dr_flac_crc16__64bit(ma_uint16 crc, ma_uint64 data, ma_uint32 count) +{ +#ifdef MA_DR_FLAC_NO_CRC + (void)crc; + (void)data; + (void)count; + return 0; +#else + ma_uint32 wholeBytes; + ma_uint32 leftoverBits; + ma_uint64 leftoverDataMask; + static ma_uint64 leftoverDataMaskTable[8] = { + 0x00, 0x01, 0x03, 0x07, 0x0F, 0x1F, 0x3F, 0x7F + }; + MA_DR_FLAC_ASSERT(count <= 64); + wholeBytes = count >> 3; + leftoverBits = count & 7; + leftoverDataMask = leftoverDataMaskTable[leftoverBits]; + switch (wholeBytes) { + default: + case 8: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (((ma_uint64)0xFF000000 << 32) << leftoverBits)) >> (56 + leftoverBits))); + case 7: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (((ma_uint64)0x00FF0000 << 32) << leftoverBits)) >> (48 + leftoverBits))); + case 6: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (((ma_uint64)0x0000FF00 << 32) << leftoverBits)) >> (40 + leftoverBits))); + case 5: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (((ma_uint64)0x000000FF << 32) << leftoverBits)) >> (32 + leftoverBits))); + case 4: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (((ma_uint64)0xFF000000 ) << leftoverBits)) >> (24 + leftoverBits))); + case 3: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (((ma_uint64)0x00FF0000 ) << leftoverBits)) >> (16 + leftoverBits))); + case 2: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (((ma_uint64)0x0000FF00 ) << leftoverBits)) >> ( 8 + leftoverBits))); + case 1: crc = ma_dr_flac_crc16_byte(crc, (ma_uint8)((data & (((ma_uint64)0x000000FF ) << leftoverBits)) >> ( 0 + leftoverBits))); + case 0: if (leftoverBits > 0) crc = (crc << leftoverBits) ^ ma_dr_flac__crc16_table[(crc >> (16 - leftoverBits)) ^ (data & leftoverDataMask)]; + } + return crc; +#endif +} +static MA_INLINE ma_uint16 ma_dr_flac_crc16(ma_uint16 crc, ma_dr_flac_cache_t data, ma_uint32 count) +{ +#ifdef MA_64BIT + return ma_dr_flac_crc16__64bit(crc, data, count); +#else + return ma_dr_flac_crc16__32bit(crc, data, count); +#endif +} +#endif +#ifdef MA_64BIT +#define ma_dr_flac__be2host__cache_line ma_dr_flac__be2host_64 +#else +#define ma_dr_flac__be2host__cache_line ma_dr_flac__be2host_32 +#endif +#define MA_DR_FLAC_CACHE_L1_SIZE_BYTES(bs) (sizeof((bs)->cache)) +#define MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs) (sizeof((bs)->cache)*8) +#define MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs) (MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs) - (bs)->consumedBits) +#define MA_DR_FLAC_CACHE_L1_SELECTION_MASK(_bitCount) (~((~(ma_dr_flac_cache_t)0) >> (_bitCount))) +#define MA_DR_FLAC_CACHE_L1_SELECTION_SHIFT(bs, _bitCount) (MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs) - (_bitCount)) +#define MA_DR_FLAC_CACHE_L1_SELECT(bs, _bitCount) (((bs)->cache) & MA_DR_FLAC_CACHE_L1_SELECTION_MASK(_bitCount)) +#define MA_DR_FLAC_CACHE_L1_SELECT_AND_SHIFT(bs, _bitCount) (MA_DR_FLAC_CACHE_L1_SELECT((bs), (_bitCount)) >> MA_DR_FLAC_CACHE_L1_SELECTION_SHIFT((bs), (_bitCount))) +#define MA_DR_FLAC_CACHE_L1_SELECT_AND_SHIFT_SAFE(bs, _bitCount)(MA_DR_FLAC_CACHE_L1_SELECT((bs), (_bitCount)) >> (MA_DR_FLAC_CACHE_L1_SELECTION_SHIFT((bs), (_bitCount)) & (MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs)-1))) +#define MA_DR_FLAC_CACHE_L2_SIZE_BYTES(bs) (sizeof((bs)->cacheL2)) +#define MA_DR_FLAC_CACHE_L2_LINE_COUNT(bs) (MA_DR_FLAC_CACHE_L2_SIZE_BYTES(bs) / sizeof((bs)->cacheL2[0])) +#define MA_DR_FLAC_CACHE_L2_LINES_REMAINING(bs) (MA_DR_FLAC_CACHE_L2_LINE_COUNT(bs) - (bs)->nextL2Line) +#ifndef MA_DR_FLAC_NO_CRC +static MA_INLINE void ma_dr_flac__reset_crc16(ma_dr_flac_bs* bs) +{ + bs->crc16 = 0; + bs->crc16CacheIgnoredBytes = bs->consumedBits >> 3; +} +static MA_INLINE void ma_dr_flac__update_crc16(ma_dr_flac_bs* bs) +{ + if (bs->crc16CacheIgnoredBytes == 0) { + bs->crc16 = ma_dr_flac_crc16_cache(bs->crc16, bs->crc16Cache); + } else { + bs->crc16 = ma_dr_flac_crc16_bytes(bs->crc16, bs->crc16Cache, MA_DR_FLAC_CACHE_L1_SIZE_BYTES(bs) - bs->crc16CacheIgnoredBytes); + bs->crc16CacheIgnoredBytes = 0; + } +} +static MA_INLINE ma_uint16 ma_dr_flac__flush_crc16(ma_dr_flac_bs* bs) +{ + MA_DR_FLAC_ASSERT((MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs) & 7) == 0); + if (MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs) == 0) { + ma_dr_flac__update_crc16(bs); + } else { + bs->crc16 = ma_dr_flac_crc16_bytes(bs->crc16, bs->crc16Cache >> MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs), (bs->consumedBits >> 3) - bs->crc16CacheIgnoredBytes); + bs->crc16CacheIgnoredBytes = bs->consumedBits >> 3; + } + return bs->crc16; +} +#endif +static MA_INLINE ma_bool32 ma_dr_flac__reload_l1_cache_from_l2(ma_dr_flac_bs* bs) +{ + size_t bytesRead; + size_t alignedL1LineCount; + if (bs->nextL2Line < MA_DR_FLAC_CACHE_L2_LINE_COUNT(bs)) { + bs->cache = bs->cacheL2[bs->nextL2Line++]; + return MA_TRUE; + } + if (bs->unalignedByteCount > 0) { + return MA_FALSE; + } + bytesRead = bs->onRead(bs->pUserData, bs->cacheL2, MA_DR_FLAC_CACHE_L2_SIZE_BYTES(bs)); + bs->nextL2Line = 0; + if (bytesRead == MA_DR_FLAC_CACHE_L2_SIZE_BYTES(bs)) { + bs->cache = bs->cacheL2[bs->nextL2Line++]; + return MA_TRUE; + } + alignedL1LineCount = bytesRead / MA_DR_FLAC_CACHE_L1_SIZE_BYTES(bs); + bs->unalignedByteCount = bytesRead - (alignedL1LineCount * MA_DR_FLAC_CACHE_L1_SIZE_BYTES(bs)); + if (bs->unalignedByteCount > 0) { + bs->unalignedCache = bs->cacheL2[alignedL1LineCount]; + } + if (alignedL1LineCount > 0) { + size_t offset = MA_DR_FLAC_CACHE_L2_LINE_COUNT(bs) - alignedL1LineCount; + size_t i; + for (i = alignedL1LineCount; i > 0; --i) { + bs->cacheL2[i-1 + offset] = bs->cacheL2[i-1]; + } + bs->nextL2Line = (ma_uint32)offset; + bs->cache = bs->cacheL2[bs->nextL2Line++]; + return MA_TRUE; + } else { + bs->nextL2Line = MA_DR_FLAC_CACHE_L2_LINE_COUNT(bs); + return MA_FALSE; + } +} +static ma_bool32 ma_dr_flac__reload_cache(ma_dr_flac_bs* bs) +{ + size_t bytesRead; +#ifndef MA_DR_FLAC_NO_CRC + ma_dr_flac__update_crc16(bs); +#endif + if (ma_dr_flac__reload_l1_cache_from_l2(bs)) { + bs->cache = ma_dr_flac__be2host__cache_line(bs->cache); + bs->consumedBits = 0; +#ifndef MA_DR_FLAC_NO_CRC + bs->crc16Cache = bs->cache; +#endif + return MA_TRUE; + } + bytesRead = bs->unalignedByteCount; + if (bytesRead == 0) { + bs->consumedBits = MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs); + return MA_FALSE; + } + MA_DR_FLAC_ASSERT(bytesRead < MA_DR_FLAC_CACHE_L1_SIZE_BYTES(bs)); + bs->consumedBits = (ma_uint32)(MA_DR_FLAC_CACHE_L1_SIZE_BYTES(bs) - bytesRead) * 8; + bs->cache = ma_dr_flac__be2host__cache_line(bs->unalignedCache); + bs->cache &= MA_DR_FLAC_CACHE_L1_SELECTION_MASK(MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs)); + bs->unalignedByteCount = 0; +#ifndef MA_DR_FLAC_NO_CRC + bs->crc16Cache = bs->cache >> bs->consumedBits; + bs->crc16CacheIgnoredBytes = bs->consumedBits >> 3; +#endif + return MA_TRUE; +} +static void ma_dr_flac__reset_cache(ma_dr_flac_bs* bs) +{ + bs->nextL2Line = MA_DR_FLAC_CACHE_L2_LINE_COUNT(bs); + bs->consumedBits = MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs); + bs->cache = 0; + bs->unalignedByteCount = 0; + bs->unalignedCache = 0; +#ifndef MA_DR_FLAC_NO_CRC + bs->crc16Cache = 0; + bs->crc16CacheIgnoredBytes = 0; +#endif +} +static MA_INLINE ma_bool32 ma_dr_flac__read_uint32(ma_dr_flac_bs* bs, unsigned int bitCount, ma_uint32* pResultOut) +{ + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pResultOut != NULL); + MA_DR_FLAC_ASSERT(bitCount > 0); + MA_DR_FLAC_ASSERT(bitCount <= 32); + if (bs->consumedBits == MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs)) { + if (!ma_dr_flac__reload_cache(bs)) { + return MA_FALSE; + } + } + if (bitCount <= MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs)) { +#ifdef MA_64BIT + *pResultOut = (ma_uint32)MA_DR_FLAC_CACHE_L1_SELECT_AND_SHIFT(bs, bitCount); + bs->consumedBits += bitCount; + bs->cache <<= bitCount; +#else + if (bitCount < MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs)) { + *pResultOut = (ma_uint32)MA_DR_FLAC_CACHE_L1_SELECT_AND_SHIFT(bs, bitCount); + bs->consumedBits += bitCount; + bs->cache <<= bitCount; + } else { + *pResultOut = (ma_uint32)bs->cache; + bs->consumedBits = MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs); + bs->cache = 0; + } +#endif + return MA_TRUE; + } else { + ma_uint32 bitCountHi = MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs); + ma_uint32 bitCountLo = bitCount - bitCountHi; + ma_uint32 resultHi; + MA_DR_FLAC_ASSERT(bitCountHi > 0); + MA_DR_FLAC_ASSERT(bitCountHi < 32); + resultHi = (ma_uint32)MA_DR_FLAC_CACHE_L1_SELECT_AND_SHIFT(bs, bitCountHi); + if (!ma_dr_flac__reload_cache(bs)) { + return MA_FALSE; + } + if (bitCountLo > MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs)) { + return MA_FALSE; + } + *pResultOut = (resultHi << bitCountLo) | (ma_uint32)MA_DR_FLAC_CACHE_L1_SELECT_AND_SHIFT(bs, bitCountLo); + bs->consumedBits += bitCountLo; + bs->cache <<= bitCountLo; + return MA_TRUE; + } +} +static ma_bool32 ma_dr_flac__read_int32(ma_dr_flac_bs* bs, unsigned int bitCount, ma_int32* pResult) +{ + ma_uint32 result; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pResult != NULL); + MA_DR_FLAC_ASSERT(bitCount > 0); + MA_DR_FLAC_ASSERT(bitCount <= 32); + if (!ma_dr_flac__read_uint32(bs, bitCount, &result)) { + return MA_FALSE; + } + if (bitCount < 32) { + ma_uint32 signbit; + signbit = ((result >> (bitCount-1)) & 0x01); + result |= (~signbit + 1) << bitCount; + } + *pResult = (ma_int32)result; + return MA_TRUE; +} +#ifdef MA_64BIT +static ma_bool32 ma_dr_flac__read_uint64(ma_dr_flac_bs* bs, unsigned int bitCount, ma_uint64* pResultOut) +{ + ma_uint32 resultHi; + ma_uint32 resultLo; + MA_DR_FLAC_ASSERT(bitCount <= 64); + MA_DR_FLAC_ASSERT(bitCount > 32); + if (!ma_dr_flac__read_uint32(bs, bitCount - 32, &resultHi)) { + return MA_FALSE; + } + if (!ma_dr_flac__read_uint32(bs, 32, &resultLo)) { + return MA_FALSE; + } + *pResultOut = (((ma_uint64)resultHi) << 32) | ((ma_uint64)resultLo); + return MA_TRUE; +} +#endif +#if 0 +static ma_bool32 ma_dr_flac__read_int64(ma_dr_flac_bs* bs, unsigned int bitCount, ma_int64* pResultOut) +{ + ma_uint64 result; + ma_uint64 signbit; + MA_DR_FLAC_ASSERT(bitCount <= 64); + if (!ma_dr_flac__read_uint64(bs, bitCount, &result)) { + return MA_FALSE; + } + signbit = ((result >> (bitCount-1)) & 0x01); + result |= (~signbit + 1) << bitCount; + *pResultOut = (ma_int64)result; + return MA_TRUE; +} +#endif +static ma_bool32 ma_dr_flac__read_uint16(ma_dr_flac_bs* bs, unsigned int bitCount, ma_uint16* pResult) +{ + ma_uint32 result; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pResult != NULL); + MA_DR_FLAC_ASSERT(bitCount > 0); + MA_DR_FLAC_ASSERT(bitCount <= 16); + if (!ma_dr_flac__read_uint32(bs, bitCount, &result)) { + return MA_FALSE; + } + *pResult = (ma_uint16)result; + return MA_TRUE; +} +#if 0 +static ma_bool32 ma_dr_flac__read_int16(ma_dr_flac_bs* bs, unsigned int bitCount, ma_int16* pResult) +{ + ma_int32 result; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pResult != NULL); + MA_DR_FLAC_ASSERT(bitCount > 0); + MA_DR_FLAC_ASSERT(bitCount <= 16); + if (!ma_dr_flac__read_int32(bs, bitCount, &result)) { + return MA_FALSE; + } + *pResult = (ma_int16)result; + return MA_TRUE; +} +#endif +static ma_bool32 ma_dr_flac__read_uint8(ma_dr_flac_bs* bs, unsigned int bitCount, ma_uint8* pResult) +{ + ma_uint32 result; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pResult != NULL); + MA_DR_FLAC_ASSERT(bitCount > 0); + MA_DR_FLAC_ASSERT(bitCount <= 8); + if (!ma_dr_flac__read_uint32(bs, bitCount, &result)) { + return MA_FALSE; + } + *pResult = (ma_uint8)result; + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__read_int8(ma_dr_flac_bs* bs, unsigned int bitCount, ma_int8* pResult) +{ + ma_int32 result; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pResult != NULL); + MA_DR_FLAC_ASSERT(bitCount > 0); + MA_DR_FLAC_ASSERT(bitCount <= 8); + if (!ma_dr_flac__read_int32(bs, bitCount, &result)) { + return MA_FALSE; + } + *pResult = (ma_int8)result; + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__seek_bits(ma_dr_flac_bs* bs, size_t bitsToSeek) +{ + if (bitsToSeek <= MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs)) { + bs->consumedBits += (ma_uint32)bitsToSeek; + bs->cache <<= bitsToSeek; + return MA_TRUE; + } else { + bitsToSeek -= MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs); + bs->consumedBits += MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs); + bs->cache = 0; +#ifdef MA_64BIT + while (bitsToSeek >= MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs)) { + ma_uint64 bin; + if (!ma_dr_flac__read_uint64(bs, MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs), &bin)) { + return MA_FALSE; + } + bitsToSeek -= MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs); + } +#else + while (bitsToSeek >= MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs)) { + ma_uint32 bin; + if (!ma_dr_flac__read_uint32(bs, MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs), &bin)) { + return MA_FALSE; + } + bitsToSeek -= MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs); + } +#endif + while (bitsToSeek >= 8) { + ma_uint8 bin; + if (!ma_dr_flac__read_uint8(bs, 8, &bin)) { + return MA_FALSE; + } + bitsToSeek -= 8; + } + if (bitsToSeek > 0) { + ma_uint8 bin; + if (!ma_dr_flac__read_uint8(bs, (ma_uint32)bitsToSeek, &bin)) { + return MA_FALSE; + } + bitsToSeek = 0; + } + MA_DR_FLAC_ASSERT(bitsToSeek == 0); + return MA_TRUE; + } +} +static ma_bool32 ma_dr_flac__find_and_seek_to_next_sync_code(ma_dr_flac_bs* bs) +{ + MA_DR_FLAC_ASSERT(bs != NULL); + if (!ma_dr_flac__seek_bits(bs, MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs) & 7)) { + return MA_FALSE; + } + for (;;) { + ma_uint8 hi; +#ifndef MA_DR_FLAC_NO_CRC + ma_dr_flac__reset_crc16(bs); +#endif + if (!ma_dr_flac__read_uint8(bs, 8, &hi)) { + return MA_FALSE; + } + if (hi == 0xFF) { + ma_uint8 lo; + if (!ma_dr_flac__read_uint8(bs, 6, &lo)) { + return MA_FALSE; + } + if (lo == 0x3E) { + return MA_TRUE; + } else { + if (!ma_dr_flac__seek_bits(bs, MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs) & 7)) { + return MA_FALSE; + } + } + } + } +} +#if defined(MA_DR_FLAC_HAS_LZCNT_INTRINSIC) +#define MA_DR_FLAC_IMPLEMENT_CLZ_LZCNT +#endif +#if defined(_MSC_VER) && _MSC_VER >= 1400 && (defined(MA_X64) || defined(MA_X86)) && !defined(__clang__) +#define MA_DR_FLAC_IMPLEMENT_CLZ_MSVC +#endif +#if defined(__WATCOMC__) && defined(__386__) +#define MA_DR_FLAC_IMPLEMENT_CLZ_WATCOM +#endif +#ifdef __MRC__ +#include +#define MA_DR_FLAC_IMPLEMENT_CLZ_MRC +#endif +static MA_INLINE ma_uint32 ma_dr_flac__clz_software(ma_dr_flac_cache_t x) +{ + ma_uint32 n; + static ma_uint32 clz_table_4[] = { + 0, + 4, + 3, 3, + 2, 2, 2, 2, + 1, 1, 1, 1, 1, 1, 1, 1 + }; + if (x == 0) { + return sizeof(x)*8; + } + n = clz_table_4[x >> (sizeof(x)*8 - 4)]; + if (n == 0) { +#ifdef MA_64BIT + if ((x & ((ma_uint64)0xFFFFFFFF << 32)) == 0) { n = 32; x <<= 32; } + if ((x & ((ma_uint64)0xFFFF0000 << 32)) == 0) { n += 16; x <<= 16; } + if ((x & ((ma_uint64)0xFF000000 << 32)) == 0) { n += 8; x <<= 8; } + if ((x & ((ma_uint64)0xF0000000 << 32)) == 0) { n += 4; x <<= 4; } +#else + if ((x & 0xFFFF0000) == 0) { n = 16; x <<= 16; } + if ((x & 0xFF000000) == 0) { n += 8; x <<= 8; } + if ((x & 0xF0000000) == 0) { n += 4; x <<= 4; } +#endif + n += clz_table_4[x >> (sizeof(x)*8 - 4)]; + } + return n - 1; +} +#ifdef MA_DR_FLAC_IMPLEMENT_CLZ_LZCNT +static MA_INLINE ma_bool32 ma_dr_flac__is_lzcnt_supported(void) +{ +#if defined(MA_DR_FLAC_HAS_LZCNT_INTRINSIC) && defined(MA_ARM) && (defined(__ARM_ARCH) && __ARM_ARCH >= 5) + return MA_TRUE; +#elif defined(__MRC__) + return MA_TRUE; +#else + #ifdef MA_DR_FLAC_HAS_LZCNT_INTRINSIC + return ma_dr_flac__gIsLZCNTSupported; + #else + return MA_FALSE; + #endif +#endif +} +static MA_INLINE ma_uint32 ma_dr_flac__clz_lzcnt(ma_dr_flac_cache_t x) +{ +#if defined(_MSC_VER) + #ifdef MA_64BIT + return (ma_uint32)__lzcnt64(x); + #else + return (ma_uint32)__lzcnt(x); + #endif +#else + #if defined(__GNUC__) || defined(__clang__) + #if defined(MA_X64) + { + ma_uint64 r; + __asm__ __volatile__ ( + "rep; bsr{q %1, %0| %0, %1}" : "=r"(r) : "r"(x) : "cc" + ); + return (ma_uint32)r; + } + #elif defined(MA_X86) + { + ma_uint32 r; + __asm__ __volatile__ ( + "rep; bsr{l %1, %0| %0, %1}" : "=r"(r) : "r"(x) : "cc" + ); + return r; + } + #elif defined(MA_ARM) && (defined(__ARM_ARCH) && __ARM_ARCH >= 5) && !defined(__ARM_ARCH_6M__) && !(defined(__thumb__) && !defined(__thumb2__)) && !defined(MA_64BIT) + { + unsigned int r; + __asm__ __volatile__ ( + #if defined(MA_64BIT) + "clz %w[out], %w[in]" : [out]"=r"(r) : [in]"r"(x) + #else + "clz %[out], %[in]" : [out]"=r"(r) : [in]"r"(x) + #endif + ); + return r; + } + #else + if (x == 0) { + return sizeof(x)*8; + } + #ifdef MA_64BIT + return (ma_uint32)__builtin_clzll((ma_uint64)x); + #else + return (ma_uint32)__builtin_clzl((ma_uint32)x); + #endif + #endif + #else + #error "This compiler does not support the lzcnt intrinsic." + #endif +#endif +} +#endif +#ifdef MA_DR_FLAC_IMPLEMENT_CLZ_MSVC +#include +static MA_INLINE ma_uint32 ma_dr_flac__clz_msvc(ma_dr_flac_cache_t x) +{ + ma_uint32 n; + if (x == 0) { + return sizeof(x)*8; + } +#ifdef MA_64BIT + _BitScanReverse64((unsigned long*)&n, x); +#else + _BitScanReverse((unsigned long*)&n, x); +#endif + return sizeof(x)*8 - n - 1; +} +#endif +#ifdef MA_DR_FLAC_IMPLEMENT_CLZ_WATCOM +static __inline ma_uint32 ma_dr_flac__clz_watcom (ma_uint32); +#ifdef MA_DR_FLAC_IMPLEMENT_CLZ_WATCOM_LZCNT +#pragma aux ma_dr_flac__clz_watcom_lzcnt = \ + "db 0F3h, 0Fh, 0BDh, 0C0h" \ + parm [eax] \ + value [eax] \ + modify nomemory; +#else +#pragma aux ma_dr_flac__clz_watcom = \ + "bsr eax, eax" \ + "xor eax, 31" \ + parm [eax] nomemory \ + value [eax] \ + modify exact [eax] nomemory; +#endif +#endif +static MA_INLINE ma_uint32 ma_dr_flac__clz(ma_dr_flac_cache_t x) +{ +#ifdef MA_DR_FLAC_IMPLEMENT_CLZ_LZCNT + if (ma_dr_flac__is_lzcnt_supported()) { + return ma_dr_flac__clz_lzcnt(x); + } else +#endif + { +#ifdef MA_DR_FLAC_IMPLEMENT_CLZ_MSVC + return ma_dr_flac__clz_msvc(x); +#elif defined(MA_DR_FLAC_IMPLEMENT_CLZ_WATCOM_LZCNT) + return ma_dr_flac__clz_watcom_lzcnt(x); +#elif defined(MA_DR_FLAC_IMPLEMENT_CLZ_WATCOM) + return (x == 0) ? sizeof(x)*8 : ma_dr_flac__clz_watcom(x); +#elif defined(__MRC__) + return __cntlzw(x); +#else + return ma_dr_flac__clz_software(x); +#endif + } +} +static MA_INLINE ma_bool32 ma_dr_flac__seek_past_next_set_bit(ma_dr_flac_bs* bs, unsigned int* pOffsetOut) +{ + ma_uint32 zeroCounter = 0; + ma_uint32 setBitOffsetPlus1; + while (bs->cache == 0) { + zeroCounter += (ma_uint32)MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs); + if (!ma_dr_flac__reload_cache(bs)) { + return MA_FALSE; + } + } + if (bs->cache == 1) { + *pOffsetOut = zeroCounter + (ma_uint32)MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs) - 1; + if (!ma_dr_flac__reload_cache(bs)) { + return MA_FALSE; + } + return MA_TRUE; + } + setBitOffsetPlus1 = ma_dr_flac__clz(bs->cache); + setBitOffsetPlus1 += 1; + if (setBitOffsetPlus1 > MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs)) { + return MA_FALSE; + } + bs->consumedBits += setBitOffsetPlus1; + bs->cache <<= setBitOffsetPlus1; + *pOffsetOut = zeroCounter + setBitOffsetPlus1 - 1; + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__seek_to_byte(ma_dr_flac_bs* bs, ma_uint64 offsetFromStart) +{ + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(offsetFromStart > 0); + if (offsetFromStart > 0x7FFFFFFF) { + ma_uint64 bytesRemaining = offsetFromStart; + if (!bs->onSeek(bs->pUserData, 0x7FFFFFFF, MA_DR_FLAC_SEEK_SET)) { + return MA_FALSE; + } + bytesRemaining -= 0x7FFFFFFF; + while (bytesRemaining > 0x7FFFFFFF) { + if (!bs->onSeek(bs->pUserData, 0x7FFFFFFF, MA_DR_FLAC_SEEK_CUR)) { + return MA_FALSE; + } + bytesRemaining -= 0x7FFFFFFF; + } + if (bytesRemaining > 0) { + if (!bs->onSeek(bs->pUserData, (int)bytesRemaining, MA_DR_FLAC_SEEK_CUR)) { + return MA_FALSE; + } + } + } else { + if (!bs->onSeek(bs->pUserData, (int)offsetFromStart, MA_DR_FLAC_SEEK_SET)) { + return MA_FALSE; + } + } + ma_dr_flac__reset_cache(bs); + return MA_TRUE; +} +static ma_result ma_dr_flac__read_utf8_coded_number(ma_dr_flac_bs* bs, ma_uint64* pNumberOut, ma_uint8* pCRCOut) +{ + ma_uint8 crc; + ma_uint64 result; + ma_uint8 utf8[7] = {0}; + int byteCount; + int i; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pNumberOut != NULL); + MA_DR_FLAC_ASSERT(pCRCOut != NULL); + crc = *pCRCOut; + if (!ma_dr_flac__read_uint8(bs, 8, utf8)) { + *pNumberOut = 0; + return MA_AT_END; + } + crc = ma_dr_flac_crc8(crc, utf8[0], 8); + if ((utf8[0] & 0x80) == 0) { + *pNumberOut = utf8[0]; + *pCRCOut = crc; + return MA_SUCCESS; + } + if ((utf8[0] & 0xE0) == 0xC0) { + byteCount = 2; + } else if ((utf8[0] & 0xF0) == 0xE0) { + byteCount = 3; + } else if ((utf8[0] & 0xF8) == 0xF0) { + byteCount = 4; + } else if ((utf8[0] & 0xFC) == 0xF8) { + byteCount = 5; + } else if ((utf8[0] & 0xFE) == 0xFC) { + byteCount = 6; + } else if ((utf8[0] & 0xFF) == 0xFE) { + byteCount = 7; + } else { + *pNumberOut = 0; + return MA_CRC_MISMATCH; + } + MA_DR_FLAC_ASSERT(byteCount > 1); + result = (ma_uint64)(utf8[0] & (0xFF >> (byteCount + 1))); + for (i = 1; i < byteCount; ++i) { + if (!ma_dr_flac__read_uint8(bs, 8, utf8 + i)) { + *pNumberOut = 0; + return MA_AT_END; + } + crc = ma_dr_flac_crc8(crc, utf8[i], 8); + result = (result << 6) | (utf8[i] & 0x3F); + } + *pNumberOut = result; + *pCRCOut = crc; + return MA_SUCCESS; +} +static MA_INLINE ma_uint32 ma_dr_flac__ilog2_u32(ma_uint32 x) +{ +#if 1 + ma_uint32 result = 0; + while (x > 0) { + result += 1; + x >>= 1; + } + return result; +#endif +} +static MA_INLINE ma_bool32 ma_dr_flac__use_64_bit_prediction(ma_uint32 bitsPerSample, ma_uint32 order, ma_uint32 precision) +{ + return bitsPerSample + precision + ma_dr_flac__ilog2_u32(order) > 32; +} +#if defined(__clang__) +__attribute__((no_sanitize("signed-integer-overflow"))) +#endif +static MA_INLINE ma_int32 ma_dr_flac__calculate_prediction_32(ma_uint32 order, ma_int32 shift, const ma_int32* coefficients, ma_int32* pDecodedSamples) +{ + ma_int32 prediction = 0; + MA_DR_FLAC_ASSERT(order <= 32); + switch (order) + { + case 32: prediction += coefficients[31] * pDecodedSamples[-32]; + case 31: prediction += coefficients[30] * pDecodedSamples[-31]; + case 30: prediction += coefficients[29] * pDecodedSamples[-30]; + case 29: prediction += coefficients[28] * pDecodedSamples[-29]; + case 28: prediction += coefficients[27] * pDecodedSamples[-28]; + case 27: prediction += coefficients[26] * pDecodedSamples[-27]; + case 26: prediction += coefficients[25] * pDecodedSamples[-26]; + case 25: prediction += coefficients[24] * pDecodedSamples[-25]; + case 24: prediction += coefficients[23] * pDecodedSamples[-24]; + case 23: prediction += coefficients[22] * pDecodedSamples[-23]; + case 22: prediction += coefficients[21] * pDecodedSamples[-22]; + case 21: prediction += coefficients[20] * pDecodedSamples[-21]; + case 20: prediction += coefficients[19] * pDecodedSamples[-20]; + case 19: prediction += coefficients[18] * pDecodedSamples[-19]; + case 18: prediction += coefficients[17] * pDecodedSamples[-18]; + case 17: prediction += coefficients[16] * pDecodedSamples[-17]; + case 16: prediction += coefficients[15] * pDecodedSamples[-16]; + case 15: prediction += coefficients[14] * pDecodedSamples[-15]; + case 14: prediction += coefficients[13] * pDecodedSamples[-14]; + case 13: prediction += coefficients[12] * pDecodedSamples[-13]; + case 12: prediction += coefficients[11] * pDecodedSamples[-12]; + case 11: prediction += coefficients[10] * pDecodedSamples[-11]; + case 10: prediction += coefficients[ 9] * pDecodedSamples[-10]; + case 9: prediction += coefficients[ 8] * pDecodedSamples[- 9]; + case 8: prediction += coefficients[ 7] * pDecodedSamples[- 8]; + case 7: prediction += coefficients[ 6] * pDecodedSamples[- 7]; + case 6: prediction += coefficients[ 5] * pDecodedSamples[- 6]; + case 5: prediction += coefficients[ 4] * pDecodedSamples[- 5]; + case 4: prediction += coefficients[ 3] * pDecodedSamples[- 4]; + case 3: prediction += coefficients[ 2] * pDecodedSamples[- 3]; + case 2: prediction += coefficients[ 1] * pDecodedSamples[- 2]; + case 1: prediction += coefficients[ 0] * pDecodedSamples[- 1]; + } + return (ma_int32)(prediction >> shift); +} +static MA_INLINE ma_int32 ma_dr_flac__calculate_prediction_64(ma_uint32 order, ma_int32 shift, const ma_int32* coefficients, ma_int32* pDecodedSamples) +{ + ma_int64 prediction; + MA_DR_FLAC_ASSERT(order <= 32); +#ifndef MA_64BIT + if (order == 8) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + prediction += coefficients[1] * (ma_int64)pDecodedSamples[-2]; + prediction += coefficients[2] * (ma_int64)pDecodedSamples[-3]; + prediction += coefficients[3] * (ma_int64)pDecodedSamples[-4]; + prediction += coefficients[4] * (ma_int64)pDecodedSamples[-5]; + prediction += coefficients[5] * (ma_int64)pDecodedSamples[-6]; + prediction += coefficients[6] * (ma_int64)pDecodedSamples[-7]; + prediction += coefficients[7] * (ma_int64)pDecodedSamples[-8]; + } + else if (order == 7) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + prediction += coefficients[1] * (ma_int64)pDecodedSamples[-2]; + prediction += coefficients[2] * (ma_int64)pDecodedSamples[-3]; + prediction += coefficients[3] * (ma_int64)pDecodedSamples[-4]; + prediction += coefficients[4] * (ma_int64)pDecodedSamples[-5]; + prediction += coefficients[5] * (ma_int64)pDecodedSamples[-6]; + prediction += coefficients[6] * (ma_int64)pDecodedSamples[-7]; + } + else if (order == 3) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + prediction += coefficients[1] * (ma_int64)pDecodedSamples[-2]; + prediction += coefficients[2] * (ma_int64)pDecodedSamples[-3]; + } + else if (order == 6) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + prediction += coefficients[1] * (ma_int64)pDecodedSamples[-2]; + prediction += coefficients[2] * (ma_int64)pDecodedSamples[-3]; + prediction += coefficients[3] * (ma_int64)pDecodedSamples[-4]; + prediction += coefficients[4] * (ma_int64)pDecodedSamples[-5]; + prediction += coefficients[5] * (ma_int64)pDecodedSamples[-6]; + } + else if (order == 5) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + prediction += coefficients[1] * (ma_int64)pDecodedSamples[-2]; + prediction += coefficients[2] * (ma_int64)pDecodedSamples[-3]; + prediction += coefficients[3] * (ma_int64)pDecodedSamples[-4]; + prediction += coefficients[4] * (ma_int64)pDecodedSamples[-5]; + } + else if (order == 4) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + prediction += coefficients[1] * (ma_int64)pDecodedSamples[-2]; + prediction += coefficients[2] * (ma_int64)pDecodedSamples[-3]; + prediction += coefficients[3] * (ma_int64)pDecodedSamples[-4]; + } + else if (order == 12) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + prediction += coefficients[1] * (ma_int64)pDecodedSamples[-2]; + prediction += coefficients[2] * (ma_int64)pDecodedSamples[-3]; + prediction += coefficients[3] * (ma_int64)pDecodedSamples[-4]; + prediction += coefficients[4] * (ma_int64)pDecodedSamples[-5]; + prediction += coefficients[5] * (ma_int64)pDecodedSamples[-6]; + prediction += coefficients[6] * (ma_int64)pDecodedSamples[-7]; + prediction += coefficients[7] * (ma_int64)pDecodedSamples[-8]; + prediction += coefficients[8] * (ma_int64)pDecodedSamples[-9]; + prediction += coefficients[9] * (ma_int64)pDecodedSamples[-10]; + prediction += coefficients[10] * (ma_int64)pDecodedSamples[-11]; + prediction += coefficients[11] * (ma_int64)pDecodedSamples[-12]; + } + else if (order == 2) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + prediction += coefficients[1] * (ma_int64)pDecodedSamples[-2]; + } + else if (order == 1) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + } + else if (order == 10) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + prediction += coefficients[1] * (ma_int64)pDecodedSamples[-2]; + prediction += coefficients[2] * (ma_int64)pDecodedSamples[-3]; + prediction += coefficients[3] * (ma_int64)pDecodedSamples[-4]; + prediction += coefficients[4] * (ma_int64)pDecodedSamples[-5]; + prediction += coefficients[5] * (ma_int64)pDecodedSamples[-6]; + prediction += coefficients[6] * (ma_int64)pDecodedSamples[-7]; + prediction += coefficients[7] * (ma_int64)pDecodedSamples[-8]; + prediction += coefficients[8] * (ma_int64)pDecodedSamples[-9]; + prediction += coefficients[9] * (ma_int64)pDecodedSamples[-10]; + } + else if (order == 9) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + prediction += coefficients[1] * (ma_int64)pDecodedSamples[-2]; + prediction += coefficients[2] * (ma_int64)pDecodedSamples[-3]; + prediction += coefficients[3] * (ma_int64)pDecodedSamples[-4]; + prediction += coefficients[4] * (ma_int64)pDecodedSamples[-5]; + prediction += coefficients[5] * (ma_int64)pDecodedSamples[-6]; + prediction += coefficients[6] * (ma_int64)pDecodedSamples[-7]; + prediction += coefficients[7] * (ma_int64)pDecodedSamples[-8]; + prediction += coefficients[8] * (ma_int64)pDecodedSamples[-9]; + } + else if (order == 11) + { + prediction = coefficients[0] * (ma_int64)pDecodedSamples[-1]; + prediction += coefficients[1] * (ma_int64)pDecodedSamples[-2]; + prediction += coefficients[2] * (ma_int64)pDecodedSamples[-3]; + prediction += coefficients[3] * (ma_int64)pDecodedSamples[-4]; + prediction += coefficients[4] * (ma_int64)pDecodedSamples[-5]; + prediction += coefficients[5] * (ma_int64)pDecodedSamples[-6]; + prediction += coefficients[6] * (ma_int64)pDecodedSamples[-7]; + prediction += coefficients[7] * (ma_int64)pDecodedSamples[-8]; + prediction += coefficients[8] * (ma_int64)pDecodedSamples[-9]; + prediction += coefficients[9] * (ma_int64)pDecodedSamples[-10]; + prediction += coefficients[10] * (ma_int64)pDecodedSamples[-11]; + } + else + { + int j; + prediction = 0; + for (j = 0; j < (int)order; ++j) { + prediction += coefficients[j] * (ma_int64)pDecodedSamples[-j-1]; + } + } +#endif +#ifdef MA_64BIT + prediction = 0; + switch (order) + { + case 32: prediction += coefficients[31] * (ma_int64)pDecodedSamples[-32]; + case 31: prediction += coefficients[30] * (ma_int64)pDecodedSamples[-31]; + case 30: prediction += coefficients[29] * (ma_int64)pDecodedSamples[-30]; + case 29: prediction += coefficients[28] * (ma_int64)pDecodedSamples[-29]; + case 28: prediction += coefficients[27] * (ma_int64)pDecodedSamples[-28]; + case 27: prediction += coefficients[26] * (ma_int64)pDecodedSamples[-27]; + case 26: prediction += coefficients[25] * (ma_int64)pDecodedSamples[-26]; + case 25: prediction += coefficients[24] * (ma_int64)pDecodedSamples[-25]; + case 24: prediction += coefficients[23] * (ma_int64)pDecodedSamples[-24]; + case 23: prediction += coefficients[22] * (ma_int64)pDecodedSamples[-23]; + case 22: prediction += coefficients[21] * (ma_int64)pDecodedSamples[-22]; + case 21: prediction += coefficients[20] * (ma_int64)pDecodedSamples[-21]; + case 20: prediction += coefficients[19] * (ma_int64)pDecodedSamples[-20]; + case 19: prediction += coefficients[18] * (ma_int64)pDecodedSamples[-19]; + case 18: prediction += coefficients[17] * (ma_int64)pDecodedSamples[-18]; + case 17: prediction += coefficients[16] * (ma_int64)pDecodedSamples[-17]; + case 16: prediction += coefficients[15] * (ma_int64)pDecodedSamples[-16]; + case 15: prediction += coefficients[14] * (ma_int64)pDecodedSamples[-15]; + case 14: prediction += coefficients[13] * (ma_int64)pDecodedSamples[-14]; + case 13: prediction += coefficients[12] * (ma_int64)pDecodedSamples[-13]; + case 12: prediction += coefficients[11] * (ma_int64)pDecodedSamples[-12]; + case 11: prediction += coefficients[10] * (ma_int64)pDecodedSamples[-11]; + case 10: prediction += coefficients[ 9] * (ma_int64)pDecodedSamples[-10]; + case 9: prediction += coefficients[ 8] * (ma_int64)pDecodedSamples[- 9]; + case 8: prediction += coefficients[ 7] * (ma_int64)pDecodedSamples[- 8]; + case 7: prediction += coefficients[ 6] * (ma_int64)pDecodedSamples[- 7]; + case 6: prediction += coefficients[ 5] * (ma_int64)pDecodedSamples[- 6]; + case 5: prediction += coefficients[ 4] * (ma_int64)pDecodedSamples[- 5]; + case 4: prediction += coefficients[ 3] * (ma_int64)pDecodedSamples[- 4]; + case 3: prediction += coefficients[ 2] * (ma_int64)pDecodedSamples[- 3]; + case 2: prediction += coefficients[ 1] * (ma_int64)pDecodedSamples[- 2]; + case 1: prediction += coefficients[ 0] * (ma_int64)pDecodedSamples[- 1]; + } +#endif + return (ma_int32)(prediction >> shift); +} +#if 0 +static ma_bool32 ma_dr_flac__decode_samples_with_residual__rice__reference(ma_dr_flac_bs* bs, ma_uint32 bitsPerSample, ma_uint32 count, ma_uint8 riceParam, ma_uint32 lpcOrder, ma_int32 lpcShift, ma_uint32 lpcPrecision, const ma_int32* coefficients, ma_int32* pSamplesOut) +{ + ma_uint32 i; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pSamplesOut != NULL); + for (i = 0; i < count; ++i) { + ma_uint32 zeroCounter = 0; + for (;;) { + ma_uint8 bit; + if (!ma_dr_flac__read_uint8(bs, 1, &bit)) { + return MA_FALSE; + } + if (bit == 0) { + zeroCounter += 1; + } else { + break; + } + } + ma_uint32 decodedRice; + if (riceParam > 0) { + if (!ma_dr_flac__read_uint32(bs, riceParam, &decodedRice)) { + return MA_FALSE; + } + } else { + decodedRice = 0; + } + decodedRice |= (zeroCounter << riceParam); + if ((decodedRice & 0x01)) { + decodedRice = ~(decodedRice >> 1); + } else { + decodedRice = (decodedRice >> 1); + } + if (ma_dr_flac__use_64_bit_prediction(bitsPerSample, lpcOrder, lpcPrecision)) { + pSamplesOut[i] = decodedRice + ma_dr_flac__calculate_prediction_64(lpcOrder, lpcShift, coefficients, pSamplesOut + i); + } else { + pSamplesOut[i] = decodedRice + ma_dr_flac__calculate_prediction_32(lpcOrder, lpcShift, coefficients, pSamplesOut + i); + } + } + return MA_TRUE; +} +#endif +#if 0 +static ma_bool32 ma_dr_flac__read_rice_parts__reference(ma_dr_flac_bs* bs, ma_uint8 riceParam, ma_uint32* pZeroCounterOut, ma_uint32* pRiceParamPartOut) +{ + ma_uint32 zeroCounter = 0; + ma_uint32 decodedRice; + for (;;) { + ma_uint8 bit; + if (!ma_dr_flac__read_uint8(bs, 1, &bit)) { + return MA_FALSE; + } + if (bit == 0) { + zeroCounter += 1; + } else { + break; + } + } + if (riceParam > 0) { + if (!ma_dr_flac__read_uint32(bs, riceParam, &decodedRice)) { + return MA_FALSE; + } + } else { + decodedRice = 0; + } + *pZeroCounterOut = zeroCounter; + *pRiceParamPartOut = decodedRice; + return MA_TRUE; +} +#endif +#if 0 +static MA_INLINE ma_bool32 ma_dr_flac__read_rice_parts(ma_dr_flac_bs* bs, ma_uint8 riceParam, ma_uint32* pZeroCounterOut, ma_uint32* pRiceParamPartOut) +{ + ma_dr_flac_cache_t riceParamMask; + ma_uint32 zeroCounter; + ma_uint32 setBitOffsetPlus1; + ma_uint32 riceParamPart; + ma_uint32 riceLength; + MA_DR_FLAC_ASSERT(riceParam > 0); + riceParamMask = MA_DR_FLAC_CACHE_L1_SELECTION_MASK(riceParam); + zeroCounter = 0; + while (bs->cache == 0) { + zeroCounter += (ma_uint32)MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs); + if (!ma_dr_flac__reload_cache(bs)) { + return MA_FALSE; + } + } + setBitOffsetPlus1 = ma_dr_flac__clz(bs->cache); + zeroCounter += setBitOffsetPlus1; + setBitOffsetPlus1 += 1; + riceLength = setBitOffsetPlus1 + riceParam; + if (riceLength < MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs)) { + riceParamPart = (ma_uint32)((bs->cache & (riceParamMask >> setBitOffsetPlus1)) >> MA_DR_FLAC_CACHE_L1_SELECTION_SHIFT(bs, riceLength)); + bs->consumedBits += riceLength; + bs->cache <<= riceLength; + } else { + ma_uint32 bitCountLo; + ma_dr_flac_cache_t resultHi; + bs->consumedBits += riceLength; + bs->cache <<= setBitOffsetPlus1 & (MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs)-1); + bitCountLo = bs->consumedBits - MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs); + resultHi = MA_DR_FLAC_CACHE_L1_SELECT_AND_SHIFT(bs, riceParam); + if (bs->nextL2Line < MA_DR_FLAC_CACHE_L2_LINE_COUNT(bs)) { +#ifndef MA_DR_FLAC_NO_CRC + ma_dr_flac__update_crc16(bs); +#endif + bs->cache = ma_dr_flac__be2host__cache_line(bs->cacheL2[bs->nextL2Line++]); + bs->consumedBits = 0; +#ifndef MA_DR_FLAC_NO_CRC + bs->crc16Cache = bs->cache; +#endif + } else { + if (!ma_dr_flac__reload_cache(bs)) { + return MA_FALSE; + } + if (bitCountLo > MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs)) { + return MA_FALSE; + } + } + riceParamPart = (ma_uint32)(resultHi | MA_DR_FLAC_CACHE_L1_SELECT_AND_SHIFT_SAFE(bs, bitCountLo)); + bs->consumedBits += bitCountLo; + bs->cache <<= bitCountLo; + } + pZeroCounterOut[0] = zeroCounter; + pRiceParamPartOut[0] = riceParamPart; + return MA_TRUE; +} +#endif +static MA_INLINE ma_bool32 ma_dr_flac__read_rice_parts_x1(ma_dr_flac_bs* bs, ma_uint8 riceParam, ma_uint32* pZeroCounterOut, ma_uint32* pRiceParamPartOut) +{ + ma_uint32 riceParamPlus1 = riceParam + 1; + ma_uint32 riceParamPlus1Shift = MA_DR_FLAC_CACHE_L1_SELECTION_SHIFT(bs, riceParamPlus1); + ma_uint32 riceParamPlus1MaxConsumedBits = MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs) - riceParamPlus1; + ma_dr_flac_cache_t bs_cache = bs->cache; + ma_uint32 bs_consumedBits = bs->consumedBits; + ma_uint32 lzcount = ma_dr_flac__clz(bs_cache); + if (lzcount < sizeof(bs_cache)*8) { + pZeroCounterOut[0] = lzcount; + extract_rice_param_part: + bs_cache <<= lzcount; + bs_consumedBits += lzcount; + if (bs_consumedBits <= riceParamPlus1MaxConsumedBits) { + pRiceParamPartOut[0] = (ma_uint32)(bs_cache >> riceParamPlus1Shift); + bs_cache <<= riceParamPlus1; + bs_consumedBits += riceParamPlus1; + } else { + ma_uint32 riceParamPartHi; + ma_uint32 riceParamPartLo; + ma_uint32 riceParamPartLoBitCount; + riceParamPartHi = (ma_uint32)(bs_cache >> riceParamPlus1Shift); + riceParamPartLoBitCount = bs_consumedBits - riceParamPlus1MaxConsumedBits; + MA_DR_FLAC_ASSERT(riceParamPartLoBitCount > 0 && riceParamPartLoBitCount < 32); + if (bs->nextL2Line < MA_DR_FLAC_CACHE_L2_LINE_COUNT(bs)) { + #ifndef MA_DR_FLAC_NO_CRC + ma_dr_flac__update_crc16(bs); + #endif + bs_cache = ma_dr_flac__be2host__cache_line(bs->cacheL2[bs->nextL2Line++]); + bs_consumedBits = riceParamPartLoBitCount; + #ifndef MA_DR_FLAC_NO_CRC + bs->crc16Cache = bs_cache; + #endif + } else { + if (!ma_dr_flac__reload_cache(bs)) { + return MA_FALSE; + } + if (riceParamPartLoBitCount > MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs)) { + return MA_FALSE; + } + bs_cache = bs->cache; + bs_consumedBits = bs->consumedBits + riceParamPartLoBitCount; + } + riceParamPartLo = (ma_uint32)(bs_cache >> (MA_DR_FLAC_CACHE_L1_SELECTION_SHIFT(bs, riceParamPartLoBitCount))); + pRiceParamPartOut[0] = riceParamPartHi | riceParamPartLo; + bs_cache <<= riceParamPartLoBitCount; + } + } else { + ma_uint32 zeroCounter = (ma_uint32)(MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs) - bs_consumedBits); + for (;;) { + if (bs->nextL2Line < MA_DR_FLAC_CACHE_L2_LINE_COUNT(bs)) { + #ifndef MA_DR_FLAC_NO_CRC + ma_dr_flac__update_crc16(bs); + #endif + bs_cache = ma_dr_flac__be2host__cache_line(bs->cacheL2[bs->nextL2Line++]); + bs_consumedBits = 0; + #ifndef MA_DR_FLAC_NO_CRC + bs->crc16Cache = bs_cache; + #endif + } else { + if (!ma_dr_flac__reload_cache(bs)) { + return MA_FALSE; + } + bs_cache = bs->cache; + bs_consumedBits = bs->consumedBits; + } + lzcount = ma_dr_flac__clz(bs_cache); + zeroCounter += lzcount; + if (lzcount < sizeof(bs_cache)*8) { + break; + } + } + pZeroCounterOut[0] = zeroCounter; + goto extract_rice_param_part; + } + bs->cache = bs_cache; + bs->consumedBits = bs_consumedBits; + return MA_TRUE; +} +static MA_INLINE ma_bool32 ma_dr_flac__seek_rice_parts(ma_dr_flac_bs* bs, ma_uint8 riceParam) +{ + ma_uint32 riceParamPlus1 = riceParam + 1; + ma_uint32 riceParamPlus1MaxConsumedBits = MA_DR_FLAC_CACHE_L1_SIZE_BITS(bs) - riceParamPlus1; + ma_dr_flac_cache_t bs_cache = bs->cache; + ma_uint32 bs_consumedBits = bs->consumedBits; + ma_uint32 lzcount = ma_dr_flac__clz(bs_cache); + if (lzcount < sizeof(bs_cache)*8) { + extract_rice_param_part: + bs_cache <<= lzcount; + bs_consumedBits += lzcount; + if (bs_consumedBits <= riceParamPlus1MaxConsumedBits) { + bs_cache <<= riceParamPlus1; + bs_consumedBits += riceParamPlus1; + } else { + ma_uint32 riceParamPartLoBitCount = bs_consumedBits - riceParamPlus1MaxConsumedBits; + MA_DR_FLAC_ASSERT(riceParamPartLoBitCount > 0 && riceParamPartLoBitCount < 32); + if (bs->nextL2Line < MA_DR_FLAC_CACHE_L2_LINE_COUNT(bs)) { + #ifndef MA_DR_FLAC_NO_CRC + ma_dr_flac__update_crc16(bs); + #endif + bs_cache = ma_dr_flac__be2host__cache_line(bs->cacheL2[bs->nextL2Line++]); + bs_consumedBits = riceParamPartLoBitCount; + #ifndef MA_DR_FLAC_NO_CRC + bs->crc16Cache = bs_cache; + #endif + } else { + if (!ma_dr_flac__reload_cache(bs)) { + return MA_FALSE; + } + if (riceParamPartLoBitCount > MA_DR_FLAC_CACHE_L1_BITS_REMAINING(bs)) { + return MA_FALSE; + } + bs_cache = bs->cache; + bs_consumedBits = bs->consumedBits + riceParamPartLoBitCount; + } + bs_cache <<= riceParamPartLoBitCount; + } + } else { + for (;;) { + if (bs->nextL2Line < MA_DR_FLAC_CACHE_L2_LINE_COUNT(bs)) { + #ifndef MA_DR_FLAC_NO_CRC + ma_dr_flac__update_crc16(bs); + #endif + bs_cache = ma_dr_flac__be2host__cache_line(bs->cacheL2[bs->nextL2Line++]); + bs_consumedBits = 0; + #ifndef MA_DR_FLAC_NO_CRC + bs->crc16Cache = bs_cache; + #endif + } else { + if (!ma_dr_flac__reload_cache(bs)) { + return MA_FALSE; + } + bs_cache = bs->cache; + bs_consumedBits = bs->consumedBits; + } + lzcount = ma_dr_flac__clz(bs_cache); + if (lzcount < sizeof(bs_cache)*8) { + break; + } + } + goto extract_rice_param_part; + } + bs->cache = bs_cache; + bs->consumedBits = bs_consumedBits; + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_samples_with_residual__rice__scalar_zeroorder(ma_dr_flac_bs* bs, ma_uint32 bitsPerSample, ma_uint32 count, ma_uint8 riceParam, ma_uint32 order, ma_int32 shift, const ma_int32* coefficients, ma_int32* pSamplesOut) +{ + ma_uint32 t[2] = {0x00000000, 0xFFFFFFFF}; + ma_uint32 zeroCountPart0; + ma_uint32 riceParamPart0; + ma_uint32 riceParamMask; + ma_uint32 i; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pSamplesOut != NULL); + (void)bitsPerSample; + (void)order; + (void)shift; + (void)coefficients; + riceParamMask = (ma_uint32)~((~0UL) << riceParam); + i = 0; + while (i < count) { + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountPart0, &riceParamPart0)) { + return MA_FALSE; + } + riceParamPart0 &= riceParamMask; + riceParamPart0 |= (zeroCountPart0 << riceParam); + riceParamPart0 = (riceParamPart0 >> 1) ^ t[riceParamPart0 & 0x01]; + pSamplesOut[i] = riceParamPart0; + i += 1; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_samples_with_residual__rice__scalar(ma_dr_flac_bs* bs, ma_uint32 bitsPerSample, ma_uint32 count, ma_uint8 riceParam, ma_uint32 lpcOrder, ma_int32 lpcShift, ma_uint32 lpcPrecision, const ma_int32* coefficients, ma_int32* pSamplesOut) +{ + ma_uint32 t[2] = {0x00000000, 0xFFFFFFFF}; + ma_uint32 zeroCountPart0 = 0; + ma_uint32 zeroCountPart1 = 0; + ma_uint32 zeroCountPart2 = 0; + ma_uint32 zeroCountPart3 = 0; + ma_uint32 riceParamPart0 = 0; + ma_uint32 riceParamPart1 = 0; + ma_uint32 riceParamPart2 = 0; + ma_uint32 riceParamPart3 = 0; + ma_uint32 riceParamMask; + const ma_int32* pSamplesOutEnd; + ma_uint32 i; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pSamplesOut != NULL); + if (lpcOrder == 0) { + return ma_dr_flac__decode_samples_with_residual__rice__scalar_zeroorder(bs, bitsPerSample, count, riceParam, lpcOrder, lpcShift, coefficients, pSamplesOut); + } + riceParamMask = (ma_uint32)~((~0UL) << riceParam); + pSamplesOutEnd = pSamplesOut + (count & ~3); + if (ma_dr_flac__use_64_bit_prediction(bitsPerSample, lpcOrder, lpcPrecision)) { + while (pSamplesOut < pSamplesOutEnd) { + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountPart0, &riceParamPart0) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountPart1, &riceParamPart1) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountPart2, &riceParamPart2) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountPart3, &riceParamPart3)) { + return MA_FALSE; + } + riceParamPart0 &= riceParamMask; + riceParamPart1 &= riceParamMask; + riceParamPart2 &= riceParamMask; + riceParamPart3 &= riceParamMask; + riceParamPart0 |= (zeroCountPart0 << riceParam); + riceParamPart1 |= (zeroCountPart1 << riceParam); + riceParamPart2 |= (zeroCountPart2 << riceParam); + riceParamPart3 |= (zeroCountPart3 << riceParam); + riceParamPart0 = (riceParamPart0 >> 1) ^ t[riceParamPart0 & 0x01]; + riceParamPart1 = (riceParamPart1 >> 1) ^ t[riceParamPart1 & 0x01]; + riceParamPart2 = (riceParamPart2 >> 1) ^ t[riceParamPart2 & 0x01]; + riceParamPart3 = (riceParamPart3 >> 1) ^ t[riceParamPart3 & 0x01]; + pSamplesOut[0] = riceParamPart0 + ma_dr_flac__calculate_prediction_64(lpcOrder, lpcShift, coefficients, pSamplesOut + 0); + pSamplesOut[1] = riceParamPart1 + ma_dr_flac__calculate_prediction_64(lpcOrder, lpcShift, coefficients, pSamplesOut + 1); + pSamplesOut[2] = riceParamPart2 + ma_dr_flac__calculate_prediction_64(lpcOrder, lpcShift, coefficients, pSamplesOut + 2); + pSamplesOut[3] = riceParamPart3 + ma_dr_flac__calculate_prediction_64(lpcOrder, lpcShift, coefficients, pSamplesOut + 3); + pSamplesOut += 4; + } + } else { + while (pSamplesOut < pSamplesOutEnd) { + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountPart0, &riceParamPart0) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountPart1, &riceParamPart1) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountPart2, &riceParamPart2) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountPart3, &riceParamPart3)) { + return MA_FALSE; + } + riceParamPart0 &= riceParamMask; + riceParamPart1 &= riceParamMask; + riceParamPart2 &= riceParamMask; + riceParamPart3 &= riceParamMask; + riceParamPart0 |= (zeroCountPart0 << riceParam); + riceParamPart1 |= (zeroCountPart1 << riceParam); + riceParamPart2 |= (zeroCountPart2 << riceParam); + riceParamPart3 |= (zeroCountPart3 << riceParam); + riceParamPart0 = (riceParamPart0 >> 1) ^ t[riceParamPart0 & 0x01]; + riceParamPart1 = (riceParamPart1 >> 1) ^ t[riceParamPart1 & 0x01]; + riceParamPart2 = (riceParamPart2 >> 1) ^ t[riceParamPart2 & 0x01]; + riceParamPart3 = (riceParamPart3 >> 1) ^ t[riceParamPart3 & 0x01]; + pSamplesOut[0] = riceParamPart0 + ma_dr_flac__calculate_prediction_32(lpcOrder, lpcShift, coefficients, pSamplesOut + 0); + pSamplesOut[1] = riceParamPart1 + ma_dr_flac__calculate_prediction_32(lpcOrder, lpcShift, coefficients, pSamplesOut + 1); + pSamplesOut[2] = riceParamPart2 + ma_dr_flac__calculate_prediction_32(lpcOrder, lpcShift, coefficients, pSamplesOut + 2); + pSamplesOut[3] = riceParamPart3 + ma_dr_flac__calculate_prediction_32(lpcOrder, lpcShift, coefficients, pSamplesOut + 3); + pSamplesOut += 4; + } + } + i = (count & ~3); + while (i < count) { + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountPart0, &riceParamPart0)) { + return MA_FALSE; + } + riceParamPart0 &= riceParamMask; + riceParamPart0 |= (zeroCountPart0 << riceParam); + riceParamPart0 = (riceParamPart0 >> 1) ^ t[riceParamPart0 & 0x01]; + if (ma_dr_flac__use_64_bit_prediction(bitsPerSample, lpcOrder, lpcPrecision)) { + pSamplesOut[0] = riceParamPart0 + ma_dr_flac__calculate_prediction_64(lpcOrder, lpcShift, coefficients, pSamplesOut + 0); + } else { + pSamplesOut[0] = riceParamPart0 + ma_dr_flac__calculate_prediction_32(lpcOrder, lpcShift, coefficients, pSamplesOut + 0); + } + i += 1; + pSamplesOut += 1; + } + return MA_TRUE; +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE __m128i ma_dr_flac__mm_packs_interleaved_epi32(__m128i a, __m128i b) +{ + __m128i r; + r = _mm_packs_epi32(a, b); + r = _mm_shuffle_epi32(r, _MM_SHUFFLE(3, 1, 2, 0)); + r = _mm_shufflehi_epi16(r, _MM_SHUFFLE(3, 1, 2, 0)); + r = _mm_shufflelo_epi16(r, _MM_SHUFFLE(3, 1, 2, 0)); + return r; +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_SSE41) +static MA_INLINE __m128i ma_dr_flac__mm_not_si128(__m128i a) +{ + return _mm_xor_si128(a, _mm_cmpeq_epi32(_mm_setzero_si128(), _mm_setzero_si128())); +} +static MA_INLINE __m128i ma_dr_flac__mm_hadd_epi32(__m128i x) +{ + __m128i x64 = _mm_add_epi32(x, _mm_shuffle_epi32(x, _MM_SHUFFLE(1, 0, 3, 2))); + __m128i x32 = _mm_shufflelo_epi16(x64, _MM_SHUFFLE(1, 0, 3, 2)); + return _mm_add_epi32(x64, x32); +} +static MA_INLINE __m128i ma_dr_flac__mm_hadd_epi64(__m128i x) +{ + return _mm_add_epi64(x, _mm_shuffle_epi32(x, _MM_SHUFFLE(1, 0, 3, 2))); +} +static MA_INLINE __m128i ma_dr_flac__mm_srai_epi64(__m128i x, int count) +{ + __m128i lo = _mm_srli_epi64(x, count); + __m128i hi = _mm_srai_epi32(x, count); + hi = _mm_and_si128(hi, _mm_set_epi32(0xFFFFFFFF, 0, 0xFFFFFFFF, 0)); + return _mm_or_si128(lo, hi); +} +static ma_bool32 ma_dr_flac__decode_samples_with_residual__rice__sse41_32(ma_dr_flac_bs* bs, ma_uint32 count, ma_uint8 riceParam, ma_uint32 order, ma_int32 shift, const ma_int32* coefficients, ma_int32* pSamplesOut) +{ + int i; + ma_uint32 riceParamMask; + ma_int32* pDecodedSamples = pSamplesOut; + ma_int32* pDecodedSamplesEnd = pSamplesOut + (count & ~3); + ma_uint32 zeroCountParts0 = 0; + ma_uint32 zeroCountParts1 = 0; + ma_uint32 zeroCountParts2 = 0; + ma_uint32 zeroCountParts3 = 0; + ma_uint32 riceParamParts0 = 0; + ma_uint32 riceParamParts1 = 0; + ma_uint32 riceParamParts2 = 0; + ma_uint32 riceParamParts3 = 0; + __m128i coefficients128_0; + __m128i coefficients128_4; + __m128i coefficients128_8; + __m128i samples128_0; + __m128i samples128_4; + __m128i samples128_8; + __m128i riceParamMask128; + const ma_uint32 t[2] = {0x00000000, 0xFFFFFFFF}; + riceParamMask = (ma_uint32)~((~0UL) << riceParam); + riceParamMask128 = _mm_set1_epi32(riceParamMask); + coefficients128_0 = _mm_setzero_si128(); + coefficients128_4 = _mm_setzero_si128(); + coefficients128_8 = _mm_setzero_si128(); + samples128_0 = _mm_setzero_si128(); + samples128_4 = _mm_setzero_si128(); + samples128_8 = _mm_setzero_si128(); +#if 1 + { + int runningOrder = order; + if (runningOrder >= 4) { + coefficients128_0 = _mm_loadu_si128((const __m128i*)(coefficients + 0)); + samples128_0 = _mm_loadu_si128((const __m128i*)(pSamplesOut - 4)); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: coefficients128_0 = _mm_set_epi32(0, coefficients[2], coefficients[1], coefficients[0]); samples128_0 = _mm_set_epi32(pSamplesOut[-1], pSamplesOut[-2], pSamplesOut[-3], 0); break; + case 2: coefficients128_0 = _mm_set_epi32(0, 0, coefficients[1], coefficients[0]); samples128_0 = _mm_set_epi32(pSamplesOut[-1], pSamplesOut[-2], 0, 0); break; + case 1: coefficients128_0 = _mm_set_epi32(0, 0, 0, coefficients[0]); samples128_0 = _mm_set_epi32(pSamplesOut[-1], 0, 0, 0); break; + } + runningOrder = 0; + } + if (runningOrder >= 4) { + coefficients128_4 = _mm_loadu_si128((const __m128i*)(coefficients + 4)); + samples128_4 = _mm_loadu_si128((const __m128i*)(pSamplesOut - 8)); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: coefficients128_4 = _mm_set_epi32(0, coefficients[6], coefficients[5], coefficients[4]); samples128_4 = _mm_set_epi32(pSamplesOut[-5], pSamplesOut[-6], pSamplesOut[-7], 0); break; + case 2: coefficients128_4 = _mm_set_epi32(0, 0, coefficients[5], coefficients[4]); samples128_4 = _mm_set_epi32(pSamplesOut[-5], pSamplesOut[-6], 0, 0); break; + case 1: coefficients128_4 = _mm_set_epi32(0, 0, 0, coefficients[4]); samples128_4 = _mm_set_epi32(pSamplesOut[-5], 0, 0, 0); break; + } + runningOrder = 0; + } + if (runningOrder == 4) { + coefficients128_8 = _mm_loadu_si128((const __m128i*)(coefficients + 8)); + samples128_8 = _mm_loadu_si128((const __m128i*)(pSamplesOut - 12)); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: coefficients128_8 = _mm_set_epi32(0, coefficients[10], coefficients[9], coefficients[8]); samples128_8 = _mm_set_epi32(pSamplesOut[-9], pSamplesOut[-10], pSamplesOut[-11], 0); break; + case 2: coefficients128_8 = _mm_set_epi32(0, 0, coefficients[9], coefficients[8]); samples128_8 = _mm_set_epi32(pSamplesOut[-9], pSamplesOut[-10], 0, 0); break; + case 1: coefficients128_8 = _mm_set_epi32(0, 0, 0, coefficients[8]); samples128_8 = _mm_set_epi32(pSamplesOut[-9], 0, 0, 0); break; + } + runningOrder = 0; + } + coefficients128_0 = _mm_shuffle_epi32(coefficients128_0, _MM_SHUFFLE(0, 1, 2, 3)); + coefficients128_4 = _mm_shuffle_epi32(coefficients128_4, _MM_SHUFFLE(0, 1, 2, 3)); + coefficients128_8 = _mm_shuffle_epi32(coefficients128_8, _MM_SHUFFLE(0, 1, 2, 3)); + } +#else + switch (order) + { + case 12: ((ma_int32*)&coefficients128_8)[0] = coefficients[11]; ((ma_int32*)&samples128_8)[0] = pDecodedSamples[-12]; + case 11: ((ma_int32*)&coefficients128_8)[1] = coefficients[10]; ((ma_int32*)&samples128_8)[1] = pDecodedSamples[-11]; + case 10: ((ma_int32*)&coefficients128_8)[2] = coefficients[ 9]; ((ma_int32*)&samples128_8)[2] = pDecodedSamples[-10]; + case 9: ((ma_int32*)&coefficients128_8)[3] = coefficients[ 8]; ((ma_int32*)&samples128_8)[3] = pDecodedSamples[- 9]; + case 8: ((ma_int32*)&coefficients128_4)[0] = coefficients[ 7]; ((ma_int32*)&samples128_4)[0] = pDecodedSamples[- 8]; + case 7: ((ma_int32*)&coefficients128_4)[1] = coefficients[ 6]; ((ma_int32*)&samples128_4)[1] = pDecodedSamples[- 7]; + case 6: ((ma_int32*)&coefficients128_4)[2] = coefficients[ 5]; ((ma_int32*)&samples128_4)[2] = pDecodedSamples[- 6]; + case 5: ((ma_int32*)&coefficients128_4)[3] = coefficients[ 4]; ((ma_int32*)&samples128_4)[3] = pDecodedSamples[- 5]; + case 4: ((ma_int32*)&coefficients128_0)[0] = coefficients[ 3]; ((ma_int32*)&samples128_0)[0] = pDecodedSamples[- 4]; + case 3: ((ma_int32*)&coefficients128_0)[1] = coefficients[ 2]; ((ma_int32*)&samples128_0)[1] = pDecodedSamples[- 3]; + case 2: ((ma_int32*)&coefficients128_0)[2] = coefficients[ 1]; ((ma_int32*)&samples128_0)[2] = pDecodedSamples[- 2]; + case 1: ((ma_int32*)&coefficients128_0)[3] = coefficients[ 0]; ((ma_int32*)&samples128_0)[3] = pDecodedSamples[- 1]; + } +#endif + while (pDecodedSamples < pDecodedSamplesEnd) { + __m128i prediction128; + __m128i zeroCountPart128; + __m128i riceParamPart128; + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts0, &riceParamParts0) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts1, &riceParamParts1) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts2, &riceParamParts2) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts3, &riceParamParts3)) { + return MA_FALSE; + } + zeroCountPart128 = _mm_set_epi32(zeroCountParts3, zeroCountParts2, zeroCountParts1, zeroCountParts0); + riceParamPart128 = _mm_set_epi32(riceParamParts3, riceParamParts2, riceParamParts1, riceParamParts0); + riceParamPart128 = _mm_and_si128(riceParamPart128, riceParamMask128); + riceParamPart128 = _mm_or_si128(riceParamPart128, _mm_slli_epi32(zeroCountPart128, riceParam)); + riceParamPart128 = _mm_xor_si128(_mm_srli_epi32(riceParamPart128, 1), _mm_add_epi32(ma_dr_flac__mm_not_si128(_mm_and_si128(riceParamPart128, _mm_set1_epi32(0x01))), _mm_set1_epi32(0x01))); + if (order <= 4) { + for (i = 0; i < 4; i += 1) { + prediction128 = _mm_mullo_epi32(coefficients128_0, samples128_0); + prediction128 = ma_dr_flac__mm_hadd_epi32(prediction128); + prediction128 = _mm_srai_epi32(prediction128, shift); + prediction128 = _mm_add_epi32(riceParamPart128, prediction128); + samples128_0 = _mm_alignr_epi8(prediction128, samples128_0, 4); + riceParamPart128 = _mm_alignr_epi8(_mm_setzero_si128(), riceParamPart128, 4); + } + } else if (order <= 8) { + for (i = 0; i < 4; i += 1) { + prediction128 = _mm_mullo_epi32(coefficients128_4, samples128_4); + prediction128 = _mm_add_epi32(prediction128, _mm_mullo_epi32(coefficients128_0, samples128_0)); + prediction128 = ma_dr_flac__mm_hadd_epi32(prediction128); + prediction128 = _mm_srai_epi32(prediction128, shift); + prediction128 = _mm_add_epi32(riceParamPart128, prediction128); + samples128_4 = _mm_alignr_epi8(samples128_0, samples128_4, 4); + samples128_0 = _mm_alignr_epi8(prediction128, samples128_0, 4); + riceParamPart128 = _mm_alignr_epi8(_mm_setzero_si128(), riceParamPart128, 4); + } + } else { + for (i = 0; i < 4; i += 1) { + prediction128 = _mm_mullo_epi32(coefficients128_8, samples128_8); + prediction128 = _mm_add_epi32(prediction128, _mm_mullo_epi32(coefficients128_4, samples128_4)); + prediction128 = _mm_add_epi32(prediction128, _mm_mullo_epi32(coefficients128_0, samples128_0)); + prediction128 = ma_dr_flac__mm_hadd_epi32(prediction128); + prediction128 = _mm_srai_epi32(prediction128, shift); + prediction128 = _mm_add_epi32(riceParamPart128, prediction128); + samples128_8 = _mm_alignr_epi8(samples128_4, samples128_8, 4); + samples128_4 = _mm_alignr_epi8(samples128_0, samples128_4, 4); + samples128_0 = _mm_alignr_epi8(prediction128, samples128_0, 4); + riceParamPart128 = _mm_alignr_epi8(_mm_setzero_si128(), riceParamPart128, 4); + } + } + _mm_storeu_si128((__m128i*)pDecodedSamples, samples128_0); + pDecodedSamples += 4; + } + i = (count & ~3); + while (i < (int)count) { + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts0, &riceParamParts0)) { + return MA_FALSE; + } + riceParamParts0 &= riceParamMask; + riceParamParts0 |= (zeroCountParts0 << riceParam); + riceParamParts0 = (riceParamParts0 >> 1) ^ t[riceParamParts0 & 0x01]; + pDecodedSamples[0] = riceParamParts0 + ma_dr_flac__calculate_prediction_32(order, shift, coefficients, pDecodedSamples); + i += 1; + pDecodedSamples += 1; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_samples_with_residual__rice__sse41_64(ma_dr_flac_bs* bs, ma_uint32 count, ma_uint8 riceParam, ma_uint32 order, ma_int32 shift, const ma_int32* coefficients, ma_int32* pSamplesOut) +{ + int i; + ma_uint32 riceParamMask; + ma_int32* pDecodedSamples = pSamplesOut; + ma_int32* pDecodedSamplesEnd = pSamplesOut + (count & ~3); + ma_uint32 zeroCountParts0 = 0; + ma_uint32 zeroCountParts1 = 0; + ma_uint32 zeroCountParts2 = 0; + ma_uint32 zeroCountParts3 = 0; + ma_uint32 riceParamParts0 = 0; + ma_uint32 riceParamParts1 = 0; + ma_uint32 riceParamParts2 = 0; + ma_uint32 riceParamParts3 = 0; + __m128i coefficients128_0; + __m128i coefficients128_4; + __m128i coefficients128_8; + __m128i samples128_0; + __m128i samples128_4; + __m128i samples128_8; + __m128i prediction128; + __m128i riceParamMask128; + const ma_uint32 t[2] = {0x00000000, 0xFFFFFFFF}; + MA_DR_FLAC_ASSERT(order <= 12); + riceParamMask = (ma_uint32)~((~0UL) << riceParam); + riceParamMask128 = _mm_set1_epi32(riceParamMask); + prediction128 = _mm_setzero_si128(); + coefficients128_0 = _mm_setzero_si128(); + coefficients128_4 = _mm_setzero_si128(); + coefficients128_8 = _mm_setzero_si128(); + samples128_0 = _mm_setzero_si128(); + samples128_4 = _mm_setzero_si128(); + samples128_8 = _mm_setzero_si128(); +#if 1 + { + int runningOrder = order; + if (runningOrder >= 4) { + coefficients128_0 = _mm_loadu_si128((const __m128i*)(coefficients + 0)); + samples128_0 = _mm_loadu_si128((const __m128i*)(pSamplesOut - 4)); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: coefficients128_0 = _mm_set_epi32(0, coefficients[2], coefficients[1], coefficients[0]); samples128_0 = _mm_set_epi32(pSamplesOut[-1], pSamplesOut[-2], pSamplesOut[-3], 0); break; + case 2: coefficients128_0 = _mm_set_epi32(0, 0, coefficients[1], coefficients[0]); samples128_0 = _mm_set_epi32(pSamplesOut[-1], pSamplesOut[-2], 0, 0); break; + case 1: coefficients128_0 = _mm_set_epi32(0, 0, 0, coefficients[0]); samples128_0 = _mm_set_epi32(pSamplesOut[-1], 0, 0, 0); break; + } + runningOrder = 0; + } + if (runningOrder >= 4) { + coefficients128_4 = _mm_loadu_si128((const __m128i*)(coefficients + 4)); + samples128_4 = _mm_loadu_si128((const __m128i*)(pSamplesOut - 8)); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: coefficients128_4 = _mm_set_epi32(0, coefficients[6], coefficients[5], coefficients[4]); samples128_4 = _mm_set_epi32(pSamplesOut[-5], pSamplesOut[-6], pSamplesOut[-7], 0); break; + case 2: coefficients128_4 = _mm_set_epi32(0, 0, coefficients[5], coefficients[4]); samples128_4 = _mm_set_epi32(pSamplesOut[-5], pSamplesOut[-6], 0, 0); break; + case 1: coefficients128_4 = _mm_set_epi32(0, 0, 0, coefficients[4]); samples128_4 = _mm_set_epi32(pSamplesOut[-5], 0, 0, 0); break; + } + runningOrder = 0; + } + if (runningOrder == 4) { + coefficients128_8 = _mm_loadu_si128((const __m128i*)(coefficients + 8)); + samples128_8 = _mm_loadu_si128((const __m128i*)(pSamplesOut - 12)); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: coefficients128_8 = _mm_set_epi32(0, coefficients[10], coefficients[9], coefficients[8]); samples128_8 = _mm_set_epi32(pSamplesOut[-9], pSamplesOut[-10], pSamplesOut[-11], 0); break; + case 2: coefficients128_8 = _mm_set_epi32(0, 0, coefficients[9], coefficients[8]); samples128_8 = _mm_set_epi32(pSamplesOut[-9], pSamplesOut[-10], 0, 0); break; + case 1: coefficients128_8 = _mm_set_epi32(0, 0, 0, coefficients[8]); samples128_8 = _mm_set_epi32(pSamplesOut[-9], 0, 0, 0); break; + } + runningOrder = 0; + } + coefficients128_0 = _mm_shuffle_epi32(coefficients128_0, _MM_SHUFFLE(0, 1, 2, 3)); + coefficients128_4 = _mm_shuffle_epi32(coefficients128_4, _MM_SHUFFLE(0, 1, 2, 3)); + coefficients128_8 = _mm_shuffle_epi32(coefficients128_8, _MM_SHUFFLE(0, 1, 2, 3)); + } +#else + switch (order) + { + case 12: ((ma_int32*)&coefficients128_8)[0] = coefficients[11]; ((ma_int32*)&samples128_8)[0] = pDecodedSamples[-12]; + case 11: ((ma_int32*)&coefficients128_8)[1] = coefficients[10]; ((ma_int32*)&samples128_8)[1] = pDecodedSamples[-11]; + case 10: ((ma_int32*)&coefficients128_8)[2] = coefficients[ 9]; ((ma_int32*)&samples128_8)[2] = pDecodedSamples[-10]; + case 9: ((ma_int32*)&coefficients128_8)[3] = coefficients[ 8]; ((ma_int32*)&samples128_8)[3] = pDecodedSamples[- 9]; + case 8: ((ma_int32*)&coefficients128_4)[0] = coefficients[ 7]; ((ma_int32*)&samples128_4)[0] = pDecodedSamples[- 8]; + case 7: ((ma_int32*)&coefficients128_4)[1] = coefficients[ 6]; ((ma_int32*)&samples128_4)[1] = pDecodedSamples[- 7]; + case 6: ((ma_int32*)&coefficients128_4)[2] = coefficients[ 5]; ((ma_int32*)&samples128_4)[2] = pDecodedSamples[- 6]; + case 5: ((ma_int32*)&coefficients128_4)[3] = coefficients[ 4]; ((ma_int32*)&samples128_4)[3] = pDecodedSamples[- 5]; + case 4: ((ma_int32*)&coefficients128_0)[0] = coefficients[ 3]; ((ma_int32*)&samples128_0)[0] = pDecodedSamples[- 4]; + case 3: ((ma_int32*)&coefficients128_0)[1] = coefficients[ 2]; ((ma_int32*)&samples128_0)[1] = pDecodedSamples[- 3]; + case 2: ((ma_int32*)&coefficients128_0)[2] = coefficients[ 1]; ((ma_int32*)&samples128_0)[2] = pDecodedSamples[- 2]; + case 1: ((ma_int32*)&coefficients128_0)[3] = coefficients[ 0]; ((ma_int32*)&samples128_0)[3] = pDecodedSamples[- 1]; + } +#endif + while (pDecodedSamples < pDecodedSamplesEnd) { + __m128i zeroCountPart128; + __m128i riceParamPart128; + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts0, &riceParamParts0) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts1, &riceParamParts1) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts2, &riceParamParts2) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts3, &riceParamParts3)) { + return MA_FALSE; + } + zeroCountPart128 = _mm_set_epi32(zeroCountParts3, zeroCountParts2, zeroCountParts1, zeroCountParts0); + riceParamPart128 = _mm_set_epi32(riceParamParts3, riceParamParts2, riceParamParts1, riceParamParts0); + riceParamPart128 = _mm_and_si128(riceParamPart128, riceParamMask128); + riceParamPart128 = _mm_or_si128(riceParamPart128, _mm_slli_epi32(zeroCountPart128, riceParam)); + riceParamPart128 = _mm_xor_si128(_mm_srli_epi32(riceParamPart128, 1), _mm_add_epi32(ma_dr_flac__mm_not_si128(_mm_and_si128(riceParamPart128, _mm_set1_epi32(1))), _mm_set1_epi32(1))); + for (i = 0; i < 4; i += 1) { + prediction128 = _mm_xor_si128(prediction128, prediction128); + switch (order) + { + case 12: + case 11: prediction128 = _mm_add_epi64(prediction128, _mm_mul_epi32(_mm_shuffle_epi32(coefficients128_8, _MM_SHUFFLE(1, 1, 0, 0)), _mm_shuffle_epi32(samples128_8, _MM_SHUFFLE(1, 1, 0, 0)))); + case 10: + case 9: prediction128 = _mm_add_epi64(prediction128, _mm_mul_epi32(_mm_shuffle_epi32(coefficients128_8, _MM_SHUFFLE(3, 3, 2, 2)), _mm_shuffle_epi32(samples128_8, _MM_SHUFFLE(3, 3, 2, 2)))); + case 8: + case 7: prediction128 = _mm_add_epi64(prediction128, _mm_mul_epi32(_mm_shuffle_epi32(coefficients128_4, _MM_SHUFFLE(1, 1, 0, 0)), _mm_shuffle_epi32(samples128_4, _MM_SHUFFLE(1, 1, 0, 0)))); + case 6: + case 5: prediction128 = _mm_add_epi64(prediction128, _mm_mul_epi32(_mm_shuffle_epi32(coefficients128_4, _MM_SHUFFLE(3, 3, 2, 2)), _mm_shuffle_epi32(samples128_4, _MM_SHUFFLE(3, 3, 2, 2)))); + case 4: + case 3: prediction128 = _mm_add_epi64(prediction128, _mm_mul_epi32(_mm_shuffle_epi32(coefficients128_0, _MM_SHUFFLE(1, 1, 0, 0)), _mm_shuffle_epi32(samples128_0, _MM_SHUFFLE(1, 1, 0, 0)))); + case 2: + case 1: prediction128 = _mm_add_epi64(prediction128, _mm_mul_epi32(_mm_shuffle_epi32(coefficients128_0, _MM_SHUFFLE(3, 3, 2, 2)), _mm_shuffle_epi32(samples128_0, _MM_SHUFFLE(3, 3, 2, 2)))); + } + prediction128 = ma_dr_flac__mm_hadd_epi64(prediction128); + prediction128 = ma_dr_flac__mm_srai_epi64(prediction128, shift); + prediction128 = _mm_add_epi32(riceParamPart128, prediction128); + samples128_8 = _mm_alignr_epi8(samples128_4, samples128_8, 4); + samples128_4 = _mm_alignr_epi8(samples128_0, samples128_4, 4); + samples128_0 = _mm_alignr_epi8(prediction128, samples128_0, 4); + riceParamPart128 = _mm_alignr_epi8(_mm_setzero_si128(), riceParamPart128, 4); + } + _mm_storeu_si128((__m128i*)pDecodedSamples, samples128_0); + pDecodedSamples += 4; + } + i = (count & ~3); + while (i < (int)count) { + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts0, &riceParamParts0)) { + return MA_FALSE; + } + riceParamParts0 &= riceParamMask; + riceParamParts0 |= (zeroCountParts0 << riceParam); + riceParamParts0 = (riceParamParts0 >> 1) ^ t[riceParamParts0 & 0x01]; + pDecodedSamples[0] = riceParamParts0 + ma_dr_flac__calculate_prediction_64(order, shift, coefficients, pDecodedSamples); + i += 1; + pDecodedSamples += 1; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_samples_with_residual__rice__sse41(ma_dr_flac_bs* bs, ma_uint32 bitsPerSample, ma_uint32 count, ma_uint8 riceParam, ma_uint32 lpcOrder, ma_int32 lpcShift, ma_uint32 lpcPrecision, const ma_int32* coefficients, ma_int32* pSamplesOut) +{ + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pSamplesOut != NULL); + if (lpcOrder > 0 && lpcOrder <= 12) { + if (ma_dr_flac__use_64_bit_prediction(bitsPerSample, lpcOrder, lpcPrecision)) { + return ma_dr_flac__decode_samples_with_residual__rice__sse41_64(bs, count, riceParam, lpcOrder, lpcShift, coefficients, pSamplesOut); + } else { + return ma_dr_flac__decode_samples_with_residual__rice__sse41_32(bs, count, riceParam, lpcOrder, lpcShift, coefficients, pSamplesOut); + } + } else { + return ma_dr_flac__decode_samples_with_residual__rice__scalar(bs, bitsPerSample, count, riceParam, lpcOrder, lpcShift, lpcPrecision, coefficients, pSamplesOut); + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac__vst2q_s32(ma_int32* p, int32x4x2_t x) +{ + vst1q_s32(p+0, x.val[0]); + vst1q_s32(p+4, x.val[1]); +} +static MA_INLINE void ma_dr_flac__vst2q_u32(ma_uint32* p, uint32x4x2_t x) +{ + vst1q_u32(p+0, x.val[0]); + vst1q_u32(p+4, x.val[1]); +} +static MA_INLINE void ma_dr_flac__vst2q_f32(float* p, float32x4x2_t x) +{ + vst1q_f32(p+0, x.val[0]); + vst1q_f32(p+4, x.val[1]); +} +static MA_INLINE void ma_dr_flac__vst2q_s16(ma_int16* p, int16x4x2_t x) +{ + vst1q_s16(p, vcombine_s16(x.val[0], x.val[1])); +} +static MA_INLINE void ma_dr_flac__vst2q_u16(ma_uint16* p, uint16x4x2_t x) +{ + vst1q_u16(p, vcombine_u16(x.val[0], x.val[1])); +} +static MA_INLINE int32x4_t ma_dr_flac__vdupq_n_s32x4(ma_int32 x3, ma_int32 x2, ma_int32 x1, ma_int32 x0) +{ + ma_int32 x[4]; + x[3] = x3; + x[2] = x2; + x[1] = x1; + x[0] = x0; + return vld1q_s32(x); +} +static MA_INLINE int32x4_t ma_dr_flac__valignrq_s32_1(int32x4_t a, int32x4_t b) +{ + return vextq_s32(b, a, 1); +} +static MA_INLINE uint32x4_t ma_dr_flac__valignrq_u32_1(uint32x4_t a, uint32x4_t b) +{ + return vextq_u32(b, a, 1); +} +static MA_INLINE int32x2_t ma_dr_flac__vhaddq_s32(int32x4_t x) +{ + int32x2_t r = vadd_s32(vget_high_s32(x), vget_low_s32(x)); + return vpadd_s32(r, r); +} +static MA_INLINE int64x1_t ma_dr_flac__vhaddq_s64(int64x2_t x) +{ + return vadd_s64(vget_high_s64(x), vget_low_s64(x)); +} +static MA_INLINE int32x4_t ma_dr_flac__vrevq_s32(int32x4_t x) +{ + return vrev64q_s32(vcombine_s32(vget_high_s32(x), vget_low_s32(x))); +} +static MA_INLINE int32x4_t ma_dr_flac__vnotq_s32(int32x4_t x) +{ + return veorq_s32(x, vdupq_n_s32(0xFFFFFFFF)); +} +static MA_INLINE uint32x4_t ma_dr_flac__vnotq_u32(uint32x4_t x) +{ + return veorq_u32(x, vdupq_n_u32(0xFFFFFFFF)); +} +static ma_bool32 ma_dr_flac__decode_samples_with_residual__rice__neon_32(ma_dr_flac_bs* bs, ma_uint32 count, ma_uint8 riceParam, ma_uint32 order, ma_int32 shift, const ma_int32* coefficients, ma_int32* pSamplesOut) +{ + int i; + ma_uint32 riceParamMask; + ma_int32* pDecodedSamples = pSamplesOut; + ma_int32* pDecodedSamplesEnd = pSamplesOut + (count & ~3); + ma_uint32 zeroCountParts[4]; + ma_uint32 riceParamParts[4]; + int32x4_t coefficients128_0; + int32x4_t coefficients128_4; + int32x4_t coefficients128_8; + int32x4_t samples128_0; + int32x4_t samples128_4; + int32x4_t samples128_8; + uint32x4_t riceParamMask128; + int32x4_t riceParam128; + int32x2_t shift64; + uint32x4_t one128; + const ma_uint32 t[2] = {0x00000000, 0xFFFFFFFF}; + riceParamMask = (ma_uint32)~((~0UL) << riceParam); + riceParamMask128 = vdupq_n_u32(riceParamMask); + riceParam128 = vdupq_n_s32(riceParam); + shift64 = vdup_n_s32(-shift); + one128 = vdupq_n_u32(1); + { + int runningOrder = order; + ma_int32 tempC[4] = {0, 0, 0, 0}; + ma_int32 tempS[4] = {0, 0, 0, 0}; + if (runningOrder >= 4) { + coefficients128_0 = vld1q_s32(coefficients + 0); + samples128_0 = vld1q_s32(pSamplesOut - 4); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: tempC[2] = coefficients[2]; tempS[1] = pSamplesOut[-3]; + case 2: tempC[1] = coefficients[1]; tempS[2] = pSamplesOut[-2]; + case 1: tempC[0] = coefficients[0]; tempS[3] = pSamplesOut[-1]; + } + coefficients128_0 = vld1q_s32(tempC); + samples128_0 = vld1q_s32(tempS); + runningOrder = 0; + } + if (runningOrder >= 4) { + coefficients128_4 = vld1q_s32(coefficients + 4); + samples128_4 = vld1q_s32(pSamplesOut - 8); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: tempC[2] = coefficients[6]; tempS[1] = pSamplesOut[-7]; + case 2: tempC[1] = coefficients[5]; tempS[2] = pSamplesOut[-6]; + case 1: tempC[0] = coefficients[4]; tempS[3] = pSamplesOut[-5]; + } + coefficients128_4 = vld1q_s32(tempC); + samples128_4 = vld1q_s32(tempS); + runningOrder = 0; + } + if (runningOrder == 4) { + coefficients128_8 = vld1q_s32(coefficients + 8); + samples128_8 = vld1q_s32(pSamplesOut - 12); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: tempC[2] = coefficients[10]; tempS[1] = pSamplesOut[-11]; + case 2: tempC[1] = coefficients[ 9]; tempS[2] = pSamplesOut[-10]; + case 1: tempC[0] = coefficients[ 8]; tempS[3] = pSamplesOut[- 9]; + } + coefficients128_8 = vld1q_s32(tempC); + samples128_8 = vld1q_s32(tempS); + runningOrder = 0; + } + coefficients128_0 = ma_dr_flac__vrevq_s32(coefficients128_0); + coefficients128_4 = ma_dr_flac__vrevq_s32(coefficients128_4); + coefficients128_8 = ma_dr_flac__vrevq_s32(coefficients128_8); + } + while (pDecodedSamples < pDecodedSamplesEnd) { + int32x4_t prediction128; + int32x2_t prediction64; + uint32x4_t zeroCountPart128; + uint32x4_t riceParamPart128; + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts[0], &riceParamParts[0]) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts[1], &riceParamParts[1]) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts[2], &riceParamParts[2]) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts[3], &riceParamParts[3])) { + return MA_FALSE; + } + zeroCountPart128 = vld1q_u32(zeroCountParts); + riceParamPart128 = vld1q_u32(riceParamParts); + riceParamPart128 = vandq_u32(riceParamPart128, riceParamMask128); + riceParamPart128 = vorrq_u32(riceParamPart128, vshlq_u32(zeroCountPart128, riceParam128)); + riceParamPart128 = veorq_u32(vshrq_n_u32(riceParamPart128, 1), vaddq_u32(ma_dr_flac__vnotq_u32(vandq_u32(riceParamPart128, one128)), one128)); + if (order <= 4) { + for (i = 0; i < 4; i += 1) { + prediction128 = vmulq_s32(coefficients128_0, samples128_0); + prediction64 = ma_dr_flac__vhaddq_s32(prediction128); + prediction64 = vshl_s32(prediction64, shift64); + prediction64 = vadd_s32(prediction64, vget_low_s32(vreinterpretq_s32_u32(riceParamPart128))); + samples128_0 = ma_dr_flac__valignrq_s32_1(vcombine_s32(prediction64, vdup_n_s32(0)), samples128_0); + riceParamPart128 = ma_dr_flac__valignrq_u32_1(vdupq_n_u32(0), riceParamPart128); + } + } else if (order <= 8) { + for (i = 0; i < 4; i += 1) { + prediction128 = vmulq_s32(coefficients128_4, samples128_4); + prediction128 = vmlaq_s32(prediction128, coefficients128_0, samples128_0); + prediction64 = ma_dr_flac__vhaddq_s32(prediction128); + prediction64 = vshl_s32(prediction64, shift64); + prediction64 = vadd_s32(prediction64, vget_low_s32(vreinterpretq_s32_u32(riceParamPart128))); + samples128_4 = ma_dr_flac__valignrq_s32_1(samples128_0, samples128_4); + samples128_0 = ma_dr_flac__valignrq_s32_1(vcombine_s32(prediction64, vdup_n_s32(0)), samples128_0); + riceParamPart128 = ma_dr_flac__valignrq_u32_1(vdupq_n_u32(0), riceParamPart128); + } + } else { + for (i = 0; i < 4; i += 1) { + prediction128 = vmulq_s32(coefficients128_8, samples128_8); + prediction128 = vmlaq_s32(prediction128, coefficients128_4, samples128_4); + prediction128 = vmlaq_s32(prediction128, coefficients128_0, samples128_0); + prediction64 = ma_dr_flac__vhaddq_s32(prediction128); + prediction64 = vshl_s32(prediction64, shift64); + prediction64 = vadd_s32(prediction64, vget_low_s32(vreinterpretq_s32_u32(riceParamPart128))); + samples128_8 = ma_dr_flac__valignrq_s32_1(samples128_4, samples128_8); + samples128_4 = ma_dr_flac__valignrq_s32_1(samples128_0, samples128_4); + samples128_0 = ma_dr_flac__valignrq_s32_1(vcombine_s32(prediction64, vdup_n_s32(0)), samples128_0); + riceParamPart128 = ma_dr_flac__valignrq_u32_1(vdupq_n_u32(0), riceParamPart128); + } + } + vst1q_s32(pDecodedSamples, samples128_0); + pDecodedSamples += 4; + } + i = (count & ~3); + while (i < (int)count) { + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts[0], &riceParamParts[0])) { + return MA_FALSE; + } + riceParamParts[0] &= riceParamMask; + riceParamParts[0] |= (zeroCountParts[0] << riceParam); + riceParamParts[0] = (riceParamParts[0] >> 1) ^ t[riceParamParts[0] & 0x01]; + pDecodedSamples[0] = riceParamParts[0] + ma_dr_flac__calculate_prediction_32(order, shift, coefficients, pDecodedSamples); + i += 1; + pDecodedSamples += 1; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_samples_with_residual__rice__neon_64(ma_dr_flac_bs* bs, ma_uint32 count, ma_uint8 riceParam, ma_uint32 order, ma_int32 shift, const ma_int32* coefficients, ma_int32* pSamplesOut) +{ + int i; + ma_uint32 riceParamMask; + ma_int32* pDecodedSamples = pSamplesOut; + ma_int32* pDecodedSamplesEnd = pSamplesOut + (count & ~3); + ma_uint32 zeroCountParts[4]; + ma_uint32 riceParamParts[4]; + int32x4_t coefficients128_0; + int32x4_t coefficients128_4; + int32x4_t coefficients128_8; + int32x4_t samples128_0; + int32x4_t samples128_4; + int32x4_t samples128_8; + uint32x4_t riceParamMask128; + int32x4_t riceParam128; + int64x1_t shift64; + uint32x4_t one128; + int64x2_t prediction128 = { 0 }; + uint32x4_t zeroCountPart128; + uint32x4_t riceParamPart128; + const ma_uint32 t[2] = {0x00000000, 0xFFFFFFFF}; + riceParamMask = (ma_uint32)~((~0UL) << riceParam); + riceParamMask128 = vdupq_n_u32(riceParamMask); + riceParam128 = vdupq_n_s32(riceParam); + shift64 = vdup_n_s64(-shift); + one128 = vdupq_n_u32(1); + { + int runningOrder = order; + ma_int32 tempC[4] = {0, 0, 0, 0}; + ma_int32 tempS[4] = {0, 0, 0, 0}; + if (runningOrder >= 4) { + coefficients128_0 = vld1q_s32(coefficients + 0); + samples128_0 = vld1q_s32(pSamplesOut - 4); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: tempC[2] = coefficients[2]; tempS[1] = pSamplesOut[-3]; + case 2: tempC[1] = coefficients[1]; tempS[2] = pSamplesOut[-2]; + case 1: tempC[0] = coefficients[0]; tempS[3] = pSamplesOut[-1]; + } + coefficients128_0 = vld1q_s32(tempC); + samples128_0 = vld1q_s32(tempS); + runningOrder = 0; + } + if (runningOrder >= 4) { + coefficients128_4 = vld1q_s32(coefficients + 4); + samples128_4 = vld1q_s32(pSamplesOut - 8); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: tempC[2] = coefficients[6]; tempS[1] = pSamplesOut[-7]; + case 2: tempC[1] = coefficients[5]; tempS[2] = pSamplesOut[-6]; + case 1: tempC[0] = coefficients[4]; tempS[3] = pSamplesOut[-5]; + } + coefficients128_4 = vld1q_s32(tempC); + samples128_4 = vld1q_s32(tempS); + runningOrder = 0; + } + if (runningOrder == 4) { + coefficients128_8 = vld1q_s32(coefficients + 8); + samples128_8 = vld1q_s32(pSamplesOut - 12); + runningOrder -= 4; + } else { + switch (runningOrder) { + case 3: tempC[2] = coefficients[10]; tempS[1] = pSamplesOut[-11]; + case 2: tempC[1] = coefficients[ 9]; tempS[2] = pSamplesOut[-10]; + case 1: tempC[0] = coefficients[ 8]; tempS[3] = pSamplesOut[- 9]; + } + coefficients128_8 = vld1q_s32(tempC); + samples128_8 = vld1q_s32(tempS); + runningOrder = 0; + } + coefficients128_0 = ma_dr_flac__vrevq_s32(coefficients128_0); + coefficients128_4 = ma_dr_flac__vrevq_s32(coefficients128_4); + coefficients128_8 = ma_dr_flac__vrevq_s32(coefficients128_8); + } + while (pDecodedSamples < pDecodedSamplesEnd) { + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts[0], &riceParamParts[0]) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts[1], &riceParamParts[1]) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts[2], &riceParamParts[2]) || + !ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts[3], &riceParamParts[3])) { + return MA_FALSE; + } + zeroCountPart128 = vld1q_u32(zeroCountParts); + riceParamPart128 = vld1q_u32(riceParamParts); + riceParamPart128 = vandq_u32(riceParamPart128, riceParamMask128); + riceParamPart128 = vorrq_u32(riceParamPart128, vshlq_u32(zeroCountPart128, riceParam128)); + riceParamPart128 = veorq_u32(vshrq_n_u32(riceParamPart128, 1), vaddq_u32(ma_dr_flac__vnotq_u32(vandq_u32(riceParamPart128, one128)), one128)); + for (i = 0; i < 4; i += 1) { + int64x1_t prediction64; + prediction128 = veorq_s64(prediction128, prediction128); + switch (order) + { + case 12: + case 11: prediction128 = vaddq_s64(prediction128, vmull_s32(vget_low_s32(coefficients128_8), vget_low_s32(samples128_8))); + case 10: + case 9: prediction128 = vaddq_s64(prediction128, vmull_s32(vget_high_s32(coefficients128_8), vget_high_s32(samples128_8))); + case 8: + case 7: prediction128 = vaddq_s64(prediction128, vmull_s32(vget_low_s32(coefficients128_4), vget_low_s32(samples128_4))); + case 6: + case 5: prediction128 = vaddq_s64(prediction128, vmull_s32(vget_high_s32(coefficients128_4), vget_high_s32(samples128_4))); + case 4: + case 3: prediction128 = vaddq_s64(prediction128, vmull_s32(vget_low_s32(coefficients128_0), vget_low_s32(samples128_0))); + case 2: + case 1: prediction128 = vaddq_s64(prediction128, vmull_s32(vget_high_s32(coefficients128_0), vget_high_s32(samples128_0))); + } + prediction64 = ma_dr_flac__vhaddq_s64(prediction128); + prediction64 = vshl_s64(prediction64, shift64); + prediction64 = vadd_s64(prediction64, vdup_n_s64(vgetq_lane_u32(riceParamPart128, 0))); + samples128_8 = ma_dr_flac__valignrq_s32_1(samples128_4, samples128_8); + samples128_4 = ma_dr_flac__valignrq_s32_1(samples128_0, samples128_4); + samples128_0 = ma_dr_flac__valignrq_s32_1(vcombine_s32(vreinterpret_s32_s64(prediction64), vdup_n_s32(0)), samples128_0); + riceParamPart128 = ma_dr_flac__valignrq_u32_1(vdupq_n_u32(0), riceParamPart128); + } + vst1q_s32(pDecodedSamples, samples128_0); + pDecodedSamples += 4; + } + i = (count & ~3); + while (i < (int)count) { + if (!ma_dr_flac__read_rice_parts_x1(bs, riceParam, &zeroCountParts[0], &riceParamParts[0])) { + return MA_FALSE; + } + riceParamParts[0] &= riceParamMask; + riceParamParts[0] |= (zeroCountParts[0] << riceParam); + riceParamParts[0] = (riceParamParts[0] >> 1) ^ t[riceParamParts[0] & 0x01]; + pDecodedSamples[0] = riceParamParts[0] + ma_dr_flac__calculate_prediction_64(order, shift, coefficients, pDecodedSamples); + i += 1; + pDecodedSamples += 1; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_samples_with_residual__rice__neon(ma_dr_flac_bs* bs, ma_uint32 bitsPerSample, ma_uint32 count, ma_uint8 riceParam, ma_uint32 lpcOrder, ma_int32 lpcShift, ma_uint32 lpcPrecision, const ma_int32* coefficients, ma_int32* pSamplesOut) +{ + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(pSamplesOut != NULL); + if (lpcOrder > 0 && lpcOrder <= 12) { + if (ma_dr_flac__use_64_bit_prediction(bitsPerSample, lpcOrder, lpcPrecision)) { + return ma_dr_flac__decode_samples_with_residual__rice__neon_64(bs, count, riceParam, lpcOrder, lpcShift, coefficients, pSamplesOut); + } else { + return ma_dr_flac__decode_samples_with_residual__rice__neon_32(bs, count, riceParam, lpcOrder, lpcShift, coefficients, pSamplesOut); + } + } else { + return ma_dr_flac__decode_samples_with_residual__rice__scalar(bs, bitsPerSample, count, riceParam, lpcOrder, lpcShift, lpcPrecision, coefficients, pSamplesOut); + } +} +#endif +static ma_bool32 ma_dr_flac__decode_samples_with_residual__rice(ma_dr_flac_bs* bs, ma_uint32 bitsPerSample, ma_uint32 count, ma_uint8 riceParam, ma_uint32 lpcOrder, ma_int32 lpcShift, ma_uint32 lpcPrecision, const ma_int32* coefficients, ma_int32* pSamplesOut) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE41) + if (ma_dr_flac__gIsSSE41Supported) { + return ma_dr_flac__decode_samples_with_residual__rice__sse41(bs, bitsPerSample, count, riceParam, lpcOrder, lpcShift, lpcPrecision, coefficients, pSamplesOut); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported) { + return ma_dr_flac__decode_samples_with_residual__rice__neon(bs, bitsPerSample, count, riceParam, lpcOrder, lpcShift, lpcPrecision, coefficients, pSamplesOut); + } else +#endif + { + #if 0 + return ma_dr_flac__decode_samples_with_residual__rice__reference(bs, bitsPerSample, count, riceParam, lpcOrder, lpcShift, lpcPrecision, coefficients, pSamplesOut); + #else + return ma_dr_flac__decode_samples_with_residual__rice__scalar(bs, bitsPerSample, count, riceParam, lpcOrder, lpcShift, lpcPrecision, coefficients, pSamplesOut); + #endif + } +} +static ma_bool32 ma_dr_flac__read_and_seek_residual__rice(ma_dr_flac_bs* bs, ma_uint32 count, ma_uint8 riceParam) +{ + ma_uint32 i; + MA_DR_FLAC_ASSERT(bs != NULL); + for (i = 0; i < count; ++i) { + if (!ma_dr_flac__seek_rice_parts(bs, riceParam)) { + return MA_FALSE; + } + } + return MA_TRUE; +} +#if defined(__clang__) +__attribute__((no_sanitize("signed-integer-overflow"))) +#endif +static ma_bool32 ma_dr_flac__decode_samples_with_residual__unencoded(ma_dr_flac_bs* bs, ma_uint32 bitsPerSample, ma_uint32 count, ma_uint8 unencodedBitsPerSample, ma_uint32 lpcOrder, ma_int32 lpcShift, ma_uint32 lpcPrecision, const ma_int32* coefficients, ma_int32* pSamplesOut) +{ + ma_uint32 i; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(unencodedBitsPerSample <= 31); + MA_DR_FLAC_ASSERT(pSamplesOut != NULL); + for (i = 0; i < count; ++i) { + if (unencodedBitsPerSample > 0) { + if (!ma_dr_flac__read_int32(bs, unencodedBitsPerSample, pSamplesOut + i)) { + return MA_FALSE; + } + } else { + pSamplesOut[i] = 0; + } + if (ma_dr_flac__use_64_bit_prediction(bitsPerSample, lpcOrder, lpcPrecision)) { + pSamplesOut[i] += ma_dr_flac__calculate_prediction_64(lpcOrder, lpcShift, coefficients, pSamplesOut + i); + } else { + pSamplesOut[i] += ma_dr_flac__calculate_prediction_32(lpcOrder, lpcShift, coefficients, pSamplesOut + i); + } + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_samples_with_residual(ma_dr_flac_bs* bs, ma_uint32 bitsPerSample, ma_uint32 blockSize, ma_uint32 lpcOrder, ma_int32 lpcShift, ma_uint32 lpcPrecision, const ma_int32* coefficients, ma_int32* pDecodedSamples) +{ + ma_uint8 residualMethod; + ma_uint8 partitionOrder; + ma_uint32 samplesInPartition; + ma_uint32 partitionsRemaining; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(blockSize != 0); + MA_DR_FLAC_ASSERT(pDecodedSamples != NULL); + if (!ma_dr_flac__read_uint8(bs, 2, &residualMethod)) { + return MA_FALSE; + } + if (residualMethod != MA_DR_FLAC_RESIDUAL_CODING_METHOD_PARTITIONED_RICE && residualMethod != MA_DR_FLAC_RESIDUAL_CODING_METHOD_PARTITIONED_RICE2) { + return MA_FALSE; + } + pDecodedSamples += lpcOrder; + if (!ma_dr_flac__read_uint8(bs, 4, &partitionOrder)) { + return MA_FALSE; + } + if (partitionOrder > 8) { + return MA_FALSE; + } + if ((blockSize / (1 << partitionOrder)) < lpcOrder) { + return MA_FALSE; + } + samplesInPartition = (blockSize / (1 << partitionOrder)) - lpcOrder; + partitionsRemaining = (1 << partitionOrder); + for (;;) { + ma_uint8 riceParam = 0; + if (residualMethod == MA_DR_FLAC_RESIDUAL_CODING_METHOD_PARTITIONED_RICE) { + if (!ma_dr_flac__read_uint8(bs, 4, &riceParam)) { + return MA_FALSE; + } + if (riceParam == 15) { + riceParam = 0xFF; + } + } else if (residualMethod == MA_DR_FLAC_RESIDUAL_CODING_METHOD_PARTITIONED_RICE2) { + if (!ma_dr_flac__read_uint8(bs, 5, &riceParam)) { + return MA_FALSE; + } + if (riceParam == 31) { + riceParam = 0xFF; + } + } + if (riceParam != 0xFF) { + if (!ma_dr_flac__decode_samples_with_residual__rice(bs, bitsPerSample, samplesInPartition, riceParam, lpcOrder, lpcShift, lpcPrecision, coefficients, pDecodedSamples)) { + return MA_FALSE; + } + } else { + ma_uint8 unencodedBitsPerSample = 0; + if (!ma_dr_flac__read_uint8(bs, 5, &unencodedBitsPerSample)) { + return MA_FALSE; + } + if (!ma_dr_flac__decode_samples_with_residual__unencoded(bs, bitsPerSample, samplesInPartition, unencodedBitsPerSample, lpcOrder, lpcShift, lpcPrecision, coefficients, pDecodedSamples)) { + return MA_FALSE; + } + } + pDecodedSamples += samplesInPartition; + if (partitionsRemaining == 1) { + break; + } + partitionsRemaining -= 1; + if (partitionOrder != 0) { + samplesInPartition = blockSize / (1 << partitionOrder); + } + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__read_and_seek_residual(ma_dr_flac_bs* bs, ma_uint32 blockSize, ma_uint32 order) +{ + ma_uint8 residualMethod; + ma_uint8 partitionOrder; + ma_uint32 samplesInPartition; + ma_uint32 partitionsRemaining; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(blockSize != 0); + if (!ma_dr_flac__read_uint8(bs, 2, &residualMethod)) { + return MA_FALSE; + } + if (residualMethod != MA_DR_FLAC_RESIDUAL_CODING_METHOD_PARTITIONED_RICE && residualMethod != MA_DR_FLAC_RESIDUAL_CODING_METHOD_PARTITIONED_RICE2) { + return MA_FALSE; + } + if (!ma_dr_flac__read_uint8(bs, 4, &partitionOrder)) { + return MA_FALSE; + } + if (partitionOrder > 8) { + return MA_FALSE; + } + if ((blockSize / (1 << partitionOrder)) <= order) { + return MA_FALSE; + } + samplesInPartition = (blockSize / (1 << partitionOrder)) - order; + partitionsRemaining = (1 << partitionOrder); + for (;;) + { + ma_uint8 riceParam = 0; + if (residualMethod == MA_DR_FLAC_RESIDUAL_CODING_METHOD_PARTITIONED_RICE) { + if (!ma_dr_flac__read_uint8(bs, 4, &riceParam)) { + return MA_FALSE; + } + if (riceParam == 15) { + riceParam = 0xFF; + } + } else if (residualMethod == MA_DR_FLAC_RESIDUAL_CODING_METHOD_PARTITIONED_RICE2) { + if (!ma_dr_flac__read_uint8(bs, 5, &riceParam)) { + return MA_FALSE; + } + if (riceParam == 31) { + riceParam = 0xFF; + } + } + if (riceParam != 0xFF) { + if (!ma_dr_flac__read_and_seek_residual__rice(bs, samplesInPartition, riceParam)) { + return MA_FALSE; + } + } else { + ma_uint8 unencodedBitsPerSample = 0; + if (!ma_dr_flac__read_uint8(bs, 5, &unencodedBitsPerSample)) { + return MA_FALSE; + } + if (!ma_dr_flac__seek_bits(bs, unencodedBitsPerSample * samplesInPartition)) { + return MA_FALSE; + } + } + if (partitionsRemaining == 1) { + break; + } + partitionsRemaining -= 1; + samplesInPartition = blockSize / (1 << partitionOrder); + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_samples__constant(ma_dr_flac_bs* bs, ma_uint32 blockSize, ma_uint32 subframeBitsPerSample, ma_int32* pDecodedSamples) +{ + ma_uint32 i; + ma_int32 sample; + if (!ma_dr_flac__read_int32(bs, subframeBitsPerSample, &sample)) { + return MA_FALSE; + } + for (i = 0; i < blockSize; ++i) { + pDecodedSamples[i] = sample; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_samples__verbatim(ma_dr_flac_bs* bs, ma_uint32 blockSize, ma_uint32 subframeBitsPerSample, ma_int32* pDecodedSamples) +{ + ma_uint32 i; + for (i = 0; i < blockSize; ++i) { + ma_int32 sample; + if (!ma_dr_flac__read_int32(bs, subframeBitsPerSample, &sample)) { + return MA_FALSE; + } + pDecodedSamples[i] = sample; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_samples__fixed(ma_dr_flac_bs* bs, ma_uint32 blockSize, ma_uint32 subframeBitsPerSample, ma_uint8 lpcOrder, ma_int32* pDecodedSamples) +{ + ma_uint32 i; + static ma_int32 lpcCoefficientsTable[5][4] = { + {0, 0, 0, 0}, + {1, 0, 0, 0}, + {2, -1, 0, 0}, + {3, -3, 1, 0}, + {4, -6, 4, -1} + }; + for (i = 0; i < lpcOrder; ++i) { + ma_int32 sample; + if (!ma_dr_flac__read_int32(bs, subframeBitsPerSample, &sample)) { + return MA_FALSE; + } + pDecodedSamples[i] = sample; + } + if (!ma_dr_flac__decode_samples_with_residual(bs, subframeBitsPerSample, blockSize, lpcOrder, 0, 4, lpcCoefficientsTable[lpcOrder], pDecodedSamples)) { + return MA_FALSE; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_samples__lpc(ma_dr_flac_bs* bs, ma_uint32 blockSize, ma_uint32 bitsPerSample, ma_uint8 lpcOrder, ma_int32* pDecodedSamples) +{ + ma_uint8 i; + ma_uint8 lpcPrecision; + ma_int8 lpcShift; + ma_int32 coefficients[32]; + for (i = 0; i < lpcOrder; ++i) { + ma_int32 sample; + if (!ma_dr_flac__read_int32(bs, bitsPerSample, &sample)) { + return MA_FALSE; + } + pDecodedSamples[i] = sample; + } + if (!ma_dr_flac__read_uint8(bs, 4, &lpcPrecision)) { + return MA_FALSE; + } + if (lpcPrecision == 15) { + return MA_FALSE; + } + lpcPrecision += 1; + if (!ma_dr_flac__read_int8(bs, 5, &lpcShift)) { + return MA_FALSE; + } + if (lpcShift < 0) { + return MA_FALSE; + } + MA_DR_FLAC_ZERO_MEMORY(coefficients, sizeof(coefficients)); + for (i = 0; i < lpcOrder; ++i) { + if (!ma_dr_flac__read_int32(bs, lpcPrecision, coefficients + i)) { + return MA_FALSE; + } + } + if (!ma_dr_flac__decode_samples_with_residual(bs, bitsPerSample, blockSize, lpcOrder, lpcShift, lpcPrecision, coefficients, pDecodedSamples)) { + return MA_FALSE; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__read_next_flac_frame_header(ma_dr_flac_bs* bs, ma_uint8 streaminfoBitsPerSample, ma_dr_flac_frame_header* header) +{ + const ma_uint32 sampleRateTable[12] = {0, 88200, 176400, 192000, 8000, 16000, 22050, 24000, 32000, 44100, 48000, 96000}; + const ma_uint8 bitsPerSampleTable[8] = {0, 8, 12, (ma_uint8)-1, 16, 20, 24, (ma_uint8)-1}; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(header != NULL); + for (;;) { + ma_uint8 crc8 = 0xCE; + ma_uint8 reserved = 0; + ma_uint8 blockingStrategy = 0; + ma_uint8 blockSize = 0; + ma_uint8 sampleRate = 0; + ma_uint8 channelAssignment = 0; + ma_uint8 bitsPerSample = 0; + ma_bool32 isVariableBlockSize; + if (!ma_dr_flac__find_and_seek_to_next_sync_code(bs)) { + return MA_FALSE; + } + if (!ma_dr_flac__read_uint8(bs, 1, &reserved)) { + return MA_FALSE; + } + if (reserved == 1) { + continue; + } + crc8 = ma_dr_flac_crc8(crc8, reserved, 1); + if (!ma_dr_flac__read_uint8(bs, 1, &blockingStrategy)) { + return MA_FALSE; + } + crc8 = ma_dr_flac_crc8(crc8, blockingStrategy, 1); + if (!ma_dr_flac__read_uint8(bs, 4, &blockSize)) { + return MA_FALSE; + } + if (blockSize == 0) { + continue; + } + crc8 = ma_dr_flac_crc8(crc8, blockSize, 4); + if (!ma_dr_flac__read_uint8(bs, 4, &sampleRate)) { + return MA_FALSE; + } + crc8 = ma_dr_flac_crc8(crc8, sampleRate, 4); + if (!ma_dr_flac__read_uint8(bs, 4, &channelAssignment)) { + return MA_FALSE; + } + if (channelAssignment > 10) { + continue; + } + crc8 = ma_dr_flac_crc8(crc8, channelAssignment, 4); + if (!ma_dr_flac__read_uint8(bs, 3, &bitsPerSample)) { + return MA_FALSE; + } + if (bitsPerSample == 3 || bitsPerSample == 7) { + continue; + } + crc8 = ma_dr_flac_crc8(crc8, bitsPerSample, 3); + if (!ma_dr_flac__read_uint8(bs, 1, &reserved)) { + return MA_FALSE; + } + if (reserved == 1) { + continue; + } + crc8 = ma_dr_flac_crc8(crc8, reserved, 1); + isVariableBlockSize = blockingStrategy == 1; + if (isVariableBlockSize) { + ma_uint64 pcmFrameNumber; + ma_result result = ma_dr_flac__read_utf8_coded_number(bs, &pcmFrameNumber, &crc8); + if (result != MA_SUCCESS) { + if (result == MA_AT_END) { + return MA_FALSE; + } else { + continue; + } + } + header->flacFrameNumber = 0; + header->pcmFrameNumber = pcmFrameNumber; + } else { + ma_uint64 flacFrameNumber = 0; + ma_result result = ma_dr_flac__read_utf8_coded_number(bs, &flacFrameNumber, &crc8); + if (result != MA_SUCCESS) { + if (result == MA_AT_END) { + return MA_FALSE; + } else { + continue; + } + } + header->flacFrameNumber = (ma_uint32)flacFrameNumber; + header->pcmFrameNumber = 0; + } + MA_DR_FLAC_ASSERT(blockSize > 0); + if (blockSize == 1) { + header->blockSizeInPCMFrames = 192; + } else if (blockSize <= 5) { + MA_DR_FLAC_ASSERT(blockSize >= 2); + header->blockSizeInPCMFrames = 576 * (1 << (blockSize - 2)); + } else if (blockSize == 6) { + if (!ma_dr_flac__read_uint16(bs, 8, &header->blockSizeInPCMFrames)) { + return MA_FALSE; + } + crc8 = ma_dr_flac_crc8(crc8, header->blockSizeInPCMFrames, 8); + header->blockSizeInPCMFrames += 1; + } else if (blockSize == 7) { + if (!ma_dr_flac__read_uint16(bs, 16, &header->blockSizeInPCMFrames)) { + return MA_FALSE; + } + crc8 = ma_dr_flac_crc8(crc8, header->blockSizeInPCMFrames, 16); + if (header->blockSizeInPCMFrames == 0xFFFF) { + return MA_FALSE; + } + header->blockSizeInPCMFrames += 1; + } else { + MA_DR_FLAC_ASSERT(blockSize >= 8); + header->blockSizeInPCMFrames = 256 * (1 << (blockSize - 8)); + } + if (sampleRate <= 11) { + header->sampleRate = sampleRateTable[sampleRate]; + } else if (sampleRate == 12) { + if (!ma_dr_flac__read_uint32(bs, 8, &header->sampleRate)) { + return MA_FALSE; + } + crc8 = ma_dr_flac_crc8(crc8, header->sampleRate, 8); + header->sampleRate *= 1000; + } else if (sampleRate == 13) { + if (!ma_dr_flac__read_uint32(bs, 16, &header->sampleRate)) { + return MA_FALSE; + } + crc8 = ma_dr_flac_crc8(crc8, header->sampleRate, 16); + } else if (sampleRate == 14) { + if (!ma_dr_flac__read_uint32(bs, 16, &header->sampleRate)) { + return MA_FALSE; + } + crc8 = ma_dr_flac_crc8(crc8, header->sampleRate, 16); + header->sampleRate *= 10; + } else { + continue; + } + header->channelAssignment = channelAssignment; + header->bitsPerSample = bitsPerSampleTable[bitsPerSample]; + if (header->bitsPerSample == 0) { + header->bitsPerSample = streaminfoBitsPerSample; + } + if (header->bitsPerSample != streaminfoBitsPerSample) { + return MA_FALSE; + } + if (!ma_dr_flac__read_uint8(bs, 8, &header->crc8)) { + return MA_FALSE; + } +#ifndef MA_DR_FLAC_NO_CRC + if (header->crc8 != crc8) { + continue; + } +#endif + return MA_TRUE; + } +} +static ma_bool32 ma_dr_flac__read_subframe_header(ma_dr_flac_bs* bs, ma_dr_flac_subframe* pSubframe) +{ + ma_uint8 header; + int type; + if (!ma_dr_flac__read_uint8(bs, 8, &header)) { + return MA_FALSE; + } + if ((header & 0x80) != 0) { + return MA_FALSE; + } + pSubframe->lpcOrder = 0; + type = (header & 0x7E) >> 1; + if (type == 0) { + pSubframe->subframeType = MA_DR_FLAC_SUBFRAME_CONSTANT; + } else if (type == 1) { + pSubframe->subframeType = MA_DR_FLAC_SUBFRAME_VERBATIM; + } else { + if ((type & 0x20) != 0) { + pSubframe->subframeType = MA_DR_FLAC_SUBFRAME_LPC; + pSubframe->lpcOrder = (ma_uint8)(type & 0x1F) + 1; + } else if ((type & 0x08) != 0) { + pSubframe->subframeType = MA_DR_FLAC_SUBFRAME_FIXED; + pSubframe->lpcOrder = (ma_uint8)(type & 0x07); + if (pSubframe->lpcOrder > 4) { + pSubframe->subframeType = MA_DR_FLAC_SUBFRAME_RESERVED; + pSubframe->lpcOrder = 0; + } + } else { + pSubframe->subframeType = MA_DR_FLAC_SUBFRAME_RESERVED; + } + } + if (pSubframe->subframeType == MA_DR_FLAC_SUBFRAME_RESERVED) { + return MA_FALSE; + } + pSubframe->wastedBitsPerSample = 0; + if ((header & 0x01) == 1) { + unsigned int wastedBitsPerSample; + if (!ma_dr_flac__seek_past_next_set_bit(bs, &wastedBitsPerSample)) { + return MA_FALSE; + } + pSubframe->wastedBitsPerSample = (ma_uint8)wastedBitsPerSample + 1; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_subframe(ma_dr_flac_bs* bs, ma_dr_flac_frame* frame, int subframeIndex, ma_int32* pDecodedSamplesOut) +{ + ma_dr_flac_subframe* pSubframe; + ma_uint32 subframeBitsPerSample; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(frame != NULL); + pSubframe = frame->subframes + subframeIndex; + if (!ma_dr_flac__read_subframe_header(bs, pSubframe)) { + return MA_FALSE; + } + subframeBitsPerSample = frame->header.bitsPerSample; + if ((frame->header.channelAssignment == MA_DR_FLAC_CHANNEL_ASSIGNMENT_LEFT_SIDE || frame->header.channelAssignment == MA_DR_FLAC_CHANNEL_ASSIGNMENT_MID_SIDE) && subframeIndex == 1) { + subframeBitsPerSample += 1; + } else if (frame->header.channelAssignment == MA_DR_FLAC_CHANNEL_ASSIGNMENT_RIGHT_SIDE && subframeIndex == 0) { + subframeBitsPerSample += 1; + } + if (subframeBitsPerSample > 32) { + return MA_FALSE; + } + if (pSubframe->wastedBitsPerSample >= subframeBitsPerSample) { + return MA_FALSE; + } + subframeBitsPerSample -= pSubframe->wastedBitsPerSample; + pSubframe->pSamplesS32 = pDecodedSamplesOut; + if (frame->header.blockSizeInPCMFrames < pSubframe->lpcOrder) { + return MA_FALSE; + } + switch (pSubframe->subframeType) + { + case MA_DR_FLAC_SUBFRAME_CONSTANT: + { + ma_dr_flac__decode_samples__constant(bs, frame->header.blockSizeInPCMFrames, subframeBitsPerSample, pSubframe->pSamplesS32); + } break; + case MA_DR_FLAC_SUBFRAME_VERBATIM: + { + ma_dr_flac__decode_samples__verbatim(bs, frame->header.blockSizeInPCMFrames, subframeBitsPerSample, pSubframe->pSamplesS32); + } break; + case MA_DR_FLAC_SUBFRAME_FIXED: + { + ma_dr_flac__decode_samples__fixed(bs, frame->header.blockSizeInPCMFrames, subframeBitsPerSample, pSubframe->lpcOrder, pSubframe->pSamplesS32); + } break; + case MA_DR_FLAC_SUBFRAME_LPC: + { + ma_dr_flac__decode_samples__lpc(bs, frame->header.blockSizeInPCMFrames, subframeBitsPerSample, pSubframe->lpcOrder, pSubframe->pSamplesS32); + } break; + default: return MA_FALSE; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__seek_subframe(ma_dr_flac_bs* bs, ma_dr_flac_frame* frame, int subframeIndex) +{ + ma_dr_flac_subframe* pSubframe; + ma_uint32 subframeBitsPerSample; + MA_DR_FLAC_ASSERT(bs != NULL); + MA_DR_FLAC_ASSERT(frame != NULL); + pSubframe = frame->subframes + subframeIndex; + if (!ma_dr_flac__read_subframe_header(bs, pSubframe)) { + return MA_FALSE; + } + subframeBitsPerSample = frame->header.bitsPerSample; + if ((frame->header.channelAssignment == MA_DR_FLAC_CHANNEL_ASSIGNMENT_LEFT_SIDE || frame->header.channelAssignment == MA_DR_FLAC_CHANNEL_ASSIGNMENT_MID_SIDE) && subframeIndex == 1) { + subframeBitsPerSample += 1; + } else if (frame->header.channelAssignment == MA_DR_FLAC_CHANNEL_ASSIGNMENT_RIGHT_SIDE && subframeIndex == 0) { + subframeBitsPerSample += 1; + } + if (pSubframe->wastedBitsPerSample >= subframeBitsPerSample) { + return MA_FALSE; + } + subframeBitsPerSample -= pSubframe->wastedBitsPerSample; + pSubframe->pSamplesS32 = NULL; + switch (pSubframe->subframeType) + { + case MA_DR_FLAC_SUBFRAME_CONSTANT: + { + if (!ma_dr_flac__seek_bits(bs, subframeBitsPerSample)) { + return MA_FALSE; + } + } break; + case MA_DR_FLAC_SUBFRAME_VERBATIM: + { + unsigned int bitsToSeek = frame->header.blockSizeInPCMFrames * subframeBitsPerSample; + if (!ma_dr_flac__seek_bits(bs, bitsToSeek)) { + return MA_FALSE; + } + } break; + case MA_DR_FLAC_SUBFRAME_FIXED: + { + unsigned int bitsToSeek = pSubframe->lpcOrder * subframeBitsPerSample; + if (!ma_dr_flac__seek_bits(bs, bitsToSeek)) { + return MA_FALSE; + } + if (!ma_dr_flac__read_and_seek_residual(bs, frame->header.blockSizeInPCMFrames, pSubframe->lpcOrder)) { + return MA_FALSE; + } + } break; + case MA_DR_FLAC_SUBFRAME_LPC: + { + ma_uint8 lpcPrecision; + unsigned int bitsToSeek = pSubframe->lpcOrder * subframeBitsPerSample; + if (!ma_dr_flac__seek_bits(bs, bitsToSeek)) { + return MA_FALSE; + } + if (!ma_dr_flac__read_uint8(bs, 4, &lpcPrecision)) { + return MA_FALSE; + } + if (lpcPrecision == 15) { + return MA_FALSE; + } + lpcPrecision += 1; + bitsToSeek = (pSubframe->lpcOrder * lpcPrecision) + 5; + if (!ma_dr_flac__seek_bits(bs, bitsToSeek)) { + return MA_FALSE; + } + if (!ma_dr_flac__read_and_seek_residual(bs, frame->header.blockSizeInPCMFrames, pSubframe->lpcOrder)) { + return MA_FALSE; + } + } break; + default: return MA_FALSE; + } + return MA_TRUE; +} +static MA_INLINE ma_uint8 ma_dr_flac__get_channel_count_from_channel_assignment(ma_int8 channelAssignment) +{ + ma_uint8 lookup[] = {1, 2, 3, 4, 5, 6, 7, 8, 2, 2, 2}; + MA_DR_FLAC_ASSERT(channelAssignment <= 10); + return lookup[channelAssignment]; +} +static ma_result ma_dr_flac__decode_flac_frame(ma_dr_flac* pFlac) +{ + int channelCount; + int i; + ma_uint8 paddingSizeInBits; + ma_uint16 desiredCRC16; +#ifndef MA_DR_FLAC_NO_CRC + ma_uint16 actualCRC16; +#endif + MA_DR_FLAC_ZERO_MEMORY(pFlac->currentFLACFrame.subframes, sizeof(pFlac->currentFLACFrame.subframes)); + if (pFlac->currentFLACFrame.header.blockSizeInPCMFrames > pFlac->maxBlockSizeInPCMFrames) { + return MA_ERROR; + } + channelCount = ma_dr_flac__get_channel_count_from_channel_assignment(pFlac->currentFLACFrame.header.channelAssignment); + if (channelCount != (int)pFlac->channels) { + return MA_ERROR; + } + for (i = 0; i < channelCount; ++i) { + if (!ma_dr_flac__decode_subframe(&pFlac->bs, &pFlac->currentFLACFrame, i, pFlac->pDecodedSamples + (pFlac->currentFLACFrame.header.blockSizeInPCMFrames * i))) { + return MA_ERROR; + } + } + paddingSizeInBits = (ma_uint8)(MA_DR_FLAC_CACHE_L1_BITS_REMAINING(&pFlac->bs) & 7); + if (paddingSizeInBits > 0) { + ma_uint8 padding = 0; + if (!ma_dr_flac__read_uint8(&pFlac->bs, paddingSizeInBits, &padding)) { + return MA_AT_END; + } + } +#ifndef MA_DR_FLAC_NO_CRC + actualCRC16 = ma_dr_flac__flush_crc16(&pFlac->bs); +#endif + if (!ma_dr_flac__read_uint16(&pFlac->bs, 16, &desiredCRC16)) { + return MA_AT_END; + } +#ifndef MA_DR_FLAC_NO_CRC + if (actualCRC16 != desiredCRC16) { + return MA_CRC_MISMATCH; + } +#endif + pFlac->currentFLACFrame.pcmFramesRemaining = pFlac->currentFLACFrame.header.blockSizeInPCMFrames; + return MA_SUCCESS; +} +static ma_result ma_dr_flac__seek_flac_frame(ma_dr_flac* pFlac) +{ + int channelCount; + int i; + ma_uint16 desiredCRC16; +#ifndef MA_DR_FLAC_NO_CRC + ma_uint16 actualCRC16; +#endif + channelCount = ma_dr_flac__get_channel_count_from_channel_assignment(pFlac->currentFLACFrame.header.channelAssignment); + for (i = 0; i < channelCount; ++i) { + if (!ma_dr_flac__seek_subframe(&pFlac->bs, &pFlac->currentFLACFrame, i)) { + return MA_ERROR; + } + } + if (!ma_dr_flac__seek_bits(&pFlac->bs, MA_DR_FLAC_CACHE_L1_BITS_REMAINING(&pFlac->bs) & 7)) { + return MA_ERROR; + } +#ifndef MA_DR_FLAC_NO_CRC + actualCRC16 = ma_dr_flac__flush_crc16(&pFlac->bs); +#endif + if (!ma_dr_flac__read_uint16(&pFlac->bs, 16, &desiredCRC16)) { + return MA_AT_END; + } +#ifndef MA_DR_FLAC_NO_CRC + if (actualCRC16 != desiredCRC16) { + return MA_CRC_MISMATCH; + } +#endif + return MA_SUCCESS; +} +static ma_bool32 ma_dr_flac__read_and_decode_next_flac_frame(ma_dr_flac* pFlac) +{ + MA_DR_FLAC_ASSERT(pFlac != NULL); + for (;;) { + ma_result result; + if (!ma_dr_flac__read_next_flac_frame_header(&pFlac->bs, pFlac->bitsPerSample, &pFlac->currentFLACFrame.header)) { + return MA_FALSE; + } + result = ma_dr_flac__decode_flac_frame(pFlac); + if (result != MA_SUCCESS) { + if (result == MA_CRC_MISMATCH) { + continue; + } else { + return MA_FALSE; + } + } + return MA_TRUE; + } +} +static void ma_dr_flac__get_pcm_frame_range_of_current_flac_frame(ma_dr_flac* pFlac, ma_uint64* pFirstPCMFrame, ma_uint64* pLastPCMFrame) +{ + ma_uint64 firstPCMFrame; + ma_uint64 lastPCMFrame; + MA_DR_FLAC_ASSERT(pFlac != NULL); + firstPCMFrame = pFlac->currentFLACFrame.header.pcmFrameNumber; + if (firstPCMFrame == 0) { + firstPCMFrame = ((ma_uint64)pFlac->currentFLACFrame.header.flacFrameNumber) * pFlac->maxBlockSizeInPCMFrames; + } + lastPCMFrame = firstPCMFrame + pFlac->currentFLACFrame.header.blockSizeInPCMFrames; + if (lastPCMFrame > 0) { + lastPCMFrame -= 1; + } + if (pFirstPCMFrame) { + *pFirstPCMFrame = firstPCMFrame; + } + if (pLastPCMFrame) { + *pLastPCMFrame = lastPCMFrame; + } +} +static ma_bool32 ma_dr_flac__seek_to_first_frame(ma_dr_flac* pFlac) +{ + ma_bool32 result; + MA_DR_FLAC_ASSERT(pFlac != NULL); + result = ma_dr_flac__seek_to_byte(&pFlac->bs, pFlac->firstFLACFramePosInBytes); + MA_DR_FLAC_ZERO_MEMORY(&pFlac->currentFLACFrame, sizeof(pFlac->currentFLACFrame)); + pFlac->currentPCMFrame = 0; + return result; +} +static MA_INLINE ma_result ma_dr_flac__seek_to_next_flac_frame(ma_dr_flac* pFlac) +{ + MA_DR_FLAC_ASSERT(pFlac != NULL); + return ma_dr_flac__seek_flac_frame(pFlac); +} +static ma_uint64 ma_dr_flac__seek_forward_by_pcm_frames(ma_dr_flac* pFlac, ma_uint64 pcmFramesToSeek) +{ + ma_uint64 pcmFramesRead = 0; + while (pcmFramesToSeek > 0) { + if (pFlac->currentFLACFrame.pcmFramesRemaining == 0) { + if (!ma_dr_flac__read_and_decode_next_flac_frame(pFlac)) { + break; + } + } else { + if (pFlac->currentFLACFrame.pcmFramesRemaining > pcmFramesToSeek) { + pcmFramesRead += pcmFramesToSeek; + pFlac->currentFLACFrame.pcmFramesRemaining -= (ma_uint32)pcmFramesToSeek; + pcmFramesToSeek = 0; + } else { + pcmFramesRead += pFlac->currentFLACFrame.pcmFramesRemaining; + pcmFramesToSeek -= pFlac->currentFLACFrame.pcmFramesRemaining; + pFlac->currentFLACFrame.pcmFramesRemaining = 0; + } + } + } + pFlac->currentPCMFrame += pcmFramesRead; + return pcmFramesRead; +} +static ma_bool32 ma_dr_flac__seek_to_pcm_frame__brute_force(ma_dr_flac* pFlac, ma_uint64 pcmFrameIndex) +{ + ma_bool32 isMidFrame = MA_FALSE; + ma_uint64 runningPCMFrameCount; + MA_DR_FLAC_ASSERT(pFlac != NULL); + if (pcmFrameIndex >= pFlac->currentPCMFrame) { + runningPCMFrameCount = pFlac->currentPCMFrame; + if (pFlac->currentPCMFrame == 0 && pFlac->currentFLACFrame.pcmFramesRemaining == 0) { + if (!ma_dr_flac__read_next_flac_frame_header(&pFlac->bs, pFlac->bitsPerSample, &pFlac->currentFLACFrame.header)) { + return MA_FALSE; + } + } else { + isMidFrame = MA_TRUE; + } + } else { + runningPCMFrameCount = 0; + if (!ma_dr_flac__seek_to_first_frame(pFlac)) { + return MA_FALSE; + } + if (!ma_dr_flac__read_next_flac_frame_header(&pFlac->bs, pFlac->bitsPerSample, &pFlac->currentFLACFrame.header)) { + return MA_FALSE; + } + } + for (;;) { + ma_uint64 pcmFrameCountInThisFLACFrame; + ma_uint64 firstPCMFrameInFLACFrame = 0; + ma_uint64 lastPCMFrameInFLACFrame = 0; + ma_dr_flac__get_pcm_frame_range_of_current_flac_frame(pFlac, &firstPCMFrameInFLACFrame, &lastPCMFrameInFLACFrame); + pcmFrameCountInThisFLACFrame = (lastPCMFrameInFLACFrame - firstPCMFrameInFLACFrame) + 1; + if (pcmFrameIndex < (runningPCMFrameCount + pcmFrameCountInThisFLACFrame)) { + ma_uint64 pcmFramesToDecode = pcmFrameIndex - runningPCMFrameCount; + if (!isMidFrame) { + ma_result result = ma_dr_flac__decode_flac_frame(pFlac); + if (result == MA_SUCCESS) { + return ma_dr_flac__seek_forward_by_pcm_frames(pFlac, pcmFramesToDecode) == pcmFramesToDecode; + } else { + if (result == MA_CRC_MISMATCH) { + goto next_iteration; + } else { + return MA_FALSE; + } + } + } else { + return ma_dr_flac__seek_forward_by_pcm_frames(pFlac, pcmFramesToDecode) == pcmFramesToDecode; + } + } else { + if (!isMidFrame) { + ma_result result = ma_dr_flac__seek_to_next_flac_frame(pFlac); + if (result == MA_SUCCESS) { + runningPCMFrameCount += pcmFrameCountInThisFLACFrame; + } else { + if (result == MA_CRC_MISMATCH) { + goto next_iteration; + } else { + return MA_FALSE; + } + } + } else { + runningPCMFrameCount += pFlac->currentFLACFrame.pcmFramesRemaining; + pFlac->currentFLACFrame.pcmFramesRemaining = 0; + isMidFrame = MA_FALSE; + } + if (pcmFrameIndex == pFlac->totalPCMFrameCount && runningPCMFrameCount == pFlac->totalPCMFrameCount) { + return MA_TRUE; + } + } + next_iteration: + if (!ma_dr_flac__read_next_flac_frame_header(&pFlac->bs, pFlac->bitsPerSample, &pFlac->currentFLACFrame.header)) { + return MA_FALSE; + } + } +} +#if !defined(MA_DR_FLAC_NO_CRC) +#define MA_DR_FLAC_BINARY_SEARCH_APPROX_COMPRESSION_RATIO 0.6f +static ma_bool32 ma_dr_flac__seek_to_approximate_flac_frame_to_byte(ma_dr_flac* pFlac, ma_uint64 targetByte, ma_uint64 rangeLo, ma_uint64 rangeHi, ma_uint64* pLastSuccessfulSeekOffset) +{ + MA_DR_FLAC_ASSERT(pFlac != NULL); + MA_DR_FLAC_ASSERT(pLastSuccessfulSeekOffset != NULL); + MA_DR_FLAC_ASSERT(targetByte >= rangeLo); + MA_DR_FLAC_ASSERT(targetByte <= rangeHi); + *pLastSuccessfulSeekOffset = pFlac->firstFLACFramePosInBytes; + for (;;) { + ma_uint64 lastTargetByte = targetByte; + if (!ma_dr_flac__seek_to_byte(&pFlac->bs, targetByte)) { + if (targetByte == 0) { + ma_dr_flac__seek_to_first_frame(pFlac); + return MA_FALSE; + } + targetByte = rangeLo + ((rangeHi - rangeLo)/2); + rangeHi = targetByte; + } else { + MA_DR_FLAC_ZERO_MEMORY(&pFlac->currentFLACFrame, sizeof(pFlac->currentFLACFrame)); +#if 1 + if (!ma_dr_flac__read_and_decode_next_flac_frame(pFlac)) { + targetByte = rangeLo + ((rangeHi - rangeLo)/2); + rangeHi = targetByte; + } else { + break; + } +#else + if (!ma_dr_flac__read_next_flac_frame_header(&pFlac->bs, pFlac->bitsPerSample, &pFlac->currentFLACFrame.header)) { + targetByte = rangeLo + ((rangeHi - rangeLo)/2); + rangeHi = targetByte; + } else { + break; + } +#endif + } + if(targetByte == lastTargetByte) { + return MA_FALSE; + } + } + ma_dr_flac__get_pcm_frame_range_of_current_flac_frame(pFlac, &pFlac->currentPCMFrame, NULL); + MA_DR_FLAC_ASSERT(targetByte <= rangeHi); + *pLastSuccessfulSeekOffset = targetByte; + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__decode_flac_frame_and_seek_forward_by_pcm_frames(ma_dr_flac* pFlac, ma_uint64 offset) +{ +#if 0 + if (ma_dr_flac__decode_flac_frame(pFlac) != MA_SUCCESS) { + if (ma_dr_flac__read_and_decode_next_flac_frame(pFlac) == MA_FALSE) { + return MA_FALSE; + } + } +#endif + return ma_dr_flac__seek_forward_by_pcm_frames(pFlac, offset) == offset; +} +static ma_bool32 ma_dr_flac__seek_to_pcm_frame__binary_search_internal(ma_dr_flac* pFlac, ma_uint64 pcmFrameIndex, ma_uint64 byteRangeLo, ma_uint64 byteRangeHi) +{ + ma_uint64 targetByte; + ma_uint64 pcmRangeLo = pFlac->totalPCMFrameCount; + ma_uint64 pcmRangeHi = 0; + ma_uint64 lastSuccessfulSeekOffset = (ma_uint64)-1; + ma_uint64 closestSeekOffsetBeforeTargetPCMFrame = byteRangeLo; + ma_uint32 seekForwardThreshold = (pFlac->maxBlockSizeInPCMFrames != 0) ? pFlac->maxBlockSizeInPCMFrames*2 : 4096; + targetByte = byteRangeLo + (ma_uint64)(((ma_int64)((pcmFrameIndex - pFlac->currentPCMFrame) * pFlac->channels * pFlac->bitsPerSample)/8.0f) * MA_DR_FLAC_BINARY_SEARCH_APPROX_COMPRESSION_RATIO); + if (targetByte > byteRangeHi) { + targetByte = byteRangeHi; + } + for (;;) { + if (ma_dr_flac__seek_to_approximate_flac_frame_to_byte(pFlac, targetByte, byteRangeLo, byteRangeHi, &lastSuccessfulSeekOffset)) { + ma_uint64 newPCMRangeLo; + ma_uint64 newPCMRangeHi; + ma_dr_flac__get_pcm_frame_range_of_current_flac_frame(pFlac, &newPCMRangeLo, &newPCMRangeHi); + if (pcmRangeLo == newPCMRangeLo) { + if (!ma_dr_flac__seek_to_approximate_flac_frame_to_byte(pFlac, closestSeekOffsetBeforeTargetPCMFrame, closestSeekOffsetBeforeTargetPCMFrame, byteRangeHi, &lastSuccessfulSeekOffset)) { + break; + } + if (ma_dr_flac__decode_flac_frame_and_seek_forward_by_pcm_frames(pFlac, pcmFrameIndex - pFlac->currentPCMFrame)) { + return MA_TRUE; + } else { + break; + } + } + pcmRangeLo = newPCMRangeLo; + pcmRangeHi = newPCMRangeHi; + if (pcmRangeLo <= pcmFrameIndex && pcmRangeHi >= pcmFrameIndex) { + if (ma_dr_flac__decode_flac_frame_and_seek_forward_by_pcm_frames(pFlac, pcmFrameIndex - pFlac->currentPCMFrame) ) { + return MA_TRUE; + } else { + break; + } + } else { + const float approxCompressionRatio = (ma_int64)(lastSuccessfulSeekOffset - pFlac->firstFLACFramePosInBytes) / ((ma_int64)(pcmRangeLo * pFlac->channels * pFlac->bitsPerSample)/8.0f); + if (pcmRangeLo > pcmFrameIndex) { + byteRangeHi = lastSuccessfulSeekOffset; + if (byteRangeLo > byteRangeHi) { + byteRangeLo = byteRangeHi; + } + targetByte = byteRangeLo + ((byteRangeHi - byteRangeLo) / 2); + if (targetByte < byteRangeLo) { + targetByte = byteRangeLo; + } + } else { + if ((pcmFrameIndex - pcmRangeLo) < seekForwardThreshold) { + if (ma_dr_flac__decode_flac_frame_and_seek_forward_by_pcm_frames(pFlac, pcmFrameIndex - pFlac->currentPCMFrame)) { + return MA_TRUE; + } else { + break; + } + } else { + byteRangeLo = lastSuccessfulSeekOffset; + if (byteRangeHi < byteRangeLo) { + byteRangeHi = byteRangeLo; + } + targetByte = lastSuccessfulSeekOffset + (ma_uint64)(((ma_int64)((pcmFrameIndex-pcmRangeLo) * pFlac->channels * pFlac->bitsPerSample)/8.0f) * approxCompressionRatio); + if (targetByte > byteRangeHi) { + targetByte = byteRangeHi; + } + if (closestSeekOffsetBeforeTargetPCMFrame < lastSuccessfulSeekOffset) { + closestSeekOffsetBeforeTargetPCMFrame = lastSuccessfulSeekOffset; + } + } + } + } + } else { + break; + } + } + ma_dr_flac__seek_to_first_frame(pFlac); + return MA_FALSE; +} +static ma_bool32 ma_dr_flac__seek_to_pcm_frame__binary_search(ma_dr_flac* pFlac, ma_uint64 pcmFrameIndex) +{ + ma_uint64 byteRangeLo; + ma_uint64 byteRangeHi; + ma_uint32 seekForwardThreshold = (pFlac->maxBlockSizeInPCMFrames != 0) ? pFlac->maxBlockSizeInPCMFrames*2 : 4096; + if (ma_dr_flac__seek_to_first_frame(pFlac) == MA_FALSE) { + return MA_FALSE; + } + if (pcmFrameIndex < seekForwardThreshold) { + return ma_dr_flac__seek_forward_by_pcm_frames(pFlac, pcmFrameIndex) == pcmFrameIndex; + } + byteRangeLo = pFlac->firstFLACFramePosInBytes; + byteRangeHi = pFlac->firstFLACFramePosInBytes + (ma_uint64)((ma_int64)(pFlac->totalPCMFrameCount * pFlac->channels * pFlac->bitsPerSample)/8.0f); + return ma_dr_flac__seek_to_pcm_frame__binary_search_internal(pFlac, pcmFrameIndex, byteRangeLo, byteRangeHi); +} +#endif +static ma_bool32 ma_dr_flac__seek_to_pcm_frame__seek_table(ma_dr_flac* pFlac, ma_uint64 pcmFrameIndex) +{ + ma_uint32 iClosestSeekpoint = 0; + ma_bool32 isMidFrame = MA_FALSE; + ma_uint64 runningPCMFrameCount; + ma_uint32 iSeekpoint; + MA_DR_FLAC_ASSERT(pFlac != NULL); + if (pFlac->pSeekpoints == NULL || pFlac->seekpointCount == 0) { + return MA_FALSE; + } + if (pFlac->pSeekpoints[0].firstPCMFrame > pcmFrameIndex) { + return MA_FALSE; + } + for (iSeekpoint = 0; iSeekpoint < pFlac->seekpointCount; ++iSeekpoint) { + if (pFlac->pSeekpoints[iSeekpoint].firstPCMFrame >= pcmFrameIndex) { + break; + } + iClosestSeekpoint = iSeekpoint; + } + if (pFlac->pSeekpoints[iClosestSeekpoint].pcmFrameCount == 0 || pFlac->pSeekpoints[iClosestSeekpoint].pcmFrameCount > pFlac->maxBlockSizeInPCMFrames) { + return MA_FALSE; + } + if (pFlac->pSeekpoints[iClosestSeekpoint].firstPCMFrame > pFlac->totalPCMFrameCount && pFlac->totalPCMFrameCount > 0) { + return MA_FALSE; + } +#if !defined(MA_DR_FLAC_NO_CRC) + if (pFlac->totalPCMFrameCount > 0) { + ma_uint64 byteRangeLo; + ma_uint64 byteRangeHi; + byteRangeHi = pFlac->firstFLACFramePosInBytes + (ma_uint64)((ma_int64)(pFlac->totalPCMFrameCount * pFlac->channels * pFlac->bitsPerSample)/8.0f); + byteRangeLo = pFlac->firstFLACFramePosInBytes + pFlac->pSeekpoints[iClosestSeekpoint].flacFrameOffset; + if (iClosestSeekpoint < pFlac->seekpointCount-1) { + ma_uint32 iNextSeekpoint = iClosestSeekpoint + 1; + if (pFlac->pSeekpoints[iClosestSeekpoint].flacFrameOffset >= pFlac->pSeekpoints[iNextSeekpoint].flacFrameOffset || pFlac->pSeekpoints[iNextSeekpoint].pcmFrameCount == 0) { + return MA_FALSE; + } + if (pFlac->pSeekpoints[iNextSeekpoint].firstPCMFrame != (((ma_uint64)0xFFFFFFFF << 32) | 0xFFFFFFFF)) { + byteRangeHi = pFlac->firstFLACFramePosInBytes + pFlac->pSeekpoints[iNextSeekpoint].flacFrameOffset - 1; + } + } + if (ma_dr_flac__seek_to_byte(&pFlac->bs, pFlac->firstFLACFramePosInBytes + pFlac->pSeekpoints[iClosestSeekpoint].flacFrameOffset)) { + if (ma_dr_flac__read_next_flac_frame_header(&pFlac->bs, pFlac->bitsPerSample, &pFlac->currentFLACFrame.header)) { + ma_dr_flac__get_pcm_frame_range_of_current_flac_frame(pFlac, &pFlac->currentPCMFrame, NULL); + if (ma_dr_flac__seek_to_pcm_frame__binary_search_internal(pFlac, pcmFrameIndex, byteRangeLo, byteRangeHi)) { + return MA_TRUE; + } + } + } + } +#endif + if (pcmFrameIndex >= pFlac->currentPCMFrame && pFlac->pSeekpoints[iClosestSeekpoint].firstPCMFrame <= pFlac->currentPCMFrame) { + runningPCMFrameCount = pFlac->currentPCMFrame; + if (pFlac->currentPCMFrame == 0 && pFlac->currentFLACFrame.pcmFramesRemaining == 0) { + if (!ma_dr_flac__read_next_flac_frame_header(&pFlac->bs, pFlac->bitsPerSample, &pFlac->currentFLACFrame.header)) { + return MA_FALSE; + } + } else { + isMidFrame = MA_TRUE; + } + } else { + runningPCMFrameCount = pFlac->pSeekpoints[iClosestSeekpoint].firstPCMFrame; + if (!ma_dr_flac__seek_to_byte(&pFlac->bs, pFlac->firstFLACFramePosInBytes + pFlac->pSeekpoints[iClosestSeekpoint].flacFrameOffset)) { + return MA_FALSE; + } + if (!ma_dr_flac__read_next_flac_frame_header(&pFlac->bs, pFlac->bitsPerSample, &pFlac->currentFLACFrame.header)) { + return MA_FALSE; + } + } + for (;;) { + ma_uint64 pcmFrameCountInThisFLACFrame; + ma_uint64 firstPCMFrameInFLACFrame = 0; + ma_uint64 lastPCMFrameInFLACFrame = 0; + ma_dr_flac__get_pcm_frame_range_of_current_flac_frame(pFlac, &firstPCMFrameInFLACFrame, &lastPCMFrameInFLACFrame); + pcmFrameCountInThisFLACFrame = (lastPCMFrameInFLACFrame - firstPCMFrameInFLACFrame) + 1; + if (pcmFrameIndex < (runningPCMFrameCount + pcmFrameCountInThisFLACFrame)) { + ma_uint64 pcmFramesToDecode = pcmFrameIndex - runningPCMFrameCount; + if (!isMidFrame) { + ma_result result = ma_dr_flac__decode_flac_frame(pFlac); + if (result == MA_SUCCESS) { + return ma_dr_flac__seek_forward_by_pcm_frames(pFlac, pcmFramesToDecode) == pcmFramesToDecode; + } else { + if (result == MA_CRC_MISMATCH) { + goto next_iteration; + } else { + return MA_FALSE; + } + } + } else { + return ma_dr_flac__seek_forward_by_pcm_frames(pFlac, pcmFramesToDecode) == pcmFramesToDecode; + } + } else { + if (!isMidFrame) { + ma_result result = ma_dr_flac__seek_to_next_flac_frame(pFlac); + if (result == MA_SUCCESS) { + runningPCMFrameCount += pcmFrameCountInThisFLACFrame; + } else { + if (result == MA_CRC_MISMATCH) { + goto next_iteration; + } else { + return MA_FALSE; + } + } + } else { + runningPCMFrameCount += pFlac->currentFLACFrame.pcmFramesRemaining; + pFlac->currentFLACFrame.pcmFramesRemaining = 0; + isMidFrame = MA_FALSE; + } + if (pcmFrameIndex == pFlac->totalPCMFrameCount && runningPCMFrameCount == pFlac->totalPCMFrameCount) { + return MA_TRUE; + } + } + next_iteration: + if (!ma_dr_flac__read_next_flac_frame_header(&pFlac->bs, pFlac->bitsPerSample, &pFlac->currentFLACFrame.header)) { + return MA_FALSE; + } + } +} +#ifndef MA_DR_FLAC_NO_OGG +typedef struct +{ + ma_uint8 capturePattern[4]; + ma_uint8 structureVersion; + ma_uint8 headerType; + ma_uint64 granulePosition; + ma_uint32 serialNumber; + ma_uint32 sequenceNumber; + ma_uint32 checksum; + ma_uint8 segmentCount; + ma_uint8 segmentTable[255]; +} ma_dr_flac_ogg_page_header; +#endif +typedef struct +{ + ma_dr_flac_read_proc onRead; + ma_dr_flac_seek_proc onSeek; + ma_dr_flac_tell_proc onTell; + ma_dr_flac_meta_proc onMeta; + ma_dr_flac_container container; + void* pUserData; + void* pUserDataMD; + ma_uint32 sampleRate; + ma_uint8 channels; + ma_uint8 bitsPerSample; + ma_uint64 totalPCMFrameCount; + ma_uint16 maxBlockSizeInPCMFrames; + ma_uint64 runningFilePos; + ma_bool32 hasStreamInfoBlock; + ma_bool32 hasMetadataBlocks; + ma_dr_flac_bs bs; + ma_dr_flac_frame_header firstFrameHeader; +#ifndef MA_DR_FLAC_NO_OGG + ma_uint32 oggSerial; + ma_uint64 oggFirstBytePos; + ma_dr_flac_ogg_page_header oggBosHeader; +#endif +} ma_dr_flac_init_info; +static MA_INLINE void ma_dr_flac__decode_block_header(ma_uint32 blockHeader, ma_uint8* isLastBlock, ma_uint8* blockType, ma_uint32* blockSize) +{ + blockHeader = ma_dr_flac__be2host_32(blockHeader); + *isLastBlock = (ma_uint8)((blockHeader & 0x80000000UL) >> 31); + *blockType = (ma_uint8)((blockHeader & 0x7F000000UL) >> 24); + *blockSize = (blockHeader & 0x00FFFFFFUL); +} +static MA_INLINE ma_bool32 ma_dr_flac__read_and_decode_block_header(ma_dr_flac_read_proc onRead, void* pUserData, ma_uint8* isLastBlock, ma_uint8* blockType, ma_uint32* blockSize) +{ + ma_uint32 blockHeader; + *blockSize = 0; + if (onRead(pUserData, &blockHeader, 4) != 4) { + return MA_FALSE; + } + ma_dr_flac__decode_block_header(blockHeader, isLastBlock, blockType, blockSize); + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__read_streaminfo(ma_dr_flac_read_proc onRead, void* pUserData, ma_dr_flac_streaminfo* pStreamInfo) +{ + ma_uint32 blockSizes; + ma_uint64 frameSizes = 0; + ma_uint64 importantProps; + ma_uint8 md5[16]; + if (onRead(pUserData, &blockSizes, 4) != 4) { + return MA_FALSE; + } + if (onRead(pUserData, &frameSizes, 6) != 6) { + return MA_FALSE; + } + if (onRead(pUserData, &importantProps, 8) != 8) { + return MA_FALSE; + } + if (onRead(pUserData, md5, sizeof(md5)) != sizeof(md5)) { + return MA_FALSE; + } + blockSizes = ma_dr_flac__be2host_32(blockSizes); + frameSizes = ma_dr_flac__be2host_64(frameSizes); + importantProps = ma_dr_flac__be2host_64(importantProps); + pStreamInfo->minBlockSizeInPCMFrames = (ma_uint16)((blockSizes & 0xFFFF0000) >> 16); + pStreamInfo->maxBlockSizeInPCMFrames = (ma_uint16) (blockSizes & 0x0000FFFF); + pStreamInfo->minFrameSizeInPCMFrames = (ma_uint32)((frameSizes & (((ma_uint64)0x00FFFFFF << 16) << 24)) >> 40); + pStreamInfo->maxFrameSizeInPCMFrames = (ma_uint32)((frameSizes & (((ma_uint64)0x00FFFFFF << 16) << 0)) >> 16); + pStreamInfo->sampleRate = (ma_uint32)((importantProps & (((ma_uint64)0x000FFFFF << 16) << 28)) >> 44); + pStreamInfo->channels = (ma_uint8 )((importantProps & (((ma_uint64)0x0000000E << 16) << 24)) >> 41) + 1; + pStreamInfo->bitsPerSample = (ma_uint8 )((importantProps & (((ma_uint64)0x0000001F << 16) << 20)) >> 36) + 1; + pStreamInfo->totalPCMFrameCount = ((importantProps & ((((ma_uint64)0x0000000F << 16) << 16) | 0xFFFFFFFF))); + MA_DR_FLAC_COPY_MEMORY(pStreamInfo->md5, md5, sizeof(md5)); + return MA_TRUE; +} +static void* ma_dr_flac__malloc_default(size_t sz, void* pUserData) +{ + (void)pUserData; + return MA_DR_FLAC_MALLOC(sz); +} +static void* ma_dr_flac__realloc_default(void* p, size_t sz, void* pUserData) +{ + (void)pUserData; + return MA_DR_FLAC_REALLOC(p, sz); +} +static void ma_dr_flac__free_default(void* p, void* pUserData) +{ + (void)pUserData; + MA_DR_FLAC_FREE(p); +} +static void* ma_dr_flac__malloc_from_callbacks(size_t sz, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks == NULL) { + return NULL; + } + if (pAllocationCallbacks->onMalloc != NULL) { + return pAllocationCallbacks->onMalloc(sz, pAllocationCallbacks->pUserData); + } + if (pAllocationCallbacks->onRealloc != NULL) { + return pAllocationCallbacks->onRealloc(NULL, sz, pAllocationCallbacks->pUserData); + } + return NULL; +} +static void* ma_dr_flac__realloc_from_callbacks(void* p, size_t szNew, size_t szOld, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks == NULL) { + return NULL; + } + if (pAllocationCallbacks->onRealloc != NULL) { + return pAllocationCallbacks->onRealloc(p, szNew, pAllocationCallbacks->pUserData); + } + if (pAllocationCallbacks->onMalloc != NULL && pAllocationCallbacks->onFree != NULL) { + void* p2; + p2 = pAllocationCallbacks->onMalloc(szNew, pAllocationCallbacks->pUserData); + if (p2 == NULL) { + return NULL; + } + if (p != NULL) { + MA_DR_FLAC_COPY_MEMORY(p2, p, szOld); + pAllocationCallbacks->onFree(p, pAllocationCallbacks->pUserData); + } + return p2; + } + return NULL; +} +static void ma_dr_flac__free_from_callbacks(void* p, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (p == NULL || pAllocationCallbacks == NULL) { + return; + } + if (pAllocationCallbacks->onFree != NULL) { + pAllocationCallbacks->onFree(p, pAllocationCallbacks->pUserData); + } +} +static ma_bool32 ma_dr_flac__read_and_decode_metadata(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, ma_dr_flac_meta_proc onMeta, void* pUserData, void* pUserDataMD, ma_uint64* pFirstFramePos, ma_uint64* pSeektablePos, ma_uint32* pSeekpointCount, ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_uint64 runningFilePos = 42; + ma_uint64 seektablePos = 0; + ma_uint32 seektableSize = 0; + (void)onTell; + for (;;) { + ma_dr_flac_metadata metadata; + ma_uint8 isLastBlock = 0; + ma_uint8 blockType = 0; + ma_uint32 blockSize; + if (ma_dr_flac__read_and_decode_block_header(onRead, pUserData, &isLastBlock, &blockType, &blockSize) == MA_FALSE) { + return MA_FALSE; + } + runningFilePos += 4; + metadata.type = blockType; + metadata.rawDataSize = 0; + metadata.rawDataOffset = runningFilePos; + metadata.pRawData = NULL; + switch (blockType) + { + case MA_DR_FLAC_METADATA_BLOCK_TYPE_APPLICATION: + { + if (blockSize < 4) { + return MA_FALSE; + } + if (onMeta) { + void* pRawData = ma_dr_flac__malloc_from_callbacks(blockSize, pAllocationCallbacks); + if (pRawData == NULL) { + return MA_FALSE; + } + if (onRead(pUserData, pRawData, blockSize) != blockSize) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + metadata.pRawData = pRawData; + metadata.rawDataSize = blockSize; + metadata.data.application.id = ma_dr_flac__be2host_32(*(ma_uint32*)pRawData); + metadata.data.application.pData = (const void*)((ma_uint8*)pRawData + sizeof(ma_uint32)); + metadata.data.application.dataSize = blockSize - sizeof(ma_uint32); + onMeta(pUserDataMD, &metadata); + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + } + } break; + case MA_DR_FLAC_METADATA_BLOCK_TYPE_SEEKTABLE: + { + seektablePos = runningFilePos; + seektableSize = blockSize; + if (onMeta) { + ma_uint32 seekpointCount; + ma_uint32 iSeekpoint; + void* pRawData; + seekpointCount = blockSize/MA_DR_FLAC_SEEKPOINT_SIZE_IN_BYTES; + pRawData = ma_dr_flac__malloc_from_callbacks(seekpointCount * sizeof(ma_dr_flac_seekpoint), pAllocationCallbacks); + if (pRawData == NULL) { + return MA_FALSE; + } + for (iSeekpoint = 0; iSeekpoint < seekpointCount; ++iSeekpoint) { + ma_dr_flac_seekpoint* pSeekpoint = (ma_dr_flac_seekpoint*)pRawData + iSeekpoint; + if (onRead(pUserData, pSeekpoint, MA_DR_FLAC_SEEKPOINT_SIZE_IN_BYTES) != MA_DR_FLAC_SEEKPOINT_SIZE_IN_BYTES) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + pSeekpoint->firstPCMFrame = ma_dr_flac__be2host_64(pSeekpoint->firstPCMFrame); + pSeekpoint->flacFrameOffset = ma_dr_flac__be2host_64(pSeekpoint->flacFrameOffset); + pSeekpoint->pcmFrameCount = ma_dr_flac__be2host_16(pSeekpoint->pcmFrameCount); + } + metadata.pRawData = pRawData; + metadata.rawDataSize = blockSize; + metadata.data.seektable.seekpointCount = seekpointCount; + metadata.data.seektable.pSeekpoints = (const ma_dr_flac_seekpoint*)pRawData; + onMeta(pUserDataMD, &metadata); + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + } + } break; + case MA_DR_FLAC_METADATA_BLOCK_TYPE_VORBIS_COMMENT: + { + if (blockSize < 8) { + return MA_FALSE; + } + if (onMeta) { + void* pRawData; + const char* pRunningData; + const char* pRunningDataEnd; + ma_uint32 i; + pRawData = ma_dr_flac__malloc_from_callbacks(blockSize, pAllocationCallbacks); + if (pRawData == NULL) { + return MA_FALSE; + } + if (onRead(pUserData, pRawData, blockSize) != blockSize) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + metadata.pRawData = pRawData; + metadata.rawDataSize = blockSize; + pRunningData = (const char*)pRawData; + pRunningDataEnd = (const char*)pRawData + blockSize; + metadata.data.vorbis_comment.vendorLength = ma_dr_flac__le2host_32_ptr_unaligned(pRunningData); pRunningData += 4; + if ((pRunningDataEnd - pRunningData) - 4 < (ma_int64)metadata.data.vorbis_comment.vendorLength) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + metadata.data.vorbis_comment.vendor = pRunningData; pRunningData += metadata.data.vorbis_comment.vendorLength; + metadata.data.vorbis_comment.commentCount = ma_dr_flac__le2host_32_ptr_unaligned(pRunningData); pRunningData += 4; + if ((pRunningDataEnd - pRunningData) / sizeof(ma_uint32) < metadata.data.vorbis_comment.commentCount) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + metadata.data.vorbis_comment.pComments = pRunningData; + for (i = 0; i < metadata.data.vorbis_comment.commentCount; ++i) { + ma_uint32 commentLength; + if (pRunningDataEnd - pRunningData < 4) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + commentLength = ma_dr_flac__le2host_32_ptr_unaligned(pRunningData); pRunningData += 4; + if (pRunningDataEnd - pRunningData < (ma_int64)commentLength) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + pRunningData += commentLength; + } + onMeta(pUserDataMD, &metadata); + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + } + } break; + case MA_DR_FLAC_METADATA_BLOCK_TYPE_CUESHEET: + { + if (blockSize < 396) { + return MA_FALSE; + } + if (onMeta) { + void* pRawData; + const char* pRunningData; + const char* pRunningDataEnd; + size_t bufferSize; + ma_uint8 iTrack; + ma_uint8 iIndex; + void* pTrackData; + pRawData = ma_dr_flac__malloc_from_callbacks(blockSize, pAllocationCallbacks); + if (pRawData == NULL) { + return MA_FALSE; + } + if (onRead(pUserData, pRawData, blockSize) != blockSize) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + metadata.pRawData = pRawData; + metadata.rawDataSize = blockSize; + pRunningData = (const char*)pRawData; + pRunningDataEnd = (const char*)pRawData + blockSize; + MA_DR_FLAC_COPY_MEMORY(metadata.data.cuesheet.catalog, pRunningData, 128); pRunningData += 128; + metadata.data.cuesheet.leadInSampleCount = ma_dr_flac__be2host_64(*(const ma_uint64*)pRunningData); pRunningData += 8; + metadata.data.cuesheet.isCD = (pRunningData[0] & 0x80) != 0; pRunningData += 259; + metadata.data.cuesheet.trackCount = pRunningData[0]; pRunningData += 1; + metadata.data.cuesheet.pTrackData = NULL; + { + const char* pRunningDataSaved = pRunningData; + bufferSize = metadata.data.cuesheet.trackCount * MA_DR_FLAC_CUESHEET_TRACK_SIZE_IN_BYTES; + for (iTrack = 0; iTrack < metadata.data.cuesheet.trackCount; ++iTrack) { + ma_uint8 indexCount; + ma_uint32 indexPointSize; + if (pRunningDataEnd - pRunningData < MA_DR_FLAC_CUESHEET_TRACK_SIZE_IN_BYTES) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + pRunningData += 35; + indexCount = pRunningData[0]; + pRunningData += 1; + bufferSize += indexCount * sizeof(ma_dr_flac_cuesheet_track_index); + indexPointSize = indexCount * MA_DR_FLAC_CUESHEET_TRACK_INDEX_SIZE_IN_BYTES; + if (pRunningDataEnd - pRunningData < (ma_int64)indexPointSize) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + pRunningData += indexPointSize; + } + pRunningData = pRunningDataSaved; + } + { + char* pRunningTrackData; + pTrackData = ma_dr_flac__malloc_from_callbacks(bufferSize, pAllocationCallbacks); + if (pTrackData == NULL) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + pRunningTrackData = (char*)pTrackData; + for (iTrack = 0; iTrack < metadata.data.cuesheet.trackCount; ++iTrack) { + ma_uint8 indexCount; + MA_DR_FLAC_COPY_MEMORY(pRunningTrackData, pRunningData, MA_DR_FLAC_CUESHEET_TRACK_SIZE_IN_BYTES); + pRunningData += MA_DR_FLAC_CUESHEET_TRACK_SIZE_IN_BYTES-1; + pRunningTrackData += MA_DR_FLAC_CUESHEET_TRACK_SIZE_IN_BYTES-1; + indexCount = pRunningData[0]; + pRunningData += 1; + pRunningTrackData += 1; + for (iIndex = 0; iIndex < indexCount; ++iIndex) { + ma_dr_flac_cuesheet_track_index* pTrackIndex = (ma_dr_flac_cuesheet_track_index*)pRunningTrackData; + MA_DR_FLAC_COPY_MEMORY(pRunningTrackData, pRunningData, MA_DR_FLAC_CUESHEET_TRACK_INDEX_SIZE_IN_BYTES); + pRunningData += MA_DR_FLAC_CUESHEET_TRACK_INDEX_SIZE_IN_BYTES; + pRunningTrackData += sizeof(ma_dr_flac_cuesheet_track_index); + pTrackIndex->offset = ma_dr_flac__be2host_64(pTrackIndex->offset); + } + } + metadata.data.cuesheet.pTrackData = pTrackData; + } + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + pRawData = NULL; + onMeta(pUserDataMD, &metadata); + ma_dr_flac__free_from_callbacks(pTrackData, pAllocationCallbacks); + pTrackData = NULL; + } + } break; + case MA_DR_FLAC_METADATA_BLOCK_TYPE_PICTURE: + { + if (blockSize < 32) { + return MA_FALSE; + } + if (onMeta) { + ma_bool32 result = MA_TRUE; + ma_uint32 blockSizeRemaining = blockSize; + char* pMime = NULL; + char* pDescription = NULL; + void* pPictureData = NULL; + if (blockSizeRemaining < 4 || onRead(pUserData, &metadata.data.picture.type, 4) != 4) { + result = MA_FALSE; + goto done_flac; + } + blockSizeRemaining -= 4; + metadata.data.picture.type = ma_dr_flac__be2host_32(metadata.data.picture.type); + if (blockSizeRemaining < 4 || onRead(pUserData, &metadata.data.picture.mimeLength, 4) != 4) { + result = MA_FALSE; + goto done_flac; + } + blockSizeRemaining -= 4; + metadata.data.picture.mimeLength = ma_dr_flac__be2host_32(metadata.data.picture.mimeLength); + pMime = (char*)ma_dr_flac__malloc_from_callbacks(metadata.data.picture.mimeLength + 1, pAllocationCallbacks); + if (pMime == NULL) { + result = MA_FALSE; + goto done_flac; + } + if (blockSizeRemaining < metadata.data.picture.mimeLength || onRead(pUserData, pMime, metadata.data.picture.mimeLength) != metadata.data.picture.mimeLength) { + result = MA_FALSE; + goto done_flac; + } + blockSizeRemaining -= metadata.data.picture.mimeLength; + pMime[metadata.data.picture.mimeLength] = '\0'; + metadata.data.picture.mime = (const char*)pMime; + if (blockSizeRemaining < 4 || onRead(pUserData, &metadata.data.picture.descriptionLength, 4) != 4) { + result = MA_FALSE; + goto done_flac; + } + blockSizeRemaining -= 4; + metadata.data.picture.descriptionLength = ma_dr_flac__be2host_32(metadata.data.picture.descriptionLength); + pDescription = (char*)ma_dr_flac__malloc_from_callbacks(metadata.data.picture.descriptionLength + 1, pAllocationCallbacks); + if (pDescription == NULL) { + result = MA_FALSE; + goto done_flac; + } + if (blockSizeRemaining < metadata.data.picture.descriptionLength || onRead(pUserData, pDescription, metadata.data.picture.descriptionLength) != metadata.data.picture.descriptionLength) { + result = MA_FALSE; + goto done_flac; + } + blockSizeRemaining -= metadata.data.picture.descriptionLength; + pDescription[metadata.data.picture.descriptionLength] = '\0'; + metadata.data.picture.description = (const char*)pDescription; + if (blockSizeRemaining < 4 || onRead(pUserData, &metadata.data.picture.width, 4) != 4) { + result = MA_FALSE; + goto done_flac; + } + blockSizeRemaining -= 4; + metadata.data.picture.width = ma_dr_flac__be2host_32(metadata.data.picture.width); + if (blockSizeRemaining < 4 || onRead(pUserData, &metadata.data.picture.height, 4) != 4) { + result = MA_FALSE; + goto done_flac; + } + blockSizeRemaining -= 4; + metadata.data.picture.height = ma_dr_flac__be2host_32(metadata.data.picture.height); + if (blockSizeRemaining < 4 || onRead(pUserData, &metadata.data.picture.colorDepth, 4) != 4) { + result = MA_FALSE; + goto done_flac; + } + blockSizeRemaining -= 4; + metadata.data.picture.colorDepth = ma_dr_flac__be2host_32(metadata.data.picture.colorDepth); + if (blockSizeRemaining < 4 || onRead(pUserData, &metadata.data.picture.indexColorCount, 4) != 4) { + result = MA_FALSE; + goto done_flac; + } + blockSizeRemaining -= 4; + metadata.data.picture.indexColorCount = ma_dr_flac__be2host_32(metadata.data.picture.indexColorCount); + if (blockSizeRemaining < 4 || onRead(pUserData, &metadata.data.picture.pictureDataSize, 4) != 4) { + result = MA_FALSE; + goto done_flac; + } + blockSizeRemaining -= 4; + metadata.data.picture.pictureDataSize = ma_dr_flac__be2host_32(metadata.data.picture.pictureDataSize); + if (blockSizeRemaining < metadata.data.picture.pictureDataSize) { + result = MA_FALSE; + goto done_flac; + } + metadata.data.picture.pictureDataOffset = runningFilePos + (blockSize - blockSizeRemaining); + #ifndef MA_DR_FLAC_NO_PICTURE_METADATA_MALLOC + pPictureData = ma_dr_flac__malloc_from_callbacks(metadata.data.picture.pictureDataSize, pAllocationCallbacks); + if (pPictureData != NULL) { + if (onRead(pUserData, pPictureData, metadata.data.picture.pictureDataSize) != metadata.data.picture.pictureDataSize) { + result = MA_FALSE; + goto done_flac; + } + } else + #endif + { + if (!onSeek(pUserData, metadata.data.picture.pictureDataSize, MA_DR_FLAC_SEEK_CUR)) { + result = MA_FALSE; + goto done_flac; + } + } + blockSizeRemaining -= metadata.data.picture.pictureDataSize; + (void)blockSizeRemaining; + metadata.data.picture.pPictureData = (const ma_uint8*)pPictureData; + if (metadata.data.picture.pictureDataOffset != 0 || metadata.data.picture.pPictureData != NULL) { + onMeta(pUserDataMD, &metadata); + } else { + } + done_flac: + ma_dr_flac__free_from_callbacks(pMime, pAllocationCallbacks); + ma_dr_flac__free_from_callbacks(pDescription, pAllocationCallbacks); + ma_dr_flac__free_from_callbacks(pPictureData, pAllocationCallbacks); + if (result != MA_TRUE) { + return MA_FALSE; + } + } + } break; + case MA_DR_FLAC_METADATA_BLOCK_TYPE_PADDING: + { + if (onMeta) { + metadata.data.padding.unused = 0; + if (!onSeek(pUserData, blockSize, MA_DR_FLAC_SEEK_CUR)) { + isLastBlock = MA_TRUE; + } else { + onMeta(pUserDataMD, &metadata); + } + } + } break; + case MA_DR_FLAC_METADATA_BLOCK_TYPE_INVALID: + { + if (onMeta) { + if (!onSeek(pUserData, blockSize, MA_DR_FLAC_SEEK_CUR)) { + isLastBlock = MA_TRUE; + } + } + } break; + default: + { + if (onMeta) { + void* pRawData = ma_dr_flac__malloc_from_callbacks(blockSize, pAllocationCallbacks); + if (pRawData != NULL) { + if (onRead(pUserData, pRawData, blockSize) != blockSize) { + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + return MA_FALSE; + } + } else { + if (!onSeek(pUserData, blockSize, MA_DR_FLAC_SEEK_CUR)) { + return MA_FALSE; + } + } + metadata.pRawData = pRawData; + metadata.rawDataSize = blockSize; + onMeta(pUserDataMD, &metadata); + ma_dr_flac__free_from_callbacks(pRawData, pAllocationCallbacks); + } + } break; + } + if (onMeta == NULL && blockSize > 0) { + if (!onSeek(pUserData, blockSize, MA_DR_FLAC_SEEK_CUR)) { + isLastBlock = MA_TRUE; + } + } + runningFilePos += blockSize; + if (isLastBlock) { + break; + } + } + *pSeektablePos = seektablePos; + *pSeekpointCount = seektableSize / MA_DR_FLAC_SEEKPOINT_SIZE_IN_BYTES; + *pFirstFramePos = runningFilePos; + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__init_private__native(ma_dr_flac_init_info* pInit, ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_meta_proc onMeta, void* pUserData, void* pUserDataMD, ma_bool32 relaxed) +{ + ma_uint8 isLastBlock; + ma_uint8 blockType; + ma_uint32 blockSize; + (void)onSeek; + pInit->container = ma_dr_flac_container_native; + if (!ma_dr_flac__read_and_decode_block_header(onRead, pUserData, &isLastBlock, &blockType, &blockSize)) { + return MA_FALSE; + } + if (blockType != MA_DR_FLAC_METADATA_BLOCK_TYPE_STREAMINFO || blockSize != 34) { + if (!relaxed) { + return MA_FALSE; + } else { + pInit->hasStreamInfoBlock = MA_FALSE; + pInit->hasMetadataBlocks = MA_FALSE; + if (!ma_dr_flac__read_next_flac_frame_header(&pInit->bs, 0, &pInit->firstFrameHeader)) { + return MA_FALSE; + } + if (pInit->firstFrameHeader.bitsPerSample == 0) { + return MA_FALSE; + } + pInit->sampleRate = pInit->firstFrameHeader.sampleRate; + pInit->channels = ma_dr_flac__get_channel_count_from_channel_assignment(pInit->firstFrameHeader.channelAssignment); + pInit->bitsPerSample = pInit->firstFrameHeader.bitsPerSample; + pInit->maxBlockSizeInPCMFrames = 65535; + return MA_TRUE; + } + } else { + ma_dr_flac_streaminfo streaminfo; + if (!ma_dr_flac__read_streaminfo(onRead, pUserData, &streaminfo)) { + return MA_FALSE; + } + pInit->hasStreamInfoBlock = MA_TRUE; + pInit->sampleRate = streaminfo.sampleRate; + pInit->channels = streaminfo.channels; + pInit->bitsPerSample = streaminfo.bitsPerSample; + pInit->totalPCMFrameCount = streaminfo.totalPCMFrameCount; + pInit->maxBlockSizeInPCMFrames = streaminfo.maxBlockSizeInPCMFrames; + pInit->hasMetadataBlocks = !isLastBlock; + if (onMeta) { + ma_dr_flac_metadata metadata; + metadata.type = MA_DR_FLAC_METADATA_BLOCK_TYPE_STREAMINFO; + metadata.pRawData = NULL; + metadata.rawDataSize = 0; + metadata.data.streaminfo = streaminfo; + onMeta(pUserDataMD, &metadata); + } + return MA_TRUE; + } +} +#ifndef MA_DR_FLAC_NO_OGG +#define MA_DR_FLAC_OGG_MAX_PAGE_SIZE 65307 +#define MA_DR_FLAC_OGG_CAPTURE_PATTERN_CRC32 1605413199 +typedef enum +{ + ma_dr_flac_ogg_recover_on_crc_mismatch, + ma_dr_flac_ogg_fail_on_crc_mismatch +} ma_dr_flac_ogg_crc_mismatch_recovery; +#ifndef MA_DR_FLAC_NO_CRC +static ma_uint32 ma_dr_flac__crc32_table[] = { + 0x00000000L, 0x04C11DB7L, 0x09823B6EL, 0x0D4326D9L, + 0x130476DCL, 0x17C56B6BL, 0x1A864DB2L, 0x1E475005L, + 0x2608EDB8L, 0x22C9F00FL, 0x2F8AD6D6L, 0x2B4BCB61L, + 0x350C9B64L, 0x31CD86D3L, 0x3C8EA00AL, 0x384FBDBDL, + 0x4C11DB70L, 0x48D0C6C7L, 0x4593E01EL, 0x4152FDA9L, + 0x5F15ADACL, 0x5BD4B01BL, 0x569796C2L, 0x52568B75L, + 0x6A1936C8L, 0x6ED82B7FL, 0x639B0DA6L, 0x675A1011L, + 0x791D4014L, 0x7DDC5DA3L, 0x709F7B7AL, 0x745E66CDL, + 0x9823B6E0L, 0x9CE2AB57L, 0x91A18D8EL, 0x95609039L, + 0x8B27C03CL, 0x8FE6DD8BL, 0x82A5FB52L, 0x8664E6E5L, + 0xBE2B5B58L, 0xBAEA46EFL, 0xB7A96036L, 0xB3687D81L, + 0xAD2F2D84L, 0xA9EE3033L, 0xA4AD16EAL, 0xA06C0B5DL, + 0xD4326D90L, 0xD0F37027L, 0xDDB056FEL, 0xD9714B49L, + 0xC7361B4CL, 0xC3F706FBL, 0xCEB42022L, 0xCA753D95L, + 0xF23A8028L, 0xF6FB9D9FL, 0xFBB8BB46L, 0xFF79A6F1L, + 0xE13EF6F4L, 0xE5FFEB43L, 0xE8BCCD9AL, 0xEC7DD02DL, + 0x34867077L, 0x30476DC0L, 0x3D044B19L, 0x39C556AEL, + 0x278206ABL, 0x23431B1CL, 0x2E003DC5L, 0x2AC12072L, + 0x128E9DCFL, 0x164F8078L, 0x1B0CA6A1L, 0x1FCDBB16L, + 0x018AEB13L, 0x054BF6A4L, 0x0808D07DL, 0x0CC9CDCAL, + 0x7897AB07L, 0x7C56B6B0L, 0x71159069L, 0x75D48DDEL, + 0x6B93DDDBL, 0x6F52C06CL, 0x6211E6B5L, 0x66D0FB02L, + 0x5E9F46BFL, 0x5A5E5B08L, 0x571D7DD1L, 0x53DC6066L, + 0x4D9B3063L, 0x495A2DD4L, 0x44190B0DL, 0x40D816BAL, + 0xACA5C697L, 0xA864DB20L, 0xA527FDF9L, 0xA1E6E04EL, + 0xBFA1B04BL, 0xBB60ADFCL, 0xB6238B25L, 0xB2E29692L, + 0x8AAD2B2FL, 0x8E6C3698L, 0x832F1041L, 0x87EE0DF6L, + 0x99A95DF3L, 0x9D684044L, 0x902B669DL, 0x94EA7B2AL, + 0xE0B41DE7L, 0xE4750050L, 0xE9362689L, 0xEDF73B3EL, + 0xF3B06B3BL, 0xF771768CL, 0xFA325055L, 0xFEF34DE2L, + 0xC6BCF05FL, 0xC27DEDE8L, 0xCF3ECB31L, 0xCBFFD686L, + 0xD5B88683L, 0xD1799B34L, 0xDC3ABDEDL, 0xD8FBA05AL, + 0x690CE0EEL, 0x6DCDFD59L, 0x608EDB80L, 0x644FC637L, + 0x7A089632L, 0x7EC98B85L, 0x738AAD5CL, 0x774BB0EBL, + 0x4F040D56L, 0x4BC510E1L, 0x46863638L, 0x42472B8FL, + 0x5C007B8AL, 0x58C1663DL, 0x558240E4L, 0x51435D53L, + 0x251D3B9EL, 0x21DC2629L, 0x2C9F00F0L, 0x285E1D47L, + 0x36194D42L, 0x32D850F5L, 0x3F9B762CL, 0x3B5A6B9BL, + 0x0315D626L, 0x07D4CB91L, 0x0A97ED48L, 0x0E56F0FFL, + 0x1011A0FAL, 0x14D0BD4DL, 0x19939B94L, 0x1D528623L, + 0xF12F560EL, 0xF5EE4BB9L, 0xF8AD6D60L, 0xFC6C70D7L, + 0xE22B20D2L, 0xE6EA3D65L, 0xEBA91BBCL, 0xEF68060BL, + 0xD727BBB6L, 0xD3E6A601L, 0xDEA580D8L, 0xDA649D6FL, + 0xC423CD6AL, 0xC0E2D0DDL, 0xCDA1F604L, 0xC960EBB3L, + 0xBD3E8D7EL, 0xB9FF90C9L, 0xB4BCB610L, 0xB07DABA7L, + 0xAE3AFBA2L, 0xAAFBE615L, 0xA7B8C0CCL, 0xA379DD7BL, + 0x9B3660C6L, 0x9FF77D71L, 0x92B45BA8L, 0x9675461FL, + 0x8832161AL, 0x8CF30BADL, 0x81B02D74L, 0x857130C3L, + 0x5D8A9099L, 0x594B8D2EL, 0x5408ABF7L, 0x50C9B640L, + 0x4E8EE645L, 0x4A4FFBF2L, 0x470CDD2BL, 0x43CDC09CL, + 0x7B827D21L, 0x7F436096L, 0x7200464FL, 0x76C15BF8L, + 0x68860BFDL, 0x6C47164AL, 0x61043093L, 0x65C52D24L, + 0x119B4BE9L, 0x155A565EL, 0x18197087L, 0x1CD86D30L, + 0x029F3D35L, 0x065E2082L, 0x0B1D065BL, 0x0FDC1BECL, + 0x3793A651L, 0x3352BBE6L, 0x3E119D3FL, 0x3AD08088L, + 0x2497D08DL, 0x2056CD3AL, 0x2D15EBE3L, 0x29D4F654L, + 0xC5A92679L, 0xC1683BCEL, 0xCC2B1D17L, 0xC8EA00A0L, + 0xD6AD50A5L, 0xD26C4D12L, 0xDF2F6BCBL, 0xDBEE767CL, + 0xE3A1CBC1L, 0xE760D676L, 0xEA23F0AFL, 0xEEE2ED18L, + 0xF0A5BD1DL, 0xF464A0AAL, 0xF9278673L, 0xFDE69BC4L, + 0x89B8FD09L, 0x8D79E0BEL, 0x803AC667L, 0x84FBDBD0L, + 0x9ABC8BD5L, 0x9E7D9662L, 0x933EB0BBL, 0x97FFAD0CL, + 0xAFB010B1L, 0xAB710D06L, 0xA6322BDFL, 0xA2F33668L, + 0xBCB4666DL, 0xB8757BDAL, 0xB5365D03L, 0xB1F740B4L +}; +#endif +static MA_INLINE ma_uint32 ma_dr_flac_crc32_byte(ma_uint32 crc32, ma_uint8 data) +{ +#ifndef MA_DR_FLAC_NO_CRC + return (crc32 << 8) ^ ma_dr_flac__crc32_table[(ma_uint8)((crc32 >> 24) & 0xFF) ^ data]; +#else + (void)data; + return crc32; +#endif +} +#if 0 +static MA_INLINE ma_uint32 ma_dr_flac_crc32_uint32(ma_uint32 crc32, ma_uint32 data) +{ + crc32 = ma_dr_flac_crc32_byte(crc32, (ma_uint8)((data >> 24) & 0xFF)); + crc32 = ma_dr_flac_crc32_byte(crc32, (ma_uint8)((data >> 16) & 0xFF)); + crc32 = ma_dr_flac_crc32_byte(crc32, (ma_uint8)((data >> 8) & 0xFF)); + crc32 = ma_dr_flac_crc32_byte(crc32, (ma_uint8)((data >> 0) & 0xFF)); + return crc32; +} +static MA_INLINE ma_uint32 ma_dr_flac_crc32_uint64(ma_uint32 crc32, ma_uint64 data) +{ + crc32 = ma_dr_flac_crc32_uint32(crc32, (ma_uint32)((data >> 32) & 0xFFFFFFFF)); + crc32 = ma_dr_flac_crc32_uint32(crc32, (ma_uint32)((data >> 0) & 0xFFFFFFFF)); + return crc32; +} +#endif +static MA_INLINE ma_uint32 ma_dr_flac_crc32_buffer(ma_uint32 crc32, ma_uint8* pData, ma_uint32 dataSize) +{ + ma_uint32 i; + for (i = 0; i < dataSize; ++i) { + crc32 = ma_dr_flac_crc32_byte(crc32, pData[i]); + } + return crc32; +} +static MA_INLINE ma_bool32 ma_dr_flac_ogg__is_capture_pattern(ma_uint8 pattern[4]) +{ + return pattern[0] == 'O' && pattern[1] == 'g' && pattern[2] == 'g' && pattern[3] == 'S'; +} +static MA_INLINE ma_uint32 ma_dr_flac_ogg__get_page_header_size(ma_dr_flac_ogg_page_header* pHeader) +{ + return 27 + pHeader->segmentCount; +} +static MA_INLINE ma_uint32 ma_dr_flac_ogg__get_page_body_size(ma_dr_flac_ogg_page_header* pHeader) +{ + ma_uint32 pageBodySize = 0; + int i; + for (i = 0; i < pHeader->segmentCount; ++i) { + pageBodySize += pHeader->segmentTable[i]; + } + return pageBodySize; +} +static ma_result ma_dr_flac_ogg__read_page_header_after_capture_pattern(ma_dr_flac_read_proc onRead, void* pUserData, ma_dr_flac_ogg_page_header* pHeader, ma_uint32* pBytesRead, ma_uint32* pCRC32) +{ + ma_uint8 data[23]; + ma_uint32 i; + MA_DR_FLAC_ASSERT(*pCRC32 == MA_DR_FLAC_OGG_CAPTURE_PATTERN_CRC32); + if (onRead(pUserData, data, 23) != 23) { + return MA_AT_END; + } + *pBytesRead += 23; + pHeader->capturePattern[0] = 'O'; + pHeader->capturePattern[1] = 'g'; + pHeader->capturePattern[2] = 'g'; + pHeader->capturePattern[3] = 'S'; + pHeader->structureVersion = data[0]; + pHeader->headerType = data[1]; + MA_DR_FLAC_COPY_MEMORY(&pHeader->granulePosition, &data[ 2], 8); + MA_DR_FLAC_COPY_MEMORY(&pHeader->serialNumber, &data[10], 4); + MA_DR_FLAC_COPY_MEMORY(&pHeader->sequenceNumber, &data[14], 4); + MA_DR_FLAC_COPY_MEMORY(&pHeader->checksum, &data[18], 4); + pHeader->segmentCount = data[22]; + data[18] = 0; + data[19] = 0; + data[20] = 0; + data[21] = 0; + for (i = 0; i < 23; ++i) { + *pCRC32 = ma_dr_flac_crc32_byte(*pCRC32, data[i]); + } + if (onRead(pUserData, pHeader->segmentTable, pHeader->segmentCount) != pHeader->segmentCount) { + return MA_AT_END; + } + *pBytesRead += pHeader->segmentCount; + for (i = 0; i < pHeader->segmentCount; ++i) { + *pCRC32 = ma_dr_flac_crc32_byte(*pCRC32, pHeader->segmentTable[i]); + } + return MA_SUCCESS; +} +static ma_result ma_dr_flac_ogg__read_page_header(ma_dr_flac_read_proc onRead, void* pUserData, ma_dr_flac_ogg_page_header* pHeader, ma_uint32* pBytesRead, ma_uint32* pCRC32) +{ + ma_uint8 id[4]; + *pBytesRead = 0; + if (onRead(pUserData, id, 4) != 4) { + return MA_AT_END; + } + *pBytesRead += 4; + for (;;) { + if (ma_dr_flac_ogg__is_capture_pattern(id)) { + ma_result result; + *pCRC32 = MA_DR_FLAC_OGG_CAPTURE_PATTERN_CRC32; + result = ma_dr_flac_ogg__read_page_header_after_capture_pattern(onRead, pUserData, pHeader, pBytesRead, pCRC32); + if (result == MA_SUCCESS) { + return MA_SUCCESS; + } else { + if (result == MA_CRC_MISMATCH) { + continue; + } else { + return result; + } + } + } else { + id[0] = id[1]; + id[1] = id[2]; + id[2] = id[3]; + if (onRead(pUserData, &id[3], 1) != 1) { + return MA_AT_END; + } + *pBytesRead += 1; + } + } +} +typedef struct +{ + ma_dr_flac_read_proc onRead; + ma_dr_flac_seek_proc onSeek; + ma_dr_flac_tell_proc onTell; + void* pUserData; + ma_uint64 currentBytePos; + ma_uint64 firstBytePos; + ma_uint32 serialNumber; + ma_dr_flac_ogg_page_header bosPageHeader; + ma_dr_flac_ogg_page_header currentPageHeader; + ma_uint32 bytesRemainingInPage; + ma_uint32 pageDataSize; + ma_uint8 pageData[MA_DR_FLAC_OGG_MAX_PAGE_SIZE]; +} ma_dr_flac_oggbs; +static size_t ma_dr_flac_oggbs__read_physical(ma_dr_flac_oggbs* oggbs, void* bufferOut, size_t bytesToRead) +{ + size_t bytesActuallyRead = oggbs->onRead(oggbs->pUserData, bufferOut, bytesToRead); + oggbs->currentBytePos += bytesActuallyRead; + return bytesActuallyRead; +} +static ma_bool32 ma_dr_flac_oggbs__seek_physical(ma_dr_flac_oggbs* oggbs, ma_uint64 offset, ma_dr_flac_seek_origin origin) +{ + if (origin == MA_DR_FLAC_SEEK_SET) { + if (offset <= 0x7FFFFFFF) { + if (!oggbs->onSeek(oggbs->pUserData, (int)offset, MA_DR_FLAC_SEEK_SET)) { + return MA_FALSE; + } + oggbs->currentBytePos = offset; + return MA_TRUE; + } else { + if (!oggbs->onSeek(oggbs->pUserData, 0x7FFFFFFF, MA_DR_FLAC_SEEK_SET)) { + return MA_FALSE; + } + oggbs->currentBytePos = offset; + return ma_dr_flac_oggbs__seek_physical(oggbs, offset - 0x7FFFFFFF, MA_DR_FLAC_SEEK_CUR); + } + } else { + while (offset > 0x7FFFFFFF) { + if (!oggbs->onSeek(oggbs->pUserData, 0x7FFFFFFF, MA_DR_FLAC_SEEK_CUR)) { + return MA_FALSE; + } + oggbs->currentBytePos += 0x7FFFFFFF; + offset -= 0x7FFFFFFF; + } + if (!oggbs->onSeek(oggbs->pUserData, (int)offset, MA_DR_FLAC_SEEK_CUR)) { + return MA_FALSE; + } + oggbs->currentBytePos += offset; + return MA_TRUE; + } +} +static ma_bool32 ma_dr_flac_oggbs__goto_next_page(ma_dr_flac_oggbs* oggbs, ma_dr_flac_ogg_crc_mismatch_recovery recoveryMethod) +{ + ma_dr_flac_ogg_page_header header; + for (;;) { + ma_uint32 crc32 = 0; + ma_uint32 bytesRead; + ma_uint32 pageBodySize; +#ifndef MA_DR_FLAC_NO_CRC + ma_uint32 actualCRC32; +#endif + if (ma_dr_flac_ogg__read_page_header(oggbs->onRead, oggbs->pUserData, &header, &bytesRead, &crc32) != MA_SUCCESS) { + return MA_FALSE; + } + oggbs->currentBytePos += bytesRead; + pageBodySize = ma_dr_flac_ogg__get_page_body_size(&header); + if (pageBodySize > MA_DR_FLAC_OGG_MAX_PAGE_SIZE) { + continue; + } + if (header.serialNumber != oggbs->serialNumber) { + if (pageBodySize > 0 && !ma_dr_flac_oggbs__seek_physical(oggbs, pageBodySize, MA_DR_FLAC_SEEK_CUR)) { + return MA_FALSE; + } + continue; + } + if (ma_dr_flac_oggbs__read_physical(oggbs, oggbs->pageData, pageBodySize) != pageBodySize) { + return MA_FALSE; + } + oggbs->pageDataSize = pageBodySize; +#ifndef MA_DR_FLAC_NO_CRC + actualCRC32 = ma_dr_flac_crc32_buffer(crc32, oggbs->pageData, oggbs->pageDataSize); + if (actualCRC32 != header.checksum) { + if (recoveryMethod == ma_dr_flac_ogg_recover_on_crc_mismatch) { + continue; + } else { + ma_dr_flac_oggbs__goto_next_page(oggbs, ma_dr_flac_ogg_recover_on_crc_mismatch); + return MA_FALSE; + } + } +#else + (void)recoveryMethod; +#endif + oggbs->currentPageHeader = header; + oggbs->bytesRemainingInPage = pageBodySize; + return MA_TRUE; + } +} +#if 0 +static ma_uint8 ma_dr_flac_oggbs__get_current_segment_index(ma_dr_flac_oggbs* oggbs, ma_uint8* pBytesRemainingInSeg) +{ + ma_uint32 bytesConsumedInPage = ma_dr_flac_ogg__get_page_body_size(&oggbs->currentPageHeader) - oggbs->bytesRemainingInPage; + ma_uint8 iSeg = 0; + ma_uint32 iByte = 0; + while (iByte < bytesConsumedInPage) { + ma_uint8 segmentSize = oggbs->currentPageHeader.segmentTable[iSeg]; + if (iByte + segmentSize > bytesConsumedInPage) { + break; + } else { + iSeg += 1; + iByte += segmentSize; + } + } + *pBytesRemainingInSeg = oggbs->currentPageHeader.segmentTable[iSeg] - (ma_uint8)(bytesConsumedInPage - iByte); + return iSeg; +} +static ma_bool32 ma_dr_flac_oggbs__seek_to_next_packet(ma_dr_flac_oggbs* oggbs) +{ + for (;;) { + ma_bool32 atEndOfPage = MA_FALSE; + ma_uint8 bytesRemainingInSeg; + ma_uint8 iFirstSeg = ma_dr_flac_oggbs__get_current_segment_index(oggbs, &bytesRemainingInSeg); + ma_uint32 bytesToEndOfPacketOrPage = bytesRemainingInSeg; + for (ma_uint8 iSeg = iFirstSeg; iSeg < oggbs->currentPageHeader.segmentCount; ++iSeg) { + ma_uint8 segmentSize = oggbs->currentPageHeader.segmentTable[iSeg]; + if (segmentSize < 255) { + if (iSeg == oggbs->currentPageHeader.segmentCount-1) { + atEndOfPage = MA_TRUE; + } + break; + } + bytesToEndOfPacketOrPage += segmentSize; + } + ma_dr_flac_oggbs__seek_physical(oggbs, bytesToEndOfPacketOrPage, MA_DR_FLAC_SEEK_CUR); + oggbs->bytesRemainingInPage -= bytesToEndOfPacketOrPage; + if (atEndOfPage) { + if (!ma_dr_flac_oggbs__goto_next_page(oggbs)) { + return MA_FALSE; + } + if ((oggbs->currentPageHeader.headerType & 0x01) == 0) { + return MA_TRUE; + } + } else { + return MA_TRUE; + } + } +} +static ma_bool32 ma_dr_flac_oggbs__seek_to_next_frame(ma_dr_flac_oggbs* oggbs) +{ + return ma_dr_flac_oggbs__seek_to_next_packet(oggbs); +} +#endif +static size_t ma_dr_flac__on_read_ogg(void* pUserData, void* bufferOut, size_t bytesToRead) +{ + ma_dr_flac_oggbs* oggbs = (ma_dr_flac_oggbs*)pUserData; + ma_uint8* pRunningBufferOut = (ma_uint8*)bufferOut; + size_t bytesRead = 0; + MA_DR_FLAC_ASSERT(oggbs != NULL); + MA_DR_FLAC_ASSERT(pRunningBufferOut != NULL); + while (bytesRead < bytesToRead) { + size_t bytesRemainingToRead = bytesToRead - bytesRead; + if (oggbs->bytesRemainingInPage >= bytesRemainingToRead) { + MA_DR_FLAC_COPY_MEMORY(pRunningBufferOut, oggbs->pageData + (oggbs->pageDataSize - oggbs->bytesRemainingInPage), bytesRemainingToRead); + bytesRead += bytesRemainingToRead; + oggbs->bytesRemainingInPage -= (ma_uint32)bytesRemainingToRead; + break; + } + if (oggbs->bytesRemainingInPage > 0) { + MA_DR_FLAC_COPY_MEMORY(pRunningBufferOut, oggbs->pageData + (oggbs->pageDataSize - oggbs->bytesRemainingInPage), oggbs->bytesRemainingInPage); + bytesRead += oggbs->bytesRemainingInPage; + pRunningBufferOut += oggbs->bytesRemainingInPage; + oggbs->bytesRemainingInPage = 0; + } + MA_DR_FLAC_ASSERT(bytesRemainingToRead > 0); + if (!ma_dr_flac_oggbs__goto_next_page(oggbs, ma_dr_flac_ogg_recover_on_crc_mismatch)) { + break; + } + } + return bytesRead; +} +static ma_bool32 ma_dr_flac__on_seek_ogg(void* pUserData, int offset, ma_dr_flac_seek_origin origin) +{ + ma_dr_flac_oggbs* oggbs = (ma_dr_flac_oggbs*)pUserData; + int bytesSeeked = 0; + MA_DR_FLAC_ASSERT(oggbs != NULL); + MA_DR_FLAC_ASSERT(offset >= 0); + if (origin == MA_DR_FLAC_SEEK_SET) { + if (!ma_dr_flac_oggbs__seek_physical(oggbs, (int)oggbs->firstBytePos, MA_DR_FLAC_SEEK_SET)) { + return MA_FALSE; + } + if (!ma_dr_flac_oggbs__goto_next_page(oggbs, ma_dr_flac_ogg_fail_on_crc_mismatch)) { + return MA_FALSE; + } + return ma_dr_flac__on_seek_ogg(pUserData, offset, MA_DR_FLAC_SEEK_CUR); + } else if (origin == MA_DR_FLAC_SEEK_CUR) { + while (bytesSeeked < offset) { + int bytesRemainingToSeek = offset - bytesSeeked; + MA_DR_FLAC_ASSERT(bytesRemainingToSeek >= 0); + if (oggbs->bytesRemainingInPage >= (size_t)bytesRemainingToSeek) { + bytesSeeked += bytesRemainingToSeek; + (void)bytesSeeked; + oggbs->bytesRemainingInPage -= bytesRemainingToSeek; + break; + } + if (oggbs->bytesRemainingInPage > 0) { + bytesSeeked += (int)oggbs->bytesRemainingInPage; + oggbs->bytesRemainingInPage = 0; + } + MA_DR_FLAC_ASSERT(bytesRemainingToSeek > 0); + if (!ma_dr_flac_oggbs__goto_next_page(oggbs, ma_dr_flac_ogg_fail_on_crc_mismatch)) { + return MA_FALSE; + } + } + } else if (origin == MA_DR_FLAC_SEEK_END) { + return MA_FALSE; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__on_tell_ogg(void* pUserData, ma_int64* pCursor) +{ + (void)pUserData; + (void)pCursor; + return MA_FALSE; +} +static ma_bool32 ma_dr_flac_ogg__seek_to_pcm_frame(ma_dr_flac* pFlac, ma_uint64 pcmFrameIndex) +{ + ma_dr_flac_oggbs* oggbs = (ma_dr_flac_oggbs*)pFlac->_oggbs; + ma_uint64 originalBytePos; + ma_uint64 runningGranulePosition; + ma_uint64 runningFrameBytePos; + ma_uint64 runningPCMFrameCount; + MA_DR_FLAC_ASSERT(oggbs != NULL); + originalBytePos = oggbs->currentBytePos; + if (!ma_dr_flac__seek_to_byte(&pFlac->bs, pFlac->firstFLACFramePosInBytes)) { + return MA_FALSE; + } + oggbs->bytesRemainingInPage = 0; + runningGranulePosition = 0; + for (;;) { + if (!ma_dr_flac_oggbs__goto_next_page(oggbs, ma_dr_flac_ogg_recover_on_crc_mismatch)) { + ma_dr_flac_oggbs__seek_physical(oggbs, originalBytePos, MA_DR_FLAC_SEEK_SET); + return MA_FALSE; + } + runningFrameBytePos = oggbs->currentBytePos - ma_dr_flac_ogg__get_page_header_size(&oggbs->currentPageHeader) - oggbs->pageDataSize; + if (oggbs->currentPageHeader.granulePosition >= pcmFrameIndex) { + break; + } + if ((oggbs->currentPageHeader.headerType & 0x01) == 0) { + if (oggbs->currentPageHeader.segmentTable[0] >= 2) { + ma_uint8 firstBytesInPage[2]; + firstBytesInPage[0] = oggbs->pageData[0]; + firstBytesInPage[1] = oggbs->pageData[1]; + if ((firstBytesInPage[0] == 0xFF) && (firstBytesInPage[1] & 0xFC) == 0xF8) { + runningGranulePosition = oggbs->currentPageHeader.granulePosition; + } + continue; + } + } + } + if (!ma_dr_flac_oggbs__seek_physical(oggbs, runningFrameBytePos, MA_DR_FLAC_SEEK_SET)) { + return MA_FALSE; + } + if (!ma_dr_flac_oggbs__goto_next_page(oggbs, ma_dr_flac_ogg_recover_on_crc_mismatch)) { + return MA_FALSE; + } + runningPCMFrameCount = runningGranulePosition; + for (;;) { + ma_uint64 firstPCMFrameInFLACFrame = 0; + ma_uint64 lastPCMFrameInFLACFrame = 0; + ma_uint64 pcmFrameCountInThisFrame; + if (!ma_dr_flac__read_next_flac_frame_header(&pFlac->bs, pFlac->bitsPerSample, &pFlac->currentFLACFrame.header)) { + return MA_FALSE; + } + ma_dr_flac__get_pcm_frame_range_of_current_flac_frame(pFlac, &firstPCMFrameInFLACFrame, &lastPCMFrameInFLACFrame); + pcmFrameCountInThisFrame = (lastPCMFrameInFLACFrame - firstPCMFrameInFLACFrame) + 1; + if (pcmFrameIndex == pFlac->totalPCMFrameCount && (runningPCMFrameCount + pcmFrameCountInThisFrame) == pFlac->totalPCMFrameCount) { + ma_result result = ma_dr_flac__decode_flac_frame(pFlac); + if (result == MA_SUCCESS) { + pFlac->currentPCMFrame = pcmFrameIndex; + pFlac->currentFLACFrame.pcmFramesRemaining = 0; + return MA_TRUE; + } else { + return MA_FALSE; + } + } + if (pcmFrameIndex < (runningPCMFrameCount + pcmFrameCountInThisFrame)) { + ma_result result = ma_dr_flac__decode_flac_frame(pFlac); + if (result == MA_SUCCESS) { + ma_uint64 pcmFramesToDecode = (size_t)(pcmFrameIndex - runningPCMFrameCount); + if (pcmFramesToDecode == 0) { + return MA_TRUE; + } + pFlac->currentPCMFrame = runningPCMFrameCount; + return ma_dr_flac__seek_forward_by_pcm_frames(pFlac, pcmFramesToDecode) == pcmFramesToDecode; + } else { + if (result == MA_CRC_MISMATCH) { + continue; + } else { + return MA_FALSE; + } + } + } else { + ma_result result = ma_dr_flac__seek_to_next_flac_frame(pFlac); + if (result == MA_SUCCESS) { + runningPCMFrameCount += pcmFrameCountInThisFrame; + } else { + if (result == MA_CRC_MISMATCH) { + continue; + } else { + return MA_FALSE; + } + } + } + } +} +static ma_bool32 ma_dr_flac__init_private__ogg(ma_dr_flac_init_info* pInit, ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_meta_proc onMeta, void* pUserData, void* pUserDataMD, ma_bool32 relaxed) +{ + ma_dr_flac_ogg_page_header header; + ma_uint32 crc32 = MA_DR_FLAC_OGG_CAPTURE_PATTERN_CRC32; + ma_uint32 bytesRead = 0; + (void)relaxed; + pInit->container = ma_dr_flac_container_ogg; + pInit->oggFirstBytePos = 0; + if (ma_dr_flac_ogg__read_page_header_after_capture_pattern(onRead, pUserData, &header, &bytesRead, &crc32) != MA_SUCCESS) { + return MA_FALSE; + } + pInit->runningFilePos += bytesRead; + for (;;) { + int pageBodySize; + if ((header.headerType & 0x02) == 0) { + return MA_FALSE; + } + pageBodySize = ma_dr_flac_ogg__get_page_body_size(&header); + if (pageBodySize == 51) { + ma_uint32 bytesRemainingInPage = pageBodySize; + ma_uint8 packetType; + if (onRead(pUserData, &packetType, 1) != 1) { + return MA_FALSE; + } + bytesRemainingInPage -= 1; + if (packetType == 0x7F) { + ma_uint8 sig[4]; + if (onRead(pUserData, sig, 4) != 4) { + return MA_FALSE; + } + bytesRemainingInPage -= 4; + if (sig[0] == 'F' && sig[1] == 'L' && sig[2] == 'A' && sig[3] == 'C') { + ma_uint8 mappingVersion[2]; + if (onRead(pUserData, mappingVersion, 2) != 2) { + return MA_FALSE; + } + if (mappingVersion[0] != 1) { + return MA_FALSE; + } + if (!onSeek(pUserData, 2, MA_DR_FLAC_SEEK_CUR)) { + return MA_FALSE; + } + if (onRead(pUserData, sig, 4) != 4) { + return MA_FALSE; + } + if (sig[0] == 'f' && sig[1] == 'L' && sig[2] == 'a' && sig[3] == 'C') { + ma_dr_flac_streaminfo streaminfo; + ma_uint8 isLastBlock; + ma_uint8 blockType; + ma_uint32 blockSize; + if (!ma_dr_flac__read_and_decode_block_header(onRead, pUserData, &isLastBlock, &blockType, &blockSize)) { + return MA_FALSE; + } + if (blockType != MA_DR_FLAC_METADATA_BLOCK_TYPE_STREAMINFO || blockSize != 34) { + return MA_FALSE; + } + if (ma_dr_flac__read_streaminfo(onRead, pUserData, &streaminfo)) { + pInit->hasStreamInfoBlock = MA_TRUE; + pInit->sampleRate = streaminfo.sampleRate; + pInit->channels = streaminfo.channels; + pInit->bitsPerSample = streaminfo.bitsPerSample; + pInit->totalPCMFrameCount = streaminfo.totalPCMFrameCount; + pInit->maxBlockSizeInPCMFrames = streaminfo.maxBlockSizeInPCMFrames; + pInit->hasMetadataBlocks = !isLastBlock; + if (onMeta) { + ma_dr_flac_metadata metadata; + metadata.type = MA_DR_FLAC_METADATA_BLOCK_TYPE_STREAMINFO; + metadata.pRawData = NULL; + metadata.rawDataSize = 0; + metadata.data.streaminfo = streaminfo; + onMeta(pUserDataMD, &metadata); + } + pInit->runningFilePos += pageBodySize; + pInit->oggFirstBytePos = pInit->runningFilePos - 79; + pInit->oggSerial = header.serialNumber; + pInit->oggBosHeader = header; + break; + } else { + return MA_FALSE; + } + } else { + return MA_FALSE; + } + } else { + if (!onSeek(pUserData, bytesRemainingInPage, MA_DR_FLAC_SEEK_CUR)) { + return MA_FALSE; + } + } + } else { + if (!onSeek(pUserData, bytesRemainingInPage, MA_DR_FLAC_SEEK_CUR)) { + return MA_FALSE; + } + } + } else { + if (!onSeek(pUserData, pageBodySize, MA_DR_FLAC_SEEK_CUR)) { + return MA_FALSE; + } + } + pInit->runningFilePos += pageBodySize; + if (ma_dr_flac_ogg__read_page_header(onRead, pUserData, &header, &bytesRead, &crc32) != MA_SUCCESS) { + return MA_FALSE; + } + pInit->runningFilePos += bytesRead; + } + pInit->hasMetadataBlocks = MA_TRUE; + return MA_TRUE; +} +#endif +static ma_bool32 ma_dr_flac__init_private(ma_dr_flac_init_info* pInit, ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, ma_dr_flac_meta_proc onMeta, ma_dr_flac_container container, void* pUserData, void* pUserDataMD) +{ + ma_bool32 relaxed; + ma_uint8 id[4]; + if (pInit == NULL || onRead == NULL || onSeek == NULL) { + return MA_FALSE; + } + MA_DR_FLAC_ZERO_MEMORY(pInit, sizeof(*pInit)); + pInit->onRead = onRead; + pInit->onSeek = onSeek; + pInit->onTell = onTell; + pInit->onMeta = onMeta; + pInit->container = container; + pInit->pUserData = pUserData; + pInit->pUserDataMD = pUserDataMD; + pInit->bs.onRead = onRead; + pInit->bs.onSeek = onSeek; + pInit->bs.onTell = onTell; + pInit->bs.pUserData = pUserData; + ma_dr_flac__reset_cache(&pInit->bs); + relaxed = container != ma_dr_flac_container_unknown; + for (;;) { + if (onRead(pUserData, id, 4) != 4) { + return MA_FALSE; + } + pInit->runningFilePos += 4; + if (id[0] == 'I' && id[1] == 'D' && id[2] == '3') { + ma_uint8 header[6]; + ma_uint8 flags; + ma_uint32 headerSize; + if (onRead(pUserData, header, 6) != 6) { + return MA_FALSE; + } + pInit->runningFilePos += 6; + flags = header[1]; + MA_DR_FLAC_COPY_MEMORY(&headerSize, header+2, 4); + headerSize = ma_dr_flac__unsynchsafe_32(ma_dr_flac__be2host_32(headerSize)); + if (flags & 0x10) { + headerSize += 10; + } + if (!onSeek(pUserData, headerSize, MA_DR_FLAC_SEEK_CUR)) { + return MA_FALSE; + } + pInit->runningFilePos += headerSize; + } else { + break; + } + } + if (id[0] == 'f' && id[1] == 'L' && id[2] == 'a' && id[3] == 'C') { + return ma_dr_flac__init_private__native(pInit, onRead, onSeek, onMeta, pUserData, pUserDataMD, relaxed); + } +#ifndef MA_DR_FLAC_NO_OGG + if (id[0] == 'O' && id[1] == 'g' && id[2] == 'g' && id[3] == 'S') { + return ma_dr_flac__init_private__ogg(pInit, onRead, onSeek, onMeta, pUserData, pUserDataMD, relaxed); + } +#endif + if (relaxed) { + if (container == ma_dr_flac_container_native) { + return ma_dr_flac__init_private__native(pInit, onRead, onSeek, onMeta, pUserData, pUserDataMD, relaxed); + } +#ifndef MA_DR_FLAC_NO_OGG + if (container == ma_dr_flac_container_ogg) { + return ma_dr_flac__init_private__ogg(pInit, onRead, onSeek, onMeta, pUserData, pUserDataMD, relaxed); + } +#endif + } + return MA_FALSE; +} +static void ma_dr_flac__init_from_info(ma_dr_flac* pFlac, const ma_dr_flac_init_info* pInit) +{ + MA_DR_FLAC_ASSERT(pFlac != NULL); + MA_DR_FLAC_ASSERT(pInit != NULL); + MA_DR_FLAC_ZERO_MEMORY(pFlac, sizeof(*pFlac)); + pFlac->bs = pInit->bs; + pFlac->onMeta = pInit->onMeta; + pFlac->pUserDataMD = pInit->pUserDataMD; + pFlac->maxBlockSizeInPCMFrames = pInit->maxBlockSizeInPCMFrames; + pFlac->sampleRate = pInit->sampleRate; + pFlac->channels = (ma_uint8)pInit->channels; + pFlac->bitsPerSample = (ma_uint8)pInit->bitsPerSample; + pFlac->totalPCMFrameCount = pInit->totalPCMFrameCount; + pFlac->container = pInit->container; +} +static ma_dr_flac* ma_dr_flac_open_with_metadata_private(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, ma_dr_flac_meta_proc onMeta, ma_dr_flac_container container, void* pUserData, void* pUserDataMD, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac_init_info init; + ma_uint32 allocationSize; + ma_uint32 wholeSIMDVectorCountPerChannel; + ma_uint32 decodedSamplesAllocationSize; +#ifndef MA_DR_FLAC_NO_OGG + ma_dr_flac_oggbs* pOggbs = NULL; +#endif + ma_uint64 firstFramePos; + ma_uint64 seektablePos; + ma_uint32 seekpointCount; + ma_allocation_callbacks allocationCallbacks; + ma_dr_flac* pFlac; + ma_dr_flac__init_cpu_caps(); + if (!ma_dr_flac__init_private(&init, onRead, onSeek, onTell, onMeta, container, pUserData, pUserDataMD)) { + return NULL; + } + if (pAllocationCallbacks != NULL) { + allocationCallbacks = *pAllocationCallbacks; + if (allocationCallbacks.onFree == NULL || (allocationCallbacks.onMalloc == NULL && allocationCallbacks.onRealloc == NULL)) { + return NULL; + } + } else { + allocationCallbacks.pUserData = NULL; + allocationCallbacks.onMalloc = ma_dr_flac__malloc_default; + allocationCallbacks.onRealloc = ma_dr_flac__realloc_default; + allocationCallbacks.onFree = ma_dr_flac__free_default; + } + allocationSize = sizeof(ma_dr_flac); + if ((init.maxBlockSizeInPCMFrames % (MA_DR_FLAC_MAX_SIMD_VECTOR_SIZE / sizeof(ma_int32))) == 0) { + wholeSIMDVectorCountPerChannel = (init.maxBlockSizeInPCMFrames / (MA_DR_FLAC_MAX_SIMD_VECTOR_SIZE / sizeof(ma_int32))); + } else { + wholeSIMDVectorCountPerChannel = (init.maxBlockSizeInPCMFrames / (MA_DR_FLAC_MAX_SIMD_VECTOR_SIZE / sizeof(ma_int32))) + 1; + } + decodedSamplesAllocationSize = wholeSIMDVectorCountPerChannel * MA_DR_FLAC_MAX_SIMD_VECTOR_SIZE * init.channels; + allocationSize += decodedSamplesAllocationSize; + allocationSize += MA_DR_FLAC_MAX_SIMD_VECTOR_SIZE; +#ifndef MA_DR_FLAC_NO_OGG + if (init.container == ma_dr_flac_container_ogg) { + allocationSize += sizeof(ma_dr_flac_oggbs); + pOggbs = (ma_dr_flac_oggbs*)ma_dr_flac__malloc_from_callbacks(sizeof(*pOggbs), &allocationCallbacks); + if (pOggbs == NULL) { + return NULL; + } + MA_DR_FLAC_ZERO_MEMORY(pOggbs, sizeof(*pOggbs)); + pOggbs->onRead = onRead; + pOggbs->onSeek = onSeek; + pOggbs->onTell = onTell; + pOggbs->pUserData = pUserData; + pOggbs->currentBytePos = init.oggFirstBytePos; + pOggbs->firstBytePos = init.oggFirstBytePos; + pOggbs->serialNumber = init.oggSerial; + pOggbs->bosPageHeader = init.oggBosHeader; + pOggbs->bytesRemainingInPage = 0; + } +#endif + firstFramePos = 42; + seektablePos = 0; + seekpointCount = 0; + if (init.hasMetadataBlocks) { + ma_dr_flac_read_proc onReadOverride = onRead; + ma_dr_flac_seek_proc onSeekOverride = onSeek; + ma_dr_flac_tell_proc onTellOverride = onTell; + void* pUserDataOverride = pUserData; +#ifndef MA_DR_FLAC_NO_OGG + if (init.container == ma_dr_flac_container_ogg) { + onReadOverride = ma_dr_flac__on_read_ogg; + onSeekOverride = ma_dr_flac__on_seek_ogg; + onTellOverride = ma_dr_flac__on_tell_ogg; + pUserDataOverride = (void*)pOggbs; + } +#endif + if (!ma_dr_flac__read_and_decode_metadata(onReadOverride, onSeekOverride, onTellOverride, onMeta, pUserDataOverride, pUserDataMD, &firstFramePos, &seektablePos, &seekpointCount, &allocationCallbacks)) { + #ifndef MA_DR_FLAC_NO_OGG + ma_dr_flac__free_from_callbacks(pOggbs, &allocationCallbacks); + #endif + return NULL; + } + allocationSize += seekpointCount * sizeof(ma_dr_flac_seekpoint); + } + pFlac = (ma_dr_flac*)ma_dr_flac__malloc_from_callbacks(allocationSize, &allocationCallbacks); + if (pFlac == NULL) { + #ifndef MA_DR_FLAC_NO_OGG + ma_dr_flac__free_from_callbacks(pOggbs, &allocationCallbacks); + #endif + return NULL; + } + ma_dr_flac__init_from_info(pFlac, &init); + pFlac->allocationCallbacks = allocationCallbacks; + pFlac->pDecodedSamples = (ma_int32*)ma_dr_flac_align((size_t)pFlac->pExtraData, MA_DR_FLAC_MAX_SIMD_VECTOR_SIZE); +#ifndef MA_DR_FLAC_NO_OGG + if (init.container == ma_dr_flac_container_ogg) { + ma_dr_flac_oggbs* pInternalOggbs = (ma_dr_flac_oggbs*)((ma_uint8*)pFlac->pDecodedSamples + decodedSamplesAllocationSize + (seekpointCount * sizeof(ma_dr_flac_seekpoint))); + MA_DR_FLAC_COPY_MEMORY(pInternalOggbs, pOggbs, sizeof(*pOggbs)); + ma_dr_flac__free_from_callbacks(pOggbs, &allocationCallbacks); + pOggbs = NULL; + pFlac->bs.onRead = ma_dr_flac__on_read_ogg; + pFlac->bs.onSeek = ma_dr_flac__on_seek_ogg; + pFlac->bs.onTell = ma_dr_flac__on_tell_ogg; + pFlac->bs.pUserData = (void*)pInternalOggbs; + pFlac->_oggbs = (void*)pInternalOggbs; + } +#endif + pFlac->firstFLACFramePosInBytes = firstFramePos; +#ifndef MA_DR_FLAC_NO_OGG + if (init.container == ma_dr_flac_container_ogg) + { + pFlac->pSeekpoints = NULL; + pFlac->seekpointCount = 0; + } + else +#endif + { + if (seektablePos != 0) { + pFlac->seekpointCount = seekpointCount; + pFlac->pSeekpoints = (ma_dr_flac_seekpoint*)((ma_uint8*)pFlac->pDecodedSamples + decodedSamplesAllocationSize); + MA_DR_FLAC_ASSERT(pFlac->bs.onSeek != NULL); + MA_DR_FLAC_ASSERT(pFlac->bs.onRead != NULL); + if (pFlac->bs.onSeek(pFlac->bs.pUserData, (int)seektablePos, MA_DR_FLAC_SEEK_SET)) { + ma_uint32 iSeekpoint; + for (iSeekpoint = 0; iSeekpoint < seekpointCount; iSeekpoint += 1) { + if (pFlac->bs.onRead(pFlac->bs.pUserData, pFlac->pSeekpoints + iSeekpoint, MA_DR_FLAC_SEEKPOINT_SIZE_IN_BYTES) == MA_DR_FLAC_SEEKPOINT_SIZE_IN_BYTES) { + pFlac->pSeekpoints[iSeekpoint].firstPCMFrame = ma_dr_flac__be2host_64(pFlac->pSeekpoints[iSeekpoint].firstPCMFrame); + pFlac->pSeekpoints[iSeekpoint].flacFrameOffset = ma_dr_flac__be2host_64(pFlac->pSeekpoints[iSeekpoint].flacFrameOffset); + pFlac->pSeekpoints[iSeekpoint].pcmFrameCount = ma_dr_flac__be2host_16(pFlac->pSeekpoints[iSeekpoint].pcmFrameCount); + } else { + pFlac->pSeekpoints = NULL; + pFlac->seekpointCount = 0; + break; + } + } + if (!pFlac->bs.onSeek(pFlac->bs.pUserData, (int)pFlac->firstFLACFramePosInBytes, MA_DR_FLAC_SEEK_SET)) { + ma_dr_flac__free_from_callbacks(pFlac, &allocationCallbacks); + return NULL; + } + } else { + pFlac->pSeekpoints = NULL; + pFlac->seekpointCount = 0; + } + } + } + if (!init.hasStreamInfoBlock) { + pFlac->currentFLACFrame.header = init.firstFrameHeader; + for (;;) { + ma_result result = ma_dr_flac__decode_flac_frame(pFlac); + if (result == MA_SUCCESS) { + break; + } else { + if (result == MA_CRC_MISMATCH) { + if (!ma_dr_flac__read_next_flac_frame_header(&pFlac->bs, pFlac->bitsPerSample, &pFlac->currentFLACFrame.header)) { + ma_dr_flac__free_from_callbacks(pFlac, &allocationCallbacks); + return NULL; + } + continue; + } else { + ma_dr_flac__free_from_callbacks(pFlac, &allocationCallbacks); + return NULL; + } + } + } + } + return pFlac; +} +#ifndef MA_DR_FLAC_NO_STDIO +#include +#ifndef MA_DR_FLAC_NO_WCHAR +#include +#endif +static size_t ma_dr_flac__on_read_stdio(void* pUserData, void* bufferOut, size_t bytesToRead) +{ + return fread(bufferOut, 1, bytesToRead, (FILE*)pUserData); +} +static ma_bool32 ma_dr_flac__on_seek_stdio(void* pUserData, int offset, ma_dr_flac_seek_origin origin) +{ + int whence = SEEK_SET; + if (origin == MA_DR_FLAC_SEEK_CUR) { + whence = SEEK_CUR; + } else if (origin == MA_DR_FLAC_SEEK_END) { + whence = SEEK_END; + } + return fseek((FILE*)pUserData, offset, whence) == 0; +} +static ma_bool32 ma_dr_flac__on_tell_stdio(void* pUserData, ma_int64* pCursor) +{ + FILE* pFileStdio = (FILE*)pUserData; + ma_int64 result; + MA_DR_FLAC_ASSERT(pFileStdio != NULL); + MA_DR_FLAC_ASSERT(pCursor != NULL); +#if defined(_WIN32) && !defined(NXDK) + #if defined(_MSC_VER) && _MSC_VER > 1200 + result = _ftelli64(pFileStdio); + #else + result = ftell(pFileStdio); + #endif +#else + result = ftell(pFileStdio); +#endif + *pCursor = result; + return MA_TRUE; +} +MA_API ma_dr_flac* ma_dr_flac_open_file(const char* pFileName, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + FILE* pFile; + if (ma_fopen(&pFile, pFileName, "rb") != MA_SUCCESS) { + return NULL; + } + pFlac = ma_dr_flac_open(ma_dr_flac__on_read_stdio, ma_dr_flac__on_seek_stdio, ma_dr_flac__on_tell_stdio, (void*)pFile, pAllocationCallbacks); + if (pFlac == NULL) { + fclose(pFile); + return NULL; + } + return pFlac; +} +#ifndef MA_DR_FLAC_NO_WCHAR +MA_API ma_dr_flac* ma_dr_flac_open_file_w(const wchar_t* pFileName, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + FILE* pFile; + if (ma_wfopen(&pFile, pFileName, L"rb", pAllocationCallbacks) != MA_SUCCESS) { + return NULL; + } + pFlac = ma_dr_flac_open(ma_dr_flac__on_read_stdio, ma_dr_flac__on_seek_stdio, ma_dr_flac__on_tell_stdio, (void*)pFile, pAllocationCallbacks); + if (pFlac == NULL) { + fclose(pFile); + return NULL; + } + return pFlac; +} +#endif +MA_API ma_dr_flac* ma_dr_flac_open_file_with_metadata(const char* pFileName, ma_dr_flac_meta_proc onMeta, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + FILE* pFile; + if (ma_fopen(&pFile, pFileName, "rb") != MA_SUCCESS) { + return NULL; + } + pFlac = ma_dr_flac_open_with_metadata_private(ma_dr_flac__on_read_stdio, ma_dr_flac__on_seek_stdio, ma_dr_flac__on_tell_stdio, onMeta, ma_dr_flac_container_unknown, (void*)pFile, pUserData, pAllocationCallbacks); + if (pFlac == NULL) { + fclose(pFile); + return pFlac; + } + return pFlac; +} +#ifndef MA_DR_FLAC_NO_WCHAR +MA_API ma_dr_flac* ma_dr_flac_open_file_with_metadata_w(const wchar_t* pFileName, ma_dr_flac_meta_proc onMeta, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + FILE* pFile; + if (ma_wfopen(&pFile, pFileName, L"rb", pAllocationCallbacks) != MA_SUCCESS) { + return NULL; + } + pFlac = ma_dr_flac_open_with_metadata_private(ma_dr_flac__on_read_stdio, ma_dr_flac__on_seek_stdio, ma_dr_flac__on_tell_stdio, onMeta, ma_dr_flac_container_unknown, (void*)pFile, pUserData, pAllocationCallbacks); + if (pFlac == NULL) { + fclose(pFile); + return pFlac; + } + return pFlac; +} +#endif +#endif +static size_t ma_dr_flac__on_read_memory(void* pUserData, void* bufferOut, size_t bytesToRead) +{ + ma_dr_flac__memory_stream* memoryStream = (ma_dr_flac__memory_stream*)pUserData; + size_t bytesRemaining; + MA_DR_FLAC_ASSERT(memoryStream != NULL); + MA_DR_FLAC_ASSERT(memoryStream->dataSize >= memoryStream->currentReadPos); + bytesRemaining = memoryStream->dataSize - memoryStream->currentReadPos; + if (bytesToRead > bytesRemaining) { + bytesToRead = bytesRemaining; + } + if (bytesToRead > 0) { + MA_DR_FLAC_COPY_MEMORY(bufferOut, memoryStream->data + memoryStream->currentReadPos, bytesToRead); + memoryStream->currentReadPos += bytesToRead; + } + return bytesToRead; +} +static ma_bool32 ma_dr_flac__on_seek_memory(void* pUserData, int offset, ma_dr_flac_seek_origin origin) +{ + ma_dr_flac__memory_stream* memoryStream = (ma_dr_flac__memory_stream*)pUserData; + ma_int64 newCursor; + MA_DR_FLAC_ASSERT(memoryStream != NULL); + if (origin == MA_DR_FLAC_SEEK_SET) { + newCursor = 0; + } else if (origin == MA_DR_FLAC_SEEK_CUR) { + newCursor = (ma_int64)memoryStream->currentReadPos; + } else if (origin == MA_DR_FLAC_SEEK_END) { + newCursor = (ma_int64)memoryStream->dataSize; + } else { + MA_DR_FLAC_ASSERT(!"Invalid seek origin"); + return MA_FALSE; + } + newCursor += offset; + if (newCursor < 0) { + return MA_FALSE; + } + if ((size_t)newCursor > memoryStream->dataSize) { + return MA_FALSE; + } + memoryStream->currentReadPos = (size_t)newCursor; + return MA_TRUE; +} +static ma_bool32 ma_dr_flac__on_tell_memory(void* pUserData, ma_int64* pCursor) +{ + ma_dr_flac__memory_stream* memoryStream = (ma_dr_flac__memory_stream*)pUserData; + MA_DR_FLAC_ASSERT(memoryStream != NULL); + MA_DR_FLAC_ASSERT(pCursor != NULL); + *pCursor = (ma_int64)memoryStream->currentReadPos; + return MA_TRUE; +} +MA_API ma_dr_flac* ma_dr_flac_open_memory(const void* pData, size_t dataSize, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac__memory_stream memoryStream; + ma_dr_flac* pFlac; + memoryStream.data = (const ma_uint8*)pData; + memoryStream.dataSize = dataSize; + memoryStream.currentReadPos = 0; + pFlac = ma_dr_flac_open(ma_dr_flac__on_read_memory, ma_dr_flac__on_seek_memory, ma_dr_flac__on_tell_memory, &memoryStream, pAllocationCallbacks); + if (pFlac == NULL) { + return NULL; + } + pFlac->memoryStream = memoryStream; +#ifndef MA_DR_FLAC_NO_OGG + if (pFlac->container == ma_dr_flac_container_ogg) + { + ma_dr_flac_oggbs* oggbs = (ma_dr_flac_oggbs*)pFlac->_oggbs; + oggbs->pUserData = &pFlac->memoryStream; + } + else +#endif + { + pFlac->bs.pUserData = &pFlac->memoryStream; + } + return pFlac; +} +MA_API ma_dr_flac* ma_dr_flac_open_memory_with_metadata(const void* pData, size_t dataSize, ma_dr_flac_meta_proc onMeta, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac__memory_stream memoryStream; + ma_dr_flac* pFlac; + memoryStream.data = (const ma_uint8*)pData; + memoryStream.dataSize = dataSize; + memoryStream.currentReadPos = 0; + pFlac = ma_dr_flac_open_with_metadata_private(ma_dr_flac__on_read_memory, ma_dr_flac__on_seek_memory, ma_dr_flac__on_tell_memory, onMeta, ma_dr_flac_container_unknown, &memoryStream, pUserData, pAllocationCallbacks); + if (pFlac == NULL) { + return NULL; + } + pFlac->memoryStream = memoryStream; +#ifndef MA_DR_FLAC_NO_OGG + if (pFlac->container == ma_dr_flac_container_ogg) + { + ma_dr_flac_oggbs* oggbs = (ma_dr_flac_oggbs*)pFlac->_oggbs; + oggbs->pUserData = &pFlac->memoryStream; + } + else +#endif + { + pFlac->bs.pUserData = &pFlac->memoryStream; + } + return pFlac; +} +MA_API ma_dr_flac* ma_dr_flac_open(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_flac_open_with_metadata_private(onRead, onSeek, onTell, NULL, ma_dr_flac_container_unknown, pUserData, pUserData, pAllocationCallbacks); +} +MA_API ma_dr_flac* ma_dr_flac_open_relaxed(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, ma_dr_flac_container container, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_flac_open_with_metadata_private(onRead, onSeek, onTell, NULL, container, pUserData, pUserData, pAllocationCallbacks); +} +MA_API ma_dr_flac* ma_dr_flac_open_with_metadata(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, ma_dr_flac_meta_proc onMeta, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_flac_open_with_metadata_private(onRead, onSeek, onTell, onMeta, ma_dr_flac_container_unknown, pUserData, pUserData, pAllocationCallbacks); +} +MA_API ma_dr_flac* ma_dr_flac_open_with_metadata_relaxed(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, ma_dr_flac_meta_proc onMeta, ma_dr_flac_container container, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_flac_open_with_metadata_private(onRead, onSeek, onTell, onMeta, container, pUserData, pUserData, pAllocationCallbacks); +} +MA_API void ma_dr_flac_close(ma_dr_flac* pFlac) +{ + if (pFlac == NULL) { + return; + } +#ifndef MA_DR_FLAC_NO_STDIO + if (pFlac->bs.onRead == ma_dr_flac__on_read_stdio) { + fclose((FILE*)pFlac->bs.pUserData); + } +#ifndef MA_DR_FLAC_NO_OGG + if (pFlac->container == ma_dr_flac_container_ogg) { + ma_dr_flac_oggbs* oggbs = (ma_dr_flac_oggbs*)pFlac->_oggbs; + MA_DR_FLAC_ASSERT(pFlac->bs.onRead == ma_dr_flac__on_read_ogg); + if (oggbs->onRead == ma_dr_flac__on_read_stdio) { + fclose((FILE*)oggbs->pUserData); + } + } +#endif +#endif + ma_dr_flac__free_from_callbacks(pFlac, &pFlac->allocationCallbacks); +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_left_side__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + for (i = 0; i < frameCount; ++i) { + ma_uint32 left = (ma_uint32)pInputSamples0[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + ma_uint32 side = (ma_uint32)pInputSamples1[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + ma_uint32 right = left - side; + pOutputSamples[i*2+0] = (ma_int32)left; + pOutputSamples[i*2+1] = (ma_int32)right; + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_left_side__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 left0 = pInputSamples0U32[i*4+0] << shift0; + ma_uint32 left1 = pInputSamples0U32[i*4+1] << shift0; + ma_uint32 left2 = pInputSamples0U32[i*4+2] << shift0; + ma_uint32 left3 = pInputSamples0U32[i*4+3] << shift0; + ma_uint32 side0 = pInputSamples1U32[i*4+0] << shift1; + ma_uint32 side1 = pInputSamples1U32[i*4+1] << shift1; + ma_uint32 side2 = pInputSamples1U32[i*4+2] << shift1; + ma_uint32 side3 = pInputSamples1U32[i*4+3] << shift1; + ma_uint32 right0 = left0 - side0; + ma_uint32 right1 = left1 - side1; + ma_uint32 right2 = left2 - side2; + ma_uint32 right3 = left3 - side3; + pOutputSamples[i*8+0] = (ma_int32)left0; + pOutputSamples[i*8+1] = (ma_int32)right0; + pOutputSamples[i*8+2] = (ma_int32)left1; + pOutputSamples[i*8+3] = (ma_int32)right1; + pOutputSamples[i*8+4] = (ma_int32)left2; + pOutputSamples[i*8+5] = (ma_int32)right2; + pOutputSamples[i*8+6] = (ma_int32)left3; + pOutputSamples[i*8+7] = (ma_int32)right3; + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 left = pInputSamples0U32[i] << shift0; + ma_uint32 side = pInputSamples1U32[i] << shift1; + ma_uint32 right = left - side; + pOutputSamples[i*2+0] = (ma_int32)left; + pOutputSamples[i*2+1] = (ma_int32)right; + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_left_side__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + for (i = 0; i < frameCount4; ++i) { + __m128i left = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), shift0); + __m128i side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), shift1); + __m128i right = _mm_sub_epi32(left, side); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8 + 0), _mm_unpacklo_epi32(left, right)); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8 + 4), _mm_unpackhi_epi32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 left = pInputSamples0U32[i] << shift0; + ma_uint32 side = pInputSamples1U32[i] << shift1; + ma_uint32 right = left - side; + pOutputSamples[i*2+0] = (ma_int32)left; + pOutputSamples[i*2+1] = (ma_int32)right; + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_left_side__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + int32x4_t shift0_4; + int32x4_t shift1_4; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + shift0_4 = vdupq_n_s32(shift0); + shift1_4 = vdupq_n_s32(shift1); + for (i = 0; i < frameCount4; ++i) { + uint32x4_t left; + uint32x4_t side; + uint32x4_t right; + left = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), shift0_4); + side = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), shift1_4); + right = vsubq_u32(left, side); + ma_dr_flac__vst2q_u32((ma_uint32*)pOutputSamples + i*8, vzipq_u32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 left = pInputSamples0U32[i] << shift0; + ma_uint32 side = pInputSamples1U32[i] << shift1; + ma_uint32 right = left - side; + pOutputSamples[i*2+0] = (ma_int32)left; + pOutputSamples[i*2+1] = (ma_int32)right; + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_left_side(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s32__decode_left_side__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s32__decode_left_side__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_s32__decode_left_side__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_s32__decode_left_side__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_right_side__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + for (i = 0; i < frameCount; ++i) { + ma_uint32 side = (ma_uint32)pInputSamples0[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + ma_uint32 right = (ma_uint32)pInputSamples1[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + ma_uint32 left = right + side; + pOutputSamples[i*2+0] = (ma_int32)left; + pOutputSamples[i*2+1] = (ma_int32)right; + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_right_side__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 side0 = pInputSamples0U32[i*4+0] << shift0; + ma_uint32 side1 = pInputSamples0U32[i*4+1] << shift0; + ma_uint32 side2 = pInputSamples0U32[i*4+2] << shift0; + ma_uint32 side3 = pInputSamples0U32[i*4+3] << shift0; + ma_uint32 right0 = pInputSamples1U32[i*4+0] << shift1; + ma_uint32 right1 = pInputSamples1U32[i*4+1] << shift1; + ma_uint32 right2 = pInputSamples1U32[i*4+2] << shift1; + ma_uint32 right3 = pInputSamples1U32[i*4+3] << shift1; + ma_uint32 left0 = right0 + side0; + ma_uint32 left1 = right1 + side1; + ma_uint32 left2 = right2 + side2; + ma_uint32 left3 = right3 + side3; + pOutputSamples[i*8+0] = (ma_int32)left0; + pOutputSamples[i*8+1] = (ma_int32)right0; + pOutputSamples[i*8+2] = (ma_int32)left1; + pOutputSamples[i*8+3] = (ma_int32)right1; + pOutputSamples[i*8+4] = (ma_int32)left2; + pOutputSamples[i*8+5] = (ma_int32)right2; + pOutputSamples[i*8+6] = (ma_int32)left3; + pOutputSamples[i*8+7] = (ma_int32)right3; + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 side = pInputSamples0U32[i] << shift0; + ma_uint32 right = pInputSamples1U32[i] << shift1; + ma_uint32 left = right + side; + pOutputSamples[i*2+0] = (ma_int32)left; + pOutputSamples[i*2+1] = (ma_int32)right; + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_right_side__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + for (i = 0; i < frameCount4; ++i) { + __m128i side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), shift0); + __m128i right = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), shift1); + __m128i left = _mm_add_epi32(right, side); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8 + 0), _mm_unpacklo_epi32(left, right)); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8 + 4), _mm_unpackhi_epi32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 side = pInputSamples0U32[i] << shift0; + ma_uint32 right = pInputSamples1U32[i] << shift1; + ma_uint32 left = right + side; + pOutputSamples[i*2+0] = (ma_int32)left; + pOutputSamples[i*2+1] = (ma_int32)right; + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_right_side__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + int32x4_t shift0_4; + int32x4_t shift1_4; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + shift0_4 = vdupq_n_s32(shift0); + shift1_4 = vdupq_n_s32(shift1); + for (i = 0; i < frameCount4; ++i) { + uint32x4_t side; + uint32x4_t right; + uint32x4_t left; + side = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), shift0_4); + right = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), shift1_4); + left = vaddq_u32(right, side); + ma_dr_flac__vst2q_u32((ma_uint32*)pOutputSamples + i*8, vzipq_u32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 side = pInputSamples0U32[i] << shift0; + ma_uint32 right = pInputSamples1U32[i] << shift1; + ma_uint32 left = right + side; + pOutputSamples[i*2+0] = (ma_int32)left; + pOutputSamples[i*2+1] = (ma_int32)right; + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_right_side(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s32__decode_right_side__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s32__decode_right_side__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_s32__decode_right_side__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_s32__decode_right_side__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_mid_side__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + for (ma_uint64 i = 0; i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int32)((ma_uint32)((ma_int32)(mid + side) >> 1) << unusedBitsPerSample); + pOutputSamples[i*2+1] = (ma_int32)((ma_uint32)((ma_int32)(mid - side) >> 1) << unusedBitsPerSample); + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_mid_side__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_int32 shift = unusedBitsPerSample; + if (shift > 0) { + shift -= 1; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 temp0L; + ma_uint32 temp1L; + ma_uint32 temp2L; + ma_uint32 temp3L; + ma_uint32 temp0R; + ma_uint32 temp1R; + ma_uint32 temp2R; + ma_uint32 temp3R; + ma_uint32 mid0 = pInputSamples0U32[i*4+0] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid1 = pInputSamples0U32[i*4+1] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid2 = pInputSamples0U32[i*4+2] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid3 = pInputSamples0U32[i*4+3] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side0 = pInputSamples1U32[i*4+0] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side1 = pInputSamples1U32[i*4+1] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side2 = pInputSamples1U32[i*4+2] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side3 = pInputSamples1U32[i*4+3] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid0 = (mid0 << 1) | (side0 & 0x01); + mid1 = (mid1 << 1) | (side1 & 0x01); + mid2 = (mid2 << 1) | (side2 & 0x01); + mid3 = (mid3 << 1) | (side3 & 0x01); + temp0L = (mid0 + side0) << shift; + temp1L = (mid1 + side1) << shift; + temp2L = (mid2 + side2) << shift; + temp3L = (mid3 + side3) << shift; + temp0R = (mid0 - side0) << shift; + temp1R = (mid1 - side1) << shift; + temp2R = (mid2 - side2) << shift; + temp3R = (mid3 - side3) << shift; + pOutputSamples[i*8+0] = (ma_int32)temp0L; + pOutputSamples[i*8+1] = (ma_int32)temp0R; + pOutputSamples[i*8+2] = (ma_int32)temp1L; + pOutputSamples[i*8+3] = (ma_int32)temp1R; + pOutputSamples[i*8+4] = (ma_int32)temp2L; + pOutputSamples[i*8+5] = (ma_int32)temp2R; + pOutputSamples[i*8+6] = (ma_int32)temp3L; + pOutputSamples[i*8+7] = (ma_int32)temp3R; + } + } else { + for (i = 0; i < frameCount4; ++i) { + ma_uint32 temp0L; + ma_uint32 temp1L; + ma_uint32 temp2L; + ma_uint32 temp3L; + ma_uint32 temp0R; + ma_uint32 temp1R; + ma_uint32 temp2R; + ma_uint32 temp3R; + ma_uint32 mid0 = pInputSamples0U32[i*4+0] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid1 = pInputSamples0U32[i*4+1] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid2 = pInputSamples0U32[i*4+2] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid3 = pInputSamples0U32[i*4+3] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side0 = pInputSamples1U32[i*4+0] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side1 = pInputSamples1U32[i*4+1] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side2 = pInputSamples1U32[i*4+2] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side3 = pInputSamples1U32[i*4+3] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid0 = (mid0 << 1) | (side0 & 0x01); + mid1 = (mid1 << 1) | (side1 & 0x01); + mid2 = (mid2 << 1) | (side2 & 0x01); + mid3 = (mid3 << 1) | (side3 & 0x01); + temp0L = (ma_uint32)((ma_int32)(mid0 + side0) >> 1); + temp1L = (ma_uint32)((ma_int32)(mid1 + side1) >> 1); + temp2L = (ma_uint32)((ma_int32)(mid2 + side2) >> 1); + temp3L = (ma_uint32)((ma_int32)(mid3 + side3) >> 1); + temp0R = (ma_uint32)((ma_int32)(mid0 - side0) >> 1); + temp1R = (ma_uint32)((ma_int32)(mid1 - side1) >> 1); + temp2R = (ma_uint32)((ma_int32)(mid2 - side2) >> 1); + temp3R = (ma_uint32)((ma_int32)(mid3 - side3) >> 1); + pOutputSamples[i*8+0] = (ma_int32)temp0L; + pOutputSamples[i*8+1] = (ma_int32)temp0R; + pOutputSamples[i*8+2] = (ma_int32)temp1L; + pOutputSamples[i*8+3] = (ma_int32)temp1R; + pOutputSamples[i*8+4] = (ma_int32)temp2L; + pOutputSamples[i*8+5] = (ma_int32)temp2R; + pOutputSamples[i*8+6] = (ma_int32)temp3L; + pOutputSamples[i*8+7] = (ma_int32)temp3R; + } + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int32)((ma_uint32)((ma_int32)(mid + side) >> 1) << unusedBitsPerSample); + pOutputSamples[i*2+1] = (ma_int32)((ma_uint32)((ma_int32)(mid - side) >> 1) << unusedBitsPerSample); + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_mid_side__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_int32 shift = unusedBitsPerSample; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + if (shift == 0) { + for (i = 0; i < frameCount4; ++i) { + __m128i mid; + __m128i side; + __m128i left; + __m128i right; + mid = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + mid = _mm_or_si128(_mm_slli_epi32(mid, 1), _mm_and_si128(side, _mm_set1_epi32(0x01))); + left = _mm_srai_epi32(_mm_add_epi32(mid, side), 1); + right = _mm_srai_epi32(_mm_sub_epi32(mid, side), 1); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8 + 0), _mm_unpacklo_epi32(left, right)); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8 + 4), _mm_unpackhi_epi32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int32)(mid + side) >> 1; + pOutputSamples[i*2+1] = (ma_int32)(mid - side) >> 1; + } + } else { + shift -= 1; + for (i = 0; i < frameCount4; ++i) { + __m128i mid; + __m128i side; + __m128i left; + __m128i right; + mid = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + mid = _mm_or_si128(_mm_slli_epi32(mid, 1), _mm_and_si128(side, _mm_set1_epi32(0x01))); + left = _mm_slli_epi32(_mm_add_epi32(mid, side), shift); + right = _mm_slli_epi32(_mm_sub_epi32(mid, side), shift); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8 + 0), _mm_unpacklo_epi32(left, right)); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8 + 4), _mm_unpackhi_epi32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int32)((mid + side) << shift); + pOutputSamples[i*2+1] = (ma_int32)((mid - side) << shift); + } + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_mid_side__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_int32 shift = unusedBitsPerSample; + int32x4_t wbpsShift0_4; + int32x4_t wbpsShift1_4; + uint32x4_t one4; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + wbpsShift0_4 = vdupq_n_s32(pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + wbpsShift1_4 = vdupq_n_s32(pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + one4 = vdupq_n_u32(1); + if (shift == 0) { + for (i = 0; i < frameCount4; ++i) { + uint32x4_t mid; + uint32x4_t side; + int32x4_t left; + int32x4_t right; + mid = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), wbpsShift0_4); + side = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), wbpsShift1_4); + mid = vorrq_u32(vshlq_n_u32(mid, 1), vandq_u32(side, one4)); + left = vshrq_n_s32(vreinterpretq_s32_u32(vaddq_u32(mid, side)), 1); + right = vshrq_n_s32(vreinterpretq_s32_u32(vsubq_u32(mid, side)), 1); + ma_dr_flac__vst2q_s32(pOutputSamples + i*8, vzipq_s32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int32)(mid + side) >> 1; + pOutputSamples[i*2+1] = (ma_int32)(mid - side) >> 1; + } + } else { + int32x4_t shift4; + shift -= 1; + shift4 = vdupq_n_s32(shift); + for (i = 0; i < frameCount4; ++i) { + uint32x4_t mid; + uint32x4_t side; + int32x4_t left; + int32x4_t right; + mid = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), wbpsShift0_4); + side = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), wbpsShift1_4); + mid = vorrq_u32(vshlq_n_u32(mid, 1), vandq_u32(side, one4)); + left = vreinterpretq_s32_u32(vshlq_u32(vaddq_u32(mid, side), shift4)); + right = vreinterpretq_s32_u32(vshlq_u32(vsubq_u32(mid, side), shift4)); + ma_dr_flac__vst2q_s32(pOutputSamples + i*8, vzipq_s32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int32)((mid + side) << shift); + pOutputSamples[i*2+1] = (ma_int32)((mid - side) << shift); + } + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_mid_side(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s32__decode_mid_side__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s32__decode_mid_side__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_s32__decode_mid_side__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_s32__decode_mid_side__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_independent_stereo__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + for (ma_uint64 i = 0; i < frameCount; ++i) { + pOutputSamples[i*2+0] = (ma_int32)((ma_uint32)pInputSamples0[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample)); + pOutputSamples[i*2+1] = (ma_int32)((ma_uint32)pInputSamples1[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample)); + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_independent_stereo__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 tempL0 = pInputSamples0U32[i*4+0] << shift0; + ma_uint32 tempL1 = pInputSamples0U32[i*4+1] << shift0; + ma_uint32 tempL2 = pInputSamples0U32[i*4+2] << shift0; + ma_uint32 tempL3 = pInputSamples0U32[i*4+3] << shift0; + ma_uint32 tempR0 = pInputSamples1U32[i*4+0] << shift1; + ma_uint32 tempR1 = pInputSamples1U32[i*4+1] << shift1; + ma_uint32 tempR2 = pInputSamples1U32[i*4+2] << shift1; + ma_uint32 tempR3 = pInputSamples1U32[i*4+3] << shift1; + pOutputSamples[i*8+0] = (ma_int32)tempL0; + pOutputSamples[i*8+1] = (ma_int32)tempR0; + pOutputSamples[i*8+2] = (ma_int32)tempL1; + pOutputSamples[i*8+3] = (ma_int32)tempR1; + pOutputSamples[i*8+4] = (ma_int32)tempL2; + pOutputSamples[i*8+5] = (ma_int32)tempR2; + pOutputSamples[i*8+6] = (ma_int32)tempL3; + pOutputSamples[i*8+7] = (ma_int32)tempR3; + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + pOutputSamples[i*2+0] = (ma_int32)(pInputSamples0U32[i] << shift0); + pOutputSamples[i*2+1] = (ma_int32)(pInputSamples1U32[i] << shift1); + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_independent_stereo__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + for (i = 0; i < frameCount4; ++i) { + __m128i left = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), shift0); + __m128i right = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), shift1); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8 + 0), _mm_unpacklo_epi32(left, right)); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8 + 4), _mm_unpackhi_epi32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + pOutputSamples[i*2+0] = (ma_int32)(pInputSamples0U32[i] << shift0); + pOutputSamples[i*2+1] = (ma_int32)(pInputSamples1U32[i] << shift1); + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_independent_stereo__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + int32x4_t shift4_0 = vdupq_n_s32(shift0); + int32x4_t shift4_1 = vdupq_n_s32(shift1); + for (i = 0; i < frameCount4; ++i) { + int32x4_t left; + int32x4_t right; + left = vreinterpretq_s32_u32(vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), shift4_0)); + right = vreinterpretq_s32_u32(vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), shift4_1)); + ma_dr_flac__vst2q_s32(pOutputSamples + i*8, vzipq_s32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + pOutputSamples[i*2+0] = (ma_int32)(pInputSamples0U32[i] << shift0); + pOutputSamples[i*2+1] = (ma_int32)(pInputSamples1U32[i] << shift1); + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s32__decode_independent_stereo(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int32* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s32__decode_independent_stereo__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s32__decode_independent_stereo__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_s32__decode_independent_stereo__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_s32__decode_independent_stereo__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +MA_API ma_uint64 ma_dr_flac_read_pcm_frames_s32(ma_dr_flac* pFlac, ma_uint64 framesToRead, ma_int32* pBufferOut) +{ + ma_uint64 framesRead; + ma_uint32 unusedBitsPerSample; + if (pFlac == NULL || framesToRead == 0) { + return 0; + } + if (pBufferOut == NULL) { + return ma_dr_flac__seek_forward_by_pcm_frames(pFlac, framesToRead); + } + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 32); + unusedBitsPerSample = 32 - pFlac->bitsPerSample; + framesRead = 0; + while (framesToRead > 0) { + if (pFlac->currentFLACFrame.pcmFramesRemaining == 0) { + if (!ma_dr_flac__read_and_decode_next_flac_frame(pFlac)) { + break; + } + } else { + unsigned int channelCount = ma_dr_flac__get_channel_count_from_channel_assignment(pFlac->currentFLACFrame.header.channelAssignment); + ma_uint64 iFirstPCMFrame = pFlac->currentFLACFrame.header.blockSizeInPCMFrames - pFlac->currentFLACFrame.pcmFramesRemaining; + ma_uint64 frameCountThisIteration = framesToRead; + if (frameCountThisIteration > pFlac->currentFLACFrame.pcmFramesRemaining) { + frameCountThisIteration = pFlac->currentFLACFrame.pcmFramesRemaining; + } + if (channelCount == 2) { + const ma_int32* pDecodedSamples0 = pFlac->currentFLACFrame.subframes[0].pSamplesS32 + iFirstPCMFrame; + const ma_int32* pDecodedSamples1 = pFlac->currentFLACFrame.subframes[1].pSamplesS32 + iFirstPCMFrame; + switch (pFlac->currentFLACFrame.header.channelAssignment) + { + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_LEFT_SIDE: + { + ma_dr_flac_read_pcm_frames_s32__decode_left_side(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_RIGHT_SIDE: + { + ma_dr_flac_read_pcm_frames_s32__decode_right_side(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_MID_SIDE: + { + ma_dr_flac_read_pcm_frames_s32__decode_mid_side(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_INDEPENDENT: + default: + { + ma_dr_flac_read_pcm_frames_s32__decode_independent_stereo(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + } + } else { + ma_uint64 i; + for (i = 0; i < frameCountThisIteration; ++i) { + unsigned int j; + for (j = 0; j < channelCount; ++j) { + pBufferOut[(i*channelCount)+j] = (ma_int32)((ma_uint32)(pFlac->currentFLACFrame.subframes[j].pSamplesS32[iFirstPCMFrame + i]) << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[j].wastedBitsPerSample)); + } + } + } + framesRead += frameCountThisIteration; + pBufferOut += frameCountThisIteration * channelCount; + framesToRead -= frameCountThisIteration; + pFlac->currentPCMFrame += frameCountThisIteration; + pFlac->currentFLACFrame.pcmFramesRemaining -= (ma_uint32)frameCountThisIteration; + } + } + return framesRead; +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_left_side__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + for (i = 0; i < frameCount; ++i) { + ma_uint32 left = (ma_uint32)pInputSamples0[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + ma_uint32 side = (ma_uint32)pInputSamples1[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + ma_uint32 right = left - side; + left >>= 16; + right >>= 16; + pOutputSamples[i*2+0] = (ma_int16)left; + pOutputSamples[i*2+1] = (ma_int16)right; + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_left_side__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 left0 = pInputSamples0U32[i*4+0] << shift0; + ma_uint32 left1 = pInputSamples0U32[i*4+1] << shift0; + ma_uint32 left2 = pInputSamples0U32[i*4+2] << shift0; + ma_uint32 left3 = pInputSamples0U32[i*4+3] << shift0; + ma_uint32 side0 = pInputSamples1U32[i*4+0] << shift1; + ma_uint32 side1 = pInputSamples1U32[i*4+1] << shift1; + ma_uint32 side2 = pInputSamples1U32[i*4+2] << shift1; + ma_uint32 side3 = pInputSamples1U32[i*4+3] << shift1; + ma_uint32 right0 = left0 - side0; + ma_uint32 right1 = left1 - side1; + ma_uint32 right2 = left2 - side2; + ma_uint32 right3 = left3 - side3; + left0 >>= 16; + left1 >>= 16; + left2 >>= 16; + left3 >>= 16; + right0 >>= 16; + right1 >>= 16; + right2 >>= 16; + right3 >>= 16; + pOutputSamples[i*8+0] = (ma_int16)left0; + pOutputSamples[i*8+1] = (ma_int16)right0; + pOutputSamples[i*8+2] = (ma_int16)left1; + pOutputSamples[i*8+3] = (ma_int16)right1; + pOutputSamples[i*8+4] = (ma_int16)left2; + pOutputSamples[i*8+5] = (ma_int16)right2; + pOutputSamples[i*8+6] = (ma_int16)left3; + pOutputSamples[i*8+7] = (ma_int16)right3; + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 left = pInputSamples0U32[i] << shift0; + ma_uint32 side = pInputSamples1U32[i] << shift1; + ma_uint32 right = left - side; + left >>= 16; + right >>= 16; + pOutputSamples[i*2+0] = (ma_int16)left; + pOutputSamples[i*2+1] = (ma_int16)right; + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_left_side__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + for (i = 0; i < frameCount4; ++i) { + __m128i left = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), shift0); + __m128i side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), shift1); + __m128i right = _mm_sub_epi32(left, side); + left = _mm_srai_epi32(left, 16); + right = _mm_srai_epi32(right, 16); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8), ma_dr_flac__mm_packs_interleaved_epi32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 left = pInputSamples0U32[i] << shift0; + ma_uint32 side = pInputSamples1U32[i] << shift1; + ma_uint32 right = left - side; + left >>= 16; + right >>= 16; + pOutputSamples[i*2+0] = (ma_int16)left; + pOutputSamples[i*2+1] = (ma_int16)right; + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_left_side__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + int32x4_t shift0_4; + int32x4_t shift1_4; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + shift0_4 = vdupq_n_s32(shift0); + shift1_4 = vdupq_n_s32(shift1); + for (i = 0; i < frameCount4; ++i) { + uint32x4_t left; + uint32x4_t side; + uint32x4_t right; + left = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), shift0_4); + side = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), shift1_4); + right = vsubq_u32(left, side); + left = vshrq_n_u32(left, 16); + right = vshrq_n_u32(right, 16); + ma_dr_flac__vst2q_u16((ma_uint16*)pOutputSamples + i*8, vzip_u16(vmovn_u32(left), vmovn_u32(right))); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 left = pInputSamples0U32[i] << shift0; + ma_uint32 side = pInputSamples1U32[i] << shift1; + ma_uint32 right = left - side; + left >>= 16; + right >>= 16; + pOutputSamples[i*2+0] = (ma_int16)left; + pOutputSamples[i*2+1] = (ma_int16)right; + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_left_side(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s16__decode_left_side__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s16__decode_left_side__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_s16__decode_left_side__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_s16__decode_left_side__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_right_side__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + for (i = 0; i < frameCount; ++i) { + ma_uint32 side = (ma_uint32)pInputSamples0[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + ma_uint32 right = (ma_uint32)pInputSamples1[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + ma_uint32 left = right + side; + left >>= 16; + right >>= 16; + pOutputSamples[i*2+0] = (ma_int16)left; + pOutputSamples[i*2+1] = (ma_int16)right; + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_right_side__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 side0 = pInputSamples0U32[i*4+0] << shift0; + ma_uint32 side1 = pInputSamples0U32[i*4+1] << shift0; + ma_uint32 side2 = pInputSamples0U32[i*4+2] << shift0; + ma_uint32 side3 = pInputSamples0U32[i*4+3] << shift0; + ma_uint32 right0 = pInputSamples1U32[i*4+0] << shift1; + ma_uint32 right1 = pInputSamples1U32[i*4+1] << shift1; + ma_uint32 right2 = pInputSamples1U32[i*4+2] << shift1; + ma_uint32 right3 = pInputSamples1U32[i*4+3] << shift1; + ma_uint32 left0 = right0 + side0; + ma_uint32 left1 = right1 + side1; + ma_uint32 left2 = right2 + side2; + ma_uint32 left3 = right3 + side3; + left0 >>= 16; + left1 >>= 16; + left2 >>= 16; + left3 >>= 16; + right0 >>= 16; + right1 >>= 16; + right2 >>= 16; + right3 >>= 16; + pOutputSamples[i*8+0] = (ma_int16)left0; + pOutputSamples[i*8+1] = (ma_int16)right0; + pOutputSamples[i*8+2] = (ma_int16)left1; + pOutputSamples[i*8+3] = (ma_int16)right1; + pOutputSamples[i*8+4] = (ma_int16)left2; + pOutputSamples[i*8+5] = (ma_int16)right2; + pOutputSamples[i*8+6] = (ma_int16)left3; + pOutputSamples[i*8+7] = (ma_int16)right3; + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 side = pInputSamples0U32[i] << shift0; + ma_uint32 right = pInputSamples1U32[i] << shift1; + ma_uint32 left = right + side; + left >>= 16; + right >>= 16; + pOutputSamples[i*2+0] = (ma_int16)left; + pOutputSamples[i*2+1] = (ma_int16)right; + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_right_side__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + for (i = 0; i < frameCount4; ++i) { + __m128i side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), shift0); + __m128i right = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), shift1); + __m128i left = _mm_add_epi32(right, side); + left = _mm_srai_epi32(left, 16); + right = _mm_srai_epi32(right, 16); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8), ma_dr_flac__mm_packs_interleaved_epi32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 side = pInputSamples0U32[i] << shift0; + ma_uint32 right = pInputSamples1U32[i] << shift1; + ma_uint32 left = right + side; + left >>= 16; + right >>= 16; + pOutputSamples[i*2+0] = (ma_int16)left; + pOutputSamples[i*2+1] = (ma_int16)right; + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_right_side__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + int32x4_t shift0_4; + int32x4_t shift1_4; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + shift0_4 = vdupq_n_s32(shift0); + shift1_4 = vdupq_n_s32(shift1); + for (i = 0; i < frameCount4; ++i) { + uint32x4_t side; + uint32x4_t right; + uint32x4_t left; + side = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), shift0_4); + right = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), shift1_4); + left = vaddq_u32(right, side); + left = vshrq_n_u32(left, 16); + right = vshrq_n_u32(right, 16); + ma_dr_flac__vst2q_u16((ma_uint16*)pOutputSamples + i*8, vzip_u16(vmovn_u32(left), vmovn_u32(right))); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 side = pInputSamples0U32[i] << shift0; + ma_uint32 right = pInputSamples1U32[i] << shift1; + ma_uint32 left = right + side; + left >>= 16; + right >>= 16; + pOutputSamples[i*2+0] = (ma_int16)left; + pOutputSamples[i*2+1] = (ma_int16)right; + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_right_side(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s16__decode_right_side__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s16__decode_right_side__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_s16__decode_right_side__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_s16__decode_right_side__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_mid_side__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + for (ma_uint64 i = 0; i < frameCount; ++i) { + ma_uint32 mid = (ma_uint32)pInputSamples0[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = (ma_uint32)pInputSamples1[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int16)(((ma_uint32)((ma_int32)(mid + side) >> 1) << unusedBitsPerSample) >> 16); + pOutputSamples[i*2+1] = (ma_int16)(((ma_uint32)((ma_int32)(mid - side) >> 1) << unusedBitsPerSample) >> 16); + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_mid_side__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift = unusedBitsPerSample; + if (shift > 0) { + shift -= 1; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 temp0L; + ma_uint32 temp1L; + ma_uint32 temp2L; + ma_uint32 temp3L; + ma_uint32 temp0R; + ma_uint32 temp1R; + ma_uint32 temp2R; + ma_uint32 temp3R; + ma_uint32 mid0 = pInputSamples0U32[i*4+0] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid1 = pInputSamples0U32[i*4+1] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid2 = pInputSamples0U32[i*4+2] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid3 = pInputSamples0U32[i*4+3] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side0 = pInputSamples1U32[i*4+0] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side1 = pInputSamples1U32[i*4+1] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side2 = pInputSamples1U32[i*4+2] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side3 = pInputSamples1U32[i*4+3] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid0 = (mid0 << 1) | (side0 & 0x01); + mid1 = (mid1 << 1) | (side1 & 0x01); + mid2 = (mid2 << 1) | (side2 & 0x01); + mid3 = (mid3 << 1) | (side3 & 0x01); + temp0L = (mid0 + side0) << shift; + temp1L = (mid1 + side1) << shift; + temp2L = (mid2 + side2) << shift; + temp3L = (mid3 + side3) << shift; + temp0R = (mid0 - side0) << shift; + temp1R = (mid1 - side1) << shift; + temp2R = (mid2 - side2) << shift; + temp3R = (mid3 - side3) << shift; + temp0L >>= 16; + temp1L >>= 16; + temp2L >>= 16; + temp3L >>= 16; + temp0R >>= 16; + temp1R >>= 16; + temp2R >>= 16; + temp3R >>= 16; + pOutputSamples[i*8+0] = (ma_int16)temp0L; + pOutputSamples[i*8+1] = (ma_int16)temp0R; + pOutputSamples[i*8+2] = (ma_int16)temp1L; + pOutputSamples[i*8+3] = (ma_int16)temp1R; + pOutputSamples[i*8+4] = (ma_int16)temp2L; + pOutputSamples[i*8+5] = (ma_int16)temp2R; + pOutputSamples[i*8+6] = (ma_int16)temp3L; + pOutputSamples[i*8+7] = (ma_int16)temp3R; + } + } else { + for (i = 0; i < frameCount4; ++i) { + ma_uint32 temp0L; + ma_uint32 temp1L; + ma_uint32 temp2L; + ma_uint32 temp3L; + ma_uint32 temp0R; + ma_uint32 temp1R; + ma_uint32 temp2R; + ma_uint32 temp3R; + ma_uint32 mid0 = pInputSamples0U32[i*4+0] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid1 = pInputSamples0U32[i*4+1] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid2 = pInputSamples0U32[i*4+2] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid3 = pInputSamples0U32[i*4+3] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side0 = pInputSamples1U32[i*4+0] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side1 = pInputSamples1U32[i*4+1] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side2 = pInputSamples1U32[i*4+2] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side3 = pInputSamples1U32[i*4+3] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid0 = (mid0 << 1) | (side0 & 0x01); + mid1 = (mid1 << 1) | (side1 & 0x01); + mid2 = (mid2 << 1) | (side2 & 0x01); + mid3 = (mid3 << 1) | (side3 & 0x01); + temp0L = ((ma_int32)(mid0 + side0) >> 1); + temp1L = ((ma_int32)(mid1 + side1) >> 1); + temp2L = ((ma_int32)(mid2 + side2) >> 1); + temp3L = ((ma_int32)(mid3 + side3) >> 1); + temp0R = ((ma_int32)(mid0 - side0) >> 1); + temp1R = ((ma_int32)(mid1 - side1) >> 1); + temp2R = ((ma_int32)(mid2 - side2) >> 1); + temp3R = ((ma_int32)(mid3 - side3) >> 1); + temp0L >>= 16; + temp1L >>= 16; + temp2L >>= 16; + temp3L >>= 16; + temp0R >>= 16; + temp1R >>= 16; + temp2R >>= 16; + temp3R >>= 16; + pOutputSamples[i*8+0] = (ma_int16)temp0L; + pOutputSamples[i*8+1] = (ma_int16)temp0R; + pOutputSamples[i*8+2] = (ma_int16)temp1L; + pOutputSamples[i*8+3] = (ma_int16)temp1R; + pOutputSamples[i*8+4] = (ma_int16)temp2L; + pOutputSamples[i*8+5] = (ma_int16)temp2R; + pOutputSamples[i*8+6] = (ma_int16)temp3L; + pOutputSamples[i*8+7] = (ma_int16)temp3R; + } + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int16)(((ma_uint32)((ma_int32)(mid + side) >> 1) << unusedBitsPerSample) >> 16); + pOutputSamples[i*2+1] = (ma_int16)(((ma_uint32)((ma_int32)(mid - side) >> 1) << unusedBitsPerSample) >> 16); + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_mid_side__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift = unusedBitsPerSample; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + if (shift == 0) { + for (i = 0; i < frameCount4; ++i) { + __m128i mid; + __m128i side; + __m128i left; + __m128i right; + mid = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + mid = _mm_or_si128(_mm_slli_epi32(mid, 1), _mm_and_si128(side, _mm_set1_epi32(0x01))); + left = _mm_srai_epi32(_mm_add_epi32(mid, side), 1); + right = _mm_srai_epi32(_mm_sub_epi32(mid, side), 1); + left = _mm_srai_epi32(left, 16); + right = _mm_srai_epi32(right, 16); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8), ma_dr_flac__mm_packs_interleaved_epi32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int16)(((ma_int32)(mid + side) >> 1) >> 16); + pOutputSamples[i*2+1] = (ma_int16)(((ma_int32)(mid - side) >> 1) >> 16); + } + } else { + shift -= 1; + for (i = 0; i < frameCount4; ++i) { + __m128i mid; + __m128i side; + __m128i left; + __m128i right; + mid = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + mid = _mm_or_si128(_mm_slli_epi32(mid, 1), _mm_and_si128(side, _mm_set1_epi32(0x01))); + left = _mm_slli_epi32(_mm_add_epi32(mid, side), shift); + right = _mm_slli_epi32(_mm_sub_epi32(mid, side), shift); + left = _mm_srai_epi32(left, 16); + right = _mm_srai_epi32(right, 16); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8), ma_dr_flac__mm_packs_interleaved_epi32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int16)(((mid + side) << shift) >> 16); + pOutputSamples[i*2+1] = (ma_int16)(((mid - side) << shift) >> 16); + } + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_mid_side__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift = unusedBitsPerSample; + int32x4_t wbpsShift0_4; + int32x4_t wbpsShift1_4; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + wbpsShift0_4 = vdupq_n_s32(pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + wbpsShift1_4 = vdupq_n_s32(pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + if (shift == 0) { + for (i = 0; i < frameCount4; ++i) { + uint32x4_t mid; + uint32x4_t side; + int32x4_t left; + int32x4_t right; + mid = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), wbpsShift0_4); + side = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), wbpsShift1_4); + mid = vorrq_u32(vshlq_n_u32(mid, 1), vandq_u32(side, vdupq_n_u32(1))); + left = vshrq_n_s32(vreinterpretq_s32_u32(vaddq_u32(mid, side)), 1); + right = vshrq_n_s32(vreinterpretq_s32_u32(vsubq_u32(mid, side)), 1); + left = vshrq_n_s32(left, 16); + right = vshrq_n_s32(right, 16); + ma_dr_flac__vst2q_s16(pOutputSamples + i*8, vzip_s16(vmovn_s32(left), vmovn_s32(right))); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int16)(((ma_int32)(mid + side) >> 1) >> 16); + pOutputSamples[i*2+1] = (ma_int16)(((ma_int32)(mid - side) >> 1) >> 16); + } + } else { + int32x4_t shift4; + shift -= 1; + shift4 = vdupq_n_s32(shift); + for (i = 0; i < frameCount4; ++i) { + uint32x4_t mid; + uint32x4_t side; + int32x4_t left; + int32x4_t right; + mid = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), wbpsShift0_4); + side = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), wbpsShift1_4); + mid = vorrq_u32(vshlq_n_u32(mid, 1), vandq_u32(side, vdupq_n_u32(1))); + left = vreinterpretq_s32_u32(vshlq_u32(vaddq_u32(mid, side), shift4)); + right = vreinterpretq_s32_u32(vshlq_u32(vsubq_u32(mid, side), shift4)); + left = vshrq_n_s32(left, 16); + right = vshrq_n_s32(right, 16); + ma_dr_flac__vst2q_s16(pOutputSamples + i*8, vzip_s16(vmovn_s32(left), vmovn_s32(right))); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int16)(((mid + side) << shift) >> 16); + pOutputSamples[i*2+1] = (ma_int16)(((mid - side) << shift) >> 16); + } + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_mid_side(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s16__decode_mid_side__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s16__decode_mid_side__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_s16__decode_mid_side__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_s16__decode_mid_side__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_independent_stereo__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + for (ma_uint64 i = 0; i < frameCount; ++i) { + pOutputSamples[i*2+0] = (ma_int16)((ma_int32)((ma_uint32)pInputSamples0[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample)) >> 16); + pOutputSamples[i*2+1] = (ma_int16)((ma_int32)((ma_uint32)pInputSamples1[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample)) >> 16); + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_independent_stereo__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 tempL0 = pInputSamples0U32[i*4+0] << shift0; + ma_uint32 tempL1 = pInputSamples0U32[i*4+1] << shift0; + ma_uint32 tempL2 = pInputSamples0U32[i*4+2] << shift0; + ma_uint32 tempL3 = pInputSamples0U32[i*4+3] << shift0; + ma_uint32 tempR0 = pInputSamples1U32[i*4+0] << shift1; + ma_uint32 tempR1 = pInputSamples1U32[i*4+1] << shift1; + ma_uint32 tempR2 = pInputSamples1U32[i*4+2] << shift1; + ma_uint32 tempR3 = pInputSamples1U32[i*4+3] << shift1; + tempL0 >>= 16; + tempL1 >>= 16; + tempL2 >>= 16; + tempL3 >>= 16; + tempR0 >>= 16; + tempR1 >>= 16; + tempR2 >>= 16; + tempR3 >>= 16; + pOutputSamples[i*8+0] = (ma_int16)tempL0; + pOutputSamples[i*8+1] = (ma_int16)tempR0; + pOutputSamples[i*8+2] = (ma_int16)tempL1; + pOutputSamples[i*8+3] = (ma_int16)tempR1; + pOutputSamples[i*8+4] = (ma_int16)tempL2; + pOutputSamples[i*8+5] = (ma_int16)tempR2; + pOutputSamples[i*8+6] = (ma_int16)tempL3; + pOutputSamples[i*8+7] = (ma_int16)tempR3; + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + pOutputSamples[i*2+0] = (ma_int16)((pInputSamples0U32[i] << shift0) >> 16); + pOutputSamples[i*2+1] = (ma_int16)((pInputSamples1U32[i] << shift1) >> 16); + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_independent_stereo__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + for (i = 0; i < frameCount4; ++i) { + __m128i left = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), shift0); + __m128i right = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), shift1); + left = _mm_srai_epi32(left, 16); + right = _mm_srai_epi32(right, 16); + _mm_storeu_si128((__m128i*)(pOutputSamples + i*8), ma_dr_flac__mm_packs_interleaved_epi32(left, right)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + pOutputSamples[i*2+0] = (ma_int16)((pInputSamples0U32[i] << shift0) >> 16); + pOutputSamples[i*2+1] = (ma_int16)((pInputSamples1U32[i] << shift1) >> 16); + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_independent_stereo__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + int32x4_t shift0_4 = vdupq_n_s32(shift0); + int32x4_t shift1_4 = vdupq_n_s32(shift1); + for (i = 0; i < frameCount4; ++i) { + int32x4_t left; + int32x4_t right; + left = vreinterpretq_s32_u32(vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), shift0_4)); + right = vreinterpretq_s32_u32(vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), shift1_4)); + left = vshrq_n_s32(left, 16); + right = vshrq_n_s32(right, 16); + ma_dr_flac__vst2q_s16(pOutputSamples + i*8, vzip_s16(vmovn_s32(left), vmovn_s32(right))); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + pOutputSamples[i*2+0] = (ma_int16)((pInputSamples0U32[i] << shift0) >> 16); + pOutputSamples[i*2+1] = (ma_int16)((pInputSamples1U32[i] << shift1) >> 16); + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_s16__decode_independent_stereo(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, ma_int16* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s16__decode_independent_stereo__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_s16__decode_independent_stereo__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_s16__decode_independent_stereo__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_s16__decode_independent_stereo__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +MA_API ma_uint64 ma_dr_flac_read_pcm_frames_s16(ma_dr_flac* pFlac, ma_uint64 framesToRead, ma_int16* pBufferOut) +{ + ma_uint64 framesRead; + ma_uint32 unusedBitsPerSample; + if (pFlac == NULL || framesToRead == 0) { + return 0; + } + if (pBufferOut == NULL) { + return ma_dr_flac__seek_forward_by_pcm_frames(pFlac, framesToRead); + } + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 32); + unusedBitsPerSample = 32 - pFlac->bitsPerSample; + framesRead = 0; + while (framesToRead > 0) { + if (pFlac->currentFLACFrame.pcmFramesRemaining == 0) { + if (!ma_dr_flac__read_and_decode_next_flac_frame(pFlac)) { + break; + } + } else { + unsigned int channelCount = ma_dr_flac__get_channel_count_from_channel_assignment(pFlac->currentFLACFrame.header.channelAssignment); + ma_uint64 iFirstPCMFrame = pFlac->currentFLACFrame.header.blockSizeInPCMFrames - pFlac->currentFLACFrame.pcmFramesRemaining; + ma_uint64 frameCountThisIteration = framesToRead; + if (frameCountThisIteration > pFlac->currentFLACFrame.pcmFramesRemaining) { + frameCountThisIteration = pFlac->currentFLACFrame.pcmFramesRemaining; + } + if (channelCount == 2) { + const ma_int32* pDecodedSamples0 = pFlac->currentFLACFrame.subframes[0].pSamplesS32 + iFirstPCMFrame; + const ma_int32* pDecodedSamples1 = pFlac->currentFLACFrame.subframes[1].pSamplesS32 + iFirstPCMFrame; + switch (pFlac->currentFLACFrame.header.channelAssignment) + { + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_LEFT_SIDE: + { + ma_dr_flac_read_pcm_frames_s16__decode_left_side(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_RIGHT_SIDE: + { + ma_dr_flac_read_pcm_frames_s16__decode_right_side(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_MID_SIDE: + { + ma_dr_flac_read_pcm_frames_s16__decode_mid_side(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_INDEPENDENT: + default: + { + ma_dr_flac_read_pcm_frames_s16__decode_independent_stereo(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + } + } else { + ma_uint64 i; + for (i = 0; i < frameCountThisIteration; ++i) { + unsigned int j; + for (j = 0; j < channelCount; ++j) { + ma_int32 sampleS32 = (ma_int32)((ma_uint32)(pFlac->currentFLACFrame.subframes[j].pSamplesS32[iFirstPCMFrame + i]) << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[j].wastedBitsPerSample)); + pBufferOut[(i*channelCount)+j] = (ma_int16)(sampleS32 >> 16); + } + } + } + framesRead += frameCountThisIteration; + pBufferOut += frameCountThisIteration * channelCount; + framesToRead -= frameCountThisIteration; + pFlac->currentPCMFrame += frameCountThisIteration; + pFlac->currentFLACFrame.pcmFramesRemaining -= (ma_uint32)frameCountThisIteration; + } + } + return framesRead; +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_left_side__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + for (i = 0; i < frameCount; ++i) { + ma_uint32 left = (ma_uint32)pInputSamples0[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + ma_uint32 side = (ma_uint32)pInputSamples1[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + ma_uint32 right = left - side; + pOutputSamples[i*2+0] = (float)((ma_int32)left / 2147483648.0); + pOutputSamples[i*2+1] = (float)((ma_int32)right / 2147483648.0); + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_left_side__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + float factor = 1 / 2147483648.0; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 left0 = pInputSamples0U32[i*4+0] << shift0; + ma_uint32 left1 = pInputSamples0U32[i*4+1] << shift0; + ma_uint32 left2 = pInputSamples0U32[i*4+2] << shift0; + ma_uint32 left3 = pInputSamples0U32[i*4+3] << shift0; + ma_uint32 side0 = pInputSamples1U32[i*4+0] << shift1; + ma_uint32 side1 = pInputSamples1U32[i*4+1] << shift1; + ma_uint32 side2 = pInputSamples1U32[i*4+2] << shift1; + ma_uint32 side3 = pInputSamples1U32[i*4+3] << shift1; + ma_uint32 right0 = left0 - side0; + ma_uint32 right1 = left1 - side1; + ma_uint32 right2 = left2 - side2; + ma_uint32 right3 = left3 - side3; + pOutputSamples[i*8+0] = (ma_int32)left0 * factor; + pOutputSamples[i*8+1] = (ma_int32)right0 * factor; + pOutputSamples[i*8+2] = (ma_int32)left1 * factor; + pOutputSamples[i*8+3] = (ma_int32)right1 * factor; + pOutputSamples[i*8+4] = (ma_int32)left2 * factor; + pOutputSamples[i*8+5] = (ma_int32)right2 * factor; + pOutputSamples[i*8+6] = (ma_int32)left3 * factor; + pOutputSamples[i*8+7] = (ma_int32)right3 * factor; + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 left = pInputSamples0U32[i] << shift0; + ma_uint32 side = pInputSamples1U32[i] << shift1; + ma_uint32 right = left - side; + pOutputSamples[i*2+0] = (ma_int32)left * factor; + pOutputSamples[i*2+1] = (ma_int32)right * factor; + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_left_side__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample) - 8; + ma_uint32 shift1 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample) - 8; + __m128 factor; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + factor = _mm_set1_ps(1.0f / 8388608.0f); + for (i = 0; i < frameCount4; ++i) { + __m128i left = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), shift0); + __m128i side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), shift1); + __m128i right = _mm_sub_epi32(left, side); + __m128 leftf = _mm_mul_ps(_mm_cvtepi32_ps(left), factor); + __m128 rightf = _mm_mul_ps(_mm_cvtepi32_ps(right), factor); + _mm_storeu_ps(pOutputSamples + i*8 + 0, _mm_unpacklo_ps(leftf, rightf)); + _mm_storeu_ps(pOutputSamples + i*8 + 4, _mm_unpackhi_ps(leftf, rightf)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 left = pInputSamples0U32[i] << shift0; + ma_uint32 side = pInputSamples1U32[i] << shift1; + ma_uint32 right = left - side; + pOutputSamples[i*2+0] = (ma_int32)left / 8388608.0f; + pOutputSamples[i*2+1] = (ma_int32)right / 8388608.0f; + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_left_side__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample) - 8; + ma_uint32 shift1 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample) - 8; + float32x4_t factor4; + int32x4_t shift0_4; + int32x4_t shift1_4; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + factor4 = vdupq_n_f32(1.0f / 8388608.0f); + shift0_4 = vdupq_n_s32(shift0); + shift1_4 = vdupq_n_s32(shift1); + for (i = 0; i < frameCount4; ++i) { + uint32x4_t left; + uint32x4_t side; + uint32x4_t right; + float32x4_t leftf; + float32x4_t rightf; + left = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), shift0_4); + side = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), shift1_4); + right = vsubq_u32(left, side); + leftf = vmulq_f32(vcvtq_f32_s32(vreinterpretq_s32_u32(left)), factor4); + rightf = vmulq_f32(vcvtq_f32_s32(vreinterpretq_s32_u32(right)), factor4); + ma_dr_flac__vst2q_f32(pOutputSamples + i*8, vzipq_f32(leftf, rightf)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 left = pInputSamples0U32[i] << shift0; + ma_uint32 side = pInputSamples1U32[i] << shift1; + ma_uint32 right = left - side; + pOutputSamples[i*2+0] = (ma_int32)left / 8388608.0f; + pOutputSamples[i*2+1] = (ma_int32)right / 8388608.0f; + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_left_side(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_f32__decode_left_side__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_f32__decode_left_side__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_f32__decode_left_side__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_f32__decode_left_side__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_right_side__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + for (i = 0; i < frameCount; ++i) { + ma_uint32 side = (ma_uint32)pInputSamples0[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + ma_uint32 right = (ma_uint32)pInputSamples1[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + ma_uint32 left = right + side; + pOutputSamples[i*2+0] = (float)((ma_int32)left / 2147483648.0); + pOutputSamples[i*2+1] = (float)((ma_int32)right / 2147483648.0); + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_right_side__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + float factor = 1 / 2147483648.0; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 side0 = pInputSamples0U32[i*4+0] << shift0; + ma_uint32 side1 = pInputSamples0U32[i*4+1] << shift0; + ma_uint32 side2 = pInputSamples0U32[i*4+2] << shift0; + ma_uint32 side3 = pInputSamples0U32[i*4+3] << shift0; + ma_uint32 right0 = pInputSamples1U32[i*4+0] << shift1; + ma_uint32 right1 = pInputSamples1U32[i*4+1] << shift1; + ma_uint32 right2 = pInputSamples1U32[i*4+2] << shift1; + ma_uint32 right3 = pInputSamples1U32[i*4+3] << shift1; + ma_uint32 left0 = right0 + side0; + ma_uint32 left1 = right1 + side1; + ma_uint32 left2 = right2 + side2; + ma_uint32 left3 = right3 + side3; + pOutputSamples[i*8+0] = (ma_int32)left0 * factor; + pOutputSamples[i*8+1] = (ma_int32)right0 * factor; + pOutputSamples[i*8+2] = (ma_int32)left1 * factor; + pOutputSamples[i*8+3] = (ma_int32)right1 * factor; + pOutputSamples[i*8+4] = (ma_int32)left2 * factor; + pOutputSamples[i*8+5] = (ma_int32)right2 * factor; + pOutputSamples[i*8+6] = (ma_int32)left3 * factor; + pOutputSamples[i*8+7] = (ma_int32)right3 * factor; + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 side = pInputSamples0U32[i] << shift0; + ma_uint32 right = pInputSamples1U32[i] << shift1; + ma_uint32 left = right + side; + pOutputSamples[i*2+0] = (ma_int32)left * factor; + pOutputSamples[i*2+1] = (ma_int32)right * factor; + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_right_side__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample) - 8; + ma_uint32 shift1 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample) - 8; + __m128 factor; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + factor = _mm_set1_ps(1.0f / 8388608.0f); + for (i = 0; i < frameCount4; ++i) { + __m128i side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), shift0); + __m128i right = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), shift1); + __m128i left = _mm_add_epi32(right, side); + __m128 leftf = _mm_mul_ps(_mm_cvtepi32_ps(left), factor); + __m128 rightf = _mm_mul_ps(_mm_cvtepi32_ps(right), factor); + _mm_storeu_ps(pOutputSamples + i*8 + 0, _mm_unpacklo_ps(leftf, rightf)); + _mm_storeu_ps(pOutputSamples + i*8 + 4, _mm_unpackhi_ps(leftf, rightf)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 side = pInputSamples0U32[i] << shift0; + ma_uint32 right = pInputSamples1U32[i] << shift1; + ma_uint32 left = right + side; + pOutputSamples[i*2+0] = (ma_int32)left / 8388608.0f; + pOutputSamples[i*2+1] = (ma_int32)right / 8388608.0f; + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_right_side__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample) - 8; + ma_uint32 shift1 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample) - 8; + float32x4_t factor4; + int32x4_t shift0_4; + int32x4_t shift1_4; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + factor4 = vdupq_n_f32(1.0f / 8388608.0f); + shift0_4 = vdupq_n_s32(shift0); + shift1_4 = vdupq_n_s32(shift1); + for (i = 0; i < frameCount4; ++i) { + uint32x4_t side; + uint32x4_t right; + uint32x4_t left; + float32x4_t leftf; + float32x4_t rightf; + side = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), shift0_4); + right = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), shift1_4); + left = vaddq_u32(right, side); + leftf = vmulq_f32(vcvtq_f32_s32(vreinterpretq_s32_u32(left)), factor4); + rightf = vmulq_f32(vcvtq_f32_s32(vreinterpretq_s32_u32(right)), factor4); + ma_dr_flac__vst2q_f32(pOutputSamples + i*8, vzipq_f32(leftf, rightf)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 side = pInputSamples0U32[i] << shift0; + ma_uint32 right = pInputSamples1U32[i] << shift1; + ma_uint32 left = right + side; + pOutputSamples[i*2+0] = (ma_int32)left / 8388608.0f; + pOutputSamples[i*2+1] = (ma_int32)right / 8388608.0f; + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_right_side(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_f32__decode_right_side__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_f32__decode_right_side__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_f32__decode_right_side__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_f32__decode_right_side__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_mid_side__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + for (ma_uint64 i = 0; i < frameCount; ++i) { + ma_uint32 mid = (ma_uint32)pInputSamples0[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = (ma_uint32)pInputSamples1[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (float)((((ma_int32)(mid + side) >> 1) << (unusedBitsPerSample)) / 2147483648.0); + pOutputSamples[i*2+1] = (float)((((ma_int32)(mid - side) >> 1) << (unusedBitsPerSample)) / 2147483648.0); + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_mid_side__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift = unusedBitsPerSample; + float factor = 1 / 2147483648.0; + if (shift > 0) { + shift -= 1; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 temp0L; + ma_uint32 temp1L; + ma_uint32 temp2L; + ma_uint32 temp3L; + ma_uint32 temp0R; + ma_uint32 temp1R; + ma_uint32 temp2R; + ma_uint32 temp3R; + ma_uint32 mid0 = pInputSamples0U32[i*4+0] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid1 = pInputSamples0U32[i*4+1] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid2 = pInputSamples0U32[i*4+2] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid3 = pInputSamples0U32[i*4+3] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side0 = pInputSamples1U32[i*4+0] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side1 = pInputSamples1U32[i*4+1] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side2 = pInputSamples1U32[i*4+2] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side3 = pInputSamples1U32[i*4+3] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid0 = (mid0 << 1) | (side0 & 0x01); + mid1 = (mid1 << 1) | (side1 & 0x01); + mid2 = (mid2 << 1) | (side2 & 0x01); + mid3 = (mid3 << 1) | (side3 & 0x01); + temp0L = (mid0 + side0) << shift; + temp1L = (mid1 + side1) << shift; + temp2L = (mid2 + side2) << shift; + temp3L = (mid3 + side3) << shift; + temp0R = (mid0 - side0) << shift; + temp1R = (mid1 - side1) << shift; + temp2R = (mid2 - side2) << shift; + temp3R = (mid3 - side3) << shift; + pOutputSamples[i*8+0] = (ma_int32)temp0L * factor; + pOutputSamples[i*8+1] = (ma_int32)temp0R * factor; + pOutputSamples[i*8+2] = (ma_int32)temp1L * factor; + pOutputSamples[i*8+3] = (ma_int32)temp1R * factor; + pOutputSamples[i*8+4] = (ma_int32)temp2L * factor; + pOutputSamples[i*8+5] = (ma_int32)temp2R * factor; + pOutputSamples[i*8+6] = (ma_int32)temp3L * factor; + pOutputSamples[i*8+7] = (ma_int32)temp3R * factor; + } + } else { + for (i = 0; i < frameCount4; ++i) { + ma_uint32 temp0L; + ma_uint32 temp1L; + ma_uint32 temp2L; + ma_uint32 temp3L; + ma_uint32 temp0R; + ma_uint32 temp1R; + ma_uint32 temp2R; + ma_uint32 temp3R; + ma_uint32 mid0 = pInputSamples0U32[i*4+0] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid1 = pInputSamples0U32[i*4+1] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid2 = pInputSamples0U32[i*4+2] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 mid3 = pInputSamples0U32[i*4+3] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side0 = pInputSamples1U32[i*4+0] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side1 = pInputSamples1U32[i*4+1] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side2 = pInputSamples1U32[i*4+2] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + ma_uint32 side3 = pInputSamples1U32[i*4+3] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid0 = (mid0 << 1) | (side0 & 0x01); + mid1 = (mid1 << 1) | (side1 & 0x01); + mid2 = (mid2 << 1) | (side2 & 0x01); + mid3 = (mid3 << 1) | (side3 & 0x01); + temp0L = (ma_uint32)((ma_int32)(mid0 + side0) >> 1); + temp1L = (ma_uint32)((ma_int32)(mid1 + side1) >> 1); + temp2L = (ma_uint32)((ma_int32)(mid2 + side2) >> 1); + temp3L = (ma_uint32)((ma_int32)(mid3 + side3) >> 1); + temp0R = (ma_uint32)((ma_int32)(mid0 - side0) >> 1); + temp1R = (ma_uint32)((ma_int32)(mid1 - side1) >> 1); + temp2R = (ma_uint32)((ma_int32)(mid2 - side2) >> 1); + temp3R = (ma_uint32)((ma_int32)(mid3 - side3) >> 1); + pOutputSamples[i*8+0] = (ma_int32)temp0L * factor; + pOutputSamples[i*8+1] = (ma_int32)temp0R * factor; + pOutputSamples[i*8+2] = (ma_int32)temp1L * factor; + pOutputSamples[i*8+3] = (ma_int32)temp1R * factor; + pOutputSamples[i*8+4] = (ma_int32)temp2L * factor; + pOutputSamples[i*8+5] = (ma_int32)temp2R * factor; + pOutputSamples[i*8+6] = (ma_int32)temp3L * factor; + pOutputSamples[i*8+7] = (ma_int32)temp3R * factor; + } + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int32)((ma_uint32)((ma_int32)(mid + side) >> 1) << unusedBitsPerSample) * factor; + pOutputSamples[i*2+1] = (ma_int32)((ma_uint32)((ma_int32)(mid - side) >> 1) << unusedBitsPerSample) * factor; + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_mid_side__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift = unusedBitsPerSample - 8; + float factor; + __m128 factor128; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + factor = 1.0f / 8388608.0f; + factor128 = _mm_set1_ps(factor); + if (shift == 0) { + for (i = 0; i < frameCount4; ++i) { + __m128i mid; + __m128i side; + __m128i tempL; + __m128i tempR; + __m128 leftf; + __m128 rightf; + mid = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + mid = _mm_or_si128(_mm_slli_epi32(mid, 1), _mm_and_si128(side, _mm_set1_epi32(0x01))); + tempL = _mm_srai_epi32(_mm_add_epi32(mid, side), 1); + tempR = _mm_srai_epi32(_mm_sub_epi32(mid, side), 1); + leftf = _mm_mul_ps(_mm_cvtepi32_ps(tempL), factor128); + rightf = _mm_mul_ps(_mm_cvtepi32_ps(tempR), factor128); + _mm_storeu_ps(pOutputSamples + i*8 + 0, _mm_unpacklo_ps(leftf, rightf)); + _mm_storeu_ps(pOutputSamples + i*8 + 4, _mm_unpackhi_ps(leftf, rightf)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = ((ma_int32)(mid + side) >> 1) * factor; + pOutputSamples[i*2+1] = ((ma_int32)(mid - side) >> 1) * factor; + } + } else { + shift -= 1; + for (i = 0; i < frameCount4; ++i) { + __m128i mid; + __m128i side; + __m128i tempL; + __m128i tempR; + __m128 leftf; + __m128 rightf; + mid = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + side = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + mid = _mm_or_si128(_mm_slli_epi32(mid, 1), _mm_and_si128(side, _mm_set1_epi32(0x01))); + tempL = _mm_slli_epi32(_mm_add_epi32(mid, side), shift); + tempR = _mm_slli_epi32(_mm_sub_epi32(mid, side), shift); + leftf = _mm_mul_ps(_mm_cvtepi32_ps(tempL), factor128); + rightf = _mm_mul_ps(_mm_cvtepi32_ps(tempR), factor128); + _mm_storeu_ps(pOutputSamples + i*8 + 0, _mm_unpacklo_ps(leftf, rightf)); + _mm_storeu_ps(pOutputSamples + i*8 + 4, _mm_unpackhi_ps(leftf, rightf)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int32)((mid + side) << shift) * factor; + pOutputSamples[i*2+1] = (ma_int32)((mid - side) << shift) * factor; + } + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_mid_side__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift = unusedBitsPerSample - 8; + float factor; + float32x4_t factor4; + int32x4_t shift4; + int32x4_t wbps0_4; + int32x4_t wbps1_4; + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 24); + factor = 1.0f / 8388608.0f; + factor4 = vdupq_n_f32(factor); + wbps0_4 = vdupq_n_s32(pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample); + wbps1_4 = vdupq_n_s32(pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample); + if (shift == 0) { + for (i = 0; i < frameCount4; ++i) { + int32x4_t lefti; + int32x4_t righti; + float32x4_t leftf; + float32x4_t rightf; + uint32x4_t mid = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), wbps0_4); + uint32x4_t side = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), wbps1_4); + mid = vorrq_u32(vshlq_n_u32(mid, 1), vandq_u32(side, vdupq_n_u32(1))); + lefti = vshrq_n_s32(vreinterpretq_s32_u32(vaddq_u32(mid, side)), 1); + righti = vshrq_n_s32(vreinterpretq_s32_u32(vsubq_u32(mid, side)), 1); + leftf = vmulq_f32(vcvtq_f32_s32(lefti), factor4); + rightf = vmulq_f32(vcvtq_f32_s32(righti), factor4); + ma_dr_flac__vst2q_f32(pOutputSamples + i*8, vzipq_f32(leftf, rightf)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = ((ma_int32)(mid + side) >> 1) * factor; + pOutputSamples[i*2+1] = ((ma_int32)(mid - side) >> 1) * factor; + } + } else { + shift -= 1; + shift4 = vdupq_n_s32(shift); + for (i = 0; i < frameCount4; ++i) { + uint32x4_t mid; + uint32x4_t side; + int32x4_t lefti; + int32x4_t righti; + float32x4_t leftf; + float32x4_t rightf; + mid = vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), wbps0_4); + side = vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), wbps1_4); + mid = vorrq_u32(vshlq_n_u32(mid, 1), vandq_u32(side, vdupq_n_u32(1))); + lefti = vreinterpretq_s32_u32(vshlq_u32(vaddq_u32(mid, side), shift4)); + righti = vreinterpretq_s32_u32(vshlq_u32(vsubq_u32(mid, side), shift4)); + leftf = vmulq_f32(vcvtq_f32_s32(lefti), factor4); + rightf = vmulq_f32(vcvtq_f32_s32(righti), factor4); + ma_dr_flac__vst2q_f32(pOutputSamples + i*8, vzipq_f32(leftf, rightf)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + ma_uint32 mid = pInputSamples0U32[i] << pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 side = pInputSamples1U32[i] << pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + mid = (mid << 1) | (side & 0x01); + pOutputSamples[i*2+0] = (ma_int32)((mid + side) << shift) * factor; + pOutputSamples[i*2+1] = (ma_int32)((mid - side) << shift) * factor; + } + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_mid_side(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_f32__decode_mid_side__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_f32__decode_mid_side__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_f32__decode_mid_side__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_f32__decode_mid_side__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +#if 0 +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_independent_stereo__reference(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + for (ma_uint64 i = 0; i < frameCount; ++i) { + pOutputSamples[i*2+0] = (float)((ma_int32)((ma_uint32)pInputSamples0[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample)) / 2147483648.0); + pOutputSamples[i*2+1] = (float)((ma_int32)((ma_uint32)pInputSamples1[i] << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample)) / 2147483648.0); + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_independent_stereo__scalar(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample; + ma_uint32 shift1 = unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample; + float factor = 1 / 2147483648.0; + for (i = 0; i < frameCount4; ++i) { + ma_uint32 tempL0 = pInputSamples0U32[i*4+0] << shift0; + ma_uint32 tempL1 = pInputSamples0U32[i*4+1] << shift0; + ma_uint32 tempL2 = pInputSamples0U32[i*4+2] << shift0; + ma_uint32 tempL3 = pInputSamples0U32[i*4+3] << shift0; + ma_uint32 tempR0 = pInputSamples1U32[i*4+0] << shift1; + ma_uint32 tempR1 = pInputSamples1U32[i*4+1] << shift1; + ma_uint32 tempR2 = pInputSamples1U32[i*4+2] << shift1; + ma_uint32 tempR3 = pInputSamples1U32[i*4+3] << shift1; + pOutputSamples[i*8+0] = (ma_int32)tempL0 * factor; + pOutputSamples[i*8+1] = (ma_int32)tempR0 * factor; + pOutputSamples[i*8+2] = (ma_int32)tempL1 * factor; + pOutputSamples[i*8+3] = (ma_int32)tempR1 * factor; + pOutputSamples[i*8+4] = (ma_int32)tempL2 * factor; + pOutputSamples[i*8+5] = (ma_int32)tempR2 * factor; + pOutputSamples[i*8+6] = (ma_int32)tempL3 * factor; + pOutputSamples[i*8+7] = (ma_int32)tempR3 * factor; + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + pOutputSamples[i*2+0] = (ma_int32)(pInputSamples0U32[i] << shift0) * factor; + pOutputSamples[i*2+1] = (ma_int32)(pInputSamples1U32[i] << shift1) * factor; + } +} +#if defined(MA_DR_FLAC_SUPPORT_SSE2) +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_independent_stereo__sse2(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample) - 8; + ma_uint32 shift1 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample) - 8; + float factor = 1.0f / 8388608.0f; + __m128 factor128 = _mm_set1_ps(factor); + for (i = 0; i < frameCount4; ++i) { + __m128i lefti; + __m128i righti; + __m128 leftf; + __m128 rightf; + lefti = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples0 + i), shift0); + righti = _mm_slli_epi32(_mm_loadu_si128((const __m128i*)pInputSamples1 + i), shift1); + leftf = _mm_mul_ps(_mm_cvtepi32_ps(lefti), factor128); + rightf = _mm_mul_ps(_mm_cvtepi32_ps(righti), factor128); + _mm_storeu_ps(pOutputSamples + i*8 + 0, _mm_unpacklo_ps(leftf, rightf)); + _mm_storeu_ps(pOutputSamples + i*8 + 4, _mm_unpackhi_ps(leftf, rightf)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + pOutputSamples[i*2+0] = (ma_int32)(pInputSamples0U32[i] << shift0) * factor; + pOutputSamples[i*2+1] = (ma_int32)(pInputSamples1U32[i] << shift1) * factor; + } +} +#endif +#if defined(MA_DR_FLAC_SUPPORT_NEON) +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_independent_stereo__neon(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ + ma_uint64 i; + ma_uint64 frameCount4 = frameCount >> 2; + const ma_uint32* pInputSamples0U32 = (const ma_uint32*)pInputSamples0; + const ma_uint32* pInputSamples1U32 = (const ma_uint32*)pInputSamples1; + ma_uint32 shift0 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[0].wastedBitsPerSample) - 8; + ma_uint32 shift1 = (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[1].wastedBitsPerSample) - 8; + float factor = 1.0f / 8388608.0f; + float32x4_t factor4 = vdupq_n_f32(factor); + int32x4_t shift0_4 = vdupq_n_s32(shift0); + int32x4_t shift1_4 = vdupq_n_s32(shift1); + for (i = 0; i < frameCount4; ++i) { + int32x4_t lefti; + int32x4_t righti; + float32x4_t leftf; + float32x4_t rightf; + lefti = vreinterpretq_s32_u32(vshlq_u32(vld1q_u32(pInputSamples0U32 + i*4), shift0_4)); + righti = vreinterpretq_s32_u32(vshlq_u32(vld1q_u32(pInputSamples1U32 + i*4), shift1_4)); + leftf = vmulq_f32(vcvtq_f32_s32(lefti), factor4); + rightf = vmulq_f32(vcvtq_f32_s32(righti), factor4); + ma_dr_flac__vst2q_f32(pOutputSamples + i*8, vzipq_f32(leftf, rightf)); + } + for (i = (frameCount4 << 2); i < frameCount; ++i) { + pOutputSamples[i*2+0] = (ma_int32)(pInputSamples0U32[i] << shift0) * factor; + pOutputSamples[i*2+1] = (ma_int32)(pInputSamples1U32[i] << shift1) * factor; + } +} +#endif +static MA_INLINE void ma_dr_flac_read_pcm_frames_f32__decode_independent_stereo(ma_dr_flac* pFlac, ma_uint64 frameCount, ma_uint32 unusedBitsPerSample, const ma_int32* pInputSamples0, const ma_int32* pInputSamples1, float* pOutputSamples) +{ +#if defined(MA_DR_FLAC_SUPPORT_SSE2) + if (ma_dr_flac__gIsSSE2Supported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_f32__decode_independent_stereo__sse2(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#elif defined(MA_DR_FLAC_SUPPORT_NEON) + if (ma_dr_flac__gIsNEONSupported && pFlac->bitsPerSample <= 24) { + ma_dr_flac_read_pcm_frames_f32__decode_independent_stereo__neon(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); + } else +#endif + { +#if 0 + ma_dr_flac_read_pcm_frames_f32__decode_independent_stereo__reference(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#else + ma_dr_flac_read_pcm_frames_f32__decode_independent_stereo__scalar(pFlac, frameCount, unusedBitsPerSample, pInputSamples0, pInputSamples1, pOutputSamples); +#endif + } +} +MA_API ma_uint64 ma_dr_flac_read_pcm_frames_f32(ma_dr_flac* pFlac, ma_uint64 framesToRead, float* pBufferOut) +{ + ma_uint64 framesRead; + ma_uint32 unusedBitsPerSample; + if (pFlac == NULL || framesToRead == 0) { + return 0; + } + if (pBufferOut == NULL) { + return ma_dr_flac__seek_forward_by_pcm_frames(pFlac, framesToRead); + } + MA_DR_FLAC_ASSERT(pFlac->bitsPerSample <= 32); + unusedBitsPerSample = 32 - pFlac->bitsPerSample; + framesRead = 0; + while (framesToRead > 0) { + if (pFlac->currentFLACFrame.pcmFramesRemaining == 0) { + if (!ma_dr_flac__read_and_decode_next_flac_frame(pFlac)) { + break; + } + } else { + unsigned int channelCount = ma_dr_flac__get_channel_count_from_channel_assignment(pFlac->currentFLACFrame.header.channelAssignment); + ma_uint64 iFirstPCMFrame = pFlac->currentFLACFrame.header.blockSizeInPCMFrames - pFlac->currentFLACFrame.pcmFramesRemaining; + ma_uint64 frameCountThisIteration = framesToRead; + if (frameCountThisIteration > pFlac->currentFLACFrame.pcmFramesRemaining) { + frameCountThisIteration = pFlac->currentFLACFrame.pcmFramesRemaining; + } + if (channelCount == 2) { + const ma_int32* pDecodedSamples0 = pFlac->currentFLACFrame.subframes[0].pSamplesS32 + iFirstPCMFrame; + const ma_int32* pDecodedSamples1 = pFlac->currentFLACFrame.subframes[1].pSamplesS32 + iFirstPCMFrame; + switch (pFlac->currentFLACFrame.header.channelAssignment) + { + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_LEFT_SIDE: + { + ma_dr_flac_read_pcm_frames_f32__decode_left_side(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_RIGHT_SIDE: + { + ma_dr_flac_read_pcm_frames_f32__decode_right_side(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_MID_SIDE: + { + ma_dr_flac_read_pcm_frames_f32__decode_mid_side(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + case MA_DR_FLAC_CHANNEL_ASSIGNMENT_INDEPENDENT: + default: + { + ma_dr_flac_read_pcm_frames_f32__decode_independent_stereo(pFlac, frameCountThisIteration, unusedBitsPerSample, pDecodedSamples0, pDecodedSamples1, pBufferOut); + } break; + } + } else { + ma_uint64 i; + for (i = 0; i < frameCountThisIteration; ++i) { + unsigned int j; + for (j = 0; j < channelCount; ++j) { + ma_int32 sampleS32 = (ma_int32)((ma_uint32)(pFlac->currentFLACFrame.subframes[j].pSamplesS32[iFirstPCMFrame + i]) << (unusedBitsPerSample + pFlac->currentFLACFrame.subframes[j].wastedBitsPerSample)); + pBufferOut[(i*channelCount)+j] = (float)(sampleS32 / 2147483648.0); + } + } + } + framesRead += frameCountThisIteration; + pBufferOut += frameCountThisIteration * channelCount; + framesToRead -= frameCountThisIteration; + pFlac->currentPCMFrame += frameCountThisIteration; + pFlac->currentFLACFrame.pcmFramesRemaining -= (unsigned int)frameCountThisIteration; + } + } + return framesRead; +} +MA_API ma_bool32 ma_dr_flac_seek_to_pcm_frame(ma_dr_flac* pFlac, ma_uint64 pcmFrameIndex) +{ + if (pFlac == NULL) { + return MA_FALSE; + } + if (pFlac->currentPCMFrame == pcmFrameIndex) { + return MA_TRUE; + } + if (pFlac->firstFLACFramePosInBytes == 0) { + return MA_FALSE; + } + if (pcmFrameIndex == 0) { + pFlac->currentPCMFrame = 0; + return ma_dr_flac__seek_to_first_frame(pFlac); + } else { + ma_bool32 wasSuccessful = MA_FALSE; + ma_uint64 originalPCMFrame = pFlac->currentPCMFrame; + if (pcmFrameIndex > pFlac->totalPCMFrameCount) { + pcmFrameIndex = pFlac->totalPCMFrameCount; + } + if (pcmFrameIndex > pFlac->currentPCMFrame) { + ma_uint32 offset = (ma_uint32)(pcmFrameIndex - pFlac->currentPCMFrame); + if (pFlac->currentFLACFrame.pcmFramesRemaining > offset) { + pFlac->currentFLACFrame.pcmFramesRemaining -= offset; + pFlac->currentPCMFrame = pcmFrameIndex; + return MA_TRUE; + } + } else { + ma_uint32 offsetAbs = (ma_uint32)(pFlac->currentPCMFrame - pcmFrameIndex); + ma_uint32 currentFLACFramePCMFrameCount = pFlac->currentFLACFrame.header.blockSizeInPCMFrames; + ma_uint32 currentFLACFramePCMFramesConsumed = currentFLACFramePCMFrameCount - pFlac->currentFLACFrame.pcmFramesRemaining; + if (currentFLACFramePCMFramesConsumed > offsetAbs) { + pFlac->currentFLACFrame.pcmFramesRemaining += offsetAbs; + pFlac->currentPCMFrame = pcmFrameIndex; + return MA_TRUE; + } + } +#ifndef MA_DR_FLAC_NO_OGG + if (pFlac->container == ma_dr_flac_container_ogg) + { + wasSuccessful = ma_dr_flac_ogg__seek_to_pcm_frame(pFlac, pcmFrameIndex); + } + else +#endif + { + if (!pFlac->_noSeekTableSeek) { + wasSuccessful = ma_dr_flac__seek_to_pcm_frame__seek_table(pFlac, pcmFrameIndex); + } +#if !defined(MA_DR_FLAC_NO_CRC) + if (!wasSuccessful && !pFlac->_noBinarySearchSeek && pFlac->totalPCMFrameCount > 0) { + wasSuccessful = ma_dr_flac__seek_to_pcm_frame__binary_search(pFlac, pcmFrameIndex); + } +#endif + if (!wasSuccessful && !pFlac->_noBruteForceSeek) { + wasSuccessful = ma_dr_flac__seek_to_pcm_frame__brute_force(pFlac, pcmFrameIndex); + } + } + if (wasSuccessful) { + pFlac->currentPCMFrame = pcmFrameIndex; + } else { + if (ma_dr_flac_seek_to_pcm_frame(pFlac, originalPCMFrame) == MA_FALSE) { + ma_dr_flac_seek_to_pcm_frame(pFlac, 0); + } + } + return wasSuccessful; + } +} +#define MA_DR_FLAC_DEFINE_FULL_READ_AND_CLOSE(extension, type) \ +static type* ma_dr_flac__full_read_and_close_ ## extension (ma_dr_flac* pFlac, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalPCMFrameCountOut)\ +{ \ + type* pSampleData = NULL; \ + ma_uint64 totalPCMFrameCount; \ + type buffer[4096]; \ + ma_uint64 pcmFramesRead; \ + size_t sampleDataBufferSize = sizeof(buffer); \ + \ + MA_DR_FLAC_ASSERT(pFlac != NULL); \ + \ + totalPCMFrameCount = 0; \ + \ + pSampleData = (type*)ma_dr_flac__malloc_from_callbacks(sampleDataBufferSize, &pFlac->allocationCallbacks); \ + if (pSampleData == NULL) { \ + goto on_error; \ + } \ + \ + while ((pcmFramesRead = (ma_uint64)ma_dr_flac_read_pcm_frames_##extension(pFlac, sizeof(buffer)/sizeof(buffer[0])/pFlac->channels, buffer)) > 0) { \ + if (((totalPCMFrameCount + pcmFramesRead) * pFlac->channels * sizeof(type)) > sampleDataBufferSize) { \ + type* pNewSampleData; \ + size_t newSampleDataBufferSize; \ + \ + newSampleDataBufferSize = sampleDataBufferSize * 2; \ + pNewSampleData = (type*)ma_dr_flac__realloc_from_callbacks(pSampleData, newSampleDataBufferSize, sampleDataBufferSize, &pFlac->allocationCallbacks); \ + if (pNewSampleData == NULL) { \ + ma_dr_flac__free_from_callbacks(pSampleData, &pFlac->allocationCallbacks); \ + goto on_error; \ + } \ + \ + sampleDataBufferSize = newSampleDataBufferSize; \ + pSampleData = pNewSampleData; \ + } \ + \ + MA_DR_FLAC_COPY_MEMORY(pSampleData + (totalPCMFrameCount*pFlac->channels), buffer, (size_t)(pcmFramesRead*pFlac->channels*sizeof(type))); \ + totalPCMFrameCount += pcmFramesRead; \ + } \ + \ + \ + MA_DR_FLAC_ZERO_MEMORY(pSampleData + (totalPCMFrameCount*pFlac->channels), (size_t)(sampleDataBufferSize - totalPCMFrameCount*pFlac->channels*sizeof(type))); \ + \ + if (sampleRateOut) *sampleRateOut = pFlac->sampleRate; \ + if (channelsOut) *channelsOut = pFlac->channels; \ + if (totalPCMFrameCountOut) *totalPCMFrameCountOut = totalPCMFrameCount; \ + \ + ma_dr_flac_close(pFlac); \ + return pSampleData; \ + \ +on_error: \ + ma_dr_flac_close(pFlac); \ + return NULL; \ +} +MA_DR_FLAC_DEFINE_FULL_READ_AND_CLOSE(s32, ma_int32) +MA_DR_FLAC_DEFINE_FULL_READ_AND_CLOSE(s16, ma_int16) +MA_DR_FLAC_DEFINE_FULL_READ_AND_CLOSE(f32, float) +MA_API ma_int32* ma_dr_flac_open_and_read_pcm_frames_s32(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, void* pUserData, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalPCMFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalPCMFrameCountOut) { + *totalPCMFrameCountOut = 0; + } + pFlac = ma_dr_flac_open(onRead, onSeek, onTell, pUserData, pAllocationCallbacks); + if (pFlac == NULL) { + return NULL; + } + return ma_dr_flac__full_read_and_close_s32(pFlac, channelsOut, sampleRateOut, totalPCMFrameCountOut); +} +MA_API ma_int16* ma_dr_flac_open_and_read_pcm_frames_s16(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, void* pUserData, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalPCMFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalPCMFrameCountOut) { + *totalPCMFrameCountOut = 0; + } + pFlac = ma_dr_flac_open(onRead, onSeek, onTell, pUserData, pAllocationCallbacks); + if (pFlac == NULL) { + return NULL; + } + return ma_dr_flac__full_read_and_close_s16(pFlac, channelsOut, sampleRateOut, totalPCMFrameCountOut); +} +MA_API float* ma_dr_flac_open_and_read_pcm_frames_f32(ma_dr_flac_read_proc onRead, ma_dr_flac_seek_proc onSeek, ma_dr_flac_tell_proc onTell, void* pUserData, unsigned int* channelsOut, unsigned int* sampleRateOut, ma_uint64* totalPCMFrameCountOut, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + if (channelsOut) { + *channelsOut = 0; + } + if (sampleRateOut) { + *sampleRateOut = 0; + } + if (totalPCMFrameCountOut) { + *totalPCMFrameCountOut = 0; + } + pFlac = ma_dr_flac_open(onRead, onSeek, onTell, pUserData, pAllocationCallbacks); + if (pFlac == NULL) { + return NULL; + } + return ma_dr_flac__full_read_and_close_f32(pFlac, channelsOut, sampleRateOut, totalPCMFrameCountOut); +} +#ifndef MA_DR_FLAC_NO_STDIO +MA_API ma_int32* ma_dr_flac_open_file_and_read_pcm_frames_s32(const char* filename, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + if (sampleRate) { + *sampleRate = 0; + } + if (channels) { + *channels = 0; + } + if (totalPCMFrameCount) { + *totalPCMFrameCount = 0; + } + pFlac = ma_dr_flac_open_file(filename, pAllocationCallbacks); + if (pFlac == NULL) { + return NULL; + } + return ma_dr_flac__full_read_and_close_s32(pFlac, channels, sampleRate, totalPCMFrameCount); +} +MA_API ma_int16* ma_dr_flac_open_file_and_read_pcm_frames_s16(const char* filename, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + if (sampleRate) { + *sampleRate = 0; + } + if (channels) { + *channels = 0; + } + if (totalPCMFrameCount) { + *totalPCMFrameCount = 0; + } + pFlac = ma_dr_flac_open_file(filename, pAllocationCallbacks); + if (pFlac == NULL) { + return NULL; + } + return ma_dr_flac__full_read_and_close_s16(pFlac, channels, sampleRate, totalPCMFrameCount); +} +MA_API float* ma_dr_flac_open_file_and_read_pcm_frames_f32(const char* filename, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + if (sampleRate) { + *sampleRate = 0; + } + if (channels) { + *channels = 0; + } + if (totalPCMFrameCount) { + *totalPCMFrameCount = 0; + } + pFlac = ma_dr_flac_open_file(filename, pAllocationCallbacks); + if (pFlac == NULL) { + return NULL; + } + return ma_dr_flac__full_read_and_close_f32(pFlac, channels, sampleRate, totalPCMFrameCount); +} +#endif +MA_API ma_int32* ma_dr_flac_open_memory_and_read_pcm_frames_s32(const void* data, size_t dataSize, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + if (sampleRate) { + *sampleRate = 0; + } + if (channels) { + *channels = 0; + } + if (totalPCMFrameCount) { + *totalPCMFrameCount = 0; + } + pFlac = ma_dr_flac_open_memory(data, dataSize, pAllocationCallbacks); + if (pFlac == NULL) { + return NULL; + } + return ma_dr_flac__full_read_and_close_s32(pFlac, channels, sampleRate, totalPCMFrameCount); +} +MA_API ma_int16* ma_dr_flac_open_memory_and_read_pcm_frames_s16(const void* data, size_t dataSize, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + if (sampleRate) { + *sampleRate = 0; + } + if (channels) { + *channels = 0; + } + if (totalPCMFrameCount) { + *totalPCMFrameCount = 0; + } + pFlac = ma_dr_flac_open_memory(data, dataSize, pAllocationCallbacks); + if (pFlac == NULL) { + return NULL; + } + return ma_dr_flac__full_read_and_close_s16(pFlac, channels, sampleRate, totalPCMFrameCount); +} +MA_API float* ma_dr_flac_open_memory_and_read_pcm_frames_f32(const void* data, size_t dataSize, unsigned int* channels, unsigned int* sampleRate, ma_uint64* totalPCMFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_flac* pFlac; + if (sampleRate) { + *sampleRate = 0; + } + if (channels) { + *channels = 0; + } + if (totalPCMFrameCount) { + *totalPCMFrameCount = 0; + } + pFlac = ma_dr_flac_open_memory(data, dataSize, pAllocationCallbacks); + if (pFlac == NULL) { + return NULL; + } + return ma_dr_flac__full_read_and_close_f32(pFlac, channels, sampleRate, totalPCMFrameCount); +} +MA_API void ma_dr_flac_free(void* p, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks != NULL) { + ma_dr_flac__free_from_callbacks(p, pAllocationCallbacks); + } else { + ma_dr_flac__free_default(p, NULL); + } +} +MA_API void ma_dr_flac_init_vorbis_comment_iterator(ma_dr_flac_vorbis_comment_iterator* pIter, ma_uint32 commentCount, const void* pComments) +{ + if (pIter == NULL) { + return; + } + pIter->countRemaining = commentCount; + pIter->pRunningData = (const char*)pComments; +} +MA_API const char* ma_dr_flac_next_vorbis_comment(ma_dr_flac_vorbis_comment_iterator* pIter, ma_uint32* pCommentLengthOut) +{ + ma_int32 length; + const char* pComment; + if (pCommentLengthOut) { + *pCommentLengthOut = 0; + } + if (pIter == NULL || pIter->countRemaining == 0 || pIter->pRunningData == NULL) { + return NULL; + } + length = ma_dr_flac__le2host_32_ptr_unaligned(pIter->pRunningData); + pIter->pRunningData += 4; + pComment = pIter->pRunningData; + pIter->pRunningData += length; + pIter->countRemaining -= 1; + if (pCommentLengthOut) { + *pCommentLengthOut = length; + } + return pComment; +} +MA_API void ma_dr_flac_init_cuesheet_track_iterator(ma_dr_flac_cuesheet_track_iterator* pIter, ma_uint32 trackCount, const void* pTrackData) +{ + if (pIter == NULL) { + return; + } + pIter->countRemaining = trackCount; + pIter->pRunningData = (const char*)pTrackData; +} +MA_API ma_bool32 ma_dr_flac_next_cuesheet_track(ma_dr_flac_cuesheet_track_iterator* pIter, ma_dr_flac_cuesheet_track* pCuesheetTrack) +{ + ma_dr_flac_cuesheet_track cuesheetTrack; + const char* pRunningData; + ma_uint64 offsetHi; + ma_uint64 offsetLo; + if (pIter == NULL || pIter->countRemaining == 0 || pIter->pRunningData == NULL) { + return MA_FALSE; + } + pRunningData = pIter->pRunningData; + offsetHi = ma_dr_flac__be2host_32(*(const ma_uint32*)pRunningData); pRunningData += 4; + offsetLo = ma_dr_flac__be2host_32(*(const ma_uint32*)pRunningData); pRunningData += 4; + cuesheetTrack.offset = offsetLo | (offsetHi << 32); + cuesheetTrack.trackNumber = pRunningData[0]; pRunningData += 1; + MA_DR_FLAC_COPY_MEMORY(cuesheetTrack.ISRC, pRunningData, sizeof(cuesheetTrack.ISRC)); pRunningData += 12; + cuesheetTrack.isAudio = (pRunningData[0] & 0x80) != 0; + cuesheetTrack.preEmphasis = (pRunningData[0] & 0x40) != 0; pRunningData += 14; + cuesheetTrack.indexCount = pRunningData[0]; pRunningData += 1; + cuesheetTrack.pIndexPoints = (const ma_dr_flac_cuesheet_track_index*)pRunningData; pRunningData += cuesheetTrack.indexCount * sizeof(ma_dr_flac_cuesheet_track_index); + pIter->pRunningData = pRunningData; + pIter->countRemaining -= 1; + if (pCuesheetTrack) { + *pCuesheetTrack = cuesheetTrack; + } + return MA_TRUE; +} +#if defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 6))) + #pragma GCC diagnostic pop +#endif +#endif +/* dr_flac_c end */ +#endif /* MA_DR_FLAC_IMPLEMENTATION */ +#endif /* MA_NO_FLAC */ + +#if !defined(MA_NO_MP3) && !defined(MA_NO_DECODING) +#if !defined(MA_DR_MP3_IMPLEMENTATION) +/* dr_mp3_c begin */ +#ifndef ma_dr_mp3_c +#define ma_dr_mp3_c +#include +#include +#include +MA_API void ma_dr_mp3_version(ma_uint32* pMajor, ma_uint32* pMinor, ma_uint32* pRevision) +{ + if (pMajor) { + *pMajor = MA_DR_MP3_VERSION_MAJOR; + } + if (pMinor) { + *pMinor = MA_DR_MP3_VERSION_MINOR; + } + if (pRevision) { + *pRevision = MA_DR_MP3_VERSION_REVISION; + } +} +MA_API const char* ma_dr_mp3_version_string(void) +{ + return MA_DR_MP3_VERSION_STRING; +} +#if defined(__TINYC__) +#define MA_DR_MP3_NO_SIMD +#endif +#define MA_DR_MP3_OFFSET_PTR(p, offset) ((void*)((ma_uint8*)(p) + (offset))) +#ifndef MA_DR_MP3_MAX_FRAME_SYNC_MATCHES +#define MA_DR_MP3_MAX_FRAME_SYNC_MATCHES 10 +#endif +#define MA_DR_MP3_SHORT_BLOCK_TYPE 2 +#define MA_DR_MP3_STOP_BLOCK_TYPE 3 +#define MA_DR_MP3_MODE_MONO 3 +#define MA_DR_MP3_MODE_JOINT_STEREO 1 +#define MA_DR_MP3_HDR_SIZE 4 +#define MA_DR_MP3_HDR_IS_MONO(h) (((h[3]) & 0xC0) == 0xC0) +#define MA_DR_MP3_HDR_IS_MS_STEREO(h) (((h[3]) & 0xE0) == 0x60) +#define MA_DR_MP3_HDR_IS_FREE_FORMAT(h) (((h[2]) & 0xF0) == 0) +#define MA_DR_MP3_HDR_IS_CRC(h) (!((h[1]) & 1)) +#define MA_DR_MP3_HDR_TEST_PADDING(h) ((h[2]) & 0x2) +#define MA_DR_MP3_HDR_TEST_MPEG1(h) ((h[1]) & 0x8) +#define MA_DR_MP3_HDR_TEST_NOT_MPEG25(h) ((h[1]) & 0x10) +#define MA_DR_MP3_HDR_TEST_I_STEREO(h) ((h[3]) & 0x10) +#define MA_DR_MP3_HDR_TEST_MS_STEREO(h) ((h[3]) & 0x20) +#define MA_DR_MP3_HDR_GET_STEREO_MODE(h) (((h[3]) >> 6) & 3) +#define MA_DR_MP3_HDR_GET_STEREO_MODE_EXT(h) (((h[3]) >> 4) & 3) +#define MA_DR_MP3_HDR_GET_LAYER(h) (((h[1]) >> 1) & 3) +#define MA_DR_MP3_HDR_GET_BITRATE(h) ((h[2]) >> 4) +#define MA_DR_MP3_HDR_GET_SAMPLE_RATE(h) (((h[2]) >> 2) & 3) +#define MA_DR_MP3_HDR_GET_MY_SAMPLE_RATE(h) (MA_DR_MP3_HDR_GET_SAMPLE_RATE(h) + (((h[1] >> 3) & 1) + ((h[1] >> 4) & 1))*3) +#define MA_DR_MP3_HDR_IS_FRAME_576(h) ((h[1] & 14) == 2) +#define MA_DR_MP3_HDR_IS_LAYER_1(h) ((h[1] & 6) == 6) +#define MA_DR_MP3_BITS_DEQUANTIZER_OUT -1 +#define MA_DR_MP3_MAX_SCF (255 + MA_DR_MP3_BITS_DEQUANTIZER_OUT*4 - 210) +#define MA_DR_MP3_MAX_SCFI ((MA_DR_MP3_MAX_SCF + 3) & ~3) +#define MA_DR_MP3_MIN(a, b) ((a) > (b) ? (b) : (a)) +#define MA_DR_MP3_MAX(a, b) ((a) < (b) ? (b) : (a)) +#if !defined(MA_DR_MP3_NO_SIMD) +#if !defined(MA_DR_MP3_ONLY_SIMD) && (defined(_M_X64) || defined(__x86_64__) || defined(__aarch64__) || defined(_M_ARM64) || defined(_M_ARM64EC)) +#define MA_DR_MP3_ONLY_SIMD +#endif +#if ((defined(_MSC_VER) && _MSC_VER >= 1400) && defined(_M_X64)) || ((defined(__i386) || defined(_M_IX86) || defined(__i386__) || defined(__x86_64__)) && ((defined(_M_IX86_FP) && _M_IX86_FP == 2) || defined(__SSE2__))) +#if defined(_MSC_VER) +#include +#endif +#include +#define MA_DR_MP3_HAVE_SSE 1 +#define MA_DR_MP3_HAVE_SIMD 1 +#define MA_DR_MP3_VSTORE _mm_storeu_ps +#define MA_DR_MP3_VLD _mm_loadu_ps +#define MA_DR_MP3_VSET _mm_set1_ps +#define MA_DR_MP3_VADD _mm_add_ps +#define MA_DR_MP3_VSUB _mm_sub_ps +#define MA_DR_MP3_VMUL _mm_mul_ps +#define MA_DR_MP3_VMAC(a, x, y) _mm_add_ps(a, _mm_mul_ps(x, y)) +#define MA_DR_MP3_VMSB(a, x, y) _mm_sub_ps(a, _mm_mul_ps(x, y)) +#define MA_DR_MP3_VMUL_S(x, s) _mm_mul_ps(x, _mm_set1_ps(s)) +#define MA_DR_MP3_VREV(x) _mm_shuffle_ps(x, x, _MM_SHUFFLE(0, 1, 2, 3)) +typedef __m128 ma_dr_mp3_f4; +#if (defined(_MSC_VER) || defined(MA_DR_MP3_ONLY_SIMD)) && !defined(__clang__) +#define ma_dr_mp3_cpuid __cpuid +#else +static __inline__ __attribute__((always_inline)) void ma_dr_mp3_cpuid(int CPUInfo[], const int InfoType) +{ +#if defined(__PIC__) + __asm__ __volatile__( +#if defined(__x86_64__) + "push %%rbx\n" + "cpuid\n" + "xchgl %%ebx, %1\n" + "pop %%rbx\n" +#else + "xchgl %%ebx, %1\n" + "cpuid\n" + "xchgl %%ebx, %1\n" +#endif + : "=a" (CPUInfo[0]), "=r" (CPUInfo[1]), "=c" (CPUInfo[2]), "=d" (CPUInfo[3]) + : "a" (InfoType)); +#else + __asm__ __volatile__( + "cpuid" + : "=a" (CPUInfo[0]), "=b" (CPUInfo[1]), "=c" (CPUInfo[2]), "=d" (CPUInfo[3]) + : "a" (InfoType)); +#endif +} +#endif +static int ma_dr_mp3_have_simd(void) +{ +#ifdef MA_DR_MP3_ONLY_SIMD + return 1; +#else + static int g_have_simd; + int CPUInfo[4]; +#ifdef MINIMP3_TEST + static int g_counter; + if (g_counter++ > 100) + return 0; +#endif + if (g_have_simd) + goto end; + ma_dr_mp3_cpuid(CPUInfo, 0); + if (CPUInfo[0] > 0) + { + ma_dr_mp3_cpuid(CPUInfo, 1); + g_have_simd = (CPUInfo[3] & (1 << 26)) + 1; + return g_have_simd - 1; + } +end: + return g_have_simd - 1; +#endif +} +#elif defined(__ARM_NEON) || defined(__aarch64__) || defined(_M_ARM64) || defined(_M_ARM64EC) +#include +#define MA_DR_MP3_HAVE_SSE 0 +#define MA_DR_MP3_HAVE_SIMD 1 +#define MA_DR_MP3_VSTORE vst1q_f32 +#define MA_DR_MP3_VLD vld1q_f32 +#define MA_DR_MP3_VSET vmovq_n_f32 +#define MA_DR_MP3_VADD vaddq_f32 +#define MA_DR_MP3_VSUB vsubq_f32 +#define MA_DR_MP3_VMUL vmulq_f32 +#define MA_DR_MP3_VMAC(a, x, y) vmlaq_f32(a, x, y) +#define MA_DR_MP3_VMSB(a, x, y) vmlsq_f32(a, x, y) +#define MA_DR_MP3_VMUL_S(x, s) vmulq_f32(x, vmovq_n_f32(s)) +#define MA_DR_MP3_VREV(x) vcombine_f32(vget_high_f32(vrev64q_f32(x)), vget_low_f32(vrev64q_f32(x))) +typedef float32x4_t ma_dr_mp3_f4; +static int ma_dr_mp3_have_simd(void) +{ + return 1; +} +#else +#define MA_DR_MP3_HAVE_SSE 0 +#define MA_DR_MP3_HAVE_SIMD 0 +#ifdef MA_DR_MP3_ONLY_SIMD +#error MA_DR_MP3_ONLY_SIMD used, but SSE/NEON not enabled +#endif +#endif +#else +#define MA_DR_MP3_HAVE_SIMD 0 +#endif +#if defined(__ARM_ARCH) && (__ARM_ARCH >= 6) && !defined(__aarch64__) && !defined(_M_ARM64) && !defined(_M_ARM64EC) && !defined(__ARM_ARCH_6M__) +#define MA_DR_MP3_HAVE_ARMV6 1 +static __inline__ __attribute__((always_inline)) ma_int32 ma_dr_mp3_clip_int16_arm(ma_int32 a) +{ + ma_int32 x = 0; + __asm__ ("ssat %0, #16, %1" : "=r"(x) : "r"(a)); + return x; +} +#else +#define MA_DR_MP3_HAVE_ARMV6 0 +#endif +#ifndef MA_DR_MP3_ASSERT +#include +#define MA_DR_MP3_ASSERT(expression) assert(expression) +#endif +#ifndef MA_DR_MP3_COPY_MEMORY +#define MA_DR_MP3_COPY_MEMORY(dst, src, sz) memcpy((dst), (src), (sz)) +#endif +#ifndef MA_DR_MP3_MOVE_MEMORY +#define MA_DR_MP3_MOVE_MEMORY(dst, src, sz) memmove((dst), (src), (sz)) +#endif +#ifndef MA_DR_MP3_ZERO_MEMORY +#define MA_DR_MP3_ZERO_MEMORY(p, sz) memset((p), 0, (sz)) +#endif +#define MA_DR_MP3_ZERO_OBJECT(p) MA_DR_MP3_ZERO_MEMORY((p), sizeof(*(p))) +#ifndef MA_DR_MP3_MALLOC +#define MA_DR_MP3_MALLOC(sz) malloc((sz)) +#endif +#ifndef MA_DR_MP3_REALLOC +#define MA_DR_MP3_REALLOC(p, sz) realloc((p), (sz)) +#endif +#ifndef MA_DR_MP3_FREE +#define MA_DR_MP3_FREE(p) free((p)) +#endif +typedef struct +{ + float scf[3*64]; + ma_uint8 total_bands, stereo_bands, bitalloc[64], scfcod[64]; +} ma_dr_mp3_L12_scale_info; +typedef struct +{ + ma_uint8 tab_offset, code_tab_width, band_count; +} ma_dr_mp3_L12_subband_alloc; +static void ma_dr_mp3_bs_init(ma_dr_mp3_bs *bs, const ma_uint8 *data, int bytes) +{ + bs->buf = data; + bs->pos = 0; + bs->limit = bytes*8; +} +static ma_uint32 ma_dr_mp3_bs_get_bits(ma_dr_mp3_bs *bs, int n) +{ + ma_uint32 next, cache = 0, s = bs->pos & 7; + int shl = n + s; + const ma_uint8 *p = bs->buf + (bs->pos >> 3); + if ((bs->pos += n) > bs->limit) + return 0; + next = *p++ & (255 >> s); + while ((shl -= 8) > 0) + { + cache |= next << shl; + next = *p++; + } + return cache | (next >> -shl); +} +static int ma_dr_mp3_hdr_valid(const ma_uint8 *h) +{ + return h[0] == 0xff && + ((h[1] & 0xF0) == 0xf0 || (h[1] & 0xFE) == 0xe2) && + (MA_DR_MP3_HDR_GET_LAYER(h) != 0) && + (MA_DR_MP3_HDR_GET_BITRATE(h) != 15) && + (MA_DR_MP3_HDR_GET_SAMPLE_RATE(h) != 3); +} +static int ma_dr_mp3_hdr_compare(const ma_uint8 *h1, const ma_uint8 *h2) +{ + return ma_dr_mp3_hdr_valid(h2) && + ((h1[1] ^ h2[1]) & 0xFE) == 0 && + ((h1[2] ^ h2[2]) & 0x0C) == 0 && + !(MA_DR_MP3_HDR_IS_FREE_FORMAT(h1) ^ MA_DR_MP3_HDR_IS_FREE_FORMAT(h2)); +} +static unsigned ma_dr_mp3_hdr_bitrate_kbps(const ma_uint8 *h) +{ + static const ma_uint8 halfrate[2][3][15] = { + { { 0,4,8,12,16,20,24,28,32,40,48,56,64,72,80 }, { 0,4,8,12,16,20,24,28,32,40,48,56,64,72,80 }, { 0,16,24,28,32,40,48,56,64,72,80,88,96,112,128 } }, + { { 0,16,20,24,28,32,40,48,56,64,80,96,112,128,160 }, { 0,16,24,28,32,40,48,56,64,80,96,112,128,160,192 }, { 0,16,32,48,64,80,96,112,128,144,160,176,192,208,224 } }, + }; + return 2*halfrate[!!MA_DR_MP3_HDR_TEST_MPEG1(h)][MA_DR_MP3_HDR_GET_LAYER(h) - 1][MA_DR_MP3_HDR_GET_BITRATE(h)]; +} +static unsigned ma_dr_mp3_hdr_sample_rate_hz(const ma_uint8 *h) +{ + static const unsigned g_hz[3] = { 44100, 48000, 32000 }; + return g_hz[MA_DR_MP3_HDR_GET_SAMPLE_RATE(h)] >> (int)!MA_DR_MP3_HDR_TEST_MPEG1(h) >> (int)!MA_DR_MP3_HDR_TEST_NOT_MPEG25(h); +} +static unsigned ma_dr_mp3_hdr_frame_samples(const ma_uint8 *h) +{ + return MA_DR_MP3_HDR_IS_LAYER_1(h) ? 384 : (1152 >> (int)MA_DR_MP3_HDR_IS_FRAME_576(h)); +} +static int ma_dr_mp3_hdr_frame_bytes(const ma_uint8 *h, int free_format_size) +{ + int frame_bytes = ma_dr_mp3_hdr_frame_samples(h)*ma_dr_mp3_hdr_bitrate_kbps(h)*125/ma_dr_mp3_hdr_sample_rate_hz(h); + if (MA_DR_MP3_HDR_IS_LAYER_1(h)) + { + frame_bytes &= ~3; + } + return frame_bytes ? frame_bytes : free_format_size; +} +static int ma_dr_mp3_hdr_padding(const ma_uint8 *h) +{ + return MA_DR_MP3_HDR_TEST_PADDING(h) ? (MA_DR_MP3_HDR_IS_LAYER_1(h) ? 4 : 1) : 0; +} +#ifndef MA_DR_MP3_ONLY_MP3 +static const ma_dr_mp3_L12_subband_alloc *ma_dr_mp3_L12_subband_alloc_table(const ma_uint8 *hdr, ma_dr_mp3_L12_scale_info *sci) +{ + const ma_dr_mp3_L12_subband_alloc *alloc; + int mode = MA_DR_MP3_HDR_GET_STEREO_MODE(hdr); + int nbands, stereo_bands = (mode == MA_DR_MP3_MODE_MONO) ? 0 : (mode == MA_DR_MP3_MODE_JOINT_STEREO) ? (MA_DR_MP3_HDR_GET_STEREO_MODE_EXT(hdr) << 2) + 4 : 32; + if (MA_DR_MP3_HDR_IS_LAYER_1(hdr)) + { + static const ma_dr_mp3_L12_subband_alloc g_alloc_L1[] = { { 76, 4, 32 } }; + alloc = g_alloc_L1; + nbands = 32; + } else if (!MA_DR_MP3_HDR_TEST_MPEG1(hdr)) + { + static const ma_dr_mp3_L12_subband_alloc g_alloc_L2M2[] = { { 60, 4, 4 }, { 44, 3, 7 }, { 44, 2, 19 } }; + alloc = g_alloc_L2M2; + nbands = 30; + } else + { + static const ma_dr_mp3_L12_subband_alloc g_alloc_L2M1[] = { { 0, 4, 3 }, { 16, 4, 8 }, { 32, 3, 12 }, { 40, 2, 7 } }; + int sample_rate_idx = MA_DR_MP3_HDR_GET_SAMPLE_RATE(hdr); + unsigned kbps = ma_dr_mp3_hdr_bitrate_kbps(hdr) >> (int)(mode != MA_DR_MP3_MODE_MONO); + if (!kbps) + { + kbps = 192; + } + alloc = g_alloc_L2M1; + nbands = 27; + if (kbps < 56) + { + static const ma_dr_mp3_L12_subband_alloc g_alloc_L2M1_lowrate[] = { { 44, 4, 2 }, { 44, 3, 10 } }; + alloc = g_alloc_L2M1_lowrate; + nbands = sample_rate_idx == 2 ? 12 : 8; + } else if (kbps >= 96 && sample_rate_idx != 1) + { + nbands = 30; + } + } + sci->total_bands = (ma_uint8)nbands; + sci->stereo_bands = (ma_uint8)MA_DR_MP3_MIN(stereo_bands, nbands); + return alloc; +} +static void ma_dr_mp3_L12_read_scalefactors(ma_dr_mp3_bs *bs, ma_uint8 *pba, ma_uint8 *scfcod, int bands, float *scf) +{ + static const float g_deq_L12[18*3] = { +#define MA_DR_MP3_DQ(x) 9.53674316e-07f/x, 7.56931807e-07f/x, 6.00777173e-07f/x + MA_DR_MP3_DQ(3),MA_DR_MP3_DQ(7),MA_DR_MP3_DQ(15),MA_DR_MP3_DQ(31),MA_DR_MP3_DQ(63),MA_DR_MP3_DQ(127),MA_DR_MP3_DQ(255),MA_DR_MP3_DQ(511),MA_DR_MP3_DQ(1023),MA_DR_MP3_DQ(2047),MA_DR_MP3_DQ(4095),MA_DR_MP3_DQ(8191),MA_DR_MP3_DQ(16383),MA_DR_MP3_DQ(32767),MA_DR_MP3_DQ(65535),MA_DR_MP3_DQ(3),MA_DR_MP3_DQ(5),MA_DR_MP3_DQ(9) + }; + int i, m; + for (i = 0; i < bands; i++) + { + float s = 0; + int ba = *pba++; + int mask = ba ? 4 + ((19 >> scfcod[i]) & 3) : 0; + for (m = 4; m; m >>= 1) + { + if (mask & m) + { + int b = ma_dr_mp3_bs_get_bits(bs, 6); + s = g_deq_L12[ba*3 - 6 + b % 3]*(int)(1 << 21 >> b/3); + } + *scf++ = s; + } + } +} +static void ma_dr_mp3_L12_read_scale_info(const ma_uint8 *hdr, ma_dr_mp3_bs *bs, ma_dr_mp3_L12_scale_info *sci) +{ + static const ma_uint8 g_bitalloc_code_tab[] = { + 0,17, 3, 4, 5,6,7, 8,9,10,11,12,13,14,15,16, + 0,17,18, 3,19,4,5, 6,7, 8, 9,10,11,12,13,16, + 0,17,18, 3,19,4,5,16, + 0,17,18,16, + 0,17,18,19, 4,5,6, 7,8, 9,10,11,12,13,14,15, + 0,17,18, 3,19,4,5, 6,7, 8, 9,10,11,12,13,14, + 0, 2, 3, 4, 5,6,7, 8,9,10,11,12,13,14,15,16 + }; + const ma_dr_mp3_L12_subband_alloc *subband_alloc = ma_dr_mp3_L12_subband_alloc_table(hdr, sci); + int i, k = 0, ba_bits = 0; + const ma_uint8 *ba_code_tab = g_bitalloc_code_tab; + for (i = 0; i < sci->total_bands; i++) + { + ma_uint8 ba; + if (i == k) + { + k += subband_alloc->band_count; + ba_bits = subband_alloc->code_tab_width; + ba_code_tab = g_bitalloc_code_tab + subband_alloc->tab_offset; + subband_alloc++; + } + ba = ba_code_tab[ma_dr_mp3_bs_get_bits(bs, ba_bits)]; + sci->bitalloc[2*i] = ba; + if (i < sci->stereo_bands) + { + ba = ba_code_tab[ma_dr_mp3_bs_get_bits(bs, ba_bits)]; + } + sci->bitalloc[2*i + 1] = sci->stereo_bands ? ba : 0; + } + for (i = 0; i < 2*sci->total_bands; i++) + { + sci->scfcod[i] = (ma_uint8)(sci->bitalloc[i] ? MA_DR_MP3_HDR_IS_LAYER_1(hdr) ? 2 : ma_dr_mp3_bs_get_bits(bs, 2) : 6); + } + ma_dr_mp3_L12_read_scalefactors(bs, sci->bitalloc, sci->scfcod, sci->total_bands*2, sci->scf); + for (i = sci->stereo_bands; i < sci->total_bands; i++) + { + sci->bitalloc[2*i + 1] = 0; + } +} +static int ma_dr_mp3_L12_dequantize_granule(float *grbuf, ma_dr_mp3_bs *bs, ma_dr_mp3_L12_scale_info *sci, int group_size) +{ + int i, j, k, choff = 576; + for (j = 0; j < 4; j++) + { + float *dst = grbuf + group_size*j; + for (i = 0; i < 2*sci->total_bands; i++) + { + int ba = sci->bitalloc[i]; + if (ba != 0) + { + if (ba < 17) + { + int half = (1 << (ba - 1)) - 1; + for (k = 0; k < group_size; k++) + { + dst[k] = (float)((int)ma_dr_mp3_bs_get_bits(bs, ba) - half); + } + } else + { + unsigned mod = (2 << (ba - 17)) + 1; + unsigned code = ma_dr_mp3_bs_get_bits(bs, mod + 2 - (mod >> 3)); + for (k = 0; k < group_size; k++, code /= mod) + { + dst[k] = (float)((int)(code % mod - mod/2)); + } + } + } + dst += choff; + choff = 18 - choff; + } + } + return group_size*4; +} +static void ma_dr_mp3_L12_apply_scf_384(ma_dr_mp3_L12_scale_info *sci, const float *scf, float *dst) +{ + int i, k; + MA_DR_MP3_COPY_MEMORY(dst + 576 + sci->stereo_bands*18, dst + sci->stereo_bands*18, (sci->total_bands - sci->stereo_bands)*18*sizeof(float)); + for (i = 0; i < sci->total_bands; i++, dst += 18, scf += 6) + { + for (k = 0; k < 12; k++) + { + dst[k + 0] *= scf[0]; + dst[k + 576] *= scf[3]; + } + } +} +#endif +static int ma_dr_mp3_L3_read_side_info(ma_dr_mp3_bs *bs, ma_dr_mp3_L3_gr_info *gr, const ma_uint8 *hdr) +{ + static const ma_uint8 g_scf_long[8][23] = { + { 6,6,6,6,6,6,8,10,12,14,16,20,24,28,32,38,46,52,60,68,58,54,0 }, + { 12,12,12,12,12,12,16,20,24,28,32,40,48,56,64,76,90,2,2,2,2,2,0 }, + { 6,6,6,6,6,6,8,10,12,14,16,20,24,28,32,38,46,52,60,68,58,54,0 }, + { 6,6,6,6,6,6,8,10,12,14,16,18,22,26,32,38,46,54,62,70,76,36,0 }, + { 6,6,6,6,6,6,8,10,12,14,16,20,24,28,32,38,46,52,60,68,58,54,0 }, + { 4,4,4,4,4,4,6,6,8,8,10,12,16,20,24,28,34,42,50,54,76,158,0 }, + { 4,4,4,4,4,4,6,6,6,8,10,12,16,18,22,28,34,40,46,54,54,192,0 }, + { 4,4,4,4,4,4,6,6,8,10,12,16,20,24,30,38,46,56,68,84,102,26,0 } + }; + static const ma_uint8 g_scf_short[8][40] = { + { 4,4,4,4,4,4,4,4,4,6,6,6,8,8,8,10,10,10,12,12,12,14,14,14,18,18,18,24,24,24,30,30,30,40,40,40,18,18,18,0 }, + { 8,8,8,8,8,8,8,8,8,12,12,12,16,16,16,20,20,20,24,24,24,28,28,28,36,36,36,2,2,2,2,2,2,2,2,2,26,26,26,0 }, + { 4,4,4,4,4,4,4,4,4,6,6,6,6,6,6,8,8,8,10,10,10,14,14,14,18,18,18,26,26,26,32,32,32,42,42,42,18,18,18,0 }, + { 4,4,4,4,4,4,4,4,4,6,6,6,8,8,8,10,10,10,12,12,12,14,14,14,18,18,18,24,24,24,32,32,32,44,44,44,12,12,12,0 }, + { 4,4,4,4,4,4,4,4,4,6,6,6,8,8,8,10,10,10,12,12,12,14,14,14,18,18,18,24,24,24,30,30,30,40,40,40,18,18,18,0 }, + { 4,4,4,4,4,4,4,4,4,4,4,4,6,6,6,8,8,8,10,10,10,12,12,12,14,14,14,18,18,18,22,22,22,30,30,30,56,56,56,0 }, + { 4,4,4,4,4,4,4,4,4,4,4,4,6,6,6,6,6,6,10,10,10,12,12,12,14,14,14,16,16,16,20,20,20,26,26,26,66,66,66,0 }, + { 4,4,4,4,4,4,4,4,4,4,4,4,6,6,6,8,8,8,12,12,12,16,16,16,20,20,20,26,26,26,34,34,34,42,42,42,12,12,12,0 } + }; + static const ma_uint8 g_scf_mixed[8][40] = { + { 6,6,6,6,6,6,6,6,6,8,8,8,10,10,10,12,12,12,14,14,14,18,18,18,24,24,24,30,30,30,40,40,40,18,18,18,0 }, + { 12,12,12,4,4,4,8,8,8,12,12,12,16,16,16,20,20,20,24,24,24,28,28,28,36,36,36,2,2,2,2,2,2,2,2,2,26,26,26,0 }, + { 6,6,6,6,6,6,6,6,6,6,6,6,8,8,8,10,10,10,14,14,14,18,18,18,26,26,26,32,32,32,42,42,42,18,18,18,0 }, + { 6,6,6,6,6,6,6,6,6,8,8,8,10,10,10,12,12,12,14,14,14,18,18,18,24,24,24,32,32,32,44,44,44,12,12,12,0 }, + { 6,6,6,6,6,6,6,6,6,8,8,8,10,10,10,12,12,12,14,14,14,18,18,18,24,24,24,30,30,30,40,40,40,18,18,18,0 }, + { 4,4,4,4,4,4,6,6,4,4,4,6,6,6,8,8,8,10,10,10,12,12,12,14,14,14,18,18,18,22,22,22,30,30,30,56,56,56,0 }, + { 4,4,4,4,4,4,6,6,4,4,4,6,6,6,6,6,6,10,10,10,12,12,12,14,14,14,16,16,16,20,20,20,26,26,26,66,66,66,0 }, + { 4,4,4,4,4,4,6,6,4,4,4,6,6,6,8,8,8,12,12,12,16,16,16,20,20,20,26,26,26,34,34,34,42,42,42,12,12,12,0 } + }; + unsigned tables, scfsi = 0; + int main_data_begin, part_23_sum = 0; + int gr_count = MA_DR_MP3_HDR_IS_MONO(hdr) ? 1 : 2; + int sr_idx = MA_DR_MP3_HDR_GET_MY_SAMPLE_RATE(hdr); sr_idx -= (sr_idx != 0); + if (MA_DR_MP3_HDR_TEST_MPEG1(hdr)) + { + gr_count *= 2; + main_data_begin = ma_dr_mp3_bs_get_bits(bs, 9); + scfsi = ma_dr_mp3_bs_get_bits(bs, 7 + gr_count); + } else + { + main_data_begin = ma_dr_mp3_bs_get_bits(bs, 8 + gr_count) >> gr_count; + } + do + { + if (MA_DR_MP3_HDR_IS_MONO(hdr)) + { + scfsi <<= 4; + } + gr->part_23_length = (ma_uint16)ma_dr_mp3_bs_get_bits(bs, 12); + part_23_sum += gr->part_23_length; + gr->big_values = (ma_uint16)ma_dr_mp3_bs_get_bits(bs, 9); + if (gr->big_values > 288) + { + return -1; + } + gr->global_gain = (ma_uint8)ma_dr_mp3_bs_get_bits(bs, 8); + gr->scalefac_compress = (ma_uint16)ma_dr_mp3_bs_get_bits(bs, MA_DR_MP3_HDR_TEST_MPEG1(hdr) ? 4 : 9); + gr->sfbtab = g_scf_long[sr_idx]; + gr->n_long_sfb = 22; + gr->n_short_sfb = 0; + if (ma_dr_mp3_bs_get_bits(bs, 1)) + { + gr->block_type = (ma_uint8)ma_dr_mp3_bs_get_bits(bs, 2); + if (!gr->block_type) + { + return -1; + } + gr->mixed_block_flag = (ma_uint8)ma_dr_mp3_bs_get_bits(bs, 1); + gr->region_count[0] = 7; + gr->region_count[1] = 255; + if (gr->block_type == MA_DR_MP3_SHORT_BLOCK_TYPE) + { + scfsi &= 0x0F0F; + if (!gr->mixed_block_flag) + { + gr->region_count[0] = 8; + gr->sfbtab = g_scf_short[sr_idx]; + gr->n_long_sfb = 0; + gr->n_short_sfb = 39; + } else + { + gr->sfbtab = g_scf_mixed[sr_idx]; + gr->n_long_sfb = MA_DR_MP3_HDR_TEST_MPEG1(hdr) ? 8 : 6; + gr->n_short_sfb = 30; + } + } + tables = ma_dr_mp3_bs_get_bits(bs, 10); + tables <<= 5; + gr->subblock_gain[0] = (ma_uint8)ma_dr_mp3_bs_get_bits(bs, 3); + gr->subblock_gain[1] = (ma_uint8)ma_dr_mp3_bs_get_bits(bs, 3); + gr->subblock_gain[2] = (ma_uint8)ma_dr_mp3_bs_get_bits(bs, 3); + } else + { + gr->block_type = 0; + gr->mixed_block_flag = 0; + tables = ma_dr_mp3_bs_get_bits(bs, 15); + gr->region_count[0] = (ma_uint8)ma_dr_mp3_bs_get_bits(bs, 4); + gr->region_count[1] = (ma_uint8)ma_dr_mp3_bs_get_bits(bs, 3); + gr->region_count[2] = 255; + } + gr->table_select[0] = (ma_uint8)(tables >> 10); + gr->table_select[1] = (ma_uint8)((tables >> 5) & 31); + gr->table_select[2] = (ma_uint8)((tables) & 31); + gr->preflag = (ma_uint8)(MA_DR_MP3_HDR_TEST_MPEG1(hdr) ? ma_dr_mp3_bs_get_bits(bs, 1) : (gr->scalefac_compress >= 500)); + gr->scalefac_scale = (ma_uint8)ma_dr_mp3_bs_get_bits(bs, 1); + gr->count1_table = (ma_uint8)ma_dr_mp3_bs_get_bits(bs, 1); + gr->scfsi = (ma_uint8)((scfsi >> 12) & 15); + scfsi <<= 4; + gr++; + } while(--gr_count); + if (part_23_sum + bs->pos > bs->limit + main_data_begin*8) + { + return -1; + } + return main_data_begin; +} +static void ma_dr_mp3_L3_read_scalefactors(ma_uint8 *scf, ma_uint8 *ist_pos, const ma_uint8 *scf_size, const ma_uint8 *scf_count, ma_dr_mp3_bs *bitbuf, int scfsi) +{ + int i, k; + for (i = 0; i < 4 && scf_count[i]; i++, scfsi *= 2) + { + int cnt = scf_count[i]; + if (scfsi & 8) + { + MA_DR_MP3_COPY_MEMORY(scf, ist_pos, cnt); + } else + { + int bits = scf_size[i]; + if (!bits) + { + MA_DR_MP3_ZERO_MEMORY(scf, cnt); + MA_DR_MP3_ZERO_MEMORY(ist_pos, cnt); + } else + { + int max_scf = (scfsi < 0) ? (1 << bits) - 1 : -1; + for (k = 0; k < cnt; k++) + { + int s = ma_dr_mp3_bs_get_bits(bitbuf, bits); + ist_pos[k] = (ma_uint8)(s == max_scf ? -1 : s); + scf[k] = (ma_uint8)s; + } + } + } + ist_pos += cnt; + scf += cnt; + } + scf[0] = scf[1] = scf[2] = 0; +} +static float ma_dr_mp3_L3_ldexp_q2(float y, int exp_q2) +{ + static const float g_expfrac[4] = { 9.31322575e-10f,7.83145814e-10f,6.58544508e-10f,5.53767716e-10f }; + int e; + do + { + e = MA_DR_MP3_MIN(30*4, exp_q2); + y *= g_expfrac[e & 3]*(1 << 30 >> (e >> 2)); + } while ((exp_q2 -= e) > 0); + return y; +} +#if (defined(__GNUC__) && (__GNUC__ >= 13)) && !defined(__clang__) + #pragma GCC diagnostic push + #pragma GCC diagnostic ignored "-Wstringop-overflow" +#endif +static void ma_dr_mp3_L3_decode_scalefactors(const ma_uint8 *hdr, ma_uint8 *ist_pos, ma_dr_mp3_bs *bs, const ma_dr_mp3_L3_gr_info *gr, float *scf, int ch) +{ + static const ma_uint8 g_scf_partitions[3][28] = { + { 6,5,5, 5,6,5,5,5,6,5, 7,3,11,10,0,0, 7, 7, 7,0, 6, 6,6,3, 8, 8,5,0 }, + { 8,9,6,12,6,9,9,9,6,9,12,6,15,18,0,0, 6,15,12,0, 6,12,9,6, 6,18,9,0 }, + { 9,9,6,12,9,9,9,9,9,9,12,6,18,18,0,0,12,12,12,0,12, 9,9,6,15,12,9,0 } + }; + const ma_uint8 *scf_partition = g_scf_partitions[!!gr->n_short_sfb + !gr->n_long_sfb]; + ma_uint8 scf_size[4], iscf[40]; + int i, scf_shift = gr->scalefac_scale + 1, gain_exp, scfsi = gr->scfsi; + float gain; + if (MA_DR_MP3_HDR_TEST_MPEG1(hdr)) + { + static const ma_uint8 g_scfc_decode[16] = { 0,1,2,3, 12,5,6,7, 9,10,11,13, 14,15,18,19 }; + int part = g_scfc_decode[gr->scalefac_compress]; + scf_size[1] = scf_size[0] = (ma_uint8)(part >> 2); + scf_size[3] = scf_size[2] = (ma_uint8)(part & 3); + } else + { + static const ma_uint8 g_mod[6*4] = { 5,5,4,4,5,5,4,1,4,3,1,1,5,6,6,1,4,4,4,1,4,3,1,1 }; + int k, modprod, sfc, ist = MA_DR_MP3_HDR_TEST_I_STEREO(hdr) && ch; + sfc = gr->scalefac_compress >> ist; + for (k = ist*3*4; sfc >= 0; sfc -= modprod, k += 4) + { + for (modprod = 1, i = 3; i >= 0; i--) + { + scf_size[i] = (ma_uint8)(sfc / modprod % g_mod[k + i]); + modprod *= g_mod[k + i]; + } + } + scf_partition += k; + scfsi = -16; + } + ma_dr_mp3_L3_read_scalefactors(iscf, ist_pos, scf_size, scf_partition, bs, scfsi); + if (gr->n_short_sfb) + { + int sh = 3 - scf_shift; + for (i = 0; i < gr->n_short_sfb; i += 3) + { + iscf[gr->n_long_sfb + i + 0] = (ma_uint8)(iscf[gr->n_long_sfb + i + 0] + (gr->subblock_gain[0] << sh)); + iscf[gr->n_long_sfb + i + 1] = (ma_uint8)(iscf[gr->n_long_sfb + i + 1] + (gr->subblock_gain[1] << sh)); + iscf[gr->n_long_sfb + i + 2] = (ma_uint8)(iscf[gr->n_long_sfb + i + 2] + (gr->subblock_gain[2] << sh)); + } + } else if (gr->preflag) + { + static const ma_uint8 g_preamp[10] = { 1,1,1,1,2,2,3,3,3,2 }; + for (i = 0; i < 10; i++) + { + iscf[11 + i] = (ma_uint8)(iscf[11 + i] + g_preamp[i]); + } + } + gain_exp = gr->global_gain + MA_DR_MP3_BITS_DEQUANTIZER_OUT*4 - 210 - (MA_DR_MP3_HDR_IS_MS_STEREO(hdr) ? 2 : 0); + gain = ma_dr_mp3_L3_ldexp_q2(1 << (MA_DR_MP3_MAX_SCFI/4), MA_DR_MP3_MAX_SCFI - gain_exp); + for (i = 0; i < (int)(gr->n_long_sfb + gr->n_short_sfb); i++) + { + scf[i] = ma_dr_mp3_L3_ldexp_q2(gain, iscf[i] << scf_shift); + } +} +#if (defined(__GNUC__) && (__GNUC__ >= 13)) && !defined(__clang__) + #pragma GCC diagnostic pop +#endif +static const float ma_dr_mp3_g_pow43[129 + 16] = { + 0,-1,-2.519842f,-4.326749f,-6.349604f,-8.549880f,-10.902724f,-13.390518f,-16.000000f,-18.720754f,-21.544347f,-24.463781f,-27.473142f,-30.567351f,-33.741992f,-36.993181f, + 0,1,2.519842f,4.326749f,6.349604f,8.549880f,10.902724f,13.390518f,16.000000f,18.720754f,21.544347f,24.463781f,27.473142f,30.567351f,33.741992f,36.993181f,40.317474f,43.711787f,47.173345f,50.699631f,54.288352f,57.937408f,61.644865f,65.408941f,69.227979f,73.100443f,77.024898f,81.000000f,85.024491f,89.097188f,93.216975f,97.382800f,101.593667f,105.848633f,110.146801f,114.487321f,118.869381f,123.292209f,127.755065f,132.257246f,136.798076f,141.376907f,145.993119f,150.646117f,155.335327f,160.060199f,164.820202f,169.614826f,174.443577f,179.305980f,184.201575f,189.129918f,194.090580f,199.083145f,204.107210f,209.162385f,214.248292f,219.364564f,224.510845f,229.686789f,234.892058f,240.126328f,245.389280f,250.680604f,256.000000f,261.347174f,266.721841f,272.123723f,277.552547f,283.008049f,288.489971f,293.998060f,299.532071f,305.091761f,310.676898f,316.287249f,321.922592f,327.582707f,333.267377f,338.976394f,344.709550f,350.466646f,356.247482f,362.051866f,367.879608f,373.730522f,379.604427f,385.501143f,391.420496f,397.362314f,403.326427f,409.312672f,415.320884f,421.350905f,427.402579f,433.475750f,439.570269f,445.685987f,451.822757f,457.980436f,464.158883f,470.357960f,476.577530f,482.817459f,489.077615f,495.357868f,501.658090f,507.978156f,514.317941f,520.677324f,527.056184f,533.454404f,539.871867f,546.308458f,552.764065f,559.238575f,565.731879f,572.243870f,578.774440f,585.323483f,591.890898f,598.476581f,605.080431f,611.702349f,618.342238f,625.000000f,631.675540f,638.368763f,645.079578f +}; +static float ma_dr_mp3_L3_pow_43(int x) +{ + float frac; + int sign, mult = 256; + if (x < 129) + { + return ma_dr_mp3_g_pow43[16 + x]; + } + if (x < 1024) + { + mult = 16; + x <<= 3; + } + sign = 2*x & 64; + frac = (float)((x & 63) - sign) / ((x & ~63) + sign); + return ma_dr_mp3_g_pow43[16 + ((x + sign) >> 6)]*(1.f + frac*((4.f/3) + frac*(2.f/9)))*mult; +} +static void ma_dr_mp3_L3_huffman(float *dst, ma_dr_mp3_bs *bs, const ma_dr_mp3_L3_gr_info *gr_info, const float *scf, int layer3gr_limit) +{ + static const ma_int16 tabs[] = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 785,785,785,785,784,784,784,784,513,513,513,513,513,513,513,513,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256, + -255,1313,1298,1282,785,785,785,785,784,784,784,784,769,769,769,769,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,290,288, + -255,1313,1298,1282,769,769,769,769,529,529,529,529,529,529,529,529,528,528,528,528,528,528,528,528,512,512,512,512,512,512,512,512,290,288, + -253,-318,-351,-367,785,785,785,785,784,784,784,784,769,769,769,769,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,819,818,547,547,275,275,275,275,561,560,515,546,289,274,288,258, + -254,-287,1329,1299,1314,1312,1057,1057,1042,1042,1026,1026,784,784,784,784,529,529,529,529,529,529,529,529,769,769,769,769,768,768,768,768,563,560,306,306,291,259, + -252,-413,-477,-542,1298,-575,1041,1041,784,784,784,784,769,769,769,769,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,-383,-399,1107,1092,1106,1061,849,849,789,789,1104,1091,773,773,1076,1075,341,340,325,309,834,804,577,577,532,532,516,516,832,818,803,816,561,561,531,531,515,546,289,289,288,258, + -252,-429,-493,-559,1057,1057,1042,1042,529,529,529,529,529,529,529,529,784,784,784,784,769,769,769,769,512,512,512,512,512,512,512,512,-382,1077,-415,1106,1061,1104,849,849,789,789,1091,1076,1029,1075,834,834,597,581,340,340,339,324,804,833,532,532,832,772,818,803,817,787,816,771,290,290,290,290,288,258, + -253,-349,-414,-447,-463,1329,1299,-479,1314,1312,1057,1057,1042,1042,1026,1026,785,785,785,785,784,784,784,784,769,769,769,769,768,768,768,768,-319,851,821,-335,836,850,805,849,341,340,325,336,533,533,579,579,564,564,773,832,578,548,563,516,321,276,306,291,304,259, + -251,-572,-733,-830,-863,-879,1041,1041,784,784,784,784,769,769,769,769,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,-511,-527,-543,1396,1351,1381,1366,1395,1335,1380,-559,1334,1138,1138,1063,1063,1350,1392,1031,1031,1062,1062,1364,1363,1120,1120,1333,1348,881,881,881,881,375,374,359,373,343,358,341,325,791,791,1123,1122,-703,1105,1045,-719,865,865,790,790,774,774,1104,1029,338,293,323,308,-799,-815,833,788,772,818,803,816,322,292,307,320,561,531,515,546,289,274,288,258, + -251,-525,-605,-685,-765,-831,-846,1298,1057,1057,1312,1282,785,785,785,785,784,784,784,784,769,769,769,769,512,512,512,512,512,512,512,512,1399,1398,1383,1367,1382,1396,1351,-511,1381,1366,1139,1139,1079,1079,1124,1124,1364,1349,1363,1333,882,882,882,882,807,807,807,807,1094,1094,1136,1136,373,341,535,535,881,775,867,822,774,-591,324,338,-671,849,550,550,866,864,609,609,293,336,534,534,789,835,773,-751,834,804,308,307,833,788,832,772,562,562,547,547,305,275,560,515,290,290, + -252,-397,-477,-557,-622,-653,-719,-735,-750,1329,1299,1314,1057,1057,1042,1042,1312,1282,1024,1024,785,785,785,785,784,784,784,784,769,769,769,769,-383,1127,1141,1111,1126,1140,1095,1110,869,869,883,883,1079,1109,882,882,375,374,807,868,838,881,791,-463,867,822,368,263,852,837,836,-543,610,610,550,550,352,336,534,534,865,774,851,821,850,805,593,533,579,564,773,832,578,578,548,548,577,577,307,276,306,291,516,560,259,259, + -250,-2107,-2507,-2764,-2909,-2974,-3007,-3023,1041,1041,1040,1040,769,769,769,769,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,-767,-1052,-1213,-1277,-1358,-1405,-1469,-1535,-1550,-1582,-1614,-1647,-1662,-1694,-1726,-1759,-1774,-1807,-1822,-1854,-1886,1565,-1919,-1935,-1951,-1967,1731,1730,1580,1717,-1983,1729,1564,-1999,1548,-2015,-2031,1715,1595,-2047,1714,-2063,1610,-2079,1609,-2095,1323,1323,1457,1457,1307,1307,1712,1547,1641,1700,1699,1594,1685,1625,1442,1442,1322,1322,-780,-973,-910,1279,1278,1277,1262,1276,1261,1275,1215,1260,1229,-959,974,974,989,989,-943,735,478,478,495,463,506,414,-1039,1003,958,1017,927,942,987,957,431,476,1272,1167,1228,-1183,1256,-1199,895,895,941,941,1242,1227,1212,1135,1014,1014,490,489,503,487,910,1013,985,925,863,894,970,955,1012,847,-1343,831,755,755,984,909,428,366,754,559,-1391,752,486,457,924,997,698,698,983,893,740,740,908,877,739,739,667,667,953,938,497,287,271,271,683,606,590,712,726,574,302,302,738,736,481,286,526,725,605,711,636,724,696,651,589,681,666,710,364,467,573,695,466,466,301,465,379,379,709,604,665,679,316,316,634,633,436,436,464,269,424,394,452,332,438,363,347,408,393,448,331,422,362,407,392,421,346,406,391,376,375,359,1441,1306,-2367,1290,-2383,1337,-2399,-2415,1426,1321,-2431,1411,1336,-2447,-2463,-2479,1169,1169,1049,1049,1424,1289,1412,1352,1319,-2495,1154,1154,1064,1064,1153,1153,416,390,360,404,403,389,344,374,373,343,358,372,327,357,342,311,356,326,1395,1394,1137,1137,1047,1047,1365,1392,1287,1379,1334,1364,1349,1378,1318,1363,792,792,792,792,1152,1152,1032,1032,1121,1121,1046,1046,1120,1120,1030,1030,-2895,1106,1061,1104,849,849,789,789,1091,1076,1029,1090,1060,1075,833,833,309,324,532,532,832,772,818,803,561,561,531,560,515,546,289,274,288,258, + -250,-1179,-1579,-1836,-1996,-2124,-2253,-2333,-2413,-2477,-2542,-2574,-2607,-2622,-2655,1314,1313,1298,1312,1282,785,785,785,785,1040,1040,1025,1025,768,768,768,768,-766,-798,-830,-862,-895,-911,-927,-943,-959,-975,-991,-1007,-1023,-1039,-1055,-1070,1724,1647,-1103,-1119,1631,1767,1662,1738,1708,1723,-1135,1780,1615,1779,1599,1677,1646,1778,1583,-1151,1777,1567,1737,1692,1765,1722,1707,1630,1751,1661,1764,1614,1736,1676,1763,1750,1645,1598,1721,1691,1762,1706,1582,1761,1566,-1167,1749,1629,767,766,751,765,494,494,735,764,719,749,734,763,447,447,748,718,477,506,431,491,446,476,461,505,415,430,475,445,504,399,460,489,414,503,383,474,429,459,502,502,746,752,488,398,501,473,413,472,486,271,480,270,-1439,-1455,1357,-1471,-1487,-1503,1341,1325,-1519,1489,1463,1403,1309,-1535,1372,1448,1418,1476,1356,1462,1387,-1551,1475,1340,1447,1402,1386,-1567,1068,1068,1474,1461,455,380,468,440,395,425,410,454,364,467,466,464,453,269,409,448,268,432,1371,1473,1432,1417,1308,1460,1355,1446,1459,1431,1083,1083,1401,1416,1458,1445,1067,1067,1370,1457,1051,1051,1291,1430,1385,1444,1354,1415,1400,1443,1082,1082,1173,1113,1186,1066,1185,1050,-1967,1158,1128,1172,1097,1171,1081,-1983,1157,1112,416,266,375,400,1170,1142,1127,1065,793,793,1169,1033,1156,1096,1141,1111,1155,1080,1126,1140,898,898,808,808,897,897,792,792,1095,1152,1032,1125,1110,1139,1079,1124,882,807,838,881,853,791,-2319,867,368,263,822,852,837,866,806,865,-2399,851,352,262,534,534,821,836,594,594,549,549,593,593,533,533,848,773,579,579,564,578,548,563,276,276,577,576,306,291,516,560,305,305,275,259, + -251,-892,-2058,-2620,-2828,-2957,-3023,-3039,1041,1041,1040,1040,769,769,769,769,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,256,-511,-527,-543,-559,1530,-575,-591,1528,1527,1407,1526,1391,1023,1023,1023,1023,1525,1375,1268,1268,1103,1103,1087,1087,1039,1039,1523,-604,815,815,815,815,510,495,509,479,508,463,507,447,431,505,415,399,-734,-782,1262,-815,1259,1244,-831,1258,1228,-847,-863,1196,-879,1253,987,987,748,-767,493,493,462,477,414,414,686,669,478,446,461,445,474,429,487,458,412,471,1266,1264,1009,1009,799,799,-1019,-1276,-1452,-1581,-1677,-1757,-1821,-1886,-1933,-1997,1257,1257,1483,1468,1512,1422,1497,1406,1467,1496,1421,1510,1134,1134,1225,1225,1466,1451,1374,1405,1252,1252,1358,1480,1164,1164,1251,1251,1238,1238,1389,1465,-1407,1054,1101,-1423,1207,-1439,830,830,1248,1038,1237,1117,1223,1148,1236,1208,411,426,395,410,379,269,1193,1222,1132,1235,1221,1116,976,976,1192,1162,1177,1220,1131,1191,963,963,-1647,961,780,-1663,558,558,994,993,437,408,393,407,829,978,813,797,947,-1743,721,721,377,392,844,950,828,890,706,706,812,859,796,960,948,843,934,874,571,571,-1919,690,555,689,421,346,539,539,944,779,918,873,932,842,903,888,570,570,931,917,674,674,-2575,1562,-2591,1609,-2607,1654,1322,1322,1441,1441,1696,1546,1683,1593,1669,1624,1426,1426,1321,1321,1639,1680,1425,1425,1305,1305,1545,1668,1608,1623,1667,1592,1638,1666,1320,1320,1652,1607,1409,1409,1304,1304,1288,1288,1664,1637,1395,1395,1335,1335,1622,1636,1394,1394,1319,1319,1606,1621,1392,1392,1137,1137,1137,1137,345,390,360,375,404,373,1047,-2751,-2767,-2783,1062,1121,1046,-2799,1077,-2815,1106,1061,789,789,1105,1104,263,355,310,340,325,354,352,262,339,324,1091,1076,1029,1090,1060,1075,833,833,788,788,1088,1028,818,818,803,803,561,561,531,531,816,771,546,546,289,274,288,258, + -253,-317,-381,-446,-478,-509,1279,1279,-811,-1179,-1451,-1756,-1900,-2028,-2189,-2253,-2333,-2414,-2445,-2511,-2526,1313,1298,-2559,1041,1041,1040,1040,1025,1025,1024,1024,1022,1007,1021,991,1020,975,1019,959,687,687,1018,1017,671,671,655,655,1016,1015,639,639,758,758,623,623,757,607,756,591,755,575,754,559,543,543,1009,783,-575,-621,-685,-749,496,-590,750,749,734,748,974,989,1003,958,988,973,1002,942,987,957,972,1001,926,986,941,971,956,1000,910,985,925,999,894,970,-1071,-1087,-1102,1390,-1135,1436,1509,1451,1374,-1151,1405,1358,1480,1420,-1167,1507,1494,1389,1342,1465,1435,1450,1326,1505,1310,1493,1373,1479,1404,1492,1464,1419,428,443,472,397,736,526,464,464,486,457,442,471,484,482,1357,1449,1434,1478,1388,1491,1341,1490,1325,1489,1463,1403,1309,1477,1372,1448,1418,1433,1476,1356,1462,1387,-1439,1475,1340,1447,1402,1474,1324,1461,1371,1473,269,448,1432,1417,1308,1460,-1711,1459,-1727,1441,1099,1099,1446,1386,1431,1401,-1743,1289,1083,1083,1160,1160,1458,1445,1067,1067,1370,1457,1307,1430,1129,1129,1098,1098,268,432,267,416,266,400,-1887,1144,1187,1082,1173,1113,1186,1066,1050,1158,1128,1143,1172,1097,1171,1081,420,391,1157,1112,1170,1142,1127,1065,1169,1049,1156,1096,1141,1111,1155,1080,1126,1154,1064,1153,1140,1095,1048,-2159,1125,1110,1137,-2175,823,823,1139,1138,807,807,384,264,368,263,868,838,853,791,867,822,852,837,866,806,865,790,-2319,851,821,836,352,262,850,805,849,-2399,533,533,835,820,336,261,578,548,563,577,532,532,832,772,562,562,547,547,305,275,560,515,290,290,288,258 }; + static const ma_uint8 tab32[] = { 130,162,193,209,44,28,76,140,9,9,9,9,9,9,9,9,190,254,222,238,126,94,157,157,109,61,173,205}; + static const ma_uint8 tab33[] = { 252,236,220,204,188,172,156,140,124,108,92,76,60,44,28,12 }; + static const ma_int16 tabindex[2*16] = { 0,32,64,98,0,132,180,218,292,364,426,538,648,746,0,1126,1460,1460,1460,1460,1460,1460,1460,1460,1842,1842,1842,1842,1842,1842,1842,1842 }; + static const ma_uint8 g_linbits[] = { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,1,2,3,4,6,8,10,13,4,5,6,7,8,9,11,13 }; +#define MA_DR_MP3_PEEK_BITS(n) (bs_cache >> (32 - (n))) +#define MA_DR_MP3_FLUSH_BITS(n) { bs_cache <<= (n); bs_sh += (n); } +#define MA_DR_MP3_CHECK_BITS while (bs_sh >= 0) { bs_cache |= (ma_uint32)*bs_next_ptr++ << bs_sh; bs_sh -= 8; } +#define MA_DR_MP3_BSPOS ((bs_next_ptr - bs->buf)*8 - 24 + bs_sh) + float one = 0.0f; + int ireg = 0, big_val_cnt = gr_info->big_values; + const ma_uint8 *sfb = gr_info->sfbtab; + const ma_uint8 *bs_next_ptr = bs->buf + bs->pos/8; + ma_uint32 bs_cache = (((bs_next_ptr[0]*256u + bs_next_ptr[1])*256u + bs_next_ptr[2])*256u + bs_next_ptr[3]) << (bs->pos & 7); + int pairs_to_decode, np, bs_sh = (bs->pos & 7) - 8; + bs_next_ptr += 4; + while (big_val_cnt > 0) + { + int tab_num = gr_info->table_select[ireg]; + int sfb_cnt = gr_info->region_count[ireg++]; + const ma_int16 *codebook = tabs + tabindex[tab_num]; + int linbits = g_linbits[tab_num]; + if (linbits) + { + do + { + np = *sfb++ / 2; + pairs_to_decode = MA_DR_MP3_MIN(big_val_cnt, np); + one = *scf++; + do + { + int j, w = 5; + int leaf = codebook[MA_DR_MP3_PEEK_BITS(w)]; + while (leaf < 0) + { + MA_DR_MP3_FLUSH_BITS(w); + w = leaf & 7; + leaf = codebook[MA_DR_MP3_PEEK_BITS(w) - (leaf >> 3)]; + } + MA_DR_MP3_FLUSH_BITS(leaf >> 8); + for (j = 0; j < 2; j++, dst++, leaf >>= 4) + { + int lsb = leaf & 0x0F; + if (lsb == 15) + { + lsb += MA_DR_MP3_PEEK_BITS(linbits); + MA_DR_MP3_FLUSH_BITS(linbits); + MA_DR_MP3_CHECK_BITS; + *dst = one*ma_dr_mp3_L3_pow_43(lsb)*((ma_int32)bs_cache < 0 ? -1: 1); + } else + { + *dst = ma_dr_mp3_g_pow43[16 + lsb - 16*(bs_cache >> 31)]*one; + } + MA_DR_MP3_FLUSH_BITS(lsb ? 1 : 0); + } + MA_DR_MP3_CHECK_BITS; + } while (--pairs_to_decode); + } while ((big_val_cnt -= np) > 0 && --sfb_cnt >= 0); + } else + { + do + { + np = *sfb++ / 2; + pairs_to_decode = MA_DR_MP3_MIN(big_val_cnt, np); + one = *scf++; + do + { + int j, w = 5; + int leaf = codebook[MA_DR_MP3_PEEK_BITS(w)]; + while (leaf < 0) + { + MA_DR_MP3_FLUSH_BITS(w); + w = leaf & 7; + leaf = codebook[MA_DR_MP3_PEEK_BITS(w) - (leaf >> 3)]; + } + MA_DR_MP3_FLUSH_BITS(leaf >> 8); + for (j = 0; j < 2; j++, dst++, leaf >>= 4) + { + int lsb = leaf & 0x0F; + *dst = ma_dr_mp3_g_pow43[16 + lsb - 16*(bs_cache >> 31)]*one; + MA_DR_MP3_FLUSH_BITS(lsb ? 1 : 0); + } + MA_DR_MP3_CHECK_BITS; + } while (--pairs_to_decode); + } while ((big_val_cnt -= np) > 0 && --sfb_cnt >= 0); + } + } + for (np = 1 - big_val_cnt;; dst += 4) + { + const ma_uint8 *codebook_count1 = (gr_info->count1_table) ? tab33 : tab32; + int leaf = codebook_count1[MA_DR_MP3_PEEK_BITS(4)]; + if (!(leaf & 8)) + { + leaf = codebook_count1[(leaf >> 3) + (bs_cache << 4 >> (32 - (leaf & 3)))]; + } + MA_DR_MP3_FLUSH_BITS(leaf & 7); + if (MA_DR_MP3_BSPOS > layer3gr_limit) + { + break; + } +#define MA_DR_MP3_RELOAD_SCALEFACTOR if (!--np) { np = *sfb++/2; if (!np) break; one = *scf++; } +#define MA_DR_MP3_DEQ_COUNT1(s) if (leaf & (128 >> s)) { dst[s] = ((ma_int32)bs_cache < 0) ? -one : one; MA_DR_MP3_FLUSH_BITS(1) } + MA_DR_MP3_RELOAD_SCALEFACTOR; + MA_DR_MP3_DEQ_COUNT1(0); + MA_DR_MP3_DEQ_COUNT1(1); + MA_DR_MP3_RELOAD_SCALEFACTOR; + MA_DR_MP3_DEQ_COUNT1(2); + MA_DR_MP3_DEQ_COUNT1(3); + MA_DR_MP3_CHECK_BITS; + } + bs->pos = layer3gr_limit; +} +static void ma_dr_mp3_L3_midside_stereo(float *left, int n) +{ + int i = 0; + float *right = left + 576; +#if MA_DR_MP3_HAVE_SIMD + if (ma_dr_mp3_have_simd()) + { + for (; i < n - 3; i += 4) + { + ma_dr_mp3_f4 vl = MA_DR_MP3_VLD(left + i); + ma_dr_mp3_f4 vr = MA_DR_MP3_VLD(right + i); + MA_DR_MP3_VSTORE(left + i, MA_DR_MP3_VADD(vl, vr)); + MA_DR_MP3_VSTORE(right + i, MA_DR_MP3_VSUB(vl, vr)); + } +#ifdef __GNUC__ + if (__builtin_constant_p(n % 4 == 0) && n % 4 == 0) + return; +#endif + } +#endif + for (; i < n; i++) + { + float a = left[i]; + float b = right[i]; + left[i] = a + b; + right[i] = a - b; + } +} +static void ma_dr_mp3_L3_intensity_stereo_band(float *left, int n, float kl, float kr) +{ + int i; + for (i = 0; i < n; i++) + { + left[i + 576] = left[i]*kr; + left[i] = left[i]*kl; + } +} +static void ma_dr_mp3_L3_stereo_top_band(const float *right, const ma_uint8 *sfb, int nbands, int max_band[3]) +{ + int i, k; + max_band[0] = max_band[1] = max_band[2] = -1; + for (i = 0; i < nbands; i++) + { + for (k = 0; k < sfb[i]; k += 2) + { + if (right[k] != 0 || right[k + 1] != 0) + { + max_band[i % 3] = i; + break; + } + } + right += sfb[i]; + } +} +static void ma_dr_mp3_L3_stereo_process(float *left, const ma_uint8 *ist_pos, const ma_uint8 *sfb, const ma_uint8 *hdr, int max_band[3], int mpeg2_sh) +{ + static const float g_pan[7*2] = { 0,1,0.21132487f,0.78867513f,0.36602540f,0.63397460f,0.5f,0.5f,0.63397460f,0.36602540f,0.78867513f,0.21132487f,1,0 }; + unsigned i, max_pos = MA_DR_MP3_HDR_TEST_MPEG1(hdr) ? 7 : 64; + for (i = 0; sfb[i]; i++) + { + unsigned ipos = ist_pos[i]; + if ((int)i > max_band[i % 3] && ipos < max_pos) + { + float kl, kr, s = MA_DR_MP3_HDR_TEST_MS_STEREO(hdr) ? 1.41421356f : 1; + if (MA_DR_MP3_HDR_TEST_MPEG1(hdr)) + { + kl = g_pan[2*ipos]; + kr = g_pan[2*ipos + 1]; + } else + { + kl = 1; + kr = ma_dr_mp3_L3_ldexp_q2(1, (ipos + 1) >> 1 << mpeg2_sh); + if (ipos & 1) + { + kl = kr; + kr = 1; + } + } + ma_dr_mp3_L3_intensity_stereo_band(left, sfb[i], kl*s, kr*s); + } else if (MA_DR_MP3_HDR_TEST_MS_STEREO(hdr)) + { + ma_dr_mp3_L3_midside_stereo(left, sfb[i]); + } + left += sfb[i]; + } +} +static void ma_dr_mp3_L3_intensity_stereo(float *left, ma_uint8 *ist_pos, const ma_dr_mp3_L3_gr_info *gr, const ma_uint8 *hdr) +{ + int max_band[3], n_sfb = gr->n_long_sfb + gr->n_short_sfb; + int i, max_blocks = gr->n_short_sfb ? 3 : 1; + ma_dr_mp3_L3_stereo_top_band(left + 576, gr->sfbtab, n_sfb, max_band); + if (gr->n_long_sfb) + { + max_band[0] = max_band[1] = max_band[2] = MA_DR_MP3_MAX(MA_DR_MP3_MAX(max_band[0], max_band[1]), max_band[2]); + } + for (i = 0; i < max_blocks; i++) + { + int default_pos = MA_DR_MP3_HDR_TEST_MPEG1(hdr) ? 3 : 0; + int itop = n_sfb - max_blocks + i; + int prev = itop - max_blocks; + ist_pos[itop] = (ma_uint8)(max_band[i] >= prev ? default_pos : ist_pos[prev]); + } + ma_dr_mp3_L3_stereo_process(left, ist_pos, gr->sfbtab, hdr, max_band, gr[1].scalefac_compress & 1); +} +static void ma_dr_mp3_L3_reorder(float *grbuf, float *scratch, const ma_uint8 *sfb) +{ + int i, len; + float *src = grbuf, *dst = scratch; + for (;0 != (len = *sfb); sfb += 3, src += 2*len) + { + for (i = 0; i < len; i++, src++) + { + *dst++ = src[0*len]; + *dst++ = src[1*len]; + *dst++ = src[2*len]; + } + } + MA_DR_MP3_COPY_MEMORY(grbuf, scratch, (dst - scratch)*sizeof(float)); +} +static void ma_dr_mp3_L3_antialias(float *grbuf, int nbands) +{ + static const float g_aa[2][8] = { + {0.85749293f,0.88174200f,0.94962865f,0.98331459f,0.99551782f,0.99916056f,0.99989920f,0.99999316f}, + {0.51449576f,0.47173197f,0.31337745f,0.18191320f,0.09457419f,0.04096558f,0.01419856f,0.00369997f} + }; + for (; nbands > 0; nbands--, grbuf += 18) + { + int i = 0; +#if MA_DR_MP3_HAVE_SIMD + if (ma_dr_mp3_have_simd()) for (; i < 8; i += 4) + { + ma_dr_mp3_f4 vu = MA_DR_MP3_VLD(grbuf + 18 + i); + ma_dr_mp3_f4 vd = MA_DR_MP3_VLD(grbuf + 14 - i); + ma_dr_mp3_f4 vc0 = MA_DR_MP3_VLD(g_aa[0] + i); + ma_dr_mp3_f4 vc1 = MA_DR_MP3_VLD(g_aa[1] + i); + vd = MA_DR_MP3_VREV(vd); + MA_DR_MP3_VSTORE(grbuf + 18 + i, MA_DR_MP3_VSUB(MA_DR_MP3_VMUL(vu, vc0), MA_DR_MP3_VMUL(vd, vc1))); + vd = MA_DR_MP3_VADD(MA_DR_MP3_VMUL(vu, vc1), MA_DR_MP3_VMUL(vd, vc0)); + MA_DR_MP3_VSTORE(grbuf + 14 - i, MA_DR_MP3_VREV(vd)); + } +#endif +#ifndef MA_DR_MP3_ONLY_SIMD + for(; i < 8; i++) + { + float u = grbuf[18 + i]; + float d = grbuf[17 - i]; + grbuf[18 + i] = u*g_aa[0][i] - d*g_aa[1][i]; + grbuf[17 - i] = u*g_aa[1][i] + d*g_aa[0][i]; + } +#endif + } +} +static void ma_dr_mp3_L3_dct3_9(float *y) +{ + float s0, s1, s2, s3, s4, s5, s6, s7, s8, t0, t2, t4; + s0 = y[0]; s2 = y[2]; s4 = y[4]; s6 = y[6]; s8 = y[8]; + t0 = s0 + s6*0.5f; + s0 -= s6; + t4 = (s4 + s2)*0.93969262f; + t2 = (s8 + s2)*0.76604444f; + s6 = (s4 - s8)*0.17364818f; + s4 += s8 - s2; + s2 = s0 - s4*0.5f; + y[4] = s4 + s0; + s8 = t0 - t2 + s6; + s0 = t0 - t4 + t2; + s4 = t0 + t4 - s6; + s1 = y[1]; s3 = y[3]; s5 = y[5]; s7 = y[7]; + s3 *= 0.86602540f; + t0 = (s5 + s1)*0.98480775f; + t4 = (s5 - s7)*0.34202014f; + t2 = (s1 + s7)*0.64278761f; + s1 = (s1 - s5 - s7)*0.86602540f; + s5 = t0 - s3 - t2; + s7 = t4 - s3 - t0; + s3 = t4 + s3 - t2; + y[0] = s4 - s7; + y[1] = s2 + s1; + y[2] = s0 - s3; + y[3] = s8 + s5; + y[5] = s8 - s5; + y[6] = s0 + s3; + y[7] = s2 - s1; + y[8] = s4 + s7; +} +static void ma_dr_mp3_L3_imdct36(float *grbuf, float *overlap, const float *window, int nbands) +{ + int i, j; + static const float g_twid9[18] = { + 0.73727734f,0.79335334f,0.84339145f,0.88701083f,0.92387953f,0.95371695f,0.97629601f,0.99144486f,0.99904822f,0.67559021f,0.60876143f,0.53729961f,0.46174861f,0.38268343f,0.30070580f,0.21643961f,0.13052619f,0.04361938f + }; + for (j = 0; j < nbands; j++, grbuf += 18, overlap += 9) + { + float co[9], si[9]; + co[0] = -grbuf[0]; + si[0] = grbuf[17]; + for (i = 0; i < 4; i++) + { + si[8 - 2*i] = grbuf[4*i + 1] - grbuf[4*i + 2]; + co[1 + 2*i] = grbuf[4*i + 1] + grbuf[4*i + 2]; + si[7 - 2*i] = grbuf[4*i + 4] - grbuf[4*i + 3]; + co[2 + 2*i] = -(grbuf[4*i + 3] + grbuf[4*i + 4]); + } + ma_dr_mp3_L3_dct3_9(co); + ma_dr_mp3_L3_dct3_9(si); + si[1] = -si[1]; + si[3] = -si[3]; + si[5] = -si[5]; + si[7] = -si[7]; + i = 0; +#if MA_DR_MP3_HAVE_SIMD + if (ma_dr_mp3_have_simd()) for (; i < 8; i += 4) + { + ma_dr_mp3_f4 vovl = MA_DR_MP3_VLD(overlap + i); + ma_dr_mp3_f4 vc = MA_DR_MP3_VLD(co + i); + ma_dr_mp3_f4 vs = MA_DR_MP3_VLD(si + i); + ma_dr_mp3_f4 vr0 = MA_DR_MP3_VLD(g_twid9 + i); + ma_dr_mp3_f4 vr1 = MA_DR_MP3_VLD(g_twid9 + 9 + i); + ma_dr_mp3_f4 vw0 = MA_DR_MP3_VLD(window + i); + ma_dr_mp3_f4 vw1 = MA_DR_MP3_VLD(window + 9 + i); + ma_dr_mp3_f4 vsum = MA_DR_MP3_VADD(MA_DR_MP3_VMUL(vc, vr1), MA_DR_MP3_VMUL(vs, vr0)); + MA_DR_MP3_VSTORE(overlap + i, MA_DR_MP3_VSUB(MA_DR_MP3_VMUL(vc, vr0), MA_DR_MP3_VMUL(vs, vr1))); + MA_DR_MP3_VSTORE(grbuf + i, MA_DR_MP3_VSUB(MA_DR_MP3_VMUL(vovl, vw0), MA_DR_MP3_VMUL(vsum, vw1))); + vsum = MA_DR_MP3_VADD(MA_DR_MP3_VMUL(vovl, vw1), MA_DR_MP3_VMUL(vsum, vw0)); + MA_DR_MP3_VSTORE(grbuf + 14 - i, MA_DR_MP3_VREV(vsum)); + } +#endif + for (; i < 9; i++) + { + float ovl = overlap[i]; + float sum = co[i]*g_twid9[9 + i] + si[i]*g_twid9[0 + i]; + overlap[i] = co[i]*g_twid9[0 + i] - si[i]*g_twid9[9 + i]; + grbuf[i] = ovl*window[0 + i] - sum*window[9 + i]; + grbuf[17 - i] = ovl*window[9 + i] + sum*window[0 + i]; + } + } +} +static void ma_dr_mp3_L3_idct3(float x0, float x1, float x2, float *dst) +{ + float m1 = x1*0.86602540f; + float a1 = x0 - x2*0.5f; + dst[1] = x0 + x2; + dst[0] = a1 + m1; + dst[2] = a1 - m1; +} +static void ma_dr_mp3_L3_imdct12(float *x, float *dst, float *overlap) +{ + static const float g_twid3[6] = { 0.79335334f,0.92387953f,0.99144486f, 0.60876143f,0.38268343f,0.13052619f }; + float co[3], si[3]; + int i; + ma_dr_mp3_L3_idct3(-x[0], x[6] + x[3], x[12] + x[9], co); + ma_dr_mp3_L3_idct3(x[15], x[12] - x[9], x[6] - x[3], si); + si[1] = -si[1]; + for (i = 0; i < 3; i++) + { + float ovl = overlap[i]; + float sum = co[i]*g_twid3[3 + i] + si[i]*g_twid3[0 + i]; + overlap[i] = co[i]*g_twid3[0 + i] - si[i]*g_twid3[3 + i]; + dst[i] = ovl*g_twid3[2 - i] - sum*g_twid3[5 - i]; + dst[5 - i] = ovl*g_twid3[5 - i] + sum*g_twid3[2 - i]; + } +} +static void ma_dr_mp3_L3_imdct_short(float *grbuf, float *overlap, int nbands) +{ + for (;nbands > 0; nbands--, overlap += 9, grbuf += 18) + { + float tmp[18]; + MA_DR_MP3_COPY_MEMORY(tmp, grbuf, sizeof(tmp)); + MA_DR_MP3_COPY_MEMORY(grbuf, overlap, 6*sizeof(float)); + ma_dr_mp3_L3_imdct12(tmp, grbuf + 6, overlap + 6); + ma_dr_mp3_L3_imdct12(tmp + 1, grbuf + 12, overlap + 6); + ma_dr_mp3_L3_imdct12(tmp + 2, overlap, overlap + 6); + } +} +static void ma_dr_mp3_L3_change_sign(float *grbuf) +{ + int b, i; + for (b = 0, grbuf += 18; b < 32; b += 2, grbuf += 36) + for (i = 1; i < 18; i += 2) + grbuf[i] = -grbuf[i]; +} +static void ma_dr_mp3_L3_imdct_gr(float *grbuf, float *overlap, unsigned block_type, unsigned n_long_bands) +{ + static const float g_mdct_window[2][18] = { + { 0.99904822f,0.99144486f,0.97629601f,0.95371695f,0.92387953f,0.88701083f,0.84339145f,0.79335334f,0.73727734f,0.04361938f,0.13052619f,0.21643961f,0.30070580f,0.38268343f,0.46174861f,0.53729961f,0.60876143f,0.67559021f }, + { 1,1,1,1,1,1,0.99144486f,0.92387953f,0.79335334f,0,0,0,0,0,0,0.13052619f,0.38268343f,0.60876143f } + }; + if (n_long_bands) + { + ma_dr_mp3_L3_imdct36(grbuf, overlap, g_mdct_window[0], n_long_bands); + grbuf += 18*n_long_bands; + overlap += 9*n_long_bands; + } + if (block_type == MA_DR_MP3_SHORT_BLOCK_TYPE) + ma_dr_mp3_L3_imdct_short(grbuf, overlap, 32 - n_long_bands); + else + ma_dr_mp3_L3_imdct36(grbuf, overlap, g_mdct_window[block_type == MA_DR_MP3_STOP_BLOCK_TYPE], 32 - n_long_bands); +} +static void ma_dr_mp3_L3_save_reservoir(ma_dr_mp3dec *h, ma_dr_mp3dec_scratch *s) +{ + int pos = (s->bs.pos + 7)/8u; + int remains = s->bs.limit/8u - pos; + if (remains > MA_DR_MP3_MAX_BITRESERVOIR_BYTES) + { + pos += remains - MA_DR_MP3_MAX_BITRESERVOIR_BYTES; + remains = MA_DR_MP3_MAX_BITRESERVOIR_BYTES; + } + if (remains > 0) + { + MA_DR_MP3_MOVE_MEMORY(h->reserv_buf, s->maindata + pos, remains); + } + h->reserv = remains; +} +static int ma_dr_mp3_L3_restore_reservoir(ma_dr_mp3dec *h, ma_dr_mp3_bs *bs, ma_dr_mp3dec_scratch *s, int main_data_begin) +{ + int frame_bytes = (bs->limit - bs->pos)/8; + int bytes_have = MA_DR_MP3_MIN(h->reserv, main_data_begin); + MA_DR_MP3_COPY_MEMORY(s->maindata, h->reserv_buf + MA_DR_MP3_MAX(0, h->reserv - main_data_begin), MA_DR_MP3_MIN(h->reserv, main_data_begin)); + MA_DR_MP3_COPY_MEMORY(s->maindata + bytes_have, bs->buf + bs->pos/8, frame_bytes); + ma_dr_mp3_bs_init(&s->bs, s->maindata, bytes_have + frame_bytes); + return h->reserv >= main_data_begin; +} +static void ma_dr_mp3_L3_decode(ma_dr_mp3dec *h, ma_dr_mp3dec_scratch *s, ma_dr_mp3_L3_gr_info *gr_info, int nch) +{ + int ch; + for (ch = 0; ch < nch; ch++) + { + int layer3gr_limit = s->bs.pos + gr_info[ch].part_23_length; + ma_dr_mp3_L3_decode_scalefactors(h->header, s->ist_pos[ch], &s->bs, gr_info + ch, s->scf, ch); + ma_dr_mp3_L3_huffman(s->grbuf[ch], &s->bs, gr_info + ch, s->scf, layer3gr_limit); + } + if (MA_DR_MP3_HDR_TEST_I_STEREO(h->header)) + { + ma_dr_mp3_L3_intensity_stereo(s->grbuf[0], s->ist_pos[1], gr_info, h->header); + } else if (MA_DR_MP3_HDR_IS_MS_STEREO(h->header)) + { + ma_dr_mp3_L3_midside_stereo(s->grbuf[0], 576); + } + for (ch = 0; ch < nch; ch++, gr_info++) + { + int aa_bands = 31; + int n_long_bands = (gr_info->mixed_block_flag ? 2 : 0) << (int)(MA_DR_MP3_HDR_GET_MY_SAMPLE_RATE(h->header) == 2); + if (gr_info->n_short_sfb) + { + aa_bands = n_long_bands - 1; + ma_dr_mp3_L3_reorder(s->grbuf[ch] + n_long_bands*18, s->syn[0], gr_info->sfbtab + gr_info->n_long_sfb); + } + ma_dr_mp3_L3_antialias(s->grbuf[ch], aa_bands); + ma_dr_mp3_L3_imdct_gr(s->grbuf[ch], h->mdct_overlap[ch], gr_info->block_type, n_long_bands); + ma_dr_mp3_L3_change_sign(s->grbuf[ch]); + } +} +static void ma_dr_mp3d_DCT_II(float *grbuf, int n) +{ + static const float g_sec[24] = { + 10.19000816f,0.50060302f,0.50241929f,3.40760851f,0.50547093f,0.52249861f,2.05778098f,0.51544732f,0.56694406f,1.48416460f,0.53104258f,0.64682180f,1.16943991f,0.55310392f,0.78815460f,0.97256821f,0.58293498f,1.06067765f,0.83934963f,0.62250412f,1.72244716f,0.74453628f,0.67480832f,5.10114861f + }; + int i, k = 0; +#if MA_DR_MP3_HAVE_SIMD + if (ma_dr_mp3_have_simd()) for (; k < n; k += 4) + { + ma_dr_mp3_f4 t[4][8], *x; + float *y = grbuf + k; + for (x = t[0], i = 0; i < 8; i++, x++) + { + ma_dr_mp3_f4 x0 = MA_DR_MP3_VLD(&y[i*18]); + ma_dr_mp3_f4 x1 = MA_DR_MP3_VLD(&y[(15 - i)*18]); + ma_dr_mp3_f4 x2 = MA_DR_MP3_VLD(&y[(16 + i)*18]); + ma_dr_mp3_f4 x3 = MA_DR_MP3_VLD(&y[(31 - i)*18]); + ma_dr_mp3_f4 t0 = MA_DR_MP3_VADD(x0, x3); + ma_dr_mp3_f4 t1 = MA_DR_MP3_VADD(x1, x2); + ma_dr_mp3_f4 t2 = MA_DR_MP3_VMUL_S(MA_DR_MP3_VSUB(x1, x2), g_sec[3*i + 0]); + ma_dr_mp3_f4 t3 = MA_DR_MP3_VMUL_S(MA_DR_MP3_VSUB(x0, x3), g_sec[3*i + 1]); + x[0] = MA_DR_MP3_VADD(t0, t1); + x[8] = MA_DR_MP3_VMUL_S(MA_DR_MP3_VSUB(t0, t1), g_sec[3*i + 2]); + x[16] = MA_DR_MP3_VADD(t3, t2); + x[24] = MA_DR_MP3_VMUL_S(MA_DR_MP3_VSUB(t3, t2), g_sec[3*i + 2]); + } + for (x = t[0], i = 0; i < 4; i++, x += 8) + { + ma_dr_mp3_f4 x0 = x[0], x1 = x[1], x2 = x[2], x3 = x[3], x4 = x[4], x5 = x[5], x6 = x[6], x7 = x[7], xt; + xt = MA_DR_MP3_VSUB(x0, x7); x0 = MA_DR_MP3_VADD(x0, x7); + x7 = MA_DR_MP3_VSUB(x1, x6); x1 = MA_DR_MP3_VADD(x1, x6); + x6 = MA_DR_MP3_VSUB(x2, x5); x2 = MA_DR_MP3_VADD(x2, x5); + x5 = MA_DR_MP3_VSUB(x3, x4); x3 = MA_DR_MP3_VADD(x3, x4); + x4 = MA_DR_MP3_VSUB(x0, x3); x0 = MA_DR_MP3_VADD(x0, x3); + x3 = MA_DR_MP3_VSUB(x1, x2); x1 = MA_DR_MP3_VADD(x1, x2); + x[0] = MA_DR_MP3_VADD(x0, x1); + x[4] = MA_DR_MP3_VMUL_S(MA_DR_MP3_VSUB(x0, x1), 0.70710677f); + x5 = MA_DR_MP3_VADD(x5, x6); + x6 = MA_DR_MP3_VMUL_S(MA_DR_MP3_VADD(x6, x7), 0.70710677f); + x7 = MA_DR_MP3_VADD(x7, xt); + x3 = MA_DR_MP3_VMUL_S(MA_DR_MP3_VADD(x3, x4), 0.70710677f); + x5 = MA_DR_MP3_VSUB(x5, MA_DR_MP3_VMUL_S(x7, 0.198912367f)); + x7 = MA_DR_MP3_VADD(x7, MA_DR_MP3_VMUL_S(x5, 0.382683432f)); + x5 = MA_DR_MP3_VSUB(x5, MA_DR_MP3_VMUL_S(x7, 0.198912367f)); + x0 = MA_DR_MP3_VSUB(xt, x6); xt = MA_DR_MP3_VADD(xt, x6); + x[1] = MA_DR_MP3_VMUL_S(MA_DR_MP3_VADD(xt, x7), 0.50979561f); + x[2] = MA_DR_MP3_VMUL_S(MA_DR_MP3_VADD(x4, x3), 0.54119611f); + x[3] = MA_DR_MP3_VMUL_S(MA_DR_MP3_VSUB(x0, x5), 0.60134488f); + x[5] = MA_DR_MP3_VMUL_S(MA_DR_MP3_VADD(x0, x5), 0.89997619f); + x[6] = MA_DR_MP3_VMUL_S(MA_DR_MP3_VSUB(x4, x3), 1.30656302f); + x[7] = MA_DR_MP3_VMUL_S(MA_DR_MP3_VSUB(xt, x7), 2.56291556f); + } + if (k > n - 3) + { +#if MA_DR_MP3_HAVE_SSE +#define MA_DR_MP3_VSAVE2(i, v) _mm_storel_pi((__m64 *)(void*)&y[i*18], v) +#else +#define MA_DR_MP3_VSAVE2(i, v) vst1_f32((float32_t *)&y[(i)*18], vget_low_f32(v)) +#endif + for (i = 0; i < 7; i++, y += 4*18) + { + ma_dr_mp3_f4 s = MA_DR_MP3_VADD(t[3][i], t[3][i + 1]); + MA_DR_MP3_VSAVE2(0, t[0][i]); + MA_DR_MP3_VSAVE2(1, MA_DR_MP3_VADD(t[2][i], s)); + MA_DR_MP3_VSAVE2(2, MA_DR_MP3_VADD(t[1][i], t[1][i + 1])); + MA_DR_MP3_VSAVE2(3, MA_DR_MP3_VADD(t[2][1 + i], s)); + } + MA_DR_MP3_VSAVE2(0, t[0][7]); + MA_DR_MP3_VSAVE2(1, MA_DR_MP3_VADD(t[2][7], t[3][7])); + MA_DR_MP3_VSAVE2(2, t[1][7]); + MA_DR_MP3_VSAVE2(3, t[3][7]); + } else + { +#define MA_DR_MP3_VSAVE4(i, v) MA_DR_MP3_VSTORE(&y[(i)*18], v) + for (i = 0; i < 7; i++, y += 4*18) + { + ma_dr_mp3_f4 s = MA_DR_MP3_VADD(t[3][i], t[3][i + 1]); + MA_DR_MP3_VSAVE4(0, t[0][i]); + MA_DR_MP3_VSAVE4(1, MA_DR_MP3_VADD(t[2][i], s)); + MA_DR_MP3_VSAVE4(2, MA_DR_MP3_VADD(t[1][i], t[1][i + 1])); + MA_DR_MP3_VSAVE4(3, MA_DR_MP3_VADD(t[2][1 + i], s)); + } + MA_DR_MP3_VSAVE4(0, t[0][7]); + MA_DR_MP3_VSAVE4(1, MA_DR_MP3_VADD(t[2][7], t[3][7])); + MA_DR_MP3_VSAVE4(2, t[1][7]); + MA_DR_MP3_VSAVE4(3, t[3][7]); + } + } else +#endif +#ifdef MA_DR_MP3_ONLY_SIMD + {} +#else + for (; k < n; k++) + { + float t[4][8], *x, *y = grbuf + k; + for (x = t[0], i = 0; i < 8; i++, x++) + { + float x0 = y[i*18]; + float x1 = y[(15 - i)*18]; + float x2 = y[(16 + i)*18]; + float x3 = y[(31 - i)*18]; + float t0 = x0 + x3; + float t1 = x1 + x2; + float t2 = (x1 - x2)*g_sec[3*i + 0]; + float t3 = (x0 - x3)*g_sec[3*i + 1]; + x[0] = t0 + t1; + x[8] = (t0 - t1)*g_sec[3*i + 2]; + x[16] = t3 + t2; + x[24] = (t3 - t2)*g_sec[3*i + 2]; + } + for (x = t[0], i = 0; i < 4; i++, x += 8) + { + float x0 = x[0], x1 = x[1], x2 = x[2], x3 = x[3], x4 = x[4], x5 = x[5], x6 = x[6], x7 = x[7], xt; + xt = x0 - x7; x0 += x7; + x7 = x1 - x6; x1 += x6; + x6 = x2 - x5; x2 += x5; + x5 = x3 - x4; x3 += x4; + x4 = x0 - x3; x0 += x3; + x3 = x1 - x2; x1 += x2; + x[0] = x0 + x1; + x[4] = (x0 - x1)*0.70710677f; + x5 = x5 + x6; + x6 = (x6 + x7)*0.70710677f; + x7 = x7 + xt; + x3 = (x3 + x4)*0.70710677f; + x5 -= x7*0.198912367f; + x7 += x5*0.382683432f; + x5 -= x7*0.198912367f; + x0 = xt - x6; xt += x6; + x[1] = (xt + x7)*0.50979561f; + x[2] = (x4 + x3)*0.54119611f; + x[3] = (x0 - x5)*0.60134488f; + x[5] = (x0 + x5)*0.89997619f; + x[6] = (x4 - x3)*1.30656302f; + x[7] = (xt - x7)*2.56291556f; + } + for (i = 0; i < 7; i++, y += 4*18) + { + y[0*18] = t[0][i]; + y[1*18] = t[2][i] + t[3][i] + t[3][i + 1]; + y[2*18] = t[1][i] + t[1][i + 1]; + y[3*18] = t[2][i + 1] + t[3][i] + t[3][i + 1]; + } + y[0*18] = t[0][7]; + y[1*18] = t[2][7] + t[3][7]; + y[2*18] = t[1][7]; + y[3*18] = t[3][7]; + } +#endif +} +#ifndef MA_DR_MP3_FLOAT_OUTPUT +typedef ma_int16 ma_dr_mp3d_sample_t; +static ma_int16 ma_dr_mp3d_scale_pcm(float sample) +{ + ma_int16 s; +#if MA_DR_MP3_HAVE_ARMV6 + ma_int32 s32 = (ma_int32)(sample + .5f); + s32 -= (s32 < 0); + s = (ma_int16)ma_dr_mp3_clip_int16_arm(s32); +#else + if (sample >= 32766.5f) return (ma_int16) 32767; + if (sample <= -32767.5f) return (ma_int16)-32768; + s = (ma_int16)(sample + .5f); + s -= (s < 0); +#endif + return s; +} +#else +typedef float ma_dr_mp3d_sample_t; +static float ma_dr_mp3d_scale_pcm(float sample) +{ + return sample*(1.f/32768.f); +} +#endif +static void ma_dr_mp3d_synth_pair(ma_dr_mp3d_sample_t *pcm, int nch, const float *z) +{ + float a; + a = (z[14*64] - z[ 0]) * 29; + a += (z[ 1*64] + z[13*64]) * 213; + a += (z[12*64] - z[ 2*64]) * 459; + a += (z[ 3*64] + z[11*64]) * 2037; + a += (z[10*64] - z[ 4*64]) * 5153; + a += (z[ 5*64] + z[ 9*64]) * 6574; + a += (z[ 8*64] - z[ 6*64]) * 37489; + a += z[ 7*64] * 75038; + pcm[0] = ma_dr_mp3d_scale_pcm(a); + z += 2; + a = z[14*64] * 104; + a += z[12*64] * 1567; + a += z[10*64] * 9727; + a += z[ 8*64] * 64019; + a += z[ 6*64] * -9975; + a += z[ 4*64] * -45; + a += z[ 2*64] * 146; + a += z[ 0*64] * -5; + pcm[16*nch] = ma_dr_mp3d_scale_pcm(a); +} +static void ma_dr_mp3d_synth(float *xl, ma_dr_mp3d_sample_t *dstl, int nch, float *lins) +{ + int i; + float *xr = xl + 576*(nch - 1); + ma_dr_mp3d_sample_t *dstr = dstl + (nch - 1); + static const float g_win[] = { + -1,26,-31,208,218,401,-519,2063,2000,4788,-5517,7134,5959,35640,-39336,74992, + -1,24,-35,202,222,347,-581,2080,1952,4425,-5879,7640,5288,33791,-41176,74856, + -1,21,-38,196,225,294,-645,2087,1893,4063,-6237,8092,4561,31947,-43006,74630, + -1,19,-41,190,227,244,-711,2085,1822,3705,-6589,8492,3776,30112,-44821,74313, + -1,17,-45,183,228,197,-779,2075,1739,3351,-6935,8840,2935,28289,-46617,73908, + -1,16,-49,176,228,153,-848,2057,1644,3004,-7271,9139,2037,26482,-48390,73415, + -2,14,-53,169,227,111,-919,2032,1535,2663,-7597,9389,1082,24694,-50137,72835, + -2,13,-58,161,224,72,-991,2001,1414,2330,-7910,9592,70,22929,-51853,72169, + -2,11,-63,154,221,36,-1064,1962,1280,2006,-8209,9750,-998,21189,-53534,71420, + -2,10,-68,147,215,2,-1137,1919,1131,1692,-8491,9863,-2122,19478,-55178,70590, + -3,9,-73,139,208,-29,-1210,1870,970,1388,-8755,9935,-3300,17799,-56778,69679, + -3,8,-79,132,200,-57,-1283,1817,794,1095,-8998,9966,-4533,16155,-58333,68692, + -4,7,-85,125,189,-83,-1356,1759,605,814,-9219,9959,-5818,14548,-59838,67629, + -4,7,-91,117,177,-106,-1428,1698,402,545,-9416,9916,-7154,12980,-61289,66494, + -5,6,-97,111,163,-127,-1498,1634,185,288,-9585,9838,-8540,11455,-62684,65290 + }; + float *zlin = lins + 15*64; + const float *w = g_win; + zlin[4*15] = xl[18*16]; + zlin[4*15 + 1] = xr[18*16]; + zlin[4*15 + 2] = xl[0]; + zlin[4*15 + 3] = xr[0]; + zlin[4*31] = xl[1 + 18*16]; + zlin[4*31 + 1] = xr[1 + 18*16]; + zlin[4*31 + 2] = xl[1]; + zlin[4*31 + 3] = xr[1]; + ma_dr_mp3d_synth_pair(dstr, nch, lins + 4*15 + 1); + ma_dr_mp3d_synth_pair(dstr + 32*nch, nch, lins + 4*15 + 64 + 1); + ma_dr_mp3d_synth_pair(dstl, nch, lins + 4*15); + ma_dr_mp3d_synth_pair(dstl + 32*nch, nch, lins + 4*15 + 64); +#if MA_DR_MP3_HAVE_SIMD + if (ma_dr_mp3_have_simd()) for (i = 14; i >= 0; i--) + { +#define MA_DR_MP3_VLOAD(k) ma_dr_mp3_f4 w0 = MA_DR_MP3_VSET(*w++); ma_dr_mp3_f4 w1 = MA_DR_MP3_VSET(*w++); ma_dr_mp3_f4 vz = MA_DR_MP3_VLD(&zlin[4*i - 64*k]); ma_dr_mp3_f4 vy = MA_DR_MP3_VLD(&zlin[4*i - 64*(15 - k)]); +#define MA_DR_MP3_V0(k) { MA_DR_MP3_VLOAD(k) b = MA_DR_MP3_VADD(MA_DR_MP3_VMUL(vz, w1), MA_DR_MP3_VMUL(vy, w0)) ; a = MA_DR_MP3_VSUB(MA_DR_MP3_VMUL(vz, w0), MA_DR_MP3_VMUL(vy, w1)); } +#define MA_DR_MP3_V1(k) { MA_DR_MP3_VLOAD(k) b = MA_DR_MP3_VADD(b, MA_DR_MP3_VADD(MA_DR_MP3_VMUL(vz, w1), MA_DR_MP3_VMUL(vy, w0))); a = MA_DR_MP3_VADD(a, MA_DR_MP3_VSUB(MA_DR_MP3_VMUL(vz, w0), MA_DR_MP3_VMUL(vy, w1))); } +#define MA_DR_MP3_V2(k) { MA_DR_MP3_VLOAD(k) b = MA_DR_MP3_VADD(b, MA_DR_MP3_VADD(MA_DR_MP3_VMUL(vz, w1), MA_DR_MP3_VMUL(vy, w0))); a = MA_DR_MP3_VADD(a, MA_DR_MP3_VSUB(MA_DR_MP3_VMUL(vy, w1), MA_DR_MP3_VMUL(vz, w0))); } + ma_dr_mp3_f4 a, b; + zlin[4*i] = xl[18*(31 - i)]; + zlin[4*i + 1] = xr[18*(31 - i)]; + zlin[4*i + 2] = xl[1 + 18*(31 - i)]; + zlin[4*i + 3] = xr[1 + 18*(31 - i)]; + zlin[4*i + 64] = xl[1 + 18*(1 + i)]; + zlin[4*i + 64 + 1] = xr[1 + 18*(1 + i)]; + zlin[4*i - 64 + 2] = xl[18*(1 + i)]; + zlin[4*i - 64 + 3] = xr[18*(1 + i)]; + MA_DR_MP3_V0(0) MA_DR_MP3_V2(1) MA_DR_MP3_V1(2) MA_DR_MP3_V2(3) MA_DR_MP3_V1(4) MA_DR_MP3_V2(5) MA_DR_MP3_V1(6) MA_DR_MP3_V2(7) + { +#ifndef MA_DR_MP3_FLOAT_OUTPUT +#if MA_DR_MP3_HAVE_SSE + static const ma_dr_mp3_f4 g_max = { 32767.0f, 32767.0f, 32767.0f, 32767.0f }; + static const ma_dr_mp3_f4 g_min = { -32768.0f, -32768.0f, -32768.0f, -32768.0f }; + __m128i pcm8 = _mm_packs_epi32(_mm_cvtps_epi32(_mm_max_ps(_mm_min_ps(a, g_max), g_min)), + _mm_cvtps_epi32(_mm_max_ps(_mm_min_ps(b, g_max), g_min))); + dstr[(15 - i)*nch] = (ma_int16)_mm_extract_epi16(pcm8, 1); + dstr[(17 + i)*nch] = (ma_int16)_mm_extract_epi16(pcm8, 5); + dstl[(15 - i)*nch] = (ma_int16)_mm_extract_epi16(pcm8, 0); + dstl[(17 + i)*nch] = (ma_int16)_mm_extract_epi16(pcm8, 4); + dstr[(47 - i)*nch] = (ma_int16)_mm_extract_epi16(pcm8, 3); + dstr[(49 + i)*nch] = (ma_int16)_mm_extract_epi16(pcm8, 7); + dstl[(47 - i)*nch] = (ma_int16)_mm_extract_epi16(pcm8, 2); + dstl[(49 + i)*nch] = (ma_int16)_mm_extract_epi16(pcm8, 6); +#else + int16x4_t pcma, pcmb; + a = MA_DR_MP3_VADD(a, MA_DR_MP3_VSET(0.5f)); + b = MA_DR_MP3_VADD(b, MA_DR_MP3_VSET(0.5f)); + pcma = vqmovn_s32(vqaddq_s32(vcvtq_s32_f32(a), vreinterpretq_s32_u32(vcltq_f32(a, MA_DR_MP3_VSET(0))))); + pcmb = vqmovn_s32(vqaddq_s32(vcvtq_s32_f32(b), vreinterpretq_s32_u32(vcltq_f32(b, MA_DR_MP3_VSET(0))))); + vst1_lane_s16(dstr + (15 - i)*nch, pcma, 1); + vst1_lane_s16(dstr + (17 + i)*nch, pcmb, 1); + vst1_lane_s16(dstl + (15 - i)*nch, pcma, 0); + vst1_lane_s16(dstl + (17 + i)*nch, pcmb, 0); + vst1_lane_s16(dstr + (47 - i)*nch, pcma, 3); + vst1_lane_s16(dstr + (49 + i)*nch, pcmb, 3); + vst1_lane_s16(dstl + (47 - i)*nch, pcma, 2); + vst1_lane_s16(dstl + (49 + i)*nch, pcmb, 2); +#endif +#else + #if MA_DR_MP3_HAVE_SSE + static const ma_dr_mp3_f4 g_scale = { 1.0f/32768.0f, 1.0f/32768.0f, 1.0f/32768.0f, 1.0f/32768.0f }; + #else + const ma_dr_mp3_f4 g_scale = vdupq_n_f32(1.0f/32768.0f); + #endif + a = MA_DR_MP3_VMUL(a, g_scale); + b = MA_DR_MP3_VMUL(b, g_scale); +#if MA_DR_MP3_HAVE_SSE + _mm_store_ss(dstr + (15 - i)*nch, _mm_shuffle_ps(a, a, _MM_SHUFFLE(1, 1, 1, 1))); + _mm_store_ss(dstr + (17 + i)*nch, _mm_shuffle_ps(b, b, _MM_SHUFFLE(1, 1, 1, 1))); + _mm_store_ss(dstl + (15 - i)*nch, _mm_shuffle_ps(a, a, _MM_SHUFFLE(0, 0, 0, 0))); + _mm_store_ss(dstl + (17 + i)*nch, _mm_shuffle_ps(b, b, _MM_SHUFFLE(0, 0, 0, 0))); + _mm_store_ss(dstr + (47 - i)*nch, _mm_shuffle_ps(a, a, _MM_SHUFFLE(3, 3, 3, 3))); + _mm_store_ss(dstr + (49 + i)*nch, _mm_shuffle_ps(b, b, _MM_SHUFFLE(3, 3, 3, 3))); + _mm_store_ss(dstl + (47 - i)*nch, _mm_shuffle_ps(a, a, _MM_SHUFFLE(2, 2, 2, 2))); + _mm_store_ss(dstl + (49 + i)*nch, _mm_shuffle_ps(b, b, _MM_SHUFFLE(2, 2, 2, 2))); +#else + vst1q_lane_f32(dstr + (15 - i)*nch, a, 1); + vst1q_lane_f32(dstr + (17 + i)*nch, b, 1); + vst1q_lane_f32(dstl + (15 - i)*nch, a, 0); + vst1q_lane_f32(dstl + (17 + i)*nch, b, 0); + vst1q_lane_f32(dstr + (47 - i)*nch, a, 3); + vst1q_lane_f32(dstr + (49 + i)*nch, b, 3); + vst1q_lane_f32(dstl + (47 - i)*nch, a, 2); + vst1q_lane_f32(dstl + (49 + i)*nch, b, 2); +#endif +#endif + } + } else +#endif +#ifdef MA_DR_MP3_ONLY_SIMD + {} +#else + for (i = 14; i >= 0; i--) + { +#define MA_DR_MP3_LOAD(k) float w0 = *w++; float w1 = *w++; float *vz = &zlin[4*i - k*64]; float *vy = &zlin[4*i - (15 - k)*64]; +#define MA_DR_MP3_S0(k) { int j; MA_DR_MP3_LOAD(k); for (j = 0; j < 4; j++) b[j] = vz[j]*w1 + vy[j]*w0, a[j] = vz[j]*w0 - vy[j]*w1; } +#define MA_DR_MP3_S1(k) { int j; MA_DR_MP3_LOAD(k); for (j = 0; j < 4; j++) b[j] += vz[j]*w1 + vy[j]*w0, a[j] += vz[j]*w0 - vy[j]*w1; } +#define MA_DR_MP3_S2(k) { int j; MA_DR_MP3_LOAD(k); for (j = 0; j < 4; j++) b[j] += vz[j]*w1 + vy[j]*w0, a[j] += vy[j]*w1 - vz[j]*w0; } + float a[4], b[4]; + zlin[4*i] = xl[18*(31 - i)]; + zlin[4*i + 1] = xr[18*(31 - i)]; + zlin[4*i + 2] = xl[1 + 18*(31 - i)]; + zlin[4*i + 3] = xr[1 + 18*(31 - i)]; + zlin[4*(i + 16)] = xl[1 + 18*(1 + i)]; + zlin[4*(i + 16) + 1] = xr[1 + 18*(1 + i)]; + zlin[4*(i - 16) + 2] = xl[18*(1 + i)]; + zlin[4*(i - 16) + 3] = xr[18*(1 + i)]; + MA_DR_MP3_S0(0) MA_DR_MP3_S2(1) MA_DR_MP3_S1(2) MA_DR_MP3_S2(3) MA_DR_MP3_S1(4) MA_DR_MP3_S2(5) MA_DR_MP3_S1(6) MA_DR_MP3_S2(7) + dstr[(15 - i)*nch] = ma_dr_mp3d_scale_pcm(a[1]); + dstr[(17 + i)*nch] = ma_dr_mp3d_scale_pcm(b[1]); + dstl[(15 - i)*nch] = ma_dr_mp3d_scale_pcm(a[0]); + dstl[(17 + i)*nch] = ma_dr_mp3d_scale_pcm(b[0]); + dstr[(47 - i)*nch] = ma_dr_mp3d_scale_pcm(a[3]); + dstr[(49 + i)*nch] = ma_dr_mp3d_scale_pcm(b[3]); + dstl[(47 - i)*nch] = ma_dr_mp3d_scale_pcm(a[2]); + dstl[(49 + i)*nch] = ma_dr_mp3d_scale_pcm(b[2]); + } +#endif +} +static void ma_dr_mp3d_synth_granule(float *qmf_state, float *grbuf, int nbands, int nch, ma_dr_mp3d_sample_t *pcm, float *lins) +{ + int i; + for (i = 0; i < nch; i++) + { + ma_dr_mp3d_DCT_II(grbuf + 576*i, nbands); + } + MA_DR_MP3_COPY_MEMORY(lins, qmf_state, sizeof(float)*15*64); + for (i = 0; i < nbands; i += 2) + { + ma_dr_mp3d_synth(grbuf + i, pcm + 32*nch*i, nch, lins + i*64); + } +#ifndef MA_DR_MP3_NONSTANDARD_BUT_LOGICAL + if (nch == 1) + { + for (i = 0; i < 15*64; i += 2) + { + qmf_state[i] = lins[nbands*64 + i]; + } + } else +#endif + { + MA_DR_MP3_COPY_MEMORY(qmf_state, lins + nbands*64, sizeof(float)*15*64); + } +} +static int ma_dr_mp3d_match_frame(const ma_uint8 *hdr, int mp3_bytes, int frame_bytes) +{ + int i, nmatch; + for (i = 0, nmatch = 0; nmatch < MA_DR_MP3_MAX_FRAME_SYNC_MATCHES; nmatch++) + { + i += ma_dr_mp3_hdr_frame_bytes(hdr + i, frame_bytes) + ma_dr_mp3_hdr_padding(hdr + i); + if (i + MA_DR_MP3_HDR_SIZE > mp3_bytes) + return nmatch > 0; + if (!ma_dr_mp3_hdr_compare(hdr, hdr + i)) + return 0; + } + return 1; +} +static int ma_dr_mp3d_find_frame(const ma_uint8 *mp3, int mp3_bytes, int *free_format_bytes, int *ptr_frame_bytes) +{ + int i, k; + for (i = 0; i < mp3_bytes - MA_DR_MP3_HDR_SIZE; i++, mp3++) + { + if (ma_dr_mp3_hdr_valid(mp3)) + { + int frame_bytes = ma_dr_mp3_hdr_frame_bytes(mp3, *free_format_bytes); + int frame_and_padding = frame_bytes + ma_dr_mp3_hdr_padding(mp3); + for (k = MA_DR_MP3_HDR_SIZE; !frame_bytes && k < MA_DR_MP3_MAX_FREE_FORMAT_FRAME_SIZE && i + 2*k < mp3_bytes - MA_DR_MP3_HDR_SIZE; k++) + { + if (ma_dr_mp3_hdr_compare(mp3, mp3 + k)) + { + int fb = k - ma_dr_mp3_hdr_padding(mp3); + int nextfb = fb + ma_dr_mp3_hdr_padding(mp3 + k); + if (i + k + nextfb + MA_DR_MP3_HDR_SIZE > mp3_bytes || !ma_dr_mp3_hdr_compare(mp3, mp3 + k + nextfb)) + continue; + frame_and_padding = k; + frame_bytes = fb; + *free_format_bytes = fb; + } + } + if ((frame_bytes && i + frame_and_padding <= mp3_bytes && + ma_dr_mp3d_match_frame(mp3, mp3_bytes - i, frame_bytes)) || + (!i && frame_and_padding == mp3_bytes)) + { + *ptr_frame_bytes = frame_and_padding; + return i; + } + *free_format_bytes = 0; + } + } + *ptr_frame_bytes = 0; + return mp3_bytes; +} +MA_API void ma_dr_mp3dec_init(ma_dr_mp3dec *dec) +{ + dec->header[0] = 0; +} +MA_API int ma_dr_mp3dec_decode_frame(ma_dr_mp3dec *dec, const ma_uint8 *mp3, int mp3_bytes, void *pcm, ma_dr_mp3dec_frame_info *info) +{ + int i = 0, igr, frame_size = 0, success = 1; + const ma_uint8 *hdr; + ma_dr_mp3_bs bs_frame[1]; + if (mp3_bytes > 4 && dec->header[0] == 0xff && ma_dr_mp3_hdr_compare(dec->header, mp3)) + { + frame_size = ma_dr_mp3_hdr_frame_bytes(mp3, dec->free_format_bytes) + ma_dr_mp3_hdr_padding(mp3); + if (frame_size != mp3_bytes && (frame_size + MA_DR_MP3_HDR_SIZE > mp3_bytes || !ma_dr_mp3_hdr_compare(mp3, mp3 + frame_size))) + { + frame_size = 0; + } + } + if (!frame_size) + { + MA_DR_MP3_ZERO_MEMORY(dec, sizeof(ma_dr_mp3dec)); + i = ma_dr_mp3d_find_frame(mp3, mp3_bytes, &dec->free_format_bytes, &frame_size); + if (!frame_size || i + frame_size > mp3_bytes) + { + info->frame_bytes = i; + return 0; + } + } + hdr = mp3 + i; + MA_DR_MP3_COPY_MEMORY(dec->header, hdr, MA_DR_MP3_HDR_SIZE); + info->frame_bytes = i + frame_size; + info->channels = MA_DR_MP3_HDR_IS_MONO(hdr) ? 1 : 2; + info->sample_rate = ma_dr_mp3_hdr_sample_rate_hz(hdr); + info->layer = 4 - MA_DR_MP3_HDR_GET_LAYER(hdr); + info->bitrate_kbps = ma_dr_mp3_hdr_bitrate_kbps(hdr); + ma_dr_mp3_bs_init(bs_frame, hdr + MA_DR_MP3_HDR_SIZE, frame_size - MA_DR_MP3_HDR_SIZE); + if (MA_DR_MP3_HDR_IS_CRC(hdr)) + { + ma_dr_mp3_bs_get_bits(bs_frame, 16); + } + if (info->layer == 3) + { + int main_data_begin = ma_dr_mp3_L3_read_side_info(bs_frame, dec->scratch.gr_info, hdr); + if (main_data_begin < 0 || bs_frame->pos > bs_frame->limit) + { + ma_dr_mp3dec_init(dec); + return 0; + } + success = ma_dr_mp3_L3_restore_reservoir(dec, bs_frame, &dec->scratch, main_data_begin); + if (success && pcm != NULL) + { + for (igr = 0; igr < (MA_DR_MP3_HDR_TEST_MPEG1(hdr) ? 2 : 1); igr++, pcm = MA_DR_MP3_OFFSET_PTR(pcm, sizeof(ma_dr_mp3d_sample_t)*576*info->channels)) + { + MA_DR_MP3_ZERO_MEMORY(dec->scratch.grbuf[0], 576*2*sizeof(float)); + ma_dr_mp3_L3_decode(dec, &dec->scratch, dec->scratch.gr_info + igr*info->channels, info->channels); + ma_dr_mp3d_synth_granule(dec->qmf_state, dec->scratch.grbuf[0], 18, info->channels, (ma_dr_mp3d_sample_t*)pcm, dec->scratch.syn[0]); + } + } + ma_dr_mp3_L3_save_reservoir(dec, &dec->scratch); + } else + { +#ifdef MA_DR_MP3_ONLY_MP3 + return 0; +#else + ma_dr_mp3_L12_scale_info sci[1]; + if (pcm == NULL) { + return ma_dr_mp3_hdr_frame_samples(hdr); + } + ma_dr_mp3_L12_read_scale_info(hdr, bs_frame, sci); + MA_DR_MP3_ZERO_MEMORY(dec->scratch.grbuf[0], 576*2*sizeof(float)); + for (i = 0, igr = 0; igr < 3; igr++) + { + if (12 == (i += ma_dr_mp3_L12_dequantize_granule(dec->scratch.grbuf[0] + i, bs_frame, sci, info->layer | 1))) + { + i = 0; + ma_dr_mp3_L12_apply_scf_384(sci, sci->scf + igr, dec->scratch.grbuf[0]); + ma_dr_mp3d_synth_granule(dec->qmf_state, dec->scratch.grbuf[0], 12, info->channels, (ma_dr_mp3d_sample_t*)pcm, dec->scratch.syn[0]); + MA_DR_MP3_ZERO_MEMORY(dec->scratch.grbuf[0], 576*2*sizeof(float)); + pcm = MA_DR_MP3_OFFSET_PTR(pcm, sizeof(ma_dr_mp3d_sample_t)*384*info->channels); + } + if (bs_frame->pos > bs_frame->limit) + { + ma_dr_mp3dec_init(dec); + return 0; + } + } +#endif + } + return success*ma_dr_mp3_hdr_frame_samples(dec->header); +} +MA_API void ma_dr_mp3dec_f32_to_s16(const float *in, ma_int16 *out, size_t num_samples) +{ + size_t i = 0; +#if MA_DR_MP3_HAVE_SIMD + size_t aligned_count = num_samples & ~7; + for(; i < aligned_count; i+=8) + { + ma_dr_mp3_f4 scale = MA_DR_MP3_VSET(32768.0f); + ma_dr_mp3_f4 a = MA_DR_MP3_VMUL(MA_DR_MP3_VLD(&in[i ]), scale); + ma_dr_mp3_f4 b = MA_DR_MP3_VMUL(MA_DR_MP3_VLD(&in[i+4]), scale); +#if MA_DR_MP3_HAVE_SSE + ma_dr_mp3_f4 s16max = MA_DR_MP3_VSET( 32767.0f); + ma_dr_mp3_f4 s16min = MA_DR_MP3_VSET(-32768.0f); + __m128i pcm8 = _mm_packs_epi32(_mm_cvtps_epi32(_mm_max_ps(_mm_min_ps(a, s16max), s16min)), + _mm_cvtps_epi32(_mm_max_ps(_mm_min_ps(b, s16max), s16min))); + out[i ] = (ma_int16)_mm_extract_epi16(pcm8, 0); + out[i+1] = (ma_int16)_mm_extract_epi16(pcm8, 1); + out[i+2] = (ma_int16)_mm_extract_epi16(pcm8, 2); + out[i+3] = (ma_int16)_mm_extract_epi16(pcm8, 3); + out[i+4] = (ma_int16)_mm_extract_epi16(pcm8, 4); + out[i+5] = (ma_int16)_mm_extract_epi16(pcm8, 5); + out[i+6] = (ma_int16)_mm_extract_epi16(pcm8, 6); + out[i+7] = (ma_int16)_mm_extract_epi16(pcm8, 7); +#else + int16x4_t pcma, pcmb; + a = MA_DR_MP3_VADD(a, MA_DR_MP3_VSET(0.5f)); + b = MA_DR_MP3_VADD(b, MA_DR_MP3_VSET(0.5f)); + pcma = vqmovn_s32(vqaddq_s32(vcvtq_s32_f32(a), vreinterpretq_s32_u32(vcltq_f32(a, MA_DR_MP3_VSET(0))))); + pcmb = vqmovn_s32(vqaddq_s32(vcvtq_s32_f32(b), vreinterpretq_s32_u32(vcltq_f32(b, MA_DR_MP3_VSET(0))))); + vst1_lane_s16(out+i , pcma, 0); + vst1_lane_s16(out+i+1, pcma, 1); + vst1_lane_s16(out+i+2, pcma, 2); + vst1_lane_s16(out+i+3, pcma, 3); + vst1_lane_s16(out+i+4, pcmb, 0); + vst1_lane_s16(out+i+5, pcmb, 1); + vst1_lane_s16(out+i+6, pcmb, 2); + vst1_lane_s16(out+i+7, pcmb, 3); +#endif + } +#endif + for(; i < num_samples; i++) + { + float sample = in[i] * 32768.0f; + if (sample >= 32766.5f) + out[i] = (ma_int16) 32767; + else if (sample <= -32767.5f) + out[i] = (ma_int16)-32768; + else + { + short s = (ma_int16)(sample + .5f); + s -= (s < 0); + out[i] = s; + } + } +} +#ifndef MA_DR_MP3_SEEK_LEADING_MP3_FRAMES +#define MA_DR_MP3_SEEK_LEADING_MP3_FRAMES 2 +#endif +#define MA_DR_MP3_MIN_DATA_CHUNK_SIZE 16384 +#ifndef MA_DR_MP3_DATA_CHUNK_SIZE +#define MA_DR_MP3_DATA_CHUNK_SIZE (MA_DR_MP3_MIN_DATA_CHUNK_SIZE*4) +#endif +#define MA_DR_MP3_COUNTOF(x) (sizeof(x) / sizeof(x[0])) +#define MA_DR_MP3_CLAMP(x, lo, hi) (MA_DR_MP3_MAX(lo, MA_DR_MP3_MIN(x, hi))) +#ifndef MA_DR_MP3_PI_D +#define MA_DR_MP3_PI_D 3.14159265358979323846264 +#endif +#define MA_DR_MP3_DEFAULT_RESAMPLER_LPF_ORDER 2 +static MA_INLINE float ma_dr_mp3_mix_f32(float x, float y, float a) +{ + return x*(1-a) + y*a; +} +static MA_INLINE float ma_dr_mp3_mix_f32_fast(float x, float y, float a) +{ + float r0 = (y - x); + float r1 = r0*a; + return x + r1; +} +static MA_INLINE ma_uint32 ma_dr_mp3_gcf_u32(ma_uint32 a, ma_uint32 b) +{ + for (;;) { + if (b == 0) { + break; + } else { + ma_uint32 t = a; + a = b; + b = t % a; + } + } + return a; +} +static void* ma_dr_mp3__malloc_default(size_t sz, void* pUserData) +{ + (void)pUserData; + return MA_DR_MP3_MALLOC(sz); +} +static void* ma_dr_mp3__realloc_default(void* p, size_t sz, void* pUserData) +{ + (void)pUserData; + return MA_DR_MP3_REALLOC(p, sz); +} +static void ma_dr_mp3__free_default(void* p, void* pUserData) +{ + (void)pUserData; + MA_DR_MP3_FREE(p); +} +static void* ma_dr_mp3__malloc_from_callbacks(size_t sz, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks == NULL) { + return NULL; + } + if (pAllocationCallbacks->onMalloc != NULL) { + return pAllocationCallbacks->onMalloc(sz, pAllocationCallbacks->pUserData); + } + if (pAllocationCallbacks->onRealloc != NULL) { + return pAllocationCallbacks->onRealloc(NULL, sz, pAllocationCallbacks->pUserData); + } + return NULL; +} +static void* ma_dr_mp3__realloc_from_callbacks(void* p, size_t szNew, size_t szOld, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks == NULL) { + return NULL; + } + if (pAllocationCallbacks->onRealloc != NULL) { + return pAllocationCallbacks->onRealloc(p, szNew, pAllocationCallbacks->pUserData); + } + if (pAllocationCallbacks->onMalloc != NULL && pAllocationCallbacks->onFree != NULL) { + void* p2; + p2 = pAllocationCallbacks->onMalloc(szNew, pAllocationCallbacks->pUserData); + if (p2 == NULL) { + return NULL; + } + if (p != NULL) { + MA_DR_MP3_COPY_MEMORY(p2, p, szOld); + pAllocationCallbacks->onFree(p, pAllocationCallbacks->pUserData); + } + return p2; + } + return NULL; +} +static void ma_dr_mp3__free_from_callbacks(void* p, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (p == NULL || pAllocationCallbacks == NULL) { + return; + } + if (pAllocationCallbacks->onFree != NULL) { + pAllocationCallbacks->onFree(p, pAllocationCallbacks->pUserData); + } +} +static ma_allocation_callbacks ma_dr_mp3_copy_allocation_callbacks_or_defaults(const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks != NULL) { + return *pAllocationCallbacks; + } else { + ma_allocation_callbacks allocationCallbacks; + allocationCallbacks.pUserData = NULL; + allocationCallbacks.onMalloc = ma_dr_mp3__malloc_default; + allocationCallbacks.onRealloc = ma_dr_mp3__realloc_default; + allocationCallbacks.onFree = ma_dr_mp3__free_default; + return allocationCallbacks; + } +} +static size_t ma_dr_mp3__on_read(ma_dr_mp3* pMP3, void* pBufferOut, size_t bytesToRead) +{ + size_t bytesRead; + MA_DR_MP3_ASSERT(pMP3 != NULL); + MA_DR_MP3_ASSERT(pMP3->onRead != NULL); + if (bytesToRead == 0) { + return 0; + } + bytesRead = pMP3->onRead(pMP3->pUserData, pBufferOut, bytesToRead); + pMP3->streamCursor += bytesRead; + return bytesRead; +} +static size_t ma_dr_mp3__on_read_clamped(ma_dr_mp3* pMP3, void* pBufferOut, size_t bytesToRead) +{ + MA_DR_MP3_ASSERT(pMP3 != NULL); + MA_DR_MP3_ASSERT(pMP3->onRead != NULL); + if (pMP3->streamLength == MA_UINT64_MAX) { + return ma_dr_mp3__on_read(pMP3, pBufferOut, bytesToRead); + } else { + ma_uint64 bytesRemaining; + bytesRemaining = (pMP3->streamLength - pMP3->streamCursor); + if (bytesToRead > bytesRemaining) { + bytesToRead = (size_t)bytesRemaining; + } + return ma_dr_mp3__on_read(pMP3, pBufferOut, bytesToRead); + } +} +static ma_bool32 ma_dr_mp3__on_seek(ma_dr_mp3* pMP3, int offset, ma_dr_mp3_seek_origin origin) +{ + MA_DR_MP3_ASSERT(offset >= 0); + MA_DR_MP3_ASSERT(origin == MA_DR_MP3_SEEK_SET || origin == MA_DR_MP3_SEEK_CUR); + if (!pMP3->onSeek(pMP3->pUserData, offset, origin)) { + return MA_FALSE; + } + if (origin == MA_DR_MP3_SEEK_SET) { + pMP3->streamCursor = (ma_uint64)offset; + } else{ + pMP3->streamCursor += offset; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_mp3__on_seek_64(ma_dr_mp3* pMP3, ma_uint64 offset, ma_dr_mp3_seek_origin origin) +{ + if (offset <= 0x7FFFFFFF) { + return ma_dr_mp3__on_seek(pMP3, (int)offset, origin); + } + if (!ma_dr_mp3__on_seek(pMP3, 0x7FFFFFFF, MA_DR_MP3_SEEK_SET)) { + return MA_FALSE; + } + offset -= 0x7FFFFFFF; + while (offset > 0) { + if (offset <= 0x7FFFFFFF) { + if (!ma_dr_mp3__on_seek(pMP3, (int)offset, MA_DR_MP3_SEEK_CUR)) { + return MA_FALSE; + } + offset = 0; + } else { + if (!ma_dr_mp3__on_seek(pMP3, 0x7FFFFFFF, MA_DR_MP3_SEEK_CUR)) { + return MA_FALSE; + } + offset -= 0x7FFFFFFF; + } + } + return MA_TRUE; +} +static void ma_dr_mp3__on_meta(ma_dr_mp3* pMP3, ma_dr_mp3_metadata_type type, const void* pRawData, size_t rawDataSize) +{ + if (pMP3->onMeta) { + ma_dr_mp3_metadata metadata; + MA_DR_MP3_ZERO_OBJECT(&metadata); + metadata.type = type; + metadata.pRawData = pRawData; + metadata.rawDataSize = rawDataSize; + pMP3->onMeta(pMP3->pUserDataMeta, &metadata); + } +} +static ma_uint32 ma_dr_mp3_decode_next_frame_ex__callbacks(ma_dr_mp3* pMP3, ma_dr_mp3d_sample_t* pPCMFrames, ma_dr_mp3dec_frame_info* pMP3FrameInfo, const ma_uint8** ppMP3FrameData) +{ + ma_uint32 pcmFramesRead = 0; + MA_DR_MP3_ASSERT(pMP3 != NULL); + MA_DR_MP3_ASSERT(pMP3->onRead != NULL); + if (pMP3->atEnd) { + return 0; + } + for (;;) { + ma_dr_mp3dec_frame_info info; + if (pMP3->dataSize < MA_DR_MP3_MIN_DATA_CHUNK_SIZE) { + size_t bytesRead; + if (pMP3->pData != NULL) { + MA_DR_MP3_MOVE_MEMORY(pMP3->pData, pMP3->pData + pMP3->dataConsumed, pMP3->dataSize); + } + pMP3->dataConsumed = 0; + if (pMP3->dataCapacity < MA_DR_MP3_DATA_CHUNK_SIZE) { + ma_uint8* pNewData; + size_t newDataCap; + newDataCap = MA_DR_MP3_DATA_CHUNK_SIZE; + pNewData = (ma_uint8*)ma_dr_mp3__realloc_from_callbacks(pMP3->pData, newDataCap, pMP3->dataCapacity, &pMP3->allocationCallbacks); + if (pNewData == NULL) { + return 0; + } + pMP3->pData = pNewData; + pMP3->dataCapacity = newDataCap; + } + bytesRead = ma_dr_mp3__on_read_clamped(pMP3, pMP3->pData + pMP3->dataSize, (pMP3->dataCapacity - pMP3->dataSize)); + if (bytesRead == 0) { + if (pMP3->dataSize == 0) { + pMP3->atEnd = MA_TRUE; + return 0; + } + } + pMP3->dataSize += bytesRead; + } + if (pMP3->dataSize > INT_MAX) { + pMP3->atEnd = MA_TRUE; + return 0; + } + MA_DR_MP3_ASSERT(pMP3->pData != NULL); + MA_DR_MP3_ASSERT(pMP3->dataCapacity > 0); + if (pMP3->pData == NULL) { + return 0; + } + pcmFramesRead = ma_dr_mp3dec_decode_frame(&pMP3->decoder, pMP3->pData + pMP3->dataConsumed, (int)pMP3->dataSize, pPCMFrames, &info); + pMP3->dataConsumed += (size_t)info.frame_bytes; + pMP3->dataSize -= (size_t)info.frame_bytes; + if (pcmFramesRead > 0) { + pcmFramesRead = ma_dr_mp3_hdr_frame_samples(pMP3->decoder.header); + pMP3->pcmFramesConsumedInMP3Frame = 0; + pMP3->pcmFramesRemainingInMP3Frame = pcmFramesRead; + pMP3->mp3FrameChannels = info.channels; + pMP3->mp3FrameSampleRate = info.sample_rate; + if (pMP3FrameInfo != NULL) { + *pMP3FrameInfo = info; + } + if (ppMP3FrameData != NULL) { + *ppMP3FrameData = pMP3->pData + pMP3->dataConsumed - (size_t)info.frame_bytes; + } + break; + } else if (info.frame_bytes == 0) { + size_t bytesRead; + MA_DR_MP3_MOVE_MEMORY(pMP3->pData, pMP3->pData + pMP3->dataConsumed, pMP3->dataSize); + pMP3->dataConsumed = 0; + if (pMP3->dataCapacity == pMP3->dataSize) { + ma_uint8* pNewData; + size_t newDataCap; + newDataCap = pMP3->dataCapacity + MA_DR_MP3_DATA_CHUNK_SIZE; + pNewData = (ma_uint8*)ma_dr_mp3__realloc_from_callbacks(pMP3->pData, newDataCap, pMP3->dataCapacity, &pMP3->allocationCallbacks); + if (pNewData == NULL) { + return 0; + } + pMP3->pData = pNewData; + pMP3->dataCapacity = newDataCap; + } + bytesRead = ma_dr_mp3__on_read_clamped(pMP3, pMP3->pData + pMP3->dataSize, (pMP3->dataCapacity - pMP3->dataSize)); + if (bytesRead == 0) { + pMP3->atEnd = MA_TRUE; + return 0; + } + pMP3->dataSize += bytesRead; + } + }; + return pcmFramesRead; +} +static ma_uint32 ma_dr_mp3_decode_next_frame_ex__memory(ma_dr_mp3* pMP3, ma_dr_mp3d_sample_t* pPCMFrames, ma_dr_mp3dec_frame_info* pMP3FrameInfo, const ma_uint8** ppMP3FrameData) +{ + ma_uint32 pcmFramesRead = 0; + ma_dr_mp3dec_frame_info info; + MA_DR_MP3_ASSERT(pMP3 != NULL); + MA_DR_MP3_ASSERT(pMP3->memory.pData != NULL); + if (pMP3->atEnd) { + return 0; + } + for (;;) { + pcmFramesRead = ma_dr_mp3dec_decode_frame(&pMP3->decoder, pMP3->memory.pData + pMP3->memory.currentReadPos, (int)(pMP3->memory.dataSize - pMP3->memory.currentReadPos), pPCMFrames, &info); + if (pcmFramesRead > 0) { + pcmFramesRead = ma_dr_mp3_hdr_frame_samples(pMP3->decoder.header); + pMP3->pcmFramesConsumedInMP3Frame = 0; + pMP3->pcmFramesRemainingInMP3Frame = pcmFramesRead; + pMP3->mp3FrameChannels = info.channels; + pMP3->mp3FrameSampleRate = info.sample_rate; + if (pMP3FrameInfo != NULL) { + *pMP3FrameInfo = info; + } + if (ppMP3FrameData != NULL) { + *ppMP3FrameData = pMP3->memory.pData + pMP3->memory.currentReadPos; + } + break; + } else if (info.frame_bytes > 0) { + pMP3->memory.currentReadPos += (size_t)info.frame_bytes; + pMP3->streamCursor += (size_t)info.frame_bytes; + } else { + break; + } + } + pMP3->memory.currentReadPos += (size_t)info.frame_bytes; + pMP3->streamCursor += (size_t)info.frame_bytes; + return pcmFramesRead; +} +static ma_uint32 ma_dr_mp3_decode_next_frame_ex(ma_dr_mp3* pMP3, ma_dr_mp3d_sample_t* pPCMFrames, ma_dr_mp3dec_frame_info* pMP3FrameInfo, const ma_uint8** ppMP3FrameData) +{ + if (pMP3->memory.pData != NULL && pMP3->memory.dataSize > 0) { + return ma_dr_mp3_decode_next_frame_ex__memory(pMP3, pPCMFrames, pMP3FrameInfo, ppMP3FrameData); + } else { + return ma_dr_mp3_decode_next_frame_ex__callbacks(pMP3, pPCMFrames, pMP3FrameInfo, ppMP3FrameData); + } +} +static ma_uint32 ma_dr_mp3_decode_next_frame(ma_dr_mp3* pMP3) +{ + MA_DR_MP3_ASSERT(pMP3 != NULL); + return ma_dr_mp3_decode_next_frame_ex(pMP3, (ma_dr_mp3d_sample_t*)pMP3->pcmFrames, NULL, NULL); +} +#if 0 +static ma_uint32 ma_dr_mp3_seek_next_frame(ma_dr_mp3* pMP3) +{ + ma_uint32 pcmFrameCount; + MA_DR_MP3_ASSERT(pMP3 != NULL); + pcmFrameCount = ma_dr_mp3_decode_next_frame_ex(pMP3, NULL, NULL, NULL); + if (pcmFrameCount == 0) { + return 0; + } + pMP3->currentPCMFrame += pcmFrameCount; + pMP3->pcmFramesConsumedInMP3Frame = pcmFrameCount; + pMP3->pcmFramesRemainingInMP3Frame = 0; + return pcmFrameCount; +} +#endif +static ma_bool32 ma_dr_mp3_init_internal(ma_dr_mp3* pMP3, ma_dr_mp3_read_proc onRead, ma_dr_mp3_seek_proc onSeek, ma_dr_mp3_tell_proc onTell, ma_dr_mp3_meta_proc onMeta, void* pUserData, void* pUserDataMeta, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_mp3dec_frame_info firstFrameInfo; + const ma_uint8* pFirstFrameData; + ma_uint32 firstFramePCMFrameCount; + ma_uint32 detectedMP3FrameCount = 0xFFFFFFFF; + MA_DR_MP3_ASSERT(pMP3 != NULL); + MA_DR_MP3_ASSERT(onRead != NULL); + ma_dr_mp3dec_init(&pMP3->decoder); + pMP3->onRead = onRead; + pMP3->onSeek = onSeek; + pMP3->onMeta = onMeta; + pMP3->pUserData = pUserData; + pMP3->pUserDataMeta = pUserDataMeta; + pMP3->allocationCallbacks = ma_dr_mp3_copy_allocation_callbacks_or_defaults(pAllocationCallbacks); + if (pMP3->allocationCallbacks.onFree == NULL || (pMP3->allocationCallbacks.onMalloc == NULL && pMP3->allocationCallbacks.onRealloc == NULL)) { + return MA_FALSE; + } + pMP3->streamCursor = 0; + pMP3->streamLength = MA_UINT64_MAX; + pMP3->streamStartOffset = 0; + pMP3->delayInPCMFrames = 0; + pMP3->paddingInPCMFrames = 0; + pMP3->totalPCMFrameCount = MA_UINT64_MAX; + #if 1 + if (onSeek != NULL && onTell != NULL) { + if (onSeek(pUserData, 0, MA_DR_MP3_SEEK_END)) { + ma_int64 streamLen; + int streamEndOffset = 0; + if (onTell(pUserData, &streamLen)) { + if (streamLen > 128) { + char id3[3]; + if (onSeek(pUserData, streamEndOffset - 128, MA_DR_MP3_SEEK_END)) { + if (onRead(pUserData, id3, 3) == 3 && id3[0] == 'T' && id3[1] == 'A' && id3[2] == 'G') { + streamEndOffset -= 128; + streamLen -= 128; + if (onMeta != NULL) { + ma_uint8 tag[128]; + tag[0] = 'T'; tag[1] = 'A'; tag[2] = 'G'; + if (onRead(pUserData, tag + 3, 125) == 125) { + ma_dr_mp3__on_meta(pMP3, MA_DR_MP3_METADATA_TYPE_ID3V1, tag, 128); + } + } + } else { + } + } else { + } + } else { + } + if (streamLen > 32) { + char ape[32]; + if (onSeek(pUserData, streamEndOffset - 32, MA_DR_MP3_SEEK_END)) { + if (onRead(pUserData, ape, 32) == 32 && ape[0] == 'A' && ape[1] == 'P' && ape[2] == 'E' && ape[3] == 'T' && ape[4] == 'A' && ape[5] == 'G' && ape[6] == 'E' && ape[7] == 'X') { + ma_uint32 tagSize = + ((ma_uint32)ape[24] << 0) | + ((ma_uint32)ape[25] << 8) | + ((ma_uint32)ape[26] << 16) | + ((ma_uint32)ape[27] << 24); + if (32 + tagSize < streamLen) { + streamEndOffset -= 32 + tagSize; + streamLen -= 32 + tagSize; + if (onMeta != NULL) { + if (onSeek(pUserData, streamEndOffset, MA_DR_MP3_SEEK_END)) { + size_t apeTagSize = (size_t)tagSize + 32; + ma_uint8* pTagData = (ma_uint8*)ma_dr_mp3_malloc(apeTagSize, pAllocationCallbacks); + if (pTagData != NULL) { + if (onRead(pUserData, pTagData, apeTagSize) == apeTagSize) { + ma_dr_mp3__on_meta(pMP3, MA_DR_MP3_METADATA_TYPE_APE, pTagData, apeTagSize); + } + ma_dr_mp3_free(pTagData, pAllocationCallbacks); + } + } + } + } else { + } + } + } + } else { + } + if (!onSeek(pUserData, 0, MA_DR_MP3_SEEK_SET)) { + return MA_FALSE; + } + pMP3->streamLength = (ma_uint64)streamLen; + if (pMP3->memory.pData != NULL) { + pMP3->memory.dataSize = (size_t)pMP3->streamLength; + } + } else { + if (!onSeek(pUserData, 0, MA_DR_MP3_SEEK_SET)) { + return MA_FALSE; + } + } + } else { + } + } else { + } + #endif + #if 1 + { + char header[10]; + if (onRead(pUserData, header, 10) == 10) { + if (header[0] == 'I' && header[1] == 'D' && header[2] == '3') { + ma_uint32 tagSize = + (((ma_uint32)header[6] & 0x7F) << 21) | + (((ma_uint32)header[7] & 0x7F) << 14) | + (((ma_uint32)header[8] & 0x7F) << 7) | + (((ma_uint32)header[9] & 0x7F) << 0); + if (header[5] & 0x10) { + tagSize += 10; + } + if (onMeta != NULL) { + size_t tagSizeWithHeader = 10 + tagSize; + ma_uint8* pTagData = (ma_uint8*)ma_dr_mp3_malloc(tagSizeWithHeader, pAllocationCallbacks); + if (pTagData != NULL) { + MA_DR_MP3_COPY_MEMORY(pTagData, header, 10); + if (onRead(pUserData, pTagData + 10, tagSize) == tagSize) { + ma_dr_mp3__on_meta(pMP3, MA_DR_MP3_METADATA_TYPE_ID3V2, pTagData, tagSizeWithHeader); + } + ma_dr_mp3_free(pTagData, pAllocationCallbacks); + } + } else { + if (onSeek != NULL) { + if (!onSeek(pUserData, tagSize, MA_DR_MP3_SEEK_CUR)) { + return MA_FALSE; + } + } else { + char discard[1024]; + while (tagSize > 0) { + size_t bytesToRead = tagSize; + if (bytesToRead > sizeof(discard)) { + bytesToRead = sizeof(discard); + } + if (onRead(pUserData, discard, bytesToRead) != bytesToRead) { + return MA_FALSE; + } + tagSize -= (ma_uint32)bytesToRead; + } + } + } + pMP3->streamStartOffset += 10 + tagSize; + pMP3->streamCursor = pMP3->streamStartOffset; + } else { + if (onSeek != NULL) { + if (!onSeek(pUserData, 0, MA_DR_MP3_SEEK_SET)) { + return MA_FALSE; + } + } else { + } + } + } else { + return MA_FALSE; + } + } + #endif + firstFramePCMFrameCount = ma_dr_mp3_decode_next_frame_ex(pMP3, (ma_dr_mp3d_sample_t*)pMP3->pcmFrames, &firstFrameInfo, &pFirstFrameData); + if (firstFramePCMFrameCount > 0) { + MA_DR_MP3_ASSERT(pFirstFrameData != NULL); + #if 1 + MA_DR_MP3_ASSERT(firstFrameInfo.frame_bytes > 0); + { + ma_dr_mp3_bs bs; + ma_dr_mp3_L3_gr_info grInfo[4]; + ma_dr_mp3_bs_init(&bs, pFirstFrameData + MA_DR_MP3_HDR_SIZE, firstFrameInfo.frame_bytes - MA_DR_MP3_HDR_SIZE); + if (MA_DR_MP3_HDR_IS_CRC(pFirstFrameData)) { + ma_dr_mp3_bs_get_bits(&bs, 16); + } + if (ma_dr_mp3_L3_read_side_info(&bs, grInfo, pFirstFrameData) >= 0) { + ma_bool32 isXing = MA_FALSE; + ma_bool32 isInfo = MA_FALSE; + const ma_uint8* pTagData; + const ma_uint8* pTagDataBeg; + pTagDataBeg = pFirstFrameData + MA_DR_MP3_HDR_SIZE + (bs.pos/8); + pTagData = pTagDataBeg; + isXing = (pTagData[0] == 'X' && pTagData[1] == 'i' && pTagData[2] == 'n' && pTagData[3] == 'g'); + isInfo = (pTagData[0] == 'I' && pTagData[1] == 'n' && pTagData[2] == 'f' && pTagData[3] == 'o'); + if (isXing || isInfo) { + ma_uint32 bytes = 0; + ma_uint32 flags = pTagData[7]; + pTagData += 8; + if (flags & 0x01) { + detectedMP3FrameCount = (ma_uint32)pTagData[0] << 24 | (ma_uint32)pTagData[1] << 16 | (ma_uint32)pTagData[2] << 8 | (ma_uint32)pTagData[3]; + pTagData += 4; + } + if (flags & 0x02) { + bytes = (ma_uint32)pTagData[0] << 24 | (ma_uint32)pTagData[1] << 16 | (ma_uint32)pTagData[2] << 8 | (ma_uint32)pTagData[3]; + (void)bytes; + pTagData += 4; + } + if (flags & 0x04) { + pTagData += 100; + } + if (flags & 0x08) { + pTagData += 4; + } + if (pTagData[0]) { + pTagData += 21; + if (pTagData - pFirstFrameData + 14 < firstFrameInfo.frame_bytes) { + int delayInPCMFrames; + int paddingInPCMFrames; + delayInPCMFrames = (( (ma_uint32)pTagData[0] << 4) | ((ma_uint32)pTagData[1] >> 4)) + (528 + 1); + paddingInPCMFrames = ((((ma_uint32)pTagData[1] & 0xF) << 8) | ((ma_uint32)pTagData[2] )) - (528 + 1); + if (paddingInPCMFrames < 0) { + paddingInPCMFrames = 0; + } + pMP3->delayInPCMFrames = (ma_uint32)delayInPCMFrames; + pMP3->paddingInPCMFrames = (ma_uint32)paddingInPCMFrames; + } + } + if (isXing) { + pMP3->isVBR = MA_TRUE; + } else if (isInfo) { + pMP3->isCBR = MA_TRUE; + } + if (onMeta != NULL) { + ma_dr_mp3_metadata_type metadataType = isXing ? MA_DR_MP3_METADATA_TYPE_XING : MA_DR_MP3_METADATA_TYPE_VBRI; + size_t tagDataSize; + tagDataSize = (size_t)firstFrameInfo.frame_bytes; + tagDataSize -= (size_t)(pTagDataBeg - pFirstFrameData); + ma_dr_mp3__on_meta(pMP3, metadataType, pTagDataBeg, tagDataSize); + } + pMP3->pcmFramesRemainingInMP3Frame = 0; + pMP3->streamStartOffset += (ma_uint32)(firstFrameInfo.frame_bytes); + pMP3->streamCursor = pMP3->streamStartOffset; + ma_dr_mp3dec_init(&pMP3->decoder); + } + } else { + } + } + #endif + } else { + ma_dr_mp3__free_from_callbacks(pMP3->pData, &pMP3->allocationCallbacks); + return MA_FALSE; + } + if (detectedMP3FrameCount != 0xFFFFFFFF) { + pMP3->totalPCMFrameCount = detectedMP3FrameCount * firstFramePCMFrameCount; + } + pMP3->channels = pMP3->mp3FrameChannels; + pMP3->sampleRate = pMP3->mp3FrameSampleRate; + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_mp3_init(ma_dr_mp3* pMP3, ma_dr_mp3_read_proc onRead, ma_dr_mp3_seek_proc onSeek, ma_dr_mp3_tell_proc onTell, ma_dr_mp3_meta_proc onMeta, void* pUserData, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pMP3 == NULL || onRead == NULL) { + return MA_FALSE; + } + MA_DR_MP3_ZERO_OBJECT(pMP3); + return ma_dr_mp3_init_internal(pMP3, onRead, onSeek, onTell, onMeta, pUserData, pUserData, pAllocationCallbacks); +} +static size_t ma_dr_mp3__on_read_memory(void* pUserData, void* pBufferOut, size_t bytesToRead) +{ + ma_dr_mp3* pMP3 = (ma_dr_mp3*)pUserData; + size_t bytesRemaining; + MA_DR_MP3_ASSERT(pMP3 != NULL); + MA_DR_MP3_ASSERT(pMP3->memory.dataSize >= pMP3->memory.currentReadPos); + bytesRemaining = pMP3->memory.dataSize - pMP3->memory.currentReadPos; + if (bytesToRead > bytesRemaining) { + bytesToRead = bytesRemaining; + } + if (bytesToRead > 0) { + MA_DR_MP3_COPY_MEMORY(pBufferOut, pMP3->memory.pData + pMP3->memory.currentReadPos, bytesToRead); + pMP3->memory.currentReadPos += bytesToRead; + } + return bytesToRead; +} +static ma_bool32 ma_dr_mp3__on_seek_memory(void* pUserData, int byteOffset, ma_dr_mp3_seek_origin origin) +{ + ma_dr_mp3* pMP3 = (ma_dr_mp3*)pUserData; + ma_int64 newCursor; + MA_DR_MP3_ASSERT(pMP3 != NULL); + if (origin == MA_DR_MP3_SEEK_SET) { + newCursor = 0; + } else if (origin == MA_DR_MP3_SEEK_CUR) { + newCursor = (ma_int64)pMP3->memory.currentReadPos; + } else if (origin == MA_DR_MP3_SEEK_END) { + newCursor = (ma_int64)pMP3->memory.dataSize; + } else { + MA_DR_MP3_ASSERT(!"Invalid seek origin"); + return MA_FALSE; + } + newCursor += byteOffset; + if (newCursor < 0) { + return MA_FALSE; + } + if ((size_t)newCursor > pMP3->memory.dataSize) { + return MA_FALSE; + } + pMP3->memory.currentReadPos = (size_t)newCursor; + return MA_TRUE; +} +static ma_bool32 ma_dr_mp3__on_tell_memory(void* pUserData, ma_int64* pCursor) +{ + ma_dr_mp3* pMP3 = (ma_dr_mp3*)pUserData; + MA_DR_MP3_ASSERT(pMP3 != NULL); + MA_DR_MP3_ASSERT(pCursor != NULL); + *pCursor = (ma_int64)pMP3->memory.currentReadPos; + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_mp3_init_memory_with_metadata(ma_dr_mp3* pMP3, const void* pData, size_t dataSize, ma_dr_mp3_meta_proc onMeta, void* pUserDataMeta, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_bool32 result; + if (pMP3 == NULL) { + return MA_FALSE; + } + MA_DR_MP3_ZERO_OBJECT(pMP3); + if (pData == NULL || dataSize == 0) { + return MA_FALSE; + } + pMP3->memory.pData = (const ma_uint8*)pData; + pMP3->memory.dataSize = dataSize; + pMP3->memory.currentReadPos = 0; + result = ma_dr_mp3_init_internal(pMP3, ma_dr_mp3__on_read_memory, ma_dr_mp3__on_seek_memory, ma_dr_mp3__on_tell_memory, onMeta, pMP3, pUserDataMeta, pAllocationCallbacks); + if (result == MA_FALSE) { + return MA_FALSE; + } + if (pMP3->streamLength <= (ma_uint64)MA_SIZE_MAX) { + pMP3->memory.dataSize = (size_t)pMP3->streamLength; + } + if (pMP3->streamStartOffset > (ma_uint64)MA_SIZE_MAX) { + return MA_FALSE; + } + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_mp3_init_memory(ma_dr_mp3* pMP3, const void* pData, size_t dataSize, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_mp3_init_memory_with_metadata(pMP3, pData, dataSize, NULL, NULL, pAllocationCallbacks); +} +#ifndef MA_DR_MP3_NO_STDIO +#include +#include +static size_t ma_dr_mp3__on_read_stdio(void* pUserData, void* pBufferOut, size_t bytesToRead) +{ + return fread(pBufferOut, 1, bytesToRead, (FILE*)pUserData); +} +static ma_bool32 ma_dr_mp3__on_seek_stdio(void* pUserData, int offset, ma_dr_mp3_seek_origin origin) +{ + int whence = SEEK_SET; + if (origin == MA_DR_MP3_SEEK_CUR) { + whence = SEEK_CUR; + } else if (origin == MA_DR_MP3_SEEK_END) { + whence = SEEK_END; + } + return fseek((FILE*)pUserData, offset, whence) == 0; +} +static ma_bool32 ma_dr_mp3__on_tell_stdio(void* pUserData, ma_int64* pCursor) +{ + FILE* pFileStdio = (FILE*)pUserData; + ma_int64 result; + MA_DR_MP3_ASSERT(pFileStdio != NULL); + MA_DR_MP3_ASSERT(pCursor != NULL); +#if defined(_WIN32) && !defined(NXDK) + #if defined(_MSC_VER) && _MSC_VER > 1200 + result = _ftelli64(pFileStdio); + #else + result = ftell(pFileStdio); + #endif +#else + result = ftell(pFileStdio); +#endif + *pCursor = result; + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_mp3_init_file_with_metadata(ma_dr_mp3* pMP3, const char* pFilePath, ma_dr_mp3_meta_proc onMeta, void* pUserDataMeta, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_bool32 result; + FILE* pFile; + if (pMP3 == NULL) { + return MA_FALSE; + } + MA_DR_MP3_ZERO_OBJECT(pMP3); + if (ma_fopen(&pFile, pFilePath, "rb") != MA_SUCCESS) { + return MA_FALSE; + } + result = ma_dr_mp3_init_internal(pMP3, ma_dr_mp3__on_read_stdio, ma_dr_mp3__on_seek_stdio, ma_dr_mp3__on_tell_stdio, onMeta, (void*)pFile, pUserDataMeta, pAllocationCallbacks); + if (result != MA_TRUE) { + fclose(pFile); + return result; + } + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_mp3_init_file_with_metadata_w(ma_dr_mp3* pMP3, const wchar_t* pFilePath, ma_dr_mp3_meta_proc onMeta, void* pUserDataMeta, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_bool32 result; + FILE* pFile; + if (pMP3 == NULL) { + return MA_FALSE; + } + MA_DR_MP3_ZERO_OBJECT(pMP3); + if (ma_wfopen(&pFile, pFilePath, L"rb", pAllocationCallbacks) != MA_SUCCESS) { + return MA_FALSE; + } + result = ma_dr_mp3_init_internal(pMP3, ma_dr_mp3__on_read_stdio, ma_dr_mp3__on_seek_stdio, ma_dr_mp3__on_tell_stdio, onMeta, (void*)pFile, pUserDataMeta, pAllocationCallbacks); + if (result != MA_TRUE) { + fclose(pFile); + return result; + } + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_mp3_init_file(ma_dr_mp3* pMP3, const char* pFilePath, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_mp3_init_file_with_metadata(pMP3, pFilePath, NULL, NULL, pAllocationCallbacks); +} +MA_API ma_bool32 ma_dr_mp3_init_file_w(ma_dr_mp3* pMP3, const wchar_t* pFilePath, const ma_allocation_callbacks* pAllocationCallbacks) +{ + return ma_dr_mp3_init_file_with_metadata_w(pMP3, pFilePath, NULL, NULL, pAllocationCallbacks); +} +#endif +MA_API void ma_dr_mp3_uninit(ma_dr_mp3* pMP3) +{ + if (pMP3 == NULL) { + return; + } +#ifndef MA_DR_MP3_NO_STDIO + if (pMP3->onRead == ma_dr_mp3__on_read_stdio) { + FILE* pFile = (FILE*)pMP3->pUserData; + if (pFile != NULL) { + fclose(pFile); + pMP3->pUserData = NULL; + } + } +#endif + ma_dr_mp3__free_from_callbacks(pMP3->pData, &pMP3->allocationCallbacks); +} +#if defined(MA_DR_MP3_FLOAT_OUTPUT) +static void ma_dr_mp3_f32_to_s16(ma_int16* dst, const float* src, ma_uint64 sampleCount) +{ + ma_uint64 i; + ma_uint64 i4; + ma_uint64 sampleCount4; + i = 0; + sampleCount4 = sampleCount >> 2; + for (i4 = 0; i4 < sampleCount4; i4 += 1) { + float x0 = src[i+0]; + float x1 = src[i+1]; + float x2 = src[i+2]; + float x3 = src[i+3]; + x0 = ((x0 < -1) ? -1 : ((x0 > 1) ? 1 : x0)); + x1 = ((x1 < -1) ? -1 : ((x1 > 1) ? 1 : x1)); + x2 = ((x2 < -1) ? -1 : ((x2 > 1) ? 1 : x2)); + x3 = ((x3 < -1) ? -1 : ((x3 > 1) ? 1 : x3)); + x0 = x0 * 32767.0f; + x1 = x1 * 32767.0f; + x2 = x2 * 32767.0f; + x3 = x3 * 32767.0f; + dst[i+0] = (ma_int16)x0; + dst[i+1] = (ma_int16)x1; + dst[i+2] = (ma_int16)x2; + dst[i+3] = (ma_int16)x3; + i += 4; + } + for (; i < sampleCount; i += 1) { + float x = src[i]; + x = ((x < -1) ? -1 : ((x > 1) ? 1 : x)); + x = x * 32767.0f; + dst[i] = (ma_int16)x; + } +} +#endif +#if !defined(MA_DR_MP3_FLOAT_OUTPUT) +static void ma_dr_mp3_s16_to_f32(float* dst, const ma_int16* src, ma_uint64 sampleCount) +{ + ma_uint64 i; + for (i = 0; i < sampleCount; i += 1) { + float x = (float)src[i]; + x = x * 0.000030517578125f; + dst[i] = x; + } +} +#endif +static ma_uint64 ma_dr_mp3_read_pcm_frames_raw(ma_dr_mp3* pMP3, ma_uint64 framesToRead, void* pBufferOut) +{ + ma_uint64 totalFramesRead = 0; + MA_DR_MP3_ASSERT(pMP3 != NULL); + MA_DR_MP3_ASSERT(pMP3->onRead != NULL); + while (framesToRead > 0) { + ma_uint32 framesToConsume; + if (pMP3->currentPCMFrame < pMP3->delayInPCMFrames) { + ma_uint32 framesToSkip = (ma_uint32)MA_DR_MP3_MIN(pMP3->pcmFramesRemainingInMP3Frame, pMP3->delayInPCMFrames - pMP3->currentPCMFrame); + pMP3->currentPCMFrame += framesToSkip; + pMP3->pcmFramesConsumedInMP3Frame += framesToSkip; + pMP3->pcmFramesRemainingInMP3Frame -= framesToSkip; + } + framesToConsume = (ma_uint32)MA_DR_MP3_MIN(pMP3->pcmFramesRemainingInMP3Frame, framesToRead); + if (pMP3->totalPCMFrameCount != MA_UINT64_MAX && pMP3->totalPCMFrameCount > pMP3->paddingInPCMFrames) { + if (pMP3->currentPCMFrame < (pMP3->totalPCMFrameCount - pMP3->paddingInPCMFrames)) { + ma_uint64 framesRemainigToPadding = (pMP3->totalPCMFrameCount - pMP3->paddingInPCMFrames) - pMP3->currentPCMFrame; + if (framesToConsume > framesRemainigToPadding) { + framesToConsume = (ma_uint32)framesRemainigToPadding; + } + } else { + break; + } + } + if (pBufferOut != NULL) { + #if defined(MA_DR_MP3_FLOAT_OUTPUT) + { + float* pFramesOutF32 = (float*)MA_DR_MP3_OFFSET_PTR(pBufferOut, sizeof(float) * totalFramesRead * pMP3->channels); + float* pFramesInF32 = (float*)MA_DR_MP3_OFFSET_PTR(&pMP3->pcmFrames[0], sizeof(float) * pMP3->pcmFramesConsumedInMP3Frame * pMP3->mp3FrameChannels); + MA_DR_MP3_COPY_MEMORY(pFramesOutF32, pFramesInF32, sizeof(float) * framesToConsume * pMP3->channels); + } + #else + { + ma_int16* pFramesOutS16 = (ma_int16*)MA_DR_MP3_OFFSET_PTR(pBufferOut, sizeof(ma_int16) * totalFramesRead * pMP3->channels); + ma_int16* pFramesInS16 = (ma_int16*)MA_DR_MP3_OFFSET_PTR(&pMP3->pcmFrames[0], sizeof(ma_int16) * pMP3->pcmFramesConsumedInMP3Frame * pMP3->mp3FrameChannels); + MA_DR_MP3_COPY_MEMORY(pFramesOutS16, pFramesInS16, sizeof(ma_int16) * framesToConsume * pMP3->channels); + } + #endif + } + pMP3->currentPCMFrame += framesToConsume; + pMP3->pcmFramesConsumedInMP3Frame += framesToConsume; + pMP3->pcmFramesRemainingInMP3Frame -= framesToConsume; + totalFramesRead += framesToConsume; + framesToRead -= framesToConsume; + if (framesToRead == 0) { + break; + } + if (pMP3->totalPCMFrameCount != MA_UINT64_MAX && pMP3->totalPCMFrameCount > pMP3->paddingInPCMFrames && pMP3->currentPCMFrame >= (pMP3->totalPCMFrameCount - pMP3->paddingInPCMFrames)) { + break; + } + MA_DR_MP3_ASSERT(pMP3->pcmFramesRemainingInMP3Frame == 0); + if (ma_dr_mp3_decode_next_frame(pMP3) == 0) { + break; + } + } + return totalFramesRead; +} +MA_API ma_uint64 ma_dr_mp3_read_pcm_frames_f32(ma_dr_mp3* pMP3, ma_uint64 framesToRead, float* pBufferOut) +{ + if (pMP3 == NULL || pMP3->onRead == NULL) { + return 0; + } +#if defined(MA_DR_MP3_FLOAT_OUTPUT) + return ma_dr_mp3_read_pcm_frames_raw(pMP3, framesToRead, pBufferOut); +#else + { + ma_int16 pTempS16[8192]; + ma_uint64 totalPCMFramesRead = 0; + while (totalPCMFramesRead < framesToRead) { + ma_uint64 framesJustRead; + ma_uint64 framesRemaining = framesToRead - totalPCMFramesRead; + ma_uint64 framesToReadNow = MA_DR_MP3_COUNTOF(pTempS16) / pMP3->channels; + if (framesToReadNow > framesRemaining) { + framesToReadNow = framesRemaining; + } + framesJustRead = ma_dr_mp3_read_pcm_frames_raw(pMP3, framesToReadNow, pTempS16); + if (framesJustRead == 0) { + break; + } + ma_dr_mp3_s16_to_f32((float*)MA_DR_MP3_OFFSET_PTR(pBufferOut, sizeof(float) * totalPCMFramesRead * pMP3->channels), pTempS16, framesJustRead * pMP3->channels); + totalPCMFramesRead += framesJustRead; + } + return totalPCMFramesRead; + } +#endif +} +MA_API ma_uint64 ma_dr_mp3_read_pcm_frames_s16(ma_dr_mp3* pMP3, ma_uint64 framesToRead, ma_int16* pBufferOut) +{ + if (pMP3 == NULL || pMP3->onRead == NULL) { + return 0; + } +#if !defined(MA_DR_MP3_FLOAT_OUTPUT) + return ma_dr_mp3_read_pcm_frames_raw(pMP3, framesToRead, pBufferOut); +#else + { + float pTempF32[4096]; + ma_uint64 totalPCMFramesRead = 0; + while (totalPCMFramesRead < framesToRead) { + ma_uint64 framesJustRead; + ma_uint64 framesRemaining = framesToRead - totalPCMFramesRead; + ma_uint64 framesToReadNow = MA_DR_MP3_COUNTOF(pTempF32) / pMP3->channels; + if (framesToReadNow > framesRemaining) { + framesToReadNow = framesRemaining; + } + framesJustRead = ma_dr_mp3_read_pcm_frames_raw(pMP3, framesToReadNow, pTempF32); + if (framesJustRead == 0) { + break; + } + ma_dr_mp3_f32_to_s16((ma_int16*)MA_DR_MP3_OFFSET_PTR(pBufferOut, sizeof(ma_int16) * totalPCMFramesRead * pMP3->channels), pTempF32, framesJustRead * pMP3->channels); + totalPCMFramesRead += framesJustRead; + } + return totalPCMFramesRead; + } +#endif +} +static void ma_dr_mp3_reset(ma_dr_mp3* pMP3) +{ + MA_DR_MP3_ASSERT(pMP3 != NULL); + pMP3->pcmFramesConsumedInMP3Frame = 0; + pMP3->pcmFramesRemainingInMP3Frame = 0; + pMP3->currentPCMFrame = 0; + pMP3->dataSize = 0; + pMP3->atEnd = MA_FALSE; + ma_dr_mp3dec_init(&pMP3->decoder); +} +static ma_bool32 ma_dr_mp3_seek_to_start_of_stream(ma_dr_mp3* pMP3) +{ + MA_DR_MP3_ASSERT(pMP3 != NULL); + MA_DR_MP3_ASSERT(pMP3->onSeek != NULL); + if (!ma_dr_mp3__on_seek_64(pMP3, pMP3->streamStartOffset, MA_DR_MP3_SEEK_SET)) { + return MA_FALSE; + } + ma_dr_mp3_reset(pMP3); + return MA_TRUE; +} +static ma_bool32 ma_dr_mp3_seek_forward_by_pcm_frames__brute_force(ma_dr_mp3* pMP3, ma_uint64 frameOffset) +{ + ma_uint64 framesRead; +#if defined(MA_DR_MP3_FLOAT_OUTPUT) + framesRead = ma_dr_mp3_read_pcm_frames_f32(pMP3, frameOffset, NULL); +#else + framesRead = ma_dr_mp3_read_pcm_frames_s16(pMP3, frameOffset, NULL); +#endif + if (framesRead != frameOffset) { + return MA_FALSE; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_mp3_seek_to_pcm_frame__brute_force(ma_dr_mp3* pMP3, ma_uint64 frameIndex) +{ + MA_DR_MP3_ASSERT(pMP3 != NULL); + if (frameIndex == pMP3->currentPCMFrame) { + return MA_TRUE; + } + if (frameIndex < pMP3->currentPCMFrame) { + if (!ma_dr_mp3_seek_to_start_of_stream(pMP3)) { + return MA_FALSE; + } + } + MA_DR_MP3_ASSERT(frameIndex >= pMP3->currentPCMFrame); + return ma_dr_mp3_seek_forward_by_pcm_frames__brute_force(pMP3, (frameIndex - pMP3->currentPCMFrame)); +} +static ma_bool32 ma_dr_mp3_find_closest_seek_point(ma_dr_mp3* pMP3, ma_uint64 frameIndex, ma_uint32* pSeekPointIndex) +{ + ma_uint32 iSeekPoint; + MA_DR_MP3_ASSERT(pSeekPointIndex != NULL); + *pSeekPointIndex = 0; + if (frameIndex < pMP3->pSeekPoints[0].pcmFrameIndex) { + return MA_FALSE; + } + for (iSeekPoint = 0; iSeekPoint < pMP3->seekPointCount; ++iSeekPoint) { + if (pMP3->pSeekPoints[iSeekPoint].pcmFrameIndex > frameIndex) { + break; + } + *pSeekPointIndex = iSeekPoint; + } + return MA_TRUE; +} +static ma_bool32 ma_dr_mp3_seek_to_pcm_frame__seek_table(ma_dr_mp3* pMP3, ma_uint64 frameIndex) +{ + ma_dr_mp3_seek_point seekPoint; + ma_uint32 priorSeekPointIndex; + ma_uint16 iMP3Frame; + ma_uint64 leftoverFrames; + MA_DR_MP3_ASSERT(pMP3 != NULL); + MA_DR_MP3_ASSERT(pMP3->pSeekPoints != NULL); + MA_DR_MP3_ASSERT(pMP3->seekPointCount > 0); + if (ma_dr_mp3_find_closest_seek_point(pMP3, frameIndex, &priorSeekPointIndex)) { + seekPoint = pMP3->pSeekPoints[priorSeekPointIndex]; + } else { + seekPoint.seekPosInBytes = 0; + seekPoint.pcmFrameIndex = 0; + seekPoint.mp3FramesToDiscard = 0; + seekPoint.pcmFramesToDiscard = 0; + } + if (!ma_dr_mp3__on_seek_64(pMP3, seekPoint.seekPosInBytes, MA_DR_MP3_SEEK_SET)) { + return MA_FALSE; + } + ma_dr_mp3_reset(pMP3); + for (iMP3Frame = 0; iMP3Frame < seekPoint.mp3FramesToDiscard; ++iMP3Frame) { + ma_uint32 pcmFramesRead; + ma_dr_mp3d_sample_t* pPCMFrames; + pPCMFrames = NULL; + if (iMP3Frame == seekPoint.mp3FramesToDiscard-1) { + pPCMFrames = (ma_dr_mp3d_sample_t*)pMP3->pcmFrames; + } + pcmFramesRead = ma_dr_mp3_decode_next_frame_ex(pMP3, pPCMFrames, NULL, NULL); + if (pcmFramesRead == 0) { + return MA_FALSE; + } + } + pMP3->currentPCMFrame = seekPoint.pcmFrameIndex - seekPoint.pcmFramesToDiscard; + leftoverFrames = frameIndex - pMP3->currentPCMFrame; + return ma_dr_mp3_seek_forward_by_pcm_frames__brute_force(pMP3, leftoverFrames); +} +MA_API ma_bool32 ma_dr_mp3_seek_to_pcm_frame(ma_dr_mp3* pMP3, ma_uint64 frameIndex) +{ + if (pMP3 == NULL || pMP3->onSeek == NULL) { + return MA_FALSE; + } + if (frameIndex == 0) { + return ma_dr_mp3_seek_to_start_of_stream(pMP3); + } + if (pMP3->pSeekPoints != NULL && pMP3->seekPointCount > 0) { + return ma_dr_mp3_seek_to_pcm_frame__seek_table(pMP3, frameIndex); + } else { + return ma_dr_mp3_seek_to_pcm_frame__brute_force(pMP3, frameIndex); + } +} +MA_API ma_bool32 ma_dr_mp3_get_mp3_and_pcm_frame_count(ma_dr_mp3* pMP3, ma_uint64* pMP3FrameCount, ma_uint64* pPCMFrameCount) +{ + ma_uint64 currentPCMFrame; + ma_uint64 totalPCMFrameCount; + ma_uint64 totalMP3FrameCount; + if (pMP3 == NULL) { + return MA_FALSE; + } + if (pMP3->onSeek == NULL) { + return MA_FALSE; + } + currentPCMFrame = pMP3->currentPCMFrame; + if (!ma_dr_mp3_seek_to_start_of_stream(pMP3)) { + return MA_FALSE; + } + totalPCMFrameCount = 0; + totalMP3FrameCount = 0; + for (;;) { + ma_uint32 pcmFramesInCurrentMP3Frame; + pcmFramesInCurrentMP3Frame = ma_dr_mp3_decode_next_frame_ex(pMP3, NULL, NULL, NULL); + if (pcmFramesInCurrentMP3Frame == 0) { + break; + } + totalPCMFrameCount += pcmFramesInCurrentMP3Frame; + totalMP3FrameCount += 1; + } + if (!ma_dr_mp3_seek_to_start_of_stream(pMP3)) { + return MA_FALSE; + } + if (!ma_dr_mp3_seek_to_pcm_frame(pMP3, currentPCMFrame)) { + return MA_FALSE; + } + if (pMP3FrameCount != NULL) { + *pMP3FrameCount = totalMP3FrameCount; + } + if (pPCMFrameCount != NULL) { + *pPCMFrameCount = totalPCMFrameCount; + } + return MA_TRUE; +} +MA_API ma_uint64 ma_dr_mp3_get_pcm_frame_count(ma_dr_mp3* pMP3) +{ + ma_uint64 totalPCMFrameCount; + if (pMP3 == NULL) { + return 0; + } + if (pMP3->totalPCMFrameCount != MA_UINT64_MAX) { + totalPCMFrameCount = pMP3->totalPCMFrameCount; + if (totalPCMFrameCount >= pMP3->delayInPCMFrames) { + totalPCMFrameCount -= pMP3->delayInPCMFrames; + } else { + } + if (totalPCMFrameCount >= pMP3->paddingInPCMFrames) { + totalPCMFrameCount -= pMP3->paddingInPCMFrames; + } else { + } + return totalPCMFrameCount; + } else { + if (!ma_dr_mp3_get_mp3_and_pcm_frame_count(pMP3, NULL, &totalPCMFrameCount)) { + return 0; + } + return totalPCMFrameCount; + } +} +MA_API ma_uint64 ma_dr_mp3_get_mp3_frame_count(ma_dr_mp3* pMP3) +{ + ma_uint64 totalMP3FrameCount; + if (!ma_dr_mp3_get_mp3_and_pcm_frame_count(pMP3, &totalMP3FrameCount, NULL)) { + return 0; + } + return totalMP3FrameCount; +} +static void ma_dr_mp3__accumulate_running_pcm_frame_count(ma_dr_mp3* pMP3, ma_uint32 pcmFrameCountIn, ma_uint64* pRunningPCMFrameCount, float* pRunningPCMFrameCountFractionalPart) +{ + float srcRatio; + float pcmFrameCountOutF; + ma_uint32 pcmFrameCountOut; + srcRatio = (float)pMP3->mp3FrameSampleRate / (float)pMP3->sampleRate; + MA_DR_MP3_ASSERT(srcRatio > 0); + pcmFrameCountOutF = *pRunningPCMFrameCountFractionalPart + (pcmFrameCountIn / srcRatio); + pcmFrameCountOut = (ma_uint32)pcmFrameCountOutF; + *pRunningPCMFrameCountFractionalPart = pcmFrameCountOutF - pcmFrameCountOut; + *pRunningPCMFrameCount += pcmFrameCountOut; +} +typedef struct +{ + ma_uint64 bytePos; + ma_uint64 pcmFrameIndex; +} ma_dr_mp3__seeking_mp3_frame_info; +MA_API ma_bool32 ma_dr_mp3_calculate_seek_points(ma_dr_mp3* pMP3, ma_uint32* pSeekPointCount, ma_dr_mp3_seek_point* pSeekPoints) +{ + ma_uint32 seekPointCount; + ma_uint64 currentPCMFrame; + ma_uint64 totalMP3FrameCount; + ma_uint64 totalPCMFrameCount; + if (pMP3 == NULL || pSeekPointCount == NULL || pSeekPoints == NULL) { + return MA_FALSE; + } + seekPointCount = *pSeekPointCount; + if (seekPointCount == 0) { + return MA_FALSE; + } + currentPCMFrame = pMP3->currentPCMFrame; + if (!ma_dr_mp3_get_mp3_and_pcm_frame_count(pMP3, &totalMP3FrameCount, &totalPCMFrameCount)) { + return MA_FALSE; + } + if (totalMP3FrameCount < MA_DR_MP3_SEEK_LEADING_MP3_FRAMES+1) { + seekPointCount = 1; + pSeekPoints[0].seekPosInBytes = 0; + pSeekPoints[0].pcmFrameIndex = 0; + pSeekPoints[0].mp3FramesToDiscard = 0; + pSeekPoints[0].pcmFramesToDiscard = 0; + } else { + ma_uint64 pcmFramesBetweenSeekPoints; + ma_dr_mp3__seeking_mp3_frame_info mp3FrameInfo[MA_DR_MP3_SEEK_LEADING_MP3_FRAMES+1]; + ma_uint64 runningPCMFrameCount = 0; + float runningPCMFrameCountFractionalPart = 0; + ma_uint64 nextTargetPCMFrame; + ma_uint32 iMP3Frame; + ma_uint32 iSeekPoint; + if (seekPointCount > totalMP3FrameCount-1) { + seekPointCount = (ma_uint32)totalMP3FrameCount-1; + } + pcmFramesBetweenSeekPoints = totalPCMFrameCount / (seekPointCount+1); + if (!ma_dr_mp3_seek_to_start_of_stream(pMP3)) { + return MA_FALSE; + } + for (iMP3Frame = 0; iMP3Frame < MA_DR_MP3_SEEK_LEADING_MP3_FRAMES+1; ++iMP3Frame) { + ma_uint32 pcmFramesInCurrentMP3FrameIn; + MA_DR_MP3_ASSERT(pMP3->streamCursor >= pMP3->dataSize); + mp3FrameInfo[iMP3Frame].bytePos = pMP3->streamCursor - pMP3->dataSize; + mp3FrameInfo[iMP3Frame].pcmFrameIndex = runningPCMFrameCount; + pcmFramesInCurrentMP3FrameIn = ma_dr_mp3_decode_next_frame_ex(pMP3, NULL, NULL, NULL); + if (pcmFramesInCurrentMP3FrameIn == 0) { + return MA_FALSE; + } + ma_dr_mp3__accumulate_running_pcm_frame_count(pMP3, pcmFramesInCurrentMP3FrameIn, &runningPCMFrameCount, &runningPCMFrameCountFractionalPart); + } + nextTargetPCMFrame = 0; + for (iSeekPoint = 0; iSeekPoint < seekPointCount; ++iSeekPoint) { + nextTargetPCMFrame += pcmFramesBetweenSeekPoints; + for (;;) { + if (nextTargetPCMFrame < runningPCMFrameCount) { + pSeekPoints[iSeekPoint].seekPosInBytes = mp3FrameInfo[0].bytePos; + pSeekPoints[iSeekPoint].pcmFrameIndex = nextTargetPCMFrame; + pSeekPoints[iSeekPoint].mp3FramesToDiscard = MA_DR_MP3_SEEK_LEADING_MP3_FRAMES; + pSeekPoints[iSeekPoint].pcmFramesToDiscard = (ma_uint16)(nextTargetPCMFrame - mp3FrameInfo[MA_DR_MP3_SEEK_LEADING_MP3_FRAMES-1].pcmFrameIndex); + break; + } else { + size_t i; + ma_uint32 pcmFramesInCurrentMP3FrameIn; + for (i = 0; i < MA_DR_MP3_COUNTOF(mp3FrameInfo)-1; ++i) { + mp3FrameInfo[i] = mp3FrameInfo[i+1]; + } + mp3FrameInfo[MA_DR_MP3_COUNTOF(mp3FrameInfo)-1].bytePos = pMP3->streamCursor - pMP3->dataSize; + mp3FrameInfo[MA_DR_MP3_COUNTOF(mp3FrameInfo)-1].pcmFrameIndex = runningPCMFrameCount; + pcmFramesInCurrentMP3FrameIn = ma_dr_mp3_decode_next_frame_ex(pMP3, NULL, NULL, NULL); + if (pcmFramesInCurrentMP3FrameIn == 0) { + pSeekPoints[iSeekPoint].seekPosInBytes = mp3FrameInfo[0].bytePos; + pSeekPoints[iSeekPoint].pcmFrameIndex = nextTargetPCMFrame; + pSeekPoints[iSeekPoint].mp3FramesToDiscard = MA_DR_MP3_SEEK_LEADING_MP3_FRAMES; + pSeekPoints[iSeekPoint].pcmFramesToDiscard = (ma_uint16)(nextTargetPCMFrame - mp3FrameInfo[MA_DR_MP3_SEEK_LEADING_MP3_FRAMES-1].pcmFrameIndex); + break; + } + ma_dr_mp3__accumulate_running_pcm_frame_count(pMP3, pcmFramesInCurrentMP3FrameIn, &runningPCMFrameCount, &runningPCMFrameCountFractionalPart); + } + } + } + if (!ma_dr_mp3_seek_to_start_of_stream(pMP3)) { + return MA_FALSE; + } + if (!ma_dr_mp3_seek_to_pcm_frame(pMP3, currentPCMFrame)) { + return MA_FALSE; + } + } + *pSeekPointCount = seekPointCount; + return MA_TRUE; +} +MA_API ma_bool32 ma_dr_mp3_bind_seek_table(ma_dr_mp3* pMP3, ma_uint32 seekPointCount, ma_dr_mp3_seek_point* pSeekPoints) +{ + if (pMP3 == NULL) { + return MA_FALSE; + } + if (seekPointCount == 0 || pSeekPoints == NULL) { + pMP3->seekPointCount = 0; + pMP3->pSeekPoints = NULL; + } else { + pMP3->seekPointCount = seekPointCount; + pMP3->pSeekPoints = pSeekPoints; + } + return MA_TRUE; +} +static float* ma_dr_mp3__full_read_and_close_f32(ma_dr_mp3* pMP3, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount) +{ + ma_uint64 totalFramesRead = 0; + ma_uint64 framesCapacity = 0; + float* pFrames = NULL; + float temp[4096]; + MA_DR_MP3_ASSERT(pMP3 != NULL); + for (;;) { + ma_uint64 framesToReadRightNow = MA_DR_MP3_COUNTOF(temp) / pMP3->channels; + ma_uint64 framesJustRead = ma_dr_mp3_read_pcm_frames_f32(pMP3, framesToReadRightNow, temp); + if (framesJustRead == 0) { + break; + } + if (framesCapacity < totalFramesRead + framesJustRead) { + ma_uint64 oldFramesBufferSize; + ma_uint64 newFramesBufferSize; + ma_uint64 newFramesCap; + float* pNewFrames; + newFramesCap = framesCapacity * 2; + if (newFramesCap < totalFramesRead + framesJustRead) { + newFramesCap = totalFramesRead + framesJustRead; + } + oldFramesBufferSize = framesCapacity * pMP3->channels * sizeof(float); + newFramesBufferSize = newFramesCap * pMP3->channels * sizeof(float); + if (newFramesBufferSize > (ma_uint64)MA_SIZE_MAX) { + break; + } + pNewFrames = (float*)ma_dr_mp3__realloc_from_callbacks(pFrames, (size_t)newFramesBufferSize, (size_t)oldFramesBufferSize, &pMP3->allocationCallbacks); + if (pNewFrames == NULL) { + ma_dr_mp3__free_from_callbacks(pFrames, &pMP3->allocationCallbacks); + pFrames = NULL; + totalFramesRead = 0; + break; + } + pFrames = pNewFrames; + framesCapacity = newFramesCap; + } + MA_DR_MP3_COPY_MEMORY(pFrames + totalFramesRead*pMP3->channels, temp, (size_t)(framesJustRead*pMP3->channels*sizeof(float))); + totalFramesRead += framesJustRead; + if (framesJustRead != framesToReadRightNow) { + break; + } + } + if (pConfig != NULL) { + pConfig->channels = pMP3->channels; + pConfig->sampleRate = pMP3->sampleRate; + } + ma_dr_mp3_uninit(pMP3); + if (pTotalFrameCount) { + *pTotalFrameCount = totalFramesRead; + } + return pFrames; +} +static ma_int16* ma_dr_mp3__full_read_and_close_s16(ma_dr_mp3* pMP3, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount) +{ + ma_uint64 totalFramesRead = 0; + ma_uint64 framesCapacity = 0; + ma_int16* pFrames = NULL; + ma_int16 temp[4096]; + MA_DR_MP3_ASSERT(pMP3 != NULL); + for (;;) { + ma_uint64 framesToReadRightNow = MA_DR_MP3_COUNTOF(temp) / pMP3->channels; + ma_uint64 framesJustRead = ma_dr_mp3_read_pcm_frames_s16(pMP3, framesToReadRightNow, temp); + if (framesJustRead == 0) { + break; + } + if (framesCapacity < totalFramesRead + framesJustRead) { + ma_uint64 newFramesBufferSize; + ma_uint64 oldFramesBufferSize; + ma_uint64 newFramesCap; + ma_int16* pNewFrames; + newFramesCap = framesCapacity * 2; + if (newFramesCap < totalFramesRead + framesJustRead) { + newFramesCap = totalFramesRead + framesJustRead; + } + oldFramesBufferSize = framesCapacity * pMP3->channels * sizeof(ma_int16); + newFramesBufferSize = newFramesCap * pMP3->channels * sizeof(ma_int16); + if (newFramesBufferSize > (ma_uint64)MA_SIZE_MAX) { + break; + } + pNewFrames = (ma_int16*)ma_dr_mp3__realloc_from_callbacks(pFrames, (size_t)newFramesBufferSize, (size_t)oldFramesBufferSize, &pMP3->allocationCallbacks); + if (pNewFrames == NULL) { + ma_dr_mp3__free_from_callbacks(pFrames, &pMP3->allocationCallbacks); + pFrames = NULL; + totalFramesRead = 0; + break; + } + pFrames = pNewFrames; + framesCapacity = newFramesCap; + } + MA_DR_MP3_COPY_MEMORY(pFrames + totalFramesRead*pMP3->channels, temp, (size_t)(framesJustRead*pMP3->channels*sizeof(ma_int16))); + totalFramesRead += framesJustRead; + if (framesJustRead != framesToReadRightNow) { + break; + } + } + if (pConfig != NULL) { + pConfig->channels = pMP3->channels; + pConfig->sampleRate = pMP3->sampleRate; + } + ma_dr_mp3_uninit(pMP3); + if (pTotalFrameCount) { + *pTotalFrameCount = totalFramesRead; + } + return pFrames; +} +MA_API float* ma_dr_mp3_open_and_read_pcm_frames_f32(ma_dr_mp3_read_proc onRead, ma_dr_mp3_seek_proc onSeek, ma_dr_mp3_tell_proc onTell, void* pUserData, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_mp3 mp3; + if (!ma_dr_mp3_init(&mp3, onRead, onSeek, onTell, NULL, pUserData, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_mp3__full_read_and_close_f32(&mp3, pConfig, pTotalFrameCount); +} +MA_API ma_int16* ma_dr_mp3_open_and_read_pcm_frames_s16(ma_dr_mp3_read_proc onRead, ma_dr_mp3_seek_proc onSeek, ma_dr_mp3_tell_proc onTell, void* pUserData, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_mp3 mp3; + if (!ma_dr_mp3_init(&mp3, onRead, onSeek, onTell, NULL, pUserData, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_mp3__full_read_and_close_s16(&mp3, pConfig, pTotalFrameCount); +} +MA_API float* ma_dr_mp3_open_memory_and_read_pcm_frames_f32(const void* pData, size_t dataSize, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_mp3 mp3; + if (!ma_dr_mp3_init_memory(&mp3, pData, dataSize, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_mp3__full_read_and_close_f32(&mp3, pConfig, pTotalFrameCount); +} +MA_API ma_int16* ma_dr_mp3_open_memory_and_read_pcm_frames_s16(const void* pData, size_t dataSize, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_mp3 mp3; + if (!ma_dr_mp3_init_memory(&mp3, pData, dataSize, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_mp3__full_read_and_close_s16(&mp3, pConfig, pTotalFrameCount); +} +#ifndef MA_DR_MP3_NO_STDIO +MA_API float* ma_dr_mp3_open_file_and_read_pcm_frames_f32(const char* filePath, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_mp3 mp3; + if (!ma_dr_mp3_init_file(&mp3, filePath, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_mp3__full_read_and_close_f32(&mp3, pConfig, pTotalFrameCount); +} +MA_API ma_int16* ma_dr_mp3_open_file_and_read_pcm_frames_s16(const char* filePath, ma_dr_mp3_config* pConfig, ma_uint64* pTotalFrameCount, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_dr_mp3 mp3; + if (!ma_dr_mp3_init_file(&mp3, filePath, pAllocationCallbacks)) { + return NULL; + } + return ma_dr_mp3__full_read_and_close_s16(&mp3, pConfig, pTotalFrameCount); +} +#endif +MA_API void* ma_dr_mp3_malloc(size_t sz, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks != NULL) { + return ma_dr_mp3__malloc_from_callbacks(sz, pAllocationCallbacks); + } else { + return ma_dr_mp3__malloc_default(sz, NULL); + } +} +MA_API void ma_dr_mp3_free(void* p, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pAllocationCallbacks != NULL) { + ma_dr_mp3__free_from_callbacks(p, pAllocationCallbacks); + } else { + ma_dr_mp3__free_default(p, NULL); + } +} +#endif +/* dr_mp3_c end */ +#endif /* MA_DR_MP3_IMPLEMENTATION */ +#endif /* MA_NO_MP3 */ + + +/* End globally disabled warnings. */ +#if defined(_MSC_VER) + #pragma warning(pop) +#endif + +#endif /* miniaudio_c */ +#endif /* MINIAUDIO_IMPLEMENTATION */ + + +/* +This software is available as a choice of the following licenses. Choose +whichever you prefer. + +=============================================================================== +ALTERNATIVE 1 - Public Domain (www.unlicense.org) +=============================================================================== +This is free and unencumbered software released into the public domain. + +Anyone is free to copy, modify, publish, use, compile, sell, or distribute this +software, either in source code form or as a compiled binary, for any purpose, +commercial or non-commercial, and by any means. + +In jurisdictions that recognize copyright laws, the author or authors of this +software dedicate any and all copyright interest in the software to the public +domain. We make this dedication for the benefit of the public at large and to +the detriment of our heirs and successors. We intend this dedication to be an +overt act of relinquishment in perpetuity of all present and future rights to +this software under copyright law. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN +ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + +For more information, please refer to + +=============================================================================== +ALTERNATIVE 2 - MIT No Attribution +=============================================================================== +Copyright 2025 David Reid + +Permission is hereby granted, free of charge, to any person obtaining a copy of +this software and associated documentation files (the "Software"), to deal in +the Software without restriction, including without limitation the rights to +use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies +of the Software, and to permit persons to whom the Software is furnished to do +so. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. +*/ diff --git a/Minecraft.Client/Common/Audio/stb_vorbis.h b/Minecraft.Client/Common/Audio/stb_vorbis.h new file mode 100644 index 0000000..0e52941 --- /dev/null +++ b/Minecraft.Client/Common/Audio/stb_vorbis.h @@ -0,0 +1,5580 @@ +#include "stdafx.h" +// Ogg Vorbis audio decoder - v1.22 - public domain +// http://nothings.org/stb_vorbis/ +// +// Original version written by Sean Barrett in 2007. +// +// Originally sponsored by RAD Game Tools. Seeking implementation +// sponsored by Phillip Bennefall, Marc Andersen, Aaron Baker, +// Elias Software, Aras Pranckevicius, and Sean Barrett. +// +// LICENSE +// +// See end of file for license information. +// +// Limitations: +// +// - floor 0 not supported (used in old ogg vorbis files pre-2004) +// - lossless sample-truncation at beginning ignored +// - cannot concatenate multiple vorbis streams +// - sample positions are 32-bit, limiting seekable 192Khz +// files to around 6 hours (Ogg supports 64-bit) +// +// Feature contributors: +// Dougall Johnson (sample-exact seeking) +// +// Bugfix/warning contributors: +// Terje Mathisen Niklas Frykholm Andy Hill +// Casey Muratori John Bolton Gargaj +// Laurent Gomila Marc LeBlanc Ronny Chevalier +// Bernhard Wodo Evan Balster github:alxprd +// Tom Beaumont Ingo Leitgeb Nicolas Guillemot +// Phillip Bennefall Rohit Thiago Goulart +// github:manxorist Saga Musix github:infatum +// Timur Gagiev Maxwell Koo Peter Waller +// github:audinowho Dougall Johnson David Reid +// github:Clownacy Pedro J. Estebanez Remi Verschelde +// AnthoFoxo github:morlat Gabriel Ravier +// +// Partial history: +// 1.22 - 2021-07-11 - various small fixes +// 1.21 - 2021-07-02 - fix bug for files with no comments +// 1.20 - 2020-07-11 - several small fixes +// 1.19 - 2020-02-05 - warnings +// 1.18 - 2020-02-02 - fix seek bugs; parse header comments; misc warnings etc. +// 1.17 - 2019-07-08 - fix CVE-2019-13217..CVE-2019-13223 (by ForAllSecure) +// 1.16 - 2019-03-04 - fix warnings +// 1.15 - 2019-02-07 - explicit failure if Ogg Skeleton data is found +// 1.14 - 2018-02-11 - delete bogus dealloca usage +// 1.13 - 2018-01-29 - fix truncation of last frame (hopefully) +// 1.12 - 2017-11-21 - limit residue begin/end to blocksize/2 to avoid large temp allocs in bad/corrupt files +// 1.11 - 2017-07-23 - fix MinGW compilation +// 1.10 - 2017-03-03 - more robust seeking; fix negative ilog(); clear error in open_memory +// 1.09 - 2016-04-04 - back out 'truncation of last frame' fix from previous version +// 1.08 - 2016-04-02 - warnings; setup memory leaks; truncation of last frame +// 1.07 - 2015-01-16 - fixes for crashes on invalid files; warning fixes; const +// 1.06 - 2015-08-31 - full, correct support for seeking API (Dougall Johnson) +// some crash fixes when out of memory or with corrupt files +// fix some inappropriately signed shifts +// 1.05 - 2015-04-19 - don't define __forceinline if it's redundant +// 1.04 - 2014-08-27 - fix missing const-correct case in API +// 1.03 - 2014-08-07 - warning fixes +// 1.02 - 2014-07-09 - declare qsort comparison as explicitly _cdecl in Windows +// 1.01 - 2014-06-18 - fix stb_vorbis_get_samples_float (interleaved was correct) +// 1.0 - 2014-05-26 - fix memory leaks; fix warnings; fix bugs in >2-channel; +// (API change) report sample rate for decode-full-file funcs +// +// See end of file for full version history. + + +////////////////////////////////////////////////////////////////////////////// +// +// HEADER BEGINS HERE +// + +#ifndef STB_VORBIS_INCLUDE_STB_VORBIS_H +#define STB_VORBIS_INCLUDE_STB_VORBIS_H + +#if defined(STB_VORBIS_NO_CRT) && !defined(STB_VORBIS_NO_STDIO) +#define STB_VORBIS_NO_STDIO 1 +#endif + +#ifndef STB_VORBIS_NO_STDIO +#include +#endif + +#ifdef __cplusplus +extern "C" { +#endif + +/////////// THREAD SAFETY + +// Individual stb_vorbis* handles are not thread-safe; you cannot decode from +// them from multiple threads at the same time. However, you can have multiple +// stb_vorbis* handles and decode from them independently in multiple thrads. + + +/////////// MEMORY ALLOCATION + +// normally stb_vorbis uses malloc() to allocate memory at startup, +// and alloca() to allocate temporary memory during a frame on the +// stack. (Memory consumption will depend on the amount of setup +// data in the file and how you set the compile flags for speed +// vs. size. In my test files the maximal-size usage is ~150KB.) +// +// You can modify the wrapper functions in the source (setup_malloc, +// setup_temp_malloc, temp_malloc) to change this behavior, or you +// can use a simpler allocation model: you pass in a buffer from +// which stb_vorbis will allocate _all_ its memory (including the +// temp memory). "open" may fail with a VORBIS_outofmem if you +// do not pass in enough data; there is no way to determine how +// much you do need except to succeed (at which point you can +// query get_info to find the exact amount required. yes I know +// this is lame). +// +// If you pass in a non-nullptr buffer of the type below, allocation +// will occur from it as described above. Otherwise just pass nullptr +// to use malloc()/alloca() + +typedef struct +{ + char *alloc_buffer; + int alloc_buffer_length_in_bytes; +} stb_vorbis_alloc; + + +/////////// FUNCTIONS USEABLE WITH ALL INPUT MODES + +typedef struct stb_vorbis stb_vorbis; + +typedef struct +{ + unsigned int sample_rate; + int channels; + + unsigned int setup_memory_required; + unsigned int setup_temp_memory_required; + unsigned int temp_memory_required; + + int max_frame_size; +} stb_vorbis_info; + +typedef struct +{ + char *vendor; + + int comment_list_length; + char **comment_list; +} stb_vorbis_comment; + +// get general information about the file +extern stb_vorbis_info stb_vorbis_get_info(stb_vorbis *f); + +// get ogg comments +extern stb_vorbis_comment stb_vorbis_get_comment(stb_vorbis *f); + +// get the last error detected (clears it, too) +extern int stb_vorbis_get_error(stb_vorbis *f); + +// close an ogg vorbis file and free all memory in use +extern void stb_vorbis_close(stb_vorbis *f); + +// this function returns the offset (in samples) from the beginning of the +// file that will be returned by the next decode, if it is known, or -1 +// otherwise. after a flush_pushdata() call, this may take a while before +// it becomes valid again. +// NOT WORKING YET after a seek with PULLDATA API +extern int stb_vorbis_get_sample_offset(stb_vorbis *f); + +// returns the current seek point within the file, or offset from the beginning +// of the memory buffer. In pushdata mode it returns 0. +extern unsigned int stb_vorbis_get_file_offset(stb_vorbis *f); + +/////////// PUSHDATA API + +#ifndef STB_VORBIS_NO_PUSHDATA_API + +// this API allows you to get blocks of data from any source and hand +// them to stb_vorbis. you have to buffer them; stb_vorbis will tell +// you how much it used, and you have to give it the rest next time; +// and stb_vorbis may not have enough data to work with and you will +// need to give it the same data again PLUS more. Note that the Vorbis +// specification does not bound the size of an individual frame. + +extern stb_vorbis *stb_vorbis_open_pushdata( + const unsigned char * datablock, int datablock_length_in_bytes, + int *datablock_memory_consumed_in_bytes, + int *error, + const stb_vorbis_alloc *alloc_buffer); +// create a vorbis decoder by passing in the initial data block containing +// the ogg&vorbis headers (you don't need to do parse them, just provide +// the first N bytes of the file--you're told if it's not enough, see below) +// on success, returns an stb_vorbis *, does not set error, returns the amount of +// data parsed/consumed on this call in *datablock_memory_consumed_in_bytes; +// on failure, returns nullptr on error and sets *error, does not change *datablock_memory_consumed +// if returns nullptr and *error is VORBIS_need_more_data, then the input block was +// incomplete and you need to pass in a larger block from the start of the file + +extern int stb_vorbis_decode_frame_pushdata( + stb_vorbis *f, + const unsigned char *datablock, int datablock_length_in_bytes, + int *channels, // place to write number of float * buffers + float ***output, // place to write float ** array of float * buffers + int *samples // place to write number of output samples + ); +// decode a frame of audio sample data if possible from the passed-in data block +// +// return value: number of bytes we used from datablock +// +// possible cases: +// 0 bytes used, 0 samples output (need more data) +// N bytes used, 0 samples output (resynching the stream, keep going) +// N bytes used, M samples output (one frame of data) +// note that after opening a file, you will ALWAYS get one N-bytes,0-sample +// frame, because Vorbis always "discards" the first frame. +// +// Note that on resynch, stb_vorbis will rarely consume all of the buffer, +// instead only datablock_length_in_bytes-3 or less. This is because it wants +// to avoid missing parts of a page header if they cross a datablock boundary, +// without writing state-machiney code to record a partial detection. +// +// The number of channels returned are stored in *channels (which can be +// nullptr--it is always the same as the number of channels reported by +// get_info). *output will contain an array of float* buffers, one per +// channel. In other words, (*output)[0][0] contains the first sample from +// the first channel, and (*output)[1][0] contains the first sample from +// the second channel. +// +// *output points into stb_vorbis's internal output buffer storage; these +// buffers are owned by stb_vorbis and application code should not free +// them or modify their contents. They are transient and will be overwritten +// once you ask for more data to get decoded, so be sure to grab any data +// you need before then. + +extern void stb_vorbis_flush_pushdata(stb_vorbis *f); +// inform stb_vorbis that your next datablock will not be contiguous with +// previous ones (e.g. you've seeked in the data); future attempts to decode +// frames will cause stb_vorbis to resynchronize (as noted above), and +// once it sees a valid Ogg page (typically 4-8KB, as large as 64KB), it +// will begin decoding the _next_ frame. +// +// if you want to seek using pushdata, you need to seek in your file, then +// call stb_vorbis_flush_pushdata(), then start calling decoding, then once +// decoding is returning you data, call stb_vorbis_get_sample_offset, and +// if you don't like the result, seek your file again and repeat. +#endif + + +////////// PULLING INPUT API + +#ifndef STB_VORBIS_NO_PULLDATA_API +// This API assumes stb_vorbis is allowed to pull data from a source-- +// either a block of memory containing the _entire_ vorbis stream, or a +// FILE * that you or it create, or possibly some other reading mechanism +// if you go modify the source to replace the FILE * case with some kind +// of callback to your code. (But if you don't support seeking, you may +// just want to go ahead and use pushdata.) + +#if !defined(STB_VORBIS_NO_STDIO) && !defined(STB_VORBIS_NO_INTEGER_CONVERSION) +extern int stb_vorbis_decode_filename(const char *filename, int *channels, int *sample_rate, short **output); +#endif +#if !defined(STB_VORBIS_NO_INTEGER_CONVERSION) +extern int stb_vorbis_decode_memory(const unsigned char *mem, int len, int *channels, int *sample_rate, short **output); +#endif +// decode an entire file and output the data interleaved into a malloc()ed +// buffer stored in *output. The return value is the number of samples +// decoded, or -1 if the file could not be opened or was not an ogg vorbis file. +// When you're done with it, just free() the pointer returned in *output. + +extern stb_vorbis * stb_vorbis_open_memory(const unsigned char *data, int len, + int *error, const stb_vorbis_alloc *alloc_buffer); +// create an ogg vorbis decoder from an ogg vorbis stream in memory (note +// this must be the entire stream!). on failure, returns nullptr and sets *error + +#ifndef STB_VORBIS_NO_STDIO +extern stb_vorbis * stb_vorbis_open_filename(const char *filename, + int *error, const stb_vorbis_alloc *alloc_buffer); +// create an ogg vorbis decoder from a filename via fopen(). on failure, +// returns nullptr and sets *error (possibly to VORBIS_file_open_failure). + +extern stb_vorbis * stb_vorbis_open_file(FILE *f, int close_handle_on_close, + int *error, const stb_vorbis_alloc *alloc_buffer); +// create an ogg vorbis decoder from an open FILE *, looking for a stream at +// the _current_ seek point (ftell). on failure, returns nullptr and sets *error. +// note that stb_vorbis must "own" this stream; if you seek it in between +// calls to stb_vorbis, it will become confused. Moreover, if you attempt to +// perform stb_vorbis_seek_*() operations on this file, it will assume it +// owns the _entire_ rest of the file after the start point. Use the next +// function, stb_vorbis_open_file_section(), to limit it. + +extern stb_vorbis * stb_vorbis_open_file_section(FILE *f, int close_handle_on_close, + int *error, const stb_vorbis_alloc *alloc_buffer, unsigned int len); +// create an ogg vorbis decoder from an open FILE *, looking for a stream at +// the _current_ seek point (ftell); the stream will be of length 'len' bytes. +// on failure, returns nullptr and sets *error. note that stb_vorbis must "own" +// this stream; if you seek it in between calls to stb_vorbis, it will become +// confused. +#endif + +extern int stb_vorbis_seek_frame(stb_vorbis *f, unsigned int sample_number); +extern int stb_vorbis_seek(stb_vorbis *f, unsigned int sample_number); +// these functions seek in the Vorbis file to (approximately) 'sample_number'. +// after calling seek_frame(), the next call to get_frame_*() will include +// the specified sample. after calling stb_vorbis_seek(), the next call to +// stb_vorbis_get_samples_* will start with the specified sample. If you +// do not need to seek to EXACTLY the target sample when using get_samples_*, +// you can also use seek_frame(). + +extern int stb_vorbis_seek_start(stb_vorbis *f); +// this function is equivalent to stb_vorbis_seek(f,0) + +extern unsigned int stb_vorbis_stream_length_in_samples(stb_vorbis *f); +extern float stb_vorbis_stream_length_in_seconds(stb_vorbis *f); +// these functions return the total length of the vorbis stream + +extern int stb_vorbis_get_frame_float(stb_vorbis *f, int *channels, float ***output); +// decode the next frame and return the number of samples. the number of +// channels returned are stored in *channels (which can be nullptr--it is always +// the same as the number of channels reported by get_info). *output will +// contain an array of float* buffers, one per channel. These outputs will +// be overwritten on the next call to stb_vorbis_get_frame_*. +// +// You generally should not intermix calls to stb_vorbis_get_frame_*() +// and stb_vorbis_get_samples_*(), since the latter calls the former. + +#ifndef STB_VORBIS_NO_INTEGER_CONVERSION +extern int stb_vorbis_get_frame_short_interleaved(stb_vorbis *f, int num_c, short *buffer, int num_shorts); +extern int stb_vorbis_get_frame_short (stb_vorbis *f, int num_c, short **buffer, int num_samples); +#endif +// decode the next frame and return the number of *samples* per channel. +// Note that for interleaved data, you pass in the number of shorts (the +// size of your array), but the return value is the number of samples per +// channel, not the total number of samples. +// +// The data is coerced to the number of channels you request according to the +// channel coercion rules (see below). You must pass in the size of your +// buffer(s) so that stb_vorbis will not overwrite the end of the buffer. +// The maximum buffer size needed can be gotten from get_info(); however, +// the Vorbis I specification implies an absolute maximum of 4096 samples +// per channel. + +// Channel coercion rules: +// Let M be the number of channels requested, and N the number of channels present, +// and Cn be the nth channel; let stereo L be the sum of all L and center channels, +// and stereo R be the sum of all R and center channels (channel assignment from the +// vorbis spec). +// M N output +// 1 k sum(Ck) for all k +// 2 * stereo L, stereo R +// k l k > l, the first l channels, then 0s +// k l k <= l, the first k channels +// Note that this is not _good_ surround etc. mixing at all! It's just so +// you get something useful. + +extern int stb_vorbis_get_samples_float_interleaved(stb_vorbis *f, int channels, float *buffer, int num_floats); +extern int stb_vorbis_get_samples_float(stb_vorbis *f, int channels, float **buffer, int num_samples); +// gets num_samples samples, not necessarily on a frame boundary--this requires +// buffering so you have to supply the buffers. DOES NOT APPLY THE COERCION RULES. +// Returns the number of samples stored per channel; it may be less than requested +// at the end of the file. If there are no more samples in the file, returns 0. + +#ifndef STB_VORBIS_NO_INTEGER_CONVERSION +extern int stb_vorbis_get_samples_short_interleaved(stb_vorbis *f, int channels, short *buffer, int num_shorts); +extern int stb_vorbis_get_samples_short(stb_vorbis *f, int channels, short **buffer, int num_samples); +#endif +// gets num_samples samples, not necessarily on a frame boundary--this requires +// buffering so you have to supply the buffers. Applies the coercion rules above +// to produce 'channels' channels. Returns the number of samples stored per channel; +// it may be less than requested at the end of the file. If there are no more +// samples in the file, returns 0. + +#endif + +//////// ERROR CODES + +enum STBVorbisError +{ + VORBIS__no_error, + + VORBIS_need_more_data=1, // not a real error + + VORBIS_invalid_api_mixing, // can't mix API modes + VORBIS_outofmem, // not enough memory + VORBIS_feature_not_supported, // uses floor 0 + VORBIS_too_many_channels, // STB_VORBIS_MAX_CHANNELS is too small + VORBIS_file_open_failure, // fopen() failed + VORBIS_seek_without_length, // can't seek in unknown-length file + + VORBIS_unexpected_eof=10, // file is truncated? + VORBIS_seek_invalid, // seek past EOF + + // decoding errors (corrupt/invalid stream) -- you probably + // don't care about the exact details of these + + // vorbis errors: + VORBIS_invalid_setup=20, + VORBIS_invalid_stream, + + // ogg errors: + VORBIS_missing_capture_pattern=30, + VORBIS_invalid_stream_structure_version, + VORBIS_continued_packet_flag_invalid, + VORBIS_incorrect_stream_serial_number, + VORBIS_invalid_first_page, + VORBIS_bad_packet_type, + VORBIS_cant_find_last_page, + VORBIS_seek_failed, + VORBIS_ogg_skeleton_not_supported +}; + + +#ifdef __cplusplus +} +#endif + +#endif // STB_VORBIS_INCLUDE_STB_VORBIS_H +// +// HEADER ENDS HERE +// +////////////////////////////////////////////////////////////////////////////// + +#ifndef STB_VORBIS_HEADER_ONLY + +// global configuration settings (e.g. set these in the project/makefile), +// or just set them in this file at the top (although ideally the first few +// should be visible when the header file is compiled too, although it's not +// crucial) + +// STB_VORBIS_NO_PUSHDATA_API +// does not compile the code for the various stb_vorbis_*_pushdata() +// functions +// #define STB_VORBIS_NO_PUSHDATA_API + +// STB_VORBIS_NO_PULLDATA_API +// does not compile the code for the non-pushdata APIs +// #define STB_VORBIS_NO_PULLDATA_API + +// STB_VORBIS_NO_STDIO +// does not compile the code for the APIs that use FILE *s internally +// or externally (implied by STB_VORBIS_NO_PULLDATA_API) +// #define STB_VORBIS_NO_STDIO + +// STB_VORBIS_NO_INTEGER_CONVERSION +// does not compile the code for converting audio sample data from +// float to integer (implied by STB_VORBIS_NO_PULLDATA_API) +// #define STB_VORBIS_NO_INTEGER_CONVERSION + +// STB_VORBIS_NO_FAST_SCALED_FLOAT +// does not use a fast float-to-int trick to accelerate float-to-int on +// most platforms which requires endianness be defined correctly. +//#define STB_VORBIS_NO_FAST_SCALED_FLOAT + + +// STB_VORBIS_MAX_CHANNELS [number] +// globally define this to the maximum number of channels you need. +// The spec does not put a restriction on channels except that +// the count is stored in a byte, so 255 is the hard limit. +// Reducing this saves about 16 bytes per value, so using 16 saves +// (255-16)*16 or around 4KB. Plus anything other memory usage +// I forgot to account for. Can probably go as low as 8 (7.1 audio), +// 6 (5.1 audio), or 2 (stereo only). +#ifndef STB_VORBIS_MAX_CHANNELS +#define STB_VORBIS_MAX_CHANNELS 16 // enough for anyone? +#endif + +// STB_VORBIS_PUSHDATA_CRC_COUNT [number] +// after a flush_pushdata(), stb_vorbis begins scanning for the +// next valid page, without backtracking. when it finds something +// that looks like a page, it streams through it and verifies its +// CRC32. Should that validation fail, it keeps scanning. But it's +// possible that _while_ streaming through to check the CRC32 of +// one candidate page, it sees another candidate page. This #define +// determines how many "overlapping" candidate pages it can search +// at once. Note that "real" pages are typically ~4KB to ~8KB, whereas +// garbage pages could be as big as 64KB, but probably average ~16KB. +// So don't hose ourselves by scanning an apparent 64KB page and +// missing a ton of real ones in the interim; so minimum of 2 +#ifndef STB_VORBIS_PUSHDATA_CRC_COUNT +#define STB_VORBIS_PUSHDATA_CRC_COUNT 4 +#endif + +// STB_VORBIS_FAST_HUFFMAN_LENGTH [number] +// sets the log size of the huffman-acceleration table. Maximum +// supported value is 24. with larger numbers, more decodings are O(1), +// but the table size is larger so worse cache missing, so you'll have +// to probe (and try multiple ogg vorbis files) to find the sweet spot. +#ifndef STB_VORBIS_FAST_HUFFMAN_LENGTH +#define STB_VORBIS_FAST_HUFFMAN_LENGTH 10 +#endif + +// STB_VORBIS_FAST_BINARY_LENGTH [number] +// sets the log size of the binary-search acceleration table. this +// is used in similar fashion to the fast-huffman size to set initial +// parameters for the binary search + +// STB_VORBIS_FAST_HUFFMAN_INT +// The fast huffman tables are much more efficient if they can be +// stored as 16-bit results instead of 32-bit results. This restricts +// the codebooks to having only 65535 possible outcomes, though. +// (At least, accelerated by the huffman table.) +#ifndef STB_VORBIS_FAST_HUFFMAN_INT +#define STB_VORBIS_FAST_HUFFMAN_SHORT +#endif + +// STB_VORBIS_NO_HUFFMAN_BINARY_SEARCH +// If the 'fast huffman' search doesn't succeed, then stb_vorbis falls +// back on binary searching for the correct one. This requires storing +// extra tables with the huffman codes in sorted order. Defining this +// symbol trades off space for speed by forcing a linear search in the +// non-fast case, except for "sparse" codebooks. +// #define STB_VORBIS_NO_HUFFMAN_BINARY_SEARCH + +// STB_VORBIS_DIVIDES_IN_RESIDUE +// stb_vorbis precomputes the result of the scalar residue decoding +// that would otherwise require a divide per chunk. you can trade off +// space for time by defining this symbol. +// #define STB_VORBIS_DIVIDES_IN_RESIDUE + +// STB_VORBIS_DIVIDES_IN_CODEBOOK +// vorbis VQ codebooks can be encoded two ways: with every case explicitly +// stored, or with all elements being chosen from a small range of values, +// and all values possible in all elements. By default, stb_vorbis expands +// this latter kind out to look like the former kind for ease of decoding, +// because otherwise an integer divide-per-vector-element is required to +// unpack the index. If you define STB_VORBIS_DIVIDES_IN_CODEBOOK, you can +// trade off storage for speed. +//#define STB_VORBIS_DIVIDES_IN_CODEBOOK + +#ifdef STB_VORBIS_CODEBOOK_SHORTS +#error "STB_VORBIS_CODEBOOK_SHORTS is no longer supported as it produced incorrect results for some input formats" +#endif + +// STB_VORBIS_DIVIDE_TABLE +// this replaces small integer divides in the floor decode loop with +// table lookups. made less than 1% difference, so disabled by default. + +// STB_VORBIS_NO_INLINE_DECODE +// disables the inlining of the scalar codebook fast-huffman decode. +// might save a little codespace; useful for debugging +// #define STB_VORBIS_NO_INLINE_DECODE + +// STB_VORBIS_NO_DEFER_FLOOR +// Normally we only decode the floor without synthesizing the actual +// full curve. We can instead synthesize the curve immediately. This +// requires more memory and is very likely slower, so I don't think +// you'd ever want to do it except for debugging. +// #define STB_VORBIS_NO_DEFER_FLOOR + + + + +////////////////////////////////////////////////////////////////////////////// + +#ifdef STB_VORBIS_NO_PULLDATA_API + #define STB_VORBIS_NO_INTEGER_CONVERSION + #define STB_VORBIS_NO_STDIO +#endif + +#if defined(STB_VORBIS_NO_CRT) && !defined(STB_VORBIS_NO_STDIO) + #define STB_VORBIS_NO_STDIO 1 +#endif + +#ifndef STB_VORBIS_NO_INTEGER_CONVERSION +#ifndef STB_VORBIS_NO_FAST_SCALED_FLOAT + + // only need endianness for fast-float-to-int, which we don't + // use for pushdata + + #ifndef STB_VORBIS_BIG_ENDIAN + #define STB_VORBIS_ENDIAN 0 + #else + #define STB_VORBIS_ENDIAN 1 + #endif + +#endif +#endif + + +#ifndef STB_VORBIS_NO_STDIO +#include +#endif + +#ifndef STB_VORBIS_NO_CRT + // find definition of alloca if it's not in stdlib.h: + #if defined(_MSC_VER) || defined(__MINGW32__) + #include + #endif + #if defined(__linux__) || defined(__linux) || defined(__sun__) || defined(__EMSCRIPTEN__) || defined(__NEWLIB__) + #include + #endif +#else // STB_VORBIS_NO_CRT + #define nullptr 0 + #define malloc(s) 0 + #define free(s) ((void) 0) + #define realloc(s) 0 +#endif // STB_VORBIS_NO_CRT + +#include + +#ifdef __MINGW32__ + // eff you mingw: + // "fixed": + // http://sourceforge.net/p/mingw-w64/mailman/message/32882927/ + // "no that broke the build, reverted, who cares about C": + // http://sourceforge.net/p/mingw-w64/mailman/message/32890381/ + #ifdef __forceinline + #undef __forceinline + #endif + #define __forceinline + #ifndef alloca + #define alloca __builtin_alloca + #endif +#elif !defined(_MSC_VER) + #if __GNUC__ + #define __forceinline inline + #else + #define __forceinline + #endif +#endif + +#if STB_VORBIS_MAX_CHANNELS > 256 +#error "Value of STB_VORBIS_MAX_CHANNELS outside of allowed range" +#endif + +#if STB_VORBIS_FAST_HUFFMAN_LENGTH > 24 +#error "Value of STB_VORBIS_FAST_HUFFMAN_LENGTH outside of allowed range" +#endif + + +#if 0 +#include +#define CHECK(f) _CrtIsValidHeapPointer(f->channel_buffers[1]) +#else +#define CHECK(f) ((void) 0) +#endif + +#define MAX_BLOCKSIZE_LOG 13 // from specification +#define MAX_BLOCKSIZE (1 << MAX_BLOCKSIZE_LOG) + + +typedef unsigned char uint8; +typedef signed char int8; +typedef unsigned short uint16; +typedef signed short int16; +typedef unsigned int uint32; +typedef signed int int32; + +#ifndef TRUE +#define TRUE 1 +#define FALSE 0 +#endif + +typedef float codetype; + +#ifdef _MSC_VER +#define STBV_NOTUSED(v) (void)(v) +#else +#define STBV_NOTUSED(v) (void)sizeof(v) +#endif + +// @NOTE +// +// Some arrays below are tagged "//varies", which means it's actually +// a variable-sized piece of data, but rather than malloc I assume it's +// small enough it's better to just allocate it all together with the +// main thing +// +// Most of the variables are specified with the smallest size I could pack +// them into. It might give better performance to make them all full-sized +// integers. It should be safe to freely rearrange the structures or change +// the sizes larger--nothing relies on silently truncating etc., nor the +// order of variables. + +#define FAST_HUFFMAN_TABLE_SIZE (1 << STB_VORBIS_FAST_HUFFMAN_LENGTH) +#define FAST_HUFFMAN_TABLE_MASK (FAST_HUFFMAN_TABLE_SIZE - 1) + +typedef struct +{ + int dimensions, entries; + uint8 *codeword_lengths; + float minimum_value; + float delta_value; + uint8 value_bits; + uint8 lookup_type; + uint8 sequence_p; + uint8 sparse; + uint32 lookup_values; + codetype *multiplicands; + uint32 *codewords; + #ifdef STB_VORBIS_FAST_HUFFMAN_SHORT + int16 fast_huffman[FAST_HUFFMAN_TABLE_SIZE]; + #else + int32 fast_huffman[FAST_HUFFMAN_TABLE_SIZE]; + #endif + uint32 *sorted_codewords; + int *sorted_values; + int sorted_entries; +} Codebook; + +typedef struct +{ + uint8 order; + uint16 rate; + uint16 bark_map_size; + uint8 amplitude_bits; + uint8 amplitude_offset; + uint8 number_of_books; + uint8 book_list[16]; // varies +} Floor0; + +typedef struct +{ + uint8 partitions; + uint8 partition_class_list[32]; // varies + uint8 class_dimensions[16]; // varies + uint8 class_subclasses[16]; // varies + uint8 class_masterbooks[16]; // varies + int16 subclass_books[16][8]; // varies + uint16 Xlist[31*8+2]; // varies + uint8 sorted_order[31*8+2]; + uint8 neighbors[31*8+2][2]; + uint8 floor1_multiplier; + uint8 rangebits; + int values; +} Floor1; + +typedef union +{ + Floor0 floor0; + Floor1 floor1; +} Floor; + +typedef struct +{ + uint32 begin, end; + uint32 part_size; + uint8 classifications; + uint8 classbook; + uint8 **classdata; + int16 (*residue_books)[8]; +} Residue; + +typedef struct +{ + uint8 magnitude; + uint8 angle; + uint8 mux; +} MappingChannel; + +typedef struct +{ + uint16 coupling_steps; + MappingChannel *chan; + uint8 submaps; + uint8 submap_floor[15]; // varies + uint8 submap_residue[15]; // varies +} Mapping; + +typedef struct +{ + uint8 blockflag; + uint8 mapping; + uint16 windowtype; + uint16 transformtype; +} Mode; + +typedef struct +{ + uint32 goal_crc; // expected crc if match + int bytes_left; // bytes left in packet + uint32 crc_so_far; // running crc + int bytes_done; // bytes processed in _current_ chunk + uint32 sample_loc; // granule pos encoded in page +} CRCscan; + +typedef struct +{ + uint32 page_start, page_end; + uint32 last_decoded_sample; +} ProbedPage; + +struct stb_vorbis +{ + // user-accessible info + unsigned int sample_rate; + int channels; + + unsigned int setup_memory_required; + unsigned int temp_memory_required; + unsigned int setup_temp_memory_required; + + char *vendor; + int comment_list_length; + char **comment_list; + + // input config +#ifndef STB_VORBIS_NO_STDIO + FILE *f; + uint32 f_start; + int close_on_free; +#endif + + uint8 *stream; + uint8 *stream_start; + uint8 *stream_end; + + uint32 stream_len; + + uint8 push_mode; + + // the page to seek to when seeking to start, may be zero + uint32 first_audio_page_offset; + + // p_first is the page on which the first audio packet ends + // (but not necessarily the page on which it starts) + ProbedPage p_first, p_last; + + // memory management + stb_vorbis_alloc alloc; + int setup_offset; + int temp_offset; + + // run-time results + int eof; + enum STBVorbisError error; + + // user-useful data + + // header info + int blocksize[2]; + int blocksize_0, blocksize_1; + int codebook_count; + Codebook *codebooks; + int floor_count; + uint16 floor_types[64]; // varies + Floor *floor_config; + int residue_count; + uint16 residue_types[64]; // varies + Residue *residue_config; + int mapping_count; + Mapping *mapping; + int mode_count; + Mode mode_config[64]; // varies + + uint32 total_samples; + + // decode buffer + float *channel_buffers[STB_VORBIS_MAX_CHANNELS]; + float *outputs [STB_VORBIS_MAX_CHANNELS]; + + float *previous_window[STB_VORBIS_MAX_CHANNELS]; + int previous_length; + + #ifndef STB_VORBIS_NO_DEFER_FLOOR + int16 *finalY[STB_VORBIS_MAX_CHANNELS]; + #else + float *floor_buffers[STB_VORBIS_MAX_CHANNELS]; + #endif + + uint32 current_loc; // sample location of next frame to decode + int current_loc_valid; + + // per-blocksize precomputed data + + // twiddle factors + float *A[2],*B[2],*C[2]; + float *window[2]; + uint16 *bit_reverse[2]; + + // current page/packet/segment streaming info + uint32 serial; // stream serial number for verification + int last_page; + int segment_count; + uint8 segments[255]; + uint8 page_flag; + uint8 bytes_in_seg; + uint8 first_decode; + int next_seg; + int last_seg; // flag that we're on the last segment + int last_seg_which; // what was the segment number of the last seg? + uint32 acc; + int valid_bits; + int packet_bytes; + int end_seg_with_known_loc; + uint32 known_loc_for_packet; + int discard_samples_deferred; + uint32 samples_output; + + // push mode scanning + int page_crc_tests; // only in push_mode: number of tests active; -1 if not searching +#ifndef STB_VORBIS_NO_PUSHDATA_API + CRCscan scan[STB_VORBIS_PUSHDATA_CRC_COUNT]; +#endif + + // sample-access + int channel_buffer_start; + int channel_buffer_end; +}; + +#if defined(STB_VORBIS_NO_PUSHDATA_API) + #define IS_PUSH_MODE(f) FALSE +#elif defined(STB_VORBIS_NO_PULLDATA_API) + #define IS_PUSH_MODE(f) TRUE +#else + #define IS_PUSH_MODE(f) ((f)->push_mode) +#endif + +typedef struct stb_vorbis vorb; + +static int error(vorb *f, enum STBVorbisError e) +{ + f->error = e; + if (!f->eof && e != VORBIS_need_more_data) { + f->error=e; // breakpoint for debugging + } + return 0; +} + + +// these functions are used for allocating temporary memory +// while decoding. if you can afford the stack space, use +// alloca(); otherwise, provide a temp buffer and it will +// allocate out of those. + +#define array_size_required(count,size) (count*(sizeof(void *)+(size))) + +#define temp_alloc(f,size) (f->alloc.alloc_buffer ? setup_temp_malloc(f,size) : alloca(size)) +#define temp_free(f,p) (void)0 +#define temp_alloc_save(f) ((f)->temp_offset) +#define temp_alloc_restore(f,p) ((f)->temp_offset = (p)) + +#define temp_block_array(f,count,size) make_block_array(temp_alloc(f,array_size_required(count,size)), count, size) + +// given a sufficiently large block of memory, make an array of pointers to subblocks of it +static void *make_block_array(void *mem, int count, int size) +{ + int i; + void ** p = (void **) mem; + char *q = (char *) (p + count); + for (i=0; i < count; ++i) { + p[i] = q; + q += size; + } + return p; +} + +static void *setup_malloc(vorb *f, int sz) +{ + sz = (sz+7) & ~7; // round up to nearest 8 for alignment of future allocs. + f->setup_memory_required += sz; + if (f->alloc.alloc_buffer) { + void *p = (char *) f->alloc.alloc_buffer + f->setup_offset; + if (f->setup_offset + sz > f->temp_offset) return nullptr; + f->setup_offset += sz; + return p; + } + return sz ? malloc(sz) : nullptr; +} + +static void setup_free(vorb *f, void *p) +{ + if (f->alloc.alloc_buffer) return; // do nothing; setup mem is a stack + free(p); +} + +static void *setup_temp_malloc(vorb *f, int sz) +{ + sz = (sz+7) & ~7; // round up to nearest 8 for alignment of future allocs. + if (f->alloc.alloc_buffer) { + if (f->temp_offset - sz < f->setup_offset) return nullptr; + f->temp_offset -= sz; + return (char *) f->alloc.alloc_buffer + f->temp_offset; + } + return malloc(sz); +} + +static void setup_temp_free(vorb *f, void *p, int sz) +{ + if (f->alloc.alloc_buffer) { + f->temp_offset += (sz+7)&~7; + return; + } + free(p); +} + +#define CRC32_POLY 0x04c11db7 // from spec + +static uint32 crc_table[256]; +static void crc32_init(void) +{ + int i,j; + uint32 s; + for(i=0; i < 256; i++) { + for (s=(uint32) i << 24, j=0; j < 8; ++j) + s = (s << 1) ^ (s >= (1U<<31) ? CRC32_POLY : 0); + crc_table[i] = s; + } +} + +static __forceinline uint32 crc32_update(uint32 crc, uint8 byte) +{ + return (crc << 8) ^ crc_table[byte ^ (crc >> 24)]; +} + + +// used in setup, and for huffman that doesn't go fast path +static unsigned int bit_reverse(unsigned int n) +{ + n = ((n & 0xAAAAAAAA) >> 1) | ((n & 0x55555555) << 1); + n = ((n & 0xCCCCCCCC) >> 2) | ((n & 0x33333333) << 2); + n = ((n & 0xF0F0F0F0) >> 4) | ((n & 0x0F0F0F0F) << 4); + n = ((n & 0xFF00FF00) >> 8) | ((n & 0x00FF00FF) << 8); + return (n >> 16) | (n << 16); +} + +static float square(float x) +{ + return x*x; +} + +// this is a weird definition of log2() for which log2(1) = 1, log2(2) = 2, log2(4) = 3 +// as required by the specification. fast(?) implementation from stb.h +// @OPTIMIZE: called multiple times per-packet with "constants"; move to setup +static int ilog(int32 n) +{ + static signed char log2_4[16] = { 0,1,2,2,3,3,3,3,4,4,4,4,4,4,4,4 }; + + if (n < 0) return 0; // signed n returns 0 + + // 2 compares if n < 16, 3 compares otherwise (4 if signed or n > 1<<29) + if (n < (1 << 14)) + if (n < (1 << 4)) return 0 + log2_4[n ]; + else if (n < (1 << 9)) return 5 + log2_4[n >> 5]; + else return 10 + log2_4[n >> 10]; + else if (n < (1 << 24)) + if (n < (1 << 19)) return 15 + log2_4[n >> 15]; + else return 20 + log2_4[n >> 20]; + else if (n < (1 << 29)) return 25 + log2_4[n >> 25]; + else return 30 + log2_4[n >> 30]; +} + +#ifndef M_PI + #define M_PI 3.14159265358979323846264f // from CRC +#endif + +// code length assigned to a value with no huffman encoding +#define NO_CODE 255 + +/////////////////////// LEAF SETUP FUNCTIONS ////////////////////////// +// +// these functions are only called at setup, and only a few times +// per file + +static float float32_unpack(uint32 x) +{ + // from the specification + uint32 mantissa = x & 0x1fffff; + uint32 sign = x & 0x80000000; + uint32 exp = (x & 0x7fe00000) >> 21; + double res = sign ? -(double)mantissa : (double)mantissa; + return (float) ldexp((float)res, (int)exp-788); +} + + +// zlib & jpeg huffman tables assume that the output symbols +// can either be arbitrarily arranged, or have monotonically +// increasing frequencies--they rely on the lengths being sorted; +// this makes for a very simple generation algorithm. +// vorbis allows a huffman table with non-sorted lengths. This +// requires a more sophisticated construction, since symbols in +// order do not map to huffman codes "in order". +static void add_entry(Codebook *c, uint32 huff_code, int symbol, int count, int len, uint32 *values) +{ + if (!c->sparse) { + c->codewords [symbol] = huff_code; + } else { + c->codewords [count] = huff_code; + c->codeword_lengths[count] = len; + values [count] = symbol; + } +} + +static int compute_codewords(Codebook *c, uint8 *len, int n, uint32 *values) +{ + int i,k,m=0; + uint32 available[32]; + + memset(available, 0, sizeof(available)); + // find the first entry + for (k=0; k < n; ++k) if (len[k] < NO_CODE) break; + if (k == n) { assert(c->sorted_entries == 0); return TRUE; } + assert(len[k] < 32); // no error return required, code reading lens checks this + // add to the list + add_entry(c, 0, k, m++, len[k], values); + // add all available leaves + for (i=1; i <= len[k]; ++i) + available[i] = 1U << (32-i); + // note that the above code treats the first case specially, + // but it's really the same as the following code, so they + // could probably be combined (except the initial code is 0, + // and I use 0 in available[] to mean 'empty') + for (i=k+1; i < n; ++i) { + uint32 res; + int z = len[i], y; + if (z == NO_CODE) continue; + assert(z < 32); // no error return required, code reading lens checks this + // find lowest available leaf (should always be earliest, + // which is what the specification calls for) + // note that this property, and the fact we can never have + // more than one free leaf at a given level, isn't totally + // trivial to prove, but it seems true and the assert never + // fires, so! + while (z > 0 && !available[z]) --z; + if (z == 0) { return FALSE; } + res = available[z]; + available[z] = 0; + add_entry(c, bit_reverse(res), i, m++, len[i], values); + // propagate availability up the tree + if (z != len[i]) { + for (y=len[i]; y > z; --y) { + assert(available[y] == 0); + available[y] = res + (1 << (32-y)); + } + } + } + return TRUE; +} + +// accelerated huffman table allows fast O(1) match of all symbols +// of length <= STB_VORBIS_FAST_HUFFMAN_LENGTH +static void compute_accelerated_huffman(Codebook *c) +{ + int i, len; + for (i=0; i < FAST_HUFFMAN_TABLE_SIZE; ++i) + c->fast_huffman[i] = -1; + + len = c->sparse ? c->sorted_entries : c->entries; + #ifdef STB_VORBIS_FAST_HUFFMAN_SHORT + if (len > 32767) len = 32767; // largest possible value we can encode! + #endif + for (i=0; i < len; ++i) { + if (c->codeword_lengths[i] <= STB_VORBIS_FAST_HUFFMAN_LENGTH) { + uint32 z = c->sparse ? bit_reverse(c->sorted_codewords[i]) : c->codewords[i]; + // set table entries for all bit combinations in the higher bits + while (z < FAST_HUFFMAN_TABLE_SIZE) { + c->fast_huffman[z] = i; + z += 1 << c->codeword_lengths[i]; + } + } + } +} + +#ifdef _MSC_VER +#define STBV_CDECL __cdecl +#else +#define STBV_CDECL +#endif + +static int STBV_CDECL uint32_compare(const void *p, const void *q) +{ + uint32 x = * (uint32 *) p; + uint32 y = * (uint32 *) q; + return x < y ? -1 : x > y; +} + +static int include_in_sort(Codebook *c, uint8 len) +{ + if (c->sparse) { assert(len != NO_CODE); return TRUE; } + if (len == NO_CODE) return FALSE; + if (len > STB_VORBIS_FAST_HUFFMAN_LENGTH) return TRUE; + return FALSE; +} + +// if the fast table above doesn't work, we want to binary +// search them... need to reverse the bits +static void compute_sorted_huffman(Codebook *c, uint8 *lengths, uint32 *values) +{ + int i, len; + // build a list of all the entries + // OPTIMIZATION: don't include the short ones, since they'll be caught by FAST_HUFFMAN. + // this is kind of a frivolous optimization--I don't see any performance improvement, + // but it's like 4 extra lines of code, so. + if (!c->sparse) { + int k = 0; + for (i=0; i < c->entries; ++i) + if (include_in_sort(c, lengths[i])) + c->sorted_codewords[k++] = bit_reverse(c->codewords[i]); + assert(k == c->sorted_entries); + } else { + for (i=0; i < c->sorted_entries; ++i) + c->sorted_codewords[i] = bit_reverse(c->codewords[i]); + } + + qsort(c->sorted_codewords, c->sorted_entries, sizeof(c->sorted_codewords[0]), uint32_compare); + c->sorted_codewords[c->sorted_entries] = 0xffffffff; + + len = c->sparse ? c->sorted_entries : c->entries; + // now we need to indicate how they correspond; we could either + // #1: sort a different data structure that says who they correspond to + // #2: for each sorted entry, search the original list to find who corresponds + // #3: for each original entry, find the sorted entry + // #1 requires extra storage, #2 is slow, #3 can use binary search! + for (i=0; i < len; ++i) { + int huff_len = c->sparse ? lengths[values[i]] : lengths[i]; + if (include_in_sort(c,huff_len)) { + uint32 code = bit_reverse(c->codewords[i]); + int x=0, n=c->sorted_entries; + while (n > 1) { + // invariant: sc[x] <= code < sc[x+n] + int m = x + (n >> 1); + if (c->sorted_codewords[m] <= code) { + x = m; + n -= (n>>1); + } else { + n >>= 1; + } + } + assert(c->sorted_codewords[x] == code); + if (c->sparse) { + c->sorted_values[x] = values[i]; + c->codeword_lengths[x] = huff_len; + } else { + c->sorted_values[x] = i; + } + } + } +} + +// only run while parsing the header (3 times) +static int vorbis_validate(uint8 *data) +{ + static uint8 vorbis[6] = { 'v', 'o', 'r', 'b', 'i', 's' }; + return memcmp(data, vorbis, 6) == 0; +} + +// called from setup only, once per code book +// (formula implied by specification) +static int lookup1_values(int entries, int dim) +{ + int r = (int) floor(exp((float) log((float) entries) / dim)); + if ((int) floor(pow((float) r+1, dim)) <= entries) // (int) cast for MinGW warning; + ++r; // floor() to avoid _ftol() when non-CRT + if (pow((float) r+1, dim) <= entries) + return -1; + if ((int) floor(pow((float) r, dim)) > entries) + return -1; + return r; +} + +// called twice per file +static void compute_twiddle_factors(int n, float *A, float *B, float *C) +{ + int n4 = n >> 2, n8 = n >> 3; + int k,k2; + + for (k=k2=0; k < n4; ++k,k2+=2) { + A[k2 ] = (float) cos(4*k*M_PI/n); + A[k2+1] = (float) -sin(4*k*M_PI/n); + B[k2 ] = (float) cos((k2+1)*M_PI/n/2) * 0.5f; + B[k2+1] = (float) sin((k2+1)*M_PI/n/2) * 0.5f; + } + for (k=k2=0; k < n8; ++k,k2+=2) { + C[k2 ] = (float) cos(2*(k2+1)*M_PI/n); + C[k2+1] = (float) -sin(2*(k2+1)*M_PI/n); + } +} + +static void compute_window(int n, float *window) +{ + int n2 = n >> 1, i; + for (i=0; i < n2; ++i) + window[i] = (float) sin(0.5 * M_PI * square((float) sin((i - 0 + 0.5) / n2 * 0.5 * M_PI))); +} + +static void compute_bitreverse(int n, uint16 *rev) +{ + int ld = ilog(n) - 1; // ilog is off-by-one from normal definitions + int i, n8 = n >> 3; + for (i=0; i < n8; ++i) + rev[i] = (bit_reverse(i) >> (32-ld+3)) << 2; +} + +static int init_blocksize(vorb *f, int b, int n) +{ + int n2 = n >> 1, n4 = n >> 2, n8 = n >> 3; + f->A[b] = (float *) setup_malloc(f, sizeof(float) * n2); + f->B[b] = (float *) setup_malloc(f, sizeof(float) * n2); + f->C[b] = (float *) setup_malloc(f, sizeof(float) * n4); + if (!f->A[b] || !f->B[b] || !f->C[b]) return error(f, VORBIS_outofmem); + compute_twiddle_factors(n, f->A[b], f->B[b], f->C[b]); + f->window[b] = (float *) setup_malloc(f, sizeof(float) * n2); + if (!f->window[b]) return error(f, VORBIS_outofmem); + compute_window(n, f->window[b]); + f->bit_reverse[b] = (uint16 *) setup_malloc(f, sizeof(uint16) * n8); + if (!f->bit_reverse[b]) return error(f, VORBIS_outofmem); + compute_bitreverse(n, f->bit_reverse[b]); + return TRUE; +} + +static void neighbors(uint16 *x, int n, int *plow, int *phigh) +{ + int low = -1; + int high = 65536; + int i; + for (i=0; i < n; ++i) { + if (x[i] > low && x[i] < x[n]) { *plow = i; low = x[i]; } + if (x[i] < high && x[i] > x[n]) { *phigh = i; high = x[i]; } + } +} + +// this has been repurposed so y is now the original index instead of y +typedef struct +{ + uint16 x,id; +} stbv__floor_ordering; + +static int STBV_CDECL point_compare(const void *p, const void *q) +{ + stbv__floor_ordering *a = (stbv__floor_ordering *) p; + stbv__floor_ordering *b = (stbv__floor_ordering *) q; + return a->x < b->x ? -1 : a->x > b->x; +} + +// +/////////////////////// END LEAF SETUP FUNCTIONS ////////////////////////// + + +#if defined(STB_VORBIS_NO_STDIO) + #define USE_MEMORY(z) TRUE +#else + #define USE_MEMORY(z) ((z)->stream) +#endif + +static uint8 get8(vorb *z) +{ + if (USE_MEMORY(z)) { + if (z->stream >= z->stream_end) { z->eof = TRUE; return 0; } + return *z->stream++; + } + + #ifndef STB_VORBIS_NO_STDIO + { + int c = fgetc(z->f); + if (c == EOF) { z->eof = TRUE; return 0; } + return c; + } + #endif +} + +static uint32 get32(vorb *f) +{ + uint32 x; + x = get8(f); + x += get8(f) << 8; + x += get8(f) << 16; + x += (uint32) get8(f) << 24; + return x; +} + +static int getn(vorb *z, uint8 *data, int n) +{ + if (USE_MEMORY(z)) { + if (z->stream+n > z->stream_end) { z->eof = 1; return 0; } + memcpy(data, z->stream, n); + z->stream += n; + return 1; + } + + #ifndef STB_VORBIS_NO_STDIO + if (fread(data, n, 1, z->f) == 1) + return 1; + else { + z->eof = 1; + return 0; + } + #endif +} + +static void skip(vorb *z, int n) +{ + if (USE_MEMORY(z)) { + z->stream += n; + if (z->stream >= z->stream_end) z->eof = 1; + return; + } + #ifndef STB_VORBIS_NO_STDIO + { + long x = ftell(z->f); + fseek(z->f, x+n, SEEK_SET); + } + #endif +} + +static int set_file_offset(stb_vorbis *f, unsigned int loc) +{ + #ifndef STB_VORBIS_NO_PUSHDATA_API + if (f->push_mode) return 0; + #endif + f->eof = 0; + if (USE_MEMORY(f)) { + if (f->stream_start + loc >= f->stream_end || f->stream_start + loc < f->stream_start) { + f->stream = f->stream_end; + f->eof = 1; + return 0; + } else { + f->stream = f->stream_start + loc; + return 1; + } + } + #ifndef STB_VORBIS_NO_STDIO + if (loc + f->f_start < loc || loc >= 0x80000000) { + loc = 0x7fffffff; + f->eof = 1; + } else { + loc += f->f_start; + } + if (!fseek(f->f, loc, SEEK_SET)) + return 1; + f->eof = 1; + fseek(f->f, f->f_start, SEEK_END); + return 0; + #endif +} + + +static uint8 ogg_page_header[4] = { 0x4f, 0x67, 0x67, 0x53 }; + +static int capture_pattern(vorb *f) +{ + if (0x4f != get8(f)) return FALSE; + if (0x67 != get8(f)) return FALSE; + if (0x67 != get8(f)) return FALSE; + if (0x53 != get8(f)) return FALSE; + return TRUE; +} + +#define PAGEFLAG_continued_packet 1 +#define PAGEFLAG_first_page 2 +#define PAGEFLAG_last_page 4 + +static int start_page_no_capturepattern(vorb *f) +{ + uint32 loc0,loc1,n; + if (f->first_decode && !IS_PUSH_MODE(f)) { + f->p_first.page_start = stb_vorbis_get_file_offset(f) - 4; + } + // stream structure version + if (0 != get8(f)) return error(f, VORBIS_invalid_stream_structure_version); + // header flag + f->page_flag = get8(f); + // absolute granule position + loc0 = get32(f); + loc1 = get32(f); + // @TODO: validate loc0,loc1 as valid positions? + // stream serial number -- vorbis doesn't interleave, so discard + get32(f); + //if (f->serial != get32(f)) return error(f, VORBIS_incorrect_stream_serial_number); + // page sequence number + n = get32(f); + f->last_page = n; + // CRC32 + get32(f); + // page_segments + f->segment_count = get8(f); + if (!getn(f, f->segments, f->segment_count)) + return error(f, VORBIS_unexpected_eof); + // assume we _don't_ know any the sample position of any segments + f->end_seg_with_known_loc = -2; + if (loc0 != ~0U || loc1 != ~0U) { + int i; + // determine which packet is the last one that will complete + for (i=f->segment_count-1; i >= 0; --i) + if (f->segments[i] < 255) + break; + // 'i' is now the index of the _last_ segment of a packet that ends + if (i >= 0) { + f->end_seg_with_known_loc = i; + f->known_loc_for_packet = loc0; + } + } + if (f->first_decode) { + int i,len; + len = 0; + for (i=0; i < f->segment_count; ++i) + len += f->segments[i]; + len += 27 + f->segment_count; + f->p_first.page_end = f->p_first.page_start + len; + f->p_first.last_decoded_sample = loc0; + } + f->next_seg = 0; + return TRUE; +} + +static int start_page(vorb *f) +{ + if (!capture_pattern(f)) return error(f, VORBIS_missing_capture_pattern); + return start_page_no_capturepattern(f); +} + +static int start_packet(vorb *f) +{ + while (f->next_seg == -1) { + if (!start_page(f)) return FALSE; + if (f->page_flag & PAGEFLAG_continued_packet) + return error(f, VORBIS_continued_packet_flag_invalid); + } + f->last_seg = FALSE; + f->valid_bits = 0; + f->packet_bytes = 0; + f->bytes_in_seg = 0; + // f->next_seg is now valid + return TRUE; +} + +static int maybe_start_packet(vorb *f) +{ + if (f->next_seg == -1) { + int x = get8(f); + if (f->eof) return FALSE; // EOF at page boundary is not an error! + if (0x4f != x ) return error(f, VORBIS_missing_capture_pattern); + if (0x67 != get8(f)) return error(f, VORBIS_missing_capture_pattern); + if (0x67 != get8(f)) return error(f, VORBIS_missing_capture_pattern); + if (0x53 != get8(f)) return error(f, VORBIS_missing_capture_pattern); + if (!start_page_no_capturepattern(f)) return FALSE; + if (f->page_flag & PAGEFLAG_continued_packet) { + // set up enough state that we can read this packet if we want, + // e.g. during recovery + f->last_seg = FALSE; + f->bytes_in_seg = 0; + return error(f, VORBIS_continued_packet_flag_invalid); + } + } + return start_packet(f); +} + +static int next_segment(vorb *f) +{ + int len; + if (f->last_seg) return 0; + if (f->next_seg == -1) { + f->last_seg_which = f->segment_count-1; // in case start_page fails + if (!start_page(f)) { f->last_seg = 1; return 0; } + if (!(f->page_flag & PAGEFLAG_continued_packet)) return error(f, VORBIS_continued_packet_flag_invalid); + } + len = f->segments[f->next_seg++]; + if (len < 255) { + f->last_seg = TRUE; + f->last_seg_which = f->next_seg-1; + } + if (f->next_seg >= f->segment_count) + f->next_seg = -1; + assert(f->bytes_in_seg == 0); + f->bytes_in_seg = len; + return len; +} + +#define EOP (-1) +#define INVALID_BITS (-1) + +static int get8_packet_raw(vorb *f) +{ + if (!f->bytes_in_seg) { // CLANG! + if (f->last_seg) return EOP; + else if (!next_segment(f)) return EOP; + } + assert(f->bytes_in_seg > 0); + --f->bytes_in_seg; + ++f->packet_bytes; + return get8(f); +} + +static int get8_packet(vorb *f) +{ + int x = get8_packet_raw(f); + f->valid_bits = 0; + return x; +} + +static int get32_packet(vorb *f) +{ + uint32 x; + x = get8_packet(f); + x += get8_packet(f) << 8; + x += get8_packet(f) << 16; + x += (uint32) get8_packet(f) << 24; + return x; +} + +static void flush_packet(vorb *f) +{ + while (get8_packet_raw(f) != EOP); +} + +// @OPTIMIZE: this is the secondary bit decoder, so it's probably not as important +// as the huffman decoder? +static uint32 get_bits(vorb *f, int n) +{ + uint32 z; + + if (f->valid_bits < 0) return 0; + if (f->valid_bits < n) { + if (n > 24) { + // the accumulator technique below would not work correctly in this case + z = get_bits(f, 24); + z += get_bits(f, n-24) << 24; + return z; + } + if (f->valid_bits == 0) f->acc = 0; + while (f->valid_bits < n) { + int z = get8_packet_raw(f); + if (z == EOP) { + f->valid_bits = INVALID_BITS; + return 0; + } + f->acc += z << f->valid_bits; + f->valid_bits += 8; + } + } + + assert(f->valid_bits >= n); + z = f->acc & ((1 << n)-1); + f->acc >>= n; + f->valid_bits -= n; + return z; +} + +// @OPTIMIZE: primary accumulator for huffman +// expand the buffer to as many bits as possible without reading off end of packet +// it might be nice to allow f->valid_bits and f->acc to be stored in registers, +// e.g. cache them locally and decode locally +static __forceinline void prep_huffman(vorb *f) +{ + if (f->valid_bits <= 24) { + if (f->valid_bits == 0) f->acc = 0; + do { + int z; + if (f->last_seg && !f->bytes_in_seg) return; + z = get8_packet_raw(f); + if (z == EOP) return; + f->acc += (unsigned) z << f->valid_bits; + f->valid_bits += 8; + } while (f->valid_bits <= 24); + } +} + +enum +{ + VORBIS_packet_id = 1, + VORBIS_packet_comment = 3, + VORBIS_packet_setup = 5 +}; + +static int codebook_decode_scalar_raw(vorb *f, Codebook *c) +{ + int i; + prep_huffman(f); + + if (c->codewords == nullptr && c->sorted_codewords == nullptr) + return -1; + + // cases to use binary search: sorted_codewords && !c->codewords + // sorted_codewords && c->entries > 8 + if (c->entries > 8 ? c->sorted_codewords!=nullptr : !c->codewords) { + // binary search + uint32 code = bit_reverse(f->acc); + int x=0, n=c->sorted_entries, len; + + while (n > 1) { + // invariant: sc[x] <= code < sc[x+n] + int m = x + (n >> 1); + if (c->sorted_codewords[m] <= code) { + x = m; + n -= (n>>1); + } else { + n >>= 1; + } + } + // x is now the sorted index + if (!c->sparse) x = c->sorted_values[x]; + // x is now sorted index if sparse, or symbol otherwise + len = c->codeword_lengths[x]; + if (f->valid_bits >= len) { + f->acc >>= len; + f->valid_bits -= len; + return x; + } + + f->valid_bits = 0; + return -1; + } + + // if small, linear search + assert(!c->sparse); + for (i=0; i < c->entries; ++i) { + if (c->codeword_lengths[i] == NO_CODE) continue; + if (c->codewords[i] == (f->acc & ((1 << c->codeword_lengths[i])-1))) { + if (f->valid_bits >= c->codeword_lengths[i]) { + f->acc >>= c->codeword_lengths[i]; + f->valid_bits -= c->codeword_lengths[i]; + return i; + } + f->valid_bits = 0; + return -1; + } + } + + error(f, VORBIS_invalid_stream); + f->valid_bits = 0; + return -1; +} + +#ifndef STB_VORBIS_NO_INLINE_DECODE + +#define DECODE_RAW(var, f,c) \ + if (f->valid_bits < STB_VORBIS_FAST_HUFFMAN_LENGTH) \ + prep_huffman(f); \ + var = f->acc & FAST_HUFFMAN_TABLE_MASK; \ + var = c->fast_huffman[var]; \ + if (var >= 0) { \ + int n = c->codeword_lengths[var]; \ + f->acc >>= n; \ + f->valid_bits -= n; \ + if (f->valid_bits < 0) { f->valid_bits = 0; var = -1; } \ + } else { \ + var = codebook_decode_scalar_raw(f,c); \ + } + +#else + +static int codebook_decode_scalar(vorb *f, Codebook *c) +{ + int i; + if (f->valid_bits < STB_VORBIS_FAST_HUFFMAN_LENGTH) + prep_huffman(f); + // fast huffman table lookup + i = f->acc & FAST_HUFFMAN_TABLE_MASK; + i = c->fast_huffman[i]; + if (i >= 0) { + f->acc >>= c->codeword_lengths[i]; + f->valid_bits -= c->codeword_lengths[i]; + if (f->valid_bits < 0) { f->valid_bits = 0; return -1; } + return i; + } + return codebook_decode_scalar_raw(f,c); +} + +#define DECODE_RAW(var,f,c) var = codebook_decode_scalar(f,c); + +#endif + +#define DECODE(var,f,c) \ + DECODE_RAW(var,f,c) \ + if (c->sparse) var = c->sorted_values[var]; + +#ifndef STB_VORBIS_DIVIDES_IN_CODEBOOK + #define DECODE_VQ(var,f,c) DECODE_RAW(var,f,c) +#else + #define DECODE_VQ(var,f,c) DECODE(var,f,c) +#endif + + + + + + +// CODEBOOK_ELEMENT_FAST is an optimization for the CODEBOOK_FLOATS case +// where we avoid one addition +#define CODEBOOK_ELEMENT(c,off) (c->multiplicands[off]) +#define CODEBOOK_ELEMENT_FAST(c,off) (c->multiplicands[off]) +#define CODEBOOK_ELEMENT_BASE(c) (0) + +static int codebook_decode_start(vorb *f, Codebook *c) +{ + int z = -1; + + // type 0 is only legal in a scalar context + if (c->lookup_type == 0) + error(f, VORBIS_invalid_stream); + else { + DECODE_VQ(z,f,c); + if (c->sparse) assert(z < c->sorted_entries); + if (z < 0) { // check for EOP + if (!f->bytes_in_seg) + if (f->last_seg) + return z; + error(f, VORBIS_invalid_stream); + } + } + return z; +} + +static int codebook_decode(vorb *f, Codebook *c, float *output, int len) +{ + int i,z = codebook_decode_start(f,c); + if (z < 0) return FALSE; + if (len > c->dimensions) len = c->dimensions; + +#ifdef STB_VORBIS_DIVIDES_IN_CODEBOOK + if (c->lookup_type == 1) { + float last = CODEBOOK_ELEMENT_BASE(c); + int div = 1; + for (i=0; i < len; ++i) { + int off = (z / div) % c->lookup_values; + float val = CODEBOOK_ELEMENT_FAST(c,off) + last; + output[i] += val; + if (c->sequence_p) last = val + c->minimum_value; + div *= c->lookup_values; + } + return TRUE; + } +#endif + + z *= c->dimensions; + if (c->sequence_p) { + float last = CODEBOOK_ELEMENT_BASE(c); + for (i=0; i < len; ++i) { + float val = CODEBOOK_ELEMENT_FAST(c,z+i) + last; + output[i] += val; + last = val + c->minimum_value; + } + } else { + float last = CODEBOOK_ELEMENT_BASE(c); + for (i=0; i < len; ++i) { + output[i] += CODEBOOK_ELEMENT_FAST(c,z+i) + last; + } + } + + return TRUE; +} + +static int codebook_decode_step(vorb *f, Codebook *c, float *output, int len, int step) +{ + int i,z = codebook_decode_start(f,c); + float last = CODEBOOK_ELEMENT_BASE(c); + if (z < 0) return FALSE; + if (len > c->dimensions) len = c->dimensions; + +#ifdef STB_VORBIS_DIVIDES_IN_CODEBOOK + if (c->lookup_type == 1) { + int div = 1; + for (i=0; i < len; ++i) { + int off = (z / div) % c->lookup_values; + float val = CODEBOOK_ELEMENT_FAST(c,off) + last; + output[i*step] += val; + if (c->sequence_p) last = val; + div *= c->lookup_values; + } + return TRUE; + } +#endif + + z *= c->dimensions; + for (i=0; i < len; ++i) { + float val = CODEBOOK_ELEMENT_FAST(c,z+i) + last; + output[i*step] += val; + if (c->sequence_p) last = val; + } + + return TRUE; +} + +static int codebook_decode_deinterleave_repeat(vorb *f, Codebook *c, float **outputs, int ch, int *c_inter_p, int *p_inter_p, int len, int total_decode) +{ + int c_inter = *c_inter_p; + int p_inter = *p_inter_p; + int i,z, effective = c->dimensions; + + // type 0 is only legal in a scalar context + if (c->lookup_type == 0) return error(f, VORBIS_invalid_stream); + + while (total_decode > 0) { + float last = CODEBOOK_ELEMENT_BASE(c); + DECODE_VQ(z,f,c); + #ifndef STB_VORBIS_DIVIDES_IN_CODEBOOK + assert(!c->sparse || z < c->sorted_entries); + #endif + if (z < 0) { + if (!f->bytes_in_seg) + if (f->last_seg) return FALSE; + return error(f, VORBIS_invalid_stream); + } + + // if this will take us off the end of the buffers, stop short! + // we check by computing the length of the virtual interleaved + // buffer (len*ch), our current offset within it (p_inter*ch)+(c_inter), + // and the length we'll be using (effective) + if (c_inter + p_inter*ch + effective > len * ch) { + effective = len*ch - (p_inter*ch - c_inter); + } + + #ifdef STB_VORBIS_DIVIDES_IN_CODEBOOK + if (c->lookup_type == 1) { + int div = 1; + for (i=0; i < effective; ++i) { + int off = (z / div) % c->lookup_values; + float val = CODEBOOK_ELEMENT_FAST(c,off) + last; + if (outputs[c_inter]) + outputs[c_inter][p_inter] += val; + if (++c_inter == ch) { c_inter = 0; ++p_inter; } + if (c->sequence_p) last = val; + div *= c->lookup_values; + } + } else + #endif + { + z *= c->dimensions; + if (c->sequence_p) { + for (i=0; i < effective; ++i) { + float val = CODEBOOK_ELEMENT_FAST(c,z+i) + last; + if (outputs[c_inter]) + outputs[c_inter][p_inter] += val; + if (++c_inter == ch) { c_inter = 0; ++p_inter; } + last = val; + } + } else { + for (i=0; i < effective; ++i) { + float val = CODEBOOK_ELEMENT_FAST(c,z+i) + last; + if (outputs[c_inter]) + outputs[c_inter][p_inter] += val; + if (++c_inter == ch) { c_inter = 0; ++p_inter; } + } + } + } + + total_decode -= effective; + } + *c_inter_p = c_inter; + *p_inter_p = p_inter; + return TRUE; +} + +static int predict_point(int x, int x0, int x1, int y0, int y1) +{ + int dy = y1 - y0; + int adx = x1 - x0; + // @OPTIMIZE: force int division to round in the right direction... is this necessary on x86? + int err = abs(dy) * (x - x0); + int off = err / adx; + return dy < 0 ? y0 - off : y0 + off; +} + +// the following table is block-copied from the specification +static float inverse_db_table[256] = +{ + 1.0649863e-07f, 1.1341951e-07f, 1.2079015e-07f, 1.2863978e-07f, + 1.3699951e-07f, 1.4590251e-07f, 1.5538408e-07f, 1.6548181e-07f, + 1.7623575e-07f, 1.8768855e-07f, 1.9988561e-07f, 2.1287530e-07f, + 2.2670913e-07f, 2.4144197e-07f, 2.5713223e-07f, 2.7384213e-07f, + 2.9163793e-07f, 3.1059021e-07f, 3.3077411e-07f, 3.5226968e-07f, + 3.7516214e-07f, 3.9954229e-07f, 4.2550680e-07f, 4.5315863e-07f, + 4.8260743e-07f, 5.1396998e-07f, 5.4737065e-07f, 5.8294187e-07f, + 6.2082472e-07f, 6.6116941e-07f, 7.0413592e-07f, 7.4989464e-07f, + 7.9862701e-07f, 8.5052630e-07f, 9.0579828e-07f, 9.6466216e-07f, + 1.0273513e-06f, 1.0941144e-06f, 1.1652161e-06f, 1.2409384e-06f, + 1.3215816e-06f, 1.4074654e-06f, 1.4989305e-06f, 1.5963394e-06f, + 1.7000785e-06f, 1.8105592e-06f, 1.9282195e-06f, 2.0535261e-06f, + 2.1869758e-06f, 2.3290978e-06f, 2.4804557e-06f, 2.6416497e-06f, + 2.8133190e-06f, 2.9961443e-06f, 3.1908506e-06f, 3.3982101e-06f, + 3.6190449e-06f, 3.8542308e-06f, 4.1047004e-06f, 4.3714470e-06f, + 4.6555282e-06f, 4.9580707e-06f, 5.2802740e-06f, 5.6234160e-06f, + 5.9888572e-06f, 6.3780469e-06f, 6.7925283e-06f, 7.2339451e-06f, + 7.7040476e-06f, 8.2047000e-06f, 8.7378876e-06f, 9.3057248e-06f, + 9.9104632e-06f, 1.0554501e-05f, 1.1240392e-05f, 1.1970856e-05f, + 1.2748789e-05f, 1.3577278e-05f, 1.4459606e-05f, 1.5399272e-05f, + 1.6400004e-05f, 1.7465768e-05f, 1.8600792e-05f, 1.9809576e-05f, + 2.1096914e-05f, 2.2467911e-05f, 2.3928002e-05f, 2.5482978e-05f, + 2.7139006e-05f, 2.8902651e-05f, 3.0780908e-05f, 3.2781225e-05f, + 3.4911534e-05f, 3.7180282e-05f, 3.9596466e-05f, 4.2169667e-05f, + 4.4910090e-05f, 4.7828601e-05f, 5.0936773e-05f, 5.4246931e-05f, + 5.7772202e-05f, 6.1526565e-05f, 6.5524908e-05f, 6.9783085e-05f, + 7.4317983e-05f, 7.9147585e-05f, 8.4291040e-05f, 8.9768747e-05f, + 9.5602426e-05f, 0.00010181521f, 0.00010843174f, 0.00011547824f, + 0.00012298267f, 0.00013097477f, 0.00013948625f, 0.00014855085f, + 0.00015820453f, 0.00016848555f, 0.00017943469f, 0.00019109536f, + 0.00020351382f, 0.00021673929f, 0.00023082423f, 0.00024582449f, + 0.00026179955f, 0.00027881276f, 0.00029693158f, 0.00031622787f, + 0.00033677814f, 0.00035866388f, 0.00038197188f, 0.00040679456f, + 0.00043323036f, 0.00046138411f, 0.00049136745f, 0.00052329927f, + 0.00055730621f, 0.00059352311f, 0.00063209358f, 0.00067317058f, + 0.00071691700f, 0.00076350630f, 0.00081312324f, 0.00086596457f, + 0.00092223983f, 0.00098217216f, 0.0010459992f, 0.0011139742f, + 0.0011863665f, 0.0012634633f, 0.0013455702f, 0.0014330129f, + 0.0015261382f, 0.0016253153f, 0.0017309374f, 0.0018434235f, + 0.0019632195f, 0.0020908006f, 0.0022266726f, 0.0023713743f, + 0.0025254795f, 0.0026895994f, 0.0028643847f, 0.0030505286f, + 0.0032487691f, 0.0034598925f, 0.0036847358f, 0.0039241906f, + 0.0041792066f, 0.0044507950f, 0.0047400328f, 0.0050480668f, + 0.0053761186f, 0.0057254891f, 0.0060975636f, 0.0064938176f, + 0.0069158225f, 0.0073652516f, 0.0078438871f, 0.0083536271f, + 0.0088964928f, 0.009474637f, 0.010090352f, 0.010746080f, + 0.011444421f, 0.012188144f, 0.012980198f, 0.013823725f, + 0.014722068f, 0.015678791f, 0.016697687f, 0.017782797f, + 0.018938423f, 0.020169149f, 0.021479854f, 0.022875735f, + 0.024362330f, 0.025945531f, 0.027631618f, 0.029427276f, + 0.031339626f, 0.033376252f, 0.035545228f, 0.037855157f, + 0.040315199f, 0.042935108f, 0.045725273f, 0.048696758f, + 0.051861348f, 0.055231591f, 0.058820850f, 0.062643361f, + 0.066714279f, 0.071049749f, 0.075666962f, 0.080584227f, + 0.085821044f, 0.091398179f, 0.097337747f, 0.10366330f, + 0.11039993f, 0.11757434f, 0.12521498f, 0.13335215f, + 0.14201813f, 0.15124727f, 0.16107617f, 0.17154380f, + 0.18269168f, 0.19456402f, 0.20720788f, 0.22067342f, + 0.23501402f, 0.25028656f, 0.26655159f, 0.28387361f, + 0.30232132f, 0.32196786f, 0.34289114f, 0.36517414f, + 0.38890521f, 0.41417847f, 0.44109412f, 0.46975890f, + 0.50028648f, 0.53279791f, 0.56742212f, 0.60429640f, + 0.64356699f, 0.68538959f, 0.72993007f, 0.77736504f, + 0.82788260f, 0.88168307f, 0.9389798f, 1.0f +}; + + +// @OPTIMIZE: if you want to replace this bresenham line-drawing routine, +// note that you must produce bit-identical output to decode correctly; +// this specific sequence of operations is specified in the spec (it's +// drawing integer-quantized frequency-space lines that the encoder +// expects to be exactly the same) +// ... also, isn't the whole point of Bresenham's algorithm to NOT +// have to divide in the setup? sigh. +#ifndef STB_VORBIS_NO_DEFER_FLOOR +#define LINE_OP(a,b) a *= b +#else +#define LINE_OP(a,b) a = b +#endif + +#ifdef STB_VORBIS_DIVIDE_TABLE +#define DIVTAB_NUMER 32 +#define DIVTAB_DENOM 64 +int8 integer_divide_table[DIVTAB_NUMER][DIVTAB_DENOM]; // 2KB +#endif + +static __forceinline void draw_line(float *output, int x0, int y0, int x1, int y1, int n) +{ + int dy = y1 - y0; + int adx = x1 - x0; + int ady = abs(dy); + int base; + int x=x0,y=y0; + int err = 0; + int sy; + +#ifdef STB_VORBIS_DIVIDE_TABLE + if (adx < DIVTAB_DENOM && ady < DIVTAB_NUMER) { + if (dy < 0) { + base = -integer_divide_table[ady][adx]; + sy = base-1; + } else { + base = integer_divide_table[ady][adx]; + sy = base+1; + } + } else { + base = dy / adx; + if (dy < 0) + sy = base - 1; + else + sy = base+1; + } +#else + base = dy / adx; + if (dy < 0) + sy = base - 1; + else + sy = base+1; +#endif + ady -= abs(base) * adx; + if (x1 > n) x1 = n; + if (x < x1) { + LINE_OP(output[x], inverse_db_table[y&255]); + for (++x; x < x1; ++x) { + err += ady; + if (err >= adx) { + err -= adx; + y += sy; + } else + y += base; + LINE_OP(output[x], inverse_db_table[y&255]); + } + } +} + +static int residue_decode(vorb *f, Codebook *book, float *target, int offset, int n, int rtype) +{ + int k; + if (rtype == 0) { + int step = n / book->dimensions; + for (k=0; k < step; ++k) + if (!codebook_decode_step(f, book, target+offset+k, n-offset-k, step)) + return FALSE; + } else { + for (k=0; k < n; ) { + if (!codebook_decode(f, book, target+offset, n-k)) + return FALSE; + k += book->dimensions; + offset += book->dimensions; + } + } + return TRUE; +} + +// n is 1/2 of the blocksize -- +// specification: "Correct per-vector decode length is [n]/2" +static void decode_residue(vorb *f, float *residue_buffers[], int ch, int n, int rn, uint8 *do_not_decode) +{ + int i,j,pass; + Residue *r = f->residue_config + rn; + int rtype = f->residue_types[rn]; + int c = r->classbook; + int classwords = f->codebooks[c].dimensions; + unsigned int actual_size = rtype == 2 ? n*2 : n; + unsigned int limit_r_begin = (r->begin < actual_size ? r->begin : actual_size); + unsigned int limit_r_end = (r->end < actual_size ? r->end : actual_size); + int n_read = limit_r_end - limit_r_begin; + int part_read = n_read / r->part_size; + int temp_alloc_point = temp_alloc_save(f); + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + uint8 ***part_classdata = (uint8 ***) temp_block_array(f,f->channels, part_read * sizeof(**part_classdata)); + #else + int **classifications = (int **) temp_block_array(f,f->channels, part_read * sizeof(**classifications)); + #endif + + CHECK(f); + + for (i=0; i < ch; ++i) + if (!do_not_decode[i]) + memset(residue_buffers[i], 0, sizeof(float) * n); + + if (rtype == 2 && ch != 1) { + for (j=0; j < ch; ++j) + if (!do_not_decode[j]) + break; + if (j == ch) + goto done; + + for (pass=0; pass < 8; ++pass) { + int pcount = 0, class_set = 0; + if (ch == 2) { + while (pcount < part_read) { + int z = r->begin + pcount*r->part_size; + int c_inter = (z & 1), p_inter = z>>1; + if (pass == 0) { + Codebook *c = f->codebooks+r->classbook; + int q; + DECODE(q,f,c); + if (q == EOP) goto done; + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + part_classdata[0][class_set] = r->classdata[q]; + #else + for (i=classwords-1; i >= 0; --i) { + classifications[0][i+pcount] = q % r->classifications; + q /= r->classifications; + } + #endif + } + for (i=0; i < classwords && pcount < part_read; ++i, ++pcount) { + int z = r->begin + pcount*r->part_size; + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + int c = part_classdata[0][class_set][i]; + #else + int c = classifications[0][pcount]; + #endif + int b = r->residue_books[c][pass]; + if (b >= 0) { + Codebook *book = f->codebooks + b; + #ifdef STB_VORBIS_DIVIDES_IN_CODEBOOK + if (!codebook_decode_deinterleave_repeat(f, book, residue_buffers, ch, &c_inter, &p_inter, n, r->part_size)) + goto done; + #else + // saves 1% + if (!codebook_decode_deinterleave_repeat(f, book, residue_buffers, ch, &c_inter, &p_inter, n, r->part_size)) + goto done; + #endif + } else { + z += r->part_size; + c_inter = z & 1; + p_inter = z >> 1; + } + } + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + ++class_set; + #endif + } + } else if (ch > 2) { + while (pcount < part_read) { + int z = r->begin + pcount*r->part_size; + int c_inter = z % ch, p_inter = z/ch; + if (pass == 0) { + Codebook *c = f->codebooks+r->classbook; + int q; + DECODE(q,f,c); + if (q == EOP) goto done; + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + part_classdata[0][class_set] = r->classdata[q]; + #else + for (i=classwords-1; i >= 0; --i) { + classifications[0][i+pcount] = q % r->classifications; + q /= r->classifications; + } + #endif + } + for (i=0; i < classwords && pcount < part_read; ++i, ++pcount) { + int z = r->begin + pcount*r->part_size; + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + int c = part_classdata[0][class_set][i]; + #else + int c = classifications[0][pcount]; + #endif + int b = r->residue_books[c][pass]; + if (b >= 0) { + Codebook *book = f->codebooks + b; + if (!codebook_decode_deinterleave_repeat(f, book, residue_buffers, ch, &c_inter, &p_inter, n, r->part_size)) + goto done; + } else { + z += r->part_size; + c_inter = z % ch; + p_inter = z / ch; + } + } + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + ++class_set; + #endif + } + } + } + goto done; + } + CHECK(f); + + for (pass=0; pass < 8; ++pass) { + int pcount = 0, class_set=0; + while (pcount < part_read) { + if (pass == 0) { + for (j=0; j < ch; ++j) { + if (!do_not_decode[j]) { + Codebook *c = f->codebooks+r->classbook; + int temp; + DECODE(temp,f,c); + if (temp == EOP) goto done; + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + part_classdata[j][class_set] = r->classdata[temp]; + #else + for (i=classwords-1; i >= 0; --i) { + classifications[j][i+pcount] = temp % r->classifications; + temp /= r->classifications; + } + #endif + } + } + } + for (i=0; i < classwords && pcount < part_read; ++i, ++pcount) { + for (j=0; j < ch; ++j) { + if (!do_not_decode[j]) { + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + int c = part_classdata[j][class_set][i]; + #else + int c = classifications[j][pcount]; + #endif + int b = r->residue_books[c][pass]; + if (b >= 0) { + float *target = residue_buffers[j]; + int offset = r->begin + pcount * r->part_size; + int n = r->part_size; + Codebook *book = f->codebooks + b; + if (!residue_decode(f, book, target, offset, n, rtype)) + goto done; + } + } + } + } + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + ++class_set; + #endif + } + } + done: + CHECK(f); + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + temp_free(f,part_classdata); + #else + temp_free(f,classifications); + #endif + temp_alloc_restore(f,temp_alloc_point); +} + + +#if 0 +// slow way for debugging +void inverse_mdct_slow(float *buffer, int n) +{ + int i,j; + int n2 = n >> 1; + float *x = (float *) malloc(sizeof(*x) * n2); + memcpy(x, buffer, sizeof(*x) * n2); + for (i=0; i < n; ++i) { + float acc = 0; + for (j=0; j < n2; ++j) + // formula from paper: + //acc += n/4.0f * x[j] * (float) cos(M_PI / 2 / n * (2 * i + 1 + n/2.0)*(2*j+1)); + // formula from wikipedia + //acc += 2.0f / n2 * x[j] * (float) cos(M_PI/n2 * (i + 0.5 + n2/2)*(j + 0.5)); + // these are equivalent, except the formula from the paper inverts the multiplier! + // however, what actually works is NO MULTIPLIER!?! + //acc += 64 * 2.0f / n2 * x[j] * (float) cos(M_PI/n2 * (i + 0.5 + n2/2)*(j + 0.5)); + acc += x[j] * (float) cos(M_PI / 2 / n * (2 * i + 1 + n/2.0)*(2*j+1)); + buffer[i] = acc; + } + free(x); +} +#elif 0 +// same as above, but just barely able to run in real time on modern machines +void inverse_mdct_slow(float *buffer, int n, vorb *f, int blocktype) +{ + float mcos[16384]; + int i,j; + int n2 = n >> 1, nmask = (n << 2) -1; + float *x = (float *) malloc(sizeof(*x) * n2); + memcpy(x, buffer, sizeof(*x) * n2); + for (i=0; i < 4*n; ++i) + mcos[i] = (float) cos(M_PI / 2 * i / n); + + for (i=0; i < n; ++i) { + float acc = 0; + for (j=0; j < n2; ++j) + acc += x[j] * mcos[(2 * i + 1 + n2)*(2*j+1) & nmask]; + buffer[i] = acc; + } + free(x); +} +#elif 0 +// transform to use a slow dct-iv; this is STILL basically trivial, +// but only requires half as many ops +void dct_iv_slow(float *buffer, int n) +{ + float mcos[16384]; + float x[2048]; + int i,j; + int n2 = n >> 1, nmask = (n << 3) - 1; + memcpy(x, buffer, sizeof(*x) * n); + for (i=0; i < 8*n; ++i) + mcos[i] = (float) cos(M_PI / 4 * i / n); + for (i=0; i < n; ++i) { + float acc = 0; + for (j=0; j < n; ++j) + acc += x[j] * mcos[((2 * i + 1)*(2*j+1)) & nmask]; + buffer[i] = acc; + } +} + +void inverse_mdct_slow(float *buffer, int n, vorb *f, int blocktype) +{ + int i, n4 = n >> 2, n2 = n >> 1, n3_4 = n - n4; + float temp[4096]; + + memcpy(temp, buffer, n2 * sizeof(float)); + dct_iv_slow(temp, n2); // returns -c'-d, a-b' + + for (i=0; i < n4 ; ++i) buffer[i] = temp[i+n4]; // a-b' + for ( ; i < n3_4; ++i) buffer[i] = -temp[n3_4 - i - 1]; // b-a', c+d' + for ( ; i < n ; ++i) buffer[i] = -temp[i - n3_4]; // c'+d +} +#endif + +#ifndef LIBVORBIS_MDCT +#define LIBVORBIS_MDCT 0 +#endif + +#if LIBVORBIS_MDCT +// directly call the vorbis MDCT using an interface documented +// by Jeff Roberts... useful for performance comparison +typedef struct +{ + int n; + int log2n; + + float *trig; + int *bitrev; + + float scale; +} mdct_lookup; + +extern void mdct_init(mdct_lookup *lookup, int n); +extern void mdct_clear(mdct_lookup *l); +extern void mdct_backward(mdct_lookup *init, float *in, float *out); + +mdct_lookup M1,M2; + +void inverse_mdct(float *buffer, int n, vorb *f, int blocktype) +{ + mdct_lookup *M; + if (M1.n == n) M = &M1; + else if (M2.n == n) M = &M2; + else if (M1.n == 0) { mdct_init(&M1, n); M = &M1; } + else { + if (M2.n) __asm int 3; + mdct_init(&M2, n); + M = &M2; + } + + mdct_backward(M, buffer, buffer); +} +#endif + + +// the following were split out into separate functions while optimizing; +// they could be pushed back up but eh. __forceinline showed no change; +// they're probably already being inlined. +static void imdct_step3_iter0_loop(int n, float *e, int i_off, int k_off, float *A) +{ + float *ee0 = e + i_off; + float *ee2 = ee0 + k_off; + int i; + + assert((n & 3) == 0); + for (i=(n>>2); i > 0; --i) { + float k00_20, k01_21; + k00_20 = ee0[ 0] - ee2[ 0]; + k01_21 = ee0[-1] - ee2[-1]; + ee0[ 0] += ee2[ 0];//ee0[ 0] = ee0[ 0] + ee2[ 0]; + ee0[-1] += ee2[-1];//ee0[-1] = ee0[-1] + ee2[-1]; + ee2[ 0] = k00_20 * A[0] - k01_21 * A[1]; + ee2[-1] = k01_21 * A[0] + k00_20 * A[1]; + A += 8; + + k00_20 = ee0[-2] - ee2[-2]; + k01_21 = ee0[-3] - ee2[-3]; + ee0[-2] += ee2[-2];//ee0[-2] = ee0[-2] + ee2[-2]; + ee0[-3] += ee2[-3];//ee0[-3] = ee0[-3] + ee2[-3]; + ee2[-2] = k00_20 * A[0] - k01_21 * A[1]; + ee2[-3] = k01_21 * A[0] + k00_20 * A[1]; + A += 8; + + k00_20 = ee0[-4] - ee2[-4]; + k01_21 = ee0[-5] - ee2[-5]; + ee0[-4] += ee2[-4];//ee0[-4] = ee0[-4] + ee2[-4]; + ee0[-5] += ee2[-5];//ee0[-5] = ee0[-5] + ee2[-5]; + ee2[-4] = k00_20 * A[0] - k01_21 * A[1]; + ee2[-5] = k01_21 * A[0] + k00_20 * A[1]; + A += 8; + + k00_20 = ee0[-6] - ee2[-6]; + k01_21 = ee0[-7] - ee2[-7]; + ee0[-6] += ee2[-6];//ee0[-6] = ee0[-6] + ee2[-6]; + ee0[-7] += ee2[-7];//ee0[-7] = ee0[-7] + ee2[-7]; + ee2[-6] = k00_20 * A[0] - k01_21 * A[1]; + ee2[-7] = k01_21 * A[0] + k00_20 * A[1]; + A += 8; + ee0 -= 8; + ee2 -= 8; + } +} + +static void imdct_step3_inner_r_loop(int lim, float *e, int d0, int k_off, float *A, int k1) +{ + int i; + float k00_20, k01_21; + + float *e0 = e + d0; + float *e2 = e0 + k_off; + + for (i=lim >> 2; i > 0; --i) { + k00_20 = e0[-0] - e2[-0]; + k01_21 = e0[-1] - e2[-1]; + e0[-0] += e2[-0];//e0[-0] = e0[-0] + e2[-0]; + e0[-1] += e2[-1];//e0[-1] = e0[-1] + e2[-1]; + e2[-0] = (k00_20)*A[0] - (k01_21) * A[1]; + e2[-1] = (k01_21)*A[0] + (k00_20) * A[1]; + + A += k1; + + k00_20 = e0[-2] - e2[-2]; + k01_21 = e0[-3] - e2[-3]; + e0[-2] += e2[-2];//e0[-2] = e0[-2] + e2[-2]; + e0[-3] += e2[-3];//e0[-3] = e0[-3] + e2[-3]; + e2[-2] = (k00_20)*A[0] - (k01_21) * A[1]; + e2[-3] = (k01_21)*A[0] + (k00_20) * A[1]; + + A += k1; + + k00_20 = e0[-4] - e2[-4]; + k01_21 = e0[-5] - e2[-5]; + e0[-4] += e2[-4];//e0[-4] = e0[-4] + e2[-4]; + e0[-5] += e2[-5];//e0[-5] = e0[-5] + e2[-5]; + e2[-4] = (k00_20)*A[0] - (k01_21) * A[1]; + e2[-5] = (k01_21)*A[0] + (k00_20) * A[1]; + + A += k1; + + k00_20 = e0[-6] - e2[-6]; + k01_21 = e0[-7] - e2[-7]; + e0[-6] += e2[-6];//e0[-6] = e0[-6] + e2[-6]; + e0[-7] += e2[-7];//e0[-7] = e0[-7] + e2[-7]; + e2[-6] = (k00_20)*A[0] - (k01_21) * A[1]; + e2[-7] = (k01_21)*A[0] + (k00_20) * A[1]; + + e0 -= 8; + e2 -= 8; + + A += k1; + } +} + +static void imdct_step3_inner_s_loop(int n, float *e, int i_off, int k_off, float *A, int a_off, int k0) +{ + int i; + float A0 = A[0]; + float A1 = A[0+1]; + float A2 = A[0+a_off]; + float A3 = A[0+a_off+1]; + float A4 = A[0+a_off*2+0]; + float A5 = A[0+a_off*2+1]; + float A6 = A[0+a_off*3+0]; + float A7 = A[0+a_off*3+1]; + + float k00,k11; + + float *ee0 = e +i_off; + float *ee2 = ee0+k_off; + + for (i=n; i > 0; --i) { + k00 = ee0[ 0] - ee2[ 0]; + k11 = ee0[-1] - ee2[-1]; + ee0[ 0] = ee0[ 0] + ee2[ 0]; + ee0[-1] = ee0[-1] + ee2[-1]; + ee2[ 0] = (k00) * A0 - (k11) * A1; + ee2[-1] = (k11) * A0 + (k00) * A1; + + k00 = ee0[-2] - ee2[-2]; + k11 = ee0[-3] - ee2[-3]; + ee0[-2] = ee0[-2] + ee2[-2]; + ee0[-3] = ee0[-3] + ee2[-3]; + ee2[-2] = (k00) * A2 - (k11) * A3; + ee2[-3] = (k11) * A2 + (k00) * A3; + + k00 = ee0[-4] - ee2[-4]; + k11 = ee0[-5] - ee2[-5]; + ee0[-4] = ee0[-4] + ee2[-4]; + ee0[-5] = ee0[-5] + ee2[-5]; + ee2[-4] = (k00) * A4 - (k11) * A5; + ee2[-5] = (k11) * A4 + (k00) * A5; + + k00 = ee0[-6] - ee2[-6]; + k11 = ee0[-7] - ee2[-7]; + ee0[-6] = ee0[-6] + ee2[-6]; + ee0[-7] = ee0[-7] + ee2[-7]; + ee2[-6] = (k00) * A6 - (k11) * A7; + ee2[-7] = (k11) * A6 + (k00) * A7; + + ee0 -= k0; + ee2 -= k0; + } +} + +static __forceinline void iter_54(float *z) +{ + float k00,k11,k22,k33; + float y0,y1,y2,y3; + + k00 = z[ 0] - z[-4]; + y0 = z[ 0] + z[-4]; + y2 = z[-2] + z[-6]; + k22 = z[-2] - z[-6]; + + z[-0] = y0 + y2; // z0 + z4 + z2 + z6 + z[-2] = y0 - y2; // z0 + z4 - z2 - z6 + + // done with y0,y2 + + k33 = z[-3] - z[-7]; + + z[-4] = k00 + k33; // z0 - z4 + z3 - z7 + z[-6] = k00 - k33; // z0 - z4 - z3 + z7 + + // done with k33 + + k11 = z[-1] - z[-5]; + y1 = z[-1] + z[-5]; + y3 = z[-3] + z[-7]; + + z[-1] = y1 + y3; // z1 + z5 + z3 + z7 + z[-3] = y1 - y3; // z1 + z5 - z3 - z7 + z[-5] = k11 - k22; // z1 - z5 + z2 - z6 + z[-7] = k11 + k22; // z1 - z5 - z2 + z6 +} + +static void imdct_step3_inner_s_loop_ld654(int n, float *e, int i_off, float *A, int base_n) +{ + int a_off = base_n >> 3; + float A2 = A[0+a_off]; + float *z = e + i_off; + float *base = z - 16 * n; + + while (z > base) { + float k00,k11; + float l00,l11; + + k00 = z[-0] - z[ -8]; + k11 = z[-1] - z[ -9]; + l00 = z[-2] - z[-10]; + l11 = z[-3] - z[-11]; + z[ -0] = z[-0] + z[ -8]; + z[ -1] = z[-1] + z[ -9]; + z[ -2] = z[-2] + z[-10]; + z[ -3] = z[-3] + z[-11]; + z[ -8] = k00; + z[ -9] = k11; + z[-10] = (l00+l11) * A2; + z[-11] = (l11-l00) * A2; + + k00 = z[ -4] - z[-12]; + k11 = z[ -5] - z[-13]; + l00 = z[ -6] - z[-14]; + l11 = z[ -7] - z[-15]; + z[ -4] = z[ -4] + z[-12]; + z[ -5] = z[ -5] + z[-13]; + z[ -6] = z[ -6] + z[-14]; + z[ -7] = z[ -7] + z[-15]; + z[-12] = k11; + z[-13] = -k00; + z[-14] = (l11-l00) * A2; + z[-15] = (l00+l11) * -A2; + + iter_54(z); + iter_54(z-8); + z -= 16; + } +} + +static void inverse_mdct(float *buffer, int n, vorb *f, int blocktype) +{ + int n2 = n >> 1, n4 = n >> 2, n8 = n >> 3, l; + int ld; + // @OPTIMIZE: reduce register pressure by using fewer variables? + int save_point = temp_alloc_save(f); + float *buf2 = (float *) temp_alloc(f, n2 * sizeof(*buf2)); + float *u=nullptr,*v=nullptr; + // twiddle factors + float *A = f->A[blocktype]; + + // IMDCT algorithm from "The use of multirate filter banks for coding of high quality digital audio" + // See notes about bugs in that paper in less-optimal implementation 'inverse_mdct_old' after this function. + + // kernel from paper + + + // merged: + // copy and reflect spectral data + // step 0 + + // note that it turns out that the items added together during + // this step are, in fact, being added to themselves (as reflected + // by step 0). inexplicable inefficiency! this became obvious + // once I combined the passes. + + // so there's a missing 'times 2' here (for adding X to itself). + // this propagates through linearly to the end, where the numbers + // are 1/2 too small, and need to be compensated for. + + { + float *d,*e, *AA, *e_stop; + d = &buf2[n2-2]; + AA = A; + e = &buffer[0]; + e_stop = &buffer[n2]; + while (e != e_stop) { + d[1] = (e[0] * AA[0] - e[2]*AA[1]); + d[0] = (e[0] * AA[1] + e[2]*AA[0]); + d -= 2; + AA += 2; + e += 4; + } + + e = &buffer[n2-3]; + while (d >= buf2) { + d[1] = (-e[2] * AA[0] - -e[0]*AA[1]); + d[0] = (-e[2] * AA[1] + -e[0]*AA[0]); + d -= 2; + AA += 2; + e -= 4; + } + } + + // now we use symbolic names for these, so that we can + // possibly swap their meaning as we change which operations + // are in place + + u = buffer; + v = buf2; + + // step 2 (paper output is w, now u) + // this could be in place, but the data ends up in the wrong + // place... _somebody_'s got to swap it, so this is nominated + { + float *AA = &A[n2-8]; + float *d0,*d1, *e0, *e1; + + e0 = &v[n4]; + e1 = &v[0]; + + d0 = &u[n4]; + d1 = &u[0]; + + while (AA >= A) { + float v40_20, v41_21; + + v41_21 = e0[1] - e1[1]; + v40_20 = e0[0] - e1[0]; + d0[1] = e0[1] + e1[1]; + d0[0] = e0[0] + e1[0]; + d1[1] = v41_21*AA[4] - v40_20*AA[5]; + d1[0] = v40_20*AA[4] + v41_21*AA[5]; + + v41_21 = e0[3] - e1[3]; + v40_20 = e0[2] - e1[2]; + d0[3] = e0[3] + e1[3]; + d0[2] = e0[2] + e1[2]; + d1[3] = v41_21*AA[0] - v40_20*AA[1]; + d1[2] = v40_20*AA[0] + v41_21*AA[1]; + + AA -= 8; + + d0 += 4; + d1 += 4; + e0 += 4; + e1 += 4; + } + } + + // step 3 + ld = ilog(n) - 1; // ilog is off-by-one from normal definitions + + // optimized step 3: + + // the original step3 loop can be nested r inside s or s inside r; + // it's written originally as s inside r, but this is dumb when r + // iterates many times, and s few. So I have two copies of it and + // switch between them halfway. + + // this is iteration 0 of step 3 + imdct_step3_iter0_loop(n >> 4, u, n2-1-n4*0, -(n >> 3), A); + imdct_step3_iter0_loop(n >> 4, u, n2-1-n4*1, -(n >> 3), A); + + // this is iteration 1 of step 3 + imdct_step3_inner_r_loop(n >> 5, u, n2-1 - n8*0, -(n >> 4), A, 16); + imdct_step3_inner_r_loop(n >> 5, u, n2-1 - n8*1, -(n >> 4), A, 16); + imdct_step3_inner_r_loop(n >> 5, u, n2-1 - n8*2, -(n >> 4), A, 16); + imdct_step3_inner_r_loop(n >> 5, u, n2-1 - n8*3, -(n >> 4), A, 16); + + l=2; + for (; l < (ld-3)>>1; ++l) { + int k0 = n >> (l+2), k0_2 = k0>>1; + int lim = 1 << (l+1); + int i; + for (i=0; i < lim; ++i) + imdct_step3_inner_r_loop(n >> (l+4), u, n2-1 - k0*i, -k0_2, A, 1 << (l+3)); + } + + for (; l < ld-6; ++l) { + int k0 = n >> (l+2), k1 = 1 << (l+3), k0_2 = k0>>1; + int rlim = n >> (l+6), r; + int lim = 1 << (l+1); + int i_off; + float *A0 = A; + i_off = n2-1; + for (r=rlim; r > 0; --r) { + imdct_step3_inner_s_loop(lim, u, i_off, -k0_2, A0, k1, k0); + A0 += k1*4; + i_off -= 8; + } + } + + // iterations with count: + // ld-6,-5,-4 all interleaved together + // the big win comes from getting rid of needless flops + // due to the constants on pass 5 & 4 being all 1 and 0; + // combining them to be simultaneous to improve cache made little difference + imdct_step3_inner_s_loop_ld654(n >> 5, u, n2-1, A, n); + + // output is u + + // step 4, 5, and 6 + // cannot be in-place because of step 5 + { + uint16 *bitrev = f->bit_reverse[blocktype]; + // weirdly, I'd have thought reading sequentially and writing + // erratically would have been better than vice-versa, but in + // fact that's not what my testing showed. (That is, with + // j = bitreverse(i), do you read i and write j, or read j and write i.) + + float *d0 = &v[n4-4]; + float *d1 = &v[n2-4]; + while (d0 >= v) { + int k4; + + k4 = bitrev[0]; + d1[3] = u[k4+0]; + d1[2] = u[k4+1]; + d0[3] = u[k4+2]; + d0[2] = u[k4+3]; + + k4 = bitrev[1]; + d1[1] = u[k4+0]; + d1[0] = u[k4+1]; + d0[1] = u[k4+2]; + d0[0] = u[k4+3]; + + d0 -= 4; + d1 -= 4; + bitrev += 2; + } + } + // (paper output is u, now v) + + + // data must be in buf2 + assert(v == buf2); + + // step 7 (paper output is v, now v) + // this is now in place + { + float *C = f->C[blocktype]; + float *d, *e; + + d = v; + e = v + n2 - 4; + + while (d < e) { + float a02,a11,b0,b1,b2,b3; + + a02 = d[0] - e[2]; + a11 = d[1] + e[3]; + + b0 = C[1]*a02 + C[0]*a11; + b1 = C[1]*a11 - C[0]*a02; + + b2 = d[0] + e[ 2]; + b3 = d[1] - e[ 3]; + + d[0] = b2 + b0; + d[1] = b3 + b1; + e[2] = b2 - b0; + e[3] = b1 - b3; + + a02 = d[2] - e[0]; + a11 = d[3] + e[1]; + + b0 = C[3]*a02 + C[2]*a11; + b1 = C[3]*a11 - C[2]*a02; + + b2 = d[2] + e[ 0]; + b3 = d[3] - e[ 1]; + + d[2] = b2 + b0; + d[3] = b3 + b1; + e[0] = b2 - b0; + e[1] = b1 - b3; + + C += 4; + d += 4; + e -= 4; + } + } + + // data must be in buf2 + + + // step 8+decode (paper output is X, now buffer) + // this generates pairs of data a la 8 and pushes them directly through + // the decode kernel (pushing rather than pulling) to avoid having + // to make another pass later + + // this cannot POSSIBLY be in place, so we refer to the buffers directly + + { + float *d0,*d1,*d2,*d3; + + float *B = f->B[blocktype] + n2 - 8; + float *e = buf2 + n2 - 8; + d0 = &buffer[0]; + d1 = &buffer[n2-4]; + d2 = &buffer[n2]; + d3 = &buffer[n-4]; + while (e >= v) { + float p0,p1,p2,p3; + + p3 = e[6]*B[7] - e[7]*B[6]; + p2 = -e[6]*B[6] - e[7]*B[7]; + + d0[0] = p3; + d1[3] = - p3; + d2[0] = p2; + d3[3] = p2; + + p1 = e[4]*B[5] - e[5]*B[4]; + p0 = -e[4]*B[4] - e[5]*B[5]; + + d0[1] = p1; + d1[2] = - p1; + d2[1] = p0; + d3[2] = p0; + + p3 = e[2]*B[3] - e[3]*B[2]; + p2 = -e[2]*B[2] - e[3]*B[3]; + + d0[2] = p3; + d1[1] = - p3; + d2[2] = p2; + d3[1] = p2; + + p1 = e[0]*B[1] - e[1]*B[0]; + p0 = -e[0]*B[0] - e[1]*B[1]; + + d0[3] = p1; + d1[0] = - p1; + d2[3] = p0; + d3[0] = p0; + + B -= 8; + e -= 8; + d0 += 4; + d2 += 4; + d1 -= 4; + d3 -= 4; + } + } + + temp_free(f,buf2); + temp_alloc_restore(f,save_point); +} + +#if 0 +// this is the original version of the above code, if you want to optimize it from scratch +void inverse_mdct_naive(float *buffer, int n) +{ + float s; + float A[1 << 12], B[1 << 12], C[1 << 11]; + int i,k,k2,k4, n2 = n >> 1, n4 = n >> 2, n8 = n >> 3, l; + int n3_4 = n - n4, ld; + // how can they claim this only uses N words?! + // oh, because they're only used sparsely, whoops + float u[1 << 13], X[1 << 13], v[1 << 13], w[1 << 13]; + // set up twiddle factors + + for (k=k2=0; k < n4; ++k,k2+=2) { + A[k2 ] = (float) cos(4*k*M_PI/n); + A[k2+1] = (float) -sin(4*k*M_PI/n); + B[k2 ] = (float) cos((k2+1)*M_PI/n/2); + B[k2+1] = (float) sin((k2+1)*M_PI/n/2); + } + for (k=k2=0; k < n8; ++k,k2+=2) { + C[k2 ] = (float) cos(2*(k2+1)*M_PI/n); + C[k2+1] = (float) -sin(2*(k2+1)*M_PI/n); + } + + // IMDCT algorithm from "The use of multirate filter banks for coding of high quality digital audio" + // Note there are bugs in that pseudocode, presumably due to them attempting + // to rename the arrays nicely rather than representing the way their actual + // implementation bounces buffers back and forth. As a result, even in the + // "some formulars corrected" version, a direct implementation fails. These + // are noted below as "paper bug". + + // copy and reflect spectral data + for (k=0; k < n2; ++k) u[k] = buffer[k]; + for ( ; k < n ; ++k) u[k] = -buffer[n - k - 1]; + // kernel from paper + // step 1 + for (k=k2=k4=0; k < n4; k+=1, k2+=2, k4+=4) { + v[n-k4-1] = (u[k4] - u[n-k4-1]) * A[k2] - (u[k4+2] - u[n-k4-3])*A[k2+1]; + v[n-k4-3] = (u[k4] - u[n-k4-1]) * A[k2+1] + (u[k4+2] - u[n-k4-3])*A[k2]; + } + // step 2 + for (k=k4=0; k < n8; k+=1, k4+=4) { + w[n2+3+k4] = v[n2+3+k4] + v[k4+3]; + w[n2+1+k4] = v[n2+1+k4] + v[k4+1]; + w[k4+3] = (v[n2+3+k4] - v[k4+3])*A[n2-4-k4] - (v[n2+1+k4]-v[k4+1])*A[n2-3-k4]; + w[k4+1] = (v[n2+1+k4] - v[k4+1])*A[n2-4-k4] + (v[n2+3+k4]-v[k4+3])*A[n2-3-k4]; + } + // step 3 + ld = ilog(n) - 1; // ilog is off-by-one from normal definitions + for (l=0; l < ld-3; ++l) { + int k0 = n >> (l+2), k1 = 1 << (l+3); + int rlim = n >> (l+4), r4, r; + int s2lim = 1 << (l+2), s2; + for (r=r4=0; r < rlim; r4+=4,++r) { + for (s2=0; s2 < s2lim; s2+=2) { + u[n-1-k0*s2-r4] = w[n-1-k0*s2-r4] + w[n-1-k0*(s2+1)-r4]; + u[n-3-k0*s2-r4] = w[n-3-k0*s2-r4] + w[n-3-k0*(s2+1)-r4]; + u[n-1-k0*(s2+1)-r4] = (w[n-1-k0*s2-r4] - w[n-1-k0*(s2+1)-r4]) * A[r*k1] + - (w[n-3-k0*s2-r4] - w[n-3-k0*(s2+1)-r4]) * A[r*k1+1]; + u[n-3-k0*(s2+1)-r4] = (w[n-3-k0*s2-r4] - w[n-3-k0*(s2+1)-r4]) * A[r*k1] + + (w[n-1-k0*s2-r4] - w[n-1-k0*(s2+1)-r4]) * A[r*k1+1]; + } + } + if (l+1 < ld-3) { + // paper bug: ping-ponging of u&w here is omitted + memcpy(w, u, sizeof(u)); + } + } + + // step 4 + for (i=0; i < n8; ++i) { + int j = bit_reverse(i) >> (32-ld+3); + assert(j < n8); + if (i == j) { + // paper bug: original code probably swapped in place; if copying, + // need to directly copy in this case + int i8 = i << 3; + v[i8+1] = u[i8+1]; + v[i8+3] = u[i8+3]; + v[i8+5] = u[i8+5]; + v[i8+7] = u[i8+7]; + } else if (i < j) { + int i8 = i << 3, j8 = j << 3; + v[j8+1] = u[i8+1], v[i8+1] = u[j8 + 1]; + v[j8+3] = u[i8+3], v[i8+3] = u[j8 + 3]; + v[j8+5] = u[i8+5], v[i8+5] = u[j8 + 5]; + v[j8+7] = u[i8+7], v[i8+7] = u[j8 + 7]; + } + } + // step 5 + for (k=0; k < n2; ++k) { + w[k] = v[k*2+1]; + } + // step 6 + for (k=k2=k4=0; k < n8; ++k, k2 += 2, k4 += 4) { + u[n-1-k2] = w[k4]; + u[n-2-k2] = w[k4+1]; + u[n3_4 - 1 - k2] = w[k4+2]; + u[n3_4 - 2 - k2] = w[k4+3]; + } + // step 7 + for (k=k2=0; k < n8; ++k, k2 += 2) { + v[n2 + k2 ] = ( u[n2 + k2] + u[n-2-k2] + C[k2+1]*(u[n2+k2]-u[n-2-k2]) + C[k2]*(u[n2+k2+1]+u[n-2-k2+1]))/2; + v[n-2 - k2] = ( u[n2 + k2] + u[n-2-k2] - C[k2+1]*(u[n2+k2]-u[n-2-k2]) - C[k2]*(u[n2+k2+1]+u[n-2-k2+1]))/2; + v[n2+1+ k2] = ( u[n2+1+k2] - u[n-1-k2] + C[k2+1]*(u[n2+1+k2]+u[n-1-k2]) - C[k2]*(u[n2+k2]-u[n-2-k2]))/2; + v[n-1 - k2] = (-u[n2+1+k2] + u[n-1-k2] + C[k2+1]*(u[n2+1+k2]+u[n-1-k2]) - C[k2]*(u[n2+k2]-u[n-2-k2]))/2; + } + // step 8 + for (k=k2=0; k < n4; ++k,k2 += 2) { + X[k] = v[k2+n2]*B[k2 ] + v[k2+1+n2]*B[k2+1]; + X[n2-1-k] = v[k2+n2]*B[k2+1] - v[k2+1+n2]*B[k2 ]; + } + + // decode kernel to output + // determined the following value experimentally + // (by first figuring out what made inverse_mdct_slow work); then matching that here + // (probably vorbis encoder premultiplies by n or n/2, to save it on the decoder?) + s = 0.5; // theoretically would be n4 + + // [[[ note! the s value of 0.5 is compensated for by the B[] in the current code, + // so it needs to use the "old" B values to behave correctly, or else + // set s to 1.0 ]]] + for (i=0; i < n4 ; ++i) buffer[i] = s * X[i+n4]; + for ( ; i < n3_4; ++i) buffer[i] = -s * X[n3_4 - i - 1]; + for ( ; i < n ; ++i) buffer[i] = -s * X[i - n3_4]; +} +#endif + +static float *get_window(vorb *f, int len) +{ + len <<= 1; + if (len == f->blocksize_0) return f->window[0]; + if (len == f->blocksize_1) return f->window[1]; + return nullptr; +} + +#ifndef STB_VORBIS_NO_DEFER_FLOOR +typedef int16 YTYPE; +#else +typedef int YTYPE; +#endif +static int do_floor(vorb *f, Mapping *map, int i, int n, float *target, YTYPE *finalY, uint8 *step2_flag) +{ + int n2 = n >> 1; + int s = map->chan[i].mux, floor; + floor = map->submap_floor[s]; + if (f->floor_types[floor] == 0) { + return error(f, VORBIS_invalid_stream); + } else { + Floor1 *g = &f->floor_config[floor].floor1; + int j,q; + int lx = 0, ly = finalY[0] * g->floor1_multiplier; + for (q=1; q < g->values; ++q) { + j = g->sorted_order[q]; + #ifndef STB_VORBIS_NO_DEFER_FLOOR + STBV_NOTUSED(step2_flag); + if (finalY[j] >= 0) + #else + if (step2_flag[j]) + #endif + { + int hy = finalY[j] * g->floor1_multiplier; + int hx = g->Xlist[j]; + if (lx != hx) + draw_line(target, lx,ly, hx,hy, n2); + CHECK(f); + lx = hx, ly = hy; + } + } + if (lx < n2) { + // optimization of: draw_line(target, lx,ly, n,ly, n2); + for (j=lx; j < n2; ++j) + LINE_OP(target[j], inverse_db_table[ly]); + CHECK(f); + } + } + return TRUE; +} + +// The meaning of "left" and "right" +// +// For a given frame: +// we compute samples from 0..n +// window_center is n/2 +// we'll window and mix the samples from left_start to left_end with data from the previous frame +// all of the samples from left_end to right_start can be output without mixing; however, +// this interval is 0-length except when transitioning between short and long frames +// all of the samples from right_start to right_end need to be mixed with the next frame, +// which we don't have, so those get saved in a buffer +// frame N's right_end-right_start, the number of samples to mix with the next frame, +// has to be the same as frame N+1's left_end-left_start (which they are by +// construction) + +static int vorbis_decode_initial(vorb *f, int *p_left_start, int *p_left_end, int *p_right_start, int *p_right_end, int *mode) +{ + Mode *m; + int i, n, prev, next, window_center; + f->channel_buffer_start = f->channel_buffer_end = 0; + + retry: + if (f->eof) return FALSE; + if (!maybe_start_packet(f)) + return FALSE; + // check packet type + if (get_bits(f,1) != 0) { + if (IS_PUSH_MODE(f)) + return error(f,VORBIS_bad_packet_type); + while (EOP != get8_packet(f)); + goto retry; + } + + if (f->alloc.alloc_buffer) + assert(f->alloc.alloc_buffer_length_in_bytes == f->temp_offset); + + i = get_bits(f, ilog(f->mode_count-1)); + if (i == EOP) return FALSE; + if (i >= f->mode_count) return FALSE; + *mode = i; + m = f->mode_config + i; + if (m->blockflag) { + n = f->blocksize_1; + prev = get_bits(f,1); + next = get_bits(f,1); + } else { + prev = next = 0; + n = f->blocksize_0; + } + +// WINDOWING + + window_center = n >> 1; + if (m->blockflag && !prev) { + *p_left_start = (n - f->blocksize_0) >> 2; + *p_left_end = (n + f->blocksize_0) >> 2; + } else { + *p_left_start = 0; + *p_left_end = window_center; + } + if (m->blockflag && !next) { + *p_right_start = (n*3 - f->blocksize_0) >> 2; + *p_right_end = (n*3 + f->blocksize_0) >> 2; + } else { + *p_right_start = window_center; + *p_right_end = n; + } + + return TRUE; +} + +static int vorbis_decode_packet_rest(vorb *f, int *len, Mode *m, int left_start, int left_end, int right_start, int right_end, int *p_left) +{ + Mapping *map; + int i,j,k,n,n2; + int zero_channel[256]; + int really_zero_channel[256]; + +// WINDOWING + + STBV_NOTUSED(left_end); + n = f->blocksize[m->blockflag]; + map = &f->mapping[m->mapping]; + +// FLOORS + n2 = n >> 1; + + CHECK(f); + + for (i=0; i < f->channels; ++i) { + int s = map->chan[i].mux, floor; + zero_channel[i] = FALSE; + floor = map->submap_floor[s]; + if (f->floor_types[floor] == 0) { + return error(f, VORBIS_invalid_stream); + } else { + Floor1 *g = &f->floor_config[floor].floor1; + if (get_bits(f, 1)) { + short *finalY; + uint8 step2_flag[256]; + static int range_list[4] = { 256, 128, 86, 64 }; + int range = range_list[g->floor1_multiplier-1]; + int offset = 2; + finalY = f->finalY[i]; + finalY[0] = get_bits(f, ilog(range)-1); + finalY[1] = get_bits(f, ilog(range)-1); + for (j=0; j < g->partitions; ++j) { + int pclass = g->partition_class_list[j]; + int cdim = g->class_dimensions[pclass]; + int cbits = g->class_subclasses[pclass]; + int csub = (1 << cbits)-1; + int cval = 0; + if (cbits) { + Codebook *c = f->codebooks + g->class_masterbooks[pclass]; + DECODE(cval,f,c); + } + for (k=0; k < cdim; ++k) { + int book = g->subclass_books[pclass][cval & csub]; + cval = cval >> cbits; + if (book >= 0) { + int temp; + Codebook *c = f->codebooks + book; + DECODE(temp,f,c); + finalY[offset++] = temp; + } else + finalY[offset++] = 0; + } + } + if (f->valid_bits == INVALID_BITS) goto error; // behavior according to spec + step2_flag[0] = step2_flag[1] = 1; + for (j=2; j < g->values; ++j) { + int low, high, pred, highroom, lowroom, room, val; + low = g->neighbors[j][0]; + high = g->neighbors[j][1]; + //neighbors(g->Xlist, j, &low, &high); + pred = predict_point(g->Xlist[j], g->Xlist[low], g->Xlist[high], finalY[low], finalY[high]); + val = finalY[j]; + highroom = range - pred; + lowroom = pred; + if (highroom < lowroom) + room = highroom * 2; + else + room = lowroom * 2; + if (val) { + step2_flag[low] = step2_flag[high] = 1; + step2_flag[j] = 1; + if (val >= room) + if (highroom > lowroom) + finalY[j] = val - lowroom + pred; + else + finalY[j] = pred - val + highroom - 1; + else + if (val & 1) + finalY[j] = pred - ((val+1)>>1); + else + finalY[j] = pred + (val>>1); + } else { + step2_flag[j] = 0; + finalY[j] = pred; + } + } + +#ifdef STB_VORBIS_NO_DEFER_FLOOR + do_floor(f, map, i, n, f->floor_buffers[i], finalY, step2_flag); +#else + // defer final floor computation until _after_ residue + for (j=0; j < g->values; ++j) { + if (!step2_flag[j]) + finalY[j] = -1; + } +#endif + } else { + error: + zero_channel[i] = TRUE; + } + // So we just defer everything else to later + + // at this point we've decoded the floor into buffer + } + } + CHECK(f); + // at this point we've decoded all floors + + if (f->alloc.alloc_buffer) + assert(f->alloc.alloc_buffer_length_in_bytes == f->temp_offset); + + // re-enable coupled channels if necessary + memcpy(really_zero_channel, zero_channel, sizeof(really_zero_channel[0]) * f->channels); + for (i=0; i < map->coupling_steps; ++i) + if (!zero_channel[map->chan[i].magnitude] || !zero_channel[map->chan[i].angle]) { + zero_channel[map->chan[i].magnitude] = zero_channel[map->chan[i].angle] = FALSE; + } + + CHECK(f); +// RESIDUE DECODE + for (i=0; i < map->submaps; ++i) { + float *residue_buffers[STB_VORBIS_MAX_CHANNELS]; + int r; + uint8 do_not_decode[256]; + int ch = 0; + for (j=0; j < f->channels; ++j) { + if (map->chan[j].mux == i) { + if (zero_channel[j]) { + do_not_decode[ch] = TRUE; + residue_buffers[ch] = nullptr; + } else { + do_not_decode[ch] = FALSE; + residue_buffers[ch] = f->channel_buffers[j]; + } + ++ch; + } + } + r = map->submap_residue[i]; + decode_residue(f, residue_buffers, ch, n2, r, do_not_decode); + } + + if (f->alloc.alloc_buffer) + assert(f->alloc.alloc_buffer_length_in_bytes == f->temp_offset); + CHECK(f); + +// INVERSE COUPLING + for (i = map->coupling_steps-1; i >= 0; --i) { + int n2 = n >> 1; + float *m = f->channel_buffers[map->chan[i].magnitude]; + float *a = f->channel_buffers[map->chan[i].angle ]; + for (j=0; j < n2; ++j) { + float a2,m2; + if (m[j] > 0) + if (a[j] > 0) + m2 = m[j], a2 = m[j] - a[j]; + else + a2 = m[j], m2 = m[j] + a[j]; + else + if (a[j] > 0) + m2 = m[j], a2 = m[j] + a[j]; + else + a2 = m[j], m2 = m[j] - a[j]; + m[j] = m2; + a[j] = a2; + } + } + CHECK(f); + + // finish decoding the floors +#ifndef STB_VORBIS_NO_DEFER_FLOOR + for (i=0; i < f->channels; ++i) { + if (really_zero_channel[i]) { + memset(f->channel_buffers[i], 0, sizeof(*f->channel_buffers[i]) * n2); + } else { + do_floor(f, map, i, n, f->channel_buffers[i], f->finalY[i], nullptr); + } + } +#else + for (i=0; i < f->channels; ++i) { + if (really_zero_channel[i]) { + memset(f->channel_buffers[i], 0, sizeof(*f->channel_buffers[i]) * n2); + } else { + for (j=0; j < n2; ++j) + f->channel_buffers[i][j] *= f->floor_buffers[i][j]; + } + } +#endif + +// INVERSE MDCT + CHECK(f); + for (i=0; i < f->channels; ++i) + inverse_mdct(f->channel_buffers[i], n, f, m->blockflag); + CHECK(f); + + // this shouldn't be necessary, unless we exited on an error + // and want to flush to get to the next packet + flush_packet(f); + + if (f->first_decode) { + // assume we start so first non-discarded sample is sample 0 + // this isn't to spec, but spec would require us to read ahead + // and decode the size of all current frames--could be done, + // but presumably it's not a commonly used feature + f->current_loc = 0u - n2; // start of first frame is positioned for discard (NB this is an intentional unsigned overflow/wrap-around) + // we might have to discard samples "from" the next frame too, + // if we're lapping a large block then a small at the start? + f->discard_samples_deferred = n - right_end; + f->current_loc_valid = TRUE; + f->first_decode = FALSE; + } else if (f->discard_samples_deferred) { + if (f->discard_samples_deferred >= right_start - left_start) { + f->discard_samples_deferred -= (right_start - left_start); + left_start = right_start; + *p_left = left_start; + } else { + left_start += f->discard_samples_deferred; + *p_left = left_start; + f->discard_samples_deferred = 0; + } + } else if (f->previous_length == 0 && f->current_loc_valid) { + // we're recovering from a seek... that means we're going to discard + // the samples from this packet even though we know our position from + // the last page header, so we need to update the position based on + // the discarded samples here + // but wait, the code below is going to add this in itself even + // on a discard, so we don't need to do it here... + } + + // check if we have ogg information about the sample # for this packet + if (f->last_seg_which == f->end_seg_with_known_loc) { + // if we have a valid current loc, and this is final: + if (f->current_loc_valid && (f->page_flag & PAGEFLAG_last_page)) { + uint32 current_end = f->known_loc_for_packet; + // then let's infer the size of the (probably) short final frame + if (current_end < f->current_loc + (right_end-left_start)) { + if (current_end < f->current_loc) { + // negative truncation, that's impossible! + *len = 0; + } else { + *len = current_end - f->current_loc; + } + *len += left_start; // this doesn't seem right, but has no ill effect on my test files + if (*len > right_end) *len = right_end; // this should never happen + f->current_loc += *len; + return TRUE; + } + } + // otherwise, just set our sample loc + // guess that the ogg granule pos refers to the _middle_ of the + // last frame? + // set f->current_loc to the position of left_start + f->current_loc = f->known_loc_for_packet - (n2-left_start); + f->current_loc_valid = TRUE; + } + if (f->current_loc_valid) + f->current_loc += (right_start - left_start); + + if (f->alloc.alloc_buffer) + assert(f->alloc.alloc_buffer_length_in_bytes == f->temp_offset); + *len = right_end; // ignore samples after the window goes to 0 + CHECK(f); + + return TRUE; +} + +static int vorbis_decode_packet(vorb *f, int *len, int *p_left, int *p_right) +{ + int mode, left_end, right_end; + if (!vorbis_decode_initial(f, p_left, &left_end, p_right, &right_end, &mode)) return 0; + return vorbis_decode_packet_rest(f, len, f->mode_config + mode, *p_left, left_end, *p_right, right_end, p_left); +} + +static int vorbis_finish_frame(stb_vorbis *f, int len, int left, int right) +{ + int prev,i,j; + // we use right&left (the start of the right- and left-window sin()-regions) + // to determine how much to return, rather than inferring from the rules + // (same result, clearer code); 'left' indicates where our sin() window + // starts, therefore where the previous window's right edge starts, and + // therefore where to start mixing from the previous buffer. 'right' + // indicates where our sin() ending-window starts, therefore that's where + // we start saving, and where our returned-data ends. + + // mixin from previous window + if (f->previous_length) { + int i,j, n = f->previous_length; + float *w = get_window(f, n); + if (w == nullptr) return 0; + for (i=0; i < f->channels; ++i) { + for (j=0; j < n; ++j) + f->channel_buffers[i][left+j] = + f->channel_buffers[i][left+j]*w[ j] + + f->previous_window[i][ j]*w[n-1-j]; + } + } + + prev = f->previous_length; + + // last half of this data becomes previous window + f->previous_length = len - right; + + // @OPTIMIZE: could avoid this copy by double-buffering the + // output (flipping previous_window with channel_buffers), but + // then previous_window would have to be 2x as large, and + // channel_buffers couldn't be temp mem (although they're NOT + // currently temp mem, they could be (unless we want to level + // performance by spreading out the computation)) + for (i=0; i < f->channels; ++i) + for (j=0; right+j < len; ++j) + f->previous_window[i][j] = f->channel_buffers[i][right+j]; + + if (!prev) + // there was no previous packet, so this data isn't valid... + // this isn't entirely true, only the would-have-overlapped data + // isn't valid, but this seems to be what the spec requires + return 0; + + // truncate a short frame + if (len < right) right = len; + + f->samples_output += right-left; + + return right - left; +} + +static int vorbis_pump_first_frame(stb_vorbis *f) +{ + int len, right, left, res; + res = vorbis_decode_packet(f, &len, &left, &right); + if (res) + vorbis_finish_frame(f, len, left, right); + return res; +} + +#ifndef STB_VORBIS_NO_PUSHDATA_API +static int is_whole_packet_present(stb_vorbis *f) +{ + // make sure that we have the packet available before continuing... + // this requires a full ogg parse, but we know we can fetch from f->stream + + // instead of coding this out explicitly, we could save the current read state, + // read the next packet with get8() until end-of-packet, check f->eof, then + // reset the state? but that would be slower, esp. since we'd have over 256 bytes + // of state to restore (primarily the page segment table) + + int s = f->next_seg, first = TRUE; + uint8 *p = f->stream; + + if (s != -1) { // if we're not starting the packet with a 'continue on next page' flag + for (; s < f->segment_count; ++s) { + p += f->segments[s]; + if (f->segments[s] < 255) // stop at first short segment + break; + } + // either this continues, or it ends it... + if (s == f->segment_count) + s = -1; // set 'crosses page' flag + if (p > f->stream_end) return error(f, VORBIS_need_more_data); + first = FALSE; + } + for (; s == -1;) { + uint8 *q; + int n; + + // check that we have the page header ready + if (p + 26 >= f->stream_end) return error(f, VORBIS_need_more_data); + // validate the page + if (memcmp(p, ogg_page_header, 4)) return error(f, VORBIS_invalid_stream); + if (p[4] != 0) return error(f, VORBIS_invalid_stream); + if (first) { // the first segment must NOT have 'continued_packet', later ones MUST + if (f->previous_length) + if ((p[5] & PAGEFLAG_continued_packet)) return error(f, VORBIS_invalid_stream); + // if no previous length, we're resynching, so we can come in on a continued-packet, + // which we'll just drop + } else { + if (!(p[5] & PAGEFLAG_continued_packet)) return error(f, VORBIS_invalid_stream); + } + n = p[26]; // segment counts + q = p+27; // q points to segment table + p = q + n; // advance past header + // make sure we've read the segment table + if (p > f->stream_end) return error(f, VORBIS_need_more_data); + for (s=0; s < n; ++s) { + p += q[s]; + if (q[s] < 255) + break; + } + if (s == n) + s = -1; // set 'crosses page' flag + if (p > f->stream_end) return error(f, VORBIS_need_more_data); + first = FALSE; + } + return TRUE; +} +#endif // !STB_VORBIS_NO_PUSHDATA_API + +static int start_decoder(vorb *f) +{ + uint8 header[6], x,y; + int len,i,j,k, max_submaps = 0; + int longest_floorlist=0; + + // first page, first packet + f->first_decode = TRUE; + + if (!start_page(f)) return FALSE; + // validate page flag + if (!(f->page_flag & PAGEFLAG_first_page)) return error(f, VORBIS_invalid_first_page); + if (f->page_flag & PAGEFLAG_last_page) return error(f, VORBIS_invalid_first_page); + if (f->page_flag & PAGEFLAG_continued_packet) return error(f, VORBIS_invalid_first_page); + // check for expected packet length + if (f->segment_count != 1) return error(f, VORBIS_invalid_first_page); + if (f->segments[0] != 30) { + // check for the Ogg skeleton fishead identifying header to refine our error + if (f->segments[0] == 64 && + getn(f, header, 6) && + header[0] == 'f' && + header[1] == 'i' && + header[2] == 's' && + header[3] == 'h' && + header[4] == 'e' && + header[5] == 'a' && + get8(f) == 'd' && + get8(f) == '\0') return error(f, VORBIS_ogg_skeleton_not_supported); + else + return error(f, VORBIS_invalid_first_page); + } + + // read packet + // check packet header + if (get8(f) != VORBIS_packet_id) return error(f, VORBIS_invalid_first_page); + if (!getn(f, header, 6)) return error(f, VORBIS_unexpected_eof); + if (!vorbis_validate(header)) return error(f, VORBIS_invalid_first_page); + // vorbis_version + if (get32(f) != 0) return error(f, VORBIS_invalid_first_page); + f->channels = get8(f); if (!f->channels) return error(f, VORBIS_invalid_first_page); + if (f->channels > STB_VORBIS_MAX_CHANNELS) return error(f, VORBIS_too_many_channels); + f->sample_rate = get32(f); if (!f->sample_rate) return error(f, VORBIS_invalid_first_page); + get32(f); // bitrate_maximum + get32(f); // bitrate_nominal + get32(f); // bitrate_minimum + x = get8(f); + { + int log0,log1; + log0 = x & 15; + log1 = x >> 4; + f->blocksize_0 = 1 << log0; + f->blocksize_1 = 1 << log1; + if (log0 < 6 || log0 > 13) return error(f, VORBIS_invalid_setup); + if (log1 < 6 || log1 > 13) return error(f, VORBIS_invalid_setup); + if (log0 > log1) return error(f, VORBIS_invalid_setup); + } + + // framing_flag + x = get8(f); + if (!(x & 1)) return error(f, VORBIS_invalid_first_page); + + // second packet! + if (!start_page(f)) return FALSE; + + if (!start_packet(f)) return FALSE; + + if (!next_segment(f)) return FALSE; + + if (get8_packet(f) != VORBIS_packet_comment) return error(f, VORBIS_invalid_setup); + for (i=0; i < 6; ++i) header[i] = get8_packet(f); + if (!vorbis_validate(header)) return error(f, VORBIS_invalid_setup); + //file vendor + len = get32_packet(f); + f->vendor = (char*)setup_malloc(f, sizeof(char) * (len+1)); + if (f->vendor == nullptr) return error(f, VORBIS_outofmem); + for(i=0; i < len; ++i) { + f->vendor[i] = get8_packet(f); + } + f->vendor[len] = (char)'\0'; + //user comments + f->comment_list_length = get32_packet(f); + f->comment_list = nullptr; + if (f->comment_list_length > 0) + { + f->comment_list = (char**) setup_malloc(f, sizeof(char*) * (f->comment_list_length)); + if (f->comment_list == nullptr) return error(f, VORBIS_outofmem); + } + + for(i=0; i < f->comment_list_length; ++i) { + len = get32_packet(f); + f->comment_list[i] = (char*)setup_malloc(f, sizeof(char) * (len+1)); + if (f->comment_list[i] == nullptr) return error(f, VORBIS_outofmem); + + for(j=0; j < len; ++j) { + f->comment_list[i][j] = get8_packet(f); + } + f->comment_list[i][len] = (char)'\0'; + } + + // framing_flag + x = get8_packet(f); + if (!(x & 1)) return error(f, VORBIS_invalid_setup); + + + skip(f, f->bytes_in_seg); + f->bytes_in_seg = 0; + + do { + len = next_segment(f); + skip(f, len); + f->bytes_in_seg = 0; + } while (len); + + // third packet! + if (!start_packet(f)) return FALSE; + + #ifndef STB_VORBIS_NO_PUSHDATA_API + if (IS_PUSH_MODE(f)) { + if (!is_whole_packet_present(f)) { + // convert error in ogg header to write type + if (f->error == VORBIS_invalid_stream) + f->error = VORBIS_invalid_setup; + return FALSE; + } + } + #endif + + crc32_init(); // always init it, to avoid multithread race conditions + + if (get8_packet(f) != VORBIS_packet_setup) return error(f, VORBIS_invalid_setup); + for (i=0; i < 6; ++i) header[i] = get8_packet(f); + if (!vorbis_validate(header)) return error(f, VORBIS_invalid_setup); + + // codebooks + + f->codebook_count = get_bits(f,8) + 1; + f->codebooks = (Codebook *) setup_malloc(f, sizeof(*f->codebooks) * f->codebook_count); + if (f->codebooks == nullptr) return error(f, VORBIS_outofmem); + memset(f->codebooks, 0, sizeof(*f->codebooks) * f->codebook_count); + for (i=0; i < f->codebook_count; ++i) { + uint32 *values; + int ordered, sorted_count; + int total=0; + uint8 *lengths; + Codebook *c = f->codebooks+i; + CHECK(f); + x = get_bits(f, 8); if (x != 0x42) return error(f, VORBIS_invalid_setup); + x = get_bits(f, 8); if (x != 0x43) return error(f, VORBIS_invalid_setup); + x = get_bits(f, 8); if (x != 0x56) return error(f, VORBIS_invalid_setup); + x = get_bits(f, 8); + c->dimensions = (get_bits(f, 8)<<8) + x; + x = get_bits(f, 8); + y = get_bits(f, 8); + c->entries = (get_bits(f, 8)<<16) + (y<<8) + x; + ordered = get_bits(f,1); + c->sparse = ordered ? 0 : get_bits(f,1); + + if (c->dimensions == 0 && c->entries != 0) return error(f, VORBIS_invalid_setup); + + if (c->sparse) + lengths = (uint8 *) setup_temp_malloc(f, c->entries); + else + lengths = c->codeword_lengths = (uint8 *) setup_malloc(f, c->entries); + + if (!lengths) return error(f, VORBIS_outofmem); + + if (ordered) { + int current_entry = 0; + int current_length = get_bits(f,5) + 1; + while (current_entry < c->entries) { + int limit = c->entries - current_entry; + int n = get_bits(f, ilog(limit)); + if (current_length >= 32) return error(f, VORBIS_invalid_setup); + if (current_entry + n > (int) c->entries) { return error(f, VORBIS_invalid_setup); } + memset(lengths + current_entry, current_length, n); + current_entry += n; + ++current_length; + } + } else { + for (j=0; j < c->entries; ++j) { + int present = c->sparse ? get_bits(f,1) : 1; + if (present) { + lengths[j] = get_bits(f, 5) + 1; + ++total; + if (lengths[j] == 32) + return error(f, VORBIS_invalid_setup); + } else { + lengths[j] = NO_CODE; + } + } + } + + if (c->sparse && total >= c->entries >> 2) { + // convert sparse items to non-sparse! + if (c->entries > (int) f->setup_temp_memory_required) + f->setup_temp_memory_required = c->entries; + + c->codeword_lengths = (uint8 *) setup_malloc(f, c->entries); + if (c->codeword_lengths == nullptr) return error(f, VORBIS_outofmem); + memcpy(c->codeword_lengths, lengths, c->entries); + setup_temp_free(f, lengths, c->entries); // note this is only safe if there have been no intervening temp mallocs! + lengths = c->codeword_lengths; + c->sparse = 0; + } + + // compute the size of the sorted tables + if (c->sparse) { + sorted_count = total; + } else { + sorted_count = 0; + #ifndef STB_VORBIS_NO_HUFFMAN_BINARY_SEARCH + for (j=0; j < c->entries; ++j) + if (lengths[j] > STB_VORBIS_FAST_HUFFMAN_LENGTH && lengths[j] != NO_CODE) + ++sorted_count; + #endif + } + + c->sorted_entries = sorted_count; + values = nullptr; + + CHECK(f); + if (!c->sparse) { + c->codewords = (uint32 *) setup_malloc(f, sizeof(c->codewords[0]) * c->entries); + if (!c->codewords) return error(f, VORBIS_outofmem); + } else { + unsigned int size; + if (c->sorted_entries) { + c->codeword_lengths = (uint8 *) setup_malloc(f, c->sorted_entries); + if (!c->codeword_lengths) return error(f, VORBIS_outofmem); + c->codewords = (uint32 *) setup_temp_malloc(f, sizeof(*c->codewords) * c->sorted_entries); + if (!c->codewords) return error(f, VORBIS_outofmem); + values = (uint32 *) setup_temp_malloc(f, sizeof(*values) * c->sorted_entries); + if (!values) return error(f, VORBIS_outofmem); + } + size = c->entries + (sizeof(*c->codewords) + sizeof(*values)) * c->sorted_entries; + if (size > f->setup_temp_memory_required) + f->setup_temp_memory_required = size; + } + + if (!compute_codewords(c, lengths, c->entries, values)) { + if (c->sparse) setup_temp_free(f, values, 0); + return error(f, VORBIS_invalid_setup); + } + + if (c->sorted_entries) { + // allocate an extra slot for sentinels + c->sorted_codewords = (uint32 *) setup_malloc(f, sizeof(*c->sorted_codewords) * (c->sorted_entries+1)); + if (c->sorted_codewords == nullptr) return error(f, VORBIS_outofmem); + // allocate an extra slot at the front so that c->sorted_values[-1] is defined + // so that we can catch that case without an extra if + c->sorted_values = ( int *) setup_malloc(f, sizeof(*c->sorted_values ) * (c->sorted_entries+1)); + if (c->sorted_values == nullptr) return error(f, VORBIS_outofmem); + ++c->sorted_values; + c->sorted_values[-1] = -1; + compute_sorted_huffman(c, lengths, values); + } + + if (c->sparse) { + setup_temp_free(f, values, sizeof(*values)*c->sorted_entries); + setup_temp_free(f, c->codewords, sizeof(*c->codewords)*c->sorted_entries); + setup_temp_free(f, lengths, c->entries); + c->codewords = nullptr; + } + + compute_accelerated_huffman(c); + + CHECK(f); + c->lookup_type = get_bits(f, 4); + if (c->lookup_type > 2) return error(f, VORBIS_invalid_setup); + if (c->lookup_type > 0) { + uint16 *mults; + c->minimum_value = float32_unpack(get_bits(f, 32)); + c->delta_value = float32_unpack(get_bits(f, 32)); + c->value_bits = get_bits(f, 4)+1; + c->sequence_p = get_bits(f,1); + if (c->lookup_type == 1) { + int values = lookup1_values(c->entries, c->dimensions); + if (values < 0) return error(f, VORBIS_invalid_setup); + c->lookup_values = (uint32) values; + } else { + c->lookup_values = c->entries * c->dimensions; + } + if (c->lookup_values == 0) return error(f, VORBIS_invalid_setup); + mults = (uint16 *) setup_temp_malloc(f, sizeof(mults[0]) * c->lookup_values); + if (mults == nullptr) return error(f, VORBIS_outofmem); + for (j=0; j < (int) c->lookup_values; ++j) { + int q = get_bits(f, c->value_bits); + if (q == EOP) { setup_temp_free(f,mults,sizeof(mults[0])*c->lookup_values); return error(f, VORBIS_invalid_setup); } + mults[j] = q; + } + +#ifndef STB_VORBIS_DIVIDES_IN_CODEBOOK + if (c->lookup_type == 1) { + int len, sparse = c->sparse; + float last=0; + // pre-expand the lookup1-style multiplicands, to avoid a divide in the inner loop + if (sparse) { + if (c->sorted_entries == 0) goto skip; + c->multiplicands = (codetype *) setup_malloc(f, sizeof(c->multiplicands[0]) * c->sorted_entries * c->dimensions); + } else + c->multiplicands = (codetype *) setup_malloc(f, sizeof(c->multiplicands[0]) * c->entries * c->dimensions); + if (c->multiplicands == nullptr) { setup_temp_free(f,mults,sizeof(mults[0])*c->lookup_values); return error(f, VORBIS_outofmem); } + len = sparse ? c->sorted_entries : c->entries; + for (j=0; j < len; ++j) { + unsigned int z = sparse ? c->sorted_values[j] : j; + unsigned int div=1; + for (k=0; k < c->dimensions; ++k) { + int off = (z / div) % c->lookup_values; + float val = mults[off]*c->delta_value + c->minimum_value + last; + c->multiplicands[j*c->dimensions + k] = val; + if (c->sequence_p) + last = val; + if (k+1 < c->dimensions) { + if (div > UINT_MAX / (unsigned int) c->lookup_values) { + setup_temp_free(f, mults,sizeof(mults[0])*c->lookup_values); + return error(f, VORBIS_invalid_setup); + } + div *= c->lookup_values; + } + } + } + c->lookup_type = 2; + } + else +#endif + { + float last=0; + CHECK(f); + c->multiplicands = (codetype *) setup_malloc(f, sizeof(c->multiplicands[0]) * c->lookup_values); + if (c->multiplicands == nullptr) { setup_temp_free(f, mults,sizeof(mults[0])*c->lookup_values); return error(f, VORBIS_outofmem); } + for (j=0; j < (int) c->lookup_values; ++j) { + float val = mults[j] * c->delta_value + c->minimum_value + last; + c->multiplicands[j] = val; + if (c->sequence_p) + last = val; + } + } +#ifndef STB_VORBIS_DIVIDES_IN_CODEBOOK + skip:; +#endif + setup_temp_free(f, mults, sizeof(mults[0])*c->lookup_values); + + CHECK(f); + } + CHECK(f); + } + + // time domain transfers (notused) + + x = get_bits(f, 6) + 1; + for (i=0; i < x; ++i) { + uint32 z = get_bits(f, 16); + if (z != 0) return error(f, VORBIS_invalid_setup); + } + + // Floors + f->floor_count = get_bits(f, 6)+1; + f->floor_config = (Floor *) setup_malloc(f, f->floor_count * sizeof(*f->floor_config)); + if (f->floor_config == nullptr) return error(f, VORBIS_outofmem); + for (i=0; i < f->floor_count; ++i) { + f->floor_types[i] = get_bits(f, 16); + if (f->floor_types[i] > 1) return error(f, VORBIS_invalid_setup); + if (f->floor_types[i] == 0) { + Floor0 *g = &f->floor_config[i].floor0; + g->order = get_bits(f,8); + g->rate = get_bits(f,16); + g->bark_map_size = get_bits(f,16); + g->amplitude_bits = get_bits(f,6); + g->amplitude_offset = get_bits(f,8); + g->number_of_books = get_bits(f,4) + 1; + for (j=0; j < g->number_of_books; ++j) + g->book_list[j] = get_bits(f,8); + return error(f, VORBIS_feature_not_supported); + } else { + stbv__floor_ordering p[31*8+2]; + Floor1 *g = &f->floor_config[i].floor1; + int max_class = -1; + g->partitions = get_bits(f, 5); + for (j=0; j < g->partitions; ++j) { + g->partition_class_list[j] = get_bits(f, 4); + if (g->partition_class_list[j] > max_class) + max_class = g->partition_class_list[j]; + } + for (j=0; j <= max_class; ++j) { + g->class_dimensions[j] = get_bits(f, 3)+1; + g->class_subclasses[j] = get_bits(f, 2); + if (g->class_subclasses[j]) { + g->class_masterbooks[j] = get_bits(f, 8); + if (g->class_masterbooks[j] >= f->codebook_count) return error(f, VORBIS_invalid_setup); + } + for (k=0; k < 1 << g->class_subclasses[j]; ++k) { + g->subclass_books[j][k] = (int16)get_bits(f,8)-1; + if (g->subclass_books[j][k] >= f->codebook_count) return error(f, VORBIS_invalid_setup); + } + } + g->floor1_multiplier = get_bits(f,2)+1; + g->rangebits = get_bits(f,4); + g->Xlist[0] = 0; + g->Xlist[1] = 1 << g->rangebits; + g->values = 2; + for (j=0; j < g->partitions; ++j) { + int c = g->partition_class_list[j]; + for (k=0; k < g->class_dimensions[c]; ++k) { + g->Xlist[g->values] = get_bits(f, g->rangebits); + ++g->values; + } + } + // precompute the sorting + for (j=0; j < g->values; ++j) { + p[j].x = g->Xlist[j]; + p[j].id = j; + } + qsort(p, g->values, sizeof(p[0]), point_compare); + for (j=0; j < g->values-1; ++j) + if (p[j].x == p[j+1].x) + return error(f, VORBIS_invalid_setup); + for (j=0; j < g->values; ++j) + g->sorted_order[j] = (uint8) p[j].id; + // precompute the neighbors + for (j=2; j < g->values; ++j) { + int low = 0,hi = 0; + neighbors(g->Xlist, j, &low,&hi); + g->neighbors[j][0] = low; + g->neighbors[j][1] = hi; + } + + if (g->values > longest_floorlist) + longest_floorlist = g->values; + } + } + + // Residue + f->residue_count = get_bits(f, 6)+1; + f->residue_config = (Residue *) setup_malloc(f, f->residue_count * sizeof(f->residue_config[0])); + if (f->residue_config == nullptr) return error(f, VORBIS_outofmem); + memset(f->residue_config, 0, f->residue_count * sizeof(f->residue_config[0])); + for (i=0; i < f->residue_count; ++i) { + uint8 residue_cascade[64]; + Residue *r = f->residue_config+i; + f->residue_types[i] = get_bits(f, 16); + if (f->residue_types[i] > 2) return error(f, VORBIS_invalid_setup); + r->begin = get_bits(f, 24); + r->end = get_bits(f, 24); + if (r->end < r->begin) return error(f, VORBIS_invalid_setup); + r->part_size = get_bits(f,24)+1; + r->classifications = get_bits(f,6)+1; + r->classbook = get_bits(f,8); + if (r->classbook >= f->codebook_count) return error(f, VORBIS_invalid_setup); + for (j=0; j < r->classifications; ++j) { + uint8 high_bits=0; + uint8 low_bits=get_bits(f,3); + if (get_bits(f,1)) + high_bits = get_bits(f,5); + residue_cascade[j] = high_bits*8 + low_bits; + } + r->residue_books = (short (*)[8]) setup_malloc(f, sizeof(r->residue_books[0]) * r->classifications); + if (r->residue_books == nullptr) return error(f, VORBIS_outofmem); + for (j=0; j < r->classifications; ++j) { + for (k=0; k < 8; ++k) { + if (residue_cascade[j] & (1 << k)) { + r->residue_books[j][k] = get_bits(f, 8); + if (r->residue_books[j][k] >= f->codebook_count) return error(f, VORBIS_invalid_setup); + } else { + r->residue_books[j][k] = -1; + } + } + } + // precompute the classifications[] array to avoid inner-loop mod/divide + // call it 'classdata' since we already have r->classifications + r->classdata = (uint8 **) setup_malloc(f, sizeof(*r->classdata) * f->codebooks[r->classbook].entries); + if (!r->classdata) return error(f, VORBIS_outofmem); + memset(r->classdata, 0, sizeof(*r->classdata) * f->codebooks[r->classbook].entries); + for (j=0; j < f->codebooks[r->classbook].entries; ++j) { + int classwords = f->codebooks[r->classbook].dimensions; + int temp = j; + r->classdata[j] = (uint8 *) setup_malloc(f, sizeof(r->classdata[j][0]) * classwords); + if (r->classdata[j] == nullptr) return error(f, VORBIS_outofmem); + for (k=classwords-1; k >= 0; --k) { + r->classdata[j][k] = temp % r->classifications; + temp /= r->classifications; + } + } + } + + f->mapping_count = get_bits(f,6)+1; + f->mapping = (Mapping *) setup_malloc(f, f->mapping_count * sizeof(*f->mapping)); + if (f->mapping == nullptr) return error(f, VORBIS_outofmem); + memset(f->mapping, 0, f->mapping_count * sizeof(*f->mapping)); + for (i=0; i < f->mapping_count; ++i) { + Mapping *m = f->mapping + i; + int mapping_type = get_bits(f,16); + if (mapping_type != 0) return error(f, VORBIS_invalid_setup); + m->chan = (MappingChannel *) setup_malloc(f, f->channels * sizeof(*m->chan)); + if (m->chan == nullptr) return error(f, VORBIS_outofmem); + if (get_bits(f,1)) + m->submaps = get_bits(f,4)+1; + else + m->submaps = 1; + if (m->submaps > max_submaps) + max_submaps = m->submaps; + if (get_bits(f,1)) { + m->coupling_steps = get_bits(f,8)+1; + if (m->coupling_steps > f->channels) return error(f, VORBIS_invalid_setup); + for (k=0; k < m->coupling_steps; ++k) { + m->chan[k].magnitude = get_bits(f, ilog(f->channels-1)); + m->chan[k].angle = get_bits(f, ilog(f->channels-1)); + if (m->chan[k].magnitude >= f->channels) return error(f, VORBIS_invalid_setup); + if (m->chan[k].angle >= f->channels) return error(f, VORBIS_invalid_setup); + if (m->chan[k].magnitude == m->chan[k].angle) return error(f, VORBIS_invalid_setup); + } + } else + m->coupling_steps = 0; + + // reserved field + if (get_bits(f,2)) return error(f, VORBIS_invalid_setup); + if (m->submaps > 1) { + for (j=0; j < f->channels; ++j) { + m->chan[j].mux = get_bits(f, 4); + if (m->chan[j].mux >= m->submaps) return error(f, VORBIS_invalid_setup); + } + } else + // @SPECIFICATION: this case is missing from the spec + for (j=0; j < f->channels; ++j) + m->chan[j].mux = 0; + + for (j=0; j < m->submaps; ++j) { + get_bits(f,8); // discard + m->submap_floor[j] = get_bits(f,8); + m->submap_residue[j] = get_bits(f,8); + if (m->submap_floor[j] >= f->floor_count) return error(f, VORBIS_invalid_setup); + if (m->submap_residue[j] >= f->residue_count) return error(f, VORBIS_invalid_setup); + } + } + + // Modes + f->mode_count = get_bits(f, 6)+1; + for (i=0; i < f->mode_count; ++i) { + Mode *m = f->mode_config+i; + m->blockflag = get_bits(f,1); + m->windowtype = get_bits(f,16); + m->transformtype = get_bits(f,16); + m->mapping = get_bits(f,8); + if (m->windowtype != 0) return error(f, VORBIS_invalid_setup); + if (m->transformtype != 0) return error(f, VORBIS_invalid_setup); + if (m->mapping >= f->mapping_count) return error(f, VORBIS_invalid_setup); + } + + flush_packet(f); + + f->previous_length = 0; + + for (i=0; i < f->channels; ++i) { + f->channel_buffers[i] = (float *) setup_malloc(f, sizeof(float) * f->blocksize_1); + f->previous_window[i] = (float *) setup_malloc(f, sizeof(float) * f->blocksize_1/2); + f->finalY[i] = (int16 *) setup_malloc(f, sizeof(int16) * longest_floorlist); + if (f->channel_buffers[i] == nullptr || f->previous_window[i] == nullptr || f->finalY[i] == nullptr) return error(f, VORBIS_outofmem); + memset(f->channel_buffers[i], 0, sizeof(float) * f->blocksize_1); + #ifdef STB_VORBIS_NO_DEFER_FLOOR + f->floor_buffers[i] = (float *) setup_malloc(f, sizeof(float) * f->blocksize_1/2); + if (f->floor_buffers[i] == nullptr) return error(f, VORBIS_outofmem); + #endif + } + + if (!init_blocksize(f, 0, f->blocksize_0)) return FALSE; + if (!init_blocksize(f, 1, f->blocksize_1)) return FALSE; + f->blocksize[0] = f->blocksize_0; + f->blocksize[1] = f->blocksize_1; + +#ifdef STB_VORBIS_DIVIDE_TABLE + if (integer_divide_table[1][1]==0) + for (i=0; i < DIVTAB_NUMER; ++i) + for (j=1; j < DIVTAB_DENOM; ++j) + integer_divide_table[i][j] = i / j; +#endif + + // compute how much temporary memory is needed + + // 1. + { + uint32 imdct_mem = (f->blocksize_1 * sizeof(float) >> 1); + uint32 classify_mem; + int i,max_part_read=0; + for (i=0; i < f->residue_count; ++i) { + Residue *r = f->residue_config + i; + unsigned int actual_size = f->blocksize_1 / 2; + unsigned int limit_r_begin = r->begin < actual_size ? r->begin : actual_size; + unsigned int limit_r_end = r->end < actual_size ? r->end : actual_size; + int n_read = limit_r_end - limit_r_begin; + int part_read = n_read / r->part_size; + if (part_read > max_part_read) + max_part_read = part_read; + } + #ifndef STB_VORBIS_DIVIDES_IN_RESIDUE + classify_mem = f->channels * (sizeof(void*) + max_part_read * sizeof(uint8 *)); + #else + classify_mem = f->channels * (sizeof(void*) + max_part_read * sizeof(int *)); + #endif + + // maximum reasonable partition size is f->blocksize_1 + + f->temp_memory_required = classify_mem; + if (imdct_mem > f->temp_memory_required) + f->temp_memory_required = imdct_mem; + } + + + if (f->alloc.alloc_buffer) { + assert(f->temp_offset == f->alloc.alloc_buffer_length_in_bytes); + // check if there's enough temp memory so we don't error later + if (f->setup_offset + sizeof(*f) + f->temp_memory_required > (unsigned) f->temp_offset) + return error(f, VORBIS_outofmem); + } + + // @TODO: stb_vorbis_seek_start expects first_audio_page_offset to point to a page + // without PAGEFLAG_continued_packet, so this either points to the first page, or + // the page after the end of the headers. It might be cleaner to point to a page + // in the middle of the headers, when that's the page where the first audio packet + // starts, but we'd have to also correctly skip the end of any continued packet in + // stb_vorbis_seek_start. + if (f->next_seg == -1) { + f->first_audio_page_offset = stb_vorbis_get_file_offset(f); + } else { + f->first_audio_page_offset = 0; + } + + return TRUE; +} + +static void vorbis_deinit(stb_vorbis *p) +{ + int i,j; + + setup_free(p, p->vendor); + for (i=0; i < p->comment_list_length; ++i) { + setup_free(p, p->comment_list[i]); + } + setup_free(p, p->comment_list); + + if (p->residue_config) { + for (i=0; i < p->residue_count; ++i) { + Residue *r = p->residue_config+i; + if (r->classdata) { + for (j=0; j < p->codebooks[r->classbook].entries; ++j) + setup_free(p, r->classdata[j]); + setup_free(p, r->classdata); + } + setup_free(p, r->residue_books); + } + } + + if (p->codebooks) { + CHECK(p); + for (i=0; i < p->codebook_count; ++i) { + Codebook *c = p->codebooks + i; + setup_free(p, c->codeword_lengths); + setup_free(p, c->multiplicands); + setup_free(p, c->codewords); + setup_free(p, c->sorted_codewords); + // c->sorted_values[-1] is the first entry in the array + setup_free(p, c->sorted_values ? c->sorted_values-1 : nullptr); + } + setup_free(p, p->codebooks); + } + setup_free(p, p->floor_config); + setup_free(p, p->residue_config); + if (p->mapping) { + for (i=0; i < p->mapping_count; ++i) + setup_free(p, p->mapping[i].chan); + setup_free(p, p->mapping); + } + CHECK(p); + for (i=0; i < p->channels && i < STB_VORBIS_MAX_CHANNELS; ++i) { + setup_free(p, p->channel_buffers[i]); + setup_free(p, p->previous_window[i]); + #ifdef STB_VORBIS_NO_DEFER_FLOOR + setup_free(p, p->floor_buffers[i]); + #endif + setup_free(p, p->finalY[i]); + } + for (i=0; i < 2; ++i) { + setup_free(p, p->A[i]); + setup_free(p, p->B[i]); + setup_free(p, p->C[i]); + setup_free(p, p->window[i]); + setup_free(p, p->bit_reverse[i]); + } + #ifndef STB_VORBIS_NO_STDIO + if (p->close_on_free) fclose(p->f); + #endif +} + +void stb_vorbis_close(stb_vorbis *p) +{ + if (p == nullptr) return; + vorbis_deinit(p); + setup_free(p,p); +} + +static void vorbis_init(stb_vorbis *p, const stb_vorbis_alloc *z) +{ + memset(p, 0, sizeof(*p)); // nullptr out all malloc'd pointers to start + if (z) { + p->alloc = *z; + p->alloc.alloc_buffer_length_in_bytes &= ~7; + p->temp_offset = p->alloc.alloc_buffer_length_in_bytes; + } + p->eof = 0; + p->error = VORBIS__no_error; + p->stream = nullptr; + p->codebooks = nullptr; + p->page_crc_tests = -1; + #ifndef STB_VORBIS_NO_STDIO + p->close_on_free = FALSE; + p->f = nullptr; + #endif +} + +int stb_vorbis_get_sample_offset(stb_vorbis *f) +{ + if (f->current_loc_valid) + return f->current_loc; + else + return -1; +} + +stb_vorbis_info stb_vorbis_get_info(stb_vorbis *f) +{ + stb_vorbis_info d; + d.channels = f->channels; + d.sample_rate = f->sample_rate; + d.setup_memory_required = f->setup_memory_required; + d.setup_temp_memory_required = f->setup_temp_memory_required; + d.temp_memory_required = f->temp_memory_required; + d.max_frame_size = f->blocksize_1 >> 1; + return d; +} + +stb_vorbis_comment stb_vorbis_get_comment(stb_vorbis *f) +{ + stb_vorbis_comment d; + d.vendor = f->vendor; + d.comment_list_length = f->comment_list_length; + d.comment_list = f->comment_list; + return d; +} + +int stb_vorbis_get_error(stb_vorbis *f) +{ + int e = f->error; + f->error = VORBIS__no_error; + return e; +} + +static stb_vorbis * vorbis_alloc(stb_vorbis *f) +{ + stb_vorbis *p = (stb_vorbis *) setup_malloc(f, sizeof(*p)); + return p; +} + +#ifndef STB_VORBIS_NO_PUSHDATA_API + +void stb_vorbis_flush_pushdata(stb_vorbis *f) +{ + f->previous_length = 0; + f->page_crc_tests = 0; + f->discard_samples_deferred = 0; + f->current_loc_valid = FALSE; + f->first_decode = FALSE; + f->samples_output = 0; + f->channel_buffer_start = 0; + f->channel_buffer_end = 0; +} + +static int vorbis_search_for_page_pushdata(vorb *f, uint8 *data, int data_len) +{ + int i,n; + for (i=0; i < f->page_crc_tests; ++i) + f->scan[i].bytes_done = 0; + + // if we have room for more scans, search for them first, because + // they may cause us to stop early if their header is incomplete + if (f->page_crc_tests < STB_VORBIS_PUSHDATA_CRC_COUNT) { + if (data_len < 4) return 0; + data_len -= 3; // need to look for 4-byte sequence, so don't miss + // one that straddles a boundary + for (i=0; i < data_len; ++i) { + if (data[i] == 0x4f) { + if (0==memcmp(data+i, ogg_page_header, 4)) { + int j,len; + uint32 crc; + // make sure we have the whole page header + if (i+26 >= data_len || i+27+data[i+26] >= data_len) { + // only read up to this page start, so hopefully we'll + // have the whole page header start next time + data_len = i; + break; + } + // ok, we have it all; compute the length of the page + len = 27 + data[i+26]; + for (j=0; j < data[i+26]; ++j) + len += data[i+27+j]; + // scan everything up to the embedded crc (which we must 0) + crc = 0; + for (j=0; j < 22; ++j) + crc = crc32_update(crc, data[i+j]); + // now process 4 0-bytes + for ( ; j < 26; ++j) + crc = crc32_update(crc, 0); + // len is the total number of bytes we need to scan + n = f->page_crc_tests++; + f->scan[n].bytes_left = len-j; + f->scan[n].crc_so_far = crc; + f->scan[n].goal_crc = data[i+22] + (data[i+23] << 8) + (data[i+24]<<16) + (data[i+25]<<24); + // if the last frame on a page is continued to the next, then + // we can't recover the sample_loc immediately + if (data[i+27+data[i+26]-1] == 255) + f->scan[n].sample_loc = ~0; + else + f->scan[n].sample_loc = data[i+6] + (data[i+7] << 8) + (data[i+ 8]<<16) + (data[i+ 9]<<24); + f->scan[n].bytes_done = i+j; + if (f->page_crc_tests == STB_VORBIS_PUSHDATA_CRC_COUNT) + break; + // keep going if we still have room for more + } + } + } + } + + for (i=0; i < f->page_crc_tests;) { + uint32 crc; + int j; + int n = f->scan[i].bytes_done; + int m = f->scan[i].bytes_left; + if (m > data_len - n) m = data_len - n; + // m is the bytes to scan in the current chunk + crc = f->scan[i].crc_so_far; + for (j=0; j < m; ++j) + crc = crc32_update(crc, data[n+j]); + f->scan[i].bytes_left -= m; + f->scan[i].crc_so_far = crc; + if (f->scan[i].bytes_left == 0) { + // does it match? + if (f->scan[i].crc_so_far == f->scan[i].goal_crc) { + // Houston, we have page + data_len = n+m; // consumption amount is wherever that scan ended + f->page_crc_tests = -1; // drop out of page scan mode + f->previous_length = 0; // decode-but-don't-output one frame + f->next_seg = -1; // start a new page + f->current_loc = f->scan[i].sample_loc; // set the current sample location + // to the amount we'd have decoded had we decoded this page + f->current_loc_valid = f->current_loc != ~0U; + return data_len; + } + // delete entry + f->scan[i] = f->scan[--f->page_crc_tests]; + } else { + ++i; + } + } + + return data_len; +} + +// return value: number of bytes we used +int stb_vorbis_decode_frame_pushdata( + stb_vorbis *f, // the file we're decoding + const uint8 *data, int data_len, // the memory available for decoding + int *channels, // place to write number of float * buffers + float ***output, // place to write float ** array of float * buffers + int *samples // place to write number of output samples + ) +{ + int i; + int len,right,left; + + if (!IS_PUSH_MODE(f)) return error(f, VORBIS_invalid_api_mixing); + + if (f->page_crc_tests >= 0) { + *samples = 0; + return vorbis_search_for_page_pushdata(f, (uint8 *) data, data_len); + } + + f->stream = (uint8 *) data; + f->stream_end = (uint8 *) data + data_len; + f->error = VORBIS__no_error; + + // check that we have the entire packet in memory + if (!is_whole_packet_present(f)) { + *samples = 0; + return 0; + } + + if (!vorbis_decode_packet(f, &len, &left, &right)) { + // save the actual error we encountered + enum STBVorbisError error = f->error; + if (error == VORBIS_bad_packet_type) { + // flush and resynch + f->error = VORBIS__no_error; + while (get8_packet(f) != EOP) + if (f->eof) break; + *samples = 0; + return (int) (f->stream - data); + } + if (error == VORBIS_continued_packet_flag_invalid) { + if (f->previous_length == 0) { + // we may be resynching, in which case it's ok to hit one + // of these; just discard the packet + f->error = VORBIS__no_error; + while (get8_packet(f) != EOP) + if (f->eof) break; + *samples = 0; + return (int) (f->stream - data); + } + } + // if we get an error while parsing, what to do? + // well, it DEFINITELY won't work to continue from where we are! + stb_vorbis_flush_pushdata(f); + // restore the error that actually made us bail + f->error = error; + *samples = 0; + return 1; + } + + // success! + len = vorbis_finish_frame(f, len, left, right); + for (i=0; i < f->channels; ++i) + f->outputs[i] = f->channel_buffers[i] + left; + + if (channels) *channels = f->channels; + *samples = len; + *output = f->outputs; + return (int) (f->stream - data); +} + +stb_vorbis *stb_vorbis_open_pushdata( + const unsigned char *data, int data_len, // the memory available for decoding + int *data_used, // only defined if result is not nullptr + int *error, const stb_vorbis_alloc *alloc) +{ + stb_vorbis *f, p; + vorbis_init(&p, alloc); + p.stream = (uint8 *) data; + p.stream_end = (uint8 *) data + data_len; + p.push_mode = TRUE; + if (!start_decoder(&p)) { + if (p.eof) + *error = VORBIS_need_more_data; + else + *error = p.error; + vorbis_deinit(&p); + return nullptr; + } + f = vorbis_alloc(&p); + if (f) { + *f = p; + *data_used = (int) (f->stream - data); + *error = 0; + return f; + } else { + vorbis_deinit(&p); + return nullptr; + } +} +#endif // STB_VORBIS_NO_PUSHDATA_API + +unsigned int stb_vorbis_get_file_offset(stb_vorbis *f) +{ + #ifndef STB_VORBIS_NO_PUSHDATA_API + if (f->push_mode) return 0; + #endif + if (USE_MEMORY(f)) return (unsigned int) (f->stream - f->stream_start); + #ifndef STB_VORBIS_NO_STDIO + return (unsigned int) (ftell(f->f) - f->f_start); + #endif +} + +#ifndef STB_VORBIS_NO_PULLDATA_API +// +// DATA-PULLING API +// + +static uint32 vorbis_find_page(stb_vorbis *f, uint32 *end, uint32 *last) +{ + for(;;) { + int n; + if (f->eof) return 0; + n = get8(f); + if (n == 0x4f) { // page header candidate + unsigned int retry_loc = stb_vorbis_get_file_offset(f); + int i; + // check if we're off the end of a file_section stream + if (retry_loc - 25 > f->stream_len) + return 0; + // check the rest of the header + for (i=1; i < 4; ++i) + if (get8(f) != ogg_page_header[i]) + break; + if (f->eof) return 0; + if (i == 4) { + uint8 header[27]; + uint32 i, crc, goal, len; + for (i=0; i < 4; ++i) + header[i] = ogg_page_header[i]; + for (; i < 27; ++i) + header[i] = get8(f); + if (f->eof) return 0; + if (header[4] != 0) goto invalid; + goal = header[22] + (header[23] << 8) + (header[24]<<16) + ((uint32)header[25]<<24); + for (i=22; i < 26; ++i) + header[i] = 0; + crc = 0; + for (i=0; i < 27; ++i) + crc = crc32_update(crc, header[i]); + len = 0; + for (i=0; i < header[26]; ++i) { + int s = get8(f); + crc = crc32_update(crc, s); + len += s; + } + if (len && f->eof) return 0; + for (i=0; i < len; ++i) + crc = crc32_update(crc, get8(f)); + // finished parsing probable page + if (crc == goal) { + // we could now check that it's either got the last + // page flag set, OR it's followed by the capture + // pattern, but I guess TECHNICALLY you could have + // a file with garbage between each ogg page and recover + // from it automatically? So even though that paranoia + // might decrease the chance of an invalid decode by + // another 2^32, not worth it since it would hose those + // invalid-but-useful files? + if (end) + *end = stb_vorbis_get_file_offset(f); + if (last) { + if (header[5] & 0x04) + *last = 1; + else + *last = 0; + } + set_file_offset(f, retry_loc-1); + return 1; + } + } + invalid: + // not a valid page, so rewind and look for next one + set_file_offset(f, retry_loc); + } + } +} + + +#define SAMPLE_unknown 0xffffffff + +// seeking is implemented with a binary search, which narrows down the range to +// 64K, before using a linear search (because finding the synchronization +// pattern can be expensive, and the chance we'd find the end page again is +// relatively high for small ranges) +// +// two initial interpolation-style probes are used at the start of the search +// to try to bound either side of the binary search sensibly, while still +// working in O(log n) time if they fail. + +static int get_seek_page_info(stb_vorbis *f, ProbedPage *z) +{ + uint8 header[27], lacing[255]; + int i,len; + + // record where the page starts + z->page_start = stb_vorbis_get_file_offset(f); + + // parse the header + getn(f, header, 27); + if (header[0] != 'O' || header[1] != 'g' || header[2] != 'g' || header[3] != 'S') + return 0; + getn(f, lacing, header[26]); + + // determine the length of the payload + len = 0; + for (i=0; i < header[26]; ++i) + len += lacing[i]; + + // this implies where the page ends + z->page_end = z->page_start + 27 + header[26] + len; + + // read the last-decoded sample out of the data + z->last_decoded_sample = header[6] + (header[7] << 8) + (header[8] << 16) + (header[9] << 24); + + // restore file state to where we were + set_file_offset(f, z->page_start); + return 1; +} + +// rarely used function to seek back to the preceding page while finding the +// start of a packet +static int go_to_page_before(stb_vorbis *f, unsigned int limit_offset) +{ + unsigned int previous_safe, end; + + // now we want to seek back 64K from the limit + if (limit_offset >= 65536 && limit_offset-65536 >= f->first_audio_page_offset) + previous_safe = limit_offset - 65536; + else + previous_safe = f->first_audio_page_offset; + + set_file_offset(f, previous_safe); + + while (vorbis_find_page(f, &end, nullptr)) { + if (end >= limit_offset && stb_vorbis_get_file_offset(f) < limit_offset) + return 1; + set_file_offset(f, end); + } + + return 0; +} + +// implements the search logic for finding a page and starting decoding. if +// the function succeeds, current_loc_valid will be true and current_loc will +// be less than or equal to the provided sample number (the closer the +// better). +static int seek_to_sample_coarse(stb_vorbis *f, uint32 sample_number) +{ + ProbedPage left, right, mid; + int i, start_seg_with_known_loc, end_pos, page_start; + uint32 delta, stream_length, padding, last_sample_limit; + double offset = 0.0, bytes_per_sample = 0.0; + int probe = 0; + + // find the last page and validate the target sample + stream_length = stb_vorbis_stream_length_in_samples(f); + if (stream_length == 0) return error(f, VORBIS_seek_without_length); + if (sample_number > stream_length) return error(f, VORBIS_seek_invalid); + + // this is the maximum difference between the window-center (which is the + // actual granule position value), and the right-start (which the spec + // indicates should be the granule position (give or take one)). + padding = ((f->blocksize_1 - f->blocksize_0) >> 2); + if (sample_number < padding) + last_sample_limit = 0; + else + last_sample_limit = sample_number - padding; + + left = f->p_first; + while (left.last_decoded_sample == ~0U) { + // (untested) the first page does not have a 'last_decoded_sample' + set_file_offset(f, left.page_end); + if (!get_seek_page_info(f, &left)) goto error; + } + + right = f->p_last; + assert(right.last_decoded_sample != ~0U); + + // starting from the start is handled differently + if (last_sample_limit <= left.last_decoded_sample) { + if (stb_vorbis_seek_start(f)) { + if (f->current_loc > sample_number) + return error(f, VORBIS_seek_failed); + return 1; + } + return 0; + } + + while (left.page_end != right.page_start) { + assert(left.page_end < right.page_start); + // search range in bytes + delta = right.page_start - left.page_end; + if (delta <= 65536) { + // there's only 64K left to search - handle it linearly + set_file_offset(f, left.page_end); + } else { + if (probe < 2) { + if (probe == 0) { + // first probe (interpolate) + double data_bytes = right.page_end - left.page_start; + bytes_per_sample = data_bytes / right.last_decoded_sample; + offset = left.page_start + bytes_per_sample * (last_sample_limit - left.last_decoded_sample); + } else { + // second probe (try to bound the other side) + double error = ((double) last_sample_limit - mid.last_decoded_sample) * bytes_per_sample; + if (error >= 0 && error < 8000) error = 8000; + if (error < 0 && error > -8000) error = -8000; + offset += error * 2; + } + + // ensure the offset is valid + if (offset < left.page_end) + offset = left.page_end; + if (offset > right.page_start - 65536) + offset = right.page_start - 65536; + + set_file_offset(f, (unsigned int) offset); + } else { + // binary search for large ranges (offset by 32K to ensure + // we don't hit the right page) + set_file_offset(f, left.page_end + (delta / 2) - 32768); + } + + if (!vorbis_find_page(f, nullptr, nullptr)) goto error; + } + + for (;;) { + if (!get_seek_page_info(f, &mid)) goto error; + if (mid.last_decoded_sample != ~0U) break; + // (untested) no frames end on this page + set_file_offset(f, mid.page_end); + assert(mid.page_start < right.page_start); + } + + // if we've just found the last page again then we're in a tricky file, + // and we're close enough (if it wasn't an interpolation probe). + if (mid.page_start == right.page_start) { + if (probe >= 2 || delta <= 65536) + break; + } else { + if (last_sample_limit < mid.last_decoded_sample) + right = mid; + else + left = mid; + } + + ++probe; + } + + // seek back to start of the last packet + page_start = left.page_start; + set_file_offset(f, page_start); + if (!start_page(f)) return error(f, VORBIS_seek_failed); + end_pos = f->end_seg_with_known_loc; + assert(end_pos >= 0); + + for (;;) { + for (i = end_pos; i > 0; --i) + if (f->segments[i-1] != 255) + break; + + start_seg_with_known_loc = i; + + if (start_seg_with_known_loc > 0 || !(f->page_flag & PAGEFLAG_continued_packet)) + break; + + // (untested) the final packet begins on an earlier page + if (!go_to_page_before(f, page_start)) + goto error; + + page_start = stb_vorbis_get_file_offset(f); + if (!start_page(f)) goto error; + end_pos = f->segment_count - 1; + } + + // prepare to start decoding + f->current_loc_valid = FALSE; + f->last_seg = FALSE; + f->valid_bits = 0; + f->packet_bytes = 0; + f->bytes_in_seg = 0; + f->previous_length = 0; + f->next_seg = start_seg_with_known_loc; + + for (i = 0; i < start_seg_with_known_loc; i++) + skip(f, f->segments[i]); + + // start decoding (optimizable - this frame is generally discarded) + if (!vorbis_pump_first_frame(f)) + return 0; + if (f->current_loc > sample_number) + return error(f, VORBIS_seek_failed); + return 1; + +error: + // try to restore the file to a valid state + stb_vorbis_seek_start(f); + return error(f, VORBIS_seek_failed); +} + +// the same as vorbis_decode_initial, but without advancing +static int peek_decode_initial(vorb *f, int *p_left_start, int *p_left_end, int *p_right_start, int *p_right_end, int *mode) +{ + int bits_read, bytes_read; + + if (!vorbis_decode_initial(f, p_left_start, p_left_end, p_right_start, p_right_end, mode)) + return 0; + + // either 1 or 2 bytes were read, figure out which so we can rewind + bits_read = 1 + ilog(f->mode_count-1); + if (f->mode_config[*mode].blockflag) + bits_read += 2; + bytes_read = (bits_read + 7) / 8; + + f->bytes_in_seg += bytes_read; + f->packet_bytes -= bytes_read; + skip(f, -bytes_read); + if (f->next_seg == -1) + f->next_seg = f->segment_count - 1; + else + f->next_seg--; + f->valid_bits = 0; + + return 1; +} + +int stb_vorbis_seek_frame(stb_vorbis *f, unsigned int sample_number) +{ + uint32 max_frame_samples; + + if (IS_PUSH_MODE(f)) return error(f, VORBIS_invalid_api_mixing); + + // fast page-level search + if (!seek_to_sample_coarse(f, sample_number)) + return 0; + + assert(f->current_loc_valid); + assert(f->current_loc <= sample_number); + + // linear search for the relevant packet + max_frame_samples = (f->blocksize_1*3 - f->blocksize_0) >> 2; + while (f->current_loc < sample_number) { + int left_start, left_end, right_start, right_end, mode, frame_samples; + if (!peek_decode_initial(f, &left_start, &left_end, &right_start, &right_end, &mode)) + return error(f, VORBIS_seek_failed); + // calculate the number of samples returned by the next frame + frame_samples = right_start - left_start; + if (f->current_loc + frame_samples > sample_number) { + return 1; // the next frame will contain the sample + } else if (f->current_loc + frame_samples + max_frame_samples > sample_number) { + // there's a chance the frame after this could contain the sample + vorbis_pump_first_frame(f); + } else { + // this frame is too early to be relevant + f->current_loc += frame_samples; + f->previous_length = 0; + maybe_start_packet(f); + flush_packet(f); + } + } + // the next frame should start with the sample + if (f->current_loc != sample_number) return error(f, VORBIS_seek_failed); + return 1; +} + +int stb_vorbis_seek(stb_vorbis *f, unsigned int sample_number) +{ + if (!stb_vorbis_seek_frame(f, sample_number)) + return 0; + + if (sample_number != f->current_loc) { + int n; + uint32 frame_start = f->current_loc; + stb_vorbis_get_frame_float(f, &n, nullptr); + assert(sample_number > frame_start); + assert(f->channel_buffer_start + (int) (sample_number-frame_start) <= f->channel_buffer_end); + f->channel_buffer_start += (sample_number - frame_start); + } + + return 1; +} + +int stb_vorbis_seek_start(stb_vorbis *f) +{ + if (IS_PUSH_MODE(f)) { return error(f, VORBIS_invalid_api_mixing); } + set_file_offset(f, f->first_audio_page_offset); + f->previous_length = 0; + f->first_decode = TRUE; + f->next_seg = -1; + return vorbis_pump_first_frame(f); +} + +unsigned int stb_vorbis_stream_length_in_samples(stb_vorbis *f) +{ + unsigned int restore_offset, previous_safe; + unsigned int end, last_page_loc; + + if (IS_PUSH_MODE(f)) return error(f, VORBIS_invalid_api_mixing); + if (!f->total_samples) { + unsigned int last; + uint32 lo,hi; + char header[6]; + + // first, store the current decode position so we can restore it + restore_offset = stb_vorbis_get_file_offset(f); + + // now we want to seek back 64K from the end (the last page must + // be at most a little less than 64K, but let's allow a little slop) + if (f->stream_len >= 65536 && f->stream_len-65536 >= f->first_audio_page_offset) + previous_safe = f->stream_len - 65536; + else + previous_safe = f->first_audio_page_offset; + + set_file_offset(f, previous_safe); + // previous_safe is now our candidate 'earliest known place that seeking + // to will lead to the final page' + + if (!vorbis_find_page(f, &end, &last)) { + // if we can't find a page, we're hosed! + f->error = VORBIS_cant_find_last_page; + f->total_samples = 0xffffffff; + goto done; + } + + // check if there are more pages + last_page_loc = stb_vorbis_get_file_offset(f); + + // stop when the last_page flag is set, not when we reach eof; + // this allows us to stop short of a 'file_section' end without + // explicitly checking the length of the section + while (!last) { + set_file_offset(f, end); + if (!vorbis_find_page(f, &end, &last)) { + // the last page we found didn't have the 'last page' flag + // set. whoops! + break; + } + //previous_safe = last_page_loc+1; // NOTE: not used after this point, but note for debugging + last_page_loc = stb_vorbis_get_file_offset(f); + } + + set_file_offset(f, last_page_loc); + + // parse the header + getn(f, (unsigned char *)header, 6); + // extract the absolute granule position + lo = get32(f); + hi = get32(f); + if (lo == 0xffffffff && hi == 0xffffffff) { + f->error = VORBIS_cant_find_last_page; + f->total_samples = SAMPLE_unknown; + goto done; + } + if (hi) + lo = 0xfffffffe; // saturate + f->total_samples = lo; + + f->p_last.page_start = last_page_loc; + f->p_last.page_end = end; + f->p_last.last_decoded_sample = lo; + + done: + set_file_offset(f, restore_offset); + } + return f->total_samples == SAMPLE_unknown ? 0 : f->total_samples; +} + +float stb_vorbis_stream_length_in_seconds(stb_vorbis *f) +{ + return stb_vorbis_stream_length_in_samples(f) / (float) f->sample_rate; +} + + + +int stb_vorbis_get_frame_float(stb_vorbis *f, int *channels, float ***output) +{ + int len, right,left,i; + if (IS_PUSH_MODE(f)) return error(f, VORBIS_invalid_api_mixing); + + if (!vorbis_decode_packet(f, &len, &left, &right)) { + f->channel_buffer_start = f->channel_buffer_end = 0; + return 0; + } + + len = vorbis_finish_frame(f, len, left, right); + for (i=0; i < f->channels; ++i) + f->outputs[i] = f->channel_buffers[i] + left; + + f->channel_buffer_start = left; + f->channel_buffer_end = left+len; + + if (channels) *channels = f->channels; + if (output) *output = f->outputs; + return len; +} + +#ifndef STB_VORBIS_NO_STDIO + +stb_vorbis * stb_vorbis_open_file_section(FILE *file, int close_on_free, int *error, const stb_vorbis_alloc *alloc, unsigned int length) +{ + stb_vorbis *f, p; + vorbis_init(&p, alloc); + p.f = file; + p.f_start = (uint32) ftell(file); + p.stream_len = length; + p.close_on_free = close_on_free; + if (start_decoder(&p)) { + f = vorbis_alloc(&p); + if (f) { + *f = p; + vorbis_pump_first_frame(f); + return f; + } + } + if (error) *error = p.error; + vorbis_deinit(&p); + return nullptr; +} + +stb_vorbis * stb_vorbis_open_file(FILE *file, int close_on_free, int *error, const stb_vorbis_alloc *alloc) +{ + unsigned int len, start; + start = (unsigned int) ftell(file); + fseek(file, 0, SEEK_END); + len = (unsigned int) (ftell(file) - start); + fseek(file, start, SEEK_SET); + return stb_vorbis_open_file_section(file, close_on_free, error, alloc, len); +} + +stb_vorbis * stb_vorbis_open_filename(const char *filename, int *error, const stb_vorbis_alloc *alloc) +{ + FILE *f; +#if defined(_WIN32) && defined(__STDC_WANT_SECURE_LIB__) + if (0 != fopen_s(&f, filename, "rb")) + f = nullptr; +#else + f = fopen(filename, "rb"); +#endif + if (f) + return stb_vorbis_open_file(f, TRUE, error, alloc); + if (error) *error = VORBIS_file_open_failure; + return nullptr; +} +#endif // STB_VORBIS_NO_STDIO + +stb_vorbis * stb_vorbis_open_memory(const unsigned char *data, int len, int *error, const stb_vorbis_alloc *alloc) +{ + stb_vorbis *f, p; + if (!data) { + if (error) *error = VORBIS_unexpected_eof; + return nullptr; + } + vorbis_init(&p, alloc); + p.stream = (uint8 *) data; + p.stream_end = (uint8 *) data + len; + p.stream_start = (uint8 *) p.stream; + p.stream_len = len; + p.push_mode = FALSE; + if (start_decoder(&p)) { + f = vorbis_alloc(&p); + if (f) { + *f = p; + vorbis_pump_first_frame(f); + if (error) *error = VORBIS__no_error; + return f; + } + } + if (error) *error = p.error; + vorbis_deinit(&p); + return nullptr; +} + +#ifndef STB_VORBIS_NO_INTEGER_CONVERSION +#define PLAYBACK_MONO 1 +#define PLAYBACK_LEFT 2 +#define PLAYBACK_RIGHT 4 + +#define L_1 (PLAYBACK_LEFT | PLAYBACK_MONO) // PATCH: stb_vorbis uses the single char L for some reason... this breaks L"" strings +#define C (PLAYBACK_LEFT | PLAYBACK_RIGHT | PLAYBACK_MONO) +#define R (PLAYBACK_RIGHT | PLAYBACK_MONO) + +static int8 channel_position[7][6] = +{ + { 0 }, + { C }, + { L_1, R }, + { L_1, C, R }, + { L_1, R, L_1, R }, + { L_1, C, R, L_1, R }, + { L_1, C, R, L_1, R, C }, +}; + + +#ifndef STB_VORBIS_NO_FAST_SCALED_FLOAT + typedef union { + float f; + int i; + } float_conv; + typedef char stb_vorbis_float_size_test[sizeof(float)==4 && sizeof(int) == 4]; + #define FASTDEF(x) float_conv x + // add (1<<23) to convert to int, then divide by 2^SHIFT, then add 0.5/2^SHIFT to round + #define MAGIC(SHIFT) (1.5f * (1 << (23-SHIFT)) + 0.5f/(1 << SHIFT)) + #define ADDEND(SHIFT) (((150-SHIFT) << 23) + (1 << 22)) + #define FAST_SCALED_FLOAT_TO_INT(temp,x,s) (temp.f = (x) + MAGIC(s), temp.i - ADDEND(s)) + #define check_endianness() +#else + #define FAST_SCALED_FLOAT_TO_INT(temp,x,s) ((int) ((x) * (1 << (s)))) + #define check_endianness() + #define FASTDEF(x) +#endif + +static void copy_samples(short *dest, float *src, int len) +{ + int i; + check_endianness(); + for (i=0; i < len; ++i) { + FASTDEF(temp); + int v = FAST_SCALED_FLOAT_TO_INT(temp, src[i],15); + if ((unsigned int) (v + 32768) > 65535) + v = v < 0 ? -32768 : 32767; + dest[i] = v; + } +} + +static void compute_samples(int mask, short *output, int num_c, float **data, int d_offset, int len) +{ + #define STB_BUFFER_SIZE 32 + float buffer[STB_BUFFER_SIZE]; + int i,j,o,n = STB_BUFFER_SIZE; + check_endianness(); + for (o = 0; o < len; o += STB_BUFFER_SIZE) { + memset(buffer, 0, sizeof(buffer)); + if (o + n > len) n = len - o; + for (j=0; j < num_c; ++j) { + if (channel_position[num_c][j] & mask) { + for (i=0; i < n; ++i) + buffer[i] += data[j][d_offset+o+i]; + } + } + for (i=0; i < n; ++i) { + FASTDEF(temp); + int v = FAST_SCALED_FLOAT_TO_INT(temp,buffer[i],15); + if ((unsigned int) (v + 32768) > 65535) + v = v < 0 ? -32768 : 32767; + output[o+i] = v; + } + } + #undef STB_BUFFER_SIZE +} + +static void compute_stereo_samples(short *output, int num_c, float **data, int d_offset, int len) +{ + #define STB_BUFFER_SIZE 32 + float buffer[STB_BUFFER_SIZE]; + int i,j,o,n = STB_BUFFER_SIZE >> 1; + // o is the offset in the source data + check_endianness(); + for (o = 0; o < len; o += STB_BUFFER_SIZE >> 1) { + // o2 is the offset in the output data + int o2 = o << 1; + memset(buffer, 0, sizeof(buffer)); + if (o + n > len) n = len - o; + for (j=0; j < num_c; ++j) { + int m = channel_position[num_c][j] & (PLAYBACK_LEFT | PLAYBACK_RIGHT); + if (m == (PLAYBACK_LEFT | PLAYBACK_RIGHT)) { + for (i=0; i < n; ++i) { + buffer[i*2+0] += data[j][d_offset+o+i]; + buffer[i*2+1] += data[j][d_offset+o+i]; + } + } else if (m == PLAYBACK_LEFT) { + for (i=0; i < n; ++i) { + buffer[i*2+0] += data[j][d_offset+o+i]; + } + } else if (m == PLAYBACK_RIGHT) { + for (i=0; i < n; ++i) { + buffer[i*2+1] += data[j][d_offset+o+i]; + } + } + } + for (i=0; i < (n<<1); ++i) { + FASTDEF(temp); + int v = FAST_SCALED_FLOAT_TO_INT(temp,buffer[i],15); + if ((unsigned int) (v + 32768) > 65535) + v = v < 0 ? -32768 : 32767; + output[o2+i] = v; + } + } + #undef STB_BUFFER_SIZE +} + +static void convert_samples_short(int buf_c, short **buffer, int b_offset, int data_c, float **data, int d_offset, int samples) +{ + int i; + if (buf_c != data_c && buf_c <= 2 && data_c <= 6) { + static int channel_selector[3][2] = { {0}, {PLAYBACK_MONO}, {PLAYBACK_LEFT, PLAYBACK_RIGHT} }; + for (i=0; i < buf_c; ++i) + compute_samples(channel_selector[buf_c][i], buffer[i]+b_offset, data_c, data, d_offset, samples); + } else { + int limit = buf_c < data_c ? buf_c : data_c; + for (i=0; i < limit; ++i) + copy_samples(buffer[i]+b_offset, data[i]+d_offset, samples); + for ( ; i < buf_c; ++i) + memset(buffer[i]+b_offset, 0, sizeof(short) * samples); + } +} + +int stb_vorbis_get_frame_short(stb_vorbis *f, int num_c, short **buffer, int num_samples) +{ + float **output = nullptr; + int len = stb_vorbis_get_frame_float(f, nullptr, &output); + if (len > num_samples) len = num_samples; + if (len) + convert_samples_short(num_c, buffer, 0, f->channels, output, 0, len); + return len; +} + +static void convert_channels_short_interleaved(int buf_c, short *buffer, int data_c, float **data, int d_offset, int len) +{ + int i; + check_endianness(); + if (buf_c != data_c && buf_c <= 2 && data_c <= 6) { + assert(buf_c == 2); + for (i=0; i < buf_c; ++i) + compute_stereo_samples(buffer, data_c, data, d_offset, len); + } else { + int limit = buf_c < data_c ? buf_c : data_c; + int j; + for (j=0; j < len; ++j) { + for (i=0; i < limit; ++i) { + FASTDEF(temp); + float f = data[i][d_offset+j]; + int v = FAST_SCALED_FLOAT_TO_INT(temp, f,15);//data[i][d_offset+j],15); + if ((unsigned int) (v + 32768) > 65535) + v = v < 0 ? -32768 : 32767; + *buffer++ = v; + } + for ( ; i < buf_c; ++i) + *buffer++ = 0; + } + } +} + +int stb_vorbis_get_frame_short_interleaved(stb_vorbis *f, int num_c, short *buffer, int num_shorts) +{ + float **output; + int len; + if (num_c == 1) return stb_vorbis_get_frame_short(f,num_c,&buffer, num_shorts); + len = stb_vorbis_get_frame_float(f, nullptr, &output); + if (len) { + if (len*num_c > num_shorts) len = num_shorts / num_c; + convert_channels_short_interleaved(num_c, buffer, f->channels, output, 0, len); + } + return len; +} + +int stb_vorbis_get_samples_short_interleaved(stb_vorbis *f, int channels, short *buffer, int num_shorts) +{ + float **outputs; + int len = num_shorts / channels; + int n=0; + while (n < len) { + int k = f->channel_buffer_end - f->channel_buffer_start; + if (n+k >= len) k = len - n; + if (k) + convert_channels_short_interleaved(channels, buffer, f->channels, f->channel_buffers, f->channel_buffer_start, k); + buffer += k*channels; + n += k; + f->channel_buffer_start += k; + if (n == len) break; + if (!stb_vorbis_get_frame_float(f, nullptr, &outputs)) break; + } + return n; +} + +int stb_vorbis_get_samples_short(stb_vorbis *f, int channels, short **buffer, int len) +{ + float **outputs; + int n=0; + while (n < len) { + int k = f->channel_buffer_end - f->channel_buffer_start; + if (n+k >= len) k = len - n; + if (k) + convert_samples_short(channels, buffer, n, f->channels, f->channel_buffers, f->channel_buffer_start, k); + n += k; + f->channel_buffer_start += k; + if (n == len) break; + if (!stb_vorbis_get_frame_float(f, nullptr, &outputs)) break; + } + return n; +} + +#ifndef STB_VORBIS_NO_STDIO +int stb_vorbis_decode_filename(const char *filename, int *channels, int *sample_rate, short **output) +{ + int data_len, offset, total, limit, error; + short *data; + stb_vorbis *v = stb_vorbis_open_filename(filename, &error, nullptr); + if (v == nullptr) return -1; + limit = v->channels * 4096; + *channels = v->channels; + if (sample_rate) + *sample_rate = v->sample_rate; + offset = data_len = 0; + total = limit; + data = (short *) malloc(total * sizeof(*data)); + if (data == nullptr) { + stb_vorbis_close(v); + return -2; + } + for (;;) { + int n = stb_vorbis_get_frame_short_interleaved(v, v->channels, data+offset, total-offset); + if (n == 0) break; + data_len += n; + offset += n * v->channels; + if (offset + limit > total) { + short *data2; + total *= 2; + data2 = (short *) realloc(data, total * sizeof(*data)); + if (data2 == nullptr) { + free(data); + stb_vorbis_close(v); + return -2; + } + data = data2; + } + } + *output = data; + stb_vorbis_close(v); + return data_len; +} +#endif // NO_STDIO + +int stb_vorbis_decode_memory(const uint8 *mem, int len, int *channels, int *sample_rate, short **output) +{ + int data_len, offset, total, limit, error; + short *data; + stb_vorbis *v = stb_vorbis_open_memory(mem, len, &error, nullptr); + if (v == nullptr) return -1; + limit = v->channels * 4096; + *channels = v->channels; + if (sample_rate) + *sample_rate = v->sample_rate; + offset = data_len = 0; + total = limit; + data = (short *) malloc(total * sizeof(*data)); + if (data == nullptr) { + stb_vorbis_close(v); + return -2; + } + for (;;) { + int n = stb_vorbis_get_frame_short_interleaved(v, v->channels, data+offset, total-offset); + if (n == 0) break; + data_len += n; + offset += n * v->channels; + if (offset + limit > total) { + short *data2; + total *= 2; + data2 = (short *) realloc(data, total * sizeof(*data)); + if (data2 == nullptr) { + free(data); + stb_vorbis_close(v); + return -2; + } + data = data2; + } + } + *output = data; + stb_vorbis_close(v); + return data_len; +} +#endif // STB_VORBIS_NO_INTEGER_CONVERSION + +int stb_vorbis_get_samples_float_interleaved(stb_vorbis *f, int channels, float *buffer, int num_floats) +{ + float **outputs; + int len = num_floats / channels; + int n=0; + int z = f->channels; + if (z > channels) z = channels; + while (n < len) { + int i,j; + int k = f->channel_buffer_end - f->channel_buffer_start; + if (n+k >= len) k = len - n; + for (j=0; j < k; ++j) { + for (i=0; i < z; ++i) + *buffer++ = f->channel_buffers[i][f->channel_buffer_start+j]; + for ( ; i < channels; ++i) + *buffer++ = 0; + } + n += k; + f->channel_buffer_start += k; + if (n == len) + break; + if (!stb_vorbis_get_frame_float(f, nullptr, &outputs)) + break; + } + return n; +} + +int stb_vorbis_get_samples_float(stb_vorbis *f, int channels, float **buffer, int num_samples) +{ + float **outputs; + int n=0; + int z = f->channels; + if (z > channels) z = channels; + while (n < num_samples) { + int i; + int k = f->channel_buffer_end - f->channel_buffer_start; + if (n+k >= num_samples) k = num_samples - n; + if (k) { + for (i=0; i < z; ++i) + memcpy(buffer[i]+n, f->channel_buffers[i]+f->channel_buffer_start, sizeof(float)*k); + for ( ; i < channels; ++i) + memset(buffer[i]+n, 0, sizeof(float) * k); + } + n += k; + f->channel_buffer_start += k; + if (n == num_samples) + break; + if (!stb_vorbis_get_frame_float(f, nullptr, &outputs)) + break; + } + return n; +} +#endif // STB_VORBIS_NO_PULLDATA_API + +/* Version history + 1.17 - 2019-07-08 - fix CVE-2019-13217, -13218, -13219, -13220, -13221, -13222, -13223 + found with Mayhem by ForAllSecure + 1.16 - 2019-03-04 - fix warnings + 1.15 - 2019-02-07 - explicit failure if Ogg Skeleton data is found + 1.14 - 2018-02-11 - delete bogus dealloca usage + 1.13 - 2018-01-29 - fix truncation of last frame (hopefully) + 1.12 - 2017-11-21 - limit residue begin/end to blocksize/2 to avoid large temp allocs in bad/corrupt files + 1.11 - 2017-07-23 - fix MinGW compilation + 1.10 - 2017-03-03 - more robust seeking; fix negative ilog(); clear error in open_memory + 1.09 - 2016-04-04 - back out 'avoid discarding last frame' fix from previous version + 1.08 - 2016-04-02 - fixed multiple warnings; fix setup memory leaks; + avoid discarding last frame of audio data + 1.07 - 2015-01-16 - fixed some warnings, fix mingw, const-correct API + some more crash fixes when out of memory or with corrupt files + 1.06 - 2015-08-31 - full, correct support for seeking API (Dougall Johnson) + some crash fixes when out of memory or with corrupt files + 1.05 - 2015-04-19 - don't define __forceinline if it's redundant + 1.04 - 2014-08-27 - fix missing const-correct case in API + 1.03 - 2014-08-07 - Warning fixes + 1.02 - 2014-07-09 - Declare qsort compare function _cdecl on windows + 1.01 - 2014-06-18 - fix stb_vorbis_get_samples_float + 1.0 - 2014-05-26 - fix memory leaks; fix warnings; fix bugs in multichannel + (API change) report sample rate for decode-full-file funcs + 0.99996 - bracket #include for macintosh compilation by Laurent Gomila + 0.99995 - use union instead of pointer-cast for fast-float-to-int to avoid alias-optimization problem + 0.99994 - change fast-float-to-int to work in single-precision FPU mode, remove endian-dependence + 0.99993 - remove assert that fired on legal files with empty tables + 0.99992 - rewind-to-start + 0.99991 - bugfix to stb_vorbis_get_samples_short by Bernhard Wodo + 0.9999 - (should have been 0.99990) fix no-CRT support, compiling as C++ + 0.9998 - add a full-decode function with a memory source + 0.9997 - fix a bug in the read-from-FILE case in 0.9996 addition + 0.9996 - query length of vorbis stream in samples/seconds + 0.9995 - bugfix to another optimization that only happened in certain files + 0.9994 - bugfix to one of the optimizations that caused significant (but inaudible?) errors + 0.9993 - performance improvements; runs in 99% to 104% of time of reference implementation + 0.9992 - performance improvement of IMDCT; now performs close to reference implementation + 0.9991 - performance improvement of IMDCT + 0.999 - (should have been 0.9990) performance improvement of IMDCT + 0.998 - no-CRT support from Casey Muratori + 0.997 - bugfixes for bugs found by Terje Mathisen + 0.996 - bugfix: fast-huffman decode initialized incorrectly for sparse codebooks; fixing gives 10% speedup - found by Terje Mathisen + 0.995 - bugfix: fix to 'effective' overrun detection - found by Terje Mathisen + 0.994 - bugfix: garbage decode on final VQ symbol of a non-multiple - found by Terje Mathisen + 0.993 - bugfix: pushdata API required 1 extra byte for empty page (failed to consume final page if empty) - found by Terje Mathisen + 0.992 - fixes for MinGW warning + 0.991 - turn fast-float-conversion on by default + 0.990 - fix push-mode seek recovery if you seek into the headers + 0.98b - fix to bad release of 0.98 + 0.98 - fix push-mode seek recovery; robustify float-to-int and support non-fast mode + 0.97 - builds under c++ (typecasting, don't use 'class' keyword) + 0.96 - somehow MY 0.95 was right, but the web one was wrong, so here's my 0.95 rereleased as 0.96, fixes a typo in the clamping code + 0.95 - clamping code for 16-bit functions + 0.94 - not publically released + 0.93 - fixed all-zero-floor case (was decoding garbage) + 0.92 - fixed a memory leak + 0.91 - conditional compiles to omit parts of the API and the infrastructure to support them: STB_VORBIS_NO_PULLDATA_API, STB_VORBIS_NO_PUSHDATA_API, STB_VORBIS_NO_STDIO, STB_VORBIS_NO_INTEGER_CONVERSION + 0.90 - first public release +*/ + +#endif // STB_VORBIS_HEADER_ONLY + + +/* +------------------------------------------------------------------------------ +This software is available under 2 licenses -- choose whichever you prefer. +------------------------------------------------------------------------------ +ALTERNATIVE A - MIT License +Copyright (c) 2017 Sean Barrett +Permission is hereby granted, free of charge, to any person obtaining a copy of +this software and associated documentation files (the "Software"), to deal in +the Software without restriction, including without limitation the rights to +use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies +of the Software, and to permit persons to whom the Software is furnished to do +so, subject to the following conditions: +The above copyright notice and this permission notice shall be included in all +copies or substantial portions of the Software. +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, +OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE +SOFTWARE. +------------------------------------------------------------------------------ +ALTERNATIVE B - Public Domain (www.unlicense.org) +This is free and unencumbered software released into the public domain. +Anyone is free to copy, modify, publish, use, compile, sell, or distribute this +software, either in source code form or as a compiled binary, for any purpose, +commercial or non-commercial, and by any means. +In jurisdictions that recognize copyright laws, the author or authors of this +software dedicate any and all copyright interest in the software to the public +domain. We make this dedication for the benefit of the public at large and to +the detriment of our heirs and successors. We intend this dedication to be an +overt act of relinquishment in perpetuity of all present and future rights to +this software under copyright law. +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN +ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +------------------------------------------------------------------------------ +*/ \ No newline at end of file diff --git a/Minecraft.Client/Common/BuildVer.h b/Minecraft.Client/Common/BuildVer.h new file mode 100644 index 0000000..a5a9494 --- /dev/null +++ b/Minecraft.Client/Common/BuildVer.h @@ -0,0 +1,7 @@ +#pragma once + +#define VER_PRODUCTBUILD 560 +#define VER_PRODUCTVERSION_STR_W L"" +#define VER_FILEVERSION_STR_W VER_PRODUCTVERSION_STR_W +#define VER_BRANCHVERSION_STR_W L"UNKNOWN/" +#define VER_NETWORK VER_PRODUCTBUILD diff --git a/Minecraft.Client/Common/C4JMemoryPool.h b/Minecraft.Client/Common/C4JMemoryPool.h new file mode 100644 index 0000000..e1e795e --- /dev/null +++ b/Minecraft.Client/Common/C4JMemoryPool.h @@ -0,0 +1,176 @@ + +#pragma once + + +#include + +class C4JMemoryPool +{ +public: + unsigned int Align(unsigned int val, unsigned int align) { return int((val+(align-1))/align) * align; } + virtual void* Alloc(size_t size) = 0; + virtual void Free(void* ptr) = 0; +}; + + + +// Fast Efficient Fixed-Size Memory Pool : No Loops and No Overhead +// http://www.alogicalmind.com/memory_pools/index.htm +class C4JMemoryPoolFixed : public C4JMemoryPool +{ + // Basic type define + typedef unsigned int uint; + typedef unsigned char uchar; + uint m_numOfBlocks; // Num of blocks + uint m_sizeOfEachBlock; // Size of each block + uint m_numFreeBlocks; // Num of remaining blocks + uint m_numInitialized; // Num of initialized blocks + uchar* m_memStart; // Beginning of memory pool + uchar* m_memEnd; // End of memory pool + uchar* m_next; // Num of next free block +// CRITICAL_SECTION m_CS; +public: + C4JMemoryPoolFixed() + { + m_numOfBlocks = 0; + m_sizeOfEachBlock = 0; + m_numFreeBlocks = 0; + m_numInitialized = 0; + m_memStart = NULL; + m_memEnd = NULL; + m_next = 0; + } + + C4JMemoryPoolFixed(uint sizeOfEachBlock, uint numOfBlocks) + { + CreatePool(sizeOfEachBlock, numOfBlocks); + } + + ~C4JMemoryPoolFixed() { DestroyPool(); } + + void CreatePool(uint sizeOfEachBlock, uint numOfBlocks) + { + assert(sizeOfEachBlock >= 4); // has to be at least the size of an int, for book keeping + m_numOfBlocks = numOfBlocks; + m_sizeOfEachBlock = sizeOfEachBlock; + m_numFreeBlocks = numOfBlocks; + m_numInitialized = 0; + m_memStart = new uchar[ m_sizeOfEachBlock * + m_numOfBlocks ]; + m_memEnd = m_memStart + (m_sizeOfEachBlock * m_numOfBlocks); + m_next = m_memStart; +// InitializeCriticalSection(&m_CS); + } + + void DestroyPool() + { + delete[] m_memStart; + m_memStart = NULL; + } + + uchar* AddrFromIndex(uint i) const + { + return m_memStart + ( i * m_sizeOfEachBlock ); + } + + uint IndexFromAddr(const uchar* p) const + { + return (((uint)(p - m_memStart)) / m_sizeOfEachBlock); + } + + virtual void* Alloc(size_t size) + { + if(size > m_sizeOfEachBlock) + return ::malloc(size); +// EnterCriticalSection(&m_CS); + if (m_numInitialized < m_numOfBlocks ) + { + uint* p = (uint*)AddrFromIndex( m_numInitialized ); + *p = m_numInitialized + 1; + m_numInitialized++; + } + void* ret = NULL; + if ( m_numFreeBlocks > 0 ) + { + ret = (void*)m_next; + --m_numFreeBlocks; + if (m_numFreeBlocks!=0) + { + m_next = AddrFromIndex( *((uint*)m_next) ); + } + else + { + m_next = NULL; + } + } +// LeaveCriticalSection(&m_CS); + return ret; + } + + virtual void Free(void* ptr) + { + if(ptr < m_memStart || ptr > m_memEnd) + { + ::free(ptr); + return; + } +// EnterCriticalSection(&m_CS); + if (m_next != NULL) + { + (*(uint*)ptr) = IndexFromAddr( m_next ); + m_next = (uchar*)ptr; + } + else + { + *((uint*)ptr) = m_numOfBlocks; + m_next = (uchar*)ptr; + } + ++m_numFreeBlocks; +// LeaveCriticalSection(&m_CS); + } +}; // End pool class + + +// this pool will constantly grow until it is reset (automatically when all allocs have been "freed") +class C4JMemoryPoolGrow : public C4JMemoryPool +{ + uint32_t m_totalSize; + uint32_t m_memUsed; + uint32_t m_numAllocations; + uint8_t* m_pMemory; + uint32_t m_currentOffset; + +public: + C4JMemoryPoolGrow(uint32_t size = 64*1024) + { + size = Align(size, 4); + m_totalSize = size; + m_pMemory = new uint8_t[size]; + m_currentOffset = 0; + m_memUsed = 0; + m_numAllocations = 0; + } + + virtual void* Alloc(size_t size) + { + size = Align(size, 4); // 4 byte align the memory + assert((m_currentOffset + size) < m_totalSize); // make sure we haven't ran out of space + void* returnMem = &m_pMemory[m_currentOffset]; // grab the return memory + m_currentOffset += size; + m_numAllocations++; + return returnMem; + } + virtual void Free(void* ptr) + { + m_numAllocations--; + if(m_numAllocations == 0) + m_currentOffset = 0; // reset the pool when we reach zero allocations + } +}; + + + + + + + diff --git a/Minecraft.Client/Common/C4JMemoryPoolAllocator.h b/Minecraft.Client/Common/C4JMemoryPoolAllocator.h new file mode 100644 index 0000000..a46cc76 --- /dev/null +++ b/Minecraft.Client/Common/C4JMemoryPoolAllocator.h @@ -0,0 +1,113 @@ + + +#pragma once +#include "..\Minecraft.Client\Common\C4JMemoryPool.h" + +// Custom allocator, takes a C4JMemoryPool class, which can be one of a number of pool implementations. + +template +class C4JPoolAllocator +{ +public: + typedef T value_type; + typedef size_t size_type; + typedef ptrdiff_t difference_type; + + typedef T* pointer; + typedef const T* const_pointer; + + typedef T& reference; + typedef const T& const_reference; + + //! A struct to construct an allocator for a different type. + template + struct rebind { typedef C4JPoolAllocator other; }; + + + C4JMemoryPool* m_pPool; + bool m_selfAllocated; + + C4JPoolAllocator( C4JMemoryPool* pool = new C4JMemoryPoolFixed(32, 4096 )) : m_pPool( pool ), m_selfAllocated(true) + { + printf("allocated mempool\n"); + } + + template + C4JPoolAllocator(C4JPoolAllocator const& obj) : m_pPool( obj.m_pPool ), m_selfAllocated(false) // copy constructor + { + printf("C4JPoolAllocator constructed from 0x%08x\n", &obj); + assert(obj.m_pPool); + } +private: + +public: + + ~C4JPoolAllocator() + { + if(m_selfAllocated) + delete m_pPool; + } + + pointer address( reference r ) const { return &r; } + const_pointer address( const_reference r ) const { return &r; } + + pointer allocate( size_type n, const void* /*hint*/=0 ) + { + assert(m_pPool); + return (pointer)m_pPool->Alloc(n * sizeof(T)); + } + + void deallocate( pointer p, size_type /*n*/ ) + { + assert(m_pPool); + m_pPool->Free(p); + } + + void construct( pointer p, const T& val ) + { + new (p) T(val); + } + + void destroy( pointer p ) + { + p->~T(); + } + + size_type max_size() const + { + return ULONG_MAX / sizeof(T); + } + +}; + + +template +bool +operator==( const C4JPoolAllocator& left, const C4JPoolAllocator& right ) +{ + if (left.m_pPool == right.m_pPool) + { + return true; + } + return false; +} + +template +bool +operator!=( const C4JPoolAllocator& left, const C4JPoolAllocator& right) +{ + if (left.m_pPool != right.m_pPool) + { + return true; + } + return false; +} + + + + + + + + + diff --git a/Minecraft.Client/Common/Colours/ColourTable.cpp b/Minecraft.Client/Common/Colours/ColourTable.cpp new file mode 100644 index 0000000..07326b8 --- /dev/null +++ b/Minecraft.Client/Common/Colours/ColourTable.cpp @@ -0,0 +1,381 @@ +#include "stdafx.h" +#include "ColourTable.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" + +unordered_map ColourTable::s_colourNamesMap; + +const wchar_t *ColourTable::ColourTableElements[eMinecraftColour_COUNT] = +{ + L"NOTSET", + + L"Foliage_Evergreen", + L"Foliage_Birch", + L"Foliage_Default", + L"Foliage_Common", + L"Foliage_Ocean", + L"Foliage_Plains", + L"Foliage_Desert", + L"Foliage_ExtremeHills", + L"Foliage_Forest", + L"Foliage_Taiga", + L"Foliage_Swampland", + L"Foliage_River", + L"Foliage_Hell", + L"Foliage_Sky", + L"Foliage_FrozenOcean", + L"Foliage_FrozenRiver", + L"Foliage_IcePlains", + L"Foliage_IceMountains", + L"Foliage_MushroomIsland", + L"Foliage_MushroomIslandShore", + L"Foliage_Beach", + L"Foliage_DesertHills", + L"Foliage_ForestHills", + L"Foliage_TaigaHills", + L"Foliage_ExtremeHillsEdge", + L"Foliage_Jungle", + L"Foliage_JungleHills", + + L"Grass_Common", + L"Grass_Ocean", + L"Grass_Plains", + L"Grass_Desert", + L"Grass_ExtremeHills", + L"Grass_Forest", + L"Grass_Taiga", + L"Grass_Swampland", + L"Grass_River", + L"Grass_Hell", + L"Grass_Sky", + L"Grass_FrozenOcean", + L"Grass_FrozenRiver", + L"Grass_IcePlains", + L"Grass_IceMountains", + L"Grass_MushroomIsland", + L"Grass_MushroomIslandShore", + L"Grass_Beach", + L"Grass_DesertHills", + L"Grass_ForestHills", + L"Grass_TaigaHills", + L"Grass_ExtremeHillsEdge", + L"Grass_Jungle", + L"Grass_JungleHills", + + L"Water_Ocean", + L"Water_Plains", + L"Water_Desert", + L"Water_ExtremeHills", + L"Water_Forest", + L"Water_Taiga", + L"Water_Swampland", + L"Water_River", + L"Water_Hell", + L"Water_Sky", + L"Water_FrozenOcean", + L"Water_FrozenRiver", + L"Water_IcePlains", + L"Water_IceMountains", + L"Water_MushroomIsland", + L"Water_MushroomIslandShore", + L"Water_Beach", + L"Water_DesertHills", + L"Water_ForestHills", + L"Water_TaigaHills", + L"Water_ExtremeHillsEdge", + L"Water_Jungle", + L"Water_JungleHills", + + L"Sky_Ocean", + L"Sky_Plains", + L"Sky_Desert", + L"Sky_ExtremeHills", + L"Sky_Forest", + L"Sky_Taiga", + L"Sky_Swampland", + L"Sky_River", + L"Sky_Hell", + L"Sky_Sky", + L"Sky_FrozenOcean", + L"Sky_FrozenRiver", + L"Sky_IcePlains", + L"Sky_IceMountains", + L"Sky_MushroomIsland", + L"Sky_MushroomIslandShore", + L"Sky_Beach", + L"Sky_DesertHills", + L"Sky_ForestHills", + L"Sky_TaigaHills", + L"Sky_ExtremeHillsEdge", + L"Sky_Jungle", + L"Sky_JungleHills", + + L"Tile_RedstoneDust", + L"Tile_RedstoneDustUnlit", + L"Tile_RedstoneDustLitMin", + L"Tile_RedstoneDustLitMax", + L"Tile_StemMin", + L"Tile_StemMax", + L"Tile_WaterLily", + + L"Sky_Dawn_Dark", + L"Sky_Dawn_Bright", + + L"Material_None", + L"Material_Grass", + L"Material_Sand", + L"Material_Cloth", + L"Material_Fire", + L"Material_Ice", + L"Material_Metal", + L"Material_Plant", + L"Material_Snow", + L"Material_Clay", + L"Material_Dirt", + L"Material_Stone", + L"Material_Water", + L"Material_Wood", + L"Material_Emerald", + + L"Particle_Note_00", + L"Particle_Note_01", + L"Particle_Note_02", + L"Particle_Note_03", + L"Particle_Note_04", + L"Particle_Note_05", + L"Particle_Note_06", + L"Particle_Note_07", + L"Particle_Note_08", + L"Particle_Note_09", + L"Particle_Note_10", + L"Particle_Note_11", + L"Particle_Note_12", + L"Particle_Note_13", + L"Particle_Note_14", + L"Particle_Note_15", + L"Particle_Note_16", + L"Particle_Note_17", + L"Particle_Note_18", + L"Particle_Note_19", + L"Particle_Note_20", + L"Particle_Note_21", + L"Particle_Note_22", + L"Particle_Note_23", + L"Particle_Note_24", + + L"Particle_NetherPortal", + L"Particle_EnderPortal", + L"Particle_Smoke", + L"Particle_Ender", + + L"Particle_Explode", + L"Particle_HugeExplosion", + + L"Particle_DripWater", + L"Particle_DripLavaStart", + L"Particle_DripLavaEnd", + + L"Particle_EnchantmentTable", + L"Particle_DragonBreathMin", + L"Particle_DragonBreathMax", + L"Particle_Suspend", + + L"Particle_CritStart", // arrow in air + L"Particle_CritEnd", // arrow in air + + L"Effect_MovementSpeed", + L"Effect_MovementSlowDown", + L"Effect_DigSpeed", + L"Effect_DigSlowdown", + L"Effect_DamageBoost", + L"Effect_Heal", + L"Effect_Harm", + L"Effect_Jump", + L"Effect_Confusion", + L"Effect_Regeneration", + L"Effect_DamageResistance", + L"Effect_FireResistance", + L"Effect_WaterBreathing", + L"Effect_Invisiblity", + L"Effect_Blindness", + L"Effect_NightVision", + L"Effect_Hunger", + L"Effect_Weakness", + L"Effect_Poison", + L"Effect_Wither", + L"Effect_HealthBoost", + L"Effect_Absorption", + L"Effect_Saturation", + + L"Potion_BaseColour", + + L"Mob_Creeper_Colour1", + L"Mob_Creeper_Colour2", + L"Mob_Skeleton_Colour1", + L"Mob_Skeleton_Colour2", + L"Mob_Spider_Colour1", + L"Mob_Spider_Colour2", + L"Mob_Zombie_Colour1", + L"Mob_Zombie_Colour2", + L"Mob_Slime_Colour1", + L"Mob_Slime_Colour2", + L"Mob_Ghast_Colour1", + L"Mob_Ghast_Colour2", + L"Mob_PigZombie_Colour1", + L"Mob_PigZombie_Colour2", + L"Mob_Enderman_Colour1", + L"Mob_Enderman_Colour2", + L"Mob_CaveSpider_Colour1", + L"Mob_CaveSpider_Colour2", + L"Mob_Silverfish_Colour1", + L"Mob_Silverfish_Colour2", + L"Mob_Blaze_Colour1", + L"Mob_Blaze_Colour2", + L"Mob_LavaSlime_Colour1", + L"Mob_LavaSlime_Colour2", + L"Mob_Pig_Colour1", + L"Mob_Pig_Colour2", + L"Mob_Sheep_Colour1", + L"Mob_Sheep_Colour2", + L"Mob_Cow_Colour1", + L"Mob_Cow_Colour2", + L"Mob_Chicken_Colour1", + L"Mob_Chicken_Colour2", + L"Mob_Squid_Colour1", + L"Mob_Squid_Colour2", + L"Mob_Wolf_Colour1", + L"Mob_Wolf_Colour2", + L"Mob_MushroomCow_Colour1", + L"Mob_MushroomCow_Colour2", + L"Mob_Ocelot_Colour1", + L"Mob_Ocelot_Colour2", + L"Mob_Villager_Colour1", + L"Mob_Villager_Colour2", + L"Mob_Bat_Colour1", + L"Mob_Bat_Colour2", + L"Mob_Witch_Colour1", + L"Mob_Witch_Colour2", + L"Mob_Horse_Colour1", + L"Mob_Horse_Colour2", + + L"Armour_Default_Leather_Colour", + L"Under_Water_Clear_Colour", + L"Under_Lava_Clear_Colour", + L"In_Cloud_Base_Colour", + + L"Under_Water_Fog_Colour", + L"Under_Lava_Fog_Colour", + L"In_Cloud_Fog_Colour", + + L"Default_Fog_Colour", + L"Nether_Fog_Colour", + L"End_Fog_Colour", + + L"Sign_Text", + L"Map_Text", + + L"Leash_Light_Colour", + L"Leash_Dark_Colour", + + L"Fire_Overlay", + + L"HTMLColor_0", + L"HTMLColor_1", + L"HTMLColor_2", + L"HTMLColor_3", + L"HTMLColor_4", + L"HTMLColor_5", + L"HTMLColor_6", + L"HTMLColor_7", + L"HTMLColor_8", + L"HTMLColor_9", + L"HTMLColor_a", + L"HTMLColor_b", + L"HTMLColor_c", + L"HTMLColor_d", + L"HTMLColor_e", + L"HTMLColor_f", + L"HTMLColor_dark_0", + L"HTMLColor_dark_1", + L"HTMLColor_dark_2", + L"HTMLColor_dark_3", + L"HTMLColor_dark_4", + L"HTMLColor_dark_5", + L"HTMLColor_dark_6", + L"HTMLColor_dark_7", + L"HTMLColor_dark_8", + L"HTMLColor_dark_9", + L"HTMLColor_dark_a", + L"HTMLColor_dark_b", + L"HTMLColor_dark_c", + L"HTMLColor_dark_d", + L"HTMLColor_dark_e", + L"HTMLColor_dark_f", + L"HTMLColor_T1", + L"HTMLColor_T2", + L"HTMLColor_T3", + L"HTMLColor_Black", + L"HTMLColor_White", + L"Color_EnchantText", + L"Color_EnchantTextFocus", + L"Color_EnchantTextDisabled", + L"Color_RenamedItemTitle", +}; + +void ColourTable::staticCtor() +{ + for(unsigned int i = eMinecraftColour_NOT_SET; i < eMinecraftColour_COUNT; ++i) + { + s_colourNamesMap.insert( unordered_map::value_type( ColourTableElements[i], static_cast(i)) ); + } +} + +ColourTable::ColourTable(PBYTE pbData, DWORD dwLength) +{ + loadColoursFromData(pbData, dwLength); +} + +ColourTable::ColourTable(ColourTable *defaultColours, PBYTE pbData, DWORD dwLength) +{ + // 4J Stu - Default the colours that of the table passed in + XMemCpy( (void *)m_colourValues, (void *)defaultColours->m_colourValues, sizeof(int) * eMinecraftColour_COUNT); + loadColoursFromData(pbData, dwLength); +} +void ColourTable::loadColoursFromData(PBYTE pbData, DWORD dwLength) +{ + byteArray src(pbData, dwLength); + + ByteArrayInputStream bais(src); + DataInputStream dis(&bais); + + int versionNumber = dis.readInt(); + int coloursCount = dis.readInt(); + + for(int i = 0; i < coloursCount; ++i) + { + wstring colourId = dis.readUTF(); + int colourValue = dis.readInt(); + setColour(colourId, colourValue); + auto it = s_colourNamesMap.find(colourId); // ? + } + + bais.reset(); +} + +void ColourTable::setColour(const wstring &colourName, int value) +{ + auto it = s_colourNamesMap.find(colourName); + if(it != s_colourNamesMap.end()) + { + m_colourValues[static_cast(it->second)] = value; + } +} + +void ColourTable::setColour(const wstring &colourName, const wstring &value) +{ + setColour(colourName, _fromHEXString(value)); +} + +unsigned int ColourTable::getColour(eMinecraftColour id) +{ + return m_colourValues[static_cast(id)]; +} diff --git a/Minecraft.Client/Common/Colours/ColourTable.h b/Minecraft.Client/Common/Colours/ColourTable.h new file mode 100644 index 0000000..af99a8e --- /dev/null +++ b/Minecraft.Client/Common/Colours/ColourTable.h @@ -0,0 +1,23 @@ +#pragma once + +class ColourTable +{ +private: + unsigned int m_colourValues[eMinecraftColour_COUNT]; + + static const wchar_t *ColourTableElements[eMinecraftColour_COUNT]; + static unordered_map s_colourNamesMap; + +public: + static void staticCtor(); + + ColourTable(PBYTE pbData, DWORD dwLength); + ColourTable(ColourTable *defaultColours, PBYTE pbData, DWORD dwLength); + + unsigned int getColour(eMinecraftColour id); + unsigned int getColor(eMinecraftColour id) { return getColour(id); } + + void loadColoursFromData(PBYTE pbData, DWORD dwLength); + void setColour(const wstring &colourName, int value); + void setColour(const wstring &colourName, const wstring &value); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/ConsoleGameMode.cpp b/Minecraft.Client/Common/ConsoleGameMode.cpp new file mode 100644 index 0000000..703d3f5 --- /dev/null +++ b/Minecraft.Client/Common/ConsoleGameMode.cpp @@ -0,0 +1,9 @@ +#include "stdafx.h" +#include "ConsoleGameMode.h" +#include ".\Tutorial\Tutorial.h" + +ConsoleGameMode::ConsoleGameMode(int iPad, Minecraft *minecraft, ClientConnection *connection) + : TutorialMode(iPad, minecraft, connection) +{ + tutorial = new Tutorial(iPad); +} diff --git a/Minecraft.Client/Common/ConsoleGameMode.h b/Minecraft.Client/Common/ConsoleGameMode.h new file mode 100644 index 0000000..983381b --- /dev/null +++ b/Minecraft.Client/Common/ConsoleGameMode.h @@ -0,0 +1,10 @@ +#pragma once +#include ".\Tutorial\TutorialMode.h" + +class ConsoleGameMode : public TutorialMode +{ +public: + ConsoleGameMode(int iPad, Minecraft *minecraft, ClientConnection *connection); + + virtual bool isImplemented() { return true; } +}; diff --git a/Minecraft.Client/Common/Console_Awards_enum.h b/Minecraft.Client/Common/Console_Awards_enum.h new file mode 100644 index 0000000..9597c71 --- /dev/null +++ b/Minecraft.Client/Common/Console_Awards_enum.h @@ -0,0 +1,72 @@ +#pragma once + +enum eAward +{ + eAward_TakingInventory=0, + eAward_GettingWood, + eAward_Benchmarking, + eAward_TimeToMine, + eAward_HotTopic, + eAward_AquireHardware, + eAward_TimeToFarm, + eAward_BakeBread, + eAward_TheLie, + eAward_GettingAnUpgrade, + eAward_DeliciousFish, + eAward_OnARail, + eAward_TimeToStrike, + eAward_MonsterHunter, + eAward_CowTipper, + eAward_WhenPigsFly, + eAward_LeaderOfThePack, + eAward_MOARTools, + eAward_DispenseWithThis, + eAward_InToTheNether, + + eAward_mine100Blocks, + eAward_kill10Creepers, + eAward_eatPorkChop, + eAward_play100Days, + eAward_arrowKillCreeper, + eAward_socialPost, + +#ifndef _XBOX + // 4J Stu - Does not map to any Xbox achievements + eAward_snipeSkeleton, + eAward_diamonds, + eAward_portal, + eAward_ghast, + eAward_blazeRod, + eAward_potion, + eAward_theEnd, + eAward_winGame, + eAward_enchantments, + eAward_overkill, + eAward_bookcase, +#endif + +#ifdef _EXTENDED_ACHIEVEMENTS + eAward_adventuringTime, + eAward_repopulation, + //eAward_porkChop, + eAward_diamondsToYou, + //eAward_passingTheTime, + //eAward_archer, + eAward_theHaggler, + eAward_potPlanter, + eAward_itsASign, + eAward_ironBelly, + eAward_haveAShearfulDay, + eAward_rainbowCollection, + eAward_stayinFrosty, + eAward_chestfulOfCobblestone, + eAward_renewableEnergy, + eAward_musicToMyEars, + eAward_bodyGuard, + eAward_ironMan, + eAward_zombieDoctor, + eAward_lionTamer, +#endif + + eAward_Max, +}; diff --git a/Minecraft.Client/Common/Console_Debug_enum.h b/Minecraft.Client/Common/Console_Debug_enum.h new file mode 100644 index 0000000..3d2b97a --- /dev/null +++ b/Minecraft.Client/Common/Console_Debug_enum.h @@ -0,0 +1,42 @@ +#pragma once + +enum eDebugSetting +{ + eDebugSetting_LoadSavesFromDisk, + eDebugSetting_WriteSavesToDisk, + eDebugSetting_FreezePlayers, //eDebugSetting_InterfaceOff, + eDebugSetting_Safearea, + eDebugSetting_MobsDontAttack, + eDebugSetting_FreezeTime, + eDebugSetting_DisableWeather, + eDebugSetting_CraftAnything, + eDebugSetting_UseDpadForDebug, + eDebugSetting_MobsDontTick, + eDebugSetting_ArtTools, //eDebugSetting_InstantDestroy, + eDebugSetting_ShowUIConsole, + eDebugSetting_DistributableSave, + eDebugSetting_DebugLeaderboards, + eDebugSetting_EnableHeightWaterOverride, //eDebugSetting_TipsAlwaysOn, + eDebugSetting_SuperflatNether, + //eDebugSetting_LightDarkBackground, + eDebugSetting_RegularLightning, + eDebugSetting_EnableBiomeOverride, //eDebugSetting_GoToNether, + //eDebugSetting_GoToEnd, + eDebugSetting_GoToOverworld, + eDebugSetting_UnlockAllDLC, // eDebugSetting_ToggleFont, + eDebugSetting_ShowUIMarketingGuide, + eDebugSetting_Max, +}; + +enum eDebugButton +{ + eDebugButton_Theme=0, + eDebugButton_Avatar_Item_1, + eDebugButton_Avatar_Item_2, + eDebugButton_Avatar_Item_3, + eDebugButton_Gamerpic_1, + eDebugButton_Gamerpic_2, + eDebugButton_CheckTips, + eDebugButton_WipeLeaderboards, + eDebugButton_Max, +}; diff --git a/Minecraft.Client/Common/Console_Utils.cpp b/Minecraft.Client/Common/Console_Utils.cpp new file mode 100644 index 0000000..cb0f1b5 --- /dev/null +++ b/Minecraft.Client/Common/Console_Utils.cpp @@ -0,0 +1,40 @@ +#include "stdafx.h" + +//-------------------------------------------------------------------------------------- +// Name: DebugSpewV() +// Desc: Internal helper function +//-------------------------------------------------------------------------------------- +#ifndef _CONTENT_PACKAGE +static VOID DebugSpewV( const CHAR* strFormat, const va_list pArgList ) +{ +#if defined __PS3__ || defined __ORBIS__ || defined __PSVITA__ + assert(0); +#else + CHAR str[2048]; + // Use the secure CRT to avoid buffer overruns. Specify a count of + // _TRUNCATE so that too long strings will be silently truncated + // rather than triggering an error. + _vsnprintf_s( str, _TRUNCATE, strFormat, pArgList ); + OutputDebugStringA( str ); +#endif +} +#endif + +//-------------------------------------------------------------------------------------- +// Name: DebugSpew() +// Desc: Prints formatted debug spew +//-------------------------------------------------------------------------------------- +#ifdef _Printf_format_string_ // VC++ 2008 and later support this annotation +VOID CDECL DebugSpew( _In_z_ _Printf_format_string_ const CHAR* strFormat, ... ) +#else +VOID CDECL DebugPrintf( const CHAR* strFormat, ... ) +#endif +{ +#ifndef _CONTENT_PACKAGE + va_list pArgList; + va_start( pArgList, strFormat ); + DebugSpewV( strFormat, pArgList ); + va_end( pArgList ); +#endif +} + diff --git a/Minecraft.Client/Common/Consoles_App.cpp b/Minecraft.Client/Common/Consoles_App.cpp new file mode 100644 index 0000000..1d7e4f7 --- /dev/null +++ b/Minecraft.Client/Common/Consoles_App.cpp @@ -0,0 +1,9438 @@ +#include "stdafx.h" +#include "..\..\Minecraft.World\net.minecraft.world.entity.item.h" +#include "..\..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\..\Minecraft.World\net.minecraft.world.level.tile.entity.h" +#include "..\..\Minecraft.World\net.minecraft.world.phys.h" +#include "..\..\Minecraft.World\InputOutputStream.h" +#include "..\..\Minecraft.World\compression.h" +#include "..\Options.h" +#include "..\MinecraftServer.h" +#include "..\MultiPlayerLevel.h" +#include "..\GameRenderer.h" +#include "..\LevelRenderer.h" +#include "..\MobSkinMemTextureProcessor.h" +#include "..\Minecraft.h" +#include "..\ClientConnection.h" +#include "..\MultiPlayerLocalPlayer.h" +#include "..\LocalPlayer.h" +#include "..\..\Minecraft.World\Player.h" +#include "..\..\Minecraft.World\Inventory.h" +#include "..\..\Minecraft.World\Level.h" +#include "..\..\Minecraft.World\FurnaceTileEntity.h" +#include "..\..\Minecraft.World\Container.h" +#include "..\..\Minecraft.World\DispenserTileEntity.h" +#include "..\..\Minecraft.World\SignTileEntity.h" +#include "..\StatsCounter.h" +#include "..\GameMode.h" +#include "Tutorial\TutorialMode.h" +#include "Minecraft_Macros.h" +#include "..\PlayerList.h" +#include "..\ServerPlayer.h" +#include "GameRules\ConsoleGameRules.h" +#include "GameRules\ConsoleSchematicFile.h" +#include "..\User.h" +#include "..\..\Minecraft.World\LevelData.h" +#include "..\..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\..\Minecraft.World\compression.h" +#include "..\TexturePackRepository.h" +#include "..\DLCTexturePack.h" +#include "DLC\DLCPack.h" +#include "..\StringTable.h" +#ifndef _XBOX +#include "..\ArchiveFile.h" +#endif +#include "..\Minecraft.h" +#ifdef _XBOX +#include "..\Xbox\GameConfig\Minecraft.spa.h" +#include "..\Xbox\Network\NetworkPlayerXbox.h" +#include "XUI\XUI_TextEntry.h" +#include "XUI\XUI_XZP_Icons.h" +#include "XUI\XUI_PauseMenu.h" +#else +#endif +#ifdef __PS3__ +#include +#endif +#ifdef __ORBIS__ +#include +#endif + +#include "..\Common\Leaderboards\LeaderboardManager.h" + +//CMinecraftApp app; +unsigned int CMinecraftApp::m_uiLastSignInData = 0; + +const float CMinecraftApp::fSafeZoneX = 64.0f; // 5% of 1280 +const float CMinecraftApp::fSafeZoneY = 36.0f; // 5% of 720 + +int CMinecraftApp::s_iHTMLFontSizesA[eHTMLSize_COUNT] = +{ +#ifdef _XBOX + 14,12,14,24 +#else + //20,15,20,24 + 20,13,20,26 +#endif +}; + + +CMinecraftApp::CMinecraftApp() +{ + if(GAME_SETTINGS_PROFILE_DATA_BYTES != sizeof(GAME_SETTINGS)) + { + // 4J Stu - See comment for GAME_SETTINGS_PROFILE_DATA_BYTES in Xbox_App.h + DebugPrintf("WARNING: The size of the profile GAME_SETTINGS struct has changed, so all stat data is likely incorrect. Is: %d, Should be: %d\n",sizeof(GAME_SETTINGS),GAME_SETTINGS_PROFILE_DATA_BYTES); +#ifndef _CONTENT_PACKAGE + __debugbreak(); +#endif + } + + for(int i=0;i; + } + + LocaleAndLanguageInit(); + +#ifdef _XBOX_ONE + m_hasReachedMainMenu = false; +#endif +} + + + +void CMinecraftApp::DebugPrintf(const char *szFormat, ...) +{ + +#ifndef _FINAL_BUILD + char buf[1024]; + va_list ap; + va_start(ap, szFormat); + vsnprintf(buf, sizeof(buf), szFormat, ap); + va_end(ap); + OutputDebugStringA(buf); +#endif + +} + +void CMinecraftApp::DebugPrintf(int user, const char *szFormat, ...) +{ +#ifndef _FINAL_BUILD + if(user == USER_NONE) + return; + char buf[1024]; + va_list ap; + va_start(ap, szFormat); + vsnprintf(buf, sizeof(buf), szFormat, ap); + va_end(ap); +#ifdef __PS3__ + unsigned int writelen; + sys_tty_write(SYS_TTYP_USER1 + ( user - 1 ), buf, strlen(buf), &writelen ); +#elif defined __PSVITA__ + switch(user) + { + case 0: + { + SceUID tty2 = sceIoOpen("tty2:", SCE_O_WRONLY, 0); + if(tty2>=0) + { + std::string string1(buf); + sceIoWrite(tty2, string1.c_str(), string1.length()); + sceIoClose(tty2); + } + } + break; + case 1: + { + SceUID tty3 = sceIoOpen("tty3:", SCE_O_WRONLY, 0); + if(tty3>=0) + { + std::string string1(buf); + sceIoWrite(tty3, string1.c_str(), string1.length()); + sceIoClose(tty3); + } + } + break; + default: + OutputDebugStringA(buf); + break; + } +#else + OutputDebugStringA(buf); +#endif +#ifndef _XBOX + +#endif +#endif +} + +LPCWSTR CMinecraftApp::GetString(int iID) +{ + //return L"DeÄŸiÅŸiklikler ve Yenilikler"; + //return L"ÕÕÕÕÖÖÖÖ"; + return app.m_stringTable->getString(iID); +} + +void CMinecraftApp::SetAction(int iPad, eXuiAction action, LPVOID param) +{ + if( ( m_eXuiAction[iPad] == eAppAction_ReloadTexturePack ) && ( action == eAppAction_EthernetDisconnected ) ) + { + app.DebugPrintf("Invalid change of App action for pad %d from %d to %d, ignoring\n", iPad, m_eXuiAction[iPad], action); + } + else if( ( m_eXuiAction[iPad] == eAppAction_ReloadTexturePack ) && ( action == eAppAction_ExitWorld ) ) + { + app.DebugPrintf("Invalid change of App action for pad %d from %d to %d, ignoring\n", iPad, m_eXuiAction[iPad], action); + } + else if(m_eXuiAction[iPad] == eAppAction_ExitWorldCapturedThumbnail && action != eAppAction_Idle) + { + app.DebugPrintf("Invalid change of App action for pad %d from %d to %d, ignoring\n", iPad, m_eXuiAction[iPad], action); + } + else + { + app.DebugPrintf("Changing App action for pad %d from %d to %d\n", iPad, m_eXuiAction[iPad], action); + m_eXuiAction[iPad]=action; + m_eXuiActionParam[iPad] = param; + } +} + +bool CMinecraftApp::IsAppPaused() +{ +#if defined(_XBOX_ONE) || defined(__ORBIS__) + bool paused = m_bIsAppPaused; + EnterCriticalSection(&m_saveNotificationCriticalSection); + if( g_NetworkManager.IsLocalGame() && g_NetworkManager.GetPlayerCount() == 1 ) + { + paused |= m_saveNotificationDepth > 0; + } + LeaveCriticalSection(&m_saveNotificationCriticalSection); + return paused; +#else + return m_bIsAppPaused; +#endif +} + +void CMinecraftApp::SetAppPaused(bool val) +{ + m_bIsAppPaused = val; +} + +void CMinecraftApp::HandleButtonPresses() +{ + for(int i=0;i<4;i++) + { + HandleButtonPresses(i); + } +} + +void CMinecraftApp::HandleButtonPresses(int iPad) +{ + + // // test an update of the profile data + // void *pData=ProfileManager.GetGameDefinedProfileData(iPad); + // + // unsigned char *pchData= (unsigned char *)pData; + // int iCount=0; + // for(int i=0;i player,bool bNavigateBack) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadCreativeMenu(int iPad,shared_ptr player,bool bNavigateBack) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadCrafting2x2Menu(int iPad,shared_ptr player) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadCrafting3x3Menu(int iPad,shared_ptr player, int x, int y, int z) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadFireworksMenu(int iPad,shared_ptr player, int x, int y, int z) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadEnchantingMenu(int iPad,shared_ptr inventory, int x, int y, int z, Level *level, const wstring &name) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadFurnaceMenu(int iPad,shared_ptr inventory, shared_ptr furnace) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadBrewingStandMenu(int iPad,shared_ptr inventory, shared_ptr brewingStand) +{ + bool success = true; + + return success; +} + + +bool CMinecraftApp::LoadContainerMenu(int iPad,shared_ptr inventory, shared_ptr container) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadTrapMenu(int iPad,shared_ptr inventory, shared_ptr trap) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadSignEntryMenu(int iPad,shared_ptr sign) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadRepairingMenu(int iPad,shared_ptr inventory, Level *level, int x, int y, int z) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadTradingMenu(int iPad, shared_ptr inventory, shared_ptr trader, Level *level, const wstring &name) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadHopperMenu(int iPad ,shared_ptr inventory, shared_ptr hopper) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadHopperMenu(int iPad ,shared_ptr inventory, shared_ptr hopper) +{ + bool success = true; + + return success; +} + + +bool CMinecraftApp::LoadHorseMenu(int iPad ,shared_ptr inventory, shared_ptr container, shared_ptr horse) +{ + bool success = true; + + return success; +} + +bool CMinecraftApp::LoadBeaconMenu(int iPad ,shared_ptr inventory, shared_ptr beacon) +{ + bool success = true; + + return success; +} + +////////////////////////////////////////////// +// GAME SETTINGS +////////////////////////////////////////////// + +#ifdef _WINDOWS64 +static void Win64_GetSettingsPath(char *outPath, DWORD size) +{ + GetModuleFileNameA(nullptr, outPath, size); + char *lastSlash = strrchr(outPath, '\\'); + if (lastSlash) *(lastSlash + 1) = '\0'; + strncat_s(outPath, size, "settings.dat", _TRUNCATE); +} +static void Win64_SaveSettings(GAME_SETTINGS *gs) +{ + if (!gs) return; + char filePath[MAX_PATH] = {}; + Win64_GetSettingsPath(filePath, MAX_PATH); + FILE *f = nullptr; + if (fopen_s(&f, filePath, "wb") == 0 && f) + { + fwrite(gs, sizeof(GAME_SETTINGS), 1, f); + fclose(f); + } +} +static void Win64_LoadSettings(GAME_SETTINGS *gs) +{ + if (!gs) return; + char filePath[MAX_PATH] = {}; + Win64_GetSettingsPath(filePath, MAX_PATH); + FILE *f = nullptr; + if (fopen_s(&f, filePath, "rb") == 0 && f) + { + GAME_SETTINGS temp = {}; + if (fread(&temp, sizeof(GAME_SETTINGS), 1, f) == 1) + memcpy(gs, &temp, sizeof(GAME_SETTINGS)); + fclose(f); + } +} +#endif + +void CMinecraftApp::InitGameSettings() +{ + for(int i=0;i(ProfileManager.GetGameDefinedProfileData(i)); +#endif + // clear the flag to say the settings have changed + GameSettingsA[i]->bSettingsChanged=false; + + //SetDefaultGameSettings(i); - done on a callback from the profile manager + + // 4J-PB - adding in for Windows & PS3 to set the defaults for the joypad +#if defined _WINDOWS64// || defined __PSVITA__ + C_4JProfile::PROFILESETTINGS *pProfileSettings=ProfileManager.GetDashboardProfileSettings(i); + // clear this for now - it will come from reading the system values + memset(pProfileSettings,0,sizeof(C_4JProfile::PROFILESETTINGS)); + SetDefaultOptions(pProfileSettings,i); + Win64_LoadSettings(GameSettingsA[i]); + ApplyGameSettingsChanged(i); +#elif defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__ + C4JStorage::PROFILESETTINGS *pProfileSettings=StorageManager.GetDashboardProfileSettings(i); + // 4J-PB - don't cause an options write to happen here + SetDefaultOptions(pProfileSettings,i,false); + +#endif + } +} + +#if (defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) +int CMinecraftApp::SetDefaultOptions(C4JStorage::PROFILESETTINGS *pSettings,const int iPad,bool bWriteProfile) +#else +int CMinecraftApp::SetDefaultOptions(C_4JProfile::PROFILESETTINGS *pSettings,const int iPad) +#endif +{ + SetGameSettings(iPad,eGameSetting_MusicVolume,DEFAULT_VOLUME_LEVEL); + SetGameSettings(iPad,eGameSetting_SoundFXVolume,DEFAULT_VOLUME_LEVEL); + SetGameSettings(iPad,eGameSetting_RenderDistance,16); + SetGameSettings(iPad,eGameSetting_Gamma,50); + SetGameSettings(iPad,eGameSetting_FOV,0); + + // 4J-PB - Don't reset the difficult level if we're in-game + if(Minecraft::GetInstance()->level==nullptr) + { + app.DebugPrintf("SetDefaultOptions - Difficulty = 1\n"); + SetGameSettings(iPad,eGameSetting_Difficulty,1); + } + SetGameSettings(iPad,eGameSetting_Sensitivity_InGame,100); + SetGameSettings(iPad,eGameSetting_ViewBob,1); + SetGameSettings(iPad,eGameSetting_ControlScheme,0); + SetGameSettings(iPad,eGameSetting_ControlInvertLook,(pSettings->iYAxisInversion!=0)?1:0); + SetGameSettings(iPad,eGameSetting_ControlSouthPaw,pSettings->bSwapSticks?1:0); + SetGameSettings(iPad,eGameSetting_SplitScreenVertical,0); + SetGameSettings(iPad,eGameSetting_GamertagsVisible,1); + + // Interim TU 1.6.6 + SetGameSettings(iPad,eGameSetting_Sensitivity_InMenu,100); + SetGameSettings(iPad,eGameSetting_DisplaySplitscreenGamertags,1); + SetGameSettings(iPad,eGameSetting_Hints,1); + SetGameSettings(iPad,eGameSetting_Autosave,2); + SetGameSettings(iPad,eGameSetting_Tooltips,1); + SetGameSettings(iPad,eGameSetting_InterfaceOpacity,80); + + // TU 5 + SetGameSettings(iPad,eGameSetting_Clouds,1); + SetGameSettings(iPad,eGameSetting_Online,1); + SetGameSettings(iPad,eGameSetting_InviteOnly,0); + SetGameSettings(iPad,eGameSetting_FriendsOfFriends,1); + + // default the update changes message to zero + // 4J-PB - We'll only display the message if the profile is pre-TU5 + //SetGameSettings(iPad,eGameSetting_DisplayUpdateMessage,0); + + // TU 6 + SetGameSettings(iPad,eGameSetting_BedrockFog,0); + SetGameSettings(iPad,eGameSetting_DisplayHUD,1); + SetGameSettings(iPad,eGameSetting_DisplayHand,1); + + // TU 7 + SetGameSettings(iPad,eGameSetting_CustomSkinAnim,1); + + // TU 9 + SetGameSettings(iPad,eGameSetting_DeathMessages,1); + SetGameSettings(iPad,eGameSetting_UISize,1); + SetGameSettings(iPad,eGameSetting_UISizeSplitscreen,2); + SetGameSettings(iPad,eGameSetting_AnimatedCharacter,1); + + // TU 12 + GameSettingsA[iPad]->ucCurrentFavoriteSkinPos=0; + for(int i=0;iuiFavoriteSkinA[i]=0xFFFFFFFF; + } + + // TU 13 + GameSettingsA[iPad]->uiMashUpPackWorldsDisplay=0xFFFFFFFF; + + // 1.6.4 + app.SetGameHostOption(eGameHostOption_MobGriefing, 1); + app.SetGameHostOption(eGameHostOption_KeepInventory, 0); + app.SetGameHostOption(eGameHostOption_DoMobSpawning, 1 ); + app.SetGameHostOption(eGameHostOption_DoMobLoot, 1 ); + app.SetGameHostOption(eGameHostOption_DoTileDrops, 1 ); + app.SetGameHostOption(eGameHostOption_NaturalRegeneration, 1 ); + app.SetGameHostOption(eGameHostOption_DoDaylightCycle, 1 ); + + // 4J-PB - leave these in, or remove from everywhere they are referenced! + // Although probably best to leave in unless we split the profile settings into platform specific classes - having different meaning per platform for the same bitmask could get confusing + //#ifdef __PS3__ + // PS3DEC13 + SetGameSettings(iPad,eGameSetting_PS3_EULA_Read,0); // EULA not read + + // PS3 1.05 - added Greek + + // 4J-JEV: We cannot change these in-game, as they could affect localised strings and font. + // XB1: Fix for #172947 - Content: Gameplay: While playing in language different form system default one and resetting options to their defaults in active gameplay causes in-game language to change and HUD to disappear + if (!app.GetGameStarted()) + { + GameSettingsA[iPad]->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + GameSettingsA[iPad]->ucLocale = MINECRAFT_LANGUAGE_DEFAULT; // use the system locale + } + + //#endif + +#if (defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) + GameSettingsA[iPad]->bSettingsChanged=bWriteProfile; +#endif + + return 0; +} + +#if ( defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) +int CMinecraftApp::DefaultOptionsCallback(LPVOID pParam,C4JStorage::PROFILESETTINGS *pSettings, const int iPad) +#else +int CMinecraftApp::DefaultOptionsCallback(LPVOID pParam,C_4JProfile::PROFILESETTINGS *pSettings, const int iPad) +#endif +{ + CMinecraftApp *pApp=static_cast(pParam); + + // flag the default options to be set + + pApp->DebugPrintf("Setting default options for player %d", iPad); + pApp->SetAction(iPad,eAppAction_SetDefaultOptions, (LPVOID)pSettings); + //pApp->SetDefaultOptions(pSettings,iPad); + + // if the profile data has been changed, then force a profile write + // It seems we're allowed to break the 5 minute rule if it's the result of a user action + //pApp->CheckGameSettingsChanged(); + + return 0; +} + +#if ( defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) + +wstring CMinecraftApp::toStringOptionsStatus(const C4JStorage::eOptionsCallback &eStatus) +{ +#ifndef _CONTENT_PACKAGE + switch(eStatus) + { + case C4JStorage::eOptions_Callback_Idle: return L"Idle"; + case C4JStorage::eOptions_Callback_Write: return L"Write"; + case C4JStorage::eOptions_Callback_Write_Fail_NoSpace: return L"Write_Fail_NoSpace"; + case C4JStorage::eOptions_Callback_Write_Fail: return L"Write_Fail"; + case C4JStorage::eOptions_Callback_Read: return L"Read"; + case C4JStorage::eOptions_Callback_Read_Fail: return L"Read_Fail"; + case C4JStorage::eOptions_Callback_Read_FileNotFound: return L"Read_FileNotFound"; + case C4JStorage::eOptions_Callback_Read_Corrupt: return L"Read_Corrupt"; + case C4JStorage::eOptions_Callback_Read_CorruptDeletePending: return L"Read_CorruptDeletePending"; + case C4JStorage::eOptions_Callback_Read_CorruptDeleted: return L"Read_CorruptDeleted"; + default: return L"[UNRECOGNISED_OPTIONS_STATUS]"; + } +#else + return L""; +#endif +} + +#ifdef __ORBIS__ +int CMinecraftApp::OptionsDataCallback(LPVOID pParam,int iPad,unsigned short usVersion,C4JStorage::eOptionsCallback eStatus,int iBlocksRequired) +{ + CMinecraftApp *pApp=(CMinecraftApp *)pParam; + pApp->m_eOptionsStatusA[iPad]=eStatus; + pApp->m_eOptionsBlocksRequiredA[iPad]=iBlocksRequired; + return 0; +} + +int CMinecraftApp::GetOptionsBlocksRequired(int iPad) +{ + return m_eOptionsBlocksRequiredA[iPad]; +} + +#else +int CMinecraftApp::OptionsDataCallback(LPVOID pParam,int iPad,unsigned short usVersion,C4JStorage::eOptionsCallback eStatus) +{ + CMinecraftApp *pApp=(CMinecraftApp *)pParam; + +#ifndef _CONTENT_PACKAGE + pApp->DebugPrintf("[OptionsDataCallback] Pad_%i: new status == %ls(%i).\n", iPad, pApp->toStringOptionsStatus(eStatus).c_str(), (int) eStatus); +#endif + + pApp->m_eOptionsStatusA[iPad] = eStatus; + + return 0; +} +#endif + +C4JStorage::eOptionsCallback CMinecraftApp::GetOptionsCallbackStatus(int iPad) +{ + return m_eOptionsStatusA[iPad]; +} + +void CMinecraftApp::SetOptionsCallbackStatus(int iPad, C4JStorage::eOptionsCallback eStatus) +{ + m_eOptionsStatusA[iPad]=eStatus; +} +#endif + +int CMinecraftApp::OldProfileVersionCallback(LPVOID pParam,unsigned char *pucData, const unsigned short usVersion, const int iPad) +{ + // check what needs to be done with this version to update to the current one + + switch(usVersion) + { +#ifdef _XBOX + case PROFILE_VERSION_1: + case PROFILE_VERSION_2: + // need to fill in values for the new profile data. No need to save the profile - that'll happen if they get changed, or if the auto save for the profile kicks in + { + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + pGameSettings->ucMenuSensitivity=100; //eGameSetting_Sensitivity_InMenu + pGameSettings->ucInterfaceOpacity=80; //eGameSetting_Sensitivity_InMenu + pGameSettings->usBitmaskValues|=0x0200; //eGameSetting_DisplaySplitscreenGamertags - on + pGameSettings->usBitmaskValues|=0x0400; //eGameSetting_Hints - on + pGameSettings->usBitmaskValues|=0x1000; //eGameSetting_Autosave - 2 + pGameSettings->usBitmaskValues|=0x8000; //eGameSetting_Tooltips - on + + // 4J-PB - Let's also award all the achievements they have again because of the profile bug that seemed to stop the awards of some + // Changing this to check the system achievements at sign-in and award any that the game says we have and the system says we haven't + //ProfileManager.ReAwardAchievements(iPad); + + pGameSettings->uiBitmaskValues=0L; // reset + pGameSettings->uiBitmaskValues|=GAMESETTING_CLOUDS; //eGameSetting_Clouds - on + pGameSettings->uiBitmaskValues|=GAMESETTING_ONLINE; //eGameSetting_GameSetting_Online - on + //eGameSetting_GameSetting_Invite - off + pGameSettings->uiBitmaskValues|=GAMESETTING_FRIENDSOFFRIENDS; //eGameSetting_GameSetting_FriendsOfFriends - on + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + // TU6 + pGameSettings->uiBitmaskValues&=~GAMESETTING_BEDROCKFOG; //eGameSetting_BedrockFog - off + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYHUD; //eGameSetting_DisplayHUD - on + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYHAND; //eGameSetting_DisplayHand - on + // TU7 + pGameSettings->uiBitmaskValues|=GAMESETTING_CUSTOMSKINANIM; //eGameSetting_CustomSkinAnim - on + // TU9 + pGameSettings->uiBitmaskValues|=GAMESETTING_DEATHMESSAGES; //eGameSetting_DeathMessages - on + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE&0x00000800); // uisize 2 + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE_SPLITSCREEN&0x00004000); // splitscreen ui size 3 + pGameSettings->uiBitmaskValues|=GAMESETTING_ANIMATEDCHARACTER; //eGameSetting_AnimatedCharacter - on + // TU12 + // favorite skins added, but only set in TU12 - set to FFs + for(int i=0;iuiFavoriteSkinA[i]=0xFFFFFFFF; + } + pGameSettings->ucCurrentFavoriteSkinPos=0; + // Added a bitmask in TU13 to enable/disable display of the Mash-up pack worlds in the saves list + pGameSettings->uiMashUpPackWorldsDisplay = 0xFFFFFFFF; + + // PS3 1.05 - added Greek + pGameSettings->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + } + break; + case PROFILE_VERSION_3: + + { + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + pGameSettings->uiBitmaskValues=0L; // reset + pGameSettings->uiBitmaskValues|=GAMESETTING_CLOUDS; //eGameSetting_Clouds - on + pGameSettings->uiBitmaskValues|=GAMESETTING_ONLINE; //eGameSetting_GameSetting_Online - on + //eGameSetting_GameSetting_Invite - off + pGameSettings->uiBitmaskValues|=GAMESETTING_FRIENDSOFFRIENDS; //eGameSetting_GameSetting_FriendsOfFriends - on + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + // TU6 + pGameSettings->uiBitmaskValues&=~GAMESETTING_BEDROCKFOG; //eGameSetting_BedrockFog - off + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYHUD; //eGameSetting_DisplayHUD - on + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYHAND; //eGameSetting_DisplayHand - on + // TU7 + pGameSettings->uiBitmaskValues|=GAMESETTING_CUSTOMSKINANIM; //eGameSetting_CustomSkinAnim - on + // TU9 + pGameSettings->uiBitmaskValues|=GAMESETTING_DEATHMESSAGES; //eGameSetting_DeathMessages - on + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE&0x00000800); // uisize 2 + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE_SPLITSCREEN&0x00004000); // splitscreen ui size 3 + pGameSettings->uiBitmaskValues|=GAMESETTING_ANIMATEDCHARACTER; //eGameSetting_AnimatedCharacter - on + // TU12 + // favorite skins added, but only set in TU12 - set to FFs + for(int i=0;iuiFavoriteSkinA[i]=0xFFFFFFFF; + } + pGameSettings->ucCurrentFavoriteSkinPos=0; + // Added a bitmask in TU13 to enable/disable display of the Mash-up pack worlds in the saves list + pGameSettings->uiMashUpPackWorldsDisplay = 0xFFFFFFFF; + + // PS3 1.05 - added Greek + pGameSettings->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + + } + break; + case PROFILE_VERSION_4: + { + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + + pGameSettings->uiBitmaskValues&=~GAMESETTING_BEDROCKFOG; //eGameSetting_BedrockFog - off + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYHUD; //eGameSetting_DisplayHUD - on + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYHAND; //eGameSetting_DisplayHand - on + // TU7 + pGameSettings->uiBitmaskValues|=GAMESETTING_CUSTOMSKINANIM; //eGameSetting_CustomSkinAnim - on + // TU9 + pGameSettings->uiBitmaskValues|=GAMESETTING_DEATHMESSAGES; //eGameSetting_DeathMessages - on + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE&0x00000800); // uisize 2 + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE_SPLITSCREEN&0x00004000); // splitscreen ui size 3 + pGameSettings->uiBitmaskValues|=GAMESETTING_ANIMATEDCHARACTER; //eGameSetting_AnimatedCharacter - on + + // Set the online flag to on, so it's not saved if a game starts offline when the user didn't change it to be offline (xbox disconnected from LIVE) + pGameSettings->uiBitmaskValues|=GAMESETTING_ONLINE; //eGameSetting_GameSetting_Online - on + // TU12 + // favorite skins added, but only set in TU12 - set to FFs + for(int i=0;iuiFavoriteSkinA[i]=0xFFFFFFFF; + } + pGameSettings->ucCurrentFavoriteSkinPos=0; + // Added a bitmask in TU13 to enable/disable display of the Mash-up pack worlds in the saves list + pGameSettings->uiMashUpPackWorldsDisplay = 0xFFFFFFFF; + + // PS3 1.05 - added Greek + pGameSettings->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + + } + + break; + case PROFILE_VERSION_5: + { + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + + // reset the display new message counter + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + // TU7 + pGameSettings->uiBitmaskValues|=GAMESETTING_CUSTOMSKINANIM; //eGameSetting_CustomSkinAnim - on + // TU9 + pGameSettings->uiBitmaskValues|=GAMESETTING_DEATHMESSAGES; //eGameSetting_DeathMessages - on + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE&0x00000800); // uisize 2 + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE_SPLITSCREEN&0x00004000); // splitscreen ui size 3 + pGameSettings->uiBitmaskValues|=GAMESETTING_ANIMATEDCHARACTER; //eGameSetting_AnimatedCharacter - on + // Set the online flag to on, so it's not saved if a game starts offline when the user didn't change it to be offline (xbox disconnected from LIVE) + pGameSettings->uiBitmaskValues|=GAMESETTING_ONLINE; //eGameSetting_GameSetting_Online - on + // TU12 + // favorite skins added, but only set in TU12 - set to FFs + for(int i=0;iuiFavoriteSkinA[i]=0xFFFFFFFF; + } + pGameSettings->ucCurrentFavoriteSkinPos=0; + // Added a bitmask in TU13 to enable/disable display of the Mash-up pack worlds in the saves list + pGameSettings->uiMashUpPackWorldsDisplay = 0xFFFFFFFF; + + // PS3 1.05 - added Greek + pGameSettings->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + + + } + + break; + case PROFILE_VERSION_6: + { + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + + // Added gui size for splitscreen and fullscreen + // Added death messages toggle + + // reset the display new message counter + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + // TU9 + pGameSettings->uiBitmaskValues|=GAMESETTING_DEATHMESSAGES; //eGameSetting_DeathMessages - on + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE&0x00000800); // uisize 2 + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE_SPLITSCREEN&0x00004000); // splitscreen ui size 3 + pGameSettings->uiBitmaskValues|=GAMESETTING_ANIMATEDCHARACTER; //eGameSetting_AnimatedCharacter - on + // Set the online flag to on, so it's not saved if a game starts offline when the user didn't change it to be offline (xbox disconnected from LIVE) + pGameSettings->uiBitmaskValues|=GAMESETTING_ONLINE; //eGameSetting_GameSetting_Online - on + // TU12 + // favorite skins added, but only set in TU12 - set to FFs + for(int i=0;iuiFavoriteSkinA[i]=0xFFFFFFFF; + } + pGameSettings->ucCurrentFavoriteSkinPos=0; + // Added a bitmask in TU13 to enable/disable display of the Mash-up pack worlds in the saves list + pGameSettings->uiMashUpPackWorldsDisplay = 0xFFFFFFFF; + + // PS3 1.05 - added Greek + pGameSettings->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + + + } + + break; + + case PROFILE_VERSION_7: + { + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + // reset the display new message counter + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + + // TU12 + // favorite skins added, but only set in TU12 - set to FFs + for(int i=0;iuiFavoriteSkinA[i]=0xFFFFFFFF; + } + pGameSettings->ucCurrentFavoriteSkinPos=0; + // Added a bitmask in TU13 to enable/disable display of the Mash-up pack worlds in the saves list + pGameSettings->uiMashUpPackWorldsDisplay = 0xFFFFFFFF; + + // PS3 1.05 - added Greek + pGameSettings->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + + + } + break; +#endif + case PROFILE_VERSION_8: + { + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + // reset the display new message counter + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + + // Added a bitmask in TU13 to enable/disable display of the Mash-up pack worlds in the saves list + pGameSettings->uiMashUpPackWorldsDisplay = 0xFFFFFFFF; + + // PS3DEC13 + pGameSettings->uiBitmaskValues&=~GAMESETTING_PS3EULAREAD; //eGameSetting_PS3_EULA_Read - off + + // PS3 1.05 - added Greek + pGameSettings->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + + } + break; + case PROFILE_VERSION_9: + // PS3DEC13 + { + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + pGameSettings->uiBitmaskValues&=~GAMESETTING_PS3EULAREAD; //eGameSetting_PS3_EULA_Read - off + + // PS3 1.05 - added Greek + pGameSettings->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + + } + break; + case PROFILE_VERSION_10: + { + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + pGameSettings->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + } + break; + case PROFILE_VERSION_11: + { + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + } + break; + case PROFILE_VERSION_12: + { + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + } + break; + default: + { + // This might be from a version during testing of new profile updates + app.DebugPrintf("Don't know what to do with this profile version!\n"); +#ifndef _CONTENT_PACKAGE + // __debugbreak(); +#endif + + GAME_SETTINGS *pGameSettings=(GAME_SETTINGS *)pucData; + pGameSettings->ucMenuSensitivity=100; //eGameSetting_Sensitivity_InMenu + pGameSettings->ucInterfaceOpacity=80; //eGameSetting_Sensitivity_InMenu + pGameSettings->usBitmaskValues|=0x0200; //eGameSetting_DisplaySplitscreenGamertags - on + pGameSettings->usBitmaskValues|=0x0400; //eGameSetting_Hints - on + pGameSettings->usBitmaskValues|=0x1000; //eGameSetting_Autosave - 2 + pGameSettings->usBitmaskValues|=0x8000; //eGameSetting_Tooltips - on + + pGameSettings->uiBitmaskValues=0L; // reset + pGameSettings->uiBitmaskValues|=GAMESETTING_CLOUDS; //eGameSetting_Clouds - on + pGameSettings->uiBitmaskValues|=GAMESETTING_ONLINE; //eGameSetting_GameSetting_Online - on + //eGameSetting_GameSetting_Invite - off + pGameSettings->uiBitmaskValues|=GAMESETTING_FRIENDSOFFRIENDS; //eGameSetting_GameSetting_FriendsOfFriends - on + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + pGameSettings->uiBitmaskValues&=~GAMESETTING_BEDROCKFOG; //eGameSetting_BedrockFog - off + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYHUD; //eGameSetting_DisplayHUD - on + pGameSettings->uiBitmaskValues|=GAMESETTING_DISPLAYHAND; //eGameSetting_DisplayHand - on + pGameSettings->uiBitmaskValues|=GAMESETTING_CUSTOMSKINANIM; //eGameSetting_CustomSkinAnim - on + pGameSettings->uiBitmaskValues|=GAMESETTING_DEATHMESSAGES; //eGameSetting_DeathMessages - on + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE&0x00000800); // uisize 2 + pGameSettings->uiBitmaskValues|=(GAMESETTING_UISIZE_SPLITSCREEN&0x00004000); // splitscreen ui size 3 + pGameSettings->uiBitmaskValues|=GAMESETTING_ANIMATEDCHARACTER; //eGameSetting_AnimatedCharacter - on + // TU12 + // favorite skins added, but only set in TU12 - set to FFs + for(int i=0;iuiFavoriteSkinA[i]=0xFFFFFFFF; + } + pGameSettings->ucCurrentFavoriteSkinPos=0; + // Added a bitmask in TU13 to enable/disable display of the Mash-up pack worlds in the saves list + pGameSettings->uiMashUpPackWorldsDisplay = 0xFFFFFFFF; + + // PS3DEC13 + pGameSettings->uiBitmaskValues&=~GAMESETTING_PS3EULAREAD; //eGameSetting_PS3_EULA_Read - off + + // PS3 1.05 - added Greek + pGameSettings->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + + } + break; + } + + return 0; +} + +void CMinecraftApp::ApplyGameSettingsChanged(int iPad) +{ + ActionGameSettings(iPad,eGameSetting_MusicVolume ); + ActionGameSettings(iPad,eGameSetting_SoundFXVolume ); + ActionGameSettings(iPad,eGameSetting_RenderDistance ); + ActionGameSettings(iPad,eGameSetting_Gamma ); + ActionGameSettings(iPad,eGameSetting_FOV ); + ActionGameSettings(iPad,eGameSetting_Difficulty ); + ActionGameSettings(iPad,eGameSetting_Sensitivity_InGame ); + ActionGameSettings(iPad,eGameSetting_ViewBob ); + ActionGameSettings(iPad,eGameSetting_ControlScheme ); + ActionGameSettings(iPad,eGameSetting_ControlInvertLook); + ActionGameSettings(iPad,eGameSetting_ControlSouthPaw); + ActionGameSettings(iPad,eGameSetting_SplitScreenVertical); + ActionGameSettings(iPad,eGameSetting_GamertagsVisible); + + // Interim TU 1.6.6 + ActionGameSettings(iPad,eGameSetting_Sensitivity_InMenu ); + ActionGameSettings(iPad,eGameSetting_DisplaySplitscreenGamertags); + ActionGameSettings(iPad,eGameSetting_Hints); + ActionGameSettings(iPad,eGameSetting_InterfaceOpacity); + ActionGameSettings(iPad,eGameSetting_Tooltips); + + ActionGameSettings(iPad,eGameSetting_Clouds); + ActionGameSettings(iPad,eGameSetting_BedrockFog); + ActionGameSettings(iPad,eGameSetting_DisplayHUD); + ActionGameSettings(iPad,eGameSetting_DisplayHand); + ActionGameSettings(iPad,eGameSetting_CustomSkinAnim); + ActionGameSettings(iPad,eGameSetting_DeathMessages); + ActionGameSettings(iPad,eGameSetting_UISize); + ActionGameSettings(iPad,eGameSetting_UISizeSplitscreen); + ActionGameSettings(iPad,eGameSetting_AnimatedCharacter); + + ActionGameSettings(iPad,eGameSetting_PS3_EULA_Read); + +} + +void CMinecraftApp::ActionGameSettings(int iPad,eGameSetting eVal) +{ + Minecraft *pMinecraft=Minecraft::GetInstance(); + switch(eVal) + { + case eGameSetting_MusicVolume: + if(iPad==ProfileManager.GetPrimaryPad()) + { + pMinecraft->options->set(Options::Option::MUSIC,static_cast(GameSettingsA[iPad]->ucMusicVolume)/100.0f); + } + break; + case eGameSetting_SoundFXVolume: + if (iPad == ProfileManager.GetPrimaryPad()) + { + pMinecraft->options->set(Options::Option::SOUND, static_cast(GameSettingsA[iPad]->ucSoundFXVolume) / 100.0f); + } + break; + case eGameSetting_RenderDistance: + if (iPad == ProfileManager.GetPrimaryPad()) + { + int dist = (GameSettingsA[iPad]->uiBitmaskValues >> 16) & 0xFF; + + }; + break; + case eGameSetting_Gamma: + if(iPad==ProfileManager.GetPrimaryPad()) + { +#if defined(_WIN64) || defined(_WINDOWS64) + pMinecraft->options->set(Options::Option::GAMMA, static_cast(GameSettingsA[iPad]->ucGamma) / 100.0f); +#else + // ucGamma range is 0-100, UpdateGamma is 0 - 32768 + float fVal=((float)GameSettingsA[iPad]->ucGamma)*327.68f; + RenderManager.UpdateGamma((unsigned short)fVal); +#endif + } + + break; + case eGameSetting_FOV: + if(iPad==ProfileManager.GetPrimaryPad()) + { + float fovDeg = 70.0f + (float)GameSettingsA[iPad]->ucFov * 40.0f / 100.0f; + //pMinecraft->gameRenderer->SetFovVal(fovDeg); + //pMinecraft->options->set(Options::Option::FOV, (float)GameSettingsA[iPad]->ucFov / 100.0f); + } + break; + case eGameSetting_Difficulty: + if(iPad==ProfileManager.GetPrimaryPad()) + { + pMinecraft->options->toggle(Options::Option::DIFFICULTY,GameSettingsA[iPad]->usBitmaskValues&0x03); + app.DebugPrintf("Difficulty toggle to %d\n",GameSettingsA[iPad]->usBitmaskValues&0x03); + + // Update the Game Host setting + app.SetGameHostOption(eGameHostOption_Difficulty,pMinecraft->options->difficulty); + + // send this to the other players if we are in-game + bool bInGame=pMinecraft->level!=nullptr; + + // Game Host only (and for now we can't change the diff while in game, so this shouldn't happen) + if(bInGame && g_NetworkManager.IsHost() && (iPad==ProfileManager.GetPrimaryPad())) + { + app.SetXuiServerAction(iPad,eXuiServerAction_ServerSettingChanged_Difficulty); + } + } + else + { + app.DebugPrintf("NOT ACTIONING DIFFICULTY - Primary pad is %d, This pad is %d\n",ProfileManager.GetPrimaryPad(),iPad); + } + + break; + case eGameSetting_Sensitivity_InGame: + // 4J-PB - we don't use the options value + // tell the input that we've changed the sensitivity - range of the slider is 0 to 200, default is 100 + pMinecraft->options->set(Options::Option::SENSITIVITY,static_cast(GameSettingsA[iPad]->ucSensitivity)/100.0f); + //InputManager.SetJoypadSensitivity(iPad,((float)GameSettingsA[iPad]->ucSensitivity)/100.0f); + + break; + case eGameSetting_ViewBob: + // 4J-PB - not handled here any more - it's read from the gamesettings per player + //pMinecraft->options->toggle(Options::Option::VIEW_BOBBING,GameSettingsA[iPad]->usBitmaskValues&0x04); + break; + case eGameSetting_ControlScheme: + InputManager.SetJoypadMapVal(iPad,(GameSettingsA[iPad]->usBitmaskValues&0x30)>>4); + break; + + case eGameSetting_ControlInvertLook: + // Nothing specific to do for this setting. + break; + + case eGameSetting_ControlSouthPaw: + // What is the setting? + if ( GameSettingsA[iPad]->usBitmaskValues & 0x80 ) + { + // Southpaw. + InputManager.SetJoypadStickAxisMap( iPad, AXIS_MAP_LX, AXIS_MAP_RX ); + InputManager.SetJoypadStickAxisMap( iPad, AXIS_MAP_LY, AXIS_MAP_RY ); + InputManager.SetJoypadStickAxisMap( iPad, AXIS_MAP_RX, AXIS_MAP_LX ); + InputManager.SetJoypadStickAxisMap( iPad, AXIS_MAP_RY, AXIS_MAP_LY ); + InputManager.SetJoypadStickTriggerMap( iPad, TRIGGER_MAP_0, TRIGGER_MAP_1 ); + InputManager.SetJoypadStickTriggerMap( iPad, TRIGGER_MAP_1, TRIGGER_MAP_0 ); + } + else + { + // Right handed. + InputManager.SetJoypadStickAxisMap( iPad, AXIS_MAP_LX, AXIS_MAP_LX ); + InputManager.SetJoypadStickAxisMap( iPad, AXIS_MAP_LY, AXIS_MAP_LY ); + InputManager.SetJoypadStickAxisMap( iPad, AXIS_MAP_RX, AXIS_MAP_RX ); + InputManager.SetJoypadStickAxisMap( iPad, AXIS_MAP_RY, AXIS_MAP_RY ); + InputManager.SetJoypadStickTriggerMap( iPad, TRIGGER_MAP_0, TRIGGER_MAP_0 ); + InputManager.SetJoypadStickTriggerMap( iPad, TRIGGER_MAP_1, TRIGGER_MAP_1 ); + } + break; + case eGameSetting_SplitScreenVertical: + if(iPad==ProfileManager.GetPrimaryPad()) + { + pMinecraft->updatePlayerViewportAssignments(); + } + break; + case eGameSetting_GamertagsVisible: + { + bool bInGame=pMinecraft->level!=nullptr; + + // Game Host only + if(bInGame && g_NetworkManager.IsHost() && (iPad==ProfileManager.GetPrimaryPad())) + { + // Update the Game Host setting if you are the host and you are in-game + app.SetGameHostOption(eGameHostOption_Gamertags,((GameSettingsA[iPad]->usBitmaskValues&0x0008)!=0)?1:0); + app.SetXuiServerAction(iPad,eXuiServerAction_ServerSettingChanged_Gamertags); + + PlayerList *players = MinecraftServer::getInstance()->getPlayerList(); + for( auto& decorationPlayer : players->players ) + { + decorationPlayer->setShowOnMaps((app.GetGameHostOption(eGameHostOption_Gamertags)!=0)?true:false); + } + } + } + break; + // Interim TU 1.6.6 + case eGameSetting_Sensitivity_InMenu: + // 4J-PB - we don't use the options value + // tell the input that we've changed the sensitivity - range of the slider is 0 to 200, default is 100 + //pMinecraft->options->set(Options::Option::SENSITIVITY,((float)GameSettingsA[iPad]->ucSensitivity)/100.0f); + //InputManager.SetJoypadSensitivity(iPad,((float)GameSettingsA[iPad]->ucSensitivity)/100.0f); + + break; + + case eGameSetting_DisplaySplitscreenGamertags: + + break; + case eGameSetting_InterfaceOpacity: + // update the tooltips display + + break; + case eGameSetting_Hints: + //nothing to do here + break; + case eGameSetting_Tooltips: + + break; + case eGameSetting_Clouds: + //nothing to do here + break; + case eGameSetting_Online: + //nothing to do here + break; + case eGameSetting_InviteOnly: + //nothing to do here + break; + case eGameSetting_FriendsOfFriends: + //nothing to do here + break; + case eGameSetting_BedrockFog: + { + bool bInGame = pMinecraft->level != nullptr; + + if (bInGame && g_NetworkManager.IsHost() && (iPad == ProfileManager.GetPrimaryPad())) + { + app.SetGameHostOption(eGameHostOption_BedrockFog, GetGameSettings(iPad, eGameSetting_BedrockFog) ? 1 : 0); + app.SetXuiServerAction(iPad, eXuiServerAction_ServerSettingChanged_BedrockFog); + } + } + break; + case eGameSetting_DisplayHUD: + //nothing to do here + break; + case eGameSetting_DisplayHand: + //nothing to do here + break; + case eGameSetting_CustomSkinAnim: + //nothing to do here + break; + case eGameSetting_DeathMessages: + //nothing to do here + break; + case eGameSetting_UISize: + //nothing to do here + break; + case eGameSetting_UISizeSplitscreen: + //nothing to do here + break; + case eGameSetting_AnimatedCharacter: + //nothing to do here + break; + case eGameSetting_PS3_EULA_Read: + //nothing to do here + break; + case eGameSetting_PSVita_NetworkModeAdhoc: + //nothing to do here + break; + } +} + +void CMinecraftApp::SetPlayerSkin(int iPad,const wstring &name) +{ + DWORD skinId = app.getSkinIdFromPath(name); + + SetPlayerSkin(iPad,skinId); +} + +void CMinecraftApp::SetPlayerSkin(int iPad,DWORD dwSkinId) +{ + DebugPrintf("Setting skin for %d to %08X\n", iPad, dwSkinId); + + GameSettingsA[iPad]->dwSelectedSkin = dwSkinId; + GameSettingsA[iPad]->bSettingsChanged = true; + + TelemetryManager->RecordSkinChanged(iPad, GameSettingsA[iPad]->dwSelectedSkin); + + if(Minecraft::GetInstance()->localplayers[iPad]!=nullptr) Minecraft::GetInstance()->localplayers[iPad]->setAndBroadcastCustomSkin(dwSkinId); +} + + +wstring CMinecraftApp::GetPlayerSkinName(int iPad) +{ + return app.getSkinPathFromId(GameSettingsA[iPad]->dwSelectedSkin); +} + +DWORD CMinecraftApp::GetPlayerSkinId(int iPad) +{ + // 4J-PB -check the user has rights to use this skin - they may have had at some point but the entitlement has been removed. + DLCPack *Pack=nullptr; + DLCSkinFile *skinFile=nullptr; + DWORD dwSkin=GameSettingsA[iPad]->dwSelectedSkin; + wchar_t chars[256]; + + if( GET_IS_DLC_SKIN_FROM_BITMASK(dwSkin) ) + { + // 4J Stu - DLC skins are numbered using decimal rather than hex to make it easier to number manually + swprintf(chars, 256, L"dlcskin%08d.png", GET_DLC_SKIN_ID_FROM_BITMASK(dwSkin)); + + Pack=app.m_dlcManager.getPackContainingSkin(chars); + + if(Pack) + { + skinFile = Pack->getSkinFile(chars); + + bool bSkinIsFree = skinFile->getParameterAsBool( DLCManager::e_DLCParamType_Free ); + bool bLicensed = Pack->hasPurchasedFile( DLCManager::e_DLCType_Skin, skinFile->getPath() ); + + if(bSkinIsFree || bLicensed) + { + return dwSkin; + } + else + { + return 0; + } + } + } + + + return dwSkin; +} + +DWORD CMinecraftApp::GetAdditionalModelParts(int iPad) +{ + return m_dwAdditionalModelParts[iPad]; +} + + +void CMinecraftApp::SetPlayerCape(int iPad,const wstring &name) +{ + DWORD capeId = Player::getCapeIdFromPath(name); + + SetPlayerCape(iPad,capeId); +} + +void CMinecraftApp::SetPlayerCape(int iPad,DWORD dwCapeId) +{ + DebugPrintf("Setting cape for %d to %08X\n", iPad, dwCapeId); + + GameSettingsA[iPad]->dwSelectedCape = dwCapeId; + GameSettingsA[iPad]->bSettingsChanged = true; + + //SentientManager.RecordSkinChanged(iPad, GameSettingsA[iPad]->dwSelectedSkin); + + if(Minecraft::GetInstance()->localplayers[iPad]!=nullptr) Minecraft::GetInstance()->localplayers[iPad]->setAndBroadcastCustomCape(dwCapeId); +} + +wstring CMinecraftApp::GetPlayerCapeName(int iPad) +{ + return Player::getCapePathFromId(GameSettingsA[iPad]->dwSelectedCape); +} + +DWORD CMinecraftApp::GetPlayerCapeId(int iPad) +{ + return GameSettingsA[iPad]->dwSelectedCape; +} + +void CMinecraftApp::SetPlayerFavoriteSkin(int iPad, int iIndex,unsigned int uiSkinID) +{ + DebugPrintf("Setting favorite skin for %d to %08X\n", iPad, uiSkinID); + + GameSettingsA[iPad]->uiFavoriteSkinA[iIndex] = uiSkinID; + GameSettingsA[iPad]->bSettingsChanged = true; +} + +unsigned int CMinecraftApp::GetPlayerFavoriteSkin(int iPad,int iIndex) +{ + return GameSettingsA[iPad]->uiFavoriteSkinA[iIndex]; +} + +unsigned char CMinecraftApp::GetPlayerFavoriteSkinsPos(int iPad) +{ + return GameSettingsA[iPad]->ucCurrentFavoriteSkinPos; +} + +void CMinecraftApp::SetPlayerFavoriteSkinsPos(int iPad, int iPos) +{ + GameSettingsA[iPad]->ucCurrentFavoriteSkinPos=static_cast(iPos); + GameSettingsA[iPad]->bSettingsChanged = true; +} + +unsigned int CMinecraftApp::GetPlayerFavoriteSkinsCount(int iPad) +{ + unsigned int uiCount=0; + for(int i=0;iuiFavoriteSkinA[i]!=0xFFFFFFFF) + { + uiCount++; + } + else + { + break; + } + } + return uiCount; +} + +void CMinecraftApp::ValidateFavoriteSkins(int iPad) +{ + unsigned int uiCount=GetPlayerFavoriteSkinsCount(iPad); + + // remove invalid skins + unsigned int uiValidSkin=0; + wchar_t chars[256]; + + for(unsigned int i=0;igetFile(DLCManager::e_DLCType_Skin,chars); + DLCSkinFile *pSkinFile = pDLCPack->getSkinFile(chars); + + if( pDLCPack->hasPurchasedFile(DLCManager::e_DLCType_Skin, L"") || (pSkinFile && pSkinFile->isFree())) + { + GameSettingsA[iPad]->uiFavoriteSkinA[uiValidSkin++]=GameSettingsA[iPad]->uiFavoriteSkinA[i]; + } + } + } + + for(unsigned int i=uiValidSkin;iuiFavoriteSkinA[i]=0xFFFFFFFF; + } +} + +// Mash-up pack worlds +void CMinecraftApp::HideMashupPackWorld(int iPad, unsigned int iMashupPackID) +{ + unsigned int uiPackID=iMashupPackID - 1024; // mash-up ids start at 1024 + GameSettingsA[iPad]->uiMashUpPackWorldsDisplay&=~(1<bSettingsChanged = true; +} + +void CMinecraftApp::EnableMashupPackWorlds(int iPad) +{ + GameSettingsA[iPad]->uiMashUpPackWorldsDisplay=0xFFFFFFFF; + GameSettingsA[iPad]->bSettingsChanged = true; +} + +unsigned int CMinecraftApp::GetMashupPackWorlds(int iPad) +{ + return GameSettingsA[iPad]->uiMashUpPackWorldsDisplay; +} + +void CMinecraftApp::SetMinecraftLanguage(int iPad, unsigned char ucLanguage) +{ + GameSettingsA[iPad]->ucLanguage = ucLanguage; + GameSettingsA[iPad]->bSettingsChanged = true; +} + +unsigned char CMinecraftApp::GetMinecraftLanguage(int iPad) +{ + // if there are no game settings read yet, return the default language + if(GameSettingsA[iPad]==nullptr) + { + return 0; + } + else + { + return GameSettingsA[iPad]->ucLanguage; + } +} + +void CMinecraftApp::SetMinecraftLocale(int iPad, unsigned char ucLocale) +{ + GameSettingsA[iPad]->ucLocale = ucLocale; + GameSettingsA[iPad]->bSettingsChanged = true; +} + +unsigned char CMinecraftApp::GetMinecraftLocale(int iPad) +{ + // if there are no game settings read yet, return the default language + if(GameSettingsA[iPad]==nullptr) + { + return 0; + } + else + { + return GameSettingsA[iPad]->ucLocale; + } +} + +void CMinecraftApp::SetGameSettings(int iPad,eGameSetting eVal,unsigned char ucVal) +{ + //Minecraft *pMinecraft=Minecraft::GetInstance(); + + switch(eVal) + { + case eGameSetting_MusicVolume: + if(GameSettingsA[iPad]->ucMusicVolume!=ucVal) + { + GameSettingsA[iPad]->ucMusicVolume=ucVal; + if(iPad==ProfileManager.GetPrimaryPad()) + { + ActionGameSettings(iPad,eVal); + } + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_SoundFXVolume: + if(GameSettingsA[iPad]->ucSoundFXVolume!=ucVal) + { + GameSettingsA[iPad]->ucSoundFXVolume=ucVal; + if(iPad==ProfileManager.GetPrimaryPad()) + { + ActionGameSettings(iPad,eVal); + } + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_RenderDistance: + { + unsigned int val = ucVal & 0xFF; + + GameSettingsA[iPad]->uiBitmaskValues &= ~(0xFF << 16); + GameSettingsA[iPad]->uiBitmaskValues |= val << 16; + if(iPad == ProfileManager.GetPrimaryPad()) + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged = true; + } + break; + case eGameSetting_Gamma: + if(GameSettingsA[iPad]->ucGamma!=ucVal) + { + GameSettingsA[iPad]->ucGamma=ucVal; + if(iPad==ProfileManager.GetPrimaryPad()) + { + ActionGameSettings(iPad,eVal); + } + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_FOV: + if(GameSettingsA[iPad]->ucFov!=ucVal) + { + GameSettingsA[iPad]->ucFov=ucVal; + if(iPad==ProfileManager.GetPrimaryPad()) + { + ActionGameSettings(iPad,eVal); + } + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_Difficulty: + if((GameSettingsA[iPad]->usBitmaskValues&0x03)!=(ucVal&0x03)) + { + GameSettingsA[iPad]->usBitmaskValues&=~0x03; + GameSettingsA[iPad]->usBitmaskValues|=ucVal&0x03; + if(iPad==ProfileManager.GetPrimaryPad()) + { + ActionGameSettings(iPad,eVal); + } + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_Sensitivity_InGame: + if(GameSettingsA[iPad]->ucSensitivity!=ucVal) + { + GameSettingsA[iPad]->ucSensitivity=ucVal; + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_ViewBob: + if((GameSettingsA[iPad]->usBitmaskValues&0x0004)!=((ucVal&0x01)<<2)) + { + if(ucVal!=0) + { + GameSettingsA[iPad]->usBitmaskValues|=0x0004; + } + else + { + GameSettingsA[iPad]->usBitmaskValues&=~0x0004; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_ControlScheme: // bits 5 and 6 + if((GameSettingsA[iPad]->usBitmaskValues&0x30)!=((ucVal&0x03)<<4)) + { + GameSettingsA[iPad]->usBitmaskValues&=~0x0030; + if(ucVal!=0) + { + GameSettingsA[iPad]->usBitmaskValues|=(ucVal&0x03)<<4; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + + case eGameSetting_ControlInvertLook: + if((GameSettingsA[iPad]->usBitmaskValues&0x0040)!=((ucVal&0x01)<<6)) + { + if(ucVal!=0) + { + GameSettingsA[iPad]->usBitmaskValues|=0x0040; + } + else + { + GameSettingsA[iPad]->usBitmaskValues&=~0x0040; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + + case eGameSetting_ControlSouthPaw: + if((GameSettingsA[iPad]->usBitmaskValues&0x0080)!=((ucVal&0x01)<<7)) + { + if(ucVal!=0) + { + GameSettingsA[iPad]->usBitmaskValues|=0x0080; + } + else + { + GameSettingsA[iPad]->usBitmaskValues&=~0x0080; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_SplitScreenVertical: + if((GameSettingsA[iPad]->usBitmaskValues&0x0100)!=((ucVal&0x01)<<8)) + { + if(ucVal!=0) + { + GameSettingsA[iPad]->usBitmaskValues|=0x0100; + } + else + { + GameSettingsA[iPad]->usBitmaskValues&=~0x0100; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_GamertagsVisible: + if((GameSettingsA[iPad]->usBitmaskValues&0x0008)!=((ucVal&0x01)<<3)) + { + if(ucVal!=0) + { + GameSettingsA[iPad]->usBitmaskValues|=0x0008; + } + else + { + GameSettingsA[iPad]->usBitmaskValues&=~0x0008; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + + // 4J-PB - Added for Interim TU for 1.6.6 + case eGameSetting_Sensitivity_InMenu: + if(GameSettingsA[iPad]->ucMenuSensitivity!=ucVal) + { + GameSettingsA[iPad]->ucMenuSensitivity=ucVal; + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_DisplaySplitscreenGamertags: + if((GameSettingsA[iPad]->usBitmaskValues&0x0200)!=((ucVal&0x01)<<9)) + { + if(ucVal!=0) + { + GameSettingsA[iPad]->usBitmaskValues|=0x0200; + } + else + { + GameSettingsA[iPad]->usBitmaskValues&=~0x0200; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_Hints: + if((GameSettingsA[iPad]->usBitmaskValues&0x0400)!=((ucVal&0x01)<<10)) + { + if(ucVal!=0) + { + GameSettingsA[iPad]->usBitmaskValues|=0x0400; + } + else + { + GameSettingsA[iPad]->usBitmaskValues&=~0x0400; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_Autosave: + if((GameSettingsA[iPad]->usBitmaskValues&0x7800)!=((ucVal&0x0F)<<11)) + { + GameSettingsA[iPad]->usBitmaskValues&=~0x7800; + if(ucVal!=0) + { + GameSettingsA[iPad]->usBitmaskValues|=(ucVal&0x0F)<<11; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + + case eGameSetting_Tooltips: + if((GameSettingsA[iPad]->usBitmaskValues&0x8000)!=((ucVal&0x01)<<15)) + { + if(ucVal!=0) + { + GameSettingsA[iPad]->usBitmaskValues|=0x8000; + } + else + { + GameSettingsA[iPad]->usBitmaskValues&=~0x8000; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_InterfaceOpacity: + if(GameSettingsA[iPad]->ucInterfaceOpacity!=ucVal) + { + GameSettingsA[iPad]->ucInterfaceOpacity=ucVal; + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + + break; + case eGameSetting_Clouds: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_CLOUDS)!=(ucVal&0x01)) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_CLOUDS; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_CLOUDS; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + + break; + + case eGameSetting_Online: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_ONLINE)!=(ucVal&0x01)<<1) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_ONLINE; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_ONLINE; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + + break; + case eGameSetting_InviteOnly: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_INVITEONLY)!=(ucVal&0x01)<<2) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_INVITEONLY; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_INVITEONLY; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + + break; + case eGameSetting_FriendsOfFriends: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_FRIENDSOFFRIENDS)!=(ucVal&0x01)<<3) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_FRIENDSOFFRIENDS; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_FRIENDSOFFRIENDS; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + + break; + case eGameSetting_DisplayUpdateMessage: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_DISPLAYUPDATEMSG)!=(ucVal&0x03)<<4) + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_DISPLAYUPDATEMSG; + if(ucVal>0) + { + GameSettingsA[iPad]->uiBitmaskValues|=(ucVal&0x03)<<4; + } + + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + + break; + + case eGameSetting_BedrockFog: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_BEDROCKFOG)!=(ucVal&0x01)<<6) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_BEDROCKFOG; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_BEDROCKFOG; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + + break; + case eGameSetting_DisplayHUD: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_DISPLAYHUD)!=(ucVal&0x01)<<7) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_DISPLAYHUD; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_DISPLAYHUD; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + + break; + case eGameSetting_DisplayHand: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_DISPLAYHAND)!=(ucVal&0x01)<<8) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_DISPLAYHAND; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_DISPLAYHAND; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + + break; + + case eGameSetting_CustomSkinAnim: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_CUSTOMSKINANIM)!=(ucVal&0x01)<<9) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_CUSTOMSKINANIM; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_CUSTOMSKINANIM; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + + break; + // TU9 + case eGameSetting_DeathMessages: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_DEATHMESSAGES)!=(ucVal&0x01)<<10) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_DEATHMESSAGES; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_DEATHMESSAGES; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_UISize: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_UISIZE)!=((ucVal&0x03)<<11)) + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_UISIZE; + if(ucVal!=0) + { + GameSettingsA[iPad]->uiBitmaskValues|=(ucVal&0x03)<<11; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_UISizeSplitscreen: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_UISIZE_SPLITSCREEN)!=((ucVal&0x03)<<13)) + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_UISIZE_SPLITSCREEN; + if(ucVal!=0) + { + GameSettingsA[iPad]->uiBitmaskValues|=(ucVal&0x03)<<13; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_AnimatedCharacter: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_ANIMATEDCHARACTER)!=(ucVal&0x01)<<15) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_ANIMATEDCHARACTER; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_ANIMATEDCHARACTER; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_PS3_EULA_Read: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_PS3EULAREAD)!=(ucVal&0x01)<<16) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_PS3EULAREAD; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_PS3EULAREAD; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + case eGameSetting_PSVita_NetworkModeAdhoc: + if((GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_PSVITANETWORKMODEADHOC)!=(ucVal&0x01)<<17) + { + if(ucVal==1) + { + GameSettingsA[iPad]->uiBitmaskValues|=GAMESETTING_PSVITANETWORKMODEADHOC; + } + else + { + GameSettingsA[iPad]->uiBitmaskValues&=~GAMESETTING_PSVITANETWORKMODEADHOC; + } + ActionGameSettings(iPad,eVal); + GameSettingsA[iPad]->bSettingsChanged=true; + } + break; + + } +} + +unsigned char CMinecraftApp::GetGameSettings(eGameSetting eVal) +{ + int iPad=ProfileManager.GetPrimaryPad(); + + return GetGameSettings(iPad,eVal); +} + +unsigned char CMinecraftApp::GetGameSettings(int iPad,eGameSetting eVal) +{ + switch(eVal) + { + case eGameSetting_MusicVolume: + return GameSettingsA[iPad]->ucMusicVolume; + break; + case eGameSetting_SoundFXVolume: + return GameSettingsA[iPad]->ucSoundFXVolume; + break; + case eGameSetting_RenderDistance: + { + int val = (GameSettingsA[iPad]->uiBitmaskValues >> 16) & 0xFF; + if(val == 0) return val = 16; //brain + return val; + break; + } + case eGameSetting_Gamma: + return GameSettingsA[iPad]->ucGamma; + break; + case eGameSetting_FOV: + return GameSettingsA[iPad]->ucFov; + break; + case eGameSetting_Difficulty: + return GameSettingsA[iPad]->usBitmaskValues&0x0003; + break; + case eGameSetting_Sensitivity_InGame: + return GameSettingsA[iPad]->ucSensitivity; + break; + case eGameSetting_ViewBob: + return ((GameSettingsA[iPad]->usBitmaskValues&0x0004)>>2); + break; + case eGameSetting_GamertagsVisible: + return ((GameSettingsA[iPad]->usBitmaskValues&0x0008)>>3); + break; + case eGameSetting_ControlScheme: + return ((GameSettingsA[iPad]->usBitmaskValues&0x0030)>>4); // 2 bits + break; + case eGameSetting_ControlInvertLook: + return ((GameSettingsA[iPad]->usBitmaskValues&0x0040)>>6); + break; + case eGameSetting_ControlSouthPaw: + return ((GameSettingsA[iPad]->usBitmaskValues&0x0080)>>7); + break; + case eGameSetting_SplitScreenVertical: + return ((GameSettingsA[iPad]->usBitmaskValues&0x0100)>>8); + break; + // 4J-PB - Added for Interim TU for 1.6.6 + case eGameSetting_Sensitivity_InMenu: + return GameSettingsA[iPad]->ucMenuSensitivity; + break; + + case eGameSetting_DisplaySplitscreenGamertags: + return ((GameSettingsA[iPad]->usBitmaskValues&0x0200)>>9); + break; + + case eGameSetting_Hints: + return ((GameSettingsA[iPad]->usBitmaskValues&0x0400)>>10); + break; + case eGameSetting_Autosave: + { + unsigned char ucVal=(GameSettingsA[iPad]->usBitmaskValues&0x7800)>>11; + return ucVal; + } + break; + case eGameSetting_Tooltips: + return ((GameSettingsA[iPad]->usBitmaskValues&0x8000)>>15); + break; + + case eGameSetting_InterfaceOpacity: + return GameSettingsA[iPad]->ucInterfaceOpacity; + break; + + case eGameSetting_Clouds: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_CLOUDS); + break; + case eGameSetting_Online: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_ONLINE)>>1; + break; + case eGameSetting_InviteOnly: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_INVITEONLY)>>2; + break; + case eGameSetting_FriendsOfFriends: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_FRIENDSOFFRIENDS)>>3; + break; + case eGameSetting_DisplayUpdateMessage: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_DISPLAYUPDATEMSG)>>4; + break; + case eGameSetting_BedrockFog: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_BEDROCKFOG)>>6; + break; + case eGameSetting_DisplayHUD: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_DISPLAYHUD)>>7; + break; + case eGameSetting_DisplayHand: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_DISPLAYHAND)>>8; + break; + case eGameSetting_CustomSkinAnim: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_CUSTOMSKINANIM)>>9; + break; + // TU9 + case eGameSetting_DeathMessages: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_DEATHMESSAGES)>>10; + break; + case eGameSetting_UISize: + { + unsigned char ucVal=(GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_UISIZE)>>11; + return ucVal; + } + break; + case eGameSetting_UISizeSplitscreen: + { + unsigned char ucVal=(GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_UISIZE_SPLITSCREEN)>>13; + return ucVal; + } + break; + case eGameSetting_AnimatedCharacter: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_ANIMATEDCHARACTER)>>15; + + case eGameSetting_PS3_EULA_Read: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_PS3EULAREAD)>>16; + + case eGameSetting_PSVita_NetworkModeAdhoc: + return (GameSettingsA[iPad]->uiBitmaskValues&GAMESETTING_PSVITANETWORKMODEADHOC)>>17; + + } + return 0; +} + +void CMinecraftApp::CheckGameSettingsChanged(bool bOverride5MinuteTimer, int iPad) +{ + // If the settings have changed, write them to the profile + + if(iPad==XUSER_INDEX_ANY) + { + for(int i=0;ibSettingsChanged) + { +#if ( defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__ ) + StorageManager.WriteToProfile(i,true, bOverride5MinuteTimer); +#else + ProfileManager.WriteToProfile(i,true, bOverride5MinuteTimer); +#ifdef _WINDOWS64 + Win64_SaveSettings(GameSettingsA[i]); +#endif +#endif + GameSettingsA[i]->bSettingsChanged=false; + } + } + } + else + { + if(GameSettingsA[iPad]->bSettingsChanged) + { +#if ( defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) + StorageManager.WriteToProfile(iPad,true, bOverride5MinuteTimer); +#else + ProfileManager.WriteToProfile(iPad,true, bOverride5MinuteTimer); +#ifdef _WINDOWS64 + Win64_SaveSettings(GameSettingsA[iPad]); +#endif +#endif + GameSettingsA[iPad]->bSettingsChanged=false; + } + } +} + +void CMinecraftApp::ClearGameSettingsChangedFlag(int iPad) +{ + GameSettingsA[iPad]->bSettingsChanged=false; +} + +/////////////////////////// +// +// Remove the debug settings in the release build +// +//////////////////////////// +#ifndef _DEBUG +unsigned int CMinecraftApp::GetGameSettingsDebugMask(int iPad,bool bOverridePlayer) //bOverridePlayer is to force the send for the server to get the read options +{ + return 0; +} + +void CMinecraftApp::SetGameSettingsDebugMask(int iPad, unsigned int uiVal) +{ +} + +void CMinecraftApp::ActionDebugMask(int iPad,bool bSetAllClear) +{ +} + +#else + +unsigned int CMinecraftApp::GetGameSettingsDebugMask(int iPad,bool bOverridePlayer) //bOverridePlayer is to force the send for the server to get the read options +{ + return 0; + + if(iPad==-1) + { + iPad=ProfileManager.GetPrimaryPad(); + } + if(iPad < 0) iPad = 0; + + shared_ptr player = Minecraft::GetInstance()->localplayers[iPad]; + + if(bOverridePlayer || player==nullptr) + { + return GameSettingsA[iPad]->uiDebugBitmask; + } + else + { + return player->GetDebugOptions(); + } +} + + +void CMinecraftApp::SetGameSettingsDebugMask(int iPad, unsigned int uiVal) +{ +#ifndef _CONTENT_PACKAGE + GameSettingsA[iPad]->bSettingsChanged=true; + GameSettingsA[iPad]->uiDebugBitmask=uiVal; + + // update the value so the network server can use it + shared_ptr player = Minecraft::GetInstance()->localplayers[iPad]; + + if(player) + { + Minecraft::GetInstance()->localgameModes[iPad]->handleDebugOptions(uiVal,player); + } +#endif +} + +void CMinecraftApp::ActionDebugMask(int iPad,bool bSetAllClear) +{ + unsigned int ulBitmask=app.GetGameSettingsDebugMask(iPad); + + if(bSetAllClear) ulBitmask=0L; + + + + // these settings should only be actioned for the primary player + if(ProfileManager.GetPrimaryPad()!=iPad) return; + + for(int i=0;i(param); + app.SetAction(actionInfo->iPad, actionInfo->action); +} + + +void CMinecraftApp::HandleXuiActions(void) +{ + eXuiAction eAction; + eTMSAction eTMS; + LPVOID param; + Minecraft *pMinecraft=Minecraft::GetInstance(); + shared_ptr player; + + // are there any global actions to deal with? + eAction = app.GetGlobalXuiAction(); + if(eAction!=eAppAction_Idle) + { + switch(eAction) + { + case eAppAction_DisplayLavaMessage: + // Display a warning about placing lava in the spawn area + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + + } + break; + default: + break; + } + } + + // are there any app actions to deal with? + for(int i=0;iIsTitleAllowedToPostImages() && CSocialManager::Instance()->AreAllUsersAllowedToPostImages() ) + { + // disable character name tags for the shot + //m_bwasHidingGui = pMinecraft->options->hideGui; // 4J Stu - Removed 1.8.2 bug fix (TU6) as don't need this + pMinecraft->options->hideGui = true; + + SetAction(i,eAppAction_SocialPostScreenshot); + } + else + { + SetAction(i,eAppAction_Idle); + } + } + else + { + SetAction(i,eAppAction_Idle); + } + break; + case eAppAction_SocialPostScreenshot: + { + SetAction(i,eAppAction_Idle); + bool bKeepHiding = false; + for(int j=0; j < XUSER_MAX_COUNT;++j) + { + if(app.GetXuiAction(j) == eAppAction_SocialPostScreenshot) + { + bKeepHiding = true; + break; + } + } + pMinecraft->options->hideGui=bKeepHiding; + + + } + break; + case eAppAction_SaveGame: + SetAction(i,eAppAction_Idle); + if(!GetChangingSessionType()) + { + // If this is the trial game, do an upsell + if(ProfileManager.IsFullVersion()) + { + + // flag the render to capture the screenshot for the save + SetAction(i,eAppAction_SaveGameCapturedThumbnail); + } + else + { + // ask the player if they would like to upgrade, or they'll lose the level + + UINT uiIDA[2]; + uiIDA[0]=IDS_CONFIRM_OK; + uiIDA[1]=IDS_CONFIRM_CANCEL; + } + } + + break; + case eAppAction_AutosaveSaveGame: + { + // Need to run a check to see if the save exists in order to stop the dialog asking if we want to overwrite it coming up on an autosave + bool bSaveExists; + StorageManager.DoesSaveExist(&bSaveExists); + + SetAction(i,eAppAction_Idle); + if(!GetChangingSessionType()) + { + + // flag the render to capture the screenshot for the save + SetAction(i,eAppAction_AutosaveSaveGameCapturedThumbnail); + } + } + + break; + + case eAppAction_SaveGameCapturedThumbnail: + // reset the autosave timer + app.SetAutosaveTimerTime(); + SetAction(i,eAppAction_Idle); + // Check that there is a name for the save - if we're saving from the tutorial and this is the first save from the tutorial, we'll not have a name + /*if(StorageManager.GetSaveName()==nullptr) + { + app.NavigateToScene(i,eUIScene_SaveWorld); + } + else*/ + { + + } + break; + case eAppAction_AutosaveSaveGameCapturedThumbnail: + + { + app.SetAutosaveTimerTime(); + SetAction(i,eAppAction_Idle); + } + break; + case eAppAction_ExitPlayer: + // a secondary player has chosen to quit + { + int iPlayerC=g_NetworkManager.GetPlayerCount(); + + // Since the player is exiting, let's flush any profile writes for them, and hope we're not breaking TCR 136... +#if (defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) + StorageManager.ForceQueuedProfileWrites(i); + LeaderboardManager::Instance()->OpenSession(); + for (int j = 0; j < XUSER_MAX_COUNT; j++) + { + if( ProfileManager.IsSignedIn(j) ) + { + app.DebugPrintf("Stats save for an offline game for the player at index %d\n", 0); + Minecraft::GetInstance()->forceStatsSave(j); + } + } + LeaderboardManager::Instance()->CloseSession(); +#else + ProfileManager.ForceQueuedProfileWrites(i); +#endif + + // not required - it's done within the removeLocalPlayerIdx + // if(pMinecraft->level->isClientSide) + // { + // // we need to remove the qnetplayer, or this player won't be able to get back into the game until qnet times out and removes them + // g_NetworkManager.NotifyPlayerLeaving(g_NetworkManager.GetLocalPlayerByUserIndex(i)); + // } + + // if there are any tips showing, we need to close them + + // Make sure we've not got this player selected as current - this shouldn't be the case anyway + pMinecraft->setLocalPlayerIdx(ProfileManager.GetPrimaryPad()); + pMinecraft->removeLocalPlayerIdx(i); + +#ifdef _XBOX + // tell the xui scenes a splitscreen player left - has to come after removeLocalPlayerIdx which calls updatePlayerViewportAssignments + XUIMessage xuiMsg; + CustomMessage_Splitscreenplayer_Struct myMsgData; + CustomMessage_Splitscreenplayer( &xuiMsg, &myMsgData, false); + + // send the message + for(int idx=0;idxlocalplayers[idx]!=nullptr)) + { + XuiBroadcastMessage( CXuiSceneBase::GetPlayerBaseScene(idx), &xuiMsg ); + } + } +#endif + +#ifndef _XBOX + +#endif + + // Change the presence info + // Are we offline or online, and how many players are there + if(iPlayerC>2) // one player is about to leave here - they'll be set to idle in the qnet manager player leave + { + for(int iPlayer=0;iPlayerlocalplayers[iPlayer]) + { + if(g_NetworkManager.IsLocalGame()) + { + ProfileManager.SetCurrentGameActivity(iPlayer,CONTEXT_PRESENCE_MULTIPLAYEROFFLINE,false); + } + else + { + ProfileManager.SetCurrentGameActivity(iPlayer,CONTEXT_PRESENCE_MULTIPLAYER,false); + } + } + } + } + else + { + for(int iPlayer=0;iPlayerlocalplayers[iPlayer]) + { + if(g_NetworkManager.IsLocalGame()) + { + ProfileManager.SetCurrentGameActivity(iPlayer,CONTEXT_PRESENCE_MULTIPLAYER_1POFFLINE,false); + } + else + { + ProfileManager.SetCurrentGameActivity(iPlayer,CONTEXT_PRESENCE_MULTIPLAYER_1P,false); + } + } + } + } + +#ifdef _DURANGO + ProfileManager.RemoveGamepadFromGame(i); +#endif + + SetAction(i,eAppAction_Idle); + } + break; + case eAppAction_ExitPlayerPreLogin: + { + int iPlayerC=g_NetworkManager.GetPlayerCount(); + // Since the player is exiting, let's flush any profile writes for them, and hope we're not breaking TCR 136... +#if (defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) + StorageManager.ForceQueuedProfileWrites(i); +#else + ProfileManager.ForceQueuedProfileWrites(i); +#endif + // if there are any tips showing, we need to close them + + + // Make sure we've not got this player selected as current - this shouldn't be the case anyway + pMinecraft->setLocalPlayerIdx(ProfileManager.GetPrimaryPad()); + pMinecraft->removeLocalPlayerIdx(i); + +#ifdef _XBOX + // tell the xui scenes a splitscreen player left - has to come after removeLocalPlayerIdx which calls updatePlayerViewportAssignments + XUIMessage xuiMsg; + CustomMessage_Splitscreenplayer_Struct myMsgData; + CustomMessage_Splitscreenplayer( &xuiMsg, &myMsgData, false); + + // send the message + for(int idx=0;idxlocalplayers[idx]!=nullptr)) + { + XuiBroadcastMessage( CXuiSceneBase::GetPlayerBaseScene(idx), &xuiMsg ); + } + } +#endif + +#ifndef _XBOX + +#endif + + // Change the presence info + // Are we offline or online, and how many players are there + if(iPlayerC>2) // one player is about to leave here - they'll be set to idle in the qnet manager player leave + { + for(int iPlayer=0;iPlayerlocalplayers[iPlayer]) + { + if(g_NetworkManager.IsLocalGame()) + { + ProfileManager.SetCurrentGameActivity(iPlayer,CONTEXT_PRESENCE_MULTIPLAYEROFFLINE,false); + } + else + { + ProfileManager.SetCurrentGameActivity(iPlayer,CONTEXT_PRESENCE_MULTIPLAYER,false); + } + } + } + } + else + { + for(int iPlayer=0;iPlayerlocalplayers[iPlayer]) + { + if(g_NetworkManager.IsLocalGame()) + { + ProfileManager.SetCurrentGameActivity(iPlayer,CONTEXT_PRESENCE_MULTIPLAYER_1POFFLINE,false); + } + else + { + ProfileManager.SetCurrentGameActivity(iPlayer,CONTEXT_PRESENCE_MULTIPLAYER_1P,false); + } + } + } + } + SetAction(i,eAppAction_Idle); + } + break; + +#ifdef __ORBIS__ + case eAppAction_OptionsSaveNoSpace: + { + SetAction(i,eAppAction_Idle); + + SceSaveDataDialogParam param; + SceSaveDataDialogSystemMessageParam sysParam; + SceSaveDataDialogItems items; + SceSaveDataDirName dirName; + + sceSaveDataDialogParamInitialize(¶m); + param.mode = SCE_SAVE_DATA_DIALOG_MODE_SYSTEM_MSG; + param.dispType = SCE_SAVE_DATA_DIALOG_TYPE_SAVE; + memset(&sysParam,0,sizeof(sysParam)); + param.sysMsgParam = &sysParam; + param.sysMsgParam->sysMsgType = SCE_SAVE_DATA_DIALOG_SYSMSG_TYPE_NOSPACE_CONTINUABLE; + param.sysMsgParam->value = app.GetOptionsBlocksRequired(i); + memset(&items, 0, sizeof(items)); + param.items = &items; + param.items->userId = ProfileManager.getUserID(i); + + int ret = sceSaveDataDialogInitialize(); + ret = sceSaveDataDialogOpen(¶m); + + app.SetOptionsSaveDataDialogRunning(true);//m_bOptionsSaveDataDialogRunning = true; + //pClass->m_eSaveIncompleteType = saveIncompleteType; + + //StorageManager.SetSaveDisabled(true); + //pClass->EnterSaveNotificationSection(); + + } + break; +#endif + + case eAppAction_ExitWorld: + + SetAction(i,eAppAction_Idle); + + // If we're already leaving don't exit + if (g_NetworkManager.IsLeavingGame()) + { + break; + } + + + // Since the player forced the exit, let's flush any profile writes, and hope we're not breaking TCR 136... +#if (defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) + StorageManager.ForceQueuedProfileWrites(); + LeaderboardManager::Instance()->OpenSession(); + for (int j = 0; j < XUSER_MAX_COUNT; j++) + { + if( ProfileManager.IsSignedIn(j) ) + { + app.DebugPrintf("Stats save for an offline game for the player at index %d\n", 0); + Minecraft::GetInstance()->forceStatsSave(j); + } + } + LeaderboardManager::Instance()->CloseSession(); +#elif (defined _XBOX) + ProfileManager.ForceQueuedProfileWrites(); +#endif + + // 4J-PB - cancel any possible string verifications queued with LIVE + //InputManager.CancelAllVerifyInProgress(); + + if(ProfileManager.IsFullVersion()) + { + + // In a split screen, only the primary player actually quits the game, others just remove their players + if( i != ProfileManager.GetPrimaryPad() ) + { + // Make sure we've not got this player selected as current - this shouldn't be the case anyway + pMinecraft->setLocalPlayerIdx(ProfileManager.GetPrimaryPad()); + pMinecraft->removeLocalPlayerIdx(i); + +#ifdef _DURANGO + ProfileManager.RemoveGamepadFromGame(i); +#endif + SetAction(i,eAppAction_Idle); + return; + } + // flag to capture the save thumbnail + SetAction(i,eAppAction_ExitWorldCapturedThumbnail, param); + } + else + { + // ask the player if they would like to upgrade, or they'll lose the level + UINT uiIDA[2]; + uiIDA[0]=IDS_CONFIRM_OK; + uiIDA[1]=IDS_CONFIRM_CANCEL; + } + + // Change the presence info + // Are we offline or online, and how many players are there + + if(g_NetworkManager.GetPlayerCount()>1) + { + for(int j=0;jlocalplayers[j]) + { + if(g_NetworkManager.IsLocalGame()) + { + app.SetRichPresenceContext(j,CONTEXT_GAME_STATE_BLANK); + ProfileManager.SetCurrentGameActivity(j,CONTEXT_PRESENCE_MULTIPLAYEROFFLINE,false); + } + else + { + app.SetRichPresenceContext(j,CONTEXT_GAME_STATE_BLANK); + ProfileManager.SetCurrentGameActivity(j,CONTEXT_PRESENCE_MULTIPLAYER,false); + } + TelemetryManager->RecordLevelExit(j, eSen_LevelExitStatus_Exited); + } + } + } + else + { + app.SetRichPresenceContext(i,CONTEXT_GAME_STATE_BLANK); + if(g_NetworkManager.IsLocalGame()) + { + ProfileManager.SetCurrentGameActivity(i,CONTEXT_PRESENCE_MULTIPLAYER_1POFFLINE,false); + } + else + { + ProfileManager.SetCurrentGameActivity(i,CONTEXT_PRESENCE_MULTIPLAYER_1P,false); + } + TelemetryManager->RecordLevelExit(i, eSen_LevelExitStatus_Exited); + } + break; + case eAppAction_ExitWorldCapturedThumbnail: + { + SetAction(i,eAppAction_Idle); + // Stop app running + SetGameStarted(false); + SetChangingSessionType(true); // Added to stop handling ethernet disconnects + + + + // 4J Stu - Fix for #12368 - Crash: Game crashes when saving then exiting and selecting to save + for(unsigned int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { +#ifdef _XBOX + app.TutorialSceneNavigateBack(idx,true); +#endif + + // 4J Stu - Fix for #13257 - CRASH: Gameplay: Title crashed after exiting the tutorial + // It doesn't matter if they were in the tutorial already + pMinecraft->playerLeftTutorial( idx ); + } + } + break; + case eAppAction_ExitWorldTrial: + { + SetAction(i,eAppAction_Idle); + + // Stop app running + SetGameStarted(false); + + + // 4J Stu - Fix for #12368 - Crash: Game crashes when saving then exiting and selecting to save + for(unsigned int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { +#ifdef _XBOX + app.TutorialSceneNavigateBack(idx,true); +#endif + + // 4J Stu - Fix for #13257 - CRASH: Gameplay: Title crashed after exiting the tutorial + // It doesn't matter if they were in the tutorial already + pMinecraft->playerLeftTutorial( idx ); + } + + } + + break; + case eAppAction_ExitTrial: + //XLaunchNewImage(XLAUNCH_KEYWORD_DASH_ARCADE, 0); + ExitGame(); + break; + case eAppAction_WaitForRespawnComplete: + player = pMinecraft->localplayers[i]; + if(player != nullptr && player->GetPlayerRespawned()) + { + SetAction(i,eAppAction_Idle); + + // clear the progress messages + + // pMinecraft->progressRenderer->progressStart(-1); + // pMinecraft->progressRenderer->progressStage(-1); + } + else if(!g_NetworkManager.IsInGameplay()) + { + SetAction(i,eAppAction_Idle); + } + break; + case eAppAction_WaitForDimensionChangeComplete: + player = pMinecraft->localplayers[i]; + if(player != nullptr && player->connection && player->connection->isStarted()) + { + SetAction(i,eAppAction_Idle); + } + else if(!g_NetworkManager.IsInGameplay()) + { + SetAction(i,eAppAction_Idle); + } + break; + case eAppAction_PrimaryPlayerSignedOut: + { + //SetAction(i,eAppAction_Idle); + + // If the player signs out before the game started the server can be killed a bit earlier to stop + // the loading or saving of a new game continuing running while the UI/Guide is up + if(!app.GetGameStarted()) MinecraftServer::HaltServer(true); + + // inform the player they are being returned to the menus because they signed out + StorageManager.SetSaveDeviceSelected(i,false); + // need to clear the player stats - can't assume it'll be done in setlevel - we may not be in the game + StatsCounter* pStats = Minecraft::GetInstance()->stats[ i ]; + pStats->clear(); + + // 4J-PB - the libs will display the Returned to Title screen + // UINT uiIDA[1]; + // uiIDA[0]=IDS_CONFIRM_OK; + // + // ui.RequestMessageBox(IDS_RETURNEDTOMENU_TITLE, IDS_RETURNEDTOTITLESCREEN_TEXT, uiIDA, 1, i,&CMinecraftApp::PrimaryPlayerSignedOutReturned,this,app.GetStringTable()); + if( g_NetworkManager.IsInSession() ) + { + app.SetAction(i,eAppAction_PrimaryPlayerSignedOutReturned); + } + else + { + app.SetAction(i,eAppAction_PrimaryPlayerSignedOutReturned_Menus); + MinecraftServer::resetFlags(); + } + } + break; + case eAppAction_EthernetDisconnected: + { + app.DebugPrintf("Handling eAppAction_EthernetDisconnected\n"); + SetAction(i,eAppAction_Idle); + + // 4J Stu - Fix for #12530 -TCR 001 BAS Game Stability: Title will crash if the player disconnects while starting a new world and then opts to play the tutorial once they have been returned to the Main Menu. + if(!g_NetworkManager.IsLeavingGame()) + { + app.DebugPrintf("Handling eAppAction_EthernetDisconnected - Not leaving game\n"); + // 4J-PB - not the same as a signout. We should only leave the game if this machine is not the host. We shouldn't get rid of the save device either. + if( g_NetworkManager.IsHost() ) + { + app.DebugPrintf("Handling eAppAction_EthernetDisconnected - Is Host\n"); + // If it's already a local game, then an ethernet disconnect should have no effect + if( !g_NetworkManager.IsLocalGame() && g_NetworkManager.IsInGameplay() ) + { + // Change the session to an offline session + SetAction(i,eAppAction_ChangeSessionType); + } + else if(!g_NetworkManager.IsLocalGame() && !g_NetworkManager.IsInGameplay() ) + { + // There are two cases here, either: + // 1. We're early enough in the create/load game that we can do a really minimal shutdown or + // 2. We're far enough in (game has started but the actual game started flag hasn't been set) that we should just wait until we're in the game and switch to offline mode + + // If there's a non-null level then, for our purposes, the game has started + bool gameStarted = false; + for(int j = 0; j < pMinecraft->levels.length; j++) + { + if (pMinecraft->levels.data[i] != nullptr) + { + gameStarted = true; + break; + } + } + + if (!gameStarted) + { + // 1. Exit + MinecraftServer::HaltServer(); + + // Fix for #12530 - TCR 001 BAS Game Stability: Title will crash if the player disconnects while starting a new world and then opts to play the tutorial once they have been returned to the Main Menu. + // 4J Stu - Leave the session + g_NetworkManager.LeaveGame(FALSE); + + // need to clear the player stats - can't assume it'll be done in setlevel - we may not be in the game + StatsCounter* pStats = Minecraft::GetInstance()->stats[ i ]; + pStats->clear(); + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + + } + else + { + // 2. Switch to offline + SetAction(i,eAppAction_ChangeSessionType); + } + } + } + else + { +#if defined __PS3__ || defined __ORBIS__ || defined __PSVITA__ + if(UIScene_LoadOrJoinMenu::isSaveTransferRunning()) + { + // the save transfer is still in progress, delay jumping back to the main menu until we've cleaned up + SetAction(i,eAppAction_EthernetDisconnected); + } + else +#endif + { + app.DebugPrintf("Handling eAppAction_EthernetDisconnected - Not host\n"); + // need to clear the player stats - can't assume it'll be done in setlevel - we may not be in the game + StatsCounter* pStats = Minecraft::GetInstance()->stats[ i ]; + pStats->clear(); + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + + + } + } + } + } + break; + // We currently handle both these returns the same way. + case eAppAction_EthernetDisconnectedReturned: + case eAppAction_PrimaryPlayerSignedOutReturned: + { + SetAction(i,eAppAction_Idle); + + + // set the state back to pre-game + ProfileManager.ResetProfileProcessState(); + + + if( g_NetworkManager.IsLeavingGame() ) + { + // 4J Stu - If we are already leaving the game, then we just need to signal that the player signed out to stop saves + //pMinecraft->progressRenderer->progressStartNoAbort( IDS_EXITING_GAME ); + //pMinecraft->progressRenderer->progressStage(-1); + // This has no effect on client machines + MinecraftServer::HaltServer(true); + } + else + { + // Stop app running + SetGameStarted(false); + + // turn off the gamertags in splitscreen for the primary player, since they are about to be made fullscreen + + // 4J Stu - Fix for #12368 - Crash: Game crashes when saving then exiting and selecting to save + for(unsigned int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { +#ifdef _XBOX + app.TutorialSceneNavigateBack(idx,true); +#endif + + // 4J Stu - Fix for #13257 - CRASH: Gameplay: Title crashed after exiting the tutorial + // It doesn't matter if they were in the tutorial already + pMinecraft->playerLeftTutorial( idx ); + } + + } + } + break; + case eAppAction_PrimaryPlayerSignedOutReturned_Menus: + SetAction(i,eAppAction_Idle); + // set the state back to pre-game + ProfileManager.ResetProfileProcessState(); + // clear the save device + StorageManager.SetSaveDeviceSelected(i,false); + + break; + case eAppAction_EthernetDisconnectedReturned_Menus: + SetAction(i,eAppAction_Idle); + // set the state back to pre-game + ProfileManager.ResetProfileProcessState(); + + break; + + case eAppAction_TrialOver: + { + SetAction(i,eAppAction_Idle); + UINT uiIDA[2]; + uiIDA[0]=IDS_UNLOCK_TITLE; + uiIDA[1]=IDS_EXIT_GAME; + + } + break; + + // INVITES + case eAppAction_DashboardTrialJoinFromInvite: + { + TelemetryManager->RecordUpsellPresented(i, eSen_UpsellID_Full_Version_Of_Game, app.m_dwOfferID); + + SetAction(i,eAppAction_Idle); + UINT uiIDA[2]; + uiIDA[0]=IDS_CONFIRM_OK; + uiIDA[1]=IDS_CONFIRM_CANCEL; + + } + break; + case eAppAction_ExitAndJoinFromInvite: + { + UINT uiIDA[3]; + + SetAction(i,eAppAction_Idle); + // Check the player really wants to do this + +#if defined(_XBOX_ONE) || defined(__ORBIS__) + // Show save option is saves ARE disabled + if(ProfileManager.IsFullVersion() && StorageManager.GetSaveDisabled() && i==ProfileManager.GetPrimaryPad() && g_NetworkManager.IsHost() && GetGameStarted() ) + { + uiIDA[0]=IDS_CONFIRM_CANCEL; + uiIDA[1]=IDS_EXIT_GAME_SAVE; + uiIDA[2]=IDS_EXIT_GAME_NO_SAVE; + + ui.RequestAlertMessage(IDS_EXIT_GAME, IDS_CONFIRM_LEAVE_VIA_INVITE, uiIDA, 3, i,&CMinecraftApp::ExitAndJoinFromInviteSaveDialogReturned,this); + } + else +#else + if(ProfileManager.IsFullVersion() && !StorageManager.GetSaveDisabled() && i==ProfileManager.GetPrimaryPad() && g_NetworkManager.IsHost() && GetGameStarted() ) + { + uiIDA[0]=IDS_CONFIRM_CANCEL; + uiIDA[1]=IDS_EXIT_GAME_SAVE; + uiIDA[2]=IDS_EXIT_GAME_NO_SAVE; + + } + else +#endif + { + if(!ProfileManager.IsFullVersion()) + { + TelemetryManager->RecordUpsellPresented(i, eSen_UpsellID_Full_Version_Of_Game, app.m_dwOfferID); + + // upsell + uiIDA[0]=IDS_CONFIRM_OK; + uiIDA[1]=IDS_CONFIRM_CANCEL; + } + else + { + uiIDA[0]=IDS_CONFIRM_CANCEL; + uiIDA[1]=IDS_CONFIRM_OK; + } + } + } + break; + case eAppAction_ExitAndJoinFromInviteConfirmed: + { + SetAction(i,eAppAction_Idle); + + // Stop app running + SetGameStarted(false); + + // 4J Stu - Fix for #12368 - Crash: Game crashes when saving then exiting and selecting to save + for(unsigned int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { +#ifdef _XBOX + app.TutorialSceneNavigateBack(idx,true); +#endif + + // 4J Stu - Fix for #13257 - CRASH: Gameplay: Title crashed after exiting the tutorial + // It doesn't matter if they were in the tutorial already + pMinecraft->playerLeftTutorial( idx ); + } + + // 4J-PB - may have been using a texture pack with audio , so clean up anything texture pack related here + + // unload any texture pack audio + // if there is audio in use, clear out the audio, and unmount the pack + TexturePack *pTexPack=Minecraft::GetInstance()->skins->getSelected(); + DLCTexturePack *pDLCTexPack=nullptr; + + if(pTexPack->hasAudio()) + { + // get the dlc texture pack, and store it + pDLCTexPack=static_cast(pTexPack); + } + + // change to the default texture pack + pMinecraft->skins->selectTexturePackById(TexturePackRepository::DEFAULT_TEXTURE_PACK_ID); + + if(pTexPack->hasAudio()) + { + // need to stop the streaming audio - by playing streaming audio from the default texture pack now + // reset the streaming sounds back to the normal ones +#ifndef _XBOX + pMinecraft->soundEngine->SetStreamingSounds(eStream_Overworld_Calm1,eStream_Overworld_piano3, + eStream_Nether1,eStream_Nether4, + eStream_end_dragon,eStream_end_end, + eStream_CD_1); +#endif + pMinecraft->soundEngine->playStreaming(L"", 0, 0, 0, 1, 1); + +#ifdef _XBOX + if(pDLCTexPack->m_pStreamedWaveBank!=nullptr) + { + pDLCTexPack->m_pStreamedWaveBank->Destroy(); + } + if(pDLCTexPack->m_pSoundBank!=nullptr) + { + pDLCTexPack->m_pSoundBank->Destroy(); + } +#endif +#ifdef _DURANGO + DWORD result = StorageManager.UnmountInstalledDLC(L"TPACK"); +#else + DWORD result = StorageManager.UnmountInstalledDLC("TPACK"); +#endif + app.DebugPrintf("Unmount result is %d\n",result); + } + +#ifdef _XBOX_ONE + // 4J Stu - It's possible that we can sign in/remove players between the mask initially being set and this point + m_InviteData.dwLocalUsersMask = 0; + for(unsigned int index = 0; index < XUSER_MAX_COUNT; ++index) + { + if(ProfileManager.IsSignedIn(index) ) + { + if (index == i || pMinecraft->localplayers[index] != nullptr) + { + m_InviteData.dwLocalUsersMask |= g_NetworkManager.GetLocalPlayerMask(index); + } + } + } +#endif + + } + + break; + case eAppAction_JoinFromInvite: + { + SetAction(i,eAppAction_Idle); + + // 4J Stu - Move this state block from CPlatformNetworkManager::ExitAndJoinFromInviteThreadProc, as g_NetworkManager.JoinGameFromInviteInfo ultimately can call NavigateToScene, + /// and we should only be calling that from the main thread + app.SetTutorialMode( false ); + + g_NetworkManager.SetLocalGame(false); + + JoinFromInviteData *inviteData = static_cast(param); + // 4J-PB - clear any previous connection errors + Minecraft::GetInstance()->clearConnectionFailed(); + + app.DebugPrintf( "Changing Primary Pad on an invite accept - pad was %d, and is now %d\n", ProfileManager.GetPrimaryPad(), inviteData->dwUserIndex ); + ProfileManager.SetLockedProfile(inviteData->dwUserIndex); + ProfileManager.SetPrimaryPad(inviteData->dwUserIndex); + +#ifdef _XBOX_ONE + // 4J Stu - If a player is signed in (i.e. locked) but not in the mask, unlock them + for(unsigned int index = 0; index < XUSER_MAX_COUNT; ++index) + { + if( index != inviteData->dwUserIndex && ProfileManager.IsSignedIn(index) ) + { + if( (m_InviteData.dwLocalUsersMask & g_NetworkManager.GetLocalPlayerMask( index ) ) == 0 ) + { + ProfileManager.RemoveGamepadFromGame(index); + } + } + } +#endif + + // change the minecraft player name + Minecraft::GetInstance()->user->name = convStringToWstring( ProfileManager.GetGamertag(ProfileManager.GetPrimaryPad())); + + bool success = g_NetworkManager.JoinGameFromInviteInfo( + inviteData->dwUserIndex, // dwUserIndex + inviteData->dwLocalUsersMask, // dwUserMask + inviteData->pInviteInfo ); // pInviteInfo + + if( !success ) + { + app.DebugPrintf( "Failed joining game from invite\n" ); + //return hr; + + // 4J Stu - Copied this from XUI_FullScreenProgress to properly handle the fail case, as the thread will no longer be failing + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + } + } + break; + case eAppAction_ChangeSessionType: + { + // If we are not in gameplay yet, then wait until the server is setup before changing the session type + if( g_NetworkManager.IsInGameplay() ) + { + // This kicks off a thread that waits for the server to end, then closes the current session, starts a new one and joins the local players into it + + SetAction(i,eAppAction_Idle); + + if( !GetChangingSessionType() && !g_NetworkManager.IsLocalGame() ) + { + SetGameStarted(false); + SetChangingSessionType(true); + SetReallyChangingSessionType(true); + + // turn off the gamertags in splitscreen for the primary player, since they are about to be made fullscreen + + // Remove this line to fix: + // #49084 - TU5: Code: Gameplay: The title crashes every time client navigates to 'Play game' menu and loads/creates new game after a "Connection to Xbox LIVE was lost" message has appeared. + //app.NavigateToScene(0,eUIScene_Main); + + } + } + else if( g_NetworkManager.IsLeavingGame() ) + { + // If we are leaving the game, then ignore the state change + SetAction(i,eAppAction_Idle); + } +#if 0 + // 4J-HG - Took this out since ChangeSessionType is only set in two places (both in EthernetDisconnected) and this case is handled there, plus this breaks + // this if statements original purpose (to allow us to wait for IsInGameplay before actioning switching to offline + + // QNet must do this kind of thing automatically by itself, but on PS3 at least, we need the disconnection to definitely end up with us out of the game one way or another, + // and the other two cases above don't catch the case where we are just starting the game and get a disconnection during the loading/creation + else + { + if( g_NetworkManager.IsInSession() ) + { + g_NetworkManager._LeaveGame(); + } + } +#endif + } + break; + case eAppAction_SetDefaultOptions: + SetAction(i,eAppAction_Idle); +#if ( defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) + SetDefaultOptions((C4JStorage::PROFILESETTINGS *)param,i); +#else + SetDefaultOptions(static_cast(param), i); +#endif + + // if the profile data has been changed, then force a profile write + // It seems we're allowed to break the 5 minute rule if it's the result of a user action + CheckGameSettingsChanged(true,i); + + break; + + case eAppAction_RemoteServerSave: + { + // If the remote server save has already finished, don't complete the action + if (GetGameStarted()) + { + SetAction(ProfileManager.GetPrimaryPad(), eAppAction_Idle); + break; + } + + SetAction(i,eAppAction_WaitRemoteServerSaveComplete); + + } + break; + case eAppAction_WaitRemoteServerSaveComplete: + // Do nothing + break; + case eAppAction_FailedToJoinNoPrivileges: + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + } + break; + case eAppAction_ProfileReadError: + // Return player to the main menu - code largely copied from that for handling + // eAppAction_PrimaryPlayerSignedOut, although I don't think we should have got as + // far as needing to halt the server, or running the game, before returning to the menu + if(!app.GetGameStarted()) MinecraftServer::HaltServer(true); + + if( g_NetworkManager.IsInSession() ) + { + app.SetAction(i,eAppAction_PrimaryPlayerSignedOutReturned); + } + else + { + app.SetAction(i,eAppAction_PrimaryPlayerSignedOutReturned_Menus); + MinecraftServer::resetFlags(); + } + break; + + case eAppAction_BanLevel: + { + // It's possible that this state can get set after the game has been exited (e.g. by network disconnection) so we can't ban the level at that point + if(g_NetworkManager.IsInGameplay() && !g_NetworkManager.IsLeavingGame()) + { + TelemetryManager->RecordBanLevel(i); + +#if defined _XBOX + INetworkPlayer *pHost=g_NetworkManager.GetHostPlayer(); + // write the level to the banned level list, and exit the world + AddLevelToBannedLevelList(i,((NetworkPlayerXbox *)pHost)->GetUID(),GetUniqueMapName(),true); +#elif defined _XBOX_ONE + INetworkPlayer *pHost=g_NetworkManager.GetHostPlayer(); + AddLevelToBannedLevelList(i,pHost->GetUID(),GetUniqueMapName(),true); +#endif + // primary player would exit the world, secondary would exit the player + if(ProfileManager.GetPrimaryPad()==i) + { + SetAction(i,eAppAction_ExitWorld); + } + else + { + SetAction(i,eAppAction_ExitPlayer); + } + } + } + break; + case eAppAction_LevelInBanLevelList: + { + UINT uiIDA[2]; + uiIDA[0]=IDS_BUTTON_REMOVE_FROM_BAN_LIST; + uiIDA[1]=IDS_EXIT_GAME; + + // pass in the gamertag format string + WCHAR wchFormat[40]; + INetworkPlayer *player = g_NetworkManager.GetLocalPlayerByUserIndex(i); + + // If not the primary player, but the primary player has banned this level and decided not to unban + // then we may have left the game by now + if(player) + { + swprintf(wchFormat, 40, L"%ls\n\n%%ls",player->GetOnlineName()); + + } + else + { + SetAction(i,eAppAction_Idle); + } + } + break; + case eAppAction_DebugText: + // launch the xui for text entry + { +#ifdef _XBOX + CScene_TextEntry::XuiTextInputParams *pDebugTextParams= new CScene_TextEntry::XuiTextInputParams; + pDebugTextParams->iPad=i; + pDebugTextParams->wch=(WCHAR)param; + + app.NavigateToScene(i,eUIScene_TextEntry,pDebugTextParams); +#endif + SetAction(i,eAppAction_Idle); + } + break; + + case eAppAction_ReloadTexturePack: + { + SetAction(i,eAppAction_Idle); + Minecraft *pMinecraft = Minecraft::GetInstance(); + pMinecraft->textures->reloadAll(); + pMinecraft->skins->updateUI(); + + if(!pMinecraft->skins->isUsingDefaultSkin()) + { + TexturePack *pTexturePack = pMinecraft->skins->getSelected(); + + DLCPack *pDLCPack=pTexturePack->getDLCPack(); + + bool purchased = false; + // do we have a license? + if(pDLCPack && pDLCPack->hasPurchasedFile( DLCManager::e_DLCType_Texture, L"" )) + { + purchased = true; + } +#ifdef _XBOX + TelemetryManager->RecordTexturePackLoaded(i, pTexturePack->getId(), purchased?1:0); +#endif + } + + // 4J-PB - If the texture pack has audio, we need to switch to this + if(pMinecraft->skins->getSelected()->hasAudio()) + { + Minecraft::GetInstance()->soundEngine->playStreaming(L"", 0, 0, 0, 1, 1); + } + } + break; + + case eAppAction_ReloadFont: + { +#ifndef _XBOX + app.DebugPrintf( + "[Consoles_App] eAppAction_ReloadFont, ingame='%s'.\n", + app.GetGameStarted() ? "Yes" : "No" ); + + SetAction(i,eAppAction_Idle); + + +#endif + } + break; + + case eAppAction_TexturePackRequired: + { +#if defined __PS3__ || defined __ORBIS__ || defined __PSVITA__ + UINT uiIDA[2]; + uiIDA[0]=IDS_TEXTUREPACK_FULLVERSION; + uiIDA[1]=IDS_CONFIRM_CANCEL; // let them continue without the texture pack here (as this is only really for r + // Give the player a warning about the texture pack missing + ui.RequestErrorMessage(IDS_DLC_TEXTUREPACK_NOT_PRESENT_TITLE, IDS_DLC_TEXTUREPACK_NOT_PRESENT, uiIDA, 2, ProfileManager.GetPrimaryPad(),&CMinecraftApp::TexturePackDialogReturned,this); + SetAction(i,eAppAction_Idle); +#else +#ifdef _XBOX + ULONGLONG ullOfferID_Full; + app.GetDLCFullOfferIDForPackID(app.GetRequiredTexturePackID(),&ullOfferID_Full); + + TelemetryManager->RecordUpsellPresented(ProfileManager.GetPrimaryPad(), eSet_UpsellID_Texture_DLC, ullOfferID_Full & 0xFFFFFFFF); +#endif + UINT uiIDA[2]; + + uiIDA[0]=IDS_TEXTUREPACK_FULLVERSION; + uiIDA[1]=IDS_TEXTURE_PACK_TRIALVERSION; + + // Give the player a warning about the texture pack missing + SetAction(i,eAppAction_Idle); +#endif + } + + break; + } + } + + // Any TMS actions? + + eTMS = app.GetTMSAction(i); + + if(eTMS!=eTMSAction_Idle) + { + switch(eTMS) + { + // TMS++ actions + case eTMSAction_TMSPP_RetrieveFiles_CreateLoad_SignInReturned: + case eTMSAction_TMSPP_RetrieveFiles_RunPlayGame: +#ifdef _XBOX + app.TMSPP_SetTitleGroupID(GROUP_ID); + SetTMSAction(i,eTMSAction_TMSPP_GlobalFileList); +#elif defined _XBOX_ONE + SetTMSAction(i,eTMSAction_TMSPP_GlobalFileList_Waiting); + app.TMSPP_RetrieveFileList(i,C4JStorage::eGlobalStorage_Title,eTMSAction_TMSPP_UserFileList); +#else + SetTMSAction(i,eTMSAction_TMSPP_UserFileList); +#endif + break; + +#ifdef _XBOX + case eTMSAction_TMSPP_GlobalFileList: + SetTMSAction(i,eTMSAction_TMSPP_GlobalFileList_Waiting); + app.TMSPP_RetrieveFileList(i,C4JStorage::eGlobalStorage_Title,"\\",eTMSAction_TMSPP_UserFileList); + break; +#endif + case eTMSAction_TMSPP_UserFileList: + // retrieve the file list first +#if defined _XBOX + SetTMSAction(i,eTMSAction_TMSPP_UserFileList_Waiting); + app.TMSPP_RetrieveFileList(i,C4JStorage::eGlobalStorage_TitleUser,"\\",eTMSAction_TMSPP_XUIDSFile); +#elif defined _XBOX_ONE + SetTMSAction(i,eTMSAction_TMSPP_UserFileList_Waiting); + app.TMSPP_RetrieveFileList(i,C4JStorage::eGlobalStorage_TitleUser,eTMSAction_TMSPP_DLCFile); +#else + SetTMSAction(i,eTMSAction_TMSPP_XUIDSFile); +#endif + break; + case eTMSAction_TMSPP_XUIDSFile: +#ifdef _XBOX + SetTMSAction(i,eTMSAction_TMSPP_XUIDSFile_Waiting); + // pass in the next app action on the call or callback completing + app.TMSPP_ReadXuidsFile(i,eTMSAction_TMSPP_DLCFile); +#else + SetTMSAction(i,eTMSAction_TMSPP_DLCFile); +#endif + + break; + case eTMSAction_TMSPP_DLCFile: +#if defined _XBOX || defined _XBOX_ONE + SetTMSAction(i,eTMSAction_TMSPP_DLCFile_Waiting); + // pass in the next app action on the call or callback completing + app.TMSPP_ReadDLCFile(i,eTMSAction_TMSPP_BannedListFile); +#else + SetTMSAction(i,eTMSAction_TMSPP_BannedListFile); +#endif + break; + case eTMSAction_TMSPP_BannedListFile: + // If we have one in TMSPP, then we can assume we can ignore TMS +#if defined _XBOX + SetTMSAction(i,eTMSAction_TMSPP_BannedListFile_Waiting); + // pass in the next app action on the call or callback completing + if(app.TMSPP_ReadBannedList(i,eTMSAction_TMS_RetrieveFiles_Complete)==false) + { + // we don't have a banned list in TMSPP, so we should check TMS + app.ReadBannedList(i, eTMSAction_TMS_RetrieveFiles_Complete,true); + } +#elif defined _XBOX_ONE + SetTMSAction(i,eTMSAction_TMSPP_BannedListFile_Waiting); + // pass in the next app action on the call or callback completing + app.TMSPP_ReadBannedList(i,eTMSAction_TMS_RetrieveFiles_Complete); + +#else + SetTMSAction(i,eTMSAction_TMS_RetrieveFiles_Complete); +#endif + break; + + // SPECIAL CASE - where the user goes directly in to Help & Options from the main menu + case eTMSAction_TMSPP_RetrieveFiles_HelpAndOptions: + case eTMSAction_TMSPP_RetrieveFiles_DLCMain: + // retrieve the file list first +#if defined _XBOX + // pass in the next app action on the call or callback completing + SetTMSAction(i,eTMSAction_TMSPP_XUIDSFile_Waiting); + app.TMSPP_RetrieveFileList(i,C4JStorage::eGlobalStorage_Title,"\\",eTMSAction_TMSPP_DLCFileOnly); +#elif defined _XBOX_ONE + SetTMSAction(i,eTMSAction_TMSPP_GlobalFileList_Waiting); + app.TMSPP_RetrieveFileList(i,C4JStorage::eGlobalStorage_Title,eTMSAction_TMSPP_RetrieveUserFilelist_DLCFileOnly); +#else + SetTMSAction(i,eTMSAction_TMSPP_DLCFileOnly); +#endif + break; + case eTMSAction_TMSPP_RetrieveUserFilelist_DLCFileOnly: +#if defined _XBOX + SetTMSAction(i,eTMSAction_TMSPP_UserFileList_Waiting); + app.TMSPP_RetrieveFileList(i,C4JStorage::eGlobalStorage_TitleUser,"\\",eTMSAction_TMSPP_XUIDSFile); +#elif defined _XBOX_ONE + //StorageManager.TMSPP_DeleteFile(i,C4JStorage::eGlobalStorage_TitleUser,C4JStorage::TMS_FILETYPE_BINARY,L"TP06.png",nullptr,nullptr, 0); + SetTMSAction(i,eTMSAction_TMSPP_UserFileList_Waiting); + app.TMSPP_RetrieveFileList(i,C4JStorage::eGlobalStorage_TitleUser,eTMSAction_TMSPP_DLCFileOnly); +#else + SetTMSAction(i,eTMSAction_TMSPP_DLCFileOnly); +#endif + + break; + + case eTMSAction_TMSPP_DLCFileOnly: +#if defined _XBOX || defined _XBOX_ONE + SetTMSAction(i,eTMSAction_TMSPP_DLCFile_Waiting); + // pass in the next app action on the call or callback completing + app.TMSPP_ReadDLCFile(i,eTMSAction_TMSPP_RetrieveFiles_Complete); +#else + SetTMSAction(i,eTMSAction_TMSPP_RetrieveFiles_Complete); +#endif + break; + + + case eTMSAction_TMSPP_RetrieveFiles_Complete: + SetTMSAction(i,eTMSAction_Idle); + break; + + + // TMS files + /* case eTMSAction_TMS_RetrieveFiles_CreateLoad_SignInReturned: + case eTMSAction_TMS_RetrieveFiles_RunPlayGame: + #ifdef _XBOX + SetTMSAction(i,eTMSAction_TMS_XUIDSFile_Waiting); + // pass in the next app action on the call or callback completing + app.ReadXuidsFileFromTMS(i,eTMSAction_TMS_DLCFile,true); + #else + SetTMSAction(i,eTMSAction_TMS_DLCFile); + #endif + break; + + case eTMSAction_TMS_DLCFile: + #ifdef _XBOX + SetTMSAction(i,eTMSAction_TMS_DLCFile_Waiting); + // pass in the next app action on the call or callback completing + app.ReadDLCFileFromTMS(i,eTMSAction_TMS_BannedListFile,true); + #else + SetTMSAction(i,eTMSAction_TMS_BannedListFile); + #endif + + break; + + case eTMSAction_TMS_RetrieveFiles_HelpAndOptions: + case eTMSAction_TMS_RetrieveFiles_DLCMain: + #ifdef _XBOX + SetTMSAction(i,eTMSAction_TMS_DLCFile_Waiting); + // pass in the next app action on the call or callback completing + app.ReadDLCFileFromTMS(i,eTMSAction_Idle,true); + #else + SetTMSAction(i,eTMSAction_Idle); + #endif + + break; + case eTMSAction_TMS_BannedListFile: + #ifdef _XBOX + SetTMSAction(i,eTMSAction_TMS_BannedListFile_Waiting); + // pass in the next app action on the call or callback completing + app.ReadBannedList(i, eTMSAction_TMS_RetrieveFiles_Complete,true); + #else + SetTMSAction(i,eTMSAction_TMS_RetrieveFiles_Complete); + #endif + + break; + + */ + case eTMSAction_TMS_RetrieveFiles_Complete: + SetTMSAction(i,eTMSAction_Idle); + // if(StorageManager.SetSaveDevice(&CScene_Main::DeviceSelectReturned,pClass)) + // { + // // save device already selected + // // ensure we've applied this player's settings + // app.ApplyGameSettingsChanged(ProfileManager.GetPrimaryPad()); + // app.NavigateToScene(ProfileManager.GetPrimaryPad(),eUIScene_MultiGameJoinLoad); + // } + break; + } + } + + } +} + +int CMinecraftApp::BannedLevelDialogReturned(void *pParam,int iPad,const C4JStorage::EMessageResult result) +{ + CMinecraftApp* pApp = static_cast(pParam); + //Minecraft *pMinecraft=Minecraft::GetInstance(); + + if(result==C4JStorage::EMessage_ResultAccept) + { +#if defined _XBOX || defined _XBOX_ONE + INetworkPlayer *pHost = g_NetworkManager.GetHostPlayer(); + // unban the level + if (pHost != nullptr) + { +#if defined _XBOX + pApp->RemoveLevelFromBannedLevelList(iPad,((NetworkPlayerXbox *)pHost)->GetUID(),pApp->GetUniqueMapName()); +#else + pApp->RemoveLevelFromBannedLevelList(iPad,pHost->GetUID(),pApp->GetUniqueMapName()); +#endif + } +#endif + } + else + { + if( iPad == ProfileManager.GetPrimaryPad() ) + { + pApp->SetAction(iPad,eAppAction_ExitWorld); + } + else + { + pApp->SetAction(iPad,eAppAction_ExitPlayer); + } + } + + return 0; +} + +void CMinecraftApp::loadMediaArchive() +{ + wstring mediapath = L""; + +#ifdef __PS3__ + mediapath = L"Common\\Media\\MediaPS3.arc"; +#elif _WINDOWS64 + mediapath = L"Common\\Media\\MediaWindows64.arc"; +#elif __ORBIS__ + mediapath = L"Common\\Media\\MediaOrbis.arc"; +#elif _DURANGO + mediapath = L"Common\\Media\\MediaDurango.arc"; +#elif __PSVITA__ + mediapath = L"Common\\Media\\MediaPSVita.arc"; +#endif + + if (!mediapath.empty()) + { + m_mediaArchive = new ArchiveFile( File(mediapath) ); + } +#if 0 + string path = "Common\\media.arc"; + HANDLE hFile = CreateFile( path.c_str(), + GENERIC_READ, + FILE_SHARE_READ, + nullptr, + OPEN_EXISTING, + FILE_FLAG_SEQUENTIAL_SCAN, + nullptr ); + + if( hFile != INVALID_HANDLE_VALUE ) + { + File fileHelper(convStringToWstring(path)); + DWORD dwFileSize = fileHelper.length(); + + // Initialize memory. + PBYTE m_fBody = new BYTE[ dwFileSize ]; + ZeroMemory(m_fBody, dwFileSize); + + DWORD m_fSize = 0; + BOOL hr = ReadFile( hFile, + m_fBody, + dwFileSize, + &m_fSize, + nullptr ); + + assert( m_fSize == dwFileSize ); + + CloseHandle( hFile ); + + m_mediaArchive = new ArchiveFile(m_fBody, m_fSize); + } + else + { + assert( false ); + // AHHHHHHHHHHHH + m_mediaArchive = nullptr; + } +#endif +} + +void CMinecraftApp::loadStringTable() +{ +#ifndef _XBOX + + if(m_stringTable!=nullptr) + { + // we need to unload the current string table, this is a reload + delete m_stringTable; + } + wstring localisationFile = L"languages.loc"; + if (m_mediaArchive->hasFile(localisationFile)) + { + byteArray locFile = m_mediaArchive->getFile(localisationFile); + m_stringTable = new StringTable(locFile.data, locFile.length); + delete locFile.data; + } + else + { + m_stringTable = nullptr; + assert(false); + // AHHHHHHHHH. + } +#endif +} + +int CMinecraftApp::PrimaryPlayerSignedOutReturned(void *pParam,int iPad,const C4JStorage::EMessageResult) +{ + //CMinecraftApp* pApp = (CMinecraftApp*)pParam; + //Minecraft *pMinecraft=Minecraft::GetInstance(); + + // if the player is null, we're in the menus + //if(Minecraft::GetInstance()->player!=nullptr) + + // We always create a session before kicking of any of the game code, so even though we may still be joining/creating a game + // at this point we want to handle it differently from just being in a menu + if( g_NetworkManager.IsInSession() ) + { + app.SetAction(iPad,eAppAction_PrimaryPlayerSignedOutReturned); + } + else + { + app.SetAction(iPad,eAppAction_PrimaryPlayerSignedOutReturned_Menus); + } + return 0; +} + +int CMinecraftApp::EthernetDisconnectReturned(void *pParam,int iPad,const C4JStorage::EMessageResult) +{ + //CMinecraftApp* pApp = (CMinecraftApp*)pParam; + Minecraft *pMinecraft=Minecraft::GetInstance(); + + // if the player is null, we're in the menus + if (Minecraft::GetInstance()->player != nullptr) + { + app.SetAction(pMinecraft->player->GetXboxPad(), eAppAction_EthernetDisconnectedReturned); + } + else + { + // 4J-PB - turn off the PSN store icon just in case this happened when we were in one of the DLC menus +#if defined __ORBIS__ || defined __PSVITA__ + app.GetCommerce()->HidePsStoreIcon(); +#endif + app.SetAction(iPad,eAppAction_EthernetDisconnectedReturned_Menus); + } + return 0; +} + +int CMinecraftApp::SignoutExitWorldThreadProc( void* lpParameter ) +{ + + // Share AABB & Vec3 pools with default (main thread) - should be ok as long as we don't tick the main thread whilst this thread is running + AABB::UseDefaultThreadStorage(); + Vec3::UseDefaultThreadStorage(); + Compression::UseDefaultThreadStorage(); + + //app.SetGameStarted(false); + + Minecraft *pMinecraft=Minecraft::GetInstance(); + + int exitReasonStringId = -1; + + bool saveStats = false; + if (pMinecraft->isClientSide() || g_NetworkManager.IsInSession() ) + { + if(lpParameter != nullptr ) + { + switch( app.GetDisconnectReason() ) + { + case DisconnectPacket::eDisconnect_Kicked: + exitReasonStringId = IDS_DISCONNECTED_KICKED; + break; + case DisconnectPacket::eDisconnect_NoUGC_AllLocal: + exitReasonStringId = IDS_NO_USER_CREATED_CONTENT_PRIVILEGE_ALL_LOCAL; + break; + case DisconnectPacket::eDisconnect_NoUGC_Single_Local: + exitReasonStringId = IDS_NO_USER_CREATED_CONTENT_PRIVILEGE_SINGLE_LOCAL; + break; +#ifdef _XBOX + case DisconnectPacket::eDisconnect_NoUGC_Remote: + exitReasonStringId = IDS_NO_USER_CREATED_CONTENT_PRIVILEGE_REMOTE; + break; +#endif + case DisconnectPacket::eDisconnect_NoFlying: + exitReasonStringId = IDS_DISCONNECTED_FLYING; + break; + case DisconnectPacket::eDisconnect_OutdatedServer: + exitReasonStringId = IDS_DISCONNECTED_SERVER_OLD; + break; + case DisconnectPacket::eDisconnect_OutdatedClient: + exitReasonStringId = IDS_DISCONNECTED_CLIENT_OLD; + break; + default: + exitReasonStringId = IDS_DISCONNECTED; + } + //pMinecraft->progressRenderer->progressStartNoAbort( exitReasonStringId ); + // 4J - Force a disconnection, this handles the situation that the server has already disconnected + if( pMinecraft->levels[0] != nullptr ) pMinecraft->levels[0]->disconnect(false); + if( pMinecraft->levels[1] != nullptr ) pMinecraft->levels[1]->disconnect(false); + } + else + { + exitReasonStringId = IDS_EXITING_GAME; + //pMinecraft->progressRenderer->progressStartNoAbort( IDS_EXITING_GAME ); + + if( pMinecraft->levels[0] != nullptr ) pMinecraft->levels[0]->disconnect(); + if( pMinecraft->levels[1] != nullptr ) pMinecraft->levels[1]->disconnect(); + } + + // 4J Stu - This only does something if we actually have a server, so don't need to do any other checks + MinecraftServer::HaltServer(true); + + // We need to call the stats & leaderboards save before we exit the session + //pMinecraft->forceStatsSave(); + saveStats = false; + + // 4J Stu - Leave the session once the disconnect packet has been sent + g_NetworkManager.LeaveGame(FALSE); + } + else + { + if(lpParameter != nullptr ) + { + switch( app.GetDisconnectReason() ) + { + case DisconnectPacket::eDisconnect_Kicked: + exitReasonStringId = IDS_DISCONNECTED_KICKED; + break; + case DisconnectPacket::eDisconnect_NoUGC_AllLocal: + exitReasonStringId = IDS_NO_USER_CREATED_CONTENT_PRIVILEGE_ALL_LOCAL; + break; + case DisconnectPacket::eDisconnect_NoUGC_Single_Local: + exitReasonStringId = IDS_NO_USER_CREATED_CONTENT_PRIVILEGE_SINGLE_LOCAL; + break; +#if defined(__PS3__) || defined(__ORBIS__) || defined (__PSVITA__) + case DisconnectPacket::eDisconnect_ContentRestricted_AllLocal: + exitReasonStringId = IDS_CONTENT_RESTRICTION_MULTIPLAYER; + break; + case DisconnectPacket::eDisconnect_ContentRestricted_Single_Local: + exitReasonStringId = IDS_CONTENT_RESTRICTION; + break; +#endif +#ifdef _XBOX + case DisconnectPacket::eDisconnect_NoUGC_Remote: + exitReasonStringId = IDS_NO_USER_CREATED_CONTENT_PRIVILEGE_REMOTE; + break; +#endif + case DisconnectPacket::eDisconnect_OutdatedServer: + exitReasonStringId = IDS_DISCONNECTED_SERVER_OLD; + break; + case DisconnectPacket::eDisconnect_OutdatedClient: + exitReasonStringId = IDS_DISCONNECTED_CLIENT_OLD; + default: + exitReasonStringId = IDS_DISCONNECTED; + } + //pMinecraft->progressRenderer->progressStartNoAbort( exitReasonStringId ); + } + } + pMinecraft->setLevel(nullptr,exitReasonStringId,nullptr,saveStats,true); + + // 4J-JEV: Fix for #106402 - TCR #014 BAS Debug Output: + // TU12: Mass Effect Mash-UP: Save file "Default_DisplayName" is created on all storage devices after signing out from a re-launched pre-generated world + app.m_gameRules.unloadCurrentGameRules(); // + + MinecraftServer::resetFlags(); + + // We can't start/join a new game until the session is destroyed, so wait for it to be idle again + while( g_NetworkManager.IsInSession() ) + { + Sleep(1); + } + + return S_OK; +} + +int CMinecraftApp::UnlockFullInviteReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + //CMinecraftApp* pApp = (CMinecraftApp*)pParam; + Minecraft *pMinecraft=Minecraft::GetInstance(); + bool bNoPlayer; + + // bug 11285 - TCR 001: BAS Game Stability: CRASH - When trying to join a full version game with a trial version, the trial crashes + // 4J-PB - we may be in the main menus here, and we don't have a pMinecraft->player + + if(pMinecraft->player==nullptr) + { + bNoPlayer=true; + } + + if(result==C4JStorage::EMessage_ResultAccept) + { + if(ProfileManager.IsSignedInLive(iPad)) + { + // 4J-PB - need to check this user can access the store +#if defined(__PS3__) || defined(__PSVITA__) + bool bContentRestricted; + ProfileManager.GetChatAndContentRestrictions(ProfileManager.GetPrimaryPad(),true,nullptr,&bContentRestricted,nullptr); + if(bContentRestricted) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + ui.RequestErrorMessage(IDS_ONLINE_SERVICE_TITLE, IDS_CONTENT_RESTRICTION, uiIDA, 1, ProfileManager.GetPrimaryPad()); + } + else +#endif + { + ProfileManager.DisplayFullVersionPurchase(false,iPad,eSen_UpsellID_Full_Version_Of_Game); + } + } +#if defined(__PS3__) + else + { + // you're not signed in to PSN! + UINT uiIDA[2]; + uiIDA[0]=IDS_PRO_NOTONLINE_ACCEPT; + uiIDA[1]=IDS_PRO_NOTONLINE_DECLINE; + ui.RequestErrorMessage(IDS_PRO_NOTONLINE_TITLE, IDS_PRO_NOTONLINE_TEXT, uiIDA, 2, ProfileManager.GetPrimaryPad(),&CMinecraftApp::MustSignInFullVersionPurchaseReturned,&app); + + } +#endif + } + else + { + TelemetryManager->RecordUpsellResponded(iPad, eSen_UpsellID_Full_Version_Of_Game, app.m_dwOfferID, eSen_UpsellOutcome_Declined); + } + + return 0; +} + +int CMinecraftApp::UnlockFullSaveReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + //CMinecraftApp* pApp = (CMinecraftApp*)pParam; + Minecraft *pMinecraft=Minecraft::GetInstance(); + + if(result==C4JStorage::EMessage_ResultAccept) + { + if(ProfileManager.IsSignedInLive(pMinecraft->player->GetXboxPad())) + { + // 4J-PB - need to check this user can access the store +#if defined(__PS3__) || defined(__PSVITA__) + bool bContentRestricted; + ProfileManager.GetChatAndContentRestrictions(ProfileManager.GetPrimaryPad(),true,nullptr,&bContentRestricted,nullptr); + if(bContentRestricted) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + ui.RequestErrorMessage(IDS_ONLINE_SERVICE_TITLE, IDS_CONTENT_RESTRICTION, uiIDA, 1, ProfileManager.GetPrimaryPad()); + } + else +#endif + { + ProfileManager.DisplayFullVersionPurchase(false,pMinecraft->player->GetXboxPad(),eSen_UpsellID_Full_Version_Of_Game); + } + } +#if defined(__PS3__) + else + { + // you're not signed in to PSN! + UINT uiIDA[2]; + uiIDA[0]=IDS_PRO_NOTONLINE_ACCEPT; + uiIDA[1]=IDS_PRO_NOTONLINE_DECLINE; + ui.RequestErrorMessage(IDS_PRO_NOTONLINE_TITLE, IDS_PRO_NOTONLINE_TEXT, uiIDA, 2, ProfileManager.GetPrimaryPad(),&CMinecraftApp::MustSignInFullVersionPurchaseReturned,&app); + } +#elif defined(__ORBIS__) + else + { + // Determine why they're not "signed in live" + if (ProfileManager.isSignedInPSN(iPad)) + { + // Signed in to PSN but not connected (no internet access) + assert(!ProfileManager.isConnectedToPSN(iPad)); + + UINT uiIDA[1]; + uiIDA[0] = IDS_OK; + ui.RequestErrorMessage( IDS_ERROR_NETWORK_TITLE, IDS_ERROR_NETWORK, uiIDA, 1, iPad); + } + else + { + // Not signed in to PSN + UINT uiIDA[1]; + uiIDA[0] = IDS_PRO_NOTONLINE_ACCEPT; + ui.RequestAlertMessage( IDS_PRO_NOTONLINE_TITLE, IDS_PRO_NOTONLINE_TEXT, uiIDA, 1, iPad, &CMinecraftApp::MustSignInFullVersionPurchaseReturned,&app); + } + } +#endif + } + else + { + TelemetryManager->RecordUpsellResponded(iPad, eSen_UpsellID_Full_Version_Of_Game, app.m_dwOfferID, eSen_UpsellOutcome_Declined); + } + + return 0; +} + +int CMinecraftApp::UnlockFullExitReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + CMinecraftApp* pApp = static_cast(pParam); + Minecraft *pMinecraft=Minecraft::GetInstance(); + + if(result==C4JStorage::EMessage_ResultAccept) + { + if(ProfileManager.IsSignedInLive(pMinecraft->player->GetXboxPad())) + { + // 4J-PB - need to check this user can access the store +#if defined(__PS3__) || defined(__PSVITA__) + bool bContentRestricted; + ProfileManager.GetChatAndContentRestrictions(ProfileManager.GetPrimaryPad(),true,nullptr,&bContentRestricted,nullptr); + if(bContentRestricted) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + ui.RequestErrorMessage(IDS_ONLINE_SERVICE_TITLE, IDS_CONTENT_RESTRICTION, uiIDA, 1, ProfileManager.GetPrimaryPad()); + } + else +#endif + { + ProfileManager.DisplayFullVersionPurchase(false,pMinecraft->player->GetXboxPad(),eSen_UpsellID_Full_Version_Of_Game); +#if defined __ORBIS__ || defined __PS3__ || defined __PSVITA__ + // still need to exit the trial or we'll be in the Pause menu with input ignored + pApp->SetAction(pMinecraft->player->GetXboxPad(),eAppAction_ExitWorldTrial); +#endif + } + } +#if defined(__PS3__) || defined __PSVITA__ + else + { + // you're not signed in to PSN! + UINT uiIDA[2]; + uiIDA[0]=IDS_PRO_NOTONLINE_ACCEPT; + uiIDA[1]=IDS_PRO_NOTONLINE_DECLINE; + ui.RequestErrorMessage(IDS_PRO_NOTONLINE_TITLE, IDS_PRO_NOTONLINE_TEXT, uiIDA, 2, ProfileManager.GetPrimaryPad(),&CMinecraftApp::MustSignInFullVersionPurchaseReturnedExitTrial,&app); + } +#elif defined(__ORBIS__) + else + { + // Determine why they're not "signed in live" + if (ProfileManager.isSignedInPSN(iPad)) + { + // Signed in to PSN but not connected (no internet access) + assert(!ProfileManager.isConnectedToPSN(iPad)); + + UINT uiIDA[1]; + uiIDA[0] = IDS_OK; + ui.RequestErrorMessage( IDS_ERROR_NETWORK_TITLE, IDS_ERROR_NETWORK, uiIDA, 1, iPad); + // still need to exit the trial or we'll be in the Pause menu with input ignored + pApp->SetAction(pMinecraft->player->GetXboxPad(),eAppAction_ExitWorldTrial); + } + else + { + // Not signed in to PSN + UINT uiIDA[1]; + uiIDA[0] = IDS_PRO_NOTONLINE_ACCEPT; + ui.RequestAlertMessage( IDS_PRO_NOTONLINE_TITLE, IDS_PRO_NOTONLINE_TEXT, uiIDA, 1, iPad, &CMinecraftApp::MustSignInFullVersionPurchaseReturnedExitTrial,&app); + } + } +#endif + } + else + { + TelemetryManager->RecordUpsellResponded(iPad, eSen_UpsellID_Full_Version_Of_Game, app.m_dwOfferID, eSen_UpsellOutcome_Declined); + pApp->SetAction(pMinecraft->player->GetXboxPad(),eAppAction_ExitWorldTrial); + } + + return 0; +} + +int CMinecraftApp::TrialOverReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + CMinecraftApp* pApp = static_cast(pParam); + Minecraft *pMinecraft=Minecraft::GetInstance(); + + if(result==C4JStorage::EMessage_ResultAccept) + { + // we need a signed in user for the unlock + if(ProfileManager.IsSignedInLive(pMinecraft->player->GetXboxPad())) + { + // 4J-PB - need to check this user can access the store +#if defined(__PS3__) || defined(__PSVITA__) + bool bContentRestricted; + ProfileManager.GetChatAndContentRestrictions(ProfileManager.GetPrimaryPad(),true,nullptr,&bContentRestricted,nullptr); + if(bContentRestricted) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + ui.RequestErrorMessage(IDS_ONLINE_SERVICE_TITLE, IDS_CONTENT_RESTRICTION, uiIDA, 1, ProfileManager.GetPrimaryPad()); + } + else +#endif + { + ProfileManager.DisplayFullVersionPurchase(false,pMinecraft->player->GetXboxPad(),eSen_UpsellID_Full_Version_Of_Game); + } + } + else + { +#if defined(__PS3__) + + // you're not signed in to PSN! + UINT uiIDA[2]; + uiIDA[0]=IDS_PRO_NOTONLINE_ACCEPT; + uiIDA[1]=IDS_PRO_NOTONLINE_DECLINE; + ui.RequestErrorMessage(IDS_PRO_NOTONLINE_TITLE, IDS_PRO_NOTONLINE_TEXT, uiIDA, 2, ProfileManager.GetPrimaryPad(),&CMinecraftApp::MustSignInFullVersionPurchaseReturned,&app); + + // 4J Stu - We can't actually exit the game, so just exit back to the main menu + //pApp->SetAction(pMinecraft->player->GetXboxPad(),eAppAction_ExitWorldTrial); +#else + pApp->SetAction(pMinecraft->player->GetXboxPad(),eAppAction_ExitTrial); +#endif + } + } + else + { + TelemetryManager->RecordUpsellResponded(iPad, eSen_UpsellID_Full_Version_Of_Game, app.m_dwOfferID, eSen_UpsellOutcome_Declined); + +#if defined(__PS3__) || defined(__ORBIS__) + // 4J Stu - We can't actually exit the game, so just exit back to the main menu + pApp->SetAction(pMinecraft->player->GetXboxPad(),eAppAction_ExitWorldTrial); +#else + pApp->SetAction(pMinecraft->player->GetXboxPad(),eAppAction_ExitTrial); +#endif + } + + return 0; +} + +void CMinecraftApp::ProfileReadErrorCallback(void *pParam) +{ + CMinecraftApp *pApp=static_cast(pParam); + int iPrimaryPlayer=ProfileManager.GetPrimaryPad(); + pApp->SetAction(iPrimaryPlayer, eAppAction_ProfileReadError); +} + +void CMinecraftApp::ClearSignInChangeUsersMask() +{ + // 4J-PB - When in the main menu, the user is on pad 0, and any change they make to their profile will be to pad 0 data + // If they then go in as a secondary player to a splitscreen game, their profile will not be read again on pad 1 if they were previously in a splitscreen game + // This is because m_uiLastSignInData remembers they were in previously, and doesn't read the profile data for them again + // Fix this by resetting the m_uiLastSignInData on pressing play game for secondary users. The Primary user does a read profile on play game anyway + int iPrimaryPlayer=ProfileManager.GetPrimaryPad(); + + if(m_uiLastSignInData!=0) + { + if(iPrimaryPlayer>=0) + { + m_uiLastSignInData=1<user->name = convStringToWstring( ProfileManager.GetGamertag(ProfileManager.GetPrimaryPad())); +#endif + + CMinecraftApp *pApp=static_cast(pParam); + // check if the primary player signed out + int iPrimaryPlayer=ProfileManager.GetPrimaryPad(); + + if((ProfileManager.GetLockedProfile()!=-1) && iPrimaryPlayer!=-1) + { + if ( ((uiSignInData & (1<SetAction(iPrimaryPlayer,eAppAction_PrimaryPlayerSignedOut); + + // 4J-PB - invalidate their banned level list + pApp->InvalidateBannedList(iPrimaryPlayer); + + // need to ditch any DLCOffers info + StorageManager.ClearDLCOffers(); + pApp->ClearAndResetDLCDownloadQueue(); + pApp->ClearDLCInstalled(); + } + else + { + unsigned int uiChangedPlayers = uiSignInData ^ m_uiLastSignInData; + + if( g_NetworkManager.IsInSession() ) + { + bool hasGuestIdChanged = false; + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + DWORD guestNumber = 0; + if(ProfileManager.IsSignedIn(i)) + { + XUSER_SIGNIN_INFO info; + XUserGetSigninInfo(i,XUSER_GET_SIGNIN_INFO_OFFLINE_XUID_ONLY ,&info); + pApp->DebugPrintf("Player at index %d has guest number %d\n", i,info.dwGuestNumber ); + guestNumber = info.dwGuestNumber; + } + if( pApp->m_currentSigninInfo[i].dwGuestNumber != 0 && guestNumber != 0 && pApp->m_currentSigninInfo[i].dwGuestNumber != guestNumber ) + { + hasGuestIdChanged = true; + } + } + + if( hasGuestIdChanged ) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + } + + // 4J Stu - On PS4 we can also cause to exit players if they are signed out here, but we shouldn't do that if + // we are going to switch to an offline game as it will likely crash due to incompatible parallel processes + bool switchToOffline = false; + // If it's an online game, and the primary profile is no longer signed into LIVE then we act as if disconnected + if( !ProfileManager.IsSignedInLive( ProfileManager.GetLockedProfile() ) && !g_NetworkManager.IsLocalGame() ) + { + switchToOffline = true; + } + + //printf("Old: %x, New: %x, Changed: %x\n", m_ulLastSignInData, ulSignInData, changedPlayers); + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + // Primary player shouldn't be subjected to these checks, and shouldn't call ExitPlayer + if(i == iPrimaryPlayer) continue; + + // A guest a signed in or out, out of order which invalidates all the guest players we have in the game + if(hasGuestIdChanged && pApp->m_currentSigninInfo[i].dwGuestNumber != 0 && g_NetworkManager.GetLocalPlayerByUserIndex(i)!=nullptr) + { + pApp->DebugPrintf("Recommending removal of player at index %d because their guest id changed\n",i); + pApp->SetAction(i, eAppAction_ExitPlayer); + } + else + { + XUSER_SIGNIN_INFO info; + XUserGetSigninInfo(i,XUSER_GET_SIGNIN_INFO_OFFLINE_XUID_ONLY ,&info); + // 4J Stu - Also need to detect the case where the sign in mask is the same, but the player has swapped users (eg still signed in but xuid different) + // Fix for #48451 - TU5: Code: UI: Splitscreen: Title crashes when switching to a profile previously signed out via splitscreen profile selection + + // 4J-PB - compiler complained about if below ('&&' within '||') - making it easier to read + bool bPlayerChanged=(uiChangedPlayers&(1<m_currentSigninInfo[i].xuid, info.xuid) ) )) + { + // 4J-PB - invalidate their banned level list + pApp->DebugPrintf("Player at index %d Left - invalidating their banned list\n",i); + pApp->InvalidateBannedList(i); + + // 4J-HG: If either the player is in the network manager or in the game, need to exit player + // TODO: Do we need to check the network manager? + if (g_NetworkManager.GetLocalPlayerByUserIndex(i) != nullptr || Minecraft::GetInstance()->localplayers[i] != nullptr) + { + pApp->DebugPrintf("Player %d signed out\n", i); + pApp->SetAction(i, eAppAction_ExitPlayer); + } + } + } +#ifdef __ORBIS__ + // check if any of the addition players have signed out of PSN (primary player is handled below) + if(!switchToOffline && i != ProfileManager.GetLockedProfile() && !g_NetworkManager.IsLocalGame()) + { + if(g_NetworkManager.GetLocalPlayerByUserIndex(i)!=nullptr) + { + if(ProfileManager.IsSignedInLive(i) == false) + { + pApp->DebugPrintf("Recommending removal of player at index %d because they're no longer signed into PSNd\n",i); + pApp->SetAction(i,eAppAction_ExitPlayer); + } + } + } +#endif + } + + // If it's an online game, and the primary profile is no longer signed into LIVE then we act as if disconnected + if( switchToOffline ) + { + pApp->SetAction(iPrimaryPlayer,eAppAction_EthernetDisconnected); + } + + + g_NetworkManager.HandleSignInChange(); + } + // Some menus require the player to be signed in to live, so if this callback happens and the primary player is + // no longer signed in then nav back + else if ( pApp->GetLiveLinkRequired() && !ProfileManager.IsSignedInLive( ProfileManager.GetLockedProfile() ) ) + { +#ifdef __PSVITA__ + if(!CGameNetworkManager::usingAdhocMode()) // if we're in adhoc mode, we can ignore this +#endif + { + pApp->SetAction(iPrimaryPlayer,eAppAction_EthernetDisconnected); + } + } + +#if ( defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__ ) + // 4J-JEV: Need to kick of loading of profile data for sub-sign in players. + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + if( i != iPrimaryPlayer + && ( uiChangedPlayers & (1<InvalidateBannedList(iPrimaryPlayer); + + // need to ditch any DLCOffers info + StorageManager.ClearDLCOffers(); + pApp->ClearAndResetDLCDownloadQueue(); + pApp->ClearDLCInstalled(); + + } + + // Update the guest numbers to the current state + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + if(FAILED(XUserGetSigninInfo(i,XUSER_GET_SIGNIN_INFO_OFFLINE_XUID_ONLY,&pApp->m_currentSigninInfo[i]))) + { + pApp->m_currentSigninInfo[i].xuid = INVALID_XUID; + pApp->m_currentSigninInfo[i].dwGuestNumber = 0; + } + app.DebugPrintf("Player at index %d has guest number %d\n", i,pApp->m_currentSigninInfo[i].dwGuestNumber ); + } +} + +void CMinecraftApp::NotificationsCallback(LPVOID pParam,DWORD dwNotification, unsigned int uiParam) +{ + CMinecraftApp* pClass = static_cast(pParam); + + // push these on to the notifications to be handled in qnet's dowork + + PNOTIFICATION pNotification = new NOTIFICATION; + + pNotification->dwNotification=dwNotification; + pNotification->uiParam=uiParam; + + switch( dwNotification ) + { + case XN_SYS_SIGNINCHANGED: + { + pClass->DebugPrintf("Signing changed - %d\n", uiParam ); + } + break; + case XN_SYS_INPUTDEVICESCHANGED: + if(app.GetGameStarted() && g_NetworkManager.IsInSession()) + { + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + + } + } + break; + case XN_LIVE_CONTENT_INSTALLED: + // Need to inform xuis that we've possibly had DLC installed + { + //app.m_dlcManager.SetNeedsUpdated(true); + // Clear the DLC installed flag to cause a GetDLC to run if it's called + app.ClearDLCInstalled(); + } + break; + case XN_SYS_STORAGEDEVICESCHANGED: + { +#ifdef _XBOX + // If the devices have changed, and we've got a dlc pack with audio selected, and that pack's content device is no longer valid... then pull the plug on + // audio streaming, as if we leave this until later xact gets locked up attempting to destroy the streamed wave bank. + TexturePack *pTexPack=Minecraft::GetInstance()->skins->getSelected(); + if(pTexPack->hasAudio()) + { + DLCTexturePack *pDLCTexPack=(DLCTexturePack *)pTexPack; + XCONTENTDEVICEID deviceID = pDLCTexPack->GetDLCDeviceID(); + if( XContentGetDeviceState( deviceID, nullptr ) != ERROR_SUCCESS ) + { + // Set texture pack flag so that it is now considered as not having audio - this is critical so that the next playStreaming does what it is meant to do, + // and also so that we don't try and unmount this again, or play any sounds from it in the future + pTexPack->setHasAudio(false); + // need to stop the streaming audio - by playing streaming audio from the default texture pack now + Minecraft::GetInstance()->soundEngine->playStreaming(L"", 0, 0, 0, 0, 0); + + if(pDLCTexPack->m_pStreamedWaveBank!=nullptr) + { + pDLCTexPack->m_pStreamedWaveBank->Destroy(); + } + if(pDLCTexPack->m_pSoundBank!=nullptr) + { + pDLCTexPack->m_pSoundBank->Destroy(); + } + DWORD result = StorageManager.UnmountInstalledDLC("TPACK"); + app.DebugPrintf("Unmount result is %d\n",result); + } + } +#endif + } + break; + } + + pClass->m_vNotifications.push_back(pNotification); +} + +#if defined __PS3__ || defined __PSVITA__ || defined __ORBIS__ +int CMinecraftApp::MustSignInFullVersionPurchaseReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + if(result==C4JStorage::EMessage_ResultAccept) + { +#ifdef __PS3__ + SQRNetworkManager_PS3::AttemptPSNSignIn(&CMinecraftApp::NowDisplayFullVersionPurchase, &app,true); +#elif defined __PSVITA__ + SQRNetworkManager_Vita::AttemptPSNSignIn(&CMinecraftApp::NowDisplayFullVersionPurchase, &app,true); +#else // __PS4__ + SQRNetworkManager_Orbis::AttemptPSNSignIn(&CMinecraftApp::NowDisplayFullVersionPurchase, &app,true); +#endif + } + + return 0; +} + +#if defined __PS3__ || defined __PSVITA__ || defined __ORBIS__ +int CMinecraftApp::MustSignInFullVersionPurchaseReturnedExitTrial(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + if(result==C4JStorage::EMessage_ResultAccept) + { +#ifdef __PS3__ + SQRNetworkManager_PS3::AttemptPSNSignIn(&CMinecraftApp::NowDisplayFullVersionPurchase, &app,true); +#elif defined __PSVITA__ + SQRNetworkManager_Vita::AttemptPSNSignIn(&CMinecraftApp::NowDisplayFullVersionPurchase, &app,true); +#else // __PS4__ + SQRNetworkManager_Orbis::AttemptPSNSignIn(&CMinecraftApp::NowDisplayFullVersionPurchase, &app,true); +#endif + } + + //4J-PB - we need to exit the trial, or we'll be in the pause menu with ignore input true + app.SetAction(iPad,eAppAction_ExitWorldTrial); + + return 0; +} +#endif + +int CMinecraftApp::NowDisplayFullVersionPurchase(void *pParam, bool bContinue, int iPad) +{ + app.m_bDisplayFullVersionPurchase=true; + return 0; +} +#endif +void CMinecraftApp::UpsellReturnedCallback(LPVOID pParam, eUpsellType type, eUpsellResponse result, int iUserData) +{ + ESen_UpsellID senType; + ESen_UpsellOutcome senResponse; +#ifdef __PS3__ + UINT uiIDA[2]; +#endif + + // Map the eUpsellResponse to the enum we use for sentient + switch(result) + { + case eUpsellResponse_Accepted_NoPurchase: + senResponse = eSen_UpsellOutcome_Went_To_Guide; + break; + case eUpsellResponse_Accepted_Purchase: + senResponse = eSen_UpsellOutcome_Accepted; + break; +#ifdef __PS3__ + // special case for people who are not signed in to the PSN while playing the trial game + case eUpsellResponse_UserNotSignedInPSN: + + uiIDA[0]=IDS_PRO_NOTONLINE_ACCEPT; + uiIDA[1]=IDS_PRO_NOTONLINE_DECLINE; + ui.RequestErrorMessage(IDS_PRO_NOTONLINE_TITLE, IDS_PRO_NOTONLINE_TEXT, uiIDA, 2, ProfileManager.GetPrimaryPad(),&CMinecraftApp::MustSignInFullVersionPurchaseReturned,&app); + + return; + + case eUpsellResponse_NotAllowedOnline: // On earning a trophy in the trial version, where the user is underage and can't go online to buy the game, but they selected to buy the game on the trophy upsell + uiIDA[0]=IDS_CONFIRM_OK; + ui.RequestErrorMessage(IDS_ONLINE_SERVICE_TITLE, IDS_CONTENT_RESTRICTION, uiIDA, 1, ProfileManager.GetPrimaryPad()); + break; +#endif + case eUpsellResponse_Declined: + default: + senResponse = eSen_UpsellOutcome_Declined; + break; + }; + + // Map the eUpsellType to the enum we use for sentient + switch(type) + { + case eUpsellType_Custom: + senType = eSen_UpsellID_Full_Version_Of_Game; + break; + default: + senType = eSen_UpsellID_Undefined; + break; + }; + + // Always the primary pad that gets an upsell + TelemetryManager->RecordUpsellResponded(ProfileManager.GetPrimaryPad(), eSen_UpsellID_Full_Version_Of_Game, app.m_dwOfferID, senResponse); +} + +#ifdef _DEBUG_MENUS_ENABLED +bool CMinecraftApp::DebugArtToolsOn() +{ + return DebugSettingsOn() && (GetGameSettingsDebugMask(ProfileManager.GetPrimaryPad())&(1L<(pParam); + //printf("sequence matched\n"); + pClass->m_bDebugOptions=!pClass->m_bDebugOptions; + + for(int i=0;ilocalplayers[i] != nullptr) + { + iPlayerC++; + } + } + + return iPlayerC; +} + +int CMinecraftApp::MarketplaceCountsCallback(LPVOID pParam,C4JStorage::DLC_TMS_DETAILS *pTMSDetails, int iPad) +{ + app.DebugPrintf("Marketplace Counts= New - %d Total - %d\n",pTMSDetails->dwNewOffers,pTMSDetails->dwTotalOffers); + + if(pTMSDetails->dwNewOffers>0) + { + app.m_bNewDLCAvailable=true; + app.m_bSeenNewDLCTip=false; + } + else + { + app.m_bNewDLCAvailable=false; + app.m_bSeenNewDLCTip=true; + } + + return 0; +} + +bool CMinecraftApp::StartInstallDLCProcess(int iPad) +{ + app.DebugPrintf("--- CMinecraftApp::StartInstallDLCProcess: pad=%i.\n", iPad); + + // If there is already a call to this in progress, then do nothing + // If the app says dlc is installed, then there has been no new system message to tell us there's new DLC since the last call to StartInstallDLCProcess + if((app.DLCInstallProcessCompleted()==false) && (m_bDLCInstallPending==false)) + { + app.m_dlcManager.resetUnnamedCorruptCount(); + m_bDLCInstallPending = true; + m_iTotalDLC = 0; + m_iTotalDLCInstalled = 0; + app.DebugPrintf("--- CMinecraftApp::StartInstallDLCProcess - StorageManager.GetInstalledDLC\n"); + + StorageManager.GetInstalledDLC(iPad,&CMinecraftApp::DLCInstalledCallback,this); + return true; + } + else + { + app.DebugPrintf("--- CMinecraftApp::StartInstallDLCProcess - nothing to do\n"); + + return false; + } + +} + +// Installed DLC callback +int CMinecraftApp::DLCInstalledCallback(LPVOID pParam,int iInstalledC,int iPad) +{ + app.DebugPrintf("--- CMinecraftApp::DLCInstalledCallback: totalDLC=%i, pad=%i.\n", iInstalledC, iPad); + app.m_iTotalDLC = iInstalledC; + app.MountNextDLC(iPad); + return 0; +} + +void CMinecraftApp::MountNextDLC(int iPad) +{ + app.DebugPrintf("--- CMinecraftApp::MountNextDLC: pad=%i.\n", iPad); + if(m_iTotalDLCInstalled < m_iTotalDLC) + { + // Mount it + // We also need to match the ones the user wants to mount with the installed DLC + // We're supposed to use a generic save game as a cache of these to do this, with XUSER_ANY + + if(StorageManager.MountInstalledDLC(iPad,m_iTotalDLCInstalled,&CMinecraftApp::DLCMountedCallback,this)!=ERROR_IO_PENDING ) + { + // corrupt DLC + app.DebugPrintf("Failed to mount DLC %d for pad %d\n",m_iTotalDLCInstalled,iPad); + ++m_iTotalDLCInstalled; + app.MountNextDLC(iPad); + } + else + { + app.DebugPrintf("StorageManager.MountInstalledDLC ok\n"); + } + } + else + { + /* Removed - now loading these on demand instead of as each pack is mounted + if(m_iTotalDLCInstalled > 0) + { + Minecraft *pMinecraft=Minecraft::GetInstance(); + pMinecraft->levelRenderer->AddDLCSkinsToMemTextures(); + } + */ + + m_bDLCInstallPending = false; + m_bDLCInstallProcessCompleted=true; + + +#if defined(_XBOX_ONE) || defined(__ORBIS__) + // Check if the current texture pack is now installed + if(!Minecraft::GetInstance()->skins->isUsingDefaultSkin()) + { + TexturePack *tPack = Minecraft::GetInstance()->skins->getSelected(); + DLCTexturePack *pDLCTexPack=(DLCTexturePack *)tPack; + + DLCPack *pParentPack=pDLCTexPack->getDLCInfoParentPack();//tPack->getDLCPack(); + + if(pParentPack->hasPurchasedFile( DLCManager::e_DLCType_Texture, L"" )) + { + StorageManager.SetSaveDisabled(false); + } + } +#endif +#if defined __PS3__ || defined __ORBIS__ || defined __PSVITA__ + { + TexturePack* currentTPack = Minecraft::GetInstance()->skins->getSelected(); + TexturePack* requiredTPack = Minecraft::GetInstance()->skins->getTexturePackById(app.GetRequiredTexturePackID()); + if(currentTPack != requiredTPack) + { + Minecraft::GetInstance()->skins->selectTexturePackById(app.GetRequiredTexturePackID()); + } + } +#endif + } +} + +// 4J-JEV: For the sake of clarity in DLCMountedCallback. +#if defined(_XBOX) || defined(__PS3__) || defined(_WINDOWS64) +#define CONTENT_DATA_DISPLAY_NAME(a) (a.szDisplayName) +#else +#define CONTENT_DATA_DISPLAY_NAME(a) (a.wszDisplayName) +#endif + +int CMinecraftApp::DLCMountedCallback(LPVOID pParam,int iPad,DWORD dwErr,DWORD dwLicenceMask) +{ +#if defined(_XBOX) || defined(_DURANGO) || defined(__PS3__) || defined(__ORBIS__) || defined(_WINDOWS64) || defined (__PSVITA__) //Chris TODO + app.DebugPrintf("--- CMinecraftApp::DLCMountedCallback\n"); + + if(dwErr!=ERROR_SUCCESS) + { + // corrupt DLC + app.DebugPrintf("Failed to mount DLC for pad %d: %d\n",iPad,dwErr); + app.m_dlcManager.incrementUnnamedCorruptCount(); + } + else + { + XCONTENT_DATA ContentData = StorageManager.GetDLC(app.m_iTotalDLCInstalled); + + DLCPack *pack = app.m_dlcManager.getPack( CONTENT_DATA_DISPLAY_NAME(ContentData) ); + + if( pack != nullptr && pack->IsCorrupt() ) + { + app.DebugPrintf("Pack '%ls' is corrupt, removing it from the DLC Manager.\n", CONTENT_DATA_DISPLAY_NAME(ContentData)); + + app.m_dlcManager.removePack(pack); + pack = nullptr; + } + + if(pack == nullptr) + { + app.DebugPrintf("Pack \"%ls\" is not installed, so adding it\n", CONTENT_DATA_DISPLAY_NAME(ContentData)); + +#if defined(_XBOX) || defined(__PS3__) || defined(_WINDOWS64) + pack = new DLCPack(ContentData.szDisplayName,dwLicenceMask); +#elif defined _XBOX_ONE + pack = new DLCPack(ContentData.wszDisplayName,ContentData.wszProductID,dwLicenceMask); +#else + pack = new DLCPack(ContentData.wszDisplayName,dwLicenceMask); +#endif + pack->SetDLCMountIndex(app.m_iTotalDLCInstalled); + pack->SetDLCDeviceID(ContentData.DeviceID); + app.m_dlcManager.addPack(pack); + + app.HandleDLC(pack); + + if(pack->getDLCItemsCount(DLCManager::e_DLCType_Texture) > 0) + { + Minecraft::GetInstance()->skins->addTexturePackFromDLC(pack, pack->GetPackId() ); + } + } + else + { + app.DebugPrintf("Pack \"%ls\" is already installed. Updating license to %d\n", CONTENT_DATA_DISPLAY_NAME(ContentData), dwLicenceMask); + + pack->SetDLCMountIndex(app.m_iTotalDLCInstalled); + pack->SetDLCDeviceID(ContentData.DeviceID); + pack->updateLicenseMask(dwLicenceMask); + } + + StorageManager.UnmountInstalledDLC(); + } + ++app.m_iTotalDLCInstalled; + app.MountNextDLC(iPad); + +#endif // __PSVITA__ + return 0; +} +#undef CONTENT_DATA_DISPLAY_NAME + +// void CMinecraftApp::InstallDefaultCape() +// { +// if(!m_bDefaultCapeInstallAttempted) +// { +// // we only attempt to install the cape once per launch of the game +// m_bDefaultCapeInstallAttempted=true; +// +// wstring wTemp=L"Default_Cape.png"; +// bool bRes=app.IsFileInMemoryTextures(wTemp); +// // if the file is not already in the memory textures, then read it from TMS +// if(!bRes) +// { +// BYTE* pBuffer = nullptr; +// DWORD dwSize=0; +// // 4J-PB - out for now for DaveK so he doesn't get the birthday cape +// #ifdef _CONTENT_PACKAGE +// C4JStorage::ETMSStatus eTMSStatus; +// eTMSStatus=StorageManager.ReadTMSFile(ProfileManager.GetPrimaryPad(),C4JStorage::eGlobalStorage_Title,C4JStorage::eTMS_FileType_Graphic, L"Default_Cape.png",&pBuffer, &dwSize); +// if(eTMSStatus==C4JStorage::ETMSStatus_Idle) +// { +// app.AddMemoryTextureFile(wTemp,pBuffer,dwSize); +// } +// #endif +// } +// } +// } + +void CMinecraftApp::HandleDLC(DLCPack *pack) +{ + DWORD dwFilesProcessed = 0; +#ifndef _XBOX +#if defined(__PS3__) || defined(__ORBIS__) || defined(_WINDOWS64) || defined (__PSVITA__) + std::vector dlcFilenames; +#elif defined _DURANGO + std::vector dlcFilenames; +#endif + StorageManager.GetMountedDLCFileList("DLCDrive", dlcFilenames); +#ifdef __ORBIS__ + // 4J Stu - I don't know why we handle more than one file here any more, however this doesn't seem to work with the PS4 patches + if(dlcFilenames.size() > 0) m_dlcManager.readDLCDataFile(dwFilesProcessed, dlcFilenames[0], pack); +#else + for(size_t i=0; i(qwTicksPerSec.QuadPart); + + // Save the start time + QueryPerformanceCounter( &m_Time.qwTime ); + + // Zero out the elapsed and total time + m_Time.qwAppTime.QuadPart = 0; + m_Time.fAppTime = 0.0f; + m_Time.fElapsedTime = 0.0f; +} + +//------------------------------------------------------------------------------------- +// Name: UpdateTime() +// Desc: Updates the elapsed time since our last frame. +//------------------------------------------------------------------------------------- +void CMinecraftApp::UpdateTime() +{ + LARGE_INTEGER qwNewTime; + LARGE_INTEGER qwDeltaTime; + + QueryPerformanceCounter( &qwNewTime ); + qwDeltaTime.QuadPart = qwNewTime.QuadPart - m_Time.qwTime.QuadPart; + + m_Time.qwAppTime.QuadPart += qwDeltaTime.QuadPart; + m_Time.qwTime.QuadPart = qwNewTime.QuadPart; + + m_Time.fElapsedTime = m_Time.fSecsPerTick * static_cast(qwDeltaTime.QuadPart); + m_Time.fAppTime = m_Time.fSecsPerTick * static_cast(m_Time.qwAppTime.QuadPart); +} + +bool CMinecraftApp::isXuidNotch(PlayerUID xuid) +{ + if(m_xuidNotch != INVALID_XUID && xuid != INVALID_XUID) + { + return ProfileManager.AreXUIDSEqual(xuid, m_xuidNotch) == TRUE; + } + return false; +} + +bool CMinecraftApp::isXuidDeadmau5(PlayerUID xuid) +{ + auto it = MojangData.find(xuid); // 4J Stu - The .at and [] accessors insert elements if they don't exist + if (it != MojangData.end() ) + { + MOJANG_DATA *pMojangData=MojangData[xuid]; + if(pMojangData && pMojangData->eXuid==eXUID_Deadmau5) + { + return true; + } + } + + return false; +} + +void CMinecraftApp::AddMemoryTextureFile(const wstring &wName,PBYTE pbData,DWORD dwBytes) +{ + EnterCriticalSection(&csMemFilesLock); + // check it's not already in + PMEMDATA pData=nullptr; + auto it = m_MEM_Files.find(wName); + if(it != m_MEM_Files.end()) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Incrementing the memory texture file count for %ls\n", wName.c_str()); +#endif + pData = (*it).second; + + if(pData->dwBytes == 0 && dwBytes != 0) + { + // This should never be nullptr if dwBytes is 0 + if(pData->pbData!=nullptr) delete [] pData->pbData; + + pData->pbData=pbData; + pData->dwBytes=dwBytes; + } + + ++pData->ucRefCount; + LeaveCriticalSection(&csMemFilesLock); + return; + } + +#ifndef _CONTENT_PACKAGE + //wprintf(L"Adding the memory texture file data for %ls\n", wName.c_str()); +#endif + // this is a texture (png) file + + // add this texture to the list of memory texture files - it will then be picked up by the level renderer's AddEntity + + pData = (PMEMDATA)new BYTE[sizeof(MEMDATA)]; + ZeroMemory( pData, sizeof(MEMDATA) ); + pData->pbData=pbData; + pData->dwBytes=dwBytes; + pData->ucRefCount = 1; + + // use the xuid to access the skin data + m_MEM_Files[wName]=pData; + + LeaveCriticalSection(&csMemFilesLock); +} + +void CMinecraftApp::RemoveMemoryTextureFile(const wstring &wName) +{ + EnterCriticalSection(&csMemFilesLock); + + auto it = m_MEM_Files.find(wName); + if(it != m_MEM_Files.end()) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Decrementing the memory texture file count for %ls\n", wName.c_str()); +#endif + PMEMDATA pData = (*it).second; + --pData->ucRefCount; + if(pData->ucRefCount <= 0) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Erasing the memory texture file data for %ls\n", wName.c_str()); +#endif + delete [] pData; + m_MEM_Files.erase(wName); + } + } + LeaveCriticalSection(&csMemFilesLock); +} + +bool CMinecraftApp::DefaultCapeExists() +{ + wstring wTex=L"Special_Cape.png"; + bool val = false; + + EnterCriticalSection(&csMemFilesLock); + auto it = m_MEM_Files.find(wTex); + if(it != m_MEM_Files.end()) val = true; + LeaveCriticalSection(&csMemFilesLock); + + return val; +} + +bool CMinecraftApp::IsFileInMemoryTextures(const wstring &wName) +{ + bool val = false; + + EnterCriticalSection(&csMemFilesLock); + auto it = m_MEM_Files.find(wName); + if(it != m_MEM_Files.end()) val = true; + LeaveCriticalSection(&csMemFilesLock); + + return val; +} + +void CMinecraftApp::GetMemFileDetails(const wstring &wName,PBYTE *ppbData,DWORD *pdwBytes) +{ + EnterCriticalSection(&csMemFilesLock); + auto it = m_MEM_Files.find(wName); + if(it != m_MEM_Files.end()) + { + PMEMDATA pData = (*it).second; + *ppbData=pData->pbData; + *pdwBytes=pData->dwBytes; + } + LeaveCriticalSection(&csMemFilesLock); +} + +void CMinecraftApp::AddMemoryTPDFile(int iConfig,PBYTE pbData,DWORD dwBytes) +{ + EnterCriticalSection(&csMemTPDLock); + // check it's not already in + PMEMDATA pData=nullptr; + auto it = m_MEM_TPD.find(iConfig); + if(it == m_MEM_TPD.end()) + { + pData = (PMEMDATA)new BYTE[sizeof(MEMDATA)]; + ZeroMemory( pData, sizeof(MEMDATA) ); + pData->pbData=pbData; + pData->dwBytes=dwBytes; + pData->ucRefCount = 1; + + m_MEM_TPD[iConfig]=pData; + } + + LeaveCriticalSection(&csMemTPDLock); +} + +void CMinecraftApp::RemoveMemoryTPDFile(int iConfig) +{ + EnterCriticalSection(&csMemTPDLock); + // check it's not already in + PMEMDATA pData=nullptr; + auto it = m_MEM_TPD.find(iConfig); + if(it != m_MEM_TPD.end()) + { + pData=m_MEM_TPD[iConfig]; + delete [] pData; + m_MEM_TPD.erase(iConfig); + } + + LeaveCriticalSection(&csMemTPDLock); +} + +#ifdef _XBOX +int CMinecraftApp::GetTPConfigVal(WCHAR *pwchDataFile) +{ + DLC_INFO *pDLCInfo=nullptr; + // run through the DLC info to find the right texture pack/mash-up pack + for(unsigned int i = 0; i < app.GetDLCInfoTexturesOffersCount(); ++i) + { + ULONGLONG ull=app.GetDLCInfoTexturesFullOffer(i); + pDLCInfo=app.GetDLCInfoForFullOfferID(ull); + + if(wcscmp(pwchDataFile,pDLCInfo->wchDataFile)==0) + { + return pDLCInfo->iConfig; + } + } + + return -1; +} +#elif defined _XBOX_ONE +int CMinecraftApp::GetTPConfigVal(WCHAR *pwchDataFile) +{ + DLC_INFO *pDLCInfo=nullptr; + // run through the DLC info to find the right texture pack/mash-up pack + for(unsigned int i = 0; i < app.GetDLCInfoTexturesOffersCount(); ++i) + { + pDLCInfo=app.GetDLCInfoForFullOfferID((WCHAR *)app.GetDLCInfoTexturesFullOffer(i).c_str()); + + if(wcscmp(pwchDataFile,pDLCInfo->wchDataFile)==0) + { + return pDLCInfo->iConfig; + } + } + + return -1; +} +#elif defined _WINDOWS64 +int CMinecraftApp::GetTPConfigVal(WCHAR *pwchDataFile) +{ + return -1; +} +#endif +bool CMinecraftApp::IsFileInTPD(int iConfig) +{ + bool val = false; + + EnterCriticalSection(&csMemTPDLock); + auto it = m_MEM_TPD.find(iConfig); + if(it != m_MEM_TPD.end()) val = true; + LeaveCriticalSection(&csMemTPDLock); + + return val; +} + +void CMinecraftApp::GetTPD(int iConfig,PBYTE *ppbData,DWORD *pdwBytes) +{ + EnterCriticalSection(&csMemTPDLock); + auto it = m_MEM_TPD.find(iConfig); + if(it != m_MEM_TPD.end()) + { + PMEMDATA pData = (*it).second; + *ppbData=pData->pbData; + *pdwBytes=pData->dwBytes; + } + LeaveCriticalSection(&csMemTPDLock); +} + + +// bool CMinecraftApp::UploadFileToGlobalStorage(int iQuadrant, C4JStorage::eGlobalStorage eStorageFacility, wstring *wsFile ) +// { +// bool bRes=false; +// #ifndef _CONTENT_PACKAGE +// // read the local file +// File gtsFile( wsFile->c_str() ); +// +// int64_t fileSize = gtsFile.length(); +// +// if(fileSize!=0) +// { +// FileInputStream fis(gtsFile); +// byteArray ba((int)fileSize); +// fis.read(ba); +// fis.close(); +// +// bRes=StorageManager.WriteTMSFile(iQuadrant,eStorageFacility,(WCHAR *)wsFile->c_str(),ba.data, ba.length); +// +// } +// #endif +// return bRes; +// } + + + + + + +void CMinecraftApp::StoreLaunchData() +{ + +} + +void CMinecraftApp::ExitGame() +{ +} + +// Invites + +void CMinecraftApp::ProcessInvite(DWORD dwUserIndex, DWORD dwLocalUsersMask, const INVITE_INFO * pInviteInfo) +{ + m_InviteData.dwUserIndex=dwUserIndex; + m_InviteData.dwLocalUsersMask=dwLocalUsersMask; + m_InviteData.pInviteInfo=pInviteInfo; + //memcpy(&m_InviteData,pJoinData,sizeof(JoinFromInviteData)); + SetAction(dwUserIndex,eAppAction_ExitAndJoinFromInvite); +} + +int CMinecraftApp::ExitAndJoinFromInvite(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + CMinecraftApp* pApp = static_cast(pParam); + //Minecraft *pMinecraft=Minecraft::GetInstance(); + + // buttons are swapped on this menu + if(result==C4JStorage::EMessage_ResultDecline) + { + pApp->SetAction(iPad,eAppAction_ExitAndJoinFromInviteConfirmed); + } + + return 0; +} + +int CMinecraftApp::ExitAndJoinFromInviteSaveDialogReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + CMinecraftApp *pClass = static_cast(pParam); + // Exit with or without saving + // Decline means save in this dialog + if(result==C4JStorage::EMessage_ResultDecline || result==C4JStorage::EMessage_ResultThirdOption) + { + if( result==C4JStorage::EMessage_ResultDecline ) // Save + { + // Check they have the full texture pack if they are using one + // 4J-PB - Is the player trying to save but they are using a trial texturepack ? + if(!Minecraft::GetInstance()->skins->isUsingDefaultSkin()) + { + TexturePack *tPack = Minecraft::GetInstance()->skins->getSelected(); + + DLCPack * pDLCPack=tPack->getDLCPack(); + if(!pDLCPack->hasPurchasedFile( DLCManager::e_DLCType_Texture, L"" )) + { + // upsell + // get the dlc texture pack + +#ifdef _XBOX + DLCTexturePack *pDLCTexPack=(DLCTexturePack *)tPack; + ULONGLONG ullOfferID_Full; + app.GetDLCFullOfferIDForPackID(pDLCTexPack->getDLCParentPackId(),&ullOfferID_Full); + + // tell sentient about the upsell of the full version of the skin pack + TelemetryManager->RecordUpsellPresented(iPad, eSet_UpsellID_Texture_DLC, ullOfferID_Full & 0xFFFFFFFF); +#endif + + UINT uiIDA[2]; + uiIDA[0]=IDS_CONFIRM_OK; + uiIDA[1]=IDS_CONFIRM_CANCEL; + + + return S_OK; + } + } +#ifndef _XBOX_ONE + // does the save exist? + bool bSaveExists; + StorageManager.DoesSaveExist(&bSaveExists); + // 4J-PB - we check if the save exists inside the libs + // we need to ask if they are sure they want to overwrite the existing game + if(bSaveExists) + { + UINT uiIDA[2]; + uiIDA[0]=IDS_CONFIRM_CANCEL; + uiIDA[1]=IDS_CONFIRM_OK; + return 0; + } + else +#endif + { +#if defined(_XBOX_ONE) || defined(__ORBIS__) + StorageManager.SetSaveDisabled(false); +#endif + MinecraftServer::getInstance()->setSaveOnExit( true ); + } + } + else + { + // been a few requests for a confirm on exit without saving + UINT uiIDA[2]; + uiIDA[0]=IDS_CONFIRM_CANCEL; + uiIDA[1]=IDS_CONFIRM_OK; + return 0; + } + + app.SetAction(ProfileManager.GetPrimaryPad(),eAppAction_ExitAndJoinFromInviteConfirmed); + } + return 0; +} + +int CMinecraftApp::WarningTrialTexturePackReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + // 4J Stu - I added this in when fixing an X1 bug. We should probably add this as well but I don't have time to test all platforms atm +#if 0 //defined(__PS3__) || defined(__ORBIS__) || defined(__PSVITA__) + if(result==C4JStorage::EMessage_ResultAccept) + { + if(!ProfileManager.IsSignedInLive(iPad)) + { + // you're not signed in to PSN! + + } + else + { + // 4J-PB - need to check this user can access the store + bool bContentRestricted; + ProfileManager.GetChatAndContentRestrictions(iPad,true,nullptr,&bContentRestricted,nullptr); + if(bContentRestricted) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + ui.RequestAlertMessage(IDS_ONLINE_SERVICE_TITLE, IDS_CONTENT_RESTRICTION, uiIDA, 1, iPad); + } + else + { + // need to get info on the pack to see if the user has already downloaded it + TexturePack *tPack = Minecraft::GetInstance()->skins->getSelected(); + DLCTexturePack *pDLCTexPack=(DLCTexturePack *)tPack; + + // retrieve the store name for the skin pack + DLCPack *pDLCPack=pDLCTexPack->getDLCInfoParentPack();//tPack->getDLCPack(); + const char *pchPackName=wstringtofilename(pDLCPack->getName()); + app.DebugPrintf("Texture Pack - %s\n",pchPackName); + SONYDLC *pSONYDLCInfo=app.GetSONYDLCInfo((char *)pchPackName); + + if(pSONYDLCInfo!=nullptr) + { + char chName[42]; + char chSkuID[SCE_NP_COMMERCE2_SKU_ID_LEN]; + + memset(chSkuID,0,SCE_NP_COMMERCE2_SKU_ID_LEN); + // find the info on the skin pack + // we have to retrieve the skuid from the store info, it can't be hardcoded since Sony may change it. + // So we assume the first sku for the product is the one we want +#ifdef __ORBIS__ + sprintf(chName,"%s",pSONYDLCInfo->chDLCKeyname); +#else + sprintf(chName,"%s-%s",app.GetCommerceCategory(),pSONYDLCInfo->chDLCKeyname); +#endif + app.GetDLCSkuIDFromProductList(chName,chSkuID); + // 4J-PB - need to check for an empty store +#if defined __ORBIS__ || defined __PSVITA__ || defined __PS3__ + if(app.CheckForEmptyStore(iPad)==false) +#endif + { + if(app.DLCAlreadyPurchased(chSkuID)) + { + app.DownloadAlreadyPurchased(chSkuID); + } + else + { + app.Checkout(chSkuID); + } + } + } + } + } + } +#endif // + +#ifdef _XBOX_ONE + if(result==C4JStorage::EMessage_ResultAccept) + { + if(ProfileManager.IsSignedIn(iPad)) + { + if (ProfileManager.IsSignedInLive(iPad)) + { + TexturePack *tPack = Minecraft::GetInstance()->skins->getSelected(); + // get the dlc texture pack + DLCTexturePack *pDLCTexPack=(DLCTexturePack *)tPack; + + DLCPack *pDLCPack=pDLCTexPack->getDLCInfoParentPack(); + + DLC_INFO *pDLCInfo=app.GetDLCInfoForProductName((WCHAR *)pDLCPack->getName().c_str()); + + StorageManager.InstallOffer(1,(WCHAR *)pDLCInfo->wsProductId.c_str(),nullptr,nullptr); + + // the license change coming in when the offer has been installed will cause this scene to refresh + } + else + { + // 4J-JEV: Fix for XB1: #165863 - XR-074: Compliance: With no active network connection user is unable to convert from Trial to Full texture pack and is not messaged why. + UINT uiIDA[1] = { IDS_CONFIRM_OK }; + ui.RequestErrorMessage(IDS_PRO_NOTONLINE_TITLE, IDS_PRO_XBOXLIVE_NOTIFICATION, uiIDA, 1, iPad); + } + } + } + +#endif +#ifdef _XBOX + + CMinecraftApp* pClass = (CMinecraftApp*)pParam; + + TexturePack *tPack = Minecraft::GetInstance()->skins->getSelected(); + // get the dlc texture pack + DLCTexturePack *pDLCTexPack=(DLCTexturePack *)tPack; + ULONGLONG ullIndexA[1]; + + // Need to get the parent packs id, since this may be one of many child packs with their own ids + app.GetDLCFullOfferIDForPackID(pDLCTexPack->getDLCParentPackId(),&ullIndexA[0]); + + if(result==C4JStorage::EMessage_ResultAccept) + { + if(ProfileManager.IsSignedIn(iPad)) + { + // need to allow downloads here, or the player would need to quit the game to let the download of a texture pack happen. This might affect the network traffic, since the download could take all the bandwidth... + XBackgroundDownloadSetMode(XBACKGROUND_DOWNLOAD_MODE_ALWAYS_ALLOW); + + StorageManager.InstallOffer(1,ullIndexA,nullptr,nullptr); + } + } + else + { + TelemetryManager->RecordUpsellResponded(iPad, eSet_UpsellID_Texture_DLC, ( ullIndexA[0] & 0xFFFFFFFF ), eSen_UpsellOutcome_Declined); + } +#endif + return 0; +} + +int CMinecraftApp::ExitAndJoinFromInviteAndSaveReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + //CMinecraftApp* pClass = (CMinecraftApp*)pParam; + + // results switched for this dialog + if(result==C4JStorage::EMessage_ResultDecline) + { + INT saveOrCheckpointId = 0; + + // Check they have the full texture pack if they are using one + // 4J-PB - Is the player trying to save but they are using a trial texturepack ? + if(!Minecraft::GetInstance()->skins->isUsingDefaultSkin()) + { + TexturePack *tPack = Minecraft::GetInstance()->skins->getSelected(); + + DLCPack * pDLCPack=tPack->getDLCPack(); + if(!pDLCPack->hasPurchasedFile( DLCManager::e_DLCType_Texture, L"" )) + { + // upsell + // get the dlc texture pack + +#ifdef _XBOX + DLCTexturePack *pDLCTexPack=(DLCTexturePack *)tPack; + ULONGLONG ullOfferID_Full; + app.GetDLCFullOfferIDForPackID(pDLCTexPack->getDLCParentPackId(),&ullOfferID_Full); + + // tell sentient about the upsell of the full version of the skin pack + TelemetryManager->RecordUpsellPresented(iPad, eSet_UpsellID_Texture_DLC, ullOfferID_Full & 0xFFFFFFFF); +#endif + + UINT uiIDA[2]; + uiIDA[0]=IDS_CONFIRM_OK; + uiIDA[1]=IDS_CONFIRM_CANCEL; + + return S_OK; + } + } + //bool validSave = StorageManager.GetSaveUniqueNumber(&saveOrCheckpointId); + //SentientManager.RecordLevelSaveOrCheckpoint(ProfileManager.GetPrimaryPad(), saveOrCheckpointId); + MinecraftServer::getInstance()->setSaveOnExit( true ); + // flag a app action of exit and join game from invite + app.SetAction(iPad,eAppAction_ExitAndJoinFromInviteConfirmed); + } + return 0; +} + +int CMinecraftApp::ExitAndJoinFromInviteDeclineSaveReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + // results switched for this dialog + if(result==C4JStorage::EMessage_ResultDecline) + { +#if defined(_XBOX_ONE) || defined(__ORBIS__) + StorageManager.SetSaveDisabled(false); +#endif + MinecraftServer::getInstance()->setSaveOnExit( false ); + // flag a app action of exit and join game from invite + app.SetAction(iPad,eAppAction_ExitAndJoinFromInviteConfirmed); + } + return 0; +} + +////////////////////////////////////////////////////////////////////////// +// +// FatalLoadError +// +// This is called when we can't load one of the required files at startup +// It tends to mean the files have been corrupted. +// We have to assume that we've not been able to load the text for the game. +// +////////////////////////////////////////////////////////////////////////// +void CMinecraftApp::FatalLoadError() +{ + +} + +TIPSTRUCT CMinecraftApp::m_GameTipA[MAX_TIPS_GAMETIP]= +{ + { 0, IDS_TIPS_GAMETIP_1}, + { 0, IDS_TIPS_GAMETIP_2}, + { 0, IDS_TIPS_GAMETIP_3}, + { 0, IDS_TIPS_GAMETIP_4}, + { 0, IDS_TIPS_GAMETIP_5}, + { 0, IDS_TIPS_GAMETIP_6}, + { 0, IDS_TIPS_GAMETIP_7}, + { 0, IDS_TIPS_GAMETIP_8}, + { 0, IDS_TIPS_GAMETIP_9}, + { 0, IDS_TIPS_GAMETIP_10}, + { 0, IDS_TIPS_GAMETIP_11}, + { 0, IDS_TIPS_GAMETIP_12}, + { 0, IDS_TIPS_GAMETIP_13}, + { 0, IDS_TIPS_GAMETIP_14}, + { 0, IDS_TIPS_GAMETIP_15}, + { 0, IDS_TIPS_GAMETIP_16}, + { 0, IDS_TIPS_GAMETIP_17}, + { 0, IDS_TIPS_GAMETIP_18}, + { 0, IDS_TIPS_GAMETIP_19}, + { 0, IDS_TIPS_GAMETIP_20}, + { 0, IDS_TIPS_GAMETIP_21}, + { 0, IDS_TIPS_GAMETIP_22}, + { 0, IDS_TIPS_GAMETIP_23}, + { 0, IDS_TIPS_GAMETIP_24}, + { 0, IDS_TIPS_GAMETIP_25}, + { 0, IDS_TIPS_GAMETIP_26}, + { 0, IDS_TIPS_GAMETIP_27}, + { 0, IDS_TIPS_GAMETIP_28}, + { 0, IDS_TIPS_GAMETIP_29}, + { 0, IDS_TIPS_GAMETIP_30}, + { 0, IDS_TIPS_GAMETIP_31}, + { 0, IDS_TIPS_GAMETIP_32}, + { 0, IDS_TIPS_GAMETIP_33}, + { 0, IDS_TIPS_GAMETIP_34}, + { 0, IDS_TIPS_GAMETIP_35}, + { 0, IDS_TIPS_GAMETIP_36}, + { 0, IDS_TIPS_GAMETIP_37}, + { 0, IDS_TIPS_GAMETIP_38}, + { 0, IDS_TIPS_GAMETIP_39}, + { 0, IDS_TIPS_GAMETIP_40}, + { 0, IDS_TIPS_GAMETIP_41}, + { 0, IDS_TIPS_GAMETIP_42}, + { 0, IDS_TIPS_GAMETIP_43}, + { 0, IDS_TIPS_GAMETIP_44}, + { 0, IDS_TIPS_GAMETIP_45}, + { 0, IDS_TIPS_GAMETIP_46}, + { 0, IDS_TIPS_GAMETIP_47}, + { 0, IDS_TIPS_GAMETIP_48}, + { 0, IDS_TIPS_GAMETIP_49}, + { 0, IDS_TIPS_GAMETIP_50}, +}; + +TIPSTRUCT CMinecraftApp::m_TriviaTipA[MAX_TIPS_TRIVIATIP]= +{ + { 0, IDS_TIPS_TRIVIA_1}, + { 0, IDS_TIPS_TRIVIA_2}, + { 0, IDS_TIPS_TRIVIA_3}, + { 0, IDS_TIPS_TRIVIA_4}, + { 0, IDS_TIPS_TRIVIA_5}, + { 0, IDS_TIPS_TRIVIA_6}, + { 0, IDS_TIPS_TRIVIA_7}, + { 0, IDS_TIPS_TRIVIA_8}, + { 0, IDS_TIPS_TRIVIA_9}, + { 0, IDS_TIPS_TRIVIA_10}, + { 0, IDS_TIPS_TRIVIA_11}, + { 0, IDS_TIPS_TRIVIA_12}, + { 0, IDS_TIPS_TRIVIA_13}, + { 0, IDS_TIPS_TRIVIA_14}, + { 0, IDS_TIPS_TRIVIA_15}, + { 0, IDS_TIPS_TRIVIA_16}, + { 0, IDS_TIPS_TRIVIA_17}, + { 0, IDS_TIPS_TRIVIA_18}, + { 0, IDS_TIPS_TRIVIA_19}, + { 0, IDS_TIPS_TRIVIA_20}, +}; + +Random *CMinecraftApp::TipRandom = new Random(); + +int CMinecraftApp::TipsSortFunction(const void* a, const void* b) +{ + return ((TIPSTRUCT*)a)->iSortValue - ((TIPSTRUCT*)b)->iSortValue; +} + +void CMinecraftApp::InitialiseTips() +{ + // We'll randomise the tips at start up based on their priority + + ZeroMemory(m_TipIDA,sizeof(UINT)*MAX_TIPS_GAMETIP+MAX_TIPS_TRIVIATIP); + + // Make the first tip tell you that you can play splitscreen in HD modes if you are in SD + if(!RenderManager.IsHiDef()) + { + m_GameTipA[0].uiStringID=IDS_TIPS_GAMETIP_0; + } + // randomise then quicksort + // going to leave the multiplayer tip so it is always first + + // Only randomise the content package build +#ifdef _CONTENT_PACKAGE + + for(int i=1;inextInt(); + } + qsort( &m_GameTipA[1], MAX_TIPS_GAMETIP-1, sizeof(TIPSTRUCT), TipsSortFunction ); +#endif + + for(int i=0;inextInt(); + } + qsort( m_TriviaTipA, MAX_TIPS_TRIVIATIP, sizeof(TIPSTRUCT), TipsSortFunction ); + + + int iCurrentGameTip=0; + int iCurrentTriviaTip=0; + + for(int i=0;iskins->getSelected()->getColourTable()->getColour(colour); +} + +int CMinecraftApp::GetHTMLFontSize(EHTMLFontSize size) +{ + return s_iHTMLFontSizesA[size]; +} + +wstring CMinecraftApp::FormatHTMLString(int iPad, const wstring &desc, int shadowColour /*= 0xFFFFFFFF*/) +{ + wstring text(desc); + + wchar_t replacements[64]; + // We will also insert line breaks here as couldn't figure out how to get them to come through from strings.resx ! + text = replaceAll(text, L"{*B*}", L"
" ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_T1)); + text = replaceAll(text, L"{*T1*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_T2)); + text = replaceAll(text, L"{*T2*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_T3)); + text = replaceAll(text, L"{*T3*}", replacements ); // for How To Play + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_Black)); + text = replaceAll(text, L"{*ETB*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_White)); + text = replaceAll(text, L"{*ETW*}", replacements ); + text = replaceAll(text, L"{*EF*}", L"" ); + + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_0), shadowColour); + text = replaceAll(text, L"{*C0*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_1), shadowColour); + text = replaceAll(text, L"{*C1*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_2), shadowColour); + text = replaceAll(text, L"{*C2*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_3), shadowColour); + text = replaceAll(text, L"{*C3*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_4), shadowColour); + text = replaceAll(text, L"{*C4*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_5), shadowColour); + text = replaceAll(text, L"{*C5*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_6), shadowColour); + text = replaceAll(text, L"{*C6*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_7), shadowColour); + text = replaceAll(text, L"{*C7*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_8), shadowColour); + text = replaceAll(text, L"{*C8*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_9), shadowColour); + text = replaceAll(text, L"{*C9*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_a), shadowColour); + text = replaceAll(text, L"{*CA*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_b), shadowColour); + text = replaceAll(text, L"{*CB*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_c), shadowColour); + text = replaceAll(text, L"{*CC*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_d), shadowColour); + text = replaceAll(text, L"{*CD*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_e), shadowColour); + text = replaceAll(text, L"{*CE*}", replacements ); + swprintf(replacements,64,L"", GetHTMLColour(eHTMLColor_f), shadowColour); + text = replaceAll(text, L"{*CF*}", replacements ); + + // Swap for southpaw. + if ( app.GetGameSettings(iPad,eGameSetting_ControlSouthPaw) ) + { + text = replaceAll(text, L"{*CONTROLLER_ACTION_MOVE*}", GetActionReplacement(iPad,MINECRAFT_ACTION_LOOK_RIGHT ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_LOOK*}", GetActionReplacement(iPad,MINECRAFT_ACTION_RIGHT ) ); + + text = replaceAll(text, L"{*CONTROLLER_MENU_NAVIGATE*}", GetVKReplacement(VK_PAD_RTHUMB_LEFT) ); + } + else // Normal right handed. + { + text = replaceAll(text, L"{*CONTROLLER_ACTION_MOVE*}", GetActionReplacement(iPad,MINECRAFT_ACTION_RIGHT ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_LOOK*}", GetActionReplacement(iPad,MINECRAFT_ACTION_LOOK_RIGHT ) ); + + text = replaceAll(text, L"{*CONTROLLER_MENU_NAVIGATE*}", GetVKReplacement(VK_PAD_LTHUMB_LEFT) ); + } + + text = replaceAll(text, L"{*CONTROLLER_ACTION_JUMP*}", GetActionReplacement(iPad,MINECRAFT_ACTION_JUMP ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_SNEAK*}", GetActionReplacement(iPad,MINECRAFT_ACTION_SNEAK_TOGGLE ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_USE*}", GetActionReplacement(iPad,MINECRAFT_ACTION_USE ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_ACTION*}", GetActionReplacement(iPad,MINECRAFT_ACTION_ACTION ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_LEFT_SCROLL*}", GetActionReplacement(iPad,MINECRAFT_ACTION_LEFT_SCROLL ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_RIGHT_SCROLL*}", GetActionReplacement(iPad,MINECRAFT_ACTION_RIGHT_SCROLL ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_INVENTORY*}", GetActionReplacement(iPad,MINECRAFT_ACTION_INVENTORY ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_CRAFTING*}", GetActionReplacement(iPad,MINECRAFT_ACTION_CRAFTING ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_DROP*}", GetActionReplacement(iPad,MINECRAFT_ACTION_DROP ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_CAMERA*}", GetActionReplacement(iPad,MINECRAFT_ACTION_RENDER_THIRD_PERSON ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_MENU_PAGEDOWN*}", GetActionReplacement(iPad,ACTION_MENU_PAGEDOWN ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_DISMOUNT*}", GetActionReplacement(iPad,MINECRAFT_ACTION_SNEAK_TOGGLE ) ); + text = replaceAll(text, L"{*CONTROLLER_VK_A*}", GetVKReplacement(VK_PAD_A) ); + text = replaceAll(text, L"{*CONTROLLER_VK_B*}", GetVKReplacement(VK_PAD_B) ); + text = replaceAll(text, L"{*CONTROLLER_VK_X*}", GetVKReplacement(VK_PAD_X) ); + text = replaceAll(text, L"{*CONTROLLER_VK_Y*}", GetVKReplacement(VK_PAD_Y) ); + text = replaceAll(text, L"{*CONTROLLER_VK_LB*}", GetVKReplacement(VK_PAD_LSHOULDER) ); + text = replaceAll(text, L"{*CONTROLLER_VK_RB*}", GetVKReplacement(VK_PAD_RSHOULDER) ); + text = replaceAll(text, L"{*CONTROLLER_VK_LS*}", GetVKReplacement(VK_PAD_LTHUMB_UP) ); + text = replaceAll(text, L"{*CONTROLLER_VK_RS*}", GetVKReplacement(VK_PAD_RTHUMB_UP) ); + text = replaceAll(text, L"{*CONTROLLER_VK_LT*}", GetVKReplacement(VK_PAD_LTRIGGER) ); + text = replaceAll(text, L"{*CONTROLLER_VK_RT*}", GetVKReplacement(VK_PAD_RTRIGGER) ); + text = replaceAll(text, L"{*ICON_SHANK_01*}", GetIconReplacement(XZP_ICON_SHANK_01) ); + text = replaceAll(text, L"{*ICON_SHANK_03*}", GetIconReplacement(XZP_ICON_SHANK_03) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_DPAD_UP*}", GetActionReplacement(iPad,MINECRAFT_ACTION_DPAD_UP ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_DPAD_DOWN*}", GetActionReplacement(iPad,MINECRAFT_ACTION_DPAD_DOWN ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_DPAD_RIGHT*}", GetActionReplacement(iPad,MINECRAFT_ACTION_DPAD_RIGHT ) ); + text = replaceAll(text, L"{*CONTROLLER_ACTION_DPAD_LEFT*}", GetActionReplacement(iPad,MINECRAFT_ACTION_DPAD_LEFT ) ); +#if defined _XBOX_ONE || defined __PSVITA__ + text = replaceAll(text, L"{*CONTROLLER_VK_START*}", GetVKReplacement(VK_PAD_START ) ); + text = replaceAll(text, L"{*CONTROLLER_VK_BACK*}", GetVKReplacement(VK_PAD_BACK ) ); +#endif + +#ifdef _XBOX + wstring imageRoot = L""; + + Minecraft *pMinecraft = Minecraft::GetInstance(); + imageRoot = pMinecraft->skins->getSelected()->getXuiRootPath(); + + text = replaceAll(text, L"{*IMAGEROOT*}", imageRoot); +#endif // _XBOX + + // Fix for #8903 - UI: Localization: KOR/JPN/CHT: Button Icons are rendered with padding space, which looks no good + DWORD dwLanguage = XGetLanguage( ); + switch(dwLanguage) + { + case XC_LANGUAGE_KOREAN: + case XC_LANGUAGE_JAPANESE: + case XC_LANGUAGE_TCHINESE: + text = replaceAll(text, L" ", L"" ); + break; + } + + return text; +} + +wstring CMinecraftApp::GetActionReplacement(int iPad, unsigned char ucAction) +{ + unsigned int input = InputManager.GetGameJoypadMaps(InputManager.GetJoypadMapVal(iPad) ,ucAction); + +#ifdef _XBOX + switch(input) + { + case _360_JOY_BUTTON_A: + return app.GetString( IDS_CONTROLLER_A ); + case _360_JOY_BUTTON_B: + return app.GetString( IDS_CONTROLLER_B ); + case _360_JOY_BUTTON_X: + return app.GetString( IDS_CONTROLLER_X ); + case _360_JOY_BUTTON_Y: + return app.GetString( IDS_CONTROLLER_Y ); + case _360_JOY_BUTTON_LSTICK_UP: + case _360_JOY_BUTTON_LSTICK_DOWN: + case _360_JOY_BUTTON_LSTICK_LEFT: + case _360_JOY_BUTTON_LSTICK_RIGHT: + return app.GetString( IDS_CONTROLLER_LEFT_STICK ); + case _360_JOY_BUTTON_RSTICK_LEFT: + case _360_JOY_BUTTON_RSTICK_RIGHT: + case _360_JOY_BUTTON_RSTICK_UP: + case _360_JOY_BUTTON_RSTICK_DOWN: + return app.GetString( IDS_CONTROLLER_RIGHT_STICK ); + case _360_JOY_BUTTON_LT: + return app.GetString( IDS_CONTROLLER_LEFT_TRIGGER ); + case _360_JOY_BUTTON_RT: + return app.GetString( IDS_CONTROLLER_RIGHT_TRIGGER ); + case _360_JOY_BUTTON_RB: + return app.GetString( IDS_CONTROLLER_RIGHT_BUMPER ); + case _360_JOY_BUTTON_LB: + return app.GetString( IDS_CONTROLLER_LEFT_BUMPER ); + case _360_JOY_BUTTON_BACK: + return app.GetString( IDS_CONTROLLER_BACK ); + case _360_JOY_BUTTON_START: + return app.GetString( IDS_CONTROLLER_START ); + case _360_JOY_BUTTON_RTHUMB: + return app.GetString( IDS_CONTROLLER_RIGHT_THUMBSTICK ); + case _360_JOY_BUTTON_LTHUMB: + return app.GetString( IDS_CONTROLLER_LEFT_THUMBSTICK ); + case _360_JOY_BUTTON_DPAD_LEFT: + return app.GetString( IDS_CONTROLLER_DPAD_L ); + case _360_JOY_BUTTON_DPAD_RIGHT: + return app.GetString( IDS_CONTROLLER_DPAD_R ); + case _360_JOY_BUTTON_DPAD_UP: + return app.GetString( IDS_CONTROLLER_DPAD_U ); + case _360_JOY_BUTTON_DPAD_DOWN: + return app.GetString( IDS_CONTROLLER_DPAD_D ); + }; + return L""; +#else + wstring replacement = L""; + + // 4J Stu - Some of our actions can be mapped to multiple physical buttons, so replaces the switch that was here + if (input & _360_JOY_BUTTON_A) replacement = L"ButtonA"; + else if(input &_360_JOY_BUTTON_B) replacement = L"ButtonB"; + else if(input &_360_JOY_BUTTON_X) replacement = L"ButtonX"; + else if(input &_360_JOY_BUTTON_Y) replacement = L"ButtonY"; + else if( + (input &_360_JOY_BUTTON_LSTICK_UP) || + (input &_360_JOY_BUTTON_LSTICK_DOWN) || + (input &_360_JOY_BUTTON_LSTICK_LEFT) || + (input &_360_JOY_BUTTON_LSTICK_RIGHT) + ) + { + replacement = L"ButtonLeftStick"; + } + else if( + (input &_360_JOY_BUTTON_RSTICK_LEFT) || + (input &_360_JOY_BUTTON_RSTICK_RIGHT) || + (input &_360_JOY_BUTTON_RSTICK_UP) || + (input &_360_JOY_BUTTON_RSTICK_DOWN) + ) + { + replacement = L"ButtonRightStick"; + } + else if(input &_360_JOY_BUTTON_DPAD_LEFT) replacement = L"ButtonDpadL"; + else if(input &_360_JOY_BUTTON_DPAD_RIGHT) replacement = L"ButtonDpadR"; + else if(input &_360_JOY_BUTTON_DPAD_UP) replacement = L"ButtonDpadU"; + else if(input &_360_JOY_BUTTON_DPAD_DOWN) replacement = L"ButtonDpadD"; + else if(input &_360_JOY_BUTTON_LT) replacement = L"ButtonLeftTrigger"; + else if(input &_360_JOY_BUTTON_RT) replacement = L"ButtonRightTrigger"; + else if(input &_360_JOY_BUTTON_RB) replacement = L"ButtonRightBumper"; + else if(input &_360_JOY_BUTTON_LB) replacement = L"ButtonLeftBumper"; + else if(input &_360_JOY_BUTTON_BACK) replacement = L"ButtonBack"; + else if(input &_360_JOY_BUTTON_START) replacement = L"ButtonStart"; + else if(input &_360_JOY_BUTTON_RTHUMB) replacement = L"ButtonRS"; + else if(input &_360_JOY_BUTTON_LTHUMB) replacement = L"ButtonLS"; + + wchar_t string[128]; + +#ifdef __PS3__ + int size = 30; +#elif defined _WIN64 + int size = 45; +#else + int size = 45; +#endif + + swprintf(string,128,L"", replacement.c_str(), size, size); + + return string; +#endif +} + +wstring CMinecraftApp::GetVKReplacement(unsigned int uiVKey) +{ +#ifdef _XBOX + switch(uiVKey) + { + case VK_PAD_A: + return app.GetString( IDS_CONTROLLER_A ); + case VK_PAD_B: + return app.GetString( IDS_CONTROLLER_B ); + case VK_PAD_X: + return app.GetString( IDS_CONTROLLER_X ); + case VK_PAD_Y: + return app.GetString( IDS_CONTROLLER_Y ); + case VK_PAD_LSHOULDER: + return app.GetString( IDS_CONTROLLER_LEFT_BUMPER ); + case VK_PAD_RSHOULDER: + return app.GetString( IDS_CONTROLLER_RIGHT_BUMPER ); + case VK_PAD_LTRIGGER: + return app.GetString( IDS_CONTROLLER_LEFT_TRIGGER ); + case VK_PAD_RTRIGGER: + return app.GetString( IDS_CONTROLLER_RIGHT_TRIGGER ); + case VK_PAD_LTHUMB_UP : + case VK_PAD_LTHUMB_DOWN : + case VK_PAD_LTHUMB_RIGHT : + case VK_PAD_LTHUMB_LEFT : + case VK_PAD_LTHUMB_UPLEFT : + case VK_PAD_LTHUMB_UPRIGHT : + case VK_PAD_LTHUMB_DOWNRIGHT: + case VK_PAD_LTHUMB_DOWNLEFT : + return app.GetString( IDS_CONTROLLER_LEFT_STICK ); + case VK_PAD_RTHUMB_UP : + case VK_PAD_RTHUMB_DOWN : + case VK_PAD_RTHUMB_RIGHT : + case VK_PAD_RTHUMB_LEFT : + case VK_PAD_RTHUMB_UPLEFT : + case VK_PAD_RTHUMB_UPRIGHT : + case VK_PAD_RTHUMB_DOWNRIGHT: + case VK_PAD_RTHUMB_DOWNLEFT : + return app.GetString( IDS_CONTROLLER_RIGHT_STICK ); + default: + break; + } + return nullptr; +#else + wstring replacement = L""; + switch(uiVKey) + { + case VK_PAD_A: +#if defined(__PS3__) || defined(__ORBIS__) || defined (__PSVITA__) + if( InputManager.IsCircleCrossSwapped() ) replacement = L"ButtonB"; + else replacement = L"ButtonA"; +#else + replacement = L"ButtonA"; +#endif + break; + case VK_PAD_B: +#if defined(__PS3__) || defined(__ORBIS__) || defined (__PSVITA__) + if( InputManager.IsCircleCrossSwapped() ) replacement = L"ButtonA"; + else replacement = L"ButtonB"; +#else + replacement = L"ButtonB"; +#endif + break; + case VK_PAD_X: + replacement = L"ButtonX"; + break; + case VK_PAD_Y: + replacement = L"ButtonY"; + break; + case VK_PAD_LSHOULDER: + replacement = L"ButtonLeftBumper"; + break; + case VK_PAD_RSHOULDER: + replacement = L"ButtonRightBumper"; + break; + case VK_PAD_LTRIGGER: + replacement = L"ButtonLeftTrigger"; + break; + case VK_PAD_RTRIGGER: + replacement = L"ButtonRightTrigger"; + break; + case VK_PAD_LTHUMB_UP : + case VK_PAD_LTHUMB_DOWN : + case VK_PAD_LTHUMB_RIGHT : + case VK_PAD_LTHUMB_LEFT : + case VK_PAD_LTHUMB_UPLEFT : + case VK_PAD_LTHUMB_UPRIGHT : + case VK_PAD_LTHUMB_DOWNRIGHT: + case VK_PAD_LTHUMB_DOWNLEFT : + replacement = L"ButtonLeftStick"; + break; + case VK_PAD_RTHUMB_UP : + case VK_PAD_RTHUMB_DOWN : + case VK_PAD_RTHUMB_RIGHT : + case VK_PAD_RTHUMB_LEFT : + case VK_PAD_RTHUMB_UPLEFT : + case VK_PAD_RTHUMB_UPRIGHT : + case VK_PAD_RTHUMB_DOWNRIGHT: + case VK_PAD_RTHUMB_DOWNLEFT : + replacement = L"ButtonRightStick"; + break; +#if defined _XBOX_ONE || defined __PSVITA__ + case VK_PAD_START: + replacement = L"ButtonStart"; + break; + case VK_PAD_BACK: + replacement = L"ButtonBack"; + break; +#endif + default: + break; + } + wchar_t string[128]; + +#ifdef __PS3__ + int size = 30; +#elif defined _WIN64 + int size = 45; +#else + int size = 45; +#endif + + swprintf(string,128,L"", replacement.c_str(), size, size); + + return string; +#endif +} + +wstring CMinecraftApp::GetIconReplacement(unsigned int uiIcon) +{ +#ifdef _XBOX + switch(uiIcon) + { + case XZP_ICON_SHANK_01: + return app.GetString( IDS_ICON_SHANK_01 ); + case XZP_ICON_SHANK_03: + return app.GetString( IDS_ICON_SHANK_03 ); + default: + break; + } + return nullptr; +#else + wchar_t string[128]; + +#ifdef __PS3__ + int size = 22; +#elif defined _WIN64 + int size = 33; +#else + int size = 33; +#endif + + swprintf(string,128,L"", size, size); + wstring result = L""; + switch(uiIcon) + { + case XZP_ICON_SHANK_01: + result = string; + break; + case XZP_ICON_SHANK_03: + result.append(string).append(string).append(string); + break; + default: + break; + } + return result; +#endif +} + +#if defined(__PS3__) || defined(__ORBIS__) || defined (__PSVITA__) +unordered_map CMinecraftApp::MojangData; +unordered_map CMinecraftApp::DLCTextures_PackID; +unordered_map CMinecraftApp::DLCInfo; +unordered_map CMinecraftApp::DLCInfo_SkinName; +#elif defined(_DURANGO) +unordered_map CMinecraftApp::MojangData; +unordered_map CMinecraftApp::DLCTextures_PackID; // for mash-up packs & texture packs +//unordered_map CMinecraftApp::DLCInfo_Trial; // full offerid, dlc_info +unordered_map CMinecraftApp::DLCInfo_Full; // full offerid, dlc_info +unordered_map CMinecraftApp::DLCInfo_SkinName; // skin name, full offer id +#else +unordered_map CMinecraftApp::MojangData; +unordered_map CMinecraftApp::DLCTextures_PackID; +unordered_map CMinecraftApp::DLCInfo_Trial; +unordered_map CMinecraftApp::DLCInfo_Full; +unordered_map CMinecraftApp::DLCInfo_SkinName; +#endif + + + +HRESULT CMinecraftApp::RegisterMojangData(WCHAR *pXuidName, PlayerUID xuid, WCHAR *pSkin, WCHAR *pCape) +{ + HRESULT hr=S_OK; + eXUID eTempXuid=eXUID_Undefined; + MOJANG_DATA *pMojangData=nullptr; + + // ignore the names if we don't recognize them + if (pXuidName != nullptr) + { + if( wcscmp( pXuidName, L"XUID_NOTCH" ) == 0 ) + { + eTempXuid = eXUID_Notch; // might be needed for the apple at some point + } + else if( wcscmp( pXuidName, L"XUID_DEADMAU5" ) == 0 ) + { + eTempXuid = eXUID_Deadmau5; // Needed for the deadmau5 ears + } + else + { + eTempXuid=eXUID_NoName; + } + } + + if(eTempXuid!=eXUID_Undefined) + { + pMojangData = new MOJANG_DATA; + ZeroMemory(pMojangData,sizeof(MOJANG_DATA)); + pMojangData->eXuid=eTempXuid; + + wcsncpy( pMojangData->wchSkin, pSkin, MAX_CAPENAME_SIZE); + wcsncpy( pMojangData->wchCape, pCape, MAX_CAPENAME_SIZE); + MojangData[xuid]=pMojangData; + } + + return hr; +} + +MOJANG_DATA *CMinecraftApp::GetMojangDataForXuid(PlayerUID xuid) +{ + return MojangData[xuid]; +} + +HRESULT CMinecraftApp::RegisterConfigValues(WCHAR *pType, int iValue) +{ + HRESULT hr=S_OK; + + // #ifdef _XBOX + // if(pType!=nullptr) + // { + // if(wcscmp(pType,L"XboxOneTransfer")==0) + // { + // if(iValue>0) + // { + // app.m_bTransferSavesToXboxOne=true; + // } + // else + // { + // app.m_bTransferSavesToXboxOne=false; + // } + // } + // else if(wcscmp(pType,L"TransferSlotCount")==0) + // { + // app.m_uiTransferSlotC=iValue; + // } + // + // } + // #endif + + + return hr; +} + +#if (defined _XBOX || defined _WINDOWS64) +HRESULT CMinecraftApp::RegisterDLCData(WCHAR *pType, WCHAR *pBannerName, int iGender, uint64_t ullOfferID_Full, uint64_t ullOfferID_Trial, WCHAR *pFirstSkin, unsigned int uiSortIndex, int iConfig, WCHAR *pDataFile) +{ + HRESULT hr=S_OK; + DLC_INFO *pDLCData=new DLC_INFO; + ZeroMemory(pDLCData,sizeof(DLC_INFO)); + pDLCData->ullOfferID_Full=ullOfferID_Full; + pDLCData->ullOfferID_Trial=ullOfferID_Trial; + pDLCData->eDLCType=e_DLC_NotDefined; + pDLCData->iGender=iGender; + pDLCData->uiSortIndex=uiSortIndex; + pDLCData->iConfig=iConfig; + +#ifndef __ORBIS__ + // ignore the names if we don't recognize them + if(pBannerName!=L"") + { + wcsncpy_s( pDLCData->wchBanner, pBannerName, MAX_BANNERNAME_SIZE); + } + + if(pDataFile[0]!=0) + { + wcsncpy_s( pDLCData->wchDataFile, pDataFile, MAX_BANNERNAME_SIZE); + } +#endif + + if(pType!=nullptr) + { + if(wcscmp(pType,L"Skin")==0) + { + pDLCData->eDLCType=e_DLC_SkinPack; + } + else if(wcscmp(pType,L"Gamerpic")==0) + { + pDLCData->eDLCType=e_DLC_Gamerpics; + } + else if(wcscmp(pType,L"Theme")==0) + { + pDLCData->eDLCType=e_DLC_Themes; + } + else if(wcscmp(pType,L"Avatar")==0) + { + pDLCData->eDLCType=e_DLC_AvatarItems; + } + else if(wcscmp(pType,L"MashUpPack")==0) + { + pDLCData->eDLCType=e_DLC_MashupPacks; + DLCTextures_PackID[pDLCData->iConfig]=ullOfferID_Full; + } + else if(wcscmp(pType,L"TexturePack")==0) + { + pDLCData->eDLCType=e_DLC_TexturePacks; + DLCTextures_PackID[pDLCData->iConfig]=ullOfferID_Full; + } + + + } + + if(ullOfferID_Trial!=0ll) DLCInfo_Trial[ullOfferID_Trial]=pDLCData; + if(ullOfferID_Full!=0ll) DLCInfo_Full[ullOfferID_Full]=pDLCData; + if(pFirstSkin[0]!=0) DLCInfo_SkinName[pFirstSkin]=ullOfferID_Full; + + return hr; +} +#elif defined _XBOX_ONE + +unordered_map *CMinecraftApp::GetDLCInfo() +{ + return &DLCInfo_Full; +} + +HRESULT CMinecraftApp::RegisterDLCData(eDLCContentType eType, WCHAR *pwchBannerName,WCHAR *pwchProductId, WCHAR *pwchProductName, WCHAR *pwchFirstSkin, int iConfig, unsigned int uiSortIndex) +{ + HRESULT hr=S_OK; + // 4J-PB - need to convert the product id to uppercase because the catalog calls come back with upper case + WCHAR wchUppercaseProductID[64]; + if(pwchProductId[0]!=0) + { + for(int i=0;i<64;i++) + { + wchUppercaseProductID[i]=towupper((wchar_t)pwchProductId[i]); + } + } + + // check if we already have this info from the local DLC file + wstring wsTemp=wchUppercaseProductID; + + auto it = DLCInfo_Full.find(wsTemp); + if( it == DLCInfo_Full.end() ) + { + // Not found + + DLC_INFO *pDLCData=new DLC_INFO; + ZeroMemory(pDLCData,sizeof(DLC_INFO)); + + pDLCData->eDLCType=e_DLC_NotDefined; + pDLCData->uiSortIndex=uiSortIndex; + pDLCData->iConfig=iConfig; + + if(pwchProductId[0]!=0) + { + pDLCData->wsProductId=wchUppercaseProductID; + } + + // ignore the names if we don't recognize them + if(pwchBannerName!=L"") + { + wcsncpy_s( pDLCData->wchBanner, pwchBannerName, MAX_BANNERNAME_SIZE); + } + + if(pwchProductName[0]!=0) + { + pDLCData->wsDisplayName=pwchProductName; + } + + pDLCData->eDLCType=eType; + + switch(eType) + { + case e_DLC_MashupPacks: + case e_DLC_TexturePacks: + DLCTextures_PackID[iConfig]=pDLCData->wsProductId; + break; + } + + if(pwchFirstSkin[0]!=0) DLCInfo_SkinName[pwchFirstSkin]=pDLCData->wsProductId; + +#ifdef _XBOX_ONE + // ignore the names, and use the product id instead + DLCInfo_Full[pDLCData->wsProductId]=pDLCData; +#else + DLCInfo_Full[pDLCData->wsDisplayName]=pDLCData; +#endif + } + app.DebugPrintf("DLCInfo - type - %d, productID - %ls, name - %ls , banner - %ls, iconfig - %d, sort index - %d\n",eType,pwchProductId, pwchProductName,pwchBannerName, iConfig, uiSortIndex); + return hr; +} +#else + +HRESULT CMinecraftApp::RegisterDLCData(char *pchDLCName, unsigned int uiSortIndex,char *pchImageURL) +{ + // on PS3 we get all the required info from the name + char chDLCType[3]; + HRESULT hr=S_OK; + DLC_INFO *pDLCData=new DLC_INFO; + ZeroMemory(pDLCData,sizeof(DLC_INFO)); + + chDLCType[0]=pchDLCName[0]; + chDLCType[1]=pchDLCName[1]; + chDLCType[2]=0; + + pDLCData->iConfig = app.GetiConfigFromName(pchDLCName); + pDLCData->uiSortIndex=uiSortIndex; + pDLCData->eDLCType = app.GetDLCTypeFromName(pchDLCName); + strcpy(pDLCData->chImageURL,pchImageURL); + //bool bIsTrialDLC = app.GetTrialFromName(pchDLCName); + + switch(pDLCData->eDLCType) + { + case e_DLC_TexturePacks: + { + char *pchName=(char *)malloc(strlen(pchDLCName)+1); + strcpy(pchName,pchDLCName); + DLCTextures_PackID[pDLCData->iConfig]=pchName; + } + break; + case e_DLC_MashupPacks: + { + char *pchName=(char *)malloc(strlen(pchDLCName)+1); + strcpy(pchName,pchDLCName); + DLCTextures_PackID[pDLCData->iConfig]=pchName; + } + break; + default: + break; + } + + app.DebugPrintf(5,"Adding DLC - %s\n",pchDLCName); + DLCInfo[pchDLCName]=pDLCData; + + // if(ullOfferID_Trial!=0ll) DLCInfo_Trial[ullOfferID_Trial]=pDLCData; + // if(ullOfferID_Full!=0ll) DLCInfo_Full[ullOfferID_Full]=pDLCData; + // if(pFirstSkin[0]!=0) DLCInfo_SkinName[pFirstSkin]=ullOfferID_Full; + + // DLCInfo[ullOfferID_Trial]=pDLCData; + + return hr; +} +#endif + + + +#if defined( __PS3__) || defined(__ORBIS__) || defined(__PSVITA__) +bool CMinecraftApp::GetDLCFullOfferIDForSkinID(const wstring &FirstSkin,ULONGLONG *pullVal) +{ + auto it = DLCInfo_SkinName.find(FirstSkin); + if( it == DLCInfo_SkinName.end() ) + { + return false; + } + else + { + *pullVal=(ULONGLONG)it->second; + return true; + } +} +bool CMinecraftApp::GetDLCNameForPackID(const int iPackID,char **ppchKeyID) +{ + auto it = DLCTextures_PackID.find(iPackID); + if( it == DLCTextures_PackID.end() ) + { + *ppchKeyID=nullptr; + return false; + } + else + { + *ppchKeyID=(char *)it->second; + return true; + } +} +DLC_INFO *CMinecraftApp::GetDLCInfo(char *pchDLCName) +{ + string tempString=pchDLCName; + + if(DLCInfo.size()>0) + { + auto it = DLCInfo.find(tempString); + + if( it == DLCInfo.end() ) + { + // nothing for this + return nullptr; + } + else + { + return it->second; + } + } + else return nullptr; +} + +DLC_INFO *CMinecraftApp::GetDLCInfoFromTPackID(int iTPID) +{ + unordered_map::iterator it= DLCInfo.begin(); + + for(size_t i=0;isecond)->iConfig==iTPID) + { + return it->second; + } + ++it; + } + return nullptr; +} + +DLC_INFO *CMinecraftApp::GetDLCInfo(int iIndex) +{ + unordered_map::iterator it= DLCInfo.begin(); + + for(int i=0;isecond; +} + +char *CMinecraftApp::GetDLCInfoTextures(int iIndex) +{ + unordered_map::iterator it= DLCTextures_PackID.begin(); + + for(int i=0;isecond; +} + +#elif defined _XBOX_ONE +bool CMinecraftApp::GetDLCFullOfferIDForSkinID(const wstring &FirstSkin,wstring &ProductId) +{ + auto it = DLCInfo_SkinName.find(FirstSkin); + if( it == DLCInfo_SkinName.end() ) + { + return false; + } + else + { + ProductId=it->second; + return true; + } +} +bool CMinecraftApp::GetDLCFullOfferIDForPackID(const int iPackID,wstring &ProductId) +{ + auto it = DLCTextures_PackID.find(iPackID); + if( it == DLCTextures_PackID.end() ) + { + return false; + } + else + { + ProductId=it->second; + return true; + } +} +// DLC_INFO *CMinecraftApp::GetDLCInfoForTrialOfferID(wstring &ProductId) +// { +// return nullptr; +// } + +DLC_INFO *CMinecraftApp::GetDLCInfoTrialOffer(int iIndex) +{ + return nullptr; +} +DLC_INFO *CMinecraftApp::GetDLCInfoFullOffer(int iIndex) +{ + unordered_map::iterator it= DLCInfo_Full.begin(); + + for(int i=0;isecond; +} +wstring CMinecraftApp::GetDLCInfoTexturesFullOffer(int iIndex) +{ + unordered_map::iterator it= DLCTextures_PackID.begin(); + + for(int i=0;isecond; +} +#else +bool CMinecraftApp::GetDLCFullOfferIDForSkinID(const wstring &FirstSkin,ULONGLONG *pullVal) +{ + auto it = DLCInfo_SkinName.find(FirstSkin); + if( it == DLCInfo_SkinName.end() ) + { + return false; + } + else + { + *pullVal=(ULONGLONG)it->second; + return true; + } +} +bool CMinecraftApp::GetDLCFullOfferIDForPackID(const int iPackID,ULONGLONG *pullVal) +{ + auto it = DLCTextures_PackID.find(iPackID); + if( it == DLCTextures_PackID.end() ) + { + *pullVal=0ULL; + return false; + } + else + { + *pullVal=it->second; + return true; + } +} +DLC_INFO *CMinecraftApp::GetDLCInfoForTrialOfferID(ULONGLONG ullOfferID_Trial) +{ + //DLC_INFO *pDLCInfo=nullptr; + if(DLCInfo_Trial.size()>0) + { + auto it = DLCInfo_Trial.find(ullOfferID_Trial); + + if( it == DLCInfo_Trial.end() ) + { + // nothing for this + return nullptr; + } + else + { + return it->second; + } + } + else return nullptr; +} + +DLC_INFO *CMinecraftApp::GetDLCInfoTrialOffer(int iIndex) +{ + unordered_map::iterator it= DLCInfo_Trial.begin(); + + for(int i=0;isecond; +} +DLC_INFO *CMinecraftApp::GetDLCInfoFullOffer(int iIndex) +{ + unordered_map::iterator it= DLCInfo_Full.begin(); + + for(int i=0;isecond; +} +ULONGLONG CMinecraftApp::GetDLCInfoTexturesFullOffer(int iIndex) +{ + unordered_map::iterator it= DLCTextures_PackID.begin(); + + for(int i=0;isecond; +} +#endif + +#ifdef _XBOX_ONE + +DLC_INFO *CMinecraftApp::GetDLCInfoForFullOfferID(WCHAR *pwchProductID) +{ + wstring wsTemp = pwchProductID; + if(DLCInfo_Full.size()>0) + { + auto it = DLCInfo_Full.find(wsTemp); + + if( it == DLCInfo_Full.end() ) + { + // nothing for this + return nullptr; + } + else + { + return it->second; + } + } + else return nullptr; +} +DLC_INFO *CMinecraftApp::GetDLCInfoForProductName(WCHAR *pwchProductName) +{ + unordered_map::iterator it= DLCInfo_Full.begin(); + wstring wsProductName=pwchProductName; + + for(size_t i=0;isecond; + if(wsProductName==pDLCInfo->wsDisplayName) + { + return pDLCInfo; + } + ++it; + } + + return nullptr; +} + +#elif defined(__PS3__) || defined(__ORBIS__) || defined (__PSVITA__) +#else + +DLC_INFO *CMinecraftApp::GetDLCInfoForFullOfferID(ULONGLONG ullOfferID_Full) +{ + + if(DLCInfo_Full.size()>0) + { + auto it = DLCInfo_Full.find(ullOfferID_Full); + + if( it == DLCInfo_Full.end() ) + { + // nothing for this + return nullptr; + } + else + { + return it->second; + } + } + else return nullptr; +} +#endif + +void CMinecraftApp::EnterSaveNotificationSection() +{ + EnterCriticalSection(&m_saveNotificationCriticalSection); + if( m_saveNotificationDepth++ == 0 ) + { + if(g_NetworkManager.IsInSession()) // this can be triggered from the front end if we're downloading a save + { + MinecraftServer::getInstance()->broadcastStartSavingPacket(); + + if( g_NetworkManager.IsLocalGame() && g_NetworkManager.GetPlayerCount() == 1 ) + { + app.SetXuiServerAction(ProfileManager.GetPrimaryPad(),eXuiServerAction_PauseServer,(void *)TRUE); + } + } + } + LeaveCriticalSection(&m_saveNotificationCriticalSection); +} + +void CMinecraftApp::LeaveSaveNotificationSection() +{ + EnterCriticalSection(&m_saveNotificationCriticalSection); + if( --m_saveNotificationDepth == 0 ) + { + if(g_NetworkManager.IsInSession()) // this can be triggered from the front end if we're downloading a save + { + MinecraftServer::getInstance()->broadcastStopSavingPacket(); + + if( g_NetworkManager.IsLocalGame() && g_NetworkManager.GetPlayerCount() == 1 ) + { + app.SetXuiServerAction(ProfileManager.GetPrimaryPad(),eXuiServerAction_PauseServer,(void *)FALSE); + } + } + } + LeaveCriticalSection(&m_saveNotificationCriticalSection); +} + + +int CMinecraftApp::RemoteSaveThreadProc( void* lpParameter ) +{ + // The game should be stopped while we are doing this, but the connections ticks may try to create some AABB's or Vec3's + AABB::UseDefaultThreadStorage(); + Vec3::UseDefaultThreadStorage(); + Compression::UseDefaultThreadStorage(); + + // 4J-PB - Xbox 360 - 163153 - [CRASH] TU17: Code: Multiplayer: During the Autosave in an online Multiplayer session, the game occasionally crashes for one or more Clients + // callstack - > if(tls->tileId != this->id) updateDefaultShape(); + // callstack - > default.exe!WaterlilyTile::getAABB(Level * level, int x, int y, int z) line 38 + 8 bytes C++ + // ... + // default.exe!CMinecraftApp::RemoteSaveThreadProc(void * lpParameter) line 6694 C++ + // host autosave, and the clients can crash on receiving handleMoveEntity when it's a tile within this thread, so need to do the tls for tiles + Tile::CreateNewThreadStorage(); + + Minecraft *pMinecraft = Minecraft::GetInstance(); + + //pMinecraft->progressRenderer->progressStartNoAbort( IDS_PROGRESS_HOST_SAVING ); + //pMinecraft->progressRenderer->progressStage( -1 ); + //pMinecraft->progressRenderer->progressStagePercentage(0); + + while( !app.GetGameStarted() && app.GetXuiAction( ProfileManager.GetPrimaryPad() ) == eAppAction_WaitRemoteServerSaveComplete ) + { + // Tick all the games connections + pMinecraft->tickAllConnections(); + Sleep( 100 ); + } + + if( app.GetXuiAction( ProfileManager.GetPrimaryPad() ) != eAppAction_WaitRemoteServerSaveComplete ) + { + // Something cancelled us? + return ERROR_CANCELLED; + } + app.SetAction(ProfileManager.GetPrimaryPad(),eAppAction_Idle); + + + Tile::ReleaseThreadStorage(); + + return S_OK; +} + +void CMinecraftApp::ExitGameFromRemoteSave( LPVOID lpParameter ) +{ + int primaryPad = ProfileManager.GetPrimaryPad(); + + UINT uiIDA[3]; + uiIDA[0]=IDS_CONFIRM_CANCEL; + uiIDA[1]=IDS_CONFIRM_OK; + +} + +int CMinecraftApp::ExitGameFromRemoteSaveDialogReturned(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + //CScene_Pause* pClass = (CScene_Pause*)pParam; + + // results switched for this dialog + if(result==C4JStorage::EMessage_ResultDecline) + { + app.SetAction(iPad,eAppAction_ExitWorld); + } + else + { +#ifndef _XBOX + // Inform fullscreen progress scene that it's not being cancelled after all + +#else + // Don't have to worry about this on Xbox +#endif + } + return 0; +} + +void CMinecraftApp::SetSpecialTutorialCompletionFlag(int iPad, int index) +{ + if(index >= 0 && index < 32 && GameSettingsA[iPad] != nullptr) + { + GameSettingsA[iPad]->uiSpecialTutorialBitmask |= (1<clear(); + + if(BannedListA[iPad].pBannedList) + { + delete [] BannedListA[iPad].pBannedList; + BannedListA[iPad].pBannedList=nullptr; + } + } +} + +#ifdef _XBOX_ONE +void CMinecraftApp::AddLevelToBannedLevelList(int iPad, PBANNEDLISTDATA pBannedListData, bool bWriteToTMS) +{ + PlayerUID xuid= pBannedListData->wchPlayerUID; + + AddLevelToBannedLevelList(iPad,xuid,pBannedListData->pszLevelName,bWriteToTMS); +} +#endif + +void CMinecraftApp::AddLevelToBannedLevelList(int iPad, PlayerUID xuid, char *pszLevelName, bool bWriteToTMS) +{ + // we will have retrieved the banned level list from TMS, so add this one to it and write it back to TMS + + BANNEDLISTDATA *pBannedListData = new BANNEDLISTDATA; + memset(pBannedListData,0,sizeof(BANNEDLISTDATA)); + +#ifdef _DURANGO + memcpy(&pBannedListData->wchPlayerUID, xuid.toString().c_str(), sizeof(WCHAR)*64); +#else + memcpy(&pBannedListData->xuid, &xuid, sizeof(PlayerUID)); +#endif + strcpy(pBannedListData->pszLevelName,pszLevelName); + m_vBannedListA[iPad]->push_back(pBannedListData); + + if (bWriteToTMS) + { + DWORD dwDataBytes = static_cast(sizeof(BANNEDLISTDATA)* m_vBannedListA[iPad]->size()); + PBANNEDLISTDATA pBannedList = reinterpret_cast(new CHAR [dwDataBytes]); + int iCount=0; + for (PBANNEDLISTDATA pData : *m_vBannedListA[iPad] ) + { + memcpy(&pBannedList[iCount++],pData,sizeof(BANNEDLISTDATA)); + } + + // 4J-PB - write to TMS++ now + + //bool bRes=StorageManager.WriteTMSFile(iPad,C4JStorage::eGlobalStorage_TitleUser,L"BannedList",(PBYTE)pBannedList, dwDataBytes); +#ifdef _XBOX + StorageManager.TMSPP_WriteFile(iPad,C4JStorage::eGlobalStorage_TitleUser,C4JStorage::TMS_FILETYPE_BINARY,C4JStorage::TMS_UGCTYPE_NONE,"BannedList",(PCHAR) pBannedList, dwDataBytes,nullptr,nullptr, 0); +#elif defined _XBOX_ONE + StorageManager.TMSPP_WriteFile(iPad,C4JStorage::eGlobalStorage_TitleUser,C4JStorage::TMS_FILETYPE_BINARY,L"BannedList",(PBYTE) pBannedList, dwDataBytes,nullptr,nullptr, 0); +#endif + } + // update telemetry too +} + +bool CMinecraftApp::IsInBannedLevelList(int iPad, PlayerUID xuid, char *pszLevelName) +{ + for( PBANNEDLISTDATA pData : *m_vBannedListA[iPad] ) + { +#ifdef _XBOX_ONE + PlayerUID bannedPlayerUID = pData->wchPlayerUID; + if(IsEqualXUID (bannedPlayerUID,xuid) && (strcmp(pData->pszLevelName,pszLevelName)==0)) +#else + if(IsEqualXUID (pData->xuid,xuid) && (strcmp(pData->pszLevelName,pszLevelName)==0)) +#endif + { + return true; + } + } + + return false; +} + +void CMinecraftApp::RemoveLevelFromBannedLevelList(int iPad, PlayerUID xuid, char *pszLevelName) +{ + //bool bFound=false; + //bool bRes; + + // we will have retrieved the banned level list from TMS, so remove this one from it and write it back to TMS + for (auto it = m_vBannedListA[iPad]->begin(); it != m_vBannedListA[iPad]->end(); ) + { + PBANNEDLISTDATA pBannedListData = *it; + + if(pBannedListData!=nullptr) + { +#ifdef _XBOX_ONE + PlayerUID bannedPlayerUID = pBannedListData->wchPlayerUID; + if(IsEqualXUID (bannedPlayerUID,xuid) && (strcmp(pBannedListData->pszLevelName,pszLevelName)==0)) +#else + if(IsEqualXUID (pBannedListData->xuid,xuid) && (strcmp(pBannedListData->pszLevelName,pszLevelName)==0)) +#endif + { + TelemetryManager->RecordUnBanLevel(iPad); + + // match found, so remove this entry + it = m_vBannedListA[iPad]->erase(it); + } + else + { + ++it; + } + } + else + { + ++it; + } + } + + DWORD dwDataBytes=static_cast(sizeof(BANNEDLISTDATA) * m_vBannedListA[iPad]->size()); + if(dwDataBytes==0) + { + // wipe the file +#ifdef _XBOX + StorageManager.DeleteTMSFile(iPad,C4JStorage::eGlobalStorage_TitleUser,L"BannedList"); +#elif defined _XBOX_ONE + StorageManager.TMSPP_DeleteFile(iPad,C4JStorage::eGlobalStorage_TitleUser,C4JStorage::TMS_FILETYPE_BINARY,L"BannedList",nullptr,nullptr, 0); +#endif + } + else + { + PBANNEDLISTDATA pBannedList = (BANNEDLISTDATA *)(new BYTE [dwDataBytes]); + + size_t iSize=m_vBannedListA[iPad]->size(); + for(size_t i=0;iat(i); + + memcpy(&pBannedList[i],pBannedListData,sizeof(BANNEDLISTDATA)); + } +#ifdef _XBOX + StorageManager.WriteTMSFile(iPad,C4JStorage::eGlobalStorage_TitleUser,L"BannedList",(PBYTE)pBannedList, dwDataBytes); +#elif defined _XBOX_ONE + StorageManager.TMSPP_WriteFile(iPad,C4JStorage::eGlobalStorage_TitleUser,C4JStorage::TMS_FILETYPE_BINARY,L"BannedList",(PBYTE) pBannedList, dwDataBytes,nullptr,nullptr, 0); +#endif + delete [] pBannedList; + } + + // update telemetry too +} + +// function to add credits for the DLC packs +void CMinecraftApp::AddCreditText(LPCWSTR lpStr) +{ + +} + +bool CMinecraftApp::AlreadySeenCreditText(const wstring &wstemp) +{ + + for(unsigned int i=0;i>4; + break; + case eGameHostOption_All: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_ALL); + break; + case eGameHostOption_Tutorial: + // special case - tutorial is offline, but we want the gamertag option, and set Easy mode, structures on, fire on, tnt on, pvp on, trust players on + return ((uiHostSettings&GAME_HOST_OPTION_BITMASK_GAMERTAGS)| + GAME_HOST_OPTION_BITMASK_TRUSTPLAYERS| + GAME_HOST_OPTION_BITMASK_FIRESPREADS| + GAME_HOST_OPTION_BITMASK_TNT| + GAME_HOST_OPTION_BITMASK_PVP| + GAME_HOST_OPTION_BITMASK_STRUCTURES|1); + break; + case eGameHostOption_LevelType: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_LEVELTYPE); + break; + case eGameHostOption_Structures: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_STRUCTURES); + break; + case eGameHostOption_BonusChest: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_BONUSCHEST); + break; + case eGameHostOption_HasBeenInCreative: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_BEENINCREATIVE); + break; + case eGameHostOption_PvP: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_PVP); + break; + case eGameHostOption_TrustPlayers: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_TRUSTPLAYERS); + break; + case eGameHostOption_TNT: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_TNT); + break; + case eGameHostOption_FireSpreads: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_FIRESPREADS); + break; + case eGameHostOption_CheatsEnabled: + return (uiHostSettings&(GAME_HOST_OPTION_BITMASK_HOSTFLY|GAME_HOST_OPTION_BITMASK_HOSTHUNGER|GAME_HOST_OPTION_BITMASK_HOSTINVISIBLE)); + break; + case eGameHostOption_HostCanFly: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_HOSTFLY); + break; + case eGameHostOption_HostCanChangeHunger: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_HOSTHUNGER); + break; + case eGameHostOption_HostCanBeInvisible: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_HOSTINVISIBLE); + break; + case eGameHostOption_BedrockFog: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_BEDROCKFOG); + break; + case eGameHostOption_DisableSaving: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_DISABLESAVE); + break; + case eGameHostOption_WasntSaveOwner: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_NOTOWNER); + case eGameHostOption_WorldSize: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_WORLDSIZE) >> GAME_HOST_OPTION_BITMASK_WORLDSIZE_BITSHIFT; + case eGameHostOption_MobGriefing: + return !(uiHostSettings&GAME_HOST_OPTION_BITMASK_MOBGRIEFING); + case eGameHostOption_KeepInventory: + return (uiHostSettings&GAME_HOST_OPTION_BITMASK_KEEPINVENTORY); + case eGameHostOption_DoMobSpawning: + return !(uiHostSettings&GAME_HOST_OPTION_BITMASK_DOMOBSPAWNING); + case eGameHostOption_DoMobLoot: + return !(uiHostSettings&GAME_HOST_OPTION_BITMASK_DOMOBLOOT); + case eGameHostOption_DoTileDrops: + return !(uiHostSettings&GAME_HOST_OPTION_BITMASK_DOTILEDROPS); + case eGameHostOption_NaturalRegeneration: + return !(uiHostSettings&GAME_HOST_OPTION_BITMASK_NATURALREGEN); + case eGameHostOption_DoDaylightCycle: + return !(uiHostSettings&GAME_HOST_OPTION_BITMASK_DODAYLIGHTCYCLE); + break; + } + + return false; +} + +bool CMinecraftApp::CanRecordStatsAndAchievements() +{ + bool isTutorial = Minecraft::GetInstance() != nullptr && Minecraft::GetInstance()->isTutorial(); + // 4J Stu - All of these options give the host player some advantage, so should not allow achievements + return !(app.GetGameHostOption(eGameHostOption_HasBeenInCreative) || + app.GetGameHostOption(eGameHostOption_HostCanBeInvisible) || + app.GetGameHostOption(eGameHostOption_HostCanChangeHunger) || + app.GetGameHostOption(eGameHostOption_HostCanFly) || + app.GetGameHostOption(eGameHostOption_WasntSaveOwner) || + !app.GetGameHostOption(eGameHostOption_MobGriefing) || + app.GetGameHostOption(eGameHostOption_KeepInventory) || + !app.GetGameHostOption(eGameHostOption_DoMobSpawning) || + (!app.GetGameHostOption(eGameHostOption_DoDaylightCycle) && !isTutorial ) + ); +} + +void CMinecraftApp::processSchematics(LevelChunk *levelChunk) +{ + m_gameRules.processSchematics(levelChunk); +} + +void CMinecraftApp::processSchematicsLighting(LevelChunk *levelChunk) +{ + m_gameRules.processSchematicsLighting(levelChunk); +} + +void CMinecraftApp::loadDefaultGameRules() +{ + m_gameRules.loadDefaultGameRules(); +} + +void CMinecraftApp::setLevelGenerationOptions(LevelGenerationOptions *levelGen) +{ + m_gameRules.setLevelGenerationOptions(levelGen); +} + +LPCWSTR CMinecraftApp::GetGameRulesString(const wstring &key) +{ + return m_gameRules.GetGameRulesString(key); +} + +unsigned char CMinecraftApp::m_szPNG[8]= +{ + 137,80,78,71,13,10,26,10 +}; + +#define PNG_TAG_tEXt 0x74455874 + +unsigned int CMinecraftApp::FromBigEndian(unsigned int uiValue) +{ +#if defined(__PS3__) || defined(_XBOX) + // Keep it in big endian + return uiValue; +#else + unsigned int uiReturn = ( ( uiValue >> 24 ) & 0x000000ff ) | + ( ( uiValue >> 8 ) & 0x0000ff00 ) | + ( ( uiValue << 8 ) & 0x00ff0000 ) | + ( ( uiValue << 24 ) & 0xff000000 ); + return uiReturn; +#endif +} + +void CMinecraftApp::GetImageTextData(PBYTE pbImageData, DWORD dwImageBytes,unsigned char *pszSeed,unsigned int &uiHostOptions,bool &bHostOptionsRead,DWORD &uiTexturePack) +{ + unsigned char *ucPtr=pbImageData; + unsigned int uiCount=0; + unsigned int uiChunkLen; + unsigned int uiChunkType; + unsigned int uiCRC; + char szKeyword[80]; + + // check it's a png + for(int i=0;i<8;i++) + { + if(m_szPNG[i]!=ucPtr[i]) return; + } + + uiCount+=8; + + while(uiCount> std::hex >> uiHostOptions; + } + else if(strcmp(szKeyword,"4J_TEXTUREPACK")==0) + { + // read the texture pack value + unsigned int uiValueC=0; + unsigned char pszTexturePack[9]; // Hex representation of unsigned int + ZeroMemory(&pszTexturePack,9); + while(*pszKeyword!=0 && (pszKeyword < ucPtr + uiCount + uiChunkLen) && uiValueC < 8) + { + pszTexturePack[uiValueC++]=*pszKeyword; + pszKeyword++; + } + + std::stringstream ss; + ss << pszTexturePack; + ss >> std::hex >> uiTexturePack; + } + } + } + uiCount+=uiChunkLen; + uiCRC=*(unsigned int*)&ucPtr[uiCount]; + uiCRC=FromBigEndian(uiCRC); + uiCount+=sizeof(int); + } + + return; +} + +unsigned int CMinecraftApp::CreateImageTextData(PBYTE bTextMetadata, int64_t seed, bool hasSeed, unsigned int uiHostOptions, unsigned int uiTexturePackId) +{ + int iTextMetadataBytes = 0; + if(hasSeed) + { + strcpy((char *)bTextMetadata,"4J_SEED"); + _i64toa_s(seed,(char *)&bTextMetadata[8],42,10); + + // get the length + iTextMetadataBytes+=8; + while(bTextMetadata[iTextMetadataBytes]!=0) iTextMetadataBytes++; + ++iTextMetadataBytes; // Add a null terminator at the end of the seed value + } + + // Save the host options that this world was last played with + strcpy((char *)&bTextMetadata[iTextMetadataBytes],"4J_HOSTOPTIONS"); + _itoa_s(uiHostOptions,(char *)&bTextMetadata[iTextMetadataBytes+15],9,16); + + iTextMetadataBytes += 15; + while(bTextMetadata[iTextMetadataBytes]!=0) iTextMetadataBytes++; + ++iTextMetadataBytes; // Add a null terminator at the end of the host options value + + // Save the texture pack id + strcpy((char *)&bTextMetadata[iTextMetadataBytes],"4J_TEXTUREPACK"); + _itoa_s(uiTexturePackId,(char *)&bTextMetadata[iTextMetadataBytes+15],9,16); + + iTextMetadataBytes += 15; + while(bTextMetadata[iTextMetadataBytes]!=0) iTextMetadataBytes++; + + return iTextMetadataBytes; +} + +void CMinecraftApp::AddTerrainFeaturePosition(_eTerrainFeatureType eFeatureType,int x,int z) +{ + // check we don't already have this in + for( FEATURE_DATA *pFeatureData : m_vTerrainFeatures ) + { + if((pFeatureData->eTerrainFeature==eFeatureType) &&(pFeatureData->x==x) && (pFeatureData->z==z)) return; + } + + FEATURE_DATA *pFeatureData= new FEATURE_DATA; + pFeatureData->eTerrainFeature=eFeatureType; + pFeatureData->x=x; + pFeatureData->z=z; + + m_vTerrainFeatures.push_back(pFeatureData); +} + +_eTerrainFeatureType CMinecraftApp::IsTerrainFeature(int x,int z) +{ + for(FEATURE_DATA *pFeatureData : m_vTerrainFeatures ) + { + if((pFeatureData->x==x) && (pFeatureData->z==z)) return pFeatureData->eTerrainFeature; + } + + return eTerrainFeature_None; +} + +bool CMinecraftApp::GetTerrainFeaturePosition(_eTerrainFeatureType eType,int *pX, int *pZ) +{ + for ( const FEATURE_DATA *pFeatureData : m_vTerrainFeatures ) + { + if(pFeatureData->eTerrainFeature==eType) + { + *pX=pFeatureData->x; + *pZ=pFeatureData->z; + return true; + } + } + + return false; +} + +void CMinecraftApp::ClearTerrainFeaturePosition() +{ + FEATURE_DATA *pFeatureData; + while(m_vTerrainFeatures.size()>0) + { + pFeatureData = m_vTerrainFeatures.back(); + m_vTerrainFeatures.pop_back(); + delete pFeatureData; + } +} + +void CMinecraftApp::UpdatePlayerInfo(BYTE networkSmallId, SHORT playerColourIndex, unsigned int playerGamePrivileges) +{ + for(unsigned int i = 0; i < MINECRAFT_NET_MAX_PLAYERS; ++i) + { + if(m_playerColours[i]==networkSmallId) + { + m_playerColours[i] = 0; + m_playerGamePrivileges[i] = 0; + } + } + if(playerColourIndex >=0 && playerColourIndex < MINECRAFT_NET_MAX_PLAYERS) + { + m_playerColours[playerColourIndex] = networkSmallId; + m_playerGamePrivileges[playerColourIndex] = playerGamePrivileges; + } +} + +short CMinecraftApp::GetPlayerColour(BYTE networkSmallId) +{ + short index = -1; + for(unsigned int i = 0; i < MINECRAFT_NET_MAX_PLAYERS; ++i) + { + if(m_playerColours[i]==networkSmallId) + { + index = i; + break; + } + } + return index; +} + + +unsigned int CMinecraftApp::GetPlayerPrivileges(BYTE networkSmallId) +{ + unsigned int privileges = 0; + for(unsigned int i = 0; i < MINECRAFT_NET_MAX_PLAYERS; ++i) + { + if(m_playerColours[i]==networkSmallId) + { + privileges = m_playerGamePrivileges[i]; + break; + } + } + return privileges; +} + +wstring CMinecraftApp::getEntityName(eINSTANCEOF type) +{ + switch(type) + { + case eTYPE_WOLF: + return app.GetString(IDS_WOLF); + case eTYPE_CREEPER: + return app.GetString(IDS_CREEPER); + case eTYPE_SKELETON: + return app.GetString(IDS_SKELETON); + case eTYPE_SPIDER: + return app.GetString(IDS_SPIDER); + case eTYPE_ZOMBIE: + return app.GetString(IDS_ZOMBIE); + case eTYPE_PIGZOMBIE: + return app.GetString(IDS_PIGZOMBIE); + case eTYPE_ENDERMAN: + return app.GetString(IDS_ENDERMAN); + case eTYPE_SILVERFISH: + return app.GetString(IDS_SILVERFISH); + case eTYPE_CAVESPIDER: + return app.GetString(IDS_CAVE_SPIDER); + case eTYPE_GHAST: + return app.GetString(IDS_GHAST); + case eTYPE_SLIME: + return app.GetString(IDS_SLIME); + case eTYPE_ARROW: + return app.GetString(IDS_ITEM_ARROW); + case eTYPE_ENDERDRAGON: + return app.GetString(IDS_ENDERDRAGON); + case eTYPE_BLAZE: + return app.GetString(IDS_BLAZE); + case eTYPE_LAVASLIME: + return app.GetString(IDS_LAVA_SLIME); + // 4J-PB - fix for #107167 - Customer Encountered: TU12: Content: UI: There is no information what killed Player after being slain by Iron Golem. + case eTYPE_VILLAGERGOLEM: + return app.GetString(IDS_IRONGOLEM); + case eTYPE_HORSE: + return app.GetString(IDS_HORSE); + case eTYPE_WITCH: + return app.GetString(IDS_WITCH); + case eTYPE_WITHERBOSS: + return app.GetString(IDS_WITHER); + case eTYPE_BAT: + return app.GetString(IDS_BAT); + }; + + return L""; +} + +DWORD CMinecraftApp::m_dwContentTypeA[e_Marketplace_MAX]= +{ + XMARKETPLACE_OFFERING_TYPE_CONTENT, // e_DLC_SkinPack, e_DLC_TexturePacks, e_DLC_MashupPacks +#ifndef _XBOX_ONE + XMARKETPLACE_OFFERING_TYPE_THEME, // e_DLC_Themes + XMARKETPLACE_OFFERING_TYPE_AVATARITEM, // e_DLC_AvatarItems + XMARKETPLACE_OFFERING_TYPE_TILE, // e_DLC_Gamerpics +#endif +}; + +unsigned int CMinecraftApp::AddDLCRequest(eDLCMarketplaceType eType, bool bPromote) +{ + // lock access + EnterCriticalSection(&csDLCDownloadQueue); + + // If it's already in there, promote it to the top of the list + int iPosition=0; + for( DLCRequest *pCurrent : m_DLCDownloadQueue ) + { + if(pCurrent->dwType==m_dwContentTypeA[eType]) + { + // already got this in the list + if(pCurrent->eState == e_DLC_ContentState_Retrieving || pCurrent->eState == e_DLC_ContentState_Retrieved) + { + // already retrieved this + LeaveCriticalSection(&csDLCDownloadQueue); + return 0; + } + else + { + // promote + if(bPromote) + { + m_DLCDownloadQueue.erase(m_DLCDownloadQueue.begin()+iPosition); + m_DLCDownloadQueue.insert(m_DLCDownloadQueue.begin(),pCurrent); + } + LeaveCriticalSection(&csDLCDownloadQueue); + return 0; + } + } + iPosition++; + } + + DLCRequest *pDLCreq = new DLCRequest; + pDLCreq->dwType=m_dwContentTypeA[eType]; + pDLCreq->eState=e_DLC_ContentState_Idle; + + m_DLCDownloadQueue.push_back(pDLCreq); + + m_bAllDLCContentRetrieved=false; + LeaveCriticalSection(&csDLCDownloadQueue); + + app.DebugPrintf("[Consoles_App] Added DLC request.\n"); + return 1; +} + +unsigned int CMinecraftApp::AddTMSPPFileTypeRequest(eDLCContentType eType, bool bPromote) +{ +#if !defined(__PS3__) && !defined(__ORBIS__) && !defined(__PSVITA__) + // lock access + EnterCriticalSection(&csTMSPPDownloadQueue); + + // If it's already in there, promote it to the top of the list + int iPosition=0; + //ignore promoting for now + /* + bool bPromoted=false; + + + for ( TMSPPRequest *pCurrent : m_TMSPPDownloadQueue ) + { + TMSPPRequest *pCurrent = *it; + + if(pCurrent->eType==eType) + { + if(!(pCurrent->eState == e_TMS_ContentState_Retrieving || pCurrent->eState == e_TMS_ContentState_Retrieved)) + { + // promote + if(bPromote) + { + m_TMSPPDownloadQueue.erase(m_TMSPPDownloadQueue.begin()+iPosition); + m_TMSPPDownloadQueue.insert(m_TMSPPDownloadQueue.begin(),pCurrent); + bPromoted=true; + } + } + } + iPosition++; + } + + if(bPromoted) + { + // re-ordered the list, so leave now + LeaveCriticalSection(&csTMSPPDownloadQueue); + return 0; + } + */ + + // special case for data files (not image files) + if(eType==e_DLC_TexturePackData) + { + + + int iCount=GetDLCInfoFullOffersCount(); + + for(int i=0;ieDLCType==e_DLC_TexturePacks) || (pDLC->eDLCType==e_DLC_MashupPacks)) + { + // first check if the image is already in the memory textures, since we might be loading some from the Title Update partition + if(pDLC->wchDataFile[0]!=0) + { + //WCHAR *cString = pDLC->wchDataFile; + // 4J-PB - shouldn't check this here - let the TMS files override it, so if they are on TMS, we'll take them first + //int iIndex = app.GetLocalTMSFileIndex(pDLC->wchDataFile,true); + + //if(iIndex!=-1) + { + bool bPresent = app.IsFileInTPD(pDLC->iConfig); + + if(!bPresent) + { + // this may already be present in the vector because of a previous trial/full offer + + bool bAlreadyInQueue=false; + for( TMSPPRequest *pCurrent : m_TMSPPDownloadQueue ) + { + if(wcscmp(pDLC->wchDataFile,pCurrent->wchFilename)==0) + { + bAlreadyInQueue=true; + break; + } + } + + if(!bAlreadyInQueue) + { + TMSPPRequest *pTMSPPreq = new TMSPPRequest; + + pTMSPPreq->CallbackFunc=&CMinecraftApp::TMSPPFileReturned; + pTMSPPreq->lpCallbackParam=this; + pTMSPPreq->eStorageFacility=C4JStorage::eGlobalStorage_Title; + pTMSPPreq->eFileTypeVal=C4JStorage::TMS_FILETYPE_BINARY; + memcpy(pTMSPPreq->wchFilename,pDLC->wchDataFile,sizeof(WCHAR)*MAX_BANNERNAME_SIZE); + pTMSPPreq->eType=e_DLC_TexturePackData; + pTMSPPreq->eState=e_TMS_ContentState_Queued; + m_bAllTMSContentRetrieved=false; + m_TMSPPDownloadQueue.push_back(pTMSPPreq); + } + } + else + { + app.DebugPrintf("Texture data already present in the TPD\n"); + } + } + } + } + } + } + else + { // for all the files of type eType, add them to the download list + + // run through the trial offers first, then the full offers. Any duplicates won't be added to the download queue + int iCount; +#ifdef _XBOX // Only trial offers on Xbox 360 + iCount=GetDLCInfoTrialOffersCount(); + for(int i=0;ieDLCType==eType) + { + + WCHAR *cString = pDLC->wchBanner; + + // 4J-PB - shouldn't check this here - let the TMS files override it, so if they are on TMS, we'll take them first + // is the file in the TMS XZP? + //int iIndex = app.GetLocalTMSFileIndex(cString,true); + + //if(iIndex!=-1) + { + bool bPresent = app.IsFileInMemoryTextures(cString); + + if(!bPresent) // retrieve it from TMSPP + { + bool bAlreadyInQueue=false; + for( TMSPPRequest *pCurrent : m_TMSPPDownloadQueue ) + { + if(wcscmp(pDLC->wchBanner,pCurrent->wchFilename)==0) + { + bAlreadyInQueue=true; + break; + } + } + + if(!bAlreadyInQueue) + { + TMSPPRequest *pTMSPPreq = new TMSPPRequest; + + pTMSPPreq->CallbackFunc=&CMinecraftApp::TMSPPFileReturned; + pTMSPPreq->lpCallbackParam=this; + pTMSPPreq->eStorageFacility=C4JStorage::eGlobalStorage_Title; + pTMSPPreq->eFileTypeVal=C4JStorage::TMS_FILETYPE_BINARY; + //wcstombs(pTMSPPreq->szFilename,pDLC->wchBanner,MAX_TMSFILENAME_SIZE); + memcpy(pTMSPPreq->wchFilename,pDLC->wchBanner,sizeof(WCHAR)*MAX_BANNERNAME_SIZE); + pTMSPPreq->eType=eType; + pTMSPPreq->eState=e_TMS_ContentState_Queued; + + m_bAllTMSContentRetrieved=false; + m_TMSPPDownloadQueue.push_back(pTMSPPreq); + app.DebugPrintf("===m_TMSPPDownloadQueue Adding %ls, q size is %d\n",pTMSPPreq->wchFilename,m_TMSPPDownloadQueue.size()); + } + } + } + } + } +#endif + // and the full offers + + iCount=GetDLCInfoFullOffersCount(); + for(int i=0;iwchType,wchDLCTypeNames[eType])==0) + if(pDLC->eDLCType==eType) + { + // first check if the image is already in the memory textures, since we might be loading some from the Title Update partition + + WCHAR *cString = pDLC->wchBanner; + // 4J-PB - shouldn't check this here - let the TMS files override it, so if they are on TMS, we'll take them first + //int iIndex = app.GetLocalTMSFileIndex(cString,true); + + //if(iIndex!=-1) + { + bool bPresent = app.IsFileInMemoryTextures(cString); + + if(!bPresent) + { + // this may already be present in the vector because of a previous trial/full offer + + bool bAlreadyInQueue=false; + for( TMSPPRequest *pCurrent : m_TMSPPDownloadQueue ) + { + if(wcscmp(pDLC->wchBanner,pCurrent->wchFilename)==0) + { + bAlreadyInQueue=true; + break; + } + } + + if(!bAlreadyInQueue) + { + //app.DebugPrintf("Adding a request to the TMSPP download queue - %ls\n",pDLC->wchBanner); + TMSPPRequest *pTMSPPreq = new TMSPPRequest; + ZeroMemory(pTMSPPreq,sizeof(TMSPPRequest)); + + pTMSPPreq->CallbackFunc=&CMinecraftApp::TMSPPFileReturned; + pTMSPPreq->lpCallbackParam=this; + // 4J-PB - testing for now + //pTMSPPreq->eStorageFacility=C4JStorage::eGlobalStorage_TitleUser; + pTMSPPreq->eStorageFacility=C4JStorage::eGlobalStorage_Title; + pTMSPPreq->eFileTypeVal=C4JStorage::TMS_FILETYPE_BINARY; + //wcstombs(pTMSPPreq->szFilename,pDLC->wchBanner,MAX_TMSFILENAME_SIZE); + + memcpy(pTMSPPreq->wchFilename,pDLC->wchBanner,sizeof(WCHAR)*MAX_BANNERNAME_SIZE); + pTMSPPreq->eType=eType; + pTMSPPreq->eState=e_TMS_ContentState_Queued; + m_bAllTMSContentRetrieved=false; + m_TMSPPDownloadQueue.push_back(pTMSPPreq); + app.DebugPrintf("===m_TMSPPDownloadQueue Adding %ls, q size is %d\n",pTMSPPreq->wchFilename,m_TMSPPDownloadQueue.size()); + } + } + } + } + } + } + + LeaveCriticalSection(&csTMSPPDownloadQueue); +#endif + return 1; +} + +bool CMinecraftApp::CheckTMSDLCCanStop() +{ + EnterCriticalSection(&csTMSPPDownloadQueue); + for( TMSPPRequest *pCurrent : m_TMSPPDownloadQueue ) + { + if(pCurrent->eState==e_TMS_ContentState_Retrieving) + { + LeaveCriticalSection(&csTMSPPDownloadQueue); + return false; + } + } + LeaveCriticalSection(&csTMSPPDownloadQueue); + + return true; +} + + +bool CMinecraftApp::RetrieveNextDLCContent() +{ + // If there's already a retrieve in progress, quit + // we may have re-ordered the list, so need to check every item + + // is there a primary player and a network connection? + int primPad = ProfileManager.GetPrimaryPad(); + if ( primPad == -1 || !ProfileManager.IsSignedInLive(primPad) ) + { + return true; // 4J-JEV: We need to wait until the primary player is online. + } + + EnterCriticalSection(&csDLCDownloadQueue); + for( const DLCRequest* pCurrent : m_DLCDownloadQueue ) + { + if(pCurrent->eState==e_DLC_ContentState_Retrieving) + { + LeaveCriticalSection(&csDLCDownloadQueue); + return true; + } + } + + // Now look for the next retrieval + for( DLCRequest *pCurrent : m_DLCDownloadQueue ) + { + if(pCurrent->eState==e_DLC_ContentState_Idle) + { +#ifdef _DEBUG + app.DebugPrintf("RetrieveNextDLCContent - type = %d\n",pCurrent->dwType); +#endif + + C4JStorage::EDLCStatus status = StorageManager.GetDLCOffers(ProfileManager.GetPrimaryPad(), &CMinecraftApp::DLCOffersReturned, this, pCurrent->dwType); + if(status==C4JStorage::EDLC_Pending) + { + pCurrent->eState=e_DLC_ContentState_Retrieving; + } + else + { + // no content of this type, or some other problem + app.DebugPrintf("RetrieveNextDLCContent - PROBLEM\n"); + pCurrent->eState=e_DLC_ContentState_Retrieved; + } + LeaveCriticalSection(&csDLCDownloadQueue); + return true; + } + } + LeaveCriticalSection(&csDLCDownloadQueue); + + app.DebugPrintf("[Consoles_App] Finished downloading dlc content.\n"); + return false; +} + +#if !defined(__PS3__) && !defined(__ORBIS__) && !defined(__PSVITA__) +#ifdef _XBOX_ONE +int CMinecraftApp::TMSPPFileReturned(LPVOID pParam,int iPad,int iUserData,LPVOID lpvData, WCHAR* wchFilename) +{ + C4JStorage::PTMSPP_FILEDATA pFileData=(C4JStorage::PTMSPP_FILEDATA)lpvData; +#else +int CMinecraftApp::TMSPPFileReturned(LPVOID pParam,int iPad,int iUserData,C4JStorage::PTMSPP_FILEDATA pFileData, LPCSTR szFilename) +{ +#endif + + CMinecraftApp* pClass = static_cast(pParam); + + // find the right one in the vector + EnterCriticalSection(&pClass->csTMSPPDownloadQueue); + for( TMSPPRequest *pCurrent : pClass->m_TMSPPDownloadQueue ) + { +#if defined(_XBOX) || defined(_WINDOWS64) + char szFile[MAX_TMSFILENAME_SIZE]; + wcstombs(szFile,pCurrent->wchFilename,MAX_TMSFILENAME_SIZE); + + + if(strcmp(szFilename,szFile)==0) +#elif _XBOX_ONE + if(wcscmp(wchFilename,pCurrent->wchFilename)==0) +#endif + { + // set this to retrieved whether it found it or not + pCurrent->eState=e_TMS_ContentState_Retrieved; + + if(pFileData!=nullptr) + { +#ifdef _XBOX_ONE + + + switch(pCurrent->eType) + { + case e_DLC_TexturePackData: + { + // 4J-PB - we need to allocate memory for the file data and copy into it, since the current data is a reference into the blob download memory + PBYTE pbData = new BYTE [pFileData->dwSize]; + memcpy(pbData,pFileData->pbData,pFileData->dwSize); + + pClass->m_vTMSPPData.push_back(pbData); + app.DebugPrintf("Got texturepack data\n"); + // get the config value for the texture pack + int iConfig=app.GetTPConfigVal(pCurrent->wchFilename); + app.AddMemoryTPDFile(iConfig, pbData, pFileData->dwSize); + } + break; + default: + // 4J-PB - check the data is an image + if(pFileData->pbData[0]==0x89) + { + // 4J-PB - we need to allocate memory for the file data and copy into it, since the current data is a reference into the blob download memory + PBYTE pbData = new BYTE [pFileData->dwSize]; + memcpy(pbData,pFileData->pbData,pFileData->dwSize); + + pClass->m_vTMSPPData.push_back(pbData); + app.DebugPrintf("Got image data - %ls\n",pCurrent->wchFilename); + app.AddMemoryTextureFile(pCurrent->wchFilename, pbData, pFileData->dwSize); + } + else + { + app.DebugPrintf("Got image data, but it's not a png - %ls\n",pCurrent->wchFilename); + } + break; + } + +#else + switch(pCurrent->eType) + { + case e_DLC_TexturePackData: + { + app.DebugPrintf("--- Got texturepack data %ls\n",pCurrent->wchFilename); + // get the config value for the texture pack + int iConfig=app.GetTPConfigVal(pCurrent->wchFilename); + app.AddMemoryTPDFile(iConfig, pFileData->pbData, pFileData->dwSize); + } + break; + default: + app.DebugPrintf("--- Got image data - %ls\n",pCurrent->wchFilename); + app.AddMemoryTextureFile(pCurrent->wchFilename, pFileData->pbData, pFileData->dwSize); + break; + } +#endif + } + else + { +#ifdef _XBOX_ONE + app.DebugPrintf("TMSImageReturned failed (%ls)...\n",wchFilename); +#else + app.DebugPrintf("TMSImageReturned failed (%s)...\n",szFilename); +#endif + } + break; + } + + } + LeaveCriticalSection(&pClass->csTMSPPDownloadQueue); + + return 0; +} +#endif + +bool CMinecraftApp::RetrieveNextTMSPPContent() +{ +#if defined _XBOX || defined _XBOX_ONE + // If there's already a retrieve in progress, quit + // we may have re-ordered the list, so need to check every item + + // is there a primary player and a network connection? + if(ProfileManager.GetPrimaryPad()==-1) return false; + + if(ProfileManager.IsSignedInLive(ProfileManager.GetPrimaryPad())==false) return false; + + for( TMSPPRequest *pCurrent : m_TMSPPDownloadQueue ) + { + TMSPPRequest *pCurrent = *it; + + if(pCurrent->eState==e_TMS_ContentState_Retrieving) + { + app.DebugPrintf("."); + LeaveCriticalSection(&csTMSPPDownloadQueue); + return true; + } + } + + // Now look for the next retrieval + for( TMSPPRequest *pCurrent : m_TMSPPDownloadQueue ) + { + TMSPPRequest *pCurrent = *it; + + if(pCurrent->eState==e_TMS_ContentState_Queued) + { + // 4J-PB - the file may be in the local TMS files, but try to retrieve it from the remote TMS in case it's been changed. If it's not in the list of TMS files, this will + // return right away with a ETMSStatus_Fail_ReadDetailsNotRetrieved +#ifdef _XBOX + char szFilename[MAX_TMSFILENAME_SIZE]; + wcstombs(szFilename,pCurrent->wchFilename,MAX_TMSFILENAME_SIZE); + + app.DebugPrintf("\nRetrieveNextTMSPPContent - type = %d, %s\n",pCurrent->eType,szFilename); + + C4JStorage::ETMSStatus status=StorageManager.TMSPP_ReadFile(ProfileManager.GetPrimaryPad(),pCurrent->eStorageFacility,pCurrent->eFileTypeVal,szFilename,pCurrent->CallbackFunc,this); + switch(status) + { + case C4JStorage::ETMSStatus_Pending: + pCurrent->eState=e_TMS_ContentState_Retrieving; + break; + case C4JStorage::ETMSStatus_Idle: + pCurrent->eState=e_TMS_ContentState_Retrieved; + break; + case C4JStorage::ETMSStatus_Fail_ReadInProgress: + case C4JStorage::ETMSStatus_ReadInProgress: + pCurrent->eState=e_TMS_ContentState_Retrieving; + if(pCurrent->eState==C4JStorage::ETMSStatus_Fail_ReadInProgress) + { + app.DebugPrintf("TMSPP_ReadFile failed - read in progress\n"); + Sleep(50); + LeaveCriticalSection(&csTMSPPDownloadQueue); + return false; + } + break; + default: + pCurrent->eState=e_TMS_ContentState_Retrieved; + break; + } +#else + eTitleStorageState status; + app.DebugPrintf("RetrieveNextTMSPPContent - type = %d, %ls\n",pCurrent->eType,pCurrent->wchFilename); + //eTitleStorageState status=StorageManager.TMSPP_ReadFile(ProfileManager.GetPrimaryPad(),pCurrent->eStorageFacility,pCurrent->eFileTypeVal,pCurrent->wchFilename,pCurrent->CallbackFunc,this,0); + if(0)//wcscmp(pCurrent->wchFilename,L"TP01.png")==0) + { + // TP01 fails because the blob size returned is bigger than the global metadata says it should be + status=eTitleStorage_readerror; + } + else + { + status=StorageManager.TMSPP_ReadFile(ProfileManager.GetPrimaryPad(),pCurrent->eStorageFacility,pCurrent->eFileTypeVal,pCurrent->wchFilename,pCurrent->CallbackFunc,this,0); + } + switch(status) + { + case eTitleStorage_pending: + pCurrent->eState=e_TMS_ContentState_Retrieving; + break; + case eTitleStorage_idle: + pCurrent->eState=e_TMS_ContentState_Retrieved; + break; + case eTitleStorage_busy: + // try again next time + { + app.DebugPrintf("@@@@@@@@@@@@@@@@@ TMSPP_ReadFile failed - busy (probably reading already)\n"); + Sleep(50); + LeaveCriticalSection(&csTMSPPDownloadQueue); + return false; + } + break; + default: + pCurrent->eState=e_TMS_ContentState_Retrieved; + break; + } +#endif + + + + LeaveCriticalSection(&csTMSPPDownloadQueue); + return true; + } + } + + LeaveCriticalSection(&csTMSPPDownloadQueue); + +#endif + return false; +} + +void CMinecraftApp::TickDLCOffersRetrieved() +{ + if(!m_bAllDLCContentRetrieved) + { + if (!app.RetrieveNextDLCContent()) + { + app.DebugPrintf("[Consoles_App] All content retrieved.\n"); + m_bAllDLCContentRetrieved=true; + } + } +} +void CMinecraftApp::ClearAndResetDLCDownloadQueue() +{ + app.DebugPrintf("[Consoles_App] Clear and reset download queue.\n"); + + int iPosition=0; + EnterCriticalSection(&csTMSPPDownloadQueue); + for( DLCRequest *pCurrent : m_DLCDownloadQueue ) + { + if ( pCurrent ) + delete pCurrent; + iPosition++; + } + m_DLCDownloadQueue.clear(); + m_bAllDLCContentRetrieved=true; + LeaveCriticalSection(&csTMSPPDownloadQueue); +} + +void CMinecraftApp::TickTMSPPFilesRetrieved() +{ + if(m_bTickTMSDLCFiles && !m_bAllTMSContentRetrieved) + { + if(app.RetrieveNextTMSPPContent()==false) + { + m_bAllTMSContentRetrieved=true; + } + } +} +void CMinecraftApp::ClearTMSPPFilesRetrieved() +{ + int iPosition=0; + EnterCriticalSection(&csTMSPPDownloadQueue); + for ( TMSPPRequest *pCurrent : m_TMSPPDownloadQueue ) + { + if ( pCurrent ) + delete pCurrent; + iPosition++; + } + m_TMSPPDownloadQueue.clear(); + m_bAllTMSContentRetrieved=true; + LeaveCriticalSection(&csTMSPPDownloadQueue); +} + +int CMinecraftApp::DLCOffersReturned(void *pParam, int iOfferC, DWORD dwType, int iPad) +{ + CMinecraftApp* pClass = static_cast(pParam); + + // find the right one in the vector + EnterCriticalSection(&pClass->csTMSPPDownloadQueue); + for( DLCRequest *pCurrent : pClass->m_DLCDownloadQueue ) + { + // avatar items are coming back as type Content, so we can't trust the type setting + if(pCurrent->dwType==dwType) + { + pClass->m_iDLCOfferC = iOfferC; + app.DebugPrintf("DLCOffersReturned - type %d, count %d - setting to retrieved\n",dwType,iOfferC); + pCurrent->eState=e_DLC_ContentState_Retrieved; + break; + } + } + LeaveCriticalSection(&pClass->csTMSPPDownloadQueue); + return 0; +} + +eDLCContentType CMinecraftApp::Find_eDLCContentType(DWORD dwType) +{ + for(int i=0;i(i); + } + } + return static_cast(0); +} +bool CMinecraftApp::DLCContentRetrieved(eDLCMarketplaceType eType) +{ + // If there's already a retrieve in progress, quit + // we may have re-ordered the list, so need to check every item + EnterCriticalSection(&csDLCDownloadQueue); + for( DLCRequest *pCurrent : m_DLCDownloadQueue ) + { + if((pCurrent->dwType==m_dwContentTypeA[eType]) && (pCurrent->eState==e_DLC_ContentState_Retrieved)) + { + LeaveCriticalSection(&csDLCDownloadQueue); + return true; + } + } + LeaveCriticalSection(&csDLCDownloadQueue); + return false; +} + +void CMinecraftApp::SetAdditionalSkinBoxes(DWORD dwSkinID, SKIN_BOX *SkinBoxA, DWORD dwSkinBoxC) +{ + +} + +vector * CMinecraftApp::SetAdditionalSkinBoxes(DWORD dwSkinID, vector *pvSkinBoxA) +{ + vector *pvModelPart = new vector; + return pvModelPart; +} + + +vector *CMinecraftApp::GetAdditionalModelParts(DWORD dwSkinID) +{ + EnterCriticalSection( &csAdditionalModelParts ); + vector *pvModelParts=nullptr; + if(m_AdditionalModelParts.size()>0) + { + auto it = m_AdditionalModelParts.find(dwSkinID); + if(it!=m_AdditionalModelParts.end()) + { + pvModelParts = (*it).second; + } + } + + LeaveCriticalSection( &csAdditionalModelParts ); + return pvModelParts; +} + +vector *CMinecraftApp::GetAdditionalSkinBoxes(DWORD dwSkinID) +{ + EnterCriticalSection( &csAdditionalSkinBoxes ); + vector *pvSkinBoxes=nullptr; + if(m_AdditionalSkinBoxes.size()>0) + { + auto it = m_AdditionalSkinBoxes.find(dwSkinID); + if(it!=m_AdditionalSkinBoxes.end()) + { + pvSkinBoxes = (*it).second; + } + } + + LeaveCriticalSection( &csAdditionalSkinBoxes ); + return pvSkinBoxes; +} + +unsigned int CMinecraftApp::GetAnimOverrideBitmask(DWORD dwSkinID) +{ + EnterCriticalSection( &csAnimOverrideBitmask ); + unsigned int uiAnimOverrideBitmask=0L; + + if(m_AnimOverrides.size()>0) + { + auto it = m_AnimOverrides.find(dwSkinID); + if(it!=m_AnimOverrides.end()) + { + uiAnimOverrideBitmask = (*it).second; + } + } + + LeaveCriticalSection( &csAnimOverrideBitmask ); + return uiAnimOverrideBitmask; +} + +void CMinecraftApp::SetAnimOverrideBitmask(DWORD dwSkinID,unsigned int uiAnimOverrideBitmask) +{ + // Make thread safe + EnterCriticalSection( &csAnimOverrideBitmask ); + + if(m_AnimOverrides.size()>0) + { + auto it = m_AnimOverrides.find(dwSkinID); + if(it!=m_AnimOverrides.end()) + { + LeaveCriticalSection( &csAnimOverrideBitmask ); + return; // already in here + } + } + m_AnimOverrides.insert( std::pair(dwSkinID, uiAnimOverrideBitmask) ); + LeaveCriticalSection( &csAnimOverrideBitmask ); +} + +DWORD CMinecraftApp::getSkinIdFromPath(const wstring &skin) +{ + bool dlcSkin = false; + unsigned int skinId = 0; + + if(skin.size() >= 14) + { + dlcSkin = skin.substr(0,3).compare(L"dlc") == 0; + + wstring skinValue = skin.substr(7,skin.size()); + skinValue = skinValue.substr(0,skinValue.find_first_of(L'.')); + + std::wstringstream ss; + // 4J Stu - dlc skins are numbered using decimal to make it easier for artists/people to number manually + // Everything else is numbered using hex + if(dlcSkin) + ss << std::dec << skinValue.c_str(); + else + ss << std::hex << skinValue.c_str(); + ss >> skinId; + + skinId = MAKE_SKIN_BITMASK(dlcSkin, skinId); + } + return skinId; +} + +wstring CMinecraftApp::getSkinPathFromId(DWORD skinId) +{ + // 4J Stu - This function maps the encoded DWORD we store in the player profile + // to a filename that is stored as a memory texture and shared between systems in game + wchar_t chars[256]; + if( GET_IS_DLC_SKIN_FROM_BITMASK(skinId) ) + { + // 4J Stu - DLC skins are numbered using decimal rather than hex to make it easier to number manually + swprintf(chars, 256, L"dlcskin%08d.png", GET_DLC_SKIN_ID_FROM_BITMASK(skinId)); + + } + else + { + DWORD ugcSkinIndex = GET_UGC_SKIN_ID_FROM_BITMASK(skinId); + DWORD defaultSkinIndex = GET_DEFAULT_SKIN_ID_FROM_BITMASK(skinId); + if( ugcSkinIndex == 0 ) + { + swprintf(chars, 256, L"defskin%08X.png",defaultSkinIndex); + } + else + { + swprintf(chars, 256, L"ugcskin%08X.png",ugcSkinIndex); + } + } + return chars; +} + + +int CMinecraftApp::TexturePackDialogReturned(void* pParam, int iPad, C4JStorage::EMessageResult result) +{ + +#if defined __PSVITA__ || defined __PS3__ || defined __ORBIS__ + if (result == C4JStorage::EMessage_ResultAccept) + { + Minecraft* pMinecraft = Minecraft::GetInstance(); + if (pMinecraft->skins->selectTexturePackById(app.GetRequiredTexturePackID())) + { + // it's been installed already + } + else + { + // we need to enable background downloading for the DLC + XBackgroundDownloadSetMode(XBACKGROUND_DOWNLOAD_MODE_ALWAYS_ALLOW); + + SONYDLC* pSONYDLCInfo = app.GetSONYDLCInfo(app.GetRequiredTexturePackID()); + if (pSONYDLCInfo != nullptr) + { + char chName[42]; + char chKeyName[20]; + char chSkuID[SCE_NP_COMMERCE2_SKU_ID_LEN]; + + memset(chSkuID, 0, SCE_NP_COMMERCE2_SKU_ID_LEN); + + memset(chKeyName, 0, sizeof(chKeyName)); + strncpy(chKeyName, pSONYDLCInfo->chDLCKeyname, 16); + + #ifdef __ORBIS__ + strcpy(chName, chKeyName); + #else + sprintf(chName, "%s-%s", app.GetCommerceCategory(), chKeyName); + #endif + + app.GetDLCSkuIDFromProductList(chName, chSkuID); + + if (app.CheckForEmptyStore(iPad) == false) + { + if (app.DLCAlreadyPurchased(chSkuID)) + { + app.DownloadAlreadyPurchased(chSkuID); + } + else + { + app.Checkout(chSkuID); + } + } + } + } + } + else + { + app.DebugPrintf("Continuing without installing texture pack\n"); + } +#endif + +#ifdef _XBOX + if (result != C4JStorage::EMessage_Cancelled) + { + if (app.GetRequiredTexturePackID() != 0) + { + XBackgroundDownloadSetMode(XBACKGROUND_DOWNLOAD_MODE_ALWAYS_ALLOW); + + ULONGLONG ullOfferID_Full; + ULONGLONG ullIndexA[1]; + app.GetDLCFullOfferIDForPackID(app.GetRequiredTexturePackID(), &ullOfferID_Full); + + if (result == C4JStorage::EMessage_ResultAccept) + { + ullIndexA[0] = ullOfferID_Full; + StorageManager.InstallOffer(1, ullIndexA, nullptr, nullptr); + } + else + { + DLC_INFO* pDLCInfo = app.GetDLCInfoForFullOfferID(ullOfferID_Full); + ullIndexA[0] = pDLCInfo->ullOfferID_Trial; + StorageManager.InstallOffer(1, ullIndexA, nullptr, nullptr); + } + } + } +#endif + return 0; +} +int CMinecraftApp::getArchiveFileSize(const wstring &filename) +{ + TexturePack *tPack = nullptr; + Minecraft *pMinecraft = Minecraft::GetInstance(); + if(pMinecraft && pMinecraft->skins) tPack = pMinecraft->skins->getSelected(); + if(tPack && tPack->hasData() && tPack->getArchiveFile() && tPack->getArchiveFile()->hasFile(filename)) + { + return tPack->getArchiveFile()->getFileSize(filename); + } + else return m_mediaArchive->getFileSize(filename); +} + +bool CMinecraftApp::hasArchiveFile(const wstring &filename) +{ + TexturePack *tPack = nullptr; + Minecraft *pMinecraft = Minecraft::GetInstance(); + if(pMinecraft && pMinecraft->skins) tPack = pMinecraft->skins->getSelected(); + if(tPack && tPack->hasData() && tPack->getArchiveFile() && tPack->getArchiveFile()->hasFile(filename)) return true; + else return m_mediaArchive->hasFile(filename); +} + +byteArray CMinecraftApp::getArchiveFile(const wstring &filename) +{ + TexturePack *tPack = nullptr; + Minecraft *pMinecraft = Minecraft::GetInstance(); + if(pMinecraft && pMinecraft->skins) tPack = pMinecraft->skins->getSelected(); + if(tPack && tPack->hasData() && tPack->getArchiveFile() && tPack->getArchiveFile()->hasFile(filename)) + { + return tPack->getArchiveFile()->getFile(filename); + } + else return m_mediaArchive->getFile(filename); +} + +// DLC + +#if defined(__PS3__) || defined(__ORBIS__) || defined (__PSVITA__) +int CMinecraftApp::GetDLCInfoCount() +{ + return (int)DLCInfo.size(); +} +#elif defined _XBOX_ONE +int CMinecraftApp::GetDLCInfoTrialOffersCount() +{ + return 0; +} + +int CMinecraftApp::GetDLCInfoFullOffersCount() +{ + return (int)DLCInfo_Full.size(); +} +#else +int CMinecraftApp::GetDLCInfoTrialOffersCount() +{ + return static_cast(DLCInfo_Trial.size()); +} + +int CMinecraftApp::GetDLCInfoFullOffersCount() +{ + return static_cast(DLCInfo_Full.size()); +} +#endif + +int CMinecraftApp::GetDLCInfoTexturesOffersCount() +{ + return static_cast(DLCTextures_PackID.size()); +} + +// AUTOSAVE +void CMinecraftApp::SetAutosaveTimerTime(void) +{ +#if defined(_XBOX_ONE) || defined(__ORBIS__) + m_uiAutosaveTimer= GetTickCount()+1000*60; +#else + m_uiAutosaveTimer= GetTickCount()+GetGameSettings(ProfileManager.GetPrimaryPad(),eGameSetting_Autosave)*1000*60*15; +#endif +}// value x 15 to get mins, x60 for secs + +bool CMinecraftApp::AutosaveDue(void) +{ + return (GetTickCount()>m_uiAutosaveTimer); +} + +unsigned int CMinecraftApp::SecondsToAutosave() +{ + return (m_uiAutosaveTimer - GetTickCount() ) / 1000; +} + +void CMinecraftApp::SetTrialTimerStart(void) +{ + m_fTrialTimerStart=m_Time.fAppTime; mfTrialPausedTime=0.0f; +} + +float CMinecraftApp::getTrialTimer(void) +{ + return m_Time.fAppTime-m_fTrialTimerStart-mfTrialPausedTime; +} + +bool CMinecraftApp::IsLocalMultiplayerAvailable() +{ + DWORD connectedControllers = 0; + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + if( InputManager.IsPadConnected(i) || ProfileManager.IsSignedIn(i) ) ++connectedControllers; + } + +#ifdef _WINDOWS64 + bool available = connectedControllers > 1; +#else + bool available = RenderManager.IsHiDef() && connectedControllers > 1; +#endif + +#ifdef __ORBIS__ + // Check for remote play + available = available && InputManager.IsLocalMultiplayerAvailable(); +#endif + + return available; + + // Found this in GameNetworkManager? + //#ifdef _DURANGO + // iOtherConnectedControllers = InputManager.GetConnectedGamepadCount(); + // if((InputManager.IsPadConnected(userIndex) || ProfileManager.IsSignedIn(userIndex))) + // { + // --iOtherConnectedControllers; + // } + //#else + // for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + // { + // if( (i!=userIndex) && (InputManager.IsPadConnected(i) || ProfileManager.IsSignedIn(i)) ) + // { + // iOtherConnectedControllers++; + // } + // } + //#endif +} + + +// 4J-PB - language and locale function + +void CMinecraftApp::getLocale(vector &vecWstrLocales) +{ + vector locales; + + DWORD dwSystemLanguage = XGetLanguage( ); + + // 4J-PB - restrict the 360 language until we're ready to have them in + +#ifdef _XBOX + switch(dwSystemLanguage) + { + case XC_LANGUAGE_FRENCH : + locales.push_back(eMCLang_frFR); + break; + case XC_LANGUAGE_ITALIAN : + locales.push_back(eMCLang_itIT); + break; + case XC_LANGUAGE_GERMAN : + locales.push_back(eMCLang_deDE); + break; + case XC_LANGUAGE_SPANISH : + locales.push_back(eMCLang_esES); + break; + case XC_LANGUAGE_PORTUGUESE : + if(XGetLocale()==XC_LOCALE_BRAZIL) + { + locales.push_back(eMCLang_ptBR); + } + locales.push_back(eMCLang_ptPT); + break; + case XC_LANGUAGE_JAPANESE : + locales.push_back(eMCLang_jaJP); + break; + case XC_LANGUAGE_KOREAN : + locales.push_back(eMCLang_koKR); + break; + case XC_LANGUAGE_TCHINESE : + locales.push_back(eMCLang_zhCHT); + break; + } +#else + switch(dwSystemLanguage) + { + + case XC_LANGUAGE_ENGLISH: + switch(XGetLocale()) + { + case XC_LOCALE_AUSTRALIA: + case XC_LOCALE_CANADA: + case XC_LOCALE_CZECH_REPUBLIC: + case XC_LOCALE_GREECE: + case XC_LOCALE_HONG_KONG: + case XC_LOCALE_HUNGARY: + case XC_LOCALE_INDIA: + case XC_LOCALE_IRELAND: + case XC_LOCALE_ISRAEL: + case XC_LOCALE_NEW_ZEALAND: + case XC_LOCALE_SAUDI_ARABIA: + case XC_LOCALE_SINGAPORE: + case XC_LOCALE_SLOVAK_REPUBLIC: + case XC_LOCALE_SOUTH_AFRICA: + case XC_LOCALE_UNITED_ARAB_EMIRATES: + case XC_LOCALE_GREAT_BRITAIN: + locales.push_back(eMCLang_enGB); + break; + default: //XC_LOCALE_UNITED_STATES + break; + } + break; + case XC_LANGUAGE_JAPANESE : + locales.push_back(eMCLang_jaJP); + break; + case XC_LANGUAGE_GERMAN : + switch(XGetLocale()) + { + case XC_LOCALE_AUSTRIA: + locales.push_back(eMCLang_deAT); + break; + case XC_LOCALE_SWITZERLAND: + locales.push_back(eMCLang_deCH); + break; + default:// XC_LOCALE_GERMANY: + break; + } + locales.push_back(eMCLang_deDE); + break; + case XC_LANGUAGE_FRENCH : + switch(XGetLocale()) + { + case XC_LOCALE_BELGIUM: + locales.push_back(eMCLang_frBE); + break; + case XC_LOCALE_CANADA: + locales.push_back(eMCLang_frCA); + break; + case XC_LOCALE_SWITZERLAND: + locales.push_back(eMCLang_frCH); + break; + default:// XC_LOCALE_FRANCE: + break; + } + locales.push_back(eMCLang_frFR); + break; + case XC_LANGUAGE_SPANISH : + switch(XGetLocale()) + { + case XC_LOCALE_MEXICO: + case XC_LOCALE_ARGENTINA: + case XC_LOCALE_CHILE: + case XC_LOCALE_COLOMBIA: + case XC_LOCALE_UNITED_STATES: + case XC_LOCALE_LATIN_AMERICA: + locales.push_back(eMCLang_laLAS); + locales.push_back(eMCLang_esMX); + break; + default://XC_LOCALE_SPAIN + break; + } + locales.push_back(eMCLang_esES); + break; + case XC_LANGUAGE_ITALIAN : + locales.push_back(eMCLang_itIT); + break; + case XC_LANGUAGE_KOREAN : + locales.push_back(eMCLang_koKR); + break; + case XC_LANGUAGE_TCHINESE : + switch(XGetLocale()) + { + case XC_LOCALE_HONG_KONG: + locales.push_back(eMCLang_zhHK); + locales.push_back(eMCLang_zhTW); + break; + case XC_LOCALE_TAIWAN: + locales.push_back(eMCLang_zhTW); + locales.push_back(eMCLang_zhHK); + default: + break; + } + locales.push_back(eMCLang_hant); + locales.push_back(eMCLang_zhCHT); + break; + case XC_LANGUAGE_PORTUGUESE : + if(XGetLocale()==XC_LOCALE_BRAZIL) + { + locales.push_back(eMCLang_ptBR); + } + locales.push_back(eMCLang_ptPT); + break; + case XC_LANGUAGE_POLISH : + locales.push_back(eMCLang_plPL); + break; + case XC_LANGUAGE_RUSSIAN : + locales.push_back(eMCLang_ruRU); + break; + case XC_LANGUAGE_SWEDISH : + locales.push_back(eMCLang_svSV); + locales.push_back(eMCLang_svSE); + break; + case XC_LANGUAGE_TURKISH : + locales.push_back(eMCLang_trTR); + break; + case XC_LANGUAGE_BNORWEGIAN : + locales.push_back(eMCLang_nbNO); + locales.push_back(eMCLang_noNO); + locales.push_back(eMCLang_nnNO); + break; + case XC_LANGUAGE_DUTCH : + switch(XGetLocale()) + { + case XC_LOCALE_BELGIUM: + locales.push_back(eMCLang_nlBE); + break; + default: + break; + } + locales.push_back(eMCLang_nlNL); + break; + case XC_LANGUAGE_SCHINESE : + switch(XGetLocale()) + { + case XC_LOCALE_SINGAPORE: + locales.push_back(eMCLang_zhSG); + break; + default: + break; + } + locales.push_back(eMCLang_hans); + locales.push_back(eMCLang_csCS); + locales.push_back(eMCLang_zhCN); + break; + +#if defined __PS3__ || defined __ORBIS__ || defined __PSVITA__ || defined _DURANGO + case XC_LANGUAGE_DANISH: + locales.push_back(eMCLang_daDA); + locales.push_back(eMCLang_daDK); + break; + + case XC_LANGUAGE_FINISH : + locales.push_back(eMCLang_fiFI); + break; + + case XC_LANGUAGE_CZECH : + locales.push_back(eMCLang_csCZ); + locales.push_back(eMCLang_enCZ); + break; + + case XC_LANGUAGE_SLOVAK : + locales.push_back(eMCLang_skSK); + locales.push_back(eMCLang_enSK); + break; + + case XC_LANGUAGE_GREEK : + locales.push_back(eMCLang_elEL); + locales.push_back(eMCLang_elGR); + locales.push_back(eMCLang_enGR); + locales.push_back(eMCLang_enGB); + break; +#endif + } +#endif + + locales.push_back(eMCLang_enUS); + locales.push_back(eMCLang_null); + + for (size_t i=0; i +#include ".\Tutorial\TutorialEnum.h" + +#ifdef _XBOX +#include ".\XUI\XUI_Helper.h" +#include ".\XUI\XUI_HelpCredits.h" +#endif + +#include "..\..\Minecraft.World\DisconnectPacket.h" +#include + +#include "..\StringTable.h" +#include ".\DLC\DLCManager.h" +#include ".\GameRules\ConsoleGameRulesConstants.h" +#include ".\GameRules\GameRuleManager.h" +#include "..\SkinBox.h" +#include "..\ArchiveFile.h" + +typedef struct _JoinFromInviteData +{ + DWORD dwUserIndex; // dwUserIndex + DWORD dwLocalUsersMask; // dwUserMask + const INVITE_INFO *pInviteInfo; // pInviteInfo +} +JoinFromInviteData; + +class Player; +class Inventory; +class Level; +class FurnaceTileEntity; +class Container; +class DispenserTileEntity; +class SignTileEntity; +class BrewingStandTileEntity; +class CommandBlockEntity; +class HopperTileEntity; +class MinecartHopper; +class EntityHorse; +class BeaconTileEntity; +class LocalPlayer; +class DLCPack; +class LevelRuleset; +class ConsoleSchematicFile; +class Model; +class ModelPart; +class StringTable; +class Merchant; + +class CMinecraftAudio; + +class CMinecraftApp + +#ifdef _XBOX + : public CXuiModule +#endif +{ +private: + static int s_iHTMLFontSizesA[eHTMLSize_COUNT]; + +public: + + CMinecraftApp(); + + static const float fSafeZoneX; // 5% of 1280 + static const float fSafeZoneY; // 5% of 720 + + typedef std::vector VMEMFILES; + typedef std::vector VNOTIFICATIONS; + + // storing skin files + std::vector vSkinNames; + DLCManager m_dlcManager; + + // storing credits text from the DLC + std::vector m_vCreditText; // hold the credit text lines so we can avoid duplicating them + + + // In builds prior to TU5, the size of the GAME_SETTINGS struct was 204 bytes. We added a few new values to the internal struct in TU5, and even though we + // changed the size of the ucUnused array to be decreased by the size of the values we added, the packing of the struct has introduced some extra + // padding that resulted in the GAME_SETTINGS struct being 208 bytes. The knock-on effect from this was that all the stats, which come after the game settings + // in the profile data, we being read offset by 4 bytes. We need to ensure that the GAME_SETTINGS struct does not grow larger than 204 bytes or if we need it + // to then we need to rebuild the profile data completely and increase the profile version. There should be enough free space to grow larger for a few more updates + // as long as we take into account the padding issues and check that settings are still stored at the same positions when we read them + static const int GAME_SETTINGS_PROFILE_DATA_BYTES = 204; + +#ifdef _EXTENDED_ACHIEVEMENTS + /* 4J-JEV: + * We need more space in the profile data because of the new achievements and statistics + * necessary for the new expanded achievement set. + */ + static const int GAME_DEFINED_PROFILE_DATA_BYTES = 2*972; // per user +#else + static const int GAME_DEFINED_PROFILE_DATA_BYTES = 972; // per user +#endif + unsigned int uiGameDefinedDataChangedBitmask; + + void DebugPrintf(const char *szFormat, ...); + void DebugPrintfVerbose(bool bVerbose, const char *szFormat, ...); // Conditional printf + void DebugPrintf(int user, const char *szFormat, ...); + + static const int USER_NONE = 0; // disables printf + static const int USER_GENERAL = 1; + static const int USER_JV = 2; + static const int USER_MH = 3; + static const int USER_PB = 4; + static const int USER_RR = 5; + static const int USER_SR = 6; + static const int USER_UI = 7; // 4J Stu - This also makes it appear on the UI console + + void HandleButtonPresses(); + bool IntroRunning() { return m_bIntroRunning;} + void SetIntroRunning(bool bSet) {m_bIntroRunning=bSet;} +#ifdef _CONTENT_PACKAGE +#ifndef _FINAL_BUILD + bool PartnernetPasswordRunning() { return m_bPartnernetPasswordRunning;} + void SetPartnernetPasswordRunning(bool bSet) {m_bPartnernetPasswordRunning=bSet;} +#endif +#endif + + bool IsAppPaused(); + void SetAppPaused(bool val); + static int DisplaySavingMessage(LPVOID pParam,const C4JStorage::ESavingMessage eMsg, int iPad); + bool GetGameStarted() {return m_bGameStarted;} + void SetGameStarted(bool bVal) { if(bVal) DebugPrintf("SetGameStarted - true\n"); else DebugPrintf("SetGameStarted - false\n"); m_bGameStarted = bVal; m_bIsAppPaused = !bVal;} + int GetLocalPlayerCount(void); + bool LoadInventoryMenu(int iPad,shared_ptr player, bool bNavigateBack=false); + bool LoadCreativeMenu(int iPad,shared_ptr player,bool bNavigateBack=false); + bool LoadEnchantingMenu(int iPad,shared_ptr inventory, int x, int y, int z, Level *level, const wstring &name); + bool LoadFurnaceMenu(int iPad,shared_ptr inventory, shared_ptr furnace); + bool LoadBrewingStandMenu(int iPad,shared_ptr inventory, shared_ptr brewingStand); + bool LoadContainerMenu(int iPad,shared_ptr inventory, shared_ptr container); + bool LoadTrapMenu(int iPad,shared_ptr inventory, shared_ptr trap); + bool LoadCrafting2x2Menu(int iPad,shared_ptr player); + bool LoadCrafting3x3Menu(int iPad,shared_ptr player, int x, int y, int z); + bool LoadFireworksMenu(int iPad,shared_ptr player, int x, int y, int z); + bool LoadSignEntryMenu(int iPad,shared_ptr sign); + bool LoadRepairingMenu(int iPad,shared_ptr inventory, Level *level, int x, int y, int z); + bool LoadTradingMenu(int iPad, shared_ptr inventory, shared_ptr trader, Level *level, const wstring &name); + + bool LoadCommandBlockMenu(int iPad, shared_ptr commandBlock) { return false; } + bool LoadHopperMenu(int iPad ,shared_ptr inventory, shared_ptr hopper); + bool LoadHopperMenu(int iPad ,shared_ptr inventory, shared_ptr hopper); + bool LoadHorseMenu(int iPad ,shared_ptr inventory, shared_ptr container, shared_ptr horse); + bool LoadBeaconMenu(int iPad ,shared_ptr inventory, shared_ptr beacon); + + bool GetTutorialMode() { return m_bTutorialMode;} + void SetTutorialMode(bool bSet) {m_bTutorialMode=bSet;} + + void SetSpecialTutorialCompletionFlag(int iPad, int index); + + static LPCWSTR GetString(int iID); + + eGameMode GetGameMode() { return m_eGameMode;} + void SetGameMode(eGameMode eMode) { m_eGameMode=eMode;} + + eXuiAction GetGlobalXuiAction() {return m_eGlobalXuiAction;} + void SetGlobalXuiAction(eXuiAction action) {m_eGlobalXuiAction=action;} + eXuiAction GetXuiAction(int iPad) {return m_eXuiAction[iPad];} + void SetAction(int iPad, eXuiAction action, LPVOID param = nullptr); + void SetTMSAction(int iPad, eTMSAction action) { m_eTMSAction[iPad] = action; } + eTMSAction GetTMSAction(int iPad) {return m_eTMSAction[iPad];} + eXuiServerAction GetXuiServerAction(int iPad) {return m_eXuiServerAction[iPad];} + LPVOID GetXuiServerActionParam(int iPad) {return m_eXuiServerActionParam[iPad];} + void SetXuiServerAction(int iPad, eXuiServerAction action, LPVOID param = nullptr) {m_eXuiServerAction[iPad]=action; m_eXuiServerActionParam[iPad] = param;} + eXuiServerAction GetGlobalXuiServerAction() {return m_eGlobalXuiServerAction;} + void SetGlobalXuiServerAction(eXuiServerAction action) {m_eGlobalXuiServerAction=action;} + + DisconnectPacket::eDisconnectReason GetDisconnectReason() { return m_disconnectReason; } + void SetDisconnectReason(DisconnectPacket::eDisconnectReason bVal) { m_disconnectReason = bVal; } + + bool GetChangingSessionType() { return m_bChangingSessionType; } + void SetChangingSessionType(bool bVal) { m_bChangingSessionType = bVal; } + + bool GetReallyChangingSessionType() { return m_bReallyChangingSessionType; } + void SetReallyChangingSessionType(bool bVal) { m_bReallyChangingSessionType = bVal; } + + + // 4J Stu - Added so that we can call this when a confirmation box is selected + static void SetActionConfirmed(LPVOID param); + void HandleXuiActions(void); + + // 4J Stu - Functions used for Minecon and other promo work + bool GetLoadSavesFromFolderEnabled() { return m_bLoadSavesFromFolderEnabled; } + void SetLoadSavesFromFolderEnabled(bool bVal) { m_bLoadSavesFromFolderEnabled = bVal; } + + // 4J Stu - Useful for debugging + bool GetWriteSavesToFolderEnabled() { return m_bWriteSavesToFolderEnabled; } + void SetWriteSavesToFolderEnabled(bool bVal) { m_bWriteSavesToFolderEnabled = bVal; } + bool GetMobsDontAttackEnabled() { return m_bMobsDontAttack; } + void SetMobsDontAttackEnabled(bool bVal) { m_bMobsDontAttack = bVal; } + bool GetUseDPadForDebug() { return m_bUseDPadForDebug; } + void SetUseDPadForDebug(bool bVal) { m_bUseDPadForDebug = bVal; } + bool GetMobsDontTickEnabled() { return m_bMobsDontTick; } + void SetMobsDontTickEnabled(bool bVal) { m_bMobsDontTick = bVal; } + + bool GetFreezePlayers() { return m_bFreezePlayers; } + void SetFreezePlayers(bool bVal) { m_bFreezePlayers = bVal; } + + // debug -0 show safe area + void ShowSafeArea(BOOL bShow) + { +#ifdef _XBOX + CXuiSceneBase::ShowSafeArea( bShow ); +#endif + } + // 4J-PB - to capture the social post screenshot + virtual void CaptureScreenshot(int iPad) {}; + //void GetPreviewImage(int iPad,XSOCIAL_PREVIEWIMAGE *preview); + + void InitGameSettings(); + static int OldProfileVersionCallback(LPVOID pParam,unsigned char *pucData, const unsigned short usVersion, const int iPad); + +#if ( defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__ ) + wstring toStringOptionsStatus(const C4JStorage::eOptionsCallback &eStatus); + static int DefaultOptionsCallback(LPVOID pParam,C4JStorage::PROFILESETTINGS *pSettings, const int iPad); + int SetDefaultOptions(C4JStorage::PROFILESETTINGS *pSettings,const int iPad,bool bWriteProfile=true); +#ifdef __ORBIS__ + static int OptionsDataCallback(LPVOID pParam,int iPad,unsigned short usVersion,C4JStorage::eOptionsCallback eStatus,int iBlocksRequired); + int GetOptionsBlocksRequired(int iPad); +#else + static int OptionsDataCallback(LPVOID pParam,int iPad,unsigned short usVersion,C4JStorage::eOptionsCallback eStatus); +#endif + + C4JStorage::eOptionsCallback GetOptionsCallbackStatus(int iPad); + + void SetOptionsCallbackStatus(int iPad, C4JStorage::eOptionsCallback eStatus); +#else + static int DefaultOptionsCallback(LPVOID pParam,C_4JProfile::PROFILESETTINGS *pSettings, const int iPad); + int SetDefaultOptions(C_4JProfile::PROFILESETTINGS *pSettings,const int iPad); +#endif + virtual void SetRichPresenceContext(int iPad, int contextId) = 0; + + + void SetGameSettings(int iPad,eGameSetting eVal,unsigned char ucVal); + unsigned char GetGameSettings(int iPad,eGameSetting eVal); + unsigned char GetGameSettings(eGameSetting eVal); // for the primary pad + void SetPlayerSkin(int iPad,const wstring &name); + void SetPlayerSkin(int iPad,DWORD dwSkinId); + void SetPlayerCape(int iPad,const wstring &name); + void SetPlayerCape(int iPad,DWORD dwCapeId); + void SetPlayerFavoriteSkin(int iPad, int iIndex,unsigned int uiSkinID); + unsigned int GetPlayerFavoriteSkin(int iPad,int iIndex); + unsigned char GetPlayerFavoriteSkinsPos(int iPad); + void SetPlayerFavoriteSkinsPos(int iPad,int iPos); + unsigned int GetPlayerFavoriteSkinsCount(int iPad); + void ValidateFavoriteSkins(int iPad); // check the DLC is available for the skins + + // Mash-up pack worlds hide/display + void HideMashupPackWorld(int iPad, unsigned int iMashupPackID); + void EnableMashupPackWorlds(int iPad); + unsigned int GetMashupPackWorlds(int iPad); + + // Minecraft language select + void SetMinecraftLanguage(int iPad, unsigned char ucLanguage); + unsigned char GetMinecraftLanguage(int iPad); + void SetMinecraftLocale(int iPad, unsigned char ucLanguage); + unsigned char GetMinecraftLocale(int iPad); + + // 4J-PB - set a timer when the user navigates the quickselect, so we can bring the opacity back to defaults for a short time + unsigned int GetOpacityTimer(int iPad) { return m_uiOpacityCountDown[iPad]; } + void SetOpacityTimer(int iPad) { m_uiOpacityCountDown[iPad]=120; } // 6 seconds + void TickOpacityTimer(int iPad) { if(m_uiOpacityCountDown[iPad]>0) m_uiOpacityCountDown[iPad]--;} + +public: + wstring GetPlayerSkinName(int iPad); + DWORD GetPlayerSkinId(int iPad); + wstring GetPlayerCapeName(int iPad); + DWORD GetPlayerCapeId(int iPad); + DWORD GetAdditionalModelParts(int iPad); + void CheckGameSettingsChanged(bool bOverride5MinuteTimer=false, int iPad=XUSER_INDEX_ANY); + void ApplyGameSettingsChanged(int iPad); + void ClearGameSettingsChangedFlag(int iPad); + void ActionGameSettings(int iPad,eGameSetting eVal); + unsigned int GetGameSettingsDebugMask(int iPad=-1,bool bOverridePlayer=false); + void SetGameSettingsDebugMask(int iPad, unsigned int uiVal); + void ActionDebugMask(int iPad, bool bSetAllClear=false); + + // + bool IsLocalMultiplayerAvailable(); + + // for sign in change monitoring + static void SignInChangeCallback(LPVOID pParam, bool bVal, unsigned int uiSignInData); + static void ClearSignInChangeUsersMask(); + static int SignoutExitWorldThreadProc( void* lpParameter ); + static int PrimaryPlayerSignedOutReturned(void *pParam, int iPad, const C4JStorage::EMessageResult); + static int EthernetDisconnectReturned(void *pParam, int iPad, const C4JStorage::EMessageResult); + static void ProfileReadErrorCallback(void *pParam); + + // FATAL LOAD ERRORS + virtual void FatalLoadError(); + + // Notifications from the game listener to be passed to the qnet listener + static void NotificationsCallback(LPVOID pParam,DWORD dwNotification, unsigned int uiParam); + + // for the ethernet being disconnected + static void LiveLinkChangeCallback(LPVOID pParam,BOOL bConnected); + bool GetLiveLinkRequired() {return m_bLiveLinkRequired;} + void SetLiveLinkRequired(bool required) {m_bLiveLinkRequired=required;} + + static void UpsellReturnedCallback(LPVOID pParam, eUpsellType type, eUpsellResponse result, int iUserData); + +#if defined __PS3__ || defined __PSVITA__ || defined __ORBIS__ + static int NowDisplayFullVersionPurchase(void *pParam, bool bContinue, int iPad); + static int MustSignInFullVersionPurchaseReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); +#endif +#if defined __PS3__ || defined __PSVITA__ || defined __ORBIS__ + static int MustSignInFullVersionPurchaseReturnedExitTrial(void *pParam,int iPad,C4JStorage::EMessageResult result); +#endif + +#ifdef _DEBUG_MENUS_ENABLED + bool DebugSettingsOn() { return m_bDebugOptions;} + bool DebugArtToolsOn(); +#else + bool DebugSettingsOn() { return false;} + bool DebugArtToolsOn() { return false;} +#endif + void SetDebugSequence(const char *pchSeq); + static int DebugInputCallback(LPVOID pParam); + //bool UploadFileToGlobalStorage(int iQuadrant, C4JStorage::eGlobalStorage eStorageFacility, wstring *wsFile ); + + // Installed DLC + bool StartInstallDLCProcess(int iPad); + static int DLCInstalledCallback(LPVOID pParam,int iOfferC,int iPad); + void HandleDLCLicenseChange(); + static int DLCMountedCallback(LPVOID pParam,int iPad,DWORD dwErr,DWORD dwLicenceMask); + void MountNextDLC(int iPad); + //static int DLCReadCallback(LPVOID pParam,C4JStorage::DLC_FILE_DETAILS *pDLCData); + void HandleDLC(DLCPack *pack); + bool DLCInstallPending() {return m_bDLCInstallPending;} + bool DLCInstallProcessCompleted() {return m_bDLCInstallProcessCompleted;} + void ClearDLCInstalled() { m_bDLCInstallProcessCompleted=false;} + static int MarketplaceCountsCallback(LPVOID pParam,C4JStorage::DLC_TMS_DETAILS *,int iPad); + + bool AlreadySeenCreditText(const wstring &wstemp); + + void ClearNewDLCAvailable(void) { m_bNewDLCAvailable=false; m_bSeenNewDLCTip=true;} + bool GetNewDLCAvailable() { return m_bNewDLCAvailable;} + void DisplayNewDLCTipAgain() { m_bSeenNewDLCTip=false;} + bool DisplayNewDLCTip() { if(!m_bSeenNewDLCTip) { m_bSeenNewDLCTip=true; return true;} else return false;} + + // functions to store launch data, and to exit the game - required due to possibly being on a demo disc + virtual void StoreLaunchData(); + virtual void ExitGame(); + + bool isXuidNotch(PlayerUID xuid); + bool isXuidDeadmau5(PlayerUID xuid); + + void AddMemoryTextureFile(const wstring &wName, PBYTE pbData, DWORD dwBytes); + void RemoveMemoryTextureFile(const wstring &wName); + void GetMemFileDetails(const wstring &wName,PBYTE *ppbData,DWORD *pdwBytes); + bool IsFileInMemoryTextures(const wstring &wName); + + // Texture Pack Data files (icon, banner, comparison shot & text) + void AddMemoryTPDFile(int iConfig,PBYTE pbData,DWORD dwBytes); + void RemoveMemoryTPDFile(int iConfig); + bool IsFileInTPD(int iConfig); + void GetTPD(int iConfig,PBYTE *ppbData,DWORD *pdwBytes); + int GetTPDSize() {return (int)(m_MEM_TPD.size());} +#ifndef __PS3__ + int GetTPConfigVal(WCHAR *pwchDataFile); +#endif + + bool DefaultCapeExists(); + //void InstallDefaultCape(); // attempt to install the default cape once per game launch + + // invites + //void ProcessInvite(JoinFromInviteData *pJoinData); + void ProcessInvite(DWORD dwUserIndex, DWORD dwLocalUsersMask, const INVITE_INFO * pInviteInfo); + + // Add credits for DLC installed + void AddCreditText(LPCWSTR lpStr); + +private: + PlayerUID m_xuidNotch; +#ifdef _DURANGO + unordered_map m_GTS_Files; +#else + unordered_map m_GTS_Files; +#endif + + // for storing memory textures - player skin + unordered_map m_MEM_Files; + // for storing texture pack data files + unordered_map m_MEM_TPD; + CRITICAL_SECTION csMemFilesLock; // For locking access to the above map + CRITICAL_SECTION csMemTPDLock; // For locking access to the above map + + VNOTIFICATIONS m_vNotifications; + +public: + // launch data + BYTE* m_pLaunchData; + DWORD m_dwLaunchDataSize; + +public: + // BAN LIST + void AddLevelToBannedLevelList(int iPad,PlayerUID xuid, char *pszLevelName, bool bWriteToTMS); + bool IsInBannedLevelList(int iPad, PlayerUID xuid, char *pszLevelName); + void RemoveLevelFromBannedLevelList(int iPad, PlayerUID xuid, char *pszLevelName); + void InvalidateBannedList(int iPad); + void SetUniqueMapName(char *pszUniqueMapName); + char *GetUniqueMapName(void); +#ifdef _XBOX_ONE + void AddLevelToBannedLevelList(int iPad, PBANNEDLISTDATA pBannedListData, bool bWriteToTMS); +#endif + + +public: + bool GetResourcesLoaded() {return m_bResourcesLoaded;} + void SetResourcesLoaded(bool bVal) {m_bResourcesLoaded=bVal;} + +public: + bool m_bGameStarted; + bool m_bIntroRunning; + bool m_bTutorialMode; + bool m_bIsAppPaused; + + bool m_bChangingSessionType; + bool m_bReallyChangingSessionType; + + bool m_bDisplayFullVersionPurchase; // for after signing in during the trial, and trying to unlock full version on an upsell + + void loadMediaArchive(); + void loadStringTable(); + +protected: + ArchiveFile *m_mediaArchive; + StringTable *m_stringTable; + +public: + int getArchiveFileSize(const wstring &filename); + bool hasArchiveFile(const wstring &filename); + byteArray getArchiveFile(const wstring &filename); + +private: + + static int BannedLevelDialogReturned(void *pParam,int iPad,const C4JStorage::EMessageResult); + static int TexturePackDialogReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + + VBANNEDLIST *m_vBannedListA[XUSER_MAX_COUNT]; + + void HandleButtonPresses(int iPad); + + bool m_bResourcesLoaded; + + // Global string table for this application. + //CXuiStringTable StringTable; + + + // Container scene for some menu + + // CXuiScene debugContainerScene; + + + //bool m_bSplitScreenEnabled; + + +#ifdef _CONTENT_PACKAGE +#ifndef _FINAL_BUILD + bool m_bPartnernetPasswordRunning; +#endif +#endif + + eGameMode m_eGameMode; // single or multiplayer + + static unsigned int m_uiLastSignInData; + + // We've got sizeof(GAME_SETTINGS) bytes reserved at the start of the gamedefined data per player for settings + GAME_SETTINGS *GameSettingsA[XUSER_MAX_COUNT]; + + // For promo work + bool m_bLoadSavesFromFolderEnabled; + + // For debugging + bool m_bWriteSavesToFolderEnabled; + bool m_bMobsDontAttack; + bool m_bUseDPadForDebug; + bool m_bMobsDontTick; + bool m_bFreezePlayers; + + // 4J : WESTY : For taking screen shots. + //bool m_bInterfaceRenderingOff; + //bool m_bHandRenderingOff; + + DisconnectPacket::eDisconnectReason m_disconnectReason; + +public: + virtual void RunFrame() {}; + + + + static const DWORD m_dwOfferID = 0x00000001; + + // timer + void InitTime(); + void UpdateTime(); + + // trial timer + void SetTrialTimerStart(void); + float getTrialTimer(void); + + // notifications from the game for qnet + VNOTIFICATIONS *GetNotifications() {return &m_vNotifications;} + +private: + + + // To avoid problems with threads being kicked off from xuis that alter things that may be in progress within the run_middle, + // we'll action these at the end of the game loop + eXuiAction m_eXuiAction[XUSER_MAX_COUNT]; + eTMSAction m_eTMSAction[XUSER_MAX_COUNT]; + LPVOID m_eXuiActionParam[XUSER_MAX_COUNT]; + eXuiAction m_eGlobalXuiAction; + eXuiServerAction m_eXuiServerAction[XUSER_MAX_COUNT]; + LPVOID m_eXuiServerActionParam[XUSER_MAX_COUNT]; + eXuiServerAction m_eGlobalXuiServerAction; + + bool m_bLiveLinkRequired; + + static int UnlockFullExitReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int UnlockFullSaveReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int UnlockFullInviteReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int TrialOverReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int ExitAndJoinFromInvite(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int ExitAndJoinFromInviteSaveDialogReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int ExitAndJoinFromInviteAndSaveReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int ExitAndJoinFromInviteDeclineSaveReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int FatalErrorDialogReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int WarningTrialTexturePackReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); + + JoinFromInviteData m_InviteData; + bool m_bDebugOptions; // toggle debug things on or off + + // Trial timer + float m_fTrialTimerStart,mfTrialPausedTime; + typedef struct TimeInfo + { + LARGE_INTEGER qwTime; + LARGE_INTEGER qwAppTime; + + float fAppTime; + float fElapsedTime; + float fSecsPerTick; + } TIMEINFO; + + TimeInfo m_Time; + +protected: + static const int MAX_TIPS_GAMETIP = 50; + static const int MAX_TIPS_TRIVIATIP = 20; + static TIPSTRUCT m_GameTipA[MAX_TIPS_GAMETIP]; + static TIPSTRUCT m_TriviaTipA[MAX_TIPS_TRIVIATIP]; + static Random *TipRandom; +public: + void InitialiseTips(); + UINT GetNextTip(); + int GetHTMLColour(eMinecraftColour colour); + int GetHTMLColor(eMinecraftColour colour) { return GetHTMLColour(colour); } + int GetHTMLFontSize(EHTMLFontSize size); + wstring FormatHTMLString(int iPad, const wstring &desc, int shadowColour = 0xFFFFFFFF); + wstring GetActionReplacement(int iPad, unsigned char ucAction); + wstring GetVKReplacement(unsigned int uiVKey); + wstring GetIconReplacement(unsigned int uiIcon); + + float getAppTime() { return m_Time.fAppTime; } + void UpdateTrialPausedTimer() { mfTrialPausedTime+= m_Time.fElapsedTime;} + + static int RemoteSaveThreadProc( void* lpParameter ); + static void ExitGameFromRemoteSave( LPVOID lpParameter ); + static int ExitGameFromRemoteSaveDialogReturned(void *pParam,int iPad,C4JStorage::EMessageResult result); +private: + UINT m_TipIDA[MAX_TIPS_GAMETIP+MAX_TIPS_TRIVIATIP]; + UINT m_uiCurrentTip; + static int TipsSortFunction(const void* a, const void* b); + + // XML +public: + + // Hold a vector of terrain feature positions + void AddTerrainFeaturePosition(_eTerrainFeatureType,int,int); + void ClearTerrainFeaturePosition(); + _eTerrainFeatureType IsTerrainFeature(int x,int z); + bool GetTerrainFeaturePosition(_eTerrainFeatureType eType, int *pX, int *pZ); + std::vector m_vTerrainFeatures; + + static HRESULT RegisterMojangData(WCHAR *, PlayerUID, WCHAR *, WCHAR *); + MOJANG_DATA *GetMojangDataForXuid(PlayerUID xuid); + static HRESULT RegisterConfigValues(WCHAR *pType, int iValue); + +#if defined(__PS3__) || defined(__ORBIS__) || defined(__PSVITA__) + HRESULT RegisterDLCData(char *pchDLCName, unsigned int uiSortIndex, char *pchImageURL); + bool GetDLCFullOfferIDForSkinID(const wstring &FirstSkin,ULONGLONG *pullVal); + DLC_INFO *GetDLCInfoForTrialOfferID(ULONGLONG ullOfferID_Trial); + DLC_INFO *GetDLCInfoForFullOfferID(ULONGLONG ullOfferID_Full); +#elif defined(_XBOX_ONE) + static HRESULT RegisterDLCData(eDLCContentType, WCHAR *, WCHAR *, WCHAR *, WCHAR *, int, unsigned int); + //bool GetDLCFullOfferIDForSkinID(const wstring &FirstSkin,WCHAR *pwchProductId); + bool GetDLCFullOfferIDForSkinID(const wstring &FirstSkin,wstring &wsProductId); + DLC_INFO *GetDLCInfoForFullOfferID(WCHAR *pwchProductId); + DLC_INFO *GetDLCInfoForProductName(WCHAR *pwchProductName); +#else + static HRESULT RegisterDLCData(WCHAR *, WCHAR *, int, uint64_t, uint64_t, WCHAR *, unsigned int, int, WCHAR *pDataFile); + bool GetDLCFullOfferIDForSkinID(const wstring &FirstSkin,ULONGLONG *pullVal); + DLC_INFO *GetDLCInfoForTrialOfferID(ULONGLONG ullOfferID_Trial); + DLC_INFO *GetDLCInfoForFullOfferID(ULONGLONG ullOfferID_Full); +#endif + + // TMS + void ReadDLCFileFromTMS(int iPad,eTMSAction action, bool bCallback=false); + void ReadXuidsFileFromTMS(int iPad,eTMSAction action,bool bCallback=false); + + // images for save thumbnail/social post + virtual void CaptureSaveThumbnail() =0; + virtual void GetSaveThumbnail(PBYTE*,DWORD*)=0; + virtual void ReleaseSaveThumbnail()=0; + virtual void GetScreenshot(int iPad,PBYTE *pbData,DWORD *pdwSize)=0; + + virtual void ReadBannedList(int iPad, eTMSAction action=static_cast(0), bool bCallback=false)=0; + +private: + +#if defined(__PS3__) || defined(__ORBIS__) || defined (__PSVITA__) + static unordered_map MojangData; + static unordered_map DLCTextures_PackID; // for mash-up packs & texture packs + static unordered_map DLCInfo; + static unordered_map DLCInfo_SkinName; // skin name, full offer id +#elif defined(_DURANGO) + static unordered_map MojangData; + static unordered_map DLCTextures_PackID; // for mash-up packs & texture packs + //static unordered_map DLCInfo_Trial; // full offerid, dlc_info + static unordered_map DLCInfo_Full; // full offerid, dlc_info + static unordered_map DLCInfo_SkinName; // skin name, full offer id +#else + static unordered_map MojangData; + static unordered_map DLCTextures_PackID; // for mash-up packs & texture packs + static unordered_map DLCInfo_Trial; // full offerid, dlc_info + static unordered_map DLCInfo_Full; // full offerid, dlc_info + static unordered_map DLCInfo_SkinName; // skin name, full offer id +#endif + // bool m_bRead_TMS_XUIDS_XML; // track whether we have already read the TMS xuids.xml file + // bool m_bRead_TMS_DLCINFO_XML; // track whether we have already read the TMS DLC.xml file + + bool m_bDefaultCapeInstallAttempted; // have we attempted to install the default cape from tms + + //bool m_bwasHidingGui; // 4J Stu - Removed 1.8.2 bug fix (TU6) as not needed + bool m_bDLCInstallProcessCompleted; + bool m_bDLCInstallPending; + int m_iTotalDLC; + int m_iTotalDLCInstalled; + +public: + // 4J Stu - We need to be able to detect when a guest player signs in or out causing other guest players to change their xuid + // The simplest way to do this is to check if their guest number has changed, so store the last known one here + // 4J Stu - Now storing the whole XUSER_SIGNIN_INFO so we can detect xuid changes + XUSER_SIGNIN_INFO m_currentSigninInfo[XUSER_MAX_COUNT]; + + //void OverrideFontRenderer(bool set, bool immediate = true); + // void ToggleFontRenderer() { OverrideFontRenderer(!m_bFontRendererOverridden,false); } + BANNEDLIST BannedListA[XUSER_MAX_COUNT]; + +private: + // XUI_FontRenderer *m_fontRenderer; + // bool m_bFontRendererOverridden; + // bool m_bOverrideFontRenderer; + + + bool m_bRead_BannedListA[XUSER_MAX_COUNT]; + char m_pszUniqueMapName[14]; + bool m_BanListCheck[XUSER_MAX_COUNT]; + +public: + void SetBanListCheck(int iPad,bool bVal) {m_BanListCheck[iPad]=bVal;} + bool GetBanListCheck(int iPad) { return m_BanListCheck[iPad];} + // AUTOSAVE +public: + void SetAutosaveTimerTime(void); + bool AutosaveDue(void); + unsigned int SecondsToAutosave(); +private: + unsigned int m_uiAutosaveTimer; + unsigned int m_uiOpacityCountDown[XUSER_MAX_COUNT]; + + // DLC + bool m_bNewDLCAvailable; + bool m_bSeenNewDLCTip; + + // Host options +private: + unsigned int m_uiGameHostSettings; + static unsigned char m_szPNG[8]; + +#ifdef _LARGE_WORLDS + unsigned int m_GameNewWorldSize; + bool m_bGameNewWorldSizeUseMoat; + unsigned int m_GameNewHellScale; +#endif + unsigned int FromBigEndian(unsigned int uiValue); + +public: + + + void SetGameHostOption(eGameHostOption eVal,unsigned int uiVal); + void SetGameHostOption(unsigned int &uiHostSettings, eGameHostOption eVal,unsigned int uiVal); + unsigned int GetGameHostOption(eGameHostOption eVal); + unsigned int GetGameHostOption(unsigned int uiHostSettings, eGameHostOption eVal); + +#ifdef _LARGE_WORLDS + void SetGameNewWorldSize(unsigned int newSize, bool useMoat) { m_GameNewWorldSize = newSize; m_bGameNewWorldSizeUseMoat = useMoat; } + unsigned int GetGameNewWorldSize() { return m_GameNewWorldSize; } + unsigned int GetGameNewWorldSizeUseMoat() { return m_bGameNewWorldSizeUseMoat; } + void SetGameNewHellScale(unsigned int newScale) { m_GameNewHellScale = newScale; } + unsigned int GetGameNewHellScale() { return m_GameNewHellScale; } +#endif + void SetResetNether(bool bResetNether) {m_bResetNether=bResetNether;} + bool GetResetNether() {return m_bResetNether;} + bool CanRecordStatsAndAchievements(); + + // World seed from png image + void GetImageTextData(PBYTE pbImageData, DWORD dwImageBytes,unsigned char *pszSeed,unsigned int &uiHostOptions,bool &bHostOptionsRead,DWORD &uiTexturePack); + unsigned int CreateImageTextData(PBYTE bTextMetadata, int64_t seed, bool hasSeed, unsigned int uiHostOptions, unsigned int uiTexturePackId); + + // Game rules + GameRuleManager m_gameRules; + +public: + void processSchematics(LevelChunk *levelChunk); + void processSchematicsLighting(LevelChunk *levelChunk); + void loadDefaultGameRules(); + vector *getLevelGenerators() { return m_gameRules.getLevelGenerators(); } + void setLevelGenerationOptions(LevelGenerationOptions *levelGen); + LevelRuleset *getGameRuleDefinitions() { return m_gameRules.getGameRuleDefinitions(); } + LevelGenerationOptions *getLevelGenerationOptions() { return m_gameRules.getLevelGenerationOptions(); } + LPCWSTR GetGameRulesString(const wstring &key); + +private: + BYTE m_playerColours[MINECRAFT_NET_MAX_PLAYERS]; // An array of QNet small-id's + unsigned int m_playerGamePrivileges[MINECRAFT_NET_MAX_PLAYERS]; + +public: + void UpdatePlayerInfo(BYTE networkSmallId, SHORT playerColourIndex, unsigned int playerGamePrivileges); + short GetPlayerColour(BYTE networkSmallId); + unsigned int GetPlayerPrivileges(BYTE networkSmallId); + + wstring getEntityName(eINSTANCEOF type); + + + + unsigned int AddDLCRequest(eDLCMarketplaceType eContentType, bool bPromote=false); + bool RetrieveNextDLCContent(); + bool CheckTMSDLCCanStop(); + static int DLCOffersReturned(void *pParam, int iOfferC, DWORD dwType, int iPad); + DWORD GetDLCContentType(eDLCContentType eType) { return m_dwContentTypeA[eType];} + eDLCContentType Find_eDLCContentType(DWORD dwType); + int GetDLCOffersCount() { return m_iDLCOfferC;} + bool DLCContentRetrieved(eDLCMarketplaceType eType); + void TickDLCOffersRetrieved(); + void ClearAndResetDLCDownloadQueue(); + bool RetrieveNextTMSPPContent(); + void TickTMSPPFilesRetrieved(); + void ClearTMSPPFilesRetrieved(); + unsigned int AddTMSPPFileTypeRequest(eDLCContentType eType, bool bPromote=false); + int GetDLCInfoTexturesOffersCount(); +#if defined( __PS3__) || defined(__ORBIS__) || defined(__PSVITA__) + DLC_INFO *GetDLCInfo(int iIndex); + DLC_INFO *GetDLCInfo(char *); + DLC_INFO *GetDLCInfoFromTPackID(int iTPID); + bool GetDLCNameForPackID(const int iPackID,char **ppchKeyID); + char * GetDLCInfoTextures(int iIndex); + int GetDLCInfoCount(); +#else + +#ifdef _XBOX_ONE + static int TMSPPFileReturned(LPVOID pParam,int iPad,int iUserData,LPVOID, WCHAR *wchFilename); + unordered_map *GetDLCInfo(); +#else + static int TMSPPFileReturned(LPVOID pParam,int iPad,int iUserData,C4JStorage::PTMSPP_FILEDATA pFileData, LPCSTR szFilename); +#endif + DLC_INFO *GetDLCInfoTrialOffer(int iIndex); + DLC_INFO *GetDLCInfoFullOffer(int iIndex); + + int GetDLCInfoTrialOffersCount(); + int GetDLCInfoFullOffersCount(); +#ifdef _XBOX_ONE + bool GetDLCFullOfferIDForPackID(const int iPackID,wstring &wsProductId); + wstring GetDLCInfoTexturesFullOffer(int iIndex); + +#else + bool GetDLCFullOfferIDForPackID(const int iPackID,ULONGLONG *pullVal); + ULONGLONG GetDLCInfoTexturesFullOffer(int iIndex); +#endif +#endif + + void SetCorruptSaveDeleted(bool bVal) {m_bCorruptSaveDeleted=bVal;} + bool GetCorruptSaveDeleted(void) {return m_bCorruptSaveDeleted;} + + void EnterSaveNotificationSection(); + void LeaveSaveNotificationSection(); +private: + CRITICAL_SECTION m_saveNotificationCriticalSection; + int m_saveNotificationDepth; + // Download Status + + //Request current_download; + vector m_DLCDownloadQueue; + vector m_TMSPPDownloadQueue; + static DWORD m_dwContentTypeA[e_Marketplace_MAX]; + int m_iDLCOfferC; + bool m_bAllDLCContentRetrieved; + bool m_bAllTMSContentRetrieved; + bool m_bTickTMSDLCFiles; + CRITICAL_SECTION csDLCDownloadQueue; + CRITICAL_SECTION csTMSPPDownloadQueue; + CRITICAL_SECTION csAdditionalModelParts; + CRITICAL_SECTION csAdditionalSkinBoxes; + CRITICAL_SECTION csAnimOverrideBitmask; + bool m_bCorruptSaveDeleted; + + DWORD m_dwAdditionalModelParts[XUSER_MAX_COUNT]; + + BYTE *m_pBannedListFileBuffer; + DWORD m_dwBannedListFileSize; + +public: + DWORD m_dwDLCFileSize; + BYTE *m_pDLCFileBuffer; + + // static int CallbackReadXuidsFileFromTMS(LPVOID lpParam, WCHAR *wchFilename, int iPad, bool bResult, int iAction); + // static int CallbackDLCFileFromTMS(LPVOID lpParam, WCHAR *wchFilename, int iPad, bool bResult, int iAction); + // static int CallbackBannedListFileFromTMS(LPVOID lpParam, WCHAR *wchFilename, int iPad, bool bResult, int iAction); + + // Storing additional model parts per skin texture + void SetAdditionalSkinBoxes(DWORD dwSkinID, SKIN_BOX *SkinBoxA, DWORD dwSkinBoxC); + vector * SetAdditionalSkinBoxes(DWORD dwSkinID, vector *pvSkinBoxA); + vector *GetAdditionalModelParts(DWORD dwSkinID); + vector *GetAdditionalSkinBoxes(DWORD dwSkinID); + void SetAnimOverrideBitmask(DWORD dwSkinID,unsigned int uiAnimOverrideBitmask); + unsigned int GetAnimOverrideBitmask(DWORD dwSkinID); + + static DWORD getSkinIdFromPath(const wstring &skin); + static wstring getSkinPathFromId(DWORD skinId); + + virtual int LoadLocalTMSFile(WCHAR *wchTMSFile)=0; + virtual int LoadLocalTMSFile(WCHAR *wchTMSFile, eFileExtensionType eExt)=0; + virtual void FreeLocalTMSFiles(eTMSFileType eType)=0; + virtual int GetLocalTMSFileIndex(WCHAR *wchTMSFile,bool bFilenameIncludesExtension,eFileExtensionType eEXT)=0; + + virtual bool GetTMSGlobalFileListRead() { return true;} + virtual bool GetTMSDLCInfoRead() { return true;} + virtual bool GetTMSXUIDsFileRead() { return true;} + + bool GetBanListRead(int iPad) { return m_bRead_BannedListA[iPad];} + void SetBanListRead(int iPad,bool bVal) { m_bRead_BannedListA[iPad]=bVal;} + void ClearBanList(int iPad) { BannedListA[iPad].pBannedList=nullptr;BannedListA[iPad].dwBytes=0;} + + DWORD GetRequiredTexturePackID() {return m_dwRequiredTexturePackID;} + void SetRequiredTexturePackID(DWORD dwID) {m_dwRequiredTexturePackID=dwID;} + + virtual void GetFileFromTPD(eTPDFileType eType,PBYTE pbData,DWORD dwBytes,PBYTE *ppbData,DWORD *pdwBytes ) {*ppbData = nullptr; *pdwBytes = 0;} + + //XTITLE_DEPLOYMENT_TYPE getDeploymentType() { return m_titleDeploymentType; } + +private: + // vector of additional skin model parts, indexed by the skin texture id + unordered_map *> m_AdditionalModelParts; + unordered_map *> m_AdditionalSkinBoxes; + unordered_map m_AnimOverrides; + + + bool m_bResetNether; + DWORD m_dwRequiredTexturePackID; +#ifdef _XBOX_ONE + vector m_vTMSPPData; +#endif + +#if ( defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) + C4JStorage::eOptionsCallback m_eOptionsStatusA[XUSER_MAX_COUNT]; + +#ifdef __ORBIS__ + int m_eOptionsBlocksRequiredA[XUSER_MAX_COUNT]; +#endif +#endif + + + // 4J-PB - language and locale functions +public: + + void LocaleAndLanguageInit(); + void getLocale(vector &vecWstrLocales); + DWORD get_eMCLang(WCHAR *pwchLocale); + DWORD get_xcLang(WCHAR *pwchLocale); + + void SetTickTMSDLCFiles(bool bVal); + + wstring getFilePath(DWORD packId, wstring filename, bool bAddDataFolder, wstring mountPoint = L"TPACK:"); + +private: + unordered_mapm_localeA; + unordered_mapm_eMCLangA; + unordered_mapm_xcLangA; + wstring getRootPath(DWORD packId, bool allowOverride, bool bAddDataFolder, wstring mountPoint); +public: + +#ifdef _XBOX + // bool m_bTransferSavesToXboxOne; + // unsigned int m_uiTransferSlotC; + +#elif defined (__PS3__) + +#elif defined _DURANGO + +#elif defined _WINDOWS64 + //CMinecraftAudio audio; +#else // PS4 + +#endif + +#ifdef _XBOX_ONE +public: + void SetReachedMainMenu(); + bool HasReachedMainMenu(); +private: + bool m_hasReachedMainMenu; +#endif +}; + +//singleton +//extern CMinecraftApp app; diff --git a/Minecraft.Client/Common/DLC/DLCAudioFile.cpp b/Minecraft.Client/Common/DLC/DLCAudioFile.cpp new file mode 100644 index 0000000..34c06ca --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCAudioFile.cpp @@ -0,0 +1,212 @@ +#include "stdafx.h" +#include "DLCManager.h" +#include "DLCAudioFile.h" + +DLCAudioFile::DLCAudioFile(const wstring &path) : DLCFile(DLCManager::e_DLCType_Audio,path) +{ + m_pbData = nullptr; + m_dwBytes = 0; +} + +void DLCAudioFile::addData(PBYTE pbData, DWORD dwBytes) +{ + m_pbData = pbData; + m_dwBytes = dwBytes; + + processDLCDataFile(pbData,dwBytes); +} + +PBYTE DLCAudioFile::getData(DWORD &dwBytes) +{ + dwBytes = m_dwBytes; + return m_pbData; +} + +const WCHAR *DLCAudioFile::wchTypeNamesA[]= +{ + L"CUENAME", + L"CREDIT", +}; + +DLCAudioFile::EAudioParameterType DLCAudioFile::getParameterType(const wstring ¶mName) +{ + EAudioParameterType type = e_AudioParamType_Invalid; + + for(DWORD i = 0; i < e_AudioParamType_Max; ++i) + { + if(paramName.compare(wchTypeNamesA[i]) == 0) + { + type = static_cast(i); + break; + } + } + + return type; +} + +void DLCAudioFile::addParameter(EAudioType type, EAudioParameterType ptype, const wstring &value) +{ + switch(ptype) + { + + case e_AudioParamType_Credit: // If this parameter exists, then mark this as free + //add it to the DLC credits list + + // we'll need to justify this text since we don't have a lot of room for lines of credits + { + // don't look for duplicate in the music credits + + //if(app.AlreadySeenCreditText(value)) break; + + int maximumChars = 55; + + bool bIsSDMode=!RenderManager.IsHiDef() && !RenderManager.IsWidescreen(); + + if(bIsSDMode) + { + maximumChars = 45; + } + + switch(XGetLanguage()) + { + case XC_LANGUAGE_JAPANESE: + case XC_LANGUAGE_TCHINESE: + case XC_LANGUAGE_KOREAN: + maximumChars = 35; + break; + } + wstring creditValue = value; + while (creditValue.length() > maximumChars) + { + unsigned int i = 1; + while (i < creditValue.length() && (i + 1) <= maximumChars) + { + i++; + } + size_t iLast=creditValue.find_last_of(L" ", i); + switch(XGetLanguage()) + { + case XC_LANGUAGE_JAPANESE: + case XC_LANGUAGE_TCHINESE: + case XC_LANGUAGE_KOREAN: + iLast = maximumChars; + break; + default: + iLast=creditValue.find_last_of(L" ", i); + break; + } + + // if a space was found, include the space on this line + if(iLast!=i) + { + iLast++; + } + + app.AddCreditText((creditValue.substr(0, iLast)).c_str()); + creditValue = creditValue.substr(iLast); + } + app.AddCreditText(creditValue.c_str()); + + } + break; + case e_AudioParamType_Cuename: + m_parameters[type].push_back(value); + //m_parameters[(int)type] = value; + break; + } +} + +bool DLCAudioFile::processDLCDataFile(PBYTE pbData, DWORD dwLength) +{ + unordered_map parameterMapping; + unsigned int uiCurrentByte=0; + + // File format defined in the AudioPacker + // File format: Version 1 + + unsigned int uiVersion=*(unsigned int *)pbData; + uiCurrentByte+=sizeof(int); + + if(uiVersion < CURRENT_AUDIO_VERSION_NUM) + { + if(pbData!=nullptr) delete [] pbData; + app.DebugPrintf("DLC version of %d is too old to be read\n", uiVersion); + return false; + } + + unsigned int uiParameterTypeCount=*(unsigned int *)&pbData[uiCurrentByte]; + uiCurrentByte+=sizeof(int); + C4JStorage::DLC_FILE_PARAM *pParams = (C4JStorage::DLC_FILE_PARAM *)&pbData[uiCurrentByte]; + + for(unsigned int i=0;i(pParams->wchData)); + EAudioParameterType type = getParameterType(parameterName); + if( type != e_AudioParamType_Invalid ) + { + parameterMapping[pParams->dwType] = type; + } + uiCurrentByte+= sizeof(C4JStorage::DLC_FILE_PARAM)+(pParams->dwWchCount*sizeof(WCHAR)); + pParams = (C4JStorage::DLC_FILE_PARAM *)&pbData[uiCurrentByte]; + } + unsigned int uiFileCount=*(unsigned int *)&pbData[uiCurrentByte]; + uiCurrentByte+=sizeof(int); + C4JStorage::DLC_FILE_DETAILS *pFile = (C4JStorage::DLC_FILE_DETAILS *)&pbData[uiCurrentByte]; + + DWORD dwTemp=uiCurrentByte; + for(unsigned int i=0;idwWchCount*sizeof(WCHAR); + pFile = (C4JStorage::DLC_FILE_DETAILS *)&pbData[dwTemp]; + } + PBYTE pbTemp=((PBYTE )pFile); + pFile = (C4JStorage::DLC_FILE_DETAILS *)&pbData[uiCurrentByte]; + + for(unsigned int i=0;i(pFile->dwType); + // Params + unsigned int uiParameterCount=*(unsigned int *)pbTemp; + pbTemp+=sizeof(int); + pParams = (C4JStorage::DLC_FILE_PARAM *)pbTemp; + for(unsigned int j=0;jdwType); + + if(it != parameterMapping.end() ) + { + addParameter(type,static_cast(pParams->dwType),(WCHAR *)pParams->wchData); + } + pbTemp+=sizeof(C4JStorage::DLC_FILE_PARAM)+(sizeof(WCHAR)*pParams->dwWchCount); + pParams = (C4JStorage::DLC_FILE_PARAM *)pbTemp; + } + // Move the pointer to the start of the next files data; + pbTemp+=pFile->uiFileSize; + uiCurrentByte+=sizeof(C4JStorage::DLC_FILE_DETAILS)+pFile->dwWchCount*sizeof(WCHAR); + + pFile=(C4JStorage::DLC_FILE_DETAILS *)&pbData[uiCurrentByte]; + + } + + return true; +} + +int DLCAudioFile::GetCountofType(EAudioType eType) +{ + return m_parameters[eType].size(); +} + + +wstring &DLCAudioFile::GetSoundName(int iIndex) +{ + int iWorldType=e_AudioType_Overworld; + while(iIndex>=m_parameters[iWorldType].size()) + { + iIndex-=m_parameters[iWorldType].size(); + iWorldType++; + } + return m_parameters[iWorldType].at(iIndex); +} \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCAudioFile.h b/Minecraft.Client/Common/DLC/DLCAudioFile.h new file mode 100644 index 0000000..5013178 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCAudioFile.h @@ -0,0 +1,54 @@ +#pragma once +#include "DLCFile.h" + +class DLCAudioFile : public DLCFile +{ + +public: + + // If you add to the Enum,then you need to add the array of type names + // These are the names used in the XML for the parameters + enum EAudioType + { + e_AudioType_Invalid = -1, + + e_AudioType_Overworld = 0, + e_AudioType_Nether, + e_AudioType_End, + + e_AudioType_Max, + }; + enum EAudioParameterType + { + e_AudioParamType_Invalid = -1, + + e_AudioParamType_Cuename = 0, + e_AudioParamType_Credit, + + e_AudioParamType_Max, + + }; + static const WCHAR *wchTypeNamesA[e_AudioParamType_Max]; + + DLCAudioFile(const wstring &path); + + void addData(PBYTE pbData, DWORD dwBytes) override; + PBYTE getData(DWORD &dwBytes) override; + + bool processDLCDataFile(PBYTE pbData, DWORD dwLength); + int GetCountofType(EAudioType ptype); + wstring &GetSoundName(int iIndex); + +private: + using DLCFile::addParameter; + + PBYTE m_pbData; + DWORD m_dwBytes; + static const int CURRENT_AUDIO_VERSION_NUM=1; + //unordered_map m_parameters; + vector m_parameters[e_AudioType_Max]; + + // use the EAudioType to order these + void addParameter(EAudioType type, EAudioParameterType ptype, const wstring &value); + EAudioParameterType getParameterType(const wstring ¶mName); +}; diff --git a/Minecraft.Client/Common/DLC/DLCCapeFile.cpp b/Minecraft.Client/Common/DLC/DLCCapeFile.cpp new file mode 100644 index 0000000..29a50ad --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCCapeFile.cpp @@ -0,0 +1,12 @@ +#include "stdafx.h" +#include "DLCManager.h" +#include "DLCCapeFile.h" + +DLCCapeFile::DLCCapeFile(const wstring &path) : DLCFile(DLCManager::e_DLCType_Cape,path) +{ +} + +void DLCCapeFile::addData(PBYTE pbData, DWORD dwBytes) +{ + app.AddMemoryTextureFile(m_path,pbData,dwBytes); +} \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCCapeFile.h b/Minecraft.Client/Common/DLC/DLCCapeFile.h new file mode 100644 index 0000000..9e9466c --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCCapeFile.h @@ -0,0 +1,10 @@ +#pragma once +#include "DLCFile.h" + +class DLCCapeFile : public DLCFile +{ +public: + DLCCapeFile(const wstring &path); + + void addData(PBYTE pbData, DWORD dwBytes) override; +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCColourTableFile.cpp b/Minecraft.Client/Common/DLC/DLCColourTableFile.cpp new file mode 100644 index 0000000..a0c818a --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCColourTableFile.cpp @@ -0,0 +1,26 @@ +#include "stdafx.h" +#include "DLCManager.h" +#include "DLCColourTableFile.h" +#include "..\..\Minecraft.h" +#include "..\..\TexturePackRepository.h" +#include "..\..\TexturePack.h" + +DLCColourTableFile::DLCColourTableFile(const wstring &path) : DLCFile(DLCManager::e_DLCType_ColourTable,path) +{ + m_colourTable = nullptr; +} + +DLCColourTableFile::~DLCColourTableFile() +{ + if(m_colourTable != nullptr) + { + app.DebugPrintf("Deleting DLCColourTableFile data\n"); + delete m_colourTable; + } +} + +void DLCColourTableFile::addData(PBYTE pbData, DWORD dwBytes) +{ + ColourTable *defaultColourTable = Minecraft::GetInstance()->skins->getDefault()->getColourTable(); + m_colourTable = new ColourTable(defaultColourTable, pbData, dwBytes); +} \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCColourTableFile.h b/Minecraft.Client/Common/DLC/DLCColourTableFile.h new file mode 100644 index 0000000..ded6f51 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCColourTableFile.h @@ -0,0 +1,18 @@ +#pragma once +#include "DLCFile.h" + +class ColourTable; + +class DLCColourTableFile : public DLCFile +{ +private: + ColourTable *m_colourTable; + +public: + DLCColourTableFile(const wstring &path); + ~DLCColourTableFile() override; + + void addData(PBYTE pbData, DWORD dwBytes) override; + + ColourTable *getColourTable() const { return m_colourTable; } +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCFile.cpp b/Minecraft.Client/Common/DLC/DLCFile.cpp new file mode 100644 index 0000000..e7bbace --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCFile.cpp @@ -0,0 +1,26 @@ +#include "stdafx.h" +#include "DLCFile.h" + +DLCFile::DLCFile(DLCManager::EDLCType type, const wstring &path) +{ + m_type = type; + m_path = path; + + // store the id + bool dlcSkin = path.substr(0,3).compare(L"dlc") == 0; + + if(dlcSkin) + { + wstring skinValue = path.substr(7,path.size()); + skinValue = skinValue.substr(0,skinValue.find_first_of(L'.')); + std::wstringstream ss; + ss << std::dec << skinValue.c_str(); + ss >> m_dwSkinId; + m_dwSkinId = MAKE_SKIN_BITMASK(true, m_dwSkinId); + + } + else + { + m_dwSkinId=0; + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCFile.h b/Minecraft.Client/Common/DLC/DLCFile.h new file mode 100644 index 0000000..31b638e --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCFile.h @@ -0,0 +1,25 @@ +#pragma once +#include "DLCManager.h" + +class DLCFile +{ +protected: + DLCManager::EDLCType m_type; + wstring m_path; + DWORD m_dwSkinId; + +public: + DLCFile(DLCManager::EDLCType type, const wstring &path); + virtual ~DLCFile() {} + + DLCManager::EDLCType getType() const { return m_type; } + wstring getPath() { return m_path; } + DWORD getSkinID() const { return m_dwSkinId; } + + virtual void addData(PBYTE pbData, DWORD dwBytes) {} + virtual PBYTE getData(DWORD &dwBytes) { dwBytes = 0; return nullptr; } + virtual void addParameter(DLCManager::EDLCParameterType type, const wstring &value) {} + + virtual wstring getParameterAsString(DLCManager::EDLCParameterType type) { return L""; } + virtual bool getParameterAsBool(DLCManager::EDLCParameterType type) { return false;} +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCGameRules.h b/Minecraft.Client/Common/DLC/DLCGameRules.h new file mode 100644 index 0000000..9d3bbaa --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCGameRules.h @@ -0,0 +1,10 @@ +#pragma once + +#include "DLCFile.h" +#include "..\GameRules\LevelGenerationOptions.h" + +class DLCGameRules : public DLCFile +{ +public: + DLCGameRules(DLCManager::EDLCType type, const wstring &path) : DLCFile(type,path) {} +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCGameRulesFile.cpp b/Minecraft.Client/Common/DLC/DLCGameRulesFile.cpp new file mode 100644 index 0000000..d84e2a6 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCGameRulesFile.cpp @@ -0,0 +1,21 @@ +#include "stdafx.h" +#include "DLCManager.h" +#include "DLCGameRulesFile.h" + +DLCGameRulesFile::DLCGameRulesFile(const wstring &path) : DLCGameRules(DLCManager::e_DLCType_GameRules,path) +{ + m_pbData = nullptr; + m_dwBytes = 0; +} + +void DLCGameRulesFile::addData(PBYTE pbData, DWORD dwBytes) +{ + m_pbData = pbData; + m_dwBytes = dwBytes; +} + +PBYTE DLCGameRulesFile::getData(DWORD &dwBytes) +{ + dwBytes = m_dwBytes; + return m_pbData; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCGameRulesFile.h b/Minecraft.Client/Common/DLC/DLCGameRulesFile.h new file mode 100644 index 0000000..671cab6 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCGameRulesFile.h @@ -0,0 +1,15 @@ +#pragma once +#include "DLCGameRules.h" + +class DLCGameRulesFile : public DLCGameRules +{ +private: + PBYTE m_pbData; + DWORD m_dwBytes; + +public: + DLCGameRulesFile(const wstring &path); + + void addData(PBYTE pbData, DWORD dwBytes) override; + PBYTE getData(DWORD &dwBytes) override; +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCGameRulesHeader.cpp b/Minecraft.Client/Common/DLC/DLCGameRulesHeader.cpp new file mode 100644 index 0000000..2b78599 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCGameRulesHeader.cpp @@ -0,0 +1,92 @@ +#include "stdafx.h" + +#include + +#include "..\..\..\Minecraft.World\File.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\InputOutputStream.h" + +#include "DLCManager.h" +#include "DLCGameRulesHeader.h" + +DLCGameRulesHeader::DLCGameRulesHeader(const wstring &path) : DLCGameRules(DLCManager::e_DLCType_GameRulesHeader,path) +{ + m_pbData = nullptr; + m_dwBytes = 0; + + m_hasData = false; + + m_grfPath = path.substr(0, path.length() - 4) + L".grf"; + + lgo = nullptr; +} + +void DLCGameRulesHeader::addData(PBYTE pbData, DWORD dwBytes) +{ + m_pbData = pbData; + m_dwBytes = dwBytes; + + +#if 0 + byteArray data(m_pbData, m_dwBytes); + ByteArrayInputStream bais(data); + DataInputStream dis(&bais); + + // Init values. + int version_number; + byte compression_type; + wstring texturepackid; + + // Read Datastream. + version_number = dis.readInt(); + compression_type = dis.readByte(); + m_defaultSaveName = dis.readUTF(); + m_displayName = dis.readUTF(); + texturepackid = dis.readUTF(); + m_grfPath = dis.readUTF(); + + // Debug printout. + app.DebugPrintf ( + "DLCGameRulesHeader::readHeader:\n" + "\tversion_number = '%d',\n" + "\tcompression_type = '%d',\n" + "\tdefault_savename = '%s',\n" + "\tdisplayname = '%s',\n" + "\ttexturepackid = '%s',\n" + "\tgrf_path = '%s',\n", + + version_number, compression_type, + + wstringtofilename(m_defaultSaveName), + wstringtofilename(m_displayName), + wstringtofilename(texturepackid), + wstringtofilename(m_grfPath) + ); + + // Texture Pack. + m_requiredTexturePackId = _fromString(texturepackid); + m_bRequiresTexturePack = m_requiredTexturePackId > 0; + + dis.close(); + bais.close(); + bais.reset(); +#endif +} + +PBYTE DLCGameRulesHeader::getData(DWORD &dwBytes) +{ + dwBytes = m_dwBytes; + return m_pbData; +} + +void DLCGameRulesHeader::setGrfData(PBYTE fData, DWORD fSize, StringTable *st) +{ + if (!m_hasData) + { + m_hasData = true; + + //app.m_gameRules.loadGameRules(lgo, fData, fSize); + + app.m_gameRules.readRuleFile(lgo, fData, fSize, st); + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCGameRulesHeader.h b/Minecraft.Client/Common/DLC/DLCGameRulesHeader.h new file mode 100644 index 0000000..7409540 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCGameRulesHeader.h @@ -0,0 +1,65 @@ +#pragma once + +#include "DLCGameRules.h" +#include "..\GameRules\LevelGenerationOptions.h" + +class DLCGameRulesHeader : public DLCGameRules, public JustGrSource +{ +private: + + // GR-Header + PBYTE m_pbData; + DWORD m_dwBytes; + + bool m_hasData; + +public: + bool requiresTexturePack() override + {return m_bRequiresTexturePack;} + + UINT getRequiredTexturePackId() override + {return m_requiredTexturePackId;} + + wstring getDefaultSaveName() override + {return m_defaultSaveName;} + + LPCWSTR getWorldName() override + {return m_worldName.c_str();} + + LPCWSTR getDisplayName() override + {return m_displayName.c_str();} + + wstring getGrfPath() override + {return L"GameRules.grf";} + + void setRequiresTexturePack(bool x) override + {m_bRequiresTexturePack = x;} + + void setRequiredTexturePackId(UINT x) override + {m_requiredTexturePackId = x;} + + void setDefaultSaveName(const wstring &x) override + {m_defaultSaveName = x;} + + void setWorldName(const wstring & x) override + {m_worldName = x;} + + void setDisplayName(const wstring & x) override + {m_displayName = x;} + + void setGrfPath(const wstring & x) override + {m_grfPath = x;} + + LevelGenerationOptions *lgo; + +public: + DLCGameRulesHeader(const wstring &path); + + void addData(PBYTE pbData, DWORD dwBytes) override; + PBYTE getData(DWORD &dwBytes) override; + + void setGrfData(PBYTE fData, DWORD fSize, StringTable *); + + bool ready() override + { return m_hasData; } +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCLocalisationFile.cpp b/Minecraft.Client/Common/DLC/DLCLocalisationFile.cpp new file mode 100644 index 0000000..9092143 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCLocalisationFile.cpp @@ -0,0 +1,14 @@ +#include "stdafx.h" +#include "DLCManager.h" +#include "DLCLocalisationFile.h" +#include "..\..\StringTable.h" + +DLCLocalisationFile::DLCLocalisationFile(const wstring &path) : DLCFile(DLCManager::e_DLCType_LocalisationData,path) +{ + m_strings = nullptr; +} + +void DLCLocalisationFile::addData(PBYTE pbData, DWORD dwBytes) +{ + m_strings = new StringTable(pbData, dwBytes); +} \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCLocalisationFile.h b/Minecraft.Client/Common/DLC/DLCLocalisationFile.h new file mode 100644 index 0000000..419d714 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCLocalisationFile.h @@ -0,0 +1,18 @@ +#pragma once +#include "DLCFile.h" + +class StringTable; + +class DLCLocalisationFile : public DLCFile +{ +private: + StringTable *m_strings; + +public: + DLCLocalisationFile(const wstring &path); + DLCLocalisationFile(PBYTE pbData, DWORD dwBytes); // when we load in a texture pack details file from TMS++ + + void addData(PBYTE pbData, DWORD dwBytes) override; + + StringTable *getStringTable() { return m_strings; } +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCManager.cpp b/Minecraft.Client/Common/DLC/DLCManager.cpp new file mode 100644 index 0000000..3d304c4 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCManager.cpp @@ -0,0 +1,675 @@ +#include "stdafx.h" +#include +#include "DLCManager.h" +#include "DLCPack.h" +#include "DLCFile.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\Minecraft.h" +#include "..\..\TexturePackRepository.h" + +const WCHAR *DLCManager::wchTypeNamesA[]= +{ + L"DISPLAYNAME", + L"THEMENAME", + L"FREE", + L"CREDIT", + L"CAPEPATH", + L"BOX", + L"ANIM", + L"PACKID", + L"NETHERPARTICLECOLOUR", + L"ENCHANTTEXTCOLOUR", + L"ENCHANTTEXTFOCUSCOLOUR", + L"DATAPATH", + L"PACKVERSION", +}; + +DLCManager::DLCManager() +{ + //m_bNeedsUpdated = true; + m_bNeedsCorruptCheck = true; +} + +DLCManager::~DLCManager() +{ + for ( DLCPack *pack : m_packs ) + { + if ( pack ) + delete pack; + } +} + +DLCManager::EDLCParameterType DLCManager::getParameterType(const wstring ¶mName) +{ + EDLCParameterType type = e_DLCParamType_Invalid; + + for(DWORD i = 0; i < e_DLCParamType_Max; ++i) + { + if(paramName.compare(wchTypeNamesA[i]) == 0) + { + type = static_cast(i); + break; + } + } + + return type; +} + +DWORD DLCManager::getPackCount(EDLCType type /*= e_DLCType_All*/) +{ + DWORD packCount = 0; + if( type != e_DLCType_All ) + { + for( DLCPack *pack : m_packs ) + { + if( pack && pack->getDLCItemsCount(type) > 0 ) + { + ++packCount; + } + } + } + else + { + packCount = static_cast(m_packs.size()); + } + return packCount; +} + +void DLCManager::addPack(DLCPack *pack) +{ + m_packs.push_back(pack); +} + +void DLCManager::removePack(DLCPack *pack) +{ + if(pack != nullptr) + { + auto it = find(m_packs.begin(), m_packs.end(), pack); + if(it != m_packs.end() ) m_packs.erase(it); + delete pack; + } +} + +void DLCManager::removeAllPacks(void) +{ + for( DLCPack *pack : m_packs ) + { + if ( pack ) + delete pack; + } + + m_packs.clear(); +} + +void DLCManager::LanguageChanged(void) +{ + for( DLCPack *pack : m_packs ) + { + // update the language + pack->UpdateLanguage(); + } +} + +DLCPack *DLCManager::getPack(const wstring &name) +{ + DLCPack *pack = nullptr; + //DWORD currentIndex = 0; + for( DLCPack * currentPack : m_packs ) + { + wstring wsName=currentPack->getName(); + + if(wsName.compare(name) == 0) + { + pack = currentPack; + break; + } + } + return pack; +} + +#ifdef _XBOX_ONE +DLCPack *DLCManager::getPackFromProductID(const wstring &productID) +{ + DLCPack *pack = nullptr; + for( DLCPack *currentPack : m_packs ) + { + wstring wsName=currentPack->getPurchaseOfferId(); + + if(wsName.compare(productID) == 0) + { + pack = currentPack; + break; + } + } + return pack; +} +#endif + +DLCPack *DLCManager::getPack(DWORD index, EDLCType type /*= e_DLCType_All*/) +{ + DLCPack *pack = nullptr; + if( type != e_DLCType_All ) + { + DWORD currentIndex = 0; + for( DLCPack *currentPack : m_packs ) + { + if(currentPack->getDLCItemsCount(type)>0) + { + if(currentIndex == index) + { + pack = currentPack; + break; + } + ++currentIndex; + } + } + } + else + { + if(index >= m_packs.size()) + { + app.DebugPrintf("DLCManager: Trying to access a DLC pack beyond the range of valid packs\n"); + __debugbreak(); + } + pack = m_packs[index]; + } + + return pack; +} + +DWORD DLCManager::getPackIndex(DLCPack *pack, bool &found, EDLCType type /*= e_DLCType_All*/) +{ + DWORD foundIndex = 0; + found = false; + if(pack == nullptr) + { + app.DebugPrintf("DLCManager: Attempting to find the index for a nullptr pack\n"); + //__debugbreak(); + return foundIndex; + } + if( type != e_DLCType_All ) + { + DWORD index = 0; + for( DLCPack *thisPack : m_packs ) + { + if(thisPack->getDLCItemsCount(type)>0) + { + if(thisPack == pack) + { + found = true; + foundIndex = index; + break; + } + ++index; + } + } + } + else + { + DWORD index = 0; + for( DLCPack *thisPack : m_packs ) + { + if(thisPack == pack) + { + found = true; + foundIndex = index; + break; + } + ++index; + } + } + return foundIndex; +} + +DWORD DLCManager::getPackIndexContainingSkin(const wstring &path, bool &found) +{ + DWORD foundIndex = 0; + found = false; + DWORD index = 0; + for( DLCPack *pack : m_packs ) + { + if(pack->getDLCItemsCount(e_DLCType_Skin)>0) + { + if(pack->doesPackContainSkin(path)) + { + foundIndex = index; + found = true; + break; + } + ++index; + } + } + return foundIndex; +} + +DLCPack *DLCManager::getPackContainingSkin(const wstring &path) +{ + DLCPack *foundPack = nullptr; + for( DLCPack *pack : m_packs ) + { + if(pack->getDLCItemsCount(e_DLCType_Skin)>0) + { + if(pack->doesPackContainSkin(path)) + { + foundPack = pack; + break; + } + } + } + return foundPack; +} + +DLCSkinFile *DLCManager::getSkinFile(const wstring &path) +{ + DLCSkinFile *foundSkinfile = nullptr; + for( DLCPack *pack : m_packs ) + { + foundSkinfile=pack->getSkinFile(path); + if(foundSkinfile!=nullptr) + { + break; + } + } + return foundSkinfile; +} + +DWORD DLCManager::checkForCorruptDLCAndAlert(bool showMessage /*= true*/) +{ + DWORD corruptDLCCount = m_dwUnnamedCorruptDLCCount; + DLCPack *firstCorruptPack = nullptr; + + for( DLCPack *pack : m_packs ) + { + if( pack->IsCorrupt() ) + { + ++corruptDLCCount; + if(firstCorruptPack == nullptr) firstCorruptPack = pack; + } + } + + if(corruptDLCCount > 0 && showMessage) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + if(corruptDLCCount == 1 && firstCorruptPack != nullptr) + { + // pass in the pack format string + WCHAR wchFormat[132]; + swprintf(wchFormat, 132, L"%ls\n\n%%ls", firstCorruptPack->getName().c_str()); + + + } + else + { + + } + } + + SetNeedsCorruptCheck(false); + + return corruptDLCCount; +} + +bool DLCManager::readDLCDataFile(DWORD &dwFilesProcessed, const wstring &path, DLCPack *pack, bool fromArchive) +{ + return readDLCDataFile( dwFilesProcessed, wstringtofilename(path), pack, fromArchive); +} + + +bool DLCManager::readDLCDataFile(DWORD &dwFilesProcessed, const string &path, DLCPack *pack, bool fromArchive) +{ + wstring wPath = convStringToWstring(path); + if (fromArchive && app.getArchiveFileSize(wPath) >= 0) + { + byteArray bytes = app.getArchiveFile(wPath); + return processDLCDataFile(dwFilesProcessed, bytes.data, bytes.length, pack); + } + else if (fromArchive) return false; + +#ifdef _WINDOWS64 + string finalPath = StorageManager.GetMountedPath(path.c_str()); + if(finalPath.size() == 0) finalPath = path; + HANDLE file = CreateFile(finalPath.c_str(), GENERIC_READ, 0, nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr); +#elif defined(_DURANGO) + wstring finalPath = StorageManager.GetMountedPath(wPath.c_str()); + if(finalPath.size() == 0) finalPath = wPath; + HANDLE file = CreateFile(finalPath.c_str(), GENERIC_READ, 0, nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr); +#else + HANDLE file = CreateFile(path.c_str(), GENERIC_READ, 0, nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr); +#endif + if( file == INVALID_HANDLE_VALUE ) + { + DWORD error = GetLastError(); + app.DebugPrintf("Failed to open DLC data file with error code %d (%x)\n", error, error); + if( dwFilesProcessed == 0 ) removePack(pack); + assert(false); + return false; + } + + DWORD bytesRead,dwFileSize = GetFileSize(file,nullptr); + PBYTE pbData = (PBYTE) new BYTE[dwFileSize]; + BOOL bSuccess = ReadFile(file,pbData,dwFileSize,&bytesRead,nullptr); + if(bSuccess==FALSE) + { + // need to treat the file as corrupt, and flag it, so can't call fatal error + //app.FatalLoadError(); + } + else + { + CloseHandle(file); + } + if(bSuccess==FALSE) + { + // Corrupt or some other error. In any case treat as corrupt + app.DebugPrintf("Failed to read %s from DLC content package\n", path.c_str()); + pack->SetIsCorrupt( true ); + SetNeedsCorruptCheck(true); + return false; + } + return processDLCDataFile(dwFilesProcessed, pbData, bytesRead, pack); +} + +bool DLCManager::processDLCDataFile(DWORD &dwFilesProcessed, PBYTE pbData, DWORD dwLength, DLCPack *pack) +{ + unordered_map parameterMapping; + unsigned int uiCurrentByte=0; + + // File format defined in the DLC_Creator + // File format: Version 2 + // unsigned long, version number + // unsigned long, t = number of parameter types + // t * DLC_FILE_PARAM structs mapping strings to id's + // unsigned long, n = number of files + // n * DLC_FILE_DETAILS describing each file in the pack + // n * files of the form + // // unsigned long, p = number of parameters + // // p * DLC_FILE_PARAM describing each parameter for this file + // // ulFileSize bytes of data blob of the file added + unsigned int uiVersion=*(unsigned int *)pbData; + uiCurrentByte+=sizeof(int); + + if(uiVersion < CURRENT_DLC_VERSION_NUM) + { + if(pbData!=nullptr) delete [] pbData; + app.DebugPrintf("DLC version of %d is too old to be read\n", uiVersion); + return false; + } + pack->SetDataPointer(pbData); + unsigned int uiParameterCount=*(unsigned int *)&pbData[uiCurrentByte]; + uiCurrentByte+=sizeof(int); + C4JStorage::DLC_FILE_PARAM *pParams = (C4JStorage::DLC_FILE_PARAM *)&pbData[uiCurrentByte]; + //DWORD dwwchCount=0; + for(unsigned int i=0;i(pParams->wchData)); + EDLCParameterType type = getParameterType(parameterName); + if( type != e_DLCParamType_Invalid ) + { + parameterMapping[pParams->dwType] = type; + } + uiCurrentByte+= sizeof(C4JStorage::DLC_FILE_PARAM)+(pParams->dwWchCount*sizeof(WCHAR)); + pParams = (C4JStorage::DLC_FILE_PARAM *)&pbData[uiCurrentByte]; + } + //ulCurrentByte+=ulParameterCount * sizeof(C4JStorage::DLC_FILE_PARAM); + + unsigned int uiFileCount=*(unsigned int *)&pbData[uiCurrentByte]; + uiCurrentByte+=sizeof(int); + C4JStorage::DLC_FILE_DETAILS *pFile = (C4JStorage::DLC_FILE_DETAILS *)&pbData[uiCurrentByte]; + + DWORD dwTemp=uiCurrentByte; + for(unsigned int i=0;idwWchCount*sizeof(WCHAR); + pFile = (C4JStorage::DLC_FILE_DETAILS *)&pbData[dwTemp]; + } + PBYTE pbTemp=((PBYTE )pFile);//+ sizeof(C4JStorage::DLC_FILE_DETAILS)*ulFileCount; + pFile = (C4JStorage::DLC_FILE_DETAILS *)&pbData[uiCurrentByte]; + + for(unsigned int i=0;i(pFile->dwType); + + DLCFile *dlcFile = nullptr; + DLCPack *dlcTexturePack = nullptr; + + if(type == e_DLCType_TexturePack) + { + dlcTexturePack = new DLCPack(pack->getName(), pack->getLicenseMask()); + } + else if(type != e_DLCType_PackConfig) + { + dlcFile = pack->addFile(type,(WCHAR *)pFile->wchFile); + } + + // Params + uiParameterCount=*(unsigned int *)pbTemp; + pbTemp+=sizeof(int); + pParams = (C4JStorage::DLC_FILE_PARAM *)pbTemp; + for(unsigned int j=0;jdwType); + + if(it != parameterMapping.end() ) + { + if(type == e_DLCType_PackConfig) + { + pack->addParameter(it->second,(WCHAR *)pParams->wchData); + } + else + { + if(dlcFile != nullptr) dlcFile->addParameter(it->second,(WCHAR *)pParams->wchData); + else if(dlcTexturePack != nullptr) dlcTexturePack->addParameter(it->second, (WCHAR *)pParams->wchData); + } + } + pbTemp+=sizeof(C4JStorage::DLC_FILE_PARAM)+(sizeof(WCHAR)*pParams->dwWchCount); + pParams = (C4JStorage::DLC_FILE_PARAM *)pbTemp; + } + //pbTemp+=ulParameterCount * sizeof(C4JStorage::DLC_FILE_PARAM); + + if(dlcTexturePack != nullptr) + { + DWORD texturePackFilesProcessed = 0; + bool validPack = processDLCDataFile(texturePackFilesProcessed,pbTemp,pFile->uiFileSize,dlcTexturePack); + pack->SetDataPointer(nullptr); // If it's a child pack, it doesn't own the data + if(!validPack || texturePackFilesProcessed == 0) + { + delete dlcTexturePack; + dlcTexturePack = nullptr; + } + else + { + pack->addChildPack(dlcTexturePack); + + if(dlcTexturePack->getDLCItemsCount(e_DLCType_Texture) > 0) + { + Minecraft::GetInstance()->skins->addTexturePackFromDLC(dlcTexturePack, dlcTexturePack->GetPackId() ); + } + } + ++dwFilesProcessed; + } + else if(dlcFile != nullptr) + { + // Data + dlcFile->addData(pbTemp,pFile->uiFileSize); + + // TODO - 4J Stu Remove the need for this vSkinNames vector, or manage it differently + switch(pFile->dwType) + { + case e_DLCType_Skin: + app.vSkinNames.push_back((WCHAR *)pFile->wchFile); + break; + } + + ++dwFilesProcessed; + } + + // Move the pointer to the start of the next files data; + pbTemp+=pFile->uiFileSize; + uiCurrentByte+=sizeof(C4JStorage::DLC_FILE_DETAILS)+pFile->dwWchCount*sizeof(WCHAR); + + pFile=(C4JStorage::DLC_FILE_DETAILS *)&pbData[uiCurrentByte]; + } + + if( pack->getDLCItemsCount(e_DLCType_GameRules) > 0 + || pack->getDLCItemsCount(e_DLCType_GameRulesHeader) > 0) + { + app.m_gameRules.loadGameRules(pack); + } + + if(pack->getDLCItemsCount(e_DLCType_Audio) > 0) + { + //app.m_Audio.loadAudioDetails(pack); + } + // TODO Should be able to delete this data, but we can't yet due to how it is added to the Memory textures (MEM_file) + + return true; +} + +DWORD DLCManager::retrievePackIDFromDLCDataFile(const string &path, DLCPack *pack) +{ + DWORD packId = 0; + wstring wPath = convStringToWstring(path); + +#ifdef _WINDOWS64 + string finalPath = StorageManager.GetMountedPath(path.c_str()); + if(finalPath.size() == 0) finalPath = path; + HANDLE file = CreateFile(finalPath.c_str(), GENERIC_READ, 0, nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr); +#elif defined(_DURANGO) + wstring finalPath = StorageManager.GetMountedPath(wPath.c_str()); + if(finalPath.size() == 0) finalPath = wPath; + HANDLE file = CreateFile(finalPath.c_str(), GENERIC_READ, 0, nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr); +#else + HANDLE file = CreateFile(path.c_str(), GENERIC_READ, 0, nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr); +#endif + if( file == INVALID_HANDLE_VALUE ) + { + return 0; + } + + DWORD bytesRead,dwFileSize = GetFileSize(file,nullptr); + PBYTE pbData = (PBYTE) new BYTE[dwFileSize]; + BOOL bSuccess = ReadFile(file,pbData,dwFileSize,&bytesRead,nullptr); + if(bSuccess==FALSE) + { + // need to treat the file as corrupt, and flag it, so can't call fatal error + //app.FatalLoadError(); + } + else + { + CloseHandle(file); + } + if(bSuccess==FALSE) + { + // Corrupt or some other error. In any case treat as corrupt + app.DebugPrintf("Failed to read %s from DLC content package\n", path.c_str()); + delete [] pbData; + return 0; + } + packId=retrievePackID(pbData, bytesRead, pack); + delete [] pbData; + + return packId; +} + +DWORD DLCManager::retrievePackID(PBYTE pbData, DWORD dwLength, DLCPack *pack) +{ + DWORD packId=0; + bool bPackIDSet=false; + unordered_map parameterMapping; + unsigned int uiCurrentByte=0; + + // File format defined in the DLC_Creator + // File format: Version 2 + // unsigned long, version number + // unsigned long, t = number of parameter types + // t * DLC_FILE_PARAM structs mapping strings to id's + // unsigned long, n = number of files + // n * DLC_FILE_DETAILS describing each file in the pack + // n * files of the form + // // unsigned long, p = number of parameters + // // p * DLC_FILE_PARAM describing each parameter for this file + // // ulFileSize bytes of data blob of the file added + unsigned int uiVersion=*(unsigned int *)pbData; + uiCurrentByte+=sizeof(int); + + if(uiVersion < CURRENT_DLC_VERSION_NUM) + { + app.DebugPrintf("DLC version of %d is too old to be read\n", uiVersion); + return 0; + } + pack->SetDataPointer(pbData); + unsigned int uiParameterCount=*(unsigned int *)&pbData[uiCurrentByte]; + uiCurrentByte+=sizeof(int); + C4JStorage::DLC_FILE_PARAM *pParams = (C4JStorage::DLC_FILE_PARAM *)&pbData[uiCurrentByte]; + for(unsigned int i=0;i(pParams->wchData)); + EDLCParameterType type = getParameterType(parameterName); + if( type != e_DLCParamType_Invalid ) + { + parameterMapping[pParams->dwType] = type; + } + uiCurrentByte+= sizeof(C4JStorage::DLC_FILE_PARAM)+(pParams->dwWchCount*sizeof(WCHAR)); + pParams = (C4JStorage::DLC_FILE_PARAM *)&pbData[uiCurrentByte]; + } + + unsigned int uiFileCount=*(unsigned int *)&pbData[uiCurrentByte]; + uiCurrentByte+=sizeof(int); + C4JStorage::DLC_FILE_DETAILS *pFile = (C4JStorage::DLC_FILE_DETAILS *)&pbData[uiCurrentByte]; + + DWORD dwTemp=uiCurrentByte; + for(unsigned int i=0;idwWchCount*sizeof(WCHAR); + pFile = (C4JStorage::DLC_FILE_DETAILS *)&pbData[dwTemp]; + } + PBYTE pbTemp=((PBYTE )pFile); + pFile = (C4JStorage::DLC_FILE_DETAILS *)&pbData[uiCurrentByte]; + + for(unsigned int i=0;i(pFile->dwType); + + // Params + uiParameterCount=*(unsigned int *)pbTemp; + pbTemp+=sizeof(int); + pParams = (C4JStorage::DLC_FILE_PARAM *)pbTemp; + for(unsigned int j=0;jdwType); + + if(it != parameterMapping.end() ) + { + if(type==e_DLCType_PackConfig) + { + if(it->second==e_DLCParamType_PackId) + { + wstring wsTemp=static_cast(pParams->wchData); + std::wstringstream ss; + // 4J Stu - numbered using decimal to make it easier for artists/people to number manually + ss << std::dec << wsTemp.c_str(); + ss >> packId; + bPackIDSet=true; + break; + } + } + } + pbTemp+=sizeof(C4JStorage::DLC_FILE_PARAM)+(sizeof(WCHAR)*pParams->dwWchCount); + pParams = (C4JStorage::DLC_FILE_PARAM *)pbTemp; + } + + if(bPackIDSet) break; + // Move the pointer to the start of the next files data; + pbTemp+=pFile->uiFileSize; + uiCurrentByte+=sizeof(C4JStorage::DLC_FILE_DETAILS)+pFile->dwWchCount*sizeof(WCHAR); + + pFile=(C4JStorage::DLC_FILE_DETAILS *)&pbData[uiCurrentByte]; + } + + parameterMapping.clear(); + return packId; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCManager.h b/Minecraft.Client/Common/DLC/DLCManager.h new file mode 100644 index 0000000..d4dd250 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCManager.h @@ -0,0 +1,101 @@ +#pragma once +using namespace std; +#include +class DLCPack; +class DLCSkinFile; + +class DLCManager +{ +public: + enum EDLCType + { + e_DLCType_Skin = 0, + e_DLCType_Cape, + e_DLCType_Texture, + e_DLCType_UIData, + e_DLCType_PackConfig, + e_DLCType_TexturePack, + e_DLCType_LocalisationData, + e_DLCType_GameRules, + e_DLCType_Audio, + e_DLCType_ColourTable, + e_DLCType_GameRulesHeader, + + e_DLCType_Max, + e_DLCType_All, + }; + + // If you add to the Enum,then you need to add the array of type names + // These are the names used in the XML for the parameters + enum EDLCParameterType + { + e_DLCParamType_Invalid = -1, + + e_DLCParamType_DisplayName = 0, + e_DLCParamType_ThemeName, + e_DLCParamType_Free, // identify free skins + e_DLCParamType_Credit, // legal credits for DLC + e_DLCParamType_Cape, + e_DLCParamType_Box, + e_DLCParamType_Anim, + e_DLCParamType_PackId, + e_DLCParamType_NetherParticleColour, + e_DLCParamType_EnchantmentTextColour, + e_DLCParamType_EnchantmentTextFocusColour, + e_DLCParamType_DataPath, + e_DLCParamType_PackVersion, + + e_DLCParamType_Max, + + }; + static const WCHAR *wchTypeNamesA[e_DLCParamType_Max]; + +private: + vector m_packs; + //bool m_bNeedsUpdated; + bool m_bNeedsCorruptCheck; + DWORD m_dwUnnamedCorruptDLCCount; +public: + DLCManager(); + ~DLCManager(); + + static EDLCParameterType getParameterType(const wstring ¶mName); + + DWORD getPackCount(EDLCType type = e_DLCType_All); + + //bool NeedsUpdated() { return m_bNeedsUpdated; } + //void SetNeedsUpdated(bool val) { m_bNeedsUpdated = val; } + + bool NeedsCorruptCheck() { return m_bNeedsCorruptCheck; } + void SetNeedsCorruptCheck(bool val) { m_bNeedsCorruptCheck = val; } + + void resetUnnamedCorruptCount() { m_dwUnnamedCorruptDLCCount = 0; } + void incrementUnnamedCorruptCount() { ++m_dwUnnamedCorruptDLCCount; } + + void addPack(DLCPack *pack); + void removePack(DLCPack *pack); + void removeAllPacks(void); + void LanguageChanged(void); + + DLCPack *getPack(const wstring &name); +#ifdef _XBOX_ONE + DLCPack *DLCManager::getPackFromProductID(const wstring &productID); +#endif + DLCPack *getPack(DWORD index, EDLCType type = e_DLCType_All); + DWORD getPackIndex(DLCPack *pack, bool &found, EDLCType type = e_DLCType_All); + DLCSkinFile *getSkinFile(const wstring &path); // Will hunt all packs of type skin to find the right skinfile + + DLCPack *getPackContainingSkin(const wstring &path); + DWORD getPackIndexContainingSkin(const wstring &path, bool &found); + + DWORD checkForCorruptDLCAndAlert(bool showMessage = true); + + bool readDLCDataFile(DWORD &dwFilesProcessed, const wstring &path, DLCPack *pack, bool fromArchive = false); + bool readDLCDataFile(DWORD &dwFilesProcessed, const string &path, DLCPack *pack, bool fromArchive = false); + DWORD retrievePackIDFromDLCDataFile(const string &path, DLCPack *pack); + +private: + bool processDLCDataFile(DWORD &dwFilesProcessed, PBYTE pbData, DWORD dwLength, DLCPack *pack); + + DWORD retrievePackID(PBYTE pbData, DWORD dwLength, DLCPack *pack); +}; diff --git a/Minecraft.Client/Common/DLC/DLCPack.cpp b/Minecraft.Client/Common/DLC/DLCPack.cpp new file mode 100644 index 0000000..110008c --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCPack.cpp @@ -0,0 +1,433 @@ +#include "stdafx.h" +#include "DLCPack.h" +#include "DLCSkinFile.h" +#include "DLCCapeFile.h" +#include "DLCTextureFile.h" +#include "DLCUIDataFile.h" +#include "DLCLocalisationFile.h" +#include "DLCGameRulesFile.h" +#include "DLCGameRulesHeader.h" +#include "DLCAudioFile.h" +#include "DLCColourTableFile.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" + +DLCPack::DLCPack(const wstring &name,DWORD dwLicenseMask) +{ + m_dataPath = L""; + m_packName = name; + m_dwLicenseMask=dwLicenseMask; +#ifdef _XBOX_ONE + m_wsProductId = L""; +#else + m_ullFullOfferId = 0LL; +#endif + m_isCorrupt = false; + m_packId = 0; + m_packVersion = 0; + m_parentPack = nullptr; + m_dlcMountIndex = -1; +#ifdef _XBOX + m_dlcDeviceID = XCONTENTDEVICE_ANY; +#endif + + // This pointer is for all the data used for this pack, so deleting it invalidates ALL of it's children. + m_data = nullptr; +} + +#ifdef _XBOX_ONE +DLCPack::DLCPack(const wstring &name,const wstring &productID,DWORD dwLicenseMask) +{ + m_dataPath = L""; + m_packName = name; + m_dwLicenseMask=dwLicenseMask; + m_wsProductId = productID; + m_isCorrupt = false; + m_packId = 0; + m_packVersion = 0; + m_parentPack = nullptr; + m_dlcMountIndex = -1; + + // This pointer is for all the data used for this pack, so deleting it invalidates ALL of it's children. + m_data = nullptr; +} +#endif + +DLCPack::~DLCPack() +{ + for( auto& it : m_childPacks ) + { + if ( it ) + delete it; + } + + for(unsigned int i = 0; i < DLCManager::e_DLCType_Max; ++i) + { + for (auto& it : m_files[i] ) + { + if ( it ) + delete it; + } + } + + // This pointer is for all the data used for this pack, so deleting it invalidates ALL of it's children. + if(m_data) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Deleting data for DLC pack %ls\n", m_packName.c_str()); +#endif + // For the same reason, don't delete data pointer for any child pack as it just points to a region within the parent pack that has already been freed + if( m_parentPack == nullptr ) + { + delete [] m_data; + } + } +} + +DWORD DLCPack::GetDLCMountIndex() +{ + if(m_parentPack != nullptr) + { + return m_parentPack->GetDLCMountIndex(); + } + return m_dlcMountIndex; +} + +XCONTENTDEVICEID DLCPack::GetDLCDeviceID() +{ + if(m_parentPack != nullptr ) + { + return m_parentPack->GetDLCDeviceID(); + } + return m_dlcDeviceID; +} + +void DLCPack::addChildPack(DLCPack *childPack) +{ + int packId = childPack->GetPackId(); +#ifndef _CONTENT_PACKAGE + if(packId < 0 || packId > 15) + { + __debugbreak(); + } +#endif + childPack->SetPackId( (packId<<24) | m_packId ); + m_childPacks.push_back(childPack); + childPack->setParentPack(this); + childPack->m_packName = m_packName + childPack->getName(); +} + +void DLCPack::setParentPack(DLCPack *parentPack) +{ + m_parentPack = parentPack; +} + +void DLCPack::addParameter(DLCManager::EDLCParameterType type, const wstring &value) +{ + switch(type) + { + case DLCManager::e_DLCParamType_PackId: + { + DWORD packId = 0; + + std::wstringstream ss; + // 4J Stu - numbered using decimal to make it easier for artists/people to number manually + ss << std::dec << value.c_str(); + ss >> packId; + + SetPackId(packId); + } + break; + case DLCManager::e_DLCParamType_PackVersion: + { + DWORD version = 0; + + std::wstringstream ss; + // 4J Stu - numbered using decimal to make it easier for artists/people to number manually + ss << std::dec << value.c_str(); + ss >> version; + + SetPackVersion(version); + } + break; + case DLCManager::e_DLCParamType_DisplayName: + m_packName = value; + break; + case DLCManager::e_DLCParamType_DataPath: + m_dataPath = value; + break; + default: + m_parameters[static_cast(type)] = value; + break; + } +} + +bool DLCPack::getParameterAsUInt(DLCManager::EDLCParameterType type, unsigned int ¶m) +{ + auto it = m_parameters.find((int)type); + if(it != m_parameters.end()) + { + switch(type) + { + case DLCManager::e_DLCParamType_NetherParticleColour: + case DLCManager::e_DLCParamType_EnchantmentTextColour: + case DLCManager::e_DLCParamType_EnchantmentTextFocusColour: + { + std::wstringstream ss; + ss << std::hex << it->second.c_str(); + ss >> param; + } + break; + default: + param = _fromString(it->second); + } + return true; + } + return false; +} + +DLCFile *DLCPack::addFile(DLCManager::EDLCType type, const wstring &path) +{ + DLCFile *newFile = nullptr; + + switch(type) + { + case DLCManager::e_DLCType_Skin: + { + wstring newPath = replaceAll(path, L"\\", L"/"); + std::vector splitPath = stringSplit(newPath,L'/'); + wstring strippedPath = splitPath.back(); + + newFile = new DLCSkinFile(strippedPath); + + // check to see if we can get the full offer id using this skin name +#ifdef _XBOX_ONE + app.GetDLCFullOfferIDForSkinID(strippedPath,m_wsProductId); +#else + ULONGLONG ullVal=0LL; + + if(app.GetDLCFullOfferIDForSkinID(strippedPath,&ullVal)) + { + m_ullFullOfferId=ullVal; + } +#endif + } + break; + case DLCManager::e_DLCType_Cape: + { + wstring newPath = replaceAll(path, L"\\", L"/"); + std::vector splitPath = stringSplit(newPath,L'/'); + wstring strippedPath = splitPath.back(); + newFile = new DLCCapeFile(strippedPath); + } + break; + case DLCManager::e_DLCType_Texture: + newFile = new DLCTextureFile(path); + break; + case DLCManager::e_DLCType_UIData: + newFile = new DLCUIDataFile(path); + break; + case DLCManager::e_DLCType_LocalisationData: + newFile = new DLCLocalisationFile(path); + break; + case DLCManager::e_DLCType_GameRules: + newFile = new DLCGameRulesFile(path); + break; + case DLCManager::e_DLCType_Audio: + newFile = new DLCAudioFile(path); + break; + case DLCManager::e_DLCType_ColourTable: + newFile = new DLCColourTableFile(path); + break; + case DLCManager::e_DLCType_GameRulesHeader: + newFile = new DLCGameRulesHeader(path); + break; + }; + + if( newFile != nullptr ) + { + m_files[newFile->getType()].push_back(newFile); + } + + return newFile; +} + +// MGH - added this comp func, as the embedded func in find_if was confusing the PS3 compiler +static const wstring *g_pathCmpString = nullptr; +static bool pathCmp(DLCFile *val) +{ + return (g_pathCmpString->compare(val->getPath()) == 0); +} + +bool DLCPack::doesPackContainFile(DLCManager::EDLCType type, const wstring &path) +{ + bool hasFile = false; + if(type == DLCManager::e_DLCType_All) + { + for(DLCManager::EDLCType currentType = static_cast(0); currentType < DLCManager::e_DLCType_Max; currentType = static_cast(currentType + 1)) + { + hasFile = doesPackContainFile(currentType,path); + if(hasFile) break; + } + } + else + { + g_pathCmpString = &path; + auto it = find_if(m_files[type].begin(), m_files[type].end(), pathCmp); + hasFile = it != m_files[type].end(); + if(!hasFile && m_parentPack ) + { + hasFile = m_parentPack->doesPackContainFile(type,path); + } + } + return hasFile; +} + +DLCFile *DLCPack::getFile(DLCManager::EDLCType type, DWORD index) +{ + DLCFile *file = nullptr; + if(type == DLCManager::e_DLCType_All) + { + for(DLCManager::EDLCType currentType = static_cast(0); currentType < DLCManager::e_DLCType_Max; currentType = static_cast(currentType + 1)) + { + file = getFile(currentType,index); + if(file != nullptr) break; + } + } + else + { + if(m_files[type].size() > index) file = m_files[type][index]; + if(!file && m_parentPack) + { + file = m_parentPack->getFile(type,index); + } + } + return file; +} + +DLCFile *DLCPack::getFile(DLCManager::EDLCType type, const wstring &path) +{ + DLCFile *file = nullptr; + if(type == DLCManager::e_DLCType_All) + { + for(DLCManager::EDLCType currentType = static_cast(0); currentType < DLCManager::e_DLCType_Max; currentType = static_cast(currentType + 1)) + { + file = getFile(currentType,path); + if(file != nullptr) break; + } + } + else + { + g_pathCmpString = &path; + auto it = find_if(m_files[type].begin(), m_files[type].end(), pathCmp); + + if(it == m_files[type].end()) + { + // Not found + file = nullptr; + } + else + { + file = *it; + } + if(!file && m_parentPack) + { + file = m_parentPack->getFile(type,path); + } + } + return file; +} + +DWORD DLCPack::getDLCItemsCount(DLCManager::EDLCType type /*= DLCManager::e_DLCType_All*/) +{ + DWORD count = 0; + + switch(type) + { + case DLCManager::e_DLCType_All: + for(int i = 0; i < DLCManager::e_DLCType_Max; ++i) + { + count += getDLCItemsCount(static_cast(i)); + } + break; + default: + count = static_cast(m_files[(int)type].size()); + break; + }; + return count; +}; + +DWORD DLCPack::getFileIndexAt(DLCManager::EDLCType type, const wstring &path, bool &found) +{ + if(type == DLCManager::e_DLCType_All) + { + app.DebugPrintf("Unimplemented\n"); +#ifndef __CONTENT_PACKAGE + __debugbreak(); +#endif + return 0; + } + + DWORD foundIndex = 0; + found = false; + DWORD index = 0; + for( auto& it : m_files[type] ) + { + if(path.compare(it->getPath()) == 0) + { + foundIndex = index; + found = true; + break; + } + ++index; + } + + return foundIndex; +} + +bool DLCPack::hasPurchasedFile(DLCManager::EDLCType type, const wstring &path) +{ + // Patch all DLC to be "purchased" + return true; + + /*if(type == DLCManager::e_DLCType_All) + { + app.DebugPrintf("Unimplemented\n"); +#ifndef _CONTENT_PACKAGE + __debugbreak(); +#endif + return false; + } +#ifndef _CONTENT_PACKAGE + if( app.GetGameSettingsDebugMask(ProfileManager.GetPrimaryPad())&(1L< 0) + { + file = m_files[DLCManager::e_DLCType_LocalisationData][0]; + DLCLocalisationFile *localisationFile = static_cast(getFile(DLCManager::e_DLCType_LocalisationData, L"languages.loc")); + StringTable *strTable = localisationFile->getStringTable(); + strTable->ReloadStringTable(); + } + +} \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCPack.h b/Minecraft.Client/Common/DLC/DLCPack.h new file mode 100644 index 0000000..14129cb --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCPack.h @@ -0,0 +1,95 @@ +#pragma once +using namespace std; +#include "DLCManager.h" + +class DLCFile; +class DLCSkinFile; + +class DLCPack +{ +private: + vector m_files[DLCManager::e_DLCType_Max]; + vector m_childPacks; + DLCPack *m_parentPack; + + unordered_map m_parameters; + + wstring m_packName; + wstring m_dataPath; + DWORD m_dwLicenseMask; + int m_dlcMountIndex; + XCONTENTDEVICEID m_dlcDeviceID; +#ifdef _XBOX_ONE + wstring m_wsProductId; +#else + ULONGLONG m_ullFullOfferId; +#endif + bool m_isCorrupt; + DWORD m_packId; + DWORD m_packVersion; + + PBYTE m_data; // This pointer is for all the data used for this pack, so deleting it invalidates ALL of it's children. +public: + + DLCPack(const wstring &name,DWORD dwLicenseMask); +#ifdef _XBOX_ONE + DLCPack(const wstring &name,const wstring &productID,DWORD dwLicenseMask); +#endif + ~DLCPack(); + + wstring getFullDataPath() { return m_dataPath; } + + void SetDataPointer(PBYTE pbData) { m_data = pbData; } + + bool IsCorrupt() { return m_isCorrupt; } + void SetIsCorrupt(bool val) { m_isCorrupt = val; } + + void SetPackId(DWORD id) { m_packId = id; } + DWORD GetPackId() { return m_packId; } + + void SetPackVersion(DWORD version) { m_packVersion = version; } + DWORD GetPackVersion() { return m_packVersion; } + + DLCPack * GetParentPack() { return m_parentPack; } + DWORD GetParentPackId() { return m_parentPack->m_packId; } + + void SetDLCMountIndex(DWORD id) { m_dlcMountIndex = id; } + DWORD GetDLCMountIndex(); + void SetDLCDeviceID(XCONTENTDEVICEID deviceId) { m_dlcDeviceID = deviceId; } + XCONTENTDEVICEID GetDLCDeviceID(); + + void addChildPack(DLCPack *childPack); + void setParentPack(DLCPack *parentPack); + + void addParameter(DLCManager::EDLCParameterType type, const wstring &value); + bool getParameterAsUInt(DLCManager::EDLCParameterType type, unsigned int ¶m); + + void updateLicenseMask( DWORD dwLicenseMask ) { m_dwLicenseMask = dwLicenseMask; } + DWORD getLicenseMask( ) { return m_dwLicenseMask; } + + wstring getName() { return m_packName; } + + void UpdateLanguage(); +#ifdef _XBOX_ONE + wstring getPurchaseOfferId() { return m_wsProductId; } +#else + ULONGLONG getPurchaseOfferId() { return m_ullFullOfferId; } +#endif + + DLCFile *addFile(DLCManager::EDLCType type, const wstring &path); + DLCFile *getFile(DLCManager::EDLCType type, DWORD index); + DLCFile *getFile(DLCManager::EDLCType type, const wstring &path); + + DWORD getDLCItemsCount(DLCManager::EDLCType type = DLCManager::e_DLCType_All); + DWORD getFileIndexAt(DLCManager::EDLCType type, const wstring &path, bool &found); + bool doesPackContainFile(DLCManager::EDLCType type, const wstring &path); + DWORD GetPackID() {return m_packId;} + + DWORD getSkinCount() { return getDLCItemsCount(DLCManager::e_DLCType_Skin); } + DWORD getSkinIndexAt(const wstring &path, bool &found) { return getFileIndexAt(DLCManager::e_DLCType_Skin, path, found); } + DLCSkinFile *getSkinFile(const wstring &path) { return static_cast(getFile(DLCManager::e_DLCType_Skin, path)); } + DLCSkinFile *getSkinFile(DWORD index) { return static_cast(getFile(DLCManager::e_DLCType_Skin, index)); } + bool doesPackContainSkin(const wstring &path) { return doesPackContainFile(DLCManager::e_DLCType_Skin, path); } + + bool hasPurchasedFile(DLCManager::EDLCType type, const wstring &path); +}; diff --git a/Minecraft.Client/Common/DLC/DLCSkinFile.cpp b/Minecraft.Client/Common/DLC/DLCSkinFile.cpp new file mode 100644 index 0000000..d3364c8 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCSkinFile.cpp @@ -0,0 +1,211 @@ +#include "stdafx.h" +#include "DLCManager.h" +#include "DLCSkinFile.h" +#include "..\..\..\Minecraft.World\Player.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" + +DLCSkinFile::DLCSkinFile(const wstring &path) : DLCFile(DLCManager::e_DLCType_Skin,path) +{ + m_displayName = L""; + m_themeName = L""; + m_cape = L""; + m_bIsFree = false; + m_uiAnimOverrideBitmask=0L; +} + +void DLCSkinFile::addData(PBYTE pbData, DWORD dwBytes) +{ + app.AddMemoryTextureFile(m_path,pbData,dwBytes); +} + +void DLCSkinFile::addParameter(DLCManager::EDLCParameterType type, const wstring &value) +{ + switch(type) + { + case DLCManager::e_DLCParamType_DisplayName: + { + // 4J Stu - In skin pack 2, the name for Zap is mis-spelt with two p's as Zapp + // dlcskin00000109.png + if( m_path.compare(L"dlcskin00000109.png") == 0) + { + m_displayName = L"Zap"; + } + else + { + m_displayName = value; + } + } + break; + case DLCManager::e_DLCParamType_ThemeName: + m_themeName = value; + break; + case DLCManager::e_DLCParamType_Free: // If this parameter exists, then mark this as free + m_bIsFree = true; + break; + case DLCManager::e_DLCParamType_Credit: // If this parameter exists, then mark this as free + //add it to the DLC credits list + + // we'll need to justify this text since we don't have a lot of room for lines of credits + { + if(app.AlreadySeenCreditText(value)) break; + // first add a blank string for spacing + app.AddCreditText(L""); + + int maximumChars = 55; + + bool bIsSDMode=!RenderManager.IsHiDef() && !RenderManager.IsWidescreen(); + + if(bIsSDMode) + { + maximumChars = 45; + } + + switch(XGetLanguage()) + { + case XC_LANGUAGE_JAPANESE: + case XC_LANGUAGE_TCHINESE: + case XC_LANGUAGE_KOREAN: + maximumChars = 35; + break; + } + wstring creditValue = value; + while (creditValue.length() > maximumChars) + { + unsigned int i = 1; + while (i < creditValue.length() && (i + 1) <= maximumChars) + { + i++; + } + size_t iLast=creditValue.find_last_of(L" ", i); + switch(XGetLanguage()) + { + case XC_LANGUAGE_JAPANESE: + case XC_LANGUAGE_TCHINESE: + case XC_LANGUAGE_KOREAN: + iLast = maximumChars; + break; + default: + iLast=creditValue.find_last_of(L" ", i); + break; + } + + // if a space was found, include the space on this line + if(iLast!=i) + { + iLast++; + } + + app.AddCreditText((creditValue.substr(0, iLast)).c_str()); + creditValue = creditValue.substr(iLast); + } + app.AddCreditText(creditValue.c_str()); + + } + break; + case DLCManager::e_DLCParamType_Cape: + m_cape = value; + break; + case DLCManager::e_DLCParamType_Box: + { + WCHAR wchBodyPart[10]; + SKIN_BOX *pSkinBox = new SKIN_BOX; + ZeroMemory(pSkinBox,sizeof(SKIN_BOX)); + +#ifdef __PS3__ + // 4J Stu - The Xbox version used swscanf_s which isn't available in GCC. + swscanf(value.c_str(), L"%10ls%f%f%f%f%f%f%f%f", wchBodyPart, +#else + swscanf_s(value.c_str(), L"%9ls%f%f%f%f%f%f%f%f", wchBodyPart,10, +#endif + &pSkinBox->fX, + &pSkinBox->fY, + &pSkinBox->fZ, + &pSkinBox->fW, + &pSkinBox->fH, + &pSkinBox->fD, + &pSkinBox->fU, + &pSkinBox->fV); + + if(wcscmp(wchBodyPart,L"HEAD")==0) + { + pSkinBox->ePart=eBodyPart_Head; + } + else if(wcscmp(wchBodyPart,L"BODY")==0) + { + pSkinBox->ePart=eBodyPart_Body; + } + else if(wcscmp(wchBodyPart,L"ARM0")==0) + { + pSkinBox->ePart=eBodyPart_Arm0; + } + else if(wcscmp(wchBodyPart,L"ARM1")==0) + { + pSkinBox->ePart=eBodyPart_Arm1; + } + else if(wcscmp(wchBodyPart,L"LEG0")==0) + { + pSkinBox->ePart=eBodyPart_Leg0; + } + else if(wcscmp(wchBodyPart,L"LEG1")==0) + { + pSkinBox->ePart=eBodyPart_Leg1; + } + + // add this to the skin's vector of parts + m_AdditionalBoxes.push_back(pSkinBox); + } + break; + case DLCManager::e_DLCParamType_Anim: +#ifdef __PS3__ + // 4J Stu - The Xbox version used swscanf_s which isn't available in GCC. + swscanf(value.c_str(), L"%X", &m_uiAnimOverrideBitmask); +#else + swscanf_s(value.c_str(), L"%X", &m_uiAnimOverrideBitmask,sizeof(unsigned int)); +#endif + DWORD skinId = app.getSkinIdFromPath(m_path); + app.SetAnimOverrideBitmask(skinId, m_uiAnimOverrideBitmask); + break; + } +} + +// vector *DLCSkinFile::getAdditionalModelParts() +// { +// return &m_AdditionalModelParts; +// } + +int DLCSkinFile::getAdditionalBoxesCount() +{ + return static_cast(m_AdditionalBoxes.size()); +} +vector *DLCSkinFile::getAdditionalBoxes() +{ + return &m_AdditionalBoxes; +} + +wstring DLCSkinFile::getParameterAsString(DLCManager::EDLCParameterType type) +{ + switch(type) + { + case DLCManager::e_DLCParamType_DisplayName: + return m_displayName; + case DLCManager::e_DLCParamType_ThemeName: + return m_themeName; + case DLCManager::e_DLCParamType_Cape: + return m_cape; + default: + return L""; + } +} + +bool DLCSkinFile::getParameterAsBool(DLCManager::EDLCParameterType type) +{ + switch(type) + { + case DLCManager::e_DLCParamType_Free: + // Patch all DLC to be "paid" + return false; + // return m_bIsFree; + default: + return false; + } +} diff --git a/Minecraft.Client/Common/DLC/DLCSkinFile.h b/Minecraft.Client/Common/DLC/DLCSkinFile.h new file mode 100644 index 0000000..9857961 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCSkinFile.h @@ -0,0 +1,28 @@ +#pragma once +#include "DLCFile.h" + +class DLCSkinFile : public DLCFile +{ + +private: + wstring m_displayName; + wstring m_themeName; + wstring m_cape; + unsigned int m_uiAnimOverrideBitmask; + bool m_bIsFree; + vector m_AdditionalBoxes; + +public: + + DLCSkinFile(const wstring &path); + + void addData(PBYTE pbData, DWORD dwBytes) override; + void addParameter(DLCManager::EDLCParameterType type, const wstring &value) override; + + wstring getParameterAsString(DLCManager::EDLCParameterType type) override; + bool getParameterAsBool(DLCManager::EDLCParameterType type) override; + vector *getAdditionalBoxes(); + int getAdditionalBoxesCount(); + unsigned int getAnimOverrideBitmask() { return m_uiAnimOverrideBitmask;} + bool isFree() {return m_bIsFree;} +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCTextureFile.cpp b/Minecraft.Client/Common/DLC/DLCTextureFile.cpp new file mode 100644 index 0000000..fb9c5b0 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCTextureFile.cpp @@ -0,0 +1,60 @@ +#include "stdafx.h" +#include "DLCManager.h" +#include "DLCTextureFile.h" + +DLCTextureFile::DLCTextureFile(const wstring &path) : DLCFile(DLCManager::e_DLCType_Texture,path) +{ + m_bIsAnim = false; + m_animString = L""; + + m_pbData = nullptr; + m_dwBytes = 0; +} + +void DLCTextureFile::addData(PBYTE pbData, DWORD dwBytes) +{ + //app.AddMemoryTextureFile(m_path,pbData,dwBytes); + m_pbData = pbData; + m_dwBytes = dwBytes; +} + +PBYTE DLCTextureFile::getData(DWORD &dwBytes) +{ + dwBytes = m_dwBytes; + return m_pbData; +} + +void DLCTextureFile::addParameter(DLCManager::EDLCParameterType type, const wstring &value) +{ + switch(type) + { + case DLCManager::e_DLCParamType_Anim: + m_animString = value; + if(m_animString.empty()) m_animString = L","; + m_bIsAnim = true; + + break; + } +} + +wstring DLCTextureFile::getParameterAsString(DLCManager::EDLCParameterType type) +{ + switch(type) + { + case DLCManager::e_DLCParamType_Anim: + return m_animString; + default: + return L""; + } +} + +bool DLCTextureFile::getParameterAsBool(DLCManager::EDLCParameterType type) +{ + switch(type) + { + case DLCManager::e_DLCParamType_Anim: + return m_bIsAnim; + default: + return false; + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCTextureFile.h b/Minecraft.Client/Common/DLC/DLCTextureFile.h new file mode 100644 index 0000000..2b397e8 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCTextureFile.h @@ -0,0 +1,24 @@ +#pragma once +#include "DLCFile.h" + +class DLCTextureFile : public DLCFile +{ + +private: + bool m_bIsAnim; + wstring m_animString; + + PBYTE m_pbData; + DWORD m_dwBytes; + +public: + DLCTextureFile(const wstring &path); + + void addData(PBYTE pbData, DWORD dwBytes) override; + PBYTE getData(DWORD &dwBytes) override; + + void addParameter(DLCManager::EDLCParameterType type, const wstring &value) override; + + wstring getParameterAsString(DLCManager::EDLCParameterType type) override; + bool getParameterAsBool(DLCManager::EDLCParameterType type) override; +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCUIDataFile.cpp b/Minecraft.Client/Common/DLC/DLCUIDataFile.cpp new file mode 100644 index 0000000..597c4b7 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCUIDataFile.cpp @@ -0,0 +1,32 @@ +#include "stdafx.h" +#include "DLCManager.h" +#include "DLCUIDataFile.h" + +DLCUIDataFile::DLCUIDataFile(const wstring &path) : DLCFile(DLCManager::e_DLCType_UIData,path) +{ + m_pbData = nullptr; + m_dwBytes = 0; + m_canDeleteData = false; +} + +DLCUIDataFile::~DLCUIDataFile() +{ + if(m_canDeleteData && m_pbData != nullptr) + { + app.DebugPrintf("Deleting DLCUIDataFile data\n"); + delete [] m_pbData; + } +} + +void DLCUIDataFile::addData(PBYTE pbData, DWORD dwBytes,bool canDeleteData) +{ + m_pbData = pbData; + m_dwBytes = dwBytes; + m_canDeleteData = canDeleteData; +} + +PBYTE DLCUIDataFile::getData(DWORD &dwBytes) +{ + dwBytes = m_dwBytes; + return m_pbData; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/DLC/DLCUIDataFile.h b/Minecraft.Client/Common/DLC/DLCUIDataFile.h new file mode 100644 index 0000000..c858933 --- /dev/null +++ b/Minecraft.Client/Common/DLC/DLCUIDataFile.h @@ -0,0 +1,20 @@ +#pragma once +#include "DLCFile.h" + +class DLCUIDataFile : public DLCFile +{ +private: + PBYTE m_pbData; + DWORD m_dwBytes; + bool m_canDeleteData; + +public: + DLCUIDataFile(const wstring &path); + ~DLCUIDataFile() override; + + using DLCFile::addData; + using DLCFile::addParameter; + + virtual void addData(PBYTE pbData, DWORD dwBytes,bool canDeleteData = false); + PBYTE getData(DWORD &dwBytes) override; +}; diff --git a/Minecraft.Client/Common/GameRules/AddEnchantmentRuleDefinition.cpp b/Minecraft.Client/Common/GameRules/AddEnchantmentRuleDefinition.cpp new file mode 100644 index 0000000..f97bfdd --- /dev/null +++ b/Minecraft.Client/Common/GameRules/AddEnchantmentRuleDefinition.cpp @@ -0,0 +1,70 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.enchantment.h" +#include "AddEnchantmentRuleDefinition.h" + +AddEnchantmentRuleDefinition::AddEnchantmentRuleDefinition() +{ + m_enchantmentId = m_enchantmentLevel = 0; +} + +void AddEnchantmentRuleDefinition::writeAttributes(DataOutputStream *dos, UINT numAttributes) +{ + GameRuleDefinition::writeAttributes(dos, numAttributes + 2); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_enchantmentId); + dos->writeUTF( std::to_wstring( m_enchantmentId ) ); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_enchantmentLevel); + dos->writeUTF( std::to_wstring( m_enchantmentLevel ) ); +} + +void AddEnchantmentRuleDefinition::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"enchantmentId") == 0) + { + int value = _fromString(attributeValue); + if(value < 0) value = 0; + if(value >= 256) value = 255; + m_enchantmentId = value; + app.DebugPrintf("AddEnchantmentRuleDefinition: Adding parameter enchantmentId=%d\n",m_enchantmentId); + } + else if(attributeName.compare(L"enchantmentLevel") == 0) + { + int value = _fromString(attributeValue); + if(value < 0) value = 0; + m_enchantmentLevel = value; + app.DebugPrintf("AddEnchantmentRuleDefinition: Adding parameter enchantmentLevel=%d\n",m_enchantmentLevel); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +bool AddEnchantmentRuleDefinition::enchantItem(shared_ptr item) +{ + bool enchanted = false; + if (item != nullptr) + { + // 4J-JEV: Ripped code from enchantmenthelpers + // Maybe we want to add an addEnchantment method to EnchantmentHelpers + if (item->id == Item::enchantedBook_Id) + { + Item::enchantedBook->addEnchantment( item, new EnchantmentInstance(m_enchantmentId, m_enchantmentLevel) ); + } + else if (item->isEnchantable()) + { + Enchantment *e = Enchantment::enchantments[m_enchantmentId]; + + if(e != nullptr && e->category->canEnchant(item->getItem())) + { + int level = min(e->getMaxLevel(), m_enchantmentLevel); + item->enchant(e, m_enchantmentLevel); + enchanted = true; + } + } + } + return enchanted; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/AddEnchantmentRuleDefinition.h b/Minecraft.Client/Common/GameRules/AddEnchantmentRuleDefinition.h new file mode 100644 index 0000000..3beece1 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/AddEnchantmentRuleDefinition.h @@ -0,0 +1,23 @@ +#pragma once + +#include "GameRuleDefinition.h" + +class ItemInstance; + +class AddEnchantmentRuleDefinition : public GameRuleDefinition +{ +private: + int m_enchantmentId; + int m_enchantmentLevel; + +public: + AddEnchantmentRuleDefinition(); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_AddEnchantment; } + + virtual void writeAttributes(DataOutputStream *, UINT numAttrs); + + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + bool enchantItem(shared_ptr item); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/AddItemRuleDefinition.cpp b/Minecraft.Client/Common/GameRules/AddItemRuleDefinition.cpp new file mode 100644 index 0000000..49809d0 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/AddItemRuleDefinition.cpp @@ -0,0 +1,127 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.inventory.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "AddItemRuleDefinition.h" +#include "AddEnchantmentRuleDefinition.h" + +AddItemRuleDefinition::AddItemRuleDefinition() +{ + m_itemId = m_quantity = m_auxValue = m_dataTag = 0; + m_slot = -1; +} + +void AddItemRuleDefinition::writeAttributes(DataOutputStream *dos, UINT numAttrs) +{ + GameRuleDefinition::writeAttributes(dos, numAttrs + 5); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_itemId); + dos->writeUTF( std::to_wstring( m_itemId ) ); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_quantity); + dos->writeUTF( std::to_wstring( m_quantity ) ); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_auxValue); + dos->writeUTF( std::to_wstring( m_auxValue ) ); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_dataTag); + dos->writeUTF( std::to_wstring( m_dataTag ) ); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_slot); + dos->writeUTF( std::to_wstring( m_slot ) ); +} + +void AddItemRuleDefinition::getChildren(vector *children) +{ + GameRuleDefinition::getChildren( children ); + for ( const auto& it : m_enchantments ) + children->push_back( it ); +} + +GameRuleDefinition *AddItemRuleDefinition::addChild(ConsoleGameRules::EGameRuleType ruleType) +{ + GameRuleDefinition *rule = nullptr; + if(ruleType == ConsoleGameRules::eGameRuleType_AddEnchantment) + { + rule = new AddEnchantmentRuleDefinition(); + m_enchantments.push_back(static_cast(rule)); + } + else + { +#ifndef _CONTENT_PACKAGE + //wprintf(L"AddItemRuleDefinition: Attempted to add invalid child rule - %d\n", ruleType ); +#endif + } + return rule; +} + +void AddItemRuleDefinition::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"itemId") == 0) + { + int value = _fromString(attributeValue); + m_itemId = value; + //app.DebugPrintf(2,"AddItemRuleDefinition: Adding parameter itemId=%d\n",m_itemId); + } + else if(attributeName.compare(L"quantity") == 0) + { + int value = _fromString(attributeValue); + m_quantity = value; + //app.DebugPrintf(2,"AddItemRuleDefinition: Adding parameter quantity=%d\n",m_quantity); + } + else if(attributeName.compare(L"auxValue") == 0) + { + int value = _fromString(attributeValue); + m_auxValue = value; + //app.DebugPrintf(2,"AddItemRuleDefinition: Adding parameter auxValue=%d\n",m_auxValue); + } + else if(attributeName.compare(L"dataTag") == 0) + { + int value = _fromString(attributeValue); + m_dataTag = value; + //app.DebugPrintf(2,"AddItemRuleDefinition: Adding parameter dataTag=%d\n",m_dataTag); + } + else if(attributeName.compare(L"slot") == 0) + { + int value = _fromString(attributeValue); + m_slot = value; + //app.DebugPrintf(2,"AddItemRuleDefinition: Adding parameter slot=%d\n",m_slot); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +bool AddItemRuleDefinition::addItemToContainer(shared_ptr container, int slotId) +{ + bool added = false; + if(Item::items[m_itemId] != nullptr) + { + int quantity = std::min(m_quantity, Item::items[m_itemId]->getMaxStackSize()); + shared_ptr newItem = std::make_shared(m_itemId, quantity, m_auxValue); + newItem->set4JData(m_dataTag); + + for( auto& it : m_enchantments ) + { + it->enchantItem(newItem); + } + + if(m_slot >= 0 && m_slot < container->getContainerSize() ) + { + container->setItem( m_slot, newItem ); + added = true; + } + else if(slotId >= 0 && slotId < container->getContainerSize() ) + { + container->setItem( slotId, newItem ); + added = true; + } + else if(dynamic_pointer_cast(container) != nullptr) + { + added = dynamic_pointer_cast(container)->add(newItem); + } + } + return added; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/AddItemRuleDefinition.h b/Minecraft.Client/Common/GameRules/AddItemRuleDefinition.h new file mode 100644 index 0000000..602f2d8 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/AddItemRuleDefinition.h @@ -0,0 +1,30 @@ +#pragma once + +#include "GameRuleDefinition.h" + +class Container; +class AddEnchantmentRuleDefinition; + +class AddItemRuleDefinition : public GameRuleDefinition +{ +private: + int m_itemId; + int m_quantity; + int m_auxValue; + int m_dataTag; + int m_slot; + vector m_enchantments; + +public: + AddItemRuleDefinition(); + + virtual void writeAttributes(DataOutputStream *, UINT numAttributes); + virtual void getChildren(vector *children); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_AddItem; } + + virtual GameRuleDefinition *addChild(ConsoleGameRules::EGameRuleType ruleType); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + bool addItemToContainer(shared_ptr container, int slotId); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/ApplySchematicRuleDefinition.cpp b/Minecraft.Client/Common/GameRules/ApplySchematicRuleDefinition.cpp new file mode 100644 index 0000000..3c7e02a --- /dev/null +++ b/Minecraft.Client/Common/GameRules/ApplySchematicRuleDefinition.cpp @@ -0,0 +1,249 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.phys.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.entity.h" +#include "ApplySchematicRuleDefinition.h" +#include "LevelGenerationOptions.h" +#include "ConsoleSchematicFile.h" + +ApplySchematicRuleDefinition::ApplySchematicRuleDefinition(LevelGenerationOptions *levelGenOptions) +{ + m_levelGenOptions = levelGenOptions; + m_location = Vec3::newPermanent(0,0,0); + m_locationBox = nullptr; + m_totalBlocksChanged = 0; + m_totalBlocksChangedLighting = 0; + m_rotation = ConsoleSchematicFile::eSchematicRot_0; + m_completed = false; + m_dimension = 0; + m_schematic = nullptr; +} + +ApplySchematicRuleDefinition::~ApplySchematicRuleDefinition() +{ + app.DebugPrintf("Deleting ApplySchematicRuleDefinition.\n"); + if(!m_completed) m_levelGenOptions->releaseSchematicFile(m_schematicName); + m_schematic = nullptr; + delete m_location; +} + +void ApplySchematicRuleDefinition::writeAttributes(DataOutputStream *dos, UINT numAttrs) +{ + GameRuleDefinition::writeAttributes(dos, numAttrs + 5); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_filename); + dos->writeUTF(m_schematicName); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_x); + dos->writeUTF(std::to_wstring(m_location->x)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_y); + dos->writeUTF(std::to_wstring(m_location->y)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_z); + dos->writeUTF(std::to_wstring(m_location->z)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_rot); + + switch (m_rotation) + { + case ConsoleSchematicFile::eSchematicRot_0: dos->writeUTF(L"0"); break; + case ConsoleSchematicFile::eSchematicRot_90: dos->writeUTF(L"90"); break; + case ConsoleSchematicFile::eSchematicRot_180: dos->writeUTF(L"180"); break; + case ConsoleSchematicFile::eSchematicRot_270: dos->writeUTF(L"270"); break; + } +} + +void ApplySchematicRuleDefinition::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"filename") == 0) + { + m_schematicName = attributeValue; + //app.DebugPrintf("ApplySchematicRuleDefinition: Adding parameter filename=%s\n",m_schematicName.c_str()); + + if(!m_schematicName.empty()) + { + if(m_schematicName.substr( m_schematicName.length() - 4, m_schematicName.length()).compare(L".sch") != 0) + { + m_schematicName.append(L".sch"); + } + m_schematic = m_levelGenOptions->getSchematicFile(m_schematicName); + } + } + else if(attributeName.compare(L"x") == 0) + { + m_location->x = _fromString(attributeValue); + if( static_cast(abs(m_location->x))%2 != 0) m_location->x -=1; + //app.DebugPrintf("ApplySchematicRuleDefinition: Adding parameter x=%f\n",m_location->x); + } + else if(attributeName.compare(L"y") == 0) + { + m_location->y = _fromString(attributeValue); + if( static_cast(abs(m_location->y))%2 != 0) m_location->y -= 1; + if(m_location->y < 0) m_location->y = 0; + //app.DebugPrintf("ApplySchematicRuleDefinition: Adding parameter y=%f\n",m_location->y); + } + else if(attributeName.compare(L"z") == 0) + { + m_location->z = _fromString(attributeValue); + if(static_cast(abs(m_location->z))%2 != 0) m_location->z -= 1; + //app.DebugPrintf("ApplySchematicRuleDefinition: Adding parameter z=%f\n",m_location->z); + } + else if(attributeName.compare(L"rot") == 0) + { + int degrees = _fromString(attributeValue); + + while(degrees < 0) degrees += 360; + while(degrees >= 360) degrees -= 360; + float quad = degrees/90; + degrees = static_cast(quad + 0.5f); + switch(degrees) + { + case 1: + m_rotation = ConsoleSchematicFile::eSchematicRot_90; + break; + case 2: + m_rotation = ConsoleSchematicFile::eSchematicRot_180; + break; + case 3: + case 4: + m_rotation = ConsoleSchematicFile::eSchematicRot_270; + break; + case 0: + default: + m_rotation = ConsoleSchematicFile::eSchematicRot_0; + break; + }; + + //app.DebugPrintf("ApplySchematicRuleDefinition: Adding parameter rot=%d\n",m_rotation); + } + else if(attributeName.compare(L"dim") == 0) + { + m_dimension = _fromString(attributeValue); + if(m_dimension > 1 || m_dimension < -1) m_dimension = 0; + //app.DebugPrintf("ApplySchematicRuleDefinition: Adding parameter dimension=%d\n",m_dimension); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +void ApplySchematicRuleDefinition::updateLocationBox() +{ + if(m_schematic == nullptr) m_schematic = m_levelGenOptions->getSchematicFile(m_schematicName); + + m_locationBox = AABB::newPermanent(0,0,0,0,0,0); + + m_locationBox->x0 = m_location->x; + m_locationBox->y0 = m_location->y; + m_locationBox->z0 = m_location->z; + + m_locationBox->y1 = m_location->y + m_schematic->getYSize(); + + switch(m_rotation) + { + case ConsoleSchematicFile::eSchematicRot_90: + case ConsoleSchematicFile::eSchematicRot_270: + m_locationBox->x1 = m_location->x + m_schematic->getZSize(); + m_locationBox->z1 = m_location->z + m_schematic->getXSize(); + break; + case ConsoleSchematicFile::eSchematicRot_0: + case ConsoleSchematicFile::eSchematicRot_180: + default: + m_locationBox->x1 = m_location->x + m_schematic->getXSize(); + m_locationBox->z1 = m_location->z + m_schematic->getZSize(); + break; + }; +} + +void ApplySchematicRuleDefinition::processSchematic(AABB *chunkBox, LevelChunk *chunk) +{ + if( m_completed ) return; + if(chunk->level->dimension->id != m_dimension) return; + + PIXBeginNamedEvent(0, "Processing ApplySchematicRuleDefinition"); + if(m_schematic == nullptr) m_schematic = m_levelGenOptions->getSchematicFile(m_schematicName); + + if(m_locationBox == nullptr) updateLocationBox(); + if(chunkBox->intersects( m_locationBox )) + { + m_locationBox->y1 = min((double)Level::maxBuildHeight, m_locationBox->y1 ); + +#ifdef _DEBUG + app.DebugPrintf("Applying schematic %ls to chunk (%d,%d)\n",m_schematicName.c_str(),chunk->x, chunk->z); +#endif + PIXBeginNamedEvent(0,"Applying blocks and data"); + m_totalBlocksChanged += m_schematic->applyBlocksAndData(chunk, chunkBox, m_locationBox, m_rotation); + PIXEndNamedEvent(); + + // Add the tileEntities + PIXBeginNamedEvent(0,"Applying tile entities"); + m_schematic->applyTileEntities(chunk, chunkBox, m_locationBox, m_rotation); + PIXEndNamedEvent(); + + // TODO This does not take into account things that go outside the bounds of the world + int targetBlocks = (m_locationBox->x1 - m_locationBox->x0) + * (m_locationBox->y1 - m_locationBox->y0) + * (m_locationBox->z1 - m_locationBox->z0); + if( (m_totalBlocksChanged == targetBlocks) && (m_totalBlocksChangedLighting == targetBlocks) ) + { + m_completed = true; + //m_levelGenOptions->releaseSchematicFile(m_schematicName); + //m_schematic = nullptr; + } + } + PIXEndNamedEvent(); +} + +void ApplySchematicRuleDefinition::processSchematicLighting(AABB *chunkBox, LevelChunk *chunk) +{ + if( m_completed ) return; + if(chunk->level->dimension->id != m_dimension) return; + + PIXBeginNamedEvent(0, "Processing ApplySchematicRuleDefinition (lighting)"); + if(m_schematic == nullptr) m_schematic = m_levelGenOptions->getSchematicFile(m_schematicName); + + if(m_locationBox == nullptr) updateLocationBox(); + if(chunkBox->intersects( m_locationBox )) + { + m_locationBox->y1 = min((double)Level::maxBuildHeight, m_locationBox->y1 ); + +#ifdef _DEBUG + app.DebugPrintf("Applying schematic %ls to chunk (%d,%d)\n",m_schematicName.c_str(),chunk->x, chunk->z); +#endif + PIXBeginNamedEvent(0,"Patching lighting"); + m_totalBlocksChangedLighting += m_schematic->applyLighting(chunk, chunkBox, m_locationBox, m_rotation); + PIXEndNamedEvent(); + + // TODO This does not take into account things that go outside the bounds of the world + int targetBlocks = (m_locationBox->x1 - m_locationBox->x0) + * (m_locationBox->y1 - m_locationBox->y0) + * (m_locationBox->z1 - m_locationBox->z0); + if( (m_totalBlocksChanged == targetBlocks) && (m_totalBlocksChangedLighting == targetBlocks) ) + { + m_completed = true; + //m_levelGenOptions->releaseSchematicFile(m_schematicName); + //m_schematic = nullptr; + } + } + PIXEndNamedEvent(); +} + +bool ApplySchematicRuleDefinition::checkIntersects(int x0, int y0, int z0, int x1, int y1, int z1) +{ + if( m_locationBox == nullptr ) updateLocationBox(); + return m_locationBox->intersects(x0,y0,z0,x1,y1,z1); +} + +int ApplySchematicRuleDefinition::getMinY() +{ + if( m_locationBox == nullptr ) updateLocationBox(); + return m_locationBox->y0; +} + +void ApplySchematicRuleDefinition::reset() +{ + m_totalBlocksChanged = 0; + m_totalBlocksChangedLighting = 0; + m_completed = false; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/ApplySchematicRuleDefinition.h b/Minecraft.Client/Common/GameRules/ApplySchematicRuleDefinition.h new file mode 100644 index 0000000..e5dffb3 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/ApplySchematicRuleDefinition.h @@ -0,0 +1,51 @@ +#pragma once +#include "GameRuleDefinition.h" +#include "ConsoleSchematicFile.h" + +class AABB; +class Vec3; +class LevelChunk; +class LevelGenerationOptions; +class GRFObject; + +class ApplySchematicRuleDefinition : public GameRuleDefinition +{ +private: + LevelGenerationOptions *m_levelGenOptions; + wstring m_schematicName; + ConsoleSchematicFile *m_schematic; + Vec3 *m_location; + AABB *m_locationBox; + ConsoleSchematicFile::ESchematicRotation m_rotation; + int m_dimension; + + int64_t m_totalBlocksChanged; + int64_t m_totalBlocksChangedLighting; + bool m_completed; + + void updateLocationBox(); +public: + ApplySchematicRuleDefinition(LevelGenerationOptions *levelGenOptions); + ~ApplySchematicRuleDefinition(); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_ApplySchematic; } + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttrs); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + void processSchematic(AABB *chunkBox, LevelChunk *chunk); + void processSchematicLighting(AABB *chunkBox, LevelChunk *chunk); + + bool checkIntersects(int x0, int y0, int z0, int x1, int y1, int z1); + int getMinY(); + + bool isComplete() { return m_completed; } + + wstring getSchematicName() { return m_schematicName; } + + /** 4J-JEV: + * This GameRuleDefinition contains limited game state. + * Reset any state to how it should be before a new game. + */ + void reset(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/BiomeOverride.cpp b/Minecraft.Client/Common/GameRules/BiomeOverride.cpp new file mode 100644 index 0000000..155a6e2 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/BiomeOverride.cpp @@ -0,0 +1,59 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "BiomeOverride.h" + +BiomeOverride::BiomeOverride() +{ + m_tile = 0; + m_topTile = 0; + m_biomeId = 0; +} + +void BiomeOverride::writeAttributes(DataOutputStream *dos, UINT numAttrs) +{ + GameRuleDefinition::writeAttributes(dos, numAttrs + 3); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_biomeId); + dos->writeUTF(std::to_wstring(m_biomeId)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_tileId); + dos->writeUTF(std::to_wstring(m_tile)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_topTileId); + dos->writeUTF(std::to_wstring(m_topTile)); +} + +void BiomeOverride::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"tileId") == 0) + { + int value = _fromString(attributeValue); + m_tile = value; + app.DebugPrintf("BiomeOverride: Adding parameter tileId=%d\n",m_tile); + } + else if(attributeName.compare(L"topTileId") == 0) + { + int value = _fromString(attributeValue); + m_topTile = value; + app.DebugPrintf("BiomeOverride: Adding parameter topTileId=%d\n",m_topTile); + } + else if(attributeName.compare(L"biomeId") == 0) + { + int value = _fromString(attributeValue); + m_biomeId = value; + app.DebugPrintf("BiomeOverride: Adding parameter biomeId=%d\n",m_biomeId); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +bool BiomeOverride::isBiome(int id) +{ + return m_biomeId == id; +} + +void BiomeOverride::getTileValues(BYTE &tile, BYTE &topTile) +{ + if(m_tile != 0) tile = (BYTE)m_tile; + if(m_topTile != 0) topTile = (BYTE)m_topTile; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/BiomeOverride.h b/Minecraft.Client/Common/GameRules/BiomeOverride.h new file mode 100644 index 0000000..5ad9263 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/BiomeOverride.h @@ -0,0 +1,23 @@ +#pragma once +using namespace std; + +#include "GameRuleDefinition.h" + +class BiomeOverride : public GameRuleDefinition +{ +private: + BYTE m_topTile; + BYTE m_tile; + int m_biomeId; + +public: + BiomeOverride(); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_BiomeOverride; } + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttrs); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + bool isBiome(int id); + void getTileValues(BYTE &tile, BYTE &topTile); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/CollectItemRuleDefinition.cpp b/Minecraft.Client/Common/GameRules/CollectItemRuleDefinition.cpp new file mode 100644 index 0000000..7f03a0f --- /dev/null +++ b/Minecraft.Client/Common/GameRules/CollectItemRuleDefinition.cpp @@ -0,0 +1,125 @@ +#include "stdafx.h" +#include "..\..\WstringLookup.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "CollectItemRuleDefinition.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" +#include "..\..\..\Minecraft.World\Connection.h" +#include "..\..\..\Minecraft.World\net.minecraft.network.packet.h" + +CollectItemRuleDefinition::CollectItemRuleDefinition() +{ + m_itemId = 0; + m_auxValue = 0; + m_quantity = 0; +} + +CollectItemRuleDefinition::~CollectItemRuleDefinition() +{ +} + +void CollectItemRuleDefinition::writeAttributes(DataOutputStream *dos, UINT numAttributes) +{ + GameRuleDefinition::writeAttributes(dos, numAttributes + 3); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_itemId); + dos->writeUTF( std::to_wstring( m_itemId ) ); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_auxValue); + dos->writeUTF( std::to_wstring( m_auxValue ) ); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_quantity); + dos->writeUTF( std::to_wstring( m_quantity ) ); +} + +void CollectItemRuleDefinition::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"itemId") == 0) + { + m_itemId = _fromString(attributeValue); + app.DebugPrintf("CollectItemRule: Adding parameter itemId=%d\n",m_itemId); + } + else if(attributeName.compare(L"auxValue") == 0) + { + m_auxValue = _fromString(attributeValue); + app.DebugPrintf("CollectItemRule: Adding parameter m_auxValue=%d\n",m_auxValue); + } + else if(attributeName.compare(L"quantity") == 0) + { + m_quantity = _fromString(attributeValue); + app.DebugPrintf("CollectItemRule: Adding parameter m_quantity=%d\n",m_quantity); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +int CollectItemRuleDefinition::getGoal() +{ + return m_quantity; +} + +int CollectItemRuleDefinition::getProgress(GameRule *rule) +{ + GameRule::ValueType value = rule->getParameter(L"iQuantity"); + return value.i; +} + +void CollectItemRuleDefinition::populateGameRule(GameRulesInstance::EGameRulesInstanceType type, GameRule *rule) +{ + GameRule::ValueType value; + value.i = 0; + rule->setParameter(L"iQuantity",value); + + GameRuleDefinition::populateGameRule(type, rule); +} + +bool CollectItemRuleDefinition::onCollectItem(GameRule *rule, shared_ptr item) +{ + bool statusChanged = false; + if(item != nullptr && item->id == m_itemId && item->getAuxValue() == m_auxValue && item->get4JData() == m_4JDataValue) + { + if(!getComplete(rule)) + { + GameRule::ValueType value = rule->getParameter(L"iQuantity"); + int quantityCollected = (value.i += item->count); + rule->setParameter(L"iQuantity",value); + + statusChanged = true; + + if(quantityCollected >= m_quantity) + { + setComplete(rule, true); + app.DebugPrintf("Completed CollectItemRule with info - itemId:%d, auxValue:%d, quantity:%d, dataTag:%d\n", m_itemId, m_auxValue, m_quantity, m_4JDataValue); + + if (rule->getConnection() != nullptr) + { + rule->getConnection()->send(std::make_shared( + getActionType(), + this->m_descriptionId, + m_itemId, + m_auxValue, + this->m_4JDataValue, + nullptr, + static_cast(0) + )); + } + } + } + } + return statusChanged; +} + +wstring CollectItemRuleDefinition::generateXml(shared_ptr item) +{ + // 4J Stu - This should be kept in sync with the GameRulesDefinition.xsd + wstring xml = L""; + if(item != nullptr) + { + xml = L"id) + L"\" quantity=\"SET\" descriptionName=\"OPTIONAL\" promptName=\"OPTIONAL\""; + if(item->getAuxValue() != 0) xml += L" auxValue=\"" + std::to_wstring(item->getAuxValue()) + L"\""; + if(item->get4JData() != 0) xml += L" dataTag=\"" + std::to_wstring(item->get4JData()) + L"\""; + xml += L"/>\n"; + } + return xml; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/CollectItemRuleDefinition.h b/Minecraft.Client/Common/GameRules/CollectItemRuleDefinition.h new file mode 100644 index 0000000..5ee6f4c --- /dev/null +++ b/Minecraft.Client/Common/GameRules/CollectItemRuleDefinition.h @@ -0,0 +1,40 @@ +#pragma once + +#include "GameRuleDefinition.h" + +class Pos; +class UseTileRuleDefinition; +class ItemInstance; + +class CollectItemRuleDefinition : public GameRuleDefinition +{ +private: + // These values should map directly to the xsd definition for this Rule + int m_itemId; + unsigned char m_auxValue; + int m_quantity; + +public: + CollectItemRuleDefinition(); + ~CollectItemRuleDefinition(); + + ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_CollectItemRule; } + + virtual void writeAttributes(DataOutputStream *, UINT numAttributes); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + virtual int getGoal(); + virtual int getProgress(GameRule *rule); + + virtual int getIcon() { return m_itemId; } + virtual int getAuxValue() { return m_auxValue; } + + void populateGameRule(GameRulesInstance::EGameRulesInstanceType type, GameRule *rule); + + bool onCollectItem(GameRule *rule, shared_ptr item); + + static wstring generateXml(shared_ptr item); + +private: + //static wstring generateXml(CollectItemRuleDefinition *ruleDef); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/CompleteAllRuleDefinition.cpp b/Minecraft.Client/Common/GameRules/CompleteAllRuleDefinition.cpp new file mode 100644 index 0000000..cd23cd5 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/CompleteAllRuleDefinition.cpp @@ -0,0 +1,66 @@ +#include "stdafx.h" +#include "CompleteAllRuleDefinition.h" +#include "ConsoleGameRules.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\Connection.h" +#include "..\..\..\Minecraft.World\net.minecraft.network.packet.h" + +void CompleteAllRuleDefinition::getChildren(vector *children) +{ + CompoundGameRuleDefinition::getChildren(children); +} + +bool CompleteAllRuleDefinition::onUseTile(GameRule *rule, int tileId, int x, int y, int z) +{ + bool statusChanged = CompoundGameRuleDefinition::onUseTile(rule,tileId,x,y,z); + if(statusChanged) updateStatus(rule); + return statusChanged; +} + +bool CompleteAllRuleDefinition::onCollectItem(GameRule *rule, shared_ptr item) +{ + bool statusChanged = CompoundGameRuleDefinition::onCollectItem(rule,item); + if(statusChanged) updateStatus(rule); + return statusChanged; +} + +void CompleteAllRuleDefinition::updateStatus(GameRule *rule) +{ + int goal = 0; + int progress = 0; + for (auto& it : rule->m_parameters ) + { + if(it.second.isPointer) + { + goal += it.second.gr->getGameRuleDefinition()->getGoal(); + progress += it.second.gr->getGameRuleDefinition()->getProgress(it.second.gr); + } + } + if(rule->getConnection() != nullptr) + { + PacketData data; + data.goal = goal; + data.progress = progress; + + int icon = -1; + int auxValue = 0; + + if(m_lastRuleStatusChanged != nullptr) + { + icon = m_lastRuleStatusChanged->getIcon(); + auxValue = m_lastRuleStatusChanged->getAuxValue(); + m_lastRuleStatusChanged = nullptr; + } + rule->getConnection()->send(std::make_shared(getActionType(), this->m_descriptionId, icon, auxValue, 0, &data, sizeof(PacketData))); + } + app.DebugPrintf("Updated CompleteAllRule - Completed %d of %d\n", progress, goal); +} + +wstring CompleteAllRuleDefinition::generateDescriptionString(const wstring &description, void *data, int dataLength) +{ + PacketData *values = static_cast(data); + wstring newDesc = description; + newDesc = replaceAll(newDesc,L"{*progress*}",std::to_wstring(values->progress)); + newDesc = replaceAll(newDesc,L"{*goal*}",std::to_wstring(values->goal)); + return newDesc; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/CompleteAllRuleDefinition.h b/Minecraft.Client/Common/GameRules/CompleteAllRuleDefinition.h new file mode 100644 index 0000000..b2cb884 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/CompleteAllRuleDefinition.h @@ -0,0 +1,26 @@ +#pragma once + +#include "CompoundGameRuleDefinition.h" + +class CompleteAllRuleDefinition : public CompoundGameRuleDefinition +{ +private: + typedef struct _packetData + { + int goal; + int progress; + } PacketData; + +public: + ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_CompleteAllRule; } + + virtual void getChildren(vector *children); + + virtual bool onUseTile(GameRule *rule, int tileId, int x, int y, int z); + virtual bool onCollectItem(GameRule *rule, shared_ptr item); + + static wstring generateDescriptionString(const wstring &description, void *data, int dataLength); + +private: + void updateStatus(GameRule *rule); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/CompoundGameRuleDefinition.cpp b/Minecraft.Client/Common/GameRules/CompoundGameRuleDefinition.cpp new file mode 100644 index 0000000..f75eddd --- /dev/null +++ b/Minecraft.Client/Common/GameRules/CompoundGameRuleDefinition.cpp @@ -0,0 +1,118 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" +#include "CompoundGameRuleDefinition.h" +#include "ConsoleGameRules.h" + +CompoundGameRuleDefinition::CompoundGameRuleDefinition() +{ + m_lastRuleStatusChanged = nullptr; +} + +CompoundGameRuleDefinition::~CompoundGameRuleDefinition() +{ + for (auto it : m_children ) + { + delete it; + } +} + +void CompoundGameRuleDefinition::getChildren(vector *children) +{ + GameRuleDefinition::getChildren(children); + for (auto& it : m_children ) + children->push_back(it); +} + +GameRuleDefinition *CompoundGameRuleDefinition::addChild(ConsoleGameRules::EGameRuleType ruleType) +{ + GameRuleDefinition *rule = nullptr; + if(ruleType == ConsoleGameRules::eGameRuleType_CompleteAllRule) + { + rule = new CompleteAllRuleDefinition(); + } + else if(ruleType == ConsoleGameRules::eGameRuleType_CollectItemRule) + { + rule = new CollectItemRuleDefinition(); + } + else if(ruleType == ConsoleGameRules::eGameRuleType_UseTileRule) + { + rule = new UseTileRuleDefinition(); + } + else if(ruleType == ConsoleGameRules::eGameRuleType_UpdatePlayerRule) + { + rule = new UpdatePlayerRuleDefinition(); + } + else + { +#ifndef _CONTENT_PACKAGE + wprintf(L"CompoundGameRuleDefinition: Attempted to add invalid child rule - %d\n", ruleType ); +#endif + } + if(rule != nullptr) m_children.push_back(rule); + return rule; +} + +void CompoundGameRuleDefinition::populateGameRule(GameRulesInstance::EGameRulesInstanceType type, GameRule *rule) +{ + GameRule *newRule = nullptr; + int i = 0; + for (auto& it : m_children ) + { + newRule = new GameRule(it, rule->getConnection() ); + it->populateGameRule(type,newRule); + + GameRule::ValueType value; + value.gr = newRule; + value.isPointer = true; + + // Somehow add the newRule to the current rule + rule->setParameter(L"rule" + std::to_wstring(i),value); + ++i; + } + GameRuleDefinition::populateGameRule(type, rule); +} + +bool CompoundGameRuleDefinition::onUseTile(GameRule *rule, int tileId, int x, int y, int z) +{ + bool statusChanged = false; + for (auto& it : rule->m_parameters ) + { + if(it.second.isPointer) + { + bool changed = it.second.gr->getGameRuleDefinition()->onUseTile(it.second.gr,tileId,x,y,z); + if(!statusChanged && changed) + { + m_lastRuleStatusChanged = it.second.gr->getGameRuleDefinition(); + statusChanged = true; + } + } + } + return statusChanged; +} + +bool CompoundGameRuleDefinition::onCollectItem(GameRule *rule, shared_ptr item) +{ + bool statusChanged = false; + for (auto& it : rule->m_parameters ) + { + if(it.second.isPointer) + { + bool changed = it.second.gr->getGameRuleDefinition()->onCollectItem(it.second.gr,item); + if(!statusChanged && changed) + { + m_lastRuleStatusChanged = it.second.gr->getGameRuleDefinition(); + statusChanged = true; + } + } + } + return statusChanged; +} + +void CompoundGameRuleDefinition::postProcessPlayer(shared_ptr player) +{ + for (auto it : m_children ) + { + it->postProcessPlayer(player); + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/CompoundGameRuleDefinition.h b/Minecraft.Client/Common/GameRules/CompoundGameRuleDefinition.h new file mode 100644 index 0000000..bfedfd0 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/CompoundGameRuleDefinition.h @@ -0,0 +1,23 @@ +#pragma once + +#include "GameRuleDefinition.h" + +class CompoundGameRuleDefinition : public GameRuleDefinition +{ +protected: + vector m_children; +protected: + GameRuleDefinition *m_lastRuleStatusChanged; +public: + CompoundGameRuleDefinition(); + virtual ~CompoundGameRuleDefinition(); + + virtual void getChildren(vector *children); + virtual GameRuleDefinition *addChild(ConsoleGameRules::EGameRuleType ruleType); + + virtual void populateGameRule(GameRulesInstance::EGameRulesInstanceType type, GameRule *rule); + + virtual bool onUseTile(GameRule *rule, int tileId, int x, int y, int z); + virtual bool onCollectItem(GameRule *rule, shared_ptr item); + virtual void postProcessPlayer(shared_ptr player); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/ConsoleGameRules.h b/Minecraft.Client/Common/GameRules/ConsoleGameRules.h new file mode 100644 index 0000000..41c5e55 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/ConsoleGameRules.h @@ -0,0 +1,32 @@ +#pragma once +#include "ConsoleGameRulesConstants.h" + +#include "GameRuleManager.h" + +#include "GameRule.h" + +#include "GameRuleDefinition.h" + +#include "LevelRuleset.h" +#include "NamedAreaRuleDefinition.h" + +#include "CollectItemRuleDefinition.h" +#include "CompleteAllRuleDefinition.h" +#include "CompoundGameRuleDefinition.h" +#include "UseTileRuleDefinition.h" +#include "UpdatePlayerRuleDefinition.h" +#include "AddItemRuleDefinition.h" +#include "AddEnchantmentRuleDefinition.h" + +#include "LevelGenerationOptions.h" +#include "ApplySchematicRuleDefinition.h" +#include "ConsoleGenerateStructure.h" +#include "ConsoleGenerateStructureAction.h" +#include "XboxStructureActionGenerateBox.h" +#include "XboxStructureActionPlaceBlock.h" +#include "XboxStructureActionPlaceContainer.h" +#include "XboxStructureActionPlaceSpawner.h" +#include "BiomeOverride.h" +#include "StartFeature.h" + +#include "GameRulesInstance.h" diff --git a/Minecraft.Client/Common/GameRules/ConsoleGameRulesConstants.h b/Minecraft.Client/Common/GameRules/ConsoleGameRulesConstants.h new file mode 100644 index 0000000..a7111f0 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/ConsoleGameRulesConstants.h @@ -0,0 +1,119 @@ +#pragma once + +//#include " + +class ConsoleGameRules +{ +public: + enum EGameRuleType + { + eGameRuleType_Invalid = -1, + eGameRuleType_Root = 0, // This is the top level rule that defines a game mode, this is used to generate data for new players + + eGameRuleType_LevelGenerationOptions, + eGameRuleType_ApplySchematic, + eGameRuleType_GenerateStructure, + eGameRuleType_GenerateBox, + eGameRuleType_PlaceBlock, + eGameRuleType_PlaceContainer, + eGameRuleType_PlaceSpawner, + eGameRuleType_BiomeOverride, + eGameRuleType_StartFeature, + + eGameRuleType_AddItem, + eGameRuleType_AddEnchantment, + + eGameRuleType_LevelRules, + eGameRuleType_NamedArea, + + eGameRuleType_UseTileRule, + eGameRuleType_CollectItemRule, + eGameRuleType_CompleteAllRule, + eGameRuleType_UpdatePlayerRule, + + eGameRuleType_Count + }; + + enum EGameRuleAttr + { + eGameRuleAttr_Invalid = -1, + + eGameRuleAttr_descriptionName = 0, + eGameRuleAttr_promptName, + eGameRuleAttr_dataTag, + + eGameRuleAttr_enchantmentId, + eGameRuleAttr_enchantmentLevel, + + eGameRuleAttr_itemId, + eGameRuleAttr_quantity, + eGameRuleAttr_auxValue, + eGameRuleAttr_slot, + + eGameRuleAttr_name, + + eGameRuleAttr_food, + eGameRuleAttr_health, + + eGameRuleAttr_tileId, + eGameRuleAttr_useCoords, + + eGameRuleAttr_seed, + eGameRuleAttr_flatworld, + + eGameRuleAttr_filename, + eGameRuleAttr_rot, + + eGameRuleAttr_data, + eGameRuleAttr_block, + eGameRuleAttr_entity, + + eGameRuleAttr_facing, + + eGameRuleAttr_edgeTile, + eGameRuleAttr_fillTile, + eGameRuleAttr_skipAir, + + eGameRuleAttr_x, + eGameRuleAttr_x0, + eGameRuleAttr_x1, + + eGameRuleAttr_y, + eGameRuleAttr_y0, + eGameRuleAttr_y1, + + eGameRuleAttr_z, + eGameRuleAttr_z0, + eGameRuleAttr_z1, + + eGameRuleAttr_chunkX, + eGameRuleAttr_chunkZ, + + eGameRuleAttr_yRot, + + eGameRuleAttr_spawnX, + eGameRuleAttr_spawnY, + eGameRuleAttr_spawnZ, + + eGameRuleAttr_orientation, + eGameRuleAttr_dimension, + + eGameRuleAttr_topTileId, + eGameRuleAttr_biomeId, + + eGameRuleAttr_feature, + + eGameRuleAttr_Count + }; + + static void write(DataOutputStream *dos, ConsoleGameRules::EGameRuleType eType) + { + dos->writeInt(eType); + } + + static void write(DataOutputStream *dos, ConsoleGameRules::EGameRuleAttr eAttr) + { + dos->writeInt( eGameRuleType_Count + eAttr ); + } + +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/ConsoleGenerateStructure.cpp b/Minecraft.Client/Common/GameRules/ConsoleGenerateStructure.cpp new file mode 100644 index 0000000..dd77768 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/ConsoleGenerateStructure.cpp @@ -0,0 +1,178 @@ +#include "stdafx.h" +#include "ConsoleGenerateStructure.h" +#include "ConsoleGameRules.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.levelgen.structure.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\net.minecraft.h" + +ConsoleGenerateStructure::ConsoleGenerateStructure() : StructurePiece(0) +{ + m_x = m_y = m_z = 0; + boundingBox = nullptr; + orientation = Direction::NORTH; + m_dimension = 0; +} + +void ConsoleGenerateStructure::getChildren(vector *children) +{ + GameRuleDefinition::getChildren(children); + + for ( auto& action : m_actions ) + children->push_back( action ); +} + +GameRuleDefinition *ConsoleGenerateStructure::addChild(ConsoleGameRules::EGameRuleType ruleType) +{ + GameRuleDefinition *rule = nullptr; + if(ruleType == ConsoleGameRules::eGameRuleType_GenerateBox) + { + rule = new XboxStructureActionGenerateBox(); + m_actions.push_back(static_cast(rule)); + } + else if(ruleType == ConsoleGameRules::eGameRuleType_PlaceBlock) + { + rule = new XboxStructureActionPlaceBlock(); + m_actions.push_back(static_cast(rule)); + } + else if(ruleType == ConsoleGameRules::eGameRuleType_PlaceContainer) + { + rule = new XboxStructureActionPlaceContainer(); + m_actions.push_back(static_cast(rule)); + } + else if(ruleType == ConsoleGameRules::eGameRuleType_PlaceSpawner) + { + rule = new XboxStructureActionPlaceSpawner(); + m_actions.push_back(static_cast(rule)); + } + else + { +#ifndef _CONTENT_PACKAGE + wprintf(L"ConsoleGenerateStructure: Attempted to add invalid child rule - %d\n", ruleType ); +#endif + } + return rule; +} + +void ConsoleGenerateStructure::writeAttributes(DataOutputStream *dos, UINT numAttrs) +{ + GameRuleDefinition::writeAttributes(dos, numAttrs + 5); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_x); + dos->writeUTF(std::to_wstring(m_x)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_y); + dos->writeUTF(std::to_wstring(m_y)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_z); + dos->writeUTF(std::to_wstring(m_z)); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_orientation); + dos->writeUTF(std::to_wstring(orientation)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_dimension); + dos->writeUTF(std::to_wstring(m_dimension)); +} + +void ConsoleGenerateStructure::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"x") == 0) + { + int value = _fromString(attributeValue); + m_x = value; + app.DebugPrintf("ConsoleGenerateStructure: Adding parameter x=%d\n",m_x); + } + else if(attributeName.compare(L"y") == 0) + { + int value = _fromString(attributeValue); + m_y = value; + app.DebugPrintf("ConsoleGenerateStructure: Adding parameter y=%d\n",m_y); + } + else if(attributeName.compare(L"z") == 0) + { + int value = _fromString(attributeValue); + m_z = value; + app.DebugPrintf("ConsoleGenerateStructure: Adding parameter z=%d\n",m_z); + } + else if(attributeName.compare(L"orientation") == 0) + { + int value = _fromString(attributeValue); + orientation = value; + app.DebugPrintf("ConsoleGenerateStructure: Adding parameter orientation=%d\n",orientation); + } + else if(attributeName.compare(L"dim") == 0) + { + m_dimension = _fromString(attributeValue); + if(m_dimension > 1 || m_dimension < -1) m_dimension = 0; + app.DebugPrintf("ApplySchematicRuleDefinition: Adding parameter dimension=%d\n",m_dimension); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +BoundingBox* ConsoleGenerateStructure::getBoundingBox() +{ + if(boundingBox == nullptr) + { + // Find the max bounds + int maxX, maxY, maxZ; + maxX = maxY = maxZ = 1; + for( ConsoleGenerateStructureAction *action : m_actions ) + { + maxX = std::max(maxX,action->getEndX()); + maxY = std::max(maxY,action->getEndY()); + maxZ = std::max(maxZ,action->getEndZ()); + } + + boundingBox = new BoundingBox(m_x, m_y, m_z, m_x + maxX, m_y + maxY, m_z + maxZ); + } + return boundingBox; +} + +bool ConsoleGenerateStructure::postProcess(Level *level, Random *random, BoundingBox *chunkBB) +{ + if(level->dimension->id != m_dimension) return false; + + for( ConsoleGenerateStructureAction *action : m_actions ) + { + switch(action->getActionType()) + { + case ConsoleGameRules::eGameRuleType_GenerateBox: + { + XboxStructureActionGenerateBox *genBox = static_cast(action); + genBox->generateBoxInLevel(this,level,chunkBB); + } + break; + case ConsoleGameRules::eGameRuleType_PlaceBlock: + { + XboxStructureActionPlaceBlock *pPlaceBlock = static_cast(action); + pPlaceBlock->placeBlockInLevel(this,level,chunkBB); + } + break; + case ConsoleGameRules::eGameRuleType_PlaceContainer: + { + XboxStructureActionPlaceContainer *pPlaceContainer = static_cast(action); + pPlaceContainer->placeContainerInLevel(this,level,chunkBB); + } + break; + case ConsoleGameRules::eGameRuleType_PlaceSpawner: + { + XboxStructureActionPlaceSpawner *pPlaceSpawner = static_cast(action); + pPlaceSpawner->placeSpawnerInLevel(this,level,chunkBB); + } + break; + }; + } + + return false; +} + +bool ConsoleGenerateStructure::checkIntersects(int x0, int y0, int z0, int x1, int y1, int z1) +{ + return getBoundingBox()->intersects(x0,y0,z0,x1,y1,z1); +} + +int ConsoleGenerateStructure::getMinY() +{ + return getBoundingBox()->y0; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/ConsoleGenerateStructure.h b/Minecraft.Client/Common/GameRules/ConsoleGenerateStructure.h new file mode 100644 index 0000000..712a29a --- /dev/null +++ b/Minecraft.Client/Common/GameRules/ConsoleGenerateStructure.h @@ -0,0 +1,42 @@ +#pragma once +#include "GameRuleDefinition.h" +#include "..\..\..\Minecraft.World\StructurePiece.h" + +class Level; +class Random; +class BoundingBox; +class ConsoleGenerateStructureAction; +class XboxStructureActionPlaceContainer; +class GRFObject; + +class ConsoleGenerateStructure : public GameRuleDefinition, public StructurePiece +{ +private: + int m_x, m_y, m_z; + vector m_actions; + int m_dimension; +public: + ConsoleGenerateStructure(); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_GenerateStructure; } + + virtual void getChildren(vector *children); + virtual GameRuleDefinition *addChild(ConsoleGameRules::EGameRuleType ruleType); + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttrs); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + // StructurePiece + virtual BoundingBox *getBoundingBox(); + virtual bool postProcess(Level *level, Random *random, BoundingBox *chunkBB); + + void createContainer(XboxStructureActionPlaceContainer *action, Level *level, BoundingBox *chunkBB); + + bool checkIntersects(int x0, int y0, int z0, int x1, int y1, int z1); + + virtual int getMinY(); + + EStructurePiece GetType() { return static_cast(0); } + void addAdditonalSaveData(CompoundTag *tag) {} + void readAdditonalSaveData(CompoundTag *tag) {} +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/ConsoleGenerateStructureAction.h b/Minecraft.Client/Common/GameRules/ConsoleGenerateStructureAction.h new file mode 100644 index 0000000..14eb2fd --- /dev/null +++ b/Minecraft.Client/Common/GameRules/ConsoleGenerateStructureAction.h @@ -0,0 +1,11 @@ +#pragma once + +#include "GameRuleDefinition.h" + +class ConsoleGenerateStructureAction : public GameRuleDefinition +{ +public: + virtual int getEndX() = 0; + virtual int getEndY() = 0; + virtual int getEndZ() = 0; +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/ConsoleSchematicFile.cpp b/Minecraft.Client/Common/GameRules/ConsoleSchematicFile.cpp new file mode 100644 index 0000000..c261e0c --- /dev/null +++ b/Minecraft.Client/Common/GameRules/ConsoleSchematicFile.cpp @@ -0,0 +1,1022 @@ +#include "stdafx.h" +#include +#include "..\..\..\Minecraft.World\com.mojang.nbt.h" +#include "..\..\..\Minecraft.World\System.h" +#include "ConsoleSchematicFile.h" +#include "..\..\..\Minecraft.World\InputOutputStream.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.entity.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.entity.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.entity.item.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.phys.h" +#include "..\..\..\Minecraft.World\compression.h" + +ConsoleSchematicFile::ConsoleSchematicFile() +{ + m_xSize = m_ySize = m_zSize = 0; + m_refCount = 1; + m_data.data = nullptr; +} + +ConsoleSchematicFile::~ConsoleSchematicFile() +{ + app.DebugPrintf("Deleting schematic file\n"); + if(m_data.data != nullptr) delete [] m_data.data; +} + +void ConsoleSchematicFile::save(DataOutputStream *dos) +{ + if(dos != nullptr) + { + dos->writeInt(XBOX_SCHEMATIC_CURRENT_VERSION); + + dos->writeByte(APPROPRIATE_COMPRESSION_TYPE); + + dos->writeInt(m_xSize); + dos->writeInt(m_ySize); + dos->writeInt(m_zSize); + + byteArray ba(new BYTE[ m_data.length ], m_data.length); + Compression::getCompression()->CompressLZXRLE( ba.data, &ba.length, + m_data.data, m_data.length); + + dos->writeInt(ba.length); + dos->write(ba); + + save_tags(dos); + + delete [] ba.data; + } +} + +void ConsoleSchematicFile::load(DataInputStream *dis) +{ + if(dis != nullptr) + { + // VERSION CHECK // + int version = dis->readInt(); + + Compression::ECompressionTypes compressionType = Compression::eCompressionType_LZXRLE; + + if (version > XBOX_SCHEMATIC_ORIGINAL_VERSION) // Or later versions + { + compressionType = static_cast(dis->readByte()); + } + + if (version > XBOX_SCHEMATIC_CURRENT_VERSION) + assert(false && "Unrecognised schematic version!!"); + + m_xSize = dis->readInt(); + m_ySize = dis->readInt(); + m_zSize = dis->readInt(); + + int compressedSize = dis->readInt(); + byteArray compressedBuffer(compressedSize); + dis->readFully(compressedBuffer); + + if(m_data.data != nullptr) + { + delete [] m_data.data; + m_data.data = nullptr; + } + + if(compressionType == Compression::eCompressionType_None) + { + m_data = compressedBuffer; + } + else + { + unsigned int outputSize = m_xSize * m_ySize * m_zSize * 3/2; + m_data = byteArray(outputSize); + + switch(compressionType) + { + case Compression::eCompressionType_RLE: + Compression::getCompression()->DecompressRLE( m_data.data, &m_data.length, compressedBuffer.data, compressedSize); + break; + case APPROPRIATE_COMPRESSION_TYPE: + Compression::getCompression()->DecompressLZXRLE( m_data.data, &m_data.length, compressedBuffer.data, compressedSize); + break; + default: + app.DebugPrintf("Unrecognized compression type for Schematic file (%d)\n", (int)compressionType); + Compression::getCompression()->SetDecompressionType( (Compression::ECompressionTypes)compressionType ); + Compression::getCompression()->DecompressLZXRLE( m_data.data, &m_data.length, compressedBuffer.data, compressedSize); + Compression::getCompression()->SetDecompressionType( APPROPRIATE_COMPRESSION_TYPE ); + }; + + delete [] compressedBuffer.data; + } + + // READ TAGS // + CompoundTag *tag = NbtIo::read(dis); + ListTag *tileEntityTags = (ListTag *) tag->getList(L"TileEntities"); + if (tileEntityTags != nullptr) + { + for (int i = 0; i < tileEntityTags->size(); i++) + { + CompoundTag *teTag = tileEntityTags->get(i); + shared_ptr te = TileEntity::loadStatic(teTag); + + if(te == nullptr) + { +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("ConsoleSchematicFile has read a nullptr tile entity\n"); + __debugbreak(); +#endif + } + else + { + m_tileEntities.push_back(te); + } + } + } + ListTag *entityTags = (ListTag *) tag->getList(L"Entities"); + if (entityTags != nullptr) + { + for (int i = 0; i < entityTags->size(); i++) + { + CompoundTag *eTag = entityTags->get(i); + eINSTANCEOF type = EntityIO::getType(eTag->getString(L"id")); + ListTag *pos = (ListTag *) eTag->getList(L"Pos"); + + double x = pos->get(0)->data; + double y = pos->get(1)->data; + double z = pos->get(2)->data; + + if( type == eTYPE_PAINTING || type == eTYPE_ITEM_FRAME ) + { + x = static_cast(eTag->get(L"TileX"))->data; + y = static_cast(eTag->get(L"TileY"))->data; + z = static_cast(eTag->get(L"TileZ"))->data; + } +#ifdef _DEBUG + //app.DebugPrintf(1,"Loaded entity type %d at (%f,%f,%f)\n",(int)type,x,y,z); +#endif + m_entities.push_back( pair(Vec3::newPermanent(x,y,z),static_cast(eTag->copy()))); + } + } + delete tag; + } +} + +void ConsoleSchematicFile::save_tags(DataOutputStream *dos) +{ + CompoundTag *tag = new CompoundTag(); + + ListTag *tileEntityTags = new ListTag(); + tag->put(L"TileEntities", tileEntityTags); + + for ( auto& it : m_tileEntities ) + { + CompoundTag *cTag = new CompoundTag(); + it->save(cTag); + tileEntityTags->add(cTag); + } + + ListTag *entityTags = new ListTag(); + tag->put(L"Entities", entityTags); + + for (auto& it : m_entities ) + entityTags->add( static_cast((it).second->copy()) ); + + NbtIo::write(tag,dos); + delete tag; +} + +int64_t ConsoleSchematicFile::applyBlocksAndData(LevelChunk *chunk, AABB *chunkBox, AABB *destinationBox, ESchematicRotation rot) +{ + int xStart = static_cast(std::fmax(destinationBox->x0, static_cast(chunk->x)*16)); + int xEnd = static_cast(std::fmin(destinationBox->x1, static_cast((xStart >> 4) << 4) + 16)); + + int yStart = destinationBox->y0; + int yEnd = destinationBox->y1; + if(yEnd > Level::maxBuildHeight) yEnd = Level::maxBuildHeight; + + int zStart = static_cast(std::fmax(destinationBox->z0, static_cast(chunk->z) * 16)); + int zEnd = static_cast(std::fmin(destinationBox->z1, static_cast((zStart >> 4) << 4) + 16)); + +#ifdef _DEBUG + app.DebugPrintf("Range is (%d,%d,%d) to (%d,%d,%d)\n",xStart,yStart,zStart,xEnd-1,yEnd-1,zEnd-1); +#endif + + int rowBlocksIncluded = (yEnd-yStart)*(zEnd-zStart); + int blocksIncluded = (xEnd-xStart)*rowBlocksIncluded; + + int rowBlockCount = getYSize() * getZSize(); + int totalBlockCount = getXSize() * rowBlockCount; + + byteArray blockData = byteArray(Level::CHUNK_TILE_COUNT); + PIXBeginNamedEvent(0,"Getting block data"); + chunk->getBlockData(blockData); + PIXEndNamedEvent(); + byteArray dataData = byteArray(Level::HALF_CHUNK_TILE_COUNT); + PIXBeginNamedEvent(0,"Getting Data data"); + chunk->getDataData(dataData); + PIXEndNamedEvent(); + + // Ignore light data + int blockLightP = -1; + int skyLightP = -1; + if( rot == eSchematicRot_90 || rot == eSchematicRot_180 || rot == eSchematicRot_270 ) + { + int schematicXRow = 0; + int schematicZRow = 0; + int blocksP = 0; + int dataP = 0; + + for(int x = xStart; x < xEnd; ++x) + { + int x0 = x - chunk->x*16; + int x1 = x0 + 1; + + for(int z = zStart; z < zEnd; ++z) + { + int z0 = z - chunk->z*16; + int z1 = z0 + 1; + + chunkCoordToSchematicCoord(destinationBox, x, z, rot, schematicXRow, schematicZRow); + blocksP = (schematicXRow*rowBlockCount) + (schematicZRow*getYSize()); + dataP = totalBlockCount + (blocksP)/2; + + ConsoleSchematicFile::setBlocksAndData(chunk,blockData,dataData,m_data, x0, yStart, z0, x1, yEnd, z1, blocksP, dataP, blockLightP, skyLightP); + } + } + } + else if( rot == eSchematicRot_0 ) + { + // The initial pointer offsets for the different data types + int schematicXRow = xStart - destinationBox->x0; + int schematicZRow = zStart - destinationBox->z0; + int blocksP = (schematicXRow*rowBlockCount) + (schematicZRow*getYSize()); + int dataP = totalBlockCount + (schematicXRow*rowBlockCount + (schematicZRow*getYSize()))/2; + + for(int x = xStart; x < xEnd; ++x) + { + int x0 = x - chunk->x*16; + int x1 = x0 + 1; + + int z0 = zStart - chunk->z*16; + int z1 = zEnd - chunk->z*16; + + ConsoleSchematicFile::setBlocksAndData(chunk,blockData,dataData,m_data, x0, yStart, z0, x1, yEnd, z1, blocksP, dataP, blockLightP, skyLightP); + // update all pointer positions + // For z start to z end + // Set blocks and data + // increment z by the right amount + blocksP += (rowBlockCount-rowBlocksIncluded); + dataP += (rowBlockCount-rowBlocksIncluded)/2; + } + } + else + { + app.DebugPrintf("ERROR: Rotation of block and data not implemented!!\n"); + } + + // 4J Stu - Hack for ME pack to replace sand with end stone in schematics + //for(int i = 0; i < blockData.length; ++i) + //{ + // if(blockData[i] == Tile::sand_Id || blockData[i] == Tile::sandStone_Id) + // { + // blockData[i] = Tile::endStone_Id; + // } + //} + + PIXBeginNamedEvent(0,"Setting Block data"); + chunk->setBlockData(blockData); + PIXEndNamedEvent(); + delete blockData.data; + chunk->recalcHeightmapOnly(); + PIXBeginNamedEvent(0,"Setting Data data"); + chunk->setDataData(dataData); + PIXEndNamedEvent(); + delete dataData.data; + + // A basic pass through to roughly do the lighting. At this point of post-processing, we don't have all the neighbouring chunks loaded in, + // so any lighting here should be things that won't propagate out of this chunk. + for( int xx = xStart ; xx < xEnd; xx++ ) + for( int y = yStart ; y < yEnd; y++ ) + for( int zz = zStart ; zz < zEnd; zz++ ) + { + int x = xx - chunk->x * 16; + int z = zz - chunk->z * 16; + chunk->setBrightness(LightLayer::Block,x,y,z,0); + if( chunk->getTile(x,y,z) ) + { + chunk->setBrightness(LightLayer::Sky,x,y,z,0); + } + else + { + if( chunk->isSkyLit(x,y,z) ) + { + chunk->setBrightness(LightLayer::Sky,x,y,z,15); + } + else + { + chunk->setBrightness(LightLayer::Sky,x,y,z,0); + } + } + } + + return blocksIncluded; +} + +// At the point that this is called, we have all the neighbouring chunks loaded in (and generally post-processed, apart from this lighting pass), so +// we can do the sort of lighting that might propagate out of the chunk. +int64_t ConsoleSchematicFile::applyLighting(LevelChunk *chunk, AABB *chunkBox, AABB *destinationBox, ESchematicRotation rot) +{ + int xStart = max(destinationBox->x0, (double)chunk->x*16); + int xEnd = min(destinationBox->x1, (double)((xStart>>4)<<4) + 16); + + int yStart = destinationBox->y0; + int yEnd = destinationBox->y1; + if(yEnd > Level::maxBuildHeight) yEnd = Level::maxBuildHeight; + + int zStart = max(destinationBox->z0, (double)chunk->z*16); + int zEnd = min(destinationBox->z1, (double)((zStart>>4)<<4) + 16); + + int rowBlocksIncluded = (yEnd-yStart)*(zEnd-zStart); + int blocksIncluded = (xEnd-xStart)*rowBlocksIncluded; + + // Now actually do a checkLight on blocks that might need it, which should more accurately put everything in place + for( int xx = xStart ; xx < xEnd; xx++ ) + for( int y = yStart ; y < yEnd; y++ ) + for( int zz = zStart ; zz < zEnd; zz++ ) + { + int x = xx - chunk->x * 16; + int z = zz - chunk->z * 16; + + if( y <= chunk->getHeightmap( x, z ) ) + { + chunk->level->checkLight(LightLayer::Sky, xx, y, zz, true); + } + if( Tile::lightEmission[chunk->getTile(x,y,z)] ) + { + // Note that this lighting passes a rootOnlyEmissive flag of true, which means that only the location xx/y/zz is considered + // as possibly being a source of emissive light, not other tiles that we might encounter whilst propagating the light from + // the start location. If we don't do this, and Do encounter another emissive source in the radius of influence that the first + // light source had, then we'll start also lighting from that tile but won't actually be able to progatate that second light + // fully since checkLight only has a finite radius of 17 from the start position that it can light. Then when we do a checkLight + // on the second light later, it won't bother doing anything because the light level at the location of the tile itself will be correct. + chunk->level->checkLight(LightLayer::Block, xx, y, zz, true, true); + } + } + + return blocksIncluded; +} + +void ConsoleSchematicFile::chunkCoordToSchematicCoord(AABB *destinationBox, int chunkX, int chunkZ, ESchematicRotation rot, int &schematicX, int &schematicZ) +{ + switch(rot) + { + case eSchematicRot_90: + // schematicX decreases as chunkZ increases + // schematicZ increases as chunkX increases + schematicX = chunkZ - destinationBox->z0; + schematicZ = (destinationBox->x1 - 1 - destinationBox->x0) - (chunkX - destinationBox->x0); + break; + case eSchematicRot_180: + // schematicX decreases as chunkX increases + // schematicZ decreases as chunkZ increases + schematicX = (destinationBox->x1 - 1 - destinationBox->x0) - (chunkX - destinationBox->x0); + schematicZ = (destinationBox->z1 - 1 - destinationBox->z0) - (chunkZ - destinationBox->z0); + break; + case eSchematicRot_270: + // schematicX increases as chunkZ increases + // shcematicZ decreases as chunkX increases + schematicX = (destinationBox->z1 - 1 - destinationBox->z0) - (chunkZ - destinationBox->z0); + schematicZ = chunkX - destinationBox->x0; + break; + case eSchematicRot_0: + default: + // schematicX increases as chunkX increases + // schematicZ increases as chunkZ increases + schematicX = chunkX - destinationBox->x0; + schematicZ = chunkZ - destinationBox->z0; + break; + }; +} + +void ConsoleSchematicFile::schematicCoordToChunkCoord(AABB *destinationBox, double schematicX, double schematicZ, ESchematicRotation rot, double &chunkX, double &chunkZ) +{ + switch(rot) + { + case eSchematicRot_90: + // schematicX decreases as chunkZ increases + // schematicZ increases as chunkX increases + chunkX = (destinationBox->x1 - 1 - schematicZ); + chunkZ = schematicX + destinationBox->z0; + break; + case eSchematicRot_180: + // schematicX decreases as chunkX increases + // schematicZ decreases as chunkZ increases + chunkX = (destinationBox->x1 - 1 - schematicX); + chunkZ = (destinationBox->z1 - 1 - schematicZ); + break; + case eSchematicRot_270: + // schematicX increases as chunkZ increases + // shcematicZ decreases as chunkX increases + chunkX = schematicZ + destinationBox->x0; + chunkZ = (destinationBox->z1 - 1 - schematicX); + break; + case eSchematicRot_0: + default: + // schematicX increases as chunkX increases + // schematicZ increases as chunkZ increases + chunkX = schematicX + destinationBox->x0; + chunkZ = schematicZ + destinationBox->z0; + break; + }; +} + +void ConsoleSchematicFile::applyTileEntities(LevelChunk *chunk, AABB *chunkBox, AABB *destinationBox, ESchematicRotation rot) +{ + for (auto& te : m_tileEntities ) + { + double targetX = te->x; + double targetY = te->y + destinationBox->y0; + double targetZ = te->z; + + schematicCoordToChunkCoord(destinationBox, te->x, te->z, rot, targetX, targetZ); + + Vec3 *pos = Vec3::newTemp(targetX,targetY,targetZ); + if( chunkBox->containsIncludingLowerBound(pos) ) + { + shared_ptr teCopy = chunk->getTileEntity( static_cast(targetX) & 15, static_cast(targetY) & 15, static_cast(targetZ) & 15 ); + + if ( teCopy != nullptr ) + { + CompoundTag *teData = new CompoundTag(); + te->save(teData); + + teCopy->load(teData); + + delete teData; + + // Adjust the tileEntity position to world coords from schematic co-ords + teCopy->x = targetX; + teCopy->y = targetY; + teCopy->z = targetZ; + + // Remove the current tile entity + //chunk->removeTileEntity( (int)targetX & 15, (int)targetY & 15, (int)targetZ & 15 ); + } + else + { + teCopy = te->clone(); + + // Adjust the tileEntity position to world coords from schematic co-ords + teCopy->x = targetX; + teCopy->y = targetY; + teCopy->z = targetZ; + chunk->addTileEntity(teCopy); + } + + teCopy->setChanged(); + } + } + for (auto it = m_entities.begin(); it != m_entities.end();) + { + Vec3 *source = it->first; + + double targetX = source->x; + double targetY = source->y + destinationBox->y0; + double targetZ = source->z; + schematicCoordToChunkCoord(destinationBox, source->x, source->z, rot, targetX, targetZ); + + // Add 0.01 as the AABB::contains function returns false if a value is <= the lower bound + Vec3 *pos = Vec3::newTemp(targetX+0.01,targetY+0.01,targetZ+0.01); + if( !chunkBox->containsIncludingLowerBound(pos) ) + { + ++it; + continue; + } + + CompoundTag *eTag = it->second; + shared_ptr e = EntityIO::loadStatic(eTag, nullptr); + + if( e->GetType() == eTYPE_PAINTING ) + { + shared_ptr painting = dynamic_pointer_cast(e); + + double tileX = painting->xTile; + double tileZ = painting->zTile; + schematicCoordToChunkCoord(destinationBox, painting->xTile, painting->zTile, rot, tileX, tileZ); + + painting->yTile += destinationBox->y0; + painting->xTile = tileX; + painting->zTile = tileZ; + painting->setDir(painting->dir); + } + else if( e->GetType() == eTYPE_ITEM_FRAME ) + { + shared_ptr frame = dynamic_pointer_cast(e); + + double tileX = frame->xTile; + double tileZ = frame->zTile; + schematicCoordToChunkCoord(destinationBox, frame->xTile, frame->zTile, rot, tileX, tileZ); + + frame->yTile += destinationBox->y0; + frame->xTile = tileX; + frame->zTile = tileZ; + frame->setDir(frame->dir); + } + else + { + e->absMoveTo(targetX, targetY, targetZ,e->yRot,e->xRot); + } +#ifdef _DEBUG + app.DebugPrintf("Adding entity type %d at (%f,%f,%f)\n",e->GetType(),e->x,e->y,e->z); +#endif + e->setLevel(chunk->level); + e->resetSmallId(); + e->setDespawnProtected(); // default to being protected against despawning + chunk->level->addEntity(e); + + // 4J Stu - Until we can copy every type of entity, remove them from this vector + // This means that the entities will only exist in the first use of the schematic that is processed + //it = m_entities.erase(it); + ++it; + } +} + +void ConsoleSchematicFile::generateSchematicFile(DataOutputStream *dos, Level *level, int xStart, int yStart, int zStart, int xEnd, int yEnd, int zEnd, bool bSaveMobs, Compression::ECompressionTypes compressionType) +{ + assert(xEnd > xStart); + assert(yEnd > yStart); + assert(zEnd > zStart); + // 4J Stu - Enforce even numbered positions to start with to avoid problems with half-bytes in data + + // We want the start to be even + if(xStart > 0 && xStart%2 != 0) + xStart-=1; + else if(xStart < 0 && xStart%2 !=0) + xStart-=1; + if(yStart < 0) yStart = 0; + else if(yStart > 0 && yStart%2 != 0) + yStart-=1; + if(zStart > 0 && zStart%2 != 0) + zStart-=1; + else if(zStart < 0 && zStart%2 !=0) + zStart-=1; + + // We want the end to be odd to have a total size that is even + if(xEnd > 0 && xEnd%2 == 0) + xEnd+=1; + else if(xEnd < 0 && xEnd%2 ==0) + xEnd+=1; + if(yEnd > Level::maxBuildHeight) + yEnd = Level::maxBuildHeight; + else if(yEnd > 0 && yEnd%2 == 0) + yEnd+=1; + else if(yEnd < 0 && yEnd%2 ==0) + yEnd+=1; + if(zEnd > 0 && zEnd%2 == 0) + zEnd+=1; + else if(zEnd < 0 && zEnd%2 ==0) + zEnd+=1; + + int xSize = xEnd - xStart + 1; + int ySize = yEnd - yStart + 1; + int zSize = zEnd - zStart + 1; + + app.DebugPrintf("Generating schematic file for area (%d,%d,%d) to (%d,%d,%d), %dx%dx%d\n",xStart,yStart,zStart,xEnd,yEnd,zEnd,xSize,ySize,zSize); + + if(dos != nullptr) dos->writeInt(XBOX_SCHEMATIC_CURRENT_VERSION); + + if(dos != nullptr) dos->writeByte(compressionType); + + //Write xSize + if(dos != nullptr) dos->writeInt(xSize); + + //Write ySize + if(dos != nullptr) dos->writeInt(ySize); + + //Write zSize + if(dos != nullptr) dos->writeInt(zSize); + + //byteArray rawBuffer = level->getBlocksAndData(xStart, yStart, zStart, xSize, ySize, zSize, false); + int xRowSize = ySize * zSize; + int blockCount = xSize * xRowSize; + byteArray result( blockCount * 3 / 2 ); + + // Position pointers into the data when not ordered by chunk + int p = 0; + int dataP = blockCount; + int blockLightP = -1; + int skyLightP = -1; + + int y0 = yStart; + int y1 = yStart + ySize; + if (y0 < 0) y0 = 0; + if (y1 > Level::maxBuildHeight) y1 = Level::maxBuildHeight; + + // Every x is a whole row + for(int xPos = xStart; xPos < xStart + xSize; ++xPos) + { + int xc = xPos >> 4; + + int x0 = xPos - xc * 16; + if (x0 < 0) x0 = 0; + int x1 = x0 + 1; + if (x1 > 16) x1 = 16; + + for(int zPos = zStart; zPos < zStart + zSize;) + { + int zc = zPos >> 4; + + int z0 = zStart - zc * 16; + int z1 = zStart + zSize - zc * 16; + if (z0 < 0) z0 = 0; + if (z1 > 16) z1 = 16; + getBlocksAndData(level->getChunk(xc, zc), &result, x0, y0, z0, x1, y1, z1, p, dataP, blockLightP, skyLightP); + zPos += (z1-z0); + } + } + +#ifndef _CONTENT_PACKAGE + if(p!=blockCount) __debugbreak(); +#endif + + // We don't know how this will compress - just make a fixed length buffer to initially decompress into + // Some small sets of blocks can end up compressing into something bigger than their source + unsigned int inputSize = blockCount * 3 / 2; + unsigned char *ucTemp = new unsigned char[inputSize]; + + switch(compressionType) + { + case Compression::eCompressionType_LZXRLE: + Compression::getCompression()->CompressLZXRLE( ucTemp, &inputSize, result.data, (unsigned int) result.length ); + break; + case Compression::eCompressionType_RLE: + Compression::getCompression()->CompressRLE( ucTemp, &inputSize, result.data, (unsigned int) result.length ); + break; + case Compression::eCompressionType_None: + default: + memcpy( ucTemp, result.data, inputSize ); + break; + }; + + delete [] result.data; + byteArray buffer = byteArray(ucTemp,inputSize); + + if(dos != nullptr) dos->writeInt(inputSize); + if(dos != nullptr) dos->write(buffer); + delete [] buffer.data; + + CompoundTag tag; + ListTag *tileEntitiesTag = new ListTag(L"tileEntities"); + + int xc0 = xStart >> 4; + int zc0 = zStart >> 4; + int xc1 = (xStart + xSize - 1) >> 4; + int zc1 = (zStart + zSize - 1) >> 4; + + for (int xc = xc0; xc <= xc1; xc++) + { + for (int zc = zc0; zc <= zc1; zc++) + { + vector > *tileEntities = getTileEntitiesInRegion(level->getChunk(xc, zc), xStart, yStart, zStart, xStart + xSize, yStart + ySize, zStart + zSize); + for( auto& te : *tileEntities ) + { + CompoundTag *teTag = new CompoundTag(); + shared_ptr teCopy = te->clone(); + + // Adjust the tileEntity position to schematic coords from world co-ords + teCopy->x -= xStart; + teCopy->y -= yStart; + teCopy->z -= zStart; + teCopy->save(teTag); + tileEntitiesTag->add(teTag); + } + delete tileEntities; + } + } + tag.put(L"TileEntities", tileEntitiesTag); + + AABB *bb = AABB::newTemp(xStart,yStart,zStart,xEnd,yEnd,zEnd); + vector > *entities = level->getEntities(nullptr, bb); + ListTag *entitiesTag = new ListTag(L"entities"); + + for (auto& e : *entities ) + { + bool mobCanBeSaved = false; + if (bSaveMobs) + { + if ( e->instanceof(eTYPE_MONSTER) || e->instanceof(eTYPE_WATERANIMAL) || e->instanceof(eTYPE_ANIMAL) || (e->GetType() == eTYPE_VILLAGER) ) + + // 4J-JEV: All these are derived from eTYPE_ANIMAL and true implicitly. + //|| ( e->GetType() == eTYPE_CHICKEN ) || ( e->GetType() == eTYPE_WOLF ) || ( e->GetType() == eTYPE_MUSHROOMCOW ) ) + { + mobCanBeSaved = true; + } + } + + // 4J-JEV: Changed to check for instances of minecarts and hangingEntities instead of just eTYPE_PAINTING, eTYPE_ITEM_FRAME and eTYPE_MINECART + if (mobCanBeSaved || e->instanceof(eTYPE_MINECART) || e->GetType() == eTYPE_BOAT || e->instanceof(eTYPE_HANGING_ENTITY)) + { + CompoundTag *eTag = new CompoundTag(); + if( e->save(eTag) ) + { + ListTag *pos = (ListTag *) eTag->getList(L"Pos"); + + pos->get(0)->data -= xStart; + pos->get(1)->data -= yStart; + pos->get(2)->data -= zStart; + + if( e->instanceof(eTYPE_HANGING_ENTITY) ) + { + static_cast(eTag->get(L"TileX"))->data -= xStart; + static_cast(eTag->get(L"TileY"))->data -= yStart; + static_cast(eTag->get(L"TileZ"))->data -= zStart; + } + + entitiesTag->add(eTag); + } + } + } + + tag.put(L"Entities", entitiesTag); + + if(dos != nullptr) NbtIo::write(&tag,dos); +} + +void ConsoleSchematicFile::getBlocksAndData(LevelChunk *chunk, byteArray *data, int x0, int y0, int z0, int x1, int y1, int z1, int &blocksP, int &dataP, int &blockLightP, int &skyLightP) +{ + // 4J Stu - Needs updated to work with higher worlds, should still work with non-optimised version below + //int xs = x1 - x0; + //int ys = y1 - y0; + //int zs = z1 - z0; + //if (xs * ys * zs == LevelChunk::BLOCKS_LENGTH) + //{ + // byteArray blockData = byteArray(data->data + blocksP, Level::CHUNK_TILE_COUNT); + // chunk->getBlockData(blockData); + // blocksP += blockData.length; + + // byteArray dataData = byteArray(data->data + dataP, 16384); + // chunk->getBlockLightData(dataData); + // dataP += dataData.length; + + // byteArray blockLightData = byteArray(data->data + blockLightP, 16384); + // chunk->getBlockLightData(blockLightData); + // blockLightP += blockLightData.length; + + // byteArray skyLightData = byteArray(data->data + skyLightP, 16384); + // chunk->getSkyLightData(skyLightData); + // skyLightP += skyLightData.length; + // return; + //} + + bool bHasLower, bHasUpper; + bHasLower = bHasUpper = false; + int lowerY0, lowerY1, upperY0, upperY1; + lowerY0 = upperY0 = y0; + lowerY1 = upperY1 = y1; + + int compressedHeight = Level::COMPRESSED_CHUNK_SECTION_HEIGHT; + if(y0 < Level::COMPRESSED_CHUNK_SECTION_HEIGHT) + { + lowerY0 = y0; + lowerY1 = min(y1, compressedHeight); + bHasLower = true; + } + if(y1 >= Level::COMPRESSED_CHUNK_SECTION_HEIGHT) + { + upperY0 = max(y0, compressedHeight) - Level::COMPRESSED_CHUNK_SECTION_HEIGHT; + upperY1 = y1 - Level::COMPRESSED_CHUNK_SECTION_HEIGHT; + bHasUpper = true; + } + + byteArray blockData = byteArray(Level::CHUNK_TILE_COUNT); + chunk->getBlockData(blockData); + for (int x = x0; x < x1; x++) + for (int z = z0; z < z1; z++) + { + if(bHasLower) + { + int slot = x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | lowerY0; + int len = lowerY1 - lowerY0; + System::arraycopy(blockData, slot, data, blocksP, len); + blocksP += len; + } + if(bHasUpper) + { + int slot = (x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | upperY0) + Level::COMPRESSED_CHUNK_SECTION_TILES; + int len = upperY1 - upperY0; + System::arraycopy(blockData, slot, data, blocksP, len); + blocksP += len; + } + } + delete blockData.data; + + byteArray dataData = byteArray(Level::CHUNK_TILE_COUNT); + chunk->getDataData(dataData); + for (int x = x0; x < x1; x++) + for (int z = z0; z < z1; z++) + { + if(bHasLower) + { + int slot = (x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | lowerY0) >> 1; + int len = (lowerY1 - lowerY0) / 2; + System::arraycopy(dataData, slot, data, dataP, len); + dataP += len; + } + if(bHasUpper) + { + int slot = ((x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | upperY0) + Level::COMPRESSED_CHUNK_SECTION_TILES) >> 1; + int len = (upperY1 - upperY0) / 2; + System::arraycopy(dataData, slot, data, dataP, len); + dataP += len; + } + } + delete dataData.data; + + // 4J Stu - Allow ignoring light data + if(blockLightP > -1) + { + byteArray blockLightData = byteArray(Level::HALF_CHUNK_TILE_COUNT); + chunk->getBlockLightData(blockLightData); + for (int x = x0; x < x1; x++) + for (int z = z0; z < z1; z++) + { + if(bHasLower) + { + int slot = (x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | lowerY0) >> 1; + int len = (lowerY1 - lowerY0) / 2; + System::arraycopy(blockLightData, slot, data, blockLightP, len); + blockLightP += len; + } + if(bHasUpper) + { + int slot = ((x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | upperY0) >> 1) + (Level::COMPRESSED_CHUNK_SECTION_TILES/2); + int len = (upperY1 - upperY0) / 2; + System::arraycopy(blockLightData, slot, data, blockLightP, len); + blockLightP += len; + } + } + delete blockLightData.data; + } + + + // 4J Stu - Allow ignoring light data + if(skyLightP > -1) + { + byteArray skyLightData = byteArray(Level::HALF_CHUNK_TILE_COUNT); + chunk->getSkyLightData(skyLightData); + for (int x = x0; x < x1; x++) + for (int z = z0; z < z1; z++) + { + if(bHasLower) + { + int slot = (x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | lowerY0) >> 1; + int len = (lowerY1 - lowerY0) / 2; + System::arraycopy(skyLightData, slot, data, skyLightP, len); + skyLightP += len; + } + if(bHasUpper) + { + int slot = ((x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | upperY0) >> 1) + (Level::COMPRESSED_CHUNK_SECTION_TILES/2); + int len = (upperY1 - upperY0) / 2; + System::arraycopy(skyLightData, slot, data, skyLightP, len); + skyLightP += len; + } + } + delete skyLightData.data; + } + + return; +} + +void ConsoleSchematicFile::setBlocksAndData(LevelChunk *chunk, byteArray blockData, byteArray dataData, byteArray inputData, int x0, int y0, int z0, int x1, int y1, int z1, int &blocksP, int &dataP, int &blockLightP, int &skyLightP) +{ + bool bHasLower, bHasUpper; + bHasLower = bHasUpper = false; + int lowerY0, lowerY1, upperY0, upperY1; + lowerY0 = upperY0 = y0; + lowerY1 = upperY1 = y1; + + int compressedHeight = Level::COMPRESSED_CHUNK_SECTION_HEIGHT; + if(y0 < Level::COMPRESSED_CHUNK_SECTION_HEIGHT) + { + lowerY0 = y0; + lowerY1 = min(y1, compressedHeight); + bHasLower = true; + } + if(y1 >= Level::COMPRESSED_CHUNK_SECTION_HEIGHT) + { + upperY0 = max(y0, compressedHeight) - Level::COMPRESSED_CHUNK_SECTION_HEIGHT; + upperY1 = y1 - Level::COMPRESSED_CHUNK_SECTION_HEIGHT; + bHasUpper = true; + } + PIXBeginNamedEvent(0,"Applying block data"); + for (int x = x0; x < x1; x++) + for (int z = z0; z < z1; z++) + { + if(bHasLower) + { + int slot = x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | lowerY0; + int len = lowerY1 - lowerY0; + System::arraycopy(inputData, blocksP, &blockData, slot, len); + blocksP += len; + } + if(bHasUpper) + { + int slot = (x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | upperY0) + Level::COMPRESSED_CHUNK_SECTION_TILES; + int len = upperY1 - upperY0; + System::arraycopy(inputData, blocksP, &blockData, slot, len); + blocksP += len; + } + } + PIXEndNamedEvent(); + + PIXBeginNamedEvent(0,"Applying Data data"); + for (int x = x0; x < x1; x++) + for (int z = z0; z < z1; z++) + { + if(bHasLower) + { + int slot = (x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | lowerY0) >> 1; + int len = (lowerY1 - lowerY0) / 2; + System::arraycopy(inputData, dataP, &dataData, slot, len); + dataP += len; + } + if(bHasUpper) + { + int slot = ((x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | upperY0) + Level::COMPRESSED_CHUNK_SECTION_TILES) >> 1; + int len = (upperY1 - upperY0) / 2; + System::arraycopy(inputData, dataP, &dataData, slot, len); + dataP += len; + } + } + PIXEndNamedEvent(); + // 4J Stu - Allow ignoring light data + if(blockLightP > -1) + { + byteArray blockLightData = byteArray(Level::HALF_CHUNK_TILE_COUNT); + chunk->getBlockLightData(blockLightData); + for (int x = x0; x < x1; x++) + for (int z = z0; z < z1; z++) + { + if(bHasLower) + { + int slot = (x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | lowerY0) >> 1; + int len = (lowerY1 - lowerY0) / 2; + System::arraycopy(inputData, blockLightP, &blockLightData, slot, len); + blockLightP += len; + } + if(bHasUpper) + { + int slot = ( (x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | upperY0) >> 1) + (Level::COMPRESSED_CHUNK_SECTION_TILES/2); + int len = (upperY1 - upperY0) / 2; + System::arraycopy(inputData, blockLightP, &blockLightData, slot, len); + blockLightP += len; + } + } + chunk->setBlockLightData(blockLightData); + delete blockLightData.data; + } + + // 4J Stu - Allow ignoring light data + if(skyLightP > -1) + { + byteArray skyLightData = byteArray(Level::HALF_CHUNK_TILE_COUNT); + chunk->getSkyLightData(skyLightData); + for (int x = x0; x < x1; x++) + for (int z = z0; z < z1; z++) + { + if(bHasLower) + { + int slot = (x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | lowerY0) >> 1; + int len = (lowerY1 - lowerY0) / 2; + System::arraycopy(inputData, skyLightP, &skyLightData, slot, len); + skyLightP += len; + } + if(bHasUpper) + { + int slot = (x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | upperY0) + (Level::COMPRESSED_CHUNK_SECTION_TILES/2); + int len = (upperY1 - upperY0) / 2; + System::arraycopy(inputData, skyLightP, &skyLightData, slot, len); + skyLightP += len; + } + } + chunk->setSkyLightData(skyLightData); + delete skyLightData.data; + } +} + +vector > *ConsoleSchematicFile::getTileEntitiesInRegion(LevelChunk *chunk, int x0, int y0, int z0, int x1, int y1, int z1) +{ + vector > *result = new vector >; + if ( result ) + { + for ( auto& it : chunk->tileEntities ) + { + shared_ptr te = it.second; + if (te->x >= x0 && te->y >= y0 && te->z >= z0 && te->x < x1 && te->y < y1 && te->z < z1) + { + result->push_back(te); + } + } + } + return result; +} diff --git a/Minecraft.Client/Common/GameRules/ConsoleSchematicFile.h b/Minecraft.Client/Common/GameRules/ConsoleSchematicFile.h new file mode 100644 index 0000000..b0eebf9 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/ConsoleSchematicFile.h @@ -0,0 +1,90 @@ +#pragma once +using namespace std; + +#define XBOX_SCHEMATIC_ORIGINAL_VERSION 1 +#define XBOX_SCHEMATIC_CURRENT_VERSION 2 + +#include "..\..\..\Minecraft.World\ArrayWithLength.h" + +class Level; +class DataOutputStream; +class DataInputStream; +class TileEntity; +class LevelChunk; +class AABB; +class Vec3; + +class ConsoleSchematicFile +{ +public: + enum ESchematicRotation + { + eSchematicRot_0, + eSchematicRot_90, + eSchematicRot_180, + eSchematicRot_270 + }; +private: + int m_refCount; + +public: + void incrementRefCount() { ++m_refCount; } + void decrementRefCount() { --m_refCount; } + bool shouldDelete() { return m_refCount <= 0; } + + typedef struct _XboxSchematicInitParam + { + wchar_t name[64]; + int startX; + int startY; + int startZ; + int endX; + int endY; + int endZ; + bool bSaveMobs; + + Compression::ECompressionTypes compressionType; + + _XboxSchematicInitParam() + { + ZeroMemory(name,64*(sizeof(wchar_t))); + startX = startY = startZ = endX = endY = endZ = 0; + bSaveMobs = false; + compressionType = Compression::eCompressionType_None; + } + } XboxSchematicInitParam; +private: + int m_xSize, m_ySize, m_zSize; + vector > m_tileEntities; + vector< pair > m_entities; + +public: + byteArray m_data; + +public: + ConsoleSchematicFile(); + ~ConsoleSchematicFile(); + + int getXSize() { return m_xSize; } + int getYSize() { return m_ySize; } + int getZSize() { return m_zSize; } + + void save(DataOutputStream *dos); + void load(DataInputStream *dis); + + int64_t applyBlocksAndData(LevelChunk *chunk, AABB *chunkBox, AABB *destinationBox, ESchematicRotation rot); + int64_t applyLighting(LevelChunk *chunk, AABB *chunkBox, AABB *destinationBox, ESchematicRotation rot); + void applyTileEntities(LevelChunk *chunk, AABB *chunkBox, AABB *destinationBox, ESchematicRotation rot); + + static void generateSchematicFile(DataOutputStream *dos, Level *level, int xStart, int yStart, int zStart, int xEnd, int yEnd, int zEnd, bool bSaveMobs, Compression::ECompressionTypes); + static void setBlocksAndData(LevelChunk *chunk, byteArray blockData, byteArray dataData, byteArray data, int x0, int y0, int z0, int x1, int y1, int z1, int &blocksP, int &dataP, int &blockLightP, int &skyLightP); +private: + void save_tags(DataOutputStream *dos); + void load_tags(DataInputStream *dis); + + static void getBlocksAndData(LevelChunk *chunk, byteArray *data, int x0, int y0, int z0, int x1, int y1, int z1, int &blocksP, int &dataP, int &blockLightP, int &skyLightP); + static vector > *getTileEntitiesInRegion(LevelChunk *chunk, int x0, int y0, int z0, int x1, int y1, int z1); + + void chunkCoordToSchematicCoord(AABB *destinationBox, int chunkX, int chunkZ, ESchematicRotation rot, int &schematicX, int &schematicZ); + void schematicCoordToChunkCoord(AABB *destinationBox, double schematicX, double schematicZ, ESchematicRotation rot, double &chunkX, double &chunkZ); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/GameRule.cpp b/Minecraft.Client/Common/GameRules/GameRule.cpp new file mode 100644 index 0000000..b37df84 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/GameRule.cpp @@ -0,0 +1,97 @@ +#include "stdafx.h" +#include "ConsoleGameRules.h" + +GameRule::GameRule(GameRuleDefinition *definition, Connection *connection) +{ + m_definition = definition; + m_connection = connection; +} + +GameRule::~GameRule() +{ + for(auto& it : m_parameters ) + { + if(it.second.isPointer) + { + delete it.second.gr; + } + } +} + +GameRule::ValueType GameRule::getParameter(const wstring ¶meterName) +{ + if(m_parameters.find(parameterName) == m_parameters.end()) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"WARNING: Parameter %ls was not set before being fetched\n", parameterName.c_str()); + __debugbreak(); +#endif + } + return m_parameters[parameterName]; +} + +void GameRule::setParameter(const wstring ¶meterName,ValueType value) +{ + if(m_parameters.find(parameterName) == m_parameters.end()) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Adding parameter %ls to GameRule\n", parameterName.c_str()); +#endif + } + else + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Setting parameter %ls for GameRule\n", parameterName.c_str()); +#endif + } + m_parameters[parameterName] = value; +} + +GameRuleDefinition *GameRule::getGameRuleDefinition() +{ + return m_definition; +} + +void GameRule::onUseTile(int tileId, int x, int y, int z) { m_definition->onUseTile(this,tileId,x,y,z); } +void GameRule::onCollectItem(shared_ptr item) { m_definition->onCollectItem(this,item); } + +void GameRule::write(DataOutputStream *dos) +{ + // Find required parameters. + dos->writeInt(m_parameters.size()); + for ( const auto& parameter : m_parameters ) + { + wstring pName = parameter.first; + ValueType vType = parameter.second; + + dos->writeUTF( parameter.first ); + dos->writeBoolean( vType.isPointer ); + + if (vType.isPointer) + vType.gr->write(dos); + else + dos->writeLong( vType.i64 ); + } +} + +void GameRule::read(DataInputStream *dis) +{ + int savedParams = dis->readInt(); + for (int i = 0; i < savedParams; i++) + { + wstring pNames = dis->readUTF(); + + ValueType vType = getParameter(pNames); + + if (dis->readBoolean()) + { + vType.gr->read(dis); + } + else + { + vType.isPointer = false; + vType.i64 = dis->readLong(); + setParameter(pNames, vType); + } + } +} diff --git a/Minecraft.Client/Common/GameRules/GameRule.h b/Minecraft.Client/Common/GameRules/GameRule.h new file mode 100644 index 0000000..e35f137 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/GameRule.h @@ -0,0 +1,62 @@ +#pragma once +using namespace std; + +#include + +class CompoundTag; +class GameRuleDefinition; +class Connection; + +// A game rule maintains the state for one particular definition +class GameRule +{ +public: + typedef struct _ValueType + { + union{ + int64_t i64; + int i; + char c; + bool b; + float f; + double d; + GameRule *gr; + }; + bool isPointer; + + _ValueType() + { + i64 = 0; + isPointer = false; + } + } ValueType; + +private: + GameRuleDefinition *m_definition; + Connection *m_connection; + +public: + typedef unordered_map stringValueMapType; + stringValueMapType m_parameters; // These are the members of this rule that maintain it's state + +public: + GameRule(GameRuleDefinition *definition, Connection *connection = nullptr); + virtual ~GameRule(); + + Connection *getConnection() { return m_connection; } + + ValueType getParameter(const wstring ¶meterName); + void setParameter(const wstring ¶meterName,ValueType value); + GameRuleDefinition *getGameRuleDefinition(); + + // All the hooks go here + void onUseTile(int tileId, int x, int y, int z); + void onCollectItem(shared_ptr item); + + // 4J-JEV: For saving. + //CompoundTag *toTags(unordered_map *map); + //static GameRule *fromTags(Connection *c, CompoundTag *cTag, vector *grds); + + void write(DataOutputStream *dos); + void read(DataInputStream *dos); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/GameRuleDefinition.cpp b/Minecraft.Client/Common/GameRules/GameRuleDefinition.cpp new file mode 100644 index 0000000..3b23dbb --- /dev/null +++ b/Minecraft.Client/Common/GameRules/GameRuleDefinition.cpp @@ -0,0 +1,151 @@ +#include "stdafx.h" +#include "..\..\WstringLookup.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "ConsoleGameRules.h" + +GameRuleDefinition::GameRuleDefinition() +{ + m_descriptionId = L""; + m_promptId = L""; + m_4JDataValue = 0; +} + +void GameRuleDefinition::write(DataOutputStream *dos) +{ + // Write EGameRuleType. + ConsoleGameRules::EGameRuleType eType = getActionType(); + assert( eType != ConsoleGameRules::eGameRuleType_Invalid ); + ConsoleGameRules::write(dos, eType); // stringID + + writeAttributes(dos, 0); + + // 4J-JEV: Get children. + vector *children = new vector(); + getChildren( children ); + + // Write children. + dos->writeInt( children->size() ); + for ( auto& it : *children ) + it->write(dos); +} + +void GameRuleDefinition::writeAttributes(DataOutputStream *dos, UINT numAttributes) +{ + dos->writeInt(numAttributes + 3); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_descriptionName); + dos->writeUTF(m_descriptionId); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_promptName); + dos->writeUTF(m_promptId); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_dataTag); + dos->writeUTF(std::to_wstring(m_4JDataValue)); +} + +void GameRuleDefinition::getChildren(vector *children) {} + +GameRuleDefinition *GameRuleDefinition::addChild(ConsoleGameRules::EGameRuleType ruleType) +{ +#ifndef _CONTENT_PACKAGE + //wprintf(L"GameRuleDefinition: Attempted to add invalid child rule - %d\n", ruleType ); +#endif + return nullptr; +} + +void GameRuleDefinition::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"descriptionName") == 0) + { + m_descriptionId = attributeValue; +#ifndef _CONTENT_PACKAGE + //wprintf(L"GameRuleDefinition: Adding parameter descriptionId=%ls\n",m_descriptionId.c_str()); +#endif + } + else if(attributeName.compare(L"promptName") == 0) + { + m_promptId = attributeValue; +#ifndef _CONTENT_PACKAGE + //wprintf(L"GameRuleDefinition: Adding parameter m_promptId=%ls\n",m_promptId.c_str()); +#endif + } + else if(attributeName.compare(L"dataTag") == 0) + { + m_4JDataValue = _fromString(attributeValue); + //app.DebugPrintf("GameRuleDefinition: Adding parameter m_4JDataValue=%d\n",m_4JDataValue); + } + else + { +#ifndef _CONTENT_PACKAGE + //wprintf(L"GameRuleDefinition: Attempted to add invalid attribute: %ls\n", attributeName.c_str()); +#endif + } +} + +void GameRuleDefinition::populateGameRule(GameRulesInstance::EGameRulesInstanceType type, GameRule *rule) +{ + GameRule::ValueType value; + value.b = false; + rule->setParameter(L"bComplete",value); +} + +bool GameRuleDefinition::getComplete(GameRule *rule) +{ + GameRule::ValueType value; + value = rule->getParameter(L"bComplete"); + return value.b; +} + +void GameRuleDefinition::setComplete(GameRule *rule, bool val) +{ + GameRule::ValueType value; + value = rule->getParameter(L"bComplete"); + value.b = val; + rule->setParameter(L"bComplete",value); +} + +vector *GameRuleDefinition::enumerate() +{ + // Get Vector. + vector *gRules; + gRules = new vector(); + gRules->push_back(this); + getChildren(gRules); + return gRules; +} + +unordered_map *GameRuleDefinition::enumerateMap() +{ + unordered_map *out + = new unordered_map(); + + int i = 0; + vector *gRules = enumerate(); + for ( auto& it : *gRules ) + out->emplace(it, i++); + + return out; +} + +GameRulesInstance *GameRuleDefinition::generateNewGameRulesInstance(GameRulesInstance::EGameRulesInstanceType type, LevelRuleset *rules, Connection *connection) +{ + GameRulesInstance *manager = new GameRulesInstance(rules, connection); + + rules->populateGameRule(type, manager); + + return manager; +} + +wstring GameRuleDefinition::generateDescriptionString(ConsoleGameRules::EGameRuleType defType, const wstring &description, void *data, int dataLength) +{ + wstring formatted = description; + switch(defType) + { + case ConsoleGameRules::eGameRuleType_CompleteAllRule: + formatted = CompleteAllRuleDefinition::generateDescriptionString(description,data,dataLength); + break; + default: + break; + }; + return formatted; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/GameRuleDefinition.h b/Minecraft.Client/Common/GameRules/GameRuleDefinition.h new file mode 100644 index 0000000..4a2c43a --- /dev/null +++ b/Minecraft.Client/Common/GameRules/GameRuleDefinition.h @@ -0,0 +1,66 @@ +#pragma once +using namespace std; +#include +#include + +#include "..\..\..\Minecraft.World\ItemInstance.h" +#include "ConsoleGameRulesConstants.h" + +#include "GameRulesInstance.h" + +class GameRule; +class LevelRuleset; +class Player; +class WstringLookup; + +class GameRuleDefinition +{ +private: + // Owner type defines who this rule applies to + GameRulesInstance::EGameRulesInstanceType m_ownerType; + +protected: + // These attributes should map to those in the XSD GameRuleType + wstring m_descriptionId; + wstring m_promptId; + int m_4JDataValue; + +public: + GameRuleDefinition(); + + virtual ConsoleGameRules::EGameRuleType getActionType() = 0; + + void setOwnerType(GameRulesInstance::EGameRulesInstanceType ownerType) { m_ownerType = ownerType;} + + virtual void write(DataOutputStream *); + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttributes); + virtual void getChildren(vector *); + + virtual GameRuleDefinition *addChild(ConsoleGameRules::EGameRuleType ruleType); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + virtual void populateGameRule(GameRulesInstance::EGameRulesInstanceType type, GameRule *rule); + + bool getComplete(GameRule *rule); + void setComplete(GameRule *rule, bool val); + + virtual int getGoal() { return 0; } + virtual int getProgress(GameRule *rule) { return 0; } + + virtual int getIcon() { return -1; } + virtual int getAuxValue() { return 0; } + + // Here we should have functions for all the hooks, with a GameRule* as the first parameter + virtual bool onUseTile(GameRule *rule, int tileId, int x, int y, int z) { return false; } + virtual bool onCollectItem(GameRule *rule, shared_ptr item) { return false; } + virtual void postProcessPlayer(shared_ptr player) { } + + vector *enumerate(); + unordered_map *enumerateMap(); + + // Static functions + static GameRulesInstance *generateNewGameRulesInstance(GameRulesInstance::EGameRulesInstanceType type, LevelRuleset *rules, Connection *connection); + static wstring generateDescriptionString(ConsoleGameRules::EGameRuleType defType, const wstring &description, void *data = nullptr, int dataLength = 0); + +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/GameRuleManager.cpp b/Minecraft.Client/Common/GameRules/GameRuleManager.cpp new file mode 100644 index 0000000..95434c0 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/GameRuleManager.cpp @@ -0,0 +1,782 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\compression.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\File.h" +#include "..\..\..\Minecraft.World\compression.h" +#include "..\DLC\DLCPack.h" +#include "..\DLC\DLCLocalisationFile.h" +#include "..\DLC\DLCGameRulesFile.h" +#include "..\DLC\DLCGameRules.h" +#include "..\DLC\DLCGameRulesHeader.h" +#include "..\..\StringTable.h" +#include "ConsoleGameRules.h" +#include "GameRuleManager.h" + +const WCHAR *GameRuleManager::wchTagNameA[] = +{ + L"", // eGameRuleType_Root + L"MapOptions", // eGameRuleType_LevelGenerationOptions + L"ApplySchematic", // eGameRuleType_ApplySchematic + L"GenerateStructure", // eGameRuleType_GenerateStructure + L"GenerateBox", // eGameRuleType_GenerateBox + L"PlaceBlock", // eGameRuleType_PlaceBlock + L"PlaceContainer", // eGameRuleType_PlaceContainer + L"PlaceSpawner", // eGameRuleType_PlaceSpawner + L"BiomeOverride", // eGameRuleType_BiomeOverride + L"StartFeature", // eGameRuleType_StartFeature + L"AddItem", // eGameRuleType_AddItem + L"AddEnchantment", // eGameRuleType_AddEnchantment + L"LevelRules", // eGameRuleType_LevelRules + L"NamedArea", // eGameRuleType_NamedArea + L"UseTile", // eGameRuleType_UseTileRule + L"CollectItem", // eGameRuleType_CollectItemRule + L"CompleteAll", // eGameRuleType_CompleteAllRule + L"UpdatePlayer", // eGameRuleType_UpdatePlayerRule +}; + +const WCHAR *GameRuleManager::wchAttrNameA[] = +{ + L"descriptionName", // eGameRuleAttr_descriptionName + L"promptName", // eGameRuleAttr_promptName + L"dataTag", // eGameRuleAttr_dataTag + L"enchantmentId", // eGameRuleAttr_enchantmentId + L"enchantmentLevel", // eGameRuleAttr_enchantmentLevel + L"itemId", // eGameRuleAttr_itemId + L"quantity", // eGameRuleAttr_quantity + L"auxValue", // eGameRuleAttr_auxValue + L"slot", // eGameRuleAttr_slot + L"name", // eGameRuleAttr_name + L"food", // eGameRuleAttr_food + L"health", // eGameRuleAttr_health + L"tileId", // eGameRuleAttr_tileId + L"useCoords", // eGameRuleAttr_useCoords + L"seed", // eGameRuleAttr_seed + L"flatworld", // eGameRuleAttr_flatworld + L"filename", // eGameRuleAttr_filename + L"rot", // eGameRuleAttr_rot + L"data", // eGameRuleAttr_data + L"block", // eGameRuleAttr_block + L"entity", // eGameRuleAttr_entity + L"facing", // eGameRuleAttr_facing + L"edgeTile", // eGameRuleAttr_edgeTile + L"fillTile", // eGameRuleAttr_fillTile + L"skipAir", // eGameRuleAttr_skipAir + L"x", // eGameRuleAttr_x + L"x0", // eGameRuleAttr_x0 + L"x1", // eGameRuleAttr_x1 + L"y", // eGameRuleAttr_y + L"y0", // eGameRuleAttr_y0 + L"y1", // eGameRuleAttr_y1 + L"z", // eGameRuleAttr_z + L"z0", // eGameRuleAttr_z0 + L"z1", // eGameRuleAttr_z1 + L"chunkX", // eGameRuleAttr_chunkX + L"chunkZ", // eGameRuleAttr_chunkZ + L"yRot", // eGameRuleAttr_yRot + L"spawnX", // eGameRuleAttr_spawnX + L"spawnY", // eGameRuleAttr_spawnY + L"spawnZ", // eGameRuleAttr_spawnZ + L"orientation", + L"dimension", + L"topTileId", // eGameRuleAttr_topTileId + L"biomeId", // eGameRuleAttr_biomeId + L"feature", // eGameRuleAttr_feature +}; + +GameRuleManager::GameRuleManager() +{ + m_currentGameRuleDefinitions = nullptr; + m_currentLevelGenerationOptions = nullptr; +} + +void GameRuleManager::loadGameRules(DLCPack *pack) +{ + StringTable *strings = nullptr; + + if(pack->doesPackContainFile(DLCManager::e_DLCType_LocalisationData,L"languages.loc")) + { + DLCLocalisationFile *localisationFile = static_cast(pack->getFile(DLCManager::e_DLCType_LocalisationData, L"languages.loc")); + strings = localisationFile->getStringTable(); + } + + int gameRulesCount = pack->getDLCItemsCount(DLCManager::e_DLCType_GameRulesHeader); + for(int i = 0; i < gameRulesCount; ++i) + { + DLCGameRulesHeader *dlcHeader = static_cast(pack->getFile(DLCManager::e_DLCType_GameRulesHeader, i)); + DWORD dSize; + byte *dData = dlcHeader->getData(dSize); + + LevelGenerationOptions *createdLevelGenerationOptions = new LevelGenerationOptions(pack); + // = loadGameRules(dData, dSize); //, strings); + + createdLevelGenerationOptions->setGrSource( dlcHeader ); + createdLevelGenerationOptions->setSrc( LevelGenerationOptions::eSrc_fromDLC ); + + readRuleFile(createdLevelGenerationOptions, dData, dSize, strings); + + dlcHeader->lgo = createdLevelGenerationOptions; + } + + gameRulesCount = pack->getDLCItemsCount(DLCManager::e_DLCType_GameRules); + for (int i = 0; i < gameRulesCount; ++i) + { + DLCGameRulesFile *dlcFile = static_cast(pack->getFile(DLCManager::e_DLCType_GameRules, i)); + + DWORD dSize; + byte *dData = dlcFile->getData(dSize); + + LevelGenerationOptions *createdLevelGenerationOptions = new LevelGenerationOptions(pack); + // = loadGameRules(dData, dSize); //, strings); + + createdLevelGenerationOptions->setGrSource( new JustGrSource() ); + createdLevelGenerationOptions->setSrc( LevelGenerationOptions::eSrc_tutorial ); + + readRuleFile(createdLevelGenerationOptions, dData, dSize, strings); + + createdLevelGenerationOptions->setLoadedData(); + } +} + +LevelGenerationOptions *GameRuleManager::loadGameRules(byte *dIn, UINT dSize) +{ + LevelGenerationOptions *lgo = new LevelGenerationOptions(); + lgo->setGrSource( new JustGrSource() ); + lgo->setSrc( LevelGenerationOptions::eSrc_fromSave ); + loadGameRules(lgo, dIn, dSize); + lgo->setLoadedData(); + return lgo; +} + +// 4J-JEV: Reverse of saveGameRules. +void GameRuleManager::loadGameRules(LevelGenerationOptions *lgo, byte *dIn, UINT dSize) +{ + app.DebugPrintf("GameRuleManager::LoadingGameRules:\n"); + + ByteArrayInputStream bais( byteArray(dIn,dSize) ); + DataInputStream dis(&bais); + + // Read file header. + + //dis.readInt(); // File Size + + short version = dis.readShort(); + assert( 0x1 == version ); + app.DebugPrintf("\tversion=%d.\n", version); + + for (int i = 0; i < 8; i++) dis.readByte(); + + BYTE compression_type = dis.readByte(); + + app.DebugPrintf("\tcompressionType=%d.\n", compression_type); + + UINT compr_len, decomp_len; + compr_len = dis.readInt(); + decomp_len = dis.readInt(); + + app.DebugPrintf("\tcompr_len=%d.\n\tdecomp_len=%d.\n", compr_len, decomp_len); + + + // Decompress File Body + + byteArray content(new BYTE[decomp_len], decomp_len), + compr_content(new BYTE[compr_len], compr_len); + dis.read(compr_content); + + Compression::getCompression()->SetDecompressionType( static_cast(compression_type) ); + Compression::getCompression()->DecompressLZXRLE( content.data, &content.length, + compr_content.data, compr_content.length); + Compression::getCompression()->SetDecompressionType( SAVE_FILE_PLATFORM_LOCAL ); + + dis.close(); + bais.close(); + + delete [] compr_content.data; + + ByteArrayInputStream bais2( content ); + DataInputStream dis2( &bais2 ); + + // Read StringTable. + byteArray bStringTable; + bStringTable.length = dis2.readInt(); + bStringTable.data = new BYTE[ bStringTable.length ]; + dis2.read(bStringTable); + StringTable *strings = new StringTable(bStringTable.data, bStringTable.length); + + // Read RuleFile. + byteArray bRuleFile; + bRuleFile.length = content.length - bStringTable.length; + bRuleFile.data = new BYTE[ bRuleFile.length ]; + dis2.read(bRuleFile); + + // 4J-JEV: I don't believe that the path-name is ever used. + //DLCGameRulesFile *dlcgr = new DLCGameRulesFile(L"__PLACEHOLDER__"); + //dlcgr->addData(bRuleFile.data,bRuleFile.length); + + if (readRuleFile(lgo, bRuleFile.data, bRuleFile.length, strings)) + { + // Set current gen options and ruleset. + //createdLevelGenerationOptions->setFromSaveGame(true); + lgo->setSrc(LevelGenerationOptions::eSrc_fromSave); + setLevelGenerationOptions( lgo ); + //m_currentGameRuleDefinitions = lgo->getRequiredGameRules(); + } + else + { + delete lgo; + } + + //delete [] content.data; + + // Close and return. + dis2.close(); + bais2.close(); + + return ; +} + +// 4J-JEV: Reverse of loadGameRules. +void GameRuleManager::saveGameRules(byte **dOut, UINT *dSize) +{ + if (m_currentGameRuleDefinitions == nullptr && + m_currentLevelGenerationOptions == nullptr) + { + app.DebugPrintf("GameRuleManager:: Nothing here to save."); + *dOut = nullptr; + *dSize = 0; + return; + } + + app.DebugPrintf("GameRuleManager::saveGameRules:\n"); + + // Initialise output stream. + ByteArrayOutputStream baos; + DataOutputStream dos(&baos); + + // Write header. + + // VERSION NUMBER + dos.writeShort( 0x1 ); // version_number + + // Write 8 bytes of empty space in case we need them later. + // Mainly useful for the ones we save embedded in game saves. + for (UINT i = 0; i < 8; i++) + dos.writeByte(0x0); + + dos.writeByte(APPROPRIATE_COMPRESSION_TYPE); // m_compressionType + + // -- START COMPRESSED -- // + ByteArrayOutputStream compr_baos; + DataOutputStream compr_dos(&compr_baos); + + if (m_currentGameRuleDefinitions == nullptr) + { + compr_dos.writeInt( 0 ); // numStrings for StringTable + compr_dos.writeInt( version_number ); + compr_dos.writeByte(Compression::eCompressionType_None); // compression type + for (int i=0; i<2; i++) compr_dos.writeByte(0x0); // Padding. + compr_dos.writeInt( 0 ); // StringLookup.length + compr_dos.writeInt( 0 ); // SchematicFiles.length + compr_dos.writeInt( 0 ); // XmlObjects.length + } + else + { + StringTable *st = m_currentGameRuleDefinitions->getStringTable(); + + if (st == nullptr) + { + app.DebugPrintf("GameRuleManager::saveGameRules: StringTable == nullptr!"); + } + else + { + // Write string table. + byteArray stba; + m_currentGameRuleDefinitions->getStringTable()->getData(&stba.data, &stba.length); + compr_dos.writeInt( stba.length ); + compr_dos.write( stba ); + + // Write game rule file to second + // buffer and generate string lookup. + writeRuleFile(&compr_dos); + } + } + + // Compress compr_dos and write to dos. + byteArray compr_ba(new BYTE[ compr_baos.buf.length ], compr_baos.buf.length); + Compression::getCompression()->CompressLZXRLE( compr_ba.data, &compr_ba.length, + compr_baos.buf.data, compr_baos.buf.length ); + + app.DebugPrintf("\tcompr_ba.length=%d.\n\tcompr_baos.buf.length=%d.\n", + compr_ba.length, compr_baos.buf.length ); + + dos.writeInt( compr_ba.length ); // Write length + dos.writeInt( compr_baos.buf.length ); + dos.write(compr_ba); + + delete [] compr_ba.data; + + compr_dos.close(); + compr_baos.close(); + // -- END COMPRESSED -- // + + // return + *dSize = baos.buf.length; + *dOut = baos.buf.data; + + baos.buf.data = nullptr; + + dos.close(); baos.close(); +} + +// 4J-JEV: Reverse of readRuleFile. +void GameRuleManager::writeRuleFile(DataOutputStream *dos) +{ + // Write Header + dos->writeShort(version_number); // Version number. + dos->writeByte(Compression::eCompressionType_None); // compression type + for (int i=0; i<8; i++) dos->writeBoolean(false); // Padding. + + // Write string lookup. + int numStrings = ConsoleGameRules::eGameRuleType_Count + ConsoleGameRules::eGameRuleAttr_Count; + dos->writeInt(numStrings); + for (int i = 0; i < ConsoleGameRules::eGameRuleType_Count; i++) dos->writeUTF( wchTagNameA[i] ); + for (int i = 0; i < ConsoleGameRules::eGameRuleAttr_Count; i++) dos->writeUTF( wchAttrNameA[i] ); + + // Write schematic files. + unordered_map *files; + files = getLevelGenerationOptions()->getUnfinishedSchematicFiles(); + dos->writeInt((int)files->size()); + for ( auto& it : *files ) + { + const wstring& filename = it.first; + ConsoleSchematicFile *file = it.second; + + ByteArrayOutputStream fileBaos; + DataOutputStream fileDos(&fileBaos); + file->save(&fileDos); + + dos->writeUTF(filename); + //dos->writeInt(file->m_data.length); + dos->writeInt(fileBaos.buf.length); + dos->write((byteArray)fileBaos.buf); + + fileDos.close(); fileBaos.close(); + } + + // Write xml objects. + dos->writeInt( 2 ); // numChildren + m_currentLevelGenerationOptions->write(dos); + m_currentGameRuleDefinitions->write(dos); +} + +bool GameRuleManager::readRuleFile(LevelGenerationOptions *lgo, byte *dIn, UINT dSize, StringTable *strings) //(DLCGameRulesFile *dlcFile, StringTable *strings) +{ + bool levelGenAdded = false; + bool gameRulesAdded = false; + LevelGenerationOptions *levelGenerator = lgo;//new LevelGenerationOptions(); + LevelRuleset *gameRules = new LevelRuleset(); + + //DWORD dwLen = 0; + //PBYTE pbData = dlcFile->getData(dwLen); + //byteArray data(pbData,dwLen); + + byteArray data(dIn, dSize); + ByteArrayInputStream bais(data); + DataInputStream dis(&bais); + + // Read File. + + // version_number + int64_t version = dis.readShort(); + unsigned char compressionType = 0; + if(version == 0) + { + for (int i = 0; i < 14; i++) dis.readByte(); // Read padding. + } + else + { + compressionType = dis.readByte(); + + // Read the spare bytes we inserted for future use + for(int i = 0; i < 8; ++i) dis.readBoolean(); + } + + ByteArrayInputStream *contentBais = nullptr; + DataInputStream *contentDis = nullptr; + + if(compressionType == Compression::eCompressionType_None) + { + // No compression + // No need to read buffer size, as we can read the stream as it is; + app.DebugPrintf("De-compressing game rules with: None\n"); + contentDis = &dis; + } + else + { + unsigned int uncompressedSize = dis.readInt(); + unsigned int compressedSize = dis.readInt(); + byteArray compressedBuffer(compressedSize); + dis.read(compressedBuffer); + + byteArray decompressedBuffer = byteArray(uncompressedSize); + + switch(compressionType) + { + case Compression::eCompressionType_None: + memcpy(decompressedBuffer.data, compressedBuffer.data, uncompressedSize); + break; + + case Compression::eCompressionType_RLE: + app.DebugPrintf("De-compressing game rules with: RLE\n"); + Compression::getCompression()->Decompress( decompressedBuffer.data, &decompressedBuffer.length, compressedBuffer.data, compressedSize); + break; + + default: + app.DebugPrintf("De-compressing game rules."); +#ifndef _CONTENT_PACKAGE + assert( compressionType == APPROPRIATE_COMPRESSION_TYPE ); +#endif + // 4J-JEV: DecompressLZXRLE uses the correct platform specific compression type. (need to assert that the data is compressed with it though). + Compression::getCompression()->DecompressLZXRLE(decompressedBuffer.data, &decompressedBuffer.length, compressedBuffer.data, compressedSize); + break; +/* 4J-JEV: + Each platform has only 1 method of compression, 'compression.h' file deals with it. + + case Compression::eCompressionType_LZXRLE: + app.DebugPrintf("De-compressing game rules with: LZX+RLE\n"); + Compression::getCompression()->DecompressLZXRLE( decompressedBuffer.data, &uncompressedSize, compressedBuffer.data, compressedSize); + break; + default: + app.DebugPrintf("Invalid compression type %d found\n", compressionType); + __debugbreak(); + + delete [] compressedBuffer.data; delete [] decompressedBuffer.data; + dis.close(); bais.reset(); + + if(!gameRulesAdded) delete gameRules; + return false; + */ + }; + + delete [] compressedBuffer.data; + + contentBais = new ByteArrayInputStream(decompressedBuffer); + contentDis = new DataInputStream(contentBais); + } + + // string lookup. + UINT numStrings = contentDis->readInt(); + vector tagsAndAtts; + for (UINT i = 0; i < numStrings; i++) + tagsAndAtts.push_back( contentDis->readUTF() ); + + unordered_map tagIdMap; + for(int type = (int)ConsoleGameRules::eGameRuleType_Root; type < static_cast(ConsoleGameRules::eGameRuleType_Count); ++type) + { + for(UINT i = 0; i < numStrings; ++i) + { + if(tagsAndAtts[i].compare(wchTagNameA[type]) == 0) + { + tagIdMap.insert( unordered_map::value_type(i, static_cast(type)) ); + break; + } + } + } + + // 4J-JEV: TODO: As yet unused. + /* + unordered_map attrIdMap; + for(int attr = (int)ConsoleGameRules::eGameRuleAttr_descriptionName; attr < (int)ConsoleGameRules::eGameRuleAttr_Count; ++attr) + { + for (UINT i = 0; i < numStrings; i++) + { + if (tagsAndAtts[i].compare(wchAttrNameA[attr]) == 0) + { + tagIdMap.insert( unordered_map::value_type(i , (ConsoleGameRules::EGameRuleAttr)attr) ); + break; + } + } + }*/ + + // subfile + // Old saves didn't write a numFiles count before the schematic entries. + // Detect this: a real count is small, but a UTF filename prefix reads as a large int. + UINT numFiles = contentDis->readInt(); + + if (lgo->isFromSave() && numFiles > 100) + { + contentDis->skip(-4); + while (true) + { + int peek = contentDis->readInt(); + if (peek <= 100) { contentDis->skip(-4); break; } + contentDis->skip(-4); + + wstring sFilename = contentDis->readUTF(); + int length = contentDis->readInt(); + byteArray ba( length ); + contentDis->read(ba); + levelGenerator->loadSchematicFile(sFilename, ba.data, ba.length); + } + } + else + { + for (UINT i = 0; i < numFiles; i++) + { + wstring sFilename = contentDis->readUTF(); + int length = contentDis->readInt(); + byteArray ba( length ); + contentDis->read(ba); + levelGenerator->loadSchematicFile(sFilename, ba.data, ba.length); + } + } + + LEVEL_GEN_ID lgoID = LEVEL_GEN_ID_NULL; + + // xml objects + UINT numObjects = contentDis->readInt(); + for(UINT i = 0; i < numObjects; ++i) + { + int tagId = contentDis->readInt(); + ConsoleGameRules::EGameRuleType tagVal = ConsoleGameRules::eGameRuleType_Invalid; + auto it = tagIdMap.find(tagId); + if(it != tagIdMap.end()) tagVal = it->second; + + GameRuleDefinition *rule = nullptr; + + if(tagVal == ConsoleGameRules::eGameRuleType_LevelGenerationOptions) + { + rule = levelGenerator; + levelGenAdded = true; + //m_levelGenerators.addLevelGenerator(L"",levelGenerator); + lgoID = addLevelGenerationOptions(levelGenerator); + levelGenerator->loadStringTable(strings); + } + else if(tagVal == ConsoleGameRules::eGameRuleType_LevelRules) + { + rule = gameRules; + gameRulesAdded = true; + m_levelRules.addLevelRule(L"",gameRules); + levelGenerator->setRequiredGameRules(gameRules); + gameRules->loadStringTable(strings); + } + + readAttributes(contentDis, &tagsAndAtts, rule); + readChildren(contentDis, &tagsAndAtts, &tagIdMap, rule); + } + + if(compressionType != 0) + { + // Not default + contentDis->close(); + if(contentBais != nullptr) delete contentBais; + delete contentDis; + } + + dis.close(); + bais.reset(); + + //if(!levelGenAdded) { delete levelGenerator; levelGenerator = nullptr; } + if(!gameRulesAdded) delete gameRules; + + return true; + //return levelGenerator; +} + +LevelGenerationOptions *GameRuleManager::readHeader(DLCGameRulesHeader *grh) +{ + LevelGenerationOptions *out = + new LevelGenerationOptions(); + + + out->setSrc(LevelGenerationOptions::eSrc_fromDLC); + out->setGrSource(grh); + addLevelGenerationOptions(out); + + return out; +} + +void GameRuleManager::readAttributes(DataInputStream *dis, vector *tagsAndAtts, GameRuleDefinition *rule) +{ + int numAttrs = dis->readInt(); + for (UINT att = 0; att < numAttrs; ++att) + { + int attID = dis->readInt(); + wstring value = dis->readUTF(); + + if(rule != nullptr) rule->addAttribute(tagsAndAtts->at(attID),value); + } +} + +void GameRuleManager::readChildren(DataInputStream *dis, vector *tagsAndAtts, unordered_map *tagIdMap, GameRuleDefinition *rule) +{ + int numChildren = dis->readInt(); + for(UINT child = 0; child < numChildren; ++child) + { + int tagId = dis->readInt(); + ConsoleGameRules::EGameRuleType tagVal = ConsoleGameRules::eGameRuleType_Invalid; + auto it = tagIdMap->find(tagId); + if(it != tagIdMap->end()) tagVal = it->second; + + GameRuleDefinition *childRule = nullptr; + if(rule != nullptr) childRule = rule->addChild(tagVal); + + readAttributes(dis,tagsAndAtts,childRule); + readChildren(dis,tagsAndAtts,tagIdMap,childRule); + } +} + +void GameRuleManager::processSchematics(LevelChunk *levelChunk) +{ + if(getLevelGenerationOptions() != nullptr) + { + LevelGenerationOptions *levelGenOptions = getLevelGenerationOptions(); + levelGenOptions->processSchematics(levelChunk); + } +} + +void GameRuleManager::processSchematicsLighting(LevelChunk *levelChunk) +{ + if(getLevelGenerationOptions() != nullptr) + { + LevelGenerationOptions *levelGenOptions = getLevelGenerationOptions(); + levelGenOptions->processSchematicsLighting(levelChunk); + } +} + +void GameRuleManager::loadDefaultGameRules() +{ +#ifdef _XBOX +#ifdef _TU_BUILD + wstring fileRoot = L"UPDATE:\\res\\GameRules\\Tutorial.pck"; +#else + wstring fileRoot = L"GAME:\\res\\TitleUpdate\\GameRules\\Tutorial.pck"; +#endif + File packedTutorialFile(fileRoot); + if(loadGameRulesPack(&packedTutorialFile)) + { + m_levelGenerators.getLevelGenerators()->at(0)->setWorldName(app.GetString(IDS_PLAY_TUTORIAL)); + //m_levelGenerators.getLevelGenerators()->at(0)->setDefaultSaveName(L"Tutorial"); + m_levelGenerators.getLevelGenerators()->at(0)->setDefaultSaveName(app.GetString(IDS_TUTORIALSAVENAME)); + } + +#else // _XBOX + +#ifdef _WINDOWS64 + File packedTutorialFile(L"Windows64Media\\Tutorial\\Tutorial.pck"); + if(!packedTutorialFile.exists()) packedTutorialFile = File(L"Windows64\\Tutorial\\Tutorial.pck"); +#elif defined(__ORBIS__) + File packedTutorialFile(L"/app0/orbis/Tutorial/Tutorial.pck"); +#elif defined(__PSVITA__) + File packedTutorialFile(L"PSVita/Tutorial/Tutorial.pck"); +#elif defined(__PS3__) + File packedTutorialFile(L"PS3/Tutorial/Tutorial.pck"); +#else + File packedTutorialFile(L"Tutorial\\Tutorial.pck"); +#endif + if(loadGameRulesPack(&packedTutorialFile)) + { + m_levelGenerators.getLevelGenerators()->at(0)->setWorldName(app.GetString(IDS_PLAY_TUTORIAL)); + //m_levelGenerators.getLevelGenerators()->at(0)->setDefaultSaveName(L"Tutorial"); + m_levelGenerators.getLevelGenerators()->at(0)->setDefaultSaveName(app.GetString(IDS_TUTORIALSAVENAME)); + } +#if 0 + wstring fpTutorial = L"Tutorial.pck"; + if(app.getArchiveFileSize(fpTutorial) >= 0) + { + DLCPack *pack = new DLCPack(L"",0xffffffff); + DWORD dwFilesProcessed = 0; + if ( app.m_dlcManager.readDLCDataFile(dwFilesProcessed,fpTutorial,pack,true) ) + { + app.m_dlcManager.addPack(pack); + //m_levelGenerators.getLevelGenerators()->at(0)->setWorldName(app.GetString(IDS_PLAY_TUTORIAL)); + //m_levelGenerators.getLevelGenerators()->at(0)->setDefaultSaveName(app.GetString(IDS_TUTORIALSAVENAME)); + } + else delete pack; + } +#endif +#endif +} + +bool GameRuleManager::loadGameRulesPack(File *path) +{ + bool success = false; + if(path->exists()) + { + DLCPack *pack = new DLCPack(L"",0xffffffff); + DWORD dwFilesProcessed = 0; + if( app.m_dlcManager.readDLCDataFile(dwFilesProcessed, path->getPath(),pack)) + { + app.m_dlcManager.addPack(pack); + success = true; + } + else + { + delete pack; + } + } + return success; +} + +void GameRuleManager::setLevelGenerationOptions(LevelGenerationOptions *levelGen) +{ + unloadCurrentGameRules(); + + m_currentGameRuleDefinitions = nullptr; + m_currentLevelGenerationOptions = levelGen; + + if(m_currentLevelGenerationOptions != nullptr && m_currentLevelGenerationOptions->requiresGameRules() ) + { + m_currentGameRuleDefinitions = m_currentLevelGenerationOptions->getRequiredGameRules(); + } + + if(m_currentLevelGenerationOptions != nullptr) + m_currentLevelGenerationOptions->reset_start(); +} + +LPCWSTR GameRuleManager::GetGameRulesString(const wstring &key) +{ + if(m_currentGameRuleDefinitions != nullptr && !key.empty() ) + { + return m_currentGameRuleDefinitions->getString(key); + } + else + { + return L""; + } +} + +LEVEL_GEN_ID GameRuleManager::addLevelGenerationOptions(LevelGenerationOptions *lgo) +{ + vector *lgs = m_levelGenerators.getLevelGenerators(); + + for (int i = 0; isize(); i++) + if (lgs->at(i) == lgo) + return i; + + lgs->push_back(lgo); + return lgs->size() - 1; +} + +void GameRuleManager::unloadCurrentGameRules() +{ + if (m_currentLevelGenerationOptions != nullptr) + { + if (m_currentGameRuleDefinitions != nullptr + && m_currentLevelGenerationOptions->isFromSave()) + m_levelRules.removeLevelRule( m_currentGameRuleDefinitions ); + + if (m_currentLevelGenerationOptions->isFromSave()) + { + m_levelGenerators.removeLevelGenerator( m_currentLevelGenerationOptions ); + + delete m_currentLevelGenerationOptions; + } + else if (m_currentLevelGenerationOptions->isFromDLC()) + { + m_currentLevelGenerationOptions->reset_finish(); + } + } + + m_currentGameRuleDefinitions = nullptr; + m_currentLevelGenerationOptions = nullptr; +} diff --git a/Minecraft.Client/Common/GameRules/GameRuleManager.h b/Minecraft.Client/Common/GameRules/GameRuleManager.h new file mode 100644 index 0000000..3f446e8 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/GameRuleManager.h @@ -0,0 +1,80 @@ +#pragma once +using namespace std; + +#include "LevelGenerators.h" +#include "LevelRules.h" +class LevelGenerationOptions; +class RootGameRulesDefinition; +class LevelChunk; +class DLCPack; +class DLCGameRulesFile; +class DLCGameRulesHeader; +class StringTable; +class GameRuleDefinition; +class DataInputStream; +class DataOutputStream; +class WstringLookup; + +#define GAME_RULE_SAVENAME L"requiredGameRules.grf" + +// 4J-JEV: +#define LEVEL_GEN_ID int +#define LEVEL_GEN_ID_NULL 0 + +class GameRuleManager +{ +public: + static const WCHAR *wchTagNameA[ConsoleGameRules::eGameRuleType_Count]; + static const WCHAR *wchAttrNameA[ConsoleGameRules::eGameRuleAttr_Count]; + + static const short version_number = 2; + +private: + LevelGenerationOptions *m_currentLevelGenerationOptions; + LevelRuleset *m_currentGameRuleDefinitions; + LevelGenerators m_levelGenerators; + LevelRules m_levelRules; + +public: + GameRuleManager(); + + void loadGameRules(DLCPack *); + + LevelGenerationOptions *loadGameRules(byte *dIn, UINT dSize); + void loadGameRules(LevelGenerationOptions *lgo, byte *dIn, UINT dSize); + + void saveGameRules(byte **dOut, UINT *dSize); + +private: + LevelGenerationOptions *readHeader(DLCGameRulesHeader *grh); + + void writeRuleFile(DataOutputStream *dos); + +public: + bool readRuleFile(LevelGenerationOptions *lgo, byte *dIn, UINT dSize, StringTable *strings); //(DLCGameRulesFile *dlcFile, StringTable *strings); + +private: + void readAttributes(DataInputStream *dis, vector *tagsAndAtts, GameRuleDefinition *rule); + void readChildren(DataInputStream *dis, vector *tagsAndAtts, unordered_map *tagIdMap, GameRuleDefinition *rule); + +public: + void processSchematics(LevelChunk *levelChunk); + void processSchematicsLighting(LevelChunk *levelChunk); + void loadDefaultGameRules(); + +private: + bool loadGameRulesPack(File *path); + + LEVEL_GEN_ID addLevelGenerationOptions(LevelGenerationOptions *); + +public: + vector *getLevelGenerators() { return m_levelGenerators.getLevelGenerators(); } + void setLevelGenerationOptions(LevelGenerationOptions *levelGen); + LevelRuleset *getGameRuleDefinitions() { return m_currentGameRuleDefinitions; } + LevelGenerationOptions *getLevelGenerationOptions() { return m_currentLevelGenerationOptions; } + LPCWSTR GetGameRulesString(const wstring &key); + + // 4J-JEV: + // Properly cleans-up and unloads the current set of gameRules. + void unloadCurrentGameRules(); +}; diff --git a/Minecraft.Client/Common/GameRules/GameRulesInstance.h b/Minecraft.Client/Common/GameRules/GameRulesInstance.h new file mode 100644 index 0000000..064e086 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/GameRulesInstance.h @@ -0,0 +1,24 @@ +#pragma once +using namespace std; +#include +#include "GameRule.h" + +class GameRuleDefinition; + +// The game rule manager belongs to a player/server or other object, and maintains their current state for each of +// the rules that apply to them +class GameRulesInstance : public GameRule +{ +public: + // These types are used by the GameRuleDefinition to know which rules to add to this GameRulesInstance + enum EGameRulesInstanceType + { + eGameRulesInstanceType_ServerPlayer, + eGameRulesInstanceType_Server, + eGameRulesInstanceType_Count + }; + +public: + GameRulesInstance(GameRuleDefinition *definition, Connection *connection) : GameRule(definition,connection) {} + // Functions for all the hooks should go here +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/LevelGenerationOptions.cpp b/Minecraft.Client/Common/GameRules/LevelGenerationOptions.cpp new file mode 100644 index 0000000..2af1826 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/LevelGenerationOptions.cpp @@ -0,0 +1,779 @@ +#include "stdafx.h" + +#include + +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\Pos.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.phys.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "Common\DLC\DLCGameRulesHeader.h" +#include "..\..\StringTable.h" +#include "LevelGenerationOptions.h" +#include "ConsoleGameRules.h" + +JustGrSource::JustGrSource() +{ + m_displayName = L"Default_DisplayName"; + m_worldName= L"Default_WorldName"; + m_defaultSaveName = L"Default_DefaultSaveName"; + m_bRequiresTexturePack = false; + m_requiredTexturePackId = 0; + m_grfPath = L"__NO_GRF_PATH__"; + m_bRequiresBaseSave = false; +} + +bool JustGrSource::requiresTexturePack() {return m_bRequiresTexturePack;} +UINT JustGrSource::getRequiredTexturePackId() {return m_requiredTexturePackId;} +wstring JustGrSource::getDefaultSaveName() {return m_defaultSaveName;} +LPCWSTR JustGrSource::getWorldName() {return m_worldName.c_str();} +LPCWSTR JustGrSource::getDisplayName() {return m_displayName.c_str();} +wstring JustGrSource::getGrfPath() {return m_grfPath;} +bool JustGrSource::requiresBaseSave() { return m_bRequiresBaseSave; }; +wstring JustGrSource::getBaseSavePath() { return m_baseSavePath; }; + +void JustGrSource::setRequiresTexturePack(bool x) {m_bRequiresTexturePack = x;} +void JustGrSource::setRequiredTexturePackId(UINT x) {m_requiredTexturePackId = x;} +void JustGrSource::setDefaultSaveName(const wstring &x) {m_defaultSaveName = x;} +void JustGrSource::setWorldName(const wstring &x) {m_worldName = x;} +void JustGrSource::setDisplayName(const wstring &x) {m_displayName = x;} +void JustGrSource::setGrfPath(const wstring &x) {m_grfPath = x;} +void JustGrSource::setBaseSavePath(const wstring &x) { m_baseSavePath = x; m_bRequiresBaseSave = true; } + +bool JustGrSource::ready() { return true; } + +LevelGenerationOptions::LevelGenerationOptions(DLCPack *parentPack) +{ + m_spawnPos = nullptr; + m_stringTable = nullptr; + + m_hasLoadedData = false; + + m_seed = 0; + m_bHasBeenInCreative = true; + m_useFlatWorld = false; + m_bHaveMinY = false; + m_minY = INT_MAX; + m_bRequiresGameRules = false; + + m_pbBaseSaveData = nullptr; + m_dwBaseSaveSize = 0; + + m_parentDLCPack = parentPack; + m_bLoadingData = false; +} + +LevelGenerationOptions::~LevelGenerationOptions() +{ + clearSchematics(); + if(m_spawnPos != nullptr) delete m_spawnPos; + for (auto& it : m_schematicRules ) + { + delete it; + } + + for (auto& it : m_structureRules ) + { + delete it; + } + + for (auto& it : m_biomeOverrides ) + { + delete it; + } + + for (auto& it : m_features ) + { + delete it; + } + + if (m_stringTable) + if (!isTutorial()) + delete m_stringTable; + + if (isFromSave()) delete m_pSrc; +} + +ConsoleGameRules::EGameRuleType LevelGenerationOptions::getActionType() { return ConsoleGameRules::eGameRuleType_LevelGenerationOptions; } + +void LevelGenerationOptions::writeAttributes(DataOutputStream *dos, UINT numAttrs) +{ + GameRuleDefinition::writeAttributes(dos, numAttrs + 5); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_spawnX); + dos->writeUTF(std::to_wstring(m_spawnPos->x)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_spawnY); + dos->writeUTF(std::to_wstring(m_spawnPos->y)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_spawnZ); + dos->writeUTF(std::to_wstring(m_spawnPos->z)); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_seed); + dos->writeUTF(std::to_wstring(m_seed)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_flatworld); + dos->writeUTF(std::to_wstring(m_useFlatWorld)); +} + +void LevelGenerationOptions::getChildren(vector *children) +{ + GameRuleDefinition::getChildren(children); + + vector used_schematics; + for (auto& it : m_schematicRules ) + if ( it && !it->isComplete() ) + used_schematics.push_back( it ); + + for (auto& it : m_structureRules) + if ( it ) + children->push_back( it ); + + for (auto& it : used_schematics) + if ( it ) + children->push_back( it ); + + for (auto& it : m_biomeOverrides) + if ( it ) + children->push_back( it ); + + for (auto& it : m_features) + if ( it ) + children->push_back( it ); +} + +GameRuleDefinition *LevelGenerationOptions::addChild(ConsoleGameRules::EGameRuleType ruleType) +{ + GameRuleDefinition *rule = nullptr; + if(ruleType == ConsoleGameRules::eGameRuleType_ApplySchematic) + { + rule = new ApplySchematicRuleDefinition(this); + m_schematicRules.push_back(static_cast(rule)); + } + else if(ruleType == ConsoleGameRules::eGameRuleType_GenerateStructure) + { + rule = new ConsoleGenerateStructure(); + m_structureRules.push_back(static_cast(rule)); + } + else if(ruleType == ConsoleGameRules::eGameRuleType_BiomeOverride) + { + rule = new BiomeOverride(); + m_biomeOverrides.push_back(static_cast(rule)); + } + else if(ruleType == ConsoleGameRules::eGameRuleType_StartFeature) + { + rule = new StartFeature(); + m_features.push_back(static_cast(rule)); + } + else + { +#ifndef _CONTENT_PACKAGE + wprintf(L"LevelGenerationOptions: Attempted to add invalid child rule - %d\n", ruleType ); +#endif + } + return rule; +} + +void LevelGenerationOptions::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"seed") == 0) + { + m_seed = _fromString(attributeValue); + app.DebugPrintf("LevelGenerationOptions: Adding parameter m_seed=%I64d\n",m_seed); + } + else if(attributeName.compare(L"spawnX") == 0) + { + if(m_spawnPos == nullptr) m_spawnPos = new Pos(); + int value = _fromString(attributeValue); + m_spawnPos->x = value; + app.DebugPrintf("LevelGenerationOptions: Adding parameter spawnX=%d\n",value); + } + else if(attributeName.compare(L"spawnY") == 0) + { + if(m_spawnPos == nullptr) m_spawnPos = new Pos(); + int value = _fromString(attributeValue); + m_spawnPos->y = value; + app.DebugPrintf("LevelGenerationOptions: Adding parameter spawnY=%d\n",value); + } + else if(attributeName.compare(L"spawnZ") == 0) + { + if(m_spawnPos == nullptr) m_spawnPos = new Pos(); + int value = _fromString(attributeValue); + m_spawnPos->z = value; + app.DebugPrintf("LevelGenerationOptions: Adding parameter spawnZ=%d\n",value); + } + else if(attributeName.compare(L"flatworld") == 0) + { + if(attributeValue.compare(L"true") == 0) m_useFlatWorld = true; + app.DebugPrintf("LevelGenerationOptions: Adding parameter flatworld=%s\n",m_useFlatWorld?"TRUE":"FALSE"); + } + else if(attributeName.compare(L"saveName") == 0) + { + wstring string(attributeValue); + if(!string.empty()) setDefaultSaveName( string ); + else setDefaultSaveName( attributeValue ); + app.DebugPrintf("LevelGenerationOptions: Adding parameter saveName=%ls\n", getDefaultSaveName().c_str()); + } + else if(attributeName.compare(L"worldName") == 0) + { + wstring string(attributeValue); + if(!string.empty()) setWorldName( string ); + else setWorldName( attributeValue ); + app.DebugPrintf("LevelGenerationOptions: Adding parameter worldName=%ls\n", getWorldName()); + } + else if(attributeName.compare(L"displayName") == 0) + { + wstring string(attributeValue); + if(!string.empty()) setDisplayName( string ); + else setDisplayName( attributeValue ); + app.DebugPrintf("LevelGenerationOptions: Adding parameter displayName=%ls\n", getDisplayName()); + } + else if(attributeName.compare(L"texturePackId") == 0) + { + setRequiredTexturePackId( _fromString(attributeValue) ); + setRequiresTexturePack( true ); + app.DebugPrintf("LevelGenerationOptions: Adding parameter texturePackId=%0x\n", getRequiredTexturePackId()); + } + else if(attributeName.compare(L"isTutorial") == 0) + { + if(attributeValue.compare(L"true") == 0) setSrc(eSrc_tutorial); + app.DebugPrintf("LevelGenerationOptions: Adding parameter isTutorial=%s\n",isTutorial()?"TRUE":"FALSE"); + } + else if(attributeName.compare(L"baseSaveName") == 0) + { + setBaseSavePath( attributeValue ); + app.DebugPrintf("LevelGenerationOptions: Adding parameter baseSaveName=%ls\n", getBaseSavePath().c_str()); + } + else if(attributeName.compare(L"hasBeenInCreative") == 0) + { + bool value = _fromString(attributeValue); + m_bHasBeenInCreative = value; + app.DebugPrintf("LevelGenerationOptions: Adding parameter gameMode=%d\n", m_bHasBeenInCreative); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +void LevelGenerationOptions::processSchematics(LevelChunk *chunk) +{ + PIXBeginNamedEvent(0,"Processing schematics for chunk (%d,%d)", chunk->x, chunk->z); + AABB *chunkBox = AABB::newTemp(chunk->x*16,0,chunk->z*16,chunk->x*16 + 16,Level::maxBuildHeight,chunk->z*16 + 16); + for( ApplySchematicRuleDefinition *rule : m_schematicRules ) + rule->processSchematic(chunkBox, chunk); + + int cx = (chunk->x << 4); + int cz = (chunk->z << 4); + + for ( ConsoleGenerateStructure *structureStart : m_structureRules ) + { + if (structureStart->getBoundingBox()->intersects(cx, cz, cx + 15, cz + 15)) + { + BoundingBox *bb = new BoundingBox(cx, cz, cx + 15, cz + 15); + structureStart->postProcess(chunk->level, nullptr, bb); + delete bb; + } + } + PIXEndNamedEvent(); +} + +void LevelGenerationOptions::processSchematicsLighting(LevelChunk *chunk) +{ + PIXBeginNamedEvent(0,"Processing schematics (lighting) for chunk (%d,%d)", chunk->x, chunk->z); + AABB *chunkBox = AABB::newTemp(chunk->x*16,0,chunk->z*16,chunk->x*16 + 16,Level::maxBuildHeight,chunk->z*16 + 16); + for ( ApplySchematicRuleDefinition *rule : m_schematicRules ) + { + rule->processSchematicLighting(chunkBox, chunk); + } + PIXEndNamedEvent(); +} + +bool LevelGenerationOptions::checkIntersects(int x0, int y0, int z0, int x1, int y1, int z1) +{ + PIXBeginNamedEvent(0,"Check Intersects"); + + // As an optimisation, we can quickly discard things below a certain y which makes most ore checks faster due to + // a) ores generally being below ground/sea level and b) tutorial world additions generally being above ground/sea level + if(!m_bHaveMinY) + { + for ( ApplySchematicRuleDefinition *rule : m_schematicRules ) + { + int minY = rule->getMinY(); + if(minY < m_minY) m_minY = minY; + } + + for ( ConsoleGenerateStructure *structureStart : m_structureRules ) + { + int minY = structureStart->getMinY(); + if(minY < m_minY) m_minY = minY; + } + + m_bHaveMinY = true; + } + + // 4J Stu - We DO NOT intersect if our upper bound is below the lower bound for all schematics + if( y1 < m_minY ) return false; + + bool intersects = false; + for( ApplySchematicRuleDefinition *rule : m_schematicRules ) + { + intersects = rule->checkIntersects(x0,y0,z0,x1,y1,z1); + if(intersects) break; + } + + if(!intersects) + { + for( ConsoleGenerateStructure *structureStart : m_structureRules ) + { + intersects = structureStart->checkIntersects(x0,y0,z0,x1,y1,z1); + if(intersects) break; + } + } + PIXEndNamedEvent(); + return intersects; +} + +void LevelGenerationOptions::clearSchematics() +{ + for ( auto& it : m_schematics ) + { + delete it.second; + } + m_schematics.clear(); +} + +ConsoleSchematicFile *LevelGenerationOptions::loadSchematicFile(const wstring &filename, PBYTE pbData, DWORD dwLen) +{ + // If we have already loaded this, just return + auto it = m_schematics.find(filename); + if(it != m_schematics.end()) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"We have already loaded schematic file %ls\n", filename.c_str() ); +#endif + it->second->incrementRefCount(); + return it->second; + } + + ConsoleSchematicFile *schematic = nullptr; + byteArray data(pbData,dwLen); + ByteArrayInputStream bais(data); + DataInputStream dis(&bais); + schematic = new ConsoleSchematicFile(); + schematic->load(&dis); + m_schematics[filename] = schematic; + bais.reset(); + return schematic; +} + +ConsoleSchematicFile *LevelGenerationOptions::getSchematicFile(const wstring &filename) +{ + ConsoleSchematicFile *schematic = nullptr; + // If we have already loaded this, just return + auto it = m_schematics.find(filename); + if(it != m_schematics.end()) + { + schematic = it->second; + } + return schematic; +} + +void LevelGenerationOptions::releaseSchematicFile(const wstring &filename) +{ + // 4J Stu - We don't want to delete them when done, but probably want to keep a set of active schematics for the current world + // auto it = m_schematics.find(filename); + //if(it != m_schematics.end()) + //{ + // ConsoleSchematicFile *schematic = it->second; + // schematic->decrementRefCount(); + // if(schematic->shouldDelete()) + // { + // delete schematic; + // m_schematics.erase(it); + // } + //} +} + +void LevelGenerationOptions::loadStringTable(StringTable *table) +{ + m_stringTable = table; +} + +LPCWSTR LevelGenerationOptions::getString(const wstring &key) +{ + if(m_stringTable == nullptr) + { + return L""; + } + else + { + return m_stringTable->getString(key); + } +} + +void LevelGenerationOptions::getBiomeOverride(int biomeId, BYTE &tile, BYTE &topTile) +{ + for ( BiomeOverride *bo : m_biomeOverrides ) + { + if ( bo && bo->isBiome(biomeId) ) + { + bo->getTileValues(tile,topTile); + break; + } + } +} + +bool LevelGenerationOptions::isFeatureChunk(int chunkX, int chunkZ, StructureFeature::EFeatureTypes feature, int *orientation) +{ + bool isFeature = false; + + for( StartFeature *sf : m_features ) + { + if(sf->isFeatureChunk(chunkX, chunkZ, feature, orientation)) + { + isFeature = true; + break; + } + } + return isFeature; +} + +unordered_map *LevelGenerationOptions::getUnfinishedSchematicFiles() +{ + // Clean schematic rules. + unordered_set usedFiles = unordered_set(); + for ( auto& it : m_schematicRules ) + if ( !it->isComplete() ) + usedFiles.insert( it->getSchematicName() ); + + // Clean schematic files. + unordered_map *out + = new unordered_map(); + for ( auto& it : usedFiles ) + out->insert( pair(it, getSchematicFile(it)) ); + + return out; +} + +void LevelGenerationOptions::loadBaseSaveData() +{ +#ifdef _WINDOWS64 + + int gameRulesCount = m_parentDLCPack ? m_parentDLCPack->getDLCItemsCount(DLCManager::e_DLCType_GameRulesHeader) : 0; + + wstring baseSave = getBaseSavePath(); + wstring packName = baseSave.substr(0, baseSave.find(L'.')); + + for (int i = 0; i < gameRulesCount; ++i) + { + DLCGameRulesHeader* dlcFile = static_cast(m_parentDLCPack->getFile(DLCManager::e_DLCType_GameRulesHeader, i)); + + if (!dlcFile->getGrfPath().empty()) + { + File grf(L"Windows64Media\\DLC\\" + packName + L"\\Data\\" + dlcFile->getGrfPath()); + + if (grf.exists()) + { + wstring path = grf.getPath(); + HANDLE fileHandle = CreateFileW(path.c_str(), GENERIC_READ, 0, nullptr, OPEN_EXISTING, FILE_FLAG_SEQUENTIAL_SCAN, nullptr); + + if (fileHandle != INVALID_HANDLE_VALUE) + { + DWORD dwFileSize = grf.length(); + DWORD bytesRead; + PBYTE pbData = new BYTE[dwFileSize]; + BOOL bSuccess = ReadFile(fileHandle, pbData, dwFileSize, &bytesRead, nullptr); + CloseHandle(fileHandle); + + if (bSuccess) + { + dlcFile->setGrfData(pbData, dwFileSize, m_stringTable); + app.m_gameRules.setLevelGenerationOptions(dlcFile->lgo); + } + delete[] pbData; + } + } + } + } + + if (requiresBaseSave() && !getBaseSavePath().empty()) + { + File save(L"Windows64Media\\DLC\\" + packName + L"\\Data\\" + baseSave); + + if (save.exists()) + { + wstring path = save.getPath(); + HANDLE fileHandle = CreateFileW(path.c_str(), GENERIC_READ, 0, nullptr, OPEN_EXISTING, FILE_FLAG_SEQUENTIAL_SCAN, nullptr); + + if (fileHandle != INVALID_HANDLE_VALUE) + { + DWORD dwFileSize = GetFileSize(fileHandle, nullptr); + DWORD bytesRead; + PBYTE pbData = new BYTE[dwFileSize]; + BOOL bSuccess = ReadFile(fileHandle, pbData, dwFileSize, &bytesRead, nullptr); + CloseHandle(fileHandle); + + if (bSuccess) + setBaseSaveData(pbData, dwFileSize); + else + delete[] pbData; + } + } + } + + setLoadedData(); + app.SetAction(ProfileManager.GetPrimaryPad(), eAppAction_ReloadTexturePack); + +#else + int mountIndex = -1; + if(m_parentDLCPack != nullptr) mountIndex = m_parentDLCPack->GetDLCMountIndex(); + + if(mountIndex > -1) + { +#ifdef _DURANGO + if(StorageManager.MountInstalledDLC(ProfileManager.GetPrimaryPad(),mountIndex,&LevelGenerationOptions::packMounted,this,L"WPACK")!=ERROR_IO_PENDING) +#else + if(StorageManager.MountInstalledDLC(ProfileManager.GetPrimaryPad(),mountIndex,&LevelGenerationOptions::packMounted,this,"WPACK")!=ERROR_IO_PENDING) +#endif + { + // corrupt DLC + setLoadedData(); + app.DebugPrintf("Failed to mount LGO DLC %d for pad %d\n",mountIndex,ProfileManager.GetPrimaryPad()); + } + else + { + m_bLoadingData = true; + app.DebugPrintf("Attempted to mount DLC data for LGO %d\n", mountIndex); + } + } + else + { + setLoadedData(); + app.SetAction(ProfileManager.GetPrimaryPad(), eAppAction_ReloadTexturePack); + } +#endif +} + +int LevelGenerationOptions::packMounted(LPVOID pParam,int iPad,DWORD dwErr,DWORD dwLicenceMask) +{ + LevelGenerationOptions *lgo = static_cast(pParam); + lgo->m_bLoadingData = false; + if(dwErr!=ERROR_SUCCESS) + { + // corrupt DLC + app.DebugPrintf("Failed to mount LGO DLC for pad %d: %d\n",iPad,dwErr); + } + else + { + app.DebugPrintf("Mounted DLC for LGO, attempting to load data\n"); + DWORD dwFilesProcessed = 0; + int gameRulesCount = lgo->m_parentDLCPack->getDLCItemsCount(DLCManager::e_DLCType_GameRulesHeader); + for(int i = 0; i < gameRulesCount; ++i) + { + DLCGameRulesHeader *dlcFile = static_cast(lgo->m_parentDLCPack->getFile(DLCManager::e_DLCType_GameRulesHeader, i)); + + if (!dlcFile->getGrfPath().empty()) + { + File grf( app.getFilePath(lgo->m_parentDLCPack->GetPackID(), dlcFile->getGrfPath(),true, L"WPACK:" ) ); + if (grf.exists()) + { +#ifdef _UNICODE + wstring path = grf.getPath(); + const WCHAR *pchFilename=path.c_str(); + HANDLE fileHandle = CreateFile( + pchFilename, // file name + GENERIC_READ, // access mode + 0, // share mode // TODO 4J Stu - Will we need to share file? Probably not but... + nullptr, // Unused + OPEN_EXISTING , // how to create // TODO 4J Stu - Assuming that the file already exists if we are opening to read from it + FILE_FLAG_SEQUENTIAL_SCAN, // file attributes + nullptr // Unsupported + ); +#else + const char *pchFilename=wstringtofilename(grf.getPath()); + HANDLE fileHandle = CreateFile( + pchFilename, // file name + GENERIC_READ, // access mode + 0, // share mode // TODO 4J Stu - Will we need to share file? Probably not but... + nullptr, // Unused + OPEN_EXISTING , // how to create // TODO 4J Stu - Assuming that the file already exists if we are opening to read from it + FILE_FLAG_SEQUENTIAL_SCAN, // file attributes + nullptr // Unsupported + ); +#endif + + if( fileHandle != INVALID_HANDLE_VALUE ) + { + DWORD dwFileSize = grf.length(); + DWORD bytesRead; + PBYTE pbData = (PBYTE) new BYTE[dwFileSize]; + BOOL bSuccess = ReadFile(fileHandle,pbData,dwFileSize,&bytesRead,nullptr); + if(bSuccess==FALSE) + { + app.FatalLoadError(); + } + CloseHandle(fileHandle); + + // 4J-PB - is it possible that we can get here after a read fail and it's not an error? + dlcFile->setGrfData(pbData, dwFileSize, lgo->m_stringTable); + + delete [] pbData; + + app.m_gameRules.setLevelGenerationOptions( dlcFile->lgo ); + } + } + } + } + if(lgo->requiresBaseSave() && !lgo->getBaseSavePath().empty() ) + { + File save(app.getFilePath(lgo->m_parentDLCPack->GetPackID(), lgo->getBaseSavePath(),true, L"WPACK:" )); + if (save.exists()) + { +#ifdef _UNICODE + wstring path = save.getPath(); + const WCHAR *pchFilename=path.c_str(); + HANDLE fileHandle = CreateFile( + pchFilename, // file name + GENERIC_READ, // access mode + 0, // share mode // TODO 4J Stu - Will we need to share file? Probably not but... + nullptr, // Unused + OPEN_EXISTING , // how to create // TODO 4J Stu - Assuming that the file already exists if we are opening to read from it + FILE_FLAG_SEQUENTIAL_SCAN, // file attributes + nullptr // Unsupported + ); +#else + const char *pchFilename=wstringtofilename(save.getPath()); + HANDLE fileHandle = CreateFile( + pchFilename, // file name + GENERIC_READ, // access mode + 0, // share mode // TODO 4J Stu - Will we need to share file? Probably not but... + nullptr, // Unused + OPEN_EXISTING , // how to create // TODO 4J Stu - Assuming that the file already exists if we are opening to read from it + FILE_FLAG_SEQUENTIAL_SCAN, // file attributes + nullptr // Unsupported + ); +#endif + + if( fileHandle != INVALID_HANDLE_VALUE ) + { + DWORD bytesRead,dwFileSize = GetFileSize(fileHandle,nullptr); + PBYTE pbData = (PBYTE) new BYTE[dwFileSize]; + BOOL bSuccess = ReadFile(fileHandle,pbData,dwFileSize,&bytesRead,nullptr); + if(bSuccess==FALSE) + { + app.FatalLoadError(); + } + CloseHandle(fileHandle); + + // 4J-PB - is it possible that we can get here after a read fail and it's not an error? + lgo->setBaseSaveData(pbData, dwFileSize); + } + } + + } +#ifdef _DURANGO + DWORD result = StorageManager.UnmountInstalledDLC(L"WPACK"); +#else + DWORD result = StorageManager.UnmountInstalledDLC("WPACK"); +#endif + + } + + lgo->setLoadedData(); + + return 0; +} + +void LevelGenerationOptions::reset_start() +{ + for ( auto& it : m_schematicRules ) + { + if ( it ) + it->reset(); + } +} + +void LevelGenerationOptions::reset_finish() +{ + //if (m_spawnPos) { delete m_spawnPos; m_spawnPos = nullptr; } + //if (m_stringTable) { delete m_stringTable; m_stringTable = nullptr; } + + if (isFromDLC()) + { + m_hasLoadedData = false; + } +} + + +GrSource *LevelGenerationOptions::info() { return m_pSrc; } +void LevelGenerationOptions::setSrc(eSrc src) { m_src = src; } +LevelGenerationOptions::eSrc LevelGenerationOptions::getSrc() { return m_src; } + +bool LevelGenerationOptions::isTutorial() { return getSrc() == eSrc_tutorial; } +bool LevelGenerationOptions::isFromSave() { return getSrc() == eSrc_fromSave; } +bool LevelGenerationOptions::isFromDLC() { return getSrc() == eSrc_fromDLC; } + +bool LevelGenerationOptions::requiresTexturePack() { return info()->requiresTexturePack(); } +UINT LevelGenerationOptions::getRequiredTexturePackId() { return info()->getRequiredTexturePackId(); } + +wstring LevelGenerationOptions::getDefaultSaveName() +{ + switch (getSrc()) + { + case eSrc_fromSave: return getString( info()->getDefaultSaveName() ); + case eSrc_fromDLC: return getString( info()->getDefaultSaveName() ); + case eSrc_tutorial: return app.GetString(IDS_TUTORIALSAVENAME); + } + return L""; +} +LPCWSTR LevelGenerationOptions::getWorldName() +{ + switch (getSrc()) + { + case eSrc_fromSave: return getString( info()->getWorldName() ); + case eSrc_fromDLC: return getString( info()->getWorldName() ); + case eSrc_tutorial: return app.GetString(IDS_PLAY_TUTORIAL); + } + return L""; +} +LPCWSTR LevelGenerationOptions::getDisplayName() +{ + switch (getSrc()) + { + case eSrc_fromSave: return getString( info()->getDisplayName() ); + case eSrc_fromDLC: return getString( info()->getDisplayName() ); + case eSrc_tutorial: return L""; + } + return L""; +} + +wstring LevelGenerationOptions::getGrfPath() { return info()->getGrfPath(); } +bool LevelGenerationOptions::requiresBaseSave() { return info()->requiresBaseSave(); } +wstring LevelGenerationOptions::getBaseSavePath() { return info()->getBaseSavePath(); } + +void LevelGenerationOptions::setGrSource(GrSource *grs) { m_pSrc = grs; } + +void LevelGenerationOptions::setRequiresTexturePack(bool x) { info()->setRequiresTexturePack(x); } +void LevelGenerationOptions::setRequiredTexturePackId(UINT x) { info()->setRequiredTexturePackId(x); } +void LevelGenerationOptions::setDefaultSaveName(const wstring &x) { info()->setDefaultSaveName(x); } +void LevelGenerationOptions::setWorldName(const wstring &x) { info()->setWorldName(x); } +void LevelGenerationOptions::setDisplayName(const wstring &x) { info()->setDisplayName(x); } +void LevelGenerationOptions::setGrfPath(const wstring &x) { info()->setGrfPath(x); } +void LevelGenerationOptions::setBaseSavePath(const wstring &x) { info()->setBaseSavePath(x); } + +bool LevelGenerationOptions::ready() { return info()->ready(); } + +void LevelGenerationOptions::setBaseSaveData(PBYTE pbData, DWORD dwSize) { m_pbBaseSaveData = pbData; m_dwBaseSaveSize = dwSize; } +PBYTE LevelGenerationOptions::getBaseSaveData(DWORD &size) { size = m_dwBaseSaveSize; return m_pbBaseSaveData; } +bool LevelGenerationOptions::hasBaseSaveData() { return m_dwBaseSaveSize > 0 && m_pbBaseSaveData != nullptr; } +void LevelGenerationOptions::deleteBaseSaveData() { if(m_pbBaseSaveData) delete m_pbBaseSaveData; m_pbBaseSaveData = nullptr; m_dwBaseSaveSize = 0; } + +bool LevelGenerationOptions::hasLoadedData() { return m_hasLoadedData; } +void LevelGenerationOptions::setLoadedData() { m_hasLoadedData = true; } + +int64_t LevelGenerationOptions::getLevelSeed() { return m_seed; } +int LevelGenerationOptions::getLevelHasBeenInCreative() { return m_bHasBeenInCreative; } +Pos *LevelGenerationOptions::getSpawnPos() { return m_spawnPos; } +bool LevelGenerationOptions::getuseFlatWorld() { return m_useFlatWorld; } + +bool LevelGenerationOptions::requiresGameRules() { return m_bRequiresGameRules; } +void LevelGenerationOptions::setRequiredGameRules(LevelRuleset *rules) { m_requiredGameRules = rules; m_bRequiresGameRules = true; } +LevelRuleset *LevelGenerationOptions::getRequiredGameRules() { return m_requiredGameRules; } \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/LevelGenerationOptions.h b/Minecraft.Client/Common/GameRules/LevelGenerationOptions.h new file mode 100644 index 0000000..378ac6c --- /dev/null +++ b/Minecraft.Client/Common/GameRules/LevelGenerationOptions.h @@ -0,0 +1,224 @@ +#pragma once +using namespace std; + +#pragma message("LevelGenerationOptions.h ") + +#include "GameRuleDefinition.h" +#include "..\..\..\Minecraft.World\StructureFeature.h" + +class ApplySchematicRuleDefinition; +class LevelChunk; +class ConsoleGenerateStructure; +class ConsoleSchematicFile; +class LevelRuleset; +class BiomeOverride; +class StartFeature; + +class GrSource +{ +public: + // 4J-JEV: + // Moved all this here; I didn't like that all this header information + // was being mixed in with all the game information as they have + // completely different lifespans. + + virtual bool requiresTexturePack()=0; + virtual UINT getRequiredTexturePackId()=0; + virtual wstring getDefaultSaveName()=0; + virtual LPCWSTR getWorldName()=0; + virtual LPCWSTR getDisplayName()=0; + virtual wstring getGrfPath()=0; + virtual bool requiresBaseSave() = 0; + virtual wstring getBaseSavePath() = 0; + + virtual void setRequiresTexturePack(bool)=0; + virtual void setRequiredTexturePackId(UINT)=0; + virtual void setDefaultSaveName(const wstring &)=0; + virtual void setWorldName(const wstring &)=0; + virtual void setDisplayName(const wstring &)=0; + virtual void setGrfPath(const wstring &)=0; + virtual void setBaseSavePath(const wstring &)=0; + + virtual bool ready()=0; + + //virtual void getGrfData(PBYTE &pData, DWORD &pSize)=0; +}; + +class JustGrSource : public GrSource +{ +protected: + wstring m_worldName; + wstring m_displayName; + wstring m_defaultSaveName; + bool m_bRequiresTexturePack; + int m_requiredTexturePackId; + wstring m_grfPath; + wstring m_baseSavePath; + bool m_bRequiresBaseSave; + +public: + virtual bool requiresTexturePack(); + virtual UINT getRequiredTexturePackId(); + virtual wstring getDefaultSaveName(); + virtual LPCWSTR getWorldName(); + virtual LPCWSTR getDisplayName(); + virtual wstring getGrfPath(); + virtual bool requiresBaseSave(); + virtual wstring getBaseSavePath(); + + virtual void setRequiresTexturePack(bool x); + virtual void setRequiredTexturePackId(UINT x); + virtual void setDefaultSaveName(const wstring &x); + virtual void setWorldName(const wstring &x); + virtual void setDisplayName(const wstring &x); + virtual void setGrfPath(const wstring &x); + virtual void setBaseSavePath(const wstring &x); + + virtual bool ready(); + + JustGrSource(); +}; + +class LevelGenerationOptions : public GameRuleDefinition +{ +public: + enum eSrc + { + eSrc_none, + + eSrc_fromSave, // Neither content or header is persistent. + + eSrc_fromDLC, // Header is persistent, content should be deleted to conserve space. + + eSrc_tutorial, // Both header and content is persistent, content cannot be reloaded. + + eSrc_MAX + }; + +private: + eSrc m_src; + + GrSource *m_pSrc; + GrSource *info(); + + bool m_hasLoadedData; + + PBYTE m_pbBaseSaveData; + DWORD m_dwBaseSaveSize; + +public: + + void setSrc(eSrc src); + eSrc getSrc(); + + bool isTutorial(); + bool isFromSave(); + bool isFromDLC(); + + bool requiresTexturePack(); + UINT getRequiredTexturePackId(); + wstring getDefaultSaveName(); + LPCWSTR getWorldName(); + LPCWSTR getDisplayName(); + wstring getGrfPath(); + bool requiresBaseSave(); + wstring getBaseSavePath(); + + void setGrSource(GrSource *grs); + + void setRequiresTexturePack(bool x); + void setRequiredTexturePackId(UINT x); + void setDefaultSaveName(const wstring &x); + void setWorldName(const wstring &x); + void setDisplayName(const wstring &x); + void setGrfPath(const wstring &x); + void setBaseSavePath(const wstring &x); + + bool ready(); + + void setBaseSaveData(PBYTE pbData, DWORD dwSize); + PBYTE getBaseSaveData(DWORD &size); + bool hasBaseSaveData(); + void deleteBaseSaveData(); + + bool hasLoadedData(); + void setLoadedData(); + +private: + // This should match the "MapOptionsRule" definition in the XML schema + int64_t m_seed; + bool m_useFlatWorld; + Pos *m_spawnPos; + int m_bHasBeenInCreative; + vector m_schematicRules; + vector m_structureRules; + bool m_bHaveMinY; + int m_minY; + unordered_map m_schematics; + vector m_biomeOverrides; + vector m_features; + + bool m_bRequiresGameRules; + LevelRuleset *m_requiredGameRules; + + StringTable *m_stringTable; + + DLCPack *m_parentDLCPack; + bool m_bLoadingData; + +public: + LevelGenerationOptions(DLCPack *parentPack = nullptr); + ~LevelGenerationOptions(); + + virtual ConsoleGameRules::EGameRuleType getActionType(); + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttributes); + virtual void getChildren(vector *children); + virtual GameRuleDefinition *addChild(ConsoleGameRules::EGameRuleType ruleType); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + int64_t getLevelSeed(); + int getLevelHasBeenInCreative(); + Pos *getSpawnPos(); + bool getuseFlatWorld(); + + void processSchematics(LevelChunk *chunk); + void processSchematicsLighting(LevelChunk *chunk); + + bool checkIntersects(int x0, int y0, int z0, int x1, int y1, int z1); + +private: + void clearSchematics(); + +public: + ConsoleSchematicFile *loadSchematicFile(const wstring &filename, PBYTE pbData, DWORD dwLen); + +public: + ConsoleSchematicFile *getSchematicFile(const wstring &filename); + void releaseSchematicFile(const wstring &filename); + + bool requiresGameRules(); + void setRequiredGameRules(LevelRuleset *rules); + LevelRuleset *getRequiredGameRules(); + + void getBiomeOverride(int biomeId, BYTE &tile, BYTE &topTile); + bool isFeatureChunk(int chunkX, int chunkZ, StructureFeature::EFeatureTypes feature, int *orientation = nullptr); + + void loadStringTable(StringTable *table); + LPCWSTR getString(const wstring &key); + + unordered_map *getUnfinishedSchematicFiles(); + + void loadBaseSaveData(); + static int packMounted(LPVOID pParam,int iPad,DWORD dwErr,DWORD dwLicenceMask); + + // 4J-JEV: + // ApplySchematicRules contain limited state + // which needs to be reset BEFORE a new game starts. + void reset_start(); + + // 4J-JEV: + // This file contains state that needs to be deleted + // or reset once a game has finished. + void reset_finish(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/LevelGenerators.cpp b/Minecraft.Client/Common/GameRules/LevelGenerators.cpp new file mode 100644 index 0000000..653a26d --- /dev/null +++ b/Minecraft.Client/Common/GameRules/LevelGenerators.cpp @@ -0,0 +1,26 @@ +#include "stdafx.h" +#include "LevelGenerationOptions.h" +#include "LevelGenerators.h" + + +LevelGenerators::LevelGenerators() +{ +} + +void LevelGenerators::addLevelGenerator(const wstring &displayName, LevelGenerationOptions *generator) +{ + if(!displayName.empty()) generator->setDisplayName(displayName); + m_levelGenerators.push_back(generator); +} + +void LevelGenerators::removeLevelGenerator(LevelGenerationOptions *generator) +{ + vector::iterator it; + while ( (it = find( m_levelGenerators.begin(), + m_levelGenerators.end(), + generator ) ) + != m_levelGenerators.end() ) + { + m_levelGenerators.erase(it); + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/LevelGenerators.h b/Minecraft.Client/Common/GameRules/LevelGenerators.h new file mode 100644 index 0000000..824b838 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/LevelGenerators.h @@ -0,0 +1,19 @@ +#pragma once + +using namespace std; + +class LevelGenerationOptions; + +class LevelGenerators +{ +private: + vector m_levelGenerators; + +public: + LevelGenerators(); + + void addLevelGenerator(const wstring &displayName, LevelGenerationOptions *generator); + void removeLevelGenerator(LevelGenerationOptions *generator); + + vector *getLevelGenerators() { return &m_levelGenerators; } +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/LevelRules.cpp b/Minecraft.Client/Common/GameRules/LevelRules.cpp new file mode 100644 index 0000000..b7c8a8a --- /dev/null +++ b/Minecraft.Client/Common/GameRules/LevelRules.cpp @@ -0,0 +1,20 @@ +#include "stdafx.h" +#include "LevelRules.h" + + +LevelRules::LevelRules() +{ +} + +void LevelRules::addLevelRule(const wstring &displayName, PBYTE pbData, DWORD dwLen) +{ +} + +void LevelRules::addLevelRule(const wstring &displayName, LevelRuleset *rootRule) +{ +} + +void LevelRules::removeLevelRule(LevelRuleset *removing) +{ + // TODO ? +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/LevelRules.h b/Minecraft.Client/Common/GameRules/LevelRules.h new file mode 100644 index 0000000..a94a212 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/LevelRules.h @@ -0,0 +1,14 @@ +#pragma once + +class LevelRuleset; + +class LevelRules +{ +public: + LevelRules(); + + void addLevelRule(const wstring &displayName, PBYTE pbData, DWORD dwLen); + void addLevelRule(const wstring &displayName, LevelRuleset *rootRule); + + void removeLevelRule(LevelRuleset *removing); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/LevelRuleset.cpp b/Minecraft.Client/Common/GameRules/LevelRuleset.cpp new file mode 100644 index 0000000..de17bac --- /dev/null +++ b/Minecraft.Client/Common/GameRules/LevelRuleset.cpp @@ -0,0 +1,71 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\StringTable.h" +#include "ConsoleGameRules.h" +#include "LevelRuleset.h" + +LevelRuleset::LevelRuleset() +{ + m_stringTable = nullptr; +} + +LevelRuleset::~LevelRuleset() +{ + for (auto it = m_areas.begin(); it != m_areas.end(); ++it) + { + delete *it; + } +} + +void LevelRuleset::getChildren(vector *children) +{ + CompoundGameRuleDefinition::getChildren(children); + for (const auto& area : m_areas) + children->push_back(area); +} + +GameRuleDefinition *LevelRuleset::addChild(ConsoleGameRules::EGameRuleType ruleType) +{ + GameRuleDefinition *rule = nullptr; + if(ruleType == ConsoleGameRules::eGameRuleType_NamedArea) + { + rule = new NamedAreaRuleDefinition(); + m_areas.push_back(static_cast(rule)); + } + else + { + rule = CompoundGameRuleDefinition::addChild(ruleType); + } + return rule; +} + +void LevelRuleset::loadStringTable(StringTable *table) +{ + m_stringTable = table; +} + +LPCWSTR LevelRuleset::getString(const wstring &key) +{ + if(m_stringTable == nullptr) + { + return L""; + } + else + { + return m_stringTable->getString(key); + } +} + +AABB *LevelRuleset::getNamedArea(const wstring &areaName) +{ + AABB *area = nullptr; + for(auto& it : m_areas) + { + if( it->getName().compare(areaName) == 0 ) + { + area = it->getArea(); + break; + } + } + return area; +} diff --git a/Minecraft.Client/Common/GameRules/LevelRuleset.h b/Minecraft.Client/Common/GameRules/LevelRuleset.h new file mode 100644 index 0000000..bbb17c4 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/LevelRuleset.h @@ -0,0 +1,27 @@ +#pragma once + +#include "CompoundGameRuleDefinition.h" + +class NamedAreaRuleDefinition; + +class LevelRuleset : public CompoundGameRuleDefinition +{ +private: + vector m_areas; + StringTable *m_stringTable; +public: + LevelRuleset(); + ~LevelRuleset(); + + virtual void getChildren(vector *children); + virtual GameRuleDefinition *addChild(ConsoleGameRules::EGameRuleType ruleType); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_LevelRules; } + + void loadStringTable(StringTable *table); + LPCWSTR getString(const wstring &key); + + AABB *getNamedArea(const wstring &areaName); + + StringTable *getStringTable() { return m_stringTable; } +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/NamedAreaRuleDefinition.cpp b/Minecraft.Client/Common/GameRules/NamedAreaRuleDefinition.cpp new file mode 100644 index 0000000..86d1de2 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/NamedAreaRuleDefinition.cpp @@ -0,0 +1,84 @@ +#include "stdafx.h" +#include "NamedAreaRuleDefinition.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.phys.h" + +NamedAreaRuleDefinition::NamedAreaRuleDefinition() +{ + m_name = L""; + m_area = AABB::newPermanent(0,0,0,0,0,0); +} + +NamedAreaRuleDefinition::~NamedAreaRuleDefinition() +{ + delete m_area; +} + +void NamedAreaRuleDefinition::writeAttributes(DataOutputStream *dos, UINT numAttributes) +{ + GameRuleDefinition::writeAttributes(dos, numAttributes + 7); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_name); + dos->writeUTF(m_name); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_x0); + dos->writeUTF(std::to_wstring(m_area->x0)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_y0); + dos->writeUTF(std::to_wstring(m_area->y0)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_z0); + dos->writeUTF(std::to_wstring(m_area->z0)); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_x1); + dos->writeUTF(std::to_wstring(m_area->x1)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_y1); + dos->writeUTF(std::to_wstring(m_area->y1)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_z1); + dos->writeUTF(std::to_wstring(m_area->z1)); +} + +void NamedAreaRuleDefinition::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"name") == 0) + { + m_name = attributeValue; +#ifndef _CONTENT_PACKAGE + //wprintf(L"NamedAreaRuleDefinition: Adding parameter name=%ls\n",m_name.c_str()); +#endif + } + else if(attributeName.compare(L"x0") == 0) + { + m_area->x0 = _fromString(attributeValue); + //app.DebugPrintf("NamedAreaRuleDefinition: Adding parameter x0=%f\n",m_area->x0); + } + else if(attributeName.compare(L"y0") == 0) + { + m_area->y0 = _fromString(attributeValue); + if(m_area->y0 < 0) m_area->y0 = 0; + //app.DebugPrintf("NamedAreaRuleDefinition: Adding parameter y0=%f\n",m_area->y0); + } + else if(attributeName.compare(L"z0") == 0) + { + m_area->z0 = _fromString(attributeValue); + //app.DebugPrintf("NamedAreaRuleDefinition: Adding parameter z0=%f\n",m_area->z0); + } + else if(attributeName.compare(L"x1") == 0) + { + m_area->x1 = _fromString(attributeValue); + //app.DebugPrintf("NamedAreaRuleDefinition: Adding parameter x1=%f\n",m_area->x1); + } + else if(attributeName.compare(L"y1") == 0) + { + m_area->y1 = _fromString(attributeValue); + if(m_area->y1 < 0) m_area->y1 = 0; + //app.DebugPrintf("NamedAreaRuleDefinition: Adding parameter y1=%f\n",m_area->y1); + } + else if(attributeName.compare(L"z1") == 0) + { + m_area->z1 = _fromString(attributeValue); + //app.DebugPrintf("NamedAreaRuleDefinition: Adding parameter z1=%f\n",m_area->z1); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} diff --git a/Minecraft.Client/Common/GameRules/NamedAreaRuleDefinition.h b/Minecraft.Client/Common/GameRules/NamedAreaRuleDefinition.h new file mode 100644 index 0000000..7cf7db1 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/NamedAreaRuleDefinition.h @@ -0,0 +1,23 @@ +#pragma once + +#include "GameRuleDefinition.h" + +class NamedAreaRuleDefinition : public GameRuleDefinition +{ +private: + wstring m_name; + AABB *m_area; + +public: + NamedAreaRuleDefinition(); + ~NamedAreaRuleDefinition(); + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttributes); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_NamedArea; } + + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + AABB *getArea() { return m_area; } + wstring getName() { return m_name; } +}; diff --git a/Minecraft.Client/Common/GameRules/StartFeature.cpp b/Minecraft.Client/Common/GameRules/StartFeature.cpp new file mode 100644 index 0000000..14b6d9c --- /dev/null +++ b/Minecraft.Client/Common/GameRules/StartFeature.cpp @@ -0,0 +1,63 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "StartFeature.h" + +StartFeature::StartFeature() +{ + m_chunkX = 0; + m_chunkZ = 0; + m_orientation = 0; + m_feature = StructureFeature::eFeature_Temples; +} + +void StartFeature::writeAttributes(DataOutputStream *dos, UINT numAttrs) +{ + GameRuleDefinition::writeAttributes(dos, numAttrs + 4); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_chunkX); + dos->writeUTF(std::to_wstring(m_chunkX)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_chunkZ); + dos->writeUTF(std::to_wstring(m_chunkZ)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_feature); + dos->writeUTF(std::to_wstring((int)m_feature)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_orientation); + dos->writeUTF(std::to_wstring(m_orientation)); +} + +void StartFeature::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"chunkX") == 0) + { + int value = _fromString(attributeValue); + m_chunkX = value; + app.DebugPrintf("StartFeature: Adding parameter chunkX=%d\n",m_chunkX); + } + else if(attributeName.compare(L"chunkZ") == 0) + { + int value = _fromString(attributeValue); + m_chunkZ = value; + app.DebugPrintf("StartFeature: Adding parameter chunkZ=%d\n",m_chunkZ); + } + else if(attributeName.compare(L"orientation") == 0) + { + int value = _fromString(attributeValue); + m_orientation = value; + app.DebugPrintf("StartFeature: Adding parameter orientation=%d\n",m_orientation); + } + else if(attributeName.compare(L"feature") == 0) + { + int value = _fromString(attributeValue); + m_feature = static_cast(value); + app.DebugPrintf("StartFeature: Adding parameter feature=%d\n",m_feature); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +bool StartFeature::isFeatureChunk(int chunkX, int chunkZ, StructureFeature::EFeatureTypes feature, int *orientation) +{ + if(orientation != nullptr) *orientation = m_orientation; + return chunkX == m_chunkX && chunkZ == m_chunkZ && feature == m_feature; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/StartFeature.h b/Minecraft.Client/Common/GameRules/StartFeature.h new file mode 100644 index 0000000..b198a2f --- /dev/null +++ b/Minecraft.Client/Common/GameRules/StartFeature.h @@ -0,0 +1,22 @@ +#pragma once +using namespace std; + +#include "GameRuleDefinition.h" +#include "..\..\..\Minecraft.World\StructureFeature.h" + +class StartFeature : public GameRuleDefinition +{ +private: + int m_chunkX, m_chunkZ, m_orientation; + StructureFeature::EFeatureTypes m_feature; + +public: + StartFeature(); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_StartFeature; } + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttrs); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + bool isFeatureChunk(int chunkX, int chunkZ, StructureFeature::EFeatureTypes feature, int *orientation); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/UpdatePlayerRuleDefinition.cpp b/Minecraft.Client/Common/GameRules/UpdatePlayerRuleDefinition.cpp new file mode 100644 index 0000000..99aee99 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/UpdatePlayerRuleDefinition.cpp @@ -0,0 +1,169 @@ +#include "stdafx.h" +#include "UpdatePlayerRuleDefinition.h" +#include "ConsoleGameRules.h" +#include "..\..\..\Minecraft.World\Pos.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.food.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" + +UpdatePlayerRuleDefinition::UpdatePlayerRuleDefinition() +{ + m_bUpdateHealth = m_bUpdateFood = m_bUpdateYRot = false;; + m_health = 0; + m_food = 0; + m_spawnPos = nullptr; + m_yRot = 0.0f; +} + +UpdatePlayerRuleDefinition::~UpdatePlayerRuleDefinition() +{ + for(auto& item : m_items) + { + delete item; + } +} + +void UpdatePlayerRuleDefinition::writeAttributes(DataOutputStream *dos, UINT numAttributes) +{ + int attrCount = 3; + if(m_bUpdateHealth) ++attrCount; + if(m_bUpdateFood) ++attrCount; + if(m_bUpdateYRot) ++attrCount; + GameRuleDefinition::writeAttributes(dos, numAttributes + attrCount ); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_spawnX); + dos->writeUTF(std::to_wstring(m_spawnPos->x)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_spawnY); + dos->writeUTF(std::to_wstring(m_spawnPos->y)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_spawnZ); + dos->writeUTF(std::to_wstring(m_spawnPos->z)); + + if(m_bUpdateYRot) + { + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_yRot); + dos->writeUTF(std::to_wstring(m_yRot)); + } + if(m_bUpdateHealth) + { + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_food); + dos->writeUTF(std::to_wstring(m_health)); + } + if(m_bUpdateFood) + { + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_health); + dos->writeUTF(std::to_wstring(m_food)); + } +} + +void UpdatePlayerRuleDefinition::getChildren(vector *children) +{ + GameRuleDefinition::getChildren(children); + for(auto& item : m_items) + children->push_back(item); +} + +GameRuleDefinition *UpdatePlayerRuleDefinition::addChild(ConsoleGameRules::EGameRuleType ruleType) +{ + GameRuleDefinition *rule = nullptr; + if(ruleType == ConsoleGameRules::eGameRuleType_AddItem) + { + rule = new AddItemRuleDefinition(); + m_items.push_back(static_cast(rule)); + } + else + { +#ifndef _CONTENT_PACKAGE + wprintf(L"UpdatePlayerRuleDefinition: Attempted to add invalid child rule - %d\n", ruleType ); +#endif + } + return rule; +} + +void UpdatePlayerRuleDefinition::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"spawnX") == 0) + { + if(m_spawnPos == nullptr) m_spawnPos = new Pos(); + int value = _fromString(attributeValue); + m_spawnPos->x = value; + app.DebugPrintf("UpdatePlayerRuleDefinition: Adding parameter spawnX=%d\n",value); + } + else if(attributeName.compare(L"spawnY") == 0) + { + if(m_spawnPos == nullptr) m_spawnPos = new Pos(); + int value = _fromString(attributeValue); + m_spawnPos->y = value; + app.DebugPrintf("UpdatePlayerRuleDefinition: Adding parameter spawnY=%d\n",value); + } + else if(attributeName.compare(L"spawnZ") == 0) + { + if(m_spawnPos == nullptr) m_spawnPos = new Pos(); + int value = _fromString(attributeValue); + m_spawnPos->z = value; + app.DebugPrintf("UpdatePlayerRuleDefinition: Adding parameter spawnZ=%d\n",value); + } + else if(attributeName.compare(L"health") == 0) + { + int value = _fromString(attributeValue); + m_health = value; + m_bUpdateHealth = true; + app.DebugPrintf("UpdatePlayerRuleDefinition: Adding parameter health=%d\n",value); + } + else if(attributeName.compare(L"food") == 0) + { + int value = _fromString(attributeValue); + m_food = value; + m_bUpdateFood = true; + app.DebugPrintf("UpdatePlayerRuleDefinition: Adding parameter health=%d\n",value); + } + else if(attributeName.compare(L"yRot") == 0) + { + float value = _fromString(attributeValue); + m_yRot = value; + m_bUpdateYRot = true; + app.DebugPrintf("UpdatePlayerRuleDefinition: Adding parameter yRot=%f\n",value); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +void UpdatePlayerRuleDefinition::postProcessPlayer(shared_ptr player) +{ + if(m_bUpdateHealth) + { + player->lastHealth = m_health; + player->setHealth(m_health); + } + + if(m_bUpdateFood) + { + player->getFoodData()->setFoodLevel(m_food); + } + + double x = player->x; + double y = player->y; + double z = player->z; + float yRot = player->yRot; + float xRot = player->xRot; + if(m_spawnPos != nullptr) + { + x = m_spawnPos->x; + y = m_spawnPos->y; + z = m_spawnPos->z; + } + + if(m_bUpdateYRot) + { + yRot = m_yRot; + } + + if(m_spawnPos != nullptr || m_bUpdateYRot) player->absMoveTo(x,y,z,yRot,xRot); + + for(auto& addItem : m_items) + { + addItem->addItemToContainer(player->inventory, -1); + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/UpdatePlayerRuleDefinition.h b/Minecraft.Client/Common/GameRules/UpdatePlayerRuleDefinition.h new file mode 100644 index 0000000..538aefa --- /dev/null +++ b/Minecraft.Client/Common/GameRules/UpdatePlayerRuleDefinition.h @@ -0,0 +1,33 @@ +#pragma once +using namespace std; + +#include "GameRuleDefinition.h" + +class AddItemRuleDefinition; +class Pos; + +class UpdatePlayerRuleDefinition : public GameRuleDefinition +{ +private: + vector m_items; + + bool m_bUpdateHealth, m_bUpdateFood, m_bUpdateYRot, m_bUpdateInventory; + int m_health; + int m_food; + Pos *m_spawnPos; + float m_yRot; + +public: + UpdatePlayerRuleDefinition(); + ~UpdatePlayerRuleDefinition(); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_UpdatePlayerRule; } + + virtual void getChildren(vector *children); + virtual GameRuleDefinition *addChild(ConsoleGameRules::EGameRuleType ruleType); + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttributes); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + virtual void postProcessPlayer(shared_ptr player); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/UseTileRuleDefinition.cpp b/Minecraft.Client/Common/GameRules/UseTileRuleDefinition.cpp new file mode 100644 index 0000000..49cc0e9 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/UseTileRuleDefinition.cpp @@ -0,0 +1,82 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "UseTileRuleDefinition.h" + +UseTileRuleDefinition::UseTileRuleDefinition() +{ + m_tileId = -1; + m_useCoords = false; +} + +void UseTileRuleDefinition::writeAttributes(DataOutputStream *dos, UINT numAttributes) +{ + GameRuleDefinition::writeAttributes(dos, numAttributes + 5); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_tileId); + dos->writeUTF(std::to_wstring(m_tileId)); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_useCoords); + dos->writeUTF(std::to_wstring(m_useCoords)); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_x); + dos->writeUTF(std::to_wstring(m_coordinates.x)); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_y); + dos->writeUTF(std::to_wstring(m_coordinates.y)); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_z); + dos->writeUTF(std::to_wstring(m_coordinates.z)); +} + +void UseTileRuleDefinition::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"tileId") == 0) + { + m_tileId = _fromString(attributeValue); + app.DebugPrintf("UseTileRule: Adding parameter tileId=%d\n",m_tileId); + } + else if(attributeName.compare(L"useCoords") == 0) + { + m_useCoords = _fromString(attributeValue); + app.DebugPrintf("UseTileRule: Adding parameter useCoords=%s\n",m_useCoords?"TRUE":"FALSE"); + } + else if(attributeName.compare(L"x") == 0) + { + m_coordinates.x = _fromString(attributeValue); + app.DebugPrintf("UseTileRule: Adding parameter x=%d\n",m_coordinates.x); + } + else if(attributeName.compare(L"y") == 0) + { + m_coordinates.y = _fromString(attributeValue); + app.DebugPrintf("UseTileRule: Adding parameter y=%d\n",m_coordinates.y); + } + else if(attributeName.compare(L"z") == 0) + { + m_coordinates.z = _fromString(attributeValue); + app.DebugPrintf("UseTileRule: Adding parameter z=%d\n",m_coordinates.z); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +bool UseTileRuleDefinition::onUseTile(GameRule *rule, int tileId, int x, int y, int z) +{ + bool statusChanged = false; + if( m_tileId == tileId ) + { + if( !m_useCoords || (m_coordinates.x == x && m_coordinates.y == y && m_coordinates.z == z) ) + { + if(!getComplete(rule)) + { + statusChanged = true; + setComplete(rule,true); + app.DebugPrintf("Completed UseTileRule with info - t:%d, coords:%s, x:%d, y:%d, z:%d\n", m_tileId,m_useCoords?"TRUE":"FALSE",m_coordinates.x,m_coordinates.y,m_coordinates.z); + + // Send a packet or some other announcement here + } + } + } + return statusChanged; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/UseTileRuleDefinition.h b/Minecraft.Client/Common/GameRules/UseTileRuleDefinition.h new file mode 100644 index 0000000..ad64bfe --- /dev/null +++ b/Minecraft.Client/Common/GameRules/UseTileRuleDefinition.h @@ -0,0 +1,24 @@ +#pragma once +using namespace std; + +#include "GameRuleDefinition.h" +#include "..\..\..\Minecraft.World\Pos.h" + +class UseTileRuleDefinition : public GameRuleDefinition +{ +private: + // These values should map directly to the xsd definition for this Rule + int m_tileId; + bool m_useCoords; + Pos m_coordinates; + +public: + UseTileRuleDefinition(); + + ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_UseTileRule; } + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttributes); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + virtual bool onUseTile(GameRule *rule, int tileId, int x, int y, int z); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/XboxStructureActionGenerateBox.cpp b/Minecraft.Client/Common/GameRules/XboxStructureActionGenerateBox.cpp new file mode 100644 index 0000000..1091521 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/XboxStructureActionGenerateBox.cpp @@ -0,0 +1,104 @@ +#include "stdafx.h" +#include "XboxStructureActionGenerateBox.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.levelgen.structure.h" + +XboxStructureActionGenerateBox::XboxStructureActionGenerateBox() +{ + m_x0 = m_y0 = m_z0 = m_x1 = m_y1 = m_z1 = m_edgeTile = m_fillTile = 0; + m_skipAir = false; +} + +void XboxStructureActionGenerateBox::writeAttributes(DataOutputStream *dos, UINT numAttrs) +{ + ConsoleGenerateStructureAction::writeAttributes(dos, numAttrs + 9); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_x0); + dos->writeUTF(std::to_wstring(m_x0)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_y0); + dos->writeUTF(std::to_wstring(m_y0)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_z0); + dos->writeUTF(std::to_wstring(m_z0)); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_x1); + dos->writeUTF(std::to_wstring(m_x1)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_y1); + dos->writeUTF(std::to_wstring(m_y1)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_z1); + dos->writeUTF(std::to_wstring(m_z1)); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_edgeTile); + dos->writeUTF(std::to_wstring(m_edgeTile)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_fillTile); + dos->writeUTF(std::to_wstring(m_fillTile)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_skipAir); + dos->writeUTF(std::to_wstring(m_skipAir)); +} + +void XboxStructureActionGenerateBox::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"x0") == 0) + { + int value = _fromString(attributeValue); + m_x0 = value; + //app.DebugPrintf("XboxStructureActionGenerateBox: Adding parameter x0=%d\n",m_x0); + } + else if(attributeName.compare(L"y0") == 0) + { + int value = _fromString(attributeValue); + m_y0 = value; + //app.DebugPrintf("XboxStructureActionGenerateBox: Adding parameter y0=%d\n",m_y0); + } + else if(attributeName.compare(L"z0") == 0) + { + int value = _fromString(attributeValue); + m_z0 = value; + //app.DebugPrintf("XboxStructureActionGenerateBox: Adding parameter z0=%d\n",m_z0); + } + else if(attributeName.compare(L"x1") == 0) + { + int value = _fromString(attributeValue); + m_x1 = value; + //app.DebugPrintf("XboxStructureActionGenerateBox: Adding parameter x1=%d\n",m_x1); + } + else if(attributeName.compare(L"y1") == 0) + { + int value = _fromString(attributeValue); + m_y1 = value; + //app.DebugPrintf("XboxStructureActionGenerateBox: Adding parameter y1=%d\n",m_y1); + } + else if(attributeName.compare(L"z1") == 0) + { + int value = _fromString(attributeValue); + m_z1 = value; + //app.DebugPrintf("XboxStructureActionGenerateBox: Adding parameter z1=%d\n",m_z1); + } + else if(attributeName.compare(L"edgeTile") == 0) + { + int value = _fromString(attributeValue); + m_edgeTile = value; + //app.DebugPrintf("XboxStructureActionGenerateBox: Adding parameter edgeTile=%d\n",m_edgeTile); + } + else if(attributeName.compare(L"fillTile") == 0) + { + int value = _fromString(attributeValue); + m_fillTile = value; + //app.DebugPrintf("XboxStructureActionGenerateBox: Adding parameter fillTile=%d\n",m_fillTile); + } + else if(attributeName.compare(L"skipAir") == 0) + { + if(attributeValue.compare(L"true") == 0) m_skipAir = true; + //app.DebugPrintf("XboxStructureActionGenerateBox: Adding parameter skipAir=%s\n",m_skipAir?"TRUE":"FALSE"); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +bool XboxStructureActionGenerateBox::generateBoxInLevel(StructurePiece *structure, Level *level, BoundingBox *chunkBB) +{ + //app.DebugPrintf("XboxStructureActionGenerateBox - generating a box\n"); + structure->generateBox(level,chunkBB,m_x0,m_y0,m_z0,m_x1,m_y1,m_z1,m_edgeTile,m_fillTile,m_skipAir); + return true; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/XboxStructureActionGenerateBox.h b/Minecraft.Client/Common/GameRules/XboxStructureActionGenerateBox.h new file mode 100644 index 0000000..78664d4 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/XboxStructureActionGenerateBox.h @@ -0,0 +1,26 @@ +#pragma once +#include "ConsoleGenerateStructureAction.h" + +class StructurePiece; +class Level; +class BoundingBox; + +class XboxStructureActionGenerateBox : public ConsoleGenerateStructureAction +{ +private: + int m_x0, m_y0, m_z0, m_x1, m_y1, m_z1, m_edgeTile, m_fillTile; + bool m_skipAir; +public: + XboxStructureActionGenerateBox(); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_GenerateBox; } + + virtual int getEndX() { return m_x1; } + virtual int getEndY() { return m_y1; } + virtual int getEndZ() { return m_z1; } + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttrs); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + bool generateBoxInLevel(StructurePiece *structure, Level *level, BoundingBox *chunkBB); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceBlock.cpp b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceBlock.cpp new file mode 100644 index 0000000..f8ac1d4 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceBlock.cpp @@ -0,0 +1,72 @@ +#include "stdafx.h" +#include "XboxStructureActionPlaceBlock.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.levelgen.structure.h" + +XboxStructureActionPlaceBlock::XboxStructureActionPlaceBlock() +{ + m_x = m_y = m_z = m_tile = m_data = 0; +} + +void XboxStructureActionPlaceBlock::writeAttributes(DataOutputStream *dos, UINT numAttrs) +{ + ConsoleGenerateStructureAction::writeAttributes(dos, numAttrs + 5); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_x); + dos->writeUTF(std::to_wstring(m_x)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_y); + dos->writeUTF(std::to_wstring(m_y)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_z); + dos->writeUTF(std::to_wstring(m_z)); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_data); + dos->writeUTF(std::to_wstring(m_data)); + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_block); + dos->writeUTF(std::to_wstring(m_tile)); +} + + +void XboxStructureActionPlaceBlock::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"x") == 0) + { + int value = _fromString(attributeValue); + m_x = value; + app.DebugPrintf("XboxStructureActionPlaceBlock: Adding parameter x=%d\n",m_x); + } + else if(attributeName.compare(L"y") == 0) + { + int value = _fromString(attributeValue); + m_y = value; + app.DebugPrintf("XboxStructureActionPlaceBlock: Adding parameter y=%d\n",m_y); + } + else if(attributeName.compare(L"z") == 0) + { + int value = _fromString(attributeValue); + m_z = value; + app.DebugPrintf("XboxStructureActionPlaceBlock: Adding parameter z=%d\n",m_z); + } + else if(attributeName.compare(L"block") == 0) + { + int value = _fromString(attributeValue); + m_tile = value; + app.DebugPrintf("XboxStructureActionPlaceBlock: Adding parameter block=%d\n",m_tile); + } + else if(attributeName.compare(L"data") == 0) + { + int value = _fromString(attributeValue); + m_data = value; + app.DebugPrintf("XboxStructureActionPlaceBlock: Adding parameter data=%d\n",m_data); + } + else + { + GameRuleDefinition::addAttribute(attributeName, attributeValue); + } +} + +bool XboxStructureActionPlaceBlock::placeBlockInLevel(StructurePiece *structure, Level *level, BoundingBox *chunkBB) +{ + app.DebugPrintf("XboxStructureActionPlaceBlock - placing a block\n"); + structure->placeBlock(level,m_tile,m_data,m_x,m_y,m_z,chunkBB); + return true; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceBlock.h b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceBlock.h new file mode 100644 index 0000000..3ee377b --- /dev/null +++ b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceBlock.h @@ -0,0 +1,25 @@ +#pragma once +#include "ConsoleGenerateStructureAction.h" + +class StructurePiece; +class Level; +class BoundingBox; + +class XboxStructureActionPlaceBlock : public ConsoleGenerateStructureAction +{ +protected: + int m_x, m_y, m_z, m_tile, m_data; +public: + XboxStructureActionPlaceBlock(); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_PlaceBlock; } + + virtual int getEndX() { return m_x; } + virtual int getEndY() { return m_y; } + virtual int getEndZ() { return m_z; } + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttrs); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + bool placeBlockInLevel(StructurePiece *structure, Level *level, BoundingBox *chunkBB); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceContainer.cpp b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceContainer.cpp new file mode 100644 index 0000000..1f49469 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceContainer.cpp @@ -0,0 +1,99 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "XboxStructureActionPlaceContainer.h" +#include "AddItemRuleDefinition.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.levelgen.structure.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.inventory.h" + +XboxStructureActionPlaceContainer::XboxStructureActionPlaceContainer() +{ + m_tile = Tile::chest_Id; +} + +XboxStructureActionPlaceContainer::~XboxStructureActionPlaceContainer() +{ + for(auto& item : m_items) + { + delete item; + } +} + +// 4J-JEV: Super class handles attr-facing fine. +//void XboxStructureActionPlaceContainer::writeAttributes(DataOutputStream *dos, UINT numAttrs) + + +void XboxStructureActionPlaceContainer::getChildren(vector *children) +{ + XboxStructureActionPlaceBlock::getChildren(children); + for(auto & item : m_items) + children->push_back( item ); +} + +GameRuleDefinition *XboxStructureActionPlaceContainer::addChild(ConsoleGameRules::EGameRuleType ruleType) +{ + GameRuleDefinition *rule = nullptr; + if(ruleType == ConsoleGameRules::eGameRuleType_AddItem) + { + rule = new AddItemRuleDefinition(); + m_items.push_back(static_cast(rule)); + } + else + { +#ifndef _CONTENT_PACKAGE + wprintf(L"XboxStructureActionPlaceContainer: Attempted to add invalid child rule - %d\n", ruleType ); +#endif + } + return rule; +} + +void XboxStructureActionPlaceContainer::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"facing") == 0) + { + int value = _fromString(attributeValue); + m_data = value; + app.DebugPrintf("XboxStructureActionPlaceContainer: Adding parameter facing=%d\n",m_data); + } + else + { + XboxStructureActionPlaceBlock::addAttribute(attributeName, attributeValue); + } +} + +bool XboxStructureActionPlaceContainer::placeContainerInLevel(StructurePiece *structure, Level *level, BoundingBox *chunkBB) +{ + int worldX = structure->getWorldX( m_x, m_z ); + int worldY = structure->getWorldY( m_y ); + int worldZ = structure->getWorldZ( m_x, m_z ); + + if ( chunkBB->isInside( worldX, worldY, worldZ ) ) + { + if ( level->getTileEntity( worldX, worldY, worldZ ) != nullptr ) + { + // Remove the current tile entity + level->removeTileEntity( worldX, worldY, worldZ ); + level->setTileAndData( worldX, worldY, worldZ, 0, 0, Tile::UPDATE_ALL ); + } + + level->setTileAndData( worldX, worldY, worldZ, m_tile, 0, Tile::UPDATE_ALL ); + shared_ptr container = dynamic_pointer_cast(level->getTileEntity( worldX, worldY, worldZ )); + + app.DebugPrintf("XboxStructureActionPlaceContainer - placing a container at (%d,%d,%d)\n", worldX, worldY, worldZ); + if ( container != nullptr ) + { + level->setData( worldX, worldY, worldZ, m_data, Tile::UPDATE_CLIENTS); + // Add items + int slotId = 0; + for (auto it = m_items.begin(); it != m_items.end() && (slotId < container->getContainerSize()); ++it, ++slotId) + { + AddItemRuleDefinition *addItem = *it; + + addItem->addItemToContainer(container,slotId); + } + } + return true; + } + return false; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceContainer.h b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceContainer.h new file mode 100644 index 0000000..6355ca1 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceContainer.h @@ -0,0 +1,29 @@ +#pragma once + +#include "XboxStructureActionPlaceBlock.h" + +class AddItemRuleDefinition; +class StructurePiece; +class Level; +class BoundingBox; + +class XboxStructureActionPlaceContainer : public XboxStructureActionPlaceBlock +{ +private: + vector m_items; +public: + XboxStructureActionPlaceContainer(); + ~XboxStructureActionPlaceContainer(); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_PlaceContainer; } + + virtual void getChildren(vector *children); + virtual GameRuleDefinition *addChild(ConsoleGameRules::EGameRuleType ruleType); + + // 4J-JEV: Super class handles attr-facing fine. + //virtual void writeAttributes(DataOutputStream *dos, UINT numAttributes); + + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + bool placeContainerInLevel(StructurePiece *structure, Level *level, BoundingBox *chunkBB); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceSpawner.cpp b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceSpawner.cpp new file mode 100644 index 0000000..68528d2 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceSpawner.cpp @@ -0,0 +1,69 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "XboxStructureActionPlaceSpawner.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.levelgen.structure.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.entity.h" + +XboxStructureActionPlaceSpawner::XboxStructureActionPlaceSpawner() +{ + m_tile = Tile::mobSpawner_Id; + m_entityId = L"Pig"; +} + +XboxStructureActionPlaceSpawner::~XboxStructureActionPlaceSpawner() +{ +} + +void XboxStructureActionPlaceSpawner::writeAttributes(DataOutputStream *dos, UINT numAttrs) +{ + XboxStructureActionPlaceBlock::writeAttributes(dos, numAttrs + 1); + + ConsoleGameRules::write(dos, ConsoleGameRules::eGameRuleAttr_entity); + dos->writeUTF(m_entityId); +} + +void XboxStructureActionPlaceSpawner::addAttribute(const wstring &attributeName, const wstring &attributeValue) +{ + if(attributeName.compare(L"entity") == 0) + { + m_entityId = attributeValue; +#ifndef _CONTENT_PACKAGE + //wprintf(L"XboxStructureActionPlaceSpawner: Adding parameter entity=%ls\n",m_entityId.c_str()); +#endif + } + else + { + XboxStructureActionPlaceBlock::addAttribute(attributeName, attributeValue); + } +} + +bool XboxStructureActionPlaceSpawner::placeSpawnerInLevel(StructurePiece *structure, Level *level, BoundingBox *chunkBB) +{ + int worldX = structure->getWorldX( m_x, m_z ); + int worldY = structure->getWorldY( m_y ); + int worldZ = structure->getWorldZ( m_x, m_z ); + + if ( chunkBB->isInside( worldX, worldY, worldZ ) ) + { + if ( level->getTileEntity( worldX, worldY, worldZ ) != nullptr ) + { + // Remove the current tile entity + level->removeTileEntity( worldX, worldY, worldZ ); + level->setTileAndData( worldX, worldY, worldZ, 0, 0, Tile::UPDATE_ALL ); + } + + level->setTileAndData( worldX, worldY, worldZ, m_tile, 0, Tile::UPDATE_ALL ); + shared_ptr entity = dynamic_pointer_cast(level->getTileEntity( worldX, worldY, worldZ )); + +#ifndef _CONTENT_PACKAGE + //wprintf(L"XboxStructureActionPlaceSpawner - placing a %ls spawner at (%d,%d,%d)\n", m_entityId.c_str(), worldX, worldY, worldZ); +#endif + if( entity != nullptr ) + { + entity->setEntityId(m_entityId); + } + return true; + } + return false; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceSpawner.h b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceSpawner.h new file mode 100644 index 0000000..1600098 --- /dev/null +++ b/Minecraft.Client/Common/GameRules/XboxStructureActionPlaceSpawner.h @@ -0,0 +1,24 @@ +#pragma once + +#include "XboxStructureActionPlaceBlock.h" + +class StructurePiece; +class Level; +class BoundingBox; +class GRFObject; + +class XboxStructureActionPlaceSpawner : public XboxStructureActionPlaceBlock +{ +private: + wstring m_entityId; +public: + XboxStructureActionPlaceSpawner(); + ~XboxStructureActionPlaceSpawner(); + + virtual ConsoleGameRules::EGameRuleType getActionType() { return ConsoleGameRules::eGameRuleType_PlaceSpawner; } + + virtual void writeAttributes(DataOutputStream *dos, UINT numAttrs); + virtual void addAttribute(const wstring &attributeName, const wstring &attributeValue); + + bool placeSpawnerInLevel(StructurePiece *structure, Level *level, BoundingBox *chunkBB); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Leaderboards/LeaderboardInterface.cpp b/Minecraft.Client/Common/Leaderboards/LeaderboardInterface.cpp new file mode 100644 index 0000000..06f9a69 --- /dev/null +++ b/Minecraft.Client/Common/Leaderboards/LeaderboardInterface.cpp @@ -0,0 +1,88 @@ +#include "stdafx.h" +#include "LeaderboardInterface.h" + +LeaderboardInterface::LeaderboardInterface(LeaderboardManager *man) +{ + m_manager = man; + m_pending = false; + + m_filter = static_cast(-1); + m_callback = nullptr; + m_difficulty = 0; + m_type = LeaderboardManager::eStatsType_UNDEFINED; + m_startIndex = 0; + m_readCount = 0; + + m_manager->OpenSession(); +} + +LeaderboardInterface::~LeaderboardInterface() +{ + m_manager->CancelOperation(); + m_manager->CloseSession(); +} + +void LeaderboardInterface::ReadStats_Friends(LeaderboardReadListener *callback, int difficulty, LeaderboardManager::EStatsType type, PlayerUID myUID, unsigned int startIndex, unsigned int readCount) +{ + m_filter = LeaderboardManager::eFM_Friends; + m_pending = true; + + m_callback = callback; + m_difficulty = difficulty; + m_type = type; + m_myUID = myUID; + m_startIndex = startIndex; + m_readCount = readCount; + + tick(); +} + +void LeaderboardInterface::ReadStats_MyScore(LeaderboardReadListener *callback, int difficulty, LeaderboardManager::EStatsType type, PlayerUID myUID, unsigned int readCount) +{ + m_filter = LeaderboardManager::eFM_MyScore; + m_pending = true; + + m_callback = callback; + m_difficulty = difficulty; + m_type = type; + m_myUID = myUID; + m_readCount = readCount; + + tick(); +} + +void LeaderboardInterface::ReadStats_TopRank(LeaderboardReadListener *callback, int difficulty, LeaderboardManager::EStatsType type, unsigned int startIndex, unsigned int readCount) +{ + m_filter = LeaderboardManager::eFM_TopRank; + m_pending = true; + + m_callback = callback; + m_difficulty = difficulty; + m_type = type; + m_startIndex = startIndex; + m_readCount = readCount; + + tick(); +} + +void LeaderboardInterface::CancelOperation() +{ + m_manager->CancelOperation(); + m_pending = false; +} + +void LeaderboardInterface::tick() +{ + if (m_pending) m_pending = !callManager(); +} + +bool LeaderboardInterface::callManager() +{ + switch (m_filter) + { + case LeaderboardManager::eFM_Friends: return m_manager->ReadStats_Friends(m_callback, m_difficulty, m_type, m_myUID, m_startIndex, m_readCount); + case LeaderboardManager::eFM_MyScore: return m_manager->ReadStats_MyScore(m_callback, m_difficulty, m_type, m_myUID, m_readCount); + case LeaderboardManager::eFM_TopRank: return m_manager->ReadStats_TopRank(m_callback, m_difficulty, m_type, m_startIndex, m_readCount); + default: assert(false); return true; + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Leaderboards/LeaderboardInterface.h b/Minecraft.Client/Common/Leaderboards/LeaderboardInterface.h new file mode 100644 index 0000000..089c482 --- /dev/null +++ b/Minecraft.Client/Common/Leaderboards/LeaderboardInterface.h @@ -0,0 +1,35 @@ +#pragma once + +#include "LeaderboardManager.h" + +// 4J-JEV: Simple interface for handling ReadStat failures. +class LeaderboardInterface +{ +private: + LeaderboardManager *m_manager; + bool m_pending; + + // Arguments. + LeaderboardManager::EFilterMode m_filter; + LeaderboardReadListener *m_callback; + int m_difficulty; + LeaderboardManager::EStatsType m_type; + PlayerUID m_myUID; + unsigned int m_startIndex; + unsigned int m_readCount; + +public: + LeaderboardInterface(LeaderboardManager *man); + ~LeaderboardInterface(); + + void ReadStats_Friends(LeaderboardReadListener *callback, int difficulty, LeaderboardManager::EStatsType type, PlayerUID myUID, unsigned int startIndex, unsigned int readCount); + void ReadStats_MyScore(LeaderboardReadListener *callback, int difficulty, LeaderboardManager::EStatsType type, PlayerUID myUID, unsigned int readCount); + void ReadStats_TopRank(LeaderboardReadListener *callback, int difficulty, LeaderboardManager::EStatsType type, unsigned int startIndex, unsigned int readCount); + + void CancelOperation(); + + void tick(); + +private: + bool callManager(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Leaderboards/LeaderboardManager.cpp b/Minecraft.Client/Common/Leaderboards/LeaderboardManager.cpp new file mode 100644 index 0000000..2ba1efd --- /dev/null +++ b/Minecraft.Client/Common/Leaderboards/LeaderboardManager.cpp @@ -0,0 +1,106 @@ +#include "stdafx.h" + +#include "..\..\..\Minecraft.World\StringHelpers.h" + +#include "LeaderboardManager.h" + +const wstring LeaderboardManager::filterNames[eNumFilterModes] = + { + L"Friends", L"MyScore", L"TopRank" + }; + +void LeaderboardManager::DeleteInstance() +{ + delete m_instance; + m_instance = nullptr; +} + +LeaderboardManager::LeaderboardManager() +{ + zeroReadParameters(); + + m_myXUID = INVALID_XUID; +} + +void LeaderboardManager::zeroReadParameters() +{ + m_difficulty = -1; + m_statsType = eStatsType_UNDEFINED; + m_readListener = nullptr; + m_startIndex = 0; + m_readCount = 0; + m_eFilterMode = eFM_UNDEFINED; +} + +bool LeaderboardManager::ReadStats_Friends(LeaderboardReadListener *listener, int difficulty, EStatsType type, PlayerUID myUID, unsigned int startIndex, unsigned int readCount) +{ + zeroReadParameters(); + + m_readListener = listener; + m_difficulty = difficulty; + m_statsType = type; + + m_eFilterMode = eFM_Friends; + return true; +} + +bool LeaderboardManager::ReadStats_MyScore(LeaderboardReadListener *listener, int difficulty, EStatsType type, PlayerUID myUID, unsigned int readCount) +{ + zeroReadParameters(); + + m_readListener = listener; + m_difficulty = difficulty; + m_statsType = type; + + m_readCount = readCount; + + m_eFilterMode = eFM_MyScore; + return true; +} + +bool LeaderboardManager::ReadStats_TopRank(LeaderboardReadListener *listener, int difficulty, EStatsType type, unsigned int startIndex, unsigned int readCount) +{ + zeroReadParameters(); + + m_readListener = listener; + m_difficulty = difficulty; + m_statsType = type; + + m_startIndex = startIndex; + m_readCount = readCount; + + m_eFilterMode = eFM_TopRank; + return true; +} + +#ifndef _XBOX +void LeaderboardManager::printStats(ReadView &view) +{ + app.DebugPrintf("[LeaderboardManager] Printing stats:\n" + "\tnumQueries=%i\n", view.m_numQueries); + + for (int i=0; i +#include +//#include + +#include "SonyLeaderboardManager.h" + +#include "base64.h" + +#include "Common\Consoles_App.h" +#include "Common\Network\Sony\SQRNetworkManager.h" + +#include "..\..\..\Minecraft.World\StringHelpers.h" + + +#ifdef __ORBIS__ +#include "Orbis\OrbisExtras\ShutdownManager.h" +#include "Orbis\Orbis_App.h" +#elif defined __PSVITA__ +#include "PSVita\PSVitaExtras\ShutdownManager.h" +#include "PSVita\PSVita_App.h" +#elif defined __PS3__ +#include "PS3\PS3Extras\ShutdownManager.h" +#include "PS3\PS3_App.h" +#else +#error "SonyLeaderboardManager is included for a non-sony platform." +#endif + +SonyLeaderboardManager::SonyLeaderboardManager() +{ + m_eStatsState = eStatsState_Idle; + + m_titleContext = -1; + + m_myXUID = INVALID_XUID; + + m_scores = nullptr; + + m_statsType = eStatsType_Kills; + m_difficulty = 0; + + m_requestId = 0; + + m_openSessions = 0; + + InitializeCriticalSection(&m_csViewsLock); + + m_running = false; + m_threadScoreboard = nullptr; +} + +SonyLeaderboardManager::~SonyLeaderboardManager() +{ + m_running = false; + + // 4J-JEV: Wait for thread to stop and hope it doesn't take too long. + long long startShutdown = System::currentTimeMillis(); + while (m_threadScoreboard->isRunning()) + { + Sleep(1); + assert( (System::currentTimeMillis() - startShutdown) < 16 ); + } + + delete m_threadScoreboard; + + DeleteCriticalSection(&m_csViewsLock); +} + +int SonyLeaderboardManager::scoreboardThreadEntry(LPVOID lpParam) +{ + ShutdownManager::HasStarted(ShutdownManager::eLeaderboardThread); + SonyLeaderboardManager *self = reinterpret_cast(lpParam); + + self->m_running = true; + app.DebugPrintf("[SonyLeaderboardManager] Thread started.\n"); + + bool needsWriting = false; + do + { + if (self->m_openSessions > 0 || needsWriting) + { + self->scoreboardThreadInternal(); + } + + EnterCriticalSection(&self->m_csViewsLock); + needsWriting = self->m_views.size() > 0; + LeaveCriticalSection(&self->m_csViewsLock); + + // 4J Stu - We can't write while we aren't signed in to live + if (!ProfileManager.IsSignedInLive(ProfileManager.GetPrimaryPad())) + { + needsWriting = false; + } + + if ( (!needsWriting) && (self->m_eStatsState != eStatsState_Getting) ) + { + Sleep(50); // 4J-JEV: When we're not reading or writing. + } + + } while ( (self->m_running || self->m_eStatsState == eStatsState_Getting || needsWriting) + && ShutdownManager::ShouldRun(ShutdownManager::eLeaderboardThread) + ); + + // 4J-JEV, moved this here so setScore can finish up. + self->destroyTitleContext(self->m_titleContext); + + // TODO sceNpScoreTerm(); + app.DebugPrintf("[SonyLeaderboardManager] Thread closed.\n"); + ShutdownManager::HasFinished(ShutdownManager::eLeaderboardThread); + return 0; +} + +void SonyLeaderboardManager::scoreboardThreadInternal() +{ + // 4J-JEV: Just initialise the context the once now. + if (m_titleContext == -1) + { + int primaryPad = ProfileManager.GetPrimaryPad(); + + if (!ProfileManager.IsSignedInLive(primaryPad)) return; + + int ret = initialiseScoreUtility(); + if (ret < 0) + { + if ( !scoreUtilityAlreadyInitialised(ret) ) + { + app.DebugPrintf("[SonyLeaderboardManager] initialiseScoreUtility() failed. ret = 0x%x\n", ret); + return; + } + else + { + app.DebugPrintf("[SonyLeaderboardManager] initialiseScoreUtility() already initialised, (0x%x)\n", ret); + } + } + + SceNpId npId; + ProfileManager.GetSceNpId(primaryPad,&npId); + + ret = createTitleContext(npId); + + if (ret < 0) return; + else m_titleContext = ret; + } + else assert( m_titleContext > 0 ); //Paranoia + + + switch (m_eStatsState) + { + case eStatsState_Getting: + // Player starts using async multiplayer feature + // 4J-PB - Fix for SCEA FQA #4 - TRC R4064 - Incorrect usage of AsyncMultiplay + // Note 1: + // The following NP call should be reserved for asynchronous multiplayer modes that require PS Plus to be accessed. + // + // Note 2: + // The message is not displayed with a user without PlayStation®Plus subscription and they are able to access the Leaderboards. + + // NotifyAsyncPlusFeature(); + + switch(m_eFilterMode) + { + case eFM_MyScore: + case eFM_Friends: + getScoreByIds(); + break; + case eFM_TopRank: + getScoreByRange(); + break; + } + break; + + case eStatsState_Canceled: + case eStatsState_Failed: + case eStatsState_Ready: + case eStatsState_Idle: + + // 4J-JEV: Moved this here, I don't want reading and + // writing going on at the same time. + // -- + // 4J-JEV: Writing no longer changes the manager state, + // we'll manage the write queue seperately. + + EnterCriticalSection(&m_csViewsLock); + bool hasWork = !m_views.empty(); + LeaveCriticalSection(&m_csViewsLock); + + if (hasWork) + { + setScore(); + } + + break; + } +} + +HRESULT SonyLeaderboardManager::fillByIdsQuery(const SceNpId &myNpId, SceNpId* &npIds, uint32_t &len) +{ + HRESULT ret; + + // Get queried users. + switch(m_eFilterMode) + { + case eFM_Friends: + { + // 4J-JEV: Implementation for Orbis & Vita as they a very similar. +#if (defined __ORBIS__) || (defined __PSVITA__) + + sce::Toolkit::NP::Utilities::Future s_friendList; + ret = getFriendsList(s_friendList); + + if(ret != SCE_TOOLKIT_NP_SUCCESS) + { + // Error handling + if (m_eStatsState != eStatsState_Canceled) m_eStatsState = eStatsState_Failed; + app.DebugPrintf("[SonyLeaderboardManager] 'getFriendslist' fail, 0x%x.\n", ret); + return false; + } + else if (s_friendList.hasResult()) + { + // 4J-JEV: Friends list doesn't include player, leave space for them. + len = s_friendList.get()->size() + 1; + + npIds = new SceNpId[len]; + + int i = 0; + + sce::Toolkit::NP::FriendsList::const_iterator itr; + for (itr = s_friendList.get()->begin(); itr != s_friendList.get()->end(); itr++) + { + npIds[i] = itr->npid; + i++; + } + + npIds[len-1] = myNpId; // 4J-JEV: Append player to end of query. + } + else + { + // 4J-JEV: Something terrible must have happend, + // 'getFriendslist' was supposed to be a synchronous operation. + __debugbreak(); + + // 4J-JEV: We can at least fall-back to just the players score. + len = 1; + npIds = new SceNpId[1]; + + npIds[0] = myNpId; + } + +#elif (defined __PS3__) + // PS3 + + // 4J-JEV: Doesn't include the player (its just their friends). + ret = sceNpBasicGetFriendListEntryCount(&len); + len += 1; + + npIds = new SceNpId[len]; + + + for (uint32_t i = 0; i < len-1; i++) + { + ret = sceNpBasicGetFriendListEntry(i, npIds+i); + if (ret<0) return ret; + + } + npIds[len-1] = myNpId; // 4J-JEV: Append player to end of query. + +#endif + } + break; + case eFM_MyScore: + { + len = 1; + npIds = new SceNpId[1]; + npIds[0] = myNpId; + } + break; + } + + return S_OK; +} + +bool SonyLeaderboardManager::getScoreByIds() +{ + if (m_eStatsState == eStatsState_Canceled) return false; + + // ---------------------------- + SonyRtcTick last_sort_date; + SceNpScoreRankNumber mTotalRecord; + + SceNpId *npIds = nullptr; + + int ret; + uint32_t num = 0; + + SceNpScorePlayerRankData *ptr; + SceNpScoreComment *comments; + // ---------------------------- + + // Check for invalid LManager state. + assert( m_eFilterMode == eFM_Friends + || m_eFilterMode == eFM_MyScore); + + SceNpId myNpId; + // 4J-PB - should it be user 0? + if(!ProfileManager.IsSignedInLive(0)) + { + app.DebugPrintf("[SonyLeaderboardManager] OpenSession() fail: User isn't signed in to PSN\n"); + return false; + } + ProfileManager.GetSceNpId(0,&myNpId); + + ret = fillByIdsQuery(myNpId, npIds, num); +#ifdef __PS3__ + if (ret < 0) goto error2; +#endif + + ptr = new SceNpScorePlayerRankData[num]; + comments = new SceNpScoreComment[num]; + + ZeroMemory(ptr, sizeof(SceNpScorePlayerRankData) * num); + ZeroMemory(comments, sizeof(SceNpScoreComment) * num); + + /* app.DebugPrintf("sceNpScoreGetRankingByNpId(\n\t transaction=%i,\n\t boardID=0,\n\t npId=%i,\n\t friendCount*sizeof(SceNpId)=%i*%i=%i,\ + rankData=%i,\n\t friendCount*sizeof(SceNpScorePlayerRankData)=%i,\n\t nullptr, 0, nullptr, 0,\n\t friendCount=%i,\n...\n", + transaction, npId, friendCount, sizeof(SceNpId), friendCount*sizeof(SceNpId), + rankData, friendCount*sizeof(SceNpScorePlayerRankData), friendCount + ); */ + + int boardId = getBoardId(m_difficulty, m_statsType); + + // 4J-JEV: Orbis can only do with 100 ids max, so we use batches. +#ifdef __ORBIS__ + for (int batch=0; batchrankData.scoreValue + ); + + // Sort scores + std::sort(m_scores, m_scores + m_readCount, SortByRank); + + delete [] ptr; + delete [] comments; + delete [] npIds; + + m_eStatsState = eStatsState_Ready; + return true; + + // Error. +error3: + if (ret!=SCE_NP_COMMUNITY_ERROR_ABORTED) //0x8002a109 + destroyTransactionContext(m_requestId); + m_requestId = 0; + delete [] ptr; + delete [] comments; +error2: + if (npIds != nullptr) delete [] npIds; +error1: + if (m_eStatsState != eStatsState_Canceled) m_eStatsState = eStatsState_Failed; + app.DebugPrintf("[SonyLeaderboardManager] getScoreByIds() FAILED, ret=0x%X\n", ret); + return false; +} + +bool SonyLeaderboardManager::getScoreByRange() +{ + SonyRtcTick last_sort_date; + SceNpScoreRankNumber mTotalRecord; + + unsigned int num = m_readCount; + SceNpScoreRankData *ptr; + SceNpScoreComment *comments; + + assert(m_eFilterMode == eFM_TopRank); + + int ret = createTransactionContext(m_titleContext); + if (m_eStatsState == eStatsState_Canceled) + { + // Cancel operation has been called, abort. + app.DebugPrintf("[SonyLeaderboardManager]\tgetScoreByRange() - m_eStatsState == eStatsState_Canceled.\n"); + destroyTransactionContext(ret); + return false; + } + else if (ret < 0) + { + // Error occurred creating a transaction, abort. + m_eStatsState = eStatsState_Failed; + app.DebugPrintf("[SonyLeaderboardManager]\tgetScoreByRange() - createTransaction failed, ret=0x%X\n", ret); + return false; + } + else + { + // Transaction created successfully, continue. + m_requestId = ret; + } + + ptr = new SceNpScoreRankData[num]; + comments = new SceNpScoreComment[num]; + + int boardId = getBoardId(m_difficulty, m_statsType); + ret = sceNpScoreGetRankingByRange( + m_requestId, + boardId, // BoardId + + m_startIndex, + + ptr, sizeof(SceNpScoreRankData) * num, //OUT: Rank Data + + comments, sizeof(SceNpScoreComment) * num, //OUT: Comment Data + + nullptr, 0, // GameData. + + num, + + &last_sort_date, + &m_maxRank, // 'Total number of players registered in the target scoreboard.' + + nullptr // Reserved, specify null. + ); + + if (ret == SCE_NP_COMMUNITY_ERROR_ABORTED) + { + ret = destroyTransactionContext(m_requestId); + app.DebugPrintf("[SonyLeaderboardManager] getScoreByRange(): 'sceNpScoreGetRankingByRange' aborted (0x%X).\n", ret); + + delete [] ptr; + delete [] comments; + + return false; + } + else if (ret == SCE_NP_COMMUNITY_SERVER_ERROR_GAME_RANKING_NOT_FOUND) + { + ret = destroyTransactionContext(m_requestId); + app.DebugPrintf("[SonyLeaderboardManager] getScoreByRange(): Game ranking not found."); + + delete [] ptr; + delete [] comments; + + m_scores = nullptr; + m_readCount = 0; + + m_eStatsState = eStatsState_Ready; + return false; + } + else if (ret<0) goto error2; + else + { + app.DebugPrintf("[SonyLeaderboardManager] getScoreByRange(), success, 1stScore=%i.\n", ptr->scoreValue); + } + + // Return. + destroyTransactionContext(m_requestId); + m_requestId = 0; + + //m_stats = ptr; //Maybe: addPadding(num,ptr); + + if (m_scores != nullptr) delete [] m_scores; + m_readCount = ret; + m_scores = new ReadScore[m_readCount]; + for (int i=0; i 0) + ret = eStatsReturn_Success; + + if (m_readListener != nullptr) + { + app.DebugPrintf("[SonyLeaderboardManager] OnStatsReadComplete(%i, %i, _), m_readCount=%i.\n", ret, m_maxRank, m_readCount); + m_readListener->OnStatsReadComplete(ret, m_maxRank, view); + } + + m_eStatsState = eStatsState_Idle; + + delete [] m_scores; + m_scores = nullptr; + } + break; + + case eStatsState_Failed: + { + view.m_numQueries = 0; + view.m_queries = nullptr; + + if ( m_readListener != nullptr ) + m_readListener->OnStatsReadComplete(eStatsReturn_NetworkError, 0, view); + + m_eStatsState = eStatsState_Idle; + } + break; + + case eStatsState_Canceled: + { + m_eStatsState = eStatsState_Idle; + } + break; + + default: // Getting or Idle. + break; + } +} + +bool SonyLeaderboardManager::OpenSession() +{ + if (m_openSessions == 0) + { + if (m_threadScoreboard == nullptr) + { + m_threadScoreboard = new C4JThread(&scoreboardThreadEntry, this, "4JScoreboard"); + m_threadScoreboard->SetProcessor(CPU_CORE_LEADERBOARDS); + m_threadScoreboard->SetPriority(THREAD_PRIORITY_BELOW_NORMAL); + m_threadScoreboard->Run(); + } + + app.DebugPrintf("[SonyLeaderboardManager] OpenSession(): Starting sceNpScore utility.\n"); + } + else + { + app.DebugPrintf("[SonyLeaderboardManager] OpenSession(): Another session opened, total=%i\n", m_openSessions+1); + } + + m_openSessions++; + return true; +} + +void SonyLeaderboardManager::CloseSession() +{ + m_openSessions--; + + if (m_openSessions == 0) app.DebugPrintf("[SonyLeaderboardManager] CloseSession(): Quitting sceNpScore utility.\n"); + else app.DebugPrintf("[SonyLeaderboardManager] CloseSession(): %i sessions still open.\n", m_openSessions); +} + +void SonyLeaderboardManager::DeleteSession() {} + +bool SonyLeaderboardManager::WriteStats(unsigned int viewCount, ViewIn views) +{ + // Need to cancel read/write operation first. + //if (m_eStatsState != eStatsState_Idle) return false; + + // Write relevant parameters. + //RegisterScore *regScore = reinterpret_cast(views); + + EnterCriticalSection(&m_csViewsLock); + for (int i=0; i> (8-dIndex); + + fivebits = (fivebits>>3) & 0x1F; + + if (fivebits < 10) // 0 - 9 + chars[i] = '0' + fivebits; + else if (fivebits < 32) // A - V + chars[i] = 'A' + (fivebits-10); + else + assert(false); + } + + toSymbols( getComment(out) ); +} + +void SonyLeaderboardManager::fromBase32(void *out, SceNpScoreComment *in) +{ + PBYTE bytes = (PBYTE) out; + ZeroMemory(bytes, RECORD_SIZE); + + fromSymbols( getComment(in) ); + + char ch[2] = { 0, 0 }; + for (int i = 0; i < SCE_NP_SCORE_COMMENT_MAXLEN; i++) + { + ch[0] = getComment(in)[i]; + unsigned char fivebits = strtol(ch, nullptr, 32) << 3; + + int sByte = (i*5) / 8; + int eByte = (5+(i*5)) / 8; + int dIndex = (i*5) % 8; + + *(bytes + sByte) = *(bytes+sByte) | (fivebits >> dIndex); + + if (eByte != sByte) + *(bytes + eByte) = fivebits << (8-dIndex); + } +} + +char symbBase32[32] = { + ' ', '!','\"', '#', '$', '%', '&','\'', '(', ')', + '*', '+', '`', '-', '.', '/', ':', ';', '<', '=', + '>', '?', '[','\\', ']', '^', '_', '{', '|', '}', + '~', '@' +}; + +char charBase32[32] = { + '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', + 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', + 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', + 'U', 'V' +}; + +void SonyLeaderboardManager::toSymbols(char *str) +{ + for (int i = 0; i < 63; i++) + { + for (int j=0; j < 32; j++) + { + if (str[i]==charBase32[j]) + str[i] =symbBase32[j]; + } + } +} + +void SonyLeaderboardManager::fromSymbols(char *str) +{ + for (int i = 0; i < 63; i++) + { + for (int j=0; j < 32; j++) + { + if (str[i]==symbBase32[j]) + str[i] =charBase32[j]; + } + } +} + +bool SonyLeaderboardManager::test_string(string testing) +{ +#ifndef _CONTENT_PACKAGE + static SceNpScoreComment comment; + ZeroMemory(&comment, sizeof(SceNpScoreComment)); + memcpy(&comment, testing.c_str(), SCE_NP_SCORE_COMMENT_MAXLEN); + + int ctx = createTransactionContext(m_titleContext); + if (ctx<0) return false; + + int ret = sceNpScoreCensorComment(ctx, (const char *) &comment, nullptr); + + if (ret == SCE_NP_COMMUNITY_SERVER_ERROR_CENSORED) + { + app.DebugPrintf("\n[TEST_STRING]: REJECTED "); + } + else if (ret < 0) + { + destroyTransactionContext(ctx); + return false; + } + else + { + app.DebugPrintf("\n[TEST_STRING]: permitted "); + } + + app.DebugPrintf("'%s'\n", getComment(&comment)); + destroyTransactionContext(ctx); + return true; +#else + return true; +#endif +} + +void SonyLeaderboardManager::initReadScoreStruct(ReadScore &out, SceNpScoreRankData &rankData) +{ + ZeroMemory(&out, sizeof(ReadScore)); + + // Init rank and onlineID + out.m_uid.setOnlineID( rankData.npId.handle, true ); + out.m_rank = rankData.rank; + + // Convert to wstring and copy name. + wstring wstrName = convStringToWstring( string(rankData.npId.handle.data) ).c_str(); + //memcpy(&out.m_name, wstrName.c_str(), XUSER_NAME_SIZE); + out.m_name=wstrName; +} + +void SonyLeaderboardManager::fillReadScoreStruct(ReadScore &out, SceNpScoreComment &comment) +{ + StatsData statsData; + fromBase32( (void *) &statsData, &comment ); + + switch (statsData.m_statsType) + { + case eStatsType_Farming: + out.m_statsSize = 6; + out.m_statsData[0] = statsData.m_farming.m_eggs; + out.m_statsData[1] = statsData.m_farming.m_wheat; + out.m_statsData[2] = statsData.m_farming.m_mushroom; + out.m_statsData[3] = statsData.m_farming.m_sugarcane; + out.m_statsData[4] = statsData.m_farming.m_milk; + out.m_statsData[5] = statsData.m_farming.m_pumpkin; + break; + case eStatsType_Mining: + out.m_statsSize = 7; + out.m_statsData[0] = statsData.m_mining.m_dirt; + out.m_statsData[1] = statsData.m_mining.m_cobblestone; + out.m_statsData[2] = statsData.m_mining.m_sand; + out.m_statsData[3] = statsData.m_mining.m_stone; + out.m_statsData[4] = statsData.m_mining.m_gravel; + out.m_statsData[5] = statsData.m_mining.m_clay; + out.m_statsData[6] = statsData.m_mining.m_obsidian; + break; + case eStatsType_Kills: + out.m_statsSize = 7; + out.m_statsData[0] = statsData.m_kills.m_zombie; + out.m_statsData[1] = statsData.m_kills.m_skeleton; + out.m_statsData[2] = statsData.m_kills.m_creeper; + out.m_statsData[3] = statsData.m_kills.m_spider; + out.m_statsData[4] = statsData.m_kills.m_spiderJockey; + out.m_statsData[5] = statsData.m_kills.m_zombiePigman; + out.m_statsData[6] = statsData.m_kills.m_slime; + break; + case eStatsType_Travelling: + out.m_statsSize = 4; + out.m_statsData[0] = statsData.m_travelling.m_walked; + out.m_statsData[1] = statsData.m_travelling.m_fallen; + out.m_statsData[2] = statsData.m_travelling.m_minecart; + out.m_statsData[3] = statsData.m_travelling.m_boat; + break; + } +} + +bool SonyLeaderboardManager::SortByRank(const ReadScore &lhs, const ReadScore &rhs) +{ + return lhs.m_rank < rhs.m_rank; +} diff --git a/Minecraft.Client/Common/Leaderboards/SonyLeaderboardManager.h b/Minecraft.Client/Common/Leaderboards/SonyLeaderboardManager.h new file mode 100644 index 0000000..3b2c26c --- /dev/null +++ b/Minecraft.Client/Common/Leaderboards/SonyLeaderboardManager.h @@ -0,0 +1,133 @@ +#pragma once + +#include "Common\Leaderboards\LeaderboardManager.h" + +#ifdef __PS3__ +typedef CellRtcTick SonyRtcTick; +#else +typedef SceRtcTick SonyRtcTick; +#endif + +class SonyLeaderboardManager : public LeaderboardManager +{ +protected: + enum EStatsState + { + eStatsState_Idle, + eStatsState_Getting, + eStatsState_Failed, + eStatsState_Ready, + eStatsState_Canceled, + eStatsState_Max + }; + +public: + SonyLeaderboardManager(); + virtual ~SonyLeaderboardManager(); + +protected: + unsigned short m_openSessions; + + C4JThread *m_threadScoreboard; + bool m_running; + + int m_titleContext; + int32_t m_requestId; + + //SceNpId m_myNpId; + + static int scoreboardThreadEntry(LPVOID lpParam); + void scoreboardThreadInternal(); + + virtual bool getScoreByIds(); + virtual bool getScoreByRange(); + + virtual bool setScore(); + + queue m_views; + + CRITICAL_SECTION m_csViewsLock; + + EStatsState m_eStatsState; //State of the stats read + // EFilterMode m_eFilterMode; + + ReadScore *m_scores; + unsigned int m_maxRank; + //SceNpScoreRankData *m_stats; + +public: + virtual void Tick(); + + //Open a session + virtual bool OpenSession(); + + //Close a session + virtual void CloseSession(); + + //Delete a session + virtual void DeleteSession(); + + //Write the given stats + //This is called synchronously and will not free any memory allocated for views when it is done + + virtual bool WriteStats(unsigned int viewCount, ViewIn views); + + virtual bool ReadStats_Friends(LeaderboardReadListener *callback, int difficulty, EStatsType type, PlayerUID myUID, unsigned int startIndex, unsigned int readCount); + virtual bool ReadStats_MyScore(LeaderboardReadListener *callback, int difficulty, EStatsType type, PlayerUID myUID, unsigned int readCount); + virtual bool ReadStats_TopRank(LeaderboardReadListener *callback, int difficulty, EStatsType type, unsigned int startIndex, unsigned int readCount); + + //Perform a flush of the stats + virtual void FlushStats(); + + //Cancel the current operation + virtual void CancelOperation(); + + //Is the leaderboard manager idle. + virtual bool isIdle(); + +protected: + int getBoardId(int difficulty, EStatsType); + + SceNpScorePlayerRankData *addPadding(unsigned int num, SceNpScoreRankData *rankData); + + void convertToOutput(unsigned int &num, ReadScore *out, SceNpScorePlayerRankData *rankData, SceNpScoreComment *comm); + + void toBinary(void *out, SceNpScoreComment *in); + void fromBinary(SceNpScoreComment **out, void *in); + + void toBase32(SceNpScoreComment *out, void *in); + void fromBase32(void *out, SceNpScoreComment *in); + + void toSymbols(char *); + void fromSymbols(char *); + + bool test_string(string); + + void initReadScoreStruct(ReadScore &out, SceNpScoreRankData &); + void fillReadScoreStruct(ReadScore &out, SceNpScoreComment &comment); + + static bool SortByRank(const ReadScore &lhs, const ReadScore &rhs); + + +protected: + // 4J-JEV: Interface differences: + + // Sce NP score library function redirects. + virtual HRESULT initialiseScoreUtility() { return ERROR_SUCCESS; } + virtual bool scoreUtilityAlreadyInitialised(HRESULT hr) { return false; } + + virtual HRESULT createTitleContext(const SceNpId &npId) = 0; + virtual HRESULT destroyTitleContext(int titleContext) = 0; + + virtual HRESULT createTransactionContext(int titleContext) = 0; + virtual HRESULT abortTransactionContext(int transactionContext) = 0; + virtual HRESULT destroyTransactionContext(int transactionContext) = 0; + + virtual HRESULT fillByIdsQuery(const SceNpId &myNpId, SceNpId* &npIds, uint32_t &len); + +#if (defined __ORBIS__) || (defined __PSVITA__) + virtual HRESULT getFriendsList(sce::Toolkit::NP::Utilities::Future &friendsList) = 0; +#endif + + virtual char * getComment(SceNpScoreComment *comment) = 0; +}; diff --git a/Minecraft.Client/Common/Leaderboards/base64.cpp b/Minecraft.Client/Common/Leaderboards/base64.cpp new file mode 100644 index 0000000..19106cc --- /dev/null +++ b/Minecraft.Client/Common/Leaderboards/base64.cpp @@ -0,0 +1,131 @@ +/* + base64.cpp and base64.h + + Copyright (C) 2004-2008 René Nyffenegger + + This source code is provided 'as-is', without any express or implied + warranty. In no event will the author be held liable for any damages + arising from the use of this software. + + Permission is granted to anyone to use this software for any purpose, + including commercial applications, and to alter it and redistribute it + freely, subject to the following restrictions: + + 1. The origin of this source code must not be misrepresented; you must not + claim that you wrote the original source code. If you use this source code + in a product, an acknowledgment in the product documentation would be + appreciated but is not required. + + 2. Altered source versions must be plainly marked as such, and must not be + misrepresented as being the original source code. + + 3. This notice may not be removed or altered from any source distribution. + + René Nyffenegger rene.nyffenegger@adp-gmbh.ch + +*/ + +#include "stdafx.h" + +#include "base64.h" +#include + +static const std::string base64_chars = + "ABCDEFGHIJKLMNOPQRSTUVWXYZ" + "abcdefghijklmnopqrstuvwxyz" + "0123456789+/"; + + +static inline bool is_base64(unsigned char c) { + return (isalnum(c) || (c == '+') || (c == '/')); +} + +// 4J ADDED, +std::string base64_encode(std::string str) +{ + return base64_encode( reinterpret_cast(str.c_str()), str.length() ); +} + +std::string base64_encode(unsigned char const* bytes_to_encode, unsigned int in_len) { + std::string ret; + int i = 0; + int j = 0; + unsigned char char_array_3[3]; + unsigned char char_array_4[4]; + + while (in_len--) { + char_array_3[i++] = *(bytes_to_encode++); + if (i == 3) { + char_array_4[0] = (char_array_3[0] & 0xfc) >> 2; + char_array_4[1] = ((char_array_3[0] & 0x03) << 4) + ((char_array_3[1] & 0xf0) >> 4); + char_array_4[2] = ((char_array_3[1] & 0x0f) << 2) + ((char_array_3[2] & 0xc0) >> 6); + char_array_4[3] = char_array_3[2] & 0x3f; + + for(int ii = 0; (ii <4) ; ii++) + ret += base64_chars[char_array_4[ii]]; + i = 0; + } + } + + if (i) + { + for(j = i; j < 3; j++) + char_array_3[j] = '\0'; + + char_array_4[0] = (char_array_3[0] & 0xfc) >> 2; + char_array_4[1] = ((char_array_3[0] & 0x03) << 4) + ((char_array_3[1] & 0xf0) >> 4); + char_array_4[2] = ((char_array_3[1] & 0x0f) << 2) + ((char_array_3[2] & 0xc0) >> 6); + char_array_4[3] = char_array_3[2] & 0x3f; + + for (j = 0; (j < i + 1); j++) + ret += base64_chars[char_array_4[j]]; + + while((i++ < 3)) + ret += '='; + + } + + return ret; + +} + +std::string base64_decode(std::string const& encoded_string) { + int in_len = encoded_string.size(); + int i = 0; + int j = 0; + int in_ = 0; + unsigned char char_array_4[4], char_array_3[3]; + std::string ret; + + while (in_len-- && ( encoded_string[in_] != '=') && is_base64(encoded_string[in_])) { + char_array_4[i++] = encoded_string[in_]; in_++; + if (i ==4) { + for (i = 0; i <4; i++) + char_array_4[i] = base64_chars.find(char_array_4[i]); + + char_array_3[0] = (char_array_4[0] << 2) + ((char_array_4[1] & 0x30) >> 4); + char_array_3[1] = ((char_array_4[1] & 0xf) << 4) + ((char_array_4[2] & 0x3c) >> 2); + char_array_3[2] = ((char_array_4[2] & 0x3) << 6) + char_array_4[3]; + + for (i = 0; (i < 3); i++) + ret += char_array_3[i]; + i = 0; + } + } + + if (i) { + for (j = i; j <4; j++) + char_array_4[j] = 0; + + for (j = 0; j <4; j++) + char_array_4[j] = base64_chars.find(char_array_4[j]); + + char_array_3[0] = (char_array_4[0] << 2) + ((char_array_4[1] & 0x30) >> 4); + char_array_3[1] = ((char_array_4[1] & 0xf) << 4) + ((char_array_4[2] & 0x3c) >> 2); + char_array_3[2] = ((char_array_4[2] & 0x3) << 6) + char_array_4[3]; + + for (j = 0; (j < i - 1); j++) ret += char_array_3[j]; + } + + return ret; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Leaderboards/base64.h b/Minecraft.Client/Common/Leaderboards/base64.h new file mode 100644 index 0000000..7f6a1e4 --- /dev/null +++ b/Minecraft.Client/Common/Leaderboards/base64.h @@ -0,0 +1,7 @@ +#pragma once + +#include + +std::string base64_encode(std::string str); +std::string base64_encode(unsigned char const* , unsigned int len); +std::string base64_decode(std::string const& s); \ No newline at end of file diff --git a/Minecraft.Client/Common/Minecraft_Macros.h b/Minecraft.Client/Common/Minecraft_Macros.h new file mode 100644 index 0000000..4f1f096 --- /dev/null +++ b/Minecraft.Client/Common/Minecraft_Macros.h @@ -0,0 +1,42 @@ + +#pragma once + +// 3 bit user index +// 5 bits alpha +// 1 bit decoration +// 3 bits poptime +// 8 bits unused // was 11 bits aux val but needed 15 bits for potions so moved to item bitmask +// 6 bits count +// 6 bits scale + +// uiCount is up to 64, but can't ever be 0, so to make it 6 bits, subtract one from the packing, and add one on the unpacking +#define MAKE_SLOTDISPLAY_DATA_BITMASK(uiUserIndex,uiAlpha,bDecorations,uiCount,uiScale,uiPopTime) ((((uiUserIndex&0x7)<<29) | (uiAlpha&0x1F)<<24) | (bDecorations?0x800000:0) | ((uiPopTime&0x7)<<20) | ((uiCount-1)<<6) | (uiScale&0x3F)) + +#define GET_SLOTDISPLAY_USERINDEX_FROM_DATA_BITMASK(uiBitmask) ((((unsigned int)uiBitmask)>>29)&0x7) +#define GET_SLOTDISPLAY_ALPHA_FROM_DATA_BITMASK(uiBitmask) ((((unsigned int)uiBitmask)>>24)&0x1F) +#define GET_SLOTDISPLAY_DECORATIONS_FROM_DATA_BITMASK(uiBitmask) ((((unsigned int)uiBitmask)&0x800000)?true:false) +//#define GET_SLOTDISPLAY_AUXVAL_FROM_DATA_BITMASK(uiBitmask) ((((unsigned long)uiBitmask)>>12)&0x7FF) +#define GET_SLOTDISPLAY_COUNT_FROM_DATA_BITMASK(uiBitmask) (((((unsigned int)uiBitmask)>>6)&0x3F)+1) +#define GET_SLOTDISPLAY_SCALE_FROM_DATA_BITMASK(uiBitmask) (((unsigned int)uiBitmask)&0x3F) +#define GET_SLOTDISPLAY_POPTIME_FROM_DATA_BITMASK(uiBitmask) ((((unsigned int)uiBitmask)>>20)&0x7) + +// 16 bits for id (either item id or xzp icon id) +// 15 bits for aux value +// 1 bit for foil +#define MAKE_SLOTDISPLAY_ITEM_BITMASK(uiId,uiAuxValue,bFoil) ( (uiId & 0xFFFF) | ((uiAuxValue & 0x7FFF) << 16) | (bFoil?0x80000000:0) ) + +#define GET_SLOTDISPLAY_ID_FROM_ITEM_BITMASK(uiBitmask) (((unsigned int)uiBitmask)&0xFFFF) +#define GET_SLOTDISPLAY_AUXVAL_FROM_ITEM_BITMASK(uiBitmask) ((((unsigned int)uiBitmask)>>16) & 0x7FFF) +#define GET_SLOTDISPLAY_FOIL_FROM_ITEM_BITMASK(uiBitmask) ((((unsigned int)uiBitmask)&0x80000000)?true:false) + + +// For encoding the players skin selection in their profile +// bDlcSkin = false is a players skin, bDlcSkin = true is a DLC skin +#define MAKE_SKIN_BITMASK(bDlcSkin, dwSkinId) ( (bDlcSkin?0x80000000:0) | (dwSkinId & 0x7FFFFFFF) ) +#define IS_SKIN_ID_IN_RANGE(dwSkinId) (dwSkinId <= 0x7FFFFFFF) + +#define GET_DLC_SKIN_ID_FROM_BITMASK(uiBitmask) (((DWORD)uiBitmask)&0x7FFFFFFF) +#define GET_UGC_SKIN_ID_FROM_BITMASK(uiBitmask) (((DWORD)uiBitmask)&0x7FFFFFE0) +#define GET_DEFAULT_SKIN_ID_FROM_BITMASK(uiBitmask) (((DWORD)uiBitmask)&0x0000001F) +#define GET_IS_DLC_SKIN_FROM_BITMASK(uiBitmask) ((((DWORD)uiBitmask)&0x80000000)?true:false) + diff --git a/Minecraft.Client/Common/Network/GameNetworkManager.cpp b/Minecraft.Client/Common/Network/GameNetworkManager.cpp new file mode 100644 index 0000000..c2f7522 --- /dev/null +++ b/Minecraft.Client/Common/Network/GameNetworkManager.cpp @@ -0,0 +1,2062 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "..\..\..\Minecraft.World\AABB.h" +#include "..\..\..\Minecraft.World\Vec3.h" +#include "..\..\..\Minecraft.World\Socket.h" +#include "..\..\..\Minecraft.World\ThreadName.h" +#include "..\..\..\Minecraft.World\Entity.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\..\..\Minecraft.World\FireworksRecipe.h" +#include "..\..\ClientConnection.h" +#include "..\..\Minecraft.h" +#include "..\..\User.h" +#include "..\..\MinecraftServer.h" +#include "..\..\PlayerList.h" +#include "..\..\ServerPlayer.h" +#include "..\..\PlayerConnection.h" +#include "..\..\MultiPlayerLevel.h" +#include "..\..\MultiPlayerLocalPlayer.h" +#include "..\..\..\Minecraft.World\DisconnectPacket.h" +#include "..\..\..\Minecraft.World\compression.h" +#include "..\..\..\Minecraft.World\OldChunkStorage.h" +#include "..\..\TexturePackRepository.h" +#include "..\..\TexturePack.h" + +#include "..\..\LevelRenderer.h" +#include "..\..\..\Minecraft.World\IntCache.h" +#include "..\GameRules\ConsoleGameRules.h" +#include "GameNetworkManager.h" + +#ifdef _XBOX +#include "Common\XUI\XUI_PauseMenu.h" +#else +#include "..\..\Xbox\Network\NetworkPlayerXbox.h" +#endif + +#ifdef _DURANGO +#include "..\Minecraft.World\DurangoStats.h" +#endif + +#ifdef _WINDOWS64 +#include "..\..\Windows64\Network\WinsockNetLayer.h" +#include "..\..\Windows64\Windows64_Xuid.h" +#endif + +// Global instance +CGameNetworkManager g_NetworkManager; +CPlatformNetworkManager *CGameNetworkManager::s_pPlatformNetworkManager; + +int64_t CGameNetworkManager::messageQueue[512]; +int64_t CGameNetworkManager::byteQueue[512]; +int CGameNetworkManager::messageQueuePos = 0; + +CGameNetworkManager::CGameNetworkManager() +{ + m_bInitialised = false; + m_bLastDisconnectWasLostRoomOnly = false; + m_bFullSessionMessageOnNextSessionChange = false; + +#ifdef __ORBIS__ + m_pUpsell = nullptr; + m_pInviteInfo = nullptr; +#endif +} + +void CGameNetworkManager::Initialise() +{ + ServerStoppedCreate( false ); + ServerReadyCreate( false ); + int flagIndexSize = LevelRenderer::getGlobalChunkCount() / (Level::maxBuildHeight / 16); // dividing here by number of renderer chunks in one column +#ifdef _XBOX + s_pPlatformNetworkManager = new CPlatformNetworkManagerXbox(); +#elif defined __PS3__ || defined __ORBIS__ || defined __PSVITA__ + s_pPlatformNetworkManager = new CPlatformNetworkManagerSony(); +#elif defined _DURANGO + s_pPlatformNetworkManager = new CPlatformNetworkManagerDurango(); +#else + s_pPlatformNetworkManager = new CPlatformNetworkManagerStub(); +#endif + s_pPlatformNetworkManager->Initialise( this, flagIndexSize ); + m_bNetworkThreadRunning = false; + m_bInitialised = true; +} + +void CGameNetworkManager::Terminate() +{ + if( m_bInitialised ) + { + s_pPlatformNetworkManager->Terminate(); + } +} + +void CGameNetworkManager::DoWork() +{ +#ifdef _XBOX + // did we get any notifications from the game listener? + if(app.GetNotifications()->size()!=0) + { + PNOTIFICATION pNotification=app.GetNotifications()->back(); + + switch(pNotification->dwNotification) + { + case XN_LIVE_LINK_STATE_CHANGED: + { + int iPrimaryPlayer = g_NetworkManager.GetPrimaryPad(); + bool bConnected = (pNotification->uiParam!=0)?true:false; + if((g_NetworkManager.GetLockedProfile()!=-1) && iPrimaryPlayer!=-1 && bConnected == false && g_NetworkManager.IsInSession() ) + { + app.SetAction(iPrimaryPlayer,eAppAction_EthernetDisconnected); + } + } + break; + case XN_LIVE_INVITE_ACCEPTED: + s_pPlatformNetworkManager->Notify(pNotification->dwNotification,pNotification->uiParam); + break; + } + + app.GetNotifications()->pop_back(); + delete pNotification; + } +#endif + s_pPlatformNetworkManager->DoWork(); + +#ifdef __ORBIS__ + if (m_pUpsell != nullptr && m_pUpsell->hasResponse()) + { + int iPad_invited = m_iPlayerInvited, iPad_checking = m_pUpsell->m_userIndex; + + m_iPlayerInvited = -1; + + delete m_pUpsell; + m_pUpsell = nullptr; + + if (ProfileManager.HasPlayStationPlus(iPad_checking)) + { + this->GameInviteReceived(iPad_invited, m_pInviteInfo); + + // m_pInviteInfo deleted by GameInviteReceived. + m_pInviteInfo = nullptr; + } + else + { + delete m_pInviteInfo; + m_pInviteInfo = nullptr; + } + } +#endif +} + +bool CGameNetworkManager::_RunNetworkGame(LPVOID lpParameter) +{ + bool success = true; + + bool isHost = g_NetworkManager.IsHost(); + // Start the network game + Minecraft *pMinecraft=Minecraft::GetInstance(); + success = StartNetworkGame(pMinecraft,lpParameter); + + if(!success) return false; + + if( isHost ) + { + // We do not have a lobby, so the only players in the game at this point are local ones. + + success = s_pPlatformNetworkManager->_RunNetworkGame(); + if(!success) + { + app.SetAction(ProfileManager.GetPrimaryPad(),eAppAction_ExitWorld,(void *)TRUE); + return true; + } + } + else + { + // Client needs QNET_STATE_GAME_PLAY so that IsInGameplay() returns true + s_pPlatformNetworkManager->SetGamePlayState(); + } + + if( g_NetworkManager.IsLeavingGame() ) return false; + + app.SetGameStarted(true); + + // 4J-PB - if this is the trial game, start the trial timer + if(!ProfileManager.IsFullVersion()) + { + app.SetTrialTimerStart(); + } + //app.CloseXuiScenes(ProfileManager.GetPrimaryPad()); + + return success; +} + +bool CGameNetworkManager::StartNetworkGame(Minecraft *minecraft, LPVOID lpParameter) +{ +#ifdef _DURANGO + ProfileManager.SetDeferredSignoutEnabled(true); +#endif + + int64_t seed = 0; + if (lpParameter != nullptr) + { + NetworkGameInitData *param = static_cast(lpParameter); + seed = param->seed; + + app.setLevelGenerationOptions(param->levelGen); + if(param->levelGen != nullptr) + { + if(app.getLevelGenerationOptions() == nullptr) + { + app.DebugPrintf("Game rule was not loaded, and seed is required. Exiting.\n"); + return false; + } + else + { + param->seed = seed = app.getLevelGenerationOptions()->getLevelSeed(); + + if(param->levelGen->isTutorial()) + { + // Load the tutorial save data here + if(param->levelGen->requiresBaseSave() && !param->levelGen->getBaseSavePath().empty() ) + { +#ifdef _XBOX +#ifdef _TU_BUILD + wstring fileRoot = L"UPDATE:\\res\\GameRules\\" + param->levelGen->getBaseSavePath(); +#else + wstring fileRoot = L"GAME:\\res\\TitleUpdate\\GameRules\\" + param->levelGen->getBaseSavePath(); +#endif +#else +#ifdef _WINDOWS64 + wstring fileRoot = L"Windows64Media\\Tutorial\\" + param->levelGen->getBaseSavePath(); + File root(fileRoot); + if(!root.exists()) fileRoot = L"Windows64\\Tutorial\\" + param->levelGen->getBaseSavePath(); +#elif defined(__ORBIS__) + wstring fileRoot = L"/app0/orbis/Tutorial/" + param->levelGen->getBaseSavePath(); +#elif defined(__PSVITA__) + wstring fileRoot = L"PSVita/Tutorial/" + param->levelGen->getBaseSavePath(); +#elif defined(__PS3__) + wstring fileRoot = L"PS3/Tutorial/" + param->levelGen->getBaseSavePath(); +#else + wstring fileRoot = L"Tutorial\\" + param->levelGen->getBaseSavePath(); +#endif +#endif + File grf(fileRoot); + if (grf.exists()) + { +#ifdef _UNICODE + wstring path = grf.getPath(); + const WCHAR *pchFilename=path.c_str(); + HANDLE fileHandle = CreateFile( + pchFilename, // file name + GENERIC_READ, // access mode + 0, // share mode // TODO 4J Stu - Will we need to share file? Probably not but... + nullptr, // Unused + OPEN_EXISTING , // how to create // TODO 4J Stu - Assuming that the file already exists if we are opening to read from it + FILE_FLAG_SEQUENTIAL_SCAN, // file attributes + nullptr // Unsupported + ); +#else + const char *pchFilename=wstringtofilename(grf.getPath()); + HANDLE fileHandle = CreateFile( + pchFilename, // file name + GENERIC_READ, // access mode + 0, // share mode // TODO 4J Stu - Will we need to share file? Probably not but... + nullptr, // Unused + OPEN_EXISTING , // how to create // TODO 4J Stu - Assuming that the file already exists if we are opening to read from it + FILE_FLAG_SEQUENTIAL_SCAN, // file attributes + nullptr // Unsupported + ); +#endif + + if( fileHandle != INVALID_HANDLE_VALUE ) + { + DWORD bytesRead,dwFileSize = GetFileSize(fileHandle,nullptr); + PBYTE pbData = (PBYTE) new BYTE[dwFileSize]; + BOOL bSuccess = ReadFile(fileHandle,pbData,dwFileSize,&bytesRead,nullptr); + if(bSuccess==FALSE) + { + app.FatalLoadError(); + } + CloseHandle(fileHandle); + + // 4J-PB - is it possible that we can get here after a read fail and it's not an error? + param->levelGen->setBaseSaveData(pbData, dwFileSize); + } + } + } + } + } + } + } + + static int64_t sseed = seed; // Create static version so this will be valid until next call to this function & whilst thread is running + ServerStoppedCreate(false); + if( g_NetworkManager.IsHost() ) + { + ServerStoppedCreate(true); + ServerReadyCreate(true); + // Ready to go - create actual networking thread & start hosting + C4JThread* thread = new C4JThread(&CGameNetworkManager::ServerThreadProc, lpParameter, "Server", 256 * 1024); +#if defined __PS3__ || defined __PSVITA__ + thread->SetPriority(THREAD_PRIORITY_BELOW_NORMAL); +#endif //__PS3__ + + thread->SetProcessor(CPU_CORE_SERVER); + thread->Run(); + + ServerReadyWait(); + ServerReadyDestroy(); + + if( MinecraftServer::serverHalted() ) + return false; + +// printf("Server ready to go!\n"); + } + else + { + Socket::Initialise(nullptr); + } + +#ifndef _XBOX + Minecraft *pMinecraft = Minecraft::GetInstance(); + // Make sure that we have transitioned through any joining/creating stages and are actually playing the game, so that we know the players should be valid + bool changedMessage = false; + while(!IsReadyToPlayOrIdle()) + { + changedMessage = true; + Sleep(10); + } +#endif + + // If we aren't in session, then something bad must have happened - we aren't joining, creating or ready play + if(!IsInSession() ) + { + MinecraftServer::HaltServer(); + return false; + } + + // 4J Stu - Wait a while to make sure that DLC is loaded. This is the last point before the network communication starts + // so the latest we can check this + while( !app.DLCInstallProcessCompleted() && app.DLCInstallPending() && !g_NetworkManager.IsLeavingGame() ) + { + Sleep( 10 ); + } + if( g_NetworkManager.IsLeavingGame() ) + { + MinecraftServer::HaltServer(); + return false; + } + + // PRIMARY PLAYER + + vector createdConnections; + ClientConnection *connection; + + if( g_NetworkManager.IsHost() ) + { + connection = new ClientConnection(minecraft, nullptr); + } + else + { + INetworkPlayer *pNetworkPlayer = g_NetworkManager.GetLocalPlayerByUserIndex(ProfileManager.GetLockedProfile()); + if(pNetworkPlayer == nullptr) + { + MinecraftServer::HaltServer(); + app.DebugPrintf("%d\n",ProfileManager.GetLockedProfile()); + // If the player is nullptr here then something went wrong in the session setup, and continuing will end up in a crash + return false; + } + + Socket *socket = pNetworkPlayer->GetSocket(); + + // Fix for #13259 - CRASH: Gameplay: loading process is halted when player loads saved data + if(socket == nullptr) + { + assert(false); + MinecraftServer::HaltServer(); + // If the socket is nullptr here then something went wrong in the session setup, and continuing will end up in a crash + return false; + } + + connection = new ClientConnection(minecraft, socket); + } + + if( !connection->createdOk ) + { + assert(false); + delete connection; + connection = nullptr; + MinecraftServer::HaltServer(); + return false; + } + + connection->send(std::make_shared(minecraft->user->name)); + + // Tick connection until we're ready to go. The stages involved in this are: + // (1) Creating the ClientConnection sends a prelogin packet to the server + // (2) the server sends a prelogin back, which is handled by the clientConnection, and returns a login packet + // (3) the server sends a login back, which is handled by the client connection to start the game + + { + // 4J Stu - Host needs to generate a unique multiplayer id for sentient telemetry reporting + INT multiplayerInstanceId = TelemetryManager->GenerateMultiplayerInstanceId(); + TelemetryManager->SetMultiplayerInstanceId(multiplayerInstanceId); + } + TexturePack *tPack = Minecraft::GetInstance()->skins->getSelected(); + do + { + app.DebugPrintf("ticking connection A\n"); + connection->tick(); + + // 4J Stu - We were ticking this way too fast which could cause the connection to time out + // The connections should tick at 20 per second + Sleep(50); + } while ( (IsInSession() && !connection->isStarted() && !connection->isClosed() && !g_NetworkManager.IsLeavingGame()) || tPack->isLoadingData() || Minecraft::GetInstance()->skins->needsUIUpdate() ); + + // 4J Stu - Fix for #11279 - CRASH: TCR 001: BAS Game Stability: Signing out of game will cause title to crash + // We need to break out of the above loop if m_bLeavingGame is set, and close the connection + if( g_NetworkManager.IsLeavingGame() || !IsInSession() ) + { + connection->close(); + } + + if( connection->isStarted() && !connection->isClosed() ) + { + createdConnections.push_back( connection ); + + int primaryPad = ProfileManager.GetPrimaryPad(); + app.SetRichPresenceContext(primaryPad,CONTEXT_GAME_STATE_BLANK); + if (GetPlayerCount() > 1) // Are we offline or online, and how many players are there + { + if (IsLocalGame()) ProfileManager.SetCurrentGameActivity(primaryPad,CONTEXT_PRESENCE_MULTIPLAYEROFFLINE,false); + else ProfileManager.SetCurrentGameActivity(primaryPad,CONTEXT_PRESENCE_MULTIPLAYER,false); + } + else + { + if(IsLocalGame()) ProfileManager.SetCurrentGameActivity(primaryPad,CONTEXT_PRESENCE_MULTIPLAYER_1POFFLINE,false); + else ProfileManager.SetCurrentGameActivity(primaryPad,CONTEXT_PRESENCE_MULTIPLAYER_1P,false); + } + + + // ALL OTHER LOCAL PLAYERS + for(int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + // Already have setup the primary pad + if(idx == ProfileManager.GetPrimaryPad() ) continue; + + if( GetLocalPlayerByUserIndex(idx) != nullptr && !ProfileManager.IsSignedIn(idx) ) + { + INetworkPlayer *pNetworkPlayer = g_NetworkManager.GetLocalPlayerByUserIndex(idx); + Socket *socket = pNetworkPlayer->GetSocket(); + app.DebugPrintf("Closing socket due to player %d not being signed in any more\n"); + if( !socket->close(false) ) socket->close(true); + + continue; + } + + // By default when we host we only have the local player, but currently allow multiple local players to join + // when joining any other way, so just because they are signed in doesn't mean they are in the session + // 4J Stu - If they are in the session, then we should add them to the game. Otherwise we won't be able to add them later + INetworkPlayer *pNetworkPlayer = g_NetworkManager.GetLocalPlayerByUserIndex(idx); + if( pNetworkPlayer == nullptr ) + continue; + + ClientConnection *connection; + + Socket *socket = pNetworkPlayer->GetSocket(); + connection = new ClientConnection(minecraft, socket, idx); + + minecraft->addPendingLocalConnection(idx, connection); + //minecraft->createExtraLocalPlayer(idx, (convStringToWstring( ProfileManager.GetGamertag(idx) )).c_str(), idx, connection); + + // Open the socket on the server end to accept incoming data + Socket::addIncomingSocket(socket); + + connection->send(std::make_shared(convStringToWstring(ProfileManager.GetGamertag(idx)))); + + createdConnections.push_back( connection ); + + // Tick connection until we're ready to go. The stages involved in this are: + // (1) Creating the ClientConnection sends a prelogin packet to the server + // (2) the server sends a prelogin back, which is handled by the clientConnection, and returns a login packet + // (3) the server sends a login back, which is handled by the client connection to start the game + do + { + // We need to keep ticking the connections for players that already logged in + for (auto& it : createdConnections ) + { + if ( it ) + it->tick(); + } + + // 4J Stu - We were ticking this way too fast which could cause the connection to time out + // The connections should tick at 20 per second + Sleep(50); + app.DebugPrintf("<***> %d %d %d %d %d\n",IsInSession(), !connection->isStarted(),!connection->isClosed(),ProfileManager.IsSignedIn(idx),!g_NetworkManager.IsLeavingGame()); +#if defined _XBOX || __PS3__ + } while (IsInSession() && !connection->isStarted() && !connection->isClosed() && ProfileManager.IsSignedIn(idx) && !g_NetworkManager.IsLeavingGame() ); +#else + // TODO - This SHOULD be something just like the code above but temporarily changing here so that we don't have to depend on the profilemanager behaviour + } while (IsInSession() && !connection->isStarted() && !connection->isClosed() && !g_NetworkManager.IsLeavingGame() ); +#endif + + // 4J Stu - Fix for #11279 - CRASH: TCR 001: BAS Game Stability: Signing out of game will cause title to crash + // We need to break out of the above loop if m_bLeavingGame is set, and stop creating new connections + // The connections in the createdConnections vector get closed at the end of the thread + if( g_NetworkManager.IsLeavingGame() || !IsInSession() ) break; + + if( ProfileManager.IsSignedIn(idx) && !connection->isClosed() ) + { + app.SetRichPresenceContext(idx,CONTEXT_GAME_STATE_BLANK); + if (IsLocalGame()) ProfileManager.SetCurrentGameActivity(idx,CONTEXT_PRESENCE_MULTIPLAYEROFFLINE,false); + else ProfileManager.SetCurrentGameActivity(idx,CONTEXT_PRESENCE_MULTIPLAYER,false); + } + else + { + connection->close(); + auto it = find(createdConnections.begin(), createdConnections.end(), connection); + if(it != createdConnections.end() ) createdConnections.erase( it ); + } + } + + app.SetGameMode( eMode_Multiplayer ); + } + else if ( connection->isClosed() || !IsInSession()) + { +// assert(false); + MinecraftServer::HaltServer(); + return false; + } + + + if(g_NetworkManager.IsLeavingGame() || !IsInSession() ) + { + for (auto& it : createdConnections) + { + it->close(); + } +// assert(false); + MinecraftServer::HaltServer(); + return false; + } + + // Catch in-case server has been halted (by a player signout). + if ( MinecraftServer::serverHalted() ) + return false; + + return true; +} + +int CGameNetworkManager::CorrectErrorIDS(int IDS) +{ + return s_pPlatformNetworkManager->CorrectErrorIDS(IDS); +} + +int CGameNetworkManager::GetLocalPlayerMask(int playerIndex) +{ + return s_pPlatformNetworkManager->GetLocalPlayerMask( playerIndex ); +} + +int CGameNetworkManager::GetPlayerCount() +{ + return s_pPlatformNetworkManager->GetPlayerCount(); +} + +int CGameNetworkManager::GetOnlinePlayerCount() +{ + return s_pPlatformNetworkManager->GetOnlinePlayerCount(); +} + +bool CGameNetworkManager::AddLocalPlayerByUserIndex( int userIndex ) +{ + return s_pPlatformNetworkManager->AddLocalPlayerByUserIndex( userIndex ); +} + +bool CGameNetworkManager::RemoveLocalPlayerByUserIndex( int userIndex ) +{ + return s_pPlatformNetworkManager->RemoveLocalPlayerByUserIndex( userIndex ); +} + +INetworkPlayer *CGameNetworkManager::GetLocalPlayerByUserIndex(int userIndex ) +{ + return s_pPlatformNetworkManager->GetLocalPlayerByUserIndex( userIndex ); +} + +INetworkPlayer *CGameNetworkManager::GetPlayerByIndex(int playerIndex) +{ + return s_pPlatformNetworkManager->GetPlayerByIndex( playerIndex ); +} + +INetworkPlayer *CGameNetworkManager::GetPlayerByXuid(PlayerUID xuid) +{ + return s_pPlatformNetworkManager->GetPlayerByXuid( xuid ); +} + +INetworkPlayer *CGameNetworkManager::GetPlayerBySmallId(unsigned char smallId) +{ + return s_pPlatformNetworkManager->GetPlayerBySmallId( smallId ); +} + +#ifdef _DURANGO +wstring CGameNetworkManager::GetDisplayNameByGamertag(wstring gamertag) +{ + return s_pPlatformNetworkManager->GetDisplayNameByGamertag(gamertag); +} +#endif + +INetworkPlayer *CGameNetworkManager::GetHostPlayer() +{ + return s_pPlatformNetworkManager->GetHostPlayer(); +} + +void CGameNetworkManager::RegisterPlayerChangedCallback(int iPad, void (*callback)(void *callbackParam, INetworkPlayer *pPlayer, bool leaving), void *callbackParam) +{ + s_pPlatformNetworkManager->RegisterPlayerChangedCallback( iPad, callback, callbackParam ); +} + +void CGameNetworkManager::UnRegisterPlayerChangedCallback(int iPad, void (*callback)(void *callbackParam, INetworkPlayer *pPlayer, bool leaving), void *callbackParam) +{ + s_pPlatformNetworkManager->UnRegisterPlayerChangedCallback( iPad, callback, callbackParam ); +} + +void CGameNetworkManager::HandleSignInChange() +{ + s_pPlatformNetworkManager->HandleSignInChange(); +} + +bool CGameNetworkManager::ShouldMessageForFullSession() +{ + return s_pPlatformNetworkManager->ShouldMessageForFullSession(); +} + +bool CGameNetworkManager::IsInSession() +{ + return s_pPlatformNetworkManager->IsInSession(); +} + +bool CGameNetworkManager::IsInGameplay() +{ + return s_pPlatformNetworkManager->IsInGameplay(); +} + +bool CGameNetworkManager::IsReadyToPlayOrIdle() +{ + return s_pPlatformNetworkManager->IsReadyToPlayOrIdle(); +} + +bool CGameNetworkManager::IsLeavingGame() +{ + return s_pPlatformNetworkManager->IsLeavingGame(); +} + +bool CGameNetworkManager::SetLocalGame(bool isLocal) +{ + return s_pPlatformNetworkManager->SetLocalGame( isLocal ); +} + +bool CGameNetworkManager::IsLocalGame() +{ + return s_pPlatformNetworkManager->IsLocalGame(); +} + +void CGameNetworkManager::SetPrivateGame(bool isPrivate) +{ + s_pPlatformNetworkManager->SetPrivateGame( isPrivate ); +} + +bool CGameNetworkManager::IsPrivateGame() +{ + return s_pPlatformNetworkManager->IsPrivateGame(); +} + +void CGameNetworkManager::HostGame(int localUsersMask, bool bOnlineGame, bool bIsPrivate, unsigned char publicSlots, unsigned char privateSlots) +{ + // 4J Stu - clear any previous connection errors + Minecraft::GetInstance()->clearConnectionFailed(); + + s_pPlatformNetworkManager->HostGame( localUsersMask, bOnlineGame, bIsPrivate, publicSlots, privateSlots ); +} + +bool CGameNetworkManager::IsHost() +{ + return (s_pPlatformNetworkManager->IsHost() == TRUE); +} + +bool CGameNetworkManager::IsInStatsEnabledSession() +{ + return s_pPlatformNetworkManager->IsInStatsEnabledSession(); +} + +bool CGameNetworkManager::SessionHasSpace(unsigned int spaceRequired) +{ + return s_pPlatformNetworkManager->SessionHasSpace( spaceRequired ); +} + +vector *CGameNetworkManager::GetSessionList(int iPad, int localPlayers, bool partyOnly) +{ + return s_pPlatformNetworkManager->GetSessionList( iPad, localPlayers, partyOnly ); +} + +bool CGameNetworkManager::GetGameSessionInfo(int iPad, SessionID sessionId,FriendSessionInfo *foundSession) +{ + return s_pPlatformNetworkManager->GetGameSessionInfo( iPad, sessionId, foundSession ); +} + +void CGameNetworkManager::SetSessionsUpdatedCallback( void (*SessionsUpdatedCallback)(LPVOID pParam), LPVOID pSearchParam ) +{ + s_pPlatformNetworkManager->SetSessionsUpdatedCallback( SessionsUpdatedCallback, pSearchParam ); +} + +void CGameNetworkManager::GetFullFriendSessionInfo( FriendSessionInfo *foundSession, void (* FriendSessionUpdatedFn)(bool success, void *pParam), void *pParam ) +{ + s_pPlatformNetworkManager->GetFullFriendSessionInfo(foundSession, FriendSessionUpdatedFn, pParam); +} + +void CGameNetworkManager::ForceFriendsSessionRefresh() +{ + s_pPlatformNetworkManager->ForceFriendsSessionRefresh(); +} + +bool CGameNetworkManager::JoinGameFromInviteInfo( int userIndex, int userMask, const INVITE_INFO *pInviteInfo) +{ + return s_pPlatformNetworkManager->JoinGameFromInviteInfo( userIndex, userMask, pInviteInfo ); +} + +CGameNetworkManager::eJoinGameResult CGameNetworkManager::JoinGame(FriendSessionInfo *searchResult, int localUsersMask) +{ + app.SetTutorialMode( false ); + g_NetworkManager.SetLocalGame(false); + + int primaryUserIndex = ProfileManager.GetLockedProfile(); + + // 4J-PB - clear any previous connection errors + Minecraft::GetInstance()->clearConnectionFailed(); + + // Make sure that the Primary Pad is in by default + localUsersMask |= GetLocalPlayerMask( ProfileManager.GetPrimaryPad() ); + + return static_cast(s_pPlatformNetworkManager->JoinGame(searchResult, localUsersMask, primaryUserIndex)); +} + +void CGameNetworkManager::CancelJoinGame(LPVOID lpParam) +{ +#ifdef _XBOX_ONE + s_pPlatformNetworkManager->CancelJoinGame(); +#endif +} + +bool CGameNetworkManager::LeaveGame(bool bMigrateHost) +{ + return s_pPlatformNetworkManager->LeaveGame( bMigrateHost ); +} + +int CGameNetworkManager::JoinFromInvite_SignInReturned(void *pParam,bool bContinue, int iPad) +{ + INVITE_INFO * pInviteInfo = static_cast(pParam); + + if(bContinue==true) + { +#ifdef __ORBIS__ + // Check if PSN is unavailable because of age restriction + int npAvailability = ProfileManager.getNPAvailability(iPad); + if (npAvailability == SCE_NP_ERROR_AGE_RESTRICTION) + { + UINT uiIDA[1]; + uiIDA[0] = IDS_OK; + ui.RequestErrorMessage(IDS_ONLINE_SERVICE_TITLE, IDS_CONTENT_RESTRICTION, uiIDA, 1, iPad); + + return 0; + } +#endif + + app.DebugPrintf("JoinFromInvite_SignInReturned, iPad %d\n",iPad); + // It's possible that the player has not signed in - they can back out + if(ProfileManager.IsSignedIn(iPad) && ProfileManager.IsSignedInLive(iPad) ) + { + app.DebugPrintf("JoinFromInvite_SignInReturned, passed sign-in tests\n"); + int localUsersMask = 0; + int joiningUsers = 0; + + bool noPrivileges = false; + for(unsigned int index = 0; index < XUSER_MAX_COUNT; ++index) + { + if(ProfileManager.IsSignedIn(index) ) + { + ++joiningUsers; + if( !ProfileManager.AllowedToPlayMultiplayer(index) ) noPrivileges = true; + localUsersMask |= GetLocalPlayerMask( index ); + } + } + + // Check if user-created content is allowed, as we cannot play multiplayer if it's not + bool noUGC = false; +#if defined(__PS3__) || defined(__PSVITA__) + ProfileManager.GetChatAndContentRestrictions(iPad,false,&noUGC,nullptr,nullptr); +#elif defined(__ORBIS__) + ProfileManager.GetChatAndContentRestrictions(iPad,false,nullptr,&noUGC,nullptr); +#endif + + if(noUGC) + { + int messageText = IDS_NO_USER_CREATED_CONTENT_PRIVILEGE_SINGLE_LOCAL; + if(joiningUsers > 1) messageText = IDS_NO_USER_CREATED_CONTENT_PRIVILEGE_ALL_LOCAL; + + } + else if(noPrivileges) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + } + else + { +#if defined(__ORBIS__) || defined(__PSVITA__) + bool chatRestricted = false; + ProfileManager.GetChatAndContentRestrictions(iPad,false,&chatRestricted,nullptr,nullptr); + if(chatRestricted) + { + ProfileManager.DisplaySystemMessage( 0, ProfileManager.GetPrimaryPad() ); + } +#endif + ProfileManager.SetLockedProfile(iPad); + ProfileManager.SetPrimaryPad(iPad); + + g_NetworkManager.SetLocalGame(false); + + // If the player was signed in before selecting play, we'll not have read the profile yet, so query the sign-in status to get this to happen + ProfileManager.QuerySigninStatus(); + + // 4J-PB - clear any previous connection errors + Minecraft::GetInstance()->clearConnectionFailed(); + + // change the minecraft player name + Minecraft::GetInstance()->user->name = convStringToWstring( ProfileManager.GetGamertag(ProfileManager.GetPrimaryPad())); + + bool success = g_NetworkManager.JoinGameFromInviteInfo( + iPad, // dwUserIndex + localUsersMask, // dwUserMask + pInviteInfo ); // pInviteInfo + if( !success ) + { + app.DebugPrintf( "Failed joining game from invite\n" ); + } + } + } + else + { + app.DebugPrintf("JoinFromInvite_SignInReturned, failed sign-in tests :%d %d\n",ProfileManager.IsSignedIn(iPad),ProfileManager.IsSignedInLive(iPad)); + } + } + return 0; + +} + +void CGameNetworkManager::UpdateAndSetGameSessionData(INetworkPlayer *pNetworkPlayerLeaving) +{ + Minecraft *pMinecraft = Minecraft::GetInstance(); + TexturePack *tPack = pMinecraft->skins->getSelected(); + s_pPlatformNetworkManager->SetSessionTexturePackParentId( tPack->getDLCParentPackId() ); + s_pPlatformNetworkManager->SetSessionSubTexturePackId( tPack->getDLCSubPackId() ); + + s_pPlatformNetworkManager->UpdateAndSetGameSessionData( pNetworkPlayerLeaving ); +} + +void CGameNetworkManager::SendInviteGUI(int quadrant) +{ + s_pPlatformNetworkManager->SendInviteGUI(quadrant); +} + +void CGameNetworkManager::ResetLeavingGame() +{ + s_pPlatformNetworkManager->ResetLeavingGame(); +} + +bool CGameNetworkManager::IsNetworkThreadRunning() +{ + return m_bNetworkThreadRunning;; +} + +int CGameNetworkManager::RunNetworkGameThreadProc( void* lpParameter ) +{ + // Share AABB & Vec3 pools with default (main thread) - should be ok as long as we don't tick the main thread whilst this thread is running + AABB::UseDefaultThreadStorage(); + Vec3::UseDefaultThreadStorage(); + Compression::UseDefaultThreadStorage(); + Tile::CreateNewThreadStorage(); + IntCache::CreateNewThreadStorage(); + + g_NetworkManager.m_bNetworkThreadRunning = true; + bool success = g_NetworkManager._RunNetworkGame(lpParameter); + g_NetworkManager.m_bNetworkThreadRunning = false; + if( !success) + { + TexturePack *tPack = Minecraft::GetInstance()->skins->getSelected(); + while ( tPack->isLoadingData() || (Minecraft::GetInstance()->skins->needsUIUpdate()) ) + { + Sleep(1); + } + if(app.GetDisconnectReason() == DisconnectPacket::eDisconnect_None) + { + app.SetDisconnectReason( DisconnectPacket::eDisconnect_ConnectionCreationFailed ); + } + // If we failed before the server started, clear the game rules. Otherwise the server will clear it up. + if(MinecraftServer::getInstance() == nullptr) app.m_gameRules.unloadCurrentGameRules(); + Tile::ReleaseThreadStorage(); + return -1; + } + +#ifdef __PSVITA__ + // 4J-JEV: Wait for the loading/saving to finish. + while (StorageManager.GetSaveState() != C4JStorage::ESaveGame_Idle) Sleep(10); +#endif + + Tile::ReleaseThreadStorage(); + IntCache::ReleaseThreadStorage(); + return 0; +} + +int CGameNetworkManager::ServerThreadProc( void* lpParameter ) +{ + int64_t seed = 0; + if (lpParameter != nullptr) + { + NetworkGameInitData *param = static_cast(lpParameter); + seed = param->seed; + app.SetGameHostOption(eGameHostOption_All,param->settings); + + // 4J Stu - If we are loading a DLC save that's separate from the texture pack, load + if (param != nullptr && param->levelGen != nullptr && param->levelGen->isFromDLC()) + { + while((Minecraft::GetInstance()->skins->needsUIUpdate())) + { + Sleep(1); + } + param->levelGen->loadBaseSaveData(); + + while (!param->levelGen->hasLoadedData()) + { + Sleep(1); + } + } + } + + SetThreadName(-1, "Minecraft Server thread"); + AABB::CreateNewThreadStorage(); + Vec3::CreateNewThreadStorage(); + IntCache::CreateNewThreadStorage(); + Compression::UseDefaultThreadStorage(); + OldChunkStorage::UseDefaultThreadStorage(); + Entity::useSmallIds(); + Level::enableLightingCache(); + Tile::CreateNewThreadStorage(); + FireworksRecipe::CreateNewThreadStorage(); + + MinecraftServer::main(seed, lpParameter); //saveData, app.GetGameHostOption(eGameHostOption_All)); + + Tile::ReleaseThreadStorage(); + AABB::ReleaseThreadStorage(); + Vec3::ReleaseThreadStorage(); + IntCache::ReleaseThreadStorage(); + Level::destroyLightingCache(); + + if(lpParameter != nullptr) delete lpParameter; + + return S_OK; +} + +int CGameNetworkManager::ExitAndJoinFromInviteThreadProc( void* lpParam ) +{ + // Share AABB & Vec3 pools with default (main thread) - should be ok as long as we don't tick the main thread whilst this thread is running + AABB::UseDefaultThreadStorage(); + Vec3::UseDefaultThreadStorage(); + Compression::UseDefaultThreadStorage(); + + //app.SetGameStarted(false); + + while( g_NetworkManager.IsInSession() ) + { + Sleep(1); + } + + // Xbox should always be online when receiving invites - on PS3 we need to check & ask the user to sign in +#if !defined(__PS3__) && !defined(__PSVITA__) + JoinFromInviteData *inviteData = static_cast(lpParam); + app.SetAction(inviteData->dwUserIndex, eAppAction_JoinFromInvite, lpParam); +#else + if(ProfileManager.IsSignedInLive(ProfileManager.GetPrimaryPad())) + { + JoinFromInviteData *inviteData = (JoinFromInviteData *)lpParam; + app.SetAction(inviteData->dwUserIndex, eAppAction_JoinFromInvite, lpParam); + } + else + { + UINT uiIDA[2]; + uiIDA[0]=IDS_PRO_NOTONLINE_ACCEPT; + uiIDA[1]=IDS_PRO_NOTONLINE_DECLINE; + ui.RequestErrorMessage(IDS_PRO_NOTONLINE_TITLE, IDS_PRO_NOTONLINE_TEXT, uiIDA, 2, ProfileManager.GetPrimaryPad(),&CGameNetworkManager::MustSignInReturned_0,lpParam); + } +#endif + + return S_OK; +} + +#if defined __PS3__ || defined __PSVITA__ || defined __ORBIS__ +// This case happens when we have been returned from the game to the main menu after receiving an invite and are now trying to go back in to join the new game +// The pair of methods MustSignInReturned_0 & PSNSignInReturned_0 handle this +int CGameNetworkManager::MustSignInReturned_0(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + if(result==C4JStorage::EMessage_ResultAccept) + { +#ifdef __PS3__ + SQRNetworkManager_PS3::AttemptPSNSignIn(&CGameNetworkManager::PSNSignInReturned_0, pParam,true); +#elif defined __PSVITA__ + SQRNetworkManager_Vita::AttemptPSNSignIn(&CGameNetworkManager::PSNSignInReturned_0, pParam,true); +#elif defined __ORBIS__ + SQRNetworkManager_Orbis::AttemptPSNSignIn(&CGameNetworkManager::PSNSignInReturned_0, pParam,true); +#endif + } + else + { + app.SetAction(0,eAppAction_Idle); + ui.NavigateToHomeMenu(); + ui.UpdatePlayerBasePositions(); + } + + return 0; +} + +int CGameNetworkManager::PSNSignInReturned_0(void* pParam, bool bContinue, int iPad) +{ + JoinFromInviteData *inviteData = (JoinFromInviteData *)pParam; + + // If the invite data isn't set up yet (indicated by it being all zeroes, easiest detected via the net version), then try and get it again... this can happen if we got + // the invite whilst signed out + + if( bContinue ) + { + if(inviteData->pInviteInfo->netVersion == 0) + { +#if defined __PS3__ || defined __VITA__ + if(!SQRNetworkManager_PS3::UpdateInviteData((SQRNetworkManager::PresenceSyncInfo *)inviteData->pInviteInfo)) + { + bContinue = false; + } +#elif defined __ORBIS__ + // TODO: No Orbis equivalent (should there be?) +#endif + } + } + + if( bContinue ) + { + app.SetAction(inviteData->dwUserIndex, eAppAction_JoinFromInvite, pParam); + } + else + { + app.SetAction(inviteData->dwUserIndex,eAppAction_Idle); + ui.NavigateToHomeMenu(); + ui.UpdatePlayerBasePositions(); + } + + return 0; +} + +// This case happens when we were in the main menus when we got an invite, and weren't signed in... now can proceed with the normal flow of code for this situation +// The pair of methods MustSignInReturned_1 & PSNSignInReturned_1 handle this +int CGameNetworkManager::MustSignInReturned_1(void *pParam,int iPad,C4JStorage::EMessageResult result) +{ + if(result==C4JStorage::EMessage_ResultAccept) + { +#ifdef __PS3__ + SQRNetworkManager_PS3::AttemptPSNSignIn(&CGameNetworkManager::PSNSignInReturned_1, pParam,true); +#elif defined __PSVITA__ + SQRNetworkManager_Vita::AttemptPSNSignIn(&CGameNetworkManager::PSNSignInReturned_1, pParam,true); +#elif defined __ORBIS__ + SQRNetworkManager_Orbis::AttemptPSNSignIn(&CGameNetworkManager::PSNSignInReturned_1, pParam,true); +#endif + } + return 0; +} + +int CGameNetworkManager::PSNSignInReturned_1(void* pParam, bool bContinue, int iPad) +{ + INVITE_INFO *inviteInfo = (INVITE_INFO *)pParam; + + // If the invite data isn't set up yet (indicated by it being all zeroes, easiest detected via the net version), then try and get it again... this can happen if we got + // the invite whilst signed out + + if( bContinue ) + { + if(inviteInfo->netVersion == 0) + { +#if defined __PS3__ || defined __VITA__ + if(!SQRNetworkManager_PS3::UpdateInviteData((SQRNetworkManager::PresenceSyncInfo *)inviteInfo)) + { + bContinue = false; + } +#elif defined __ORBIS__ + // TODO: No Orbis equivalent (should there be?) +#endif + + } + } + + if( bContinue ) + { + g_NetworkManager.HandleInviteWhenInMenus(0, inviteInfo); + } + + return 0; +} +#endif + +void CGameNetworkManager::_LeaveGame() +{ + s_pPlatformNetworkManager->_LeaveGame(false, true); +} + +int CGameNetworkManager::ChangeSessionTypeThreadProc( void* lpParam ) +{ + // Share AABB & Vec3 pools with default (main thread) - should be ok as long as we don't tick the main thread whilst this thread is running + AABB::UseDefaultThreadStorage(); + Vec3::UseDefaultThreadStorage(); + Compression::UseDefaultThreadStorage(); + + Minecraft *pMinecraft = Minecraft::GetInstance(); + MinecraftServer *pServer = MinecraftServer::getInstance(); + +#if defined(__PS3__) || defined(__ORBIS__) || defined __PSVITA__ + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + if( g_NetworkManager.m_bLastDisconnectWasLostRoomOnly ) + { + if(g_NetworkManager.m_bSignedOutofPSN) + { + C4JStorage::EMessageResult result = ui.RequestErrorMessage( IDS_PROGRESS_CONVERTING_TO_OFFLINE_GAME, IDS_ERROR_PSN_SIGN_OUT, uiIDA,1,ProfileManager.GetPrimaryPad()); + } + else + { + C4JStorage::EMessageResult result = ui.RequestErrorMessage( IDS_ERROR_NETWORK_TITLE, IDS_PROGRESS_CONVERTING_TO_OFFLINE_GAME, uiIDA,1,ProfileManager.GetPrimaryPad()); + } + } + else + { + C4JStorage::EMessageResult result = ui.RequestErrorMessage( IDS_CONNECTION_LOST, g_NetworkManager.CorrectErrorIDS(IDS_CONNECTION_LOST_LIVE_NO_EXIT), uiIDA,1,ProfileManager.GetPrimaryPad()); + } + + // Swap these two messages around as one is too long to display at 480 + pMinecraft->progressRenderer->progressStartNoAbort( IDS_PROGRESS_CONVERTING_TO_OFFLINE_GAME ); + pMinecraft->progressRenderer->progressStage( -1 ); //g_NetworkManager.CorrectErrorIDS(IDS_CONNECTION_LOST_LIVE_NO_EXIT) ); +#elif defined(_XBOX_ONE) + if( g_NetworkManager.m_bFullSessionMessageOnNextSessionChange ) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + C4JStorage::EMessageResult result = ui.RequestErrorMessage( IDS_PROGRESS_CONVERTING_TO_OFFLINE_GAME, IDS_IN_PARTY_SESSION_FULL, uiIDA,1,ProfileManager.GetPrimaryPad()); + pMinecraft->progressRenderer->progressStartNoAbort( IDS_PROGRESS_CONVERTING_TO_OFFLINE_GAME ); + pMinecraft->progressRenderer->progressStage( -1 ); + } + else + { + pMinecraft->progressRenderer->progressStartNoAbort( g_NetworkManager.CorrectErrorIDS(IDS_CONNECTION_LOST_LIVE_NO_EXIT) ); + pMinecraft->progressRenderer->progressStage( IDS_PROGRESS_CONVERTING_TO_OFFLINE_GAME ); + } + +#else + +#endif + + while( app.GetXuiServerAction(ProfileManager.GetPrimaryPad() ) != eXuiServerAction_Idle && !MinecraftServer::serverHalted() ) + { + Sleep(10); + } + app.SetXuiServerAction(ProfileManager.GetPrimaryPad(),eXuiServerAction_PauseServer,(void *)TRUE); + + // wait for the server to be in a non-ticking state + pServer->m_serverPausedEvent->WaitForSignal(INFINITE); + +#if defined(__PS3__) || defined(__ORBIS__) || defined __PSVITA__ + // Swap these two messages around as one is too long to display at 480 + pMinecraft->progressRenderer->progressStartNoAbort( IDS_PROGRESS_CONVERTING_TO_OFFLINE_GAME ); + pMinecraft->progressRenderer->progressStage( -1 ); //g_NetworkManager.CorrectErrorIDS(IDS_CONNECTION_LOST_LIVE_NO_EXIT) ); +#elif defined(_XBOX_ONE) + if( g_NetworkManager.m_bFullSessionMessageOnNextSessionChange ) + { + pMinecraft->progressRenderer->progressStartNoAbort( IDS_PROGRESS_CONVERTING_TO_OFFLINE_GAME ); + pMinecraft->progressRenderer->progressStage( -1 ); + } + else + { + pMinecraft->progressRenderer->progressStartNoAbort( g_NetworkManager.CorrectErrorIDS(IDS_CONNECTION_LOST_LIVE_NO_EXIT) ); + pMinecraft->progressRenderer->progressStage( IDS_PROGRESS_CONVERTING_TO_OFFLINE_GAME ); + } +#else +#endif + + +#ifdef _XBOX_ONE + // wait for any players that were being added, to finish doing this. On XB1, if we don't do this then there's an async thread running doing this, + // which could then finish at any inappropriate time later + while( s_pPlatformNetworkManager->IsAddingPlayer() ) + { + Sleep(1); + } +#endif + + // Null the network player of all the server players that are local, to stop them being removed from the server when removed from the session + if( pServer != nullptr ) + { + PlayerList *players = pServer->getPlayers(); + for(auto& servPlayer : players->players) + { + if( servPlayer->connection->isLocal() && !servPlayer->connection->isGuest() ) + { + servPlayer->connection->connection->getSocket()->setPlayer(nullptr); + } + } + } + + // delete the current session - if we weren't actually disconnected fully from the network but have just lost our room, then pass a bLeaveRoom flag of false + // here as by definition we don't need to leave the room (again). This is currently only an issue for sony platforms. + if( g_NetworkManager.m_bLastDisconnectWasLostRoomOnly ) + { + s_pPlatformNetworkManager->_LeaveGame(false, false); + } + else + { + s_pPlatformNetworkManager->_LeaveGame(false, true); + } + + // wait for the current session to end + while( g_NetworkManager.IsInSession() ) + { + Sleep(1); + } + + // Reset this flag as the we don't need to know that we only lost the room only from this point onwards, the behaviour is exactly the same + g_NetworkManager.m_bLastDisconnectWasLostRoomOnly = false; + g_NetworkManager.m_bFullSessionMessageOnNextSessionChange = false; + + + // Defaulting to making this a local game + g_NetworkManager.SetLocalGame(true); + + // Create a new session with all the players that were in the old one + int localUsersMask = 0; + char numLocalPlayers = 0; + for(unsigned int index = 0; index < XUSER_MAX_COUNT; ++index) + { + if(ProfileManager.IsSignedIn(index) && pMinecraft->localplayers[index] != nullptr ) + { + numLocalPlayers++; + localUsersMask |= GetLocalPlayerMask(index); + } + } + + s_pPlatformNetworkManager->_HostGame( localUsersMask ); + + + // Wait for all the local players to rejoin the session + while( g_NetworkManager.GetPlayerCount() < numLocalPlayers ) + { + Sleep(1); + } + + // Restore the network player of all the server players that are local + if( pServer != nullptr ) + { + for(unsigned int index = 0; index < XUSER_MAX_COUNT; ++index) + { + if(ProfileManager.IsSignedIn(index) && pMinecraft->localplayers[index] != nullptr ) + { + PlayerUID localPlayerXuid = pMinecraft->localplayers[index]->getXuid(); + + PlayerList *players = pServer->getPlayers(); + for(auto& servPlayer : players->players) + { + if( servPlayer->getXuid() == localPlayerXuid ) + { + servPlayer->connection->connection->getSocket()->setPlayer( g_NetworkManager.GetLocalPlayerByUserIndex(index) ); + } + } + + // Player might have a pending connection + if (pMinecraft->m_pendingLocalConnections[index] != nullptr) + { + // Update the network player + pMinecraft->m_pendingLocalConnections[index]->getConnection()->getSocket()->setPlayer(g_NetworkManager.GetLocalPlayerByUserIndex(index)); + } + else if ( pMinecraft->m_connectionFailed[index] && (pMinecraft->m_connectionFailedReason[index] == DisconnectPacket::eDisconnect_ConnectionCreationFailed) ) + { + pMinecraft->removeLocalPlayerIdx(index); +#ifdef _XBOX_ONE + ProfileManager.RemoveGamepadFromGame(index); +#endif + } + } + } + } + + +#ifndef _XBOX + // Make sure that we have transitioned through any joining/creating stages so we're actually ready to set to play + while(!s_pPlatformNetworkManager->IsReadyToPlayOrIdle()) + { + Sleep(10); + } +#endif + + s_pPlatformNetworkManager->_StartGame(); + + // Start the game again + app.SetGameStarted(true); + app.SetXuiServerAction(ProfileManager.GetPrimaryPad(),eXuiServerAction_PauseServer,(void *)FALSE); + app.SetChangingSessionType(false); + app.SetReallyChangingSessionType(false); + + return S_OK; + +} + +void CGameNetworkManager::SystemFlagSet(INetworkPlayer *pNetworkPlayer, int index) +{ + s_pPlatformNetworkManager->SystemFlagSet( pNetworkPlayer, index ); +} + +bool CGameNetworkManager::SystemFlagGet(INetworkPlayer *pNetworkPlayer, int index) +{ + return s_pPlatformNetworkManager->SystemFlagGet( pNetworkPlayer, index ); +} + +wstring CGameNetworkManager::GatherStats() +{ + return s_pPlatformNetworkManager->GatherStats(); +} + +void CGameNetworkManager::renderQueueMeter() +{ +#ifdef _XBOX + int height = 720; + + CGameNetworkManager::byteQueue[(CGameNetworkManager::messageQueuePos) & (CGameNetworkManager::messageQueue_length - 1)] = GetHostPlayer()->GetSendQueueSizeBytes(nullptr, false); + CGameNetworkManager::messageQueue[(CGameNetworkManager::messageQueuePos++) & (CGameNetworkManager::messageQueue_length - 1)] = GetHostPlayer()->GetSendQueueSizeMessages(nullptr, false); + + Minecraft *pMinecraft = Minecraft::GetInstance(); + pMinecraft->gui->renderGraph(CGameNetworkManager::messageQueue_length, CGameNetworkManager::messageQueuePos, CGameNetworkManager::messageQueue, 10, 1000, CGameNetworkManager::byteQueue, 100, 25000); +#endif +} + +wstring CGameNetworkManager::GatherRTTStats() +{ + return s_pPlatformNetworkManager->GatherRTTStats(); +} + +void CGameNetworkManager::StateChange_AnyToHosting() +{ + app.DebugPrintf("Disabling Guest Signin\n"); + XEnableGuestSignin(FALSE); + Minecraft::GetInstance()->clearPendingClientTextureRequests(); +} + +void CGameNetworkManager::StateChange_AnyToJoining() +{ + app.DebugPrintf("Disabling Guest Signin\n"); + XEnableGuestSignin(FALSE); + Minecraft::GetInstance()->clearPendingClientTextureRequests(); +} + +void CGameNetworkManager::StateChange_JoiningToIdle(CPlatformNetworkManager::eJoinFailedReason reason) +{ + DisconnectPacket::eDisconnectReason disconnectReason; + switch(reason) + { + case CPlatformNetworkManager::JOIN_FAILED_SERVER_FULL: + disconnectReason = DisconnectPacket::eDisconnect_ServerFull; + break; + case CPlatformNetworkManager::JOIN_FAILED_INSUFFICIENT_PRIVILEGES: + disconnectReason = DisconnectPacket::eDisconnect_NoMultiplayerPrivilegesJoin; + app.SetAction(ProfileManager.GetPrimaryPad(),eAppAction_FailedToJoinNoPrivileges); + break; + default: + disconnectReason = DisconnectPacket::eDisconnect_ConnectionCreationFailed; + break; + }; + Minecraft::GetInstance()->connectionDisconnected(ProfileManager.GetPrimaryPad(), disconnectReason); +} + +void CGameNetworkManager::StateChange_AnyToStarting() +{ + +} + +void CGameNetworkManager::StateChange_AnyToEnding(bool bStateWasPlaying) +{ + // Kick off a stats write for players that are signed into LIVE, if this is a local game + if( bStateWasPlaying && g_NetworkManager.IsLocalGame() ) + { + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + INetworkPlayer *pNetworkPlayer = g_NetworkManager.GetLocalPlayerByUserIndex(i); + if(pNetworkPlayer != nullptr && ProfileManager.IsSignedIn( i ) ) + { + app.DebugPrintf("Stats save for an offline game for the player at index %d\n", i ); + Minecraft::GetInstance()->forceStatsSave(pNetworkPlayer->GetUserIndex()); + } + } + } + + + if(!g_NetworkManager.IsHost() && !g_NetworkManager.IsLeavingGame() ) + { + // 4J Stu - If the host is saving then it might take a while to quite the session, so do it ourself + //m_bLeavingGame = true; + + // The host has notified that the game is about to end + if(app.GetDisconnectReason() == DisconnectPacket::eDisconnect_None) app.SetDisconnectReason( DisconnectPacket::eDisconnect_Quitting ); + app.SetAction(ProfileManager.GetPrimaryPad(),eAppAction_ExitWorld,(void *)TRUE); + } +} + +void CGameNetworkManager::StateChange_AnyToIdle() +{ + app.DebugPrintf("Enabling Guest Signin\n"); + XEnableGuestSignin(TRUE); + // Reset this here so that we can search for games again + // 4J Stu - If we are changing session type there is a race between that thread setting the game to local, and this setting it to not local + if(!app.GetChangingSessionType()) g_NetworkManager.SetLocalGame( false ); + +} + +void CGameNetworkManager::CreateSocket( INetworkPlayer *pNetworkPlayer, bool localPlayer ) +{ + Minecraft *pMinecraft = Minecraft::GetInstance(); + + Socket *socket = nullptr; + shared_ptr mpPlayer = nullptr; + int userIdx = pNetworkPlayer->GetUserIndex(); + if (userIdx >= 0 && userIdx < XUSER_MAX_COUNT) + mpPlayer = pMinecraft->localplayers[userIdx]; + if( localPlayer && mpPlayer != nullptr && mpPlayer->connection != nullptr) + { + // If we already have a MultiplayerLocalPlayer here then we are doing a session type change + socket = mpPlayer->connection->getSocket(); + + // Pair this socket and network player + pNetworkPlayer->SetSocket( socket); + if( socket ) + { + socket->setPlayer( pNetworkPlayer ); + } + } + else + { +#ifdef _WINDOWS64 + // Non-host split-screen: open a dedicated TCP connection for this pad + if (localPlayer && !g_NetworkManager.IsHost() && g_NetworkManager.IsInGameplay()) + { + int padIdx = pNetworkPlayer->GetUserIndex(); + BYTE assignedSmallId = 0; + + if (!WinsockNetLayer::JoinSplitScreen(padIdx, &assignedSmallId)) + { + app.DebugPrintf("Split-screen pad %d: failed to open TCP to host\n", padIdx); + pMinecraft->connectionDisconnected(padIdx, DisconnectPacket::eDisconnect_ConnectionCreationFailed); + return; + } + + // Update the local IQNetPlayer (at pad index) with the host-assigned smallId. + // The NetworkPlayerXbox created by NotifyPlayerJoined already points to + // m_player[padIdx], so we just set the smallId for network routing. + IQNet::m_player[padIdx].m_smallId = assignedSmallId; + IQNet::m_player[padIdx].m_resolvedXuid = Win64Xuid::DeriveXuidForPad(Win64Xuid::ResolvePersistentXuid(), padIdx); + + // Network socket (not hostLocal) — data goes through TCP via GetLocalSocket + socket = new Socket(pNetworkPlayer, false, false); + pNetworkPlayer->SetSocket(socket); + + ClientConnection* connection = new ClientConnection(pMinecraft, socket, padIdx); + if (connection->createdOk) + { + connection->send(shared_ptr(new PreLoginPacket(pNetworkPlayer->GetOnlineName()))); + pMinecraft->addPendingLocalConnection(padIdx, connection); + } + else + { + pMinecraft->connectionDisconnected(padIdx, DisconnectPacket::eDisconnect_ConnectionCreationFailed); + delete connection; + } + return; + } +#endif + + socket = new Socket( pNetworkPlayer, g_NetworkManager.IsHost(), g_NetworkManager.IsHost() && localPlayer ); + pNetworkPlayer->SetSocket( socket ); + + // 4J Stu - May be other states we want to accept aswell + // Add this user to the game server if the game is started already + if( g_NetworkManager.IsHost() && g_NetworkManager.IsInGameplay() ) + { + Socket::addIncomingSocket(socket); + } + + // If this is a local player and we are already in the game, we need to setup a local connection and log + // the player in to the game server + if( localPlayer && g_NetworkManager.IsInGameplay() ) + { + int idx = pNetworkPlayer->GetUserIndex(); + app.DebugPrintf("Creating new client connection for idx: %d\n", idx); + + ClientConnection *connection; + connection = new ClientConnection(pMinecraft, socket, idx); + + if( connection->createdOk ) + { + connection->send(std::make_shared(pNetworkPlayer->GetOnlineName())); + pMinecraft->addPendingLocalConnection(idx, connection); + } + else + { + pMinecraft->connectionDisconnected( idx , DisconnectPacket::eDisconnect_ConnectionCreationFailed ); + delete connection; + connection = nullptr; + } + } + } + +} + +void CGameNetworkManager::CloseConnection( INetworkPlayer *pNetworkPlayer ) +{ + MinecraftServer *server = MinecraftServer::getInstance(); + if( server != nullptr ) + { + PlayerList *players = server->getPlayers(); + if( players != nullptr ) + { + players->closePlayerConnectionBySmallId(pNetworkPlayer->GetSmallId()); + } + } +} + +void CGameNetworkManager::PlayerJoining( INetworkPlayer *pNetworkPlayer ) +{ + if (g_NetworkManager.IsInGameplay()) // 4J-JEV: Wait to do this at StartNetworkGame if not in-game yet. + { + // 4J-JEV: Update RichPresence when a player joins the game. + bool multiplayer = g_NetworkManager.GetPlayerCount() > 1, localgame = g_NetworkManager.IsLocalGame(); + for (int iPad=0; iPadIsLocal() ) + { + TelemetryManager->RecordPlayerSessionStart(pNetworkPlayer->GetUserIndex()); + } +#ifdef _XBOX + else + { + if( !pNetworkPlayer->IsHost() ) + { + for(int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + if(Minecraft::GetInstance()->localplayers[idx] != nullptr) + { + TelemetryManager->RecordLevelStart(idx, eSen_FriendOrMatch_Playing_With_Invited_Friends, eSen_CompeteOrCoop_Coop_and_Competitive, Minecraft::GetInstance()->level->difficulty, app.GetLocalPlayerCount(), g_NetworkManager.GetOnlinePlayerCount()); + } + } + } + } +#endif +} + +void CGameNetworkManager::PlayerLeaving( INetworkPlayer *pNetworkPlayer ) +{ + if( pNetworkPlayer->IsLocal() ) + { + ProfileManager.SetCurrentGameActivity(pNetworkPlayer->GetUserIndex(),CONTEXT_PRESENCE_IDLE,false); + + TelemetryManager->RecordPlayerSessionExit(pNetworkPlayer->GetUserIndex(), app.GetDisconnectReason()); + } +#ifdef _XBOX + else + { + for(int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + if(Minecraft::GetInstance()->localplayers[idx] != nullptr) + { + TelemetryManager->RecordLevelStart(idx, eSen_FriendOrMatch_Playing_With_Invited_Friends, eSen_CompeteOrCoop_Coop_and_Competitive, Minecraft::GetInstance()->level->difficulty, app.GetLocalPlayerCount(), g_NetworkManager.GetOnlinePlayerCount()); + } + } + } +#endif +} + +void CGameNetworkManager::HostChanged() +{ + // Disable host migration + app.SetAction(ProfileManager.GetPrimaryPad(),eAppAction_ExitWorld,(void *)TRUE); +} + +void CGameNetworkManager::WriteStats( INetworkPlayer *pNetworkPlayer ) +{ + Minecraft::GetInstance()->forceStatsSave( pNetworkPlayer->GetUserIndex() ); +} + +void CGameNetworkManager::GameInviteReceived( int userIndex, const INVITE_INFO *pInviteInfo) +{ +#ifdef __ORBIS__ + if (m_pUpsell != nullptr) + { + delete pInviteInfo; + return; + } + + // Need to check we're signed in to PSN + bool isSignedInLive = true; + bool isLocalMultiplayerAvailable = app.IsLocalMultiplayerAvailable(); + int iPadNotSignedInLive = -1; + for(unsigned int i = 0; i < XUSER_MAX_COUNT; i++) + { + if (ProfileManager.IsSignedIn(i) && (i == ProfileManager.GetPrimaryPad() || isLocalMultiplayerAvailable)) + { + if (isSignedInLive && !ProfileManager.IsSignedInLive(i)) + { + // Record the first non signed in live pad + iPadNotSignedInLive = i; + } + + isSignedInLive = isSignedInLive && ProfileManager.IsSignedInLive(i); + } + } + + if (!isSignedInLive) + { + // Determine why they're not "signed in live" + + // Check if PSN is unavailable because of age restriction + int npAvailability = ProfileManager.getNPAvailability(iPadNotSignedInLive); + if (npAvailability == SCE_NP_ERROR_AGE_RESTRICTION) + { + // 4J Stu - This is a bit messy and is due to the library incorrectly returning false for IsSignedInLive if the npAvailability isn't SCE_OK + UINT uiIDA[1]; + uiIDA[0]=IDS_OK; + ui.RequestErrorMessage(IDS_ONLINE_SERVICE_TITLE, IDS_CONTENT_RESTRICTION, uiIDA, 1, iPadNotSignedInLive); + } + else if (ProfileManager.isSignedInPSN(iPadNotSignedInLive)) + { + // Signed in to PSN but not connected (no internet access) + assert(!ProfileManager.isConnectedToPSN(iPadNotSignedInLive)); + + UINT uiIDA[1]; + uiIDA[0] = IDS_OK; + ui.RequestErrorMessage( IDS_ERROR_NETWORK_TITLE, IDS_ERROR_NETWORK, uiIDA, 1, iPadNotSignedInLive); + } + else + { + // Not signed in to PSN + UINT uiIDA[1]; + uiIDA[0] = IDS_PRO_NOTONLINE_ACCEPT; + ui.RequestAlertMessage( IDS_PRO_NOTONLINE_TITLE, IDS_PRO_NOTONLINE_TEXT, uiIDA, 1, iPadNotSignedInLive, &CGameNetworkManager::MustSignInReturned_1, (void *)pInviteInfo); + } + return; + } + + // if this is the trial game, we'll check and send the user to unlock the game later, in HandleInviteWhenInMenus + if(ProfileManager.IsFullVersion()) + { + // 4J-JEV: Check that all players are authorised for PsPlus, present upsell to players that aren't and try again. + for (unsigned int index = 0; index < XUSER_MAX_COUNT; index++) + { + if ( ProfileManager.IsSignedIn(index) + && !ProfileManager.HasPlayStationPlus(userIndex) ) + { + m_pInviteInfo = (INVITE_INFO *) pInviteInfo; + m_iPlayerInvited = userIndex; + + m_pUpsell = new PsPlusUpsellWrapper(index); + m_pUpsell->displayUpsell(); + + return; + } + } + } +#endif + + + int localUsersMask = 0; + Minecraft *pMinecraft = Minecraft::GetInstance(); + int joiningUsers = 0; + + bool noPrivileges = false; + for(unsigned int index = 0; index < XUSER_MAX_COUNT; ++index) + { + if(ProfileManager.IsSignedIn(index) ) + { + // 4J-PB we shouldn't bring any inactive players into the game, except for the invited player (who may be an inactive player) + // 4J Stu - If we are not in a game, then bring in all players signed in + if(index==userIndex || pMinecraft->localplayers[index]!=nullptr ) + { + ++joiningUsers; + if( !ProfileManager.AllowedToPlayMultiplayer(index) ) noPrivileges = true; + localUsersMask |= GetLocalPlayerMask( index ); + } + } + } + + // Check if user-created content is allowed, as we cannot play multiplayer if it's not + bool noUGC = false; + bool bContentRestricted=false; + BOOL pccAllowed = TRUE; + BOOL pccFriendsAllowed = TRUE; +#if defined(__PS3__) || defined(__PSVITA__) + ProfileManager.GetChatAndContentRestrictions(userIndex,false,&noUGC,&bContentRestricted,nullptr); +#else + ProfileManager.AllowedPlayerCreatedContent(ProfileManager.GetPrimaryPad(),false,&pccAllowed,&pccFriendsAllowed); + if(!pccAllowed && !pccFriendsAllowed) noUGC = true; +#endif + +#if defined(_XBOX) || defined(__PS3__) + if(joiningUsers > 1 && !RenderManager.IsHiDef() && userIndex != ProfileManager.GetPrimaryPad()) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + + // 4J-PB - it's possible there is no primary pad here, when accepting an invite from the dashboard + ui.RequestErrorMessage( IDS_CONNECTION_FAILED, IDS_CONNECTION_FAILED_NO_SD_SPLITSCREEN, uiIDA,1,XUSER_INDEX_ANY); + } + else +#endif + + if( noUGC ) + { +#ifdef __PSVITA__ + // showing the system message for chat restriction here instead now, to fix FQA bug report + ProfileManager.DisplaySystemMessage( SCE_MSG_DIALOG_SYSMSG_TYPE_TRC_PSN_CHAT_RESTRICTION, ProfileManager.GetPrimaryPad() ); +#else + int messageText = IDS_NO_USER_CREATED_CONTENT_PRIVILEGE_SINGLE_LOCAL; + if(joiningUsers > 1) messageText = IDS_NO_USER_CREATED_CONTENT_PRIVILEGE_ALL_LOCAL; + +#endif + } +#if defined(__PS3__) || defined __PSVITA__ + else if(bContentRestricted) + { + int messageText = IDS_CONTENT_RESTRICTION; + if(joiningUsers > 1) messageText = IDS_CONTENT_RESTRICTION_MULTIPLAYER; + + ui.RequestContentRestrictedMessageBox(IDS_CONNECTION_FAILED, messageText, XUSER_INDEX_ANY); + } +#endif + else if(noPrivileges) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + + // 4J-PB - it's possible there is no primary pad here, when accepting an invite from the dashboard + //StorageManager.RequestMessageBox( IDS_NO_MULTIPLAYER_PRIVILEGE_TITLE, IDS_NO_MULTIPLAYER_PRIVILEGE_JOIN_TEXT, uiIDA,1,ProfileManager.GetPrimaryPad(),nullptr,nullptr, app.GetStringTable()); + } + else + { +#if defined(__ORBIS__) || defined(__PSVITA__) + bool chatRestricted = false; + ProfileManager.GetChatAndContentRestrictions(ProfileManager.GetPrimaryPad(),false,&chatRestricted,nullptr,nullptr); + if(chatRestricted) + { + ProfileManager.DisplaySystemMessage( SCE_MSG_DIALOG_SYSMSG_TYPE_TRC_PSN_CHAT_RESTRICTION, ProfileManager.GetPrimaryPad() ); + } +#endif + if( !g_NetworkManager.IsInSession() ) + { +#if defined (__PS3__) || defined (__PSVITA__) + // PS3 is more complicated here - we need to make sure that the player is online. If they are then we can do the same as the xbox, if not we need to try and get them online and then, if they do sign in, go down the same path + + // Determine why they're not "signed in live" + // MGH - On Vita we need to add a new message at some point for connecting when already signed in + if(ProfileManager.IsSignedInLive(ProfileManager.GetPrimaryPad())) + { + HandleInviteWhenInMenus(userIndex, pInviteInfo); + } + else + { + UINT uiIDA[2]; + uiIDA[0]=IDS_PRO_NOTONLINE_ACCEPT; + uiIDA[1]=IDS_PRO_NOTONLINE_DECLINE; + ui.RequestErrorMessage(IDS_PRO_NOTONLINE_TITLE, IDS_PRO_NOTONLINE_TEXT, uiIDA, 2, ProfileManager.GetPrimaryPad(),&CGameNetworkManager::MustSignInReturned_1,(void *)pInviteInfo); + } + + +#else + HandleInviteWhenInMenus(userIndex, pInviteInfo); +#endif + } + else + { + app.DebugPrintf("We are already in a multiplayer game...need to leave it\n"); + +// JoinFromInviteData *joinData = new JoinFromInviteData(); +// joinData->dwUserIndex = dwUserIndex; +// joinData->dwLocalUsersMask = dwLocalUsersMask; +// joinData->pInviteInfo = pInviteInfo; + + // tell the app to process this +#ifdef __PSVITA__ + if(((CPlatformNetworkManagerSony*)s_pPlatformNetworkManager)->checkValidInviteData(pInviteInfo)) +#endif + { + app.ProcessInvite(userIndex,localUsersMask,pInviteInfo); + } + } + } +} + +volatile bool waitHere = true; + +void CGameNetworkManager::HandleInviteWhenInMenus( int userIndex, const INVITE_INFO *pInviteInfo) +{ + // We are in the root menus somewhere + +#if 0 + while( waitHere ) + { + Sleep(1); + } +#endif + + // if this is the trial game, then we need the user to unlock the full game + if(!ProfileManager.IsFullVersion()) + { + // The marketplace will fail with the primary player set to -1 + ProfileManager.SetPrimaryPad(userIndex); + + app.SetAction(userIndex,eAppAction_DashboardTrialJoinFromInvite); + } + else + { +#ifndef _XBOX_ONE + ProfileManager.SetPrimaryPad(userIndex); +#endif + + // 4J Stu - If we accept an invite from the main menu before going to play game we need to load the DLC + // These checks are done within the StartInstallDLCProcess - (!app.DLCInstallProcessCompleted() && !app.DLCInstallPending()) app.StartInstallDLCProcess(dwUserIndex); + app.StartInstallDLCProcess(userIndex); + + // 4J Stu - Fix for #10936 - MP Lab: TCR 001: Matchmaking: Player is stuck in a soft-locked state after selecting the guest account when prompted + // The locked profile should not be changed if we are in menus as the main player might sign out in the sign-in ui + //ProfileManager.SetLockedProfile(-1); + +#ifdef _XBOX_ONE + if((!app.IsLocalMultiplayerAvailable())&&InputManager.IsPadLocked(userIndex)) +#else + if(!app.IsLocalMultiplayerAvailable()) +#endif + { + bool noPrivileges=!ProfileManager.AllowedToPlayMultiplayer(userIndex); + + if(noPrivileges) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; + } + else + { + ProfileManager.SetLockedProfile(userIndex); + ProfileManager.SetPrimaryPad(userIndex); + + int localUsersMask=0; + localUsersMask |= GetLocalPlayerMask( userIndex ); + + // If the player was signed in before selecting play, we'll not have read the profile yet, so query the sign-in status to get this to happen + ProfileManager.QuerySigninStatus(); + + // 4J-PB - clear any previous connection errors + Minecraft::GetInstance()->clearConnectionFailed(); + + g_NetworkManager.SetLocalGame(false); + + // change the minecraft player name + Minecraft::GetInstance()->user->name = convStringToWstring( ProfileManager.GetGamertag(ProfileManager.GetPrimaryPad())); + + bool success = g_NetworkManager.JoinGameFromInviteInfo( userIndex, localUsersMask, pInviteInfo ); + if( !success ) + { + app.DebugPrintf( "Failed joining game from invite\n" ); + } + } + } + else + { + + } + } +} + +void CGameNetworkManager::AddLocalPlayerFailed(int idx, bool serverFull/* = false*/) +{ + Minecraft::GetInstance()->connectionDisconnected(idx, serverFull ? DisconnectPacket::eDisconnect_ServerFull : DisconnectPacket::eDisconnect_ConnectionCreationFailed); +} + +#if defined __PS3__ || defined __PSVITA__ || defined __ORBIS__ +void CGameNetworkManager::HandleDisconnect(bool bLostRoomOnly,bool bPSNSignout) +#else +void CGameNetworkManager::HandleDisconnect(bool bLostRoomOnly) +#endif +{ + int iPrimaryPlayer = g_NetworkManager.GetPrimaryPad(); + + if((g_NetworkManager.GetLockedProfile()!=-1) && iPrimaryPlayer!=-1 && g_NetworkManager.IsInSession() ) + { + m_bLastDisconnectWasLostRoomOnly = bLostRoomOnly; +#if defined __PS3__ || defined __PSVITA__ || defined __ORBIS__ + m_bSignedOutofPSN=bPSNSignout; +#endif + app.SetAction(iPrimaryPlayer,eAppAction_EthernetDisconnected); + } + else + { + m_bLastDisconnectWasLostRoomOnly = false; + } +} + +int CGameNetworkManager::GetPrimaryPad() +{ + return ProfileManager.GetPrimaryPad(); +} + +int CGameNetworkManager::GetLockedProfile() +{ + return ProfileManager.GetLockedProfile(); +} + +bool CGameNetworkManager::IsSignedInLive(int playerIdx) +{ + return ProfileManager.IsSignedInLive(playerIdx); +} + +bool CGameNetworkManager::AllowedToPlayMultiplayer(int playerIdx) +{ + return ProfileManager.AllowedToPlayMultiplayer(playerIdx); +} + +const char *CGameNetworkManager::GetOnlineName(int playerIdx) +{ + return ProfileManager.GetGamertag(playerIdx); +} + +void CGameNetworkManager::ServerReadyCreate(bool create) +{ + m_hServerReadyEvent = ( create ? ( new C4JThread::Event ) : nullptr ); +} + +void CGameNetworkManager::ServerReady() +{ + m_hServerReadyEvent->Set(); +} + +void CGameNetworkManager::ServerReadyWait() +{ + m_hServerReadyEvent->WaitForSignal(INFINITE); +} + +void CGameNetworkManager::ServerReadyDestroy() +{ + delete m_hServerReadyEvent; + m_hServerReadyEvent = nullptr; +} + +bool CGameNetworkManager::ServerReadyValid() +{ + return ( m_hServerReadyEvent != nullptr ); +} + +void CGameNetworkManager::ServerStoppedCreate(bool create) +{ + m_hServerStoppedEvent = ( create ? ( new C4JThread::Event ) : nullptr ); +} + +void CGameNetworkManager::ServerStopped() +{ + m_hServerStoppedEvent->Set(); +} + +void CGameNetworkManager::ServerStoppedWait() +{ + // If this is called from the main thread, then this won't be ticking anything which can mean that the storage manager state can't progress. + // This means that the server thread we are waiting on won't ever finish, as it might be locked waiting for this to complete itself. + // Do some ticking here then if this is the case. + if( C4JThread::isMainThread() ) + { + int result = WAIT_TIMEOUT; + do + { +#ifndef _XBOX + //RenderManager.StartFrame(); +#endif + result = m_hServerStoppedEvent->WaitForSignal(20); + // Tick some simple things + ProfileManager.Tick(); + StorageManager.Tick(); + //InputManager.Tick(); + //RenderManager.Tick(); + //ui.tick(); + //ui.render(); + //RenderManager.Present(); + } while( result == WAIT_TIMEOUT ); + } + else + { + m_hServerStoppedEvent->WaitForSignal(INFINITE); + } +} + +void CGameNetworkManager::ServerStoppedDestroy() +{ + delete m_hServerStoppedEvent; + m_hServerStoppedEvent = nullptr; +} + +bool CGameNetworkManager::ServerStoppedValid() +{ + return ( m_hServerStoppedEvent != nullptr ); +} + +int CGameNetworkManager::GetJoiningReadyPercentage() +{ + return s_pPlatformNetworkManager->GetJoiningReadyPercentage(); +} + +#ifndef _XBOX +void CGameNetworkManager::FakeLocalPlayerJoined() +{ + s_pPlatformNetworkManager->FakeLocalPlayerJoined(); +} +#endif + +#ifdef __PSVITA__ +bool CGameNetworkManager::usingAdhocMode() +{ + return ((CPlatformNetworkManagerSony*)s_pPlatformNetworkManager)->usingAdhocMode(); +} + +void CGameNetworkManager::setAdhocMode(bool bAdhoc) +{ + ((CPlatformNetworkManagerSony*)s_pPlatformNetworkManager)->setAdhocMode(bAdhoc); +} + +void CGameNetworkManager::startAdhocMatching() +{ + ((CPlatformNetworkManagerSony*)s_pPlatformNetworkManager)->startAdhocMatching(); +} + +#endif diff --git a/Minecraft.Client/Common/Network/GameNetworkManager.h b/Minecraft.Client/Common/Network/GameNetworkManager.h new file mode 100644 index 0000000..addc50c --- /dev/null +++ b/Minecraft.Client/Common/Network/GameNetworkManager.h @@ -0,0 +1,237 @@ +#pragma once +using namespace std; +#include +#include +#include "..\..\..\Minecraft.World\C4JThread.h" +#include "NetworkPlayerInterface.h" +#ifdef _XBOX +#include "..\..\Xbox\Network\PlatformNetworkManagerXbox.h" +#elif defined __PS3__ || defined __ORBIS__ || defined __PSVITA__ +#include "..\..\Common\Network\Sony\PlatformNetworkManagerSony.h" +#elif defined _DURANGO +#include "..\..\Durango\Network\PlatformNetworkManagerDurango.h" +#else +#include "PlatformNetworkManagerStub.h" +#endif +#include "SessionInfo.h" + +#ifdef __ORBIS__ +#include "..\..\Orbis\Network\PsPlusUpsellWrapper_Orbis.h" +#endif + +class ClientConnection; +class Minecraft; + +const int NON_QNET_SENDDATA_ACK_REQUIRED = 1; + +// This class implements the game-side interface to the networking system. As such, it is platform independent and may contain bits of game-side code where appropriate. +// It shouldn't ever reference any platform specifics of the network implementation (eg QNET), rather it should interface with an implementation of PlatformNetworkManager to +// provide this functionality. + +class CGameNetworkManager +{ +#ifdef _XBOX + friend class CPlatformNetworkManagerXbox; +#elif defined __PS3__ || defined __ORBIS__ || defined __PSVITA__ + friend class CPlatformNetworkManagerSony; +#elif defined _DURANGO + friend class CPlatformNetworkManagerDurango; +#else + friend class CPlatformNetworkManagerStub; +#endif +public: + CGameNetworkManager(); + // Misc high level flow + + typedef enum + { + JOINGAME_SUCCESS, + JOINGAME_FAIL_GENERAL, + JOINGAME_FAIL_SERVER_FULL + } eJoinGameResult; + + void Initialise(); + void Terminate(); + void DoWork(); + bool _RunNetworkGame(LPVOID lpParameter); + bool StartNetworkGame(Minecraft *minecraft, LPVOID lpParameter); + int CorrectErrorIDS(int IDS); + + // Player management + + static int GetLocalPlayerMask(int playerIndex); + int GetPlayerCount(); + int GetOnlinePlayerCount(); + bool AddLocalPlayerByUserIndex( int userIndex ); + bool RemoveLocalPlayerByUserIndex( int userIndex ); + INetworkPlayer *GetLocalPlayerByUserIndex(int userIndex ); + INetworkPlayer *GetPlayerByIndex(int playerIndex); + INetworkPlayer *GetPlayerByXuid(PlayerUID xuid); + INetworkPlayer *GetPlayerBySmallId(unsigned char smallId); + wstring GetDisplayNameByGamertag(wstring gamertag); + INetworkPlayer *GetHostPlayer(); + void RegisterPlayerChangedCallback(int iPad, void (*callback)(void *callbackParam, INetworkPlayer *pPlayer, bool leaving), void *callbackParam); + void UnRegisterPlayerChangedCallback(int iPad, void (*callback)(void *callbackParam, INetworkPlayer *pPlayer, bool leaving), void *callbackParam); + void HandleSignInChange(); + bool ShouldMessageForFullSession(); + + // State management + + bool IsInSession(); + bool IsInGameplay(); + bool IsLeavingGame(); + bool IsReadyToPlayOrIdle(); + + // Hosting and game type + + bool SetLocalGame(bool isLocal); + bool IsLocalGame(); + void SetPrivateGame(bool isPrivate); + bool IsPrivateGame(); + void HostGame(int localUsersMask, bool bOnlineGame, bool bIsPrivate, unsigned char publicSlots = (unsigned char)(MINECRAFT_NET_MAX_PLAYERS & 0xFF), unsigned char privateSlots = 0); + bool IsHost(); + bool IsInStatsEnabledSession(); + + // Client session discovery + + bool SessionHasSpace(unsigned int spaceRequired = 1); + vector *GetSessionList(int iPad, int localPlayers, bool partyOnly); + bool GetGameSessionInfo(int iPad, SessionID sessionId,FriendSessionInfo *foundSession); + void SetSessionsUpdatedCallback( void (*SessionsUpdatedCallback)(LPVOID pParam), LPVOID pSearchParam ); + void GetFullFriendSessionInfo( FriendSessionInfo *foundSession, void (* FriendSessionUpdatedFn)(bool success, void *pParam), void *pParam ); + void ForceFriendsSessionRefresh(); + + // Session joining and leaving + + bool JoinGameFromInviteInfo( int userIndex, int userMask, const INVITE_INFO *pInviteInfo); + eJoinGameResult JoinGame(FriendSessionInfo *searchResult, int localUsersMask); + static void CancelJoinGame(LPVOID lpParam); // Not part of the shared interface + bool LeaveGame(bool bMigrateHost); + static int JoinFromInvite_SignInReturned(void *pParam,bool bContinue, int iPad); + void UpdateAndSetGameSessionData(INetworkPlayer *pNetworkPlayerLeaving = nullptr); + void SendInviteGUI(int iPad); + void ResetLeavingGame(); + + // Threads + + bool IsNetworkThreadRunning(); + static int RunNetworkGameThreadProc( void* lpParameter ); + static int ServerThreadProc( void* lpParameter ); + static int ExitAndJoinFromInviteThreadProc( void* lpParam ); + +#if (defined __PS3__) || (defined __ORBIS__) || (defined __PSVITA__) + static int MustSignInReturned_0(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int PSNSignInReturned_0(void* pParam, bool bContinue, int iPad); + + static int MustSignInReturned_1(void *pParam,int iPad,C4JStorage::EMessageResult result); + static int PSNSignInReturned_1(void* pParam, bool bContinue, int iPad); +#endif + + static void _LeaveGame(); + static int ChangeSessionTypeThreadProc( void* lpParam ); + + // System flags + + void SystemFlagSet(INetworkPlayer *pNetworkPlayer, int index); + bool SystemFlagGet(INetworkPlayer *pNetworkPlayer, int index); + + // Events + + void ServerReadyCreate(bool create); // Create the signal (or set to nullptr) + void ServerReady(); // Signal that we are ready + void ServerReadyWait(); // Wait for the signal + void ServerReadyDestroy(); // Destroy signal + bool ServerReadyValid(); // Is non-nullptr + + void ServerStoppedCreate(bool create); // Create the signal + void ServerStopped(); // Signal that we are ready + void ServerStoppedWait(); // Wait for the signal + void ServerStoppedDestroy(); // Destroy signal + bool ServerStoppedValid(); // Is non-nullptr + +#ifdef __PSVITA__ + static bool usingAdhocMode(); + static void setAdhocMode(bool bAdhoc); + static void startAdhocMatching(); +#endif + // Debug output + + wstring GatherStats(); + void renderQueueMeter(); + wstring GatherRTTStats(); + + // GUI debug output + + // Used for debugging output + static const int messageQueue_length = 512; + static int64_t messageQueue[messageQueue_length]; + static const int byteQueue_length = 512; + static int64_t byteQueue[byteQueue_length]; + static int messageQueuePos; + + // Methods called from PlatformNetworkManager +private: + void StateChange_AnyToHosting(); + void StateChange_AnyToJoining(); + void StateChange_JoiningToIdle(CPlatformNetworkManager::eJoinFailedReason reason); + void StateChange_AnyToStarting(); + void StateChange_AnyToEnding(bool bStateWasPlaying); + void StateChange_AnyToIdle(); + void CreateSocket( INetworkPlayer *pNetworkPlayer, bool localPlayer ); + void CloseConnection( INetworkPlayer *pNetworkPlayer ); + void PlayerJoining( INetworkPlayer *pNetworkPlayer ); + void PlayerLeaving( INetworkPlayer *pNetworkPlayer ); + void HostChanged(); + void WriteStats( INetworkPlayer *pNetworkPlayer ); + void GameInviteReceived( int userIndex, const INVITE_INFO *pInviteInfo); + void HandleInviteWhenInMenus( int userIndex, const INVITE_INFO *pInviteInfo); + void AddLocalPlayerFailed(int idx, bool serverFull = false); +#if defined __PS3__ || defined __PSVITA__ || defined __ORBIS__ + void HandleDisconnect(bool bLostRoomOnly,bool bPSNSignOut); +#else + void HandleDisconnect(bool bLostRoomOnly); +#endif + + int GetPrimaryPad(); + int GetLockedProfile(); + bool IsSignedInLive(int playerIdx); + bool AllowedToPlayMultiplayer(int playerIdx); + const char *GetOnlineName(int playerIdx); + + C4JThread::Event* m_hServerStoppedEvent; + C4JThread::Event* m_hServerReadyEvent; + bool m_bInitialised; + +#ifdef _XBOX_ONE +public: + void SetFullSessionMessageOnNextSessionChange() { m_bFullSessionMessageOnNextSessionChange = true; } +#endif +private: + float m_lastPlayerEventTimeStart; // For telemetry + static CPlatformNetworkManager *s_pPlatformNetworkManager; + bool m_bNetworkThreadRunning; + int GetJoiningReadyPercentage(); + bool m_bLastDisconnectWasLostRoomOnly; + bool m_bFullSessionMessageOnNextSessionChange; +#if defined __PS3__ || defined __PSVITA__ || defined __ORBIS__ + bool m_bSignedOutofPSN; +#endif + +#ifdef __ORBIS__ + PsPlusUpsellWrapper *m_pUpsell; + INVITE_INFO *m_pInviteInfo; + int m_iPlayerInvited; +#endif + +public: +#ifndef _XBOX + void FakeLocalPlayerJoined(); // Temporary method whilst we don't have real networking to make this happen +#endif +}; + +extern CGameNetworkManager g_NetworkManager; + +#ifdef __PS3__ +#undef __in +#define __out +#endif diff --git a/Minecraft.Client/Common/Network/NetworkPlayerInterface.h b/Minecraft.Client/Common/Network/NetworkPlayerInterface.h new file mode 100644 index 0000000..d26252d --- /dev/null +++ b/Minecraft.Client/Common/Network/NetworkPlayerInterface.h @@ -0,0 +1,34 @@ +#pragma once + +class Socket; + +// This is the platform independent interface for dealing with players within a network game. This should be used directly by game code (and GameNetworkManager) rather than the platform-specific implementations. + +class INetworkPlayer +{ +public: + virtual ~INetworkPlayer() {} + virtual unsigned char GetSmallId() = 0; + virtual void SendData(INetworkPlayer *player, const void *pvData, int dataSize, bool lowPriority, bool ack) = 0; + virtual bool IsSameSystem(INetworkPlayer *player) = 0; + virtual int GetOutstandingAckCount() = 0; + virtual int GetSendQueueSizeBytes( INetworkPlayer *player, bool lowPriority ) = 0; + virtual int GetSendQueueSizeMessages( INetworkPlayer *player, bool lowPriority ) = 0; + virtual int GetCurrentRtt() = 0; + virtual bool IsHost() = 0; + virtual bool IsGuest() = 0; + virtual bool IsLocal() = 0; + virtual int GetSessionIndex() = 0; + virtual bool IsTalking() = 0; + virtual bool IsMutedByLocalUser(int userIndex) = 0; + virtual bool HasVoice() = 0; + virtual bool HasCamera() = 0; + virtual int GetUserIndex() = 0; + virtual void SetSocket(Socket *pSocket) = 0; + virtual Socket *GetSocket() = 0; + virtual const wchar_t *GetOnlineName() = 0; + virtual wstring GetDisplayName() = 0; + virtual PlayerUID GetUID() = 0; + virtual void SentChunkPacket() = 0; + virtual int GetTimeSinceLastChunkPacket_ms() = 0; +}; diff --git a/Minecraft.Client/Common/Network/PlatformNetworkManagerInterface.h b/Minecraft.Client/Common/Network/PlatformNetworkManagerInterface.h new file mode 100644 index 0000000..e621f01 --- /dev/null +++ b/Minecraft.Client/Common/Network/PlatformNetworkManagerInterface.h @@ -0,0 +1,127 @@ +#pragma once +using namespace std; +#include +#include +#include "..\..\..\Minecraft.World\C4JThread.h" +#include "NetworkPlayerInterface.h" +#include "SessionInfo.h" + +class ClientConnection; +class Minecraft; +class CGameNetworkManager; + +// This is the interface to be implemented by the platform-specific versions of the PlatformNetworkManagers. This API is used directly by GameNetworkManager so that +// it can remain as platform independent as possible. + +// This value should be incremented if the server version changes, or the game session data changes +#define MINECRAFT_NET_VERSION VER_NETWORK + + +typedef struct _SearchForGamesData +{ + DWORD sessionIDCount; + XSESSION_SEARCHRESULT_HEADER *searchBuffer; + XNQOS **ppQos; + SessionID *sessionIDList; + XOVERLAPPED *pOverlapped; +} SearchForGamesData; + +class CPlatformNetworkManager +{ + friend class CGameNetworkManager; +public: + + typedef enum + { + JOIN_FAILED_SERVER_FULL, + JOIN_FAILED_INSUFFICIENT_PRIVILEGES, + JOIN_FAILED_NONSPECIFIC, + } eJoinFailedReason; + + virtual bool Initialise(CGameNetworkManager *pGameNetworkManager, int flagIndexSize) = 0; + virtual void Terminate() = 0; + virtual int GetJoiningReadyPercentage() = 0; + virtual int CorrectErrorIDS(int IDS) = 0; + + virtual void DoWork() = 0; + virtual int GetPlayerCount() = 0; + virtual int GetOnlinePlayerCount() = 0; + virtual int GetLocalPlayerMask(int playerIndex) = 0; + virtual bool AddLocalPlayerByUserIndex( int userIndex ) = 0; + virtual bool RemoveLocalPlayerByUserIndex( int userIndex ) = 0; + virtual INetworkPlayer *GetLocalPlayerByUserIndex( int userIndex ) = 0; + virtual INetworkPlayer *GetPlayerByIndex(int playerIndex) = 0; + virtual INetworkPlayer * GetPlayerByXuid(PlayerUID xuid) = 0; + virtual INetworkPlayer * GetPlayerBySmallId(unsigned char smallId) = 0; + virtual bool ShouldMessageForFullSession() = 0; + + virtual INetworkPlayer *GetHostPlayer() = 0; + virtual bool IsHost() = 0; + virtual bool JoinGameFromInviteInfo( int userIndex, int userMask, const INVITE_INFO *pInviteInfo) = 0; + virtual bool LeaveGame(bool bMigrateHost) = 0; + + virtual bool IsInSession() = 0; + virtual bool IsInGameplay() = 0; + virtual bool IsReadyToPlayOrIdle() = 0; + virtual bool IsInStatsEnabledSession() = 0; + virtual bool SessionHasSpace(unsigned int spaceRequired = 1) = 0; + virtual void SendInviteGUI(int quadrant) = 0; + virtual bool IsAddingPlayer() = 0; + + virtual void HostGame(int localUsersMask, bool bOnlineGame, bool bIsPrivate, unsigned char publicSlots = (unsigned char)(MINECRAFT_NET_MAX_PLAYERS & 0xFF), unsigned char privateSlots = 0) = 0; + virtual int JoinGame(FriendSessionInfo *searchResult, int dwLocalUsersMask, int dwPrimaryUserIndex ) = 0; + virtual void CancelJoinGame() {}; + virtual bool SetLocalGame(bool isLocal) = 0; + virtual bool IsLocalGame() = 0; + virtual void SetPrivateGame(bool isPrivate) = 0; + virtual bool IsPrivateGame() = 0; + virtual bool IsLeavingGame() = 0; + virtual void ResetLeavingGame() = 0; + + virtual void RegisterPlayerChangedCallback(int iPad, void (*callback)(void *callbackParam, INetworkPlayer *pPlayer, bool leaving), void *callbackParam) = 0; + virtual void UnRegisterPlayerChangedCallback(int iPad, void (*callback)(void *callbackParam, INetworkPlayer *pPlayer, bool leaving), void *callbackParam) = 0; + + virtual void HandleSignInChange() = 0; + + virtual bool _RunNetworkGame() = 0; + virtual void SetGamePlayState() {} + +private: + virtual bool _LeaveGame(bool bMigrateHost, bool bLeaveRoom) = 0; + virtual void _HostGame(int usersMask, unsigned char publicSlots = (unsigned char)(MINECRAFT_NET_MAX_PLAYERS & 0xFF), unsigned char privateSlots = 0) = 0; + virtual bool _StartGame() = 0; + + +public: + virtual void UpdateAndSetGameSessionData(INetworkPlayer *pNetworkPlayerLeaving = nullptr) = 0; + +private: + virtual bool RemoveLocalPlayer( INetworkPlayer *pNetworkPlayer ) = 0; + +public: + virtual void SystemFlagSet(INetworkPlayer *pNetworkPlayer, int index) = 0; + virtual bool SystemFlagGet(INetworkPlayer *pNetworkPlayer, int index) = 0; + + virtual wstring GatherStats() = 0; + virtual wstring GatherRTTStats() = 0; + +private: + virtual void SetSessionTexturePackParentId( int id ) = 0; + virtual void SetSessionSubTexturePackId( int id ) = 0; + virtual void Notify(int ID, ULONG_PTR Param) = 0; + +public: + virtual vector *GetSessionList(int iPad, int localPlayers, bool partyOnly) = 0; + virtual bool GetGameSessionInfo(int iPad, SessionID sessionId,FriendSessionInfo *foundSession) = 0; + virtual void SetSessionsUpdatedCallback( void (*SessionsUpdatedCallback)(LPVOID pParam), LPVOID pSearchParam ) = 0; + virtual void GetFullFriendSessionInfo( FriendSessionInfo *foundSession, void (* FriendSessionUpdatedFn)(bool success, void *pParam), void *pParam ) = 0; + virtual void ForceFriendsSessionRefresh() = 0; + +#ifndef _XBOX + virtual void FakeLocalPlayerJoined() {}; // Temporary method whilst we don't have real networking to make this happen +#endif + +#ifdef _DURANGO + virtual wstring GetDisplayNameByGamertag(wstring gamertag) = 0; +#endif +}; diff --git a/Minecraft.Client/Common/Network/PlatformNetworkManagerStub.cpp b/Minecraft.Client/Common/Network/PlatformNetworkManagerStub.cpp new file mode 100644 index 0000000..7340a7e --- /dev/null +++ b/Minecraft.Client/Common/Network/PlatformNetworkManagerStub.cpp @@ -0,0 +1,1007 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\Socket.h" +#include "..\..\..\Minecraft.World\StringHelpers.h" +#include "PlatformNetworkManagerStub.h" +#include "..\..\Xbox\Network\NetworkPlayerXbox.h" +#ifdef _WINDOWS64 +#include "..\..\Windows64\Network\WinsockNetLayer.h" +#include "..\..\Windows64\Windows64_Xuid.h" +#include "..\..\Minecraft.h" +#include "..\..\User.h" +#include "..\..\MinecraftServer.h" +#include "..\..\PlayerList.h" +#include +#endif + +CPlatformNetworkManagerStub *g_pPlatformNetworkManager; + + +void CPlatformNetworkManagerStub::NotifyPlayerJoined(IQNetPlayer *pQNetPlayer ) +{ + const char * pszDescription; + + // 4J Stu - We create a fake socket for every where that we need an INBOUND queue of game data. Outbound + // is all handled by QNet so we don't need that. Therefore each client player has one, and the host has one + // for each client player. + bool createFakeSocket = false; + bool localPlayer = false; + + NetworkPlayerXbox *networkPlayer = static_cast(addNetworkPlayer(pQNetPlayer)); + + if( pQNetPlayer->IsLocal() ) + { + localPlayer = true; + if( pQNetPlayer->IsHost() ) + { + pszDescription = "local host"; + // 4J Stu - No socket for the localhost as it uses a special loopback queue + + m_machineQNetPrimaryPlayers.push_back( pQNetPlayer ); + } + else + { + pszDescription = "local"; + + // We need an inbound queue on all local players to receive data from the host + createFakeSocket = true; + } + } + else + { + if( pQNetPlayer->IsHost() ) + { + pszDescription = "remote host"; + } + else + { + pszDescription = "remote"; + + // If we are the host, then create a fake socket for every remote player + if( m_pIQNet->IsHost() ) + { + createFakeSocket = true; + } + } + + if( m_pIQNet->IsHost() && !m_bHostChanged ) + { + // Do we already have a primary player for this system? + bool systemHasPrimaryPlayer = false; + for (auto& pQNetPrimaryPlayer : m_machineQNetPrimaryPlayers) + { + if( pQNetPlayer->IsSameSystem(pQNetPrimaryPlayer) ) + { + systemHasPrimaryPlayer = true; + break; + } + } + if( !systemHasPrimaryPlayer ) + m_machineQNetPrimaryPlayers.push_back( pQNetPlayer ); + } + } + g_NetworkManager.PlayerJoining( networkPlayer ); + + if( createFakeSocket == true && !m_bHostChanged ) + { + g_NetworkManager.CreateSocket( networkPlayer, localPlayer ); + } + + app.DebugPrintf( "Player 0x%p \"%ls\" joined; %s; voice %i; camera %i.\n", + pQNetPlayer, + pQNetPlayer->GetGamertag(), + pszDescription, + pQNetPlayer->HasVoice(), + pQNetPlayer->HasCamera() ); + + + if( m_pIQNet->IsHost() ) + { + // 4J-PB - only the host should do this +// g_NetworkManager.UpdateAndSetGameSessionData(); + SystemFlagAddPlayer( networkPlayer ); + } + + for( int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + if(playerChangedCallback[idx] != nullptr) + playerChangedCallback[idx]( playerChangedCallbackParam[idx], networkPlayer, false ); + } + + if(m_pIQNet->GetState() == QNET_STATE_GAME_PLAY) + { + int localPlayerCount = 0; + for(unsigned int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + if( m_pIQNet->GetLocalPlayerByUserIndex(idx) != nullptr ) ++localPlayerCount; + } + + float appTime = app.getAppTime(); + + // Only record stats for the primary player here + m_lastPlayerEventTimeStart = appTime; + } +} + +void CPlatformNetworkManagerStub::NotifyPlayerLeaving(IQNetPlayer* pQNetPlayer) +{ + app.DebugPrintf("Player 0x%p \"%ls\" leaving.\n", pQNetPlayer, pQNetPlayer->GetGamertag()); + + INetworkPlayer* networkPlayer = getNetworkPlayer(pQNetPlayer); + if (networkPlayer == nullptr) + return; + + Socket* socket = networkPlayer->GetSocket(); + if (socket != nullptr) + { + if (m_pIQNet->IsHost()) + g_NetworkManager.CloseConnection(networkPlayer); + } + + if (m_pIQNet->IsHost()) + { + SystemFlagRemovePlayer(networkPlayer); + } + + g_NetworkManager.PlayerLeaving(networkPlayer); + + for (int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + if (playerChangedCallback[idx] != nullptr) + playerChangedCallback[idx](playerChangedCallbackParam[idx], networkPlayer, true); + } + + removeNetworkPlayer(pQNetPlayer); +} + + +bool CPlatformNetworkManagerStub::Initialise(CGameNetworkManager *pGameNetworkManager, int flagIndexSize) +{ + m_pGameNetworkManager = pGameNetworkManager; + m_flagIndexSize = flagIndexSize; + m_pIQNet = new IQNet(); + g_pPlatformNetworkManager = this; + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + playerChangedCallback[ i ] = nullptr; + } + + m_bLeavingGame = false; + m_bLeaveGameOnTick = false; + m_bHostChanged = false; + + m_bSearchResultsReady = false; + m_bSearchPending = false; + + m_bIsOfflineGame = false; + m_pSearchParam = nullptr; + m_SessionsUpdatedCallback = nullptr; + + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + m_searchResultsCount[i] = 0; + m_lastSearchStartTime[i] = 0; + + // The results that will be filled in with the current search + m_pSearchResults[i] = nullptr; + m_pQoSResult[i] = nullptr; + m_pCurrentSearchResults[i] = nullptr; + m_pCurrentQoSResult[i] = nullptr; + m_currentSearchResultsCount[i] = 0; + } + + // Success! + return true; +} + +void CPlatformNetworkManagerStub::Terminate() +{ +} + +int CPlatformNetworkManagerStub::GetJoiningReadyPercentage() +{ + return 100; +} + +int CPlatformNetworkManagerStub::CorrectErrorIDS(int IDS) +{ + return IDS; +} + +bool CPlatformNetworkManagerStub::isSystemPrimaryPlayer(IQNetPlayer *pQNetPlayer) +{ + return true; +} + +// We call this twice a frame, either side of the render call so is a good place to "tick" things +void CPlatformNetworkManagerStub::DoWork() +{ +#ifdef _WINDOWS64 + extern QNET_STATE _iQNetStubState; + if (_iQNetStubState == QNET_STATE_SESSION_STARTING && app.GetGameStarted()) + { + _iQNetStubState = QNET_STATE_GAME_PLAY; + if (m_pIQNet->IsHost()) + WinsockNetLayer::UpdateAdvertiseJoinable(true); + } + if (_iQNetStubState == QNET_STATE_IDLE) + TickSearch(); + if (_iQNetStubState == QNET_STATE_GAME_PLAY && m_pIQNet->IsHost()) + { + BYTE disconnectedSmallId; + while (WinsockNetLayer::PopDisconnectedSmallId(&disconnectedSmallId)) + { + IQNetPlayer* qnetPlayer = m_pIQNet->GetPlayerBySmallId(disconnectedSmallId); + if (qnetPlayer != nullptr && qnetPlayer->m_smallId == disconnectedSmallId) + { + NotifyPlayerLeaving(qnetPlayer); + qnetPlayer->m_smallId = 0; + qnetPlayer->m_isRemote = false; + qnetPlayer->m_isHostPlayer = false; + qnetPlayer->m_resolvedXuid = INVALID_XUID; + qnetPlayer->m_gamertag[0] = 0; + qnetPlayer->SetCustomDataValue(0); + while (IQNet::s_playerCount > 1 && IQNet::m_player[IQNet::s_playerCount - 1].GetCustomDataValue() == 0) + IQNet::s_playerCount--; + } + // NOTE: Do NOT call PushFreeSmallId here. The old PlayerConnection's + // write thread may still be alive (it dies in PlayerList::tick when + // m_smallIdsToClose is processed). If we recycle the smallId now, + // AcceptThread can reuse it for a new connection, and the old write + // thread's getPlayer() lookup will resolve to the NEW player, sending + // stale game packets to the new client's TCP socket — corrupting its + // login handshake (bad packet id crash). PushFreeSmallId and + // ClearSocketForSmallId are called from PlayerList::tick after the + // old Connection threads are dead. + // + // Clear chunk visibility flags for this system so rejoin gets fresh chunk state. + SystemFlagRemoveBySmallId(disconnectedSmallId); + } + } +#endif +} + +bool CPlatformNetworkManagerStub::CanAcceptMoreConnections() +{ +#ifdef _WINDOWS64 + MinecraftServer* server = MinecraftServer::getInstance(); + if (server == NULL) return true; + PlayerList* list = server->getPlayerList(); + if (list == NULL) return true; + return static_cast(list->players.size()) < static_cast(list->getMaxPlayers()); +#else + return true; +#endif +} + +int CPlatformNetworkManagerStub::GetPlayerCount() +{ + return m_pIQNet->GetPlayerCount(); +} + +bool CPlatformNetworkManagerStub::ShouldMessageForFullSession() +{ + return false; +} + +int CPlatformNetworkManagerStub::GetOnlinePlayerCount() +{ + return 1; +} + +int CPlatformNetworkManagerStub::GetLocalPlayerMask(int playerIndex) +{ + return 1 << playerIndex; +} + +bool CPlatformNetworkManagerStub::AddLocalPlayerByUserIndex( int userIndex ) +{ + if ( m_pIQNet->AddLocalPlayerByUserIndex(userIndex) != S_OK ) + return false; + // Player is now registered in IQNet — get a pointer and notify the network layer. + // Use the static array directly: GetLocalPlayerByUserIndex checks customData which + // isn't set until addNetworkPlayer runs inside NotifyPlayerJoined. + NotifyPlayerJoined(&IQNet::m_player[userIndex]); + return true; +} + +bool CPlatformNetworkManagerStub::RemoveLocalPlayerByUserIndex( int userIndex ) +{ +#ifdef _WINDOWS64 + if (userIndex > 0 && userIndex < XUSER_MAX_COUNT && !m_pIQNet->IsHost()) + { + IQNetPlayer* qp = &IQNet::m_player[userIndex]; + + // Notify the network layer before clearing the slot + if (qp->GetCustomDataValue() != 0) + { + NotifyPlayerLeaving(qp); + } + + // Close the split-screen TCP connection and reset WinsockNetLayer state + WinsockNetLayer::CloseSplitScreenConnection(userIndex); + + // Clear the IQNet slot so it can be reused on rejoin + qp->m_smallId = 0; + qp->m_isRemote = false; + qp->m_isHostPlayer = false; + qp->m_resolvedXuid = INVALID_XUID; + qp->m_gamertag[0] = 0; + qp->SetCustomDataValue(0); + } +#endif + return true; +} + +bool CPlatformNetworkManagerStub::IsInStatsEnabledSession() +{ + return true; +} + +bool CPlatformNetworkManagerStub::SessionHasSpace(unsigned int spaceRequired /*= 1*/) +{ + return true; +} + +void CPlatformNetworkManagerStub::SendInviteGUI(int quadrant) +{ +} + +bool CPlatformNetworkManagerStub::IsAddingPlayer() +{ + return false; +} + +bool CPlatformNetworkManagerStub::LeaveGame(bool bMigrateHost) +{ + if( m_bLeavingGame ) return true; + + m_bLeavingGame = true; + +#ifdef _WINDOWS64 + WinsockNetLayer::StopAdvertising(); +#endif + + // If we are the host wait for the game server to end + if(m_pIQNet->IsHost() && g_NetworkManager.ServerStoppedValid()) + { + m_pIQNet->EndGame(); + g_NetworkManager.ServerStoppedWait(); + g_NetworkManager.ServerStoppedDestroy(); + } + else + { + m_pIQNet->EndGame(); + } + + for (auto & it : currentNetworkPlayers) + delete it; + currentNetworkPlayers.clear(); + m_machineQNetPrimaryPlayers.clear(); + SystemFlagReset(); + +#ifdef _WINDOWS64 + WinsockNetLayer::Shutdown(); + WinsockNetLayer::Initialize(); +#endif + + return true; +} + +bool CPlatformNetworkManagerStub::_LeaveGame(bool bMigrateHost, bool bLeaveRoom) +{ + return true; +} + +void CPlatformNetworkManagerStub::HostGame(int localUsersMask, bool bOnlineGame, bool bIsPrivate, unsigned char publicSlots /*= MINECRAFT_NET_MAX_PLAYERS*/, unsigned char privateSlots /*= 0*/) +{ +// #ifdef _XBOX + // 4J Stu - We probably did this earlier as well, but just to be sure! + SetLocalGame( !bOnlineGame ); + SetPrivateGame( bIsPrivate ); + SystemFlagReset(); + + // Make sure that the Primary Pad is in by default + localUsersMask |= GetLocalPlayerMask( g_NetworkManager.GetPrimaryPad() ); + + m_bLeavingGame = false; + + m_pIQNet->HostGame(); + +#ifdef _WINDOWS64 + IQNet::m_player[0].m_smallId = 0; + IQNet::m_player[0].m_isRemote = false; + // world host is pinned to legacy host XUID to keep old player data compatibility. + IQNet::m_player[0].m_isHostPlayer = true; + IQNet::m_player[0].m_resolvedXuid = Win64Xuid::GetLegacyEmbeddedHostXuid(); + IQNet::s_playerCount = 1; +#endif + + _HostGame( localUsersMask, publicSlots, privateSlots ); + +#ifdef _WINDOWS64 + int port = WIN64_NET_DEFAULT_PORT; + const char* bindIp = nullptr; + if (g_Win64DedicatedServer) + { + if (g_Win64DedicatedServerPort > 0) + port = g_Win64DedicatedServerPort; + if (g_Win64DedicatedServerBindIP[0] != 0) + bindIp = g_Win64DedicatedServerBindIP; + } + if (!WinsockNetLayer::IsActive()) + WinsockNetLayer::HostGame(port, bindIp); + + if (WinsockNetLayer::IsActive()) + { + const wchar_t* hostName = IQNet::m_player[0].m_gamertag; + unsigned int settings = app.GetGameHostOption(eGameHostOption_All); + WinsockNetLayer::StartAdvertising(port, hostName, settings, 0, 0, MINECRAFT_NET_VERSION); + } +#endif +//#endif +} + +void CPlatformNetworkManagerStub::_HostGame(int usersMask, unsigned char publicSlots /*= MINECRAFT_NET_MAX_PLAYERS*/, unsigned char privateSlots /*= 0*/) +{ +} + +bool CPlatformNetworkManagerStub::_StartGame() +{ + return true; +} + +int CPlatformNetworkManagerStub::JoinGame(FriendSessionInfo* searchResult, int localUsersMask, int primaryUserIndex) +{ +#ifdef _WINDOWS64 + if (searchResult == nullptr) + return CGameNetworkManager::JOINGAME_FAIL_GENERAL; + + const char* hostIP = searchResult->data.hostIP; + int hostPort = searchResult->data.hostPort; + + if (hostPort <= 0 || hostIP[0] == 0) + return CGameNetworkManager::JOINGAME_FAIL_GENERAL; + + m_bLeavingGame = false; + IQNet::s_isHosting = false; + m_pIQNet->ClientJoinGame(); + + IQNet::m_player[0].m_smallId = 0; + IQNet::m_player[0].m_isRemote = true; + IQNet::m_player[0].m_isHostPlayer = true; + // Remote host still maps to legacy host XUID in mixed old/new sessions. + IQNet::m_player[0].m_resolvedXuid = Win64Xuid::GetLegacyEmbeddedHostXuid(); + wcsncpy_s(IQNet::m_player[0].m_gamertag, 32, searchResult->data.hostName, _TRUNCATE); + + WinsockNetLayer::StopDiscovery(); + + if (!WinsockNetLayer::JoinGame(hostIP, hostPort)) + { + app.DebugPrintf("Win64 LAN: Failed to connect to %s:%d\n", hostIP, hostPort); + return CGameNetworkManager::JOINGAME_FAIL_GENERAL; + } + + BYTE localSmallId = WinsockNetLayer::GetLocalSmallId(); + + IQNet::m_player[localSmallId].m_smallId = localSmallId; + IQNet::m_player[localSmallId].m_isRemote = false; + IQNet::m_player[localSmallId].m_isHostPlayer = false; + // Local non-host identity is the persistent uid.dat XUID. + IQNet::m_player[localSmallId].m_resolvedXuid = Win64Xuid::ResolvePersistentXuid(); + + Minecraft* pMinecraft = Minecraft::GetInstance(); + wcscpy_s(IQNet::m_player[localSmallId].m_gamertag, 32, pMinecraft->user->name.c_str()); + IQNet::s_playerCount = localSmallId + 1; + + NotifyPlayerJoined(&IQNet::m_player[0]); + NotifyPlayerJoined(&IQNet::m_player[localSmallId]); + + m_pGameNetworkManager->StateChange_AnyToStarting(); + + return CGameNetworkManager::JOINGAME_SUCCESS; +#else + return CGameNetworkManager::JOINGAME_SUCCESS; +#endif +} + +bool CPlatformNetworkManagerStub::SetLocalGame(bool isLocal) +{ + m_bIsOfflineGame = isLocal; + + return true; +} + +void CPlatformNetworkManagerStub::SetPrivateGame(bool isPrivate) +{ + app.DebugPrintf("Setting as private game: %s\n", isPrivate ? "yes" : "no" ); + m_bIsPrivateGame = isPrivate; +} + +void CPlatformNetworkManagerStub::RegisterPlayerChangedCallback(int iPad, void (*callback)(void *callbackParam, INetworkPlayer *pPlayer, bool leaving), void *callbackParam) +{ + playerChangedCallback[iPad] = callback; + playerChangedCallbackParam[iPad] = callbackParam; +} + +void CPlatformNetworkManagerStub::UnRegisterPlayerChangedCallback(int iPad, void (*callback)(void *callbackParam, INetworkPlayer *pPlayer, bool leaving), void *callbackParam) +{ + if(playerChangedCallbackParam[iPad] == callbackParam) + { + playerChangedCallback[iPad] = nullptr; + playerChangedCallbackParam[iPad] = nullptr; + } +} + +void CPlatformNetworkManagerStub::HandleSignInChange() +{ + return; +} + +bool CPlatformNetworkManagerStub::_RunNetworkGame() +{ +#ifdef _WINDOWS64 + extern QNET_STATE _iQNetStubState; + _iQNetStubState = QNET_STATE_GAME_PLAY; + + for (DWORD i = 0; i < IQNet::s_playerCount; i++) + { + if (IQNet::m_player[i].m_isRemote) + { + INetworkPlayer* pNetworkPlayer = getNetworkPlayer(&IQNet::m_player[i]); + if (pNetworkPlayer != nullptr && pNetworkPlayer->GetSocket() != nullptr) + { + Socket::addIncomingSocket(pNetworkPlayer->GetSocket()); + } + } + } +#endif + return true; +} + +void CPlatformNetworkManagerStub::UpdateAndSetGameSessionData(INetworkPlayer *pNetworkPlayerLeaving /*= nullptr*/) +{ +// DWORD playerCount = m_pIQNet->GetPlayerCount(); +// +// if( this->m_bLeavingGame ) +// return; +// +// if( GetHostPlayer() == nullptr ) +// return; +// +// for(unsigned int i = 0; i < MINECRAFT_NET_MAX_PLAYERS; ++i) +// { +// if( i < playerCount ) +// { +// INetworkPlayer *pNetworkPlayer = GetPlayerByIndex(i); +// +// // We can call this from NotifyPlayerLeaving but at that point the player is still considered in the session +// if( pNetworkPlayer != pNetworkPlayerLeaving ) +// { +// m_hostGameSessionData.players[i] = ((NetworkPlayerXbox *)pNetworkPlayer)->GetUID(); +// +// char *temp; +// temp = (char *)wstringtofilename( pNetworkPlayer->GetOnlineName() ); +// memcpy(m_hostGameSessionData.szPlayers[i],temp,XUSER_NAME_SIZE); +// } +// else +// { +// m_hostGameSessionData.players[i] = nullptr; +// memset(m_hostGameSessionData.szPlayers[i],0,XUSER_NAME_SIZE); +// } +// } +// else +// { +// m_hostGameSessionData.players[i] = nullptr; +// memset(m_hostGameSessionData.szPlayers[i],0,XUSER_NAME_SIZE); +// } +// } +// +// m_hostGameSessionData.hostPlayerUID = ((NetworkPlayerXbox *)GetHostPlayer())->GetQNetPlayer()->GetXuid(); +// m_hostGameSessionData.m_uiGameHostSettings = app.GetGameHostOption(eGameHostOption_All); +} + +int CPlatformNetworkManagerStub::RemovePlayerOnSocketClosedThreadProc( void* lpParam ) +{ + INetworkPlayer *pNetworkPlayer = static_cast(lpParam); + + Socket *socket = pNetworkPlayer->GetSocket(); + + if( socket != nullptr ) + { + //printf("Waiting for socket closed event\n"); + socket->m_socketClosedEvent->WaitForSignal(INFINITE); + + //printf("Socket closed event has fired\n"); + // 4J Stu - Clear our reference to this socket + pNetworkPlayer->SetSocket( nullptr ); + delete socket; + } + + return g_pPlatformNetworkManager->RemoveLocalPlayer( pNetworkPlayer ); +} + +bool CPlatformNetworkManagerStub::RemoveLocalPlayer( INetworkPlayer *pNetworkPlayer ) +{ + return true; +} + +CPlatformNetworkManagerStub::PlayerFlags::PlayerFlags(INetworkPlayer *pNetworkPlayer, unsigned int count) +{ + // 4J Stu - Don't assert, just make it a multiple of 8! This count is calculated from a load of separate values, + // and makes tweaking world/render sizes a pain if we hit an assert here + count = (count + 8 - 1) & ~(8 - 1); + //assert( ( count % 8 ) == 0 ); + this->m_pNetworkPlayer = pNetworkPlayer; + this->flags = new unsigned char [ count / 8 ]; + memset( this->flags, 0, count / 8 ); + this->count = count; + this->m_smallId = (pNetworkPlayer && pNetworkPlayer->IsLocal()) ? 256 : (pNetworkPlayer ? static_cast(pNetworkPlayer->GetSmallId()) : -1); +} +CPlatformNetworkManagerStub::PlayerFlags::~PlayerFlags() +{ + delete [] flags; +} + +// Add a player to the per system flag storage - if we've already got a player from that system, copy its flags over +void CPlatformNetworkManagerStub::SystemFlagAddPlayer(INetworkPlayer *pNetworkPlayer) +{ + PlayerFlags *newPlayerFlags = new PlayerFlags( pNetworkPlayer, m_flagIndexSize); + // If any of our existing players are on the same system, then copy over flags from that one + for( unsigned int i = 0; i < m_playerFlags.size(); i++ ) + { + if( pNetworkPlayer->IsSameSystem(m_playerFlags[i]->m_pNetworkPlayer) ) + { + memcpy( newPlayerFlags->flags, m_playerFlags[i]->flags, m_playerFlags[i]->count / 8 ); + break; + } + } + m_playerFlags.push_back(newPlayerFlags); +} + +// Remove a player from the per system flag storage - just maintains the m_playerFlags vector without any gaps in it +void CPlatformNetworkManagerStub::SystemFlagRemovePlayer(INetworkPlayer *pNetworkPlayer) +{ + for( unsigned int i = 0; i < m_playerFlags.size(); i++ ) + { + if( m_playerFlags[i]->m_pNetworkPlayer == pNetworkPlayer ) + { + delete m_playerFlags[i]; + m_playerFlags[i] = m_playerFlags.back(); + m_playerFlags.pop_back(); + return; + } + } +} + +// Clear chunk flags for a system when they disconnect (by smallId). Call even when we don't find the player, +// so we always clear and the smallId can be reused without stale "chunk seen" state. +void CPlatformNetworkManagerStub::SystemFlagRemoveBySmallId(int smallId) +{ + if (smallId < 0) return; + for (unsigned int i = 0; i < m_playerFlags.size(); i++) + { + if (m_playerFlags[i]->m_smallId == smallId) + { + delete m_playerFlags[i]; + m_playerFlags[i] = m_playerFlags.back(); + m_playerFlags.pop_back(); + return; + } + } +} + +void CPlatformNetworkManagerStub::SystemFlagReset() +{ + for( unsigned int i = 0; i < m_playerFlags.size(); i++ ) + { + delete m_playerFlags[i]; + } + m_playerFlags.clear(); +} + +// Set a per system flag - this is done by setting the flag on every player that shares that system +void CPlatformNetworkManagerStub::SystemFlagSet(INetworkPlayer *pNetworkPlayer, int index) +{ + if( ( index < 0 ) || ( index >= m_flagIndexSize ) ) return; + if( pNetworkPlayer == nullptr ) return; + + for( unsigned int i = 0; i < m_playerFlags.size(); i++ ) + { + if( pNetworkPlayer->IsSameSystem(m_playerFlags[i]->m_pNetworkPlayer) ) + { + m_playerFlags[i]->flags[ index / 8 ] |= ( 128 >> ( index % 8 ) ); + } + } +} + +// Get value of a per system flag - can be read from the flags of the passed in player as anything else sent to that +// system should also have been duplicated here +bool CPlatformNetworkManagerStub::SystemFlagGet(INetworkPlayer *pNetworkPlayer, int index) +{ + if( ( index < 0 ) || ( index >= m_flagIndexSize ) ) return false; + if( pNetworkPlayer == nullptr ) + { + return false; + } + + for( unsigned int i = 0; i < m_playerFlags.size(); i++ ) + { + if( m_playerFlags[i]->m_pNetworkPlayer == pNetworkPlayer ) + { + return ( ( m_playerFlags[i]->flags[ index / 8 ] & ( 128 >> ( index % 8 ) ) ) != 0 ); + } + } + return false; +} + +wstring CPlatformNetworkManagerStub::GatherStats() +{ + return L""; +} + +wstring CPlatformNetworkManagerStub::GatherRTTStats() +{ + wstring stats(L"Rtt: "); + + wchar_t stat[32]; + + for(unsigned int i = 0; i < GetPlayerCount(); ++i) + { + IQNetPlayer *pQNetPlayer = static_cast(GetPlayerByIndex(i))->GetQNetPlayer(); + + if(!pQNetPlayer->IsLocal()) + { + ZeroMemory(stat,32*sizeof(WCHAR)); + swprintf(stat, 32, L"%d: %d/", i, pQNetPlayer->GetCurrentRtt() ); + stats.append(stat); + } + } + return stats; +} + +void CPlatformNetworkManagerStub::TickSearch() +{ +#ifdef _WINDOWS64 + if (m_SessionsUpdatedCallback == nullptr) + return; + + static DWORD lastSearchTime = 0; + DWORD now = GetTickCount(); + if (now - lastSearchTime < 2000) + return; + lastSearchTime = now; + + SearchForGames(); +#endif +} + +void CPlatformNetworkManagerStub::SearchForGames() +{ +#ifdef _WINDOWS64 + std::vector lanSessions = WinsockNetLayer::GetDiscoveredSessions(); + + //THEY GET DELETED HERE DAMMIT + for (size_t i = 0; i < friendsSessions[0].size(); i++) + delete friendsSessions[0][i]; + friendsSessions[0].clear(); + + for (size_t i = 0; i < lanSessions.size(); i++) + { + FriendSessionInfo* info = new FriendSessionInfo(); + size_t nameLen = wcslen(lanSessions[i].hostName); + info->displayLabel = new wchar_t[nameLen + 1]; + wcscpy_s(info->displayLabel, nameLen + 1, lanSessions[i].hostName); + info->displayLabelLength = static_cast(nameLen); + info->displayLabelViewableStartIndex = 0; + + info->data.netVersion = lanSessions[i].netVersion; + info->data.m_uiGameHostSettings = lanSessions[i].gameHostSettings; + info->data.texturePackParentId = lanSessions[i].texturePackParentId; + info->data.subTexturePackId = lanSessions[i].subTexturePackId; + info->data.isReadyToJoin = lanSessions[i].isJoinable; + info->data.isJoinable = lanSessions[i].isJoinable; + strncpy_s(info->data.hostIP, sizeof(info->data.hostIP), lanSessions[i].hostIP, _TRUNCATE); + info->data.hostPort = lanSessions[i].hostPort; + wcsncpy_s(info->data.hostName, XUSER_NAME_SIZE, lanSessions[i].hostName, _TRUNCATE); + info->data.playerCount = lanSessions[i].playerCount; + info->data.maxPlayers = lanSessions[i].maxPlayers; + + info->sessionId = static_cast(inet_addr(lanSessions[i].hostIP)) | + static_cast(lanSessions[i].hostPort) << 32; + + friendsSessions[0].push_back(info); + } + + if (std::FILE* file = std::fopen("servers.db", "rb")) { + char magic[4] = {}; + if (std::fread(magic, 1, 4, file) == 4 && memcmp(magic, "MCSV", 4) == 0) + { + uint32_t version = 0, count = 0; + std::fread(&version, sizeof(uint32_t), 1, file); + std::fread(&count, sizeof(uint32_t), 1, file); + + if (version == 1) + { + for (uint32_t s = 0; s < count; s++) + { + uint16_t ipLen = 0, port = 0, nameLen = 0; + if (std::fread(&ipLen, sizeof(uint16_t), 1, file) != 1) break; + if (ipLen == 0 || ipLen > 256) break; + + char ipBuf[257] = {}; + if (std::fread(ipBuf, 1, ipLen, file) != ipLen) break; + if (std::fread(&port, sizeof(uint16_t), 1, file) != 1) break; + + if (std::fread(&nameLen, sizeof(uint16_t), 1, file) != 1) break; + if (nameLen > 256) break; + + char nameBuf[257] = {}; + if (nameLen > 0) + { + if (std::fread(nameBuf, 1, nameLen, file) != nameLen) break; + } + + wstring wName = convStringToWstring(nameBuf); + + FriendSessionInfo* info = new FriendSessionInfo(); + size_t nLen = wName.length(); + info->displayLabel = new wchar_t[nLen + 1]; + wcscpy_s(info->displayLabel, nLen + 1, wName.c_str()); + info->displayLabelLength = static_cast(nLen); + info->displayLabelViewableStartIndex = 0; + info->data.isReadyToJoin = true; + info->data.isJoinable = true; + strncpy_s(info->data.hostIP, sizeof(info->data.hostIP), ipBuf, _TRUNCATE); + info->data.hostPort = port; + info->sessionId = static_cast(inet_addr(ipBuf)) | static_cast(port) << 32; + friendsSessions[0].push_back(info); + } + } + } + std::fclose(file); + } + + m_searchResultsCount[0] = static_cast(friendsSessions[0].size()); + + if (m_SessionsUpdatedCallback != nullptr) + m_SessionsUpdatedCallback(m_pSearchParam); +#endif +} + +int CPlatformNetworkManagerStub::SearchForGamesThreadProc( void* lpParameter ) +{ + return 0; +} + +void CPlatformNetworkManagerStub::SetSearchResultsReady(int resultCount) +{ + m_bSearchResultsReady = true; + m_searchResultsCount[m_lastSearchPad] = resultCount; +} + +vector *CPlatformNetworkManagerStub::GetSessionList(int iPad, int localPlayers, bool partyOnly) +{ + vector* filteredList = new vector(); + for (size_t i = 0; i < friendsSessions[0].size(); i++) + filteredList->push_back(new FriendSessionInfo(*friendsSessions[0][i])); + return filteredList; +} + +bool CPlatformNetworkManagerStub::GetGameSessionInfo(int iPad, SessionID sessionId, FriendSessionInfo *foundSessionInfo) +{ + return false; +} + +void CPlatformNetworkManagerStub::SetSessionsUpdatedCallback( void (*SessionsUpdatedCallback)(LPVOID pParam), LPVOID pSearchParam ) +{ + m_SessionsUpdatedCallback = SessionsUpdatedCallback; m_pSearchParam = pSearchParam; +} + +void CPlatformNetworkManagerStub::GetFullFriendSessionInfo( FriendSessionInfo *foundSession, void (* FriendSessionUpdatedFn)(bool success, void *pParam), void *pParam ) +{ + FriendSessionUpdatedFn(true, pParam); +} + +void CPlatformNetworkManagerStub::ForceFriendsSessionRefresh() +{ + app.DebugPrintf("Resetting friends session search data\n"); + + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + m_searchResultsCount[i] = 0; + m_lastSearchStartTime[i] = 0; + delete m_pSearchResults[i]; + m_pSearchResults[i] = nullptr; + } +} + +INetworkPlayer *CPlatformNetworkManagerStub::addNetworkPlayer(IQNetPlayer *pQNetPlayer) +{ + NetworkPlayerXbox *pNetworkPlayer = new NetworkPlayerXbox(pQNetPlayer); + pQNetPlayer->SetCustomDataValue((ULONG_PTR)pNetworkPlayer); + currentNetworkPlayers.push_back( pNetworkPlayer ); + return pNetworkPlayer; +} + +void CPlatformNetworkManagerStub::removeNetworkPlayer(IQNetPlayer *pQNetPlayer) +{ + INetworkPlayer *pNetworkPlayer = getNetworkPlayer(pQNetPlayer); + for (auto it = currentNetworkPlayers.begin(); it != currentNetworkPlayers.end(); it++) + { + if( *it == pNetworkPlayer ) + { + currentNetworkPlayers.erase(it); + return; + } + } +} + +INetworkPlayer *CPlatformNetworkManagerStub::getNetworkPlayer(IQNetPlayer *pQNetPlayer) +{ + return pQNetPlayer ? (INetworkPlayer *)(pQNetPlayer->GetCustomDataValue()) : nullptr; +} + + +INetworkPlayer *CPlatformNetworkManagerStub::GetLocalPlayerByUserIndex(int userIndex ) +{ + return getNetworkPlayer(m_pIQNet->GetLocalPlayerByUserIndex(userIndex)); +} + +INetworkPlayer *CPlatformNetworkManagerStub::GetPlayerByIndex(int playerIndex) +{ + return getNetworkPlayer(m_pIQNet->GetPlayerByIndex(playerIndex)); +} + +INetworkPlayer * CPlatformNetworkManagerStub::GetPlayerByXuid(PlayerUID xuid) +{ + return getNetworkPlayer( m_pIQNet->GetPlayerByXuid(xuid)) ; +} + +INetworkPlayer * CPlatformNetworkManagerStub::GetPlayerBySmallId(unsigned char smallId) +{ + return getNetworkPlayer(m_pIQNet->GetPlayerBySmallId(smallId)); +} + +INetworkPlayer *CPlatformNetworkManagerStub::GetHostPlayer() +{ + return getNetworkPlayer(m_pIQNet->GetHostPlayer()); +} + +bool CPlatformNetworkManagerStub::IsHost() +{ + return m_pIQNet->IsHost() && !m_bHostChanged; +} + +bool CPlatformNetworkManagerStub::JoinGameFromInviteInfo( int userIndex, int userMask, const INVITE_INFO *pInviteInfo) +{ + return ( m_pIQNet->JoinGameFromInviteInfo( userIndex, userMask, pInviteInfo ) == S_OK); +} + +void CPlatformNetworkManagerStub::SetSessionTexturePackParentId( int id ) +{ + m_hostGameSessionData.texturePackParentId = id; +} + +void CPlatformNetworkManagerStub::SetSessionSubTexturePackId( int id ) +{ + m_hostGameSessionData.subTexturePackId = id; +} + +void CPlatformNetworkManagerStub::Notify(int ID, ULONG_PTR Param) +{ +} + +bool CPlatformNetworkManagerStub::IsInSession() +{ + return m_pIQNet->GetState() != QNET_STATE_IDLE; +} + +bool CPlatformNetworkManagerStub::IsInGameplay() +{ + return m_pIQNet->GetState() == QNET_STATE_GAME_PLAY; +} + +bool CPlatformNetworkManagerStub::IsReadyToPlayOrIdle() +{ + return true; +} diff --git a/Minecraft.Client/Common/Network/PlatformNetworkManagerStub.h b/Minecraft.Client/Common/Network/PlatformNetworkManagerStub.h new file mode 100644 index 0000000..e304fbc --- /dev/null +++ b/Minecraft.Client/Common/Network/PlatformNetworkManagerStub.h @@ -0,0 +1,176 @@ +#pragma once +using namespace std; +#include +#include "..\..\..\Minecraft.World\C4JThread.h" +#include "NetworkPlayerInterface.h" +#include "PlatformNetworkManagerInterface.h" +#include "SessionInfo.h" + +class CPlatformNetworkManagerStub : public CPlatformNetworkManager +{ + friend class CGameNetworkManager; +public: + virtual bool Initialise(CGameNetworkManager *pGameNetworkManager, int flagIndexSize); + virtual void Terminate(); + virtual int GetJoiningReadyPercentage(); + virtual int CorrectErrorIDS(int IDS); + + virtual void DoWork(); + virtual int GetPlayerCount(); + virtual int GetOnlinePlayerCount(); + virtual int GetLocalPlayerMask(int playerIndex); + virtual bool AddLocalPlayerByUserIndex( int userIndex ); + virtual bool RemoveLocalPlayerByUserIndex( int userIndex ); + virtual INetworkPlayer *GetLocalPlayerByUserIndex( int userIndex ); + virtual INetworkPlayer *GetPlayerByIndex(int playerIndex); + virtual INetworkPlayer * GetPlayerByXuid(PlayerUID xuid); + virtual INetworkPlayer * GetPlayerBySmallId(unsigned char smallId); + virtual bool ShouldMessageForFullSession(); + + virtual INetworkPlayer *GetHostPlayer(); + virtual bool IsHost(); + virtual bool JoinGameFromInviteInfo( int userIndex, int userMask, const INVITE_INFO *pInviteInfo); + virtual bool LeaveGame(bool bMigrateHost); + + virtual bool IsInSession(); + virtual bool IsInGameplay(); + virtual bool IsReadyToPlayOrIdle(); + virtual bool IsInStatsEnabledSession(); + virtual bool SessionHasSpace(unsigned int spaceRequired = 1); + virtual void SendInviteGUI(int quadrant); + virtual bool IsAddingPlayer(); + + virtual void HostGame(int localUsersMask, bool bOnlineGame, bool bIsPrivate, unsigned char publicSlots = (unsigned char)(MINECRAFT_NET_MAX_PLAYERS & 0xFF), unsigned char privateSlots = 0); + virtual int JoinGame(FriendSessionInfo *searchResult, int localUsersMask, int primaryUserIndex ); + virtual bool SetLocalGame(bool isLocal); + virtual bool IsLocalGame() { return m_bIsOfflineGame; } + virtual void SetPrivateGame(bool isPrivate); + virtual bool IsPrivateGame() { return m_bIsPrivateGame; } + virtual bool IsLeavingGame() { return m_bLeavingGame; } + virtual void ResetLeavingGame() { m_bLeavingGame = false; } + + virtual void RegisterPlayerChangedCallback(int iPad, void (*callback)(void *callbackParam, INetworkPlayer *pPlayer, bool leaving), void *callbackParam); + virtual void UnRegisterPlayerChangedCallback(int iPad, void (*callback)(void *callbackParam, INetworkPlayer *pPlayer, bool leaving), void *callbackParam); + + virtual void HandleSignInChange(); + + virtual bool _RunNetworkGame(); + +private: + bool isSystemPrimaryPlayer(IQNetPlayer *pQNetPlayer); + virtual bool _LeaveGame(bool bMigrateHost, bool bLeaveRoom); + virtual void _HostGame(int dwUsersMask, unsigned char publicSlots = (unsigned char)(MINECRAFT_NET_MAX_PLAYERS & 0xFF), unsigned char privateSlots = 0); + virtual bool _StartGame(); + + IQNet * m_pIQNet; // pointer to QNet interface + + HANDLE m_notificationListener; + + vector m_machineQNetPrimaryPlayers; // collection of players that we deem to be the main one for that system + + bool m_bLeavingGame; + bool m_bLeaveGameOnTick; + bool m_migrateHostOnLeave; + bool m_bHostChanged; + + bool m_bIsOfflineGame; + bool m_bIsPrivateGame; + int m_flagIndexSize; + + // This is only maintained by the host, and is not valid on client machines + GameSessionData m_hostGameSessionData; + CGameNetworkManager *m_pGameNetworkManager; +public: + virtual void UpdateAndSetGameSessionData(INetworkPlayer *pNetworkPlayerLeaving = nullptr); + +private: + // TODO 4J Stu - Do we need to be able to have more than one of these? + void (*playerChangedCallback[XUSER_MAX_COUNT])(void *callbackParam, INetworkPlayer *pPlayer, bool leaving); + void *playerChangedCallbackParam[XUSER_MAX_COUNT]; + + static int RemovePlayerOnSocketClosedThreadProc( void* lpParam ); + virtual bool RemoveLocalPlayer( INetworkPlayer *pNetworkPlayer ); + + // Things for handling per-system flags + class PlayerFlags + { + public: + INetworkPlayer *m_pNetworkPlayer; + unsigned char *flags; + unsigned int count; + int m_smallId; + PlayerFlags(INetworkPlayer *pNetworkPlayer, unsigned int count); + ~PlayerFlags(); + }; + vector m_playerFlags; + void SystemFlagAddPlayer(INetworkPlayer *pNetworkPlayer); + void SystemFlagRemovePlayer(INetworkPlayer *pNetworkPlayer); + void SystemFlagRemoveBySmallId(int smallId); + void SystemFlagReset(); +public: + virtual void SystemFlagSet(INetworkPlayer *pNetworkPlayer, int index); + virtual bool SystemFlagGet(INetworkPlayer *pNetworkPlayer, int index); + + // For telemetry +private: + float m_lastPlayerEventTimeStart; + +public: + wstring GatherStats(); + wstring GatherRTTStats(); + +private: + vector friendsSessions[XUSER_MAX_COUNT]; + int m_searchResultsCount[XUSER_MAX_COUNT]; + int m_lastSearchStartTime[XUSER_MAX_COUNT]; + + // The results that will be filled in with the current search + XSESSION_SEARCHRESULT_HEADER *m_pSearchResults[XUSER_MAX_COUNT]; + XNQOS *m_pQoSResult[XUSER_MAX_COUNT]; + + // The results from the previous search, which are currently displayed in the game + XSESSION_SEARCHRESULT_HEADER *m_pCurrentSearchResults[XUSER_MAX_COUNT]; + XNQOS *m_pCurrentQoSResult[XUSER_MAX_COUNT]; + int m_currentSearchResultsCount[XUSER_MAX_COUNT]; + + int m_lastSearchPad; + bool m_bSearchResultsReady; + bool m_bSearchPending; + LPVOID m_pSearchParam; + void (*m_SessionsUpdatedCallback)(LPVOID pParam); + + C4JThread* m_SearchingThread; + + void TickSearch(); + void SearchForGames(); + static int SearchForGamesThreadProc( void* lpParameter ); + + void SetSearchResultsReady(int resultCount = 0); + + vectorcurrentNetworkPlayers; + INetworkPlayer *addNetworkPlayer(IQNetPlayer *pQNetPlayer); + void removeNetworkPlayer(IQNetPlayer *pQNetPlayer); + static INetworkPlayer *getNetworkPlayer(IQNetPlayer *pQNetPlayer); + + virtual void SetSessionTexturePackParentId( int id ); + virtual void SetSessionSubTexturePackId( int id ); + virtual void Notify(int ID, ULONG_PTR Param); + +public: + virtual vector *GetSessionList(int iPad, int localPlayers, bool partyOnly); + virtual bool GetGameSessionInfo(int iPad, SessionID sessionId,FriendSessionInfo *foundSession); + virtual void SetSessionsUpdatedCallback( void (*SessionsUpdatedCallback)(LPVOID pParam), LPVOID pSearchParam ); + virtual void GetFullFriendSessionInfo( FriendSessionInfo *foundSession, void (* FriendSessionUpdatedFn)(bool success, void *pParam), void *pParam ); + virtual void ForceFriendsSessionRefresh(); + + // Win64: used by accept thread to reject connections when server is at max players (so we don't assign smallId > max). + bool CanAcceptMoreConnections(); + +public: + void NotifyPlayerJoined( IQNetPlayer *pQNetPlayer ); + void NotifyPlayerLeaving(IQNetPlayer* pQNetPlayer); + +#ifndef _XBOX + void FakeLocalPlayerJoined() { NotifyPlayerJoined(m_pIQNet->GetLocalPlayerByUserIndex(0)); } +#endif +}; diff --git a/Minecraft.Client/Common/Network/SessionInfo.h b/Minecraft.Client/Common/Network/SessionInfo.h new file mode 100644 index 0000000..44d190a --- /dev/null +++ b/Minecraft.Client/Common/Network/SessionInfo.h @@ -0,0 +1,154 @@ +#pragma once + +#if defined(__PS3__) || defined(__ORBIS__) +#include "..\..\Common\Network\Sony\SQRNetworkManager.h" +#endif + + +// A struct that we store in the QoS data when we are hosting the session. Max size 1020 bytes. +#ifdef _XBOX +typedef struct _GameSessionData +{ + unsigned short netVersion; // 2 bytes + char hostName[XUSER_NAME_SIZE]; // 16 bytes ( 16*1 ) + GameSessionUID hostPlayerUID; // 8 bytes ( 8*1 ) on xbox, 24 bytes on PS3 + GameSessionUID players[MINECRAFT_NET_MAX_PLAYERS]; // 64 bytes ( 8*8 ) on xbox, 192 ( 24*8) on PS3 + char szPlayers[MINECRAFT_NET_MAX_PLAYERS][XUSER_NAME_SIZE]; // 128 bytes ( 8*16) + unsigned int m_uiGameHostSettings; // 4 bytes + unsigned int texturePackParentId; // 4 bytes + unsigned char subTexturePackId; // 1 byte + + bool isJoinable; // 1 byte + + _GameSessionData() + { + netVersion = 0; + memset(hostName, 0, XUSER_NAME_SIZE); + memset(players, 0, MINECRAFT_NET_MAX_PLAYERS * sizeof(players[0])); + memset(szPlayers, 0, MINECRAFT_NET_MAX_PLAYERS * XUSER_NAME_SIZE); + isJoinable = true; + m_uiGameHostSettings = 0; + texturePackParentId = 0; + subTexturePackId = 0; + } +} GameSessionData; +#elif defined __PS3__ || defined __ORBIS__ || defined(__PSVITA__) +typedef struct _GameSessionData +{ + unsigned short netVersion; // 2 bytes + GameSessionUID hostPlayerUID; // 8 bytes ( 8*1 ) on xbox, 24 bytes on PS3 + GameSessionUID players[MINECRAFT_NET_MAX_PLAYERS]; // 64 bytes ( 8*8 ) on xbox, 192 ( 24*8) on PS3 + unsigned int m_uiGameHostSettings; // 4 bytes + unsigned int texturePackParentId; // 4 bytes + unsigned char subTexturePackId; // 1 byte + + bool isJoinable; // 1 byte + + unsigned char playerCount; // 1 byte + bool isReadyToJoin; // 1 byte + + _GameSessionData() + { + netVersion = 0; + memset(players, 0, MINECRAFT_NET_MAX_PLAYERS * sizeof(players[0])); + isJoinable = true; + m_uiGameHostSettings = 0; + texturePackParentId = 0; + subTexturePackId = 0; + playerCount = 0; + isReadyToJoin = false; + + } +} GameSessionData; +#else +typedef struct _GameSessionData +{ + unsigned short netVersion; + unsigned int m_uiGameHostSettings; + unsigned int texturePackParentId; + unsigned char subTexturePackId; + + bool isReadyToJoin; + bool isJoinable; + + char hostIP[64]; + int hostPort; + wchar_t hostName[XUSER_NAME_SIZE]; + unsigned char playerCount; + unsigned char maxPlayers; + + _GameSessionData() + { + netVersion = 0; + m_uiGameHostSettings = 0; + texturePackParentId = 0; + subTexturePackId = 0; + isReadyToJoin = false; + isJoinable = true; + memset(hostIP, 0, sizeof(hostIP)); + hostPort = 0; + memset(hostName, 0, sizeof(hostName)); + playerCount = 0; + maxPlayers = (unsigned char)(MINECRAFT_NET_MAX_PLAYERS & 0xFF); + } +} GameSessionData; +#endif + +class FriendSessionInfo +{ +public: + SessionID sessionId; +#ifdef _XBOX + XSESSION_SEARCHRESULT searchResult; +#elif defined(__PS3__) || defined(__ORBIS__) || defined (__PSVITA__) + SQRNetworkManager::SessionSearchResult searchResult; +#elif defined(_DURANGO) + DQRNetworkManager::SessionSearchResult searchResult; +#endif + wchar_t* displayLabel; + unsigned char displayLabelLength; + unsigned char displayLabelViewableStartIndex; + GameSessionData data; + bool hasPartyMember; + + FriendSessionInfo() + { + displayLabel = nullptr; + displayLabelLength = 0; + displayLabelViewableStartIndex = 0; + hasPartyMember = false; + } + + FriendSessionInfo(const FriendSessionInfo& other) + { + sessionId = other.sessionId; +#ifdef _XBOX + searchResult = other.searchResult; +#elif defined(__PS3__) || defined(__ORBIS__) || defined (__PSVITA__) + searchResult = other.searchResult; +#elif defined(_DURANGO) + searchResult = other.searchResult; +#endif + displayLabelLength = other.displayLabelLength; + displayLabelViewableStartIndex = other.displayLabelViewableStartIndex; + data = other.data; + hasPartyMember = other.hasPartyMember; + if (other.displayLabel != NULL) + { + displayLabel = new wchar_t[displayLabelLength + 1]; + wcscpy_s(displayLabel, displayLabelLength + 1, other.displayLabel); + } + else + { + displayLabel = NULL; + } + } + + FriendSessionInfo& operator=(const FriendSessionInfo&) = delete; + + ~FriendSessionInfo() + { + if (displayLabel != nullptr) + delete[] displayLabel; + } +}; diff --git a/Minecraft.Client/Common/Potion_Macros.h b/Minecraft.Client/Common/Potion_Macros.h new file mode 100644 index 0000000..d458ac4 --- /dev/null +++ b/Minecraft.Client/Common/Potion_Macros.h @@ -0,0 +1,56 @@ +#pragma once + +// 4J-JEV: +// All functional potions need bit-13 set. + +#define MASK_REGENERATION 0x2001 +#define MASK_SPEED 0x2002 +#define MASK_FIRE_RESISTANCE 0x2003 +#define MASK_POISON 0x2004 +#define MASK_INSTANTHEALTH 0x2005 +#define MASK_NIGHTVISION 0x2006 +#define MASK_INVISIBILITY 0x200E +#define MASK_WEAKNESS 0x2008 +#define MASK_STRENGTH 0x2009 +#define MASK_SLOWNESS 0x200A +#define MASK_INSTANTDAMAGE 0x200C + +#define MASK_TYPE_AWKWARD 0x0010 + +#define MASK_SPLASH 0x4000 +#define MASK_BIT13 0x2000 + +#define MASK_LEVEL2 0x0020 +#define MASK_EXTENDED 0x0040 +#define MASK_LEVEL2EXTENDED 0x0060 + +#define MACRO_POTION_IS_REGENERATION(aux) ((aux & 0x200F) == MASK_REGENERATION) +#define MACRO_POTION_IS_SPEED(aux) ((aux & 0x200F) == MASK_SPEED) +#define MACRO_POTION_IS_FIRE_RESISTANCE(aux) ((aux & 0x200F) == MASK_FIRE_RESISTANCE) +#define MACRO_POTION_IS_INSTANTHEALTH(aux) ((aux & 0x200F) == MASK_INSTANTHEALTH) +#define MACRO_POTION_IS_NIGHTVISION(aux) ((aux & 0x200F) == MASK_NIGHTVISION) +#define MACRO_POTION_IS_INVISIBILITY(aux) ((aux & 0x200F) == MASK_INVISIBILITY) +#define MACRO_POTION_IS_WEAKNESS(aux) ((aux & 0x200F) == MASK_WEAKNESS) +#define MACRO_POTION_IS_STRENGTH(aux) ((aux & 0x200F) == MASK_STRENGTH) +#define MACRO_POTION_IS_SLOWNESS(aux) ((aux & 0x200F) == MASK_SLOWNESS) +#define MACRO_POTION_IS_POISON(aux) ((aux & 0x200F) == MASK_POISON) +#define MACRO_POTION_IS_INSTANTDAMAGE(aux) ((aux & 0x200F) == MASK_INSTANTDAMAGE) +#define MACRO_POTION_IS_NIGHTVISION(aux) ((aux & 0x200F) == MASK_NIGHTVISION) +#define MACRO_POTION_IS_INVISIBILITY(aux) ((aux & 0x200F) == MASK_INVISIBILITY) + +#define MACRO_POTION_IS_SPLASH(aux) ((aux & MASK_SPLASH) == MASK_SPLASH) +#define MACRO_POTION_IS_BOTTLE(aux) ((aux & MASK_SPLASH) == 0) + +#define MACRO_POTION_IS_AKWARD(aux) ((aux & MASK_TYPE_AWKWARD) == MASK_TYPE_AWKWARD) + +#define MACRO_POTION_IS_REGULAR(aux) ((aux & (MASK_LEVEL2EXTENDED)) == 0) +#define MACRO_POTION_IS_LEVEL2(aux) ((aux & (MASK_LEVEL2 )) == MASK_LEVEL2) +#define MACRO_POTION_IS_EXTENDED(aux) ((aux & (MASK_EXTENDED)) == (MASK_EXTENDED)) +#define MACRO_POTION_IS_LEVEL2EXTENDED(aux) ((aux & (MASK_LEVEL2EXTENDED)) == (MASK_LEVEL2EXTENDED)) + + +#define MACRO_MAKEPOTION_AUXVAL(potion_type, potion_strength, potion_effect) (potion_type | potion_strength | potion_effect) + +// The potion brewing creates high aux values with redundant high bits, so use this to bring the aux val into ranges that match our macros +// 4J-JEV: 0x2000 == bit-13; Used to stop netherwart "resetting" functional potions. +#define NORMALISE_POTION_AUXVAL(aux) (aux & (MASK_BIT13 | MASK_SPLASH | 0xFF)) \ No newline at end of file diff --git a/Minecraft.Client/Common/Telemetry/TelemetryManager.cpp b/Minecraft.Client/Common/Telemetry/TelemetryManager.cpp new file mode 100644 index 0000000..e0cb664 --- /dev/null +++ b/Minecraft.Client/Common/Telemetry/TelemetryManager.cpp @@ -0,0 +1,445 @@ +#include "stdafx.h" + +#include "MultiPlayerLocalPlayer.h" + +#include "..\Minecraft.World\LevelSettings.h" +#include "..\Minecraft.World\LevelData.h" +#include "..\Minecraft.World\Level.h" + +#include "TelemetryManager.h" + +#if !defined(_DURANGO) && !defined(_XBOX) + +CTelemetryManager *TelemetryManager = new CTelemetryManager(); + +#endif + +HRESULT CTelemetryManager::Init() +{ + return S_OK; +} + +HRESULT CTelemetryManager::Tick() +{ + return S_OK; +} + +HRESULT CTelemetryManager::Flush() +{ + return S_OK; +} + +bool CTelemetryManager::RecordPlayerSessionStart(int iPad) +{ + return true; +} + +bool CTelemetryManager::RecordPlayerSessionExit(int iPad, int exitStatus) +{ + return true; +} + +bool CTelemetryManager::RecordHeartBeat(int iPad) +{ + return true; +} + +bool CTelemetryManager::RecordLevelStart(int iPad, ESen_FriendOrMatch friendsOrMatch, ESen_CompeteOrCoop competeOrCoop, int difficulty, int numberOfLocalPlayers, int numberOfOnlinePlayers) +{ + if(iPad == ProfileManager.GetPrimaryPad() ) m_bFirstFlush = true; + + ++m_levelInstanceID; + m_fLevelStartTime[iPad] = app.getAppTime(); + + return true; +} + +bool CTelemetryManager::RecordLevelExit(int iPad, ESen_LevelExitStatus levelExitStatus) +{ + return true; +} + +bool CTelemetryManager::RecordLevelSaveOrCheckpoint(int iPad, int saveOrCheckPointID, int saveSizeInBytes) +{ + return true; +} + +bool CTelemetryManager::RecordLevelResume(int iPad, ESen_FriendOrMatch friendsOrMatch, ESen_CompeteOrCoop competeOrCoop, int difficulty, int numberOfLocalPlayers, int numberOfOnlinePlayers, int saveOrCheckPointID) +{ + return true; +} + +bool CTelemetryManager::RecordPauseOrInactive(int iPad) +{ + return true; +} + +bool CTelemetryManager::RecordUnpauseOrActive(int iPad) +{ + return true; +} + +bool CTelemetryManager::RecordAchievementUnlocked(int iPad, int achievementID, int achievementGamerscore) +{ + return true; +} + +bool CTelemetryManager::RecordMediaShareUpload(int iPad, ESen_MediaDestination mediaDestination, ESen_MediaType mediaType) +{ + return true; +} + +bool CTelemetryManager::RecordUpsellPresented(int iPad, ESen_UpsellID upsellId, int marketplaceOfferID) +{ + return true; +} + +bool CTelemetryManager::RecordUpsellResponded(int iPad, ESen_UpsellID upsellId, int marketplaceOfferID, ESen_UpsellOutcome upsellOutcome) +{ + return true; +} + +bool CTelemetryManager::RecordPlayerDiedOrFailed(int iPad, int lowResMapX, int lowResMapY, int lowResMapZ, int mapID, int playerWeaponID, int enemyWeaponID, ETelemetryChallenges enemyTypeID) +{ + return true; +} + +bool CTelemetryManager::RecordEnemyKilledOrOvercome(int iPad, int lowResMapX, int lowResMapY, int lowResMapZ, int mapID, int playerWeaponID, int enemyWeaponID, ETelemetryChallenges enemyTypeID) +{ + return true; +} + +bool CTelemetryManager::RecordTexturePackLoaded(int iPad, int texturePackId, bool purchased) +{ + return true; +} + +bool CTelemetryManager::RecordSkinChanged(int iPad, int dwSkinId) +{ + return true; +} + +bool CTelemetryManager::RecordBanLevel(int iPad) +{ + return true; +} + +bool CTelemetryManager::RecordUnBanLevel(int iPad) +{ + return true; +} + + + /////////////////////////////////////////////////////////////////// + // 4J-JEV: FOLLOWING LOGIC TAKEN FROM XBOX 'SentientManager.cpp' // + /////////////////////////////////////////////////////////////////// + + +/* +Number of seconds elapsed since Sentient initialize. +Title needs to track this and report it as a property. +These times will be used to create timelines and understand durations. +This should be tracked independently of saved games (restoring a save should not reset the seconds since initialize) +*/ +INT CTelemetryManager::GetSecondsSinceInitialize() +{ + return static_cast(app.getAppTime() - m_initialiseTime); +} + +/* +An in-game setting that significantly differentiates the play style of the game. +(This should be captured as an integer and correspond to mode specific to the game.) +Teams will have to provide the game mappings that correspond to the integers. +The intent is to allow teams to capture data on the highest level categories of gameplay in their game. +For example, a game mode could be the name of the specific mini game (eg: golf vs darts) or a specific multiplayer mode (eg: hoard vs beast.) ModeID = 0 means undefined or unknown. +The intent is to answer the question "How are players playing your game?" +*/ +INT CTelemetryManager::GetMode(DWORD dwUserId) +{ + INT mode = (INT)eTelem_ModeId_Undefined; + + Minecraft *pMinecraft = Minecraft::GetInstance(); + + if( pMinecraft->localplayers[dwUserId] != nullptr && pMinecraft->localplayers[dwUserId]->level != nullptr && pMinecraft->localplayers[dwUserId]->level->getLevelData() != nullptr ) + { + GameType *gameType = pMinecraft->localplayers[dwUserId]->level->getLevelData()->getGameType(); + + if (gameType->isSurvival()) + { + mode = static_cast(eTelem_ModeId_Survival); + } + else if (gameType->isCreative()) + { + mode = static_cast(eTelem_ModeId_Creative); + } + else + { + mode = static_cast(eTelem_ModeId_Undefined); + } + } + return mode; +} + +/* +Used when a title has more heirarchy required. +OptionalSubMode ID = 0 means undefined or unknown. +For titles that have sub-modes (Sports/Football). +Mode is always an indicator of "How is the player choosing to play my game?" so these do not have to be consecutive. +LevelIDs and SubLevelIDs can be reused as they will always be paired with a Mode/SubModeID, Mode should be unique - SubMode can be shared between modes. +*/ +INT CTelemetryManager::GetSubMode(DWORD dwUserId) +{ + INT subMode = (INT)eTelem_SubModeId_Undefined; + + if(Minecraft::GetInstance()->isTutorial()) + { + subMode = static_cast(eTelem_SubModeId_Tutorial); + } + else + { + subMode = static_cast(eTelem_SubModeId_Normal); + } + + return subMode; +} + +/* +This is a more granular view of mode, allowing teams to get a sense of the levels or maps players are playing and providing some insight into how players progress through a game. +Teams will have to provide the game mappings that correspond to the integers. +The intent is that a level is highest level at which modes can be dissected and provides an indication of player progression in a game. +The intent is that level start and ends do not occur more than every 2 minutes or so, otherwise the data reported will be difficult to understand. +Levels are unique only within a given modeID - so you can have a ModeID =1, LevelID =1 and a different ModeID=2, LevelID = 1 indicate two completely different levels. +LevelID = 0 means undefined or unknown. +*/ +INT CTelemetryManager::GetLevelId(DWORD dwUserId) +{ + INT levelId = (INT)eTelem_LevelId_Undefined; + + levelId = static_cast(eTelem_LevelId_PlayerGeneratedLevel); + + return levelId; +} + +/* +Used when a title has more heirarchy required. OptionalSubLevel ID = 0 means undefined or unknown. +For titles that have sub-levels. +Level is always an indicator of "How far has the player progressed." so when possible these should be consecutive or at least monotonically increasing. +LevelIDs and SubLevelIDs can be reused as they will always be paired with a Mode/SubModeID +*/ +INT CTelemetryManager::GetSubLevelId(DWORD dwUserId) +{ + INT subLevelId = (INT)eTelem_SubLevelId_Undefined; + + Minecraft *pMinecraft = Minecraft::GetInstance(); + + if(pMinecraft->localplayers[dwUserId] != nullptr) + { + switch(pMinecraft->localplayers[dwUserId]->dimension) + { + case 0: + subLevelId = static_cast(eTelem_SubLevelId_Overworld); + break; + case -1: + subLevelId = static_cast(eTelem_SubLevelId_Nether); + break; + case 1: + subLevelId = static_cast(eTelem_SubLevelId_End); + break; + }; + } + + return subLevelId; +} + +/* +Build version of the title, used to track changes in development as well as patches/title updates +Allows developer to separate out stats from different builds +*/ +INT CTelemetryManager::GetTitleBuildId() +{ + return (INT)VER_PRODUCTBUILD; +} + +/* +Generated by the game every time LevelStart or LevelResume is called. +This should be a unique ID (can be sequential) within a session. +Helps differentiate level attempts when a play plays the same mode/level - especially with aggregated stats +*/ +INT CTelemetryManager::GetLevelInstanceID() +{ + return static_cast(m_levelInstanceID); +} + +/* +MultiplayerinstanceID is a title-generated value that is the same for all players in the same multiplayer session. +Link up players into a single multiplayer session ID. +*/ +INT CTelemetryManager::GetMultiplayerInstanceID() +{ + return m_multiplayerInstanceID; +} + +INT CTelemetryManager::GenerateMultiplayerInstanceId() +{ +#if defined(_DURANGO) || defined(_XBOX) + FILETIME SystemTimeAsFileTime; + GetSystemTimeAsFileTime( &SystemTimeAsFileTime ); + return *((INT *)&SystemTimeAsFileTime.dwLowDateTime); +#else + return 0; +#endif +} + +void CTelemetryManager::SetMultiplayerInstanceId(INT value) +{ + m_multiplayerInstanceID = value; +} + +/* +Indicates whether the game is being played in single or multiplayer mode and whether multiplayer is being played locally or over live. +How social is your game? How do people play it? +*/ +INT CTelemetryManager::GetSingleOrMultiplayer() +{ + INT singleOrMultiplayer = (INT)eSen_SingleOrMultiplayer_Undefined; + + // Unused + //eSen_SingleOrMultiplayer_Single_Player + //eSen_SingleOrMultiplayer_Multiplayer_Live + + if(app.GetLocalPlayerCount() == 1 && g_NetworkManager.GetOnlinePlayerCount() == 0) + { + singleOrMultiplayer = static_cast(eSen_SingleOrMultiplayer_Single_Player); + } + else if(app.GetLocalPlayerCount() > 1 && g_NetworkManager.GetOnlinePlayerCount() == 0) + { + singleOrMultiplayer = static_cast(eSen_SingleOrMultiplayer_Multiplayer_Local); + } + else if(app.GetLocalPlayerCount() == 1 && g_NetworkManager.GetOnlinePlayerCount() > 0) + { + singleOrMultiplayer = static_cast(eSen_SingleOrMultiplayer_Multiplayer_Live); + } + else if(app.GetLocalPlayerCount() > 1 && g_NetworkManager.GetOnlinePlayerCount() > 0) + { + singleOrMultiplayer = static_cast(eSen_SingleOrMultiplayer_Multiplayer_Both_Local_and_Live); + } + + return singleOrMultiplayer; +} + +/* +An in-game setting that differentiates the challenge imposed on the user. +Normalized to a standard 5-point scale. Are players changing the difficulty? +*/ +INT CTelemetryManager::GetDifficultyLevel(INT diff) +{ + INT difficultyLevel = (INT)eSen_DifficultyLevel_Undefined; + + switch(diff) + { + case 0: + difficultyLevel = static_cast(eSen_DifficultyLevel_Easiest); + break; + case 1: + difficultyLevel = static_cast(eSen_DifficultyLevel_Easier); + break; + case 2: + difficultyLevel = static_cast(eSen_DifficultyLevel_Normal); + break; + case 3: + difficultyLevel = static_cast(eSen_DifficultyLevel_Harder); + break; + } + + // Unused + //eSen_DifficultyLevel_Hardest = 5, + + return difficultyLevel; +} + +/* +Differentiates trial/demo from full purchased titles +Is this a full title or demo? +*/ +INT CTelemetryManager::GetLicense() +{ + INT license = eSen_License_Undefined; + + if(ProfileManager.IsFullVersion()) + { + license = static_cast(eSen_License_Full_Purchased_Title); + } + else + { + license = static_cast(eSen_License_Trial_or_Demo); + } + return license; +} + +/* +This is intended to capture whether players played using default control scheme or customized the control scheme. +Are players customizing your controls? +*/ +INT CTelemetryManager::GetDefaultGameControls() +{ + INT defaultGameControls = eSen_DefaultGameControls_Undefined; + + // Unused + //eSen_DefaultGameControls_Custom_controls + + defaultGameControls = eSen_DefaultGameControls_Default_controls; + + return defaultGameControls; +} + +/* +Are players changing default audio settings? +This is intended to capture whether players are playing with or without volume and whether they make changes from the default audio settings. +*/ +INT CTelemetryManager::GetAudioSettings(DWORD dwUserId) +{ + INT audioSettings = (INT)eSen_AudioSettings_Undefined; + + if(dwUserId == ProfileManager.GetPrimaryPad()) + { + BYTE volume = app.GetGameSettings(dwUserId,eGameSetting_SoundFXVolume); + + if(volume == 0) + { + audioSettings = static_cast(eSen_AudioSettings_Off); + } + else if(volume == DEFAULT_VOLUME_LEVEL) + { + audioSettings = static_cast(eSen_AudioSettings_On_Default); + } + else + { + audioSettings = static_cast(eSen_AudioSettings_On_CustomSetting); + } + } + return audioSettings; +} + +/* +Refers to the highest level performance metric for your game. +For example, a performance metric could points earned, race time, total kills, etc. +This is entirely up to you and will help us understand how well the player performed, or how far the player progressed  in the level before exiting. +How far did users progress before failing/exiting the level? +*/ +INT CTelemetryManager::GetLevelExitProgressStat1() +{ + // 4J Stu - Unused + return 0; +} + +/* +Refers to the highest level performance metric for your game. +For example, a performance metric could points earned, race time, total kills, etc. +This is entirely up to you and will help us understand how well the player performed, or how far the player progressed  in the level before exiting. +How far did users progress before failing/exiting the level? +*/ +INT CTelemetryManager::GetLevelExitProgressStat2() +{ + // 4J Stu - Unused + return 0; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Telemetry/TelemetryManager.h b/Minecraft.Client/Common/Telemetry/TelemetryManager.h new file mode 100644 index 0000000..d8a1b33 --- /dev/null +++ b/Minecraft.Client/Common/Telemetry/TelemetryManager.h @@ -0,0 +1,63 @@ +#pragma once + + +class CTelemetryManager +{ +public: + virtual HRESULT Init(); + virtual HRESULT Tick(); + virtual HRESULT Flush(); + + virtual bool RecordPlayerSessionStart(int iPad); + virtual bool RecordPlayerSessionExit(int iPad, int exitStatus); + virtual bool RecordHeartBeat(int iPad); + virtual bool RecordLevelStart(int iPad, ESen_FriendOrMatch friendsOrMatch, ESen_CompeteOrCoop competeOrCoop, int difficulty, int numberOfLocalPlayers, int numberOfOnlinePlayers); + virtual bool RecordLevelExit(int iPad, ESen_LevelExitStatus levelExitStatus); + virtual bool RecordLevelSaveOrCheckpoint(int iPad, int saveOrCheckPointID, int saveSizeInBytes); + virtual bool RecordLevelResume(int iPad, ESen_FriendOrMatch friendsOrMatch, ESen_CompeteOrCoop competeOrCoop, int difficulty, int numberOfLocalPlayers, int numberOfOnlinePlayers, int saveOrCheckPointID); + virtual bool RecordPauseOrInactive(int iPad); + virtual bool RecordUnpauseOrActive(int iPad); + virtual bool RecordAchievementUnlocked(int iPad, int achievementID, int achievementGamerscore); + virtual bool RecordMediaShareUpload(int iPad, ESen_MediaDestination mediaDestination, ESen_MediaType mediaType); + virtual bool RecordUpsellPresented(int iPad, ESen_UpsellID upsellId, int marketplaceOfferID); + virtual bool RecordUpsellResponded(int iPad, ESen_UpsellID upsellId, int marketplaceOfferID, ESen_UpsellOutcome upsellOutcome); + virtual bool RecordPlayerDiedOrFailed(int iPad, int lowResMapX, int lowResMapY, int lowResMapZ, int mapID, int playerWeaponID, int enemyWeaponID, ETelemetryChallenges enemyTypeID); + virtual bool RecordEnemyKilledOrOvercome(int iPad, int lowResMapX, int lowResMapY, int lowResMapZ, int mapID, int playerWeaponID, int enemyWeaponID, ETelemetryChallenges enemyTypeID); + virtual bool RecordTexturePackLoaded(int iPad, int texturePackId, bool purchased); + + virtual bool RecordSkinChanged(int iPad, int dwSkinId); + virtual bool RecordBanLevel(int iPad); + virtual bool RecordUnBanLevel(int iPad); + + virtual int GetMultiplayerInstanceID(); + virtual int GenerateMultiplayerInstanceId(); + virtual void SetMultiplayerInstanceId(int value); + +protected: + float m_initialiseTime; + float m_lastHeartbeat; + bool m_bFirstFlush; + + float m_fLevelStartTime[XUSER_MAX_COUNT]; + + INT m_multiplayerInstanceID; + DWORD m_levelInstanceID; + + // Helper functions to get the various common settings + INT GetSecondsSinceInitialize(); + INT GetMode(DWORD dwUserId); + INT GetSubMode(DWORD dwUserId); + INT GetLevelId(DWORD dwUserId); + INT GetSubLevelId(DWORD dwUserId); + INT GetTitleBuildId(); + INT GetLevelInstanceID(); + INT GetSingleOrMultiplayer(); + INT GetDifficultyLevel(INT diff); + INT GetLicense(); + INT GetDefaultGameControls(); + INT GetAudioSettings(DWORD dwUserId); + INT GetLevelExitProgressStat1(); + INT GetLevelExitProgressStat2(); +}; + +extern CTelemetryManager *TelemetryManager; \ No newline at end of file diff --git a/Minecraft.Client/Common/Trial/TrialLevel.mcs b/Minecraft.Client/Common/Trial/TrialLevel.mcs new file mode 100644 index 0000000..99b1738 Binary files /dev/null and b/Minecraft.Client/Common/Trial/TrialLevel.mcs differ diff --git a/Minecraft.Client/Common/Trial/TrialMode.cpp b/Minecraft.Client/Common/Trial/TrialMode.cpp new file mode 100644 index 0000000..e814913 --- /dev/null +++ b/Minecraft.Client/Common/Trial/TrialMode.cpp @@ -0,0 +1,9 @@ +#include "stdafx.h" +#include "TrialMode.h" +#include "..\Tutorial\FullTutorial.h" + +TrialMode::TrialMode(int iPad, Minecraft *minecraft, ClientConnection *connection) + : FullTutorialMode(iPad, minecraft, connection) +{ + tutorial = new FullTutorial(iPad, true); +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Trial/TrialMode.h b/Minecraft.Client/Common/Trial/TrialMode.h new file mode 100644 index 0000000..a1034ac --- /dev/null +++ b/Minecraft.Client/Common/Trial/TrialMode.h @@ -0,0 +1,10 @@ +#pragma once +#include "..\Tutorial\FullTutorialMode.h" + +class TrialMode : public FullTutorialMode +{ +public: + TrialMode(int iPad, Minecraft *minecraft, ClientConnection *connection); + + virtual bool isImplemented() { return true; } +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/AreaConstraint.cpp b/Minecraft.Client/Common/Tutorial/AreaConstraint.cpp new file mode 100644 index 0000000..f133d60 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/AreaConstraint.cpp @@ -0,0 +1,52 @@ +#include "stdafx.h" + +#include "..\..\Minecraft.h" +#include "..\..\MultiplayerLocalPlayer.h" +#include "AreaConstraint.h" +#include "..\..\..\Minecraft.World\AABB.h" + +AreaConstraint::AreaConstraint( int descriptionId, double x0, double y0, double z0, double x1, double y1, double z1, bool contains /*= true*/, bool restrictsMovement /*=true*/ ) + : TutorialConstraint( descriptionId ) +{ + messageArea = AABB::newPermanent(x0+2, y0+2, z0+2, x1-2, y1-2, z1-2); + movementArea = AABB::newPermanent(x0, y0, z0, x1, y1, z1); + + this->contains = contains; + m_restrictsMovement = restrictsMovement; +} + +AreaConstraint::~AreaConstraint() +{ + delete messageArea; + delete movementArea; +} + +bool AreaConstraint::isConstraintSatisfied(int iPad) +{ + Minecraft *minecraft = Minecraft::GetInstance(); + return messageArea->contains( minecraft->localplayers[iPad]->getPos(1) ) == contains; +} + +bool AreaConstraint::isConstraintRestrictive(int iPad) +{ + return m_restrictsMovement; +} + + +bool AreaConstraint::canMoveToPosition(double xo, double yo, double zo, double xt, double yt, double zt) +{ + if(!m_restrictsMovement) return true; + + Vec3 *targetPos = Vec3::newTemp(xt, yt, zt); + Minecraft *minecraft = Minecraft::GetInstance(); + + if(movementArea->contains( targetPos ) == contains) + { + return true; + } + Vec3 *origPos = Vec3::newTemp(xo, yo, zo); + + double currDist = origPos->distanceTo(movementArea); + double targetDist = targetPos->distanceTo(movementArea); + return targetDist < currDist; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/AreaConstraint.h b/Minecraft.Client/Common/Tutorial/AreaConstraint.h new file mode 100644 index 0000000..f98945e --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/AreaConstraint.h @@ -0,0 +1,24 @@ +#pragma once + +#include "TutorialConstraint.h" + +class AABB; + +class AreaConstraint : public TutorialConstraint +{ +private: + AABB *movementArea; + AABB *messageArea; + bool contains; // If true we must stay in this area, if false must stay out of this area + bool m_restrictsMovement; + +public: + virtual ConstraintType getType() { return e_ConstraintArea; } + + AreaConstraint( int descriptionId, double x0, double y0, double z0, double x1, double y1, double z1, bool contains = true, bool restrictsMovement =true ); + ~AreaConstraint(); + + virtual bool isConstraintSatisfied(int iPad); + virtual bool isConstraintRestrictive(int iPad); + virtual bool canMoveToPosition(double xo, double yo, double zo, double xt, double yt, double zt); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/AreaHint.cpp b/Minecraft.Client/Common/Tutorial/AreaHint.cpp new file mode 100644 index 0000000..8b711c8 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/AreaHint.cpp @@ -0,0 +1,49 @@ +#include "stdafx.h" + +#include "..\..\Minecraft.h" +#include "..\..\MultiplayerLocalPlayer.h" +#include "AreaHint.h" +#include "..\..\..\Minecraft.World\AABB.h" +#include "Tutorial.h" + +AreaHint::AreaHint(eTutorial_Hint id, Tutorial *tutorial, eTutorial_State displayState, eTutorial_State completeState, + int descriptionId, double x0, double y0, double z0, double x1, double y1, double z1, bool allowFade /*= false*/, bool contains /*= true*/ ) + : TutorialHint( id, tutorial, descriptionId, e_Hint_Area, allowFade ) +{ + area = AABB::newPermanent(x0, y0, z0, x1, y1, z1); + + this->contains = contains; + + m_displayState = displayState; + m_completeState = completeState; +} + +AreaHint::~AreaHint() +{ + delete area; +} + +int AreaHint::tick() +{ + Minecraft *minecraft = Minecraft::GetInstance(); + if( (m_displayState == e_Tutorial_State_Any || m_tutorial->getCurrentState() == m_displayState) && + m_hintNeeded && + area->contains( minecraft->player->getPos(1) ) == contains ) + { + if( m_completeState == e_Tutorial_State_None ) + { + m_hintNeeded = false; + } + else if ( m_tutorial->isStateCompleted( m_completeState ) ) + { + m_hintNeeded = false; + return -1; + } + + return m_descriptionId; + } + else + { + return -1; + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/AreaHint.h b/Minecraft.Client/Common/Tutorial/AreaHint.h new file mode 100644 index 0000000..12ef897 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/AreaHint.h @@ -0,0 +1,25 @@ +#pragma once + +#include "TutorialHint.h" + +class AABB; + +class AreaHint : public TutorialHint +{ +private: + AABB *area; + bool contains; // If true we must stay in this area, if false must stay out of this area + + // Only display the hint if the game is in this state + eTutorial_State m_displayState; + + // Only display the hint if this state is not completed + eTutorial_State m_completeState; + +public: + AreaHint(eTutorial_Hint id, Tutorial *tutorial, eTutorial_State displayState, eTutorial_State completeState, + int descriptionId, double x0, double y0, double z0, double x1, double y1, double z1, bool allowFade = true, bool contains = true ); + ~AreaHint(); + + virtual int tick(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/AreaTask.cpp b/Minecraft.Client/Common/Tutorial/AreaTask.cpp new file mode 100644 index 0000000..88cd3d2 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/AreaTask.cpp @@ -0,0 +1,68 @@ +#include "stdafx.h" +#include "Tutorial.h" +#include "AreaTask.h" + +AreaTask::AreaTask(eTutorial_State state, Tutorial *tutorial, vector *inConstraints, int descriptionId, EAreaTaskCompletionStates completionState) + : TutorialTask( tutorial, descriptionId, false, inConstraints, false, false, false ) +{ + m_tutorialState = state; + if(m_tutorialState == e_Tutorial_State_Gameplay) + { + enableConstraints(true); + } + m_completionState = completionState; +} + +bool AreaTask::isCompleted() +{ + if(bIsCompleted) return true; + + bool complete = false; + switch(m_completionState) + { + case eAreaTaskCompletion_CompleteOnConstraintsSatisfied: + { + bool allSatisfied = true; + for( auto& constraint : constraints ) + { + if(!constraint->isConstraintSatisfied(tutorial->getPad())) + { + allSatisfied = false; + break; + } + } + complete = allSatisfied; + } + break; + case eAreaTaskCompletion_CompleteOnActivation: + complete = bHasBeenActivated; + break; + }; + bIsCompleted = complete; + return complete; +} + +void AreaTask::setAsCurrentTask(bool active) +{ + TutorialTask::setAsCurrentTask(active); + + if(m_completionState == eAreaTaskCompletion_CompleteOnConstraintsSatisfied) + { + enableConstraints(active); + } +} + +void AreaTask::onStateChange(eTutorial_State newState) +{ + if(m_completionState == eAreaTaskCompletion_CompleteOnActivation) + { + if(m_tutorialState == newState) + { + enableConstraints(true); + } + else if(m_tutorialState != e_Tutorial_State_Gameplay) + { + //enableConstraints(false); + } + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/AreaTask.h b/Minecraft.Client/Common/Tutorial/AreaTask.h new file mode 100644 index 0000000..0d20bd7 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/AreaTask.h @@ -0,0 +1,24 @@ +#pragma once +using namespace std; + +#include "TutorialTask.h" + +// A task that creates an maintains an area constraint until it is activated +class AreaTask : public TutorialTask +{ +public: + enum EAreaTaskCompletionStates + { + eAreaTaskCompletion_CompleteOnActivation, + eAreaTaskCompletion_CompleteOnConstraintsSatisfied, + }; +private: + EAreaTaskCompletionStates m_completionState; + eTutorial_State m_tutorialState; +public: + AreaTask(eTutorial_State state, Tutorial *tutorial, vector *inConstraints, int descriptionId = -1, EAreaTaskCompletionStates completionState = eAreaTaskCompletion_CompleteOnActivation); + virtual bool isCompleted(); + virtual void setAsCurrentTask(bool active = true); + virtual void onStateChange(eTutorial_State newState); + +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/ChangeStateConstraint.cpp b/Minecraft.Client/Common/Tutorial/ChangeStateConstraint.cpp new file mode 100644 index 0000000..f3dd925 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/ChangeStateConstraint.cpp @@ -0,0 +1,134 @@ +#include "stdafx.h" + +#include "Tutorial.h" +#include "..\..\Minecraft.h" +#include "..\..\MultiplayerLocalPlayer.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "ChangeStateConstraint.h" +#include "..\..\..\Minecraft.World\AABB.h" +#include "..\..\ClientConnection.h" +#include "..\..\..\Minecraft.World\net.minecraft.network.packet.h" + +ChangeStateConstraint::ChangeStateConstraint( Tutorial *tutorial, eTutorial_State targetState, eTutorial_State sourceStates[], DWORD sourceStatesCount, + double x0, double y0, double z0, double x1, double y1, double z1, bool contains /*= true*/, bool changeGameMode /*= false*/, GameType *targetGameMode /*= 0*/ ) + : TutorialConstraint( -1 ) +{ + movementArea = AABB::newPermanent(x0, y0, z0, x1, y1, z1); + + this->contains = contains; + + m_changeGameMode = changeGameMode; + m_targetGameMode = targetGameMode; + m_changedFromGameMode = 0; + + m_tutorial = tutorial; + m_targetState = targetState; + m_sourceStatesCount = sourceStatesCount; + + m_bHasChanged = false; + m_changedFromState = e_Tutorial_State_None; + + m_bComplete = false; + + m_sourceStates = new eTutorial_State [m_sourceStatesCount]; + for(unsigned int i=0;i0) delete [] m_sourceStates; +} + +void ChangeStateConstraint::tick(int iPad) +{ + if(m_bComplete) return; + + if(m_tutorial->isStateCompleted(m_targetState)) + { + Minecraft *minecraft = Minecraft::GetInstance(); + if(m_changeGameMode) + { + unsigned int playerPrivs = minecraft->localplayers[iPad]->getAllPlayerGamePrivileges(); + Player::setPlayerGamePrivilege(playerPrivs,Player::ePlayerGamePrivilege_CreativeMode,m_changedFromGameMode == GameType::CREATIVE); + + unsigned int originalPrivileges = minecraft->localplayers[iPad]->getAllPlayerGamePrivileges(); + if(originalPrivileges != playerPrivs) + { + // Send update settings packet to server + Minecraft *pMinecraft = Minecraft::GetInstance(); + shared_ptr player = minecraft->localplayers[iPad]; + if(player != nullptr && player->connection && player->connection->getNetworkPlayer() != nullptr) + { + player->connection->send(std::make_shared(player->connection->getNetworkPlayer()->GetSmallId(), -1, playerPrivs)); + } + } + } + m_bComplete = true; + return; + } + + bool inASourceState = false; + Minecraft *minecraft = Minecraft::GetInstance(); + for(DWORD i = 0; i < m_sourceStatesCount; ++i) + { + if(m_sourceStates[i] == m_tutorial->getCurrentState()) + { + inASourceState = true; + break; + } + } + if( !m_bHasChanged && inASourceState && movementArea->contains( minecraft->localplayers[iPad]->getPos(1) ) == contains ) + { + m_bHasChanged = true; + m_changedFromState = m_tutorial->getCurrentState(); + + if(m_changeGameMode) + { + if(minecraft->localgameModes[iPad] != nullptr) + { + m_changedFromGameMode = minecraft->localplayers[iPad]->abilities.instabuild ? GameType::CREATIVE : GameType::SURVIVAL; + + unsigned int playerPrivs = minecraft->localplayers[iPad]->getAllPlayerGamePrivileges(); + Player::setPlayerGamePrivilege(playerPrivs,Player::ePlayerGamePrivilege_CreativeMode,m_targetGameMode == GameType::CREATIVE); + + unsigned int originalPrivileges = minecraft->localplayers[iPad]->getAllPlayerGamePrivileges(); + if(originalPrivileges != playerPrivs) + { + // Send update settings packet to server + Minecraft *pMinecraft = Minecraft::GetInstance(); + shared_ptr player = minecraft->localplayers[iPad]; + if(player != nullptr && player->connection && player->connection->getNetworkPlayer() != nullptr) + { + player->connection->send(std::make_shared(player->connection->getNetworkPlayer()->GetSmallId(), -1, playerPrivs)); + } + } + } + } + } + else if( m_bHasChanged && movementArea->contains( minecraft->localplayers[iPad]->getPos(1) ) != contains ) + { + m_bHasChanged = false; + + if(m_changeGameMode) + { + unsigned int playerPrivs = minecraft->localplayers[iPad]->getAllPlayerGamePrivileges(); + Player::setPlayerGamePrivilege(playerPrivs,Player::ePlayerGamePrivilege_CreativeMode,m_changedFromGameMode == GameType::CREATIVE); + + unsigned int originalPrivileges = minecraft->localplayers[iPad]->getAllPlayerGamePrivileges(); + if(originalPrivileges != playerPrivs) + { + // Send update settings packet to server + Minecraft *pMinecraft = Minecraft::GetInstance(); + shared_ptr player = minecraft->localplayers[iPad]; + if(player != nullptr && player->connection && player->connection->getNetworkPlayer() != nullptr) + { + player->connection->send(std::make_shared(player->connection->getNetworkPlayer()->GetSmallId(), -1, playerPrivs)); + } + } + } + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/ChangeStateConstraint.h b/Minecraft.Client/Common/Tutorial/ChangeStateConstraint.h new file mode 100644 index 0000000..e5f2d74 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/ChangeStateConstraint.h @@ -0,0 +1,37 @@ +#pragma once + +#include "TutorialEnum.h" +#include "TutorialConstraint.h" + +class AABB; +class Tutorial; +class GameType; + +class ChangeStateConstraint : public TutorialConstraint +{ +private: + AABB *movementArea; + bool contains; // If true we must stay in this area, if false must stay out of this area + bool m_changeGameMode; + GameType *m_targetGameMode; + GameType *m_changedFromGameMode; + + eTutorial_State m_targetState; + eTutorial_State *m_sourceStates; + DWORD m_sourceStatesCount; + + bool m_bHasChanged; + eTutorial_State m_changedFromState; + + bool m_bComplete; + + Tutorial *m_tutorial; + +public: + virtual ConstraintType getType() { return e_ConstraintChangeState; } + + ChangeStateConstraint( Tutorial *tutorial, eTutorial_State targetState, eTutorial_State sourceStates[], DWORD sourceStatesCount, double x0, double y0, double z0, double x1, double y1, double z1, bool contains = true, bool changeGameMode = false, GameType *targetGameMode = nullptr ); + ~ChangeStateConstraint(); + + virtual void tick(int iPad); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/ChoiceTask.cpp b/Minecraft.Client/Common/Tutorial/ChoiceTask.cpp new file mode 100644 index 0000000..254027c --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/ChoiceTask.cpp @@ -0,0 +1,150 @@ +#include "stdafx.h" +#include +#include +#include "..\..\Minecraft.h" +#include "..\..\MultiplayerLocalPlayer.h" +#include "Tutorial.h" +#include "TutorialConstraints.h" +#include "ChoiceTask.h" +#include "..\..\..\Minecraft.World\Material.h" +#include "..\..\Windows64\KeyboardMouseInput.h" + +ChoiceTask::ChoiceTask(Tutorial *tutorial, int descriptionId, int promptId /*= -1*/, bool requiresUserInput /*= false*/, + int iConfirmMapping /*= 0*/, int iCancelMapping /*= 0*/, + eTutorial_CompletionAction cancelAction /*= e_Tutorial_Completion_None*/, ETelemetryChallenges telemetryEvent /*= eTelemetryTutorial_NoEvent*/) + : TutorialTask( tutorial, descriptionId, false, nullptr, true, false, false ) +{ + if(requiresUserInput == true) + { + constraints.push_back( new InputConstraint( iConfirmMapping ) ); + constraints.push_back( new InputConstraint( iCancelMapping ) ); + } + m_iConfirmMapping = iConfirmMapping; + m_iCancelMapping = iCancelMapping; + m_bConfirmMappingComplete = false; + m_bCancelMappingComplete = false; + + m_cancelAction = cancelAction; + + m_promptId = promptId; + tutorial->addMessage( m_promptId ); + + m_eTelemetryEvent = telemetryEvent; +} + +bool ChoiceTask::isCompleted() +{ + Minecraft* pMinecraft = Minecraft::GetInstance(); + if (!pMinecraft || !pMinecraft->player) + return false; + + int xboxPad = pMinecraft->player->GetXboxPad(); + + if( m_bConfirmMappingComplete || m_bCancelMappingComplete ) + { + sendTelemetry(); + enableConstraints(false, true); + return true; + } + + + { + // If the player is under water then allow all keypresses so they can jump out + if (pMinecraft->localplayers[tutorial->getPad()]->isUnderLiquid(Material::water)) return false; +#ifdef _WINDOWS64 + if (!m_bConfirmMappingComplete && + (InputManager.GetValue(xboxPad, m_iConfirmMapping) > 0 + || g_KBMInput.IsKeyDown(VK_RETURN))) +#else + if (!m_bConfirmMappingComplete && + InputManager.GetValue(xboxPad, m_iConfirmMapping) > 0) +#endif + { + m_bConfirmMappingComplete = true; + } + +#ifdef _WINDOWS64 + if (!m_bCancelMappingComplete && + (InputManager.GetValue(xboxPad, m_iCancelMapping) > 0 + || g_KBMInput.IsKeyDown('B'))) +#else + if (!m_bCancelMappingComplete && + InputManager.GetValue(xboxPad, m_iCancelMapping) > 0) +#endif + { + m_bCancelMappingComplete = true; + } + + if (m_bConfirmMappingComplete || m_bCancelMappingComplete) + { + sendTelemetry(); + enableConstraints(false, true); + } + return m_bConfirmMappingComplete || m_bCancelMappingComplete; + } +} + +eTutorial_CompletionAction ChoiceTask::getCompletionAction() +{ + if(m_bCancelMappingComplete) + { + return m_cancelAction; + } + else + { + return e_Tutorial_Completion_None; + } +} + +int ChoiceTask::getPromptId() +{ + if( m_bShownForMinimumTime ) + return m_promptId; + else + return -1; +} + +void ChoiceTask::setAsCurrentTask(bool active /*= true*/) +{ + enableConstraints( active ); + TutorialTask::setAsCurrentTask(active); +} + +void ChoiceTask::handleUIInput(int iAction) +{ + if(bHasBeenActivated && m_bShownForMinimumTime) + { + if( iAction == m_iConfirmMapping) + { + m_bConfirmMappingComplete = true; + } + else if(iAction == m_iCancelMapping) + { + m_bCancelMappingComplete = true; + } + } +} + +void ChoiceTask::sendTelemetry() +{ + Minecraft *pMinecraft = Minecraft::GetInstance(); + + if( m_eTelemetryEvent != eTelemetryChallenges_Unknown ) + { + bool firstPlay = true; + // We only store first play for some of the events + switch(m_eTelemetryEvent) + { + case eTelemetryTutorial_TrialStart: + firstPlay = !tutorial->getCompleted( eTutorial_Telemetry_TrialStart ); + tutorial->setCompleted( eTutorial_Telemetry_TrialStart ); + break; + case eTelemetryTutorial_Halfway: + firstPlay = !tutorial->getCompleted( eTutorial_Telemetry_Halfway ); + tutorial->setCompleted( eTutorial_Telemetry_Halfway ); + break; + }; + + TelemetryManager->RecordEnemyKilledOrOvercome(pMinecraft->player->GetXboxPad(), 0, 0, 0, 0, 0, 0, m_eTelemetryEvent); + } +} diff --git a/Minecraft.Client/Common/Tutorial/ChoiceTask.h b/Minecraft.Client/Common/Tutorial/ChoiceTask.h new file mode 100644 index 0000000..79c2ba4 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/ChoiceTask.h @@ -0,0 +1,27 @@ +#pragma once +using namespace std; + +#include "TutorialTask.h" + +// Information messages with a choice +class ChoiceTask : public TutorialTask +{ +private: + int m_iConfirmMapping, m_iCancelMapping; + bool m_bConfirmMappingComplete, m_bCancelMappingComplete; + eTutorial_CompletionAction m_cancelAction; + + ETelemetryChallenges m_eTelemetryEvent; + + bool CompletionMaskIsValid(); +public: + ChoiceTask(Tutorial *tutorial, int descriptionId, int promptId = -1, bool requiresUserInput = false, int iConfirmMapping = 0, int iCancelMapping = 0, eTutorial_CompletionAction cancelAction = e_Tutorial_Completion_None, ETelemetryChallenges telemetryEvent = eTelemetryChallenges_Unknown); + virtual bool isCompleted(); + virtual eTutorial_CompletionAction getCompletionAction(); + virtual int getPromptId(); + virtual void setAsCurrentTask(bool active = true); + virtual void handleUIInput(int iAction); + +private: + void sendTelemetry(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/CompleteUsingItemTask.cpp b/Minecraft.Client/Common/Tutorial/CompleteUsingItemTask.cpp new file mode 100644 index 0000000..f2fb8c1 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/CompleteUsingItemTask.cpp @@ -0,0 +1,37 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\ItemInstance.h" +#include "CompleteUsingItemTask.h" + +CompleteUsingItemTask::CompleteUsingItemTask(Tutorial *tutorial, int descriptionId, int itemIds[], unsigned int itemIdsLength, bool enablePreCompletion) + : TutorialTask( tutorial, descriptionId, enablePreCompletion, nullptr) +{ + m_iValidItemsA= new int [itemIdsLength]; + for(int i=0;i item) +{ + if(!hasBeenActivated() && !isPreCompletionEnabled()) return; + for(int i=0;iid == m_iValidItemsA[i] ) + { + bIsCompleted = true; + break; + } + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/CompleteUsingItemTask.h b/Minecraft.Client/Common/Tutorial/CompleteUsingItemTask.h new file mode 100644 index 0000000..a905bea --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/CompleteUsingItemTask.h @@ -0,0 +1,20 @@ +#pragma once +using namespace std; + +#include "TutorialTask.h" + +class Level; + +class CompleteUsingItemTask : public TutorialTask +{ +private: + int *m_iValidItemsA; + int m_iValidItemsCount; + bool completed; + +public: + CompleteUsingItemTask(Tutorial *tutorial, int descriptionId, int itemIds[], unsigned int itemIdsLength, bool enablePreCompletion = false); + virtual ~CompleteUsingItemTask(); + virtual bool isCompleted(); + virtual void completeUsingItem(shared_ptr item); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/ControllerTask.cpp b/Minecraft.Client/Common/Tutorial/ControllerTask.cpp new file mode 100644 index 0000000..ddb0705 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/ControllerTask.cpp @@ -0,0 +1,131 @@ +#include "stdafx.h" +#include +#include +#include "..\..\Minecraft.h" +#include "..\..\MultiplayerLocalPlayer.h" +#include "Tutorial.h" +#include "TutorialConstraints.h" +#include "ControllerTask.h" + +ControllerTask::ControllerTask(Tutorial *tutorial, int descriptionId, bool enablePreCompletion, bool showMinimumTime, + int mappings[], unsigned int mappingsLength, int iCompletionMaskA[], int iCompletionMaskACount, int iSouthpawMappings[], unsigned int uiSouthpawMappingsCount) + : TutorialTask( tutorial, descriptionId, enablePreCompletion, nullptr, showMinimumTime ) +{ + for(unsigned int i = 0; i < mappingsLength; ++i) + { + constraints.push_back( new InputConstraint( mappings[i] ) ); + completedMappings[mappings[i]] = false; + } + if(uiSouthpawMappingsCount > 0 ) m_bHasSouthpaw = true; + for(unsigned int i = 0; i < uiSouthpawMappingsCount; ++i) + { + southpawCompletedMappings[iSouthpawMappings[i]] = false; + } + + m_iCompletionMaskA= new int [iCompletionMaskACount]; + for(int i=0;iplayer->GetXboxPad(),eGameSetting_ControlSouthPaw)) + { + for (auto& it : southpawCompletedMappings ) + { + bool current = it.second; + if(!current) + { + // TODO Use a different pad + if( InputManager.GetValue(pMinecraft->player->GetXboxPad(), it.first) > 0 ) + { + it.second = true; + m_uiCompletionMask|=1<player->GetXboxPad(), it.first) > 0 ) + { + it.second = true; + m_uiCompletionMask|=1< completedMappings; + unordered_map southpawCompletedMappings; + bool m_bHasSouthpaw; + unsigned int m_uiCompletionMask; + int *m_iCompletionMaskA; + int m_iCompletionMaskACount; + bool CompletionMaskIsValid(); +public: + ControllerTask(Tutorial *tutorial, int descriptionId, bool enablePreCompletion, bool showMinimumTime, + int mappings[], unsigned int mappingsLength, int iCompletionMaskA[]=nullptr, int iCompletionMaskACount=0, int iSouthpawMappings[]=nullptr, unsigned int uiSouthpawMappingsCount=0); + ~ControllerTask(); + virtual bool isCompleted(); + virtual void setAsCurrentTask(bool active = true); + +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/CraftTask.cpp b/Minecraft.Client/Common/Tutorial/CraftTask.cpp new file mode 100644 index 0000000..c96e687 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/CraftTask.cpp @@ -0,0 +1,66 @@ +#include "stdafx.h" +#include "CraftTask.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" + +CraftTask::CraftTask( int itemId, int auxValue, int quantity, + Tutorial *tutorial, int descriptionId, bool enablePreCompletion /*= true*/, vector *inConstraints /*= nullptr*/, + bool bShowMinimumTime /*=false*/, bool bAllowFade /*=true*/, bool m_bTaskReminders /*=true*/ ) + : TutorialTask(tutorial, descriptionId, enablePreCompletion, inConstraints, bShowMinimumTime, bAllowFade, m_bTaskReminders ), + m_quantity( quantity ), + m_count( 0 ) +{ + m_numItems = 1; + m_items = new int[1]; + m_items[0] = itemId; + m_auxValues = new int[1]; + m_auxValues[0] = auxValue; +} + +CraftTask::CraftTask( int *items, int *auxValues, int numItems, int quantity, + Tutorial *tutorial, int descriptionId, bool enablePreCompletion /*= true*/, vector *inConstraints /*= nullptr*/, + bool bShowMinimumTime /*=false*/, bool bAllowFade /*=true*/, bool m_bTaskReminders /*=true*/ ) + : TutorialTask(tutorial, descriptionId, enablePreCompletion, inConstraints, bShowMinimumTime, bAllowFade, m_bTaskReminders ), + m_quantity( quantity ), + m_count( 0 ) +{ + m_numItems = numItems; + m_items = new int[m_numItems]; + m_auxValues = new int[m_numItems]; + + for(int i = 0; i < m_numItems; ++i) + { + m_items[i] = items[i]; + m_auxValues[i] = auxValues[i]; + } +} + +CraftTask::~CraftTask() +{ + delete[] m_items; + delete[] m_auxValues; +} + +void CraftTask::onCrafted(shared_ptr item) +{ +#ifndef _CONTENT_PACKAGE + wprintf(L"CraftTask::onCrafted - %ls\n", item->toString().c_str() ); +#endif + bool itemFound = false; + for(int i = 0; i < m_numItems; ++i) + { + if(m_items[i] == item->id && (m_auxValues[i] == -1 || m_auxValues[i] == item->getAuxValue())) + { + itemFound = true; + break; + } + } + + if(itemFound) + { + ++m_count; + } + if( m_count >= m_quantity) + { + bIsCompleted = true; + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/CraftTask.h b/Minecraft.Client/Common/Tutorial/CraftTask.h new file mode 100644 index 0000000..4246711 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/CraftTask.h @@ -0,0 +1,25 @@ +#pragma once +#include "TutorialTask.h" + +class CraftTask : public TutorialTask +{ +public: + CraftTask( int itemId, int auxValue, int quantity, + Tutorial *tutorial, int descriptionId, bool enablePreCompletion = true, vector *inConstraints = nullptr, + bool bShowMinimumTime=false, bool bAllowFade=true, bool m_bTaskReminders=true ); + CraftTask( int *items, int *auxValues, int numItems, int quantity, + Tutorial *tutorial, int descriptionId, bool enablePreCompletion = true, vector *inConstraints = nullptr, + bool bShowMinimumTime=false, bool bAllowFade=true, bool m_bTaskReminders=true ); + + ~CraftTask(); + + virtual bool isCompleted() { return bIsCompleted; } + virtual void onCrafted(shared_ptr item); + +private: + int *m_items; + int *m_auxValues; + int m_numItems; + int m_quantity; + int m_count; +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/DiggerItemHint.cpp b/Minecraft.Client/Common/Tutorial/DiggerItemHint.cpp new file mode 100644 index 0000000..428bbe3 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/DiggerItemHint.cpp @@ -0,0 +1,76 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.entity.h" +#include "Tutorial.h" +#include "DiggerItemHint.h" + + +DiggerItemHint::DiggerItemHint(eTutorial_Hint id, Tutorial *tutorial, int descriptionId, int items[], unsigned int itemsLength) + : TutorialHint(id, tutorial, descriptionId, e_Hint_DiggerItem) +{ + m_iItemsCount = itemsLength; + + m_iItems= new int [m_iItemsCount]; + for(unsigned int i=0;iaddMessage(IDS_TUTORIAL_HINT_ATTACK_WITH_TOOL, true); +} + +int DiggerItemHint::startDestroyBlock(shared_ptr item, Tile *tile) +{ + if(item != nullptr) + { + bool itemFound = false; + for(unsigned int i=0;iid == m_iItems[i]) + { + itemFound = true; + break; + } + } + if(itemFound) + { + float speed = item->getDestroySpeed(tile); + if(speed == 1) + { + // Display hint + return m_descriptionId; + } + } + } + return -1; +} + +int DiggerItemHint::attack(shared_ptr item, shared_ptr entity) +{ + if(item != nullptr) + { + bool itemFound = false; + for(unsigned int i=0;iid == m_iItems[i]) + { + itemFound = true; + break; + } + } + if(itemFound) + { + // It's also possible that we could hit TileEntities (eg falling sand) so don't want to give this hint then + if( entity->instanceof(eTYPE_MOB) ) + { + return IDS_TUTORIAL_HINT_ATTACK_WITH_TOOL; + } + else + { + return -1; + } + } + } + return -1; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/DiggerItemHint.h b/Minecraft.Client/Common/Tutorial/DiggerItemHint.h new file mode 100644 index 0000000..cb71742 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/DiggerItemHint.h @@ -0,0 +1,18 @@ +#pragma once + +#include "TutorialHint.h" + +class DiggerItem; +class Level; + +class DiggerItemHint : public TutorialHint +{ +private: + int *m_iItems; + unsigned int m_iItemsCount; + +public: + DiggerItemHint(eTutorial_Hint id, Tutorial *tutorial, int descriptionId, int items[], unsigned int itemsLength); + virtual int startDestroyBlock(shared_ptr item, Tile *tile); + virtual int attack(shared_ptr item, shared_ptr entity); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/EffectChangedTask.cpp b/Minecraft.Client/Common/Tutorial/EffectChangedTask.cpp new file mode 100644 index 0000000..4a027b6 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/EffectChangedTask.cpp @@ -0,0 +1,31 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.effect.h" +#include "EffectChangedTask.h" + +EffectChangedTask::EffectChangedTask(Tutorial *tutorial, int descriptionId, MobEffect *effect, bool apply, + bool enablePreCompletion, bool bShowMinimumTime, bool bAllowFade, bool bTaskReminders ) + : TutorialTask(tutorial,descriptionId,enablePreCompletion,nullptr,bShowMinimumTime,bAllowFade,bTaskReminders) +{ + m_effect = effect; + m_apply = apply; +} + +bool EffectChangedTask::isCompleted() +{ + return bIsCompleted; +} + +void EffectChangedTask::onEffectChanged(MobEffect *effect, bool bRemoved /*=false*/) +{ + if(effect == m_effect) + { + if(m_apply == !bRemoved) + { + bIsCompleted = true; + } + else + { + bIsCompleted = false; + } + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/EffectChangedTask.h b/Minecraft.Client/Common/Tutorial/EffectChangedTask.h new file mode 100644 index 0000000..23563f3 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/EffectChangedTask.h @@ -0,0 +1,19 @@ +#pragma once +using namespace std; + +#include "TutorialTask.h" + +class MobEffect; + +class EffectChangedTask : public TutorialTask +{ +private: + MobEffect *m_effect; + bool m_apply; + +public: + EffectChangedTask(Tutorial *tutorial, int descriptionId, MobEffect *effect, bool apply = true, + bool enablePreCompletion = true, bool bShowMinimumTime = false, bool bAllowFade = true, bool bTaskReminders = true ); + virtual bool isCompleted(); + virtual void onEffectChanged(MobEffect *effect, bool bRemoved=false); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/FullTutorial.cpp b/Minecraft.Client/Common/Tutorial/FullTutorial.cpp new file mode 100644 index 0000000..a6e1ebb --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/FullTutorial.cpp @@ -0,0 +1,722 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.phys.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.effect.h" +#include "..\GameRules\ConsoleGameRules.h" +#include "DiggerItemHint.h" +#include "TutorialTasks.h" +#include "AreaHint.h" +#include "FullTutorial.h" +#include "TutorialConstraints.h" + +FullTutorial::FullTutorial(int iPad, bool isTrial /*= false*/) + : Tutorial(iPad, true) +{ + m_isTrial = isTrial; + m_freezeTime = true; + m_progressFlags = 0; + + for(unsigned int i = 0; i < e_Tutorial_State_Max; ++i) + { + m_completedStates[i] = false; + } + + addMessage(IDS_TUTORIAL_COMPLETED); + + /* + * + * + * GAMEPLAY + * + */ + // START OF BASIC TUTORIAL + if( m_isTrial ) + { + addTask(e_Tutorial_State_Gameplay, new ChoiceTask(this, IDS_TUTORIAL_TASK_OVERVIEW, IDS_TUTORIAL_PROMPT_START_TUTORIAL, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Jump_To_Last_Task, eTelemetryTutorial_TrialStart) ); + } + else + { +#ifdef _XBOX + if(getCompleted(eTutorial_Telemetry_Halfway) && !isStateCompleted(e_Tutorial_State_Redstone_And_Piston) ) + { + addTask(e_Tutorial_State_Gameplay, new ChoiceTask(this, IDS_TUTORIAL_NEW_FEATURES_CHOICE, IDS_TUTORIAL_PROMPT_NEW_FEATURES_CHOICE, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Jump_To_Last_Task, eTelemetryTutorial_TrialStart) ); + } + + addTask(e_Tutorial_State_Gameplay, new InfoTask(this, IDS_TUTORIAL_TASK_OVERVIEW, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); +#else + if(getCompleted(eTutorial_Telemetry_Halfway)) + { + addTask(e_Tutorial_State_Gameplay, new ChoiceTask(this, IDS_TUTORIAL_TASK_OVERVIEW, IDS_TUTORIAL_PROMPT_START_TUTORIAL, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Jump_To_Last_Task, eTelemetryTutorial_TrialStart) ); + } + else + { + addTask(e_Tutorial_State_Gameplay, new InfoTask(this, IDS_TUTORIAL_TASK_OVERVIEW, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } +#endif + } + + int lookMappings[] = {MINECRAFT_ACTION_LOOK_UP, MINECRAFT_ACTION_LOOK_DOWN, MINECRAFT_ACTION_LOOK_LEFT, MINECRAFT_ACTION_LOOK_RIGHT}; + int moveMappings[] = {MINECRAFT_ACTION_FORWARD, MINECRAFT_ACTION_BACKWARD, MINECRAFT_ACTION_LEFT, MINECRAFT_ACTION_RIGHT}; + int iLookCompletionMaskA[]= { 10, // 1010 + 9, // 1001 + 6, // 0110 + 5 // 0101 + }; + addTask(e_Tutorial_State_Gameplay, new ControllerTask( this, IDS_TUTORIAL_TASK_LOOK, false, false, lookMappings, 4, iLookCompletionMaskA, 4, moveMappings, 4) ); + + addTask(e_Tutorial_State_Gameplay, new ControllerTask( this, IDS_TUTORIAL_TASK_MOVE, false, false, moveMappings, 4, iLookCompletionMaskA, 4, lookMappings, 4) ); + + addTask(e_Tutorial_State_Gameplay, new InfoTask(this, IDS_TUTORIAL_TASK_SPRINT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + + int jumpMappings[] = {MINECRAFT_ACTION_JUMP}; + addTask(e_Tutorial_State_Gameplay, new ControllerTask( this, IDS_TUTORIAL_TASK_JUMP, false, true, jumpMappings, 1) ); + + int mineMappings[] = {MINECRAFT_ACTION_ACTION}; + addTask(e_Tutorial_State_Gameplay, new ControllerTask( this, IDS_TUTORIAL_TASK_MINE, false, true, mineMappings, 1) ); + addTask(e_Tutorial_State_Gameplay, new PickupTask( Tile::treeTrunk_Id, 4, -1, this, IDS_TUTORIAL_TASK_CHOP_WOOD ) ); + + int scrollMappings[] = {MINECRAFT_ACTION_LEFT_SCROLL,MINECRAFT_ACTION_RIGHT_SCROLL}; + //int scrollMappings[] = {ACTION_MENU_LEFT_SCROLL,ACTION_MENU_RIGHT_SCROLL}; + int iScrollCompletionMaskA[]= { 2, // 10 + 1};// 01 + addTask(e_Tutorial_State_Gameplay, new ControllerTask( this, IDS_TUTORIAL_TASK_SCROLL, false, false, scrollMappings, 2,iScrollCompletionMaskA,2) ); + + int invMappings[] = {MINECRAFT_ACTION_INVENTORY}; + addTask(e_Tutorial_State_Gameplay, new ControllerTask( this, IDS_TUTORIAL_TASK_INVENTORY, false, false, invMappings, 1) ); + addTask(e_Tutorial_State_Gameplay, new StateChangeTask( e_Tutorial_State_Inventory_Menu, this) ); + + addTask(e_Tutorial_State_Gameplay, new InfoTask(this, IDS_TUTORIAL_TASK_FOOD_BAR_DEPLETE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Gameplay, new InfoTask(this, IDS_TUTORIAL_TASK_FOOD_BAR_HEAL, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Gameplay, new InfoTask(this, IDS_TUTORIAL_TASK_FOOD_BAR_FEED, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + + // While they should only eat the item we give them, includ the ability to complete this task with different items + int foodItems[] = {Item::mushroomStew_Id, Item::apple_Id, Item::bread_Id, Item::porkChop_raw_Id, Item::porkChop_cooked_Id, + Item::apple_gold_Id, Item::fish_raw_Id, Item::fish_cooked_Id, Item::cookie_Id, Item::beef_cooked_Id, + Item::beef_raw_Id, Item::chicken_cooked_Id, Item::chicken_raw_Id, Item::melon_Id, Item::rotten_flesh_Id}; + addTask(e_Tutorial_State_Gameplay, new CompleteUsingItemTask(this, IDS_TUTORIAL_TASK_FOOD_BAR_EAT_STEAK, foodItems, 15, true) ); + + int crftMappings[] = {MINECRAFT_ACTION_CRAFTING}; + addTask(e_Tutorial_State_Gameplay, new ControllerTask( this, IDS_TUTORIAL_TASK_CRAFTING, false, false, crftMappings, 1) ); + + addTask(e_Tutorial_State_Gameplay, new ProgressFlagTask( &m_progressFlags, FULL_TUTORIAL_PROGRESS_2_X_2_Crafting, ProgressFlagTask::e_Progress_Set_Flag, this ) ); + addTask(e_Tutorial_State_Gameplay, new StateChangeTask( e_Tutorial_State_2x2Crafting_Menu, this) ); + + addTask(e_Tutorial_State_Gameplay, new CraftTask( Tile::wood_Id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_PLANKS) ); + addTask(e_Tutorial_State_Gameplay, new CraftTask( Tile::workBench_Id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_CRAFTING_TABLE) ); + + //int useMappings[] = {MINECRAFT_ACTION_USE}; + //addTask(e_Tutorial_State_Gameplay, new ControllerTask( this, IDS_TUTORIAL_TASK_USE, false, false, useMappings, 1) ); + addTask(e_Tutorial_State_Gameplay, new InfoTask(this, IDS_TUTORIAL_TASK_USE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Gameplay, new UseItemTask( Tile::workBench_Id, this, IDS_TUTORIAL_TASK_PLACE_WORKBENCH, true ) ); + + addTask(e_Tutorial_State_Gameplay, new InfoTask(this, IDS_TUTORIAL_TASK_NIGHT_DANGER, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Gameplay, new InfoTask(this, IDS_TUTORIAL_TASK_NEARBY_SHELTER, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Gameplay, new InfoTask(this, IDS_TUTORIAL_TASK_COLLECT_RESOURCES, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + + // END OF BASIC TUTORIAL + + addTask(e_Tutorial_State_Gameplay, new ChoiceTask(this, IDS_TUTORIAL_TASK_BASIC_COMPLETE, IDS_TUTORIAL_PROMPT_BASIC_COMPLETE, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Jump_To_Last_Task, eTelemetryTutorial_Halfway) ); + + // START OF FULL TUTORIAL + + addTask(e_Tutorial_State_Gameplay, new UseTileTask( Tile::workBench_Id, this, IDS_TUTORIAL_TASK_OPEN_WORKBENCH, false ) ); + + addTask(e_Tutorial_State_Gameplay, new ProgressFlagTask( &m_progressFlags, FULL_TUTORIAL_PROGRESS_3_X_3_Crafting, ProgressFlagTask::e_Progress_Set_Flag, this ) ); + addTask(e_Tutorial_State_Gameplay, new StateChangeTask( e_Tutorial_State_3x3Crafting_Menu, this) ); + + addTask(e_Tutorial_State_Gameplay, new CraftTask( Item::stick->id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_STICKS) ); + + int shovelItems[] = {Item::shovel_wood->id, Item::shovel_stone->id, Item::shovel_iron->id, Item::shovel_gold->id, Item::shovel_diamond->id}; + int shovelAuxVals[] = {-1,-1,-1,-1,-1}; + addTask(e_Tutorial_State_Gameplay, new CraftTask( shovelItems, shovelAuxVals, 5, 1, this, IDS_TUTORIAL_TASK_CREATE_WOODEN_SHOVEL) ); + + int hatchetItems[] = {Item::hatchet_wood->id, Item::hatchet_stone->id, Item::hatchet_iron->id, Item::hatchet_gold->id, Item::hatchet_diamond->id}; + int hatchetAuxVals[] = {-1,-1,-1,-1,-1}; + addTask(e_Tutorial_State_Gameplay, new CraftTask( hatchetItems, hatchetAuxVals, 5, 1, this, IDS_TUTORIAL_TASK_CREATE_WOODEN_HATCHET) ); + + int pickaxeItems[] = {Item::pickAxe_wood->id, Item::pickAxe_stone->id, Item::pickAxe_iron->id, Item::pickAxe_gold->id, Item::pickAxe_diamond->id}; + int pickaxeAuxVals[] = {-1,-1,-1,-1,-1}; + addTask(e_Tutorial_State_Gameplay, new CraftTask( pickaxeItems, pickaxeAuxVals, 5, 1, this, IDS_TUTORIAL_TASK_CREATE_WOODEN_PICKAXE) ); + + addTask(e_Tutorial_State_Gameplay, new PickupTask( Tile::cobblestone_Id, 8, -1, this, IDS_TUTORIAL_TASK_MINE_STONE ) ); + + addTask(e_Tutorial_State_Gameplay, new ProgressFlagTask( &m_progressFlags, FULL_TUTORIAL_PROGRESS_CRAFT_FURNACE, ProgressFlagTask::e_Progress_Set_Flag, this ) ); + addTask(e_Tutorial_State_Gameplay, new CraftTask( Tile::furnace_Id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_FURNACE ) ); + addTask(e_Tutorial_State_Gameplay, new UseTileTask(Tile::furnace_Id, this, IDS_TUTORIAL_TASK_PLACE_AND_OPEN_FURNACE) ); + + addTask(e_Tutorial_State_Gameplay, new ProgressFlagTask( &m_progressFlags, FULL_TUTORIAL_PROGRESS_USE_FURNACE, ProgressFlagTask::e_Progress_Set_Flag, this ) ); + addTask(e_Tutorial_State_Gameplay, new StateChangeTask( e_Tutorial_State_Furnace_Menu, this) ); + addTask(e_Tutorial_State_Gameplay, new CraftTask( Item::coal->id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_CHARCOAL) ); + addTask(e_Tutorial_State_Gameplay, new CraftTask( Tile::glass_Id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_GLASS) ); + addTask(e_Tutorial_State_Gameplay, new CraftTask( Item::door_wood->id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_WOODEN_DOOR) ); + addTask(e_Tutorial_State_Gameplay, new UseItemTask(Item::door_wood->id, this, IDS_TUTORIAL_TASK_PLACE_DOOR) ); + addTask(e_Tutorial_State_Gameplay, new CraftTask( Tile::torch_Id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_TORCH) ); + + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"tutorialArea"); + if(area != nullptr) + { + vector *areaConstraints = new vector(); + areaConstraints->push_back( new AreaConstraint( IDS_TUTORIAL_CONSTRAINT_TUTORIAL_AREA, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + addTask(e_Tutorial_State_Gameplay, new AreaTask(e_Tutorial_State_Gameplay,this, areaConstraints) ); + } + } + + // This MUST be the last task in the e_Tutorial_State_Gameplay state. Some of the earlier tasks will skip to the last + // task when complete, and this is the one that we want the player to see. + ProcedureCompoundTask *finalTask = new ProcedureCompoundTask( this ); + finalTask->AddTask( new InfoTask(this, IDS_TUTORIAL_COMPLETED, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A, eTelemetryTutorial_Complete) ); + // 4J Stu - Remove this string as it refers to things that don't exist in the current tutorial world! + //finalTask->AddTask( new InfoTask(this, IDS_TUTORIAL_FEATURES_IN_THIS_AREA, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + finalTask->AddTask( new InfoTask(this, IDS_TUTORIAL_FEATURES_OUTSIDE_THIS_AREA, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + finalTask->AddTask( new InfoTask(this, IDS_TUTORIAL_COMPLETED_EXPLORE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Gameplay, finalTask); + // END OF FULL TUTORIAL + + + /* + * + * + * INVENTORY + * + */ + // Some tasks already added in the super class ctor + addTask(e_Tutorial_State_Inventory_Menu, new FullTutorialActiveTask( this, e_Tutorial_Completion_Complete_State) ); + addTask(e_Tutorial_State_Inventory_Menu, new InfoTask(this, IDS_TUTORIAL_TASK_INV_EXIT, -1, false, ACTION_MENU_B) ); + + /* + * + * + * CRAFTING + * + */ + // Some tasks already added in the super class ctor + + addTask(e_Tutorial_State_2x2Crafting_Menu, new FullTutorialActiveTask( this, e_Tutorial_Completion_Complete_State) ); + // To block progress + addTask(e_Tutorial_State_2x2Crafting_Menu, new ProgressFlagTask( &m_progressFlags, FULL_TUTORIAL_PROGRESS_2_X_2_Crafting, ProgressFlagTask::e_Progress_Flag_On, this ) ); + + addTask(e_Tutorial_State_2x2Crafting_Menu, new FullTutorialActiveTask( this, e_Tutorial_Completion_Complete_State) ); + + addTask(e_Tutorial_State_2x2Crafting_Menu, new CraftTask( Tile::wood_Id, -1, 1, this, IDS_TUTORIAL_TASK_CRAFT_CREATE_PLANKS) ); + + ProcedureCompoundTask *workbenchCompound = new ProcedureCompoundTask( this ); + workbenchCompound->AddTask( new XuiCraftingTask( this, IDS_TUTORIAL_TASK_CRAFT_SELECT_STRUCTURES, Recipy::eGroupType_Structure) ); + workbenchCompound->AddTask( new XuiCraftingTask( this, IDS_TUTORIAL_TASK_CRAFT_SELECT_CRAFTING_TABLE, Tile::workBench_Id) ); + workbenchCompound->AddTask( new CraftTask( Tile::workBench_Id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_CRAFTING_TABLE) ); + addTask(e_Tutorial_State_2x2Crafting_Menu, workbenchCompound ); + addTask(e_Tutorial_State_2x2Crafting_Menu, new InfoTask(this, IDS_TUTORIAL_TASK_CRAFT_EXIT_AND_PLACE_TABLE, -1, false, ACTION_MENU_B) ); + + // 3x3 Crafting + addTask(e_Tutorial_State_3x3Crafting_Menu, new FullTutorialActiveTask( this, e_Tutorial_Completion_Complete_State) ); + + addTask(e_Tutorial_State_3x3Crafting_Menu, new ProgressFlagTask( &m_progressFlags, FULL_TUTORIAL_PROGRESS_3_X_3_Crafting, ProgressFlagTask::e_Progress_Flag_On, this ) ); + + addTask(e_Tutorial_State_3x3Crafting_Menu, new CraftTask( Item::stick->id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_STICKS) ); + + ProcedureCompoundTask *shovelCompound = new ProcedureCompoundTask( this ); + shovelCompound->AddTask( new XuiCraftingTask( this, IDS_TUTORIAL_TASK_CRAFT_SELECT_TOOLS, Recipy::eGroupType_Tool) ); + shovelCompound->AddTask( new XuiCraftingTask( this, IDS_TUTORIAL_TASK_CRAFT_SELECT_WOODEN_SHOVEL, Item::shovel_wood->id) ); + shovelCompound->AddTask( new CraftTask( shovelItems, shovelAuxVals, 5, 1, this, IDS_TUTORIAL_TASK_CREATE_WOODEN_SHOVEL) ); + addTask(e_Tutorial_State_3x3Crafting_Menu, shovelCompound ); + addTask(e_Tutorial_State_3x3Crafting_Menu, new CraftTask( hatchetItems, hatchetAuxVals, 5, 1, this, IDS_TUTORIAL_TASK_CREATE_WOODEN_HATCHET) ); + addTask(e_Tutorial_State_3x3Crafting_Menu, new CraftTask( pickaxeItems, pickaxeAuxVals, 5, 1, this, IDS_TUTORIAL_TASK_CREATE_WOODEN_PICKAXE) ); + + addTask(e_Tutorial_State_3x3Crafting_Menu, new InfoTask(this, IDS_TUTORIAL_TASK_CRAFT_TOOLS_BUILT, -1, false, ACTION_MENU_B) ); + + // To block progress + addTask(e_Tutorial_State_3x3Crafting_Menu, new ProgressFlagTask( &m_progressFlags, FULL_TUTORIAL_PROGRESS_CRAFT_FURNACE, ProgressFlagTask::e_Progress_Flag_On, this ) ); + + addTask(e_Tutorial_State_3x3Crafting_Menu, new CraftTask( Tile::furnace_Id, -1, 1, this, IDS_TUTORIAL_TASK_CRAFT_CREATE_FURNACE) ); + addTask(e_Tutorial_State_3x3Crafting_Menu, new InfoTask(this, IDS_TUTORIAL_TASK_CRAFT_EXIT_AND_PLACE_FURNACE, -1, false, ACTION_MENU_B) ); + + // No need to block here, as it's fine if the player wants to do this out of order + addTask(e_Tutorial_State_3x3Crafting_Menu, new CraftTask( Item::door_wood->id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_WOODEN_DOOR) ); + addTask(e_Tutorial_State_3x3Crafting_Menu, new CraftTask( Tile::torch_Id, -1, 1, this, IDS_TUTORIAL_TASK_CREATE_TORCH) ); + + /* + * + * + * FURNACE + * + */ + // Some tasks already added in the super class ctor + + addTask(e_Tutorial_State_Furnace_Menu, new FullTutorialActiveTask( this, e_Tutorial_Completion_Complete_State) ); + + // Blocking + addTask(e_Tutorial_State_Furnace_Menu, new ProgressFlagTask( &m_progressFlags, FULL_TUTORIAL_PROGRESS_USE_FURNACE, ProgressFlagTask::e_Progress_Flag_On, this ) ); + + addTask(e_Tutorial_State_Furnace_Menu, new CraftTask( Item::coal->id, -1, 1, this, IDS_TUTORIAL_TASK_FURNACE_CREATE_CHARCOAL) ); + addTask(e_Tutorial_State_Furnace_Menu, new InfoTask(this, IDS_TUTORIAL_TASK_FURNACE_CHARCOAL_USES, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Furnace_Menu, new CraftTask( Tile::glass_Id, -1, 1, this, IDS_TUTORIAL_TASK_FURNACE_CREATE_GLASS) ); + + /* + * + * + * BREWING + * + */ + + // To block progress + addTask(e_Tutorial_State_Brewing_Menu, new ProgressFlagTask( &m_progressFlags, EXTENDED_TUTORIAL_PROGRESS_USE_BREWING_STAND, ProgressFlagTask::e_Progress_Flag_On, this ) ); + + int potionItems[] = {Item::potion_Id,Item::potion_Id,Item::potion_Id,Item::potion_Id,Item::potion_Id,Item::potion_Id,Item::potion_Id,Item::potion_Id}; + int potionAuxVals[] = { MACRO_MAKEPOTION_AUXVAL(0, 0, MASK_FIRE_RESISTANCE), + MACRO_MAKEPOTION_AUXVAL(MASK_SPLASH, 0, MASK_FIRE_RESISTANCE), + MACRO_MAKEPOTION_AUXVAL(0, 0, MASK_FIRE_RESISTANCE), + MACRO_MAKEPOTION_AUXVAL(MASK_SPLASH, 0, MASK_FIRE_RESISTANCE), + MACRO_MAKEPOTION_AUXVAL(0, MASK_EXTENDED, MASK_FIRE_RESISTANCE), + MACRO_MAKEPOTION_AUXVAL(MASK_SPLASH, MASK_EXTENDED, MASK_FIRE_RESISTANCE), + MACRO_MAKEPOTION_AUXVAL(0, MASK_EXTENDED, MASK_FIRE_RESISTANCE), + MACRO_MAKEPOTION_AUXVAL(MASK_SPLASH, MASK_EXTENDED, MASK_FIRE_RESISTANCE) + }; + addTask(e_Tutorial_State_Brewing_Menu, new CraftTask( potionItems, potionAuxVals, 8, 1, this, IDS_TUTORIAL_TASK_BREWING_MENU_CREATE_FIRE_POTION) ); + addTask(e_Tutorial_State_Brewing_Menu, new InfoTask(this, IDS_TUTORIAL_TASK_BREWING_MENU_EXIT, -1, false, ACTION_MENU_B) ); + + /* + * + * + * MINECART + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"minecartArea"); + if(area != nullptr) + { + addHint(e_Tutorial_State_Gameplay, new AreaHint(e_Tutorial_Hint_Always_On, this, e_Tutorial_State_Gameplay, e_Tutorial_State_Riding_Minecart, IDS_TUTORIAL_HINT_MINECART, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1 ) ); + } + } + + /* + * + * + * BOAT + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"boatArea"); + if(area != nullptr) + { + addHint(e_Tutorial_State_Gameplay, new AreaHint(e_Tutorial_Hint_Always_On, this, e_Tutorial_State_Gameplay, e_Tutorial_State_Riding_Boat, IDS_TUTORIAL_HINT_BOAT, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1 ) ); + } + } + + /* + * + * + * FISHING + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"fishingArea"); + if(area != nullptr) + { + addHint(e_Tutorial_State_Gameplay, new AreaHint(e_Tutorial_Hint_Always_On, this, e_Tutorial_State_Gameplay, e_Tutorial_State_Fishing, IDS_TUTORIAL_HINT_FISHING, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1 ) ); + } + } + + /* + * + * + * PISTON - SELF-REPAIRING BRIDGE + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"pistonBridgeArea"); + if(area != nullptr) + { + addHint(e_Tutorial_State_Gameplay, new AreaHint(e_Tutorial_Hint_Always_On, this, e_Tutorial_State_Gameplay, e_Tutorial_State_None, IDS_TUTORIAL_HINT_PISTON_SELF_REPAIRING_BRIDGE, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1, true ) ); + } + } + + /* + * + * + * PISTON - PISTON AND REDSTONE CIRCUITS + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"pistonArea"); + if(area != nullptr) + { + eTutorial_State redstoneAndPistonStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Redstone_And_Piston, redstoneAndPistonStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Redstone_And_Piston, new ChoiceTask(this, IDS_TUTORIAL_REDSTONE_OVERVIEW, IDS_TUTORIAL_PROMPT_REDSTONE_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Redstone_And_Pistons) ); + addTask(e_Tutorial_State_Redstone_And_Piston, new InfoTask(this, IDS_TUTORIAL_TASK_REDSTONE_POWER_SOURCES, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Redstone_And_Piston, new InfoTask(this, IDS_TUTORIAL_TASK_REDSTONE_TRIPWIRE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Redstone_And_Piston, new InfoTask(this, IDS_TUTORIAL_TASK_REDSTONE_POWER_SOURCES_POSITION, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Redstone_And_Piston, new InfoTask(this, IDS_TUTORIAL_TASK_REDSTONE_DUST, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Redstone_And_Piston, new InfoTask(this, IDS_TUTORIAL_TASK_REDSTONE_REPEATER, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Redstone_And_Piston, new InfoTask(this, IDS_TUTORIAL_TASK_PISTONS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Redstone_And_Piston, new InfoTask(this, IDS_TUTORIAL_TASK_TRY_IT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * PORTAL + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"portalArea"); + if(area != nullptr) + { + eTutorial_State portalStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Portal, portalStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Portal, new ChoiceTask(this, IDS_TUTORIAL_PORTAL_OVERVIEW, IDS_TUTORIAL_PROMPT_PORTAL_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Portal) ); + addTask(e_Tutorial_State_Portal, new InfoTask(this, IDS_TUTORIAL_TASK_BUILD_PORTAL, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Portal, new InfoTask(this, IDS_TUTORIAL_TASK_ACTIVATE_PORTAL, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Portal, new InfoTask(this, IDS_TUTORIAL_TASK_USE_PORTAL, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Portal, new InfoTask(this, IDS_TUTORIAL_TASK_NETHER, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Portal, new InfoTask(this, IDS_TUTORIAL_TASK_NETHER_FAST_TRAVEL, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * CREATIVE + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"creativeArea"); + if(area != nullptr) + { + eTutorial_State creativeStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_CreativeMode, creativeStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1,true,true,GameType::CREATIVE) ); + + addTask(e_Tutorial_State_CreativeMode, new ChoiceTask(this, IDS_TUTORIAL_CREATIVE_OVERVIEW, IDS_TUTORIAL_PROMPT_CREATIVE_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Jump_To_Last_Task, eTelemetryTutorial_CreativeMode) ); + addTask(e_Tutorial_State_CreativeMode, new InfoTask(this, IDS_TUTORIAL_TASK_CREATIVE_MODE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_CreativeMode, new InfoTask(this, IDS_TUTORIAL_TASK_FLY, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + + int crftMappings[] = {MINECRAFT_ACTION_CRAFTING}; + addTask(e_Tutorial_State_CreativeMode, new ControllerTask( this, IDS_TUTORIAL_TASK_OPEN_CREATIVE_INVENTORY, false, false, crftMappings, 1) ); + addTask(e_Tutorial_State_CreativeMode, new StateChangeTask( e_Tutorial_State_Creative_Inventory_Menu, this) ); + + // This last task ensures that the player is still in creative mode until they exit the area (but could skip the previous instructional stuff) + ProcedureCompoundTask *creativeFinalTask = new ProcedureCompoundTask( this ); + + AABB *exitArea = app.getGameRuleDefinitions()->getNamedArea(L"creativeExitArea"); + if(exitArea != nullptr) + { + vector *creativeExitAreaConstraints = new vector(); + creativeExitAreaConstraints->push_back( new AreaConstraint( -1, exitArea->x0,exitArea->y0,exitArea->z0,exitArea->x1,exitArea->y1,exitArea->z1,true,false) ); + creativeFinalTask->AddTask( new AreaTask(e_Tutorial_State_CreativeMode, this, creativeExitAreaConstraints,IDS_TUTORIAL_TASK_CREATIVE_EXIT,AreaTask::eAreaTaskCompletion_CompleteOnConstraintsSatisfied) ); + } + + vector *creativeAreaConstraints = new vector(); + creativeAreaConstraints->push_back( new AreaConstraint( IDS_TUTORIAL_CONSTRAINT_TUTORIAL_AREA, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + creativeFinalTask->AddTask( new AreaTask(e_Tutorial_State_CreativeMode, this, creativeAreaConstraints) ); + + creativeFinalTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CREATIVE_COMPLETE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + + addTask(e_Tutorial_State_CreativeMode,creativeFinalTask); + } + } + + /* + * + * + * BREWING + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"brewingArea"); + if(area != nullptr) + { + eTutorial_State brewingStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Brewing, brewingStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Brewing, new ChoiceTask(this, IDS_TUTORIAL_TASK_BREWING_OVERVIEW, IDS_TUTORIAL_PROMPT_BREWING_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Brewing) ); + + ProcedureCompoundTask *fillWaterBottleTask = new ProcedureCompoundTask( this ); + fillWaterBottleTask->AddTask( new PickupTask( Item::glassBottle_Id, 1, -1, this, IDS_TUTORIAL_TASK_BREWING_GET_GLASS_BOTTLE ) ); + fillWaterBottleTask->AddTask( new PickupTask( Item::potion_Id, 1, 0, this, IDS_TUTORIAL_TASK_BREWING_FILL_GLASS_BOTTLE ) ); + addTask(e_Tutorial_State_Brewing, fillWaterBottleTask); + + addTask(e_Tutorial_State_Brewing, new InfoTask(this, IDS_TUTORIAL_TASK_BREWING_FILL_CAULDRON, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + + + addTask(e_Tutorial_State_Brewing, new ProgressFlagTask( &m_progressFlags, EXTENDED_TUTORIAL_PROGRESS_USE_BREWING_STAND, ProgressFlagTask::e_Progress_Set_Flag, this ) ); + addTask(e_Tutorial_State_Brewing, new CraftTask( potionItems, potionAuxVals, 8, 1, this, IDS_TUTORIAL_TASK_BREWING_CREATE_FIRE_POTION) ); + + addTask(e_Tutorial_State_Brewing, new InfoTask(this, IDS_TUTORIAL_TASK_BREWING_USE_POTION, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Brewing, new EffectChangedTask(this, IDS_TUTORIAL_TASK_BREWING_DRINK_FIRE_POTION, MobEffect::fireResistance) ); + addTask(e_Tutorial_State_Brewing, new InfoTask(this, IDS_TUTORIAL_TASK_BREWING_USE_EFFECTS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * ENCHANTING + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"enchantingArea"); + if(area != nullptr) + { + eTutorial_State enchantingStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Enchanting, enchantingStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Enchanting, new ChoiceTask(this, IDS_TUTORIAL_TASK_ENCHANTING_OVERVIEW, IDS_TUTORIAL_PROMPT_ENCHANTING_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Enchanting) ); + + addTask(e_Tutorial_State_Enchanting, new InfoTask(this, IDS_TUTORIAL_TASK_ENCHANTING_SUMMARY, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Enchanting, new InfoTask(this, IDS_TUTORIAL_TASK_ENCHANTING_BOOKS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Enchanting, new InfoTask(this, IDS_TUTORIAL_TASK_ENCHANTING_BOOKCASES, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Enchanting, new InfoTask(this, IDS_TUTORIAL_TASK_ENCHANTING_EXPERIENCE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Enchanting, new InfoTask(this, IDS_TUTORIAL_TASK_ENCHANTING_BOTTLE_O_ENCHANTING, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Enchanting, new InfoTask(this, IDS_TUTORIAL_TASK_ENCHANTING_USE_CHESTS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * ANVIL + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"anvilArea"); + if(area != nullptr) + { + eTutorial_State enchantingStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Anvil, enchantingStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Anvil, new ChoiceTask(this, IDS_TUTORIAL_TASK_ANVIL_OVERVIEW, IDS_TUTORIAL_PROMPT_ANVIL_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Anvil) ); + + addTask(e_Tutorial_State_Anvil, new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_SUMMARY, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Anvil, new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_ENCHANTED_BOOKS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Anvil, new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_COST, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Anvil, new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_COST2, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Anvil, new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_RENAMING, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Anvil, new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_USE_CHESTS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * TRADING + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"tradingArea"); + if(area != nullptr) + { + eTutorial_State tradingStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Trading, tradingStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Trading, new ChoiceTask(this, IDS_TUTORIAL_TASK_TRADING_OVERVIEW, IDS_TUTORIAL_PROMPT_TRADING_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Trading) ); + + addTask(e_Tutorial_State_Trading, new InfoTask(this, IDS_TUTORIAL_TASK_TRADING_SUMMARY, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Trading, new InfoTask(this, IDS_TUTORIAL_TASK_TRADING_TRADES, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Trading, new InfoTask(this, IDS_TUTORIAL_TASK_TRADING_INCREASE_TRADES, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Trading, new InfoTask(this, IDS_TUTORIAL_TASK_TRADING_DECREASE_TRADES, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Trading, new InfoTask(this, IDS_TUTORIAL_TASK_TRADING_USE_CHESTS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * FIREWORKS + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"fireworksArea"); + if(area != nullptr) + { + eTutorial_State fireworkStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Fireworks, fireworkStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Fireworks, new ChoiceTask(this, IDS_TUTORIAL_TASK_FIREWORK_OVERVIEW, IDS_TUTORIAL_PROMPT_FIREWORK_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Trading) ); + + addTask(e_Tutorial_State_Fireworks, new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_PURPOSE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Fireworks, new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_CUSTOMISE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); // + addTask(e_Tutorial_State_Fireworks, new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_CRAFTING, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * BEACON + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"beaconArea"); + if(area != nullptr) + { + eTutorial_State beaconStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Beacon, beaconStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Beacon, new ChoiceTask(this, IDS_TUTORIAL_TASK_BEACON_OVERVIEW, IDS_TUTORIAL_PROMPT_BEACON_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Beacon) ); + + addTask(e_Tutorial_State_Beacon, new InfoTask(this, IDS_TUTORIAL_TASK_BEACON_PURPOSE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Beacon, new InfoTask(this, IDS_TUTORIAL_TASK_BEACON_DESIGN, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Beacon, new InfoTask(this, IDS_TUTORIAL_TASK_BEACON_CHOOSING_POWERS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * HOPPER + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"hopperArea"); + if(area != nullptr) + { + eTutorial_State hopperStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Hopper, hopperStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Hopper, new ChoiceTask(this, IDS_TUTORIAL_TASK_HOPPER_OVERVIEW, IDS_TUTORIAL_PROMPT_HOPPER_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Hopper) ); + + addTask(e_Tutorial_State_Hopper, new InfoTask(this, IDS_TUTORIAL_TASK_HOPPER_PURPOSE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Hopper, new InfoTask(this, IDS_TUTORIAL_TASK_HOPPER_CONTAINERS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Hopper, new InfoTask(this, IDS_TUTORIAL_TASK_HOPPER_MECHANICS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Hopper, new InfoTask(this, IDS_TUTORIAL_TASK_HOPPER_REDSTONE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Hopper, new InfoTask(this, IDS_TUTORIAL_TASK_HOPPER_OUTPUT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Hopper, new InfoTask(this, IDS_TUTORIAL_TASK_HOPPER_AREA, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * ENDERCHEST + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"enderchestArea"); + if(area != nullptr) + { + eTutorial_State enchantingStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Enderchests, enchantingStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Enderchests, new ChoiceTask(this, IDS_TUTORIAL_TASK_ENDERCHEST_OVERVIEW, IDS_TUTORIAL_PROMPT_ENDERCHEST_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Enderchest) ); + + addTask(e_Tutorial_State_Enderchests, new InfoTask(this, IDS_TUTORIAL_TASK_ENDERCHEST_SUMMARY, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Enderchests, new InfoTask(this, IDS_TUTORIAL_TASK_ENDERCHEST_PLAYERS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Enderchests, new InfoTask(this, IDS_TUTORIAL_TASK_ENDERCHEST_FUNCTION, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * FARMING + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"farmingArea"); + if(area != nullptr) + { + eTutorial_State farmingStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Farming, farmingStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Farming, new ChoiceTask(this, IDS_TUTORIAL_FARMING_OVERVIEW, IDS_TUTORIAL_PROMPT_FARMING_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Farming) ); + + addTask(e_Tutorial_State_Farming, new InfoTask(this, IDS_TUTORIAL_TASK_FARMING_SEEDS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Farming, new InfoTask(this, IDS_TUTORIAL_TASK_FARMING_FARMLAND, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Farming, new InfoTask(this, IDS_TUTORIAL_TASK_FARMING_WHEAT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Farming, new InfoTask(this, IDS_TUTORIAL_TASK_FARMING_PUMPKIN_AND_MELON, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Farming, new InfoTask(this, IDS_TUTORIAL_TASK_FARMING_CARROTS_AND_POTATOES, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Farming, new InfoTask(this, IDS_TUTORIAL_TASK_FARMING_SUGARCANE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Farming, new InfoTask(this, IDS_TUTORIAL_TASK_FARMING_CACTUS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Farming, new InfoTask(this, IDS_TUTORIAL_TASK_FARMING_MUSHROOM, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Farming, new InfoTask(this, IDS_TUTORIAL_TASK_FARMING_BONEMEAL, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Farming, new InfoTask(this, IDS_TUTORIAL_TASK_FARMING_COMPLETE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * BREEDING + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"breedingArea"); + if(area != nullptr) + { + eTutorial_State breedingStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Breeding, breedingStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Breeding, new ChoiceTask(this, IDS_TUTORIAL_BREEDING_OVERVIEW, IDS_TUTORIAL_PROMPT_BREEDING_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Breeding) ); + + addTask(e_Tutorial_State_Breeding, new InfoTask(this, IDS_TUTORIAL_TASK_BREEDING_FEED, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Breeding, new InfoTask(this, IDS_TUTORIAL_TASK_BREEDING_FEED_FOOD, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Breeding, new InfoTask(this, IDS_TUTORIAL_TASK_BREEDING_BABY, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Breeding, new InfoTask(this, IDS_TUTORIAL_TASK_BREEDING_DELAY, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Breeding, new InfoTask(this, IDS_TUTORIAL_TASK_BREEDING_FOLLOW, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Breeding, new InfoTask(this, IDS_TUTORIAL_TASK_BREEDING_RIDING_PIGS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Breeding, new InfoTask(this, IDS_TUTORIAL_TASK_BREEDING_WOLF_TAMING, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Breeding, new InfoTask(this, IDS_TUTORIAL_TASK_BREEDING_WOLF_COLLAR, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Breeding, new InfoTask(this, IDS_TUTORIAL_TASK_BREEDING_COMPLETE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + } + + /* + * + * + * SNOW AND IRON GOLEM + * + */ + if(app.getGameRuleDefinitions() != nullptr) + { + AABB *area = app.getGameRuleDefinitions()->getNamedArea(L"golemArea"); + if(area != nullptr) + { + eTutorial_State golemStates[] = {e_Tutorial_State_Gameplay}; + AddGlobalConstraint( new ChangeStateConstraint(this, e_Tutorial_State_Golem, golemStates, 1, area->x0,area->y0,area->z0,area->x1,area->y1,area->z1) ); + + addTask(e_Tutorial_State_Golem, new ChoiceTask(this, IDS_TUTORIAL_GOLEM_OVERVIEW, IDS_TUTORIAL_PROMPT_GOLEM_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Golem) ); + + addTask(e_Tutorial_State_Golem, new InfoTask(this, IDS_TUTORIAL_TASK_GOLEM_PUMPKIN, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Golem, new InfoTask(this, IDS_TUTORIAL_TASK_GOLEM_SNOW, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Golem, new InfoTask(this, IDS_TUTORIAL_TASK_GOLEM_IRON, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Golem, new InfoTask(this, IDS_TUTORIAL_TASK_GOLEM_IRON_VILLAGE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + + } + } + +} + +// 4J Stu - All tutorials are onby default in the full tutorial whether the player has previously completed them or not +bool FullTutorial::isStateCompleted( eTutorial_State state ) +{ + return m_completedStates[state]; +} + +void FullTutorial::setStateCompleted( eTutorial_State state ) +{ + m_completedStates[state] = true; + Tutorial::setStateCompleted(state); +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/FullTutorial.h b/Minecraft.Client/Common/Tutorial/FullTutorial.h new file mode 100644 index 0000000..da2641d --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/FullTutorial.h @@ -0,0 +1,21 @@ +#pragma once +#include "Tutorial.h" + +#define FULL_TUTORIAL_PROGRESS_2_X_2_Crafting 1 +#define FULL_TUTORIAL_PROGRESS_3_X_3_Crafting 2 +#define FULL_TUTORIAL_PROGRESS_CRAFT_FURNACE 4 +#define FULL_TUTORIAL_PROGRESS_USE_FURNACE 8 +#define EXTENDED_TUTORIAL_PROGRESS_USE_BREWING_STAND 16 + +class FullTutorial : public Tutorial +{ +private: + bool m_isTrial; + char m_progressFlags; + bool m_completedStates[e_Tutorial_State_Max]; +public: + FullTutorial(int iPad, bool isTrial = false); + + virtual bool isStateCompleted( eTutorial_State state ); + virtual void setStateCompleted( eTutorial_State state ); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/FullTutorialActiveTask.cpp b/Minecraft.Client/Common/Tutorial/FullTutorialActiveTask.cpp new file mode 100644 index 0000000..f1357c6 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/FullTutorialActiveTask.cpp @@ -0,0 +1,26 @@ +#include "stdafx.h" +#include "Tutorial.h" +#include "FullTutorialActiveTask.h" + +FullTutorialActiveTask::FullTutorialActiveTask(Tutorial *tutorial, eTutorial_CompletionAction completeAction /*= e_Tutorial_Completion_None*/) + : TutorialTask( tutorial, -1, false, nullptr, false, false, false ) +{ + m_completeAction = completeAction; +} + +bool FullTutorialActiveTask::isCompleted() +{ + return bHasBeenActivated; +} + +eTutorial_CompletionAction FullTutorialActiveTask::getCompletionAction() +{ + if( tutorial->m_fullTutorialComplete ) + { + return m_completeAction; + } + else + { + return e_Tutorial_Completion_None; + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/FullTutorialActiveTask.h b/Minecraft.Client/Common/Tutorial/FullTutorialActiveTask.h new file mode 100644 index 0000000..5aa0561 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/FullTutorialActiveTask.h @@ -0,0 +1,18 @@ +#pragma once +using namespace std; + +#include "TutorialTask.h" + +// Information messages with a choice +class FullTutorialActiveTask : public TutorialTask +{ +private: + eTutorial_CompletionAction m_completeAction; + + bool CompletionMaskIsValid(); +public: + FullTutorialActiveTask(Tutorial *tutorial, eTutorial_CompletionAction completeAction = e_Tutorial_Completion_None); + virtual bool isCompleted(); + virtual eTutorial_CompletionAction getCompletionAction(); + +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/FullTutorialMode.cpp b/Minecraft.Client/Common/Tutorial/FullTutorialMode.cpp new file mode 100644 index 0000000..a5ee85b --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/FullTutorialMode.cpp @@ -0,0 +1,16 @@ +#include "stdafx.h" +#include "..\..\Minecraft.h" +#include "FullTutorial.h" +#include "FullTutorialMode.h" + +FullTutorialMode::FullTutorialMode(int iPad, Minecraft *minecraft, ClientConnection *connection) + : TutorialMode(iPad, minecraft, connection) +{ + tutorial = new FullTutorial( iPad ); + minecraft->playerStartedTutorial( iPad ); +} + +bool FullTutorialMode::isTutorial() +{ + return !tutorial->m_fullTutorialComplete; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/FullTutorialMode.h b/Minecraft.Client/Common/Tutorial/FullTutorialMode.h new file mode 100644 index 0000000..ce6f181 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/FullTutorialMode.h @@ -0,0 +1,12 @@ +#pragma once +#include "TutorialMode.h" + +class FullTutorialMode : public TutorialMode +{ +public: + FullTutorialMode(int iPad, Minecraft *minecraft, ClientConnection *connection); + + virtual bool isImplemented() { return true; } + + virtual bool isTutorial(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/HorseChoiceTask.cpp b/Minecraft.Client/Common/Tutorial/HorseChoiceTask.cpp new file mode 100644 index 0000000..e1d50fb --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/HorseChoiceTask.cpp @@ -0,0 +1,43 @@ +#include "stdafx.h" + +#include + +#include "Minecraft.h" +#include "Tutorial.h" + +#include "..\Minecraft.World\EntityHorse.h" + +#include "HorseChoiceTask.h" + +HorseChoiceTask::HorseChoiceTask(Tutorial *tutorial, int iDescHorse, int iDescDonkey, int iDescMule, int iPromptId, + bool requiresUserInput, int iConfirmMapping, int iCancelMapping, + eTutorial_CompletionAction cancelAction, ETelemetryChallenges telemetryEvent) + + : ChoiceTask(tutorial, -1, iPromptId, requiresUserInput, iConfirmMapping, iCancelMapping, cancelAction, telemetryEvent) +{ + m_eHorseType = -1; + m_iDescMule = iDescMule; + m_iDescDonkey = iDescDonkey; + m_iDescHorse = iDescHorse; +} + +int HorseChoiceTask::getDescriptionId() +{ + switch (m_eHorseType) + { + case EntityHorse::TYPE_HORSE: return m_iDescHorse; + case EntityHorse::TYPE_DONKEY: return m_iDescDonkey; + case EntityHorse::TYPE_MULE: return m_iDescMule; + default: return -1; + } + return -1; +} + +void HorseChoiceTask::onLookAtEntity(shared_ptr entity) +{ + if ( (m_eHorseType < 0) && entity->instanceof(eTYPE_HORSE) ) + { + shared_ptr horse = dynamic_pointer_cast(entity); + if ( horse->isAdult() ) m_eHorseType = horse->getType(); + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/HorseChoiceTask.h b/Minecraft.Client/Common/Tutorial/HorseChoiceTask.h new file mode 100644 index 0000000..5130a7c --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/HorseChoiceTask.h @@ -0,0 +1,23 @@ +#pragma once +using namespace std; + +#include "ChoiceTask.h" + + +// Same as choice task, but switches description based on horse type. +class HorseChoiceTask : public ChoiceTask +{ +protected: + int m_eHorseType; + + int m_iDescHorse, m_iDescDonkey, m_iDescMule; + +public: + HorseChoiceTask(Tutorial *tutorial, int iDescHorse, int iDescDonkey, int iDescMule, int iPromptId = -1, + bool requiresUserInput = false, int iConfirmMapping = 0, int iCancelMapping = 0, + eTutorial_CompletionAction cancelAction = e_Tutorial_Completion_None, ETelemetryChallenges telemetryEvent = eTelemetryChallenges_Unknown); + + virtual int getDescriptionId(); + + virtual void onLookAtEntity(shared_ptr entity); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/InfoTask.cpp b/Minecraft.Client/Common/Tutorial/InfoTask.cpp new file mode 100644 index 0000000..63b5bbf --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/InfoTask.cpp @@ -0,0 +1,103 @@ +#include "stdafx.h" +#include +#include +#include "..\..\Minecraft.h" +#include "..\..\MultiplayerLocalPlayer.h" +#include "Tutorial.h" +#include "TutorialConstraints.h" +#include "InfoTask.h" +#include "..\..\..\Minecraft.World\Material.h" +#include "..\..\Windows64\KeyboardMouseInput.h" + +InfoTask::InfoTask(Tutorial *tutorial, int descriptionId, int promptId /*= -1*/, bool requiresUserInput /*= false*/, + int iMapping /*= 0*/, ETelemetryChallenges telemetryEvent /*= eTelemetryTutorial_NoEvent*/) + : TutorialTask( tutorial, descriptionId, false, nullptr, true, false, false ) +{ + if(requiresUserInput == true) + { + constraints.push_back( new InputConstraint( iMapping ) ); + } + completedMappings[iMapping]=false; + + m_promptId = promptId; + tutorial->addMessage( m_promptId ); + + m_eTelemetryEvent = telemetryEvent; +} + +bool InfoTask::isCompleted() +{ + if( bIsCompleted ) + return true; + + if( tutorial->m_hintDisplayed ) + return false; + + if( !bHasBeenActivated || !m_bShownForMinimumTime ) + return false; + + bool bAllComplete = true; + + Minecraft *pMinecraft = Minecraft::GetInstance(); + + // If the player is under water then allow all keypresses so they can jump out + if( pMinecraft->localplayers[tutorial->getPad()]->isUnderLiquid(Material::water) ) return false; + + + + if(bAllComplete==true) + { + sendTelemetry(); + enableConstraints(false, true); + } + bIsCompleted = bAllComplete; + return bAllComplete; +} + +int InfoTask::getPromptId() +{ + if( m_bShownForMinimumTime ) + return m_promptId; + else + return -1; +} + +void InfoTask::setAsCurrentTask(bool active /*= true*/) +{ + enableConstraints( active ); + TutorialTask::setAsCurrentTask(active); +} + +void InfoTask::handleUIInput(int iAction) +{ + if(bHasBeenActivated) + { + for( auto& it : completedMappings ) + { + if( iAction == it.first ) + { + it.second = true; + } + } + } +} + + +void InfoTask::sendTelemetry() +{ + Minecraft *pMinecraft = Minecraft::GetInstance(); + + if( m_eTelemetryEvent != eTelemetryChallenges_Unknown ) + { + bool firstPlay = true; + // We only store first play for some of the events + switch(m_eTelemetryEvent) + { + case eTelemetryTutorial_Complete: + firstPlay = !tutorial->getCompleted( eTutorial_Telemetry_Complete ); + tutorial->setCompleted( eTutorial_Telemetry_Complete ); + break; + }; + TelemetryManager->RecordEnemyKilledOrOvercome(pMinecraft->player->GetXboxPad(), 0, 0, 0, 0, 0, 0, m_eTelemetryEvent); + } +} diff --git a/Minecraft.Client/Common/Tutorial/InfoTask.h b/Minecraft.Client/Common/Tutorial/InfoTask.h new file mode 100644 index 0000000..e072038 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/InfoTask.h @@ -0,0 +1,25 @@ +#pragma once +using namespace std; + +#include "TutorialTask.h" + +// Information messages +class InfoTask : public TutorialTask +{ +private: + unordered_map completedMappings; + + ETelemetryChallenges m_eTelemetryEvent; + + bool CompletionMaskIsValid(); +public: + InfoTask(Tutorial *tutorial, int descriptionId, int promptId = -1, bool requiresUserInput = false, int iMapping = 0, ETelemetryChallenges telemetryEvent = eTelemetryChallenges_Unknown); + virtual bool isCompleted(); + virtual int getPromptId(); + virtual void setAsCurrentTask(bool active = true); + virtual void handleUIInput(int iAction); + +private: + void sendTelemetry(); + +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/InputConstraint.cpp b/Minecraft.Client/Common/Tutorial/InputConstraint.cpp new file mode 100644 index 0000000..a26d3eb --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/InputConstraint.cpp @@ -0,0 +1,18 @@ +#include "stdafx.h" +#include "InputConstraint.h" + +bool InputConstraint::isMappingConstrained(int iPad, int mapping) +{ + // If it's a menu button, then we ignore all inputs + if((m_inputMapping == mapping) || (mapping < ACTION_MAX_MENU)) + { + return true; + } + + // Otherwise see if they map to the same actual button + unsigned char layoutMapping = InputManager.GetJoypadMapVal( iPad ); + + // 4J HEG - Replaced the equivalance test with bitwise AND, important in some mapping configurations + // (e.g. when comparing two action map values and one has extra buttons mapped) + return (InputManager.GetGameJoypadMaps(layoutMapping,m_inputMapping) & InputManager.GetGameJoypadMaps(layoutMapping,mapping)) > 0; +} diff --git a/Minecraft.Client/Common/Tutorial/InputConstraint.h b/Minecraft.Client/Common/Tutorial/InputConstraint.h new file mode 100644 index 0000000..3d6bee6 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/InputConstraint.h @@ -0,0 +1,15 @@ +#pragma once + +#include "TutorialConstraint.h" + +class InputConstraint : public TutorialConstraint +{ +private: + int m_inputMapping; // Should be one of the EControllerActions +public: + virtual ConstraintType getType() { return e_ConstraintInput; } + + InputConstraint(int mapping) : TutorialConstraint(-1), m_inputMapping( mapping ) {} + + virtual bool isMappingConstrained(int iPad, int mapping); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/LookAtEntityHint.cpp b/Minecraft.Client/Common/Tutorial/LookAtEntityHint.cpp new file mode 100644 index 0000000..3b4680c --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/LookAtEntityHint.cpp @@ -0,0 +1,25 @@ +#include "stdafx.h" +#include "Tutorial.h" +#include "LookAtEntityHint.h" + + +LookAtEntityHint::LookAtEntityHint(eTutorial_Hint id, Tutorial *tutorial, int descriptionId, int titleId, eINSTANCEOF type) + : TutorialHint(id, tutorial, descriptionId, e_Hint_LookAtEntity) +{ + m_type = type; + m_titleId = titleId; +} + +bool LookAtEntityHint::onLookAtEntity(eINSTANCEOF type) +{ + if(m_type == type) + { + // Display hint + Tutorial::PopupMessageDetails *message = new Tutorial::PopupMessageDetails(); + message->m_messageId = m_descriptionId; + message->m_titleId = m_titleId; + message->m_delay = true; + return m_tutorial->setMessage(this, message); + } + return false; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/LookAtEntityHint.h b/Minecraft.Client/Common/Tutorial/LookAtEntityHint.h new file mode 100644 index 0000000..9913669 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/LookAtEntityHint.h @@ -0,0 +1,20 @@ +#pragma once +using namespace std; + +#include "..\..\..\Minecraft.World\Class.h" +#include "TutorialHint.h" + +class ItemInstance; + +class LookAtEntityHint : public TutorialHint +{ +private: + eINSTANCEOF m_type; + int m_titleId; + +public: + LookAtEntityHint(eTutorial_Hint id, Tutorial *tutorial, int descriptionId, int titleId, eINSTANCEOF type); + ~LookAtEntityHint(); + + virtual bool onLookAtEntity(eINSTANCEOF type); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/LookAtTileHint.cpp b/Minecraft.Client/Common/Tutorial/LookAtTileHint.cpp new file mode 100644 index 0000000..c8723a8 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/LookAtTileHint.cpp @@ -0,0 +1,64 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "Tutorial.h" +#include "LookAtTileHint.h" + + +LookAtTileHint::LookAtTileHint(eTutorial_Hint id, Tutorial *tutorial, int tiles[], unsigned int tilesLength, int iconOverride /*= -1*/, int iData /* = -1 */, int iDataOverride /*= -1*/) + : TutorialHint(id, tutorial, -1, e_Hint_LookAtTile) +{ + m_iTilesCount = tilesLength; + + m_iTiles= new int [m_iTilesCount]; + for(unsigned int i=0;i 0 && id < 256 && (m_iData == -1 || m_iData == iData) ) + { + bool itemFound = false; + for(unsigned int i=0;im_delay = true; + if( m_iconOverride >= 0 ) + { + message->m_icon = m_iconOverride; + } + else if(m_iconOverride == -2) + { + message->m_icon = TUTORIAL_NO_ICON; + } + else + { + message->m_icon = id; + } + + // 4J-JEV: Moved to keep data override even if we're overriding the icon as well. + message->m_iAuxVal = (m_iDataOverride > -1) ? m_iDataOverride : iData; + + message->m_messageId = Item::items[id]->getUseDescriptionId(); + message->m_titleId = Item::items[id]->getDescriptionId(message->m_iAuxVal); + return m_tutorial->setMessage(this, message); + } + } + return false; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/LookAtTileHint.h b/Minecraft.Client/Common/Tutorial/LookAtTileHint.h new file mode 100644 index 0000000..34ec1b9 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/LookAtTileHint.h @@ -0,0 +1,22 @@ +#pragma once +using namespace std; + +#include "TutorialHint.h" + +class ItemInstance; + +class LookAtTileHint : public TutorialHint +{ +private: + int *m_iTiles; + unsigned int m_iTilesCount; + int m_iconOverride; + int m_iData; + int m_iDataOverride; + +public: + LookAtTileHint(eTutorial_Hint id, Tutorial *tutorial, int tiles[], unsigned int tilesLength, int iconOverride = -1, int iData=-1, int iDataOverride = -1); + ~LookAtTileHint(); + + virtual bool onLookAt(int id, int iData=0); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/PickupTask.cpp b/Minecraft.Client/Common/Tutorial/PickupTask.cpp new file mode 100644 index 0000000..00bc9d1 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/PickupTask.cpp @@ -0,0 +1,17 @@ +#include "stdafx.h" +#include "PickupTask.h" + +void PickupTask::onTake(shared_ptr item, unsigned int invItemCountAnyAux, unsigned int invItemCountThisAux) +{ + if(item->id == m_itemId) + { + if(m_auxValue == -1 && invItemCountAnyAux >= m_quantity) + { + bIsCompleted = true; + } + else if( m_auxValue == item->getAuxValue() && invItemCountThisAux >= m_quantity) + { + bIsCompleted = true; + } + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/PickupTask.h b/Minecraft.Client/Common/Tutorial/PickupTask.h new file mode 100644 index 0000000..9f2d242 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/PickupTask.h @@ -0,0 +1,26 @@ +#pragma once +using namespace std; +#include "TutorialTask.h" + +class ItemInstance; + +class PickupTask : public TutorialTask +{ +public: + PickupTask( int itemId, unsigned int quantity, int auxValue, + Tutorial *tutorial, int descriptionId, bool enablePreCompletion = true, vector *inConstraints = nullptr, + bool bShowMinimumTime=false, bool bAllowFade=true, bool m_bTaskReminders=true ) + : TutorialTask(tutorial, descriptionId, enablePreCompletion, inConstraints, bShowMinimumTime, bAllowFade, m_bTaskReminders ), + m_itemId( itemId), + m_quantity( quantity ), + m_auxValue( auxValue ) + {} + + virtual bool isCompleted() { return bIsCompleted; } + virtual void onTake(shared_ptr item, unsigned int invItemCountAnyAux, unsigned int invItemCountThisAux); + +private: + int m_itemId; + unsigned int m_quantity; + int m_auxValue; +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/ProcedureCompoundTask.cpp b/Minecraft.Client/Common/Tutorial/ProcedureCompoundTask.cpp new file mode 100644 index 0000000..ddf15a5 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/ProcedureCompoundTask.cpp @@ -0,0 +1,232 @@ +#include "stdafx.h" +#include "ProcedureCompoundTask.h" + +ProcedureCompoundTask::~ProcedureCompoundTask() +{ + for (auto it = m_taskSequence.begin(); it < m_taskSequence.end(); ++it) + { + delete (*it); + } +} + +void ProcedureCompoundTask::AddTask(TutorialTask *task) +{ + if(task != nullptr) + { + m_taskSequence.push_back(task); + } +} + +int ProcedureCompoundTask::getDescriptionId() +{ + if(bIsCompleted) + return -1; + + // Return the id of the first task not completed + int descriptionId = -1; + for (auto& task : m_taskSequence) + { + if(!task->isCompleted()) + { + task->setAsCurrentTask(true); + descriptionId = task->getDescriptionId(); + break; + } + else if(task->getCompletionAction() == e_Tutorial_Completion_Complete_State) + { + bIsCompleted = true; + break; + } + } + return descriptionId; +} + +int ProcedureCompoundTask::getPromptId() +{ + if(bIsCompleted) + return -1; + + // Return the id of the first task not completed + int promptId = -1; + for(auto& task : m_taskSequence) + { + if(!task->isCompleted()) + { + promptId = task->getPromptId(); + break; + } + } + return promptId; +} + +bool ProcedureCompoundTask::isCompleted() +{ + // Return whether all tasks are completed + + bool allCompleted = true; + bool isCurrentTask = true; + for(auto& task : m_taskSequence) + { + if(allCompleted && isCurrentTask) + { + if(task->isCompleted()) + { + if(task->getCompletionAction() == e_Tutorial_Completion_Complete_State) + { + allCompleted = true; + break; + } + } + else + { + task->setAsCurrentTask(true); + allCompleted = false; + isCurrentTask = false; + } + } + else if (!allCompleted) + { + task->setAsCurrentTask(false); + } + } + + if(allCompleted) + { + // Disable all constraints + for(auto& task : m_taskSequence) + { + task->enableConstraints(false); + } + } + bIsCompleted = allCompleted; + return allCompleted; +} + +void ProcedureCompoundTask::onCrafted(shared_ptr item) +{ + for(auto& task : m_taskSequence) + { + task->onCrafted(item); + } +} + +void ProcedureCompoundTask::handleUIInput(int iAction) +{ + for(auto task : m_taskSequence) + { + task->handleUIInput(iAction); + } +} + + +void ProcedureCompoundTask::setAsCurrentTask(bool active /*= true*/) +{ + bool allCompleted = true; + for(auto& task : m_taskSequence) + { + if(allCompleted && !task->isCompleted()) + { + task->setAsCurrentTask(true); + allCompleted = false; + } + else if (!allCompleted) + { + task->setAsCurrentTask(false); + } + } +} + +bool ProcedureCompoundTask::ShowMinimumTime() +{ + if(bIsCompleted) + return false; + + bool showMinimumTime = false; + for(auto& task : m_taskSequence) + { + if(!task->isCompleted()) + { + showMinimumTime = task->ShowMinimumTime(); + break; + } + } + return showMinimumTime; +} + +bool ProcedureCompoundTask::hasBeenActivated() +{ + if(bIsCompleted) + return true; + + bool hasBeenActivated = false; + for(auto& task : m_taskSequence) + { + if(!task->isCompleted()) + { + hasBeenActivated = task->hasBeenActivated(); + break; + } + } + return hasBeenActivated; +} + +void ProcedureCompoundTask::setShownForMinimumTime() +{ + for(auto& task : m_taskSequence) + { + if(!task->isCompleted()) + { + task->setShownForMinimumTime(); + break; + } + } +} + +bool ProcedureCompoundTask::AllowFade() +{ + if(bIsCompleted) + return true; + + bool allowFade = true; + for(auto& task : m_taskSequence) + { + if(!task->isCompleted()) + { + allowFade = task->AllowFade(); + break; + } + } + return allowFade; +} + +void ProcedureCompoundTask::useItemOn(Level *level, shared_ptr item, int x, int y, int z,bool bTestUseOnly) +{ + for(auto& task : m_taskSequence) + { + task->useItemOn(level, item, x, y, z, bTestUseOnly); + } +} + +void ProcedureCompoundTask::useItem(shared_ptr item, bool bTestUseOnly) +{ + for(auto& task : m_taskSequence) + { + task->useItem(item, bTestUseOnly); + } +} + +void ProcedureCompoundTask::onTake(shared_ptr item, unsigned int invItemCountAnyAux, unsigned int invItemCountThisAux) +{ + for(auto& task : m_taskSequence) + { + task->onTake(item, invItemCountAnyAux, invItemCountThisAux); + } +} + +void ProcedureCompoundTask::onStateChange(eTutorial_State newState) +{ + for(auto& task : m_taskSequence) + { + task->onStateChange(newState); + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/ProcedureCompoundTask.h b/Minecraft.Client/Common/Tutorial/ProcedureCompoundTask.h new file mode 100644 index 0000000..0a5b7ee --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/ProcedureCompoundTask.h @@ -0,0 +1,36 @@ +#pragma once + +#include "TutorialTask.h" + +// A tutorial task that requires each of the task to be completed in order until the last one is complete. +// If an earlier task that was complete is now not complete then it's hint should be shown. +class ProcedureCompoundTask : public TutorialTask +{ +public: + ProcedureCompoundTask(Tutorial *tutorial ) + : TutorialTask(tutorial, -1, false, nullptr, false, true, false ) + {} + + ~ProcedureCompoundTask(); + + void AddTask(TutorialTask *task); + + virtual int getDescriptionId(); + virtual int getPromptId(); + virtual bool isCompleted(); + virtual void onCrafted(shared_ptr item); + virtual void handleUIInput(int iAction); + virtual void setAsCurrentTask(bool active = true); + virtual bool ShowMinimumTime(); + virtual bool hasBeenActivated(); + virtual void setShownForMinimumTime(); + virtual bool AllowFade(); + + virtual void useItemOn(Level *level, shared_ptr item, int x, int y, int z, bool bTestUseOnly=false); + virtual void useItem(shared_ptr item, bool bTestUseOnly=false); + virtual void onTake(shared_ptr item, unsigned int invItemCountAnyAux, unsigned int invItemCountThisAux); + virtual void onStateChange(eTutorial_State newState); + +private: + vector m_taskSequence; +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/ProgressFlagTask.cpp b/Minecraft.Client/Common/Tutorial/ProgressFlagTask.cpp new file mode 100644 index 0000000..ea224ca --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/ProgressFlagTask.cpp @@ -0,0 +1,17 @@ +#include "stdafx.h" +#include "ProgressFlagTask.h" + +bool ProgressFlagTask::isCompleted() +{ + switch( m_type ) + { + case e_Progress_Set_Flag: + (*flags) |= m_mask; + bIsCompleted = true; + break; + case e_Progress_Flag_On: + bIsCompleted = ((*flags) & m_mask) == m_mask; + break; + } + return bIsCompleted; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/ProgressFlagTask.h b/Minecraft.Client/Common/Tutorial/ProgressFlagTask.h new file mode 100644 index 0000000..9baea5a --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/ProgressFlagTask.h @@ -0,0 +1,25 @@ +#pragma once +using namespace std; +#include "Tutorial.h" +#include "TutorialTask.h" + +class ProgressFlagTask : public TutorialTask +{ +public: + enum EProgressFlagType + { + e_Progress_Set_Flag, + e_Progress_Flag_On, + }; +private: + char *flags; // Not a member of this object + char m_mask; + EProgressFlagType m_type; +public: + ProgressFlagTask(char *flags, char mask, EProgressFlagType type, Tutorial *tutorial ) : + TutorialTask(tutorial, -1, false, nullptr ), + flags( flags ), m_mask( mask ), m_type( type ) + {} + + virtual bool isCompleted(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/RideEntityTask.cpp b/Minecraft.Client/Common/Tutorial/RideEntityTask.cpp new file mode 100644 index 0000000..29b7764 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/RideEntityTask.cpp @@ -0,0 +1,30 @@ +#include "stdafx.h" + +#include + +#include "Minecraft.h" +#include "Tutorial.h" + +#include "..\Minecraft.World\EntityHorse.h" + +#include "RideEntityTask.h" + +RideEntityTask::RideEntityTask(const int eType, Tutorial *tutorial, int descriptionId, + bool enablePreCompletion, vector *inConstraints, bool bShowMinimumTime, bool bAllowFade, bool bTaskReminders) + : TutorialTask( tutorial, descriptionId, enablePreCompletion, inConstraints, bShowMinimumTime, bAllowFade, bTaskReminders ), + m_eType( eType ) +{ +} + +bool RideEntityTask::isCompleted() +{ + return bIsCompleted; +} + +void RideEntityTask::onRideEntity(shared_ptr entity) +{ + if (entity->instanceof(static_cast(m_eType))) + { + bIsCompleted = true; + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/RideEntityTask.h b/Minecraft.Client/Common/Tutorial/RideEntityTask.h new file mode 100644 index 0000000..749b187 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/RideEntityTask.h @@ -0,0 +1,22 @@ +#pragma once +using namespace std; + +#include "TutorialTask.h" + +class Level; + +// 4J-JEV: Tasks that involve riding an entity. +class RideEntityTask : public TutorialTask +{ +protected: + const int m_eType; + +public: + RideEntityTask(const int eTYPE, Tutorial *tutorial, int descriptionId, + bool enablePreCompletion = false, vector *inConstraints = nullptr, + bool bShowMinimumTime = false, bool bAllowFade = true, bool bTaskReminders = true ); + + virtual bool isCompleted(); + + virtual void onRideEntity(shared_ptr entity); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/StatTask.cpp b/Minecraft.Client/Common/Tutorial/StatTask.cpp new file mode 100644 index 0000000..c2dc82a --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/StatTask.cpp @@ -0,0 +1,25 @@ +#include "stdafx.h" +#include "..\..\Minecraft.h" +#include "..\..\LocalPlayer.h" +#include "..\..\StatsCounter.h" +#include "..\..\..\Minecraft.World\net.minecraft.stats.h" +#include "StatTask.h" + +StatTask::StatTask(Tutorial *tutorial, int descriptionId, bool enablePreCompletion, Stat *stat, int variance /*= 1*/) + : TutorialTask( tutorial, descriptionId, enablePreCompletion, nullptr ) +{ + this->stat = stat; + + Minecraft *minecraft = Minecraft::GetInstance(); + targetValue = minecraft->stats[ProfileManager.GetPrimaryPad()]->getTotalValue( stat ) + variance; +} + +bool StatTask::isCompleted() +{ + if( bIsCompleted ) + return true; + + Minecraft *minecraft = Minecraft::GetInstance(); + bIsCompleted = minecraft->stats[ProfileManager.GetPrimaryPad()]->getTotalValue( stat ) >= static_cast(targetValue); + return bIsCompleted; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/StatTask.h b/Minecraft.Client/Common/Tutorial/StatTask.h new file mode 100644 index 0000000..ba38f00 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/StatTask.h @@ -0,0 +1,18 @@ +#pragma once +using namespace std; + +#include "TutorialTask.h" + +class Stat; + +// 4J Stu - Tutorial tasks that can use the current stat trackin code. This is things like blocks mined/items crafted. +class StatTask : public TutorialTask +{ +private: + Stat *stat; + int targetValue; + +public: + StatTask(Tutorial *tutorial, int descriptionId, bool enablePreCompletion, Stat *stat, int variance = 1); + virtual bool isCompleted(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/StateChangeTask.h b/Minecraft.Client/Common/Tutorial/StateChangeTask.h new file mode 100644 index 0000000..ab34d35 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/StateChangeTask.h @@ -0,0 +1,27 @@ +#pragma once +using namespace std; +#include "Tutorial.h" +#include "TutorialTask.h" + +class StateChangeTask : public TutorialTask +{ +private: + eTutorial_State m_state; +public: + StateChangeTask(eTutorial_State state, + Tutorial *tutorial, int descriptionId = -1, bool enablePreCompletion = false, vector *inConstraints = nullptr, + bool bShowMinimumTime=false, bool bAllowFade=true, bool m_bTaskReminders=true ) : + TutorialTask(tutorial, descriptionId, enablePreCompletion, inConstraints, bShowMinimumTime, bAllowFade, m_bTaskReminders ), + m_state( state ) + {} + + virtual bool isCompleted() { return bIsCompleted; } + + virtual void onStateChange(eTutorial_State newState) + { + if(newState == m_state) + { + bIsCompleted = true; + } + } +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TakeItemHint.cpp b/Minecraft.Client/Common/Tutorial/TakeItemHint.cpp new file mode 100644 index 0000000..3a31848 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TakeItemHint.cpp @@ -0,0 +1,45 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "Tutorial.h" +#include "TakeItemHint.h" + + +TakeItemHint::TakeItemHint(eTutorial_Hint id, Tutorial *tutorial, int items[], unsigned int itemsLength) + : TutorialHint(id, tutorial, -1, e_Hint_TakeItem) +{ + m_iItemsCount = itemsLength; + + m_iItems= new int [m_iItemsCount]; + for(unsigned int i=0;i item) +{ + if(item != nullptr) + { + bool itemFound = false; + for(unsigned int i=0;iid == m_iItems[i]) + { + itemFound = true; + break; + } + } + if(itemFound) + { + // Display hint + Tutorial::PopupMessageDetails *message = new Tutorial::PopupMessageDetails(); + message->m_messageId = item->getUseDescriptionId(); + message->m_titleId = item->getDescriptionId(); + message->m_icon = item->id; + message->m_delay = true; + return m_tutorial->setMessage(this, message); + } + } + return false; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TakeItemHint.h b/Minecraft.Client/Common/Tutorial/TakeItemHint.h new file mode 100644 index 0000000..f001d4c --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TakeItemHint.h @@ -0,0 +1,19 @@ +#pragma once +using namespace std; + +#include "TutorialHint.h" + +class ItemInstance; + +class TakeItemHint : public TutorialHint +{ +private: + int *m_iItems; + unsigned int m_iItemsCount; + +public: + TakeItemHint(eTutorial_Hint id, Tutorial *tutorial, int items[], unsigned int itemsLength); + ~TakeItemHint(); + + virtual bool onTake( shared_ptr item ); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/Tutorial b/Minecraft.Client/Common/Tutorial/Tutorial new file mode 100644 index 0000000..db58581 Binary files /dev/null and b/Minecraft.Client/Common/Tutorial/Tutorial differ diff --git a/Minecraft.Client/Common/Tutorial/Tutorial.cpp b/Minecraft.Client/Common/Tutorial/Tutorial.cpp new file mode 100644 index 0000000..de8ed34 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/Tutorial.cpp @@ -0,0 +1,2130 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\net.minecraft.stats.h" +#include "..\..\LocalPlayer.h" +#include "..\..\..\Minecraft.World\Entity.h" +#include "..\..\..\Minecraft.World\Level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\..\MinecraftServer.h" +#include "..\..\Minecraft.h" +#include "..\..\MultiPlayerLocalPlayer.h" +#include "..\..\MultiPlayerLevel.h" +#include "..\..\SurvivalMode.h" +#include "Tutorial.h" +#include "TutorialMessage.h" +#include "TutorialTasks.h" +#include "TutorialConstraints.h" +#include "TutorialHints.h" + +vector Tutorial::s_completableTasks; + + +int Tutorial::m_iTutorialHintDelayTime = 14000; +int Tutorial::m_iTutorialDisplayMessageTime = 7000; +int Tutorial::m_iTutorialMinimumDisplayMessageTime = 2000; +int Tutorial::m_iTutorialExtraReminderTime = 13000; +int Tutorial::m_iTutorialReminderTime = m_iTutorialDisplayMessageTime + m_iTutorialExtraReminderTime; +int Tutorial::m_iTutorialConstraintDelayRemoveTicks = 15; +int Tutorial::m_iTutorialFreezeTimeValue = 8000; + +bool Tutorial::PopupMessageDetails::isSameContent(PopupMessageDetails *other) +{ + if(other == nullptr) return false; + + bool textTheSame = (m_messageId == other->m_messageId) && (m_messageString.compare(other->m_messageString) == 0); + bool titleTheSame = (m_titleId == other->m_titleId) && (m_titleString.compare(other->m_titleString) == 0); + bool promptTheSame = (m_promptId == other->m_promptId) && (m_promptString.compare(other->m_promptString) == 0); + return textTheSame && titleTheSame && promptTheSame; +} + +void Tutorial::staticCtor() +{ + // + /* + ***** + ***** + THE ORDERING OF THESE SHOULD NOT CHANGE - Although the ordering may not be totally logical due to the order tasks were added, these map + to bits in the profile data in this order. New tasks/hints should be added at the end. + ***** + ***** + */ + s_completableTasks.push_back( e_Tutorial_State_Inventory_Menu ); + s_completableTasks.push_back( e_Tutorial_State_2x2Crafting_Menu ); + s_completableTasks.push_back( e_Tutorial_State_3x3Crafting_Menu ); + s_completableTasks.push_back( e_Tutorial_State_Furnace_Menu ); + + s_completableTasks.push_back( e_Tutorial_State_Riding_Minecart ); + s_completableTasks.push_back( e_Tutorial_State_Riding_Boat ); + s_completableTasks.push_back( e_Tutorial_State_Fishing ); + s_completableTasks.push_back( e_Tutorial_State_Bed ); + + s_completableTasks.push_back( e_Tutorial_State_Container_Menu ); + s_completableTasks.push_back( e_Tutorial_State_Trap_Menu ); + s_completableTasks.push_back( e_Tutorial_State_Redstone_And_Piston ); + s_completableTasks.push_back( e_Tutorial_State_Portal ); + s_completableTasks.push_back( e_Tutorial_State_Creative_Inventory_Menu ); + s_completableTasks.push_back( e_Tutorial_State_Food_Bar ); + s_completableTasks.push_back( e_Tutorial_State_CreativeMode ); + s_completableTasks.push_back( e_Tutorial_State_Brewing ); + s_completableTasks.push_back( e_Tutorial_State_Brewing_Menu ); + s_completableTasks.push_back( e_Tutorial_State_Enchanting ); + + s_completableTasks.push_back( e_Tutorial_Hint_Hold_To_Mine ); + s_completableTasks.push_back( e_Tutorial_Hint_Tool_Damaged ); + s_completableTasks.push_back( e_Tutorial_Hint_Swim_Up ); + + s_completableTasks.push_back( e_Tutorial_Hint_Unused_2 ); + s_completableTasks.push_back( e_Tutorial_Hint_Unused_3 ); + s_completableTasks.push_back( e_Tutorial_Hint_Unused_4 ); + s_completableTasks.push_back( e_Tutorial_Hint_Unused_5 ); + s_completableTasks.push_back( e_Tutorial_Hint_Unused_6 ); + s_completableTasks.push_back( e_Tutorial_Hint_Unused_7 ); + s_completableTasks.push_back( e_Tutorial_Hint_Unused_8 ); + s_completableTasks.push_back( e_Tutorial_Hint_Unused_9 ); + s_completableTasks.push_back( e_Tutorial_Hint_Unused_10 ); + + s_completableTasks.push_back( e_Tutorial_Hint_Rock ); + s_completableTasks.push_back( e_Tutorial_Hint_Stone ); + s_completableTasks.push_back( e_Tutorial_Hint_Planks ); + s_completableTasks.push_back( e_Tutorial_Hint_Sapling ); + s_completableTasks.push_back( e_Tutorial_Hint_Unbreakable ); + s_completableTasks.push_back( e_Tutorial_Hint_Water ); + s_completableTasks.push_back( e_Tutorial_Hint_Lava ); + s_completableTasks.push_back( e_Tutorial_Hint_Sand ); + s_completableTasks.push_back( e_Tutorial_Hint_Gravel ); + s_completableTasks.push_back( e_Tutorial_Hint_Gold_Ore ); + s_completableTasks.push_back( e_Tutorial_Hint_Iron_Ore ); + s_completableTasks.push_back( e_Tutorial_Hint_Coal_Ore ); + s_completableTasks.push_back( e_Tutorial_Hint_Tree_Trunk ); + s_completableTasks.push_back( e_Tutorial_Hint_Glass ); + s_completableTasks.push_back( e_Tutorial_Hint_Leaves ); + s_completableTasks.push_back( e_Tutorial_Hint_Lapis_Ore ); + s_completableTasks.push_back( e_Tutorial_Hint_Lapis_Block ); + s_completableTasks.push_back( e_Tutorial_Hint_Dispenser ); + s_completableTasks.push_back( e_Tutorial_Hint_Sandstone ); + s_completableTasks.push_back( e_Tutorial_Hint_Note_Block ); + s_completableTasks.push_back( e_Tutorial_Hint_Powered_Rail ); + s_completableTasks.push_back( e_Tutorial_Hint_Detector_Rail ); + s_completableTasks.push_back( e_Tutorial_Hint_Tall_Grass ); + s_completableTasks.push_back( e_Tutorial_Hint_Wool ); + s_completableTasks.push_back( e_Tutorial_Hint_Flower ); + s_completableTasks.push_back( e_Tutorial_Hint_Mushroom ); + s_completableTasks.push_back( e_Tutorial_Hint_Gold_Block ); + s_completableTasks.push_back( e_Tutorial_Hint_Iron_Block ); + s_completableTasks.push_back( e_Tutorial_Hint_Stone_Slab ); + s_completableTasks.push_back( e_Tutorial_Hint_Red_Brick ); + s_completableTasks.push_back( e_Tutorial_Hint_Tnt ); + s_completableTasks.push_back( e_Tutorial_Hint_Bookshelf ); + s_completableTasks.push_back( e_Tutorial_Hint_Moss_Stone ); + s_completableTasks.push_back( e_Tutorial_Hint_Obsidian ); + s_completableTasks.push_back( e_Tutorial_Hint_Torch ); + s_completableTasks.push_back( e_Tutorial_Hint_MobSpawner ); + s_completableTasks.push_back( e_Tutorial_Hint_Chest ); + s_completableTasks.push_back( e_Tutorial_Hint_Redstone ); + s_completableTasks.push_back( e_Tutorial_Hint_Diamond_Ore ); + s_completableTasks.push_back( e_Tutorial_Hint_Diamond_Block ); + s_completableTasks.push_back( e_Tutorial_Hint_Crafting_Table ); + s_completableTasks.push_back( e_Tutorial_Hint_Crops ); + s_completableTasks.push_back( e_Tutorial_Hint_Farmland ); + s_completableTasks.push_back( e_Tutorial_Hint_Furnace ); + s_completableTasks.push_back( e_Tutorial_Hint_Sign ); + s_completableTasks.push_back( e_Tutorial_Hint_Door_Wood ); + s_completableTasks.push_back( e_Tutorial_Hint_Ladder ); + s_completableTasks.push_back( e_Tutorial_Hint_Rail ); + s_completableTasks.push_back( e_Tutorial_Hint_Stairs_Stone ); + s_completableTasks.push_back( e_Tutorial_Hint_Lever ); + s_completableTasks.push_back( e_Tutorial_Hint_PressurePlate ); + s_completableTasks.push_back( e_Tutorial_Hint_Door_Iron ); + s_completableTasks.push_back( e_Tutorial_Hint_Redstone_Ore ); + s_completableTasks.push_back( e_Tutorial_Hint_Redstone_Torch ); + s_completableTasks.push_back( e_Tutorial_Hint_Button ); + s_completableTasks.push_back( e_Tutorial_Hint_Snow ); + s_completableTasks.push_back( e_Tutorial_Hint_Ice ); + s_completableTasks.push_back( e_Tutorial_Hint_Cactus ); + s_completableTasks.push_back( e_Tutorial_Hint_Clay ); + s_completableTasks.push_back( e_Tutorial_Hint_Sugarcane ); + s_completableTasks.push_back( e_Tutorial_Hint_Record_Player ); + s_completableTasks.push_back( e_Tutorial_Hint_Pumpkin ); + s_completableTasks.push_back( e_Tutorial_Hint_Hell_Rock ); + s_completableTasks.push_back( e_Tutorial_Hint_Hell_Sand ); + s_completableTasks.push_back( e_Tutorial_Hint_Glowstone ); + s_completableTasks.push_back( e_Tutorial_Hint_Portal ); + s_completableTasks.push_back( e_Tutorial_Hint_Pumpkin_Lit ); + s_completableTasks.push_back( e_Tutorial_Hint_Cake ); + s_completableTasks.push_back( e_Tutorial_Hint_Redstone_Repeater ); + s_completableTasks.push_back( e_Tutorial_Hint_Trapdoor ); + s_completableTasks.push_back( e_Tutorial_Hint_Piston ); + s_completableTasks.push_back( e_Tutorial_Hint_Sticky_Piston ); + s_completableTasks.push_back( e_Tutorial_Hint_Monster_Stone_Egg ); + s_completableTasks.push_back( e_Tutorial_Hint_Stone_Brick_Smooth ); + s_completableTasks.push_back( e_Tutorial_Hint_Huge_Mushroom ); + s_completableTasks.push_back( e_Tutorial_Hint_Iron_Fence ); + s_completableTasks.push_back( e_Tutorial_Hint_Thin_Glass ); + s_completableTasks.push_back( e_Tutorial_Hint_Melon ); + s_completableTasks.push_back( e_Tutorial_Hint_Vine ); + s_completableTasks.push_back( e_Tutorial_Hint_Fence_Gate ); + s_completableTasks.push_back( e_Tutorial_Hint_Mycel ); + s_completableTasks.push_back( e_Tutorial_Hint_Water_Lily ); + s_completableTasks.push_back( e_Tutorial_Hint_Nether_Brick ); + s_completableTasks.push_back( e_Tutorial_Hint_Nether_Fence ); + s_completableTasks.push_back( e_Tutorial_Hint_Nether_Stalk ); + s_completableTasks.push_back( e_Tutorial_Hint_Enchant_Table ); + s_completableTasks.push_back( e_Tutorial_Hint_Brewing_Stand ); + s_completableTasks.push_back( e_Tutorial_Hint_Cauldron ); + s_completableTasks.push_back( e_Tutorial_Hint_End_Portal ); + s_completableTasks.push_back( e_Tutorial_Hint_End_Portal_Frame ); + + s_completableTasks.push_back( e_Tutorial_Hint_Squid ); + s_completableTasks.push_back( e_Tutorial_Hint_Cow ); + s_completableTasks.push_back( e_Tutorial_Hint_Sheep ); + s_completableTasks.push_back( e_Tutorial_Hint_Chicken ); + s_completableTasks.push_back( e_Tutorial_Hint_Pig ); + s_completableTasks.push_back( e_Tutorial_Hint_Wolf ); + s_completableTasks.push_back( e_Tutorial_Hint_Creeper ); + s_completableTasks.push_back( e_Tutorial_Hint_Skeleton ); + s_completableTasks.push_back( e_Tutorial_Hint_Spider ); + s_completableTasks.push_back( e_Tutorial_Hint_Zombie ); + s_completableTasks.push_back( e_Tutorial_Hint_Pig_Zombie ); + s_completableTasks.push_back( e_Tutorial_Hint_Ghast ); + s_completableTasks.push_back( e_Tutorial_Hint_Slime ); + s_completableTasks.push_back( e_Tutorial_Hint_Enderman ); + s_completableTasks.push_back( e_Tutorial_Hint_Silverfish ); + s_completableTasks.push_back( e_Tutorial_Hint_Cave_Spider ); + s_completableTasks.push_back( e_Tutorial_Hint_MushroomCow ); + s_completableTasks.push_back( e_Tutorial_Hint_SnowMan ); + s_completableTasks.push_back( e_Tutorial_Hint_IronGolem ); + s_completableTasks.push_back( e_Tutorial_Hint_EnderDragon ); + s_completableTasks.push_back( e_Tutorial_Hint_Blaze ); + s_completableTasks.push_back( e_Tutorial_Hint_Lava_Slime ); + + s_completableTasks.push_back( e_Tutorial_Hint_Ozelot ); + s_completableTasks.push_back( e_Tutorial_Hint_Villager ); + + s_completableTasks.push_back( e_Tutorial_Hint_Item_Shovel ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Hatchet ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Pickaxe ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Flint_And_Steel ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Apple ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Bow ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Arrow ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Coal ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Diamond ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Iron_Ingot ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Gold_Ingot ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Sword ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Stick ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Bowl ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Mushroom_Stew ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_String ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Feather ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Sulphur ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Hoe ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Seeds ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Wheat ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Bread ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Helmet ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Chestplate ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Leggings ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Boots ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Flint ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Porkchop_Raw ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Porkchop_Cooked ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Painting ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Apple_Gold ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Sign ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Door_Wood ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Bucket_Empty ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Bucket_Water ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Bucket_Lava ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Minecart ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Saddle ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Door_Iron ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Redstone ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Snowball ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Boat ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Leather ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Milk ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Brick ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Clay ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Reeds ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Paper ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Book ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Slimeball ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Minecart_Chest ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Minecart_Furnace ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Egg ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Compass ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Clock ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Yellow_Dust ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Fish_Raw ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Fish_Cooked ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Dye_Powder ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Bone ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Sugar ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Cake ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Diode ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Cookie ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Map ); + s_completableTasks.push_back( e_Tutorial_Hint_Item_Record ); + + s_completableTasks.push_back( e_Tutorial_Hint_White_Stone ); + s_completableTasks.push_back( e_Tutorial_Hint_Dragon_Egg ); + s_completableTasks.push_back( e_Tutorial_Hint_RedstoneLamp ); + s_completableTasks.push_back( e_Tutorial_Hint_Cocoa); + + s_completableTasks.push_back( e_Tutorial_Hint_EmeraldOre ); + s_completableTasks.push_back( e_Tutorial_Hint_EmeraldBlock ); + s_completableTasks.push_back( e_Tutorial_Hint_EnderChest ); + s_completableTasks.push_back( e_Tutorial_Hint_TripwireSource ); + s_completableTasks.push_back( e_Tutorial_Hint_Tripwire ); + s_completableTasks.push_back( e_Tutorial_Hint_CobblestoneWall ); + s_completableTasks.push_back( e_Tutorial_Hint_Flowerpot ); + s_completableTasks.push_back( e_Tutorial_Hint_Anvil ); + s_completableTasks.push_back( e_Tutorial_Hint_QuartzOre ); + s_completableTasks.push_back( e_Tutorial_Hint_QuartzBlock ); + s_completableTasks.push_back( e_Tutorial_Hint_WoolCarpet ); + + s_completableTasks.push_back( e_Tutorial_Hint_Potato ); + s_completableTasks.push_back( e_Tutorial_Hint_Carrot ); + + s_completableTasks.push_back( e_Tutorial_Hint_CommandBlock ); + s_completableTasks.push_back( e_Tutorial_Hint_Beacon ); + s_completableTasks.push_back( e_Tutorial_Hint_Activator_Rail ); + + s_completableTasks.push_back( eTutorial_Telemetry_TrialStart ); + s_completableTasks.push_back( eTutorial_Telemetry_Halfway ); + s_completableTasks.push_back( eTutorial_Telemetry_Complete ); + + s_completableTasks.push_back( eTutorial_Telemetry_Unused_1 ); + s_completableTasks.push_back( eTutorial_Telemetry_Unused_2 ); + s_completableTasks.push_back( eTutorial_Telemetry_Unused_3 ); + s_completableTasks.push_back( eTutorial_Telemetry_Unused_4 ); + s_completableTasks.push_back( eTutorial_Telemetry_Unused_5 ); + s_completableTasks.push_back( eTutorial_Telemetry_Unused_6 ); + s_completableTasks.push_back( eTutorial_Telemetry_Unused_7 ); + s_completableTasks.push_back( eTutorial_Telemetry_Unused_8 ); + s_completableTasks.push_back( eTutorial_Telemetry_Unused_9 ); + s_completableTasks.push_back( eTutorial_Telemetry_Unused_10 ); + + s_completableTasks.push_back( e_Tutorial_State_Enchanting_Menu ); + s_completableTasks.push_back( e_Tutorial_State_Farming ); + s_completableTasks.push_back( e_Tutorial_State_Breeding ); + s_completableTasks.push_back( e_Tutorial_State_Golem ); + s_completableTasks.push_back( e_Tutorial_State_Trading ); + s_completableTasks.push_back( e_Tutorial_State_Trading_Menu ); + s_completableTasks.push_back( e_Tutorial_State_Anvil ); + s_completableTasks.push_back( e_Tutorial_State_Anvil_Menu ); + s_completableTasks.push_back( e_Tutorial_State_Enderchests ); + s_completableTasks.push_back( e_Tutorial_State_Horse_Menu ); + s_completableTasks.push_back( e_Tutorial_State_Hopper_Menu ); + + s_completableTasks.push_back( e_Tutorial_Hint_Wither ); + s_completableTasks.push_back( e_Tutorial_Hint_Witch ); + s_completableTasks.push_back( e_Tutorial_Hint_Bat ); + s_completableTasks.push_back( e_Tutorial_Hint_Horse ); + + s_completableTasks.push_back( e_Tutorial_Hint_RedstoneBlock ); + s_completableTasks.push_back( e_Tutorial_Hint_DaylightDetector ); + s_completableTasks.push_back( e_Tutorial_Hint_Dropper ); + s_completableTasks.push_back( e_Tutorial_Hint_Hopper ); + s_completableTasks.push_back( e_Tutorial_Hint_Comparator ); + s_completableTasks.push_back( e_Tutorial_Hint_ChestTrap ); + s_completableTasks.push_back( e_Tutorial_Hint_HayBlock ); + s_completableTasks.push_back( e_Tutorial_Hint_ClayHardened ); + s_completableTasks.push_back( e_Tutorial_Hint_ClayHardenedColored ); + s_completableTasks.push_back( e_Tutorial_Hint_CoalBlock ); + + s_completableTasks.push_back( e_Tutorial_State_Beacon_Menu ); + s_completableTasks.push_back( e_Tutorial_State_Fireworks_Menu ); + s_completableTasks.push_back( e_Tutorial_State_Horse ); + s_completableTasks.push_back( e_Tutorial_State_Hopper ); + s_completableTasks.push_back( e_Tutorial_State_Beacon ); + s_completableTasks.push_back( e_Tutorial_State_Fireworks ); + + if( s_completableTasks.size() > TUTORIAL_PROFILE_STORAGE_BITS ) + { + app.DebugPrintf("Warning: Too many tutorial completable tasks added, not enough bits allocated to stored them in the profile data"); + assert(false); + } +} + +Tutorial::Tutorial(int iPad, bool isFullTutorial /*= false*/) : m_iPad( iPad ) +{ + m_isFullTutorial = isFullTutorial; + m_fullTutorialComplete = false; + m_allTutorialsComplete = false; + hasRequestedUI = false; + uiTempDisabled = false; + m_hintDisplayed = false; + m_freezeTime = false; + m_timeFrozen = false; + m_allowShow = true; + m_bHasTickedOnce = false; + m_firstTickTime = 0; + + m_lastMessage = nullptr; + + lastMessageTime = 0; + m_iTaskReminders = 0; + m_lastMessageState = e_Tutorial_State_Gameplay; + + m_CurrentState = e_Tutorial_State_Gameplay; + m_hasStateChanged = false; +#ifdef _XBOX + m_hTutorialScene=nullptr; +#endif + + for(unsigned int i = 0; i < e_Tutorial_State_Max; ++i) + { + currentTask[i] = nullptr; + currentFailedConstraint[i] = nullptr; + } + + // DEFAULT TASKS THAT ALL TUTORIALS SHARE + /* + * + * + * GAMEPLAY + * + */ + + if(!isHintCompleted(e_Tutorial_Hint_Hold_To_Mine)) addHint(e_Tutorial_State_Gameplay, new TutorialHint(e_Tutorial_Hint_Hold_To_Mine, this, IDS_TUTORIAL_HINT_HOLD_TO_MINE, TutorialHint::e_Hint_HoldToMine) ); + if(!isHintCompleted(e_Tutorial_Hint_Tool_Damaged)) addHint(e_Tutorial_State_Gameplay, new TutorialHint(e_Tutorial_Hint_Tool_Damaged, this, IDS_TUTORIAL_HINT_TOOL_DAMAGED, TutorialHint::e_Hint_ToolDamaged) ); + if(!isHintCompleted(e_Tutorial_Hint_Swim_Up)) addHint(e_Tutorial_State_Gameplay, new TutorialHint(e_Tutorial_Hint_Swim_Up, this, IDS_TUTORIAL_HINT_SWIM_UP, TutorialHint::e_Hint_SwimUp) ); + + /* + * TILE HINTS + */ + int rockItems[] = {Tile::stone_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Rock)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Rock, this, rockItems, 1 ) ); + + int stoneItems[] = {Tile::cobblestone_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Stone)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone, this, stoneItems, 1 ) ); + + int plankItems[] = {Tile::wood_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Planks)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Planks, this, plankItems, 1 ) ); + + int saplingItems[] = {Tile::sapling_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Sapling)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Sapling, this, saplingItems, 1 ) ); + + int unbreakableItems[] = {Tile::unbreakable_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Unbreakable)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Unbreakable, this, unbreakableItems, 1 ) ); + + int waterItems[] = {Tile::water_Id, Tile::calmWater_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Water)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Water, this, waterItems, 2 ) ); + + int lavaItems[] = {Tile::lava_Id, Tile::calmLava_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Lava)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Lava, this, lavaItems, 2 ) ); + + int sandItems[] = {Tile::sand_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Sand)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Sand, this, sandItems, 1 ) ); + + int gravelItems[] = {Tile::gravel_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Gravel)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Gravel, this, gravelItems, 1 ) ); + + int goldOreItems[] = {Tile::goldOre_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Gold_Ore)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Gold_Ore, this, goldOreItems, 1 ) ); + + int ironOreItems[] = {Tile::ironOre_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Iron_Ore)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Iron_Ore, this, ironOreItems, 1 ) ); + + int coalOreItems[] = {Tile::coalOre_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Coal_Ore)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Coal_Ore, this, coalOreItems, 1 ) ); + + int treeTrunkItems[] = {Tile::treeTrunk_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Tree_Trunk)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Tree_Trunk, this, treeTrunkItems, 1 ) ); + + int leavesItems[] = {Tile::leaves_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Leaves)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Leaves, this, leavesItems, 1 ) ); + + int glassItems[] = {Tile::glass_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Glass)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Glass, this, glassItems, 1 ) ); + + int lapisOreItems[] = {Tile::lapisOre_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Lapis_Ore)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Lapis_Ore, this, lapisOreItems, 1 ) ); + + int lapisBlockItems[] = {Tile::lapisBlock_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Lapis_Block)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Lapis_Block, this, lapisBlockItems, 1 ) ); + + int dispenserItems[] = {Tile::dispenser_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Dispenser)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Dispenser, this, dispenserItems, 1 ) ); + + int sandstoneItems[] = {Tile::sandStone_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Sandstone)) + { + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Sandstone, this, sandstoneItems, 1, -1, SandStoneTile::TYPE_DEFAULT ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Sandstone, this, sandstoneItems, 1, -1, SandStoneTile::TYPE_HEIROGLYPHS ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Sandstone, this, sandstoneItems, 1, -1, SandStoneTile::TYPE_SMOOTHSIDE ) ); + } + + int noteBlockItems[] = {Tile::noteblock_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Note_Block)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Note_Block, this, noteBlockItems, 1 ) ); + + int poweredRailItems[] = {Tile::goldenRail_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Powered_Rail)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Powered_Rail, this, poweredRailItems, 1 ) ); + + int detectorRailItems[] = {Tile::detectorRail_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Detector_Rail)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Detector_Rail, this, detectorRailItems, 1 ) ); + + int tallGrassItems[] = {Tile::tallgrass_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Tall_Grass)) + { + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Tall_Grass, this, tallGrassItems, 1, -1, TallGrass::DEAD_SHRUB ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Tall_Grass, this, tallGrassItems, 1, -1, TallGrass::TALL_GRASS ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Tall_Grass, this, tallGrassItems, 1, -1, TallGrass::FERN ) ); + } + + int woolItems[] = {Tile::wool_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Wool)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Wool, this, woolItems, 1 ) ); + + int flowerItems[] = {Tile::flower_Id, Tile::rose_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Flower)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Flower, this, flowerItems, 2 ) ); + + int mushroomItems[] = {Tile::mushroom_brown_Id, Tile::mushroom_red_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Mushroom)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Mushroom, this, mushroomItems, 2 ) ); + + int goldBlockItems[] = {Tile::goldBlock_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Gold_Block)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Gold_Block, this, goldBlockItems, 1 ) ); + + int ironBlockItems[] = {Tile::ironBlock_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Iron_Block)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Iron_Block, this, ironBlockItems, 1 ) ); + + int stoneSlabItems[] = {Tile::stoneSlabHalf_Id, Tile::stoneSlab_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Stone_Slab)) + { + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone_Slab, this, stoneSlabItems, 2, -1, StoneSlabTile::STONE_SLAB ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone_Slab, this, stoneSlabItems, 2, -1, StoneSlabTile::SAND_SLAB ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone_Slab, this, stoneSlabItems, 2, -1, StoneSlabTile::WOOD_SLAB ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone_Slab, this, stoneSlabItems, 2, -1, StoneSlabTile::COBBLESTONE_SLAB ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone_Slab, this, stoneSlabItems, 2, -1, StoneSlabTile::BRICK_SLAB ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone_Slab, this, stoneSlabItems, 2, -1, StoneSlabTile::SMOOTHBRICK_SLAB ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone_Slab, this, stoneSlabItems, 2, -1, StoneSlabTile::NETHERBRICK_SLAB ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone_Slab, this, stoneSlabItems, 2, -1, StoneSlabTile::QUARTZ_SLAB ) ); + } + + int woodSlabItems[] = {Tile::woodSlabHalf_Id, Tile::woodSlab_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Stone_Slab)) + { + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone_Slab, this, woodSlabItems, 2, -1, TreeTile::BIRCH_TRUNK ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone_Slab, this, woodSlabItems, 2, -1, TreeTile::DARK_TRUNK ) ); + } + + int redBrickItems[] = {Tile::redBrick_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Red_Brick)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Red_Brick, this, redBrickItems, 1 ) ); + + int tntItems[] = {Tile::tnt_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Tnt)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Tnt, this, tntItems, 1 ) ); + + int bookshelfItems[] = {Tile::bookshelf_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Bookshelf)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Bookshelf, this, bookshelfItems, 1 ) ); + + int mossStoneItems[] = {Tile::mossyCobblestone_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Moss_Stone)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Moss_Stone, this, mossStoneItems, 1 ) ); + + int obsidianItems[] = {Tile::obsidian_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Obsidian)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Obsidian, this, obsidianItems, 1 ) ); + + int torchItems[] = {Tile::torch_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Torch)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Torch, this, torchItems, 1 ) ); + + int mobSpawnerItems[] = {Tile::mobSpawner_Id}; + if(!isHintCompleted(e_Tutorial_Hint_MobSpawner)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_MobSpawner, this, mobSpawnerItems, 1 ) ); + + int chestItems[] = {Tile::chest_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Chest)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Chest, this, chestItems, 1 ) ); + + int redstoneItems[] = {Tile::redStoneDust_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Redstone)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Redstone, this, redstoneItems, 1, Item::redStone_Id ) ); + + int diamondOreItems[] = {Tile::diamondOre_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Diamond_Ore)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Diamond_Ore, this, diamondOreItems, 1 ) ); + + int diamondBlockItems[] = {Tile::diamondBlock_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Diamond_Block)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Diamond_Block, this, diamondBlockItems, 1 ) ); + + int craftingTableItems[] = {Tile::workBench_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Crafting_Table)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Crafting_Table, this, craftingTableItems, 1 ) ); + + int cropsItems[] = {Tile::wheat_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Crops)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Crops, this, cropsItems, 1, -1, -1, 7 ) ); + + int farmlandItems[] = {Tile::farmland_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Farmland)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Farmland, this, farmlandItems, 1 ) ); + + int furnaceItems[] = {Tile::furnace_Id, Tile::furnace_lit_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Furnace)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Furnace, this, furnaceItems, 2 ) ); + + int signItems[] = {Tile::sign_Id, Tile::wallSign_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Sign)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Sign, this, signItems, 2, Item::sign_Id ) ); + + int doorWoodItems[] = {Tile::door_wood_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Door_Wood)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Door_Wood, this, doorWoodItems, 1, Item::door_wood->id ) ); + + int ladderItems[] = {Tile::ladder_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Ladder)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Ladder, this, ladderItems, 1 ) ); + + int stairsStoneItems[] = {Tile::stairs_stone_Id,Tile::stairs_bricks_Id,Tile::stairs_stoneBrick_Id,Tile::stairs_wood_Id,Tile::stairs_sprucewood_Id,Tile::stairs_birchwood_Id,Tile::stairs_netherBricks_Id,Tile::stairs_sandstone_Id,Tile::stairs_quartz_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Stairs_Stone)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stairs_Stone, this, stairsStoneItems, 9 ) ); + + int railItems[] = {Tile::rail_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Rail)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Rail, this, railItems, 1 ) ); + + int leverItems[] = {Tile::lever_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Lever)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Lever, this, leverItems, 1 ) ); + + int pressurePlateItems[] = {Tile::pressurePlate_stone_Id, Tile::pressurePlate_wood_Id}; + if(!isHintCompleted(e_Tutorial_Hint_PressurePlate)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_PressurePlate, this, pressurePlateItems, 2 ) ); + + int doorIronItems[] = {Tile::door_iron_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Door_Iron)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Door_Iron, this, doorIronItems, 1, Item::door_iron->id ) ); + + int redstoneOreItems[] = {Tile::redStoneOre_Id, Tile::redStoneOre_lit_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Redstone_Ore)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Redstone_Ore, this, redstoneOreItems, 2 ) ); + + int redstoneTorchItems[] = {Tile::redstoneTorch_off_Id, Tile::redstoneTorch_on_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Redstone_Torch)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Redstone_Torch, this, redstoneTorchItems, 2 ) ); + + int buttonItems[] = {Tile::button_stone_Id, Tile::button_wood_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Button)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Button, this, buttonItems, 2 ) ); + + int snowItems[] = {Tile::snow_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Snow)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Snow, this, snowItems, 1 ) ); + + int iceItems[] = {Tile::ice_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Ice)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Ice, this, iceItems, 1 ) ); + + int cactusItems[] = {Tile::cactus_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Cactus)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Cactus, this, cactusItems, 1 ) ); + + int clayItems[] = {Tile::clay_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Clay)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Clay, this, clayItems, 1 ) ); + + int sugarCaneItems[] = {Tile::reeds_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Sugarcane)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Sugarcane, this, sugarCaneItems, 1 ) ); + + int recordPlayerItems[] = {Tile::jukebox_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Record_Player)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Record_Player, this, recordPlayerItems, 1 ) ); + + int pumpkinItems[] = {Tile::pumpkin_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Pumpkin)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Pumpkin, this, pumpkinItems, 1, -1, -1, 0 ) ); + + int hellRockItems[] = {Tile::netherRack_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Hell_Rock)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Hell_Rock, this, hellRockItems, 1 ) ); + + int hellSandItems[] = {Tile::soulsand_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Hell_Sand)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Hell_Sand, this, hellSandItems, 1 ) ); + + int glowstoneItems[] = {Tile::glowstone_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Glowstone)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Glowstone, this, glowstoneItems, 1 ) ); + + int portalItems[] = {Tile::portalTile_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Portal)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Portal, this, portalItems, 1 ) ); + + int pumpkinLitItems[] = {Tile::litPumpkin_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Pumpkin_Lit)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Pumpkin_Lit, this, pumpkinLitItems, 1, -1, -1, 0 ) ); + + int cakeItems[] = {Tile::cake_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Cake)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Cake, this, cakeItems, 1 ) ); + + int redstoneRepeaterItems[] = {Tile::diode_on_Id, Tile::diode_off_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Redstone_Repeater)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Redstone_Repeater, this, redstoneRepeaterItems, 2, Item::repeater_Id ) ); + + int trapdoorItems[] = {Tile::trapdoor_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Trapdoor)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Trapdoor, this, trapdoorItems, 1 ) ); + + int pistonItems[] = {Tile::pistonBase_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Piston)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Piston, this, pistonItems, 1 ) ); + + int stickyPistonItems[] = {Tile::pistonStickyBase_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Sticky_Piston)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Sticky_Piston, this, stickyPistonItems, 1 ) ); + + int monsterStoneEggItems[] = {Tile::monsterStoneEgg_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Monster_Stone_Egg)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Monster_Stone_Egg, this, monsterStoneEggItems, 1 ) ); + + int stoneBrickSmoothItems[] = {Tile::stoneBrick_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Stone_Brick_Smooth)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Stone_Brick_Smooth, this, stoneBrickSmoothItems, 1 ) ); + + int hugeMushroomItems[] = {Tile::hugeMushroom_brown_Id,Tile::hugeMushroom_red_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Huge_Mushroom)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Huge_Mushroom, this, hugeMushroomItems, 2 ) ); + + int ironFenceItems[] = {Tile::ironFence_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Iron_Fence)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Iron_Fence, this, ironFenceItems, 1 ) ); + + int thisGlassItems[] = {Tile::thinGlass_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Thin_Glass)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Thin_Glass, this, thisGlassItems, 1 ) ); + + int melonItems[] = {Tile::melon_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Melon)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Melon, this, melonItems, 1 ) ); + + int vineItems[] = {Tile::vine_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Vine)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Vine, this, vineItems, 1 ) ); + + int fenceGateItems[] = {Tile::fenceGate_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Fence_Gate)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Fence_Gate, this, fenceGateItems, 1 ) ); + + int mycelItems[] = {Tile::mycel_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Mycel)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Mycel, this, mycelItems, 1 ) ); + + int waterLilyItems[] = {Tile::waterLily_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Water_Lily)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Water_Lily, this, waterLilyItems, 1 ) ); + + int netherBrickItems[] = {Tile::netherBrick_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Nether_Brick)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Nether_Brick, this, netherBrickItems, 1 ) ); + + int netherFenceItems[] = {Tile::netherFence_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Nether_Fence)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Nether_Fence, this, netherFenceItems, 1 ) ); + + int netherStalkItems[] = {Tile::netherStalk_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Nether_Stalk)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Nether_Stalk, this, netherStalkItems, 1 ) ); + + int enchantTableItems[] = {Tile::enchantTable_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Enchant_Table)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Enchant_Table, this, enchantTableItems, 1 ) ); + + int brewingStandItems[] = {Tile::brewingStand_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Brewing_Stand)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Brewing_Stand, this, brewingStandItems, 1, Item::brewingStand_Id ) ); + + int cauldronItems[] = {Tile::cauldron_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Cauldron)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Cauldron, this, cauldronItems, 1, Item::cauldron_Id ) ); + + int endPortalItems[] = {Tile::endPortalTile_Id}; + if(!isHintCompleted(e_Tutorial_Hint_End_Portal)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_End_Portal, this, endPortalItems, 1, -2 ) ); + + int endPortalFrameItems[] = {Tile::endPortalFrameTile_Id}; + if(!isHintCompleted(e_Tutorial_Hint_End_Portal_Frame)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_End_Portal_Frame, this, endPortalFrameItems, 1 ) ); + + int whiteStoneItems[] = {Tile::endStone_Id}; + if(!isHintCompleted(e_Tutorial_Hint_White_Stone)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_White_Stone, this, whiteStoneItems, 1 ) ); + + int dragonEggItems[] = {Tile::dragonEgg_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Dragon_Egg)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Dragon_Egg, this, dragonEggItems, 1 ) ); + + int redstoneLampItems[] = {Tile::redstoneLight_Id, Tile::redstoneLight_lit_Id}; + if(!isHintCompleted(e_Tutorial_Hint_RedstoneLamp)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_RedstoneLamp, this, redstoneLampItems, 2 ) ); + + int cocoaItems[] = {Tile::cocoa_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Cocoa)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Cocoa, this, cocoaItems, 1, Item::dye_powder_Id, -1, DyePowderItem::BROWN) ); + + int emeraldOreItems[] = {Tile::emeraldOre_Id}; + if(!isHintCompleted(e_Tutorial_Hint_EmeraldOre)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_EmeraldOre, this, emeraldOreItems, 1 ) ); + + int emeraldBlockItems[] = {Tile::emeraldBlock_Id}; + if(!isHintCompleted(e_Tutorial_Hint_EmeraldBlock)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_EmeraldBlock, this, emeraldBlockItems, 1 ) ); + + int enderChestItems[] = {Tile::enderChest_Id}; + if(!isHintCompleted(e_Tutorial_Hint_EnderChest)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_EnderChest, this, enderChestItems, 1 ) ); + + int tripwireSourceItems[] = {Tile::tripWireSource_Id}; + if(!isHintCompleted(e_Tutorial_Hint_TripwireSource)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_TripwireSource, this, tripwireSourceItems, 1 ) ); + + int tripwireItems[] = {Tile::tripWire_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Tripwire)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Tripwire, this, tripwireItems, 1, Item::string_Id ) ); + + int cobblestoneWallItems[] = {Tile::cobbleWall_Id}; + if(!isHintCompleted(e_Tutorial_Hint_CobblestoneWall)) + { + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_CobblestoneWall, this, cobblestoneWallItems, 1, -1, WallTile::TYPE_NORMAL ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_CobblestoneWall, this, cobblestoneWallItems, 1, -1, WallTile::TYPE_MOSSY ) ); + } + + int flowerpotItems[] = {Tile::flowerPot_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Flowerpot)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Flowerpot, this, flowerpotItems, 1, Item::flowerPot_Id ) ); + + int anvilItems[] = {Tile::anvil_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Anvil)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Anvil, this, anvilItems, 1 ) ); + + int quartzOreItems[] = {Tile::netherQuartz_Id}; + if(!isHintCompleted(e_Tutorial_Hint_QuartzOre)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_QuartzOre, this, quartzOreItems, 1 ) ); + + int quartzBlockItems[] = {Tile::quartzBlock_Id}; + if(!isHintCompleted(e_Tutorial_Hint_QuartzBlock)) + { + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_QuartzBlock, this, quartzBlockItems, 1, -1, QuartzBlockTile::TYPE_DEFAULT ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_QuartzBlock, this, quartzBlockItems, 1, -1, QuartzBlockTile::TYPE_CHISELED ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_QuartzBlock, this, quartzBlockItems, 1, -1, QuartzBlockTile::TYPE_LINES_Y ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_QuartzBlock, this, quartzBlockItems, 1, -1, QuartzBlockTile::TYPE_LINES_X ) ); + addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_QuartzBlock, this, quartzBlockItems, 1, -1, QuartzBlockTile::TYPE_LINES_Z ) ); + } + + int carpetItems[] = {Tile::woolCarpet_Id}; + if(!isHintCompleted(e_Tutorial_Hint_WoolCarpet)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_WoolCarpet, this, carpetItems, 1 ) ); + + int potatoItems[] = {Tile::potatoes_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Potato)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Potato, this, potatoItems, 1, -1, -1, 7 ) ); + + int carrotItems[] = {Tile::carrots_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Carrot)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Carrot, this, carrotItems, 1, -1, -1, 7 ) ); + + int commandBlockItems[] = {Tile::commandBlock_Id}; + if(!isHintCompleted(e_Tutorial_Hint_CommandBlock)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_CommandBlock, this, commandBlockItems, 1 ) ); + + int beaconItems[] = {Tile::beacon_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Beacon)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Beacon, this, beaconItems, 1 ) ); + + int activatorRailItems[] = {Tile::activatorRail_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Activator_Rail)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Activator_Rail, this, activatorRailItems, 1 ) ); + + int redstoneBlockItems[] = {Tile::redstoneBlock_Id}; + if(!isHintCompleted(e_Tutorial_Hint_RedstoneBlock)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_RedstoneBlock, this, redstoneBlockItems, 1 ) ); + + int daylightDetectorItems[] = {Tile::daylightDetector_Id}; + if(!isHintCompleted(e_Tutorial_Hint_DaylightDetector)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_DaylightDetector, this, daylightDetectorItems, 1 ) ); + + int dropperItems[] = {Tile::dropper_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Dropper)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Dropper, this, dropperItems, 1 ) ); + + int hopperItems[] = {Tile::hopper_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Hopper)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Hopper, this, hopperItems, 1 ) ); + + int comparatorItems[] = {Tile::comparator_off_Id, Tile::comparator_on_Id}; + if(!isHintCompleted(e_Tutorial_Hint_Comparator)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_Comparator, this, comparatorItems, 2, Item::comparator_Id ) ); + + int trappedChestItems[] = {Tile::chest_trap_Id}; + if(!isHintCompleted(e_Tutorial_Hint_ChestTrap)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_ChestTrap, this, trappedChestItems, 1 ) ); + + int hayBlockItems[] = {Tile::hayBlock_Id}; + if(!isHintCompleted(e_Tutorial_Hint_HayBlock)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_HayBlock, this, hayBlockItems, 1 ) ); + + int clayHardenedItems[] = {Tile::clayHardened_Id}; + if(!isHintCompleted(e_Tutorial_Hint_ClayHardened)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_ClayHardened, this, clayHardenedItems, 1 ) ); + + int clayHardenedColoredItems[] = {Tile::clayHardened_colored_Id}; + if(!isHintCompleted(e_Tutorial_Hint_ClayHardenedColored)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_ClayHardenedColored, this, clayHardenedColoredItems, 1 ) ); + + int coalBlockItems[] = {Tile::coalBlock_Id}; + if(!isHintCompleted(e_Tutorial_Hint_CoalBlock)) addHint(e_Tutorial_State_Gameplay, new LookAtTileHint(e_Tutorial_Hint_CoalBlock, this, coalBlockItems, 1 ) ); + + /* + * ENTITY HINTS + */ + if(!isHintCompleted(e_Tutorial_Hint_Squid)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Squid, this, IDS_DESC_SQUID, IDS_SQUID, eTYPE_SQUID ) ); + if(!isHintCompleted(e_Tutorial_Hint_Cow)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Cow, this, IDS_DESC_COW, IDS_COW, eTYPE_COW ) ); + if(!isHintCompleted(e_Tutorial_Hint_Sheep)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Sheep, this, IDS_DESC_SHEEP, IDS_SHEEP, eTYPE_SHEEP ) ); + if(!isHintCompleted(e_Tutorial_Hint_Chicken)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Chicken, this, IDS_DESC_CHICKEN, IDS_CHICKEN, eTYPE_CHICKEN ) ); + if(!isHintCompleted(e_Tutorial_Hint_Pig)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Pig, this, IDS_DESC_PIG, IDS_PIG, eTYPE_PIG ) ); + if(!isHintCompleted(e_Tutorial_Hint_Wolf)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Wolf, this, IDS_DESC_WOLF, IDS_WOLF, eTYPE_WOLF ) ); + if(!isHintCompleted(e_Tutorial_Hint_Creeper)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Creeper, this, IDS_DESC_CREEPER, IDS_CREEPER, eTYPE_CREEPER ) ); + if(!isHintCompleted(e_Tutorial_Hint_Skeleton)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Skeleton, this, IDS_DESC_SKELETON, IDS_SKELETON, eTYPE_SKELETON ) ); + if(!isHintCompleted(e_Tutorial_Hint_Spider)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Spider, this, IDS_DESC_SPIDER, IDS_SPIDER, eTYPE_SPIDER ) ); + if(!isHintCompleted(e_Tutorial_Hint_Zombie)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Zombie, this, IDS_DESC_ZOMBIE, IDS_ZOMBIE, eTYPE_ZOMBIE ) ); + if(!isHintCompleted(e_Tutorial_Hint_Pig_Zombie)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Pig_Zombie, this, IDS_DESC_PIGZOMBIE, IDS_PIGZOMBIE, eTYPE_PIGZOMBIE ) ); + if(!isHintCompleted(e_Tutorial_Hint_Ghast)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Ghast, this, IDS_DESC_GHAST, IDS_GHAST, eTYPE_GHAST ) ); + if(!isHintCompleted(e_Tutorial_Hint_Slime)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Slime, this, IDS_DESC_SLIME, IDS_SLIME, eTYPE_SLIME ) ); + if(!isHintCompleted(e_Tutorial_Hint_Enderman)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Enderman, this, IDS_DESC_ENDERMAN, IDS_ENDERMAN, eTYPE_ENDERMAN ) ); + if(!isHintCompleted(e_Tutorial_Hint_Silverfish)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Silverfish, this, IDS_DESC_SILVERFISH, IDS_SILVERFISH, eTYPE_SILVERFISH ) ); + if(!isHintCompleted(e_Tutorial_Hint_Cave_Spider)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Cave_Spider, this, IDS_DESC_CAVE_SPIDER, IDS_CAVE_SPIDER, eTYPE_CAVESPIDER ) ); + if(!isHintCompleted(e_Tutorial_Hint_MushroomCow)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_MushroomCow, this, IDS_DESC_MUSHROOM_COW, IDS_MUSHROOM_COW, eTYPE_MUSHROOMCOW) ); + if(!isHintCompleted(e_Tutorial_Hint_SnowMan)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_SnowMan, this, IDS_DESC_SNOWMAN, IDS_SNOWMAN, eTYPE_SNOWMAN ) ); + if(!isHintCompleted(e_Tutorial_Hint_IronGolem)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_IronGolem, this, IDS_DESC_IRONGOLEM, IDS_IRONGOLEM, eTYPE_VILLAGERGOLEM ) ); + if(!isHintCompleted(e_Tutorial_Hint_EnderDragon)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_EnderDragon, this, IDS_DESC_ENDERDRAGON, IDS_ENDERDRAGON, eTYPE_ENDERDRAGON ) ); + if(!isHintCompleted(e_Tutorial_Hint_Blaze)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Blaze, this, IDS_DESC_BLAZE, IDS_BLAZE, eTYPE_BLAZE ) ); + if(!isHintCompleted(e_Tutorial_Hint_Lava_Slime)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Lava_Slime, this, IDS_DESC_LAVA_SLIME, IDS_LAVA_SLIME, eTYPE_LAVASLIME ) ); + if(!isHintCompleted(e_Tutorial_Hint_Ozelot)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Ozelot, this, IDS_DESC_OZELOT, IDS_OZELOT, eTYPE_OCELOT ) ); + if(!isHintCompleted(e_Tutorial_Hint_Villager)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Villager, this, IDS_DESC_VILLAGER, IDS_VILLAGER, eTYPE_VILLAGER) ); + if(!isHintCompleted(e_Tutorial_Hint_Wither)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Wither, this, IDS_DESC_WITHER, IDS_WITHER, eTYPE_WITHERBOSS) ); + if(!isHintCompleted(e_Tutorial_Hint_Witch)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Witch, this, IDS_DESC_WITCH, IDS_WITCH, eTYPE_WITCH) ); + if(!isHintCompleted(e_Tutorial_Hint_Bat)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Bat, this, IDS_DESC_BAT, IDS_BAT, eTYPE_BAT) ); + if(!isHintCompleted(e_Tutorial_Hint_Horse)) addHint(e_Tutorial_State_Gameplay, new LookAtEntityHint(e_Tutorial_Hint_Horse, this, IDS_DESC_HORSE, IDS_HORSE, eTYPE_HORSE) ); + + + /* + * ITEM HINTS + */ + int shovelItems[] = {Item::shovel_wood->id, Item::shovel_stone->id, Item::shovel_iron->id, Item::shovel_gold->id, Item::shovel_diamond->id}; + if(!isHintCompleted(e_Tutorial_Hint_Item_Shovel)) addHint(e_Tutorial_State_Gameplay, new DiggerItemHint(e_Tutorial_Hint_Item_Shovel, this, IDS_TUTORIAL_HINT_DIGGER_ITEM_SHOVEL, shovelItems, 5) ); + + int hatchetItems[] = {Item::hatchet_wood->id, Item::hatchet_stone->id, Item::hatchet_iron->id, Item::hatchet_gold->id, Item::hatchet_diamond->id}; + if(!isHintCompleted(e_Tutorial_Hint_Item_Hatchet)) addHint(e_Tutorial_State_Gameplay, new DiggerItemHint(e_Tutorial_Hint_Item_Hatchet, this, IDS_TUTORIAL_HINT_DIGGER_ITEM_HATCHET, hatchetItems, 5 ) ); + + int pickaxeItems[] = {Item::pickAxe_wood->id, Item::pickAxe_stone->id, Item::pickAxe_iron->id, Item::pickAxe_gold->id, Item::pickAxe_diamond->id}; + if(!isHintCompleted(e_Tutorial_Hint_Item_Pickaxe)) addHint(e_Tutorial_State_Gameplay, new DiggerItemHint(e_Tutorial_Hint_Item_Pickaxe, this, IDS_TUTORIAL_HINT_DIGGER_ITEM_PICKAXE, pickaxeItems, 5 ) ); + + /* + * + * + * INVENTORY + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Inventory_Menu) ) + { + ProcedureCompoundTask *inventoryOverviewTask = new ProcedureCompoundTask( this ); + inventoryOverviewTask->AddTask( new ChoiceTask(this, IDS_TUTORIAL_TASK_INV_OVERVIEW, IDS_TUTORIAL_PROMPT_INV_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State, eTelemetryTutorial_Inventory) ); + inventoryOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_INV_PICK_UP, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + inventoryOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_INV_MOVE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + inventoryOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_INV_DROP, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + inventoryOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_INV_INFO, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Inventory_Menu, inventoryOverviewTask ); + } + + /* + * + * + * CREATIVE INVENTORY + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Creative_Inventory_Menu) ) + { + ProcedureCompoundTask *creativeInventoryOverviewTask = new ProcedureCompoundTask( this ); + creativeInventoryOverviewTask->AddTask( new ChoiceTask(this, IDS_TUTORIAL_TASK_CREATIVE_INV_OVERVIEW, IDS_TUTORIAL_PROMPT_CREATIVE_INV_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State, eTelemetryTutorial_CreativeInventory) ); + creativeInventoryOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CREATIVE_INV_PICK_UP, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + creativeInventoryOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CREATIVE_INV_MOVE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + creativeInventoryOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CREATIVE_INV_DROP, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + creativeInventoryOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CREATIVE_INV_NAV, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + creativeInventoryOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CREATIVE_INV_INFO, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Creative_Inventory_Menu, creativeInventoryOverviewTask ); + } + + /* + * + * + * CRAFTING + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_2x2Crafting_Menu ) ) + { + ProcedureCompoundTask *craftingOverviewTask = new ProcedureCompoundTask( this ); + craftingOverviewTask->AddTask( new ChoiceTask(this, IDS_TUTORIAL_TASK_CRAFT_OVERVIEW, IDS_TUTORIAL_PROMPT_CRAFT_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State, eTelemetryTutorial_Crafting) ); + craftingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CRAFT_NAV, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + craftingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CRAFT_CREATE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + craftingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CRAFT_CRAFT_TABLE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + craftingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CRAFT_INVENTORY, IDS_TUTORIAL_PROMPT_PRESS_X_TO_TOGGLE_DESCRIPTION, false, ACTION_MENU_X) ); + craftingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CRAFT_DESCRIPTION, IDS_TUTORIAL_PROMPT_PRESS_X_TO_TOGGLE_INGREDIENTS, false, ACTION_MENU_X) ); + craftingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_CRAFT_INGREDIENTS, IDS_TUTORIAL_PROMPT_PRESS_X_TO_TOGGLE_INVENTORY, false, ACTION_MENU_X) ); + addTask(e_Tutorial_State_2x2Crafting_Menu, craftingOverviewTask ); + } + // Other tasks can be added in the derived classes + + addHint(e_Tutorial_State_2x2Crafting_Menu, new TutorialHint(e_Tutorial_Hint_Always_On, this, IDS_TUTORIAL_HINT_CRAFT_NO_INGREDIENTS, TutorialHint::e_Hint_NoIngredients) ); + + addHint(e_Tutorial_State_3x3Crafting_Menu, new TutorialHint(e_Tutorial_Hint_Always_On, this, IDS_TUTORIAL_HINT_CRAFT_NO_INGREDIENTS, TutorialHint::e_Hint_NoIngredients) ); + + /* + * + * + * FURNACE + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Furnace_Menu ) ) + { + ProcedureCompoundTask *furnaceOverviewTask = new ProcedureCompoundTask( this ); + furnaceOverviewTask->AddTask( new ChoiceTask(this, IDS_TUTORIAL_TASK_FURNACE_OVERVIEW, IDS_TUTORIAL_PROMPT_FURNACE_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State, eTelemetryTutorial_Furnace) ); + furnaceOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FURNACE_METHOD, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + furnaceOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FURNACE_FUELS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + furnaceOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FURNACE_INGREDIENTS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Furnace_Menu, furnaceOverviewTask ); + } + // Other tasks can be added in the derived classes + + /* + * + * + * BREWING MENU + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Brewing_Menu ) ) + { + ProcedureCompoundTask *brewingOverviewTask = new ProcedureCompoundTask( this ); + brewingOverviewTask->AddTask( new ChoiceTask(this, IDS_TUTORIAL_TASK_BREWING_MENU_OVERVIEW, IDS_TUTORIAL_PROMPT_BREWING_MENU_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State, eTelemetryTutorial_BrewingMenu) ); + brewingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_BREWING_MENU_METHOD, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + brewingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_BREWING_MENU_BASIC_INGREDIENTS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + brewingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_BREWING_MENU_EXTENDED_INGREDIENTS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + brewingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_BREWING_MENU_EXTENDED_INGREDIENTS_2, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Brewing_Menu, brewingOverviewTask ); + } + // Other tasks can be added in the derived classes + + /* + * + * + * ENCHANTING MENU + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Enchanting_Menu ) ) + { + ProcedureCompoundTask *enchantingOverviewTask = new ProcedureCompoundTask( this ); + enchantingOverviewTask->AddTask( new ChoiceTask(this, IDS_TUTORIAL_TASK_ENCHANTING_MENU_OVERVIEW, IDS_TUTORIAL_PROMPT_ENCHANTING_MENU_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State, eTelemetryTutorial_EnchantingMenu) ); + enchantingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ENCHANTING_MENU_START, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + enchantingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ENCHANTING_MENU_ENCHANTMENTS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + enchantingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ENCHANTING_MENU_COST, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + enchantingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ENCHANTING_MENU_ENCHANT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + enchantingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ENCHANTING_MENU_BETTER_ENCHANTMENTS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Enchanting_Menu, enchantingOverviewTask ); + } + // Other tasks can be added in the derived classes + + /* + * + * + * ANVIL MENU + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Anvil_Menu ) ) + { + ProcedureCompoundTask *anvilOverviewTask = new ProcedureCompoundTask( this ); + anvilOverviewTask->AddTask( new ChoiceTask(this, IDS_TUTORIAL_TASK_ANVIL_MENU_OVERVIEW, IDS_TUTORIAL_PROMPT_ANVIL_MENU_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State, eTelemetryTutorial_AnvilMenu) ); + anvilOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_MENU_START, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + anvilOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_MENU_REPAIR, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + anvilOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_MENU_SACRIFICE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + anvilOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_MENU_ENCHANT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + anvilOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_MENU_COST, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + anvilOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_MENU_RENAMING, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + anvilOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_ANVIL_MENU_SMITH, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Anvil_Menu, anvilOverviewTask ); + } + // Other tasks can be added in the derived classes + + /* + * + * + * TRADING MENU + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Trading_Menu ) ) + { + ProcedureCompoundTask *tradingOverviewTask = new ProcedureCompoundTask( this ); + tradingOverviewTask->AddTask( new ChoiceTask(this, IDS_TUTORIAL_TASK_TRADING_MENU_OVERVIEW, IDS_TUTORIAL_PROMPT_TRADING_MENU_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State, eTelemetryTutorial_TradingMenu) ); + tradingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_TRADING_MENU_START, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + tradingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_TRADING_MENU_UNAVAILABLE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + tradingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_TRADING_MENU_DETAILS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + tradingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_TRADING_MENU_INVENTORY, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + tradingOverviewTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_TRADING_MENU_TRADE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Trading_Menu, tradingOverviewTask ); + } + // Other tasks can be added in the derived classes + + /* + * + * + * HORSE ENCOUNTER + * + */ + if(isFullTutorial || !isStateCompleted(e_Tutorial_State_Horse) ) + { + addTask(e_Tutorial_State_Horse, + new HorseChoiceTask(this, IDS_TUTORIAL_TASK_HORSE_OVERVIEW, IDS_TUTORIAL_TASK_DONKEY_OVERVIEW, IDS_TUTORIAL_TASK_MULE_OVERVIEW, IDS_TUTORIAL_PROMPT_HORSE_OVERVIEW, + true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Horse) ); + + addTask(e_Tutorial_State_Horse, new InfoTask(this, IDS_TUTORIAL_TASK_HORSE_INTRO, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Horse, new InfoTask(this, IDS_TUTORIAL_TASK_HORSE_PURPOSE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Horse, new InfoTask(this, IDS_TUTORIAL_TASK_HORSE_TAMING, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Horse, new InfoTask(this, IDS_TUTORIAL_TASK_HORSE_TAMING2, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + + // 4J-JEV: Only force the RideEntityTask if we're on the full-tutorial. + if (isFullTutorial) addTask(e_Tutorial_State_Horse, new RideEntityTask(eTYPE_HORSE, this, IDS_TUTORIAL_TASK_HORSE_RIDE, true, nullptr, false, false, false) ); + else addTask(e_Tutorial_State_Horse, new InfoTask(this, IDS_TUTORIAL_TASK_HORSE_RIDE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + + addTask(e_Tutorial_State_Horse, new InfoTask(this, IDS_TUTORIAL_TASK_HORSE_SADDLES, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Horse, new InfoTask(this, IDS_TUTORIAL_TASK_HORSE_SADDLEBAGS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Horse, new InfoTask(this, IDS_TUTORIAL_TASK_HORSE_BREEDING, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + + /* + * + * + * HORSE MENU + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Horse_Menu ) ) + { + ProcedureCompoundTask *horseMenuTask = new ProcedureCompoundTask( this ); + horseMenuTask->AddTask( new ChoiceTask(this, IDS_TUTORIAL_TASK_HORSE_MENU_OVERVIEW, IDS_TUTORIAL_PROMPT_HORSE_MENU_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State, eTelemetryTutorial_HorseMenu) ); + horseMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_HORSE_MENU_LAYOUT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + horseMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_HORSE_MENU_EQUIPMENT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + horseMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_HORSE_MENU_SADDLEBAGS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Horse_Menu, horseMenuTask ); + } + + /* + * + * + * FIREWORKS MENU + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Fireworks_Menu ) ) + { + ProcedureCompoundTask *fireworksMenuTask = new ProcedureCompoundTask( this ); + fireworksMenuTask->AddTask( new ChoiceTask(this, IDS_TUTORIAL_TASK_FIREWORK_MENU_OVERVIEW, IDS_TUTORIAL_PROMPT_FIREWORK_MENU_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State, eTelemetryTutorial_FireworksMenu) ); + fireworksMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_MENU_BASIC_START, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + fireworksMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_MENU_BASIC_STARS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + fireworksMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_MENU_BASIC_HEIGHT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + fireworksMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_MENU_BASIC_CRAFT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + fireworksMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_MENU_ADV_START, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + fireworksMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_MENU_ADV_COLOUR, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + fireworksMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_MENU_ADV_SHAPE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + fireworksMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_MENU_ADV_EFFECT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + fireworksMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_FIREWORK_MENU_ADV_FADE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Fireworks_Menu, fireworksMenuTask ); + } + + /* + * + * + * BEACON MENU + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Beacon_Menu ) ) + { + ProcedureCompoundTask *beaconMenuTask = new ProcedureCompoundTask( this ); + beaconMenuTask->AddTask( new ChoiceTask(this, IDS_TUTORIAL_TASK_BEACON_MENU_OVERVIEW, IDS_TUTORIAL_PROMPT_BEACON_MENU_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State, eTelemetryTutorial_BeaconMenu) ); + beaconMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_BEACON_MENU_PRIMARY_POWERS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + beaconMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_BEACON_MENU_SECONDARY_POWER, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + beaconMenuTask->AddTask( new InfoTask(this, IDS_TUTORIAL_TASK_BEACON_MENU_ACTIVATION, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Beacon_Menu, beaconMenuTask ); + } + + /* + * + * + * MINECART + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Riding_Minecart ) ) + { + addTask(e_Tutorial_State_Riding_Minecart, new ChoiceTask(this, IDS_TUTORIAL_TASK_MINECART_OVERVIEW, IDS_TUTORIAL_PROMPT_MINECART_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Minecart) ); + addTask(e_Tutorial_State_Riding_Minecart, new InfoTask(this, IDS_TUTORIAL_TASK_MINECART_RAILS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Riding_Minecart, new InfoTask(this, IDS_TUTORIAL_TASK_MINECART_POWERED_RAILS, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Riding_Minecart, new InfoTask(this, IDS_TUTORIAL_TASK_MINECART_PUSHING, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + + /* + * + * + * BOAT + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Riding_Boat ) ) + { + addTask(e_Tutorial_State_Riding_Boat, new ChoiceTask(this, IDS_TUTORIAL_TASK_BOAT_OVERVIEW, IDS_TUTORIAL_PROMPT_BOAT_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Boat) ); + addTask(e_Tutorial_State_Riding_Boat, new InfoTask(this, IDS_TUTORIAL_TASK_BOAT_STEER, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + + /* + * + * + * FISHING + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Fishing ) ) + { + addTask(e_Tutorial_State_Fishing, new ChoiceTask(this, IDS_TUTORIAL_TASK_FISHING_OVERVIEW, IDS_TUTORIAL_PROMPT_FISHING_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Fishing) ); + addTask(e_Tutorial_State_Fishing, new InfoTask(this, IDS_TUTORIAL_TASK_FISHING_CAST, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Fishing, new InfoTask(this, IDS_TUTORIAL_TASK_FISHING_FISH, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Fishing, new InfoTask(this, IDS_TUTORIAL_TASK_FISHING_USES, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + + /* + * + * + * BED + * + */ + if(isFullTutorial || !isStateCompleted( e_Tutorial_State_Bed ) ) + { + addTask(e_Tutorial_State_Bed, new ChoiceTask(this, IDS_TUTORIAL_TASK_BED_OVERVIEW, IDS_TUTORIAL_PROMPT_BED_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_Bed) ); + addTask(e_Tutorial_State_Bed, new InfoTask(this, IDS_TUTORIAL_TASK_BED_PLACEMENT, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Bed, new InfoTask(this, IDS_TUTORIAL_TASK_BED_MULTIPLAYER, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } + + /* + * + * + * FOOD BAR + * + */ + if(!isFullTutorial && !isStateCompleted( e_Tutorial_State_Food_Bar ) ) + { + addTask(e_Tutorial_State_Food_Bar, new ChoiceTask(this, IDS_TUTORIAL_TASK_FOOD_BAR_OVERVIEW, IDS_TUTORIAL_PROMPT_FOOD_BAR_OVERVIEW, true, ACTION_MENU_A, ACTION_MENU_B, e_Tutorial_Completion_Complete_State_Gameplay_Constraints, eTelemetryTutorial_FoodBar) ); + addTask(e_Tutorial_State_Food_Bar, new InfoTask(this, IDS_TUTORIAL_TASK_FOOD_BAR_DEPLETE, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Food_Bar, new InfoTask(this, IDS_TUTORIAL_TASK_FOOD_BAR_HEAL, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + addTask(e_Tutorial_State_Food_Bar, new InfoTask(this, IDS_TUTORIAL_TASK_FOOD_BAR_FEED, IDS_TUTORIAL_PROMPT_PRESS_A_TO_CONTINUE, true, ACTION_MENU_A) ); + } +} + +Tutorial::~Tutorial() +{ + for(auto& it : m_globalConstraints) + { + delete it; + } + for(auto& message : messages) + { + delete message.second; + } + for(unsigned int i = 0; i < e_Tutorial_State_Max; ++i) + { + for(auto& it : activeTasks[i]) + { + delete it; + } + for(auto& it : hints[i]) + { + delete it; + } + + currentTask[i] = nullptr; + currentFailedConstraint[i] = nullptr; + } +} + +void Tutorial::debugResetPlayerSavedProgress(int iPad) +{ +#if ( defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) + GAME_SETTINGS *pGameSettings = (GAME_SETTINGS *)StorageManager.GetGameDefinedProfileData(iPad); +#else + GAME_SETTINGS *pGameSettings = static_cast(ProfileManager.GetGameDefinedProfileData(iPad)); +#endif + ZeroMemory( pGameSettings->ucTutorialCompletion, TUTORIAL_PROFILE_STORAGE_BYTES ); + pGameSettings->uiSpecialTutorialBitmask = 0; +} + +void Tutorial::setCompleted( int completableId ) +{ + //if(app.GetGameSettingsDebugMask(m_iPad) && app.GetGameSettingsDebugMask()&(1L<= 0 && completableIndex < TUTORIAL_PROFILE_STORAGE_BITS ) + { + // Set the bit for this position +#if (defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) + GAME_SETTINGS *pGameSettings = (GAME_SETTINGS *)StorageManager.GetGameDefinedProfileData(m_iPad); +#else + GAME_SETTINGS *pGameSettings = static_cast(ProfileManager.GetGameDefinedProfileData(m_iPad)); +#endif + int arrayIndex = completableIndex >> 3; + int bitIndex = 7 - (completableIndex % 8); + pGameSettings->ucTutorialCompletion[arrayIndex] |= 1<bSettingsChanged=true; + } +} + +bool Tutorial::getCompleted( int completableId ) +{ + //if(app.GetGameSettingsDebugMask(m_iPad) && app.GetGameSettingsDebugMask()&(1L<= 0 && completableIndex < TUTORIAL_PROFILE_STORAGE_BITS ) + { + // Read the bit for this position + //Retrieve the data pointer from the profile +#if ( defined __PS3__ || defined __ORBIS__ || defined _DURANGO || defined __PSVITA__) + GAME_SETTINGS *pGameSettings = (GAME_SETTINGS *)StorageManager.GetGameDefinedProfileData(m_iPad); +#else + GAME_SETTINGS *pGameSettings = static_cast(ProfileManager.GetGameDefinedProfileData(m_iPad)); +#endif + int arrayIndex = completableIndex >> 3; + int bitIndex = 7 - (completableIndex % 8); + return (pGameSettings->ucTutorialCompletion[arrayIndex] & 1<getId(); + + if( hintId != e_Tutorial_Hint_Always_On ) + { + setHintCompleted( hint->getId() ); + hints[m_CurrentState].erase( find(hints[m_CurrentState].begin(), hints[m_CurrentState].end(), hint) ); + delete hint; + } + // else + // { + // find(hints[m_CurrentState].begin(), hints[m_CurrentState].end(), hint); + // } +} + +void Tutorial::tick() +{ + // Don't do anything for the first 2 seconds so that the loading screen is gone + if(!m_bHasTickedOnce) + { + int time = GetTickCount(); + if(m_firstTickTime == 0) + { + m_firstTickTime = time; + } + else if ( time - m_firstTickTime > 1500 ) + { + m_bHasTickedOnce = true; + } + } + if(!m_bHasTickedOnce) + { + return; + } + + bool constraintChanged = false; + bool taskChanged = false; + + for(unsigned int state = 0; state < e_Tutorial_State_Max; ++state) + { + auto it = constraintsToRemove[state].begin(); + while(it != constraintsToRemove[state].end() ) + { + ++(*it).second; + if( (*it).second > m_iTutorialConstraintDelayRemoveTicks ) + { + TutorialConstraint *c = (*it).first; + constraints[state].erase( find( constraints[state].begin(), constraints[state].end(), c) ); + c->setQueuedForRemoval(false); + it = constraintsToRemove[state].erase( it ); + + if( c->getDeleteOnDeactivate() ) + { + delete c; + } + } + else + { + ++it; + } + } + } + + // 4J Stu TODO - Make this a constraint + Minecraft *pMinecraft = Minecraft::GetInstance(); + if(m_freezeTime && !m_timeFrozen && !m_fullTutorialComplete ) + { + // Need to set the time on both levels to stop the flickering as the local level + // tries to predict the time + MinecraftServer::SetTimeOfDay(m_iTutorialFreezeTimeValue); + pMinecraft->level->setDayTime(m_iTutorialFreezeTimeValue); // Always daytime + app.SetGameHostOption(eGameHostOption_DoDaylightCycle,0); + m_timeFrozen = true; + } + else if(m_freezeTime && m_timeFrozen && m_fullTutorialComplete) + { + MinecraftServer::SetTimeOfDay(m_iTutorialFreezeTimeValue); + pMinecraft->level->setDayTime(m_iTutorialFreezeTimeValue); + app.SetGameHostOption(eGameHostOption_DoDaylightCycle,1); + m_timeFrozen = false; + } + + if(!m_allowShow) + { + if( currentTask[m_CurrentState] != nullptr && (!currentTask[m_CurrentState]->AllowFade() || (lastMessageTime + m_iTutorialDisplayMessageTime ) > GetTickCount() ) ) + { + uiTempDisabled = true; + } + return; + } + + + if(!hasRequestedUI ) + { +#ifdef _XBOX + m_bSceneIsSplitscreen=app.GetLocalPlayerCount()>1; + if(m_bSceneIsSplitscreen) + { + app.NavigateToScene(m_iPad, eUIComponent_TutorialPopup,(void *)this, false, false, &m_hTutorialScene); + } + else + { + app.NavigateToScene(m_iPad, eUIComponent_TutorialPopup,(void *)this, false, false, &m_hTutorialScene); + } +#else +#endif + hasRequestedUI = true; + } + else + { + // if we've changed mode, we may need to change scene + if(m_bSceneIsSplitscreen!=(app.GetLocalPlayerCount()>1)) + { +#ifdef _XBOX + app.TutorialSceneNavigateBack(m_iPad); + m_bSceneIsSplitscreen=app.GetLocalPlayerCount()>1; + if(m_bSceneIsSplitscreen) + { + app.NavigateToScene(m_iPad, eUIComponent_TutorialPopup,(void *)this, false, false, &m_hTutorialScene); + } + else + { + app.NavigateToScene(m_iPad, eUIComponent_TutorialPopup,(void *)this, false, false, &m_hTutorialScene); + } +#else +#endif + } + } + + + if( uiTempDisabled ) + { + lastMessageTime = GetTickCount(); + uiTempDisabled = false; + } + + // Check constraints + for (auto& constraint : m_globalConstraints) + { + constraint->tick(m_iPad); + } + + // Check hints + int hintNeeded = -1; + if(!m_hintDisplayed) + { + // 4J Stu - TU-1 interim + // Allow turning off all the hints + bool hintsOn = m_isFullTutorial || app.GetGameSettings(m_iPad,eGameSetting_Hints); + + if(hintsOn) + { + for (auto& hint : hints[m_CurrentState]) + { + hintNeeded = hint->tick(); + if(hintNeeded >= 0) + { + PopupMessageDetails *message = new PopupMessageDetails(); + message->m_messageId = hintNeeded; + message->m_allowFade = hint->allowFade(); + message->m_forceDisplay = true; + setMessage( hint, message ); + break; + } + } + } + } + + // Check constraints + // Only need to update these if we aren't already failing something + if( !m_allTutorialsComplete && (currentFailedConstraint[m_CurrentState] == nullptr || currentFailedConstraint[m_CurrentState]->isConstraintSatisfied(m_iPad)) ) + { + if( currentFailedConstraint[m_CurrentState] != nullptr && currentFailedConstraint[m_CurrentState]->isConstraintSatisfied(m_iPad) ) + { + constraintChanged = true; + currentFailedConstraint[m_CurrentState] = nullptr; + } + for (auto& constraint : constraints[m_CurrentState]) + { + if( !constraint->isConstraintSatisfied(m_iPad) && constraint->isConstraintRestrictive(m_iPad) ) + { + constraintChanged = true; + currentFailedConstraint[m_CurrentState] = constraint; + } + } + } + + if( !m_allTutorialsComplete && currentFailedConstraint[m_CurrentState] == nullptr ) + { + // Update tasks + bool isCurrentTask = true; + auto it = activeTasks[m_CurrentState].begin(); + while(activeTasks[m_CurrentState].size() > 0 && it != activeTasks[m_CurrentState].end()) + { + TutorialTask *task = *it; + if( isCurrentTask || task->isPreCompletionEnabled() ) + { + isCurrentTask = false; + if( + ( !task->ShowMinimumTime() || ( task->hasBeenActivated() && (lastMessageTime + m_iTutorialMinimumDisplayMessageTime ) < GetTickCount() ) ) + && task->isCompleted() + ) + { + eTutorial_CompletionAction compAction = task->getCompletionAction(); + it = activeTasks[m_CurrentState].erase( it ); + delete task; + task = nullptr; + + if( activeTasks[m_CurrentState].size() > 0 ) + { + switch( compAction ) + { + case e_Tutorial_Completion_Complete_State_Gameplay_Constraints: + { + // 4J Stu - Move the delayed constraints to the gameplay state so that they are in + // effect for a bit longer + auto itCon = constraintsToRemove[m_CurrentState].begin(); + while(itCon != constraintsToRemove[m_CurrentState].end() ) + { + constraints[e_Tutorial_State_Gameplay].push_back(itCon->first); + constraintsToRemove[e_Tutorial_State_Gameplay].push_back( pair(itCon->first, itCon->second) ); + + constraints[m_CurrentState].erase( find( constraints[m_CurrentState].begin(), constraints[m_CurrentState].end(), itCon->first) ); + itCon = constraintsToRemove[m_CurrentState].erase(itCon); + } + } + // Fall through the the normal complete state + case e_Tutorial_Completion_Complete_State: + for (auto& itRem : activeTasks[m_CurrentState]) + { + delete itRem; + } + activeTasks[m_CurrentState].clear(); + break; + case e_Tutorial_Completion_Jump_To_Last_Task: + { + TutorialTask *lastTask = activeTasks[m_CurrentState].at( activeTasks[m_CurrentState].size() - 1 ); + activeTasks[m_CurrentState].pop_back(); + for(auto& itRem : activeTasks[m_CurrentState]) + { + delete itRem; + } + activeTasks[m_CurrentState].clear(); + activeTasks[m_CurrentState].push_back( lastTask ); + it = activeTasks[m_CurrentState].begin(); + } + break; + case e_Tutorial_Completion_None: + default: + break; + } + } + + if( activeTasks[m_CurrentState].size() > 0 ) + { + currentTask[m_CurrentState] = activeTasks[m_CurrentState][0]; + currentTask[m_CurrentState]->setAsCurrentTask(); + } + else + { + setStateCompleted( m_CurrentState ); + + currentTask[m_CurrentState] = nullptr; + } + taskChanged = true; + + // If we can complete this early, check if we can complete it right now + if( currentTask[m_CurrentState] != nullptr && currentTask[m_CurrentState]->isPreCompletionEnabled() ) + { + isCurrentTask = true; + } + } + else + { + ++it; + } + if( task != nullptr && task->ShowMinimumTime() && task->hasBeenActivated() && (lastMessageTime + m_iTutorialMinimumDisplayMessageTime ) < GetTickCount() ) + { + task->setShownForMinimumTime(); + + if( !m_hintDisplayed ) + { + PopupMessageDetails *message = new PopupMessageDetails(); + message->m_messageId = task->getDescriptionId(); + message->m_promptId = task->getPromptId(); + message->m_allowFade = task->AllowFade(); + message->m_replaceCurrent = true; + setMessage( message ); + } + } + } + else + { + ++it; + } + } + + if( currentTask[m_CurrentState] == nullptr && activeTasks[m_CurrentState].size() > 0 ) + { + currentTask[m_CurrentState] = activeTasks[m_CurrentState][0]; + currentTask[m_CurrentState]->setAsCurrentTask(); + taskChanged = true; + } + } + + if(!m_allTutorialsComplete && (taskChanged || m_hasStateChanged) ) + { + bool allComplete = true; + for(unsigned int state = 0; state < e_Tutorial_State_Max; ++state) + { + if(activeTasks[state].size() > 0 ) + { + allComplete = false; + break; + } + if(state==e_Tutorial_State_Gameplay) + { + m_fullTutorialComplete = true; + Minecraft::GetInstance()->playerLeftTutorial(m_iPad); + } + } + if(allComplete) + m_allTutorialsComplete = true; + } + + if( constraintChanged || taskChanged || m_hasStateChanged || + (currentFailedConstraint[m_CurrentState] == nullptr && currentTask[m_CurrentState] != nullptr && (m_lastMessage == nullptr || currentTask[m_CurrentState]->getDescriptionId() != m_lastMessage->m_messageId) && !m_hintDisplayed) + ) + { + if( currentFailedConstraint[m_CurrentState] != nullptr ) + { + PopupMessageDetails *message = new PopupMessageDetails(); + message->m_messageId = currentFailedConstraint[m_CurrentState]->getDescriptionId(); + message->m_allowFade = false; + setMessage( message ); + } + else if( currentTask[m_CurrentState] != nullptr ) + { + PopupMessageDetails *message = new PopupMessageDetails(); + message->m_messageId = currentTask[m_CurrentState]->getDescriptionId(); + message->m_promptId = currentTask[m_CurrentState]->getPromptId(); + message->m_allowFade = currentTask[m_CurrentState]->AllowFade(); + setMessage( message ); + currentTask[m_CurrentState]->TaskReminders()? m_iTaskReminders = 1 : m_iTaskReminders = 0; + } + else + { + setMessage( nullptr ); + } + } + + if(m_hintDisplayed && (lastMessageTime + m_iTutorialDisplayMessageTime ) < GetTickCount() ) + { + m_hintDisplayed = false; + } + + if( currentFailedConstraint[m_CurrentState] == nullptr && currentTask[m_CurrentState] != nullptr && (m_iTaskReminders!=0) && (lastMessageTime + (m_iTaskReminders * m_iTutorialReminderTime) ) < GetTickCount() ) + { + // Reminder + PopupMessageDetails *message = new PopupMessageDetails(); + message->m_messageId = currentTask[m_CurrentState]->getDescriptionId(); + message->m_promptId = currentTask[m_CurrentState]->getPromptId(); + message->m_allowFade = currentTask[m_CurrentState]->AllowFade(); + message->m_isReminder = true; + setMessage( message ); + ++m_iTaskReminders; + if( m_iTaskReminders > 1 ) + m_iTaskReminders = 1; + } + + m_hasStateChanged = false; +} + +bool Tutorial::setMessage(PopupMessageDetails *message) +{ + if(message != nullptr && !message->m_forceDisplay && + m_lastMessageState == m_CurrentState && + message->isSameContent(m_lastMessage) && + ( !message->m_isReminder || ( (lastMessageTime + m_iTutorialReminderTime ) > GetTickCount() && message->m_isReminder ) ) + ) + { + delete message; + return false; + } + + if(message != nullptr && (message->m_messageId > 0 || !message->m_messageString.empty()) ) + { + m_lastMessageState = m_CurrentState; + + if(!message->m_replaceCurrent) lastMessageTime = GetTickCount(); + + wstring text; + if(!message->m_messageString.empty()) + { + text = message->m_messageString; + } + else + { + auto it = messages.find(message->m_messageId); + if( it != messages.end() && it->second != nullptr ) + { + TutorialMessage *messageString = it->second; + text = wstring( messageString->getMessageForDisplay() ); + + // 4J Stu - Quick fix for boat tutorial being incorrect + if(message->m_messageId == IDS_TUTORIAL_TASK_BOAT_OVERVIEW) + { + text = replaceAll(text, L"{*CONTROLLER_ACTION_USE*}", L"{*CONTROLLER_ACTION_DISMOUNT*}"); + } + } + else + { + text = wstring( app.GetString(message->m_messageId) ); + + // 4J Stu - Quick fix for boat tutorial being incorrect + if(message->m_messageId == IDS_TUTORIAL_TASK_BOAT_OVERVIEW) + { + text = replaceAll(text, L"{*CONTROLLER_ACTION_USE*}", L"{*CONTROLLER_ACTION_DISMOUNT*}"); + } + } + } + + if(!message->m_promptString.empty()) + { + text.append(message->m_promptString); + } + else if(message->m_promptId >= 0) + { + auto it = messages.find(message->m_promptId); + if(it != messages.end() && it->second != nullptr) + { + TutorialMessage *prompt = it->second; + text.append( prompt->getMessageForDisplay() ); + } + } + + + } + + if(m_lastMessage != nullptr) delete m_lastMessage; + m_lastMessage = message; + + return true; +} + +bool Tutorial::setMessage(TutorialHint *hint, PopupMessageDetails *message) +{ + // 4J Stu - TU-1 interim + // Allow turning off all the hints + bool hintsOn = m_isFullTutorial || (app.GetGameSettings(m_iPad,eGameSetting_Hints) && app.GetGameSettings(m_iPad,eGameSetting_DisplayHUD)); + + bool messageShown = false; + DWORD time = GetTickCount(); + if(message != nullptr && (message->m_forceDisplay || hintsOn) && + (!message->m_delay || + ( + (m_hintDisplayed && (time - m_lastHintDisplayedTime) > m_iTutorialHintDelayTime ) || + (!m_hintDisplayed && (time - lastMessageTime) > m_iTutorialMinimumDisplayMessageTime ) + ) + ) + ) + { + messageShown = setMessage( message ); + + if(messageShown) + { + m_lastHintDisplayedTime = time; + m_hintDisplayed = true; + if(hint!=nullptr) setHintCompleted( hint ); + } + } + return messageShown; +} + +bool Tutorial::setMessage(const wstring &messageString, int icon, int auxValue) +{ + PopupMessageDetails *message = new PopupMessageDetails(); + message->m_messageString = messageString; + message->m_icon = icon; + message->m_iAuxVal = auxValue; + message->m_forceDisplay = true; + + return setMessage(message); +} + +void Tutorial::showTutorialPopup(bool show) +{ + m_allowShow = show; + + if(!show) + { + if( currentTask[m_CurrentState] != nullptr && (!currentTask[m_CurrentState]->AllowFade() || (lastMessageTime + m_iTutorialDisplayMessageTime ) > GetTickCount() ) ) + { + uiTempDisabled = true; + } + } +} + +void Tutorial::useItemOn(Level *level, shared_ptr item, int x, int y, int z, bool bTestUseOnly) +{ + for(auto& task : activeTasks[m_CurrentState]) + { + task->useItemOn(level, item, x, y, z, bTestUseOnly); + } +} + +void Tutorial::useItemOn(shared_ptr item, bool bTestUseOnly) +{ + for(auto& task : activeTasks[m_CurrentState]) + { + task->useItem(item, bTestUseOnly); + } +} + +void Tutorial::completeUsingItem(shared_ptr item) +{ + for(auto task : activeTasks[m_CurrentState]) + { + task->completeUsingItem(item); + } + + // Fix for #46922 - TU5: UI: Player receives a reminder that he is hungry while "hunger bar" is full (triggered in split-screen mode) + if(m_CurrentState != e_Tutorial_State_Gameplay) + { + for(auto task : activeTasks[e_Tutorial_State_Gameplay]) + { + task->completeUsingItem(item); + } + } +} + +void Tutorial::startDestroyBlock(shared_ptr item, Tile *tile) +{ + int hintNeeded = -1; + for(auto& hint : hints[m_CurrentState]) + { + hintNeeded = hint->startDestroyBlock(item, tile); + if(hintNeeded >= 0) + { + PopupMessageDetails *message = new PopupMessageDetails(); + message->m_messageId = hintNeeded; + setMessage( hint, message ); + break; + } + } +} + +void Tutorial::destroyBlock(Tile *tile) +{ + int hintNeeded = -1; + for(auto& hint : hints[m_CurrentState]) + { + hintNeeded = hint->destroyBlock(tile); + if(hintNeeded >= 0) + { + PopupMessageDetails *message = new PopupMessageDetails(); + message->m_messageId = hintNeeded; + setMessage( hint, message ); + break; + } + } +} + +void Tutorial::attack(shared_ptr player, shared_ptr entity) +{ + int hintNeeded = -1; + for(auto& hint : hints[m_CurrentState]) + { + hintNeeded = hint->attack(player->inventory->getSelected(), entity); + if(hintNeeded >= 0) + { + PopupMessageDetails *message = new PopupMessageDetails(); + message->m_messageId = hintNeeded; + setMessage( hint, message ); + break; + } + + } +} + +void Tutorial::itemDamaged(shared_ptr item) +{ + int hintNeeded = -1; + for(auto& hint : hints[m_CurrentState]) + { + hintNeeded = hint->itemDamaged(item); + if(hintNeeded >= 0) + { + PopupMessageDetails *message = new PopupMessageDetails(); + message->m_messageId = hintNeeded; + setMessage( hint, message ); + break; + } + + } +} + +void Tutorial::handleUIInput(int iAction) +{ + if( m_hintDisplayed ) return; + + if(currentTask[m_CurrentState] != nullptr) + currentTask[m_CurrentState]->handleUIInput(iAction); +} + +void Tutorial::createItemSelected(shared_ptr item, bool canMake) +{ + int hintNeeded = -1; + for(auto& hint : hints[m_CurrentState]) + { + hintNeeded = hint->createItemSelected(item, canMake); + if(hintNeeded >= 0) + { + PopupMessageDetails *message = new PopupMessageDetails(); + message->m_messageId = hintNeeded; + setMessage( hint, message ); + break; + } + + } +} + +void Tutorial::onCrafted(shared_ptr item) +{ + for(auto& subtasks : activeTasks) + { + for(auto& task : subtasks) + { + task->onCrafted(item); + } + } +} + +void Tutorial::onTake(shared_ptr item, unsigned int invItemCountAnyAux, unsigned int invItemCountThisAux) +{ + if( !m_hintDisplayed ) + { + bool hintNeeded = false; + for(auto hint : hints[m_CurrentState]) + { + hintNeeded = hint->onTake(item); + if(hintNeeded) + { + break; + } + } + } + + for(auto& subtasks : activeTasks) + { + for(auto& task : subtasks) + { + task->onTake(item, invItemCountAnyAux, invItemCountThisAux); + } + } +} + +void Tutorial::onSelectedItemChanged(shared_ptr item) +{ + // We only handle this if we are in a state that allows changing based on the selected item + // Menus and states like riding in a minecart will NOT allow this + if( isSelectedItemState() ) + { + if(item != nullptr) + { + switch(item->id) + { + case Item::fishingRod_Id: + break; + default: + break; + } + } + } +} + +void Tutorial::onLookAt(int id, int iData) +{ + +} + +void Tutorial::onLookAtEntity(shared_ptr entity) +{ + if( m_hintDisplayed ) return; + + bool hintNeeded = false; + for(auto& hint : hints[m_CurrentState]) + { + hintNeeded = hint->onLookAtEntity(entity->GetType()); + if(hintNeeded) + { + break; + } + } + + for (auto& it : activeTasks[m_CurrentState]) + { + it->onLookAtEntity(entity); + } +} + +void Tutorial::onRideEntity(shared_ptr entity) +{ + +} + +void Tutorial::onEffectChanged(MobEffect *effect, bool bRemoved) +{ + for(auto& task : activeTasks[m_CurrentState]) + { + task->onEffectChanged(effect,bRemoved); + } +} + +bool Tutorial::canMoveToPosition(double xo, double yo, double zo, double xt, double yt, double zt) +{ + bool allowed = true; + for(auto& constraint : constraints[m_CurrentState]) + { + if( !constraint->isConstraintSatisfied(m_iPad) && !constraint->canMoveToPosition(xo,yo,zo,xt,yt,zt) ) + { + allowed = false; + break; + } + } + return allowed; +} + +bool Tutorial::isInputAllowed(int mapping) +{ + if( m_hintDisplayed ) return true; + + // If the player is under water then allow all keypresses so they can jump out + if( Minecraft::GetInstance()->localplayers[m_iPad]->isUnderLiquid(Material::water) ) return true; + + bool allowed = true; + for(auto& constraint : constraints[m_CurrentState]) + { + if( constraint->isMappingConstrained( m_iPad, mapping ) ) + { + allowed = false; + break; + } + } + return allowed; +} + +vector *Tutorial::getTasks() +{ + return &tasks; +} + +unsigned int Tutorial::getCurrentTaskIndex() +{ + unsigned int index = 0; + for(const auto& task : tasks) + { + if(task == currentTask[e_Tutorial_State_Gameplay]) + break; + + ++index; + } + return index; +} + +void Tutorial::AddGlobalConstraint(TutorialConstraint *c) +{ + m_globalConstraints.push_back(c); +} + +void Tutorial::AddConstraint(TutorialConstraint *c) +{ + constraints[m_CurrentState].push_back(c); +} + +void Tutorial::RemoveConstraint(TutorialConstraint *c, bool delayedRemove /*= false*/) +{ + if( currentFailedConstraint[m_CurrentState] == c ) + currentFailedConstraint[m_CurrentState] = nullptr; + + if( c->getQueuedForRemoval() ) + { + // If it is already queued for removal, remove it on the next tick + /*for(auto& it : constraintsToRemove[m_CurrentState]) + { + if( it.first == c ) + { + it.second = m_iTutorialConstraintDelayRemoveTicks; + break; + } + }*/ + } + else if(delayedRemove) + { + c->setQueuedForRemoval(true); + constraintsToRemove[m_CurrentState].emplace_back(c, 0); + } + else + { + for (auto it = constraintsToRemove[m_CurrentState].begin(); it != constraintsToRemove[m_CurrentState].end(); ++it) + { + if( it->first == c ) + { + constraintsToRemove[m_CurrentState].erase( it ); + break; + } + } + + auto it = find(constraints[m_CurrentState].begin(), constraints[m_CurrentState].end(), c); + if( it != constraints[m_CurrentState].end() ) constraints[m_CurrentState].erase( find( constraints[m_CurrentState].begin(), constraints[m_CurrentState].end(), c) ); + + // It may be in the gameplay list, so remove it from there if it is + it = find( constraints[e_Tutorial_State_Gameplay].begin(), constraints[e_Tutorial_State_Gameplay].end(), c); + if( it != constraints[e_Tutorial_State_Gameplay].end() ) constraints[e_Tutorial_State_Gameplay].erase( find( constraints[e_Tutorial_State_Gameplay].begin(), constraints[e_Tutorial_State_Gameplay].end(), c) ); + } +} + +void Tutorial::addTask(eTutorial_State state, TutorialTask *t) +{ + if( state == e_Tutorial_State_Gameplay ) + { + tasks.push_back(t); + } + activeTasks[state].push_back(t); +} + +void Tutorial::addHint(eTutorial_State state, TutorialHint *h) +{ + hints[state].push_back(h); +} + +void Tutorial::addMessage(int messageId, bool limitRepeats /*= false*/, unsigned char numRepeats /*= TUTORIAL_MESSAGE_DEFAULT_SHOW*/) +{ + if(messageId >= 0 && messages.find(messageId)==messages.end()) + messages[messageId] = new TutorialMessage(messageId, limitRepeats, numRepeats); +} + +bool Tutorial::isSelectedItemState() +{ + bool isSelectedItemState = false; + switch(m_CurrentState) + { + case e_Tutorial_State_Gameplay: + case e_Tutorial_State_Fishing: + isSelectedItemState = true; + break; + default: + break; + } + return isSelectedItemState; +} diff --git a/Minecraft.Client/Common/Tutorial/Tutorial.h b/Minecraft.Client/Common/Tutorial/Tutorial.h new file mode 100644 index 0000000..e738768 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/Tutorial.h @@ -0,0 +1,184 @@ +#pragma once +using namespace std; +#include "TutorialTask.h" +#include "TutorialConstraint.h" +#include "TutorialHint.h" +#include "TutorialMessage.h" +#include "TutorialEnum.h" + +// #define TUTORIAL_HINT_DELAY_TIME 14000 // How long we should wait from displaying one hint to the next +// #define TUTORIAL_DISPLAY_MESSAGE_TIME 7000 +// #define TUTORIAL_MINIMUM_DISPLAY_MESSAGE_TIME 2000 +// #define TUTORIAL_REMINDER_TIME (TUTORIAL_DISPLAY_MESSAGE_TIME + 20000) +// #define TUTORIAL_CONSTRAINT_DELAY_REMOVE_TICKS 15 +// +// // 0-24000 +// #define TUTORIAL_FREEZE_TIME_VALUE 8000 + +class Level; +class CXuiScene; + +class Tutorial +{ +public: + class PopupMessageDetails + { + public: + int m_messageId; + int m_promptId; + int m_titleId; + wstring m_messageString; + wstring m_promptString; + wstring m_titleString; + int m_icon; + int m_iAuxVal; + bool m_allowFade; + bool m_isReminder; + bool m_replaceCurrent; + bool m_forceDisplay; + bool m_delay; + + PopupMessageDetails() + { + m_messageId = -1; + m_promptId = -1; + m_titleId = -1; + m_messageString = L""; + m_promptString = L""; + m_titleString = L""; + m_icon = TUTORIAL_NO_ICON; + m_iAuxVal = 0; + m_allowFade = true; + m_isReminder = false; + m_replaceCurrent = false; + m_forceDisplay = false; + m_delay = false; + } + + bool isSameContent(PopupMessageDetails *other); + + }; + +private: + static int m_iTutorialHintDelayTime; + static int m_iTutorialDisplayMessageTime; + static int m_iTutorialMinimumDisplayMessageTime; + static int m_iTutorialExtraReminderTime; + static int m_iTutorialReminderTime; + static int m_iTutorialConstraintDelayRemoveTicks; + static int m_iTutorialFreezeTimeValue; + eTutorial_State m_CurrentState; + bool m_hasStateChanged; +#ifdef _XBOX + HXUIOBJ m_hTutorialScene; // to store the popup scene (splitscreen or normal) +#endif + bool m_bSceneIsSplitscreen; + + bool m_bHasTickedOnce; + int m_firstTickTime; + +protected: + unordered_map messages; + vector m_globalConstraints; + vector constraints[e_Tutorial_State_Max]; + vector< pair > constraintsToRemove[e_Tutorial_State_Max]; + vector tasks; // We store a copy of the tasks for the main gameplay tutorial so that we could display an overview menu + vector activeTasks[e_Tutorial_State_Max]; + vector hints[e_Tutorial_State_Max]; + TutorialTask *currentTask[e_Tutorial_State_Max]; + TutorialConstraint *currentFailedConstraint[e_Tutorial_State_Max]; + + bool m_freezeTime; + bool m_timeFrozen; + //D3DXVECTOR3 m_OriginalPosition; + +public: + DWORD lastMessageTime; + DWORD m_lastHintDisplayedTime; +private: + PopupMessageDetails *m_lastMessage; + + eTutorial_State m_lastMessageState; + unsigned int m_iTaskReminders; + + bool m_allowShow; + +public: + bool m_hintDisplayed; + +private: + bool hasRequestedUI; + bool uiTempDisabled; + + int m_iPad; +public: + bool m_allTutorialsComplete; + bool m_fullTutorialComplete; + bool m_isFullTutorial; +public: + Tutorial(int iPad, bool isFullTutorial = false); + ~Tutorial(); + void tick(); + + int getPad() { return m_iPad; } + + virtual bool isStateCompleted( eTutorial_State state ); + virtual void setStateCompleted( eTutorial_State state ); + bool isHintCompleted( eTutorial_Hint hint ); + void setHintCompleted( eTutorial_Hint hint ); + void setHintCompleted( TutorialHint *hint ); + + // completableId will be either a eTutorial_State value or eTutorial_Hint + void setCompleted( int completableId ); + bool getCompleted( int completableId ); + + bool isSelectedItemState(); + + bool setMessage(PopupMessageDetails *message); + bool setMessage(TutorialHint *hint, PopupMessageDetails *message); + bool setMessage(const wstring &message, int icon, int auxValue); + + void showTutorialPopup(bool show); + + void useItemOn(Level *level, shared_ptr item, int x, int y, int z,bool bTestUseOnly=false); + void useItemOn(shared_ptr item, bool bTestUseOnly=false); + void completeUsingItem(shared_ptr item); + void startDestroyBlock(shared_ptr item, Tile *tile); + void destroyBlock(Tile *tile); + void attack(shared_ptr player, shared_ptr entity); + void itemDamaged(shared_ptr item); + + void handleUIInput(int iAction); + void createItemSelected(shared_ptr item, bool canMake); + void onCrafted(shared_ptr item); + void onTake(shared_ptr item, unsigned int invItemCountAnyAux, unsigned int invItemCountThisAux); + void onSelectedItemChanged(shared_ptr item); + void onLookAt(int id, int iData=0); + void onLookAtEntity(shared_ptr entity); + void onRideEntity(shared_ptr entity); + void onEffectChanged(MobEffect *effect, bool bRemoved=false); + + bool canMoveToPosition(double xo, double yo, double zo, double xt, double yt, double zt); + bool isInputAllowed(int mapping); + + void AddGlobalConstraint(TutorialConstraint *c); + void AddConstraint(TutorialConstraint *c); + void RemoveConstraint(TutorialConstraint *c, bool delayedRemove = false); + void addTask(eTutorial_State state, TutorialTask *t); + void addHint(eTutorial_State state, TutorialHint *h); + void addMessage(int messageId, bool limitRepeats = false, unsigned char numRepeats = TUTORIAL_MESSAGE_DEFAULT_SHOW); + + int GetTutorialDisplayMessageTime() {return m_iTutorialDisplayMessageTime;} + + // Only for the main gameplay tutorial + vector *getTasks(); + unsigned int getCurrentTaskIndex(); + + eTutorial_State getCurrentState() { return m_CurrentState; } + + // These are required so that we have a consistent mapping of the completion bits stored in the profile data + static void staticCtor(); + static vector s_completableTasks; + + static void debugResetPlayerSavedProgress(int iPad); +}; diff --git a/Minecraft.Client/Common/Tutorial/TutorialConstraint.h b/Minecraft.Client/Common/Tutorial/TutorialConstraint.h new file mode 100644 index 0000000..877fd57 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialConstraint.h @@ -0,0 +1,41 @@ +#pragma once + +// 4J Stu - An abstract class that represents a constraint on what the user is able to do +class TutorialConstraint +{ +private: + int descriptionId; + bool m_deleteOnDeactivate; + bool m_queuedForRemoval; +public: + enum ConstraintType + { + e_ConstraintInput = 0, // Constraint on controller input + e_ConstraintArea, + e_ConstraintAllInput, + e_ConstraintXuiInput, + e_ConstraintChangeState, + }; + + TutorialConstraint(int descriptionId) : descriptionId( descriptionId ), m_deleteOnDeactivate( false ), m_queuedForRemoval( false ) {} + virtual ~TutorialConstraint() {} + + int getDescriptionId() { return descriptionId; } + + virtual ConstraintType getType() = 0; + + virtual void tick(int iPad) {} + virtual bool isConstraintSatisfied(int iPad) { return true; } + virtual bool isConstraintRestrictive(int iPad) { return true; } + + virtual bool isMappingConstrained(int iPad, int mapping) { return false;} + virtual bool isXuiInputConstrained(int vk) { return false;} + + void setDeleteOnDeactivate(bool deleteOnDeactivated) { m_deleteOnDeactivate = deleteOnDeactivated; } + bool getDeleteOnDeactivate() { return m_deleteOnDeactivate; } + + void setQueuedForRemoval(bool queued) { m_queuedForRemoval = queued; } + bool getQueuedForRemoval() { return m_queuedForRemoval; } + + virtual bool canMoveToPosition(double xo, double yo, double zo, double xt, double yt, double zt) { return true; } +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialConstraints.h b/Minecraft.Client/Common/Tutorial/TutorialConstraints.h new file mode 100644 index 0000000..74bb893 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialConstraints.h @@ -0,0 +1,4 @@ +#include "TutorialConstraint.h" +#include "AreaConstraint.h" +#include "ChangeStateConstraint.h" +#include "InputConstraint.h" \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialEnum.h b/Minecraft.Client/Common/Tutorial/TutorialEnum.h new file mode 100644 index 0000000..1de6bba --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialEnum.h @@ -0,0 +1,347 @@ +#pragma once + +typedef struct { + WORD index; + DWORD diffsSize; + BYTE *diffs; + DWORD lastByteChanged; +} TutorialDiff_Chunk; + +typedef struct { + DWORD diffCount; + TutorialDiff_Chunk *diffs; +} TutorialDiff_File; + +#define TUTORIAL_NO_TEXT -1 +#define TUTORIAL_NO_ICON -1 + +// If you want to make these bigger, be aware that that will affect what is stored after the tutorial data in the profile data +// See Xbox_App.h for the struct +#define TUTORIAL_PROFILE_STORAGE_BITS 512 +#define TUTORIAL_PROFILE_STORAGE_BYTES (TUTORIAL_PROFILE_STORAGE_BITS/8) + +// 4J Stu - The total number of eTutorial_State and eTutorial_Hint must be less than 512, as we only have 512 bits of profile +// data to flag whether or not the player has seen them +// In general a block or tool will have one each. We have a state if we need more than one message, or a hint if just once +// message will suffice +// Tasks added here should also be added in the Tutorial::staticCtor() if you wish to store completion in the profile data +enum eTutorial_State +{ + e_Tutorial_State_Any = -2, + e_Tutorial_State_None = -1, + + e_Tutorial_State_Gameplay = 0, + + e_Tutorial_State_Inventory_Menu, + e_Tutorial_State_2x2Crafting_Menu, + e_Tutorial_State_3x3Crafting_Menu, + e_Tutorial_State_Furnace_Menu, + + e_Tutorial_State_Riding_Minecart, + e_Tutorial_State_Riding_Boat, + e_Tutorial_State_Fishing, + + e_Tutorial_State_Bed, + + e_Tutorial_State_Container_Menu, + e_Tutorial_State_Trap_Menu, + e_Tutorial_State_Redstone_And_Piston, + e_Tutorial_State_Portal, + e_Tutorial_State_Creative_Inventory_Menu, // Added TU5 + e_Tutorial_State_Food_Bar, // Added TU5 + e_Tutorial_State_CreativeMode, // Added TU7 + e_Tutorial_State_Brewing, + e_Tutorial_State_Brewing_Menu, + e_Tutorial_State_Enchanting, + e_Tutorial_State_Enchanting_Menu, + e_Tutorial_State_Farming, + e_Tutorial_State_Breeding, + e_Tutorial_State_Golem, + e_Tutorial_State_Trading, + e_Tutorial_State_Trading_Menu, + e_Tutorial_State_Anvil, + e_Tutorial_State_Anvil_Menu, + e_Tutorial_State_Enderchests, + e_Tutorial_State_Horse, + e_Tutorial_State_Horse_Menu, + e_Tutorial_State_Hopper, + e_Tutorial_State_Hopper_Menu, + e_Tutorial_State_Beacon, + e_Tutorial_State_Beacon_Menu, + e_Tutorial_State_Fireworks, + e_Tutorial_State_Fireworks_Menu, + + e_Tutorial_State_Max +}; + +// Hints added here should also be added in the Tutorial::staticCtor() if you wish to store completion in the profile data +enum eTutorial_Hint +{ + e_Tutorial_Hint_Always_On = e_Tutorial_State_Max, + + e_Tutorial_Hint_Hold_To_Mine, + e_Tutorial_Hint_Tool_Damaged, + e_Tutorial_Hint_Swim_Up, + + e_Tutorial_Hint_Unused_2, + e_Tutorial_Hint_Unused_3, + e_Tutorial_Hint_Unused_4, + e_Tutorial_Hint_Unused_5, + e_Tutorial_Hint_Unused_6, + e_Tutorial_Hint_Unused_7, + e_Tutorial_Hint_Unused_8, + e_Tutorial_Hint_Unused_9, + e_Tutorial_Hint_Unused_10, + + e_Tutorial_Hint_Rock, + e_Tutorial_Hint_Stone, + e_Tutorial_Hint_Planks, + e_Tutorial_Hint_Sapling, + e_Tutorial_Hint_Unbreakable, + e_Tutorial_Hint_Water, + e_Tutorial_Hint_Lava, + e_Tutorial_Hint_Sand, + e_Tutorial_Hint_Gravel, + e_Tutorial_Hint_Gold_Ore, + e_Tutorial_Hint_Iron_Ore, + e_Tutorial_Hint_Coal_Ore, + e_Tutorial_Hint_Tree_Trunk, + e_Tutorial_Hint_Leaves, + e_Tutorial_Hint_Glass, + e_Tutorial_Hint_Lapis_Ore, + e_Tutorial_Hint_Lapis_Block, + e_Tutorial_Hint_Dispenser, + e_Tutorial_Hint_Sandstone, + e_Tutorial_Hint_Note_Block, + e_Tutorial_Hint_Powered_Rail, + e_Tutorial_Hint_Detector_Rail, + e_Tutorial_Hint_Tall_Grass, + e_Tutorial_Hint_Wool, + e_Tutorial_Hint_Flower, + e_Tutorial_Hint_Mushroom, + e_Tutorial_Hint_Gold_Block, + e_Tutorial_Hint_Iron_Block, + e_Tutorial_Hint_Stone_Slab, + e_Tutorial_Hint_Red_Brick, + e_Tutorial_Hint_Tnt, + e_Tutorial_Hint_Bookshelf, + e_Tutorial_Hint_Moss_Stone, + e_Tutorial_Hint_Obsidian, + e_Tutorial_Hint_Torch, + e_Tutorial_Hint_MobSpawner, + e_Tutorial_Hint_Chest, + e_Tutorial_Hint_Redstone, + e_Tutorial_Hint_Diamond_Ore, + e_Tutorial_Hint_Diamond_Block, + e_Tutorial_Hint_Crafting_Table, + e_Tutorial_Hint_Crops, + e_Tutorial_Hint_Farmland, + e_Tutorial_Hint_Furnace, + e_Tutorial_Hint_Sign, + e_Tutorial_Hint_Door_Wood, + e_Tutorial_Hint_Ladder, + e_Tutorial_Hint_Stairs_Stone, + e_Tutorial_Hint_Rail, + e_Tutorial_Hint_Lever, + e_Tutorial_Hint_PressurePlate, + e_Tutorial_Hint_Door_Iron, + e_Tutorial_Hint_Redstone_Ore, + e_Tutorial_Hint_Redstone_Torch, + e_Tutorial_Hint_Button, + e_Tutorial_Hint_Snow, + e_Tutorial_Hint_Ice, + e_Tutorial_Hint_Cactus, + e_Tutorial_Hint_Clay, + e_Tutorial_Hint_Sugarcane, + e_Tutorial_Hint_Record_Player, + e_Tutorial_Hint_Pumpkin, + e_Tutorial_Hint_Hell_Rock, + e_Tutorial_Hint_Hell_Sand, + e_Tutorial_Hint_Glowstone, + e_Tutorial_Hint_Portal, + e_Tutorial_Hint_Pumpkin_Lit, + e_Tutorial_Hint_Cake, + e_Tutorial_Hint_Redstone_Repeater, + e_Tutorial_Hint_Trapdoor, + e_Tutorial_Hint_Piston, + e_Tutorial_Hint_Sticky_Piston, + e_Tutorial_Hint_Monster_Stone_Egg, + e_Tutorial_Hint_Stone_Brick_Smooth, + e_Tutorial_Hint_Huge_Mushroom, + e_Tutorial_Hint_Iron_Fence, + e_Tutorial_Hint_Thin_Glass, + e_Tutorial_Hint_Melon, + e_Tutorial_Hint_Vine, + e_Tutorial_Hint_Fence_Gate, + e_Tutorial_Hint_Mycel, + e_Tutorial_Hint_Water_Lily, + e_Tutorial_Hint_Nether_Brick, + e_Tutorial_Hint_Nether_Fence, + e_Tutorial_Hint_Nether_Stalk, + e_Tutorial_Hint_Enchant_Table, + e_Tutorial_Hint_Brewing_Stand, + e_Tutorial_Hint_Cauldron, + e_Tutorial_Hint_End_Portal, + e_Tutorial_Hint_End_Portal_Frame, + + e_Tutorial_Hint_Squid, + e_Tutorial_Hint_Cow, + e_Tutorial_Hint_Sheep, + e_Tutorial_Hint_Chicken, + e_Tutorial_Hint_Pig, + e_Tutorial_Hint_Wolf, + e_Tutorial_Hint_Creeper, + e_Tutorial_Hint_Skeleton, + e_Tutorial_Hint_Spider, + e_Tutorial_Hint_Zombie, + e_Tutorial_Hint_Pig_Zombie, + e_Tutorial_Hint_Ghast, + e_Tutorial_Hint_Slime, + e_Tutorial_Hint_Enderman, + e_Tutorial_Hint_Silverfish, + e_Tutorial_Hint_Cave_Spider, + e_Tutorial_Hint_MushroomCow, + e_Tutorial_Hint_SnowMan, + e_Tutorial_Hint_IronGolem, + e_Tutorial_Hint_EnderDragon, + e_Tutorial_Hint_Blaze, + e_Tutorial_Hint_Lava_Slime, + e_Tutorial_Hint_Ozelot, + e_Tutorial_Hint_Villager, + e_Tutorial_Hint_Wither, + e_Tutorial_Hint_Witch, + e_Tutorial_Hint_Bat, + e_Tutorial_Hint_Horse, + + e_Tutorial_Hint_Item_Shovel, + e_Tutorial_Hint_Item_Hatchet, + e_Tutorial_Hint_Item_Pickaxe, + e_Tutorial_Hint_Item_Flint_And_Steel, + e_Tutorial_Hint_Item_Apple, + e_Tutorial_Hint_Item_Bow, + e_Tutorial_Hint_Item_Arrow, + e_Tutorial_Hint_Item_Coal, + e_Tutorial_Hint_Item_Diamond, + e_Tutorial_Hint_Item_Iron_Ingot, + e_Tutorial_Hint_Item_Gold_Ingot, + e_Tutorial_Hint_Item_Sword, + e_Tutorial_Hint_Item_Stick, + e_Tutorial_Hint_Item_Bowl, + e_Tutorial_Hint_Item_Mushroom_Stew, + e_Tutorial_Hint_Item_String, + e_Tutorial_Hint_Item_Feather, + e_Tutorial_Hint_Item_Sulphur, + e_Tutorial_Hint_Item_Hoe, + e_Tutorial_Hint_Item_Seeds, + e_Tutorial_Hint_Item_Wheat, + e_Tutorial_Hint_Item_Bread, + e_Tutorial_Hint_Item_Helmet, + e_Tutorial_Hint_Item_Chestplate, + e_Tutorial_Hint_Item_Leggings, + e_Tutorial_Hint_Item_Boots, + e_Tutorial_Hint_Item_Flint, + e_Tutorial_Hint_Item_Porkchop_Raw, + e_Tutorial_Hint_Item_Porkchop_Cooked, + e_Tutorial_Hint_Item_Painting, + e_Tutorial_Hint_Item_Apple_Gold, + e_Tutorial_Hint_Item_Sign, + e_Tutorial_Hint_Item_Door_Wood, + e_Tutorial_Hint_Item_Bucket_Empty, + e_Tutorial_Hint_Item_Bucket_Water, + e_Tutorial_Hint_Item_Bucket_Lava, + e_Tutorial_Hint_Item_Minecart, + e_Tutorial_Hint_Item_Saddle, + e_Tutorial_Hint_Item_Door_Iron, + e_Tutorial_Hint_Item_Redstone, + e_Tutorial_Hint_Item_Snowball, + e_Tutorial_Hint_Item_Boat, + e_Tutorial_Hint_Item_Leather, + e_Tutorial_Hint_Item_Milk, + e_Tutorial_Hint_Item_Brick, + e_Tutorial_Hint_Item_Clay, + e_Tutorial_Hint_Item_Reeds, + e_Tutorial_Hint_Item_Paper, + e_Tutorial_Hint_Item_Book, + e_Tutorial_Hint_Item_Slimeball, + e_Tutorial_Hint_Item_Minecart_Chest, + e_Tutorial_Hint_Item_Minecart_Furnace, + e_Tutorial_Hint_Item_Egg, + e_Tutorial_Hint_Item_Compass, + e_Tutorial_Hint_Item_Clock, + e_Tutorial_Hint_Item_Yellow_Dust, + e_Tutorial_Hint_Item_Fish_Raw, + e_Tutorial_Hint_Item_Fish_Cooked, + e_Tutorial_Hint_Item_Dye_Powder, + e_Tutorial_Hint_Item_Bone, + e_Tutorial_Hint_Item_Sugar, + e_Tutorial_Hint_Item_Cake, + e_Tutorial_Hint_Item_Diode, + e_Tutorial_Hint_Item_Cookie, + e_Tutorial_Hint_Item_Map, + e_Tutorial_Hint_Item_Record, + + e_Tutorial_Hint_White_Stone, + e_Tutorial_Hint_Dragon_Egg, + e_Tutorial_Hint_RedstoneLamp, + e_Tutorial_Hint_Cocoa, + + e_Tutorial_Hint_EmeraldOre, + e_Tutorial_Hint_EmeraldBlock, + e_Tutorial_Hint_EnderChest, + e_Tutorial_Hint_TripwireSource, + e_Tutorial_Hint_Tripwire, + e_Tutorial_Hint_CobblestoneWall, + e_Tutorial_Hint_Flowerpot, + e_Tutorial_Hint_Anvil, + e_Tutorial_Hint_QuartzOre, + e_Tutorial_Hint_QuartzBlock, + e_Tutorial_Hint_WoolCarpet, + + e_Tutorial_Hint_Potato, + e_Tutorial_Hint_Carrot, + + e_Tutorial_Hint_CommandBlock, + e_Tutorial_Hint_Beacon, + e_Tutorial_Hint_Activator_Rail, + e_Tutorial_Hint_RedstoneBlock, + e_Tutorial_Hint_DaylightDetector, + e_Tutorial_Hint_Dropper, + e_Tutorial_Hint_Hopper, + e_Tutorial_Hint_Comparator, + e_Tutorial_Hint_ChestTrap, + e_Tutorial_Hint_HayBlock, + e_Tutorial_Hint_ClayHardened, + e_Tutorial_Hint_ClayHardenedColored, + e_Tutorial_Hint_CoalBlock, + + e_Tutorial_Hint_Item_Max, +}; + +// We store the first time that we complete these tasks to be used in telemetry +enum eTutorial_Telemetry +{ + eTutorial_Telemetry_None = e_Tutorial_Hint_Item_Max, + + eTutorial_Telemetry_TrialStart, + eTutorial_Telemetry_Halfway, + eTutorial_Telemetry_Complete, + + eTutorial_Telemetry_Unused_1, + eTutorial_Telemetry_Unused_2, + eTutorial_Telemetry_Unused_3, + eTutorial_Telemetry_Unused_4, + eTutorial_Telemetry_Unused_5, + eTutorial_Telemetry_Unused_6, + eTutorial_Telemetry_Unused_7, + eTutorial_Telemetry_Unused_8, + eTutorial_Telemetry_Unused_9, + eTutorial_Telemetry_Unused_10, +}; + +enum eTutorial_CompletionAction +{ + e_Tutorial_Completion_None, + e_Tutorial_Completion_Complete_State, // This will make the current tutorial state complete + e_Tutorial_Completion_Complete_State_Gameplay_Constraints, // This will make the current tutorial state complete, and move the delayed constraints to the gameplay state + e_Tutorial_Completion_Jump_To_Last_Task, +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialHint.cpp b/Minecraft.Client/Common/Tutorial/TutorialHint.cpp new file mode 100644 index 0000000..d80d7d1 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialHint.cpp @@ -0,0 +1,128 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" +#include "Tutorial.h" +#include "TutorialHint.h" +#include "..\..\Minecraft.h" +#include "..\..\MultiplayerLocalPlayer.h" + +TutorialHint::TutorialHint(eTutorial_Hint id, Tutorial *tutorial, int descriptionId, eHintType type, bool allowFade /*= true*/) + : m_id( id ), m_tutorial(tutorial), m_descriptionId( descriptionId ), m_type( type ), m_counter( 0 ), + m_lastTile( nullptr ), m_hintNeeded( true ), m_allowFade(allowFade) +{ + tutorial->addMessage(descriptionId, type != e_Hint_NoIngredients); +} + +int TutorialHint::startDestroyBlock(shared_ptr item, Tile *tile) +{ + int returnVal = -1; + switch(m_type) + { + case e_Hint_HoldToMine: + if( tile == m_lastTile && m_hintNeeded ) + { + ++m_counter; + if(m_counter > TUTORIAL_HINT_MAX_MINE_REPEATS) + { + returnVal = m_descriptionId; + } + } + else + { + m_counter = 0; + } + m_lastTile = tile; + break; + default: + break; + } + + return returnVal; +} + +int TutorialHint::destroyBlock(Tile *tile) +{ + int returnVal = -1; + switch(m_type) + { + case e_Hint_HoldToMine: + if(tile == m_lastTile && m_counter > 0) + { + m_hintNeeded = false; + } + break; + default: + break; + } + + return returnVal; +} + +int TutorialHint::attack(shared_ptr item, shared_ptr entity) +{ + /* + switch(m_type) + { + default: + return -1; + } + */ + return -1; +} + +int TutorialHint::createItemSelected(shared_ptr item, bool canMake) +{ + int returnVal = -1; + switch(m_type) + { + case e_Hint_NoIngredients: + if(!canMake) + returnVal = m_descriptionId; + break; + default: + break; + } + return returnVal; +} + +int TutorialHint::itemDamaged(shared_ptr item) +{ + int returnVal = -1; + switch(m_type) + { + case e_Hint_ToolDamaged: + returnVal = m_descriptionId; + break; + default: + break; + } + return returnVal; +} + +bool TutorialHint::onTake( shared_ptr item ) +{ + return false; +} + +bool TutorialHint::onLookAt(int id, int iData) +{ + return false; +} + +bool TutorialHint::onLookAtEntity(eINSTANCEOF type) +{ + return false; +} + +int TutorialHint::tick() +{ + int returnVal = -1; + switch(m_type) + { + case e_Hint_SwimUp: + if( Minecraft::GetInstance()->localplayers[m_tutorial->getPad()]->isUnderLiquid(Material::water) ) returnVal = m_descriptionId; + break; + } + return returnVal; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialHint.h b/Minecraft.Client/Common/Tutorial/TutorialHint.h new file mode 100644 index 0000000..8ca543c --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialHint.h @@ -0,0 +1,53 @@ +#pragma once +using namespace std; + +#include "TutorialEnum.h" + +#define TUTORIAL_HINT_MAX_MINE_REPEATS 20 + +class Level; +class Tutorial; + +class TutorialHint +{ +public: + enum eHintType + { + e_Hint_DiggerItem, + e_Hint_HoldToMine, + e_Hint_NoIngredients, + e_Hint_ToolDamaged, + e_Hint_TakeItem, + e_Hint_Area, + e_Hint_LookAtTile, + e_Hint_LookAtEntity, + e_Hint_SwimUp, + }; + +protected: + eHintType m_type; + int m_descriptionId; + Tutorial *m_tutorial; + eTutorial_Hint m_id; + + int m_counter; + Tile *m_lastTile; + bool m_hintNeeded; + bool m_allowFade; + +public: + TutorialHint(eTutorial_Hint id, Tutorial *tutorial, int descriptionId, eHintType type, bool allowFade = true); + + eTutorial_Hint getId() { return m_id; } + + virtual int startDestroyBlock(shared_ptr item, Tile *tile); + virtual int destroyBlock(Tile *tile); + virtual int attack(shared_ptr item, shared_ptr entity); + virtual int createItemSelected(shared_ptr item, bool canMake); + virtual int itemDamaged(shared_ptr item); + virtual bool onTake( shared_ptr item ); + virtual bool onLookAt(int id, int iData=0); + virtual bool onLookAtEntity(eINSTANCEOF type); + virtual int tick(); + virtual bool allowFade() { return m_allowFade; } +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialHints.h b/Minecraft.Client/Common/Tutorial/TutorialHints.h new file mode 100644 index 0000000..5c7381a --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialHints.h @@ -0,0 +1,7 @@ +#pragma once + +#include "AreaHint.h" +#include "DiggerItemHint.h" +#include "LookAtTileHint.h" +#include "TakeItemHint.h" +#include "LookAtEntityHint.h" \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialMessage.cpp b/Minecraft.Client/Common/Tutorial/TutorialMessage.cpp new file mode 100644 index 0000000..1f00703 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialMessage.cpp @@ -0,0 +1,23 @@ +#include "stdafx.h" +#include "TutorialMessage.h" + +TutorialMessage::TutorialMessage(int messageId, bool limitRepeats /*= false*/, unsigned char numRepeats /*= TUTORIAL_MESSAGE_DEFAULT_SHOW*/) + : messageId( messageId ), limitRepeats( limitRepeats ), numRepeats( numRepeats ), timesShown( 0 ) +{ +} + +bool TutorialMessage::canDisplay() +{ + return !limitRepeats || (timesShown < numRepeats); +} + +LPCWSTR TutorialMessage::getMessageForDisplay() +{ + if(!canDisplay()) + return L""; + + if(limitRepeats) + ++timesShown; + + return app.GetString( messageId ); +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialMessage.h b/Minecraft.Client/Common/Tutorial/TutorialMessage.h new file mode 100644 index 0000000..6a0b4d4 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialMessage.h @@ -0,0 +1,20 @@ +#pragma once + +// The default number of times any message should be shown +#define TUTORIAL_MESSAGE_DEFAULT_SHOW 3 + +class TutorialMessage +{ +private: + int messageId; + bool limitRepeats; + unsigned char numRepeats; + unsigned char timesShown; + DWORD lastDisplayed; + +public: + TutorialMessage(int messageId, bool limitRepeats = false, unsigned char numRepeats = TUTORIAL_MESSAGE_DEFAULT_SHOW); + + bool canDisplay(); + LPCWSTR getMessageForDisplay(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialMode.cpp b/Minecraft.Client/Common/Tutorial/TutorialMode.cpp new file mode 100644 index 0000000..50a45a4 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialMode.cpp @@ -0,0 +1,124 @@ +#include "stdafx.h" +#include +#include "..\..\Minecraft.h" +#include "..\..\MultiplayerLocalPlayer.h" +#include "..\..\MultiPlayerLevel.h" +#include "..\..\..\Minecraft.World\Inventory.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.item.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.h" +#include "..\..\..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "TutorialMode.h" + +TutorialMode::TutorialMode(int iPad, Minecraft *minecraft, ClientConnection *connection) : MultiPlayerGameMode( minecraft, connection ), m_iPad( iPad ) +{ +} + +TutorialMode::~TutorialMode() +{ + if(tutorial != nullptr) + delete tutorial; +} + +void TutorialMode::startDestroyBlock(int x, int y, int z, int face) +{ + if(!tutorial->m_allTutorialsComplete) + { + int t = minecraft->level->getTile(x, y, z); + tutorial->startDestroyBlock(minecraft->player->inventory->getSelected(), Tile::tiles[t]); + } + MultiPlayerGameMode::startDestroyBlock( x, y, z, face ); +} + +bool TutorialMode::destroyBlock(int x, int y, int z, int face) +{ + if(!tutorial->m_allTutorialsComplete) + { + int t = minecraft->level->getTile(x, y, z); + tutorial->destroyBlock(Tile::tiles[t]); + } + shared_ptr item = minecraft->player->getSelectedItem(); + int damageBefore; + if(item != nullptr) + { + damageBefore = item->getDamageValue(); + } + bool changed = MultiPlayerGameMode::destroyBlock( x, y, z, face ); + + if(!tutorial->m_allTutorialsComplete) + { + if ( item != nullptr && item->isDamageableItem() ) + { + int max = item->getMaxDamage(); + int damageNow = item->getDamageValue(); + + if(damageNow > damageBefore && damageNow > (max/2) ) + { + tutorial->itemDamaged( item ); + } + } + } + + return changed; +} + +void TutorialMode::tick() +{ + MultiPlayerGameMode::tick(); + + if(!tutorial->m_allTutorialsComplete) + tutorial->tick(); + + /* + if( tutorial.m_allTutorialsComplete && (tutorial.lastMessageTime + m_iTutorialDisplayMessageTime) < GetTickCount() ) + { + // Exit tutorial + minecraft->gameMode = new SurvivalMode( this ); + delete this; + } + */ +} + +bool TutorialMode::useItemOn(shared_ptr player, Level *level, shared_ptr item, int x, int y, int z, int face, Vec3 *hit, bool bTestUseOnly, bool *pbUsedItem) +{ + bool haveItem = false; + int itemCount = 0; + if(!tutorial->m_allTutorialsComplete) + { + tutorial->useItemOn(level, item, x, y, z, bTestUseOnly); + + if(!bTestUseOnly) + { + if(item != nullptr) + { + haveItem = true; + itemCount = item->count; + } + } + } + bool result = MultiPlayerGameMode::useItemOn( player, level, item, x, y, z, face, hit, bTestUseOnly, pbUsedItem ); + + if(!bTestUseOnly) + { + if(!tutorial->m_allTutorialsComplete) + { + if( result && haveItem && itemCount > item->count ) + { + tutorial->useItemOn(item); + } + } + } + return result; +} + +void TutorialMode::attack(shared_ptr player, shared_ptr entity) +{ + if(!tutorial->m_allTutorialsComplete) + tutorial->attack(player, entity); + + MultiPlayerGameMode::attack( player, entity ); +} + +bool TutorialMode::isInputAllowed(int mapping) +{ + return tutorial->m_allTutorialsComplete || tutorial->isInputAllowed( mapping ); +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialMode.h b/Minecraft.Client/Common/Tutorial/TutorialMode.h new file mode 100644 index 0000000..2263a91 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialMode.h @@ -0,0 +1,28 @@ +#pragma once +using namespace std; + +#include "..\..\MultiPlayerGameMode.h" +#include "Tutorial.h" + +class TutorialMode : public MultiPlayerGameMode +{ +protected: + Tutorial *tutorial; + int m_iPad; + + // Function to make this an abstract class + virtual bool isImplemented() = 0; +public: + TutorialMode(int iPad, Minecraft *minecraft, ClientConnection *connection); + virtual ~TutorialMode(); + + virtual void startDestroyBlock(int x, int y, int z, int face); + virtual bool destroyBlock(int x, int y, int z, int face); + virtual void tick(); + virtual bool useItemOn(shared_ptr player, Level *level, shared_ptr item, int x, int y, int z, int face, Vec3 *hit, bool bTestUseOnly=false, bool *pbUsedItem=nullptr); + virtual void attack(shared_ptr player, shared_ptr entity); + + virtual bool isInputAllowed(int mapping); + + Tutorial *getTutorial() { return tutorial; } +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialTask.cpp b/Minecraft.Client/Common/Tutorial/TutorialTask.cpp new file mode 100644 index 0000000..1b6d84b --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialTask.cpp @@ -0,0 +1,73 @@ +#include "stdafx.h" +#include "Tutorial.h" +#include "TutorialConstraints.h" +#include "TutorialTask.h" + +TutorialTask::TutorialTask(Tutorial *tutorial, int descriptionId, bool enablePreCompletion, vector *inConstraints, + bool bShowMinimumTime, bool bAllowFade, bool bTaskReminders) + : tutorial( tutorial ), descriptionId( descriptionId ), m_promptId( -1 ), enablePreCompletion( enablePreCompletion ), + areConstraintsEnabled( false ), bIsCompleted( false ), bHasBeenActivated( false ), + m_bAllowFade(bAllowFade), m_bTaskReminders(bTaskReminders), m_bShowMinimumTime( bShowMinimumTime), m_bShownForMinimumTime( false ) +{ + if(inConstraints != nullptr) + { + for(auto& constraint : *inConstraints) + { + constraints.push_back( constraint ); + } + delete inConstraints; + } + + tutorial->addMessage(descriptionId); +} + +TutorialTask::~TutorialTask() +{ + enableConstraints(false); + + for(auto& constraint : constraints) + { + if( constraint->getQueuedForRemoval() ) + { + constraint->setDeleteOnDeactivate(true); + } + else + { + delete constraint; + } + } +} + +void TutorialTask::taskCompleted() +{ + if( areConstraintsEnabled == true ) + enableConstraints( false ); +} + +void TutorialTask::enableConstraints(bool enable, bool delayRemove /*= false*/) +{ + if( !enable && (areConstraintsEnabled || !delayRemove) ) + { + // Remove + for(auto& constraint : constraints) + { + //app.DebugPrintf(">>>>>>>> %i\n", constraints.size()); + tutorial->RemoveConstraint( constraint, delayRemove ); + } + areConstraintsEnabled = false; + } + else if( !areConstraintsEnabled && enable ) + { + // Add + for(auto& constraint : constraints) + { + tutorial->AddConstraint( constraint ); + } + areConstraintsEnabled = true; + } +} + +void TutorialTask::setAsCurrentTask(bool active /*= true*/) +{ + bHasBeenActivated = active; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialTask.h b/Minecraft.Client/Common/Tutorial/TutorialTask.h new file mode 100644 index 0000000..b589ab2 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialTask.h @@ -0,0 +1,67 @@ +#pragma once +using namespace std; +#include "TutorialEnum.h" + +class Level; +class Tutorial; +class TutorialConstraint; +class MobEffect; +class Entity; + +// A class that represents each individual task in the tutorial. +// +// Members: +// enablePreCompletion - If this is true, then the player can complete this task out of sequence. +// This stops us asking them to do things they have already done +// constraints - A list of constraints which can be activated (as a whole). +// If they are active, then the constraints are removed when the task is completed +// areConstraintsEnabled- A flag which records whether or not we have added the constraints to the tutorial +class TutorialTask +{ +protected: + int descriptionId; + int m_promptId; + Tutorial *tutorial; + bool enablePreCompletion; + bool bHasBeenActivated; + bool m_bAllowFade; + bool m_bTaskReminders; + bool m_bShowMinimumTime; + +protected: + bool bIsCompleted; + bool m_bShownForMinimumTime; + vector constraints; + bool areConstraintsEnabled; +public: + TutorialTask(Tutorial *tutorial, int descriptionId, bool enablePreCompletion, vector *inConstraints, bool bShowMinimumTime=false, bool bAllowFade=true, bool bTaskReminders=true ); + virtual ~TutorialTask(); + + virtual int getDescriptionId() { return descriptionId; } + virtual int getPromptId() { return m_promptId; } + + virtual bool isCompleted() = 0; + virtual eTutorial_CompletionAction getCompletionAction() { return e_Tutorial_Completion_None; } + virtual bool isPreCompletionEnabled() { return enablePreCompletion; } + virtual void taskCompleted(); + virtual void enableConstraints(bool enable, bool delayRemove = false); + virtual void setAsCurrentTask(bool active = true); + + virtual void setShownForMinimumTime() { m_bShownForMinimumTime = true; } + virtual bool hasBeenActivated() { return bHasBeenActivated; } + virtual bool AllowFade() { return m_bAllowFade;} + bool TaskReminders() { return m_bTaskReminders;} + virtual bool ShowMinimumTime() { return m_bShowMinimumTime;} + + virtual void useItemOn(Level *level, shared_ptr item, int x, int y, int z, bool bTestUseOnly=false) { } + virtual void useItem(shared_ptr item,bool bTestUseOnly=false) { } + virtual void completeUsingItem(shared_ptr item) { } + virtual void handleUIInput(int iAction) { } + virtual void onCrafted(shared_ptr item) { } + virtual void onTake(shared_ptr item, unsigned int invItemCountAnyAux, unsigned int invItemCountThisAux) { } + virtual void onStateChange(eTutorial_State newState) { } + virtual void onEffectChanged(MobEffect *effect, bool bRemoved=false) { } + + virtual void onLookAtEntity(shared_ptr entity) { } + virtual void onRideEntity(shared_ptr entity) { } +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/TutorialTasks.h b/Minecraft.Client/Common/Tutorial/TutorialTasks.h new file mode 100644 index 0000000..b3db973 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/TutorialTasks.h @@ -0,0 +1,18 @@ +#include "StatTask.h" +#include "CraftTask.h" +#include "PickupTask.h" +#include "UseTileTask.h" +#include "UseItemTask.h" +#include "InfoTask.h" +#include "ControllerTask.h" +#include "ProcedureCompoundTask.h" +#include "XuiCraftingTask.h" +#include "StateChangeTask.h" +#include "ChoiceTask.h" +#include "HorseChoiceTask.h" +#include "RideEntityTask.h" +#include "FullTutorialActiveTask.h" +#include "AreaTask.h" +#include "ProgressFlagTask.h" +#include "CompleteUsingItemTask.h" +#include "EffectChangedTask.h" \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/UseItemTask.cpp b/Minecraft.Client/Common/Tutorial/UseItemTask.cpp new file mode 100644 index 0000000..09bac4d --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/UseItemTask.cpp @@ -0,0 +1,25 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\Entity.h" +#include "..\..\..\Minecraft.World\Level.h" +#include "..\..\..\Minecraft.World\ItemInstance.h" +#include "UseItemTask.h" + +UseItemTask::UseItemTask(const int itemId, Tutorial *tutorial, int descriptionId, + bool enablePreCompletion, vector *inConstraints, bool bShowMinimumTime, bool bAllowFade, bool bTaskReminders) + : TutorialTask( tutorial, descriptionId, enablePreCompletion, inConstraints, bShowMinimumTime, bAllowFade, bTaskReminders ), + itemId( itemId ) +{ +} + +bool UseItemTask::isCompleted() +{ + return bIsCompleted; +} + +void UseItemTask::useItem(shared_ptr item,bool bTestUseOnly) +{ + if(bTestUseOnly) return; + + if( item->id == itemId ) + bIsCompleted = true; +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/UseItemTask.h b/Minecraft.Client/Common/Tutorial/UseItemTask.h new file mode 100644 index 0000000..9c8f019 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/UseItemTask.h @@ -0,0 +1,19 @@ +#pragma once +using namespace std; + +#include "TutorialTask.h" + +class Level; + +// 4J Stu - Tasks that involve placing a tile +class UseItemTask : public TutorialTask +{ +private: + const int itemId; + +public: + UseItemTask(const int itemId, Tutorial *tutorial, int descriptionId, + bool enablePreCompletion = false, vector *inConstraints = nullptr, bool bShowMinimumTime = false, bool bAllowFade = true, bool bTaskReminders = true ); + virtual bool isCompleted(); + virtual void useItem(shared_ptr item, bool bTestUseOnly=false); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/UseTileTask.cpp b/Minecraft.Client/Common/Tutorial/UseTileTask.cpp new file mode 100644 index 0000000..1f4ed4c --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/UseTileTask.cpp @@ -0,0 +1,40 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\Entity.h" +#include "..\..\..\Minecraft.World\Level.h" +#include "..\..\..\Minecraft.World\ItemInstance.h" +#include "UseTileTask.h" + +UseTileTask::UseTileTask(const int tileId, int x, int y, int z, Tutorial *tutorial, int descriptionId, + bool enablePreCompletion, vector *inConstraints, bool bShowMinimumTime, bool bAllowFade, bool bTaskReminders) + : TutorialTask( tutorial, descriptionId, enablePreCompletion, inConstraints, bShowMinimumTime, bAllowFade, bTaskReminders ), + x( x ), y( y ), z( z ), tileId( tileId ) +{ + useLocation = true; +} + +UseTileTask::UseTileTask(const int tileId, Tutorial *tutorial, int descriptionId, + bool enablePreCompletion, vector *inConstraints, bool bShowMinimumTime, bool bAllowFade, bool bTaskReminders) + : TutorialTask( tutorial, descriptionId, enablePreCompletion, inConstraints, bShowMinimumTime, bAllowFade, bTaskReminders ), + tileId( tileId ) +{ + useLocation = false; +} + +bool UseTileTask::isCompleted() +{ + return bIsCompleted; +} + +void UseTileTask::useItemOn(Level *level, shared_ptr item, int x, int y, int z,bool bTestUseOnly) +{ + if(bTestUseOnly) return; + + if( !enablePreCompletion && !bHasBeenActivated) return; + + if( !useLocation || ( x == this->x && y == this->y && z == this->z ) ) + { + int t = level->getTile(x, y, z); + if( t == tileId ) + bIsCompleted = true; + } +} \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/UseTileTask.h b/Minecraft.Client/Common/Tutorial/UseTileTask.h new file mode 100644 index 0000000..1f72fb2 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/UseTileTask.h @@ -0,0 +1,24 @@ +#pragma once +using namespace std; + +#include "TutorialTask.h" + +class Level; + +// 4J Stu - Tasks that involve using a tile, with or without an item. e.g. Opening a chest +class UseTileTask : public TutorialTask +{ +private: + int x,y,z; + const int tileId; + bool useLocation; + bool completed; + +public: + UseTileTask(const int tileId, int x, int y, int z, Tutorial *tutorial, int descriptionId, + bool enablePreCompletion = false, vector *inConstraints = nullptr, bool bShowMinimumTime = false, bool bAllowFade = true, bool bTaskReminders = true ); + UseTileTask(const int tileId, Tutorial *tutorial, int descriptionId, + bool enablePreCompletion = false, vector *inConstraints = nullptr, bool bShowMinimumTime = false, bool bAllowFade = true, bool bTaskReminders = true); + virtual bool isCompleted(); + virtual void useItemOn(Level *level, shared_ptr item, int x, int y, int z, bool bTestUseOnly=false); +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/Tutorial/XuiCraftingTask.cpp b/Minecraft.Client/Common/Tutorial/XuiCraftingTask.cpp new file mode 100644 index 0000000..d4617f1 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/XuiCraftingTask.cpp @@ -0,0 +1,10 @@ +#include "stdafx.h" +#include "..\..\..\Minecraft.World\ItemInstance.h" + +#include "Tutorial.h" +#include "XuiCraftingTask.h" + +bool XuiCraftingTask::isCompleted() +{ + return true; +} diff --git a/Minecraft.Client/Common/Tutorial/XuiCraftingTask.h b/Minecraft.Client/Common/Tutorial/XuiCraftingTask.h new file mode 100644 index 0000000..146b155 --- /dev/null +++ b/Minecraft.Client/Common/Tutorial/XuiCraftingTask.h @@ -0,0 +1,36 @@ +#pragma once +#include "TutorialTask.h" +#include "..\..\..\Minecraft.World\Recipy.h" + +class XuiCraftingTask : public TutorialTask +{ +public: + enum eCraftingTaskType + { + e_Crafting_SelectGroup, + e_Crafting_SelectItem, + }; + + // Select group + XuiCraftingTask(Tutorial *tutorial, int descriptionId, Recipy::_eGroupType groupToSelect, bool enablePreCompletion = false, vector *inConstraints = nullptr, + bool bShowMinimumTime=false, bool bAllowFade=true, bool m_bTaskReminders=true ) + : TutorialTask(tutorial, descriptionId, enablePreCompletion, inConstraints, bShowMinimumTime, bAllowFade, m_bTaskReminders ), + m_group(groupToSelect), + m_type( e_Crafting_SelectGroup ) + {} + + // Select Item + XuiCraftingTask(Tutorial *tutorial, int descriptionId, int itemId, bool enablePreCompletion = false, vector *inConstraints = nullptr, + bool bShowMinimumTime=false, bool bAllowFade=true, bool m_bTaskReminders=true ) + : TutorialTask(tutorial, descriptionId, enablePreCompletion, inConstraints, bShowMinimumTime, bAllowFade, m_bTaskReminders ), + m_item(itemId), + m_type( e_Crafting_SelectItem ) + {} + + virtual bool isCompleted(); + +private: + eCraftingTaskType m_type; + Recipy::_eGroupType m_group; + int m_item; +}; \ No newline at end of file diff --git a/Minecraft.Client/Common/xuiscene_base.h b/Minecraft.Client/Common/xuiscene_base.h new file mode 100644 index 0000000..a4e71ad --- /dev/null +++ b/Minecraft.Client/Common/xuiscene_base.h @@ -0,0 +1,176 @@ +#define IDC_BottomLeftAnchorPoint L"BottomLeftAnchorPoint" +#define IDC_TopLeftAnchorPoint L"TopLeftAnchorPoint" +#define IDC_XuiDarkOverlay L"XuiDarkOverlay" +#define IDC_Background L"Background" +#define IDC_Logo L"Logo" +#define IDC_XuiSceneHudRoot L"XuiSceneHudRoot" +#define IDC_XuiSceneChatRoot L"XuiSceneChatRoot" +#define IDC_XuiSceneContainer L"XuiSceneContainer" +#define IDC_LStick L"LStick" +#define IDC_LBButton L"LBButton" +#define IDC_RBButton L"RBButton" +#define IDC_RTrigger L"RTrigger" +#define IDC_LTrigger L"LTrigger" +#define IDC_YButton L"YButton" +#define IDC_XButton L"XButton" +#define IDC_BButton L"BButton" +#define IDC_AButton L"AButton" +#define IDC_Tooltips L"Tooltips" +#define IDC_LStick L"LStick" +#define IDC_LBButton L"LBButton" +#define IDC_RBButton L"RBButton" +#define IDC_RTrigger L"RTrigger" +#define IDC_LTrigger L"LTrigger" +#define IDC_YButton L"YButton" +#define IDC_XButton L"XButton" +#define IDC_BButton L"BButton" +#define IDC_AButton L"AButton" +#define IDC_TooltipsSmall L"TooltipsSmall" +#define IDC_SelectedItem L"SelectedItem" +#define IDC_SelectedItemSmall L"SelectedItemSmall" +#define IDC_TitleText L"TitleText" +#define IDC_ProgressBar1 L"ProgressBar1" +#define IDC_ProgressBar2 L"ProgressBar2" +#define IDC_ProgressBar3 L"ProgressBar3" +#define IDC_ProgressBar1_small L"ProgressBar1_small" +#define IDC_ProgressBar2_small L"ProgressBar2_small" +#define IDC_ProgressBar3_small L"ProgressBar3_small" +#define IDC_BossHealth L"BossHealth" +#define IDC_XuiSceneTutorialContainer L"XuiSceneTutorialContainer" +#define IDC_XuiGamertag L"XuiGamertag" +#define IDC_BasePlayer3 L"BasePlayer3" +#define IDC_BottomLeftAnchorPoint L"BottomLeftAnchorPoint" +#define IDC_TopLeftAnchorPoint L"TopLeftAnchorPoint" +#define IDC_XuiDarkOverlay L"XuiDarkOverlay" +#define IDC_Background L"Background" +#define IDC_Logo L"Logo" +#define IDC_XuiSceneHudRoot L"XuiSceneHudRoot" +#define IDC_XuiSceneChatRoot L"XuiSceneChatRoot" +#define IDC_XuiSceneContainer L"XuiSceneContainer" +#define IDC_LStick L"LStick" +#define IDC_LBButton L"LBButton" +#define IDC_RBButton L"RBButton" +#define IDC_RTrigger L"RTrigger" +#define IDC_LTrigger L"LTrigger" +#define IDC_YButton L"YButton" +#define IDC_XButton L"XButton" +#define IDC_BButton L"BButton" +#define IDC_AButton L"AButton" +#define IDC_Tooltips L"Tooltips" +#define IDC_LStick L"LStick" +#define IDC_LBButton L"LBButton" +#define IDC_RBButton L"RBButton" +#define IDC_RTrigger L"RTrigger" +#define IDC_LTrigger L"LTrigger" +#define IDC_YButton L"YButton" +#define IDC_XButton L"XButton" +#define IDC_BButton L"BButton" +#define IDC_AButton L"AButton" +#define IDC_TooltipsSmall L"TooltipsSmall" +#define IDC_SelectedItem L"SelectedItem" +#define IDC_SelectedItemSmall L"SelectedItemSmall" +#define IDC_TitleText L"TitleText" +#define IDC_ProgressBar1 L"ProgressBar1" +#define IDC_ProgressBar2 L"ProgressBar2" +#define IDC_ProgressBar3 L"ProgressBar3" +#define IDC_ProgressBar1_small L"ProgressBar1_small" +#define IDC_ProgressBar2_small L"ProgressBar2_small" +#define IDC_ProgressBar3_small L"ProgressBar3_small" +#define IDC_BossHealth L"BossHealth" +#define IDC_XuiSceneTutorialContainer L"XuiSceneTutorialContainer" +#define IDC_XuiGamertag L"XuiGamertag" +#define IDC_BasePlayer2 L"BasePlayer2" +#define IDC_BottomLeftAnchorPoint L"BottomLeftAnchorPoint" +#define IDC_TopLeftAnchorPoint L"TopLeftAnchorPoint" +#define IDC_XuiDarkOverlay L"XuiDarkOverlay" +#define IDC_Background L"Background" +#define IDC_Logo L"Logo" +#define IDC_XuiSceneHudRoot L"XuiSceneHudRoot" +#define IDC_XuiSceneChatRoot L"XuiSceneChatRoot" +#define IDC_XuiSceneContainer L"XuiSceneContainer" +#define IDC_LStick L"LStick" +#define IDC_LBButton L"LBButton" +#define IDC_RBButton L"RBButton" +#define IDC_RTrigger L"RTrigger" +#define IDC_LTrigger L"LTrigger" +#define IDC_YButton L"YButton" +#define IDC_XButton L"XButton" +#define IDC_BButton L"BButton" +#define IDC_AButton L"AButton" +#define IDC_Tooltips L"Tooltips" +#define IDC_LStick L"LStick" +#define IDC_LBButton L"LBButton" +#define IDC_RBButton L"RBButton" +#define IDC_RTrigger L"RTrigger" +#define IDC_LTrigger L"LTrigger" +#define IDC_YButton L"YButton" +#define IDC_XButton L"XButton" +#define IDC_BButton L"BButton" +#define IDC_AButton L"AButton" +#define IDC_TooltipsSmall L"TooltipsSmall" +#define IDC_SelectedItem L"SelectedItem" +#define IDC_SelectedItemSmall L"SelectedItemSmall" +#define IDC_TitleText L"TitleText" +#define IDC_ProgressBar1 L"ProgressBar1" +#define IDC_ProgressBar2 L"ProgressBar2" +#define IDC_ProgressBar3 L"ProgressBar3" +#define IDC_ProgressBar1_small L"ProgressBar1_small" +#define IDC_ProgressBar2_small L"ProgressBar2_small" +#define IDC_ProgressBar3_small L"ProgressBar3_small" +#define IDC_BossHealth L"BossHealth" +#define IDC_XuiSceneTutorialContainer L"XuiSceneTutorialContainer" +#define IDC_XuiGamertag L"XuiGamertag" +#define IDC_BasePlayer1 L"BasePlayer1" +#define IDC_BottomLeftAnchorPoint L"BottomLeftAnchorPoint" +#define IDC_TopLeftAnchorPoint L"TopLeftAnchorPoint" +#define IDC_XuiDarkOverlay L"XuiDarkOverlay" +#define IDC_Background L"Background" +#define IDC_Logo L"Logo" +#define IDC_XuiSceneHudRoot L"XuiSceneHudRoot" +#define IDC_XuiSceneChatRoot L"XuiSceneChatRoot" +#define IDC_XuiSceneContainer L"XuiSceneContainer" +#define IDC_LStick L"LStick" +#define IDC_LBButton L"LBButton" +#define IDC_RBButton L"RBButton" +#define IDC_RTrigger L"RTrigger" +#define IDC_LTrigger L"LTrigger" +#define IDC_YButton L"YButton" +#define IDC_XButton L"XButton" +#define IDC_BButton L"BButton" +#define IDC_AButton L"AButton" +#define IDC_Tooltips L"Tooltips" +#define IDC_LStick L"LStick" +#define IDC_LBButton L"LBButton" +#define IDC_RBButton L"RBButton" +#define IDC_RTrigger L"RTrigger" +#define IDC_LTrigger L"LTrigger" +#define IDC_YButton L"YButton" +#define IDC_XButton L"XButton" +#define IDC_BButton L"BButton" +#define IDC_AButton L"AButton" +#define IDC_TooltipsSmall L"TooltipsSmall" +#define IDC_SelectedItem L"SelectedItem" +#define IDC_SelectedItemSmall L"SelectedItemSmall" +#define IDC_TitleText L"TitleText" +#define IDC_ProgressBar1 L"ProgressBar1" +#define IDC_ProgressBar2 L"ProgressBar2" +#define IDC_ProgressBar3 L"ProgressBar3" +#define IDC_ProgressBar1_small L"ProgressBar1_small" +#define IDC_ProgressBar2_small L"ProgressBar2_small" +#define IDC_ProgressBar3_small L"ProgressBar3_small" +#define IDC_BossHealth L"BossHealth" +#define IDC_XuiSceneTutorialContainer L"XuiSceneTutorialContainer" +#define IDC_XuiGamertag L"XuiGamertag" +#define IDC_BasePlayer0 L"BasePlayer0" +#define IDC_XuiPressStartMessage L"XuiPressStartMessage" +#define IDC_XuiSceneDebugContainer L"XuiSceneDebugContainer" +#define IDC_XuiSavingIcon L"XuiSavingIcon" +#define IDC_XuiTrialTimer L"XuiTrialTimer" +#define IDC_SafeArea L"SafeArea" +#define IDC_XuiSoundXACTBack L"XuiSoundXACTBack" +#define IDC_XuiSoundXACTCraft L"XuiSoundXACTCraft" +#define IDC_XuiSoundXACTCraftFail L"XuiSoundXACTCraftFail" +#define IDC_XuiSoundXACTFocus L"XuiSoundXACTFocus" +#define IDC_XuiSoundXACTPress L"XuiSoundXACTPress" +#define IDC_XuiSoundXACTScroll L"XuiSoundXACTScroll" +#define IDC_XuiBaseScene L"XuiBaseScene" diff --git a/Minecraft.Client/Common/zlib/adler32.c b/Minecraft.Client/Common/zlib/adler32.c new file mode 100644 index 0000000..04b81d2 --- /dev/null +++ b/Minecraft.Client/Common/zlib/adler32.c @@ -0,0 +1,164 @@ +/* adler32.c -- compute the Adler-32 checksum of a data stream + * Copyright (C) 1995-2011, 2016 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* @(#) $Id$ */ + +#include "zutil.h" + +#define BASE 65521U /* largest prime smaller than 65536 */ +#define NMAX 5552 +/* NMAX is the largest n such that 255n(n+1)/2 + (n+1)(BASE-1) <= 2^32-1 */ + +#define DO1(buf,i) {adler += (buf)[i]; sum2 += adler;} +#define DO2(buf,i) DO1(buf,i); DO1(buf,i+1); +#define DO4(buf,i) DO2(buf,i); DO2(buf,i+2); +#define DO8(buf,i) DO4(buf,i); DO4(buf,i+4); +#define DO16(buf) DO8(buf,0); DO8(buf,8); + +/* use NO_DIVIDE if your processor does not do division in hardware -- + try it both ways to see which is faster */ +#ifdef NO_DIVIDE +/* note that this assumes BASE is 65521, where 65536 % 65521 == 15 + (thank you to John Reiser for pointing this out) */ +# define CHOP(a) \ + do { \ + unsigned long tmp = a >> 16; \ + a &= 0xffffUL; \ + a += (tmp << 4) - tmp; \ + } while (0) +# define MOD28(a) \ + do { \ + CHOP(a); \ + if (a >= BASE) a -= BASE; \ + } while (0) +# define MOD(a) \ + do { \ + CHOP(a); \ + MOD28(a); \ + } while (0) +# define MOD63(a) \ + do { /* this assumes a is not negative */ \ + z_off64_t tmp = a >> 32; \ + a &= 0xffffffffL; \ + a += (tmp << 8) - (tmp << 5) + tmp; \ + tmp = a >> 16; \ + a &= 0xffffL; \ + a += (tmp << 4) - tmp; \ + tmp = a >> 16; \ + a &= 0xffffL; \ + a += (tmp << 4) - tmp; \ + if (a >= BASE) a -= BASE; \ + } while (0) +#else +# define MOD(a) a %= BASE +# define MOD28(a) a %= BASE +# define MOD63(a) a %= BASE +#endif + +/* ========================================================================= */ +uLong ZEXPORT adler32_z(uLong adler, const Bytef *buf, z_size_t len) { + unsigned long sum2; + unsigned n; + + /* split Adler-32 into component sums */ + sum2 = (adler >> 16) & 0xffff; + adler &= 0xffff; + + /* in case user likes doing a byte at a time, keep it fast */ + if (len == 1) { + adler += buf[0]; + if (adler >= BASE) + adler -= BASE; + sum2 += adler; + if (sum2 >= BASE) + sum2 -= BASE; + return adler | (sum2 << 16); + } + + /* initial Adler-32 value (deferred check for len == 1 speed) */ + if (buf == Z_NULL) + return 1L; + + /* in case short lengths are provided, keep it somewhat fast */ + if (len < 16) { + while (len--) { + adler += *buf++; + sum2 += adler; + } + if (adler >= BASE) + adler -= BASE; + MOD28(sum2); /* only added so many BASE's */ + return adler | (sum2 << 16); + } + + /* do length NMAX blocks -- requires just one modulo operation */ + while (len >= NMAX) { + len -= NMAX; + n = NMAX / 16; /* NMAX is divisible by 16 */ + do { + DO16(buf); /* 16 sums unrolled */ + buf += 16; + } while (--n); + MOD(adler); + MOD(sum2); + } + + /* do remaining bytes (less than NMAX, still just one modulo) */ + if (len) { /* avoid modulos if none remaining */ + while (len >= 16) { + len -= 16; + DO16(buf); + buf += 16; + } + while (len--) { + adler += *buf++; + sum2 += adler; + } + MOD(adler); + MOD(sum2); + } + + /* return recombined sums */ + return adler | (sum2 << 16); +} + +/* ========================================================================= */ +uLong ZEXPORT adler32(uLong adler, const Bytef *buf, uInt len) { + return adler32_z(adler, buf, len); +} + +/* ========================================================================= */ +local uLong adler32_combine_(uLong adler1, uLong adler2, z_off64_t len2) { + unsigned long sum1; + unsigned long sum2; + unsigned rem; + + /* for negative len, return invalid adler32 as a clue for debugging */ + if (len2 < 0) + return 0xffffffffUL; + + /* the derivation of this formula is left as an exercise for the reader */ + MOD63(len2); /* assumes len2 >= 0 */ + rem = (unsigned)len2; + sum1 = adler1 & 0xffff; + sum2 = rem * sum1; + MOD(sum2); + sum1 += (adler2 & 0xffff) + BASE - 1; + sum2 += ((adler1 >> 16) & 0xffff) + ((adler2 >> 16) & 0xffff) + BASE - rem; + if (sum1 >= BASE) sum1 -= BASE; + if (sum1 >= BASE) sum1 -= BASE; + if (sum2 >= ((unsigned long)BASE << 1)) sum2 -= ((unsigned long)BASE << 1); + if (sum2 >= BASE) sum2 -= BASE; + return sum1 | (sum2 << 16); +} + +/* ========================================================================= */ +uLong ZEXPORT adler32_combine(uLong adler1, uLong adler2, z_off_t len2) { + return adler32_combine_(adler1, adler2, len2); +} + +uLong ZEXPORT adler32_combine64(uLong adler1, uLong adler2, z_off64_t len2) { + return adler32_combine_(adler1, adler2, len2); +} diff --git a/Minecraft.Client/Common/zlib/compress.c b/Minecraft.Client/Common/zlib/compress.c new file mode 100644 index 0000000..bd74b94 --- /dev/null +++ b/Minecraft.Client/Common/zlib/compress.c @@ -0,0 +1,99 @@ +/* compress.c -- compress a memory buffer + * Copyright (C) 1995-2026 Jean-loup Gailly, Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* @(#) $Id$ */ + +#define ZLIB_INTERNAL +#include "zlib.h" + +/* =========================================================================== + Compresses the source buffer into the destination buffer. The level + parameter has the same meaning as in deflateInit. sourceLen is the byte + length of the source buffer. Upon entry, destLen is the total size of the + destination buffer, which must be at least 0.1% larger than sourceLen plus + 12 bytes. Upon exit, destLen is the actual size of the compressed buffer. + + compress2 returns Z_OK if success, Z_MEM_ERROR if there was not enough + memory, Z_BUF_ERROR if there was not enough room in the output buffer, + Z_STREAM_ERROR if the level parameter is invalid. + + The _z versions of the functions take size_t length arguments. +*/ +int ZEXPORT compress2_z(Bytef *dest, z_size_t *destLen, const Bytef *source, + z_size_t sourceLen, int level) { + z_stream stream; + int err; + const uInt max = (uInt)-1; + z_size_t left; + + if ((sourceLen > 0 && source == NULL) || + destLen == NULL || (*destLen > 0 && dest == NULL)) + return Z_STREAM_ERROR; + + left = *destLen; + *destLen = 0; + + stream.zalloc = (alloc_func)0; + stream.zfree = (free_func)0; + stream.opaque = (voidpf)0; + + err = deflateInit(&stream, level); + if (err != Z_OK) return err; + + stream.next_out = dest; + stream.avail_out = 0; + stream.next_in = (z_const Bytef *)source; + stream.avail_in = 0; + + do { + if (stream.avail_out == 0) { + stream.avail_out = left > (z_size_t)max ? max : (uInt)left; + left -= stream.avail_out; + } + if (stream.avail_in == 0) { + stream.avail_in = sourceLen > (z_size_t)max ? max : + (uInt)sourceLen; + sourceLen -= stream.avail_in; + } + err = deflate(&stream, sourceLen ? Z_NO_FLUSH : Z_FINISH); + } while (err == Z_OK); + + *destLen = (z_size_t)(stream.next_out - dest); + deflateEnd(&stream); + return err == Z_STREAM_END ? Z_OK : err; +} +int ZEXPORT compress2(Bytef *dest, uLongf *destLen, const Bytef *source, + uLong sourceLen, int level) { + int ret; + z_size_t got = *destLen; + ret = compress2_z(dest, &got, source, sourceLen, level); + *destLen = (uLong)got; + return ret; +} +/* =========================================================================== + */ +int ZEXPORT compress_z(Bytef *dest, z_size_t *destLen, const Bytef *source, + z_size_t sourceLen) { + return compress2_z(dest, destLen, source, sourceLen, + Z_DEFAULT_COMPRESSION); +} +int ZEXPORT compress(Bytef *dest, uLongf *destLen, const Bytef *source, + uLong sourceLen) { + return compress2(dest, destLen, source, sourceLen, Z_DEFAULT_COMPRESSION); +} + +/* =========================================================================== + If the default memLevel or windowBits for deflateInit() is changed, then + this function needs to be updated. + */ +z_size_t ZEXPORT compressBound_z(z_size_t sourceLen) { + z_size_t bound = sourceLen + (sourceLen >> 12) + (sourceLen >> 14) + + (sourceLen >> 25) + 13; + return bound < sourceLen ? (z_size_t)-1 : bound; +} +uLong ZEXPORT compressBound(uLong sourceLen) { + z_size_t bound = compressBound_z(sourceLen); + return (uLong)bound != bound ? (uLong)-1 : (uLong)bound; +} diff --git a/Minecraft.Client/Common/zlib/crc32.c b/Minecraft.Client/Common/zlib/crc32.c new file mode 100644 index 0000000..d9ade51 --- /dev/null +++ b/Minecraft.Client/Common/zlib/crc32.c @@ -0,0 +1,983 @@ +/* crc32.c -- compute the CRC-32 of a data stream + * Copyright (C) 1995-2026 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + * + * This interleaved implementation of a CRC makes use of pipelined multiple + * arithmetic-logic units, commonly found in modern CPU cores. It is due to + * Kadatch and Jenkins (2010). See doc/crc-doc.1.0.pdf in this distribution. + */ + +/* @(#) $Id$ */ + +/* + Note on the use of DYNAMIC_CRC_TABLE: there is no mutex or semaphore + protection on the static variables used to control the first-use generation + of the crc tables. Therefore, if you #define DYNAMIC_CRC_TABLE, you should + first call get_crc_table() to initialize the tables before allowing more than + one thread to use crc32(). + + MAKECRCH can be #defined to write out crc32.h. A main() routine is also + produced, so that this one source file can be compiled to an executable. + */ + +#ifdef MAKECRCH +# include +# ifndef DYNAMIC_CRC_TABLE +# define DYNAMIC_CRC_TABLE +# endif +#endif +#ifdef DYNAMIC_CRC_TABLE +# define Z_ONCE +#endif + +#include "zutil.h" /* for Z_U4, Z_U8, z_crc_t, and FAR definitions */ + +#ifdef HAVE_S390X_VX +# include "contrib/crc32vx/crc32_vx_hooks.h" +#endif + + /* + A CRC of a message is computed on N braids of words in the message, where + each word consists of W bytes (4 or 8). If N is 3, for example, then three + running sparse CRCs are calculated respectively on each braid, at these + indices in the array of words: 0, 3, 6, ..., 1, 4, 7, ..., and 2, 5, 8, ... + This is done starting at a word boundary, and continues until as many blocks + of N * W bytes as are available have been processed. The results are combined + into a single CRC at the end. For this code, N must be in the range 1..6 and + W must be 4 or 8. The upper limit on N can be increased if desired by adding + more #if blocks, extending the patterns apparent in the code. In addition, + crc32.h would need to be regenerated, if the maximum N value is increased. + + N and W are chosen empirically by benchmarking the execution time on a given + processor. The choices for N and W below were based on testing on Intel Kaby + Lake i7, AMD Ryzen 7, ARM Cortex-A57, Sparc64-VII, PowerPC POWER9, and MIPS64 + Octeon II processors. The Intel, AMD, and ARM processors were all fastest + with N=5, W=8. The Sparc, PowerPC, and MIPS64 were all fastest at N=5, W=4. + They were all tested with either gcc or clang, all using the -O3 optimization + level. Your mileage may vary. + */ + +/* Define N */ +#ifdef Z_TESTN +# define N Z_TESTN +#else +# define N 5 +#endif +#if N < 1 || N > 6 +# error N must be in 1..6 +#endif + +/* + z_crc_t must be at least 32 bits. z_word_t must be at least as long as + z_crc_t. It is assumed here that z_word_t is either 32 bits or 64 bits, and + that bytes are eight bits. + */ + +/* + Define W and the associated z_word_t type. If W is not defined, then a + braided calculation is not used, and the associated tables and code are not + compiled. + */ +#ifdef Z_TESTW +# if Z_TESTW-1 != -1 +# define W Z_TESTW +# endif +#else +# ifdef MAKECRCH +# define W 8 /* required for MAKECRCH */ +# else +# if defined(__x86_64__) || defined(__aarch64__) +# define W 8 +# else +# define W 4 +# endif +# endif +#endif +#ifdef W +# if W == 8 && defined(Z_U8) + typedef Z_U8 z_word_t; +# elif defined(Z_U4) +# undef W +# define W 4 + typedef Z_U4 z_word_t; +# else +# undef W +# endif +#endif + +/* If available, use the ARM processor CRC32 instruction. */ +#if defined(__aarch64__) && defined(__ARM_FEATURE_CRC32) && \ + defined(W) && W == 8 +# define ARMCRC32 +#endif + +#if defined(W) && (!defined(ARMCRC32) || defined(DYNAMIC_CRC_TABLE)) +/* + Swap the bytes in a z_word_t to convert between little and big endian. Any + self-respecting compiler will optimize this to a single machine byte-swap + instruction, if one is available. This assumes that word_t is either 32 bits + or 64 bits. + */ +local z_word_t byte_swap(z_word_t word) { +# if W == 8 + return + (word & 0xff00000000000000) >> 56 | + (word & 0xff000000000000) >> 40 | + (word & 0xff0000000000) >> 24 | + (word & 0xff00000000) >> 8 | + (word & 0xff000000) << 8 | + (word & 0xff0000) << 24 | + (word & 0xff00) << 40 | + (word & 0xff) << 56; +# else /* W == 4 */ + return + (word & 0xff000000) >> 24 | + (word & 0xff0000) >> 8 | + (word & 0xff00) << 8 | + (word & 0xff) << 24; +# endif +} +#endif + +#ifdef DYNAMIC_CRC_TABLE +/* ========================================================================= + * Table of powers of x for combining CRC-32s, filled in by make_crc_table() + * below. + */ + local z_crc_t FAR x2n_table[32]; +#else +/* ========================================================================= + * Tables for byte-wise and braided CRC-32 calculations, and a table of powers + * of x for combining CRC-32s, all made by make_crc_table(). + */ +# include "crc32.h" +#endif + +/* CRC polynomial. */ +#define POLY 0xedb88320 /* p(x) reflected, with x^32 implied */ + +/* + Return a(x) multiplied by b(x) modulo p(x), where p(x) is the CRC polynomial, + reflected. For speed, this requires that a not be zero. + */ +local uLong multmodp(uLong a, uLong b) { + uLong m, p; + + m = (uLong)1 << 31; + p = 0; + for (;;) { + if (a & m) { + p ^= b; + if ((a & (m - 1)) == 0) + break; + } + m >>= 1; + b = b & 1 ? (b >> 1) ^ POLY : b >> 1; + } + return p; +} + +/* + Return x^(n * 2^k) modulo p(x). Requires that x2n_table[] has been + initialized. n must not be negative. + */ +local uLong x2nmodp(z_off64_t n, unsigned k) { + uLong p; + + p = (uLong)1 << 31; /* x^0 == 1 */ + while (n) { + if (n & 1) + p = multmodp(x2n_table[k & 31], p); + n >>= 1; + k++; + } + return p; +} + +#ifdef DYNAMIC_CRC_TABLE +/* ========================================================================= + * Build the tables for byte-wise and braided CRC-32 calculations, and a table + * of powers of x for combining CRC-32s. + */ +local z_crc_t FAR crc_table[256]; +#ifdef W + local z_word_t FAR crc_big_table[256]; + local z_crc_t FAR crc_braid_table[W][256]; + local z_word_t FAR crc_braid_big_table[W][256]; + local void braid(z_crc_t [][256], z_word_t [][256], int, int); +#endif +#ifdef MAKECRCH + local void write_table(FILE *, const z_crc_t FAR *, int); + local void write_table32hi(FILE *, const z_word_t FAR *, int); + local void write_table64(FILE *, const z_word_t FAR *, int); +#endif /* MAKECRCH */ + +/* State for once(). */ +local z_once_t made = Z_ONCE_INIT; + +/* + Generate tables for a byte-wise 32-bit CRC calculation on the polynomial: + x^32+x^26+x^23+x^22+x^16+x^12+x^11+x^10+x^8+x^7+x^5+x^4+x^2+x+1. + + Polynomials over GF(2) are represented in binary, one bit per coefficient, + with the lowest powers in the most significant bit. Then adding polynomials + is just exclusive-or, and multiplying a polynomial by x is a right shift by + one. If we call the above polynomial p, and represent a byte as the + polynomial q, also with the lowest power in the most significant bit (so the + byte 0xb1 is the polynomial x^7+x^3+x^2+1), then the CRC is (q*x^32) mod p, + where a mod b means the remainder after dividing a by b. + + This calculation is done using the shift-register method of multiplying and + taking the remainder. The register is initialized to zero, and for each + incoming bit, x^32 is added mod p to the register if the bit is a one (where + x^32 mod p is p+x^32 = x^26+...+1), and the register is multiplied mod p by x + (which is shifting right by one and adding x^32 mod p if the bit shifted out + is a one). We start with the highest power (least significant bit) of q and + repeat for all eight bits of q. + + The table is simply the CRC of all possible eight bit values. This is all the + information needed to generate CRCs on data a byte at a time for all + combinations of CRC register values and incoming bytes. + */ + +local void make_crc_table(void) { + unsigned i, j, n; + z_crc_t p; + + /* initialize the CRC of bytes tables */ + for (i = 0; i < 256; i++) { + p = i; + for (j = 0; j < 8; j++) + p = p & 1 ? (p >> 1) ^ POLY : p >> 1; + crc_table[i] = p; +#ifdef W + crc_big_table[i] = byte_swap(p); +#endif + } + + /* initialize the x^2^n mod p(x) table */ + p = (z_crc_t)1 << 30; /* x^1 */ + x2n_table[0] = p; + for (n = 1; n < 32; n++) + x2n_table[n] = p = (z_crc_t)multmodp(p, p); + +#ifdef W + /* initialize the braiding tables -- needs x2n_table[] */ + braid(crc_braid_table, crc_braid_big_table, N, W); +#endif + +#ifdef MAKECRCH + { + /* + The crc32.h header file contains tables for both 32-bit and 64-bit + z_word_t's, and so requires a 64-bit type be available. In that case, + z_word_t must be defined to be 64-bits. This code then also generates + and writes out the tables for the case that z_word_t is 32 bits. + */ +#if !defined(W) || W != 8 +# error Need a 64-bit integer type in order to generate crc32.h. +#endif + FILE *out; + int k, n; + z_crc_t ltl[8][256]; + z_word_t big[8][256]; + + out = fopen("crc32.h", "w"); + if (out == NULL) return; + + /* write out little-endian CRC table to crc32.h */ + fprintf(out, + "/* crc32.h -- tables for rapid CRC calculation\n" + " * Generated automatically by crc32.c\n */\n" + "\n" + "local const z_crc_t FAR crc_table[] = {\n" + " "); + write_table(out, crc_table, 256); + fprintf(out, + "};\n"); + + /* write out big-endian CRC table for 64-bit z_word_t to crc32.h */ + fprintf(out, + "\n" + "#ifdef W\n" + "\n" + "#if W == 8\n" + "\n" + "local const z_word_t FAR crc_big_table[] = {\n" + " "); + write_table64(out, crc_big_table, 256); + fprintf(out, + "};\n"); + + /* write out big-endian CRC table for 32-bit z_word_t to crc32.h */ + fprintf(out, + "\n" + "#else /* W == 4 */\n" + "\n" + "local const z_word_t FAR crc_big_table[] = {\n" + " "); + write_table32hi(out, crc_big_table, 256); + fprintf(out, + "};\n" + "\n" + "#endif\n"); + + /* write out braid tables for each value of N */ + for (n = 1; n <= 6; n++) { + fprintf(out, + "\n" + "#if N == %d\n", n); + + /* compute braid tables for this N and 64-bit word_t */ + braid(ltl, big, n, 8); + + /* write out braid tables for 64-bit z_word_t to crc32.h */ + fprintf(out, + "\n" + "#if W == 8\n" + "\n" + "local const z_crc_t FAR crc_braid_table[][256] = {\n"); + for (k = 0; k < 8; k++) { + fprintf(out, " {"); + write_table(out, ltl[k], 256); + fprintf(out, "}%s", k < 7 ? ",\n" : ""); + } + fprintf(out, + "};\n" + "\n" + "local const z_word_t FAR crc_braid_big_table[][256] = {\n"); + for (k = 0; k < 8; k++) { + fprintf(out, " {"); + write_table64(out, big[k], 256); + fprintf(out, "}%s", k < 7 ? ",\n" : ""); + } + fprintf(out, + "};\n"); + + /* compute braid tables for this N and 32-bit word_t */ + braid(ltl, big, n, 4); + + /* write out braid tables for 32-bit z_word_t to crc32.h */ + fprintf(out, + "\n" + "#else /* W == 4 */\n" + "\n" + "local const z_crc_t FAR crc_braid_table[][256] = {\n"); + for (k = 0; k < 4; k++) { + fprintf(out, " {"); + write_table(out, ltl[k], 256); + fprintf(out, "}%s", k < 3 ? ",\n" : ""); + } + fprintf(out, + "};\n" + "\n" + "local const z_word_t FAR crc_braid_big_table[][256] = {\n"); + for (k = 0; k < 4; k++) { + fprintf(out, " {"); + write_table32hi(out, big[k], 256); + fprintf(out, "}%s", k < 3 ? ",\n" : ""); + } + fprintf(out, + "};\n" + "\n" + "#endif\n" + "\n" + "#endif\n"); + } + fprintf(out, + "\n" + "#endif\n"); + + /* write out zeros operator table to crc32.h */ + fprintf(out, + "\n" + "local const z_crc_t FAR x2n_table[] = {\n" + " "); + write_table(out, x2n_table, 32); + fprintf(out, + "};\n"); + fclose(out); + } +#endif /* MAKECRCH */ +} + +#ifdef MAKECRCH + +/* + Write the 32-bit values in table[0..k-1] to out, five per line in + hexadecimal separated by commas. + */ +local void write_table(FILE *out, const z_crc_t FAR *table, int k) { + int n; + + for (n = 0; n < k; n++) + fprintf(out, "%s0x%08lx%s", n == 0 || n % 5 ? "" : " ", + (unsigned long)(table[n]), + n == k - 1 ? "" : (n % 5 == 4 ? ",\n" : ", ")); +} + +/* + Write the high 32-bits of each value in table[0..k-1] to out, five per line + in hexadecimal separated by commas. + */ +local void write_table32hi(FILE *out, const z_word_t FAR *table, int k) { + int n; + + for (n = 0; n < k; n++) + fprintf(out, "%s0x%08lx%s", n == 0 || n % 5 ? "" : " ", + (unsigned long)(table[n] >> 32), + n == k - 1 ? "" : (n % 5 == 4 ? ",\n" : ", ")); +} + +/* + Write the 64-bit values in table[0..k-1] to out, three per line in + hexadecimal separated by commas. This assumes that if there is a 64-bit + type, then there is also a long long integer type, and it is at least 64 + bits. If not, then the type cast and format string can be adjusted + accordingly. + */ +local void write_table64(FILE *out, const z_word_t FAR *table, int k) { + int n; + + for (n = 0; n < k; n++) + fprintf(out, "%s0x%016llx%s", n == 0 || n % 3 ? "" : " ", + (unsigned long long)(table[n]), + n == k - 1 ? "" : (n % 3 == 2 ? ",\n" : ", ")); +} + +/* Actually do the deed. */ +int main(void) { + make_crc_table(); + return 0; +} + +#endif /* MAKECRCH */ + +#ifdef W +/* + Generate the little and big-endian braid tables for the given n and z_word_t + size w. Each array must have room for w blocks of 256 elements. + */ +local void braid(z_crc_t ltl[][256], z_word_t big[][256], int n, int w) { + int k; + z_crc_t i, p, q; + for (k = 0; k < w; k++) { + p = (z_crc_t)x2nmodp((n * w + 3 - k) << 3, 0); + ltl[k][0] = 0; + big[w - 1 - k][0] = 0; + for (i = 1; i < 256; i++) { + ltl[k][i] = q = (z_crc_t)multmodp(i << 24, p); + big[w - 1 - k][i] = byte_swap(q); + } + } +} +#endif + +#endif /* DYNAMIC_CRC_TABLE */ + +/* ========================================================================= + * This function can be used by asm versions of crc32(), and to force the + * generation of the CRC tables in a threaded application. + */ +const z_crc_t FAR * ZEXPORT get_crc_table(void) { +#ifdef DYNAMIC_CRC_TABLE + z_once(&made, make_crc_table); +#endif /* DYNAMIC_CRC_TABLE */ + return (const z_crc_t FAR *)crc_table; +} + +/* ========================================================================= + * Use ARM machine instructions if available. This will compute the CRC about + * ten times faster than the braided calculation. This code does not check for + * the presence of the CRC instruction at run time. __ARM_FEATURE_CRC32 will + * only be defined if the compilation specifies an ARM processor architecture + * that has the instructions. For example, compiling with -march=armv8.1-a or + * -march=armv8-a+crc, or -march=native if the compile machine has the crc32 + * instructions. + */ +#ifdef ARMCRC32 + +/* + Constants empirically determined to maximize speed. These values are from + measurements on a Cortex-A57. Your mileage may vary. + */ +#define Z_BATCH 3990 /* number of words in a batch */ +#define Z_BATCH_ZEROS 0xa10d3d0c /* computed from Z_BATCH = 3990 */ +#define Z_BATCH_MIN 800 /* fewest words in a final batch */ + +uLong ZEXPORT crc32_z(uLong crc, const unsigned char FAR *buf, z_size_t len) { + uLong val; + z_word_t crc1, crc2; + const z_word_t *word; + z_word_t val0, val1, val2; + z_size_t last, last2, i; + z_size_t num; + + /* Return initial CRC, if requested. */ + if (buf == Z_NULL) return 0; + +#ifdef DYNAMIC_CRC_TABLE + z_once(&made, make_crc_table); +#endif /* DYNAMIC_CRC_TABLE */ + + /* Pre-condition the CRC */ + crc = (~crc) & 0xffffffff; + + /* Compute the CRC up to a word boundary. */ + while (len && ((z_size_t)buf & 7) != 0) { + len--; + val = *buf++; + __asm__ volatile("crc32b %w0, %w0, %w1" : "+r"(crc) : "r"(val)); + } + + /* Prepare to compute the CRC on full 64-bit words word[0..num-1]. */ + word = (z_word_t const *)buf; + num = len >> 3; + len &= 7; + + /* Do three interleaved CRCs to realize the throughput of one crc32x + instruction per cycle. Each CRC is calculated on Z_BATCH words. The + three CRCs are combined into a single CRC after each set of batches. */ + while (num >= 3 * Z_BATCH) { + crc1 = 0; + crc2 = 0; + for (i = 0; i < Z_BATCH; i++) { + val0 = word[i]; + val1 = word[i + Z_BATCH]; + val2 = word[i + 2 * Z_BATCH]; + __asm__ volatile("crc32x %w0, %w0, %x1" : "+r"(crc) : "r"(val0)); + __asm__ volatile("crc32x %w0, %w0, %x1" : "+r"(crc1) : "r"(val1)); + __asm__ volatile("crc32x %w0, %w0, %x1" : "+r"(crc2) : "r"(val2)); + } + word += 3 * Z_BATCH; + num -= 3 * Z_BATCH; + crc = multmodp(Z_BATCH_ZEROS, crc) ^ crc1; + crc = multmodp(Z_BATCH_ZEROS, crc) ^ crc2; + } + + /* Do one last smaller batch with the remaining words, if there are enough + to pay for the combination of CRCs. */ + last = num / 3; + if (last >= Z_BATCH_MIN) { + last2 = last << 1; + crc1 = 0; + crc2 = 0; + for (i = 0; i < last; i++) { + val0 = word[i]; + val1 = word[i + last]; + val2 = word[i + last2]; + __asm__ volatile("crc32x %w0, %w0, %x1" : "+r"(crc) : "r"(val0)); + __asm__ volatile("crc32x %w0, %w0, %x1" : "+r"(crc1) : "r"(val1)); + __asm__ volatile("crc32x %w0, %w0, %x1" : "+r"(crc2) : "r"(val2)); + } + word += 3 * last; + num -= 3 * last; + val = x2nmodp((int)last, 6); + crc = multmodp(val, crc) ^ crc1; + crc = multmodp(val, crc) ^ crc2; + } + + /* Compute the CRC on any remaining words. */ + for (i = 0; i < num; i++) { + val0 = word[i]; + __asm__ volatile("crc32x %w0, %w0, %x1" : "+r"(crc) : "r"(val0)); + } + word += num; + + /* Complete the CRC on any remaining bytes. */ + buf = (const unsigned char FAR *)word; + while (len) { + len--; + val = *buf++; + __asm__ volatile("crc32b %w0, %w0, %w1" : "+r"(crc) : "r"(val)); + } + + /* Return the CRC, post-conditioned. */ + return crc ^ 0xffffffff; +} + +#else + +#ifdef W + +/* + Return the CRC of the W bytes in the word_t data, taking the + least-significant byte of the word as the first byte of data, without any pre + or post conditioning. This is used to combine the CRCs of each braid. + */ +local z_crc_t crc_word(z_word_t data) { + int k; + for (k = 0; k < W; k++) + data = (data >> 8) ^ crc_table[data & 0xff]; + return (z_crc_t)data; +} + +local z_word_t crc_word_big(z_word_t data) { + int k; + for (k = 0; k < W; k++) + data = (data << 8) ^ + crc_big_table[(data >> ((W - 1) << 3)) & 0xff]; + return data; +} + +#endif + +/* ========================================================================= */ +uLong ZEXPORT crc32_z(uLong crc, const unsigned char FAR *buf, z_size_t len) { + /* Return initial CRC, if requested. */ + if (buf == Z_NULL) return 0; + +#ifdef DYNAMIC_CRC_TABLE + z_once(&made, make_crc_table); +#endif /* DYNAMIC_CRC_TABLE */ + + /* Pre-condition the CRC */ + crc = (~crc) & 0xffffffff; + +#ifdef W + + /* If provided enough bytes, do a braided CRC calculation. */ + if (len >= N * W + W - 1) { + z_size_t blks; + z_word_t const *words; + unsigned endian; + int k; + + /* Compute the CRC up to a z_word_t boundary. */ + while (len && ((z_size_t)buf & (W - 1)) != 0) { + len--; + crc = (crc >> 8) ^ crc_table[(crc ^ *buf++) & 0xff]; + } + + /* Compute the CRC on as many N z_word_t blocks as are available. */ + blks = len / (N * W); + len -= blks * N * W; + words = (z_word_t const *)buf; + + /* Do endian check at execution time instead of compile time, since ARM + processors can change the endianness at execution time. If the + compiler knows what the endianness will be, it can optimize out the + check and the unused branch. */ + endian = 1; + if (*(unsigned char *)&endian) { + /* Little endian. */ + + z_crc_t crc0; + z_word_t word0; +#if N > 1 + z_crc_t crc1; + z_word_t word1; +#if N > 2 + z_crc_t crc2; + z_word_t word2; +#if N > 3 + z_crc_t crc3; + z_word_t word3; +#if N > 4 + z_crc_t crc4; + z_word_t word4; +#if N > 5 + z_crc_t crc5; + z_word_t word5; +#endif +#endif +#endif +#endif +#endif + + /* Initialize the CRC for each braid. */ + crc0 = crc; +#if N > 1 + crc1 = 0; +#if N > 2 + crc2 = 0; +#if N > 3 + crc3 = 0; +#if N > 4 + crc4 = 0; +#if N > 5 + crc5 = 0; +#endif +#endif +#endif +#endif +#endif + + /* + Process the first blks-1 blocks, computing the CRCs on each braid + independently. + */ + while (--blks) { + /* Load the word for each braid into registers. */ + word0 = crc0 ^ words[0]; +#if N > 1 + word1 = crc1 ^ words[1]; +#if N > 2 + word2 = crc2 ^ words[2]; +#if N > 3 + word3 = crc3 ^ words[3]; +#if N > 4 + word4 = crc4 ^ words[4]; +#if N > 5 + word5 = crc5 ^ words[5]; +#endif +#endif +#endif +#endif +#endif + words += N; + + /* Compute and update the CRC for each word. The loop should + get unrolled. */ + crc0 = crc_braid_table[0][word0 & 0xff]; +#if N > 1 + crc1 = crc_braid_table[0][word1 & 0xff]; +#if N > 2 + crc2 = crc_braid_table[0][word2 & 0xff]; +#if N > 3 + crc3 = crc_braid_table[0][word3 & 0xff]; +#if N > 4 + crc4 = crc_braid_table[0][word4 & 0xff]; +#if N > 5 + crc5 = crc_braid_table[0][word5 & 0xff]; +#endif +#endif +#endif +#endif +#endif + for (k = 1; k < W; k++) { + crc0 ^= crc_braid_table[k][(word0 >> (k << 3)) & 0xff]; +#if N > 1 + crc1 ^= crc_braid_table[k][(word1 >> (k << 3)) & 0xff]; +#if N > 2 + crc2 ^= crc_braid_table[k][(word2 >> (k << 3)) & 0xff]; +#if N > 3 + crc3 ^= crc_braid_table[k][(word3 >> (k << 3)) & 0xff]; +#if N > 4 + crc4 ^= crc_braid_table[k][(word4 >> (k << 3)) & 0xff]; +#if N > 5 + crc5 ^= crc_braid_table[k][(word5 >> (k << 3)) & 0xff]; +#endif +#endif +#endif +#endif +#endif + } + } + + /* + Process the last block, combining the CRCs of the N braids at the + same time. + */ + crc = crc_word(crc0 ^ words[0]); +#if N > 1 + crc = crc_word(crc1 ^ words[1] ^ crc); +#if N > 2 + crc = crc_word(crc2 ^ words[2] ^ crc); +#if N > 3 + crc = crc_word(crc3 ^ words[3] ^ crc); +#if N > 4 + crc = crc_word(crc4 ^ words[4] ^ crc); +#if N > 5 + crc = crc_word(crc5 ^ words[5] ^ crc); +#endif +#endif +#endif +#endif +#endif + words += N; + } + else { + /* Big endian. */ + + z_word_t crc0, word0, comb; +#if N > 1 + z_word_t crc1, word1; +#if N > 2 + z_word_t crc2, word2; +#if N > 3 + z_word_t crc3, word3; +#if N > 4 + z_word_t crc4, word4; +#if N > 5 + z_word_t crc5, word5; +#endif +#endif +#endif +#endif +#endif + + /* Initialize the CRC for each braid. */ + crc0 = byte_swap(crc); +#if N > 1 + crc1 = 0; +#if N > 2 + crc2 = 0; +#if N > 3 + crc3 = 0; +#if N > 4 + crc4 = 0; +#if N > 5 + crc5 = 0; +#endif +#endif +#endif +#endif +#endif + + /* + Process the first blks-1 blocks, computing the CRCs on each braid + independently. + */ + while (--blks) { + /* Load the word for each braid into registers. */ + word0 = crc0 ^ words[0]; +#if N > 1 + word1 = crc1 ^ words[1]; +#if N > 2 + word2 = crc2 ^ words[2]; +#if N > 3 + word3 = crc3 ^ words[3]; +#if N > 4 + word4 = crc4 ^ words[4]; +#if N > 5 + word5 = crc5 ^ words[5]; +#endif +#endif +#endif +#endif +#endif + words += N; + + /* Compute and update the CRC for each word. The loop should + get unrolled. */ + crc0 = crc_braid_big_table[0][word0 & 0xff]; +#if N > 1 + crc1 = crc_braid_big_table[0][word1 & 0xff]; +#if N > 2 + crc2 = crc_braid_big_table[0][word2 & 0xff]; +#if N > 3 + crc3 = crc_braid_big_table[0][word3 & 0xff]; +#if N > 4 + crc4 = crc_braid_big_table[0][word4 & 0xff]; +#if N > 5 + crc5 = crc_braid_big_table[0][word5 & 0xff]; +#endif +#endif +#endif +#endif +#endif + for (k = 1; k < W; k++) { + crc0 ^= crc_braid_big_table[k][(word0 >> (k << 3)) & 0xff]; +#if N > 1 + crc1 ^= crc_braid_big_table[k][(word1 >> (k << 3)) & 0xff]; +#if N > 2 + crc2 ^= crc_braid_big_table[k][(word2 >> (k << 3)) & 0xff]; +#if N > 3 + crc3 ^= crc_braid_big_table[k][(word3 >> (k << 3)) & 0xff]; +#if N > 4 + crc4 ^= crc_braid_big_table[k][(word4 >> (k << 3)) & 0xff]; +#if N > 5 + crc5 ^= crc_braid_big_table[k][(word5 >> (k << 3)) & 0xff]; +#endif +#endif +#endif +#endif +#endif + } + } + + /* + Process the last block, combining the CRCs of the N braids at the + same time. + */ + comb = crc_word_big(crc0 ^ words[0]); +#if N > 1 + comb = crc_word_big(crc1 ^ words[1] ^ comb); +#if N > 2 + comb = crc_word_big(crc2 ^ words[2] ^ comb); +#if N > 3 + comb = crc_word_big(crc3 ^ words[3] ^ comb); +#if N > 4 + comb = crc_word_big(crc4 ^ words[4] ^ comb); +#if N > 5 + comb = crc_word_big(crc5 ^ words[5] ^ comb); +#endif +#endif +#endif +#endif +#endif + words += N; + crc = byte_swap(comb); + } + + /* + Update the pointer to the remaining bytes to process. + */ + buf = (unsigned char const *)words; + } + +#endif /* W */ + + /* Complete the computation of the CRC on any remaining bytes. */ + while (len >= 8) { + len -= 8; + crc = (crc >> 8) ^ crc_table[(crc ^ *buf++) & 0xff]; + crc = (crc >> 8) ^ crc_table[(crc ^ *buf++) & 0xff]; + crc = (crc >> 8) ^ crc_table[(crc ^ *buf++) & 0xff]; + crc = (crc >> 8) ^ crc_table[(crc ^ *buf++) & 0xff]; + crc = (crc >> 8) ^ crc_table[(crc ^ *buf++) & 0xff]; + crc = (crc >> 8) ^ crc_table[(crc ^ *buf++) & 0xff]; + crc = (crc >> 8) ^ crc_table[(crc ^ *buf++) & 0xff]; + crc = (crc >> 8) ^ crc_table[(crc ^ *buf++) & 0xff]; + } + while (len) { + len--; + crc = (crc >> 8) ^ crc_table[(crc ^ *buf++) & 0xff]; + } + + /* Return the CRC, post-conditioned. */ + return crc ^ 0xffffffff; +} + +#endif + +/* ========================================================================= */ +uLong ZEXPORT crc32(uLong crc, const unsigned char FAR *buf, uInt len) { + #ifdef HAVE_S390X_VX + return crc32_z_hook(crc, buf, len); + #endif + return crc32_z(crc, buf, len); +} + +/* ========================================================================= */ +uLong ZEXPORT crc32_combine_gen64(z_off64_t len2) { + if (len2 < 0) + return 0; +#ifdef DYNAMIC_CRC_TABLE + z_once(&made, make_crc_table); +#endif /* DYNAMIC_CRC_TABLE */ + return x2nmodp(len2, 3); +} + +/* ========================================================================= */ +uLong ZEXPORT crc32_combine_gen(z_off_t len2) { + return crc32_combine_gen64((z_off64_t)len2); +} + +/* ========================================================================= */ +uLong ZEXPORT crc32_combine_op(uLong crc1, uLong crc2, uLong op) { + if (op == 0) + return 0; + return multmodp(op, crc1 & 0xffffffff) ^ (crc2 & 0xffffffff); +} + +/* ========================================================================= */ +uLong ZEXPORT crc32_combine64(uLong crc1, uLong crc2, z_off64_t len2) { + return crc32_combine_op(crc1, crc2, crc32_combine_gen64(len2)); +} + +/* ========================================================================= */ +uLong ZEXPORT crc32_combine(uLong crc1, uLong crc2, z_off_t len2) { + return crc32_combine64(crc1, crc2, (z_off64_t)len2); +} diff --git a/Minecraft.Client/Common/zlib/crc32.h b/Minecraft.Client/Common/zlib/crc32.h new file mode 100644 index 0000000..137df68 --- /dev/null +++ b/Minecraft.Client/Common/zlib/crc32.h @@ -0,0 +1,9446 @@ +/* crc32.h -- tables for rapid CRC calculation + * Generated automatically by crc32.c + */ + +local const z_crc_t FAR crc_table[] = { + 0x00000000, 0x77073096, 0xee0e612c, 0x990951ba, 0x076dc419, + 0x706af48f, 0xe963a535, 0x9e6495a3, 0x0edb8832, 0x79dcb8a4, + 0xe0d5e91e, 0x97d2d988, 0x09b64c2b, 0x7eb17cbd, 0xe7b82d07, + 0x90bf1d91, 0x1db71064, 0x6ab020f2, 0xf3b97148, 0x84be41de, + 0x1adad47d, 0x6ddde4eb, 0xf4d4b551, 0x83d385c7, 0x136c9856, + 0x646ba8c0, 0xfd62f97a, 0x8a65c9ec, 0x14015c4f, 0x63066cd9, + 0xfa0f3d63, 0x8d080df5, 0x3b6e20c8, 0x4c69105e, 0xd56041e4, + 0xa2677172, 0x3c03e4d1, 0x4b04d447, 0xd20d85fd, 0xa50ab56b, + 0x35b5a8fa, 0x42b2986c, 0xdbbbc9d6, 0xacbcf940, 0x32d86ce3, + 0x45df5c75, 0xdcd60dcf, 0xabd13d59, 0x26d930ac, 0x51de003a, + 0xc8d75180, 0xbfd06116, 0x21b4f4b5, 0x56b3c423, 0xcfba9599, + 0xb8bda50f, 0x2802b89e, 0x5f058808, 0xc60cd9b2, 0xb10be924, + 0x2f6f7c87, 0x58684c11, 0xc1611dab, 0xb6662d3d, 0x76dc4190, + 0x01db7106, 0x98d220bc, 0xefd5102a, 0x71b18589, 0x06b6b51f, + 0x9fbfe4a5, 0xe8b8d433, 0x7807c9a2, 0x0f00f934, 0x9609a88e, + 0xe10e9818, 0x7f6a0dbb, 0x086d3d2d, 0x91646c97, 0xe6635c01, + 0x6b6b51f4, 0x1c6c6162, 0x856530d8, 0xf262004e, 0x6c0695ed, + 0x1b01a57b, 0x8208f4c1, 0xf50fc457, 0x65b0d9c6, 0x12b7e950, + 0x8bbeb8ea, 0xfcb9887c, 0x62dd1ddf, 0x15da2d49, 0x8cd37cf3, + 0xfbd44c65, 0x4db26158, 0x3ab551ce, 0xa3bc0074, 0xd4bb30e2, + 0x4adfa541, 0x3dd895d7, 0xa4d1c46d, 0xd3d6f4fb, 0x4369e96a, + 0x346ed9fc, 0xad678846, 0xda60b8d0, 0x44042d73, 0x33031de5, + 0xaa0a4c5f, 0xdd0d7cc9, 0x5005713c, 0x270241aa, 0xbe0b1010, + 0xc90c2086, 0x5768b525, 0x206f85b3, 0xb966d409, 0xce61e49f, + 0x5edef90e, 0x29d9c998, 0xb0d09822, 0xc7d7a8b4, 0x59b33d17, + 0x2eb40d81, 0xb7bd5c3b, 0xc0ba6cad, 0xedb88320, 0x9abfb3b6, + 0x03b6e20c, 0x74b1d29a, 0xead54739, 0x9dd277af, 0x04db2615, + 0x73dc1683, 0xe3630b12, 0x94643b84, 0x0d6d6a3e, 0x7a6a5aa8, + 0xe40ecf0b, 0x9309ff9d, 0x0a00ae27, 0x7d079eb1, 0xf00f9344, + 0x8708a3d2, 0x1e01f268, 0x6906c2fe, 0xf762575d, 0x806567cb, + 0x196c3671, 0x6e6b06e7, 0xfed41b76, 0x89d32be0, 0x10da7a5a, + 0x67dd4acc, 0xf9b9df6f, 0x8ebeeff9, 0x17b7be43, 0x60b08ed5, + 0xd6d6a3e8, 0xa1d1937e, 0x38d8c2c4, 0x4fdff252, 0xd1bb67f1, + 0xa6bc5767, 0x3fb506dd, 0x48b2364b, 0xd80d2bda, 0xaf0a1b4c, + 0x36034af6, 0x41047a60, 0xdf60efc3, 0xa867df55, 0x316e8eef, + 0x4669be79, 0xcb61b38c, 0xbc66831a, 0x256fd2a0, 0x5268e236, + 0xcc0c7795, 0xbb0b4703, 0x220216b9, 0x5505262f, 0xc5ba3bbe, + 0xb2bd0b28, 0x2bb45a92, 0x5cb36a04, 0xc2d7ffa7, 0xb5d0cf31, + 0x2cd99e8b, 0x5bdeae1d, 0x9b64c2b0, 0xec63f226, 0x756aa39c, + 0x026d930a, 0x9c0906a9, 0xeb0e363f, 0x72076785, 0x05005713, + 0x95bf4a82, 0xe2b87a14, 0x7bb12bae, 0x0cb61b38, 0x92d28e9b, + 0xe5d5be0d, 0x7cdcefb7, 0x0bdbdf21, 0x86d3d2d4, 0xf1d4e242, + 0x68ddb3f8, 0x1fda836e, 0x81be16cd, 0xf6b9265b, 0x6fb077e1, + 0x18b74777, 0x88085ae6, 0xff0f6a70, 0x66063bca, 0x11010b5c, + 0x8f659eff, 0xf862ae69, 0x616bffd3, 0x166ccf45, 0xa00ae278, + 0xd70dd2ee, 0x4e048354, 0x3903b3c2, 0xa7672661, 0xd06016f7, + 0x4969474d, 0x3e6e77db, 0xaed16a4a, 0xd9d65adc, 0x40df0b66, + 0x37d83bf0, 0xa9bcae53, 0xdebb9ec5, 0x47b2cf7f, 0x30b5ffe9, + 0xbdbdf21c, 0xcabac28a, 0x53b39330, 0x24b4a3a6, 0xbad03605, + 0xcdd70693, 0x54de5729, 0x23d967bf, 0xb3667a2e, 0xc4614ab8, + 0x5d681b02, 0x2a6f2b94, 0xb40bbe37, 0xc30c8ea1, 0x5a05df1b, + 0x2d02ef8d}; + +#ifdef W + +#if W == 8 + +local const z_word_t FAR crc_big_table[] = { + 0x0000000000000000, 0x9630077700000000, 0x2c610eee00000000, + 0xba51099900000000, 0x19c46d0700000000, 0x8ff46a7000000000, + 0x35a563e900000000, 0xa395649e00000000, 0x3288db0e00000000, + 0xa4b8dc7900000000, 0x1ee9d5e000000000, 0x88d9d29700000000, + 0x2b4cb60900000000, 0xbd7cb17e00000000, 0x072db8e700000000, + 0x911dbf9000000000, 0x6410b71d00000000, 0xf220b06a00000000, + 0x4871b9f300000000, 0xde41be8400000000, 0x7dd4da1a00000000, + 0xebe4dd6d00000000, 0x51b5d4f400000000, 0xc785d38300000000, + 0x56986c1300000000, 0xc0a86b6400000000, 0x7af962fd00000000, + 0xecc9658a00000000, 0x4f5c011400000000, 0xd96c066300000000, + 0x633d0ffa00000000, 0xf50d088d00000000, 0xc8206e3b00000000, + 0x5e10694c00000000, 0xe44160d500000000, 0x727167a200000000, + 0xd1e4033c00000000, 0x47d4044b00000000, 0xfd850dd200000000, + 0x6bb50aa500000000, 0xfaa8b53500000000, 0x6c98b24200000000, + 0xd6c9bbdb00000000, 0x40f9bcac00000000, 0xe36cd83200000000, + 0x755cdf4500000000, 0xcf0dd6dc00000000, 0x593dd1ab00000000, + 0xac30d92600000000, 0x3a00de5100000000, 0x8051d7c800000000, + 0x1661d0bf00000000, 0xb5f4b42100000000, 0x23c4b35600000000, + 0x9995bacf00000000, 0x0fa5bdb800000000, 0x9eb8022800000000, + 0x0888055f00000000, 0xb2d90cc600000000, 0x24e90bb100000000, + 0x877c6f2f00000000, 0x114c685800000000, 0xab1d61c100000000, + 0x3d2d66b600000000, 0x9041dc7600000000, 0x0671db0100000000, + 0xbc20d29800000000, 0x2a10d5ef00000000, 0x8985b17100000000, + 0x1fb5b60600000000, 0xa5e4bf9f00000000, 0x33d4b8e800000000, + 0xa2c9077800000000, 0x34f9000f00000000, 0x8ea8099600000000, + 0x18980ee100000000, 0xbb0d6a7f00000000, 0x2d3d6d0800000000, + 0x976c649100000000, 0x015c63e600000000, 0xf4516b6b00000000, + 0x62616c1c00000000, 0xd830658500000000, 0x4e0062f200000000, + 0xed95066c00000000, 0x7ba5011b00000000, 0xc1f4088200000000, + 0x57c40ff500000000, 0xc6d9b06500000000, 0x50e9b71200000000, + 0xeab8be8b00000000, 0x7c88b9fc00000000, 0xdf1ddd6200000000, + 0x492dda1500000000, 0xf37cd38c00000000, 0x654cd4fb00000000, + 0x5861b24d00000000, 0xce51b53a00000000, 0x7400bca300000000, + 0xe230bbd400000000, 0x41a5df4a00000000, 0xd795d83d00000000, + 0x6dc4d1a400000000, 0xfbf4d6d300000000, 0x6ae9694300000000, + 0xfcd96e3400000000, 0x468867ad00000000, 0xd0b860da00000000, + 0x732d044400000000, 0xe51d033300000000, 0x5f4c0aaa00000000, + 0xc97c0ddd00000000, 0x3c71055000000000, 0xaa41022700000000, + 0x10100bbe00000000, 0x86200cc900000000, 0x25b5685700000000, + 0xb3856f2000000000, 0x09d466b900000000, 0x9fe461ce00000000, + 0x0ef9de5e00000000, 0x98c9d92900000000, 0x2298d0b000000000, + 0xb4a8d7c700000000, 0x173db35900000000, 0x810db42e00000000, + 0x3b5cbdb700000000, 0xad6cbac000000000, 0x2083b8ed00000000, + 0xb6b3bf9a00000000, 0x0ce2b60300000000, 0x9ad2b17400000000, + 0x3947d5ea00000000, 0xaf77d29d00000000, 0x1526db0400000000, + 0x8316dc7300000000, 0x120b63e300000000, 0x843b649400000000, + 0x3e6a6d0d00000000, 0xa85a6a7a00000000, 0x0bcf0ee400000000, + 0x9dff099300000000, 0x27ae000a00000000, 0xb19e077d00000000, + 0x44930ff000000000, 0xd2a3088700000000, 0x68f2011e00000000, + 0xfec2066900000000, 0x5d5762f700000000, 0xcb67658000000000, + 0x71366c1900000000, 0xe7066b6e00000000, 0x761bd4fe00000000, + 0xe02bd38900000000, 0x5a7ada1000000000, 0xcc4add6700000000, + 0x6fdfb9f900000000, 0xf9efbe8e00000000, 0x43beb71700000000, + 0xd58eb06000000000, 0xe8a3d6d600000000, 0x7e93d1a100000000, + 0xc4c2d83800000000, 0x52f2df4f00000000, 0xf167bbd100000000, + 0x6757bca600000000, 0xdd06b53f00000000, 0x4b36b24800000000, + 0xda2b0dd800000000, 0x4c1b0aaf00000000, 0xf64a033600000000, + 0x607a044100000000, 0xc3ef60df00000000, 0x55df67a800000000, + 0xef8e6e3100000000, 0x79be694600000000, 0x8cb361cb00000000, + 0x1a8366bc00000000, 0xa0d26f2500000000, 0x36e2685200000000, + 0x95770ccc00000000, 0x03470bbb00000000, 0xb916022200000000, + 0x2f26055500000000, 0xbe3bbac500000000, 0x280bbdb200000000, + 0x925ab42b00000000, 0x046ab35c00000000, 0xa7ffd7c200000000, + 0x31cfd0b500000000, 0x8b9ed92c00000000, 0x1daede5b00000000, + 0xb0c2649b00000000, 0x26f263ec00000000, 0x9ca36a7500000000, + 0x0a936d0200000000, 0xa906099c00000000, 0x3f360eeb00000000, + 0x8567077200000000, 0x1357000500000000, 0x824abf9500000000, + 0x147ab8e200000000, 0xae2bb17b00000000, 0x381bb60c00000000, + 0x9b8ed29200000000, 0x0dbed5e500000000, 0xb7efdc7c00000000, + 0x21dfdb0b00000000, 0xd4d2d38600000000, 0x42e2d4f100000000, + 0xf8b3dd6800000000, 0x6e83da1f00000000, 0xcd16be8100000000, + 0x5b26b9f600000000, 0xe177b06f00000000, 0x7747b71800000000, + 0xe65a088800000000, 0x706a0fff00000000, 0xca3b066600000000, + 0x5c0b011100000000, 0xff9e658f00000000, 0x69ae62f800000000, + 0xd3ff6b6100000000, 0x45cf6c1600000000, 0x78e20aa000000000, + 0xeed20dd700000000, 0x5483044e00000000, 0xc2b3033900000000, + 0x612667a700000000, 0xf71660d000000000, 0x4d47694900000000, + 0xdb776e3e00000000, 0x4a6ad1ae00000000, 0xdc5ad6d900000000, + 0x660bdf4000000000, 0xf03bd83700000000, 0x53aebca900000000, + 0xc59ebbde00000000, 0x7fcfb24700000000, 0xe9ffb53000000000, + 0x1cf2bdbd00000000, 0x8ac2baca00000000, 0x3093b35300000000, + 0xa6a3b42400000000, 0x0536d0ba00000000, 0x9306d7cd00000000, + 0x2957de5400000000, 0xbf67d92300000000, 0x2e7a66b300000000, + 0xb84a61c400000000, 0x021b685d00000000, 0x942b6f2a00000000, + 0x37be0bb400000000, 0xa18e0cc300000000, 0x1bdf055a00000000, + 0x8def022d00000000}; + +#else /* W == 4 */ + +local const z_word_t FAR crc_big_table[] = { + 0x00000000, 0x96300777, 0x2c610eee, 0xba510999, 0x19c46d07, + 0x8ff46a70, 0x35a563e9, 0xa395649e, 0x3288db0e, 0xa4b8dc79, + 0x1ee9d5e0, 0x88d9d297, 0x2b4cb609, 0xbd7cb17e, 0x072db8e7, + 0x911dbf90, 0x6410b71d, 0xf220b06a, 0x4871b9f3, 0xde41be84, + 0x7dd4da1a, 0xebe4dd6d, 0x51b5d4f4, 0xc785d383, 0x56986c13, + 0xc0a86b64, 0x7af962fd, 0xecc9658a, 0x4f5c0114, 0xd96c0663, + 0x633d0ffa, 0xf50d088d, 0xc8206e3b, 0x5e10694c, 0xe44160d5, + 0x727167a2, 0xd1e4033c, 0x47d4044b, 0xfd850dd2, 0x6bb50aa5, + 0xfaa8b535, 0x6c98b242, 0xd6c9bbdb, 0x40f9bcac, 0xe36cd832, + 0x755cdf45, 0xcf0dd6dc, 0x593dd1ab, 0xac30d926, 0x3a00de51, + 0x8051d7c8, 0x1661d0bf, 0xb5f4b421, 0x23c4b356, 0x9995bacf, + 0x0fa5bdb8, 0x9eb80228, 0x0888055f, 0xb2d90cc6, 0x24e90bb1, + 0x877c6f2f, 0x114c6858, 0xab1d61c1, 0x3d2d66b6, 0x9041dc76, + 0x0671db01, 0xbc20d298, 0x2a10d5ef, 0x8985b171, 0x1fb5b606, + 0xa5e4bf9f, 0x33d4b8e8, 0xa2c90778, 0x34f9000f, 0x8ea80996, + 0x18980ee1, 0xbb0d6a7f, 0x2d3d6d08, 0x976c6491, 0x015c63e6, + 0xf4516b6b, 0x62616c1c, 0xd8306585, 0x4e0062f2, 0xed95066c, + 0x7ba5011b, 0xc1f40882, 0x57c40ff5, 0xc6d9b065, 0x50e9b712, + 0xeab8be8b, 0x7c88b9fc, 0xdf1ddd62, 0x492dda15, 0xf37cd38c, + 0x654cd4fb, 0x5861b24d, 0xce51b53a, 0x7400bca3, 0xe230bbd4, + 0x41a5df4a, 0xd795d83d, 0x6dc4d1a4, 0xfbf4d6d3, 0x6ae96943, + 0xfcd96e34, 0x468867ad, 0xd0b860da, 0x732d0444, 0xe51d0333, + 0x5f4c0aaa, 0xc97c0ddd, 0x3c710550, 0xaa410227, 0x10100bbe, + 0x86200cc9, 0x25b56857, 0xb3856f20, 0x09d466b9, 0x9fe461ce, + 0x0ef9de5e, 0x98c9d929, 0x2298d0b0, 0xb4a8d7c7, 0x173db359, + 0x810db42e, 0x3b5cbdb7, 0xad6cbac0, 0x2083b8ed, 0xb6b3bf9a, + 0x0ce2b603, 0x9ad2b174, 0x3947d5ea, 0xaf77d29d, 0x1526db04, + 0x8316dc73, 0x120b63e3, 0x843b6494, 0x3e6a6d0d, 0xa85a6a7a, + 0x0bcf0ee4, 0x9dff0993, 0x27ae000a, 0xb19e077d, 0x44930ff0, + 0xd2a30887, 0x68f2011e, 0xfec20669, 0x5d5762f7, 0xcb676580, + 0x71366c19, 0xe7066b6e, 0x761bd4fe, 0xe02bd389, 0x5a7ada10, + 0xcc4add67, 0x6fdfb9f9, 0xf9efbe8e, 0x43beb717, 0xd58eb060, + 0xe8a3d6d6, 0x7e93d1a1, 0xc4c2d838, 0x52f2df4f, 0xf167bbd1, + 0x6757bca6, 0xdd06b53f, 0x4b36b248, 0xda2b0dd8, 0x4c1b0aaf, + 0xf64a0336, 0x607a0441, 0xc3ef60df, 0x55df67a8, 0xef8e6e31, + 0x79be6946, 0x8cb361cb, 0x1a8366bc, 0xa0d26f25, 0x36e26852, + 0x95770ccc, 0x03470bbb, 0xb9160222, 0x2f260555, 0xbe3bbac5, + 0x280bbdb2, 0x925ab42b, 0x046ab35c, 0xa7ffd7c2, 0x31cfd0b5, + 0x8b9ed92c, 0x1daede5b, 0xb0c2649b, 0x26f263ec, 0x9ca36a75, + 0x0a936d02, 0xa906099c, 0x3f360eeb, 0x85670772, 0x13570005, + 0x824abf95, 0x147ab8e2, 0xae2bb17b, 0x381bb60c, 0x9b8ed292, + 0x0dbed5e5, 0xb7efdc7c, 0x21dfdb0b, 0xd4d2d386, 0x42e2d4f1, + 0xf8b3dd68, 0x6e83da1f, 0xcd16be81, 0x5b26b9f6, 0xe177b06f, + 0x7747b718, 0xe65a0888, 0x706a0fff, 0xca3b0666, 0x5c0b0111, + 0xff9e658f, 0x69ae62f8, 0xd3ff6b61, 0x45cf6c16, 0x78e20aa0, + 0xeed20dd7, 0x5483044e, 0xc2b30339, 0x612667a7, 0xf71660d0, + 0x4d476949, 0xdb776e3e, 0x4a6ad1ae, 0xdc5ad6d9, 0x660bdf40, + 0xf03bd837, 0x53aebca9, 0xc59ebbde, 0x7fcfb247, 0xe9ffb530, + 0x1cf2bdbd, 0x8ac2baca, 0x3093b353, 0xa6a3b424, 0x0536d0ba, + 0x9306d7cd, 0x2957de54, 0xbf67d923, 0x2e7a66b3, 0xb84a61c4, + 0x021b685d, 0x942b6f2a, 0x37be0bb4, 0xa18e0cc3, 0x1bdf055a, + 0x8def022d}; + +#endif + +#if N == 1 + +#if W == 8 + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0xccaa009e, 0x4225077d, 0x8e8f07e3, 0x844a0efa, + 0x48e00e64, 0xc66f0987, 0x0ac50919, 0xd3e51bb5, 0x1f4f1b2b, + 0x91c01cc8, 0x5d6a1c56, 0x57af154f, 0x9b0515d1, 0x158a1232, + 0xd92012ac, 0x7cbb312b, 0xb01131b5, 0x3e9e3656, 0xf23436c8, + 0xf8f13fd1, 0x345b3f4f, 0xbad438ac, 0x767e3832, 0xaf5e2a9e, + 0x63f42a00, 0xed7b2de3, 0x21d12d7d, 0x2b142464, 0xe7be24fa, + 0x69312319, 0xa59b2387, 0xf9766256, 0x35dc62c8, 0xbb53652b, + 0x77f965b5, 0x7d3c6cac, 0xb1966c32, 0x3f196bd1, 0xf3b36b4f, + 0x2a9379e3, 0xe639797d, 0x68b67e9e, 0xa41c7e00, 0xaed97719, + 0x62737787, 0xecfc7064, 0x205670fa, 0x85cd537d, 0x496753e3, + 0xc7e85400, 0x0b42549e, 0x01875d87, 0xcd2d5d19, 0x43a25afa, + 0x8f085a64, 0x562848c8, 0x9a824856, 0x140d4fb5, 0xd8a74f2b, + 0xd2624632, 0x1ec846ac, 0x9047414f, 0x5ced41d1, 0x299dc2ed, + 0xe537c273, 0x6bb8c590, 0xa712c50e, 0xadd7cc17, 0x617dcc89, + 0xeff2cb6a, 0x2358cbf4, 0xfa78d958, 0x36d2d9c6, 0xb85dde25, + 0x74f7debb, 0x7e32d7a2, 0xb298d73c, 0x3c17d0df, 0xf0bdd041, + 0x5526f3c6, 0x998cf358, 0x1703f4bb, 0xdba9f425, 0xd16cfd3c, + 0x1dc6fda2, 0x9349fa41, 0x5fe3fadf, 0x86c3e873, 0x4a69e8ed, + 0xc4e6ef0e, 0x084cef90, 0x0289e689, 0xce23e617, 0x40ace1f4, + 0x8c06e16a, 0xd0eba0bb, 0x1c41a025, 0x92cea7c6, 0x5e64a758, + 0x54a1ae41, 0x980baedf, 0x1684a93c, 0xda2ea9a2, 0x030ebb0e, + 0xcfa4bb90, 0x412bbc73, 0x8d81bced, 0x8744b5f4, 0x4beeb56a, + 0xc561b289, 0x09cbb217, 0xac509190, 0x60fa910e, 0xee7596ed, + 0x22df9673, 0x281a9f6a, 0xe4b09ff4, 0x6a3f9817, 0xa6959889, + 0x7fb58a25, 0xb31f8abb, 0x3d908d58, 0xf13a8dc6, 0xfbff84df, + 0x37558441, 0xb9da83a2, 0x7570833c, 0x533b85da, 0x9f918544, + 0x111e82a7, 0xddb48239, 0xd7718b20, 0x1bdb8bbe, 0x95548c5d, + 0x59fe8cc3, 0x80de9e6f, 0x4c749ef1, 0xc2fb9912, 0x0e51998c, + 0x04949095, 0xc83e900b, 0x46b197e8, 0x8a1b9776, 0x2f80b4f1, + 0xe32ab46f, 0x6da5b38c, 0xa10fb312, 0xabcaba0b, 0x6760ba95, + 0xe9efbd76, 0x2545bde8, 0xfc65af44, 0x30cfafda, 0xbe40a839, + 0x72eaa8a7, 0x782fa1be, 0xb485a120, 0x3a0aa6c3, 0xf6a0a65d, + 0xaa4de78c, 0x66e7e712, 0xe868e0f1, 0x24c2e06f, 0x2e07e976, + 0xe2ade9e8, 0x6c22ee0b, 0xa088ee95, 0x79a8fc39, 0xb502fca7, + 0x3b8dfb44, 0xf727fbda, 0xfde2f2c3, 0x3148f25d, 0xbfc7f5be, + 0x736df520, 0xd6f6d6a7, 0x1a5cd639, 0x94d3d1da, 0x5879d144, + 0x52bcd85d, 0x9e16d8c3, 0x1099df20, 0xdc33dfbe, 0x0513cd12, + 0xc9b9cd8c, 0x4736ca6f, 0x8b9ccaf1, 0x8159c3e8, 0x4df3c376, + 0xc37cc495, 0x0fd6c40b, 0x7aa64737, 0xb60c47a9, 0x3883404a, + 0xf42940d4, 0xfeec49cd, 0x32464953, 0xbcc94eb0, 0x70634e2e, + 0xa9435c82, 0x65e95c1c, 0xeb665bff, 0x27cc5b61, 0x2d095278, + 0xe1a352e6, 0x6f2c5505, 0xa386559b, 0x061d761c, 0xcab77682, + 0x44387161, 0x889271ff, 0x825778e6, 0x4efd7878, 0xc0727f9b, + 0x0cd87f05, 0xd5f86da9, 0x19526d37, 0x97dd6ad4, 0x5b776a4a, + 0x51b26353, 0x9d1863cd, 0x1397642e, 0xdf3d64b0, 0x83d02561, + 0x4f7a25ff, 0xc1f5221c, 0x0d5f2282, 0x079a2b9b, 0xcb302b05, + 0x45bf2ce6, 0x89152c78, 0x50353ed4, 0x9c9f3e4a, 0x121039a9, + 0xdeba3937, 0xd47f302e, 0x18d530b0, 0x965a3753, 0x5af037cd, + 0xff6b144a, 0x33c114d4, 0xbd4e1337, 0x71e413a9, 0x7b211ab0, + 0xb78b1a2e, 0x39041dcd, 0xf5ae1d53, 0x2c8e0fff, 0xe0240f61, + 0x6eab0882, 0xa201081c, 0xa8c40105, 0x646e019b, 0xeae10678, + 0x264b06e6}, + {0x00000000, 0xa6770bb4, 0x979f1129, 0x31e81a9d, 0xf44f2413, + 0x52382fa7, 0x63d0353a, 0xc5a73e8e, 0x33ef4e67, 0x959845d3, + 0xa4705f4e, 0x020754fa, 0xc7a06a74, 0x61d761c0, 0x503f7b5d, + 0xf64870e9, 0x67de9cce, 0xc1a9977a, 0xf0418de7, 0x56368653, + 0x9391b8dd, 0x35e6b369, 0x040ea9f4, 0xa279a240, 0x5431d2a9, + 0xf246d91d, 0xc3aec380, 0x65d9c834, 0xa07ef6ba, 0x0609fd0e, + 0x37e1e793, 0x9196ec27, 0xcfbd399c, 0x69ca3228, 0x582228b5, + 0xfe552301, 0x3bf21d8f, 0x9d85163b, 0xac6d0ca6, 0x0a1a0712, + 0xfc5277fb, 0x5a257c4f, 0x6bcd66d2, 0xcdba6d66, 0x081d53e8, + 0xae6a585c, 0x9f8242c1, 0x39f54975, 0xa863a552, 0x0e14aee6, + 0x3ffcb47b, 0x998bbfcf, 0x5c2c8141, 0xfa5b8af5, 0xcbb39068, + 0x6dc49bdc, 0x9b8ceb35, 0x3dfbe081, 0x0c13fa1c, 0xaa64f1a8, + 0x6fc3cf26, 0xc9b4c492, 0xf85cde0f, 0x5e2bd5bb, 0x440b7579, + 0xe27c7ecd, 0xd3946450, 0x75e36fe4, 0xb044516a, 0x16335ade, + 0x27db4043, 0x81ac4bf7, 0x77e43b1e, 0xd19330aa, 0xe07b2a37, + 0x460c2183, 0x83ab1f0d, 0x25dc14b9, 0x14340e24, 0xb2430590, + 0x23d5e9b7, 0x85a2e203, 0xb44af89e, 0x123df32a, 0xd79acda4, + 0x71edc610, 0x4005dc8d, 0xe672d739, 0x103aa7d0, 0xb64dac64, + 0x87a5b6f9, 0x21d2bd4d, 0xe47583c3, 0x42028877, 0x73ea92ea, + 0xd59d995e, 0x8bb64ce5, 0x2dc14751, 0x1c295dcc, 0xba5e5678, + 0x7ff968f6, 0xd98e6342, 0xe86679df, 0x4e11726b, 0xb8590282, + 0x1e2e0936, 0x2fc613ab, 0x89b1181f, 0x4c162691, 0xea612d25, + 0xdb8937b8, 0x7dfe3c0c, 0xec68d02b, 0x4a1fdb9f, 0x7bf7c102, + 0xdd80cab6, 0x1827f438, 0xbe50ff8c, 0x8fb8e511, 0x29cfeea5, + 0xdf879e4c, 0x79f095f8, 0x48188f65, 0xee6f84d1, 0x2bc8ba5f, + 0x8dbfb1eb, 0xbc57ab76, 0x1a20a0c2, 0x8816eaf2, 0x2e61e146, + 0x1f89fbdb, 0xb9fef06f, 0x7c59cee1, 0xda2ec555, 0xebc6dfc8, + 0x4db1d47c, 0xbbf9a495, 0x1d8eaf21, 0x2c66b5bc, 0x8a11be08, + 0x4fb68086, 0xe9c18b32, 0xd82991af, 0x7e5e9a1b, 0xefc8763c, + 0x49bf7d88, 0x78576715, 0xde206ca1, 0x1b87522f, 0xbdf0599b, + 0x8c184306, 0x2a6f48b2, 0xdc27385b, 0x7a5033ef, 0x4bb82972, + 0xedcf22c6, 0x28681c48, 0x8e1f17fc, 0xbff70d61, 0x198006d5, + 0x47abd36e, 0xe1dcd8da, 0xd034c247, 0x7643c9f3, 0xb3e4f77d, + 0x1593fcc9, 0x247be654, 0x820cede0, 0x74449d09, 0xd23396bd, + 0xe3db8c20, 0x45ac8794, 0x800bb91a, 0x267cb2ae, 0x1794a833, + 0xb1e3a387, 0x20754fa0, 0x86024414, 0xb7ea5e89, 0x119d553d, + 0xd43a6bb3, 0x724d6007, 0x43a57a9a, 0xe5d2712e, 0x139a01c7, + 0xb5ed0a73, 0x840510ee, 0x22721b5a, 0xe7d525d4, 0x41a22e60, + 0x704a34fd, 0xd63d3f49, 0xcc1d9f8b, 0x6a6a943f, 0x5b828ea2, + 0xfdf58516, 0x3852bb98, 0x9e25b02c, 0xafcdaab1, 0x09baa105, + 0xfff2d1ec, 0x5985da58, 0x686dc0c5, 0xce1acb71, 0x0bbdf5ff, + 0xadcafe4b, 0x9c22e4d6, 0x3a55ef62, 0xabc30345, 0x0db408f1, + 0x3c5c126c, 0x9a2b19d8, 0x5f8c2756, 0xf9fb2ce2, 0xc813367f, + 0x6e643dcb, 0x982c4d22, 0x3e5b4696, 0x0fb35c0b, 0xa9c457bf, + 0x6c636931, 0xca146285, 0xfbfc7818, 0x5d8b73ac, 0x03a0a617, + 0xa5d7ada3, 0x943fb73e, 0x3248bc8a, 0xf7ef8204, 0x519889b0, + 0x6070932d, 0xc6079899, 0x304fe870, 0x9638e3c4, 0xa7d0f959, + 0x01a7f2ed, 0xc400cc63, 0x6277c7d7, 0x539fdd4a, 0xf5e8d6fe, + 0x647e3ad9, 0xc209316d, 0xf3e12bf0, 0x55962044, 0x90311eca, + 0x3646157e, 0x07ae0fe3, 0xa1d90457, 0x579174be, 0xf1e67f0a, + 0xc00e6597, 0x66796e23, 0xa3de50ad, 0x05a95b19, 0x34414184, + 0x92364a30}, + {0x00000000, 0xcb5cd3a5, 0x4dc8a10b, 0x869472ae, 0x9b914216, + 0x50cd91b3, 0xd659e31d, 0x1d0530b8, 0xec53826d, 0x270f51c8, + 0xa19b2366, 0x6ac7f0c3, 0x77c2c07b, 0xbc9e13de, 0x3a0a6170, + 0xf156b2d5, 0x03d6029b, 0xc88ad13e, 0x4e1ea390, 0x85427035, + 0x9847408d, 0x531b9328, 0xd58fe186, 0x1ed33223, 0xef8580f6, + 0x24d95353, 0xa24d21fd, 0x6911f258, 0x7414c2e0, 0xbf481145, + 0x39dc63eb, 0xf280b04e, 0x07ac0536, 0xccf0d693, 0x4a64a43d, + 0x81387798, 0x9c3d4720, 0x57619485, 0xd1f5e62b, 0x1aa9358e, + 0xebff875b, 0x20a354fe, 0xa6372650, 0x6d6bf5f5, 0x706ec54d, + 0xbb3216e8, 0x3da66446, 0xf6fab7e3, 0x047a07ad, 0xcf26d408, + 0x49b2a6a6, 0x82ee7503, 0x9feb45bb, 0x54b7961e, 0xd223e4b0, + 0x197f3715, 0xe82985c0, 0x23755665, 0xa5e124cb, 0x6ebdf76e, + 0x73b8c7d6, 0xb8e41473, 0x3e7066dd, 0xf52cb578, 0x0f580a6c, + 0xc404d9c9, 0x4290ab67, 0x89cc78c2, 0x94c9487a, 0x5f959bdf, + 0xd901e971, 0x125d3ad4, 0xe30b8801, 0x28575ba4, 0xaec3290a, + 0x659ffaaf, 0x789aca17, 0xb3c619b2, 0x35526b1c, 0xfe0eb8b9, + 0x0c8e08f7, 0xc7d2db52, 0x4146a9fc, 0x8a1a7a59, 0x971f4ae1, + 0x5c439944, 0xdad7ebea, 0x118b384f, 0xe0dd8a9a, 0x2b81593f, + 0xad152b91, 0x6649f834, 0x7b4cc88c, 0xb0101b29, 0x36846987, + 0xfdd8ba22, 0x08f40f5a, 0xc3a8dcff, 0x453cae51, 0x8e607df4, + 0x93654d4c, 0x58399ee9, 0xdeadec47, 0x15f13fe2, 0xe4a78d37, + 0x2ffb5e92, 0xa96f2c3c, 0x6233ff99, 0x7f36cf21, 0xb46a1c84, + 0x32fe6e2a, 0xf9a2bd8f, 0x0b220dc1, 0xc07ede64, 0x46eaacca, + 0x8db67f6f, 0x90b34fd7, 0x5bef9c72, 0xdd7beedc, 0x16273d79, + 0xe7718fac, 0x2c2d5c09, 0xaab92ea7, 0x61e5fd02, 0x7ce0cdba, + 0xb7bc1e1f, 0x31286cb1, 0xfa74bf14, 0x1eb014d8, 0xd5ecc77d, + 0x5378b5d3, 0x98246676, 0x852156ce, 0x4e7d856b, 0xc8e9f7c5, + 0x03b52460, 0xf2e396b5, 0x39bf4510, 0xbf2b37be, 0x7477e41b, + 0x6972d4a3, 0xa22e0706, 0x24ba75a8, 0xefe6a60d, 0x1d661643, + 0xd63ac5e6, 0x50aeb748, 0x9bf264ed, 0x86f75455, 0x4dab87f0, + 0xcb3ff55e, 0x006326fb, 0xf135942e, 0x3a69478b, 0xbcfd3525, + 0x77a1e680, 0x6aa4d638, 0xa1f8059d, 0x276c7733, 0xec30a496, + 0x191c11ee, 0xd240c24b, 0x54d4b0e5, 0x9f886340, 0x828d53f8, + 0x49d1805d, 0xcf45f2f3, 0x04192156, 0xf54f9383, 0x3e134026, + 0xb8873288, 0x73dbe12d, 0x6eded195, 0xa5820230, 0x2316709e, + 0xe84aa33b, 0x1aca1375, 0xd196c0d0, 0x5702b27e, 0x9c5e61db, + 0x815b5163, 0x4a0782c6, 0xcc93f068, 0x07cf23cd, 0xf6999118, + 0x3dc542bd, 0xbb513013, 0x700de3b6, 0x6d08d30e, 0xa65400ab, + 0x20c07205, 0xeb9ca1a0, 0x11e81eb4, 0xdab4cd11, 0x5c20bfbf, + 0x977c6c1a, 0x8a795ca2, 0x41258f07, 0xc7b1fda9, 0x0ced2e0c, + 0xfdbb9cd9, 0x36e74f7c, 0xb0733dd2, 0x7b2fee77, 0x662adecf, + 0xad760d6a, 0x2be27fc4, 0xe0beac61, 0x123e1c2f, 0xd962cf8a, + 0x5ff6bd24, 0x94aa6e81, 0x89af5e39, 0x42f38d9c, 0xc467ff32, + 0x0f3b2c97, 0xfe6d9e42, 0x35314de7, 0xb3a53f49, 0x78f9ecec, + 0x65fcdc54, 0xaea00ff1, 0x28347d5f, 0xe368aefa, 0x16441b82, + 0xdd18c827, 0x5b8cba89, 0x90d0692c, 0x8dd55994, 0x46898a31, + 0xc01df89f, 0x0b412b3a, 0xfa1799ef, 0x314b4a4a, 0xb7df38e4, + 0x7c83eb41, 0x6186dbf9, 0xaada085c, 0x2c4e7af2, 0xe712a957, + 0x15921919, 0xdececabc, 0x585ab812, 0x93066bb7, 0x8e035b0f, + 0x455f88aa, 0xc3cbfa04, 0x089729a1, 0xf9c19b74, 0x329d48d1, + 0xb4093a7f, 0x7f55e9da, 0x6250d962, 0xa90c0ac7, 0x2f987869, + 0xe4c4abcc}, + {0x00000000, 0x3d6029b0, 0x7ac05360, 0x47a07ad0, 0xf580a6c0, + 0xc8e08f70, 0x8f40f5a0, 0xb220dc10, 0x30704bc1, 0x0d106271, + 0x4ab018a1, 0x77d03111, 0xc5f0ed01, 0xf890c4b1, 0xbf30be61, + 0x825097d1, 0x60e09782, 0x5d80be32, 0x1a20c4e2, 0x2740ed52, + 0x95603142, 0xa80018f2, 0xefa06222, 0xd2c04b92, 0x5090dc43, + 0x6df0f5f3, 0x2a508f23, 0x1730a693, 0xa5107a83, 0x98705333, + 0xdfd029e3, 0xe2b00053, 0xc1c12f04, 0xfca106b4, 0xbb017c64, + 0x866155d4, 0x344189c4, 0x0921a074, 0x4e81daa4, 0x73e1f314, + 0xf1b164c5, 0xccd14d75, 0x8b7137a5, 0xb6111e15, 0x0431c205, + 0x3951ebb5, 0x7ef19165, 0x4391b8d5, 0xa121b886, 0x9c419136, + 0xdbe1ebe6, 0xe681c256, 0x54a11e46, 0x69c137f6, 0x2e614d26, + 0x13016496, 0x9151f347, 0xac31daf7, 0xeb91a027, 0xd6f18997, + 0x64d15587, 0x59b17c37, 0x1e1106e7, 0x23712f57, 0x58f35849, + 0x659371f9, 0x22330b29, 0x1f532299, 0xad73fe89, 0x9013d739, + 0xd7b3ade9, 0xead38459, 0x68831388, 0x55e33a38, 0x124340e8, + 0x2f236958, 0x9d03b548, 0xa0639cf8, 0xe7c3e628, 0xdaa3cf98, + 0x3813cfcb, 0x0573e67b, 0x42d39cab, 0x7fb3b51b, 0xcd93690b, + 0xf0f340bb, 0xb7533a6b, 0x8a3313db, 0x0863840a, 0x3503adba, + 0x72a3d76a, 0x4fc3feda, 0xfde322ca, 0xc0830b7a, 0x872371aa, + 0xba43581a, 0x9932774d, 0xa4525efd, 0xe3f2242d, 0xde920d9d, + 0x6cb2d18d, 0x51d2f83d, 0x167282ed, 0x2b12ab5d, 0xa9423c8c, + 0x9422153c, 0xd3826fec, 0xeee2465c, 0x5cc29a4c, 0x61a2b3fc, + 0x2602c92c, 0x1b62e09c, 0xf9d2e0cf, 0xc4b2c97f, 0x8312b3af, + 0xbe729a1f, 0x0c52460f, 0x31326fbf, 0x7692156f, 0x4bf23cdf, + 0xc9a2ab0e, 0xf4c282be, 0xb362f86e, 0x8e02d1de, 0x3c220dce, + 0x0142247e, 0x46e25eae, 0x7b82771e, 0xb1e6b092, 0x8c869922, + 0xcb26e3f2, 0xf646ca42, 0x44661652, 0x79063fe2, 0x3ea64532, + 0x03c66c82, 0x8196fb53, 0xbcf6d2e3, 0xfb56a833, 0xc6368183, + 0x74165d93, 0x49767423, 0x0ed60ef3, 0x33b62743, 0xd1062710, + 0xec660ea0, 0xabc67470, 0x96a65dc0, 0x248681d0, 0x19e6a860, + 0x5e46d2b0, 0x6326fb00, 0xe1766cd1, 0xdc164561, 0x9bb63fb1, + 0xa6d61601, 0x14f6ca11, 0x2996e3a1, 0x6e369971, 0x5356b0c1, + 0x70279f96, 0x4d47b626, 0x0ae7ccf6, 0x3787e546, 0x85a73956, + 0xb8c710e6, 0xff676a36, 0xc2074386, 0x4057d457, 0x7d37fde7, + 0x3a978737, 0x07f7ae87, 0xb5d77297, 0x88b75b27, 0xcf1721f7, + 0xf2770847, 0x10c70814, 0x2da721a4, 0x6a075b74, 0x576772c4, + 0xe547aed4, 0xd8278764, 0x9f87fdb4, 0xa2e7d404, 0x20b743d5, + 0x1dd76a65, 0x5a7710b5, 0x67173905, 0xd537e515, 0xe857cca5, + 0xaff7b675, 0x92979fc5, 0xe915e8db, 0xd475c16b, 0x93d5bbbb, + 0xaeb5920b, 0x1c954e1b, 0x21f567ab, 0x66551d7b, 0x5b3534cb, + 0xd965a31a, 0xe4058aaa, 0xa3a5f07a, 0x9ec5d9ca, 0x2ce505da, + 0x11852c6a, 0x562556ba, 0x6b457f0a, 0x89f57f59, 0xb49556e9, + 0xf3352c39, 0xce550589, 0x7c75d999, 0x4115f029, 0x06b58af9, + 0x3bd5a349, 0xb9853498, 0x84e51d28, 0xc34567f8, 0xfe254e48, + 0x4c059258, 0x7165bbe8, 0x36c5c138, 0x0ba5e888, 0x28d4c7df, + 0x15b4ee6f, 0x521494bf, 0x6f74bd0f, 0xdd54611f, 0xe03448af, + 0xa794327f, 0x9af41bcf, 0x18a48c1e, 0x25c4a5ae, 0x6264df7e, + 0x5f04f6ce, 0xed242ade, 0xd044036e, 0x97e479be, 0xaa84500e, + 0x4834505d, 0x755479ed, 0x32f4033d, 0x0f942a8d, 0xbdb4f69d, + 0x80d4df2d, 0xc774a5fd, 0xfa148c4d, 0x78441b9c, 0x4524322c, + 0x028448fc, 0x3fe4614c, 0x8dc4bd5c, 0xb0a494ec, 0xf704ee3c, + 0xca64c78c}, + {0x00000000, 0xb8bc6765, 0xaa09c88b, 0x12b5afee, 0x8f629757, + 0x37def032, 0x256b5fdc, 0x9dd738b9, 0xc5b428ef, 0x7d084f8a, + 0x6fbde064, 0xd7018701, 0x4ad6bfb8, 0xf26ad8dd, 0xe0df7733, + 0x58631056, 0x5019579f, 0xe8a530fa, 0xfa109f14, 0x42acf871, + 0xdf7bc0c8, 0x67c7a7ad, 0x75720843, 0xcdce6f26, 0x95ad7f70, + 0x2d111815, 0x3fa4b7fb, 0x8718d09e, 0x1acfe827, 0xa2738f42, + 0xb0c620ac, 0x087a47c9, 0xa032af3e, 0x188ec85b, 0x0a3b67b5, + 0xb28700d0, 0x2f503869, 0x97ec5f0c, 0x8559f0e2, 0x3de59787, + 0x658687d1, 0xdd3ae0b4, 0xcf8f4f5a, 0x7733283f, 0xeae41086, + 0x525877e3, 0x40edd80d, 0xf851bf68, 0xf02bf8a1, 0x48979fc4, + 0x5a22302a, 0xe29e574f, 0x7f496ff6, 0xc7f50893, 0xd540a77d, + 0x6dfcc018, 0x359fd04e, 0x8d23b72b, 0x9f9618c5, 0x272a7fa0, + 0xbafd4719, 0x0241207c, 0x10f48f92, 0xa848e8f7, 0x9b14583d, + 0x23a83f58, 0x311d90b6, 0x89a1f7d3, 0x1476cf6a, 0xaccaa80f, + 0xbe7f07e1, 0x06c36084, 0x5ea070d2, 0xe61c17b7, 0xf4a9b859, + 0x4c15df3c, 0xd1c2e785, 0x697e80e0, 0x7bcb2f0e, 0xc377486b, + 0xcb0d0fa2, 0x73b168c7, 0x6104c729, 0xd9b8a04c, 0x446f98f5, + 0xfcd3ff90, 0xee66507e, 0x56da371b, 0x0eb9274d, 0xb6054028, + 0xa4b0efc6, 0x1c0c88a3, 0x81dbb01a, 0x3967d77f, 0x2bd27891, + 0x936e1ff4, 0x3b26f703, 0x839a9066, 0x912f3f88, 0x299358ed, + 0xb4446054, 0x0cf80731, 0x1e4da8df, 0xa6f1cfba, 0xfe92dfec, + 0x462eb889, 0x549b1767, 0xec277002, 0x71f048bb, 0xc94c2fde, + 0xdbf98030, 0x6345e755, 0x6b3fa09c, 0xd383c7f9, 0xc1366817, + 0x798a0f72, 0xe45d37cb, 0x5ce150ae, 0x4e54ff40, 0xf6e89825, + 0xae8b8873, 0x1637ef16, 0x048240f8, 0xbc3e279d, 0x21e91f24, + 0x99557841, 0x8be0d7af, 0x335cb0ca, 0xed59b63b, 0x55e5d15e, + 0x47507eb0, 0xffec19d5, 0x623b216c, 0xda874609, 0xc832e9e7, + 0x708e8e82, 0x28ed9ed4, 0x9051f9b1, 0x82e4565f, 0x3a58313a, + 0xa78f0983, 0x1f336ee6, 0x0d86c108, 0xb53aa66d, 0xbd40e1a4, + 0x05fc86c1, 0x1749292f, 0xaff54e4a, 0x322276f3, 0x8a9e1196, + 0x982bbe78, 0x2097d91d, 0x78f4c94b, 0xc048ae2e, 0xd2fd01c0, + 0x6a4166a5, 0xf7965e1c, 0x4f2a3979, 0x5d9f9697, 0xe523f1f2, + 0x4d6b1905, 0xf5d77e60, 0xe762d18e, 0x5fdeb6eb, 0xc2098e52, + 0x7ab5e937, 0x680046d9, 0xd0bc21bc, 0x88df31ea, 0x3063568f, + 0x22d6f961, 0x9a6a9e04, 0x07bda6bd, 0xbf01c1d8, 0xadb46e36, + 0x15080953, 0x1d724e9a, 0xa5ce29ff, 0xb77b8611, 0x0fc7e174, + 0x9210d9cd, 0x2aacbea8, 0x38191146, 0x80a57623, 0xd8c66675, + 0x607a0110, 0x72cfaefe, 0xca73c99b, 0x57a4f122, 0xef189647, + 0xfdad39a9, 0x45115ecc, 0x764dee06, 0xcef18963, 0xdc44268d, + 0x64f841e8, 0xf92f7951, 0x41931e34, 0x5326b1da, 0xeb9ad6bf, + 0xb3f9c6e9, 0x0b45a18c, 0x19f00e62, 0xa14c6907, 0x3c9b51be, + 0x842736db, 0x96929935, 0x2e2efe50, 0x2654b999, 0x9ee8defc, + 0x8c5d7112, 0x34e11677, 0xa9362ece, 0x118a49ab, 0x033fe645, + 0xbb838120, 0xe3e09176, 0x5b5cf613, 0x49e959fd, 0xf1553e98, + 0x6c820621, 0xd43e6144, 0xc68bceaa, 0x7e37a9cf, 0xd67f4138, + 0x6ec3265d, 0x7c7689b3, 0xc4caeed6, 0x591dd66f, 0xe1a1b10a, + 0xf3141ee4, 0x4ba87981, 0x13cb69d7, 0xab770eb2, 0xb9c2a15c, + 0x017ec639, 0x9ca9fe80, 0x241599e5, 0x36a0360b, 0x8e1c516e, + 0x866616a7, 0x3eda71c2, 0x2c6fde2c, 0x94d3b949, 0x090481f0, + 0xb1b8e695, 0xa30d497b, 0x1bb12e1e, 0x43d23e48, 0xfb6e592d, + 0xe9dbf6c3, 0x516791a6, 0xccb0a91f, 0x740cce7a, 0x66b96194, + 0xde0506f1}, + {0x00000000, 0x01c26a37, 0x0384d46e, 0x0246be59, 0x0709a8dc, + 0x06cbc2eb, 0x048d7cb2, 0x054f1685, 0x0e1351b8, 0x0fd13b8f, + 0x0d9785d6, 0x0c55efe1, 0x091af964, 0x08d89353, 0x0a9e2d0a, + 0x0b5c473d, 0x1c26a370, 0x1de4c947, 0x1fa2771e, 0x1e601d29, + 0x1b2f0bac, 0x1aed619b, 0x18abdfc2, 0x1969b5f5, 0x1235f2c8, + 0x13f798ff, 0x11b126a6, 0x10734c91, 0x153c5a14, 0x14fe3023, + 0x16b88e7a, 0x177ae44d, 0x384d46e0, 0x398f2cd7, 0x3bc9928e, + 0x3a0bf8b9, 0x3f44ee3c, 0x3e86840b, 0x3cc03a52, 0x3d025065, + 0x365e1758, 0x379c7d6f, 0x35dac336, 0x3418a901, 0x3157bf84, + 0x3095d5b3, 0x32d36bea, 0x331101dd, 0x246be590, 0x25a98fa7, + 0x27ef31fe, 0x262d5bc9, 0x23624d4c, 0x22a0277b, 0x20e69922, + 0x2124f315, 0x2a78b428, 0x2bbade1f, 0x29fc6046, 0x283e0a71, + 0x2d711cf4, 0x2cb376c3, 0x2ef5c89a, 0x2f37a2ad, 0x709a8dc0, + 0x7158e7f7, 0x731e59ae, 0x72dc3399, 0x7793251c, 0x76514f2b, + 0x7417f172, 0x75d59b45, 0x7e89dc78, 0x7f4bb64f, 0x7d0d0816, + 0x7ccf6221, 0x798074a4, 0x78421e93, 0x7a04a0ca, 0x7bc6cafd, + 0x6cbc2eb0, 0x6d7e4487, 0x6f38fade, 0x6efa90e9, 0x6bb5866c, + 0x6a77ec5b, 0x68315202, 0x69f33835, 0x62af7f08, 0x636d153f, + 0x612bab66, 0x60e9c151, 0x65a6d7d4, 0x6464bde3, 0x662203ba, + 0x67e0698d, 0x48d7cb20, 0x4915a117, 0x4b531f4e, 0x4a917579, + 0x4fde63fc, 0x4e1c09cb, 0x4c5ab792, 0x4d98dda5, 0x46c49a98, + 0x4706f0af, 0x45404ef6, 0x448224c1, 0x41cd3244, 0x400f5873, + 0x4249e62a, 0x438b8c1d, 0x54f16850, 0x55330267, 0x5775bc3e, + 0x56b7d609, 0x53f8c08c, 0x523aaabb, 0x507c14e2, 0x51be7ed5, + 0x5ae239e8, 0x5b2053df, 0x5966ed86, 0x58a487b1, 0x5deb9134, + 0x5c29fb03, 0x5e6f455a, 0x5fad2f6d, 0xe1351b80, 0xe0f771b7, + 0xe2b1cfee, 0xe373a5d9, 0xe63cb35c, 0xe7fed96b, 0xe5b86732, + 0xe47a0d05, 0xef264a38, 0xeee4200f, 0xeca29e56, 0xed60f461, + 0xe82fe2e4, 0xe9ed88d3, 0xebab368a, 0xea695cbd, 0xfd13b8f0, + 0xfcd1d2c7, 0xfe976c9e, 0xff5506a9, 0xfa1a102c, 0xfbd87a1b, + 0xf99ec442, 0xf85cae75, 0xf300e948, 0xf2c2837f, 0xf0843d26, + 0xf1465711, 0xf4094194, 0xf5cb2ba3, 0xf78d95fa, 0xf64fffcd, + 0xd9785d60, 0xd8ba3757, 0xdafc890e, 0xdb3ee339, 0xde71f5bc, + 0xdfb39f8b, 0xddf521d2, 0xdc374be5, 0xd76b0cd8, 0xd6a966ef, + 0xd4efd8b6, 0xd52db281, 0xd062a404, 0xd1a0ce33, 0xd3e6706a, + 0xd2241a5d, 0xc55efe10, 0xc49c9427, 0xc6da2a7e, 0xc7184049, + 0xc25756cc, 0xc3953cfb, 0xc1d382a2, 0xc011e895, 0xcb4dafa8, + 0xca8fc59f, 0xc8c97bc6, 0xc90b11f1, 0xcc440774, 0xcd866d43, + 0xcfc0d31a, 0xce02b92d, 0x91af9640, 0x906dfc77, 0x922b422e, + 0x93e92819, 0x96a63e9c, 0x976454ab, 0x9522eaf2, 0x94e080c5, + 0x9fbcc7f8, 0x9e7eadcf, 0x9c381396, 0x9dfa79a1, 0x98b56f24, + 0x99770513, 0x9b31bb4a, 0x9af3d17d, 0x8d893530, 0x8c4b5f07, + 0x8e0de15e, 0x8fcf8b69, 0x8a809dec, 0x8b42f7db, 0x89044982, + 0x88c623b5, 0x839a6488, 0x82580ebf, 0x801eb0e6, 0x81dcdad1, + 0x8493cc54, 0x8551a663, 0x8717183a, 0x86d5720d, 0xa9e2d0a0, + 0xa820ba97, 0xaa6604ce, 0xaba46ef9, 0xaeeb787c, 0xaf29124b, + 0xad6fac12, 0xacadc625, 0xa7f18118, 0xa633eb2f, 0xa4755576, + 0xa5b73f41, 0xa0f829c4, 0xa13a43f3, 0xa37cfdaa, 0xa2be979d, + 0xb5c473d0, 0xb40619e7, 0xb640a7be, 0xb782cd89, 0xb2cddb0c, + 0xb30fb13b, 0xb1490f62, 0xb08b6555, 0xbbd72268, 0xba15485f, + 0xb853f606, 0xb9919c31, 0xbcde8ab4, 0xbd1ce083, 0xbf5a5eda, + 0xbe9834ed}, + {0x00000000, 0x191b3141, 0x32366282, 0x2b2d53c3, 0x646cc504, + 0x7d77f445, 0x565aa786, 0x4f4196c7, 0xc8d98a08, 0xd1c2bb49, + 0xfaefe88a, 0xe3f4d9cb, 0xacb54f0c, 0xb5ae7e4d, 0x9e832d8e, + 0x87981ccf, 0x4ac21251, 0x53d92310, 0x78f470d3, 0x61ef4192, + 0x2eaed755, 0x37b5e614, 0x1c98b5d7, 0x05838496, 0x821b9859, + 0x9b00a918, 0xb02dfadb, 0xa936cb9a, 0xe6775d5d, 0xff6c6c1c, + 0xd4413fdf, 0xcd5a0e9e, 0x958424a2, 0x8c9f15e3, 0xa7b24620, + 0xbea97761, 0xf1e8e1a6, 0xe8f3d0e7, 0xc3de8324, 0xdac5b265, + 0x5d5daeaa, 0x44469feb, 0x6f6bcc28, 0x7670fd69, 0x39316bae, + 0x202a5aef, 0x0b07092c, 0x121c386d, 0xdf4636f3, 0xc65d07b2, + 0xed705471, 0xf46b6530, 0xbb2af3f7, 0xa231c2b6, 0x891c9175, + 0x9007a034, 0x179fbcfb, 0x0e848dba, 0x25a9de79, 0x3cb2ef38, + 0x73f379ff, 0x6ae848be, 0x41c51b7d, 0x58de2a3c, 0xf0794f05, + 0xe9627e44, 0xc24f2d87, 0xdb541cc6, 0x94158a01, 0x8d0ebb40, + 0xa623e883, 0xbf38d9c2, 0x38a0c50d, 0x21bbf44c, 0x0a96a78f, + 0x138d96ce, 0x5ccc0009, 0x45d73148, 0x6efa628b, 0x77e153ca, + 0xbabb5d54, 0xa3a06c15, 0x888d3fd6, 0x91960e97, 0xded79850, + 0xc7cca911, 0xece1fad2, 0xf5facb93, 0x7262d75c, 0x6b79e61d, + 0x4054b5de, 0x594f849f, 0x160e1258, 0x0f152319, 0x243870da, + 0x3d23419b, 0x65fd6ba7, 0x7ce65ae6, 0x57cb0925, 0x4ed03864, + 0x0191aea3, 0x188a9fe2, 0x33a7cc21, 0x2abcfd60, 0xad24e1af, + 0xb43fd0ee, 0x9f12832d, 0x8609b26c, 0xc94824ab, 0xd05315ea, + 0xfb7e4629, 0xe2657768, 0x2f3f79f6, 0x362448b7, 0x1d091b74, + 0x04122a35, 0x4b53bcf2, 0x52488db3, 0x7965de70, 0x607eef31, + 0xe7e6f3fe, 0xfefdc2bf, 0xd5d0917c, 0xcccba03d, 0x838a36fa, + 0x9a9107bb, 0xb1bc5478, 0xa8a76539, 0x3b83984b, 0x2298a90a, + 0x09b5fac9, 0x10aecb88, 0x5fef5d4f, 0x46f46c0e, 0x6dd93fcd, + 0x74c20e8c, 0xf35a1243, 0xea412302, 0xc16c70c1, 0xd8774180, + 0x9736d747, 0x8e2de606, 0xa500b5c5, 0xbc1b8484, 0x71418a1a, + 0x685abb5b, 0x4377e898, 0x5a6cd9d9, 0x152d4f1e, 0x0c367e5f, + 0x271b2d9c, 0x3e001cdd, 0xb9980012, 0xa0833153, 0x8bae6290, + 0x92b553d1, 0xddf4c516, 0xc4eff457, 0xefc2a794, 0xf6d996d5, + 0xae07bce9, 0xb71c8da8, 0x9c31de6b, 0x852aef2a, 0xca6b79ed, + 0xd37048ac, 0xf85d1b6f, 0xe1462a2e, 0x66de36e1, 0x7fc507a0, + 0x54e85463, 0x4df36522, 0x02b2f3e5, 0x1ba9c2a4, 0x30849167, + 0x299fa026, 0xe4c5aeb8, 0xfdde9ff9, 0xd6f3cc3a, 0xcfe8fd7b, + 0x80a96bbc, 0x99b25afd, 0xb29f093e, 0xab84387f, 0x2c1c24b0, + 0x350715f1, 0x1e2a4632, 0x07317773, 0x4870e1b4, 0x516bd0f5, + 0x7a468336, 0x635db277, 0xcbfad74e, 0xd2e1e60f, 0xf9ccb5cc, + 0xe0d7848d, 0xaf96124a, 0xb68d230b, 0x9da070c8, 0x84bb4189, + 0x03235d46, 0x1a386c07, 0x31153fc4, 0x280e0e85, 0x674f9842, + 0x7e54a903, 0x5579fac0, 0x4c62cb81, 0x8138c51f, 0x9823f45e, + 0xb30ea79d, 0xaa1596dc, 0xe554001b, 0xfc4f315a, 0xd7626299, + 0xce7953d8, 0x49e14f17, 0x50fa7e56, 0x7bd72d95, 0x62cc1cd4, + 0x2d8d8a13, 0x3496bb52, 0x1fbbe891, 0x06a0d9d0, 0x5e7ef3ec, + 0x4765c2ad, 0x6c48916e, 0x7553a02f, 0x3a1236e8, 0x230907a9, + 0x0824546a, 0x113f652b, 0x96a779e4, 0x8fbc48a5, 0xa4911b66, + 0xbd8a2a27, 0xf2cbbce0, 0xebd08da1, 0xc0fdde62, 0xd9e6ef23, + 0x14bce1bd, 0x0da7d0fc, 0x268a833f, 0x3f91b27e, 0x70d024b9, + 0x69cb15f8, 0x42e6463b, 0x5bfd777a, 0xdc656bb5, 0xc57e5af4, + 0xee530937, 0xf7483876, 0xb809aeb1, 0xa1129ff0, 0x8a3fcc33, + 0x9324fd72}, + {0x00000000, 0x77073096, 0xee0e612c, 0x990951ba, 0x076dc419, + 0x706af48f, 0xe963a535, 0x9e6495a3, 0x0edb8832, 0x79dcb8a4, + 0xe0d5e91e, 0x97d2d988, 0x09b64c2b, 0x7eb17cbd, 0xe7b82d07, + 0x90bf1d91, 0x1db71064, 0x6ab020f2, 0xf3b97148, 0x84be41de, + 0x1adad47d, 0x6ddde4eb, 0xf4d4b551, 0x83d385c7, 0x136c9856, + 0x646ba8c0, 0xfd62f97a, 0x8a65c9ec, 0x14015c4f, 0x63066cd9, + 0xfa0f3d63, 0x8d080df5, 0x3b6e20c8, 0x4c69105e, 0xd56041e4, + 0xa2677172, 0x3c03e4d1, 0x4b04d447, 0xd20d85fd, 0xa50ab56b, + 0x35b5a8fa, 0x42b2986c, 0xdbbbc9d6, 0xacbcf940, 0x32d86ce3, + 0x45df5c75, 0xdcd60dcf, 0xabd13d59, 0x26d930ac, 0x51de003a, + 0xc8d75180, 0xbfd06116, 0x21b4f4b5, 0x56b3c423, 0xcfba9599, + 0xb8bda50f, 0x2802b89e, 0x5f058808, 0xc60cd9b2, 0xb10be924, + 0x2f6f7c87, 0x58684c11, 0xc1611dab, 0xb6662d3d, 0x76dc4190, + 0x01db7106, 0x98d220bc, 0xefd5102a, 0x71b18589, 0x06b6b51f, + 0x9fbfe4a5, 0xe8b8d433, 0x7807c9a2, 0x0f00f934, 0x9609a88e, + 0xe10e9818, 0x7f6a0dbb, 0x086d3d2d, 0x91646c97, 0xe6635c01, + 0x6b6b51f4, 0x1c6c6162, 0x856530d8, 0xf262004e, 0x6c0695ed, + 0x1b01a57b, 0x8208f4c1, 0xf50fc457, 0x65b0d9c6, 0x12b7e950, + 0x8bbeb8ea, 0xfcb9887c, 0x62dd1ddf, 0x15da2d49, 0x8cd37cf3, + 0xfbd44c65, 0x4db26158, 0x3ab551ce, 0xa3bc0074, 0xd4bb30e2, + 0x4adfa541, 0x3dd895d7, 0xa4d1c46d, 0xd3d6f4fb, 0x4369e96a, + 0x346ed9fc, 0xad678846, 0xda60b8d0, 0x44042d73, 0x33031de5, + 0xaa0a4c5f, 0xdd0d7cc9, 0x5005713c, 0x270241aa, 0xbe0b1010, + 0xc90c2086, 0x5768b525, 0x206f85b3, 0xb966d409, 0xce61e49f, + 0x5edef90e, 0x29d9c998, 0xb0d09822, 0xc7d7a8b4, 0x59b33d17, + 0x2eb40d81, 0xb7bd5c3b, 0xc0ba6cad, 0xedb88320, 0x9abfb3b6, + 0x03b6e20c, 0x74b1d29a, 0xead54739, 0x9dd277af, 0x04db2615, + 0x73dc1683, 0xe3630b12, 0x94643b84, 0x0d6d6a3e, 0x7a6a5aa8, + 0xe40ecf0b, 0x9309ff9d, 0x0a00ae27, 0x7d079eb1, 0xf00f9344, + 0x8708a3d2, 0x1e01f268, 0x6906c2fe, 0xf762575d, 0x806567cb, + 0x196c3671, 0x6e6b06e7, 0xfed41b76, 0x89d32be0, 0x10da7a5a, + 0x67dd4acc, 0xf9b9df6f, 0x8ebeeff9, 0x17b7be43, 0x60b08ed5, + 0xd6d6a3e8, 0xa1d1937e, 0x38d8c2c4, 0x4fdff252, 0xd1bb67f1, + 0xa6bc5767, 0x3fb506dd, 0x48b2364b, 0xd80d2bda, 0xaf0a1b4c, + 0x36034af6, 0x41047a60, 0xdf60efc3, 0xa867df55, 0x316e8eef, + 0x4669be79, 0xcb61b38c, 0xbc66831a, 0x256fd2a0, 0x5268e236, + 0xcc0c7795, 0xbb0b4703, 0x220216b9, 0x5505262f, 0xc5ba3bbe, + 0xb2bd0b28, 0x2bb45a92, 0x5cb36a04, 0xc2d7ffa7, 0xb5d0cf31, + 0x2cd99e8b, 0x5bdeae1d, 0x9b64c2b0, 0xec63f226, 0x756aa39c, + 0x026d930a, 0x9c0906a9, 0xeb0e363f, 0x72076785, 0x05005713, + 0x95bf4a82, 0xe2b87a14, 0x7bb12bae, 0x0cb61b38, 0x92d28e9b, + 0xe5d5be0d, 0x7cdcefb7, 0x0bdbdf21, 0x86d3d2d4, 0xf1d4e242, + 0x68ddb3f8, 0x1fda836e, 0x81be16cd, 0xf6b9265b, 0x6fb077e1, + 0x18b74777, 0x88085ae6, 0xff0f6a70, 0x66063bca, 0x11010b5c, + 0x8f659eff, 0xf862ae69, 0x616bffd3, 0x166ccf45, 0xa00ae278, + 0xd70dd2ee, 0x4e048354, 0x3903b3c2, 0xa7672661, 0xd06016f7, + 0x4969474d, 0x3e6e77db, 0xaed16a4a, 0xd9d65adc, 0x40df0b66, + 0x37d83bf0, 0xa9bcae53, 0xdebb9ec5, 0x47b2cf7f, 0x30b5ffe9, + 0xbdbdf21c, 0xcabac28a, 0x53b39330, 0x24b4a3a6, 0xbad03605, + 0xcdd70693, 0x54de5729, 0x23d967bf, 0xb3667a2e, 0xc4614ab8, + 0x5d681b02, 0x2a6f2b94, 0xb40bbe37, 0xc30c8ea1, 0x5a05df1b, + 0x2d02ef8d}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x0000000000000000, 0x9630077700000000, 0x2c610eee00000000, + 0xba51099900000000, 0x19c46d0700000000, 0x8ff46a7000000000, + 0x35a563e900000000, 0xa395649e00000000, 0x3288db0e00000000, + 0xa4b8dc7900000000, 0x1ee9d5e000000000, 0x88d9d29700000000, + 0x2b4cb60900000000, 0xbd7cb17e00000000, 0x072db8e700000000, + 0x911dbf9000000000, 0x6410b71d00000000, 0xf220b06a00000000, + 0x4871b9f300000000, 0xde41be8400000000, 0x7dd4da1a00000000, + 0xebe4dd6d00000000, 0x51b5d4f400000000, 0xc785d38300000000, + 0x56986c1300000000, 0xc0a86b6400000000, 0x7af962fd00000000, + 0xecc9658a00000000, 0x4f5c011400000000, 0xd96c066300000000, + 0x633d0ffa00000000, 0xf50d088d00000000, 0xc8206e3b00000000, + 0x5e10694c00000000, 0xe44160d500000000, 0x727167a200000000, + 0xd1e4033c00000000, 0x47d4044b00000000, 0xfd850dd200000000, + 0x6bb50aa500000000, 0xfaa8b53500000000, 0x6c98b24200000000, + 0xd6c9bbdb00000000, 0x40f9bcac00000000, 0xe36cd83200000000, + 0x755cdf4500000000, 0xcf0dd6dc00000000, 0x593dd1ab00000000, + 0xac30d92600000000, 0x3a00de5100000000, 0x8051d7c800000000, + 0x1661d0bf00000000, 0xb5f4b42100000000, 0x23c4b35600000000, + 0x9995bacf00000000, 0x0fa5bdb800000000, 0x9eb8022800000000, + 0x0888055f00000000, 0xb2d90cc600000000, 0x24e90bb100000000, + 0x877c6f2f00000000, 0x114c685800000000, 0xab1d61c100000000, + 0x3d2d66b600000000, 0x9041dc7600000000, 0x0671db0100000000, + 0xbc20d29800000000, 0x2a10d5ef00000000, 0x8985b17100000000, + 0x1fb5b60600000000, 0xa5e4bf9f00000000, 0x33d4b8e800000000, + 0xa2c9077800000000, 0x34f9000f00000000, 0x8ea8099600000000, + 0x18980ee100000000, 0xbb0d6a7f00000000, 0x2d3d6d0800000000, + 0x976c649100000000, 0x015c63e600000000, 0xf4516b6b00000000, + 0x62616c1c00000000, 0xd830658500000000, 0x4e0062f200000000, + 0xed95066c00000000, 0x7ba5011b00000000, 0xc1f4088200000000, + 0x57c40ff500000000, 0xc6d9b06500000000, 0x50e9b71200000000, + 0xeab8be8b00000000, 0x7c88b9fc00000000, 0xdf1ddd6200000000, + 0x492dda1500000000, 0xf37cd38c00000000, 0x654cd4fb00000000, + 0x5861b24d00000000, 0xce51b53a00000000, 0x7400bca300000000, + 0xe230bbd400000000, 0x41a5df4a00000000, 0xd795d83d00000000, + 0x6dc4d1a400000000, 0xfbf4d6d300000000, 0x6ae9694300000000, + 0xfcd96e3400000000, 0x468867ad00000000, 0xd0b860da00000000, + 0x732d044400000000, 0xe51d033300000000, 0x5f4c0aaa00000000, + 0xc97c0ddd00000000, 0x3c71055000000000, 0xaa41022700000000, + 0x10100bbe00000000, 0x86200cc900000000, 0x25b5685700000000, + 0xb3856f2000000000, 0x09d466b900000000, 0x9fe461ce00000000, + 0x0ef9de5e00000000, 0x98c9d92900000000, 0x2298d0b000000000, + 0xb4a8d7c700000000, 0x173db35900000000, 0x810db42e00000000, + 0x3b5cbdb700000000, 0xad6cbac000000000, 0x2083b8ed00000000, + 0xb6b3bf9a00000000, 0x0ce2b60300000000, 0x9ad2b17400000000, + 0x3947d5ea00000000, 0xaf77d29d00000000, 0x1526db0400000000, + 0x8316dc7300000000, 0x120b63e300000000, 0x843b649400000000, + 0x3e6a6d0d00000000, 0xa85a6a7a00000000, 0x0bcf0ee400000000, + 0x9dff099300000000, 0x27ae000a00000000, 0xb19e077d00000000, + 0x44930ff000000000, 0xd2a3088700000000, 0x68f2011e00000000, + 0xfec2066900000000, 0x5d5762f700000000, 0xcb67658000000000, + 0x71366c1900000000, 0xe7066b6e00000000, 0x761bd4fe00000000, + 0xe02bd38900000000, 0x5a7ada1000000000, 0xcc4add6700000000, + 0x6fdfb9f900000000, 0xf9efbe8e00000000, 0x43beb71700000000, + 0xd58eb06000000000, 0xe8a3d6d600000000, 0x7e93d1a100000000, + 0xc4c2d83800000000, 0x52f2df4f00000000, 0xf167bbd100000000, + 0x6757bca600000000, 0xdd06b53f00000000, 0x4b36b24800000000, + 0xda2b0dd800000000, 0x4c1b0aaf00000000, 0xf64a033600000000, + 0x607a044100000000, 0xc3ef60df00000000, 0x55df67a800000000, + 0xef8e6e3100000000, 0x79be694600000000, 0x8cb361cb00000000, + 0x1a8366bc00000000, 0xa0d26f2500000000, 0x36e2685200000000, + 0x95770ccc00000000, 0x03470bbb00000000, 0xb916022200000000, + 0x2f26055500000000, 0xbe3bbac500000000, 0x280bbdb200000000, + 0x925ab42b00000000, 0x046ab35c00000000, 0xa7ffd7c200000000, + 0x31cfd0b500000000, 0x8b9ed92c00000000, 0x1daede5b00000000, + 0xb0c2649b00000000, 0x26f263ec00000000, 0x9ca36a7500000000, + 0x0a936d0200000000, 0xa906099c00000000, 0x3f360eeb00000000, + 0x8567077200000000, 0x1357000500000000, 0x824abf9500000000, + 0x147ab8e200000000, 0xae2bb17b00000000, 0x381bb60c00000000, + 0x9b8ed29200000000, 0x0dbed5e500000000, 0xb7efdc7c00000000, + 0x21dfdb0b00000000, 0xd4d2d38600000000, 0x42e2d4f100000000, + 0xf8b3dd6800000000, 0x6e83da1f00000000, 0xcd16be8100000000, + 0x5b26b9f600000000, 0xe177b06f00000000, 0x7747b71800000000, + 0xe65a088800000000, 0x706a0fff00000000, 0xca3b066600000000, + 0x5c0b011100000000, 0xff9e658f00000000, 0x69ae62f800000000, + 0xd3ff6b6100000000, 0x45cf6c1600000000, 0x78e20aa000000000, + 0xeed20dd700000000, 0x5483044e00000000, 0xc2b3033900000000, + 0x612667a700000000, 0xf71660d000000000, 0x4d47694900000000, + 0xdb776e3e00000000, 0x4a6ad1ae00000000, 0xdc5ad6d900000000, + 0x660bdf4000000000, 0xf03bd83700000000, 0x53aebca900000000, + 0xc59ebbde00000000, 0x7fcfb24700000000, 0xe9ffb53000000000, + 0x1cf2bdbd00000000, 0x8ac2baca00000000, 0x3093b35300000000, + 0xa6a3b42400000000, 0x0536d0ba00000000, 0x9306d7cd00000000, + 0x2957de5400000000, 0xbf67d92300000000, 0x2e7a66b300000000, + 0xb84a61c400000000, 0x021b685d00000000, 0x942b6f2a00000000, + 0x37be0bb400000000, 0xa18e0cc300000000, 0x1bdf055a00000000, + 0x8def022d00000000}, + {0x0000000000000000, 0x41311b1900000000, 0x8262363200000000, + 0xc3532d2b00000000, 0x04c56c6400000000, 0x45f4777d00000000, + 0x86a75a5600000000, 0xc796414f00000000, 0x088ad9c800000000, + 0x49bbc2d100000000, 0x8ae8effa00000000, 0xcbd9f4e300000000, + 0x0c4fb5ac00000000, 0x4d7eaeb500000000, 0x8e2d839e00000000, + 0xcf1c988700000000, 0x5112c24a00000000, 0x1023d95300000000, + 0xd370f47800000000, 0x9241ef6100000000, 0x55d7ae2e00000000, + 0x14e6b53700000000, 0xd7b5981c00000000, 0x9684830500000000, + 0x59981b8200000000, 0x18a9009b00000000, 0xdbfa2db000000000, + 0x9acb36a900000000, 0x5d5d77e600000000, 0x1c6c6cff00000000, + 0xdf3f41d400000000, 0x9e0e5acd00000000, 0xa224849500000000, + 0xe3159f8c00000000, 0x2046b2a700000000, 0x6177a9be00000000, + 0xa6e1e8f100000000, 0xe7d0f3e800000000, 0x2483dec300000000, + 0x65b2c5da00000000, 0xaaae5d5d00000000, 0xeb9f464400000000, + 0x28cc6b6f00000000, 0x69fd707600000000, 0xae6b313900000000, + 0xef5a2a2000000000, 0x2c09070b00000000, 0x6d381c1200000000, + 0xf33646df00000000, 0xb2075dc600000000, 0x715470ed00000000, + 0x30656bf400000000, 0xf7f32abb00000000, 0xb6c231a200000000, + 0x75911c8900000000, 0x34a0079000000000, 0xfbbc9f1700000000, + 0xba8d840e00000000, 0x79dea92500000000, 0x38efb23c00000000, + 0xff79f37300000000, 0xbe48e86a00000000, 0x7d1bc54100000000, + 0x3c2ade5800000000, 0x054f79f000000000, 0x447e62e900000000, + 0x872d4fc200000000, 0xc61c54db00000000, 0x018a159400000000, + 0x40bb0e8d00000000, 0x83e823a600000000, 0xc2d938bf00000000, + 0x0dc5a03800000000, 0x4cf4bb2100000000, 0x8fa7960a00000000, + 0xce968d1300000000, 0x0900cc5c00000000, 0x4831d74500000000, + 0x8b62fa6e00000000, 0xca53e17700000000, 0x545dbbba00000000, + 0x156ca0a300000000, 0xd63f8d8800000000, 0x970e969100000000, + 0x5098d7de00000000, 0x11a9ccc700000000, 0xd2fae1ec00000000, + 0x93cbfaf500000000, 0x5cd7627200000000, 0x1de6796b00000000, + 0xdeb5544000000000, 0x9f844f5900000000, 0x58120e1600000000, + 0x1923150f00000000, 0xda70382400000000, 0x9b41233d00000000, + 0xa76bfd6500000000, 0xe65ae67c00000000, 0x2509cb5700000000, + 0x6438d04e00000000, 0xa3ae910100000000, 0xe29f8a1800000000, + 0x21cca73300000000, 0x60fdbc2a00000000, 0xafe124ad00000000, + 0xeed03fb400000000, 0x2d83129f00000000, 0x6cb2098600000000, + 0xab2448c900000000, 0xea1553d000000000, 0x29467efb00000000, + 0x687765e200000000, 0xf6793f2f00000000, 0xb748243600000000, + 0x741b091d00000000, 0x352a120400000000, 0xf2bc534b00000000, + 0xb38d485200000000, 0x70de657900000000, 0x31ef7e6000000000, + 0xfef3e6e700000000, 0xbfc2fdfe00000000, 0x7c91d0d500000000, + 0x3da0cbcc00000000, 0xfa368a8300000000, 0xbb07919a00000000, + 0x7854bcb100000000, 0x3965a7a800000000, 0x4b98833b00000000, + 0x0aa9982200000000, 0xc9fab50900000000, 0x88cbae1000000000, + 0x4f5def5f00000000, 0x0e6cf44600000000, 0xcd3fd96d00000000, + 0x8c0ec27400000000, 0x43125af300000000, 0x022341ea00000000, + 0xc1706cc100000000, 0x804177d800000000, 0x47d7369700000000, + 0x06e62d8e00000000, 0xc5b500a500000000, 0x84841bbc00000000, + 0x1a8a417100000000, 0x5bbb5a6800000000, 0x98e8774300000000, + 0xd9d96c5a00000000, 0x1e4f2d1500000000, 0x5f7e360c00000000, + 0x9c2d1b2700000000, 0xdd1c003e00000000, 0x120098b900000000, + 0x533183a000000000, 0x9062ae8b00000000, 0xd153b59200000000, + 0x16c5f4dd00000000, 0x57f4efc400000000, 0x94a7c2ef00000000, + 0xd596d9f600000000, 0xe9bc07ae00000000, 0xa88d1cb700000000, + 0x6bde319c00000000, 0x2aef2a8500000000, 0xed796bca00000000, + 0xac4870d300000000, 0x6f1b5df800000000, 0x2e2a46e100000000, + 0xe136de6600000000, 0xa007c57f00000000, 0x6354e85400000000, + 0x2265f34d00000000, 0xe5f3b20200000000, 0xa4c2a91b00000000, + 0x6791843000000000, 0x26a09f2900000000, 0xb8aec5e400000000, + 0xf99fdefd00000000, 0x3accf3d600000000, 0x7bfde8cf00000000, + 0xbc6ba98000000000, 0xfd5ab29900000000, 0x3e099fb200000000, + 0x7f3884ab00000000, 0xb0241c2c00000000, 0xf115073500000000, + 0x32462a1e00000000, 0x7377310700000000, 0xb4e1704800000000, + 0xf5d06b5100000000, 0x3683467a00000000, 0x77b25d6300000000, + 0x4ed7facb00000000, 0x0fe6e1d200000000, 0xccb5ccf900000000, + 0x8d84d7e000000000, 0x4a1296af00000000, 0x0b238db600000000, + 0xc870a09d00000000, 0x8941bb8400000000, 0x465d230300000000, + 0x076c381a00000000, 0xc43f153100000000, 0x850e0e2800000000, + 0x42984f6700000000, 0x03a9547e00000000, 0xc0fa795500000000, + 0x81cb624c00000000, 0x1fc5388100000000, 0x5ef4239800000000, + 0x9da70eb300000000, 0xdc9615aa00000000, 0x1b0054e500000000, + 0x5a314ffc00000000, 0x996262d700000000, 0xd85379ce00000000, + 0x174fe14900000000, 0x567efa5000000000, 0x952dd77b00000000, + 0xd41ccc6200000000, 0x138a8d2d00000000, 0x52bb963400000000, + 0x91e8bb1f00000000, 0xd0d9a00600000000, 0xecf37e5e00000000, + 0xadc2654700000000, 0x6e91486c00000000, 0x2fa0537500000000, + 0xe836123a00000000, 0xa907092300000000, 0x6a54240800000000, + 0x2b653f1100000000, 0xe479a79600000000, 0xa548bc8f00000000, + 0x661b91a400000000, 0x272a8abd00000000, 0xe0bccbf200000000, + 0xa18dd0eb00000000, 0x62defdc000000000, 0x23efe6d900000000, + 0xbde1bc1400000000, 0xfcd0a70d00000000, 0x3f838a2600000000, + 0x7eb2913f00000000, 0xb924d07000000000, 0xf815cb6900000000, + 0x3b46e64200000000, 0x7a77fd5b00000000, 0xb56b65dc00000000, + 0xf45a7ec500000000, 0x370953ee00000000, 0x763848f700000000, + 0xb1ae09b800000000, 0xf09f12a100000000, 0x33cc3f8a00000000, + 0x72fd249300000000}, + {0x0000000000000000, 0x376ac20100000000, 0x6ed4840300000000, + 0x59be460200000000, 0xdca8090700000000, 0xebc2cb0600000000, + 0xb27c8d0400000000, 0x85164f0500000000, 0xb851130e00000000, + 0x8f3bd10f00000000, 0xd685970d00000000, 0xe1ef550c00000000, + 0x64f91a0900000000, 0x5393d80800000000, 0x0a2d9e0a00000000, + 0x3d475c0b00000000, 0x70a3261c00000000, 0x47c9e41d00000000, + 0x1e77a21f00000000, 0x291d601e00000000, 0xac0b2f1b00000000, + 0x9b61ed1a00000000, 0xc2dfab1800000000, 0xf5b5691900000000, + 0xc8f2351200000000, 0xff98f71300000000, 0xa626b11100000000, + 0x914c731000000000, 0x145a3c1500000000, 0x2330fe1400000000, + 0x7a8eb81600000000, 0x4de47a1700000000, 0xe0464d3800000000, + 0xd72c8f3900000000, 0x8e92c93b00000000, 0xb9f80b3a00000000, + 0x3cee443f00000000, 0x0b84863e00000000, 0x523ac03c00000000, + 0x6550023d00000000, 0x58175e3600000000, 0x6f7d9c3700000000, + 0x36c3da3500000000, 0x01a9183400000000, 0x84bf573100000000, + 0xb3d5953000000000, 0xea6bd33200000000, 0xdd01113300000000, + 0x90e56b2400000000, 0xa78fa92500000000, 0xfe31ef2700000000, + 0xc95b2d2600000000, 0x4c4d622300000000, 0x7b27a02200000000, + 0x2299e62000000000, 0x15f3242100000000, 0x28b4782a00000000, + 0x1fdeba2b00000000, 0x4660fc2900000000, 0x710a3e2800000000, + 0xf41c712d00000000, 0xc376b32c00000000, 0x9ac8f52e00000000, + 0xada2372f00000000, 0xc08d9a7000000000, 0xf7e7587100000000, + 0xae591e7300000000, 0x9933dc7200000000, 0x1c25937700000000, + 0x2b4f517600000000, 0x72f1177400000000, 0x459bd57500000000, + 0x78dc897e00000000, 0x4fb64b7f00000000, 0x16080d7d00000000, + 0x2162cf7c00000000, 0xa474807900000000, 0x931e427800000000, + 0xcaa0047a00000000, 0xfdcac67b00000000, 0xb02ebc6c00000000, + 0x87447e6d00000000, 0xdefa386f00000000, 0xe990fa6e00000000, + 0x6c86b56b00000000, 0x5bec776a00000000, 0x0252316800000000, + 0x3538f36900000000, 0x087faf6200000000, 0x3f156d6300000000, + 0x66ab2b6100000000, 0x51c1e96000000000, 0xd4d7a66500000000, + 0xe3bd646400000000, 0xba03226600000000, 0x8d69e06700000000, + 0x20cbd74800000000, 0x17a1154900000000, 0x4e1f534b00000000, + 0x7975914a00000000, 0xfc63de4f00000000, 0xcb091c4e00000000, + 0x92b75a4c00000000, 0xa5dd984d00000000, 0x989ac44600000000, + 0xaff0064700000000, 0xf64e404500000000, 0xc124824400000000, + 0x4432cd4100000000, 0x73580f4000000000, 0x2ae6494200000000, + 0x1d8c8b4300000000, 0x5068f15400000000, 0x6702335500000000, + 0x3ebc755700000000, 0x09d6b75600000000, 0x8cc0f85300000000, + 0xbbaa3a5200000000, 0xe2147c5000000000, 0xd57ebe5100000000, + 0xe839e25a00000000, 0xdf53205b00000000, 0x86ed665900000000, + 0xb187a45800000000, 0x3491eb5d00000000, 0x03fb295c00000000, + 0x5a456f5e00000000, 0x6d2fad5f00000000, 0x801b35e100000000, + 0xb771f7e000000000, 0xeecfb1e200000000, 0xd9a573e300000000, + 0x5cb33ce600000000, 0x6bd9fee700000000, 0x3267b8e500000000, + 0x050d7ae400000000, 0x384a26ef00000000, 0x0f20e4ee00000000, + 0x569ea2ec00000000, 0x61f460ed00000000, 0xe4e22fe800000000, + 0xd388ede900000000, 0x8a36abeb00000000, 0xbd5c69ea00000000, + 0xf0b813fd00000000, 0xc7d2d1fc00000000, 0x9e6c97fe00000000, + 0xa90655ff00000000, 0x2c101afa00000000, 0x1b7ad8fb00000000, + 0x42c49ef900000000, 0x75ae5cf800000000, 0x48e900f300000000, + 0x7f83c2f200000000, 0x263d84f000000000, 0x115746f100000000, + 0x944109f400000000, 0xa32bcbf500000000, 0xfa958df700000000, + 0xcdff4ff600000000, 0x605d78d900000000, 0x5737bad800000000, + 0x0e89fcda00000000, 0x39e33edb00000000, 0xbcf571de00000000, + 0x8b9fb3df00000000, 0xd221f5dd00000000, 0xe54b37dc00000000, + 0xd80c6bd700000000, 0xef66a9d600000000, 0xb6d8efd400000000, + 0x81b22dd500000000, 0x04a462d000000000, 0x33cea0d100000000, + 0x6a70e6d300000000, 0x5d1a24d200000000, 0x10fe5ec500000000, + 0x27949cc400000000, 0x7e2adac600000000, 0x494018c700000000, + 0xcc5657c200000000, 0xfb3c95c300000000, 0xa282d3c100000000, + 0x95e811c000000000, 0xa8af4dcb00000000, 0x9fc58fca00000000, + 0xc67bc9c800000000, 0xf1110bc900000000, 0x740744cc00000000, + 0x436d86cd00000000, 0x1ad3c0cf00000000, 0x2db902ce00000000, + 0x4096af9100000000, 0x77fc6d9000000000, 0x2e422b9200000000, + 0x1928e99300000000, 0x9c3ea69600000000, 0xab54649700000000, + 0xf2ea229500000000, 0xc580e09400000000, 0xf8c7bc9f00000000, + 0xcfad7e9e00000000, 0x9613389c00000000, 0xa179fa9d00000000, + 0x246fb59800000000, 0x1305779900000000, 0x4abb319b00000000, + 0x7dd1f39a00000000, 0x3035898d00000000, 0x075f4b8c00000000, + 0x5ee10d8e00000000, 0x698bcf8f00000000, 0xec9d808a00000000, + 0xdbf7428b00000000, 0x8249048900000000, 0xb523c68800000000, + 0x88649a8300000000, 0xbf0e588200000000, 0xe6b01e8000000000, + 0xd1dadc8100000000, 0x54cc938400000000, 0x63a6518500000000, + 0x3a18178700000000, 0x0d72d58600000000, 0xa0d0e2a900000000, + 0x97ba20a800000000, 0xce0466aa00000000, 0xf96ea4ab00000000, + 0x7c78ebae00000000, 0x4b1229af00000000, 0x12ac6fad00000000, + 0x25c6adac00000000, 0x1881f1a700000000, 0x2feb33a600000000, + 0x765575a400000000, 0x413fb7a500000000, 0xc429f8a000000000, + 0xf3433aa100000000, 0xaafd7ca300000000, 0x9d97bea200000000, + 0xd073c4b500000000, 0xe71906b400000000, 0xbea740b600000000, + 0x89cd82b700000000, 0x0cdbcdb200000000, 0x3bb10fb300000000, + 0x620f49b100000000, 0x55658bb000000000, 0x6822d7bb00000000, + 0x5f4815ba00000000, 0x06f653b800000000, 0x319c91b900000000, + 0xb48adebc00000000, 0x83e01cbd00000000, 0xda5e5abf00000000, + 0xed3498be00000000}, + {0x0000000000000000, 0x6567bcb800000000, 0x8bc809aa00000000, + 0xeeafb51200000000, 0x5797628f00000000, 0x32f0de3700000000, + 0xdc5f6b2500000000, 0xb938d79d00000000, 0xef28b4c500000000, + 0x8a4f087d00000000, 0x64e0bd6f00000000, 0x018701d700000000, + 0xb8bfd64a00000000, 0xddd86af200000000, 0x3377dfe000000000, + 0x5610635800000000, 0x9f57195000000000, 0xfa30a5e800000000, + 0x149f10fa00000000, 0x71f8ac4200000000, 0xc8c07bdf00000000, + 0xada7c76700000000, 0x4308727500000000, 0x266fcecd00000000, + 0x707fad9500000000, 0x1518112d00000000, 0xfbb7a43f00000000, + 0x9ed0188700000000, 0x27e8cf1a00000000, 0x428f73a200000000, + 0xac20c6b000000000, 0xc9477a0800000000, 0x3eaf32a000000000, + 0x5bc88e1800000000, 0xb5673b0a00000000, 0xd00087b200000000, + 0x6938502f00000000, 0x0c5fec9700000000, 0xe2f0598500000000, + 0x8797e53d00000000, 0xd187866500000000, 0xb4e03add00000000, + 0x5a4f8fcf00000000, 0x3f28337700000000, 0x8610e4ea00000000, + 0xe377585200000000, 0x0dd8ed4000000000, 0x68bf51f800000000, + 0xa1f82bf000000000, 0xc49f974800000000, 0x2a30225a00000000, + 0x4f579ee200000000, 0xf66f497f00000000, 0x9308f5c700000000, + 0x7da740d500000000, 0x18c0fc6d00000000, 0x4ed09f3500000000, + 0x2bb7238d00000000, 0xc518969f00000000, 0xa07f2a2700000000, + 0x1947fdba00000000, 0x7c20410200000000, 0x928ff41000000000, + 0xf7e848a800000000, 0x3d58149b00000000, 0x583fa82300000000, + 0xb6901d3100000000, 0xd3f7a18900000000, 0x6acf761400000000, + 0x0fa8caac00000000, 0xe1077fbe00000000, 0x8460c30600000000, + 0xd270a05e00000000, 0xb7171ce600000000, 0x59b8a9f400000000, + 0x3cdf154c00000000, 0x85e7c2d100000000, 0xe0807e6900000000, + 0x0e2fcb7b00000000, 0x6b4877c300000000, 0xa20f0dcb00000000, + 0xc768b17300000000, 0x29c7046100000000, 0x4ca0b8d900000000, + 0xf5986f4400000000, 0x90ffd3fc00000000, 0x7e5066ee00000000, + 0x1b37da5600000000, 0x4d27b90e00000000, 0x284005b600000000, + 0xc6efb0a400000000, 0xa3880c1c00000000, 0x1ab0db8100000000, + 0x7fd7673900000000, 0x9178d22b00000000, 0xf41f6e9300000000, + 0x03f7263b00000000, 0x66909a8300000000, 0x883f2f9100000000, + 0xed58932900000000, 0x546044b400000000, 0x3107f80c00000000, + 0xdfa84d1e00000000, 0xbacff1a600000000, 0xecdf92fe00000000, + 0x89b82e4600000000, 0x67179b5400000000, 0x027027ec00000000, + 0xbb48f07100000000, 0xde2f4cc900000000, 0x3080f9db00000000, + 0x55e7456300000000, 0x9ca03f6b00000000, 0xf9c783d300000000, + 0x176836c100000000, 0x720f8a7900000000, 0xcb375de400000000, + 0xae50e15c00000000, 0x40ff544e00000000, 0x2598e8f600000000, + 0x73888bae00000000, 0x16ef371600000000, 0xf840820400000000, + 0x9d273ebc00000000, 0x241fe92100000000, 0x4178559900000000, + 0xafd7e08b00000000, 0xcab05c3300000000, 0x3bb659ed00000000, + 0x5ed1e55500000000, 0xb07e504700000000, 0xd519ecff00000000, + 0x6c213b6200000000, 0x094687da00000000, 0xe7e932c800000000, + 0x828e8e7000000000, 0xd49eed2800000000, 0xb1f9519000000000, + 0x5f56e48200000000, 0x3a31583a00000000, 0x83098fa700000000, + 0xe66e331f00000000, 0x08c1860d00000000, 0x6da63ab500000000, + 0xa4e140bd00000000, 0xc186fc0500000000, 0x2f29491700000000, + 0x4a4ef5af00000000, 0xf376223200000000, 0x96119e8a00000000, + 0x78be2b9800000000, 0x1dd9972000000000, 0x4bc9f47800000000, + 0x2eae48c000000000, 0xc001fdd200000000, 0xa566416a00000000, + 0x1c5e96f700000000, 0x79392a4f00000000, 0x97969f5d00000000, + 0xf2f123e500000000, 0x05196b4d00000000, 0x607ed7f500000000, + 0x8ed162e700000000, 0xebb6de5f00000000, 0x528e09c200000000, + 0x37e9b57a00000000, 0xd946006800000000, 0xbc21bcd000000000, + 0xea31df8800000000, 0x8f56633000000000, 0x61f9d62200000000, + 0x049e6a9a00000000, 0xbda6bd0700000000, 0xd8c101bf00000000, + 0x366eb4ad00000000, 0x5309081500000000, 0x9a4e721d00000000, + 0xff29cea500000000, 0x11867bb700000000, 0x74e1c70f00000000, + 0xcdd9109200000000, 0xa8beac2a00000000, 0x4611193800000000, + 0x2376a58000000000, 0x7566c6d800000000, 0x10017a6000000000, + 0xfeaecf7200000000, 0x9bc973ca00000000, 0x22f1a45700000000, + 0x479618ef00000000, 0xa939adfd00000000, 0xcc5e114500000000, + 0x06ee4d7600000000, 0x6389f1ce00000000, 0x8d2644dc00000000, + 0xe841f86400000000, 0x51792ff900000000, 0x341e934100000000, + 0xdab1265300000000, 0xbfd69aeb00000000, 0xe9c6f9b300000000, + 0x8ca1450b00000000, 0x620ef01900000000, 0x07694ca100000000, + 0xbe519b3c00000000, 0xdb36278400000000, 0x3599929600000000, + 0x50fe2e2e00000000, 0x99b9542600000000, 0xfcdee89e00000000, + 0x12715d8c00000000, 0x7716e13400000000, 0xce2e36a900000000, + 0xab498a1100000000, 0x45e63f0300000000, 0x208183bb00000000, + 0x7691e0e300000000, 0x13f65c5b00000000, 0xfd59e94900000000, + 0x983e55f100000000, 0x2106826c00000000, 0x44613ed400000000, + 0xaace8bc600000000, 0xcfa9377e00000000, 0x38417fd600000000, + 0x5d26c36e00000000, 0xb389767c00000000, 0xd6eecac400000000, + 0x6fd61d5900000000, 0x0ab1a1e100000000, 0xe41e14f300000000, + 0x8179a84b00000000, 0xd769cb1300000000, 0xb20e77ab00000000, + 0x5ca1c2b900000000, 0x39c67e0100000000, 0x80fea99c00000000, + 0xe599152400000000, 0x0b36a03600000000, 0x6e511c8e00000000, + 0xa716668600000000, 0xc271da3e00000000, 0x2cde6f2c00000000, + 0x49b9d39400000000, 0xf081040900000000, 0x95e6b8b100000000, + 0x7b490da300000000, 0x1e2eb11b00000000, 0x483ed24300000000, + 0x2d596efb00000000, 0xc3f6dbe900000000, 0xa691675100000000, + 0x1fa9b0cc00000000, 0x7ace0c7400000000, 0x9461b96600000000, + 0xf10605de00000000}, + {0x0000000000000000, 0xb029603d00000000, 0x6053c07a00000000, + 0xd07aa04700000000, 0xc0a680f500000000, 0x708fe0c800000000, + 0xa0f5408f00000000, 0x10dc20b200000000, 0xc14b703000000000, + 0x7162100d00000000, 0xa118b04a00000000, 0x1131d07700000000, + 0x01edf0c500000000, 0xb1c490f800000000, 0x61be30bf00000000, + 0xd197508200000000, 0x8297e06000000000, 0x32be805d00000000, + 0xe2c4201a00000000, 0x52ed402700000000, 0x4231609500000000, + 0xf21800a800000000, 0x2262a0ef00000000, 0x924bc0d200000000, + 0x43dc905000000000, 0xf3f5f06d00000000, 0x238f502a00000000, + 0x93a6301700000000, 0x837a10a500000000, 0x3353709800000000, + 0xe329d0df00000000, 0x5300b0e200000000, 0x042fc1c100000000, + 0xb406a1fc00000000, 0x647c01bb00000000, 0xd455618600000000, + 0xc489413400000000, 0x74a0210900000000, 0xa4da814e00000000, + 0x14f3e17300000000, 0xc564b1f100000000, 0x754dd1cc00000000, + 0xa537718b00000000, 0x151e11b600000000, 0x05c2310400000000, + 0xb5eb513900000000, 0x6591f17e00000000, 0xd5b8914300000000, + 0x86b821a100000000, 0x3691419c00000000, 0xe6ebe1db00000000, + 0x56c281e600000000, 0x461ea15400000000, 0xf637c16900000000, + 0x264d612e00000000, 0x9664011300000000, 0x47f3519100000000, + 0xf7da31ac00000000, 0x27a091eb00000000, 0x9789f1d600000000, + 0x8755d16400000000, 0x377cb15900000000, 0xe706111e00000000, + 0x572f712300000000, 0x4958f35800000000, 0xf971936500000000, + 0x290b332200000000, 0x9922531f00000000, 0x89fe73ad00000000, + 0x39d7139000000000, 0xe9adb3d700000000, 0x5984d3ea00000000, + 0x8813836800000000, 0x383ae35500000000, 0xe840431200000000, + 0x5869232f00000000, 0x48b5039d00000000, 0xf89c63a000000000, + 0x28e6c3e700000000, 0x98cfa3da00000000, 0xcbcf133800000000, + 0x7be6730500000000, 0xab9cd34200000000, 0x1bb5b37f00000000, + 0x0b6993cd00000000, 0xbb40f3f000000000, 0x6b3a53b700000000, + 0xdb13338a00000000, 0x0a84630800000000, 0xbaad033500000000, + 0x6ad7a37200000000, 0xdafec34f00000000, 0xca22e3fd00000000, + 0x7a0b83c000000000, 0xaa71238700000000, 0x1a5843ba00000000, + 0x4d77329900000000, 0xfd5e52a400000000, 0x2d24f2e300000000, + 0x9d0d92de00000000, 0x8dd1b26c00000000, 0x3df8d25100000000, + 0xed82721600000000, 0x5dab122b00000000, 0x8c3c42a900000000, + 0x3c15229400000000, 0xec6f82d300000000, 0x5c46e2ee00000000, + 0x4c9ac25c00000000, 0xfcb3a26100000000, 0x2cc9022600000000, + 0x9ce0621b00000000, 0xcfe0d2f900000000, 0x7fc9b2c400000000, + 0xafb3128300000000, 0x1f9a72be00000000, 0x0f46520c00000000, + 0xbf6f323100000000, 0x6f15927600000000, 0xdf3cf24b00000000, + 0x0eaba2c900000000, 0xbe82c2f400000000, 0x6ef862b300000000, + 0xded1028e00000000, 0xce0d223c00000000, 0x7e24420100000000, + 0xae5ee24600000000, 0x1e77827b00000000, 0x92b0e6b100000000, + 0x2299868c00000000, 0xf2e326cb00000000, 0x42ca46f600000000, + 0x5216664400000000, 0xe23f067900000000, 0x3245a63e00000000, + 0x826cc60300000000, 0x53fb968100000000, 0xe3d2f6bc00000000, + 0x33a856fb00000000, 0x838136c600000000, 0x935d167400000000, + 0x2374764900000000, 0xf30ed60e00000000, 0x4327b63300000000, + 0x102706d100000000, 0xa00e66ec00000000, 0x7074c6ab00000000, + 0xc05da69600000000, 0xd081862400000000, 0x60a8e61900000000, + 0xb0d2465e00000000, 0x00fb266300000000, 0xd16c76e100000000, + 0x614516dc00000000, 0xb13fb69b00000000, 0x0116d6a600000000, + 0x11caf61400000000, 0xa1e3962900000000, 0x7199366e00000000, + 0xc1b0565300000000, 0x969f277000000000, 0x26b6474d00000000, + 0xf6cce70a00000000, 0x46e5873700000000, 0x5639a78500000000, + 0xe610c7b800000000, 0x366a67ff00000000, 0x864307c200000000, + 0x57d4574000000000, 0xe7fd377d00000000, 0x3787973a00000000, + 0x87aef70700000000, 0x9772d7b500000000, 0x275bb78800000000, + 0xf72117cf00000000, 0x470877f200000000, 0x1408c71000000000, + 0xa421a72d00000000, 0x745b076a00000000, 0xc472675700000000, + 0xd4ae47e500000000, 0x648727d800000000, 0xb4fd879f00000000, + 0x04d4e7a200000000, 0xd543b72000000000, 0x656ad71d00000000, + 0xb510775a00000000, 0x0539176700000000, 0x15e537d500000000, + 0xa5cc57e800000000, 0x75b6f7af00000000, 0xc59f979200000000, + 0xdbe815e900000000, 0x6bc175d400000000, 0xbbbbd59300000000, + 0x0b92b5ae00000000, 0x1b4e951c00000000, 0xab67f52100000000, + 0x7b1d556600000000, 0xcb34355b00000000, 0x1aa365d900000000, + 0xaa8a05e400000000, 0x7af0a5a300000000, 0xcad9c59e00000000, + 0xda05e52c00000000, 0x6a2c851100000000, 0xba56255600000000, + 0x0a7f456b00000000, 0x597ff58900000000, 0xe95695b400000000, + 0x392c35f300000000, 0x890555ce00000000, 0x99d9757c00000000, + 0x29f0154100000000, 0xf98ab50600000000, 0x49a3d53b00000000, + 0x983485b900000000, 0x281de58400000000, 0xf86745c300000000, + 0x484e25fe00000000, 0x5892054c00000000, 0xe8bb657100000000, + 0x38c1c53600000000, 0x88e8a50b00000000, 0xdfc7d42800000000, + 0x6feeb41500000000, 0xbf94145200000000, 0x0fbd746f00000000, + 0x1f6154dd00000000, 0xaf4834e000000000, 0x7f3294a700000000, + 0xcf1bf49a00000000, 0x1e8ca41800000000, 0xaea5c42500000000, + 0x7edf646200000000, 0xcef6045f00000000, 0xde2a24ed00000000, + 0x6e0344d000000000, 0xbe79e49700000000, 0x0e5084aa00000000, + 0x5d50344800000000, 0xed79547500000000, 0x3d03f43200000000, + 0x8d2a940f00000000, 0x9df6b4bd00000000, 0x2ddfd48000000000, + 0xfda574c700000000, 0x4d8c14fa00000000, 0x9c1b447800000000, + 0x2c32244500000000, 0xfc48840200000000, 0x4c61e43f00000000, + 0x5cbdc48d00000000, 0xec94a4b000000000, 0x3cee04f700000000, + 0x8cc764ca00000000}, + {0x0000000000000000, 0xa5d35ccb00000000, 0x0ba1c84d00000000, + 0xae72948600000000, 0x1642919b00000000, 0xb391cd5000000000, + 0x1de359d600000000, 0xb830051d00000000, 0x6d8253ec00000000, + 0xc8510f2700000000, 0x66239ba100000000, 0xc3f0c76a00000000, + 0x7bc0c27700000000, 0xde139ebc00000000, 0x70610a3a00000000, + 0xd5b256f100000000, 0x9b02d60300000000, 0x3ed18ac800000000, + 0x90a31e4e00000000, 0x3570428500000000, 0x8d40479800000000, + 0x28931b5300000000, 0x86e18fd500000000, 0x2332d31e00000000, + 0xf68085ef00000000, 0x5353d92400000000, 0xfd214da200000000, + 0x58f2116900000000, 0xe0c2147400000000, 0x451148bf00000000, + 0xeb63dc3900000000, 0x4eb080f200000000, 0x3605ac0700000000, + 0x93d6f0cc00000000, 0x3da4644a00000000, 0x9877388100000000, + 0x20473d9c00000000, 0x8594615700000000, 0x2be6f5d100000000, + 0x8e35a91a00000000, 0x5b87ffeb00000000, 0xfe54a32000000000, + 0x502637a600000000, 0xf5f56b6d00000000, 0x4dc56e7000000000, + 0xe81632bb00000000, 0x4664a63d00000000, 0xe3b7faf600000000, + 0xad077a0400000000, 0x08d426cf00000000, 0xa6a6b24900000000, + 0x0375ee8200000000, 0xbb45eb9f00000000, 0x1e96b75400000000, + 0xb0e423d200000000, 0x15377f1900000000, 0xc08529e800000000, + 0x6556752300000000, 0xcb24e1a500000000, 0x6ef7bd6e00000000, + 0xd6c7b87300000000, 0x7314e4b800000000, 0xdd66703e00000000, + 0x78b52cf500000000, 0x6c0a580f00000000, 0xc9d904c400000000, + 0x67ab904200000000, 0xc278cc8900000000, 0x7a48c99400000000, + 0xdf9b955f00000000, 0x71e901d900000000, 0xd43a5d1200000000, + 0x01880be300000000, 0xa45b572800000000, 0x0a29c3ae00000000, + 0xaffa9f6500000000, 0x17ca9a7800000000, 0xb219c6b300000000, + 0x1c6b523500000000, 0xb9b80efe00000000, 0xf7088e0c00000000, + 0x52dbd2c700000000, 0xfca9464100000000, 0x597a1a8a00000000, + 0xe14a1f9700000000, 0x4499435c00000000, 0xeaebd7da00000000, + 0x4f388b1100000000, 0x9a8adde000000000, 0x3f59812b00000000, + 0x912b15ad00000000, 0x34f8496600000000, 0x8cc84c7b00000000, + 0x291b10b000000000, 0x8769843600000000, 0x22bad8fd00000000, + 0x5a0ff40800000000, 0xffdca8c300000000, 0x51ae3c4500000000, + 0xf47d608e00000000, 0x4c4d659300000000, 0xe99e395800000000, + 0x47ecadde00000000, 0xe23ff11500000000, 0x378da7e400000000, + 0x925efb2f00000000, 0x3c2c6fa900000000, 0x99ff336200000000, + 0x21cf367f00000000, 0x841c6ab400000000, 0x2a6efe3200000000, + 0x8fbda2f900000000, 0xc10d220b00000000, 0x64de7ec000000000, + 0xcaacea4600000000, 0x6f7fb68d00000000, 0xd74fb39000000000, + 0x729cef5b00000000, 0xdcee7bdd00000000, 0x793d271600000000, + 0xac8f71e700000000, 0x095c2d2c00000000, 0xa72eb9aa00000000, + 0x02fde56100000000, 0xbacde07c00000000, 0x1f1ebcb700000000, + 0xb16c283100000000, 0x14bf74fa00000000, 0xd814b01e00000000, + 0x7dc7ecd500000000, 0xd3b5785300000000, 0x7666249800000000, + 0xce56218500000000, 0x6b857d4e00000000, 0xc5f7e9c800000000, + 0x6024b50300000000, 0xb596e3f200000000, 0x1045bf3900000000, + 0xbe372bbf00000000, 0x1be4777400000000, 0xa3d4726900000000, + 0x06072ea200000000, 0xa875ba2400000000, 0x0da6e6ef00000000, + 0x4316661d00000000, 0xe6c53ad600000000, 0x48b7ae5000000000, + 0xed64f29b00000000, 0x5554f78600000000, 0xf087ab4d00000000, + 0x5ef53fcb00000000, 0xfb26630000000000, 0x2e9435f100000000, + 0x8b47693a00000000, 0x2535fdbc00000000, 0x80e6a17700000000, + 0x38d6a46a00000000, 0x9d05f8a100000000, 0x33776c2700000000, + 0x96a430ec00000000, 0xee111c1900000000, 0x4bc240d200000000, + 0xe5b0d45400000000, 0x4063889f00000000, 0xf8538d8200000000, + 0x5d80d14900000000, 0xf3f245cf00000000, 0x5621190400000000, + 0x83934ff500000000, 0x2640133e00000000, 0x883287b800000000, + 0x2de1db7300000000, 0x95d1de6e00000000, 0x300282a500000000, + 0x9e70162300000000, 0x3ba34ae800000000, 0x7513ca1a00000000, + 0xd0c096d100000000, 0x7eb2025700000000, 0xdb615e9c00000000, + 0x63515b8100000000, 0xc682074a00000000, 0x68f093cc00000000, + 0xcd23cf0700000000, 0x189199f600000000, 0xbd42c53d00000000, + 0x133051bb00000000, 0xb6e30d7000000000, 0x0ed3086d00000000, + 0xab0054a600000000, 0x0572c02000000000, 0xa0a19ceb00000000, + 0xb41ee81100000000, 0x11cdb4da00000000, 0xbfbf205c00000000, + 0x1a6c7c9700000000, 0xa25c798a00000000, 0x078f254100000000, + 0xa9fdb1c700000000, 0x0c2eed0c00000000, 0xd99cbbfd00000000, + 0x7c4fe73600000000, 0xd23d73b000000000, 0x77ee2f7b00000000, + 0xcfde2a6600000000, 0x6a0d76ad00000000, 0xc47fe22b00000000, + 0x61acbee000000000, 0x2f1c3e1200000000, 0x8acf62d900000000, + 0x24bdf65f00000000, 0x816eaa9400000000, 0x395eaf8900000000, + 0x9c8df34200000000, 0x32ff67c400000000, 0x972c3b0f00000000, + 0x429e6dfe00000000, 0xe74d313500000000, 0x493fa5b300000000, + 0xececf97800000000, 0x54dcfc6500000000, 0xf10fa0ae00000000, + 0x5f7d342800000000, 0xfaae68e300000000, 0x821b441600000000, + 0x27c818dd00000000, 0x89ba8c5b00000000, 0x2c69d09000000000, + 0x9459d58d00000000, 0x318a894600000000, 0x9ff81dc000000000, + 0x3a2b410b00000000, 0xef9917fa00000000, 0x4a4a4b3100000000, + 0xe438dfb700000000, 0x41eb837c00000000, 0xf9db866100000000, + 0x5c08daaa00000000, 0xf27a4e2c00000000, 0x57a912e700000000, + 0x1919921500000000, 0xbccacede00000000, 0x12b85a5800000000, + 0xb76b069300000000, 0x0f5b038e00000000, 0xaa885f4500000000, + 0x04facbc300000000, 0xa129970800000000, 0x749bc1f900000000, + 0xd1489d3200000000, 0x7f3a09b400000000, 0xdae9557f00000000, + 0x62d9506200000000, 0xc70a0ca900000000, 0x6978982f00000000, + 0xccabc4e400000000}, + {0x0000000000000000, 0xb40b77a600000000, 0x29119f9700000000, + 0x9d1ae83100000000, 0x13244ff400000000, 0xa72f385200000000, + 0x3a35d06300000000, 0x8e3ea7c500000000, 0x674eef3300000000, + 0xd345989500000000, 0x4e5f70a400000000, 0xfa54070200000000, + 0x746aa0c700000000, 0xc061d76100000000, 0x5d7b3f5000000000, + 0xe97048f600000000, 0xce9cde6700000000, 0x7a97a9c100000000, + 0xe78d41f000000000, 0x5386365600000000, 0xddb8919300000000, + 0x69b3e63500000000, 0xf4a90e0400000000, 0x40a279a200000000, + 0xa9d2315400000000, 0x1dd946f200000000, 0x80c3aec300000000, + 0x34c8d96500000000, 0xbaf67ea000000000, 0x0efd090600000000, + 0x93e7e13700000000, 0x27ec969100000000, 0x9c39bdcf00000000, + 0x2832ca6900000000, 0xb528225800000000, 0x012355fe00000000, + 0x8f1df23b00000000, 0x3b16859d00000000, 0xa60c6dac00000000, + 0x12071a0a00000000, 0xfb7752fc00000000, 0x4f7c255a00000000, + 0xd266cd6b00000000, 0x666dbacd00000000, 0xe8531d0800000000, + 0x5c586aae00000000, 0xc142829f00000000, 0x7549f53900000000, + 0x52a563a800000000, 0xe6ae140e00000000, 0x7bb4fc3f00000000, + 0xcfbf8b9900000000, 0x41812c5c00000000, 0xf58a5bfa00000000, + 0x6890b3cb00000000, 0xdc9bc46d00000000, 0x35eb8c9b00000000, + 0x81e0fb3d00000000, 0x1cfa130c00000000, 0xa8f164aa00000000, + 0x26cfc36f00000000, 0x92c4b4c900000000, 0x0fde5cf800000000, + 0xbbd52b5e00000000, 0x79750b4400000000, 0xcd7e7ce200000000, + 0x506494d300000000, 0xe46fe37500000000, 0x6a5144b000000000, + 0xde5a331600000000, 0x4340db2700000000, 0xf74bac8100000000, + 0x1e3be47700000000, 0xaa3093d100000000, 0x372a7be000000000, + 0x83210c4600000000, 0x0d1fab8300000000, 0xb914dc2500000000, + 0x240e341400000000, 0x900543b200000000, 0xb7e9d52300000000, + 0x03e2a28500000000, 0x9ef84ab400000000, 0x2af33d1200000000, + 0xa4cd9ad700000000, 0x10c6ed7100000000, 0x8ddc054000000000, + 0x39d772e600000000, 0xd0a73a1000000000, 0x64ac4db600000000, + 0xf9b6a58700000000, 0x4dbdd22100000000, 0xc38375e400000000, + 0x7788024200000000, 0xea92ea7300000000, 0x5e999dd500000000, + 0xe54cb68b00000000, 0x5147c12d00000000, 0xcc5d291c00000000, + 0x78565eba00000000, 0xf668f97f00000000, 0x42638ed900000000, + 0xdf7966e800000000, 0x6b72114e00000000, 0x820259b800000000, + 0x36092e1e00000000, 0xab13c62f00000000, 0x1f18b18900000000, + 0x9126164c00000000, 0x252d61ea00000000, 0xb83789db00000000, + 0x0c3cfe7d00000000, 0x2bd068ec00000000, 0x9fdb1f4a00000000, + 0x02c1f77b00000000, 0xb6ca80dd00000000, 0x38f4271800000000, + 0x8cff50be00000000, 0x11e5b88f00000000, 0xa5eecf2900000000, + 0x4c9e87df00000000, 0xf895f07900000000, 0x658f184800000000, + 0xd1846fee00000000, 0x5fbac82b00000000, 0xebb1bf8d00000000, + 0x76ab57bc00000000, 0xc2a0201a00000000, 0xf2ea168800000000, + 0x46e1612e00000000, 0xdbfb891f00000000, 0x6ff0feb900000000, + 0xe1ce597c00000000, 0x55c52eda00000000, 0xc8dfc6eb00000000, + 0x7cd4b14d00000000, 0x95a4f9bb00000000, 0x21af8e1d00000000, + 0xbcb5662c00000000, 0x08be118a00000000, 0x8680b64f00000000, + 0x328bc1e900000000, 0xaf9129d800000000, 0x1b9a5e7e00000000, + 0x3c76c8ef00000000, 0x887dbf4900000000, 0x1567577800000000, + 0xa16c20de00000000, 0x2f52871b00000000, 0x9b59f0bd00000000, + 0x0643188c00000000, 0xb2486f2a00000000, 0x5b3827dc00000000, + 0xef33507a00000000, 0x7229b84b00000000, 0xc622cfed00000000, + 0x481c682800000000, 0xfc171f8e00000000, 0x610df7bf00000000, + 0xd506801900000000, 0x6ed3ab4700000000, 0xdad8dce100000000, + 0x47c234d000000000, 0xf3c9437600000000, 0x7df7e4b300000000, + 0xc9fc931500000000, 0x54e67b2400000000, 0xe0ed0c8200000000, + 0x099d447400000000, 0xbd9633d200000000, 0x208cdbe300000000, + 0x9487ac4500000000, 0x1ab90b8000000000, 0xaeb27c2600000000, + 0x33a8941700000000, 0x87a3e3b100000000, 0xa04f752000000000, + 0x1444028600000000, 0x895eeab700000000, 0x3d559d1100000000, + 0xb36b3ad400000000, 0x07604d7200000000, 0x9a7aa54300000000, + 0x2e71d2e500000000, 0xc7019a1300000000, 0x730aedb500000000, + 0xee10058400000000, 0x5a1b722200000000, 0xd425d5e700000000, + 0x602ea24100000000, 0xfd344a7000000000, 0x493f3dd600000000, + 0x8b9f1dcc00000000, 0x3f946a6a00000000, 0xa28e825b00000000, + 0x1685f5fd00000000, 0x98bb523800000000, 0x2cb0259e00000000, + 0xb1aacdaf00000000, 0x05a1ba0900000000, 0xecd1f2ff00000000, + 0x58da855900000000, 0xc5c06d6800000000, 0x71cb1ace00000000, + 0xfff5bd0b00000000, 0x4bfecaad00000000, 0xd6e4229c00000000, + 0x62ef553a00000000, 0x4503c3ab00000000, 0xf108b40d00000000, + 0x6c125c3c00000000, 0xd8192b9a00000000, 0x56278c5f00000000, + 0xe22cfbf900000000, 0x7f3613c800000000, 0xcb3d646e00000000, + 0x224d2c9800000000, 0x96465b3e00000000, 0x0b5cb30f00000000, + 0xbf57c4a900000000, 0x3169636c00000000, 0x856214ca00000000, + 0x1878fcfb00000000, 0xac738b5d00000000, 0x17a6a00300000000, + 0xa3add7a500000000, 0x3eb73f9400000000, 0x8abc483200000000, + 0x0482eff700000000, 0xb089985100000000, 0x2d93706000000000, + 0x999807c600000000, 0x70e84f3000000000, 0xc4e3389600000000, + 0x59f9d0a700000000, 0xedf2a70100000000, 0x63cc00c400000000, + 0xd7c7776200000000, 0x4add9f5300000000, 0xfed6e8f500000000, + 0xd93a7e6400000000, 0x6d3109c200000000, 0xf02be1f300000000, + 0x4420965500000000, 0xca1e319000000000, 0x7e15463600000000, + 0xe30fae0700000000, 0x5704d9a100000000, 0xbe74915700000000, + 0x0a7fe6f100000000, 0x97650ec000000000, 0x236e796600000000, + 0xad50dea300000000, 0x195ba90500000000, 0x8441413400000000, + 0x304a369200000000}, + {0x0000000000000000, 0x9e00aacc00000000, 0x7d07254200000000, + 0xe3078f8e00000000, 0xfa0e4a8400000000, 0x640ee04800000000, + 0x87096fc600000000, 0x1909c50a00000000, 0xb51be5d300000000, + 0x2b1b4f1f00000000, 0xc81cc09100000000, 0x561c6a5d00000000, + 0x4f15af5700000000, 0xd115059b00000000, 0x32128a1500000000, + 0xac1220d900000000, 0x2b31bb7c00000000, 0xb53111b000000000, + 0x56369e3e00000000, 0xc83634f200000000, 0xd13ff1f800000000, + 0x4f3f5b3400000000, 0xac38d4ba00000000, 0x32387e7600000000, + 0x9e2a5eaf00000000, 0x002af46300000000, 0xe32d7bed00000000, + 0x7d2dd12100000000, 0x6424142b00000000, 0xfa24bee700000000, + 0x1923316900000000, 0x87239ba500000000, 0x566276f900000000, + 0xc862dc3500000000, 0x2b6553bb00000000, 0xb565f97700000000, + 0xac6c3c7d00000000, 0x326c96b100000000, 0xd16b193f00000000, + 0x4f6bb3f300000000, 0xe379932a00000000, 0x7d7939e600000000, + 0x9e7eb66800000000, 0x007e1ca400000000, 0x1977d9ae00000000, + 0x8777736200000000, 0x6470fcec00000000, 0xfa70562000000000, + 0x7d53cd8500000000, 0xe353674900000000, 0x0054e8c700000000, + 0x9e54420b00000000, 0x875d870100000000, 0x195d2dcd00000000, + 0xfa5aa24300000000, 0x645a088f00000000, 0xc848285600000000, + 0x5648829a00000000, 0xb54f0d1400000000, 0x2b4fa7d800000000, + 0x324662d200000000, 0xac46c81e00000000, 0x4f41479000000000, + 0xd141ed5c00000000, 0xedc29d2900000000, 0x73c237e500000000, + 0x90c5b86b00000000, 0x0ec512a700000000, 0x17ccd7ad00000000, + 0x89cc7d6100000000, 0x6acbf2ef00000000, 0xf4cb582300000000, + 0x58d978fa00000000, 0xc6d9d23600000000, 0x25de5db800000000, + 0xbbdef77400000000, 0xa2d7327e00000000, 0x3cd798b200000000, + 0xdfd0173c00000000, 0x41d0bdf000000000, 0xc6f3265500000000, + 0x58f38c9900000000, 0xbbf4031700000000, 0x25f4a9db00000000, + 0x3cfd6cd100000000, 0xa2fdc61d00000000, 0x41fa499300000000, + 0xdffae35f00000000, 0x73e8c38600000000, 0xede8694a00000000, + 0x0eefe6c400000000, 0x90ef4c0800000000, 0x89e6890200000000, + 0x17e623ce00000000, 0xf4e1ac4000000000, 0x6ae1068c00000000, + 0xbba0ebd000000000, 0x25a0411c00000000, 0xc6a7ce9200000000, + 0x58a7645e00000000, 0x41aea15400000000, 0xdfae0b9800000000, + 0x3ca9841600000000, 0xa2a92eda00000000, 0x0ebb0e0300000000, + 0x90bba4cf00000000, 0x73bc2b4100000000, 0xedbc818d00000000, + 0xf4b5448700000000, 0x6ab5ee4b00000000, 0x89b261c500000000, + 0x17b2cb0900000000, 0x909150ac00000000, 0x0e91fa6000000000, + 0xed9675ee00000000, 0x7396df2200000000, 0x6a9f1a2800000000, + 0xf49fb0e400000000, 0x17983f6a00000000, 0x899895a600000000, + 0x258ab57f00000000, 0xbb8a1fb300000000, 0x588d903d00000000, + 0xc68d3af100000000, 0xdf84fffb00000000, 0x4184553700000000, + 0xa283dab900000000, 0x3c83707500000000, 0xda853b5300000000, + 0x4485919f00000000, 0xa7821e1100000000, 0x3982b4dd00000000, + 0x208b71d700000000, 0xbe8bdb1b00000000, 0x5d8c549500000000, + 0xc38cfe5900000000, 0x6f9ede8000000000, 0xf19e744c00000000, + 0x1299fbc200000000, 0x8c99510e00000000, 0x9590940400000000, + 0x0b903ec800000000, 0xe897b14600000000, 0x76971b8a00000000, + 0xf1b4802f00000000, 0x6fb42ae300000000, 0x8cb3a56d00000000, + 0x12b30fa100000000, 0x0bbacaab00000000, 0x95ba606700000000, + 0x76bdefe900000000, 0xe8bd452500000000, 0x44af65fc00000000, + 0xdaafcf3000000000, 0x39a840be00000000, 0xa7a8ea7200000000, + 0xbea12f7800000000, 0x20a185b400000000, 0xc3a60a3a00000000, + 0x5da6a0f600000000, 0x8ce74daa00000000, 0x12e7e76600000000, + 0xf1e068e800000000, 0x6fe0c22400000000, 0x76e9072e00000000, + 0xe8e9ade200000000, 0x0bee226c00000000, 0x95ee88a000000000, + 0x39fca87900000000, 0xa7fc02b500000000, 0x44fb8d3b00000000, + 0xdafb27f700000000, 0xc3f2e2fd00000000, 0x5df2483100000000, + 0xbef5c7bf00000000, 0x20f56d7300000000, 0xa7d6f6d600000000, + 0x39d65c1a00000000, 0xdad1d39400000000, 0x44d1795800000000, + 0x5dd8bc5200000000, 0xc3d8169e00000000, 0x20df991000000000, + 0xbedf33dc00000000, 0x12cd130500000000, 0x8ccdb9c900000000, + 0x6fca364700000000, 0xf1ca9c8b00000000, 0xe8c3598100000000, + 0x76c3f34d00000000, 0x95c47cc300000000, 0x0bc4d60f00000000, + 0x3747a67a00000000, 0xa9470cb600000000, 0x4a40833800000000, + 0xd44029f400000000, 0xcd49ecfe00000000, 0x5349463200000000, + 0xb04ec9bc00000000, 0x2e4e637000000000, 0x825c43a900000000, + 0x1c5ce96500000000, 0xff5b66eb00000000, 0x615bcc2700000000, + 0x7852092d00000000, 0xe652a3e100000000, 0x05552c6f00000000, + 0x9b5586a300000000, 0x1c761d0600000000, 0x8276b7ca00000000, + 0x6171384400000000, 0xff71928800000000, 0xe678578200000000, + 0x7878fd4e00000000, 0x9b7f72c000000000, 0x057fd80c00000000, + 0xa96df8d500000000, 0x376d521900000000, 0xd46add9700000000, + 0x4a6a775b00000000, 0x5363b25100000000, 0xcd63189d00000000, + 0x2e64971300000000, 0xb0643ddf00000000, 0x6125d08300000000, + 0xff257a4f00000000, 0x1c22f5c100000000, 0x82225f0d00000000, + 0x9b2b9a0700000000, 0x052b30cb00000000, 0xe62cbf4500000000, + 0x782c158900000000, 0xd43e355000000000, 0x4a3e9f9c00000000, + 0xa939101200000000, 0x3739bade00000000, 0x2e307fd400000000, + 0xb030d51800000000, 0x53375a9600000000, 0xcd37f05a00000000, + 0x4a146bff00000000, 0xd414c13300000000, 0x37134ebd00000000, + 0xa913e47100000000, 0xb01a217b00000000, 0x2e1a8bb700000000, + 0xcd1d043900000000, 0x531daef500000000, 0xff0f8e2c00000000, + 0x610f24e000000000, 0x8208ab6e00000000, 0x1c0801a200000000, + 0x0501c4a800000000, 0x9b016e6400000000, 0x7806e1ea00000000, + 0xe6064b2600000000}}; + +#else /* W == 4 */ + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0xb8bc6765, 0xaa09c88b, 0x12b5afee, 0x8f629757, + 0x37def032, 0x256b5fdc, 0x9dd738b9, 0xc5b428ef, 0x7d084f8a, + 0x6fbde064, 0xd7018701, 0x4ad6bfb8, 0xf26ad8dd, 0xe0df7733, + 0x58631056, 0x5019579f, 0xe8a530fa, 0xfa109f14, 0x42acf871, + 0xdf7bc0c8, 0x67c7a7ad, 0x75720843, 0xcdce6f26, 0x95ad7f70, + 0x2d111815, 0x3fa4b7fb, 0x8718d09e, 0x1acfe827, 0xa2738f42, + 0xb0c620ac, 0x087a47c9, 0xa032af3e, 0x188ec85b, 0x0a3b67b5, + 0xb28700d0, 0x2f503869, 0x97ec5f0c, 0x8559f0e2, 0x3de59787, + 0x658687d1, 0xdd3ae0b4, 0xcf8f4f5a, 0x7733283f, 0xeae41086, + 0x525877e3, 0x40edd80d, 0xf851bf68, 0xf02bf8a1, 0x48979fc4, + 0x5a22302a, 0xe29e574f, 0x7f496ff6, 0xc7f50893, 0xd540a77d, + 0x6dfcc018, 0x359fd04e, 0x8d23b72b, 0x9f9618c5, 0x272a7fa0, + 0xbafd4719, 0x0241207c, 0x10f48f92, 0xa848e8f7, 0x9b14583d, + 0x23a83f58, 0x311d90b6, 0x89a1f7d3, 0x1476cf6a, 0xaccaa80f, + 0xbe7f07e1, 0x06c36084, 0x5ea070d2, 0xe61c17b7, 0xf4a9b859, + 0x4c15df3c, 0xd1c2e785, 0x697e80e0, 0x7bcb2f0e, 0xc377486b, + 0xcb0d0fa2, 0x73b168c7, 0x6104c729, 0xd9b8a04c, 0x446f98f5, + 0xfcd3ff90, 0xee66507e, 0x56da371b, 0x0eb9274d, 0xb6054028, + 0xa4b0efc6, 0x1c0c88a3, 0x81dbb01a, 0x3967d77f, 0x2bd27891, + 0x936e1ff4, 0x3b26f703, 0x839a9066, 0x912f3f88, 0x299358ed, + 0xb4446054, 0x0cf80731, 0x1e4da8df, 0xa6f1cfba, 0xfe92dfec, + 0x462eb889, 0x549b1767, 0xec277002, 0x71f048bb, 0xc94c2fde, + 0xdbf98030, 0x6345e755, 0x6b3fa09c, 0xd383c7f9, 0xc1366817, + 0x798a0f72, 0xe45d37cb, 0x5ce150ae, 0x4e54ff40, 0xf6e89825, + 0xae8b8873, 0x1637ef16, 0x048240f8, 0xbc3e279d, 0x21e91f24, + 0x99557841, 0x8be0d7af, 0x335cb0ca, 0xed59b63b, 0x55e5d15e, + 0x47507eb0, 0xffec19d5, 0x623b216c, 0xda874609, 0xc832e9e7, + 0x708e8e82, 0x28ed9ed4, 0x9051f9b1, 0x82e4565f, 0x3a58313a, + 0xa78f0983, 0x1f336ee6, 0x0d86c108, 0xb53aa66d, 0xbd40e1a4, + 0x05fc86c1, 0x1749292f, 0xaff54e4a, 0x322276f3, 0x8a9e1196, + 0x982bbe78, 0x2097d91d, 0x78f4c94b, 0xc048ae2e, 0xd2fd01c0, + 0x6a4166a5, 0xf7965e1c, 0x4f2a3979, 0x5d9f9697, 0xe523f1f2, + 0x4d6b1905, 0xf5d77e60, 0xe762d18e, 0x5fdeb6eb, 0xc2098e52, + 0x7ab5e937, 0x680046d9, 0xd0bc21bc, 0x88df31ea, 0x3063568f, + 0x22d6f961, 0x9a6a9e04, 0x07bda6bd, 0xbf01c1d8, 0xadb46e36, + 0x15080953, 0x1d724e9a, 0xa5ce29ff, 0xb77b8611, 0x0fc7e174, + 0x9210d9cd, 0x2aacbea8, 0x38191146, 0x80a57623, 0xd8c66675, + 0x607a0110, 0x72cfaefe, 0xca73c99b, 0x57a4f122, 0xef189647, + 0xfdad39a9, 0x45115ecc, 0x764dee06, 0xcef18963, 0xdc44268d, + 0x64f841e8, 0xf92f7951, 0x41931e34, 0x5326b1da, 0xeb9ad6bf, + 0xb3f9c6e9, 0x0b45a18c, 0x19f00e62, 0xa14c6907, 0x3c9b51be, + 0x842736db, 0x96929935, 0x2e2efe50, 0x2654b999, 0x9ee8defc, + 0x8c5d7112, 0x34e11677, 0xa9362ece, 0x118a49ab, 0x033fe645, + 0xbb838120, 0xe3e09176, 0x5b5cf613, 0x49e959fd, 0xf1553e98, + 0x6c820621, 0xd43e6144, 0xc68bceaa, 0x7e37a9cf, 0xd67f4138, + 0x6ec3265d, 0x7c7689b3, 0xc4caeed6, 0x591dd66f, 0xe1a1b10a, + 0xf3141ee4, 0x4ba87981, 0x13cb69d7, 0xab770eb2, 0xb9c2a15c, + 0x017ec639, 0x9ca9fe80, 0x241599e5, 0x36a0360b, 0x8e1c516e, + 0x866616a7, 0x3eda71c2, 0x2c6fde2c, 0x94d3b949, 0x090481f0, + 0xb1b8e695, 0xa30d497b, 0x1bb12e1e, 0x43d23e48, 0xfb6e592d, + 0xe9dbf6c3, 0x516791a6, 0xccb0a91f, 0x740cce7a, 0x66b96194, + 0xde0506f1}, + {0x00000000, 0x01c26a37, 0x0384d46e, 0x0246be59, 0x0709a8dc, + 0x06cbc2eb, 0x048d7cb2, 0x054f1685, 0x0e1351b8, 0x0fd13b8f, + 0x0d9785d6, 0x0c55efe1, 0x091af964, 0x08d89353, 0x0a9e2d0a, + 0x0b5c473d, 0x1c26a370, 0x1de4c947, 0x1fa2771e, 0x1e601d29, + 0x1b2f0bac, 0x1aed619b, 0x18abdfc2, 0x1969b5f5, 0x1235f2c8, + 0x13f798ff, 0x11b126a6, 0x10734c91, 0x153c5a14, 0x14fe3023, + 0x16b88e7a, 0x177ae44d, 0x384d46e0, 0x398f2cd7, 0x3bc9928e, + 0x3a0bf8b9, 0x3f44ee3c, 0x3e86840b, 0x3cc03a52, 0x3d025065, + 0x365e1758, 0x379c7d6f, 0x35dac336, 0x3418a901, 0x3157bf84, + 0x3095d5b3, 0x32d36bea, 0x331101dd, 0x246be590, 0x25a98fa7, + 0x27ef31fe, 0x262d5bc9, 0x23624d4c, 0x22a0277b, 0x20e69922, + 0x2124f315, 0x2a78b428, 0x2bbade1f, 0x29fc6046, 0x283e0a71, + 0x2d711cf4, 0x2cb376c3, 0x2ef5c89a, 0x2f37a2ad, 0x709a8dc0, + 0x7158e7f7, 0x731e59ae, 0x72dc3399, 0x7793251c, 0x76514f2b, + 0x7417f172, 0x75d59b45, 0x7e89dc78, 0x7f4bb64f, 0x7d0d0816, + 0x7ccf6221, 0x798074a4, 0x78421e93, 0x7a04a0ca, 0x7bc6cafd, + 0x6cbc2eb0, 0x6d7e4487, 0x6f38fade, 0x6efa90e9, 0x6bb5866c, + 0x6a77ec5b, 0x68315202, 0x69f33835, 0x62af7f08, 0x636d153f, + 0x612bab66, 0x60e9c151, 0x65a6d7d4, 0x6464bde3, 0x662203ba, + 0x67e0698d, 0x48d7cb20, 0x4915a117, 0x4b531f4e, 0x4a917579, + 0x4fde63fc, 0x4e1c09cb, 0x4c5ab792, 0x4d98dda5, 0x46c49a98, + 0x4706f0af, 0x45404ef6, 0x448224c1, 0x41cd3244, 0x400f5873, + 0x4249e62a, 0x438b8c1d, 0x54f16850, 0x55330267, 0x5775bc3e, + 0x56b7d609, 0x53f8c08c, 0x523aaabb, 0x507c14e2, 0x51be7ed5, + 0x5ae239e8, 0x5b2053df, 0x5966ed86, 0x58a487b1, 0x5deb9134, + 0x5c29fb03, 0x5e6f455a, 0x5fad2f6d, 0xe1351b80, 0xe0f771b7, + 0xe2b1cfee, 0xe373a5d9, 0xe63cb35c, 0xe7fed96b, 0xe5b86732, + 0xe47a0d05, 0xef264a38, 0xeee4200f, 0xeca29e56, 0xed60f461, + 0xe82fe2e4, 0xe9ed88d3, 0xebab368a, 0xea695cbd, 0xfd13b8f0, + 0xfcd1d2c7, 0xfe976c9e, 0xff5506a9, 0xfa1a102c, 0xfbd87a1b, + 0xf99ec442, 0xf85cae75, 0xf300e948, 0xf2c2837f, 0xf0843d26, + 0xf1465711, 0xf4094194, 0xf5cb2ba3, 0xf78d95fa, 0xf64fffcd, + 0xd9785d60, 0xd8ba3757, 0xdafc890e, 0xdb3ee339, 0xde71f5bc, + 0xdfb39f8b, 0xddf521d2, 0xdc374be5, 0xd76b0cd8, 0xd6a966ef, + 0xd4efd8b6, 0xd52db281, 0xd062a404, 0xd1a0ce33, 0xd3e6706a, + 0xd2241a5d, 0xc55efe10, 0xc49c9427, 0xc6da2a7e, 0xc7184049, + 0xc25756cc, 0xc3953cfb, 0xc1d382a2, 0xc011e895, 0xcb4dafa8, + 0xca8fc59f, 0xc8c97bc6, 0xc90b11f1, 0xcc440774, 0xcd866d43, + 0xcfc0d31a, 0xce02b92d, 0x91af9640, 0x906dfc77, 0x922b422e, + 0x93e92819, 0x96a63e9c, 0x976454ab, 0x9522eaf2, 0x94e080c5, + 0x9fbcc7f8, 0x9e7eadcf, 0x9c381396, 0x9dfa79a1, 0x98b56f24, + 0x99770513, 0x9b31bb4a, 0x9af3d17d, 0x8d893530, 0x8c4b5f07, + 0x8e0de15e, 0x8fcf8b69, 0x8a809dec, 0x8b42f7db, 0x89044982, + 0x88c623b5, 0x839a6488, 0x82580ebf, 0x801eb0e6, 0x81dcdad1, + 0x8493cc54, 0x8551a663, 0x8717183a, 0x86d5720d, 0xa9e2d0a0, + 0xa820ba97, 0xaa6604ce, 0xaba46ef9, 0xaeeb787c, 0xaf29124b, + 0xad6fac12, 0xacadc625, 0xa7f18118, 0xa633eb2f, 0xa4755576, + 0xa5b73f41, 0xa0f829c4, 0xa13a43f3, 0xa37cfdaa, 0xa2be979d, + 0xb5c473d0, 0xb40619e7, 0xb640a7be, 0xb782cd89, 0xb2cddb0c, + 0xb30fb13b, 0xb1490f62, 0xb08b6555, 0xbbd72268, 0xba15485f, + 0xb853f606, 0xb9919c31, 0xbcde8ab4, 0xbd1ce083, 0xbf5a5eda, + 0xbe9834ed}, + {0x00000000, 0x191b3141, 0x32366282, 0x2b2d53c3, 0x646cc504, + 0x7d77f445, 0x565aa786, 0x4f4196c7, 0xc8d98a08, 0xd1c2bb49, + 0xfaefe88a, 0xe3f4d9cb, 0xacb54f0c, 0xb5ae7e4d, 0x9e832d8e, + 0x87981ccf, 0x4ac21251, 0x53d92310, 0x78f470d3, 0x61ef4192, + 0x2eaed755, 0x37b5e614, 0x1c98b5d7, 0x05838496, 0x821b9859, + 0x9b00a918, 0xb02dfadb, 0xa936cb9a, 0xe6775d5d, 0xff6c6c1c, + 0xd4413fdf, 0xcd5a0e9e, 0x958424a2, 0x8c9f15e3, 0xa7b24620, + 0xbea97761, 0xf1e8e1a6, 0xe8f3d0e7, 0xc3de8324, 0xdac5b265, + 0x5d5daeaa, 0x44469feb, 0x6f6bcc28, 0x7670fd69, 0x39316bae, + 0x202a5aef, 0x0b07092c, 0x121c386d, 0xdf4636f3, 0xc65d07b2, + 0xed705471, 0xf46b6530, 0xbb2af3f7, 0xa231c2b6, 0x891c9175, + 0x9007a034, 0x179fbcfb, 0x0e848dba, 0x25a9de79, 0x3cb2ef38, + 0x73f379ff, 0x6ae848be, 0x41c51b7d, 0x58de2a3c, 0xf0794f05, + 0xe9627e44, 0xc24f2d87, 0xdb541cc6, 0x94158a01, 0x8d0ebb40, + 0xa623e883, 0xbf38d9c2, 0x38a0c50d, 0x21bbf44c, 0x0a96a78f, + 0x138d96ce, 0x5ccc0009, 0x45d73148, 0x6efa628b, 0x77e153ca, + 0xbabb5d54, 0xa3a06c15, 0x888d3fd6, 0x91960e97, 0xded79850, + 0xc7cca911, 0xece1fad2, 0xf5facb93, 0x7262d75c, 0x6b79e61d, + 0x4054b5de, 0x594f849f, 0x160e1258, 0x0f152319, 0x243870da, + 0x3d23419b, 0x65fd6ba7, 0x7ce65ae6, 0x57cb0925, 0x4ed03864, + 0x0191aea3, 0x188a9fe2, 0x33a7cc21, 0x2abcfd60, 0xad24e1af, + 0xb43fd0ee, 0x9f12832d, 0x8609b26c, 0xc94824ab, 0xd05315ea, + 0xfb7e4629, 0xe2657768, 0x2f3f79f6, 0x362448b7, 0x1d091b74, + 0x04122a35, 0x4b53bcf2, 0x52488db3, 0x7965de70, 0x607eef31, + 0xe7e6f3fe, 0xfefdc2bf, 0xd5d0917c, 0xcccba03d, 0x838a36fa, + 0x9a9107bb, 0xb1bc5478, 0xa8a76539, 0x3b83984b, 0x2298a90a, + 0x09b5fac9, 0x10aecb88, 0x5fef5d4f, 0x46f46c0e, 0x6dd93fcd, + 0x74c20e8c, 0xf35a1243, 0xea412302, 0xc16c70c1, 0xd8774180, + 0x9736d747, 0x8e2de606, 0xa500b5c5, 0xbc1b8484, 0x71418a1a, + 0x685abb5b, 0x4377e898, 0x5a6cd9d9, 0x152d4f1e, 0x0c367e5f, + 0x271b2d9c, 0x3e001cdd, 0xb9980012, 0xa0833153, 0x8bae6290, + 0x92b553d1, 0xddf4c516, 0xc4eff457, 0xefc2a794, 0xf6d996d5, + 0xae07bce9, 0xb71c8da8, 0x9c31de6b, 0x852aef2a, 0xca6b79ed, + 0xd37048ac, 0xf85d1b6f, 0xe1462a2e, 0x66de36e1, 0x7fc507a0, + 0x54e85463, 0x4df36522, 0x02b2f3e5, 0x1ba9c2a4, 0x30849167, + 0x299fa026, 0xe4c5aeb8, 0xfdde9ff9, 0xd6f3cc3a, 0xcfe8fd7b, + 0x80a96bbc, 0x99b25afd, 0xb29f093e, 0xab84387f, 0x2c1c24b0, + 0x350715f1, 0x1e2a4632, 0x07317773, 0x4870e1b4, 0x516bd0f5, + 0x7a468336, 0x635db277, 0xcbfad74e, 0xd2e1e60f, 0xf9ccb5cc, + 0xe0d7848d, 0xaf96124a, 0xb68d230b, 0x9da070c8, 0x84bb4189, + 0x03235d46, 0x1a386c07, 0x31153fc4, 0x280e0e85, 0x674f9842, + 0x7e54a903, 0x5579fac0, 0x4c62cb81, 0x8138c51f, 0x9823f45e, + 0xb30ea79d, 0xaa1596dc, 0xe554001b, 0xfc4f315a, 0xd7626299, + 0xce7953d8, 0x49e14f17, 0x50fa7e56, 0x7bd72d95, 0x62cc1cd4, + 0x2d8d8a13, 0x3496bb52, 0x1fbbe891, 0x06a0d9d0, 0x5e7ef3ec, + 0x4765c2ad, 0x6c48916e, 0x7553a02f, 0x3a1236e8, 0x230907a9, + 0x0824546a, 0x113f652b, 0x96a779e4, 0x8fbc48a5, 0xa4911b66, + 0xbd8a2a27, 0xf2cbbce0, 0xebd08da1, 0xc0fdde62, 0xd9e6ef23, + 0x14bce1bd, 0x0da7d0fc, 0x268a833f, 0x3f91b27e, 0x70d024b9, + 0x69cb15f8, 0x42e6463b, 0x5bfd777a, 0xdc656bb5, 0xc57e5af4, + 0xee530937, 0xf7483876, 0xb809aeb1, 0xa1129ff0, 0x8a3fcc33, + 0x9324fd72}, + {0x00000000, 0x77073096, 0xee0e612c, 0x990951ba, 0x076dc419, + 0x706af48f, 0xe963a535, 0x9e6495a3, 0x0edb8832, 0x79dcb8a4, + 0xe0d5e91e, 0x97d2d988, 0x09b64c2b, 0x7eb17cbd, 0xe7b82d07, + 0x90bf1d91, 0x1db71064, 0x6ab020f2, 0xf3b97148, 0x84be41de, + 0x1adad47d, 0x6ddde4eb, 0xf4d4b551, 0x83d385c7, 0x136c9856, + 0x646ba8c0, 0xfd62f97a, 0x8a65c9ec, 0x14015c4f, 0x63066cd9, + 0xfa0f3d63, 0x8d080df5, 0x3b6e20c8, 0x4c69105e, 0xd56041e4, + 0xa2677172, 0x3c03e4d1, 0x4b04d447, 0xd20d85fd, 0xa50ab56b, + 0x35b5a8fa, 0x42b2986c, 0xdbbbc9d6, 0xacbcf940, 0x32d86ce3, + 0x45df5c75, 0xdcd60dcf, 0xabd13d59, 0x26d930ac, 0x51de003a, + 0xc8d75180, 0xbfd06116, 0x21b4f4b5, 0x56b3c423, 0xcfba9599, + 0xb8bda50f, 0x2802b89e, 0x5f058808, 0xc60cd9b2, 0xb10be924, + 0x2f6f7c87, 0x58684c11, 0xc1611dab, 0xb6662d3d, 0x76dc4190, + 0x01db7106, 0x98d220bc, 0xefd5102a, 0x71b18589, 0x06b6b51f, + 0x9fbfe4a5, 0xe8b8d433, 0x7807c9a2, 0x0f00f934, 0x9609a88e, + 0xe10e9818, 0x7f6a0dbb, 0x086d3d2d, 0x91646c97, 0xe6635c01, + 0x6b6b51f4, 0x1c6c6162, 0x856530d8, 0xf262004e, 0x6c0695ed, + 0x1b01a57b, 0x8208f4c1, 0xf50fc457, 0x65b0d9c6, 0x12b7e950, + 0x8bbeb8ea, 0xfcb9887c, 0x62dd1ddf, 0x15da2d49, 0x8cd37cf3, + 0xfbd44c65, 0x4db26158, 0x3ab551ce, 0xa3bc0074, 0xd4bb30e2, + 0x4adfa541, 0x3dd895d7, 0xa4d1c46d, 0xd3d6f4fb, 0x4369e96a, + 0x346ed9fc, 0xad678846, 0xda60b8d0, 0x44042d73, 0x33031de5, + 0xaa0a4c5f, 0xdd0d7cc9, 0x5005713c, 0x270241aa, 0xbe0b1010, + 0xc90c2086, 0x5768b525, 0x206f85b3, 0xb966d409, 0xce61e49f, + 0x5edef90e, 0x29d9c998, 0xb0d09822, 0xc7d7a8b4, 0x59b33d17, + 0x2eb40d81, 0xb7bd5c3b, 0xc0ba6cad, 0xedb88320, 0x9abfb3b6, + 0x03b6e20c, 0x74b1d29a, 0xead54739, 0x9dd277af, 0x04db2615, + 0x73dc1683, 0xe3630b12, 0x94643b84, 0x0d6d6a3e, 0x7a6a5aa8, + 0xe40ecf0b, 0x9309ff9d, 0x0a00ae27, 0x7d079eb1, 0xf00f9344, + 0x8708a3d2, 0x1e01f268, 0x6906c2fe, 0xf762575d, 0x806567cb, + 0x196c3671, 0x6e6b06e7, 0xfed41b76, 0x89d32be0, 0x10da7a5a, + 0x67dd4acc, 0xf9b9df6f, 0x8ebeeff9, 0x17b7be43, 0x60b08ed5, + 0xd6d6a3e8, 0xa1d1937e, 0x38d8c2c4, 0x4fdff252, 0xd1bb67f1, + 0xa6bc5767, 0x3fb506dd, 0x48b2364b, 0xd80d2bda, 0xaf0a1b4c, + 0x36034af6, 0x41047a60, 0xdf60efc3, 0xa867df55, 0x316e8eef, + 0x4669be79, 0xcb61b38c, 0xbc66831a, 0x256fd2a0, 0x5268e236, + 0xcc0c7795, 0xbb0b4703, 0x220216b9, 0x5505262f, 0xc5ba3bbe, + 0xb2bd0b28, 0x2bb45a92, 0x5cb36a04, 0xc2d7ffa7, 0xb5d0cf31, + 0x2cd99e8b, 0x5bdeae1d, 0x9b64c2b0, 0xec63f226, 0x756aa39c, + 0x026d930a, 0x9c0906a9, 0xeb0e363f, 0x72076785, 0x05005713, + 0x95bf4a82, 0xe2b87a14, 0x7bb12bae, 0x0cb61b38, 0x92d28e9b, + 0xe5d5be0d, 0x7cdcefb7, 0x0bdbdf21, 0x86d3d2d4, 0xf1d4e242, + 0x68ddb3f8, 0x1fda836e, 0x81be16cd, 0xf6b9265b, 0x6fb077e1, + 0x18b74777, 0x88085ae6, 0xff0f6a70, 0x66063bca, 0x11010b5c, + 0x8f659eff, 0xf862ae69, 0x616bffd3, 0x166ccf45, 0xa00ae278, + 0xd70dd2ee, 0x4e048354, 0x3903b3c2, 0xa7672661, 0xd06016f7, + 0x4969474d, 0x3e6e77db, 0xaed16a4a, 0xd9d65adc, 0x40df0b66, + 0x37d83bf0, 0xa9bcae53, 0xdebb9ec5, 0x47b2cf7f, 0x30b5ffe9, + 0xbdbdf21c, 0xcabac28a, 0x53b39330, 0x24b4a3a6, 0xbad03605, + 0xcdd70693, 0x54de5729, 0x23d967bf, 0xb3667a2e, 0xc4614ab8, + 0x5d681b02, 0x2a6f2b94, 0xb40bbe37, 0xc30c8ea1, 0x5a05df1b, + 0x2d02ef8d}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x00000000, 0x96300777, 0x2c610eee, 0xba510999, 0x19c46d07, + 0x8ff46a70, 0x35a563e9, 0xa395649e, 0x3288db0e, 0xa4b8dc79, + 0x1ee9d5e0, 0x88d9d297, 0x2b4cb609, 0xbd7cb17e, 0x072db8e7, + 0x911dbf90, 0x6410b71d, 0xf220b06a, 0x4871b9f3, 0xde41be84, + 0x7dd4da1a, 0xebe4dd6d, 0x51b5d4f4, 0xc785d383, 0x56986c13, + 0xc0a86b64, 0x7af962fd, 0xecc9658a, 0x4f5c0114, 0xd96c0663, + 0x633d0ffa, 0xf50d088d, 0xc8206e3b, 0x5e10694c, 0xe44160d5, + 0x727167a2, 0xd1e4033c, 0x47d4044b, 0xfd850dd2, 0x6bb50aa5, + 0xfaa8b535, 0x6c98b242, 0xd6c9bbdb, 0x40f9bcac, 0xe36cd832, + 0x755cdf45, 0xcf0dd6dc, 0x593dd1ab, 0xac30d926, 0x3a00de51, + 0x8051d7c8, 0x1661d0bf, 0xb5f4b421, 0x23c4b356, 0x9995bacf, + 0x0fa5bdb8, 0x9eb80228, 0x0888055f, 0xb2d90cc6, 0x24e90bb1, + 0x877c6f2f, 0x114c6858, 0xab1d61c1, 0x3d2d66b6, 0x9041dc76, + 0x0671db01, 0xbc20d298, 0x2a10d5ef, 0x8985b171, 0x1fb5b606, + 0xa5e4bf9f, 0x33d4b8e8, 0xa2c90778, 0x34f9000f, 0x8ea80996, + 0x18980ee1, 0xbb0d6a7f, 0x2d3d6d08, 0x976c6491, 0x015c63e6, + 0xf4516b6b, 0x62616c1c, 0xd8306585, 0x4e0062f2, 0xed95066c, + 0x7ba5011b, 0xc1f40882, 0x57c40ff5, 0xc6d9b065, 0x50e9b712, + 0xeab8be8b, 0x7c88b9fc, 0xdf1ddd62, 0x492dda15, 0xf37cd38c, + 0x654cd4fb, 0x5861b24d, 0xce51b53a, 0x7400bca3, 0xe230bbd4, + 0x41a5df4a, 0xd795d83d, 0x6dc4d1a4, 0xfbf4d6d3, 0x6ae96943, + 0xfcd96e34, 0x468867ad, 0xd0b860da, 0x732d0444, 0xe51d0333, + 0x5f4c0aaa, 0xc97c0ddd, 0x3c710550, 0xaa410227, 0x10100bbe, + 0x86200cc9, 0x25b56857, 0xb3856f20, 0x09d466b9, 0x9fe461ce, + 0x0ef9de5e, 0x98c9d929, 0x2298d0b0, 0xb4a8d7c7, 0x173db359, + 0x810db42e, 0x3b5cbdb7, 0xad6cbac0, 0x2083b8ed, 0xb6b3bf9a, + 0x0ce2b603, 0x9ad2b174, 0x3947d5ea, 0xaf77d29d, 0x1526db04, + 0x8316dc73, 0x120b63e3, 0x843b6494, 0x3e6a6d0d, 0xa85a6a7a, + 0x0bcf0ee4, 0x9dff0993, 0x27ae000a, 0xb19e077d, 0x44930ff0, + 0xd2a30887, 0x68f2011e, 0xfec20669, 0x5d5762f7, 0xcb676580, + 0x71366c19, 0xe7066b6e, 0x761bd4fe, 0xe02bd389, 0x5a7ada10, + 0xcc4add67, 0x6fdfb9f9, 0xf9efbe8e, 0x43beb717, 0xd58eb060, + 0xe8a3d6d6, 0x7e93d1a1, 0xc4c2d838, 0x52f2df4f, 0xf167bbd1, + 0x6757bca6, 0xdd06b53f, 0x4b36b248, 0xda2b0dd8, 0x4c1b0aaf, + 0xf64a0336, 0x607a0441, 0xc3ef60df, 0x55df67a8, 0xef8e6e31, + 0x79be6946, 0x8cb361cb, 0x1a8366bc, 0xa0d26f25, 0x36e26852, + 0x95770ccc, 0x03470bbb, 0xb9160222, 0x2f260555, 0xbe3bbac5, + 0x280bbdb2, 0x925ab42b, 0x046ab35c, 0xa7ffd7c2, 0x31cfd0b5, + 0x8b9ed92c, 0x1daede5b, 0xb0c2649b, 0x26f263ec, 0x9ca36a75, + 0x0a936d02, 0xa906099c, 0x3f360eeb, 0x85670772, 0x13570005, + 0x824abf95, 0x147ab8e2, 0xae2bb17b, 0x381bb60c, 0x9b8ed292, + 0x0dbed5e5, 0xb7efdc7c, 0x21dfdb0b, 0xd4d2d386, 0x42e2d4f1, + 0xf8b3dd68, 0x6e83da1f, 0xcd16be81, 0x5b26b9f6, 0xe177b06f, + 0x7747b718, 0xe65a0888, 0x706a0fff, 0xca3b0666, 0x5c0b0111, + 0xff9e658f, 0x69ae62f8, 0xd3ff6b61, 0x45cf6c16, 0x78e20aa0, + 0xeed20dd7, 0x5483044e, 0xc2b30339, 0x612667a7, 0xf71660d0, + 0x4d476949, 0xdb776e3e, 0x4a6ad1ae, 0xdc5ad6d9, 0x660bdf40, + 0xf03bd837, 0x53aebca9, 0xc59ebbde, 0x7fcfb247, 0xe9ffb530, + 0x1cf2bdbd, 0x8ac2baca, 0x3093b353, 0xa6a3b424, 0x0536d0ba, + 0x9306d7cd, 0x2957de54, 0xbf67d923, 0x2e7a66b3, 0xb84a61c4, + 0x021b685d, 0x942b6f2a, 0x37be0bb4, 0xa18e0cc3, 0x1bdf055a, + 0x8def022d}, + {0x00000000, 0x41311b19, 0x82623632, 0xc3532d2b, 0x04c56c64, + 0x45f4777d, 0x86a75a56, 0xc796414f, 0x088ad9c8, 0x49bbc2d1, + 0x8ae8effa, 0xcbd9f4e3, 0x0c4fb5ac, 0x4d7eaeb5, 0x8e2d839e, + 0xcf1c9887, 0x5112c24a, 0x1023d953, 0xd370f478, 0x9241ef61, + 0x55d7ae2e, 0x14e6b537, 0xd7b5981c, 0x96848305, 0x59981b82, + 0x18a9009b, 0xdbfa2db0, 0x9acb36a9, 0x5d5d77e6, 0x1c6c6cff, + 0xdf3f41d4, 0x9e0e5acd, 0xa2248495, 0xe3159f8c, 0x2046b2a7, + 0x6177a9be, 0xa6e1e8f1, 0xe7d0f3e8, 0x2483dec3, 0x65b2c5da, + 0xaaae5d5d, 0xeb9f4644, 0x28cc6b6f, 0x69fd7076, 0xae6b3139, + 0xef5a2a20, 0x2c09070b, 0x6d381c12, 0xf33646df, 0xb2075dc6, + 0x715470ed, 0x30656bf4, 0xf7f32abb, 0xb6c231a2, 0x75911c89, + 0x34a00790, 0xfbbc9f17, 0xba8d840e, 0x79dea925, 0x38efb23c, + 0xff79f373, 0xbe48e86a, 0x7d1bc541, 0x3c2ade58, 0x054f79f0, + 0x447e62e9, 0x872d4fc2, 0xc61c54db, 0x018a1594, 0x40bb0e8d, + 0x83e823a6, 0xc2d938bf, 0x0dc5a038, 0x4cf4bb21, 0x8fa7960a, + 0xce968d13, 0x0900cc5c, 0x4831d745, 0x8b62fa6e, 0xca53e177, + 0x545dbbba, 0x156ca0a3, 0xd63f8d88, 0x970e9691, 0x5098d7de, + 0x11a9ccc7, 0xd2fae1ec, 0x93cbfaf5, 0x5cd76272, 0x1de6796b, + 0xdeb55440, 0x9f844f59, 0x58120e16, 0x1923150f, 0xda703824, + 0x9b41233d, 0xa76bfd65, 0xe65ae67c, 0x2509cb57, 0x6438d04e, + 0xa3ae9101, 0xe29f8a18, 0x21cca733, 0x60fdbc2a, 0xafe124ad, + 0xeed03fb4, 0x2d83129f, 0x6cb20986, 0xab2448c9, 0xea1553d0, + 0x29467efb, 0x687765e2, 0xf6793f2f, 0xb7482436, 0x741b091d, + 0x352a1204, 0xf2bc534b, 0xb38d4852, 0x70de6579, 0x31ef7e60, + 0xfef3e6e7, 0xbfc2fdfe, 0x7c91d0d5, 0x3da0cbcc, 0xfa368a83, + 0xbb07919a, 0x7854bcb1, 0x3965a7a8, 0x4b98833b, 0x0aa99822, + 0xc9fab509, 0x88cbae10, 0x4f5def5f, 0x0e6cf446, 0xcd3fd96d, + 0x8c0ec274, 0x43125af3, 0x022341ea, 0xc1706cc1, 0x804177d8, + 0x47d73697, 0x06e62d8e, 0xc5b500a5, 0x84841bbc, 0x1a8a4171, + 0x5bbb5a68, 0x98e87743, 0xd9d96c5a, 0x1e4f2d15, 0x5f7e360c, + 0x9c2d1b27, 0xdd1c003e, 0x120098b9, 0x533183a0, 0x9062ae8b, + 0xd153b592, 0x16c5f4dd, 0x57f4efc4, 0x94a7c2ef, 0xd596d9f6, + 0xe9bc07ae, 0xa88d1cb7, 0x6bde319c, 0x2aef2a85, 0xed796bca, + 0xac4870d3, 0x6f1b5df8, 0x2e2a46e1, 0xe136de66, 0xa007c57f, + 0x6354e854, 0x2265f34d, 0xe5f3b202, 0xa4c2a91b, 0x67918430, + 0x26a09f29, 0xb8aec5e4, 0xf99fdefd, 0x3accf3d6, 0x7bfde8cf, + 0xbc6ba980, 0xfd5ab299, 0x3e099fb2, 0x7f3884ab, 0xb0241c2c, + 0xf1150735, 0x32462a1e, 0x73773107, 0xb4e17048, 0xf5d06b51, + 0x3683467a, 0x77b25d63, 0x4ed7facb, 0x0fe6e1d2, 0xccb5ccf9, + 0x8d84d7e0, 0x4a1296af, 0x0b238db6, 0xc870a09d, 0x8941bb84, + 0x465d2303, 0x076c381a, 0xc43f1531, 0x850e0e28, 0x42984f67, + 0x03a9547e, 0xc0fa7955, 0x81cb624c, 0x1fc53881, 0x5ef42398, + 0x9da70eb3, 0xdc9615aa, 0x1b0054e5, 0x5a314ffc, 0x996262d7, + 0xd85379ce, 0x174fe149, 0x567efa50, 0x952dd77b, 0xd41ccc62, + 0x138a8d2d, 0x52bb9634, 0x91e8bb1f, 0xd0d9a006, 0xecf37e5e, + 0xadc26547, 0x6e91486c, 0x2fa05375, 0xe836123a, 0xa9070923, + 0x6a542408, 0x2b653f11, 0xe479a796, 0xa548bc8f, 0x661b91a4, + 0x272a8abd, 0xe0bccbf2, 0xa18dd0eb, 0x62defdc0, 0x23efe6d9, + 0xbde1bc14, 0xfcd0a70d, 0x3f838a26, 0x7eb2913f, 0xb924d070, + 0xf815cb69, 0x3b46e642, 0x7a77fd5b, 0xb56b65dc, 0xf45a7ec5, + 0x370953ee, 0x763848f7, 0xb1ae09b8, 0xf09f12a1, 0x33cc3f8a, + 0x72fd2493}, + {0x00000000, 0x376ac201, 0x6ed48403, 0x59be4602, 0xdca80907, + 0xebc2cb06, 0xb27c8d04, 0x85164f05, 0xb851130e, 0x8f3bd10f, + 0xd685970d, 0xe1ef550c, 0x64f91a09, 0x5393d808, 0x0a2d9e0a, + 0x3d475c0b, 0x70a3261c, 0x47c9e41d, 0x1e77a21f, 0x291d601e, + 0xac0b2f1b, 0x9b61ed1a, 0xc2dfab18, 0xf5b56919, 0xc8f23512, + 0xff98f713, 0xa626b111, 0x914c7310, 0x145a3c15, 0x2330fe14, + 0x7a8eb816, 0x4de47a17, 0xe0464d38, 0xd72c8f39, 0x8e92c93b, + 0xb9f80b3a, 0x3cee443f, 0x0b84863e, 0x523ac03c, 0x6550023d, + 0x58175e36, 0x6f7d9c37, 0x36c3da35, 0x01a91834, 0x84bf5731, + 0xb3d59530, 0xea6bd332, 0xdd011133, 0x90e56b24, 0xa78fa925, + 0xfe31ef27, 0xc95b2d26, 0x4c4d6223, 0x7b27a022, 0x2299e620, + 0x15f32421, 0x28b4782a, 0x1fdeba2b, 0x4660fc29, 0x710a3e28, + 0xf41c712d, 0xc376b32c, 0x9ac8f52e, 0xada2372f, 0xc08d9a70, + 0xf7e75871, 0xae591e73, 0x9933dc72, 0x1c259377, 0x2b4f5176, + 0x72f11774, 0x459bd575, 0x78dc897e, 0x4fb64b7f, 0x16080d7d, + 0x2162cf7c, 0xa4748079, 0x931e4278, 0xcaa0047a, 0xfdcac67b, + 0xb02ebc6c, 0x87447e6d, 0xdefa386f, 0xe990fa6e, 0x6c86b56b, + 0x5bec776a, 0x02523168, 0x3538f369, 0x087faf62, 0x3f156d63, + 0x66ab2b61, 0x51c1e960, 0xd4d7a665, 0xe3bd6464, 0xba032266, + 0x8d69e067, 0x20cbd748, 0x17a11549, 0x4e1f534b, 0x7975914a, + 0xfc63de4f, 0xcb091c4e, 0x92b75a4c, 0xa5dd984d, 0x989ac446, + 0xaff00647, 0xf64e4045, 0xc1248244, 0x4432cd41, 0x73580f40, + 0x2ae64942, 0x1d8c8b43, 0x5068f154, 0x67023355, 0x3ebc7557, + 0x09d6b756, 0x8cc0f853, 0xbbaa3a52, 0xe2147c50, 0xd57ebe51, + 0xe839e25a, 0xdf53205b, 0x86ed6659, 0xb187a458, 0x3491eb5d, + 0x03fb295c, 0x5a456f5e, 0x6d2fad5f, 0x801b35e1, 0xb771f7e0, + 0xeecfb1e2, 0xd9a573e3, 0x5cb33ce6, 0x6bd9fee7, 0x3267b8e5, + 0x050d7ae4, 0x384a26ef, 0x0f20e4ee, 0x569ea2ec, 0x61f460ed, + 0xe4e22fe8, 0xd388ede9, 0x8a36abeb, 0xbd5c69ea, 0xf0b813fd, + 0xc7d2d1fc, 0x9e6c97fe, 0xa90655ff, 0x2c101afa, 0x1b7ad8fb, + 0x42c49ef9, 0x75ae5cf8, 0x48e900f3, 0x7f83c2f2, 0x263d84f0, + 0x115746f1, 0x944109f4, 0xa32bcbf5, 0xfa958df7, 0xcdff4ff6, + 0x605d78d9, 0x5737bad8, 0x0e89fcda, 0x39e33edb, 0xbcf571de, + 0x8b9fb3df, 0xd221f5dd, 0xe54b37dc, 0xd80c6bd7, 0xef66a9d6, + 0xb6d8efd4, 0x81b22dd5, 0x04a462d0, 0x33cea0d1, 0x6a70e6d3, + 0x5d1a24d2, 0x10fe5ec5, 0x27949cc4, 0x7e2adac6, 0x494018c7, + 0xcc5657c2, 0xfb3c95c3, 0xa282d3c1, 0x95e811c0, 0xa8af4dcb, + 0x9fc58fca, 0xc67bc9c8, 0xf1110bc9, 0x740744cc, 0x436d86cd, + 0x1ad3c0cf, 0x2db902ce, 0x4096af91, 0x77fc6d90, 0x2e422b92, + 0x1928e993, 0x9c3ea696, 0xab546497, 0xf2ea2295, 0xc580e094, + 0xf8c7bc9f, 0xcfad7e9e, 0x9613389c, 0xa179fa9d, 0x246fb598, + 0x13057799, 0x4abb319b, 0x7dd1f39a, 0x3035898d, 0x075f4b8c, + 0x5ee10d8e, 0x698bcf8f, 0xec9d808a, 0xdbf7428b, 0x82490489, + 0xb523c688, 0x88649a83, 0xbf0e5882, 0xe6b01e80, 0xd1dadc81, + 0x54cc9384, 0x63a65185, 0x3a181787, 0x0d72d586, 0xa0d0e2a9, + 0x97ba20a8, 0xce0466aa, 0xf96ea4ab, 0x7c78ebae, 0x4b1229af, + 0x12ac6fad, 0x25c6adac, 0x1881f1a7, 0x2feb33a6, 0x765575a4, + 0x413fb7a5, 0xc429f8a0, 0xf3433aa1, 0xaafd7ca3, 0x9d97bea2, + 0xd073c4b5, 0xe71906b4, 0xbea740b6, 0x89cd82b7, 0x0cdbcdb2, + 0x3bb10fb3, 0x620f49b1, 0x55658bb0, 0x6822d7bb, 0x5f4815ba, + 0x06f653b8, 0x319c91b9, 0xb48adebc, 0x83e01cbd, 0xda5e5abf, + 0xed3498be}, + {0x00000000, 0x6567bcb8, 0x8bc809aa, 0xeeafb512, 0x5797628f, + 0x32f0de37, 0xdc5f6b25, 0xb938d79d, 0xef28b4c5, 0x8a4f087d, + 0x64e0bd6f, 0x018701d7, 0xb8bfd64a, 0xddd86af2, 0x3377dfe0, + 0x56106358, 0x9f571950, 0xfa30a5e8, 0x149f10fa, 0x71f8ac42, + 0xc8c07bdf, 0xada7c767, 0x43087275, 0x266fcecd, 0x707fad95, + 0x1518112d, 0xfbb7a43f, 0x9ed01887, 0x27e8cf1a, 0x428f73a2, + 0xac20c6b0, 0xc9477a08, 0x3eaf32a0, 0x5bc88e18, 0xb5673b0a, + 0xd00087b2, 0x6938502f, 0x0c5fec97, 0xe2f05985, 0x8797e53d, + 0xd1878665, 0xb4e03add, 0x5a4f8fcf, 0x3f283377, 0x8610e4ea, + 0xe3775852, 0x0dd8ed40, 0x68bf51f8, 0xa1f82bf0, 0xc49f9748, + 0x2a30225a, 0x4f579ee2, 0xf66f497f, 0x9308f5c7, 0x7da740d5, + 0x18c0fc6d, 0x4ed09f35, 0x2bb7238d, 0xc518969f, 0xa07f2a27, + 0x1947fdba, 0x7c204102, 0x928ff410, 0xf7e848a8, 0x3d58149b, + 0x583fa823, 0xb6901d31, 0xd3f7a189, 0x6acf7614, 0x0fa8caac, + 0xe1077fbe, 0x8460c306, 0xd270a05e, 0xb7171ce6, 0x59b8a9f4, + 0x3cdf154c, 0x85e7c2d1, 0xe0807e69, 0x0e2fcb7b, 0x6b4877c3, + 0xa20f0dcb, 0xc768b173, 0x29c70461, 0x4ca0b8d9, 0xf5986f44, + 0x90ffd3fc, 0x7e5066ee, 0x1b37da56, 0x4d27b90e, 0x284005b6, + 0xc6efb0a4, 0xa3880c1c, 0x1ab0db81, 0x7fd76739, 0x9178d22b, + 0xf41f6e93, 0x03f7263b, 0x66909a83, 0x883f2f91, 0xed589329, + 0x546044b4, 0x3107f80c, 0xdfa84d1e, 0xbacff1a6, 0xecdf92fe, + 0x89b82e46, 0x67179b54, 0x027027ec, 0xbb48f071, 0xde2f4cc9, + 0x3080f9db, 0x55e74563, 0x9ca03f6b, 0xf9c783d3, 0x176836c1, + 0x720f8a79, 0xcb375de4, 0xae50e15c, 0x40ff544e, 0x2598e8f6, + 0x73888bae, 0x16ef3716, 0xf8408204, 0x9d273ebc, 0x241fe921, + 0x41785599, 0xafd7e08b, 0xcab05c33, 0x3bb659ed, 0x5ed1e555, + 0xb07e5047, 0xd519ecff, 0x6c213b62, 0x094687da, 0xe7e932c8, + 0x828e8e70, 0xd49eed28, 0xb1f95190, 0x5f56e482, 0x3a31583a, + 0x83098fa7, 0xe66e331f, 0x08c1860d, 0x6da63ab5, 0xa4e140bd, + 0xc186fc05, 0x2f294917, 0x4a4ef5af, 0xf3762232, 0x96119e8a, + 0x78be2b98, 0x1dd99720, 0x4bc9f478, 0x2eae48c0, 0xc001fdd2, + 0xa566416a, 0x1c5e96f7, 0x79392a4f, 0x97969f5d, 0xf2f123e5, + 0x05196b4d, 0x607ed7f5, 0x8ed162e7, 0xebb6de5f, 0x528e09c2, + 0x37e9b57a, 0xd9460068, 0xbc21bcd0, 0xea31df88, 0x8f566330, + 0x61f9d622, 0x049e6a9a, 0xbda6bd07, 0xd8c101bf, 0x366eb4ad, + 0x53090815, 0x9a4e721d, 0xff29cea5, 0x11867bb7, 0x74e1c70f, + 0xcdd91092, 0xa8beac2a, 0x46111938, 0x2376a580, 0x7566c6d8, + 0x10017a60, 0xfeaecf72, 0x9bc973ca, 0x22f1a457, 0x479618ef, + 0xa939adfd, 0xcc5e1145, 0x06ee4d76, 0x6389f1ce, 0x8d2644dc, + 0xe841f864, 0x51792ff9, 0x341e9341, 0xdab12653, 0xbfd69aeb, + 0xe9c6f9b3, 0x8ca1450b, 0x620ef019, 0x07694ca1, 0xbe519b3c, + 0xdb362784, 0x35999296, 0x50fe2e2e, 0x99b95426, 0xfcdee89e, + 0x12715d8c, 0x7716e134, 0xce2e36a9, 0xab498a11, 0x45e63f03, + 0x208183bb, 0x7691e0e3, 0x13f65c5b, 0xfd59e949, 0x983e55f1, + 0x2106826c, 0x44613ed4, 0xaace8bc6, 0xcfa9377e, 0x38417fd6, + 0x5d26c36e, 0xb389767c, 0xd6eecac4, 0x6fd61d59, 0x0ab1a1e1, + 0xe41e14f3, 0x8179a84b, 0xd769cb13, 0xb20e77ab, 0x5ca1c2b9, + 0x39c67e01, 0x80fea99c, 0xe5991524, 0x0b36a036, 0x6e511c8e, + 0xa7166686, 0xc271da3e, 0x2cde6f2c, 0x49b9d394, 0xf0810409, + 0x95e6b8b1, 0x7b490da3, 0x1e2eb11b, 0x483ed243, 0x2d596efb, + 0xc3f6dbe9, 0xa6916751, 0x1fa9b0cc, 0x7ace0c74, 0x9461b966, + 0xf10605de}}; + +#endif + +#endif + +#if N == 2 + +#if W == 8 + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0xae689191, 0x87a02563, 0x29c8b4f2, 0xd4314c87, + 0x7a59dd16, 0x539169e4, 0xfdf9f875, 0x73139f4f, 0xdd7b0ede, + 0xf4b3ba2c, 0x5adb2bbd, 0xa722d3c8, 0x094a4259, 0x2082f6ab, + 0x8eea673a, 0xe6273e9e, 0x484faf0f, 0x61871bfd, 0xcfef8a6c, + 0x32167219, 0x9c7ee388, 0xb5b6577a, 0x1bdec6eb, 0x9534a1d1, + 0x3b5c3040, 0x129484b2, 0xbcfc1523, 0x4105ed56, 0xef6d7cc7, + 0xc6a5c835, 0x68cd59a4, 0x173f7b7d, 0xb957eaec, 0x909f5e1e, + 0x3ef7cf8f, 0xc30e37fa, 0x6d66a66b, 0x44ae1299, 0xeac68308, + 0x642ce432, 0xca4475a3, 0xe38cc151, 0x4de450c0, 0xb01da8b5, + 0x1e753924, 0x37bd8dd6, 0x99d51c47, 0xf11845e3, 0x5f70d472, + 0x76b86080, 0xd8d0f111, 0x25290964, 0x8b4198f5, 0xa2892c07, + 0x0ce1bd96, 0x820bdaac, 0x2c634b3d, 0x05abffcf, 0xabc36e5e, + 0x563a962b, 0xf85207ba, 0xd19ab348, 0x7ff222d9, 0x2e7ef6fa, + 0x8016676b, 0xa9ded399, 0x07b64208, 0xfa4fba7d, 0x54272bec, + 0x7def9f1e, 0xd3870e8f, 0x5d6d69b5, 0xf305f824, 0xdacd4cd6, + 0x74a5dd47, 0x895c2532, 0x2734b4a3, 0x0efc0051, 0xa09491c0, + 0xc859c864, 0x663159f5, 0x4ff9ed07, 0xe1917c96, 0x1c6884e3, + 0xb2001572, 0x9bc8a180, 0x35a03011, 0xbb4a572b, 0x1522c6ba, + 0x3cea7248, 0x9282e3d9, 0x6f7b1bac, 0xc1138a3d, 0xe8db3ecf, + 0x46b3af5e, 0x39418d87, 0x97291c16, 0xbee1a8e4, 0x10893975, + 0xed70c100, 0x43185091, 0x6ad0e463, 0xc4b875f2, 0x4a5212c8, + 0xe43a8359, 0xcdf237ab, 0x639aa63a, 0x9e635e4f, 0x300bcfde, + 0x19c37b2c, 0xb7abeabd, 0xdf66b319, 0x710e2288, 0x58c6967a, + 0xf6ae07eb, 0x0b57ff9e, 0xa53f6e0f, 0x8cf7dafd, 0x229f4b6c, + 0xac752c56, 0x021dbdc7, 0x2bd50935, 0x85bd98a4, 0x784460d1, + 0xd62cf140, 0xffe445b2, 0x518cd423, 0x5cfdedf4, 0xf2957c65, + 0xdb5dc897, 0x75355906, 0x88cca173, 0x26a430e2, 0x0f6c8410, + 0xa1041581, 0x2fee72bb, 0x8186e32a, 0xa84e57d8, 0x0626c649, + 0xfbdf3e3c, 0x55b7afad, 0x7c7f1b5f, 0xd2178ace, 0xbadad36a, + 0x14b242fb, 0x3d7af609, 0x93126798, 0x6eeb9fed, 0xc0830e7c, + 0xe94bba8e, 0x47232b1f, 0xc9c94c25, 0x67a1ddb4, 0x4e696946, + 0xe001f8d7, 0x1df800a2, 0xb3909133, 0x9a5825c1, 0x3430b450, + 0x4bc29689, 0xe5aa0718, 0xcc62b3ea, 0x620a227b, 0x9ff3da0e, + 0x319b4b9f, 0x1853ff6d, 0xb63b6efc, 0x38d109c6, 0x96b99857, + 0xbf712ca5, 0x1119bd34, 0xece04541, 0x4288d4d0, 0x6b406022, + 0xc528f1b3, 0xade5a817, 0x038d3986, 0x2a458d74, 0x842d1ce5, + 0x79d4e490, 0xd7bc7501, 0xfe74c1f3, 0x501c5062, 0xdef63758, + 0x709ea6c9, 0x5956123b, 0xf73e83aa, 0x0ac77bdf, 0xa4afea4e, + 0x8d675ebc, 0x230fcf2d, 0x72831b0e, 0xdceb8a9f, 0xf5233e6d, + 0x5b4baffc, 0xa6b25789, 0x08dac618, 0x211272ea, 0x8f7ae37b, + 0x01908441, 0xaff815d0, 0x8630a122, 0x285830b3, 0xd5a1c8c6, + 0x7bc95957, 0x5201eda5, 0xfc697c34, 0x94a42590, 0x3accb401, + 0x130400f3, 0xbd6c9162, 0x40956917, 0xeefdf886, 0xc7354c74, + 0x695ddde5, 0xe7b7badf, 0x49df2b4e, 0x60179fbc, 0xce7f0e2d, + 0x3386f658, 0x9dee67c9, 0xb426d33b, 0x1a4e42aa, 0x65bc6073, + 0xcbd4f1e2, 0xe21c4510, 0x4c74d481, 0xb18d2cf4, 0x1fe5bd65, + 0x362d0997, 0x98459806, 0x16afff3c, 0xb8c76ead, 0x910fda5f, + 0x3f674bce, 0xc29eb3bb, 0x6cf6222a, 0x453e96d8, 0xeb560749, + 0x839b5eed, 0x2df3cf7c, 0x043b7b8e, 0xaa53ea1f, 0x57aa126a, + 0xf9c283fb, 0xd00a3709, 0x7e62a698, 0xf088c1a2, 0x5ee05033, + 0x7728e4c1, 0xd9407550, 0x24b98d25, 0x8ad11cb4, 0xa319a846, + 0x0d7139d7}, + {0x00000000, 0xb9fbdbe8, 0xa886b191, 0x117d6a79, 0x8a7c6563, + 0x3387be8b, 0x22fad4f2, 0x9b010f1a, 0xcf89cc87, 0x7672176f, + 0x670f7d16, 0xdef4a6fe, 0x45f5a9e4, 0xfc0e720c, 0xed731875, + 0x5488c39d, 0x44629f4f, 0xfd9944a7, 0xece42ede, 0x551ff536, + 0xce1efa2c, 0x77e521c4, 0x66984bbd, 0xdf639055, 0x8beb53c8, + 0x32108820, 0x236de259, 0x9a9639b1, 0x019736ab, 0xb86ced43, + 0xa911873a, 0x10ea5cd2, 0x88c53e9e, 0x313ee576, 0x20438f0f, + 0x99b854e7, 0x02b95bfd, 0xbb428015, 0xaa3fea6c, 0x13c43184, + 0x474cf219, 0xfeb729f1, 0xefca4388, 0x56319860, 0xcd30977a, + 0x74cb4c92, 0x65b626eb, 0xdc4dfd03, 0xcca7a1d1, 0x755c7a39, + 0x64211040, 0xdddacba8, 0x46dbc4b2, 0xff201f5a, 0xee5d7523, + 0x57a6aecb, 0x032e6d56, 0xbad5b6be, 0xaba8dcc7, 0x1253072f, + 0x89520835, 0x30a9d3dd, 0x21d4b9a4, 0x982f624c, 0xcafb7b7d, + 0x7300a095, 0x627dcaec, 0xdb861104, 0x40871e1e, 0xf97cc5f6, + 0xe801af8f, 0x51fa7467, 0x0572b7fa, 0xbc896c12, 0xadf4066b, + 0x140fdd83, 0x8f0ed299, 0x36f50971, 0x27886308, 0x9e73b8e0, + 0x8e99e432, 0x37623fda, 0x261f55a3, 0x9fe48e4b, 0x04e58151, + 0xbd1e5ab9, 0xac6330c0, 0x1598eb28, 0x411028b5, 0xf8ebf35d, + 0xe9969924, 0x506d42cc, 0xcb6c4dd6, 0x7297963e, 0x63eafc47, + 0xda1127af, 0x423e45e3, 0xfbc59e0b, 0xeab8f472, 0x53432f9a, + 0xc8422080, 0x71b9fb68, 0x60c49111, 0xd93f4af9, 0x8db78964, + 0x344c528c, 0x253138f5, 0x9ccae31d, 0x07cbec07, 0xbe3037ef, + 0xaf4d5d96, 0x16b6867e, 0x065cdaac, 0xbfa70144, 0xaeda6b3d, + 0x1721b0d5, 0x8c20bfcf, 0x35db6427, 0x24a60e5e, 0x9d5dd5b6, + 0xc9d5162b, 0x702ecdc3, 0x6153a7ba, 0xd8a87c52, 0x43a97348, + 0xfa52a8a0, 0xeb2fc2d9, 0x52d41931, 0x4e87f0bb, 0xf77c2b53, + 0xe601412a, 0x5ffa9ac2, 0xc4fb95d8, 0x7d004e30, 0x6c7d2449, + 0xd586ffa1, 0x810e3c3c, 0x38f5e7d4, 0x29888dad, 0x90735645, + 0x0b72595f, 0xb28982b7, 0xa3f4e8ce, 0x1a0f3326, 0x0ae56ff4, + 0xb31eb41c, 0xa263de65, 0x1b98058d, 0x80990a97, 0x3962d17f, + 0x281fbb06, 0x91e460ee, 0xc56ca373, 0x7c97789b, 0x6dea12e2, + 0xd411c90a, 0x4f10c610, 0xf6eb1df8, 0xe7967781, 0x5e6dac69, + 0xc642ce25, 0x7fb915cd, 0x6ec47fb4, 0xd73fa45c, 0x4c3eab46, + 0xf5c570ae, 0xe4b81ad7, 0x5d43c13f, 0x09cb02a2, 0xb030d94a, + 0xa14db333, 0x18b668db, 0x83b767c1, 0x3a4cbc29, 0x2b31d650, + 0x92ca0db8, 0x8220516a, 0x3bdb8a82, 0x2aa6e0fb, 0x935d3b13, + 0x085c3409, 0xb1a7efe1, 0xa0da8598, 0x19215e70, 0x4da99ded, + 0xf4524605, 0xe52f2c7c, 0x5cd4f794, 0xc7d5f88e, 0x7e2e2366, + 0x6f53491f, 0xd6a892f7, 0x847c8bc6, 0x3d87502e, 0x2cfa3a57, + 0x9501e1bf, 0x0e00eea5, 0xb7fb354d, 0xa6865f34, 0x1f7d84dc, + 0x4bf54741, 0xf20e9ca9, 0xe373f6d0, 0x5a882d38, 0xc1892222, + 0x7872f9ca, 0x690f93b3, 0xd0f4485b, 0xc01e1489, 0x79e5cf61, + 0x6898a518, 0xd1637ef0, 0x4a6271ea, 0xf399aa02, 0xe2e4c07b, + 0x5b1f1b93, 0x0f97d80e, 0xb66c03e6, 0xa711699f, 0x1eeab277, + 0x85ebbd6d, 0x3c106685, 0x2d6d0cfc, 0x9496d714, 0x0cb9b558, + 0xb5426eb0, 0xa43f04c9, 0x1dc4df21, 0x86c5d03b, 0x3f3e0bd3, + 0x2e4361aa, 0x97b8ba42, 0xc33079df, 0x7acba237, 0x6bb6c84e, + 0xd24d13a6, 0x494c1cbc, 0xf0b7c754, 0xe1caad2d, 0x583176c5, + 0x48db2a17, 0xf120f1ff, 0xe05d9b86, 0x59a6406e, 0xc2a74f74, + 0x7b5c949c, 0x6a21fee5, 0xd3da250d, 0x8752e690, 0x3ea93d78, + 0x2fd45701, 0x962f8ce9, 0x0d2e83f3, 0xb4d5581b, 0xa5a83262, + 0x1c53e98a}, + {0x00000000, 0x9d0fe176, 0xe16ec4ad, 0x7c6125db, 0x19ac8f1b, + 0x84a36e6d, 0xf8c24bb6, 0x65cdaac0, 0x33591e36, 0xae56ff40, + 0xd237da9b, 0x4f383bed, 0x2af5912d, 0xb7fa705b, 0xcb9b5580, + 0x5694b4f6, 0x66b23c6c, 0xfbbddd1a, 0x87dcf8c1, 0x1ad319b7, + 0x7f1eb377, 0xe2115201, 0x9e7077da, 0x037f96ac, 0x55eb225a, + 0xc8e4c32c, 0xb485e6f7, 0x298a0781, 0x4c47ad41, 0xd1484c37, + 0xad2969ec, 0x3026889a, 0xcd6478d8, 0x506b99ae, 0x2c0abc75, + 0xb1055d03, 0xd4c8f7c3, 0x49c716b5, 0x35a6336e, 0xa8a9d218, + 0xfe3d66ee, 0x63328798, 0x1f53a243, 0x825c4335, 0xe791e9f5, + 0x7a9e0883, 0x06ff2d58, 0x9bf0cc2e, 0xabd644b4, 0x36d9a5c2, + 0x4ab88019, 0xd7b7616f, 0xb27acbaf, 0x2f752ad9, 0x53140f02, + 0xce1bee74, 0x988f5a82, 0x0580bbf4, 0x79e19e2f, 0xe4ee7f59, + 0x8123d599, 0x1c2c34ef, 0x604d1134, 0xfd42f042, 0x41b9f7f1, + 0xdcb61687, 0xa0d7335c, 0x3dd8d22a, 0x581578ea, 0xc51a999c, + 0xb97bbc47, 0x24745d31, 0x72e0e9c7, 0xefef08b1, 0x938e2d6a, + 0x0e81cc1c, 0x6b4c66dc, 0xf64387aa, 0x8a22a271, 0x172d4307, + 0x270bcb9d, 0xba042aeb, 0xc6650f30, 0x5b6aee46, 0x3ea74486, + 0xa3a8a5f0, 0xdfc9802b, 0x42c6615d, 0x1452d5ab, 0x895d34dd, + 0xf53c1106, 0x6833f070, 0x0dfe5ab0, 0x90f1bbc6, 0xec909e1d, + 0x719f7f6b, 0x8cdd8f29, 0x11d26e5f, 0x6db34b84, 0xf0bcaaf2, + 0x95710032, 0x087ee144, 0x741fc49f, 0xe91025e9, 0xbf84911f, + 0x228b7069, 0x5eea55b2, 0xc3e5b4c4, 0xa6281e04, 0x3b27ff72, + 0x4746daa9, 0xda493bdf, 0xea6fb345, 0x77605233, 0x0b0177e8, + 0x960e969e, 0xf3c33c5e, 0x6eccdd28, 0x12adf8f3, 0x8fa21985, + 0xd936ad73, 0x44394c05, 0x385869de, 0xa55788a8, 0xc09a2268, + 0x5d95c31e, 0x21f4e6c5, 0xbcfb07b3, 0x8373efe2, 0x1e7c0e94, + 0x621d2b4f, 0xff12ca39, 0x9adf60f9, 0x07d0818f, 0x7bb1a454, + 0xe6be4522, 0xb02af1d4, 0x2d2510a2, 0x51443579, 0xcc4bd40f, + 0xa9867ecf, 0x34899fb9, 0x48e8ba62, 0xd5e75b14, 0xe5c1d38e, + 0x78ce32f8, 0x04af1723, 0x99a0f655, 0xfc6d5c95, 0x6162bde3, + 0x1d039838, 0x800c794e, 0xd698cdb8, 0x4b972cce, 0x37f60915, + 0xaaf9e863, 0xcf3442a3, 0x523ba3d5, 0x2e5a860e, 0xb3556778, + 0x4e17973a, 0xd318764c, 0xaf795397, 0x3276b2e1, 0x57bb1821, + 0xcab4f957, 0xb6d5dc8c, 0x2bda3dfa, 0x7d4e890c, 0xe041687a, + 0x9c204da1, 0x012facd7, 0x64e20617, 0xf9ede761, 0x858cc2ba, + 0x188323cc, 0x28a5ab56, 0xb5aa4a20, 0xc9cb6ffb, 0x54c48e8d, + 0x3109244d, 0xac06c53b, 0xd067e0e0, 0x4d680196, 0x1bfcb560, + 0x86f35416, 0xfa9271cd, 0x679d90bb, 0x02503a7b, 0x9f5fdb0d, + 0xe33efed6, 0x7e311fa0, 0xc2ca1813, 0x5fc5f965, 0x23a4dcbe, + 0xbeab3dc8, 0xdb669708, 0x4669767e, 0x3a0853a5, 0xa707b2d3, + 0xf1930625, 0x6c9ce753, 0x10fdc288, 0x8df223fe, 0xe83f893e, + 0x75306848, 0x09514d93, 0x945eace5, 0xa478247f, 0x3977c509, + 0x4516e0d2, 0xd81901a4, 0xbdd4ab64, 0x20db4a12, 0x5cba6fc9, + 0xc1b58ebf, 0x97213a49, 0x0a2edb3f, 0x764ffee4, 0xeb401f92, + 0x8e8db552, 0x13825424, 0x6fe371ff, 0xf2ec9089, 0x0fae60cb, + 0x92a181bd, 0xeec0a466, 0x73cf4510, 0x1602efd0, 0x8b0d0ea6, + 0xf76c2b7d, 0x6a63ca0b, 0x3cf77efd, 0xa1f89f8b, 0xdd99ba50, + 0x40965b26, 0x255bf1e6, 0xb8541090, 0xc435354b, 0x593ad43d, + 0x691c5ca7, 0xf413bdd1, 0x8872980a, 0x157d797c, 0x70b0d3bc, + 0xedbf32ca, 0x91de1711, 0x0cd1f667, 0x5a454291, 0xc74aa3e7, + 0xbb2b863c, 0x2624674a, 0x43e9cd8a, 0xdee62cfc, 0xa2870927, + 0x3f88e851}, + {0x00000000, 0xdd96d985, 0x605cb54b, 0xbdca6cce, 0xc0b96a96, + 0x1d2fb313, 0xa0e5dfdd, 0x7d730658, 0x5a03d36d, 0x87950ae8, + 0x3a5f6626, 0xe7c9bfa3, 0x9abab9fb, 0x472c607e, 0xfae60cb0, + 0x2770d535, 0xb407a6da, 0x69917f5f, 0xd45b1391, 0x09cdca14, + 0x74becc4c, 0xa92815c9, 0x14e27907, 0xc974a082, 0xee0475b7, + 0x3392ac32, 0x8e58c0fc, 0x53ce1979, 0x2ebd1f21, 0xf32bc6a4, + 0x4ee1aa6a, 0x937773ef, 0xb37e4bf5, 0x6ee89270, 0xd322febe, + 0x0eb4273b, 0x73c72163, 0xae51f8e6, 0x139b9428, 0xce0d4dad, + 0xe97d9898, 0x34eb411d, 0x89212dd3, 0x54b7f456, 0x29c4f20e, + 0xf4522b8b, 0x49984745, 0x940e9ec0, 0x0779ed2f, 0xdaef34aa, + 0x67255864, 0xbab381e1, 0xc7c087b9, 0x1a565e3c, 0xa79c32f2, + 0x7a0aeb77, 0x5d7a3e42, 0x80ece7c7, 0x3d268b09, 0xe0b0528c, + 0x9dc354d4, 0x40558d51, 0xfd9fe19f, 0x2009381a, 0xbd8d91ab, + 0x601b482e, 0xddd124e0, 0x0047fd65, 0x7d34fb3d, 0xa0a222b8, + 0x1d684e76, 0xc0fe97f3, 0xe78e42c6, 0x3a189b43, 0x87d2f78d, + 0x5a442e08, 0x27372850, 0xfaa1f1d5, 0x476b9d1b, 0x9afd449e, + 0x098a3771, 0xd41ceef4, 0x69d6823a, 0xb4405bbf, 0xc9335de7, + 0x14a58462, 0xa96fe8ac, 0x74f93129, 0x5389e41c, 0x8e1f3d99, + 0x33d55157, 0xee4388d2, 0x93308e8a, 0x4ea6570f, 0xf36c3bc1, + 0x2efae244, 0x0ef3da5e, 0xd36503db, 0x6eaf6f15, 0xb339b690, + 0xce4ab0c8, 0x13dc694d, 0xae160583, 0x7380dc06, 0x54f00933, + 0x8966d0b6, 0x34acbc78, 0xe93a65fd, 0x944963a5, 0x49dfba20, + 0xf415d6ee, 0x29830f6b, 0xbaf47c84, 0x6762a501, 0xdaa8c9cf, + 0x073e104a, 0x7a4d1612, 0xa7dbcf97, 0x1a11a359, 0xc7877adc, + 0xe0f7afe9, 0x3d61766c, 0x80ab1aa2, 0x5d3dc327, 0x204ec57f, + 0xfdd81cfa, 0x40127034, 0x9d84a9b1, 0xa06a2517, 0x7dfcfc92, + 0xc036905c, 0x1da049d9, 0x60d34f81, 0xbd459604, 0x008ffaca, + 0xdd19234f, 0xfa69f67a, 0x27ff2fff, 0x9a354331, 0x47a39ab4, + 0x3ad09cec, 0xe7464569, 0x5a8c29a7, 0x871af022, 0x146d83cd, + 0xc9fb5a48, 0x74313686, 0xa9a7ef03, 0xd4d4e95b, 0x094230de, + 0xb4885c10, 0x691e8595, 0x4e6e50a0, 0x93f88925, 0x2e32e5eb, + 0xf3a43c6e, 0x8ed73a36, 0x5341e3b3, 0xee8b8f7d, 0x331d56f8, + 0x13146ee2, 0xce82b767, 0x7348dba9, 0xaede022c, 0xd3ad0474, + 0x0e3bddf1, 0xb3f1b13f, 0x6e6768ba, 0x4917bd8f, 0x9481640a, + 0x294b08c4, 0xf4ddd141, 0x89aed719, 0x54380e9c, 0xe9f26252, + 0x3464bbd7, 0xa713c838, 0x7a8511bd, 0xc74f7d73, 0x1ad9a4f6, + 0x67aaa2ae, 0xba3c7b2b, 0x07f617e5, 0xda60ce60, 0xfd101b55, + 0x2086c2d0, 0x9d4cae1e, 0x40da779b, 0x3da971c3, 0xe03fa846, + 0x5df5c488, 0x80631d0d, 0x1de7b4bc, 0xc0716d39, 0x7dbb01f7, + 0xa02dd872, 0xdd5ede2a, 0x00c807af, 0xbd026b61, 0x6094b2e4, + 0x47e467d1, 0x9a72be54, 0x27b8d29a, 0xfa2e0b1f, 0x875d0d47, + 0x5acbd4c2, 0xe701b80c, 0x3a976189, 0xa9e01266, 0x7476cbe3, + 0xc9bca72d, 0x142a7ea8, 0x695978f0, 0xb4cfa175, 0x0905cdbb, + 0xd493143e, 0xf3e3c10b, 0x2e75188e, 0x93bf7440, 0x4e29adc5, + 0x335aab9d, 0xeecc7218, 0x53061ed6, 0x8e90c753, 0xae99ff49, + 0x730f26cc, 0xcec54a02, 0x13539387, 0x6e2095df, 0xb3b64c5a, + 0x0e7c2094, 0xd3eaf911, 0xf49a2c24, 0x290cf5a1, 0x94c6996f, + 0x495040ea, 0x342346b2, 0xe9b59f37, 0x547ff3f9, 0x89e92a7c, + 0x1a9e5993, 0xc7088016, 0x7ac2ecd8, 0xa754355d, 0xda273305, + 0x07b1ea80, 0xba7b864e, 0x67ed5fcb, 0x409d8afe, 0x9d0b537b, + 0x20c13fb5, 0xfd57e630, 0x8024e068, 0x5db239ed, 0xe0785523, + 0x3dee8ca6}, + {0x00000000, 0x9ba54c6f, 0xec3b9e9f, 0x779ed2f0, 0x03063b7f, + 0x98a37710, 0xef3da5e0, 0x7498e98f, 0x060c76fe, 0x9da93a91, + 0xea37e861, 0x7192a40e, 0x050a4d81, 0x9eaf01ee, 0xe931d31e, + 0x72949f71, 0x0c18edfc, 0x97bda193, 0xe0237363, 0x7b863f0c, + 0x0f1ed683, 0x94bb9aec, 0xe325481c, 0x78800473, 0x0a149b02, + 0x91b1d76d, 0xe62f059d, 0x7d8a49f2, 0x0912a07d, 0x92b7ec12, + 0xe5293ee2, 0x7e8c728d, 0x1831dbf8, 0x83949797, 0xf40a4567, + 0x6faf0908, 0x1b37e087, 0x8092ace8, 0xf70c7e18, 0x6ca93277, + 0x1e3dad06, 0x8598e169, 0xf2063399, 0x69a37ff6, 0x1d3b9679, + 0x869eda16, 0xf10008e6, 0x6aa54489, 0x14293604, 0x8f8c7a6b, + 0xf812a89b, 0x63b7e4f4, 0x172f0d7b, 0x8c8a4114, 0xfb1493e4, + 0x60b1df8b, 0x122540fa, 0x89800c95, 0xfe1ede65, 0x65bb920a, + 0x11237b85, 0x8a8637ea, 0xfd18e51a, 0x66bda975, 0x3063b7f0, + 0xabc6fb9f, 0xdc58296f, 0x47fd6500, 0x33658c8f, 0xa8c0c0e0, + 0xdf5e1210, 0x44fb5e7f, 0x366fc10e, 0xadca8d61, 0xda545f91, + 0x41f113fe, 0x3569fa71, 0xaeccb61e, 0xd95264ee, 0x42f72881, + 0x3c7b5a0c, 0xa7de1663, 0xd040c493, 0x4be588fc, 0x3f7d6173, + 0xa4d82d1c, 0xd346ffec, 0x48e3b383, 0x3a772cf2, 0xa1d2609d, + 0xd64cb26d, 0x4de9fe02, 0x3971178d, 0xa2d45be2, 0xd54a8912, + 0x4eefc57d, 0x28526c08, 0xb3f72067, 0xc469f297, 0x5fccbef8, + 0x2b545777, 0xb0f11b18, 0xc76fc9e8, 0x5cca8587, 0x2e5e1af6, + 0xb5fb5699, 0xc2658469, 0x59c0c806, 0x2d582189, 0xb6fd6de6, + 0xc163bf16, 0x5ac6f379, 0x244a81f4, 0xbfefcd9b, 0xc8711f6b, + 0x53d45304, 0x274cba8b, 0xbce9f6e4, 0xcb772414, 0x50d2687b, + 0x2246f70a, 0xb9e3bb65, 0xce7d6995, 0x55d825fa, 0x2140cc75, + 0xbae5801a, 0xcd7b52ea, 0x56de1e85, 0x60c76fe0, 0xfb62238f, + 0x8cfcf17f, 0x1759bd10, 0x63c1549f, 0xf86418f0, 0x8ffaca00, + 0x145f866f, 0x66cb191e, 0xfd6e5571, 0x8af08781, 0x1155cbee, + 0x65cd2261, 0xfe686e0e, 0x89f6bcfe, 0x1253f091, 0x6cdf821c, + 0xf77ace73, 0x80e41c83, 0x1b4150ec, 0x6fd9b963, 0xf47cf50c, + 0x83e227fc, 0x18476b93, 0x6ad3f4e2, 0xf176b88d, 0x86e86a7d, + 0x1d4d2612, 0x69d5cf9d, 0xf27083f2, 0x85ee5102, 0x1e4b1d6d, + 0x78f6b418, 0xe353f877, 0x94cd2a87, 0x0f6866e8, 0x7bf08f67, + 0xe055c308, 0x97cb11f8, 0x0c6e5d97, 0x7efac2e6, 0xe55f8e89, + 0x92c15c79, 0x09641016, 0x7dfcf999, 0xe659b5f6, 0x91c76706, + 0x0a622b69, 0x74ee59e4, 0xef4b158b, 0x98d5c77b, 0x03708b14, + 0x77e8629b, 0xec4d2ef4, 0x9bd3fc04, 0x0076b06b, 0x72e22f1a, + 0xe9476375, 0x9ed9b185, 0x057cfdea, 0x71e41465, 0xea41580a, + 0x9ddf8afa, 0x067ac695, 0x50a4d810, 0xcb01947f, 0xbc9f468f, + 0x273a0ae0, 0x53a2e36f, 0xc807af00, 0xbf997df0, 0x243c319f, + 0x56a8aeee, 0xcd0de281, 0xba933071, 0x21367c1e, 0x55ae9591, + 0xce0bd9fe, 0xb9950b0e, 0x22304761, 0x5cbc35ec, 0xc7197983, + 0xb087ab73, 0x2b22e71c, 0x5fba0e93, 0xc41f42fc, 0xb381900c, + 0x2824dc63, 0x5ab04312, 0xc1150f7d, 0xb68bdd8d, 0x2d2e91e2, + 0x59b6786d, 0xc2133402, 0xb58de6f2, 0x2e28aa9d, 0x489503e8, + 0xd3304f87, 0xa4ae9d77, 0x3f0bd118, 0x4b933897, 0xd03674f8, + 0xa7a8a608, 0x3c0dea67, 0x4e997516, 0xd53c3979, 0xa2a2eb89, + 0x3907a7e6, 0x4d9f4e69, 0xd63a0206, 0xa1a4d0f6, 0x3a019c99, + 0x448dee14, 0xdf28a27b, 0xa8b6708b, 0x33133ce4, 0x478bd56b, + 0xdc2e9904, 0xabb04bf4, 0x3015079b, 0x428198ea, 0xd924d485, + 0xaeba0675, 0x351f4a1a, 0x4187a395, 0xda22effa, 0xadbc3d0a, + 0x36197165}, + {0x00000000, 0xc18edfc0, 0x586cb9c1, 0x99e26601, 0xb0d97382, + 0x7157ac42, 0xe8b5ca43, 0x293b1583, 0xbac3e145, 0x7b4d3e85, + 0xe2af5884, 0x23218744, 0x0a1a92c7, 0xcb944d07, 0x52762b06, + 0x93f8f4c6, 0xaef6c4cb, 0x6f781b0b, 0xf69a7d0a, 0x3714a2ca, + 0x1e2fb749, 0xdfa16889, 0x46430e88, 0x87cdd148, 0x1435258e, + 0xd5bbfa4e, 0x4c599c4f, 0x8dd7438f, 0xa4ec560c, 0x656289cc, + 0xfc80efcd, 0x3d0e300d, 0x869c8fd7, 0x47125017, 0xdef03616, + 0x1f7ee9d6, 0x3645fc55, 0xf7cb2395, 0x6e294594, 0xafa79a54, + 0x3c5f6e92, 0xfdd1b152, 0x6433d753, 0xa5bd0893, 0x8c861d10, + 0x4d08c2d0, 0xd4eaa4d1, 0x15647b11, 0x286a4b1c, 0xe9e494dc, + 0x7006f2dd, 0xb1882d1d, 0x98b3389e, 0x593de75e, 0xc0df815f, + 0x01515e9f, 0x92a9aa59, 0x53277599, 0xcac51398, 0x0b4bcc58, + 0x2270d9db, 0xe3fe061b, 0x7a1c601a, 0xbb92bfda, 0xd64819ef, + 0x17c6c62f, 0x8e24a02e, 0x4faa7fee, 0x66916a6d, 0xa71fb5ad, + 0x3efdd3ac, 0xff730c6c, 0x6c8bf8aa, 0xad05276a, 0x34e7416b, + 0xf5699eab, 0xdc528b28, 0x1ddc54e8, 0x843e32e9, 0x45b0ed29, + 0x78bedd24, 0xb93002e4, 0x20d264e5, 0xe15cbb25, 0xc867aea6, + 0x09e97166, 0x900b1767, 0x5185c8a7, 0xc27d3c61, 0x03f3e3a1, + 0x9a1185a0, 0x5b9f5a60, 0x72a44fe3, 0xb32a9023, 0x2ac8f622, + 0xeb4629e2, 0x50d49638, 0x915a49f8, 0x08b82ff9, 0xc936f039, + 0xe00de5ba, 0x21833a7a, 0xb8615c7b, 0x79ef83bb, 0xea17777d, + 0x2b99a8bd, 0xb27bcebc, 0x73f5117c, 0x5ace04ff, 0x9b40db3f, + 0x02a2bd3e, 0xc32c62fe, 0xfe2252f3, 0x3fac8d33, 0xa64eeb32, + 0x67c034f2, 0x4efb2171, 0x8f75feb1, 0x169798b0, 0xd7194770, + 0x44e1b3b6, 0x856f6c76, 0x1c8d0a77, 0xdd03d5b7, 0xf438c034, + 0x35b61ff4, 0xac5479f5, 0x6ddaa635, 0x77e1359f, 0xb66fea5f, + 0x2f8d8c5e, 0xee03539e, 0xc738461d, 0x06b699dd, 0x9f54ffdc, + 0x5eda201c, 0xcd22d4da, 0x0cac0b1a, 0x954e6d1b, 0x54c0b2db, + 0x7dfba758, 0xbc757898, 0x25971e99, 0xe419c159, 0xd917f154, + 0x18992e94, 0x817b4895, 0x40f59755, 0x69ce82d6, 0xa8405d16, + 0x31a23b17, 0xf02ce4d7, 0x63d41011, 0xa25acfd1, 0x3bb8a9d0, + 0xfa367610, 0xd30d6393, 0x1283bc53, 0x8b61da52, 0x4aef0592, + 0xf17dba48, 0x30f36588, 0xa9110389, 0x689fdc49, 0x41a4c9ca, + 0x802a160a, 0x19c8700b, 0xd846afcb, 0x4bbe5b0d, 0x8a3084cd, + 0x13d2e2cc, 0xd25c3d0c, 0xfb67288f, 0x3ae9f74f, 0xa30b914e, + 0x62854e8e, 0x5f8b7e83, 0x9e05a143, 0x07e7c742, 0xc6691882, + 0xef520d01, 0x2edcd2c1, 0xb73eb4c0, 0x76b06b00, 0xe5489fc6, + 0x24c64006, 0xbd242607, 0x7caaf9c7, 0x5591ec44, 0x941f3384, + 0x0dfd5585, 0xcc738a45, 0xa1a92c70, 0x6027f3b0, 0xf9c595b1, + 0x384b4a71, 0x11705ff2, 0xd0fe8032, 0x491ce633, 0x889239f3, + 0x1b6acd35, 0xdae412f5, 0x430674f4, 0x8288ab34, 0xabb3beb7, + 0x6a3d6177, 0xf3df0776, 0x3251d8b6, 0x0f5fe8bb, 0xced1377b, + 0x5733517a, 0x96bd8eba, 0xbf869b39, 0x7e0844f9, 0xe7ea22f8, + 0x2664fd38, 0xb59c09fe, 0x7412d63e, 0xedf0b03f, 0x2c7e6fff, + 0x05457a7c, 0xc4cba5bc, 0x5d29c3bd, 0x9ca71c7d, 0x2735a3a7, + 0xe6bb7c67, 0x7f591a66, 0xbed7c5a6, 0x97ecd025, 0x56620fe5, + 0xcf8069e4, 0x0e0eb624, 0x9df642e2, 0x5c789d22, 0xc59afb23, + 0x041424e3, 0x2d2f3160, 0xeca1eea0, 0x754388a1, 0xb4cd5761, + 0x89c3676c, 0x484db8ac, 0xd1afdead, 0x1021016d, 0x391a14ee, + 0xf894cb2e, 0x6176ad2f, 0xa0f872ef, 0x33008629, 0xf28e59e9, + 0x6b6c3fe8, 0xaae2e028, 0x83d9f5ab, 0x42572a6b, 0xdbb54c6a, + 0x1a3b93aa}, + {0x00000000, 0xefc26b3e, 0x04f5d03d, 0xeb37bb03, 0x09eba07a, + 0xe629cb44, 0x0d1e7047, 0xe2dc1b79, 0x13d740f4, 0xfc152bca, + 0x172290c9, 0xf8e0fbf7, 0x1a3ce08e, 0xf5fe8bb0, 0x1ec930b3, + 0xf10b5b8d, 0x27ae81e8, 0xc86cead6, 0x235b51d5, 0xcc993aeb, + 0x2e452192, 0xc1874aac, 0x2ab0f1af, 0xc5729a91, 0x3479c11c, + 0xdbbbaa22, 0x308c1121, 0xdf4e7a1f, 0x3d926166, 0xd2500a58, + 0x3967b15b, 0xd6a5da65, 0x4f5d03d0, 0xa09f68ee, 0x4ba8d3ed, + 0xa46ab8d3, 0x46b6a3aa, 0xa974c894, 0x42437397, 0xad8118a9, + 0x5c8a4324, 0xb348281a, 0x587f9319, 0xb7bdf827, 0x5561e35e, + 0xbaa38860, 0x51943363, 0xbe56585d, 0x68f38238, 0x8731e906, + 0x6c065205, 0x83c4393b, 0x61182242, 0x8eda497c, 0x65edf27f, + 0x8a2f9941, 0x7b24c2cc, 0x94e6a9f2, 0x7fd112f1, 0x901379cf, + 0x72cf62b6, 0x9d0d0988, 0x763ab28b, 0x99f8d9b5, 0x9eba07a0, + 0x71786c9e, 0x9a4fd79d, 0x758dbca3, 0x9751a7da, 0x7893cce4, + 0x93a477e7, 0x7c661cd9, 0x8d6d4754, 0x62af2c6a, 0x89989769, + 0x665afc57, 0x8486e72e, 0x6b448c10, 0x80733713, 0x6fb15c2d, + 0xb9148648, 0x56d6ed76, 0xbde15675, 0x52233d4b, 0xb0ff2632, + 0x5f3d4d0c, 0xb40af60f, 0x5bc89d31, 0xaac3c6bc, 0x4501ad82, + 0xae361681, 0x41f47dbf, 0xa32866c6, 0x4cea0df8, 0xa7ddb6fb, + 0x481fddc5, 0xd1e70470, 0x3e256f4e, 0xd512d44d, 0x3ad0bf73, + 0xd80ca40a, 0x37cecf34, 0xdcf97437, 0x333b1f09, 0xc2304484, + 0x2df22fba, 0xc6c594b9, 0x2907ff87, 0xcbdbe4fe, 0x24198fc0, + 0xcf2e34c3, 0x20ec5ffd, 0xf6498598, 0x198beea6, 0xf2bc55a5, + 0x1d7e3e9b, 0xffa225e2, 0x10604edc, 0xfb57f5df, 0x14959ee1, + 0xe59ec56c, 0x0a5cae52, 0xe16b1551, 0x0ea97e6f, 0xec756516, + 0x03b70e28, 0xe880b52b, 0x0742de15, 0xe6050901, 0x09c7623f, + 0xe2f0d93c, 0x0d32b202, 0xefeea97b, 0x002cc245, 0xeb1b7946, + 0x04d91278, 0xf5d249f5, 0x1a1022cb, 0xf12799c8, 0x1ee5f2f6, + 0xfc39e98f, 0x13fb82b1, 0xf8cc39b2, 0x170e528c, 0xc1ab88e9, + 0x2e69e3d7, 0xc55e58d4, 0x2a9c33ea, 0xc8402893, 0x278243ad, + 0xccb5f8ae, 0x23779390, 0xd27cc81d, 0x3dbea323, 0xd6891820, + 0x394b731e, 0xdb976867, 0x34550359, 0xdf62b85a, 0x30a0d364, + 0xa9580ad1, 0x469a61ef, 0xadaddaec, 0x426fb1d2, 0xa0b3aaab, + 0x4f71c195, 0xa4467a96, 0x4b8411a8, 0xba8f4a25, 0x554d211b, + 0xbe7a9a18, 0x51b8f126, 0xb364ea5f, 0x5ca68161, 0xb7913a62, + 0x5853515c, 0x8ef68b39, 0x6134e007, 0x8a035b04, 0x65c1303a, + 0x871d2b43, 0x68df407d, 0x83e8fb7e, 0x6c2a9040, 0x9d21cbcd, + 0x72e3a0f3, 0x99d41bf0, 0x761670ce, 0x94ca6bb7, 0x7b080089, + 0x903fbb8a, 0x7ffdd0b4, 0x78bf0ea1, 0x977d659f, 0x7c4ade9c, + 0x9388b5a2, 0x7154aedb, 0x9e96c5e5, 0x75a17ee6, 0x9a6315d8, + 0x6b684e55, 0x84aa256b, 0x6f9d9e68, 0x805ff556, 0x6283ee2f, + 0x8d418511, 0x66763e12, 0x89b4552c, 0x5f118f49, 0xb0d3e477, + 0x5be45f74, 0xb426344a, 0x56fa2f33, 0xb938440d, 0x520fff0e, + 0xbdcd9430, 0x4cc6cfbd, 0xa304a483, 0x48331f80, 0xa7f174be, + 0x452d6fc7, 0xaaef04f9, 0x41d8bffa, 0xae1ad4c4, 0x37e20d71, + 0xd820664f, 0x3317dd4c, 0xdcd5b672, 0x3e09ad0b, 0xd1cbc635, + 0x3afc7d36, 0xd53e1608, 0x24354d85, 0xcbf726bb, 0x20c09db8, + 0xcf02f686, 0x2ddeedff, 0xc21c86c1, 0x292b3dc2, 0xc6e956fc, + 0x104c8c99, 0xff8ee7a7, 0x14b95ca4, 0xfb7b379a, 0x19a72ce3, + 0xf66547dd, 0x1d52fcde, 0xf29097e0, 0x039bcc6d, 0xec59a753, + 0x076e1c50, 0xe8ac776e, 0x0a706c17, 0xe5b20729, 0x0e85bc2a, + 0xe147d714}, + {0x00000000, 0x177b1443, 0x2ef62886, 0x398d3cc5, 0x5dec510c, + 0x4a97454f, 0x731a798a, 0x64616dc9, 0xbbd8a218, 0xaca3b65b, + 0x952e8a9e, 0x82559edd, 0xe634f314, 0xf14fe757, 0xc8c2db92, + 0xdfb9cfd1, 0xacc04271, 0xbbbb5632, 0x82366af7, 0x954d7eb4, + 0xf12c137d, 0xe657073e, 0xdfda3bfb, 0xc8a12fb8, 0x1718e069, + 0x0063f42a, 0x39eec8ef, 0x2e95dcac, 0x4af4b165, 0x5d8fa526, + 0x640299e3, 0x73798da0, 0x82f182a3, 0x958a96e0, 0xac07aa25, + 0xbb7cbe66, 0xdf1dd3af, 0xc866c7ec, 0xf1ebfb29, 0xe690ef6a, + 0x392920bb, 0x2e5234f8, 0x17df083d, 0x00a41c7e, 0x64c571b7, + 0x73be65f4, 0x4a335931, 0x5d484d72, 0x2e31c0d2, 0x394ad491, + 0x00c7e854, 0x17bcfc17, 0x73dd91de, 0x64a6859d, 0x5d2bb958, + 0x4a50ad1b, 0x95e962ca, 0x82927689, 0xbb1f4a4c, 0xac645e0f, + 0xc80533c6, 0xdf7e2785, 0xe6f31b40, 0xf1880f03, 0xde920307, + 0xc9e91744, 0xf0642b81, 0xe71f3fc2, 0x837e520b, 0x94054648, + 0xad887a8d, 0xbaf36ece, 0x654aa11f, 0x7231b55c, 0x4bbc8999, + 0x5cc79dda, 0x38a6f013, 0x2fdde450, 0x1650d895, 0x012bccd6, + 0x72524176, 0x65295535, 0x5ca469f0, 0x4bdf7db3, 0x2fbe107a, + 0x38c50439, 0x014838fc, 0x16332cbf, 0xc98ae36e, 0xdef1f72d, + 0xe77ccbe8, 0xf007dfab, 0x9466b262, 0x831da621, 0xba909ae4, + 0xadeb8ea7, 0x5c6381a4, 0x4b1895e7, 0x7295a922, 0x65eebd61, + 0x018fd0a8, 0x16f4c4eb, 0x2f79f82e, 0x3802ec6d, 0xe7bb23bc, + 0xf0c037ff, 0xc94d0b3a, 0xde361f79, 0xba5772b0, 0xad2c66f3, + 0x94a15a36, 0x83da4e75, 0xf0a3c3d5, 0xe7d8d796, 0xde55eb53, + 0xc92eff10, 0xad4f92d9, 0xba34869a, 0x83b9ba5f, 0x94c2ae1c, + 0x4b7b61cd, 0x5c00758e, 0x658d494b, 0x72f65d08, 0x169730c1, + 0x01ec2482, 0x38611847, 0x2f1a0c04, 0x6655004f, 0x712e140c, + 0x48a328c9, 0x5fd83c8a, 0x3bb95143, 0x2cc24500, 0x154f79c5, + 0x02346d86, 0xdd8da257, 0xcaf6b614, 0xf37b8ad1, 0xe4009e92, + 0x8061f35b, 0x971ae718, 0xae97dbdd, 0xb9eccf9e, 0xca95423e, + 0xddee567d, 0xe4636ab8, 0xf3187efb, 0x97791332, 0x80020771, + 0xb98f3bb4, 0xaef42ff7, 0x714de026, 0x6636f465, 0x5fbbc8a0, + 0x48c0dce3, 0x2ca1b12a, 0x3bdaa569, 0x025799ac, 0x152c8def, + 0xe4a482ec, 0xf3df96af, 0xca52aa6a, 0xdd29be29, 0xb948d3e0, + 0xae33c7a3, 0x97befb66, 0x80c5ef25, 0x5f7c20f4, 0x480734b7, + 0x718a0872, 0x66f11c31, 0x029071f8, 0x15eb65bb, 0x2c66597e, + 0x3b1d4d3d, 0x4864c09d, 0x5f1fd4de, 0x6692e81b, 0x71e9fc58, + 0x15889191, 0x02f385d2, 0x3b7eb917, 0x2c05ad54, 0xf3bc6285, + 0xe4c776c6, 0xdd4a4a03, 0xca315e40, 0xae503389, 0xb92b27ca, + 0x80a61b0f, 0x97dd0f4c, 0xb8c70348, 0xafbc170b, 0x96312bce, + 0x814a3f8d, 0xe52b5244, 0xf2504607, 0xcbdd7ac2, 0xdca66e81, + 0x031fa150, 0x1464b513, 0x2de989d6, 0x3a929d95, 0x5ef3f05c, + 0x4988e41f, 0x7005d8da, 0x677ecc99, 0x14074139, 0x037c557a, + 0x3af169bf, 0x2d8a7dfc, 0x49eb1035, 0x5e900476, 0x671d38b3, + 0x70662cf0, 0xafdfe321, 0xb8a4f762, 0x8129cba7, 0x9652dfe4, + 0xf233b22d, 0xe548a66e, 0xdcc59aab, 0xcbbe8ee8, 0x3a3681eb, + 0x2d4d95a8, 0x14c0a96d, 0x03bbbd2e, 0x67dad0e7, 0x70a1c4a4, + 0x492cf861, 0x5e57ec22, 0x81ee23f3, 0x969537b0, 0xaf180b75, + 0xb8631f36, 0xdc0272ff, 0xcb7966bc, 0xf2f45a79, 0xe58f4e3a, + 0x96f6c39a, 0x818dd7d9, 0xb800eb1c, 0xaf7bff5f, 0xcb1a9296, + 0xdc6186d5, 0xe5ecba10, 0xf297ae53, 0x2d2e6182, 0x3a5575c1, + 0x03d84904, 0x14a35d47, 0x70c2308e, 0x67b924cd, 0x5e341808, + 0x494f0c4b}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x0000000000000000, 0x43147b1700000000, 0x8628f62e00000000, + 0xc53c8d3900000000, 0x0c51ec5d00000000, 0x4f45974a00000000, + 0x8a791a7300000000, 0xc96d616400000000, 0x18a2d8bb00000000, + 0x5bb6a3ac00000000, 0x9e8a2e9500000000, 0xdd9e558200000000, + 0x14f334e600000000, 0x57e74ff100000000, 0x92dbc2c800000000, + 0xd1cfb9df00000000, 0x7142c0ac00000000, 0x3256bbbb00000000, + 0xf76a368200000000, 0xb47e4d9500000000, 0x7d132cf100000000, + 0x3e0757e600000000, 0xfb3bdadf00000000, 0xb82fa1c800000000, + 0x69e0181700000000, 0x2af4630000000000, 0xefc8ee3900000000, + 0xacdc952e00000000, 0x65b1f44a00000000, 0x26a58f5d00000000, + 0xe399026400000000, 0xa08d797300000000, 0xa382f18200000000, + 0xe0968a9500000000, 0x25aa07ac00000000, 0x66be7cbb00000000, + 0xafd31ddf00000000, 0xecc766c800000000, 0x29fbebf100000000, + 0x6aef90e600000000, 0xbb20293900000000, 0xf834522e00000000, + 0x3d08df1700000000, 0x7e1ca40000000000, 0xb771c56400000000, + 0xf465be7300000000, 0x3159334a00000000, 0x724d485d00000000, + 0xd2c0312e00000000, 0x91d44a3900000000, 0x54e8c70000000000, + 0x17fcbc1700000000, 0xde91dd7300000000, 0x9d85a66400000000, + 0x58b92b5d00000000, 0x1bad504a00000000, 0xca62e99500000000, + 0x8976928200000000, 0x4c4a1fbb00000000, 0x0f5e64ac00000000, + 0xc63305c800000000, 0x85277edf00000000, 0x401bf3e600000000, + 0x030f88f100000000, 0x070392de00000000, 0x4417e9c900000000, + 0x812b64f000000000, 0xc23f1fe700000000, 0x0b527e8300000000, + 0x4846059400000000, 0x8d7a88ad00000000, 0xce6ef3ba00000000, + 0x1fa14a6500000000, 0x5cb5317200000000, 0x9989bc4b00000000, + 0xda9dc75c00000000, 0x13f0a63800000000, 0x50e4dd2f00000000, + 0x95d8501600000000, 0xd6cc2b0100000000, 0x7641527200000000, + 0x3555296500000000, 0xf069a45c00000000, 0xb37ddf4b00000000, + 0x7a10be2f00000000, 0x3904c53800000000, 0xfc38480100000000, + 0xbf2c331600000000, 0x6ee38ac900000000, 0x2df7f1de00000000, + 0xe8cb7ce700000000, 0xabdf07f000000000, 0x62b2669400000000, + 0x21a61d8300000000, 0xe49a90ba00000000, 0xa78eebad00000000, + 0xa481635c00000000, 0xe795184b00000000, 0x22a9957200000000, + 0x61bdee6500000000, 0xa8d08f0100000000, 0xebc4f41600000000, + 0x2ef8792f00000000, 0x6dec023800000000, 0xbc23bbe700000000, + 0xff37c0f000000000, 0x3a0b4dc900000000, 0x791f36de00000000, + 0xb07257ba00000000, 0xf3662cad00000000, 0x365aa19400000000, + 0x754eda8300000000, 0xd5c3a3f000000000, 0x96d7d8e700000000, + 0x53eb55de00000000, 0x10ff2ec900000000, 0xd9924fad00000000, + 0x9a8634ba00000000, 0x5fbab98300000000, 0x1caec29400000000, + 0xcd617b4b00000000, 0x8e75005c00000000, 0x4b498d6500000000, + 0x085df67200000000, 0xc130971600000000, 0x8224ec0100000000, + 0x4718613800000000, 0x040c1a2f00000000, 0x4f00556600000000, + 0x0c142e7100000000, 0xc928a34800000000, 0x8a3cd85f00000000, + 0x4351b93b00000000, 0x0045c22c00000000, 0xc5794f1500000000, + 0x866d340200000000, 0x57a28ddd00000000, 0x14b6f6ca00000000, + 0xd18a7bf300000000, 0x929e00e400000000, 0x5bf3618000000000, + 0x18e71a9700000000, 0xdddb97ae00000000, 0x9ecfecb900000000, + 0x3e4295ca00000000, 0x7d56eedd00000000, 0xb86a63e400000000, + 0xfb7e18f300000000, 0x3213799700000000, 0x7107028000000000, + 0xb43b8fb900000000, 0xf72ff4ae00000000, 0x26e04d7100000000, + 0x65f4366600000000, 0xa0c8bb5f00000000, 0xe3dcc04800000000, + 0x2ab1a12c00000000, 0x69a5da3b00000000, 0xac99570200000000, + 0xef8d2c1500000000, 0xec82a4e400000000, 0xaf96dff300000000, + 0x6aaa52ca00000000, 0x29be29dd00000000, 0xe0d348b900000000, + 0xa3c733ae00000000, 0x66fbbe9700000000, 0x25efc58000000000, + 0xf4207c5f00000000, 0xb734074800000000, 0x72088a7100000000, + 0x311cf16600000000, 0xf871900200000000, 0xbb65eb1500000000, + 0x7e59662c00000000, 0x3d4d1d3b00000000, 0x9dc0644800000000, + 0xded41f5f00000000, 0x1be8926600000000, 0x58fce97100000000, + 0x9191881500000000, 0xd285f30200000000, 0x17b97e3b00000000, + 0x54ad052c00000000, 0x8562bcf300000000, 0xc676c7e400000000, + 0x034a4add00000000, 0x405e31ca00000000, 0x893350ae00000000, + 0xca272bb900000000, 0x0f1ba68000000000, 0x4c0fdd9700000000, + 0x4803c7b800000000, 0x0b17bcaf00000000, 0xce2b319600000000, + 0x8d3f4a8100000000, 0x44522be500000000, 0x074650f200000000, + 0xc27addcb00000000, 0x816ea6dc00000000, 0x50a11f0300000000, + 0x13b5641400000000, 0xd689e92d00000000, 0x959d923a00000000, + 0x5cf0f35e00000000, 0x1fe4884900000000, 0xdad8057000000000, + 0x99cc7e6700000000, 0x3941071400000000, 0x7a557c0300000000, + 0xbf69f13a00000000, 0xfc7d8a2d00000000, 0x3510eb4900000000, + 0x7604905e00000000, 0xb3381d6700000000, 0xf02c667000000000, + 0x21e3dfaf00000000, 0x62f7a4b800000000, 0xa7cb298100000000, + 0xe4df529600000000, 0x2db233f200000000, 0x6ea648e500000000, + 0xab9ac5dc00000000, 0xe88ebecb00000000, 0xeb81363a00000000, + 0xa8954d2d00000000, 0x6da9c01400000000, 0x2ebdbb0300000000, + 0xe7d0da6700000000, 0xa4c4a17000000000, 0x61f82c4900000000, + 0x22ec575e00000000, 0xf323ee8100000000, 0xb037959600000000, + 0x750b18af00000000, 0x361f63b800000000, 0xff7202dc00000000, + 0xbc6679cb00000000, 0x795af4f200000000, 0x3a4e8fe500000000, + 0x9ac3f69600000000, 0xd9d78d8100000000, 0x1ceb00b800000000, + 0x5fff7baf00000000, 0x96921acb00000000, 0xd58661dc00000000, + 0x10baece500000000, 0x53ae97f200000000, 0x82612e2d00000000, + 0xc175553a00000000, 0x0449d80300000000, 0x475da31400000000, + 0x8e30c27000000000, 0xcd24b96700000000, 0x0818345e00000000, + 0x4b0c4f4900000000}, + {0x0000000000000000, 0x3e6bc2ef00000000, 0x3dd0f50400000000, + 0x03bb37eb00000000, 0x7aa0eb0900000000, 0x44cb29e600000000, + 0x47701e0d00000000, 0x791bdce200000000, 0xf440d71300000000, + 0xca2b15fc00000000, 0xc990221700000000, 0xf7fbe0f800000000, + 0x8ee03c1a00000000, 0xb08bfef500000000, 0xb330c91e00000000, + 0x8d5b0bf100000000, 0xe881ae2700000000, 0xd6ea6cc800000000, + 0xd5515b2300000000, 0xeb3a99cc00000000, 0x9221452e00000000, + 0xac4a87c100000000, 0xaff1b02a00000000, 0x919a72c500000000, + 0x1cc1793400000000, 0x22aabbdb00000000, 0x21118c3000000000, + 0x1f7a4edf00000000, 0x6661923d00000000, 0x580a50d200000000, + 0x5bb1673900000000, 0x65daa5d600000000, 0xd0035d4f00000000, + 0xee689fa000000000, 0xedd3a84b00000000, 0xd3b86aa400000000, + 0xaaa3b64600000000, 0x94c874a900000000, 0x9773434200000000, + 0xa91881ad00000000, 0x24438a5c00000000, 0x1a2848b300000000, + 0x19937f5800000000, 0x27f8bdb700000000, 0x5ee3615500000000, + 0x6088a3ba00000000, 0x6333945100000000, 0x5d5856be00000000, + 0x3882f36800000000, 0x06e9318700000000, 0x0552066c00000000, + 0x3b39c48300000000, 0x4222186100000000, 0x7c49da8e00000000, + 0x7ff2ed6500000000, 0x41992f8a00000000, 0xccc2247b00000000, + 0xf2a9e69400000000, 0xf112d17f00000000, 0xcf79139000000000, + 0xb662cf7200000000, 0x88090d9d00000000, 0x8bb23a7600000000, + 0xb5d9f89900000000, 0xa007ba9e00000000, 0x9e6c787100000000, + 0x9dd74f9a00000000, 0xa3bc8d7500000000, 0xdaa7519700000000, + 0xe4cc937800000000, 0xe777a49300000000, 0xd91c667c00000000, + 0x54476d8d00000000, 0x6a2caf6200000000, 0x6997988900000000, + 0x57fc5a6600000000, 0x2ee7868400000000, 0x108c446b00000000, + 0x1337738000000000, 0x2d5cb16f00000000, 0x488614b900000000, + 0x76edd65600000000, 0x7556e1bd00000000, 0x4b3d235200000000, + 0x3226ffb000000000, 0x0c4d3d5f00000000, 0x0ff60ab400000000, + 0x319dc85b00000000, 0xbcc6c3aa00000000, 0x82ad014500000000, + 0x811636ae00000000, 0xbf7df44100000000, 0xc66628a300000000, + 0xf80dea4c00000000, 0xfbb6dda700000000, 0xc5dd1f4800000000, + 0x7004e7d100000000, 0x4e6f253e00000000, 0x4dd412d500000000, + 0x73bfd03a00000000, 0x0aa40cd800000000, 0x34cfce3700000000, + 0x3774f9dc00000000, 0x091f3b3300000000, 0x844430c200000000, + 0xba2ff22d00000000, 0xb994c5c600000000, 0x87ff072900000000, + 0xfee4dbcb00000000, 0xc08f192400000000, 0xc3342ecf00000000, + 0xfd5fec2000000000, 0x988549f600000000, 0xa6ee8b1900000000, + 0xa555bcf200000000, 0x9b3e7e1d00000000, 0xe225a2ff00000000, + 0xdc4e601000000000, 0xdff557fb00000000, 0xe19e951400000000, + 0x6cc59ee500000000, 0x52ae5c0a00000000, 0x51156be100000000, + 0x6f7ea90e00000000, 0x166575ec00000000, 0x280eb70300000000, + 0x2bb580e800000000, 0x15de420700000000, 0x010905e600000000, + 0x3f62c70900000000, 0x3cd9f0e200000000, 0x02b2320d00000000, + 0x7ba9eeef00000000, 0x45c22c0000000000, 0x46791beb00000000, + 0x7812d90400000000, 0xf549d2f500000000, 0xcb22101a00000000, + 0xc89927f100000000, 0xf6f2e51e00000000, 0x8fe939fc00000000, + 0xb182fb1300000000, 0xb239ccf800000000, 0x8c520e1700000000, + 0xe988abc100000000, 0xd7e3692e00000000, 0xd4585ec500000000, + 0xea339c2a00000000, 0x932840c800000000, 0xad43822700000000, + 0xaef8b5cc00000000, 0x9093772300000000, 0x1dc87cd200000000, + 0x23a3be3d00000000, 0x201889d600000000, 0x1e734b3900000000, + 0x676897db00000000, 0x5903553400000000, 0x5ab862df00000000, + 0x64d3a03000000000, 0xd10a58a900000000, 0xef619a4600000000, + 0xecdaadad00000000, 0xd2b16f4200000000, 0xabaab3a000000000, + 0x95c1714f00000000, 0x967a46a400000000, 0xa811844b00000000, + 0x254a8fba00000000, 0x1b214d5500000000, 0x189a7abe00000000, + 0x26f1b85100000000, 0x5fea64b300000000, 0x6181a65c00000000, + 0x623a91b700000000, 0x5c51535800000000, 0x398bf68e00000000, + 0x07e0346100000000, 0x045b038a00000000, 0x3a30c16500000000, + 0x432b1d8700000000, 0x7d40df6800000000, 0x7efbe88300000000, + 0x40902a6c00000000, 0xcdcb219d00000000, 0xf3a0e37200000000, + 0xf01bd49900000000, 0xce70167600000000, 0xb76bca9400000000, + 0x8900087b00000000, 0x8abb3f9000000000, 0xb4d0fd7f00000000, + 0xa10ebf7800000000, 0x9f657d9700000000, 0x9cde4a7c00000000, + 0xa2b5889300000000, 0xdbae547100000000, 0xe5c5969e00000000, + 0xe67ea17500000000, 0xd815639a00000000, 0x554e686b00000000, + 0x6b25aa8400000000, 0x689e9d6f00000000, 0x56f55f8000000000, + 0x2fee836200000000, 0x1185418d00000000, 0x123e766600000000, + 0x2c55b48900000000, 0x498f115f00000000, 0x77e4d3b000000000, + 0x745fe45b00000000, 0x4a3426b400000000, 0x332ffa5600000000, + 0x0d4438b900000000, 0x0eff0f5200000000, 0x3094cdbd00000000, + 0xbdcfc64c00000000, 0x83a404a300000000, 0x801f334800000000, + 0xbe74f1a700000000, 0xc76f2d4500000000, 0xf904efaa00000000, + 0xfabfd84100000000, 0xc4d41aae00000000, 0x710de23700000000, + 0x4f6620d800000000, 0x4cdd173300000000, 0x72b6d5dc00000000, + 0x0bad093e00000000, 0x35c6cbd100000000, 0x367dfc3a00000000, + 0x08163ed500000000, 0x854d352400000000, 0xbb26f7cb00000000, + 0xb89dc02000000000, 0x86f602cf00000000, 0xffedde2d00000000, + 0xc1861cc200000000, 0xc23d2b2900000000, 0xfc56e9c600000000, + 0x998c4c1000000000, 0xa7e78eff00000000, 0xa45cb91400000000, + 0x9a377bfb00000000, 0xe32ca71900000000, 0xdd4765f600000000, + 0xdefc521d00000000, 0xe09790f200000000, 0x6dcc9b0300000000, + 0x53a759ec00000000, 0x501c6e0700000000, 0x6e77ace800000000, + 0x176c700a00000000, 0x2907b2e500000000, 0x2abc850e00000000, + 0x14d747e100000000}, + {0x0000000000000000, 0xc0df8ec100000000, 0xc1b96c5800000000, + 0x0166e29900000000, 0x8273d9b000000000, 0x42ac577100000000, + 0x43cab5e800000000, 0x83153b2900000000, 0x45e1c3ba00000000, + 0x853e4d7b00000000, 0x8458afe200000000, 0x4487212300000000, + 0xc7921a0a00000000, 0x074d94cb00000000, 0x062b765200000000, + 0xc6f4f89300000000, 0xcbc4f6ae00000000, 0x0b1b786f00000000, + 0x0a7d9af600000000, 0xcaa2143700000000, 0x49b72f1e00000000, + 0x8968a1df00000000, 0x880e434600000000, 0x48d1cd8700000000, + 0x8e25351400000000, 0x4efabbd500000000, 0x4f9c594c00000000, + 0x8f43d78d00000000, 0x0c56eca400000000, 0xcc89626500000000, + 0xcdef80fc00000000, 0x0d300e3d00000000, 0xd78f9c8600000000, + 0x1750124700000000, 0x1636f0de00000000, 0xd6e97e1f00000000, + 0x55fc453600000000, 0x9523cbf700000000, 0x9445296e00000000, + 0x549aa7af00000000, 0x926e5f3c00000000, 0x52b1d1fd00000000, + 0x53d7336400000000, 0x9308bda500000000, 0x101d868c00000000, + 0xd0c2084d00000000, 0xd1a4ead400000000, 0x117b641500000000, + 0x1c4b6a2800000000, 0xdc94e4e900000000, 0xddf2067000000000, + 0x1d2d88b100000000, 0x9e38b39800000000, 0x5ee73d5900000000, + 0x5f81dfc000000000, 0x9f5e510100000000, 0x59aaa99200000000, + 0x9975275300000000, 0x9813c5ca00000000, 0x58cc4b0b00000000, + 0xdbd9702200000000, 0x1b06fee300000000, 0x1a601c7a00000000, + 0xdabf92bb00000000, 0xef1948d600000000, 0x2fc6c61700000000, + 0x2ea0248e00000000, 0xee7faa4f00000000, 0x6d6a916600000000, + 0xadb51fa700000000, 0xacd3fd3e00000000, 0x6c0c73ff00000000, + 0xaaf88b6c00000000, 0x6a2705ad00000000, 0x6b41e73400000000, + 0xab9e69f500000000, 0x288b52dc00000000, 0xe854dc1d00000000, + 0xe9323e8400000000, 0x29edb04500000000, 0x24ddbe7800000000, + 0xe40230b900000000, 0xe564d22000000000, 0x25bb5ce100000000, + 0xa6ae67c800000000, 0x6671e90900000000, 0x67170b9000000000, + 0xa7c8855100000000, 0x613c7dc200000000, 0xa1e3f30300000000, + 0xa085119a00000000, 0x605a9f5b00000000, 0xe34fa47200000000, + 0x23902ab300000000, 0x22f6c82a00000000, 0xe22946eb00000000, + 0x3896d45000000000, 0xf8495a9100000000, 0xf92fb80800000000, + 0x39f036c900000000, 0xbae50de000000000, 0x7a3a832100000000, + 0x7b5c61b800000000, 0xbb83ef7900000000, 0x7d7717ea00000000, + 0xbda8992b00000000, 0xbcce7bb200000000, 0x7c11f57300000000, + 0xff04ce5a00000000, 0x3fdb409b00000000, 0x3ebda20200000000, + 0xfe622cc300000000, 0xf35222fe00000000, 0x338dac3f00000000, + 0x32eb4ea600000000, 0xf234c06700000000, 0x7121fb4e00000000, + 0xb1fe758f00000000, 0xb098971600000000, 0x704719d700000000, + 0xb6b3e14400000000, 0x766c6f8500000000, 0x770a8d1c00000000, + 0xb7d503dd00000000, 0x34c038f400000000, 0xf41fb63500000000, + 0xf57954ac00000000, 0x35a6da6d00000000, 0x9f35e17700000000, + 0x5fea6fb600000000, 0x5e8c8d2f00000000, 0x9e5303ee00000000, + 0x1d4638c700000000, 0xdd99b60600000000, 0xdcff549f00000000, + 0x1c20da5e00000000, 0xdad422cd00000000, 0x1a0bac0c00000000, + 0x1b6d4e9500000000, 0xdbb2c05400000000, 0x58a7fb7d00000000, + 0x987875bc00000000, 0x991e972500000000, 0x59c119e400000000, + 0x54f117d900000000, 0x942e991800000000, 0x95487b8100000000, + 0x5597f54000000000, 0xd682ce6900000000, 0x165d40a800000000, + 0x173ba23100000000, 0xd7e42cf000000000, 0x1110d46300000000, + 0xd1cf5aa200000000, 0xd0a9b83b00000000, 0x107636fa00000000, + 0x93630dd300000000, 0x53bc831200000000, 0x52da618b00000000, + 0x9205ef4a00000000, 0x48ba7df100000000, 0x8865f33000000000, + 0x890311a900000000, 0x49dc9f6800000000, 0xcac9a44100000000, + 0x0a162a8000000000, 0x0b70c81900000000, 0xcbaf46d800000000, + 0x0d5bbe4b00000000, 0xcd84308a00000000, 0xcce2d21300000000, + 0x0c3d5cd200000000, 0x8f2867fb00000000, 0x4ff7e93a00000000, + 0x4e910ba300000000, 0x8e4e856200000000, 0x837e8b5f00000000, + 0x43a1059e00000000, 0x42c7e70700000000, 0x821869c600000000, + 0x010d52ef00000000, 0xc1d2dc2e00000000, 0xc0b43eb700000000, + 0x006bb07600000000, 0xc69f48e500000000, 0x0640c62400000000, + 0x072624bd00000000, 0xc7f9aa7c00000000, 0x44ec915500000000, + 0x84331f9400000000, 0x8555fd0d00000000, 0x458a73cc00000000, + 0x702ca9a100000000, 0xb0f3276000000000, 0xb195c5f900000000, + 0x714a4b3800000000, 0xf25f701100000000, 0x3280fed000000000, + 0x33e61c4900000000, 0xf339928800000000, 0x35cd6a1b00000000, + 0xf512e4da00000000, 0xf474064300000000, 0x34ab888200000000, + 0xb7beb3ab00000000, 0x77613d6a00000000, 0x7607dff300000000, + 0xb6d8513200000000, 0xbbe85f0f00000000, 0x7b37d1ce00000000, + 0x7a51335700000000, 0xba8ebd9600000000, 0x399b86bf00000000, + 0xf944087e00000000, 0xf822eae700000000, 0x38fd642600000000, + 0xfe099cb500000000, 0x3ed6127400000000, 0x3fb0f0ed00000000, + 0xff6f7e2c00000000, 0x7c7a450500000000, 0xbca5cbc400000000, + 0xbdc3295d00000000, 0x7d1ca79c00000000, 0xa7a3352700000000, + 0x677cbbe600000000, 0x661a597f00000000, 0xa6c5d7be00000000, + 0x25d0ec9700000000, 0xe50f625600000000, 0xe46980cf00000000, + 0x24b60e0e00000000, 0xe242f69d00000000, 0x229d785c00000000, + 0x23fb9ac500000000, 0xe324140400000000, 0x60312f2d00000000, + 0xa0eea1ec00000000, 0xa188437500000000, 0x6157cdb400000000, + 0x6c67c38900000000, 0xacb84d4800000000, 0xaddeafd100000000, + 0x6d01211000000000, 0xee141a3900000000, 0x2ecb94f800000000, + 0x2fad766100000000, 0xef72f8a000000000, 0x2986003300000000, + 0xe9598ef200000000, 0xe83f6c6b00000000, 0x28e0e2aa00000000, + 0xabf5d98300000000, 0x6b2a574200000000, 0x6a4cb5db00000000, + 0xaa933b1a00000000}, + {0x0000000000000000, 0x6f4ca59b00000000, 0x9f9e3bec00000000, + 0xf0d29e7700000000, 0x7f3b060300000000, 0x1077a39800000000, + 0xe0a53def00000000, 0x8fe9987400000000, 0xfe760c0600000000, + 0x913aa99d00000000, 0x61e837ea00000000, 0x0ea4927100000000, + 0x814d0a0500000000, 0xee01af9e00000000, 0x1ed331e900000000, + 0x719f947200000000, 0xfced180c00000000, 0x93a1bd9700000000, + 0x637323e000000000, 0x0c3f867b00000000, 0x83d61e0f00000000, + 0xec9abb9400000000, 0x1c4825e300000000, 0x7304807800000000, + 0x029b140a00000000, 0x6dd7b19100000000, 0x9d052fe600000000, + 0xf2498a7d00000000, 0x7da0120900000000, 0x12ecb79200000000, + 0xe23e29e500000000, 0x8d728c7e00000000, 0xf8db311800000000, + 0x9797948300000000, 0x67450af400000000, 0x0809af6f00000000, + 0x87e0371b00000000, 0xe8ac928000000000, 0x187e0cf700000000, + 0x7732a96c00000000, 0x06ad3d1e00000000, 0x69e1988500000000, + 0x993306f200000000, 0xf67fa36900000000, 0x79963b1d00000000, + 0x16da9e8600000000, 0xe60800f100000000, 0x8944a56a00000000, + 0x0436291400000000, 0x6b7a8c8f00000000, 0x9ba812f800000000, + 0xf4e4b76300000000, 0x7b0d2f1700000000, 0x14418a8c00000000, + 0xe49314fb00000000, 0x8bdfb16000000000, 0xfa40251200000000, + 0x950c808900000000, 0x65de1efe00000000, 0x0a92bb6500000000, + 0x857b231100000000, 0xea37868a00000000, 0x1ae518fd00000000, + 0x75a9bd6600000000, 0xf0b7633000000000, 0x9ffbc6ab00000000, + 0x6f2958dc00000000, 0x0065fd4700000000, 0x8f8c653300000000, + 0xe0c0c0a800000000, 0x10125edf00000000, 0x7f5efb4400000000, + 0x0ec16f3600000000, 0x618dcaad00000000, 0x915f54da00000000, + 0xfe13f14100000000, 0x71fa693500000000, 0x1eb6ccae00000000, + 0xee6452d900000000, 0x8128f74200000000, 0x0c5a7b3c00000000, + 0x6316dea700000000, 0x93c440d000000000, 0xfc88e54b00000000, + 0x73617d3f00000000, 0x1c2dd8a400000000, 0xecff46d300000000, + 0x83b3e34800000000, 0xf22c773a00000000, 0x9d60d2a100000000, + 0x6db24cd600000000, 0x02fee94d00000000, 0x8d17713900000000, + 0xe25bd4a200000000, 0x12894ad500000000, 0x7dc5ef4e00000000, + 0x086c522800000000, 0x6720f7b300000000, 0x97f269c400000000, + 0xf8becc5f00000000, 0x7757542b00000000, 0x181bf1b000000000, + 0xe8c96fc700000000, 0x8785ca5c00000000, 0xf61a5e2e00000000, + 0x9956fbb500000000, 0x698465c200000000, 0x06c8c05900000000, + 0x8921582d00000000, 0xe66dfdb600000000, 0x16bf63c100000000, + 0x79f3c65a00000000, 0xf4814a2400000000, 0x9bcdefbf00000000, + 0x6b1f71c800000000, 0x0453d45300000000, 0x8bba4c2700000000, + 0xe4f6e9bc00000000, 0x142477cb00000000, 0x7b68d25000000000, + 0x0af7462200000000, 0x65bbe3b900000000, 0x95697dce00000000, + 0xfa25d85500000000, 0x75cc402100000000, 0x1a80e5ba00000000, + 0xea527bcd00000000, 0x851ede5600000000, 0xe06fc76000000000, + 0x8f2362fb00000000, 0x7ff1fc8c00000000, 0x10bd591700000000, + 0x9f54c16300000000, 0xf01864f800000000, 0x00cafa8f00000000, + 0x6f865f1400000000, 0x1e19cb6600000000, 0x71556efd00000000, + 0x8187f08a00000000, 0xeecb551100000000, 0x6122cd6500000000, + 0x0e6e68fe00000000, 0xfebcf68900000000, 0x91f0531200000000, + 0x1c82df6c00000000, 0x73ce7af700000000, 0x831ce48000000000, + 0xec50411b00000000, 0x63b9d96f00000000, 0x0cf57cf400000000, + 0xfc27e28300000000, 0x936b471800000000, 0xe2f4d36a00000000, + 0x8db876f100000000, 0x7d6ae88600000000, 0x12264d1d00000000, + 0x9dcfd56900000000, 0xf28370f200000000, 0x0251ee8500000000, + 0x6d1d4b1e00000000, 0x18b4f67800000000, 0x77f853e300000000, + 0x872acd9400000000, 0xe866680f00000000, 0x678ff07b00000000, + 0x08c355e000000000, 0xf811cb9700000000, 0x975d6e0c00000000, + 0xe6c2fa7e00000000, 0x898e5fe500000000, 0x795cc19200000000, + 0x1610640900000000, 0x99f9fc7d00000000, 0xf6b559e600000000, + 0x0667c79100000000, 0x692b620a00000000, 0xe459ee7400000000, + 0x8b154bef00000000, 0x7bc7d59800000000, 0x148b700300000000, + 0x9b62e87700000000, 0xf42e4dec00000000, 0x04fcd39b00000000, + 0x6bb0760000000000, 0x1a2fe27200000000, 0x756347e900000000, + 0x85b1d99e00000000, 0xeafd7c0500000000, 0x6514e47100000000, + 0x0a5841ea00000000, 0xfa8adf9d00000000, 0x95c67a0600000000, + 0x10d8a45000000000, 0x7f9401cb00000000, 0x8f469fbc00000000, + 0xe00a3a2700000000, 0x6fe3a25300000000, 0x00af07c800000000, + 0xf07d99bf00000000, 0x9f313c2400000000, 0xeeaea85600000000, + 0x81e20dcd00000000, 0x713093ba00000000, 0x1e7c362100000000, + 0x9195ae5500000000, 0xfed90bce00000000, 0x0e0b95b900000000, + 0x6147302200000000, 0xec35bc5c00000000, 0x837919c700000000, + 0x73ab87b000000000, 0x1ce7222b00000000, 0x930eba5f00000000, + 0xfc421fc400000000, 0x0c9081b300000000, 0x63dc242800000000, + 0x1243b05a00000000, 0x7d0f15c100000000, 0x8ddd8bb600000000, + 0xe2912e2d00000000, 0x6d78b65900000000, 0x023413c200000000, + 0xf2e68db500000000, 0x9daa282e00000000, 0xe803954800000000, + 0x874f30d300000000, 0x779daea400000000, 0x18d10b3f00000000, + 0x9738934b00000000, 0xf87436d000000000, 0x08a6a8a700000000, + 0x67ea0d3c00000000, 0x1675994e00000000, 0x79393cd500000000, + 0x89eba2a200000000, 0xe6a7073900000000, 0x694e9f4d00000000, + 0x06023ad600000000, 0xf6d0a4a100000000, 0x999c013a00000000, + 0x14ee8d4400000000, 0x7ba228df00000000, 0x8b70b6a800000000, + 0xe43c133300000000, 0x6bd58b4700000000, 0x04992edc00000000, + 0xf44bb0ab00000000, 0x9b07153000000000, 0xea98814200000000, + 0x85d424d900000000, 0x7506baae00000000, 0x1a4a1f3500000000, + 0x95a3874100000000, 0xfaef22da00000000, 0x0a3dbcad00000000, + 0x6571193600000000}, + {0x0000000000000000, 0x85d996dd00000000, 0x4bb55c6000000000, + 0xce6ccabd00000000, 0x966ab9c000000000, 0x13b32f1d00000000, + 0xdddfe5a000000000, 0x5806737d00000000, 0x6dd3035a00000000, + 0xe80a958700000000, 0x26665f3a00000000, 0xa3bfc9e700000000, + 0xfbb9ba9a00000000, 0x7e602c4700000000, 0xb00ce6fa00000000, + 0x35d5702700000000, 0xdaa607b400000000, 0x5f7f916900000000, + 0x91135bd400000000, 0x14cacd0900000000, 0x4cccbe7400000000, + 0xc91528a900000000, 0x0779e21400000000, 0x82a074c900000000, + 0xb77504ee00000000, 0x32ac923300000000, 0xfcc0588e00000000, + 0x7919ce5300000000, 0x211fbd2e00000000, 0xa4c62bf300000000, + 0x6aaae14e00000000, 0xef73779300000000, 0xf54b7eb300000000, + 0x7092e86e00000000, 0xbefe22d300000000, 0x3b27b40e00000000, + 0x6321c77300000000, 0xe6f851ae00000000, 0x28949b1300000000, + 0xad4d0dce00000000, 0x98987de900000000, 0x1d41eb3400000000, + 0xd32d218900000000, 0x56f4b75400000000, 0x0ef2c42900000000, + 0x8b2b52f400000000, 0x4547984900000000, 0xc09e0e9400000000, + 0x2fed790700000000, 0xaa34efda00000000, 0x6458256700000000, + 0xe181b3ba00000000, 0xb987c0c700000000, 0x3c5e561a00000000, + 0xf2329ca700000000, 0x77eb0a7a00000000, 0x423e7a5d00000000, + 0xc7e7ec8000000000, 0x098b263d00000000, 0x8c52b0e000000000, + 0xd454c39d00000000, 0x518d554000000000, 0x9fe19ffd00000000, + 0x1a38092000000000, 0xab918dbd00000000, 0x2e481b6000000000, + 0xe024d1dd00000000, 0x65fd470000000000, 0x3dfb347d00000000, + 0xb822a2a000000000, 0x764e681d00000000, 0xf397fec000000000, + 0xc6428ee700000000, 0x439b183a00000000, 0x8df7d28700000000, + 0x082e445a00000000, 0x5028372700000000, 0xd5f1a1fa00000000, + 0x1b9d6b4700000000, 0x9e44fd9a00000000, 0x71378a0900000000, + 0xf4ee1cd400000000, 0x3a82d66900000000, 0xbf5b40b400000000, + 0xe75d33c900000000, 0x6284a51400000000, 0xace86fa900000000, + 0x2931f97400000000, 0x1ce4895300000000, 0x993d1f8e00000000, + 0x5751d53300000000, 0xd28843ee00000000, 0x8a8e309300000000, + 0x0f57a64e00000000, 0xc13b6cf300000000, 0x44e2fa2e00000000, + 0x5edaf30e00000000, 0xdb0365d300000000, 0x156faf6e00000000, + 0x90b639b300000000, 0xc8b04ace00000000, 0x4d69dc1300000000, + 0x830516ae00000000, 0x06dc807300000000, 0x3309f05400000000, + 0xb6d0668900000000, 0x78bcac3400000000, 0xfd653ae900000000, + 0xa563499400000000, 0x20badf4900000000, 0xeed615f400000000, + 0x6b0f832900000000, 0x847cf4ba00000000, 0x01a5626700000000, + 0xcfc9a8da00000000, 0x4a103e0700000000, 0x12164d7a00000000, + 0x97cfdba700000000, 0x59a3111a00000000, 0xdc7a87c700000000, + 0xe9aff7e000000000, 0x6c76613d00000000, 0xa21aab8000000000, + 0x27c33d5d00000000, 0x7fc54e2000000000, 0xfa1cd8fd00000000, + 0x3470124000000000, 0xb1a9849d00000000, 0x17256aa000000000, + 0x92fcfc7d00000000, 0x5c9036c000000000, 0xd949a01d00000000, + 0x814fd36000000000, 0x049645bd00000000, 0xcafa8f0000000000, + 0x4f2319dd00000000, 0x7af669fa00000000, 0xff2fff2700000000, + 0x3143359a00000000, 0xb49aa34700000000, 0xec9cd03a00000000, + 0x694546e700000000, 0xa7298c5a00000000, 0x22f01a8700000000, + 0xcd836d1400000000, 0x485afbc900000000, 0x8636317400000000, + 0x03efa7a900000000, 0x5be9d4d400000000, 0xde30420900000000, + 0x105c88b400000000, 0x95851e6900000000, 0xa0506e4e00000000, + 0x2589f89300000000, 0xebe5322e00000000, 0x6e3ca4f300000000, + 0x363ad78e00000000, 0xb3e3415300000000, 0x7d8f8bee00000000, + 0xf8561d3300000000, 0xe26e141300000000, 0x67b782ce00000000, + 0xa9db487300000000, 0x2c02deae00000000, 0x7404add300000000, + 0xf1dd3b0e00000000, 0x3fb1f1b300000000, 0xba68676e00000000, + 0x8fbd174900000000, 0x0a64819400000000, 0xc4084b2900000000, + 0x41d1ddf400000000, 0x19d7ae8900000000, 0x9c0e385400000000, + 0x5262f2e900000000, 0xd7bb643400000000, 0x38c813a700000000, + 0xbd11857a00000000, 0x737d4fc700000000, 0xf6a4d91a00000000, + 0xaea2aa6700000000, 0x2b7b3cba00000000, 0xe517f60700000000, + 0x60ce60da00000000, 0x551b10fd00000000, 0xd0c2862000000000, + 0x1eae4c9d00000000, 0x9b77da4000000000, 0xc371a93d00000000, + 0x46a83fe000000000, 0x88c4f55d00000000, 0x0d1d638000000000, + 0xbcb4e71d00000000, 0x396d71c000000000, 0xf701bb7d00000000, + 0x72d82da000000000, 0x2ade5edd00000000, 0xaf07c80000000000, + 0x616b02bd00000000, 0xe4b2946000000000, 0xd167e44700000000, + 0x54be729a00000000, 0x9ad2b82700000000, 0x1f0b2efa00000000, + 0x470d5d8700000000, 0xc2d4cb5a00000000, 0x0cb801e700000000, + 0x8961973a00000000, 0x6612e0a900000000, 0xe3cb767400000000, + 0x2da7bcc900000000, 0xa87e2a1400000000, 0xf078596900000000, + 0x75a1cfb400000000, 0xbbcd050900000000, 0x3e1493d400000000, + 0x0bc1e3f300000000, 0x8e18752e00000000, 0x4074bf9300000000, + 0xc5ad294e00000000, 0x9dab5a3300000000, 0x1872ccee00000000, + 0xd61e065300000000, 0x53c7908e00000000, 0x49ff99ae00000000, + 0xcc260f7300000000, 0x024ac5ce00000000, 0x8793531300000000, + 0xdf95206e00000000, 0x5a4cb6b300000000, 0x94207c0e00000000, + 0x11f9ead300000000, 0x242c9af400000000, 0xa1f50c2900000000, + 0x6f99c69400000000, 0xea40504900000000, 0xb246233400000000, + 0x379fb5e900000000, 0xf9f37f5400000000, 0x7c2ae98900000000, + 0x93599e1a00000000, 0x168008c700000000, 0xd8ecc27a00000000, + 0x5d3554a700000000, 0x053327da00000000, 0x80eab10700000000, + 0x4e867bba00000000, 0xcb5fed6700000000, 0xfe8a9d4000000000, + 0x7b530b9d00000000, 0xb53fc12000000000, 0x30e657fd00000000, + 0x68e0248000000000, 0xed39b25d00000000, 0x235578e000000000, + 0xa68cee3d00000000}, + {0x0000000000000000, 0x76e10f9d00000000, 0xadc46ee100000000, + 0xdb25617c00000000, 0x1b8fac1900000000, 0x6d6ea38400000000, + 0xb64bc2f800000000, 0xc0aacd6500000000, 0x361e593300000000, + 0x40ff56ae00000000, 0x9bda37d200000000, 0xed3b384f00000000, + 0x2d91f52a00000000, 0x5b70fab700000000, 0x80559bcb00000000, + 0xf6b4945600000000, 0x6c3cb26600000000, 0x1addbdfb00000000, + 0xc1f8dc8700000000, 0xb719d31a00000000, 0x77b31e7f00000000, + 0x015211e200000000, 0xda77709e00000000, 0xac967f0300000000, + 0x5a22eb5500000000, 0x2cc3e4c800000000, 0xf7e685b400000000, + 0x81078a2900000000, 0x41ad474c00000000, 0x374c48d100000000, + 0xec6929ad00000000, 0x9a88263000000000, 0xd87864cd00000000, + 0xae996b5000000000, 0x75bc0a2c00000000, 0x035d05b100000000, + 0xc3f7c8d400000000, 0xb516c74900000000, 0x6e33a63500000000, + 0x18d2a9a800000000, 0xee663dfe00000000, 0x9887326300000000, + 0x43a2531f00000000, 0x35435c8200000000, 0xf5e991e700000000, + 0x83089e7a00000000, 0x582dff0600000000, 0x2eccf09b00000000, + 0xb444d6ab00000000, 0xc2a5d93600000000, 0x1980b84a00000000, + 0x6f61b7d700000000, 0xafcb7ab200000000, 0xd92a752f00000000, + 0x020f145300000000, 0x74ee1bce00000000, 0x825a8f9800000000, + 0xf4bb800500000000, 0x2f9ee17900000000, 0x597feee400000000, + 0x99d5238100000000, 0xef342c1c00000000, 0x34114d6000000000, + 0x42f042fd00000000, 0xf1f7b94100000000, 0x8716b6dc00000000, + 0x5c33d7a000000000, 0x2ad2d83d00000000, 0xea78155800000000, + 0x9c991ac500000000, 0x47bc7bb900000000, 0x315d742400000000, + 0xc7e9e07200000000, 0xb108efef00000000, 0x6a2d8e9300000000, + 0x1ccc810e00000000, 0xdc664c6b00000000, 0xaa8743f600000000, + 0x71a2228a00000000, 0x07432d1700000000, 0x9dcb0b2700000000, + 0xeb2a04ba00000000, 0x300f65c600000000, 0x46ee6a5b00000000, + 0x8644a73e00000000, 0xf0a5a8a300000000, 0x2b80c9df00000000, + 0x5d61c64200000000, 0xabd5521400000000, 0xdd345d8900000000, + 0x06113cf500000000, 0x70f0336800000000, 0xb05afe0d00000000, + 0xc6bbf19000000000, 0x1d9e90ec00000000, 0x6b7f9f7100000000, + 0x298fdd8c00000000, 0x5f6ed21100000000, 0x844bb36d00000000, + 0xf2aabcf000000000, 0x3200719500000000, 0x44e17e0800000000, + 0x9fc41f7400000000, 0xe92510e900000000, 0x1f9184bf00000000, + 0x69708b2200000000, 0xb255ea5e00000000, 0xc4b4e5c300000000, + 0x041e28a600000000, 0x72ff273b00000000, 0xa9da464700000000, + 0xdf3b49da00000000, 0x45b36fea00000000, 0x3352607700000000, + 0xe877010b00000000, 0x9e960e9600000000, 0x5e3cc3f300000000, + 0x28ddcc6e00000000, 0xf3f8ad1200000000, 0x8519a28f00000000, + 0x73ad36d900000000, 0x054c394400000000, 0xde69583800000000, + 0xa88857a500000000, 0x68229ac000000000, 0x1ec3955d00000000, + 0xc5e6f42100000000, 0xb307fbbc00000000, 0xe2ef738300000000, + 0x940e7c1e00000000, 0x4f2b1d6200000000, 0x39ca12ff00000000, + 0xf960df9a00000000, 0x8f81d00700000000, 0x54a4b17b00000000, + 0x2245bee600000000, 0xd4f12ab000000000, 0xa210252d00000000, + 0x7935445100000000, 0x0fd44bcc00000000, 0xcf7e86a900000000, + 0xb99f893400000000, 0x62bae84800000000, 0x145be7d500000000, + 0x8ed3c1e500000000, 0xf832ce7800000000, 0x2317af0400000000, + 0x55f6a09900000000, 0x955c6dfc00000000, 0xe3bd626100000000, + 0x3898031d00000000, 0x4e790c8000000000, 0xb8cd98d600000000, + 0xce2c974b00000000, 0x1509f63700000000, 0x63e8f9aa00000000, + 0xa34234cf00000000, 0xd5a33b5200000000, 0x0e865a2e00000000, + 0x786755b300000000, 0x3a97174e00000000, 0x4c7618d300000000, + 0x975379af00000000, 0xe1b2763200000000, 0x2118bb5700000000, + 0x57f9b4ca00000000, 0x8cdcd5b600000000, 0xfa3dda2b00000000, + 0x0c894e7d00000000, 0x7a6841e000000000, 0xa14d209c00000000, + 0xd7ac2f0100000000, 0x1706e26400000000, 0x61e7edf900000000, + 0xbac28c8500000000, 0xcc23831800000000, 0x56aba52800000000, + 0x204aaab500000000, 0xfb6fcbc900000000, 0x8d8ec45400000000, + 0x4d24093100000000, 0x3bc506ac00000000, 0xe0e067d000000000, + 0x9601684d00000000, 0x60b5fc1b00000000, 0x1654f38600000000, + 0xcd7192fa00000000, 0xbb909d6700000000, 0x7b3a500200000000, + 0x0ddb5f9f00000000, 0xd6fe3ee300000000, 0xa01f317e00000000, + 0x1318cac200000000, 0x65f9c55f00000000, 0xbedca42300000000, + 0xc83dabbe00000000, 0x089766db00000000, 0x7e76694600000000, + 0xa553083a00000000, 0xd3b207a700000000, 0x250693f100000000, + 0x53e79c6c00000000, 0x88c2fd1000000000, 0xfe23f28d00000000, + 0x3e893fe800000000, 0x4868307500000000, 0x934d510900000000, + 0xe5ac5e9400000000, 0x7f2478a400000000, 0x09c5773900000000, + 0xd2e0164500000000, 0xa40119d800000000, 0x64abd4bd00000000, + 0x124adb2000000000, 0xc96fba5c00000000, 0xbf8eb5c100000000, + 0x493a219700000000, 0x3fdb2e0a00000000, 0xe4fe4f7600000000, + 0x921f40eb00000000, 0x52b58d8e00000000, 0x2454821300000000, + 0xff71e36f00000000, 0x8990ecf200000000, 0xcb60ae0f00000000, + 0xbd81a19200000000, 0x66a4c0ee00000000, 0x1045cf7300000000, + 0xd0ef021600000000, 0xa60e0d8b00000000, 0x7d2b6cf700000000, + 0x0bca636a00000000, 0xfd7ef73c00000000, 0x8b9ff8a100000000, + 0x50ba99dd00000000, 0x265b964000000000, 0xe6f15b2500000000, + 0x901054b800000000, 0x4b3535c400000000, 0x3dd43a5900000000, + 0xa75c1c6900000000, 0xd1bd13f400000000, 0x0a98728800000000, + 0x7c797d1500000000, 0xbcd3b07000000000, 0xca32bfed00000000, + 0x1117de9100000000, 0x67f6d10c00000000, 0x9142455a00000000, + 0xe7a34ac700000000, 0x3c862bbb00000000, 0x4a67242600000000, + 0x8acde94300000000, 0xfc2ce6de00000000, 0x270987a200000000, + 0x51e8883f00000000}, + {0x0000000000000000, 0xe8dbfbb900000000, 0x91b186a800000000, + 0x796a7d1100000000, 0x63657c8a00000000, 0x8bbe873300000000, + 0xf2d4fa2200000000, 0x1a0f019b00000000, 0x87cc89cf00000000, + 0x6f17727600000000, 0x167d0f6700000000, 0xfea6f4de00000000, + 0xe4a9f54500000000, 0x0c720efc00000000, 0x751873ed00000000, + 0x9dc3885400000000, 0x4f9f624400000000, 0xa74499fd00000000, + 0xde2ee4ec00000000, 0x36f51f5500000000, 0x2cfa1ece00000000, + 0xc421e57700000000, 0xbd4b986600000000, 0x559063df00000000, + 0xc853eb8b00000000, 0x2088103200000000, 0x59e26d2300000000, + 0xb139969a00000000, 0xab36970100000000, 0x43ed6cb800000000, + 0x3a8711a900000000, 0xd25cea1000000000, 0x9e3ec58800000000, + 0x76e53e3100000000, 0x0f8f432000000000, 0xe754b89900000000, + 0xfd5bb90200000000, 0x158042bb00000000, 0x6cea3faa00000000, + 0x8431c41300000000, 0x19f24c4700000000, 0xf129b7fe00000000, + 0x8843caef00000000, 0x6098315600000000, 0x7a9730cd00000000, + 0x924ccb7400000000, 0xeb26b66500000000, 0x03fd4ddc00000000, + 0xd1a1a7cc00000000, 0x397a5c7500000000, 0x4010216400000000, + 0xa8cbdadd00000000, 0xb2c4db4600000000, 0x5a1f20ff00000000, + 0x23755dee00000000, 0xcbaea65700000000, 0x566d2e0300000000, + 0xbeb6d5ba00000000, 0xc7dca8ab00000000, 0x2f07531200000000, + 0x3508528900000000, 0xddd3a93000000000, 0xa4b9d42100000000, + 0x4c622f9800000000, 0x7d7bfbca00000000, 0x95a0007300000000, + 0xecca7d6200000000, 0x041186db00000000, 0x1e1e874000000000, + 0xf6c57cf900000000, 0x8faf01e800000000, 0x6774fa5100000000, + 0xfab7720500000000, 0x126c89bc00000000, 0x6b06f4ad00000000, + 0x83dd0f1400000000, 0x99d20e8f00000000, 0x7109f53600000000, + 0x0863882700000000, 0xe0b8739e00000000, 0x32e4998e00000000, + 0xda3f623700000000, 0xa3551f2600000000, 0x4b8ee49f00000000, + 0x5181e50400000000, 0xb95a1ebd00000000, 0xc03063ac00000000, + 0x28eb981500000000, 0xb528104100000000, 0x5df3ebf800000000, + 0x249996e900000000, 0xcc426d5000000000, 0xd64d6ccb00000000, + 0x3e96977200000000, 0x47fcea6300000000, 0xaf2711da00000000, + 0xe3453e4200000000, 0x0b9ec5fb00000000, 0x72f4b8ea00000000, + 0x9a2f435300000000, 0x802042c800000000, 0x68fbb97100000000, + 0x1191c46000000000, 0xf94a3fd900000000, 0x6489b78d00000000, + 0x8c524c3400000000, 0xf538312500000000, 0x1de3ca9c00000000, + 0x07eccb0700000000, 0xef3730be00000000, 0x965d4daf00000000, + 0x7e86b61600000000, 0xacda5c0600000000, 0x4401a7bf00000000, + 0x3d6bdaae00000000, 0xd5b0211700000000, 0xcfbf208c00000000, + 0x2764db3500000000, 0x5e0ea62400000000, 0xb6d55d9d00000000, + 0x2b16d5c900000000, 0xc3cd2e7000000000, 0xbaa7536100000000, + 0x527ca8d800000000, 0x4873a94300000000, 0xa0a852fa00000000, + 0xd9c22feb00000000, 0x3119d45200000000, 0xbbf0874e00000000, + 0x532b7cf700000000, 0x2a4101e600000000, 0xc29afa5f00000000, + 0xd895fbc400000000, 0x304e007d00000000, 0x49247d6c00000000, + 0xa1ff86d500000000, 0x3c3c0e8100000000, 0xd4e7f53800000000, + 0xad8d882900000000, 0x4556739000000000, 0x5f59720b00000000, + 0xb78289b200000000, 0xcee8f4a300000000, 0x26330f1a00000000, + 0xf46fe50a00000000, 0x1cb41eb300000000, 0x65de63a200000000, + 0x8d05981b00000000, 0x970a998000000000, 0x7fd1623900000000, + 0x06bb1f2800000000, 0xee60e49100000000, 0x73a36cc500000000, + 0x9b78977c00000000, 0xe212ea6d00000000, 0x0ac911d400000000, + 0x10c6104f00000000, 0xf81debf600000000, 0x817796e700000000, + 0x69ac6d5e00000000, 0x25ce42c600000000, 0xcd15b97f00000000, + 0xb47fc46e00000000, 0x5ca43fd700000000, 0x46ab3e4c00000000, + 0xae70c5f500000000, 0xd71ab8e400000000, 0x3fc1435d00000000, + 0xa202cb0900000000, 0x4ad930b000000000, 0x33b34da100000000, + 0xdb68b61800000000, 0xc167b78300000000, 0x29bc4c3a00000000, + 0x50d6312b00000000, 0xb80dca9200000000, 0x6a51208200000000, + 0x828adb3b00000000, 0xfbe0a62a00000000, 0x133b5d9300000000, + 0x09345c0800000000, 0xe1efa7b100000000, 0x9885daa000000000, + 0x705e211900000000, 0xed9da94d00000000, 0x054652f400000000, + 0x7c2c2fe500000000, 0x94f7d45c00000000, 0x8ef8d5c700000000, + 0x66232e7e00000000, 0x1f49536f00000000, 0xf792a8d600000000, + 0xc68b7c8400000000, 0x2e50873d00000000, 0x573afa2c00000000, + 0xbfe1019500000000, 0xa5ee000e00000000, 0x4d35fbb700000000, + 0x345f86a600000000, 0xdc847d1f00000000, 0x4147f54b00000000, + 0xa99c0ef200000000, 0xd0f673e300000000, 0x382d885a00000000, + 0x222289c100000000, 0xcaf9727800000000, 0xb3930f6900000000, + 0x5b48f4d000000000, 0x89141ec000000000, 0x61cfe57900000000, + 0x18a5986800000000, 0xf07e63d100000000, 0xea71624a00000000, + 0x02aa99f300000000, 0x7bc0e4e200000000, 0x931b1f5b00000000, + 0x0ed8970f00000000, 0xe6036cb600000000, 0x9f6911a700000000, + 0x77b2ea1e00000000, 0x6dbdeb8500000000, 0x8566103c00000000, + 0xfc0c6d2d00000000, 0x14d7969400000000, 0x58b5b90c00000000, + 0xb06e42b500000000, 0xc9043fa400000000, 0x21dfc41d00000000, + 0x3bd0c58600000000, 0xd30b3e3f00000000, 0xaa61432e00000000, + 0x42bab89700000000, 0xdf7930c300000000, 0x37a2cb7a00000000, + 0x4ec8b66b00000000, 0xa6134dd200000000, 0xbc1c4c4900000000, + 0x54c7b7f000000000, 0x2dadcae100000000, 0xc576315800000000, + 0x172adb4800000000, 0xfff120f100000000, 0x869b5de000000000, + 0x6e40a65900000000, 0x744fa7c200000000, 0x9c945c7b00000000, + 0xe5fe216a00000000, 0x0d25dad300000000, 0x90e6528700000000, + 0x783da93e00000000, 0x0157d42f00000000, 0xe98c2f9600000000, + 0xf3832e0d00000000, 0x1b58d5b400000000, 0x6232a8a500000000, + 0x8ae9531c00000000}, + {0x0000000000000000, 0x919168ae00000000, 0x6325a08700000000, + 0xf2b4c82900000000, 0x874c31d400000000, 0x16dd597a00000000, + 0xe469915300000000, 0x75f8f9fd00000000, 0x4f9f137300000000, + 0xde0e7bdd00000000, 0x2cbab3f400000000, 0xbd2bdb5a00000000, + 0xc8d322a700000000, 0x59424a0900000000, 0xabf6822000000000, + 0x3a67ea8e00000000, 0x9e3e27e600000000, 0x0faf4f4800000000, + 0xfd1b876100000000, 0x6c8aefcf00000000, 0x1972163200000000, + 0x88e37e9c00000000, 0x7a57b6b500000000, 0xebc6de1b00000000, + 0xd1a1349500000000, 0x40305c3b00000000, 0xb284941200000000, + 0x2315fcbc00000000, 0x56ed054100000000, 0xc77c6def00000000, + 0x35c8a5c600000000, 0xa459cd6800000000, 0x7d7b3f1700000000, + 0xecea57b900000000, 0x1e5e9f9000000000, 0x8fcff73e00000000, + 0xfa370ec300000000, 0x6ba6666d00000000, 0x9912ae4400000000, + 0x0883c6ea00000000, 0x32e42c6400000000, 0xa37544ca00000000, + 0x51c18ce300000000, 0xc050e44d00000000, 0xb5a81db000000000, + 0x2439751e00000000, 0xd68dbd3700000000, 0x471cd59900000000, + 0xe34518f100000000, 0x72d4705f00000000, 0x8060b87600000000, + 0x11f1d0d800000000, 0x6409292500000000, 0xf598418b00000000, + 0x072c89a200000000, 0x96bde10c00000000, 0xacda0b8200000000, + 0x3d4b632c00000000, 0xcfffab0500000000, 0x5e6ec3ab00000000, + 0x2b963a5600000000, 0xba0752f800000000, 0x48b39ad100000000, + 0xd922f27f00000000, 0xfaf67e2e00000000, 0x6b67168000000000, + 0x99d3dea900000000, 0x0842b60700000000, 0x7dba4ffa00000000, + 0xec2b275400000000, 0x1e9fef7d00000000, 0x8f0e87d300000000, + 0xb5696d5d00000000, 0x24f805f300000000, 0xd64ccdda00000000, + 0x47dda57400000000, 0x32255c8900000000, 0xa3b4342700000000, + 0x5100fc0e00000000, 0xc09194a000000000, 0x64c859c800000000, + 0xf559316600000000, 0x07edf94f00000000, 0x967c91e100000000, + 0xe384681c00000000, 0x721500b200000000, 0x80a1c89b00000000, + 0x1130a03500000000, 0x2b574abb00000000, 0xbac6221500000000, + 0x4872ea3c00000000, 0xd9e3829200000000, 0xac1b7b6f00000000, + 0x3d8a13c100000000, 0xcf3edbe800000000, 0x5eafb34600000000, + 0x878d413900000000, 0x161c299700000000, 0xe4a8e1be00000000, + 0x7539891000000000, 0x00c170ed00000000, 0x9150184300000000, + 0x63e4d06a00000000, 0xf275b8c400000000, 0xc812524a00000000, + 0x59833ae400000000, 0xab37f2cd00000000, 0x3aa69a6300000000, + 0x4f5e639e00000000, 0xdecf0b3000000000, 0x2c7bc31900000000, + 0xbdeaabb700000000, 0x19b366df00000000, 0x88220e7100000000, + 0x7a96c65800000000, 0xeb07aef600000000, 0x9eff570b00000000, + 0x0f6e3fa500000000, 0xfddaf78c00000000, 0x6c4b9f2200000000, + 0x562c75ac00000000, 0xc7bd1d0200000000, 0x3509d52b00000000, + 0xa498bd8500000000, 0xd160447800000000, 0x40f12cd600000000, + 0xb245e4ff00000000, 0x23d48c5100000000, 0xf4edfd5c00000000, + 0x657c95f200000000, 0x97c85ddb00000000, 0x0659357500000000, + 0x73a1cc8800000000, 0xe230a42600000000, 0x10846c0f00000000, + 0x811504a100000000, 0xbb72ee2f00000000, 0x2ae3868100000000, + 0xd8574ea800000000, 0x49c6260600000000, 0x3c3edffb00000000, + 0xadafb75500000000, 0x5f1b7f7c00000000, 0xce8a17d200000000, + 0x6ad3daba00000000, 0xfb42b21400000000, 0x09f67a3d00000000, + 0x9867129300000000, 0xed9feb6e00000000, 0x7c0e83c000000000, + 0x8eba4be900000000, 0x1f2b234700000000, 0x254cc9c900000000, + 0xb4dda16700000000, 0x4669694e00000000, 0xd7f801e000000000, + 0xa200f81d00000000, 0x339190b300000000, 0xc125589a00000000, + 0x50b4303400000000, 0x8996c24b00000000, 0x1807aae500000000, + 0xeab362cc00000000, 0x7b220a6200000000, 0x0edaf39f00000000, + 0x9f4b9b3100000000, 0x6dff531800000000, 0xfc6e3bb600000000, + 0xc609d13800000000, 0x5798b99600000000, 0xa52c71bf00000000, + 0x34bd191100000000, 0x4145e0ec00000000, 0xd0d4884200000000, + 0x2260406b00000000, 0xb3f128c500000000, 0x17a8e5ad00000000, + 0x86398d0300000000, 0x748d452a00000000, 0xe51c2d8400000000, + 0x90e4d47900000000, 0x0175bcd700000000, 0xf3c174fe00000000, + 0x62501c5000000000, 0x5837f6de00000000, 0xc9a69e7000000000, + 0x3b12565900000000, 0xaa833ef700000000, 0xdf7bc70a00000000, + 0x4eeaafa400000000, 0xbc5e678d00000000, 0x2dcf0f2300000000, + 0x0e1b837200000000, 0x9f8aebdc00000000, 0x6d3e23f500000000, + 0xfcaf4b5b00000000, 0x8957b2a600000000, 0x18c6da0800000000, + 0xea72122100000000, 0x7be37a8f00000000, 0x4184900100000000, + 0xd015f8af00000000, 0x22a1308600000000, 0xb330582800000000, + 0xc6c8a1d500000000, 0x5759c97b00000000, 0xa5ed015200000000, + 0x347c69fc00000000, 0x9025a49400000000, 0x01b4cc3a00000000, + 0xf300041300000000, 0x62916cbd00000000, 0x1769954000000000, + 0x86f8fdee00000000, 0x744c35c700000000, 0xe5dd5d6900000000, + 0xdfbab7e700000000, 0x4e2bdf4900000000, 0xbc9f176000000000, + 0x2d0e7fce00000000, 0x58f6863300000000, 0xc967ee9d00000000, + 0x3bd326b400000000, 0xaa424e1a00000000, 0x7360bc6500000000, + 0xe2f1d4cb00000000, 0x10451ce200000000, 0x81d4744c00000000, + 0xf42c8db100000000, 0x65bde51f00000000, 0x97092d3600000000, + 0x0698459800000000, 0x3cffaf1600000000, 0xad6ec7b800000000, + 0x5fda0f9100000000, 0xce4b673f00000000, 0xbbb39ec200000000, + 0x2a22f66c00000000, 0xd8963e4500000000, 0x490756eb00000000, + 0xed5e9b8300000000, 0x7ccff32d00000000, 0x8e7b3b0400000000, + 0x1fea53aa00000000, 0x6a12aa5700000000, 0xfb83c2f900000000, + 0x09370ad000000000, 0x98a6627e00000000, 0xa2c188f000000000, + 0x3350e05e00000000, 0xc1e4287700000000, 0x507540d900000000, + 0x258db92400000000, 0xb41cd18a00000000, 0x46a819a300000000, + 0xd739710d00000000}}; + +#else /* W == 4 */ + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0xccaa009e, 0x4225077d, 0x8e8f07e3, 0x844a0efa, + 0x48e00e64, 0xc66f0987, 0x0ac50919, 0xd3e51bb5, 0x1f4f1b2b, + 0x91c01cc8, 0x5d6a1c56, 0x57af154f, 0x9b0515d1, 0x158a1232, + 0xd92012ac, 0x7cbb312b, 0xb01131b5, 0x3e9e3656, 0xf23436c8, + 0xf8f13fd1, 0x345b3f4f, 0xbad438ac, 0x767e3832, 0xaf5e2a9e, + 0x63f42a00, 0xed7b2de3, 0x21d12d7d, 0x2b142464, 0xe7be24fa, + 0x69312319, 0xa59b2387, 0xf9766256, 0x35dc62c8, 0xbb53652b, + 0x77f965b5, 0x7d3c6cac, 0xb1966c32, 0x3f196bd1, 0xf3b36b4f, + 0x2a9379e3, 0xe639797d, 0x68b67e9e, 0xa41c7e00, 0xaed97719, + 0x62737787, 0xecfc7064, 0x205670fa, 0x85cd537d, 0x496753e3, + 0xc7e85400, 0x0b42549e, 0x01875d87, 0xcd2d5d19, 0x43a25afa, + 0x8f085a64, 0x562848c8, 0x9a824856, 0x140d4fb5, 0xd8a74f2b, + 0xd2624632, 0x1ec846ac, 0x9047414f, 0x5ced41d1, 0x299dc2ed, + 0xe537c273, 0x6bb8c590, 0xa712c50e, 0xadd7cc17, 0x617dcc89, + 0xeff2cb6a, 0x2358cbf4, 0xfa78d958, 0x36d2d9c6, 0xb85dde25, + 0x74f7debb, 0x7e32d7a2, 0xb298d73c, 0x3c17d0df, 0xf0bdd041, + 0x5526f3c6, 0x998cf358, 0x1703f4bb, 0xdba9f425, 0xd16cfd3c, + 0x1dc6fda2, 0x9349fa41, 0x5fe3fadf, 0x86c3e873, 0x4a69e8ed, + 0xc4e6ef0e, 0x084cef90, 0x0289e689, 0xce23e617, 0x40ace1f4, + 0x8c06e16a, 0xd0eba0bb, 0x1c41a025, 0x92cea7c6, 0x5e64a758, + 0x54a1ae41, 0x980baedf, 0x1684a93c, 0xda2ea9a2, 0x030ebb0e, + 0xcfa4bb90, 0x412bbc73, 0x8d81bced, 0x8744b5f4, 0x4beeb56a, + 0xc561b289, 0x09cbb217, 0xac509190, 0x60fa910e, 0xee7596ed, + 0x22df9673, 0x281a9f6a, 0xe4b09ff4, 0x6a3f9817, 0xa6959889, + 0x7fb58a25, 0xb31f8abb, 0x3d908d58, 0xf13a8dc6, 0xfbff84df, + 0x37558441, 0xb9da83a2, 0x7570833c, 0x533b85da, 0x9f918544, + 0x111e82a7, 0xddb48239, 0xd7718b20, 0x1bdb8bbe, 0x95548c5d, + 0x59fe8cc3, 0x80de9e6f, 0x4c749ef1, 0xc2fb9912, 0x0e51998c, + 0x04949095, 0xc83e900b, 0x46b197e8, 0x8a1b9776, 0x2f80b4f1, + 0xe32ab46f, 0x6da5b38c, 0xa10fb312, 0xabcaba0b, 0x6760ba95, + 0xe9efbd76, 0x2545bde8, 0xfc65af44, 0x30cfafda, 0xbe40a839, + 0x72eaa8a7, 0x782fa1be, 0xb485a120, 0x3a0aa6c3, 0xf6a0a65d, + 0xaa4de78c, 0x66e7e712, 0xe868e0f1, 0x24c2e06f, 0x2e07e976, + 0xe2ade9e8, 0x6c22ee0b, 0xa088ee95, 0x79a8fc39, 0xb502fca7, + 0x3b8dfb44, 0xf727fbda, 0xfde2f2c3, 0x3148f25d, 0xbfc7f5be, + 0x736df520, 0xd6f6d6a7, 0x1a5cd639, 0x94d3d1da, 0x5879d144, + 0x52bcd85d, 0x9e16d8c3, 0x1099df20, 0xdc33dfbe, 0x0513cd12, + 0xc9b9cd8c, 0x4736ca6f, 0x8b9ccaf1, 0x8159c3e8, 0x4df3c376, + 0xc37cc495, 0x0fd6c40b, 0x7aa64737, 0xb60c47a9, 0x3883404a, + 0xf42940d4, 0xfeec49cd, 0x32464953, 0xbcc94eb0, 0x70634e2e, + 0xa9435c82, 0x65e95c1c, 0xeb665bff, 0x27cc5b61, 0x2d095278, + 0xe1a352e6, 0x6f2c5505, 0xa386559b, 0x061d761c, 0xcab77682, + 0x44387161, 0x889271ff, 0x825778e6, 0x4efd7878, 0xc0727f9b, + 0x0cd87f05, 0xd5f86da9, 0x19526d37, 0x97dd6ad4, 0x5b776a4a, + 0x51b26353, 0x9d1863cd, 0x1397642e, 0xdf3d64b0, 0x83d02561, + 0x4f7a25ff, 0xc1f5221c, 0x0d5f2282, 0x079a2b9b, 0xcb302b05, + 0x45bf2ce6, 0x89152c78, 0x50353ed4, 0x9c9f3e4a, 0x121039a9, + 0xdeba3937, 0xd47f302e, 0x18d530b0, 0x965a3753, 0x5af037cd, + 0xff6b144a, 0x33c114d4, 0xbd4e1337, 0x71e413a9, 0x7b211ab0, + 0xb78b1a2e, 0x39041dcd, 0xf5ae1d53, 0x2c8e0fff, 0xe0240f61, + 0x6eab0882, 0xa201081c, 0xa8c40105, 0x646e019b, 0xeae10678, + 0x264b06e6}, + {0x00000000, 0xa6770bb4, 0x979f1129, 0x31e81a9d, 0xf44f2413, + 0x52382fa7, 0x63d0353a, 0xc5a73e8e, 0x33ef4e67, 0x959845d3, + 0xa4705f4e, 0x020754fa, 0xc7a06a74, 0x61d761c0, 0x503f7b5d, + 0xf64870e9, 0x67de9cce, 0xc1a9977a, 0xf0418de7, 0x56368653, + 0x9391b8dd, 0x35e6b369, 0x040ea9f4, 0xa279a240, 0x5431d2a9, + 0xf246d91d, 0xc3aec380, 0x65d9c834, 0xa07ef6ba, 0x0609fd0e, + 0x37e1e793, 0x9196ec27, 0xcfbd399c, 0x69ca3228, 0x582228b5, + 0xfe552301, 0x3bf21d8f, 0x9d85163b, 0xac6d0ca6, 0x0a1a0712, + 0xfc5277fb, 0x5a257c4f, 0x6bcd66d2, 0xcdba6d66, 0x081d53e8, + 0xae6a585c, 0x9f8242c1, 0x39f54975, 0xa863a552, 0x0e14aee6, + 0x3ffcb47b, 0x998bbfcf, 0x5c2c8141, 0xfa5b8af5, 0xcbb39068, + 0x6dc49bdc, 0x9b8ceb35, 0x3dfbe081, 0x0c13fa1c, 0xaa64f1a8, + 0x6fc3cf26, 0xc9b4c492, 0xf85cde0f, 0x5e2bd5bb, 0x440b7579, + 0xe27c7ecd, 0xd3946450, 0x75e36fe4, 0xb044516a, 0x16335ade, + 0x27db4043, 0x81ac4bf7, 0x77e43b1e, 0xd19330aa, 0xe07b2a37, + 0x460c2183, 0x83ab1f0d, 0x25dc14b9, 0x14340e24, 0xb2430590, + 0x23d5e9b7, 0x85a2e203, 0xb44af89e, 0x123df32a, 0xd79acda4, + 0x71edc610, 0x4005dc8d, 0xe672d739, 0x103aa7d0, 0xb64dac64, + 0x87a5b6f9, 0x21d2bd4d, 0xe47583c3, 0x42028877, 0x73ea92ea, + 0xd59d995e, 0x8bb64ce5, 0x2dc14751, 0x1c295dcc, 0xba5e5678, + 0x7ff968f6, 0xd98e6342, 0xe86679df, 0x4e11726b, 0xb8590282, + 0x1e2e0936, 0x2fc613ab, 0x89b1181f, 0x4c162691, 0xea612d25, + 0xdb8937b8, 0x7dfe3c0c, 0xec68d02b, 0x4a1fdb9f, 0x7bf7c102, + 0xdd80cab6, 0x1827f438, 0xbe50ff8c, 0x8fb8e511, 0x29cfeea5, + 0xdf879e4c, 0x79f095f8, 0x48188f65, 0xee6f84d1, 0x2bc8ba5f, + 0x8dbfb1eb, 0xbc57ab76, 0x1a20a0c2, 0x8816eaf2, 0x2e61e146, + 0x1f89fbdb, 0xb9fef06f, 0x7c59cee1, 0xda2ec555, 0xebc6dfc8, + 0x4db1d47c, 0xbbf9a495, 0x1d8eaf21, 0x2c66b5bc, 0x8a11be08, + 0x4fb68086, 0xe9c18b32, 0xd82991af, 0x7e5e9a1b, 0xefc8763c, + 0x49bf7d88, 0x78576715, 0xde206ca1, 0x1b87522f, 0xbdf0599b, + 0x8c184306, 0x2a6f48b2, 0xdc27385b, 0x7a5033ef, 0x4bb82972, + 0xedcf22c6, 0x28681c48, 0x8e1f17fc, 0xbff70d61, 0x198006d5, + 0x47abd36e, 0xe1dcd8da, 0xd034c247, 0x7643c9f3, 0xb3e4f77d, + 0x1593fcc9, 0x247be654, 0x820cede0, 0x74449d09, 0xd23396bd, + 0xe3db8c20, 0x45ac8794, 0x800bb91a, 0x267cb2ae, 0x1794a833, + 0xb1e3a387, 0x20754fa0, 0x86024414, 0xb7ea5e89, 0x119d553d, + 0xd43a6bb3, 0x724d6007, 0x43a57a9a, 0xe5d2712e, 0x139a01c7, + 0xb5ed0a73, 0x840510ee, 0x22721b5a, 0xe7d525d4, 0x41a22e60, + 0x704a34fd, 0xd63d3f49, 0xcc1d9f8b, 0x6a6a943f, 0x5b828ea2, + 0xfdf58516, 0x3852bb98, 0x9e25b02c, 0xafcdaab1, 0x09baa105, + 0xfff2d1ec, 0x5985da58, 0x686dc0c5, 0xce1acb71, 0x0bbdf5ff, + 0xadcafe4b, 0x9c22e4d6, 0x3a55ef62, 0xabc30345, 0x0db408f1, + 0x3c5c126c, 0x9a2b19d8, 0x5f8c2756, 0xf9fb2ce2, 0xc813367f, + 0x6e643dcb, 0x982c4d22, 0x3e5b4696, 0x0fb35c0b, 0xa9c457bf, + 0x6c636931, 0xca146285, 0xfbfc7818, 0x5d8b73ac, 0x03a0a617, + 0xa5d7ada3, 0x943fb73e, 0x3248bc8a, 0xf7ef8204, 0x519889b0, + 0x6070932d, 0xc6079899, 0x304fe870, 0x9638e3c4, 0xa7d0f959, + 0x01a7f2ed, 0xc400cc63, 0x6277c7d7, 0x539fdd4a, 0xf5e8d6fe, + 0x647e3ad9, 0xc209316d, 0xf3e12bf0, 0x55962044, 0x90311eca, + 0x3646157e, 0x07ae0fe3, 0xa1d90457, 0x579174be, 0xf1e67f0a, + 0xc00e6597, 0x66796e23, 0xa3de50ad, 0x05a95b19, 0x34414184, + 0x92364a30}, + {0x00000000, 0xcb5cd3a5, 0x4dc8a10b, 0x869472ae, 0x9b914216, + 0x50cd91b3, 0xd659e31d, 0x1d0530b8, 0xec53826d, 0x270f51c8, + 0xa19b2366, 0x6ac7f0c3, 0x77c2c07b, 0xbc9e13de, 0x3a0a6170, + 0xf156b2d5, 0x03d6029b, 0xc88ad13e, 0x4e1ea390, 0x85427035, + 0x9847408d, 0x531b9328, 0xd58fe186, 0x1ed33223, 0xef8580f6, + 0x24d95353, 0xa24d21fd, 0x6911f258, 0x7414c2e0, 0xbf481145, + 0x39dc63eb, 0xf280b04e, 0x07ac0536, 0xccf0d693, 0x4a64a43d, + 0x81387798, 0x9c3d4720, 0x57619485, 0xd1f5e62b, 0x1aa9358e, + 0xebff875b, 0x20a354fe, 0xa6372650, 0x6d6bf5f5, 0x706ec54d, + 0xbb3216e8, 0x3da66446, 0xf6fab7e3, 0x047a07ad, 0xcf26d408, + 0x49b2a6a6, 0x82ee7503, 0x9feb45bb, 0x54b7961e, 0xd223e4b0, + 0x197f3715, 0xe82985c0, 0x23755665, 0xa5e124cb, 0x6ebdf76e, + 0x73b8c7d6, 0xb8e41473, 0x3e7066dd, 0xf52cb578, 0x0f580a6c, + 0xc404d9c9, 0x4290ab67, 0x89cc78c2, 0x94c9487a, 0x5f959bdf, + 0xd901e971, 0x125d3ad4, 0xe30b8801, 0x28575ba4, 0xaec3290a, + 0x659ffaaf, 0x789aca17, 0xb3c619b2, 0x35526b1c, 0xfe0eb8b9, + 0x0c8e08f7, 0xc7d2db52, 0x4146a9fc, 0x8a1a7a59, 0x971f4ae1, + 0x5c439944, 0xdad7ebea, 0x118b384f, 0xe0dd8a9a, 0x2b81593f, + 0xad152b91, 0x6649f834, 0x7b4cc88c, 0xb0101b29, 0x36846987, + 0xfdd8ba22, 0x08f40f5a, 0xc3a8dcff, 0x453cae51, 0x8e607df4, + 0x93654d4c, 0x58399ee9, 0xdeadec47, 0x15f13fe2, 0xe4a78d37, + 0x2ffb5e92, 0xa96f2c3c, 0x6233ff99, 0x7f36cf21, 0xb46a1c84, + 0x32fe6e2a, 0xf9a2bd8f, 0x0b220dc1, 0xc07ede64, 0x46eaacca, + 0x8db67f6f, 0x90b34fd7, 0x5bef9c72, 0xdd7beedc, 0x16273d79, + 0xe7718fac, 0x2c2d5c09, 0xaab92ea7, 0x61e5fd02, 0x7ce0cdba, + 0xb7bc1e1f, 0x31286cb1, 0xfa74bf14, 0x1eb014d8, 0xd5ecc77d, + 0x5378b5d3, 0x98246676, 0x852156ce, 0x4e7d856b, 0xc8e9f7c5, + 0x03b52460, 0xf2e396b5, 0x39bf4510, 0xbf2b37be, 0x7477e41b, + 0x6972d4a3, 0xa22e0706, 0x24ba75a8, 0xefe6a60d, 0x1d661643, + 0xd63ac5e6, 0x50aeb748, 0x9bf264ed, 0x86f75455, 0x4dab87f0, + 0xcb3ff55e, 0x006326fb, 0xf135942e, 0x3a69478b, 0xbcfd3525, + 0x77a1e680, 0x6aa4d638, 0xa1f8059d, 0x276c7733, 0xec30a496, + 0x191c11ee, 0xd240c24b, 0x54d4b0e5, 0x9f886340, 0x828d53f8, + 0x49d1805d, 0xcf45f2f3, 0x04192156, 0xf54f9383, 0x3e134026, + 0xb8873288, 0x73dbe12d, 0x6eded195, 0xa5820230, 0x2316709e, + 0xe84aa33b, 0x1aca1375, 0xd196c0d0, 0x5702b27e, 0x9c5e61db, + 0x815b5163, 0x4a0782c6, 0xcc93f068, 0x07cf23cd, 0xf6999118, + 0x3dc542bd, 0xbb513013, 0x700de3b6, 0x6d08d30e, 0xa65400ab, + 0x20c07205, 0xeb9ca1a0, 0x11e81eb4, 0xdab4cd11, 0x5c20bfbf, + 0x977c6c1a, 0x8a795ca2, 0x41258f07, 0xc7b1fda9, 0x0ced2e0c, + 0xfdbb9cd9, 0x36e74f7c, 0xb0733dd2, 0x7b2fee77, 0x662adecf, + 0xad760d6a, 0x2be27fc4, 0xe0beac61, 0x123e1c2f, 0xd962cf8a, + 0x5ff6bd24, 0x94aa6e81, 0x89af5e39, 0x42f38d9c, 0xc467ff32, + 0x0f3b2c97, 0xfe6d9e42, 0x35314de7, 0xb3a53f49, 0x78f9ecec, + 0x65fcdc54, 0xaea00ff1, 0x28347d5f, 0xe368aefa, 0x16441b82, + 0xdd18c827, 0x5b8cba89, 0x90d0692c, 0x8dd55994, 0x46898a31, + 0xc01df89f, 0x0b412b3a, 0xfa1799ef, 0x314b4a4a, 0xb7df38e4, + 0x7c83eb41, 0x6186dbf9, 0xaada085c, 0x2c4e7af2, 0xe712a957, + 0x15921919, 0xdececabc, 0x585ab812, 0x93066bb7, 0x8e035b0f, + 0x455f88aa, 0xc3cbfa04, 0x089729a1, 0xf9c19b74, 0x329d48d1, + 0xb4093a7f, 0x7f55e9da, 0x6250d962, 0xa90c0ac7, 0x2f987869, + 0xe4c4abcc}, + {0x00000000, 0x3d6029b0, 0x7ac05360, 0x47a07ad0, 0xf580a6c0, + 0xc8e08f70, 0x8f40f5a0, 0xb220dc10, 0x30704bc1, 0x0d106271, + 0x4ab018a1, 0x77d03111, 0xc5f0ed01, 0xf890c4b1, 0xbf30be61, + 0x825097d1, 0x60e09782, 0x5d80be32, 0x1a20c4e2, 0x2740ed52, + 0x95603142, 0xa80018f2, 0xefa06222, 0xd2c04b92, 0x5090dc43, + 0x6df0f5f3, 0x2a508f23, 0x1730a693, 0xa5107a83, 0x98705333, + 0xdfd029e3, 0xe2b00053, 0xc1c12f04, 0xfca106b4, 0xbb017c64, + 0x866155d4, 0x344189c4, 0x0921a074, 0x4e81daa4, 0x73e1f314, + 0xf1b164c5, 0xccd14d75, 0x8b7137a5, 0xb6111e15, 0x0431c205, + 0x3951ebb5, 0x7ef19165, 0x4391b8d5, 0xa121b886, 0x9c419136, + 0xdbe1ebe6, 0xe681c256, 0x54a11e46, 0x69c137f6, 0x2e614d26, + 0x13016496, 0x9151f347, 0xac31daf7, 0xeb91a027, 0xd6f18997, + 0x64d15587, 0x59b17c37, 0x1e1106e7, 0x23712f57, 0x58f35849, + 0x659371f9, 0x22330b29, 0x1f532299, 0xad73fe89, 0x9013d739, + 0xd7b3ade9, 0xead38459, 0x68831388, 0x55e33a38, 0x124340e8, + 0x2f236958, 0x9d03b548, 0xa0639cf8, 0xe7c3e628, 0xdaa3cf98, + 0x3813cfcb, 0x0573e67b, 0x42d39cab, 0x7fb3b51b, 0xcd93690b, + 0xf0f340bb, 0xb7533a6b, 0x8a3313db, 0x0863840a, 0x3503adba, + 0x72a3d76a, 0x4fc3feda, 0xfde322ca, 0xc0830b7a, 0x872371aa, + 0xba43581a, 0x9932774d, 0xa4525efd, 0xe3f2242d, 0xde920d9d, + 0x6cb2d18d, 0x51d2f83d, 0x167282ed, 0x2b12ab5d, 0xa9423c8c, + 0x9422153c, 0xd3826fec, 0xeee2465c, 0x5cc29a4c, 0x61a2b3fc, + 0x2602c92c, 0x1b62e09c, 0xf9d2e0cf, 0xc4b2c97f, 0x8312b3af, + 0xbe729a1f, 0x0c52460f, 0x31326fbf, 0x7692156f, 0x4bf23cdf, + 0xc9a2ab0e, 0xf4c282be, 0xb362f86e, 0x8e02d1de, 0x3c220dce, + 0x0142247e, 0x46e25eae, 0x7b82771e, 0xb1e6b092, 0x8c869922, + 0xcb26e3f2, 0xf646ca42, 0x44661652, 0x79063fe2, 0x3ea64532, + 0x03c66c82, 0x8196fb53, 0xbcf6d2e3, 0xfb56a833, 0xc6368183, + 0x74165d93, 0x49767423, 0x0ed60ef3, 0x33b62743, 0xd1062710, + 0xec660ea0, 0xabc67470, 0x96a65dc0, 0x248681d0, 0x19e6a860, + 0x5e46d2b0, 0x6326fb00, 0xe1766cd1, 0xdc164561, 0x9bb63fb1, + 0xa6d61601, 0x14f6ca11, 0x2996e3a1, 0x6e369971, 0x5356b0c1, + 0x70279f96, 0x4d47b626, 0x0ae7ccf6, 0x3787e546, 0x85a73956, + 0xb8c710e6, 0xff676a36, 0xc2074386, 0x4057d457, 0x7d37fde7, + 0x3a978737, 0x07f7ae87, 0xb5d77297, 0x88b75b27, 0xcf1721f7, + 0xf2770847, 0x10c70814, 0x2da721a4, 0x6a075b74, 0x576772c4, + 0xe547aed4, 0xd8278764, 0x9f87fdb4, 0xa2e7d404, 0x20b743d5, + 0x1dd76a65, 0x5a7710b5, 0x67173905, 0xd537e515, 0xe857cca5, + 0xaff7b675, 0x92979fc5, 0xe915e8db, 0xd475c16b, 0x93d5bbbb, + 0xaeb5920b, 0x1c954e1b, 0x21f567ab, 0x66551d7b, 0x5b3534cb, + 0xd965a31a, 0xe4058aaa, 0xa3a5f07a, 0x9ec5d9ca, 0x2ce505da, + 0x11852c6a, 0x562556ba, 0x6b457f0a, 0x89f57f59, 0xb49556e9, + 0xf3352c39, 0xce550589, 0x7c75d999, 0x4115f029, 0x06b58af9, + 0x3bd5a349, 0xb9853498, 0x84e51d28, 0xc34567f8, 0xfe254e48, + 0x4c059258, 0x7165bbe8, 0x36c5c138, 0x0ba5e888, 0x28d4c7df, + 0x15b4ee6f, 0x521494bf, 0x6f74bd0f, 0xdd54611f, 0xe03448af, + 0xa794327f, 0x9af41bcf, 0x18a48c1e, 0x25c4a5ae, 0x6264df7e, + 0x5f04f6ce, 0xed242ade, 0xd044036e, 0x97e479be, 0xaa84500e, + 0x4834505d, 0x755479ed, 0x32f4033d, 0x0f942a8d, 0xbdb4f69d, + 0x80d4df2d, 0xc774a5fd, 0xfa148c4d, 0x78441b9c, 0x4524322c, + 0x028448fc, 0x3fe4614c, 0x8dc4bd5c, 0xb0a494ec, 0xf704ee3c, + 0xca64c78c}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x00000000, 0xb029603d, 0x6053c07a, 0xd07aa047, 0xc0a680f5, + 0x708fe0c8, 0xa0f5408f, 0x10dc20b2, 0xc14b7030, 0x7162100d, + 0xa118b04a, 0x1131d077, 0x01edf0c5, 0xb1c490f8, 0x61be30bf, + 0xd1975082, 0x8297e060, 0x32be805d, 0xe2c4201a, 0x52ed4027, + 0x42316095, 0xf21800a8, 0x2262a0ef, 0x924bc0d2, 0x43dc9050, + 0xf3f5f06d, 0x238f502a, 0x93a63017, 0x837a10a5, 0x33537098, + 0xe329d0df, 0x5300b0e2, 0x042fc1c1, 0xb406a1fc, 0x647c01bb, + 0xd4556186, 0xc4894134, 0x74a02109, 0xa4da814e, 0x14f3e173, + 0xc564b1f1, 0x754dd1cc, 0xa537718b, 0x151e11b6, 0x05c23104, + 0xb5eb5139, 0x6591f17e, 0xd5b89143, 0x86b821a1, 0x3691419c, + 0xe6ebe1db, 0x56c281e6, 0x461ea154, 0xf637c169, 0x264d612e, + 0x96640113, 0x47f35191, 0xf7da31ac, 0x27a091eb, 0x9789f1d6, + 0x8755d164, 0x377cb159, 0xe706111e, 0x572f7123, 0x4958f358, + 0xf9719365, 0x290b3322, 0x9922531f, 0x89fe73ad, 0x39d71390, + 0xe9adb3d7, 0x5984d3ea, 0x88138368, 0x383ae355, 0xe8404312, + 0x5869232f, 0x48b5039d, 0xf89c63a0, 0x28e6c3e7, 0x98cfa3da, + 0xcbcf1338, 0x7be67305, 0xab9cd342, 0x1bb5b37f, 0x0b6993cd, + 0xbb40f3f0, 0x6b3a53b7, 0xdb13338a, 0x0a846308, 0xbaad0335, + 0x6ad7a372, 0xdafec34f, 0xca22e3fd, 0x7a0b83c0, 0xaa712387, + 0x1a5843ba, 0x4d773299, 0xfd5e52a4, 0x2d24f2e3, 0x9d0d92de, + 0x8dd1b26c, 0x3df8d251, 0xed827216, 0x5dab122b, 0x8c3c42a9, + 0x3c152294, 0xec6f82d3, 0x5c46e2ee, 0x4c9ac25c, 0xfcb3a261, + 0x2cc90226, 0x9ce0621b, 0xcfe0d2f9, 0x7fc9b2c4, 0xafb31283, + 0x1f9a72be, 0x0f46520c, 0xbf6f3231, 0x6f159276, 0xdf3cf24b, + 0x0eaba2c9, 0xbe82c2f4, 0x6ef862b3, 0xded1028e, 0xce0d223c, + 0x7e244201, 0xae5ee246, 0x1e77827b, 0x92b0e6b1, 0x2299868c, + 0xf2e326cb, 0x42ca46f6, 0x52166644, 0xe23f0679, 0x3245a63e, + 0x826cc603, 0x53fb9681, 0xe3d2f6bc, 0x33a856fb, 0x838136c6, + 0x935d1674, 0x23747649, 0xf30ed60e, 0x4327b633, 0x102706d1, + 0xa00e66ec, 0x7074c6ab, 0xc05da696, 0xd0818624, 0x60a8e619, + 0xb0d2465e, 0x00fb2663, 0xd16c76e1, 0x614516dc, 0xb13fb69b, + 0x0116d6a6, 0x11caf614, 0xa1e39629, 0x7199366e, 0xc1b05653, + 0x969f2770, 0x26b6474d, 0xf6cce70a, 0x46e58737, 0x5639a785, + 0xe610c7b8, 0x366a67ff, 0x864307c2, 0x57d45740, 0xe7fd377d, + 0x3787973a, 0x87aef707, 0x9772d7b5, 0x275bb788, 0xf72117cf, + 0x470877f2, 0x1408c710, 0xa421a72d, 0x745b076a, 0xc4726757, + 0xd4ae47e5, 0x648727d8, 0xb4fd879f, 0x04d4e7a2, 0xd543b720, + 0x656ad71d, 0xb510775a, 0x05391767, 0x15e537d5, 0xa5cc57e8, + 0x75b6f7af, 0xc59f9792, 0xdbe815e9, 0x6bc175d4, 0xbbbbd593, + 0x0b92b5ae, 0x1b4e951c, 0xab67f521, 0x7b1d5566, 0xcb34355b, + 0x1aa365d9, 0xaa8a05e4, 0x7af0a5a3, 0xcad9c59e, 0xda05e52c, + 0x6a2c8511, 0xba562556, 0x0a7f456b, 0x597ff589, 0xe95695b4, + 0x392c35f3, 0x890555ce, 0x99d9757c, 0x29f01541, 0xf98ab506, + 0x49a3d53b, 0x983485b9, 0x281de584, 0xf86745c3, 0x484e25fe, + 0x5892054c, 0xe8bb6571, 0x38c1c536, 0x88e8a50b, 0xdfc7d428, + 0x6feeb415, 0xbf941452, 0x0fbd746f, 0x1f6154dd, 0xaf4834e0, + 0x7f3294a7, 0xcf1bf49a, 0x1e8ca418, 0xaea5c425, 0x7edf6462, + 0xcef6045f, 0xde2a24ed, 0x6e0344d0, 0xbe79e497, 0x0e5084aa, + 0x5d503448, 0xed795475, 0x3d03f432, 0x8d2a940f, 0x9df6b4bd, + 0x2ddfd480, 0xfda574c7, 0x4d8c14fa, 0x9c1b4478, 0x2c322445, + 0xfc488402, 0x4c61e43f, 0x5cbdc48d, 0xec94a4b0, 0x3cee04f7, + 0x8cc764ca}, + {0x00000000, 0xa5d35ccb, 0x0ba1c84d, 0xae729486, 0x1642919b, + 0xb391cd50, 0x1de359d6, 0xb830051d, 0x6d8253ec, 0xc8510f27, + 0x66239ba1, 0xc3f0c76a, 0x7bc0c277, 0xde139ebc, 0x70610a3a, + 0xd5b256f1, 0x9b02d603, 0x3ed18ac8, 0x90a31e4e, 0x35704285, + 0x8d404798, 0x28931b53, 0x86e18fd5, 0x2332d31e, 0xf68085ef, + 0x5353d924, 0xfd214da2, 0x58f21169, 0xe0c21474, 0x451148bf, + 0xeb63dc39, 0x4eb080f2, 0x3605ac07, 0x93d6f0cc, 0x3da4644a, + 0x98773881, 0x20473d9c, 0x85946157, 0x2be6f5d1, 0x8e35a91a, + 0x5b87ffeb, 0xfe54a320, 0x502637a6, 0xf5f56b6d, 0x4dc56e70, + 0xe81632bb, 0x4664a63d, 0xe3b7faf6, 0xad077a04, 0x08d426cf, + 0xa6a6b249, 0x0375ee82, 0xbb45eb9f, 0x1e96b754, 0xb0e423d2, + 0x15377f19, 0xc08529e8, 0x65567523, 0xcb24e1a5, 0x6ef7bd6e, + 0xd6c7b873, 0x7314e4b8, 0xdd66703e, 0x78b52cf5, 0x6c0a580f, + 0xc9d904c4, 0x67ab9042, 0xc278cc89, 0x7a48c994, 0xdf9b955f, + 0x71e901d9, 0xd43a5d12, 0x01880be3, 0xa45b5728, 0x0a29c3ae, + 0xaffa9f65, 0x17ca9a78, 0xb219c6b3, 0x1c6b5235, 0xb9b80efe, + 0xf7088e0c, 0x52dbd2c7, 0xfca94641, 0x597a1a8a, 0xe14a1f97, + 0x4499435c, 0xeaebd7da, 0x4f388b11, 0x9a8adde0, 0x3f59812b, + 0x912b15ad, 0x34f84966, 0x8cc84c7b, 0x291b10b0, 0x87698436, + 0x22bad8fd, 0x5a0ff408, 0xffdca8c3, 0x51ae3c45, 0xf47d608e, + 0x4c4d6593, 0xe99e3958, 0x47ecadde, 0xe23ff115, 0x378da7e4, + 0x925efb2f, 0x3c2c6fa9, 0x99ff3362, 0x21cf367f, 0x841c6ab4, + 0x2a6efe32, 0x8fbda2f9, 0xc10d220b, 0x64de7ec0, 0xcaacea46, + 0x6f7fb68d, 0xd74fb390, 0x729cef5b, 0xdcee7bdd, 0x793d2716, + 0xac8f71e7, 0x095c2d2c, 0xa72eb9aa, 0x02fde561, 0xbacde07c, + 0x1f1ebcb7, 0xb16c2831, 0x14bf74fa, 0xd814b01e, 0x7dc7ecd5, + 0xd3b57853, 0x76662498, 0xce562185, 0x6b857d4e, 0xc5f7e9c8, + 0x6024b503, 0xb596e3f2, 0x1045bf39, 0xbe372bbf, 0x1be47774, + 0xa3d47269, 0x06072ea2, 0xa875ba24, 0x0da6e6ef, 0x4316661d, + 0xe6c53ad6, 0x48b7ae50, 0xed64f29b, 0x5554f786, 0xf087ab4d, + 0x5ef53fcb, 0xfb266300, 0x2e9435f1, 0x8b47693a, 0x2535fdbc, + 0x80e6a177, 0x38d6a46a, 0x9d05f8a1, 0x33776c27, 0x96a430ec, + 0xee111c19, 0x4bc240d2, 0xe5b0d454, 0x4063889f, 0xf8538d82, + 0x5d80d149, 0xf3f245cf, 0x56211904, 0x83934ff5, 0x2640133e, + 0x883287b8, 0x2de1db73, 0x95d1de6e, 0x300282a5, 0x9e701623, + 0x3ba34ae8, 0x7513ca1a, 0xd0c096d1, 0x7eb20257, 0xdb615e9c, + 0x63515b81, 0xc682074a, 0x68f093cc, 0xcd23cf07, 0x189199f6, + 0xbd42c53d, 0x133051bb, 0xb6e30d70, 0x0ed3086d, 0xab0054a6, + 0x0572c020, 0xa0a19ceb, 0xb41ee811, 0x11cdb4da, 0xbfbf205c, + 0x1a6c7c97, 0xa25c798a, 0x078f2541, 0xa9fdb1c7, 0x0c2eed0c, + 0xd99cbbfd, 0x7c4fe736, 0xd23d73b0, 0x77ee2f7b, 0xcfde2a66, + 0x6a0d76ad, 0xc47fe22b, 0x61acbee0, 0x2f1c3e12, 0x8acf62d9, + 0x24bdf65f, 0x816eaa94, 0x395eaf89, 0x9c8df342, 0x32ff67c4, + 0x972c3b0f, 0x429e6dfe, 0xe74d3135, 0x493fa5b3, 0xececf978, + 0x54dcfc65, 0xf10fa0ae, 0x5f7d3428, 0xfaae68e3, 0x821b4416, + 0x27c818dd, 0x89ba8c5b, 0x2c69d090, 0x9459d58d, 0x318a8946, + 0x9ff81dc0, 0x3a2b410b, 0xef9917fa, 0x4a4a4b31, 0xe438dfb7, + 0x41eb837c, 0xf9db8661, 0x5c08daaa, 0xf27a4e2c, 0x57a912e7, + 0x19199215, 0xbccacede, 0x12b85a58, 0xb76b0693, 0x0f5b038e, + 0xaa885f45, 0x04facbc3, 0xa1299708, 0x749bc1f9, 0xd1489d32, + 0x7f3a09b4, 0xdae9557f, 0x62d95062, 0xc70a0ca9, 0x6978982f, + 0xccabc4e4}, + {0x00000000, 0xb40b77a6, 0x29119f97, 0x9d1ae831, 0x13244ff4, + 0xa72f3852, 0x3a35d063, 0x8e3ea7c5, 0x674eef33, 0xd3459895, + 0x4e5f70a4, 0xfa540702, 0x746aa0c7, 0xc061d761, 0x5d7b3f50, + 0xe97048f6, 0xce9cde67, 0x7a97a9c1, 0xe78d41f0, 0x53863656, + 0xddb89193, 0x69b3e635, 0xf4a90e04, 0x40a279a2, 0xa9d23154, + 0x1dd946f2, 0x80c3aec3, 0x34c8d965, 0xbaf67ea0, 0x0efd0906, + 0x93e7e137, 0x27ec9691, 0x9c39bdcf, 0x2832ca69, 0xb5282258, + 0x012355fe, 0x8f1df23b, 0x3b16859d, 0xa60c6dac, 0x12071a0a, + 0xfb7752fc, 0x4f7c255a, 0xd266cd6b, 0x666dbacd, 0xe8531d08, + 0x5c586aae, 0xc142829f, 0x7549f539, 0x52a563a8, 0xe6ae140e, + 0x7bb4fc3f, 0xcfbf8b99, 0x41812c5c, 0xf58a5bfa, 0x6890b3cb, + 0xdc9bc46d, 0x35eb8c9b, 0x81e0fb3d, 0x1cfa130c, 0xa8f164aa, + 0x26cfc36f, 0x92c4b4c9, 0x0fde5cf8, 0xbbd52b5e, 0x79750b44, + 0xcd7e7ce2, 0x506494d3, 0xe46fe375, 0x6a5144b0, 0xde5a3316, + 0x4340db27, 0xf74bac81, 0x1e3be477, 0xaa3093d1, 0x372a7be0, + 0x83210c46, 0x0d1fab83, 0xb914dc25, 0x240e3414, 0x900543b2, + 0xb7e9d523, 0x03e2a285, 0x9ef84ab4, 0x2af33d12, 0xa4cd9ad7, + 0x10c6ed71, 0x8ddc0540, 0x39d772e6, 0xd0a73a10, 0x64ac4db6, + 0xf9b6a587, 0x4dbdd221, 0xc38375e4, 0x77880242, 0xea92ea73, + 0x5e999dd5, 0xe54cb68b, 0x5147c12d, 0xcc5d291c, 0x78565eba, + 0xf668f97f, 0x42638ed9, 0xdf7966e8, 0x6b72114e, 0x820259b8, + 0x36092e1e, 0xab13c62f, 0x1f18b189, 0x9126164c, 0x252d61ea, + 0xb83789db, 0x0c3cfe7d, 0x2bd068ec, 0x9fdb1f4a, 0x02c1f77b, + 0xb6ca80dd, 0x38f42718, 0x8cff50be, 0x11e5b88f, 0xa5eecf29, + 0x4c9e87df, 0xf895f079, 0x658f1848, 0xd1846fee, 0x5fbac82b, + 0xebb1bf8d, 0x76ab57bc, 0xc2a0201a, 0xf2ea1688, 0x46e1612e, + 0xdbfb891f, 0x6ff0feb9, 0xe1ce597c, 0x55c52eda, 0xc8dfc6eb, + 0x7cd4b14d, 0x95a4f9bb, 0x21af8e1d, 0xbcb5662c, 0x08be118a, + 0x8680b64f, 0x328bc1e9, 0xaf9129d8, 0x1b9a5e7e, 0x3c76c8ef, + 0x887dbf49, 0x15675778, 0xa16c20de, 0x2f52871b, 0x9b59f0bd, + 0x0643188c, 0xb2486f2a, 0x5b3827dc, 0xef33507a, 0x7229b84b, + 0xc622cfed, 0x481c6828, 0xfc171f8e, 0x610df7bf, 0xd5068019, + 0x6ed3ab47, 0xdad8dce1, 0x47c234d0, 0xf3c94376, 0x7df7e4b3, + 0xc9fc9315, 0x54e67b24, 0xe0ed0c82, 0x099d4474, 0xbd9633d2, + 0x208cdbe3, 0x9487ac45, 0x1ab90b80, 0xaeb27c26, 0x33a89417, + 0x87a3e3b1, 0xa04f7520, 0x14440286, 0x895eeab7, 0x3d559d11, + 0xb36b3ad4, 0x07604d72, 0x9a7aa543, 0x2e71d2e5, 0xc7019a13, + 0x730aedb5, 0xee100584, 0x5a1b7222, 0xd425d5e7, 0x602ea241, + 0xfd344a70, 0x493f3dd6, 0x8b9f1dcc, 0x3f946a6a, 0xa28e825b, + 0x1685f5fd, 0x98bb5238, 0x2cb0259e, 0xb1aacdaf, 0x05a1ba09, + 0xecd1f2ff, 0x58da8559, 0xc5c06d68, 0x71cb1ace, 0xfff5bd0b, + 0x4bfecaad, 0xd6e4229c, 0x62ef553a, 0x4503c3ab, 0xf108b40d, + 0x6c125c3c, 0xd8192b9a, 0x56278c5f, 0xe22cfbf9, 0x7f3613c8, + 0xcb3d646e, 0x224d2c98, 0x96465b3e, 0x0b5cb30f, 0xbf57c4a9, + 0x3169636c, 0x856214ca, 0x1878fcfb, 0xac738b5d, 0x17a6a003, + 0xa3add7a5, 0x3eb73f94, 0x8abc4832, 0x0482eff7, 0xb0899851, + 0x2d937060, 0x999807c6, 0x70e84f30, 0xc4e33896, 0x59f9d0a7, + 0xedf2a701, 0x63cc00c4, 0xd7c77762, 0x4add9f53, 0xfed6e8f5, + 0xd93a7e64, 0x6d3109c2, 0xf02be1f3, 0x44209655, 0xca1e3190, + 0x7e154636, 0xe30fae07, 0x5704d9a1, 0xbe749157, 0x0a7fe6f1, + 0x97650ec0, 0x236e7966, 0xad50dea3, 0x195ba905, 0x84414134, + 0x304a3692}, + {0x00000000, 0x9e00aacc, 0x7d072542, 0xe3078f8e, 0xfa0e4a84, + 0x640ee048, 0x87096fc6, 0x1909c50a, 0xb51be5d3, 0x2b1b4f1f, + 0xc81cc091, 0x561c6a5d, 0x4f15af57, 0xd115059b, 0x32128a15, + 0xac1220d9, 0x2b31bb7c, 0xb53111b0, 0x56369e3e, 0xc83634f2, + 0xd13ff1f8, 0x4f3f5b34, 0xac38d4ba, 0x32387e76, 0x9e2a5eaf, + 0x002af463, 0xe32d7bed, 0x7d2dd121, 0x6424142b, 0xfa24bee7, + 0x19233169, 0x87239ba5, 0x566276f9, 0xc862dc35, 0x2b6553bb, + 0xb565f977, 0xac6c3c7d, 0x326c96b1, 0xd16b193f, 0x4f6bb3f3, + 0xe379932a, 0x7d7939e6, 0x9e7eb668, 0x007e1ca4, 0x1977d9ae, + 0x87777362, 0x6470fcec, 0xfa705620, 0x7d53cd85, 0xe3536749, + 0x0054e8c7, 0x9e54420b, 0x875d8701, 0x195d2dcd, 0xfa5aa243, + 0x645a088f, 0xc8482856, 0x5648829a, 0xb54f0d14, 0x2b4fa7d8, + 0x324662d2, 0xac46c81e, 0x4f414790, 0xd141ed5c, 0xedc29d29, + 0x73c237e5, 0x90c5b86b, 0x0ec512a7, 0x17ccd7ad, 0x89cc7d61, + 0x6acbf2ef, 0xf4cb5823, 0x58d978fa, 0xc6d9d236, 0x25de5db8, + 0xbbdef774, 0xa2d7327e, 0x3cd798b2, 0xdfd0173c, 0x41d0bdf0, + 0xc6f32655, 0x58f38c99, 0xbbf40317, 0x25f4a9db, 0x3cfd6cd1, + 0xa2fdc61d, 0x41fa4993, 0xdffae35f, 0x73e8c386, 0xede8694a, + 0x0eefe6c4, 0x90ef4c08, 0x89e68902, 0x17e623ce, 0xf4e1ac40, + 0x6ae1068c, 0xbba0ebd0, 0x25a0411c, 0xc6a7ce92, 0x58a7645e, + 0x41aea154, 0xdfae0b98, 0x3ca98416, 0xa2a92eda, 0x0ebb0e03, + 0x90bba4cf, 0x73bc2b41, 0xedbc818d, 0xf4b54487, 0x6ab5ee4b, + 0x89b261c5, 0x17b2cb09, 0x909150ac, 0x0e91fa60, 0xed9675ee, + 0x7396df22, 0x6a9f1a28, 0xf49fb0e4, 0x17983f6a, 0x899895a6, + 0x258ab57f, 0xbb8a1fb3, 0x588d903d, 0xc68d3af1, 0xdf84fffb, + 0x41845537, 0xa283dab9, 0x3c837075, 0xda853b53, 0x4485919f, + 0xa7821e11, 0x3982b4dd, 0x208b71d7, 0xbe8bdb1b, 0x5d8c5495, + 0xc38cfe59, 0x6f9ede80, 0xf19e744c, 0x1299fbc2, 0x8c99510e, + 0x95909404, 0x0b903ec8, 0xe897b146, 0x76971b8a, 0xf1b4802f, + 0x6fb42ae3, 0x8cb3a56d, 0x12b30fa1, 0x0bbacaab, 0x95ba6067, + 0x76bdefe9, 0xe8bd4525, 0x44af65fc, 0xdaafcf30, 0x39a840be, + 0xa7a8ea72, 0xbea12f78, 0x20a185b4, 0xc3a60a3a, 0x5da6a0f6, + 0x8ce74daa, 0x12e7e766, 0xf1e068e8, 0x6fe0c224, 0x76e9072e, + 0xe8e9ade2, 0x0bee226c, 0x95ee88a0, 0x39fca879, 0xa7fc02b5, + 0x44fb8d3b, 0xdafb27f7, 0xc3f2e2fd, 0x5df24831, 0xbef5c7bf, + 0x20f56d73, 0xa7d6f6d6, 0x39d65c1a, 0xdad1d394, 0x44d17958, + 0x5dd8bc52, 0xc3d8169e, 0x20df9910, 0xbedf33dc, 0x12cd1305, + 0x8ccdb9c9, 0x6fca3647, 0xf1ca9c8b, 0xe8c35981, 0x76c3f34d, + 0x95c47cc3, 0x0bc4d60f, 0x3747a67a, 0xa9470cb6, 0x4a408338, + 0xd44029f4, 0xcd49ecfe, 0x53494632, 0xb04ec9bc, 0x2e4e6370, + 0x825c43a9, 0x1c5ce965, 0xff5b66eb, 0x615bcc27, 0x7852092d, + 0xe652a3e1, 0x05552c6f, 0x9b5586a3, 0x1c761d06, 0x8276b7ca, + 0x61713844, 0xff719288, 0xe6785782, 0x7878fd4e, 0x9b7f72c0, + 0x057fd80c, 0xa96df8d5, 0x376d5219, 0xd46add97, 0x4a6a775b, + 0x5363b251, 0xcd63189d, 0x2e649713, 0xb0643ddf, 0x6125d083, + 0xff257a4f, 0x1c22f5c1, 0x82225f0d, 0x9b2b9a07, 0x052b30cb, + 0xe62cbf45, 0x782c1589, 0xd43e3550, 0x4a3e9f9c, 0xa9391012, + 0x3739bade, 0x2e307fd4, 0xb030d518, 0x53375a96, 0xcd37f05a, + 0x4a146bff, 0xd414c133, 0x37134ebd, 0xa913e471, 0xb01a217b, + 0x2e1a8bb7, 0xcd1d0439, 0x531daef5, 0xff0f8e2c, 0x610f24e0, + 0x8208ab6e, 0x1c0801a2, 0x0501c4a8, 0x9b016e64, 0x7806e1ea, + 0xe6064b26}}; + +#endif + +#endif + +#if N == 3 + +#if W == 8 + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0x81256527, 0xd93bcc0f, 0x581ea928, 0x69069e5f, + 0xe823fb78, 0xb03d5250, 0x31183777, 0xd20d3cbe, 0x53285999, + 0x0b36f0b1, 0x8a139596, 0xbb0ba2e1, 0x3a2ec7c6, 0x62306eee, + 0xe3150bc9, 0x7f6b7f3d, 0xfe4e1a1a, 0xa650b332, 0x2775d615, + 0x166de162, 0x97488445, 0xcf562d6d, 0x4e73484a, 0xad664383, + 0x2c4326a4, 0x745d8f8c, 0xf578eaab, 0xc460dddc, 0x4545b8fb, + 0x1d5b11d3, 0x9c7e74f4, 0xfed6fe7a, 0x7ff39b5d, 0x27ed3275, + 0xa6c85752, 0x97d06025, 0x16f50502, 0x4eebac2a, 0xcfcec90d, + 0x2cdbc2c4, 0xadfea7e3, 0xf5e00ecb, 0x74c56bec, 0x45dd5c9b, + 0xc4f839bc, 0x9ce69094, 0x1dc3f5b3, 0x81bd8147, 0x0098e460, + 0x58864d48, 0xd9a3286f, 0xe8bb1f18, 0x699e7a3f, 0x3180d317, + 0xb0a5b630, 0x53b0bdf9, 0xd295d8de, 0x8a8b71f6, 0x0bae14d1, + 0x3ab623a6, 0xbb934681, 0xe38defa9, 0x62a88a8e, 0x26dcfab5, + 0xa7f99f92, 0xffe736ba, 0x7ec2539d, 0x4fda64ea, 0xceff01cd, + 0x96e1a8e5, 0x17c4cdc2, 0xf4d1c60b, 0x75f4a32c, 0x2dea0a04, + 0xaccf6f23, 0x9dd75854, 0x1cf23d73, 0x44ec945b, 0xc5c9f17c, + 0x59b78588, 0xd892e0af, 0x808c4987, 0x01a92ca0, 0x30b11bd7, + 0xb1947ef0, 0xe98ad7d8, 0x68afb2ff, 0x8bbab936, 0x0a9fdc11, + 0x52817539, 0xd3a4101e, 0xe2bc2769, 0x6399424e, 0x3b87eb66, + 0xbaa28e41, 0xd80a04cf, 0x592f61e8, 0x0131c8c0, 0x8014ade7, + 0xb10c9a90, 0x3029ffb7, 0x6837569f, 0xe91233b8, 0x0a073871, + 0x8b225d56, 0xd33cf47e, 0x52199159, 0x6301a62e, 0xe224c309, + 0xba3a6a21, 0x3b1f0f06, 0xa7617bf2, 0x26441ed5, 0x7e5ab7fd, + 0xff7fd2da, 0xce67e5ad, 0x4f42808a, 0x175c29a2, 0x96794c85, + 0x756c474c, 0xf449226b, 0xac578b43, 0x2d72ee64, 0x1c6ad913, + 0x9d4fbc34, 0xc551151c, 0x4474703b, 0x4db9f56a, 0xcc9c904d, + 0x94823965, 0x15a75c42, 0x24bf6b35, 0xa59a0e12, 0xfd84a73a, + 0x7ca1c21d, 0x9fb4c9d4, 0x1e91acf3, 0x468f05db, 0xc7aa60fc, + 0xf6b2578b, 0x779732ac, 0x2f899b84, 0xaeacfea3, 0x32d28a57, + 0xb3f7ef70, 0xebe94658, 0x6acc237f, 0x5bd41408, 0xdaf1712f, + 0x82efd807, 0x03cabd20, 0xe0dfb6e9, 0x61fad3ce, 0x39e47ae6, + 0xb8c11fc1, 0x89d928b6, 0x08fc4d91, 0x50e2e4b9, 0xd1c7819e, + 0xb36f0b10, 0x324a6e37, 0x6a54c71f, 0xeb71a238, 0xda69954f, + 0x5b4cf068, 0x03525940, 0x82773c67, 0x616237ae, 0xe0475289, + 0xb859fba1, 0x397c9e86, 0x0864a9f1, 0x8941ccd6, 0xd15f65fe, + 0x507a00d9, 0xcc04742d, 0x4d21110a, 0x153fb822, 0x941add05, + 0xa502ea72, 0x24278f55, 0x7c39267d, 0xfd1c435a, 0x1e094893, + 0x9f2c2db4, 0xc732849c, 0x4617e1bb, 0x770fd6cc, 0xf62ab3eb, + 0xae341ac3, 0x2f117fe4, 0x6b650fdf, 0xea406af8, 0xb25ec3d0, + 0x337ba6f7, 0x02639180, 0x8346f4a7, 0xdb585d8f, 0x5a7d38a8, + 0xb9683361, 0x384d5646, 0x6053ff6e, 0xe1769a49, 0xd06ead3e, + 0x514bc819, 0x09556131, 0x88700416, 0x140e70e2, 0x952b15c5, + 0xcd35bced, 0x4c10d9ca, 0x7d08eebd, 0xfc2d8b9a, 0xa43322b2, + 0x25164795, 0xc6034c5c, 0x4726297b, 0x1f388053, 0x9e1de574, + 0xaf05d203, 0x2e20b724, 0x763e1e0c, 0xf71b7b2b, 0x95b3f1a5, + 0x14969482, 0x4c883daa, 0xcdad588d, 0xfcb56ffa, 0x7d900add, + 0x258ea3f5, 0xa4abc6d2, 0x47becd1b, 0xc69ba83c, 0x9e850114, + 0x1fa06433, 0x2eb85344, 0xaf9d3663, 0xf7839f4b, 0x76a6fa6c, + 0xead88e98, 0x6bfdebbf, 0x33e34297, 0xb2c627b0, 0x83de10c7, + 0x02fb75e0, 0x5ae5dcc8, 0xdbc0b9ef, 0x38d5b226, 0xb9f0d701, + 0xe1ee7e29, 0x60cb1b0e, 0x51d32c79, 0xd0f6495e, 0x88e8e076, + 0x09cd8551}, + {0x00000000, 0x9b73ead4, 0xed96d3e9, 0x76e5393d, 0x005ca193, + 0x9b2f4b47, 0xedca727a, 0x76b998ae, 0x00b94326, 0x9bcaa9f2, + 0xed2f90cf, 0x765c7a1b, 0x00e5e2b5, 0x9b960861, 0xed73315c, + 0x7600db88, 0x0172864c, 0x9a016c98, 0xece455a5, 0x7797bf71, + 0x012e27df, 0x9a5dcd0b, 0xecb8f436, 0x77cb1ee2, 0x01cbc56a, + 0x9ab82fbe, 0xec5d1683, 0x772efc57, 0x019764f9, 0x9ae48e2d, + 0xec01b710, 0x77725dc4, 0x02e50c98, 0x9996e64c, 0xef73df71, + 0x740035a5, 0x02b9ad0b, 0x99ca47df, 0xef2f7ee2, 0x745c9436, + 0x025c4fbe, 0x992fa56a, 0xefca9c57, 0x74b97683, 0x0200ee2d, + 0x997304f9, 0xef963dc4, 0x74e5d710, 0x03978ad4, 0x98e46000, + 0xee01593d, 0x7572b3e9, 0x03cb2b47, 0x98b8c193, 0xee5df8ae, + 0x752e127a, 0x032ec9f2, 0x985d2326, 0xeeb81a1b, 0x75cbf0cf, + 0x03726861, 0x980182b5, 0xeee4bb88, 0x7597515c, 0x05ca1930, + 0x9eb9f3e4, 0xe85ccad9, 0x732f200d, 0x0596b8a3, 0x9ee55277, + 0xe8006b4a, 0x7373819e, 0x05735a16, 0x9e00b0c2, 0xe8e589ff, + 0x7396632b, 0x052ffb85, 0x9e5c1151, 0xe8b9286c, 0x73cac2b8, + 0x04b89f7c, 0x9fcb75a8, 0xe92e4c95, 0x725da641, 0x04e43eef, + 0x9f97d43b, 0xe972ed06, 0x720107d2, 0x0401dc5a, 0x9f72368e, + 0xe9970fb3, 0x72e4e567, 0x045d7dc9, 0x9f2e971d, 0xe9cbae20, + 0x72b844f4, 0x072f15a8, 0x9c5cff7c, 0xeab9c641, 0x71ca2c95, + 0x0773b43b, 0x9c005eef, 0xeae567d2, 0x71968d06, 0x0796568e, + 0x9ce5bc5a, 0xea008567, 0x71736fb3, 0x07caf71d, 0x9cb91dc9, + 0xea5c24f4, 0x712fce20, 0x065d93e4, 0x9d2e7930, 0xebcb400d, + 0x70b8aad9, 0x06013277, 0x9d72d8a3, 0xeb97e19e, 0x70e40b4a, + 0x06e4d0c2, 0x9d973a16, 0xeb72032b, 0x7001e9ff, 0x06b87151, + 0x9dcb9b85, 0xeb2ea2b8, 0x705d486c, 0x0b943260, 0x90e7d8b4, + 0xe602e189, 0x7d710b5d, 0x0bc893f3, 0x90bb7927, 0xe65e401a, + 0x7d2daace, 0x0b2d7146, 0x905e9b92, 0xe6bba2af, 0x7dc8487b, + 0x0b71d0d5, 0x90023a01, 0xe6e7033c, 0x7d94e9e8, 0x0ae6b42c, + 0x91955ef8, 0xe77067c5, 0x7c038d11, 0x0aba15bf, 0x91c9ff6b, + 0xe72cc656, 0x7c5f2c82, 0x0a5ff70a, 0x912c1dde, 0xe7c924e3, + 0x7cbace37, 0x0a035699, 0x9170bc4d, 0xe7958570, 0x7ce66fa4, + 0x09713ef8, 0x9202d42c, 0xe4e7ed11, 0x7f9407c5, 0x092d9f6b, + 0x925e75bf, 0xe4bb4c82, 0x7fc8a656, 0x09c87dde, 0x92bb970a, + 0xe45eae37, 0x7f2d44e3, 0x0994dc4d, 0x92e73699, 0xe4020fa4, + 0x7f71e570, 0x0803b8b4, 0x93705260, 0xe5956b5d, 0x7ee68189, + 0x085f1927, 0x932cf3f3, 0xe5c9cace, 0x7eba201a, 0x08bafb92, + 0x93c91146, 0xe52c287b, 0x7e5fc2af, 0x08e65a01, 0x9395b0d5, + 0xe57089e8, 0x7e03633c, 0x0e5e2b50, 0x952dc184, 0xe3c8f8b9, + 0x78bb126d, 0x0e028ac3, 0x95716017, 0xe394592a, 0x78e7b3fe, + 0x0ee76876, 0x959482a2, 0xe371bb9f, 0x7802514b, 0x0ebbc9e5, + 0x95c82331, 0xe32d1a0c, 0x785ef0d8, 0x0f2cad1c, 0x945f47c8, + 0xe2ba7ef5, 0x79c99421, 0x0f700c8f, 0x9403e65b, 0xe2e6df66, + 0x799535b2, 0x0f95ee3a, 0x94e604ee, 0xe2033dd3, 0x7970d707, + 0x0fc94fa9, 0x94baa57d, 0xe25f9c40, 0x792c7694, 0x0cbb27c8, + 0x97c8cd1c, 0xe12df421, 0x7a5e1ef5, 0x0ce7865b, 0x97946c8f, + 0xe17155b2, 0x7a02bf66, 0x0c0264ee, 0x97718e3a, 0xe194b707, + 0x7ae75dd3, 0x0c5ec57d, 0x972d2fa9, 0xe1c81694, 0x7abbfc40, + 0x0dc9a184, 0x96ba4b50, 0xe05f726d, 0x7b2c98b9, 0x0d950017, + 0x96e6eac3, 0xe003d3fe, 0x7b70392a, 0x0d70e2a2, 0x96030876, + 0xe0e6314b, 0x7b95db9f, 0x0d2c4331, 0x965fa9e5, 0xe0ba90d8, + 0x7bc97a0c}, + {0x00000000, 0x172864c0, 0x2e50c980, 0x3978ad40, 0x5ca19300, + 0x4b89f7c0, 0x72f15a80, 0x65d93e40, 0xb9432600, 0xae6b42c0, + 0x9713ef80, 0x803b8b40, 0xe5e2b500, 0xf2cad1c0, 0xcbb27c80, + 0xdc9a1840, 0xa9f74a41, 0xbedf2e81, 0x87a783c1, 0x908fe701, + 0xf556d941, 0xe27ebd81, 0xdb0610c1, 0xcc2e7401, 0x10b46c41, + 0x079c0881, 0x3ee4a5c1, 0x29ccc101, 0x4c15ff41, 0x5b3d9b81, + 0x624536c1, 0x756d5201, 0x889f92c3, 0x9fb7f603, 0xa6cf5b43, + 0xb1e73f83, 0xd43e01c3, 0xc3166503, 0xfa6ec843, 0xed46ac83, + 0x31dcb4c3, 0x26f4d003, 0x1f8c7d43, 0x08a41983, 0x6d7d27c3, + 0x7a554303, 0x432dee43, 0x54058a83, 0x2168d882, 0x3640bc42, + 0x0f381102, 0x181075c2, 0x7dc94b82, 0x6ae12f42, 0x53998202, + 0x44b1e6c2, 0x982bfe82, 0x8f039a42, 0xb67b3702, 0xa15353c2, + 0xc48a6d82, 0xd3a20942, 0xeadaa402, 0xfdf2c0c2, 0xca4e23c7, + 0xdd664707, 0xe41eea47, 0xf3368e87, 0x96efb0c7, 0x81c7d407, + 0xb8bf7947, 0xaf971d87, 0x730d05c7, 0x64256107, 0x5d5dcc47, + 0x4a75a887, 0x2fac96c7, 0x3884f207, 0x01fc5f47, 0x16d43b87, + 0x63b96986, 0x74910d46, 0x4de9a006, 0x5ac1c4c6, 0x3f18fa86, + 0x28309e46, 0x11483306, 0x066057c6, 0xdafa4f86, 0xcdd22b46, + 0xf4aa8606, 0xe382e2c6, 0x865bdc86, 0x9173b846, 0xa80b1506, + 0xbf2371c6, 0x42d1b104, 0x55f9d5c4, 0x6c817884, 0x7ba91c44, + 0x1e702204, 0x095846c4, 0x3020eb84, 0x27088f44, 0xfb929704, + 0xecbaf3c4, 0xd5c25e84, 0xc2ea3a44, 0xa7330404, 0xb01b60c4, + 0x8963cd84, 0x9e4ba944, 0xeb26fb45, 0xfc0e9f85, 0xc57632c5, + 0xd25e5605, 0xb7876845, 0xa0af0c85, 0x99d7a1c5, 0x8effc505, + 0x5265dd45, 0x454db985, 0x7c3514c5, 0x6b1d7005, 0x0ec44e45, + 0x19ec2a85, 0x209487c5, 0x37bce305, 0x4fed41cf, 0x58c5250f, + 0x61bd884f, 0x7695ec8f, 0x134cd2cf, 0x0464b60f, 0x3d1c1b4f, + 0x2a347f8f, 0xf6ae67cf, 0xe186030f, 0xd8feae4f, 0xcfd6ca8f, + 0xaa0ff4cf, 0xbd27900f, 0x845f3d4f, 0x9377598f, 0xe61a0b8e, + 0xf1326f4e, 0xc84ac20e, 0xdf62a6ce, 0xbabb988e, 0xad93fc4e, + 0x94eb510e, 0x83c335ce, 0x5f592d8e, 0x4871494e, 0x7109e40e, + 0x662180ce, 0x03f8be8e, 0x14d0da4e, 0x2da8770e, 0x3a8013ce, + 0xc772d30c, 0xd05ab7cc, 0xe9221a8c, 0xfe0a7e4c, 0x9bd3400c, + 0x8cfb24cc, 0xb583898c, 0xa2abed4c, 0x7e31f50c, 0x691991cc, + 0x50613c8c, 0x4749584c, 0x2290660c, 0x35b802cc, 0x0cc0af8c, + 0x1be8cb4c, 0x6e85994d, 0x79adfd8d, 0x40d550cd, 0x57fd340d, + 0x32240a4d, 0x250c6e8d, 0x1c74c3cd, 0x0b5ca70d, 0xd7c6bf4d, + 0xc0eedb8d, 0xf99676cd, 0xeebe120d, 0x8b672c4d, 0x9c4f488d, + 0xa537e5cd, 0xb21f810d, 0x85a36208, 0x928b06c8, 0xabf3ab88, + 0xbcdbcf48, 0xd902f108, 0xce2a95c8, 0xf7523888, 0xe07a5c48, + 0x3ce04408, 0x2bc820c8, 0x12b08d88, 0x0598e948, 0x6041d708, + 0x7769b3c8, 0x4e111e88, 0x59397a48, 0x2c542849, 0x3b7c4c89, + 0x0204e1c9, 0x152c8509, 0x70f5bb49, 0x67dddf89, 0x5ea572c9, + 0x498d1609, 0x95170e49, 0x823f6a89, 0xbb47c7c9, 0xac6fa309, + 0xc9b69d49, 0xde9ef989, 0xe7e654c9, 0xf0ce3009, 0x0d3cf0cb, + 0x1a14940b, 0x236c394b, 0x34445d8b, 0x519d63cb, 0x46b5070b, + 0x7fcdaa4b, 0x68e5ce8b, 0xb47fd6cb, 0xa357b20b, 0x9a2f1f4b, + 0x8d077b8b, 0xe8de45cb, 0xfff6210b, 0xc68e8c4b, 0xd1a6e88b, + 0xa4cbba8a, 0xb3e3de4a, 0x8a9b730a, 0x9db317ca, 0xf86a298a, + 0xef424d4a, 0xd63ae00a, 0xc11284ca, 0x1d889c8a, 0x0aa0f84a, + 0x33d8550a, 0x24f031ca, 0x41290f8a, 0x56016b4a, 0x6f79c60a, + 0x7851a2ca}, + {0x00000000, 0x9fda839e, 0xe4c4017d, 0x7b1e82e3, 0x12f904bb, + 0x8d238725, 0xf63d05c6, 0x69e78658, 0x25f20976, 0xba288ae8, + 0xc136080b, 0x5eec8b95, 0x370b0dcd, 0xa8d18e53, 0xd3cf0cb0, + 0x4c158f2e, 0x4be412ec, 0xd43e9172, 0xaf201391, 0x30fa900f, + 0x591d1657, 0xc6c795c9, 0xbdd9172a, 0x220394b4, 0x6e161b9a, + 0xf1cc9804, 0x8ad21ae7, 0x15089979, 0x7cef1f21, 0xe3359cbf, + 0x982b1e5c, 0x07f19dc2, 0x97c825d8, 0x0812a646, 0x730c24a5, + 0xecd6a73b, 0x85312163, 0x1aeba2fd, 0x61f5201e, 0xfe2fa380, + 0xb23a2cae, 0x2de0af30, 0x56fe2dd3, 0xc924ae4d, 0xa0c32815, + 0x3f19ab8b, 0x44072968, 0xdbddaaf6, 0xdc2c3734, 0x43f6b4aa, + 0x38e83649, 0xa732b5d7, 0xced5338f, 0x510fb011, 0x2a1132f2, + 0xb5cbb16c, 0xf9de3e42, 0x6604bddc, 0x1d1a3f3f, 0x82c0bca1, + 0xeb273af9, 0x74fdb967, 0x0fe33b84, 0x9039b81a, 0xf4e14df1, + 0x6b3bce6f, 0x10254c8c, 0x8fffcf12, 0xe618494a, 0x79c2cad4, + 0x02dc4837, 0x9d06cba9, 0xd1134487, 0x4ec9c719, 0x35d745fa, + 0xaa0dc664, 0xc3ea403c, 0x5c30c3a2, 0x272e4141, 0xb8f4c2df, + 0xbf055f1d, 0x20dfdc83, 0x5bc15e60, 0xc41bddfe, 0xadfc5ba6, + 0x3226d838, 0x49385adb, 0xd6e2d945, 0x9af7566b, 0x052dd5f5, + 0x7e335716, 0xe1e9d488, 0x880e52d0, 0x17d4d14e, 0x6cca53ad, + 0xf310d033, 0x63296829, 0xfcf3ebb7, 0x87ed6954, 0x1837eaca, + 0x71d06c92, 0xee0aef0c, 0x95146def, 0x0aceee71, 0x46db615f, + 0xd901e2c1, 0xa21f6022, 0x3dc5e3bc, 0x542265e4, 0xcbf8e67a, + 0xb0e66499, 0x2f3ce707, 0x28cd7ac5, 0xb717f95b, 0xcc097bb8, + 0x53d3f826, 0x3a347e7e, 0xa5eefde0, 0xdef07f03, 0x412afc9d, + 0x0d3f73b3, 0x92e5f02d, 0xe9fb72ce, 0x7621f150, 0x1fc67708, + 0x801cf496, 0xfb027675, 0x64d8f5eb, 0x32b39da3, 0xad691e3d, + 0xd6779cde, 0x49ad1f40, 0x204a9918, 0xbf901a86, 0xc48e9865, + 0x5b541bfb, 0x174194d5, 0x889b174b, 0xf38595a8, 0x6c5f1636, + 0x05b8906e, 0x9a6213f0, 0xe17c9113, 0x7ea6128d, 0x79578f4f, + 0xe68d0cd1, 0x9d938e32, 0x02490dac, 0x6bae8bf4, 0xf474086a, + 0x8f6a8a89, 0x10b00917, 0x5ca58639, 0xc37f05a7, 0xb8618744, + 0x27bb04da, 0x4e5c8282, 0xd186011c, 0xaa9883ff, 0x35420061, + 0xa57bb87b, 0x3aa13be5, 0x41bfb906, 0xde653a98, 0xb782bcc0, + 0x28583f5e, 0x5346bdbd, 0xcc9c3e23, 0x8089b10d, 0x1f533293, + 0x644db070, 0xfb9733ee, 0x9270b5b6, 0x0daa3628, 0x76b4b4cb, + 0xe96e3755, 0xee9faa97, 0x71452909, 0x0a5babea, 0x95812874, + 0xfc66ae2c, 0x63bc2db2, 0x18a2af51, 0x87782ccf, 0xcb6da3e1, + 0x54b7207f, 0x2fa9a29c, 0xb0732102, 0xd994a75a, 0x464e24c4, + 0x3d50a627, 0xa28a25b9, 0xc652d052, 0x598853cc, 0x2296d12f, + 0xbd4c52b1, 0xd4abd4e9, 0x4b715777, 0x306fd594, 0xafb5560a, + 0xe3a0d924, 0x7c7a5aba, 0x0764d859, 0x98be5bc7, 0xf159dd9f, + 0x6e835e01, 0x159ddce2, 0x8a475f7c, 0x8db6c2be, 0x126c4120, + 0x6972c3c3, 0xf6a8405d, 0x9f4fc605, 0x0095459b, 0x7b8bc778, + 0xe45144e6, 0xa844cbc8, 0x379e4856, 0x4c80cab5, 0xd35a492b, + 0xbabdcf73, 0x25674ced, 0x5e79ce0e, 0xc1a34d90, 0x519af58a, + 0xce407614, 0xb55ef4f7, 0x2a847769, 0x4363f131, 0xdcb972af, + 0xa7a7f04c, 0x387d73d2, 0x7468fcfc, 0xebb27f62, 0x90acfd81, + 0x0f767e1f, 0x6691f847, 0xf94b7bd9, 0x8255f93a, 0x1d8f7aa4, + 0x1a7ee766, 0x85a464f8, 0xfebae61b, 0x61606585, 0x0887e3dd, + 0x975d6043, 0xec43e2a0, 0x7399613e, 0x3f8cee10, 0xa0566d8e, + 0xdb48ef6d, 0x44926cf3, 0x2d75eaab, 0xb2af6935, 0xc9b1ebd6, + 0x566b6848}, + {0x00000000, 0x65673b46, 0xcace768c, 0xafa94dca, 0x4eedeb59, + 0x2b8ad01f, 0x84239dd5, 0xe144a693, 0x9ddbd6b2, 0xf8bcedf4, + 0x5715a03e, 0x32729b78, 0xd3363deb, 0xb65106ad, 0x19f84b67, + 0x7c9f7021, 0xe0c6ab25, 0x85a19063, 0x2a08dda9, 0x4f6fe6ef, + 0xae2b407c, 0xcb4c7b3a, 0x64e536f0, 0x01820db6, 0x7d1d7d97, + 0x187a46d1, 0xb7d30b1b, 0xd2b4305d, 0x33f096ce, 0x5697ad88, + 0xf93ee042, 0x9c59db04, 0x1afc500b, 0x7f9b6b4d, 0xd0322687, + 0xb5551dc1, 0x5411bb52, 0x31768014, 0x9edfcdde, 0xfbb8f698, + 0x872786b9, 0xe240bdff, 0x4de9f035, 0x288ecb73, 0xc9ca6de0, + 0xacad56a6, 0x03041b6c, 0x6663202a, 0xfa3afb2e, 0x9f5dc068, + 0x30f48da2, 0x5593b6e4, 0xb4d71077, 0xd1b02b31, 0x7e1966fb, + 0x1b7e5dbd, 0x67e12d9c, 0x028616da, 0xad2f5b10, 0xc8486056, + 0x290cc6c5, 0x4c6bfd83, 0xe3c2b049, 0x86a58b0f, 0x35f8a016, + 0x509f9b50, 0xff36d69a, 0x9a51eddc, 0x7b154b4f, 0x1e727009, + 0xb1db3dc3, 0xd4bc0685, 0xa82376a4, 0xcd444de2, 0x62ed0028, + 0x078a3b6e, 0xe6ce9dfd, 0x83a9a6bb, 0x2c00eb71, 0x4967d037, + 0xd53e0b33, 0xb0593075, 0x1ff07dbf, 0x7a9746f9, 0x9bd3e06a, + 0xfeb4db2c, 0x511d96e6, 0x347aada0, 0x48e5dd81, 0x2d82e6c7, + 0x822bab0d, 0xe74c904b, 0x060836d8, 0x636f0d9e, 0xccc64054, + 0xa9a17b12, 0x2f04f01d, 0x4a63cb5b, 0xe5ca8691, 0x80adbdd7, + 0x61e91b44, 0x048e2002, 0xab276dc8, 0xce40568e, 0xb2df26af, + 0xd7b81de9, 0x78115023, 0x1d766b65, 0xfc32cdf6, 0x9955f6b0, + 0x36fcbb7a, 0x539b803c, 0xcfc25b38, 0xaaa5607e, 0x050c2db4, + 0x606b16f2, 0x812fb061, 0xe4488b27, 0x4be1c6ed, 0x2e86fdab, + 0x52198d8a, 0x377eb6cc, 0x98d7fb06, 0xfdb0c040, 0x1cf466d3, + 0x79935d95, 0xd63a105f, 0xb35d2b19, 0x6bf1402c, 0x0e967b6a, + 0xa13f36a0, 0xc4580de6, 0x251cab75, 0x407b9033, 0xefd2ddf9, + 0x8ab5e6bf, 0xf62a969e, 0x934dadd8, 0x3ce4e012, 0x5983db54, + 0xb8c77dc7, 0xdda04681, 0x72090b4b, 0x176e300d, 0x8b37eb09, + 0xee50d04f, 0x41f99d85, 0x249ea6c3, 0xc5da0050, 0xa0bd3b16, + 0x0f1476dc, 0x6a734d9a, 0x16ec3dbb, 0x738b06fd, 0xdc224b37, + 0xb9457071, 0x5801d6e2, 0x3d66eda4, 0x92cfa06e, 0xf7a89b28, + 0x710d1027, 0x146a2b61, 0xbbc366ab, 0xdea45ded, 0x3fe0fb7e, + 0x5a87c038, 0xf52e8df2, 0x9049b6b4, 0xecd6c695, 0x89b1fdd3, + 0x2618b019, 0x437f8b5f, 0xa23b2dcc, 0xc75c168a, 0x68f55b40, + 0x0d926006, 0x91cbbb02, 0xf4ac8044, 0x5b05cd8e, 0x3e62f6c8, + 0xdf26505b, 0xba416b1d, 0x15e826d7, 0x708f1d91, 0x0c106db0, + 0x697756f6, 0xc6de1b3c, 0xa3b9207a, 0x42fd86e9, 0x279abdaf, + 0x8833f065, 0xed54cb23, 0x5e09e03a, 0x3b6edb7c, 0x94c796b6, + 0xf1a0adf0, 0x10e40b63, 0x75833025, 0xda2a7def, 0xbf4d46a9, + 0xc3d23688, 0xa6b50dce, 0x091c4004, 0x6c7b7b42, 0x8d3fddd1, + 0xe858e697, 0x47f1ab5d, 0x2296901b, 0xbecf4b1f, 0xdba87059, + 0x74013d93, 0x116606d5, 0xf022a046, 0x95459b00, 0x3aecd6ca, + 0x5f8bed8c, 0x23149dad, 0x4673a6eb, 0xe9daeb21, 0x8cbdd067, + 0x6df976f4, 0x089e4db2, 0xa7370078, 0xc2503b3e, 0x44f5b031, + 0x21928b77, 0x8e3bc6bd, 0xeb5cfdfb, 0x0a185b68, 0x6f7f602e, + 0xc0d62de4, 0xa5b116a2, 0xd92e6683, 0xbc495dc5, 0x13e0100f, + 0x76872b49, 0x97c38dda, 0xf2a4b69c, 0x5d0dfb56, 0x386ac010, + 0xa4331b14, 0xc1542052, 0x6efd6d98, 0x0b9a56de, 0xeadef04d, + 0x8fb9cb0b, 0x201086c1, 0x4577bd87, 0x39e8cda6, 0x5c8ff6e0, + 0xf326bb2a, 0x9641806c, 0x770526ff, 0x12621db9, 0xbdcb5073, + 0xd8ac6b35}, + {0x00000000, 0xd7e28058, 0x74b406f1, 0xa35686a9, 0xe9680de2, + 0x3e8a8dba, 0x9ddc0b13, 0x4a3e8b4b, 0x09a11d85, 0xde439ddd, + 0x7d151b74, 0xaaf79b2c, 0xe0c91067, 0x372b903f, 0x947d1696, + 0x439f96ce, 0x13423b0a, 0xc4a0bb52, 0x67f63dfb, 0xb014bda3, + 0xfa2a36e8, 0x2dc8b6b0, 0x8e9e3019, 0x597cb041, 0x1ae3268f, + 0xcd01a6d7, 0x6e57207e, 0xb9b5a026, 0xf38b2b6d, 0x2469ab35, + 0x873f2d9c, 0x50ddadc4, 0x26847614, 0xf166f64c, 0x523070e5, + 0x85d2f0bd, 0xcfec7bf6, 0x180efbae, 0xbb587d07, 0x6cbafd5f, + 0x2f256b91, 0xf8c7ebc9, 0x5b916d60, 0x8c73ed38, 0xc64d6673, + 0x11afe62b, 0xb2f96082, 0x651be0da, 0x35c64d1e, 0xe224cd46, + 0x41724bef, 0x9690cbb7, 0xdcae40fc, 0x0b4cc0a4, 0xa81a460d, + 0x7ff8c655, 0x3c67509b, 0xeb85d0c3, 0x48d3566a, 0x9f31d632, + 0xd50f5d79, 0x02eddd21, 0xa1bb5b88, 0x7659dbd0, 0x4d08ec28, + 0x9aea6c70, 0x39bcead9, 0xee5e6a81, 0xa460e1ca, 0x73826192, + 0xd0d4e73b, 0x07366763, 0x44a9f1ad, 0x934b71f5, 0x301df75c, + 0xe7ff7704, 0xadc1fc4f, 0x7a237c17, 0xd975fabe, 0x0e977ae6, + 0x5e4ad722, 0x89a8577a, 0x2afed1d3, 0xfd1c518b, 0xb722dac0, + 0x60c05a98, 0xc396dc31, 0x14745c69, 0x57ebcaa7, 0x80094aff, + 0x235fcc56, 0xf4bd4c0e, 0xbe83c745, 0x6961471d, 0xca37c1b4, + 0x1dd541ec, 0x6b8c9a3c, 0xbc6e1a64, 0x1f389ccd, 0xc8da1c95, + 0x82e497de, 0x55061786, 0xf650912f, 0x21b21177, 0x622d87b9, + 0xb5cf07e1, 0x16998148, 0xc17b0110, 0x8b458a5b, 0x5ca70a03, + 0xfff18caa, 0x28130cf2, 0x78cea136, 0xaf2c216e, 0x0c7aa7c7, + 0xdb98279f, 0x91a6acd4, 0x46442c8c, 0xe512aa25, 0x32f02a7d, + 0x716fbcb3, 0xa68d3ceb, 0x05dbba42, 0xd2393a1a, 0x9807b151, + 0x4fe53109, 0xecb3b7a0, 0x3b5137f8, 0x9a11d850, 0x4df35808, + 0xeea5dea1, 0x39475ef9, 0x7379d5b2, 0xa49b55ea, 0x07cdd343, + 0xd02f531b, 0x93b0c5d5, 0x4452458d, 0xe704c324, 0x30e6437c, + 0x7ad8c837, 0xad3a486f, 0x0e6ccec6, 0xd98e4e9e, 0x8953e35a, + 0x5eb16302, 0xfde7e5ab, 0x2a0565f3, 0x603beeb8, 0xb7d96ee0, + 0x148fe849, 0xc36d6811, 0x80f2fedf, 0x57107e87, 0xf446f82e, + 0x23a47876, 0x699af33d, 0xbe787365, 0x1d2ef5cc, 0xcacc7594, + 0xbc95ae44, 0x6b772e1c, 0xc821a8b5, 0x1fc328ed, 0x55fda3a6, + 0x821f23fe, 0x2149a557, 0xf6ab250f, 0xb534b3c1, 0x62d63399, + 0xc180b530, 0x16623568, 0x5c5cbe23, 0x8bbe3e7b, 0x28e8b8d2, + 0xff0a388a, 0xafd7954e, 0x78351516, 0xdb6393bf, 0x0c8113e7, + 0x46bf98ac, 0x915d18f4, 0x320b9e5d, 0xe5e91e05, 0xa67688cb, + 0x71940893, 0xd2c28e3a, 0x05200e62, 0x4f1e8529, 0x98fc0571, + 0x3baa83d8, 0xec480380, 0xd7193478, 0x00fbb420, 0xa3ad3289, + 0x744fb2d1, 0x3e71399a, 0xe993b9c2, 0x4ac53f6b, 0x9d27bf33, + 0xdeb829fd, 0x095aa9a5, 0xaa0c2f0c, 0x7deeaf54, 0x37d0241f, + 0xe032a447, 0x436422ee, 0x9486a2b6, 0xc45b0f72, 0x13b98f2a, + 0xb0ef0983, 0x670d89db, 0x2d330290, 0xfad182c8, 0x59870461, + 0x8e658439, 0xcdfa12f7, 0x1a1892af, 0xb94e1406, 0x6eac945e, + 0x24921f15, 0xf3709f4d, 0x502619e4, 0x87c499bc, 0xf19d426c, + 0x267fc234, 0x8529449d, 0x52cbc4c5, 0x18f54f8e, 0xcf17cfd6, + 0x6c41497f, 0xbba3c927, 0xf83c5fe9, 0x2fdedfb1, 0x8c885918, + 0x5b6ad940, 0x1154520b, 0xc6b6d253, 0x65e054fa, 0xb202d4a2, + 0xe2df7966, 0x353df93e, 0x966b7f97, 0x4189ffcf, 0x0bb77484, + 0xdc55f4dc, 0x7f037275, 0xa8e1f22d, 0xeb7e64e3, 0x3c9ce4bb, + 0x9fca6212, 0x4828e24a, 0x02166901, 0xd5f4e959, 0x76a26ff0, + 0xa140efa8}, + {0x00000000, 0xef52b6e1, 0x05d46b83, 0xea86dd62, 0x0ba8d706, + 0xe4fa61e7, 0x0e7cbc85, 0xe12e0a64, 0x1751ae0c, 0xf80318ed, + 0x1285c58f, 0xfdd7736e, 0x1cf9790a, 0xf3abcfeb, 0x192d1289, + 0xf67fa468, 0x2ea35c18, 0xc1f1eaf9, 0x2b77379b, 0xc425817a, + 0x250b8b1e, 0xca593dff, 0x20dfe09d, 0xcf8d567c, 0x39f2f214, + 0xd6a044f5, 0x3c269997, 0xd3742f76, 0x325a2512, 0xdd0893f3, + 0x378e4e91, 0xd8dcf870, 0x5d46b830, 0xb2140ed1, 0x5892d3b3, + 0xb7c06552, 0x56ee6f36, 0xb9bcd9d7, 0x533a04b5, 0xbc68b254, + 0x4a17163c, 0xa545a0dd, 0x4fc37dbf, 0xa091cb5e, 0x41bfc13a, + 0xaeed77db, 0x446baab9, 0xab391c58, 0x73e5e428, 0x9cb752c9, + 0x76318fab, 0x9963394a, 0x784d332e, 0x971f85cf, 0x7d9958ad, + 0x92cbee4c, 0x64b44a24, 0x8be6fcc5, 0x616021a7, 0x8e329746, + 0x6f1c9d22, 0x804e2bc3, 0x6ac8f6a1, 0x859a4040, 0xba8d7060, + 0x55dfc681, 0xbf591be3, 0x500bad02, 0xb125a766, 0x5e771187, + 0xb4f1cce5, 0x5ba37a04, 0xaddcde6c, 0x428e688d, 0xa808b5ef, + 0x475a030e, 0xa674096a, 0x4926bf8b, 0xa3a062e9, 0x4cf2d408, + 0x942e2c78, 0x7b7c9a99, 0x91fa47fb, 0x7ea8f11a, 0x9f86fb7e, + 0x70d44d9f, 0x9a5290fd, 0x7500261c, 0x837f8274, 0x6c2d3495, + 0x86abe9f7, 0x69f95f16, 0x88d75572, 0x6785e393, 0x8d033ef1, + 0x62518810, 0xe7cbc850, 0x08997eb1, 0xe21fa3d3, 0x0d4d1532, + 0xec631f56, 0x0331a9b7, 0xe9b774d5, 0x06e5c234, 0xf09a665c, + 0x1fc8d0bd, 0xf54e0ddf, 0x1a1cbb3e, 0xfb32b15a, 0x146007bb, + 0xfee6dad9, 0x11b46c38, 0xc9689448, 0x263a22a9, 0xccbcffcb, + 0x23ee492a, 0xc2c0434e, 0x2d92f5af, 0xc71428cd, 0x28469e2c, + 0xde393a44, 0x316b8ca5, 0xdbed51c7, 0x34bfe726, 0xd591ed42, + 0x3ac35ba3, 0xd04586c1, 0x3f173020, 0xae6be681, 0x41395060, + 0xabbf8d02, 0x44ed3be3, 0xa5c33187, 0x4a918766, 0xa0175a04, + 0x4f45ece5, 0xb93a488d, 0x5668fe6c, 0xbcee230e, 0x53bc95ef, + 0xb2929f8b, 0x5dc0296a, 0xb746f408, 0x581442e9, 0x80c8ba99, + 0x6f9a0c78, 0x851cd11a, 0x6a4e67fb, 0x8b606d9f, 0x6432db7e, + 0x8eb4061c, 0x61e6b0fd, 0x97991495, 0x78cba274, 0x924d7f16, + 0x7d1fc9f7, 0x9c31c393, 0x73637572, 0x99e5a810, 0x76b71ef1, + 0xf32d5eb1, 0x1c7fe850, 0xf6f93532, 0x19ab83d3, 0xf88589b7, + 0x17d73f56, 0xfd51e234, 0x120354d5, 0xe47cf0bd, 0x0b2e465c, + 0xe1a89b3e, 0x0efa2ddf, 0xefd427bb, 0x0086915a, 0xea004c38, + 0x0552fad9, 0xdd8e02a9, 0x32dcb448, 0xd85a692a, 0x3708dfcb, + 0xd626d5af, 0x3974634e, 0xd3f2be2c, 0x3ca008cd, 0xcadfaca5, + 0x258d1a44, 0xcf0bc726, 0x205971c7, 0xc1777ba3, 0x2e25cd42, + 0xc4a31020, 0x2bf1a6c1, 0x14e696e1, 0xfbb42000, 0x1132fd62, + 0xfe604b83, 0x1f4e41e7, 0xf01cf706, 0x1a9a2a64, 0xf5c89c85, + 0x03b738ed, 0xece58e0c, 0x0663536e, 0xe931e58f, 0x081fefeb, + 0xe74d590a, 0x0dcb8468, 0xe2993289, 0x3a45caf9, 0xd5177c18, + 0x3f91a17a, 0xd0c3179b, 0x31ed1dff, 0xdebfab1e, 0x3439767c, + 0xdb6bc09d, 0x2d1464f5, 0xc246d214, 0x28c00f76, 0xc792b997, + 0x26bcb3f3, 0xc9ee0512, 0x2368d870, 0xcc3a6e91, 0x49a02ed1, + 0xa6f29830, 0x4c744552, 0xa326f3b3, 0x4208f9d7, 0xad5a4f36, + 0x47dc9254, 0xa88e24b5, 0x5ef180dd, 0xb1a3363c, 0x5b25eb5e, + 0xb4775dbf, 0x555957db, 0xba0be13a, 0x508d3c58, 0xbfdf8ab9, + 0x670372c9, 0x8851c428, 0x62d7194a, 0x8d85afab, 0x6caba5cf, + 0x83f9132e, 0x697fce4c, 0x862d78ad, 0x7052dcc5, 0x9f006a24, + 0x7586b746, 0x9ad401a7, 0x7bfa0bc3, 0x94a8bd22, 0x7e2e6040, + 0x917cd6a1}, + {0x00000000, 0x87a6cb43, 0xd43c90c7, 0x539a5b84, 0x730827cf, + 0xf4aeec8c, 0xa734b708, 0x20927c4b, 0xe6104f9e, 0x61b684dd, + 0x322cdf59, 0xb58a141a, 0x95186851, 0x12bea312, 0x4124f896, + 0xc68233d5, 0x1751997d, 0x90f7523e, 0xc36d09ba, 0x44cbc2f9, + 0x6459beb2, 0xe3ff75f1, 0xb0652e75, 0x37c3e536, 0xf141d6e3, + 0x76e71da0, 0x257d4624, 0xa2db8d67, 0x8249f12c, 0x05ef3a6f, + 0x567561eb, 0xd1d3aaa8, 0x2ea332fa, 0xa905f9b9, 0xfa9fa23d, + 0x7d39697e, 0x5dab1535, 0xda0dde76, 0x899785f2, 0x0e314eb1, + 0xc8b37d64, 0x4f15b627, 0x1c8feda3, 0x9b2926e0, 0xbbbb5aab, + 0x3c1d91e8, 0x6f87ca6c, 0xe821012f, 0x39f2ab87, 0xbe5460c4, + 0xedce3b40, 0x6a68f003, 0x4afa8c48, 0xcd5c470b, 0x9ec61c8f, + 0x1960d7cc, 0xdfe2e419, 0x58442f5a, 0x0bde74de, 0x8c78bf9d, + 0xaceac3d6, 0x2b4c0895, 0x78d65311, 0xff709852, 0x5d4665f4, + 0xdae0aeb7, 0x897af533, 0x0edc3e70, 0x2e4e423b, 0xa9e88978, + 0xfa72d2fc, 0x7dd419bf, 0xbb562a6a, 0x3cf0e129, 0x6f6abaad, + 0xe8cc71ee, 0xc85e0da5, 0x4ff8c6e6, 0x1c629d62, 0x9bc45621, + 0x4a17fc89, 0xcdb137ca, 0x9e2b6c4e, 0x198da70d, 0x391fdb46, + 0xbeb91005, 0xed234b81, 0x6a8580c2, 0xac07b317, 0x2ba17854, + 0x783b23d0, 0xff9de893, 0xdf0f94d8, 0x58a95f9b, 0x0b33041f, + 0x8c95cf5c, 0x73e5570e, 0xf4439c4d, 0xa7d9c7c9, 0x207f0c8a, + 0x00ed70c1, 0x874bbb82, 0xd4d1e006, 0x53772b45, 0x95f51890, + 0x1253d3d3, 0x41c98857, 0xc66f4314, 0xe6fd3f5f, 0x615bf41c, + 0x32c1af98, 0xb56764db, 0x64b4ce73, 0xe3120530, 0xb0885eb4, + 0x372e95f7, 0x17bce9bc, 0x901a22ff, 0xc380797b, 0x4426b238, + 0x82a481ed, 0x05024aae, 0x5698112a, 0xd13eda69, 0xf1aca622, + 0x760a6d61, 0x259036e5, 0xa236fda6, 0xba8ccbe8, 0x3d2a00ab, + 0x6eb05b2f, 0xe916906c, 0xc984ec27, 0x4e222764, 0x1db87ce0, + 0x9a1eb7a3, 0x5c9c8476, 0xdb3a4f35, 0x88a014b1, 0x0f06dff2, + 0x2f94a3b9, 0xa83268fa, 0xfba8337e, 0x7c0ef83d, 0xaddd5295, + 0x2a7b99d6, 0x79e1c252, 0xfe470911, 0xded5755a, 0x5973be19, + 0x0ae9e59d, 0x8d4f2ede, 0x4bcd1d0b, 0xcc6bd648, 0x9ff18dcc, + 0x1857468f, 0x38c53ac4, 0xbf63f187, 0xecf9aa03, 0x6b5f6140, + 0x942ff912, 0x13893251, 0x401369d5, 0xc7b5a296, 0xe727dedd, + 0x6081159e, 0x331b4e1a, 0xb4bd8559, 0x723fb68c, 0xf5997dcf, + 0xa603264b, 0x21a5ed08, 0x01379143, 0x86915a00, 0xd50b0184, + 0x52adcac7, 0x837e606f, 0x04d8ab2c, 0x5742f0a8, 0xd0e43beb, + 0xf07647a0, 0x77d08ce3, 0x244ad767, 0xa3ec1c24, 0x656e2ff1, + 0xe2c8e4b2, 0xb152bf36, 0x36f47475, 0x1666083e, 0x91c0c37d, + 0xc25a98f9, 0x45fc53ba, 0xe7caae1c, 0x606c655f, 0x33f63edb, + 0xb450f598, 0x94c289d3, 0x13644290, 0x40fe1914, 0xc758d257, + 0x01dae182, 0x867c2ac1, 0xd5e67145, 0x5240ba06, 0x72d2c64d, + 0xf5740d0e, 0xa6ee568a, 0x21489dc9, 0xf09b3761, 0x773dfc22, + 0x24a7a7a6, 0xa3016ce5, 0x839310ae, 0x0435dbed, 0x57af8069, + 0xd0094b2a, 0x168b78ff, 0x912db3bc, 0xc2b7e838, 0x4511237b, + 0x65835f30, 0xe2259473, 0xb1bfcff7, 0x361904b4, 0xc9699ce6, + 0x4ecf57a5, 0x1d550c21, 0x9af3c762, 0xba61bb29, 0x3dc7706a, + 0x6e5d2bee, 0xe9fbe0ad, 0x2f79d378, 0xa8df183b, 0xfb4543bf, + 0x7ce388fc, 0x5c71f4b7, 0xdbd73ff4, 0x884d6470, 0x0febaf33, + 0xde38059b, 0x599eced8, 0x0a04955c, 0x8da25e1f, 0xad302254, + 0x2a96e917, 0x790cb293, 0xfeaa79d0, 0x38284a05, 0xbf8e8146, + 0xec14dac2, 0x6bb21181, 0x4b206dca, 0xcc86a689, 0x9f1cfd0d, + 0x18ba364e}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x0000000000000000, 0x43cba68700000000, 0xc7903cd400000000, + 0x845b9a5300000000, 0xcf27087300000000, 0x8cecaef400000000, + 0x08b734a700000000, 0x4b7c922000000000, 0x9e4f10e600000000, + 0xdd84b66100000000, 0x59df2c3200000000, 0x1a148ab500000000, + 0x5168189500000000, 0x12a3be1200000000, 0x96f8244100000000, + 0xd53382c600000000, 0x7d99511700000000, 0x3e52f79000000000, + 0xba096dc300000000, 0xf9c2cb4400000000, 0xb2be596400000000, + 0xf175ffe300000000, 0x752e65b000000000, 0x36e5c33700000000, + 0xe3d641f100000000, 0xa01de77600000000, 0x24467d2500000000, + 0x678ddba200000000, 0x2cf1498200000000, 0x6f3aef0500000000, + 0xeb61755600000000, 0xa8aad3d100000000, 0xfa32a32e00000000, + 0xb9f905a900000000, 0x3da29ffa00000000, 0x7e69397d00000000, + 0x3515ab5d00000000, 0x76de0dda00000000, 0xf285978900000000, + 0xb14e310e00000000, 0x647db3c800000000, 0x27b6154f00000000, + 0xa3ed8f1c00000000, 0xe026299b00000000, 0xab5abbbb00000000, + 0xe8911d3c00000000, 0x6cca876f00000000, 0x2f0121e800000000, + 0x87abf23900000000, 0xc46054be00000000, 0x403bceed00000000, + 0x03f0686a00000000, 0x488cfa4a00000000, 0x0b475ccd00000000, + 0x8f1cc69e00000000, 0xccd7601900000000, 0x19e4e2df00000000, + 0x5a2f445800000000, 0xde74de0b00000000, 0x9dbf788c00000000, + 0xd6c3eaac00000000, 0x95084c2b00000000, 0x1153d67800000000, + 0x529870ff00000000, 0xf465465d00000000, 0xb7aee0da00000000, + 0x33f57a8900000000, 0x703edc0e00000000, 0x3b424e2e00000000, + 0x7889e8a900000000, 0xfcd272fa00000000, 0xbf19d47d00000000, + 0x6a2a56bb00000000, 0x29e1f03c00000000, 0xadba6a6f00000000, + 0xee71cce800000000, 0xa50d5ec800000000, 0xe6c6f84f00000000, + 0x629d621c00000000, 0x2156c49b00000000, 0x89fc174a00000000, + 0xca37b1cd00000000, 0x4e6c2b9e00000000, 0x0da78d1900000000, + 0x46db1f3900000000, 0x0510b9be00000000, 0x814b23ed00000000, + 0xc280856a00000000, 0x17b307ac00000000, 0x5478a12b00000000, + 0xd0233b7800000000, 0x93e89dff00000000, 0xd8940fdf00000000, + 0x9b5fa95800000000, 0x1f04330b00000000, 0x5ccf958c00000000, + 0x0e57e57300000000, 0x4d9c43f400000000, 0xc9c7d9a700000000, + 0x8a0c7f2000000000, 0xc170ed0000000000, 0x82bb4b8700000000, + 0x06e0d1d400000000, 0x452b775300000000, 0x9018f59500000000, + 0xd3d3531200000000, 0x5788c94100000000, 0x14436fc600000000, + 0x5f3ffde600000000, 0x1cf45b6100000000, 0x98afc13200000000, + 0xdb6467b500000000, 0x73ceb46400000000, 0x300512e300000000, + 0xb45e88b000000000, 0xf7952e3700000000, 0xbce9bc1700000000, + 0xff221a9000000000, 0x7b7980c300000000, 0x38b2264400000000, + 0xed81a48200000000, 0xae4a020500000000, 0x2a11985600000000, + 0x69da3ed100000000, 0x22a6acf100000000, 0x616d0a7600000000, + 0xe536902500000000, 0xa6fd36a200000000, 0xe8cb8cba00000000, + 0xab002a3d00000000, 0x2f5bb06e00000000, 0x6c9016e900000000, + 0x27ec84c900000000, 0x6427224e00000000, 0xe07cb81d00000000, + 0xa3b71e9a00000000, 0x76849c5c00000000, 0x354f3adb00000000, + 0xb114a08800000000, 0xf2df060f00000000, 0xb9a3942f00000000, + 0xfa6832a800000000, 0x7e33a8fb00000000, 0x3df80e7c00000000, + 0x9552ddad00000000, 0xd6997b2a00000000, 0x52c2e17900000000, + 0x110947fe00000000, 0x5a75d5de00000000, 0x19be735900000000, + 0x9de5e90a00000000, 0xde2e4f8d00000000, 0x0b1dcd4b00000000, + 0x48d66bcc00000000, 0xcc8df19f00000000, 0x8f46571800000000, + 0xc43ac53800000000, 0x87f163bf00000000, 0x03aaf9ec00000000, + 0x40615f6b00000000, 0x12f92f9400000000, 0x5132891300000000, + 0xd569134000000000, 0x96a2b5c700000000, 0xddde27e700000000, + 0x9e15816000000000, 0x1a4e1b3300000000, 0x5985bdb400000000, + 0x8cb63f7200000000, 0xcf7d99f500000000, 0x4b2603a600000000, + 0x08eda52100000000, 0x4391370100000000, 0x005a918600000000, + 0x84010bd500000000, 0xc7caad5200000000, 0x6f607e8300000000, + 0x2cabd80400000000, 0xa8f0425700000000, 0xeb3be4d000000000, + 0xa04776f000000000, 0xe38cd07700000000, 0x67d74a2400000000, + 0x241ceca300000000, 0xf12f6e6500000000, 0xb2e4c8e200000000, + 0x36bf52b100000000, 0x7574f43600000000, 0x3e08661600000000, + 0x7dc3c09100000000, 0xf9985ac200000000, 0xba53fc4500000000, + 0x1caecae700000000, 0x5f656c6000000000, 0xdb3ef63300000000, + 0x98f550b400000000, 0xd389c29400000000, 0x9042641300000000, + 0x1419fe4000000000, 0x57d258c700000000, 0x82e1da0100000000, + 0xc12a7c8600000000, 0x4571e6d500000000, 0x06ba405200000000, + 0x4dc6d27200000000, 0x0e0d74f500000000, 0x8a56eea600000000, + 0xc99d482100000000, 0x61379bf000000000, 0x22fc3d7700000000, + 0xa6a7a72400000000, 0xe56c01a300000000, 0xae10938300000000, + 0xeddb350400000000, 0x6980af5700000000, 0x2a4b09d000000000, + 0xff788b1600000000, 0xbcb32d9100000000, 0x38e8b7c200000000, + 0x7b23114500000000, 0x305f836500000000, 0x739425e200000000, + 0xf7cfbfb100000000, 0xb404193600000000, 0xe69c69c900000000, + 0xa557cf4e00000000, 0x210c551d00000000, 0x62c7f39a00000000, + 0x29bb61ba00000000, 0x6a70c73d00000000, 0xee2b5d6e00000000, + 0xade0fbe900000000, 0x78d3792f00000000, 0x3b18dfa800000000, + 0xbf4345fb00000000, 0xfc88e37c00000000, 0xb7f4715c00000000, + 0xf43fd7db00000000, 0x70644d8800000000, 0x33afeb0f00000000, + 0x9b0538de00000000, 0xd8ce9e5900000000, 0x5c95040a00000000, + 0x1f5ea28d00000000, 0x542230ad00000000, 0x17e9962a00000000, + 0x93b20c7900000000, 0xd079aafe00000000, 0x054a283800000000, + 0x46818ebf00000000, 0xc2da14ec00000000, 0x8111b26b00000000, + 0xca6d204b00000000, 0x89a686cc00000000, 0x0dfd1c9f00000000, + 0x4e36ba1800000000}, + {0x0000000000000000, 0xe1b652ef00000000, 0x836bd40500000000, + 0x62dd86ea00000000, 0x06d7a80b00000000, 0xe761fae400000000, + 0x85bc7c0e00000000, 0x640a2ee100000000, 0x0cae511700000000, + 0xed1803f800000000, 0x8fc5851200000000, 0x6e73d7fd00000000, + 0x0a79f91c00000000, 0xebcfabf300000000, 0x89122d1900000000, + 0x68a47ff600000000, 0x185ca32e00000000, 0xf9eaf1c100000000, + 0x9b37772b00000000, 0x7a8125c400000000, 0x1e8b0b2500000000, + 0xff3d59ca00000000, 0x9de0df2000000000, 0x7c568dcf00000000, + 0x14f2f23900000000, 0xf544a0d600000000, 0x9799263c00000000, + 0x762f74d300000000, 0x12255a3200000000, 0xf39308dd00000000, + 0x914e8e3700000000, 0x70f8dcd800000000, 0x30b8465d00000000, + 0xd10e14b200000000, 0xb3d3925800000000, 0x5265c0b700000000, + 0x366fee5600000000, 0xd7d9bcb900000000, 0xb5043a5300000000, + 0x54b268bc00000000, 0x3c16174a00000000, 0xdda045a500000000, + 0xbf7dc34f00000000, 0x5ecb91a000000000, 0x3ac1bf4100000000, + 0xdb77edae00000000, 0xb9aa6b4400000000, 0x581c39ab00000000, + 0x28e4e57300000000, 0xc952b79c00000000, 0xab8f317600000000, + 0x4a39639900000000, 0x2e334d7800000000, 0xcf851f9700000000, + 0xad58997d00000000, 0x4ceecb9200000000, 0x244ab46400000000, + 0xc5fce68b00000000, 0xa721606100000000, 0x4697328e00000000, + 0x229d1c6f00000000, 0xc32b4e8000000000, 0xa1f6c86a00000000, + 0x40409a8500000000, 0x60708dba00000000, 0x81c6df5500000000, + 0xe31b59bf00000000, 0x02ad0b5000000000, 0x66a725b100000000, + 0x8711775e00000000, 0xe5ccf1b400000000, 0x047aa35b00000000, + 0x6cdedcad00000000, 0x8d688e4200000000, 0xefb508a800000000, + 0x0e035a4700000000, 0x6a0974a600000000, 0x8bbf264900000000, + 0xe962a0a300000000, 0x08d4f24c00000000, 0x782c2e9400000000, + 0x999a7c7b00000000, 0xfb47fa9100000000, 0x1af1a87e00000000, + 0x7efb869f00000000, 0x9f4dd47000000000, 0xfd90529a00000000, + 0x1c26007500000000, 0x74827f8300000000, 0x95342d6c00000000, + 0xf7e9ab8600000000, 0x165ff96900000000, 0x7255d78800000000, + 0x93e3856700000000, 0xf13e038d00000000, 0x1088516200000000, + 0x50c8cbe700000000, 0xb17e990800000000, 0xd3a31fe200000000, + 0x32154d0d00000000, 0x561f63ec00000000, 0xb7a9310300000000, + 0xd574b7e900000000, 0x34c2e50600000000, 0x5c669af000000000, + 0xbdd0c81f00000000, 0xdf0d4ef500000000, 0x3ebb1c1a00000000, + 0x5ab132fb00000000, 0xbb07601400000000, 0xd9dae6fe00000000, + 0x386cb41100000000, 0x489468c900000000, 0xa9223a2600000000, + 0xcbffbccc00000000, 0x2a49ee2300000000, 0x4e43c0c200000000, + 0xaff5922d00000000, 0xcd2814c700000000, 0x2c9e462800000000, + 0x443a39de00000000, 0xa58c6b3100000000, 0xc751eddb00000000, + 0x26e7bf3400000000, 0x42ed91d500000000, 0xa35bc33a00000000, + 0xc18645d000000000, 0x2030173f00000000, 0x81e66bae00000000, + 0x6050394100000000, 0x028dbfab00000000, 0xe33bed4400000000, + 0x8731c3a500000000, 0x6687914a00000000, 0x045a17a000000000, + 0xe5ec454f00000000, 0x8d483ab900000000, 0x6cfe685600000000, + 0x0e23eebc00000000, 0xef95bc5300000000, 0x8b9f92b200000000, + 0x6a29c05d00000000, 0x08f446b700000000, 0xe942145800000000, + 0x99bac88000000000, 0x780c9a6f00000000, 0x1ad11c8500000000, + 0xfb674e6a00000000, 0x9f6d608b00000000, 0x7edb326400000000, + 0x1c06b48e00000000, 0xfdb0e66100000000, 0x9514999700000000, + 0x74a2cb7800000000, 0x167f4d9200000000, 0xf7c91f7d00000000, + 0x93c3319c00000000, 0x7275637300000000, 0x10a8e59900000000, + 0xf11eb77600000000, 0xb15e2df300000000, 0x50e87f1c00000000, + 0x3235f9f600000000, 0xd383ab1900000000, 0xb78985f800000000, + 0x563fd71700000000, 0x34e251fd00000000, 0xd554031200000000, + 0xbdf07ce400000000, 0x5c462e0b00000000, 0x3e9ba8e100000000, + 0xdf2dfa0e00000000, 0xbb27d4ef00000000, 0x5a91860000000000, + 0x384c00ea00000000, 0xd9fa520500000000, 0xa9028edd00000000, + 0x48b4dc3200000000, 0x2a695ad800000000, 0xcbdf083700000000, + 0xafd526d600000000, 0x4e63743900000000, 0x2cbef2d300000000, + 0xcd08a03c00000000, 0xa5acdfca00000000, 0x441a8d2500000000, + 0x26c70bcf00000000, 0xc771592000000000, 0xa37b77c100000000, + 0x42cd252e00000000, 0x2010a3c400000000, 0xc1a6f12b00000000, + 0xe196e61400000000, 0x0020b4fb00000000, 0x62fd321100000000, + 0x834b60fe00000000, 0xe7414e1f00000000, 0x06f71cf000000000, + 0x642a9a1a00000000, 0x859cc8f500000000, 0xed38b70300000000, + 0x0c8ee5ec00000000, 0x6e53630600000000, 0x8fe531e900000000, + 0xebef1f0800000000, 0x0a594de700000000, 0x6884cb0d00000000, + 0x893299e200000000, 0xf9ca453a00000000, 0x187c17d500000000, + 0x7aa1913f00000000, 0x9b17c3d000000000, 0xff1ded3100000000, + 0x1eabbfde00000000, 0x7c76393400000000, 0x9dc06bdb00000000, + 0xf564142d00000000, 0x14d246c200000000, 0x760fc02800000000, + 0x97b992c700000000, 0xf3b3bc2600000000, 0x1205eec900000000, + 0x70d8682300000000, 0x916e3acc00000000, 0xd12ea04900000000, + 0x3098f2a600000000, 0x5245744c00000000, 0xb3f326a300000000, + 0xd7f9084200000000, 0x364f5aad00000000, 0x5492dc4700000000, + 0xb5248ea800000000, 0xdd80f15e00000000, 0x3c36a3b100000000, + 0x5eeb255b00000000, 0xbf5d77b400000000, 0xdb57595500000000, + 0x3ae10bba00000000, 0x583c8d5000000000, 0xb98adfbf00000000, + 0xc972036700000000, 0x28c4518800000000, 0x4a19d76200000000, + 0xabaf858d00000000, 0xcfa5ab6c00000000, 0x2e13f98300000000, + 0x4cce7f6900000000, 0xad782d8600000000, 0xc5dc527000000000, + 0x246a009f00000000, 0x46b7867500000000, 0xa701d49a00000000, + 0xc30bfa7b00000000, 0x22bda89400000000, 0x40602e7e00000000, + 0xa1d67c9100000000}, + {0x0000000000000000, 0x5880e2d700000000, 0xf106b47400000000, + 0xa98656a300000000, 0xe20d68e900000000, 0xba8d8a3e00000000, + 0x130bdc9d00000000, 0x4b8b3e4a00000000, 0x851da10900000000, + 0xdd9d43de00000000, 0x741b157d00000000, 0x2c9bf7aa00000000, + 0x6710c9e000000000, 0x3f902b3700000000, 0x96167d9400000000, + 0xce969f4300000000, 0x0a3b421300000000, 0x52bba0c400000000, + 0xfb3df66700000000, 0xa3bd14b000000000, 0xe8362afa00000000, + 0xb0b6c82d00000000, 0x19309e8e00000000, 0x41b07c5900000000, + 0x8f26e31a00000000, 0xd7a601cd00000000, 0x7e20576e00000000, + 0x26a0b5b900000000, 0x6d2b8bf300000000, 0x35ab692400000000, + 0x9c2d3f8700000000, 0xc4addd5000000000, 0x1476842600000000, + 0x4cf666f100000000, 0xe570305200000000, 0xbdf0d28500000000, + 0xf67beccf00000000, 0xaefb0e1800000000, 0x077d58bb00000000, + 0x5ffdba6c00000000, 0x916b252f00000000, 0xc9ebc7f800000000, + 0x606d915b00000000, 0x38ed738c00000000, 0x73664dc600000000, + 0x2be6af1100000000, 0x8260f9b200000000, 0xdae01b6500000000, + 0x1e4dc63500000000, 0x46cd24e200000000, 0xef4b724100000000, + 0xb7cb909600000000, 0xfc40aedc00000000, 0xa4c04c0b00000000, + 0x0d461aa800000000, 0x55c6f87f00000000, 0x9b50673c00000000, + 0xc3d085eb00000000, 0x6a56d34800000000, 0x32d6319f00000000, + 0x795d0fd500000000, 0x21dded0200000000, 0x885bbba100000000, + 0xd0db597600000000, 0x28ec084d00000000, 0x706cea9a00000000, + 0xd9eabc3900000000, 0x816a5eee00000000, 0xcae160a400000000, + 0x9261827300000000, 0x3be7d4d000000000, 0x6367360700000000, + 0xadf1a94400000000, 0xf5714b9300000000, 0x5cf71d3000000000, + 0x0477ffe700000000, 0x4ffcc1ad00000000, 0x177c237a00000000, + 0xbefa75d900000000, 0xe67a970e00000000, 0x22d74a5e00000000, + 0x7a57a88900000000, 0xd3d1fe2a00000000, 0x8b511cfd00000000, + 0xc0da22b700000000, 0x985ac06000000000, 0x31dc96c300000000, + 0x695c741400000000, 0xa7caeb5700000000, 0xff4a098000000000, + 0x56cc5f2300000000, 0x0e4cbdf400000000, 0x45c783be00000000, + 0x1d47616900000000, 0xb4c137ca00000000, 0xec41d51d00000000, + 0x3c9a8c6b00000000, 0x641a6ebc00000000, 0xcd9c381f00000000, + 0x951cdac800000000, 0xde97e48200000000, 0x8617065500000000, + 0x2f9150f600000000, 0x7711b22100000000, 0xb9872d6200000000, + 0xe107cfb500000000, 0x4881991600000000, 0x10017bc100000000, + 0x5b8a458b00000000, 0x030aa75c00000000, 0xaa8cf1ff00000000, + 0xf20c132800000000, 0x36a1ce7800000000, 0x6e212caf00000000, + 0xc7a77a0c00000000, 0x9f2798db00000000, 0xd4aca69100000000, + 0x8c2c444600000000, 0x25aa12e500000000, 0x7d2af03200000000, + 0xb3bc6f7100000000, 0xeb3c8da600000000, 0x42badb0500000000, + 0x1a3a39d200000000, 0x51b1079800000000, 0x0931e54f00000000, + 0xa0b7b3ec00000000, 0xf837513b00000000, 0x50d8119a00000000, + 0x0858f34d00000000, 0xa1dea5ee00000000, 0xf95e473900000000, + 0xb2d5797300000000, 0xea559ba400000000, 0x43d3cd0700000000, + 0x1b532fd000000000, 0xd5c5b09300000000, 0x8d45524400000000, + 0x24c304e700000000, 0x7c43e63000000000, 0x37c8d87a00000000, + 0x6f483aad00000000, 0xc6ce6c0e00000000, 0x9e4e8ed900000000, + 0x5ae3538900000000, 0x0263b15e00000000, 0xabe5e7fd00000000, + 0xf365052a00000000, 0xb8ee3b6000000000, 0xe06ed9b700000000, + 0x49e88f1400000000, 0x11686dc300000000, 0xdffef28000000000, + 0x877e105700000000, 0x2ef846f400000000, 0x7678a42300000000, + 0x3df39a6900000000, 0x657378be00000000, 0xccf52e1d00000000, + 0x9475ccca00000000, 0x44ae95bc00000000, 0x1c2e776b00000000, + 0xb5a821c800000000, 0xed28c31f00000000, 0xa6a3fd5500000000, + 0xfe231f8200000000, 0x57a5492100000000, 0x0f25abf600000000, + 0xc1b334b500000000, 0x9933d66200000000, 0x30b580c100000000, + 0x6835621600000000, 0x23be5c5c00000000, 0x7b3ebe8b00000000, + 0xd2b8e82800000000, 0x8a380aff00000000, 0x4e95d7af00000000, + 0x1615357800000000, 0xbf9363db00000000, 0xe713810c00000000, + 0xac98bf4600000000, 0xf4185d9100000000, 0x5d9e0b3200000000, + 0x051ee9e500000000, 0xcb8876a600000000, 0x9308947100000000, + 0x3a8ec2d200000000, 0x620e200500000000, 0x29851e4f00000000, + 0x7105fc9800000000, 0xd883aa3b00000000, 0x800348ec00000000, + 0x783419d700000000, 0x20b4fb0000000000, 0x8932ada300000000, + 0xd1b24f7400000000, 0x9a39713e00000000, 0xc2b993e900000000, + 0x6b3fc54a00000000, 0x33bf279d00000000, 0xfd29b8de00000000, + 0xa5a95a0900000000, 0x0c2f0caa00000000, 0x54afee7d00000000, + 0x1f24d03700000000, 0x47a432e000000000, 0xee22644300000000, + 0xb6a2869400000000, 0x720f5bc400000000, 0x2a8fb91300000000, + 0x8309efb000000000, 0xdb890d6700000000, 0x9002332d00000000, + 0xc882d1fa00000000, 0x6104875900000000, 0x3984658e00000000, + 0xf712facd00000000, 0xaf92181a00000000, 0x06144eb900000000, + 0x5e94ac6e00000000, 0x151f922400000000, 0x4d9f70f300000000, + 0xe419265000000000, 0xbc99c48700000000, 0x6c429df100000000, + 0x34c27f2600000000, 0x9d44298500000000, 0xc5c4cb5200000000, + 0x8e4ff51800000000, 0xd6cf17cf00000000, 0x7f49416c00000000, + 0x27c9a3bb00000000, 0xe95f3cf800000000, 0xb1dfde2f00000000, + 0x1859888c00000000, 0x40d96a5b00000000, 0x0b52541100000000, + 0x53d2b6c600000000, 0xfa54e06500000000, 0xa2d402b200000000, + 0x6679dfe200000000, 0x3ef93d3500000000, 0x977f6b9600000000, + 0xcfff894100000000, 0x8474b70b00000000, 0xdcf455dc00000000, + 0x7572037f00000000, 0x2df2e1a800000000, 0xe3647eeb00000000, + 0xbbe49c3c00000000, 0x1262ca9f00000000, 0x4ae2284800000000, + 0x0169160200000000, 0x59e9f4d500000000, 0xf06fa27600000000, + 0xa8ef40a100000000}, + {0x0000000000000000, 0x463b676500000000, 0x8c76ceca00000000, + 0xca4da9af00000000, 0x59ebed4e00000000, 0x1fd08a2b00000000, + 0xd59d238400000000, 0x93a644e100000000, 0xb2d6db9d00000000, + 0xf4edbcf800000000, 0x3ea0155700000000, 0x789b723200000000, + 0xeb3d36d300000000, 0xad0651b600000000, 0x674bf81900000000, + 0x21709f7c00000000, 0x25abc6e000000000, 0x6390a18500000000, + 0xa9dd082a00000000, 0xefe66f4f00000000, 0x7c402bae00000000, + 0x3a7b4ccb00000000, 0xf036e56400000000, 0xb60d820100000000, + 0x977d1d7d00000000, 0xd1467a1800000000, 0x1b0bd3b700000000, + 0x5d30b4d200000000, 0xce96f03300000000, 0x88ad975600000000, + 0x42e03ef900000000, 0x04db599c00000000, 0x0b50fc1a00000000, + 0x4d6b9b7f00000000, 0x872632d000000000, 0xc11d55b500000000, + 0x52bb115400000000, 0x1480763100000000, 0xdecddf9e00000000, + 0x98f6b8fb00000000, 0xb986278700000000, 0xffbd40e200000000, + 0x35f0e94d00000000, 0x73cb8e2800000000, 0xe06dcac900000000, + 0xa656adac00000000, 0x6c1b040300000000, 0x2a20636600000000, + 0x2efb3afa00000000, 0x68c05d9f00000000, 0xa28df43000000000, + 0xe4b6935500000000, 0x7710d7b400000000, 0x312bb0d100000000, + 0xfb66197e00000000, 0xbd5d7e1b00000000, 0x9c2de16700000000, + 0xda16860200000000, 0x105b2fad00000000, 0x566048c800000000, + 0xc5c60c2900000000, 0x83fd6b4c00000000, 0x49b0c2e300000000, + 0x0f8ba58600000000, 0x16a0f83500000000, 0x509b9f5000000000, + 0x9ad636ff00000000, 0xdced519a00000000, 0x4f4b157b00000000, + 0x0970721e00000000, 0xc33ddbb100000000, 0x8506bcd400000000, + 0xa47623a800000000, 0xe24d44cd00000000, 0x2800ed6200000000, + 0x6e3b8a0700000000, 0xfd9dcee600000000, 0xbba6a98300000000, + 0x71eb002c00000000, 0x37d0674900000000, 0x330b3ed500000000, + 0x753059b000000000, 0xbf7df01f00000000, 0xf946977a00000000, + 0x6ae0d39b00000000, 0x2cdbb4fe00000000, 0xe6961d5100000000, + 0xa0ad7a3400000000, 0x81dde54800000000, 0xc7e6822d00000000, + 0x0dab2b8200000000, 0x4b904ce700000000, 0xd836080600000000, + 0x9e0d6f6300000000, 0x5440c6cc00000000, 0x127ba1a900000000, + 0x1df0042f00000000, 0x5bcb634a00000000, 0x9186cae500000000, + 0xd7bdad8000000000, 0x441be96100000000, 0x02208e0400000000, + 0xc86d27ab00000000, 0x8e5640ce00000000, 0xaf26dfb200000000, + 0xe91db8d700000000, 0x2350117800000000, 0x656b761d00000000, + 0xf6cd32fc00000000, 0xb0f6559900000000, 0x7abbfc3600000000, + 0x3c809b5300000000, 0x385bc2cf00000000, 0x7e60a5aa00000000, + 0xb42d0c0500000000, 0xf2166b6000000000, 0x61b02f8100000000, + 0x278b48e400000000, 0xedc6e14b00000000, 0xabfd862e00000000, + 0x8a8d195200000000, 0xccb67e3700000000, 0x06fbd79800000000, + 0x40c0b0fd00000000, 0xd366f41c00000000, 0x955d937900000000, + 0x5f103ad600000000, 0x192b5db300000000, 0x2c40f16b00000000, + 0x6a7b960e00000000, 0xa0363fa100000000, 0xe60d58c400000000, + 0x75ab1c2500000000, 0x33907b4000000000, 0xf9ddd2ef00000000, + 0xbfe6b58a00000000, 0x9e962af600000000, 0xd8ad4d9300000000, + 0x12e0e43c00000000, 0x54db835900000000, 0xc77dc7b800000000, + 0x8146a0dd00000000, 0x4b0b097200000000, 0x0d306e1700000000, + 0x09eb378b00000000, 0x4fd050ee00000000, 0x859df94100000000, + 0xc3a69e2400000000, 0x5000dac500000000, 0x163bbda000000000, + 0xdc76140f00000000, 0x9a4d736a00000000, 0xbb3dec1600000000, + 0xfd068b7300000000, 0x374b22dc00000000, 0x717045b900000000, + 0xe2d6015800000000, 0xa4ed663d00000000, 0x6ea0cf9200000000, + 0x289ba8f700000000, 0x27100d7100000000, 0x612b6a1400000000, + 0xab66c3bb00000000, 0xed5da4de00000000, 0x7efbe03f00000000, + 0x38c0875a00000000, 0xf28d2ef500000000, 0xb4b6499000000000, + 0x95c6d6ec00000000, 0xd3fdb18900000000, 0x19b0182600000000, + 0x5f8b7f4300000000, 0xcc2d3ba200000000, 0x8a165cc700000000, + 0x405bf56800000000, 0x0660920d00000000, 0x02bbcb9100000000, + 0x4480acf400000000, 0x8ecd055b00000000, 0xc8f6623e00000000, + 0x5b5026df00000000, 0x1d6b41ba00000000, 0xd726e81500000000, + 0x911d8f7000000000, 0xb06d100c00000000, 0xf656776900000000, + 0x3c1bdec600000000, 0x7a20b9a300000000, 0xe986fd4200000000, + 0xafbd9a2700000000, 0x65f0338800000000, 0x23cb54ed00000000, + 0x3ae0095e00000000, 0x7cdb6e3b00000000, 0xb696c79400000000, + 0xf0ada0f100000000, 0x630be41000000000, 0x2530837500000000, + 0xef7d2ada00000000, 0xa9464dbf00000000, 0x8836d2c300000000, + 0xce0db5a600000000, 0x04401c0900000000, 0x427b7b6c00000000, + 0xd1dd3f8d00000000, 0x97e658e800000000, 0x5dabf14700000000, + 0x1b90962200000000, 0x1f4bcfbe00000000, 0x5970a8db00000000, + 0x933d017400000000, 0xd506661100000000, 0x46a022f000000000, + 0x009b459500000000, 0xcad6ec3a00000000, 0x8ced8b5f00000000, + 0xad9d142300000000, 0xeba6734600000000, 0x21ebdae900000000, + 0x67d0bd8c00000000, 0xf476f96d00000000, 0xb24d9e0800000000, + 0x780037a700000000, 0x3e3b50c200000000, 0x31b0f54400000000, + 0x778b922100000000, 0xbdc63b8e00000000, 0xfbfd5ceb00000000, + 0x685b180a00000000, 0x2e607f6f00000000, 0xe42dd6c000000000, + 0xa216b1a500000000, 0x83662ed900000000, 0xc55d49bc00000000, + 0x0f10e01300000000, 0x492b877600000000, 0xda8dc39700000000, + 0x9cb6a4f200000000, 0x56fb0d5d00000000, 0x10c06a3800000000, + 0x141b33a400000000, 0x522054c100000000, 0x986dfd6e00000000, + 0xde569a0b00000000, 0x4df0deea00000000, 0x0bcbb98f00000000, + 0xc186102000000000, 0x87bd774500000000, 0xa6cde83900000000, + 0xe0f68f5c00000000, 0x2abb26f300000000, 0x6c80419600000000, + 0xff26057700000000, 0xb91d621200000000, 0x7350cbbd00000000, + 0x356bacd800000000}, + {0x0000000000000000, 0x9e83da9f00000000, 0x7d01c4e400000000, + 0xe3821e7b00000000, 0xbb04f91200000000, 0x2587238d00000000, + 0xc6053df600000000, 0x5886e76900000000, 0x7609f22500000000, + 0xe88a28ba00000000, 0x0b0836c100000000, 0x958bec5e00000000, + 0xcd0d0b3700000000, 0x538ed1a800000000, 0xb00ccfd300000000, + 0x2e8f154c00000000, 0xec12e44b00000000, 0x72913ed400000000, + 0x911320af00000000, 0x0f90fa3000000000, 0x57161d5900000000, + 0xc995c7c600000000, 0x2a17d9bd00000000, 0xb494032200000000, + 0x9a1b166e00000000, 0x0498ccf100000000, 0xe71ad28a00000000, + 0x7999081500000000, 0x211fef7c00000000, 0xbf9c35e300000000, + 0x5c1e2b9800000000, 0xc29df10700000000, 0xd825c89700000000, + 0x46a6120800000000, 0xa5240c7300000000, 0x3ba7d6ec00000000, + 0x6321318500000000, 0xfda2eb1a00000000, 0x1e20f56100000000, + 0x80a32ffe00000000, 0xae2c3ab200000000, 0x30afe02d00000000, + 0xd32dfe5600000000, 0x4dae24c900000000, 0x1528c3a000000000, + 0x8bab193f00000000, 0x6829074400000000, 0xf6aadddb00000000, + 0x34372cdc00000000, 0xaab4f64300000000, 0x4936e83800000000, + 0xd7b532a700000000, 0x8f33d5ce00000000, 0x11b00f5100000000, + 0xf232112a00000000, 0x6cb1cbb500000000, 0x423edef900000000, + 0xdcbd046600000000, 0x3f3f1a1d00000000, 0xa1bcc08200000000, + 0xf93a27eb00000000, 0x67b9fd7400000000, 0x843be30f00000000, + 0x1ab8399000000000, 0xf14de1f400000000, 0x6fce3b6b00000000, + 0x8c4c251000000000, 0x12cfff8f00000000, 0x4a4918e600000000, + 0xd4cac27900000000, 0x3748dc0200000000, 0xa9cb069d00000000, + 0x874413d100000000, 0x19c7c94e00000000, 0xfa45d73500000000, + 0x64c60daa00000000, 0x3c40eac300000000, 0xa2c3305c00000000, + 0x41412e2700000000, 0xdfc2f4b800000000, 0x1d5f05bf00000000, + 0x83dcdf2000000000, 0x605ec15b00000000, 0xfedd1bc400000000, + 0xa65bfcad00000000, 0x38d8263200000000, 0xdb5a384900000000, + 0x45d9e2d600000000, 0x6b56f79a00000000, 0xf5d52d0500000000, + 0x1657337e00000000, 0x88d4e9e100000000, 0xd0520e8800000000, + 0x4ed1d41700000000, 0xad53ca6c00000000, 0x33d010f300000000, + 0x2968296300000000, 0xb7ebf3fc00000000, 0x5469ed8700000000, + 0xcaea371800000000, 0x926cd07100000000, 0x0cef0aee00000000, + 0xef6d149500000000, 0x71eece0a00000000, 0x5f61db4600000000, + 0xc1e201d900000000, 0x22601fa200000000, 0xbce3c53d00000000, + 0xe465225400000000, 0x7ae6f8cb00000000, 0x9964e6b000000000, + 0x07e73c2f00000000, 0xc57acd2800000000, 0x5bf917b700000000, + 0xb87b09cc00000000, 0x26f8d35300000000, 0x7e7e343a00000000, + 0xe0fdeea500000000, 0x037ff0de00000000, 0x9dfc2a4100000000, + 0xb3733f0d00000000, 0x2df0e59200000000, 0xce72fbe900000000, + 0x50f1217600000000, 0x0877c61f00000000, 0x96f41c8000000000, + 0x757602fb00000000, 0xebf5d86400000000, 0xa39db33200000000, + 0x3d1e69ad00000000, 0xde9c77d600000000, 0x401fad4900000000, + 0x18994a2000000000, 0x861a90bf00000000, 0x65988ec400000000, + 0xfb1b545b00000000, 0xd594411700000000, 0x4b179b8800000000, + 0xa89585f300000000, 0x36165f6c00000000, 0x6e90b80500000000, + 0xf013629a00000000, 0x13917ce100000000, 0x8d12a67e00000000, + 0x4f8f577900000000, 0xd10c8de600000000, 0x328e939d00000000, + 0xac0d490200000000, 0xf48bae6b00000000, 0x6a0874f400000000, + 0x898a6a8f00000000, 0x1709b01000000000, 0x3986a55c00000000, + 0xa7057fc300000000, 0x448761b800000000, 0xda04bb2700000000, + 0x82825c4e00000000, 0x1c0186d100000000, 0xff8398aa00000000, + 0x6100423500000000, 0x7bb87ba500000000, 0xe53ba13a00000000, + 0x06b9bf4100000000, 0x983a65de00000000, 0xc0bc82b700000000, + 0x5e3f582800000000, 0xbdbd465300000000, 0x233e9ccc00000000, + 0x0db1898000000000, 0x9332531f00000000, 0x70b04d6400000000, + 0xee3397fb00000000, 0xb6b5709200000000, 0x2836aa0d00000000, + 0xcbb4b47600000000, 0x55376ee900000000, 0x97aa9fee00000000, + 0x0929457100000000, 0xeaab5b0a00000000, 0x7428819500000000, + 0x2cae66fc00000000, 0xb22dbc6300000000, 0x51afa21800000000, + 0xcf2c788700000000, 0xe1a36dcb00000000, 0x7f20b75400000000, + 0x9ca2a92f00000000, 0x022173b000000000, 0x5aa794d900000000, + 0xc4244e4600000000, 0x27a6503d00000000, 0xb9258aa200000000, + 0x52d052c600000000, 0xcc53885900000000, 0x2fd1962200000000, + 0xb1524cbd00000000, 0xe9d4abd400000000, 0x7757714b00000000, + 0x94d56f3000000000, 0x0a56b5af00000000, 0x24d9a0e300000000, + 0xba5a7a7c00000000, 0x59d8640700000000, 0xc75bbe9800000000, + 0x9fdd59f100000000, 0x015e836e00000000, 0xe2dc9d1500000000, + 0x7c5f478a00000000, 0xbec2b68d00000000, 0x20416c1200000000, + 0xc3c3726900000000, 0x5d40a8f600000000, 0x05c64f9f00000000, + 0x9b45950000000000, 0x78c78b7b00000000, 0xe64451e400000000, + 0xc8cb44a800000000, 0x56489e3700000000, 0xb5ca804c00000000, + 0x2b495ad300000000, 0x73cfbdba00000000, 0xed4c672500000000, + 0x0ece795e00000000, 0x904da3c100000000, 0x8af59a5100000000, + 0x147640ce00000000, 0xf7f45eb500000000, 0x6977842a00000000, + 0x31f1634300000000, 0xaf72b9dc00000000, 0x4cf0a7a700000000, + 0xd2737d3800000000, 0xfcfc687400000000, 0x627fb2eb00000000, + 0x81fdac9000000000, 0x1f7e760f00000000, 0x47f8916600000000, + 0xd97b4bf900000000, 0x3af9558200000000, 0xa47a8f1d00000000, + 0x66e77e1a00000000, 0xf864a48500000000, 0x1be6bafe00000000, + 0x8565606100000000, 0xdde3870800000000, 0x43605d9700000000, + 0xa0e243ec00000000, 0x3e61997300000000, 0x10ee8c3f00000000, + 0x8e6d56a000000000, 0x6def48db00000000, 0xf36c924400000000, + 0xabea752d00000000, 0x3569afb200000000, 0xd6ebb1c900000000, + 0x48686b5600000000}, + {0x0000000000000000, 0xc064281700000000, 0x80c9502e00000000, + 0x40ad783900000000, 0x0093a15c00000000, 0xc0f7894b00000000, + 0x805af17200000000, 0x403ed96500000000, 0x002643b900000000, + 0xc0426bae00000000, 0x80ef139700000000, 0x408b3b8000000000, + 0x00b5e2e500000000, 0xc0d1caf200000000, 0x807cb2cb00000000, + 0x40189adc00000000, 0x414af7a900000000, 0x812edfbe00000000, + 0xc183a78700000000, 0x01e78f9000000000, 0x41d956f500000000, + 0x81bd7ee200000000, 0xc11006db00000000, 0x01742ecc00000000, + 0x416cb41000000000, 0x81089c0700000000, 0xc1a5e43e00000000, + 0x01c1cc2900000000, 0x41ff154c00000000, 0x819b3d5b00000000, + 0xc136456200000000, 0x01526d7500000000, 0xc3929f8800000000, + 0x03f6b79f00000000, 0x435bcfa600000000, 0x833fe7b100000000, + 0xc3013ed400000000, 0x036516c300000000, 0x43c86efa00000000, + 0x83ac46ed00000000, 0xc3b4dc3100000000, 0x03d0f42600000000, + 0x437d8c1f00000000, 0x8319a40800000000, 0xc3277d6d00000000, + 0x0343557a00000000, 0x43ee2d4300000000, 0x838a055400000000, + 0x82d8682100000000, 0x42bc403600000000, 0x0211380f00000000, + 0xc275101800000000, 0x824bc97d00000000, 0x422fe16a00000000, + 0x0282995300000000, 0xc2e6b14400000000, 0x82fe2b9800000000, + 0x429a038f00000000, 0x02377bb600000000, 0xc25353a100000000, + 0x826d8ac400000000, 0x4209a2d300000000, 0x02a4daea00000000, + 0xc2c0f2fd00000000, 0xc7234eca00000000, 0x074766dd00000000, + 0x47ea1ee400000000, 0x878e36f300000000, 0xc7b0ef9600000000, + 0x07d4c78100000000, 0x4779bfb800000000, 0x871d97af00000000, + 0xc7050d7300000000, 0x0761256400000000, 0x47cc5d5d00000000, + 0x87a8754a00000000, 0xc796ac2f00000000, 0x07f2843800000000, + 0x475ffc0100000000, 0x873bd41600000000, 0x8669b96300000000, + 0x460d917400000000, 0x06a0e94d00000000, 0xc6c4c15a00000000, + 0x86fa183f00000000, 0x469e302800000000, 0x0633481100000000, + 0xc657600600000000, 0x864ffada00000000, 0x462bd2cd00000000, + 0x0686aaf400000000, 0xc6e282e300000000, 0x86dc5b8600000000, + 0x46b8739100000000, 0x06150ba800000000, 0xc67123bf00000000, + 0x04b1d14200000000, 0xc4d5f95500000000, 0x8478816c00000000, + 0x441ca97b00000000, 0x0422701e00000000, 0xc446580900000000, + 0x84eb203000000000, 0x448f082700000000, 0x049792fb00000000, + 0xc4f3baec00000000, 0x845ec2d500000000, 0x443aeac200000000, + 0x040433a700000000, 0xc4601bb000000000, 0x84cd638900000000, + 0x44a94b9e00000000, 0x45fb26eb00000000, 0x859f0efc00000000, + 0xc53276c500000000, 0x05565ed200000000, 0x456887b700000000, + 0x850cafa000000000, 0xc5a1d79900000000, 0x05c5ff8e00000000, + 0x45dd655200000000, 0x85b94d4500000000, 0xc514357c00000000, + 0x05701d6b00000000, 0x454ec40e00000000, 0x852aec1900000000, + 0xc587942000000000, 0x05e3bc3700000000, 0xcf41ed4f00000000, + 0x0f25c55800000000, 0x4f88bd6100000000, 0x8fec957600000000, + 0xcfd24c1300000000, 0x0fb6640400000000, 0x4f1b1c3d00000000, + 0x8f7f342a00000000, 0xcf67aef600000000, 0x0f0386e100000000, + 0x4faefed800000000, 0x8fcad6cf00000000, 0xcff40faa00000000, + 0x0f9027bd00000000, 0x4f3d5f8400000000, 0x8f59779300000000, + 0x8e0b1ae600000000, 0x4e6f32f100000000, 0x0ec24ac800000000, + 0xcea662df00000000, 0x8e98bbba00000000, 0x4efc93ad00000000, + 0x0e51eb9400000000, 0xce35c38300000000, 0x8e2d595f00000000, + 0x4e49714800000000, 0x0ee4097100000000, 0xce80216600000000, + 0x8ebef80300000000, 0x4edad01400000000, 0x0e77a82d00000000, + 0xce13803a00000000, 0x0cd372c700000000, 0xccb75ad000000000, + 0x8c1a22e900000000, 0x4c7e0afe00000000, 0x0c40d39b00000000, + 0xcc24fb8c00000000, 0x8c8983b500000000, 0x4cedaba200000000, + 0x0cf5317e00000000, 0xcc91196900000000, 0x8c3c615000000000, + 0x4c58494700000000, 0x0c66902200000000, 0xcc02b83500000000, + 0x8cafc00c00000000, 0x4ccbe81b00000000, 0x4d99856e00000000, + 0x8dfdad7900000000, 0xcd50d54000000000, 0x0d34fd5700000000, + 0x4d0a243200000000, 0x8d6e0c2500000000, 0xcdc3741c00000000, + 0x0da75c0b00000000, 0x4dbfc6d700000000, 0x8ddbeec000000000, + 0xcd7696f900000000, 0x0d12beee00000000, 0x4d2c678b00000000, + 0x8d484f9c00000000, 0xcde537a500000000, 0x0d811fb200000000, + 0x0862a38500000000, 0xc8068b9200000000, 0x88abf3ab00000000, + 0x48cfdbbc00000000, 0x08f102d900000000, 0xc8952ace00000000, + 0x883852f700000000, 0x485c7ae000000000, 0x0844e03c00000000, + 0xc820c82b00000000, 0x888db01200000000, 0x48e9980500000000, + 0x08d7416000000000, 0xc8b3697700000000, 0x881e114e00000000, + 0x487a395900000000, 0x4928542c00000000, 0x894c7c3b00000000, + 0xc9e1040200000000, 0x09852c1500000000, 0x49bbf57000000000, + 0x89dfdd6700000000, 0xc972a55e00000000, 0x09168d4900000000, + 0x490e179500000000, 0x896a3f8200000000, 0xc9c747bb00000000, + 0x09a36fac00000000, 0x499db6c900000000, 0x89f99ede00000000, + 0xc954e6e700000000, 0x0930cef000000000, 0xcbf03c0d00000000, + 0x0b94141a00000000, 0x4b396c2300000000, 0x8b5d443400000000, + 0xcb639d5100000000, 0x0b07b54600000000, 0x4baacd7f00000000, + 0x8bcee56800000000, 0xcbd67fb400000000, 0x0bb257a300000000, + 0x4b1f2f9a00000000, 0x8b7b078d00000000, 0xcb45dee800000000, + 0x0b21f6ff00000000, 0x4b8c8ec600000000, 0x8be8a6d100000000, + 0x8abacba400000000, 0x4adee3b300000000, 0x0a739b8a00000000, + 0xca17b39d00000000, 0x8a296af800000000, 0x4a4d42ef00000000, + 0x0ae03ad600000000, 0xca8412c100000000, 0x8a9c881d00000000, + 0x4af8a00a00000000, 0x0a55d83300000000, 0xca31f02400000000, + 0x8a0f294100000000, 0x4a6b015600000000, 0x0ac6796f00000000, + 0xcaa2517800000000}, + {0x0000000000000000, 0xd4ea739b00000000, 0xe9d396ed00000000, + 0x3d39e57600000000, 0x93a15c0000000000, 0x474b2f9b00000000, + 0x7a72caed00000000, 0xae98b97600000000, 0x2643b90000000000, + 0xf2a9ca9b00000000, 0xcf902fed00000000, 0x1b7a5c7600000000, + 0xb5e2e50000000000, 0x6108969b00000000, 0x5c3173ed00000000, + 0x88db007600000000, 0x4c86720100000000, 0x986c019a00000000, + 0xa555e4ec00000000, 0x71bf977700000000, 0xdf272e0100000000, + 0x0bcd5d9a00000000, 0x36f4b8ec00000000, 0xe21ecb7700000000, + 0x6ac5cb0100000000, 0xbe2fb89a00000000, 0x83165dec00000000, + 0x57fc2e7700000000, 0xf964970100000000, 0x2d8ee49a00000000, + 0x10b701ec00000000, 0xc45d727700000000, 0x980ce50200000000, + 0x4ce6969900000000, 0x71df73ef00000000, 0xa535007400000000, + 0x0badb90200000000, 0xdf47ca9900000000, 0xe27e2fef00000000, + 0x36945c7400000000, 0xbe4f5c0200000000, 0x6aa52f9900000000, + 0x579ccaef00000000, 0x8376b97400000000, 0x2dee000200000000, + 0xf904739900000000, 0xc43d96ef00000000, 0x10d7e57400000000, + 0xd48a970300000000, 0x0060e49800000000, 0x3d5901ee00000000, + 0xe9b3727500000000, 0x472bcb0300000000, 0x93c1b89800000000, + 0xaef85dee00000000, 0x7a122e7500000000, 0xf2c92e0300000000, + 0x26235d9800000000, 0x1b1ab8ee00000000, 0xcff0cb7500000000, + 0x6168720300000000, 0xb582019800000000, 0x88bbe4ee00000000, + 0x5c51977500000000, 0x3019ca0500000000, 0xe4f3b99e00000000, + 0xd9ca5ce800000000, 0x0d202f7300000000, 0xa3b8960500000000, + 0x7752e59e00000000, 0x4a6b00e800000000, 0x9e81737300000000, + 0x165a730500000000, 0xc2b0009e00000000, 0xff89e5e800000000, + 0x2b63967300000000, 0x85fb2f0500000000, 0x51115c9e00000000, + 0x6c28b9e800000000, 0xb8c2ca7300000000, 0x7c9fb80400000000, + 0xa875cb9f00000000, 0x954c2ee900000000, 0x41a65d7200000000, + 0xef3ee40400000000, 0x3bd4979f00000000, 0x06ed72e900000000, + 0xd207017200000000, 0x5adc010400000000, 0x8e36729f00000000, + 0xb30f97e900000000, 0x67e5e47200000000, 0xc97d5d0400000000, + 0x1d972e9f00000000, 0x20aecbe900000000, 0xf444b87200000000, + 0xa8152f0700000000, 0x7cff5c9c00000000, 0x41c6b9ea00000000, + 0x952cca7100000000, 0x3bb4730700000000, 0xef5e009c00000000, + 0xd267e5ea00000000, 0x068d967100000000, 0x8e56960700000000, + 0x5abce59c00000000, 0x678500ea00000000, 0xb36f737100000000, + 0x1df7ca0700000000, 0xc91db99c00000000, 0xf4245cea00000000, + 0x20ce2f7100000000, 0xe4935d0600000000, 0x30792e9d00000000, + 0x0d40cbeb00000000, 0xd9aab87000000000, 0x7732010600000000, + 0xa3d8729d00000000, 0x9ee197eb00000000, 0x4a0be47000000000, + 0xc2d0e40600000000, 0x163a979d00000000, 0x2b0372eb00000000, + 0xffe9017000000000, 0x5171b80600000000, 0x859bcb9d00000000, + 0xb8a22eeb00000000, 0x6c485d7000000000, 0x6032940b00000000, + 0xb4d8e79000000000, 0x89e102e600000000, 0x5d0b717d00000000, + 0xf393c80b00000000, 0x2779bb9000000000, 0x1a405ee600000000, + 0xceaa2d7d00000000, 0x46712d0b00000000, 0x929b5e9000000000, + 0xafa2bbe600000000, 0x7b48c87d00000000, 0xd5d0710b00000000, + 0x013a029000000000, 0x3c03e7e600000000, 0xe8e9947d00000000, + 0x2cb4e60a00000000, 0xf85e959100000000, 0xc56770e700000000, + 0x118d037c00000000, 0xbf15ba0a00000000, 0x6bffc99100000000, + 0x56c62ce700000000, 0x822c5f7c00000000, 0x0af75f0a00000000, + 0xde1d2c9100000000, 0xe324c9e700000000, 0x37ceba7c00000000, + 0x9956030a00000000, 0x4dbc709100000000, 0x708595e700000000, + 0xa46fe67c00000000, 0xf83e710900000000, 0x2cd4029200000000, + 0x11ede7e400000000, 0xc507947f00000000, 0x6b9f2d0900000000, + 0xbf755e9200000000, 0x824cbbe400000000, 0x56a6c87f00000000, + 0xde7dc80900000000, 0x0a97bb9200000000, 0x37ae5ee400000000, + 0xe3442d7f00000000, 0x4ddc940900000000, 0x9936e79200000000, + 0xa40f02e400000000, 0x70e5717f00000000, 0xb4b8030800000000, + 0x6052709300000000, 0x5d6b95e500000000, 0x8981e67e00000000, + 0x27195f0800000000, 0xf3f32c9300000000, 0xcecac9e500000000, + 0x1a20ba7e00000000, 0x92fbba0800000000, 0x4611c99300000000, + 0x7b282ce500000000, 0xafc25f7e00000000, 0x015ae60800000000, + 0xd5b0959300000000, 0xe88970e500000000, 0x3c63037e00000000, + 0x502b5e0e00000000, 0x84c12d9500000000, 0xb9f8c8e300000000, + 0x6d12bb7800000000, 0xc38a020e00000000, 0x1760719500000000, + 0x2a5994e300000000, 0xfeb3e77800000000, 0x7668e70e00000000, + 0xa282949500000000, 0x9fbb71e300000000, 0x4b51027800000000, + 0xe5c9bb0e00000000, 0x3123c89500000000, 0x0c1a2de300000000, + 0xd8f05e7800000000, 0x1cad2c0f00000000, 0xc8475f9400000000, + 0xf57ebae200000000, 0x2194c97900000000, 0x8f0c700f00000000, + 0x5be6039400000000, 0x66dfe6e200000000, 0xb235957900000000, + 0x3aee950f00000000, 0xee04e69400000000, 0xd33d03e200000000, + 0x07d7707900000000, 0xa94fc90f00000000, 0x7da5ba9400000000, + 0x409c5fe200000000, 0x94762c7900000000, 0xc827bb0c00000000, + 0x1ccdc89700000000, 0x21f42de100000000, 0xf51e5e7a00000000, + 0x5b86e70c00000000, 0x8f6c949700000000, 0xb25571e100000000, + 0x66bf027a00000000, 0xee64020c00000000, 0x3a8e719700000000, + 0x07b794e100000000, 0xd35de77a00000000, 0x7dc55e0c00000000, + 0xa92f2d9700000000, 0x9416c8e100000000, 0x40fcbb7a00000000, + 0x84a1c90d00000000, 0x504bba9600000000, 0x6d725fe000000000, + 0xb9982c7b00000000, 0x1700950d00000000, 0xc3eae69600000000, + 0xfed303e000000000, 0x2a39707b00000000, 0xa2e2700d00000000, + 0x7608039600000000, 0x4b31e6e000000000, 0x9fdb957b00000000, + 0x31432c0d00000000, 0xe5a95f9600000000, 0xd890bae000000000, + 0x0c7ac97b00000000}, + {0x0000000000000000, 0x2765258100000000, 0x0fcc3bd900000000, + 0x28a91e5800000000, 0x5f9e066900000000, 0x78fb23e800000000, + 0x50523db000000000, 0x7737183100000000, 0xbe3c0dd200000000, + 0x9959285300000000, 0xb1f0360b00000000, 0x9695138a00000000, + 0xe1a20bbb00000000, 0xc6c72e3a00000000, 0xee6e306200000000, + 0xc90b15e300000000, 0x3d7f6b7f00000000, 0x1a1a4efe00000000, + 0x32b350a600000000, 0x15d6752700000000, 0x62e16d1600000000, + 0x4584489700000000, 0x6d2d56cf00000000, 0x4a48734e00000000, + 0x834366ad00000000, 0xa426432c00000000, 0x8c8f5d7400000000, + 0xabea78f500000000, 0xdcdd60c400000000, 0xfbb8454500000000, + 0xd3115b1d00000000, 0xf4747e9c00000000, 0x7afed6fe00000000, + 0x5d9bf37f00000000, 0x7532ed2700000000, 0x5257c8a600000000, + 0x2560d09700000000, 0x0205f51600000000, 0x2aaceb4e00000000, + 0x0dc9cecf00000000, 0xc4c2db2c00000000, 0xe3a7fead00000000, + 0xcb0ee0f500000000, 0xec6bc57400000000, 0x9b5cdd4500000000, + 0xbc39f8c400000000, 0x9490e69c00000000, 0xb3f5c31d00000000, + 0x4781bd8100000000, 0x60e4980000000000, 0x484d865800000000, + 0x6f28a3d900000000, 0x181fbbe800000000, 0x3f7a9e6900000000, + 0x17d3803100000000, 0x30b6a5b000000000, 0xf9bdb05300000000, + 0xded895d200000000, 0xf6718b8a00000000, 0xd114ae0b00000000, + 0xa623b63a00000000, 0x814693bb00000000, 0xa9ef8de300000000, + 0x8e8aa86200000000, 0xb5fadc2600000000, 0x929ff9a700000000, + 0xba36e7ff00000000, 0x9d53c27e00000000, 0xea64da4f00000000, + 0xcd01ffce00000000, 0xe5a8e19600000000, 0xc2cdc41700000000, + 0x0bc6d1f400000000, 0x2ca3f47500000000, 0x040aea2d00000000, + 0x236fcfac00000000, 0x5458d79d00000000, 0x733df21c00000000, + 0x5b94ec4400000000, 0x7cf1c9c500000000, 0x8885b75900000000, + 0xafe092d800000000, 0x87498c8000000000, 0xa02ca90100000000, + 0xd71bb13000000000, 0xf07e94b100000000, 0xd8d78ae900000000, + 0xffb2af6800000000, 0x36b9ba8b00000000, 0x11dc9f0a00000000, + 0x3975815200000000, 0x1e10a4d300000000, 0x6927bce200000000, + 0x4e42996300000000, 0x66eb873b00000000, 0x418ea2ba00000000, + 0xcf040ad800000000, 0xe8612f5900000000, 0xc0c8310100000000, + 0xe7ad148000000000, 0x909a0cb100000000, 0xb7ff293000000000, + 0x9f56376800000000, 0xb83312e900000000, 0x7138070a00000000, + 0x565d228b00000000, 0x7ef43cd300000000, 0x5991195200000000, + 0x2ea6016300000000, 0x09c324e200000000, 0x216a3aba00000000, + 0x060f1f3b00000000, 0xf27b61a700000000, 0xd51e442600000000, + 0xfdb75a7e00000000, 0xdad27fff00000000, 0xade567ce00000000, + 0x8a80424f00000000, 0xa2295c1700000000, 0x854c799600000000, + 0x4c476c7500000000, 0x6b2249f400000000, 0x438b57ac00000000, + 0x64ee722d00000000, 0x13d96a1c00000000, 0x34bc4f9d00000000, + 0x1c1551c500000000, 0x3b70744400000000, 0x6af5b94d00000000, + 0x4d909ccc00000000, 0x6539829400000000, 0x425ca71500000000, + 0x356bbf2400000000, 0x120e9aa500000000, 0x3aa784fd00000000, + 0x1dc2a17c00000000, 0xd4c9b49f00000000, 0xf3ac911e00000000, + 0xdb058f4600000000, 0xfc60aac700000000, 0x8b57b2f600000000, + 0xac32977700000000, 0x849b892f00000000, 0xa3feacae00000000, + 0x578ad23200000000, 0x70eff7b300000000, 0x5846e9eb00000000, + 0x7f23cc6a00000000, 0x0814d45b00000000, 0x2f71f1da00000000, + 0x07d8ef8200000000, 0x20bdca0300000000, 0xe9b6dfe000000000, + 0xced3fa6100000000, 0xe67ae43900000000, 0xc11fc1b800000000, + 0xb628d98900000000, 0x914dfc0800000000, 0xb9e4e25000000000, + 0x9e81c7d100000000, 0x100b6fb300000000, 0x376e4a3200000000, + 0x1fc7546a00000000, 0x38a271eb00000000, 0x4f9569da00000000, + 0x68f04c5b00000000, 0x4059520300000000, 0x673c778200000000, + 0xae37626100000000, 0x895247e000000000, 0xa1fb59b800000000, + 0x869e7c3900000000, 0xf1a9640800000000, 0xd6cc418900000000, + 0xfe655fd100000000, 0xd9007a5000000000, 0x2d7404cc00000000, + 0x0a11214d00000000, 0x22b83f1500000000, 0x05dd1a9400000000, + 0x72ea02a500000000, 0x558f272400000000, 0x7d26397c00000000, + 0x5a431cfd00000000, 0x9348091e00000000, 0xb42d2c9f00000000, + 0x9c8432c700000000, 0xbbe1174600000000, 0xccd60f7700000000, + 0xebb32af600000000, 0xc31a34ae00000000, 0xe47f112f00000000, + 0xdf0f656b00000000, 0xf86a40ea00000000, 0xd0c35eb200000000, + 0xf7a67b3300000000, 0x8091630200000000, 0xa7f4468300000000, + 0x8f5d58db00000000, 0xa8387d5a00000000, 0x613368b900000000, + 0x46564d3800000000, 0x6eff536000000000, 0x499a76e100000000, + 0x3ead6ed000000000, 0x19c84b5100000000, 0x3161550900000000, + 0x1604708800000000, 0xe2700e1400000000, 0xc5152b9500000000, + 0xedbc35cd00000000, 0xcad9104c00000000, 0xbdee087d00000000, + 0x9a8b2dfc00000000, 0xb22233a400000000, 0x9547162500000000, + 0x5c4c03c600000000, 0x7b29264700000000, 0x5380381f00000000, + 0x74e51d9e00000000, 0x03d205af00000000, 0x24b7202e00000000, + 0x0c1e3e7600000000, 0x2b7b1bf700000000, 0xa5f1b39500000000, + 0x8294961400000000, 0xaa3d884c00000000, 0x8d58adcd00000000, + 0xfa6fb5fc00000000, 0xdd0a907d00000000, 0xf5a38e2500000000, + 0xd2c6aba400000000, 0x1bcdbe4700000000, 0x3ca89bc600000000, + 0x1401859e00000000, 0x3364a01f00000000, 0x4453b82e00000000, + 0x63369daf00000000, 0x4b9f83f700000000, 0x6cfaa67600000000, + 0x988ed8ea00000000, 0xbfebfd6b00000000, 0x9742e33300000000, + 0xb027c6b200000000, 0xc710de8300000000, 0xe075fb0200000000, + 0xc8dce55a00000000, 0xefb9c0db00000000, 0x26b2d53800000000, + 0x01d7f0b900000000, 0x297eeee100000000, 0x0e1bcb6000000000, + 0x792cd35100000000, 0x5e49f6d000000000, 0x76e0e88800000000, + 0x5185cd0900000000}}; + +#else /* W == 4 */ + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0x9ba54c6f, 0xec3b9e9f, 0x779ed2f0, 0x03063b7f, + 0x98a37710, 0xef3da5e0, 0x7498e98f, 0x060c76fe, 0x9da93a91, + 0xea37e861, 0x7192a40e, 0x050a4d81, 0x9eaf01ee, 0xe931d31e, + 0x72949f71, 0x0c18edfc, 0x97bda193, 0xe0237363, 0x7b863f0c, + 0x0f1ed683, 0x94bb9aec, 0xe325481c, 0x78800473, 0x0a149b02, + 0x91b1d76d, 0xe62f059d, 0x7d8a49f2, 0x0912a07d, 0x92b7ec12, + 0xe5293ee2, 0x7e8c728d, 0x1831dbf8, 0x83949797, 0xf40a4567, + 0x6faf0908, 0x1b37e087, 0x8092ace8, 0xf70c7e18, 0x6ca93277, + 0x1e3dad06, 0x8598e169, 0xf2063399, 0x69a37ff6, 0x1d3b9679, + 0x869eda16, 0xf10008e6, 0x6aa54489, 0x14293604, 0x8f8c7a6b, + 0xf812a89b, 0x63b7e4f4, 0x172f0d7b, 0x8c8a4114, 0xfb1493e4, + 0x60b1df8b, 0x122540fa, 0x89800c95, 0xfe1ede65, 0x65bb920a, + 0x11237b85, 0x8a8637ea, 0xfd18e51a, 0x66bda975, 0x3063b7f0, + 0xabc6fb9f, 0xdc58296f, 0x47fd6500, 0x33658c8f, 0xa8c0c0e0, + 0xdf5e1210, 0x44fb5e7f, 0x366fc10e, 0xadca8d61, 0xda545f91, + 0x41f113fe, 0x3569fa71, 0xaeccb61e, 0xd95264ee, 0x42f72881, + 0x3c7b5a0c, 0xa7de1663, 0xd040c493, 0x4be588fc, 0x3f7d6173, + 0xa4d82d1c, 0xd346ffec, 0x48e3b383, 0x3a772cf2, 0xa1d2609d, + 0xd64cb26d, 0x4de9fe02, 0x3971178d, 0xa2d45be2, 0xd54a8912, + 0x4eefc57d, 0x28526c08, 0xb3f72067, 0xc469f297, 0x5fccbef8, + 0x2b545777, 0xb0f11b18, 0xc76fc9e8, 0x5cca8587, 0x2e5e1af6, + 0xb5fb5699, 0xc2658469, 0x59c0c806, 0x2d582189, 0xb6fd6de6, + 0xc163bf16, 0x5ac6f379, 0x244a81f4, 0xbfefcd9b, 0xc8711f6b, + 0x53d45304, 0x274cba8b, 0xbce9f6e4, 0xcb772414, 0x50d2687b, + 0x2246f70a, 0xb9e3bb65, 0xce7d6995, 0x55d825fa, 0x2140cc75, + 0xbae5801a, 0xcd7b52ea, 0x56de1e85, 0x60c76fe0, 0xfb62238f, + 0x8cfcf17f, 0x1759bd10, 0x63c1549f, 0xf86418f0, 0x8ffaca00, + 0x145f866f, 0x66cb191e, 0xfd6e5571, 0x8af08781, 0x1155cbee, + 0x65cd2261, 0xfe686e0e, 0x89f6bcfe, 0x1253f091, 0x6cdf821c, + 0xf77ace73, 0x80e41c83, 0x1b4150ec, 0x6fd9b963, 0xf47cf50c, + 0x83e227fc, 0x18476b93, 0x6ad3f4e2, 0xf176b88d, 0x86e86a7d, + 0x1d4d2612, 0x69d5cf9d, 0xf27083f2, 0x85ee5102, 0x1e4b1d6d, + 0x78f6b418, 0xe353f877, 0x94cd2a87, 0x0f6866e8, 0x7bf08f67, + 0xe055c308, 0x97cb11f8, 0x0c6e5d97, 0x7efac2e6, 0xe55f8e89, + 0x92c15c79, 0x09641016, 0x7dfcf999, 0xe659b5f6, 0x91c76706, + 0x0a622b69, 0x74ee59e4, 0xef4b158b, 0x98d5c77b, 0x03708b14, + 0x77e8629b, 0xec4d2ef4, 0x9bd3fc04, 0x0076b06b, 0x72e22f1a, + 0xe9476375, 0x9ed9b185, 0x057cfdea, 0x71e41465, 0xea41580a, + 0x9ddf8afa, 0x067ac695, 0x50a4d810, 0xcb01947f, 0xbc9f468f, + 0x273a0ae0, 0x53a2e36f, 0xc807af00, 0xbf997df0, 0x243c319f, + 0x56a8aeee, 0xcd0de281, 0xba933071, 0x21367c1e, 0x55ae9591, + 0xce0bd9fe, 0xb9950b0e, 0x22304761, 0x5cbc35ec, 0xc7197983, + 0xb087ab73, 0x2b22e71c, 0x5fba0e93, 0xc41f42fc, 0xb381900c, + 0x2824dc63, 0x5ab04312, 0xc1150f7d, 0xb68bdd8d, 0x2d2e91e2, + 0x59b6786d, 0xc2133402, 0xb58de6f2, 0x2e28aa9d, 0x489503e8, + 0xd3304f87, 0xa4ae9d77, 0x3f0bd118, 0x4b933897, 0xd03674f8, + 0xa7a8a608, 0x3c0dea67, 0x4e997516, 0xd53c3979, 0xa2a2eb89, + 0x3907a7e6, 0x4d9f4e69, 0xd63a0206, 0xa1a4d0f6, 0x3a019c99, + 0x448dee14, 0xdf28a27b, 0xa8b6708b, 0x33133ce4, 0x478bd56b, + 0xdc2e9904, 0xabb04bf4, 0x3015079b, 0x428198ea, 0xd924d485, + 0xaeba0675, 0x351f4a1a, 0x4187a395, 0xda22effa, 0xadbc3d0a, + 0x36197165}, + {0x00000000, 0xc18edfc0, 0x586cb9c1, 0x99e26601, 0xb0d97382, + 0x7157ac42, 0xe8b5ca43, 0x293b1583, 0xbac3e145, 0x7b4d3e85, + 0xe2af5884, 0x23218744, 0x0a1a92c7, 0xcb944d07, 0x52762b06, + 0x93f8f4c6, 0xaef6c4cb, 0x6f781b0b, 0xf69a7d0a, 0x3714a2ca, + 0x1e2fb749, 0xdfa16889, 0x46430e88, 0x87cdd148, 0x1435258e, + 0xd5bbfa4e, 0x4c599c4f, 0x8dd7438f, 0xa4ec560c, 0x656289cc, + 0xfc80efcd, 0x3d0e300d, 0x869c8fd7, 0x47125017, 0xdef03616, + 0x1f7ee9d6, 0x3645fc55, 0xf7cb2395, 0x6e294594, 0xafa79a54, + 0x3c5f6e92, 0xfdd1b152, 0x6433d753, 0xa5bd0893, 0x8c861d10, + 0x4d08c2d0, 0xd4eaa4d1, 0x15647b11, 0x286a4b1c, 0xe9e494dc, + 0x7006f2dd, 0xb1882d1d, 0x98b3389e, 0x593de75e, 0xc0df815f, + 0x01515e9f, 0x92a9aa59, 0x53277599, 0xcac51398, 0x0b4bcc58, + 0x2270d9db, 0xe3fe061b, 0x7a1c601a, 0xbb92bfda, 0xd64819ef, + 0x17c6c62f, 0x8e24a02e, 0x4faa7fee, 0x66916a6d, 0xa71fb5ad, + 0x3efdd3ac, 0xff730c6c, 0x6c8bf8aa, 0xad05276a, 0x34e7416b, + 0xf5699eab, 0xdc528b28, 0x1ddc54e8, 0x843e32e9, 0x45b0ed29, + 0x78bedd24, 0xb93002e4, 0x20d264e5, 0xe15cbb25, 0xc867aea6, + 0x09e97166, 0x900b1767, 0x5185c8a7, 0xc27d3c61, 0x03f3e3a1, + 0x9a1185a0, 0x5b9f5a60, 0x72a44fe3, 0xb32a9023, 0x2ac8f622, + 0xeb4629e2, 0x50d49638, 0x915a49f8, 0x08b82ff9, 0xc936f039, + 0xe00de5ba, 0x21833a7a, 0xb8615c7b, 0x79ef83bb, 0xea17777d, + 0x2b99a8bd, 0xb27bcebc, 0x73f5117c, 0x5ace04ff, 0x9b40db3f, + 0x02a2bd3e, 0xc32c62fe, 0xfe2252f3, 0x3fac8d33, 0xa64eeb32, + 0x67c034f2, 0x4efb2171, 0x8f75feb1, 0x169798b0, 0xd7194770, + 0x44e1b3b6, 0x856f6c76, 0x1c8d0a77, 0xdd03d5b7, 0xf438c034, + 0x35b61ff4, 0xac5479f5, 0x6ddaa635, 0x77e1359f, 0xb66fea5f, + 0x2f8d8c5e, 0xee03539e, 0xc738461d, 0x06b699dd, 0x9f54ffdc, + 0x5eda201c, 0xcd22d4da, 0x0cac0b1a, 0x954e6d1b, 0x54c0b2db, + 0x7dfba758, 0xbc757898, 0x25971e99, 0xe419c159, 0xd917f154, + 0x18992e94, 0x817b4895, 0x40f59755, 0x69ce82d6, 0xa8405d16, + 0x31a23b17, 0xf02ce4d7, 0x63d41011, 0xa25acfd1, 0x3bb8a9d0, + 0xfa367610, 0xd30d6393, 0x1283bc53, 0x8b61da52, 0x4aef0592, + 0xf17dba48, 0x30f36588, 0xa9110389, 0x689fdc49, 0x41a4c9ca, + 0x802a160a, 0x19c8700b, 0xd846afcb, 0x4bbe5b0d, 0x8a3084cd, + 0x13d2e2cc, 0xd25c3d0c, 0xfb67288f, 0x3ae9f74f, 0xa30b914e, + 0x62854e8e, 0x5f8b7e83, 0x9e05a143, 0x07e7c742, 0xc6691882, + 0xef520d01, 0x2edcd2c1, 0xb73eb4c0, 0x76b06b00, 0xe5489fc6, + 0x24c64006, 0xbd242607, 0x7caaf9c7, 0x5591ec44, 0x941f3384, + 0x0dfd5585, 0xcc738a45, 0xa1a92c70, 0x6027f3b0, 0xf9c595b1, + 0x384b4a71, 0x11705ff2, 0xd0fe8032, 0x491ce633, 0x889239f3, + 0x1b6acd35, 0xdae412f5, 0x430674f4, 0x8288ab34, 0xabb3beb7, + 0x6a3d6177, 0xf3df0776, 0x3251d8b6, 0x0f5fe8bb, 0xced1377b, + 0x5733517a, 0x96bd8eba, 0xbf869b39, 0x7e0844f9, 0xe7ea22f8, + 0x2664fd38, 0xb59c09fe, 0x7412d63e, 0xedf0b03f, 0x2c7e6fff, + 0x05457a7c, 0xc4cba5bc, 0x5d29c3bd, 0x9ca71c7d, 0x2735a3a7, + 0xe6bb7c67, 0x7f591a66, 0xbed7c5a6, 0x97ecd025, 0x56620fe5, + 0xcf8069e4, 0x0e0eb624, 0x9df642e2, 0x5c789d22, 0xc59afb23, + 0x041424e3, 0x2d2f3160, 0xeca1eea0, 0x754388a1, 0xb4cd5761, + 0x89c3676c, 0x484db8ac, 0xd1afdead, 0x1021016d, 0x391a14ee, + 0xf894cb2e, 0x6176ad2f, 0xa0f872ef, 0x33008629, 0xf28e59e9, + 0x6b6c3fe8, 0xaae2e028, 0x83d9f5ab, 0x42572a6b, 0xdbb54c6a, + 0x1a3b93aa}, + {0x00000000, 0xefc26b3e, 0x04f5d03d, 0xeb37bb03, 0x09eba07a, + 0xe629cb44, 0x0d1e7047, 0xe2dc1b79, 0x13d740f4, 0xfc152bca, + 0x172290c9, 0xf8e0fbf7, 0x1a3ce08e, 0xf5fe8bb0, 0x1ec930b3, + 0xf10b5b8d, 0x27ae81e8, 0xc86cead6, 0x235b51d5, 0xcc993aeb, + 0x2e452192, 0xc1874aac, 0x2ab0f1af, 0xc5729a91, 0x3479c11c, + 0xdbbbaa22, 0x308c1121, 0xdf4e7a1f, 0x3d926166, 0xd2500a58, + 0x3967b15b, 0xd6a5da65, 0x4f5d03d0, 0xa09f68ee, 0x4ba8d3ed, + 0xa46ab8d3, 0x46b6a3aa, 0xa974c894, 0x42437397, 0xad8118a9, + 0x5c8a4324, 0xb348281a, 0x587f9319, 0xb7bdf827, 0x5561e35e, + 0xbaa38860, 0x51943363, 0xbe56585d, 0x68f38238, 0x8731e906, + 0x6c065205, 0x83c4393b, 0x61182242, 0x8eda497c, 0x65edf27f, + 0x8a2f9941, 0x7b24c2cc, 0x94e6a9f2, 0x7fd112f1, 0x901379cf, + 0x72cf62b6, 0x9d0d0988, 0x763ab28b, 0x99f8d9b5, 0x9eba07a0, + 0x71786c9e, 0x9a4fd79d, 0x758dbca3, 0x9751a7da, 0x7893cce4, + 0x93a477e7, 0x7c661cd9, 0x8d6d4754, 0x62af2c6a, 0x89989769, + 0x665afc57, 0x8486e72e, 0x6b448c10, 0x80733713, 0x6fb15c2d, + 0xb9148648, 0x56d6ed76, 0xbde15675, 0x52233d4b, 0xb0ff2632, + 0x5f3d4d0c, 0xb40af60f, 0x5bc89d31, 0xaac3c6bc, 0x4501ad82, + 0xae361681, 0x41f47dbf, 0xa32866c6, 0x4cea0df8, 0xa7ddb6fb, + 0x481fddc5, 0xd1e70470, 0x3e256f4e, 0xd512d44d, 0x3ad0bf73, + 0xd80ca40a, 0x37cecf34, 0xdcf97437, 0x333b1f09, 0xc2304484, + 0x2df22fba, 0xc6c594b9, 0x2907ff87, 0xcbdbe4fe, 0x24198fc0, + 0xcf2e34c3, 0x20ec5ffd, 0xf6498598, 0x198beea6, 0xf2bc55a5, + 0x1d7e3e9b, 0xffa225e2, 0x10604edc, 0xfb57f5df, 0x14959ee1, + 0xe59ec56c, 0x0a5cae52, 0xe16b1551, 0x0ea97e6f, 0xec756516, + 0x03b70e28, 0xe880b52b, 0x0742de15, 0xe6050901, 0x09c7623f, + 0xe2f0d93c, 0x0d32b202, 0xefeea97b, 0x002cc245, 0xeb1b7946, + 0x04d91278, 0xf5d249f5, 0x1a1022cb, 0xf12799c8, 0x1ee5f2f6, + 0xfc39e98f, 0x13fb82b1, 0xf8cc39b2, 0x170e528c, 0xc1ab88e9, + 0x2e69e3d7, 0xc55e58d4, 0x2a9c33ea, 0xc8402893, 0x278243ad, + 0xccb5f8ae, 0x23779390, 0xd27cc81d, 0x3dbea323, 0xd6891820, + 0x394b731e, 0xdb976867, 0x34550359, 0xdf62b85a, 0x30a0d364, + 0xa9580ad1, 0x469a61ef, 0xadaddaec, 0x426fb1d2, 0xa0b3aaab, + 0x4f71c195, 0xa4467a96, 0x4b8411a8, 0xba8f4a25, 0x554d211b, + 0xbe7a9a18, 0x51b8f126, 0xb364ea5f, 0x5ca68161, 0xb7913a62, + 0x5853515c, 0x8ef68b39, 0x6134e007, 0x8a035b04, 0x65c1303a, + 0x871d2b43, 0x68df407d, 0x83e8fb7e, 0x6c2a9040, 0x9d21cbcd, + 0x72e3a0f3, 0x99d41bf0, 0x761670ce, 0x94ca6bb7, 0x7b080089, + 0x903fbb8a, 0x7ffdd0b4, 0x78bf0ea1, 0x977d659f, 0x7c4ade9c, + 0x9388b5a2, 0x7154aedb, 0x9e96c5e5, 0x75a17ee6, 0x9a6315d8, + 0x6b684e55, 0x84aa256b, 0x6f9d9e68, 0x805ff556, 0x6283ee2f, + 0x8d418511, 0x66763e12, 0x89b4552c, 0x5f118f49, 0xb0d3e477, + 0x5be45f74, 0xb426344a, 0x56fa2f33, 0xb938440d, 0x520fff0e, + 0xbdcd9430, 0x4cc6cfbd, 0xa304a483, 0x48331f80, 0xa7f174be, + 0x452d6fc7, 0xaaef04f9, 0x41d8bffa, 0xae1ad4c4, 0x37e20d71, + 0xd820664f, 0x3317dd4c, 0xdcd5b672, 0x3e09ad0b, 0xd1cbc635, + 0x3afc7d36, 0xd53e1608, 0x24354d85, 0xcbf726bb, 0x20c09db8, + 0xcf02f686, 0x2ddeedff, 0xc21c86c1, 0x292b3dc2, 0xc6e956fc, + 0x104c8c99, 0xff8ee7a7, 0x14b95ca4, 0xfb7b379a, 0x19a72ce3, + 0xf66547dd, 0x1d52fcde, 0xf29097e0, 0x039bcc6d, 0xec59a753, + 0x076e1c50, 0xe8ac776e, 0x0a706c17, 0xe5b20729, 0x0e85bc2a, + 0xe147d714}, + {0x00000000, 0x177b1443, 0x2ef62886, 0x398d3cc5, 0x5dec510c, + 0x4a97454f, 0x731a798a, 0x64616dc9, 0xbbd8a218, 0xaca3b65b, + 0x952e8a9e, 0x82559edd, 0xe634f314, 0xf14fe757, 0xc8c2db92, + 0xdfb9cfd1, 0xacc04271, 0xbbbb5632, 0x82366af7, 0x954d7eb4, + 0xf12c137d, 0xe657073e, 0xdfda3bfb, 0xc8a12fb8, 0x1718e069, + 0x0063f42a, 0x39eec8ef, 0x2e95dcac, 0x4af4b165, 0x5d8fa526, + 0x640299e3, 0x73798da0, 0x82f182a3, 0x958a96e0, 0xac07aa25, + 0xbb7cbe66, 0xdf1dd3af, 0xc866c7ec, 0xf1ebfb29, 0xe690ef6a, + 0x392920bb, 0x2e5234f8, 0x17df083d, 0x00a41c7e, 0x64c571b7, + 0x73be65f4, 0x4a335931, 0x5d484d72, 0x2e31c0d2, 0x394ad491, + 0x00c7e854, 0x17bcfc17, 0x73dd91de, 0x64a6859d, 0x5d2bb958, + 0x4a50ad1b, 0x95e962ca, 0x82927689, 0xbb1f4a4c, 0xac645e0f, + 0xc80533c6, 0xdf7e2785, 0xe6f31b40, 0xf1880f03, 0xde920307, + 0xc9e91744, 0xf0642b81, 0xe71f3fc2, 0x837e520b, 0x94054648, + 0xad887a8d, 0xbaf36ece, 0x654aa11f, 0x7231b55c, 0x4bbc8999, + 0x5cc79dda, 0x38a6f013, 0x2fdde450, 0x1650d895, 0x012bccd6, + 0x72524176, 0x65295535, 0x5ca469f0, 0x4bdf7db3, 0x2fbe107a, + 0x38c50439, 0x014838fc, 0x16332cbf, 0xc98ae36e, 0xdef1f72d, + 0xe77ccbe8, 0xf007dfab, 0x9466b262, 0x831da621, 0xba909ae4, + 0xadeb8ea7, 0x5c6381a4, 0x4b1895e7, 0x7295a922, 0x65eebd61, + 0x018fd0a8, 0x16f4c4eb, 0x2f79f82e, 0x3802ec6d, 0xe7bb23bc, + 0xf0c037ff, 0xc94d0b3a, 0xde361f79, 0xba5772b0, 0xad2c66f3, + 0x94a15a36, 0x83da4e75, 0xf0a3c3d5, 0xe7d8d796, 0xde55eb53, + 0xc92eff10, 0xad4f92d9, 0xba34869a, 0x83b9ba5f, 0x94c2ae1c, + 0x4b7b61cd, 0x5c00758e, 0x658d494b, 0x72f65d08, 0x169730c1, + 0x01ec2482, 0x38611847, 0x2f1a0c04, 0x6655004f, 0x712e140c, + 0x48a328c9, 0x5fd83c8a, 0x3bb95143, 0x2cc24500, 0x154f79c5, + 0x02346d86, 0xdd8da257, 0xcaf6b614, 0xf37b8ad1, 0xe4009e92, + 0x8061f35b, 0x971ae718, 0xae97dbdd, 0xb9eccf9e, 0xca95423e, + 0xddee567d, 0xe4636ab8, 0xf3187efb, 0x97791332, 0x80020771, + 0xb98f3bb4, 0xaef42ff7, 0x714de026, 0x6636f465, 0x5fbbc8a0, + 0x48c0dce3, 0x2ca1b12a, 0x3bdaa569, 0x025799ac, 0x152c8def, + 0xe4a482ec, 0xf3df96af, 0xca52aa6a, 0xdd29be29, 0xb948d3e0, + 0xae33c7a3, 0x97befb66, 0x80c5ef25, 0x5f7c20f4, 0x480734b7, + 0x718a0872, 0x66f11c31, 0x029071f8, 0x15eb65bb, 0x2c66597e, + 0x3b1d4d3d, 0x4864c09d, 0x5f1fd4de, 0x6692e81b, 0x71e9fc58, + 0x15889191, 0x02f385d2, 0x3b7eb917, 0x2c05ad54, 0xf3bc6285, + 0xe4c776c6, 0xdd4a4a03, 0xca315e40, 0xae503389, 0xb92b27ca, + 0x80a61b0f, 0x97dd0f4c, 0xb8c70348, 0xafbc170b, 0x96312bce, + 0x814a3f8d, 0xe52b5244, 0xf2504607, 0xcbdd7ac2, 0xdca66e81, + 0x031fa150, 0x1464b513, 0x2de989d6, 0x3a929d95, 0x5ef3f05c, + 0x4988e41f, 0x7005d8da, 0x677ecc99, 0x14074139, 0x037c557a, + 0x3af169bf, 0x2d8a7dfc, 0x49eb1035, 0x5e900476, 0x671d38b3, + 0x70662cf0, 0xafdfe321, 0xb8a4f762, 0x8129cba7, 0x9652dfe4, + 0xf233b22d, 0xe548a66e, 0xdcc59aab, 0xcbbe8ee8, 0x3a3681eb, + 0x2d4d95a8, 0x14c0a96d, 0x03bbbd2e, 0x67dad0e7, 0x70a1c4a4, + 0x492cf861, 0x5e57ec22, 0x81ee23f3, 0x969537b0, 0xaf180b75, + 0xb8631f36, 0xdc0272ff, 0xcb7966bc, 0xf2f45a79, 0xe58f4e3a, + 0x96f6c39a, 0x818dd7d9, 0xb800eb1c, 0xaf7bff5f, 0xcb1a9296, + 0xdc6186d5, 0xe5ecba10, 0xf297ae53, 0x2d2e6182, 0x3a5575c1, + 0x03d84904, 0x14a35d47, 0x70c2308e, 0x67b924cd, 0x5e341808, + 0x494f0c4b}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x00000000, 0x43147b17, 0x8628f62e, 0xc53c8d39, 0x0c51ec5d, + 0x4f45974a, 0x8a791a73, 0xc96d6164, 0x18a2d8bb, 0x5bb6a3ac, + 0x9e8a2e95, 0xdd9e5582, 0x14f334e6, 0x57e74ff1, 0x92dbc2c8, + 0xd1cfb9df, 0x7142c0ac, 0x3256bbbb, 0xf76a3682, 0xb47e4d95, + 0x7d132cf1, 0x3e0757e6, 0xfb3bdadf, 0xb82fa1c8, 0x69e01817, + 0x2af46300, 0xefc8ee39, 0xacdc952e, 0x65b1f44a, 0x26a58f5d, + 0xe3990264, 0xa08d7973, 0xa382f182, 0xe0968a95, 0x25aa07ac, + 0x66be7cbb, 0xafd31ddf, 0xecc766c8, 0x29fbebf1, 0x6aef90e6, + 0xbb202939, 0xf834522e, 0x3d08df17, 0x7e1ca400, 0xb771c564, + 0xf465be73, 0x3159334a, 0x724d485d, 0xd2c0312e, 0x91d44a39, + 0x54e8c700, 0x17fcbc17, 0xde91dd73, 0x9d85a664, 0x58b92b5d, + 0x1bad504a, 0xca62e995, 0x89769282, 0x4c4a1fbb, 0x0f5e64ac, + 0xc63305c8, 0x85277edf, 0x401bf3e6, 0x030f88f1, 0x070392de, + 0x4417e9c9, 0x812b64f0, 0xc23f1fe7, 0x0b527e83, 0x48460594, + 0x8d7a88ad, 0xce6ef3ba, 0x1fa14a65, 0x5cb53172, 0x9989bc4b, + 0xda9dc75c, 0x13f0a638, 0x50e4dd2f, 0x95d85016, 0xd6cc2b01, + 0x76415272, 0x35552965, 0xf069a45c, 0xb37ddf4b, 0x7a10be2f, + 0x3904c538, 0xfc384801, 0xbf2c3316, 0x6ee38ac9, 0x2df7f1de, + 0xe8cb7ce7, 0xabdf07f0, 0x62b26694, 0x21a61d83, 0xe49a90ba, + 0xa78eebad, 0xa481635c, 0xe795184b, 0x22a99572, 0x61bdee65, + 0xa8d08f01, 0xebc4f416, 0x2ef8792f, 0x6dec0238, 0xbc23bbe7, + 0xff37c0f0, 0x3a0b4dc9, 0x791f36de, 0xb07257ba, 0xf3662cad, + 0x365aa194, 0x754eda83, 0xd5c3a3f0, 0x96d7d8e7, 0x53eb55de, + 0x10ff2ec9, 0xd9924fad, 0x9a8634ba, 0x5fbab983, 0x1caec294, + 0xcd617b4b, 0x8e75005c, 0x4b498d65, 0x085df672, 0xc1309716, + 0x8224ec01, 0x47186138, 0x040c1a2f, 0x4f005566, 0x0c142e71, + 0xc928a348, 0x8a3cd85f, 0x4351b93b, 0x0045c22c, 0xc5794f15, + 0x866d3402, 0x57a28ddd, 0x14b6f6ca, 0xd18a7bf3, 0x929e00e4, + 0x5bf36180, 0x18e71a97, 0xdddb97ae, 0x9ecfecb9, 0x3e4295ca, + 0x7d56eedd, 0xb86a63e4, 0xfb7e18f3, 0x32137997, 0x71070280, + 0xb43b8fb9, 0xf72ff4ae, 0x26e04d71, 0x65f43666, 0xa0c8bb5f, + 0xe3dcc048, 0x2ab1a12c, 0x69a5da3b, 0xac995702, 0xef8d2c15, + 0xec82a4e4, 0xaf96dff3, 0x6aaa52ca, 0x29be29dd, 0xe0d348b9, + 0xa3c733ae, 0x66fbbe97, 0x25efc580, 0xf4207c5f, 0xb7340748, + 0x72088a71, 0x311cf166, 0xf8719002, 0xbb65eb15, 0x7e59662c, + 0x3d4d1d3b, 0x9dc06448, 0xded41f5f, 0x1be89266, 0x58fce971, + 0x91918815, 0xd285f302, 0x17b97e3b, 0x54ad052c, 0x8562bcf3, + 0xc676c7e4, 0x034a4add, 0x405e31ca, 0x893350ae, 0xca272bb9, + 0x0f1ba680, 0x4c0fdd97, 0x4803c7b8, 0x0b17bcaf, 0xce2b3196, + 0x8d3f4a81, 0x44522be5, 0x074650f2, 0xc27addcb, 0x816ea6dc, + 0x50a11f03, 0x13b56414, 0xd689e92d, 0x959d923a, 0x5cf0f35e, + 0x1fe48849, 0xdad80570, 0x99cc7e67, 0x39410714, 0x7a557c03, + 0xbf69f13a, 0xfc7d8a2d, 0x3510eb49, 0x7604905e, 0xb3381d67, + 0xf02c6670, 0x21e3dfaf, 0x62f7a4b8, 0xa7cb2981, 0xe4df5296, + 0x2db233f2, 0x6ea648e5, 0xab9ac5dc, 0xe88ebecb, 0xeb81363a, + 0xa8954d2d, 0x6da9c014, 0x2ebdbb03, 0xe7d0da67, 0xa4c4a170, + 0x61f82c49, 0x22ec575e, 0xf323ee81, 0xb0379596, 0x750b18af, + 0x361f63b8, 0xff7202dc, 0xbc6679cb, 0x795af4f2, 0x3a4e8fe5, + 0x9ac3f696, 0xd9d78d81, 0x1ceb00b8, 0x5fff7baf, 0x96921acb, + 0xd58661dc, 0x10baece5, 0x53ae97f2, 0x82612e2d, 0xc175553a, + 0x0449d803, 0x475da314, 0x8e30c270, 0xcd24b967, 0x0818345e, + 0x4b0c4f49}, + {0x00000000, 0x3e6bc2ef, 0x3dd0f504, 0x03bb37eb, 0x7aa0eb09, + 0x44cb29e6, 0x47701e0d, 0x791bdce2, 0xf440d713, 0xca2b15fc, + 0xc9902217, 0xf7fbe0f8, 0x8ee03c1a, 0xb08bfef5, 0xb330c91e, + 0x8d5b0bf1, 0xe881ae27, 0xd6ea6cc8, 0xd5515b23, 0xeb3a99cc, + 0x9221452e, 0xac4a87c1, 0xaff1b02a, 0x919a72c5, 0x1cc17934, + 0x22aabbdb, 0x21118c30, 0x1f7a4edf, 0x6661923d, 0x580a50d2, + 0x5bb16739, 0x65daa5d6, 0xd0035d4f, 0xee689fa0, 0xedd3a84b, + 0xd3b86aa4, 0xaaa3b646, 0x94c874a9, 0x97734342, 0xa91881ad, + 0x24438a5c, 0x1a2848b3, 0x19937f58, 0x27f8bdb7, 0x5ee36155, + 0x6088a3ba, 0x63339451, 0x5d5856be, 0x3882f368, 0x06e93187, + 0x0552066c, 0x3b39c483, 0x42221861, 0x7c49da8e, 0x7ff2ed65, + 0x41992f8a, 0xccc2247b, 0xf2a9e694, 0xf112d17f, 0xcf791390, + 0xb662cf72, 0x88090d9d, 0x8bb23a76, 0xb5d9f899, 0xa007ba9e, + 0x9e6c7871, 0x9dd74f9a, 0xa3bc8d75, 0xdaa75197, 0xe4cc9378, + 0xe777a493, 0xd91c667c, 0x54476d8d, 0x6a2caf62, 0x69979889, + 0x57fc5a66, 0x2ee78684, 0x108c446b, 0x13377380, 0x2d5cb16f, + 0x488614b9, 0x76edd656, 0x7556e1bd, 0x4b3d2352, 0x3226ffb0, + 0x0c4d3d5f, 0x0ff60ab4, 0x319dc85b, 0xbcc6c3aa, 0x82ad0145, + 0x811636ae, 0xbf7df441, 0xc66628a3, 0xf80dea4c, 0xfbb6dda7, + 0xc5dd1f48, 0x7004e7d1, 0x4e6f253e, 0x4dd412d5, 0x73bfd03a, + 0x0aa40cd8, 0x34cfce37, 0x3774f9dc, 0x091f3b33, 0x844430c2, + 0xba2ff22d, 0xb994c5c6, 0x87ff0729, 0xfee4dbcb, 0xc08f1924, + 0xc3342ecf, 0xfd5fec20, 0x988549f6, 0xa6ee8b19, 0xa555bcf2, + 0x9b3e7e1d, 0xe225a2ff, 0xdc4e6010, 0xdff557fb, 0xe19e9514, + 0x6cc59ee5, 0x52ae5c0a, 0x51156be1, 0x6f7ea90e, 0x166575ec, + 0x280eb703, 0x2bb580e8, 0x15de4207, 0x010905e6, 0x3f62c709, + 0x3cd9f0e2, 0x02b2320d, 0x7ba9eeef, 0x45c22c00, 0x46791beb, + 0x7812d904, 0xf549d2f5, 0xcb22101a, 0xc89927f1, 0xf6f2e51e, + 0x8fe939fc, 0xb182fb13, 0xb239ccf8, 0x8c520e17, 0xe988abc1, + 0xd7e3692e, 0xd4585ec5, 0xea339c2a, 0x932840c8, 0xad438227, + 0xaef8b5cc, 0x90937723, 0x1dc87cd2, 0x23a3be3d, 0x201889d6, + 0x1e734b39, 0x676897db, 0x59035534, 0x5ab862df, 0x64d3a030, + 0xd10a58a9, 0xef619a46, 0xecdaadad, 0xd2b16f42, 0xabaab3a0, + 0x95c1714f, 0x967a46a4, 0xa811844b, 0x254a8fba, 0x1b214d55, + 0x189a7abe, 0x26f1b851, 0x5fea64b3, 0x6181a65c, 0x623a91b7, + 0x5c515358, 0x398bf68e, 0x07e03461, 0x045b038a, 0x3a30c165, + 0x432b1d87, 0x7d40df68, 0x7efbe883, 0x40902a6c, 0xcdcb219d, + 0xf3a0e372, 0xf01bd499, 0xce701676, 0xb76bca94, 0x8900087b, + 0x8abb3f90, 0xb4d0fd7f, 0xa10ebf78, 0x9f657d97, 0x9cde4a7c, + 0xa2b58893, 0xdbae5471, 0xe5c5969e, 0xe67ea175, 0xd815639a, + 0x554e686b, 0x6b25aa84, 0x689e9d6f, 0x56f55f80, 0x2fee8362, + 0x1185418d, 0x123e7666, 0x2c55b489, 0x498f115f, 0x77e4d3b0, + 0x745fe45b, 0x4a3426b4, 0x332ffa56, 0x0d4438b9, 0x0eff0f52, + 0x3094cdbd, 0xbdcfc64c, 0x83a404a3, 0x801f3348, 0xbe74f1a7, + 0xc76f2d45, 0xf904efaa, 0xfabfd841, 0xc4d41aae, 0x710de237, + 0x4f6620d8, 0x4cdd1733, 0x72b6d5dc, 0x0bad093e, 0x35c6cbd1, + 0x367dfc3a, 0x08163ed5, 0x854d3524, 0xbb26f7cb, 0xb89dc020, + 0x86f602cf, 0xffedde2d, 0xc1861cc2, 0xc23d2b29, 0xfc56e9c6, + 0x998c4c10, 0xa7e78eff, 0xa45cb914, 0x9a377bfb, 0xe32ca719, + 0xdd4765f6, 0xdefc521d, 0xe09790f2, 0x6dcc9b03, 0x53a759ec, + 0x501c6e07, 0x6e77ace8, 0x176c700a, 0x2907b2e5, 0x2abc850e, + 0x14d747e1}, + {0x00000000, 0xc0df8ec1, 0xc1b96c58, 0x0166e299, 0x8273d9b0, + 0x42ac5771, 0x43cab5e8, 0x83153b29, 0x45e1c3ba, 0x853e4d7b, + 0x8458afe2, 0x44872123, 0xc7921a0a, 0x074d94cb, 0x062b7652, + 0xc6f4f893, 0xcbc4f6ae, 0x0b1b786f, 0x0a7d9af6, 0xcaa21437, + 0x49b72f1e, 0x8968a1df, 0x880e4346, 0x48d1cd87, 0x8e253514, + 0x4efabbd5, 0x4f9c594c, 0x8f43d78d, 0x0c56eca4, 0xcc896265, + 0xcdef80fc, 0x0d300e3d, 0xd78f9c86, 0x17501247, 0x1636f0de, + 0xd6e97e1f, 0x55fc4536, 0x9523cbf7, 0x9445296e, 0x549aa7af, + 0x926e5f3c, 0x52b1d1fd, 0x53d73364, 0x9308bda5, 0x101d868c, + 0xd0c2084d, 0xd1a4ead4, 0x117b6415, 0x1c4b6a28, 0xdc94e4e9, + 0xddf20670, 0x1d2d88b1, 0x9e38b398, 0x5ee73d59, 0x5f81dfc0, + 0x9f5e5101, 0x59aaa992, 0x99752753, 0x9813c5ca, 0x58cc4b0b, + 0xdbd97022, 0x1b06fee3, 0x1a601c7a, 0xdabf92bb, 0xef1948d6, + 0x2fc6c617, 0x2ea0248e, 0xee7faa4f, 0x6d6a9166, 0xadb51fa7, + 0xacd3fd3e, 0x6c0c73ff, 0xaaf88b6c, 0x6a2705ad, 0x6b41e734, + 0xab9e69f5, 0x288b52dc, 0xe854dc1d, 0xe9323e84, 0x29edb045, + 0x24ddbe78, 0xe40230b9, 0xe564d220, 0x25bb5ce1, 0xa6ae67c8, + 0x6671e909, 0x67170b90, 0xa7c88551, 0x613c7dc2, 0xa1e3f303, + 0xa085119a, 0x605a9f5b, 0xe34fa472, 0x23902ab3, 0x22f6c82a, + 0xe22946eb, 0x3896d450, 0xf8495a91, 0xf92fb808, 0x39f036c9, + 0xbae50de0, 0x7a3a8321, 0x7b5c61b8, 0xbb83ef79, 0x7d7717ea, + 0xbda8992b, 0xbcce7bb2, 0x7c11f573, 0xff04ce5a, 0x3fdb409b, + 0x3ebda202, 0xfe622cc3, 0xf35222fe, 0x338dac3f, 0x32eb4ea6, + 0xf234c067, 0x7121fb4e, 0xb1fe758f, 0xb0989716, 0x704719d7, + 0xb6b3e144, 0x766c6f85, 0x770a8d1c, 0xb7d503dd, 0x34c038f4, + 0xf41fb635, 0xf57954ac, 0x35a6da6d, 0x9f35e177, 0x5fea6fb6, + 0x5e8c8d2f, 0x9e5303ee, 0x1d4638c7, 0xdd99b606, 0xdcff549f, + 0x1c20da5e, 0xdad422cd, 0x1a0bac0c, 0x1b6d4e95, 0xdbb2c054, + 0x58a7fb7d, 0x987875bc, 0x991e9725, 0x59c119e4, 0x54f117d9, + 0x942e9918, 0x95487b81, 0x5597f540, 0xd682ce69, 0x165d40a8, + 0x173ba231, 0xd7e42cf0, 0x1110d463, 0xd1cf5aa2, 0xd0a9b83b, + 0x107636fa, 0x93630dd3, 0x53bc8312, 0x52da618b, 0x9205ef4a, + 0x48ba7df1, 0x8865f330, 0x890311a9, 0x49dc9f68, 0xcac9a441, + 0x0a162a80, 0x0b70c819, 0xcbaf46d8, 0x0d5bbe4b, 0xcd84308a, + 0xcce2d213, 0x0c3d5cd2, 0x8f2867fb, 0x4ff7e93a, 0x4e910ba3, + 0x8e4e8562, 0x837e8b5f, 0x43a1059e, 0x42c7e707, 0x821869c6, + 0x010d52ef, 0xc1d2dc2e, 0xc0b43eb7, 0x006bb076, 0xc69f48e5, + 0x0640c624, 0x072624bd, 0xc7f9aa7c, 0x44ec9155, 0x84331f94, + 0x8555fd0d, 0x458a73cc, 0x702ca9a1, 0xb0f32760, 0xb195c5f9, + 0x714a4b38, 0xf25f7011, 0x3280fed0, 0x33e61c49, 0xf3399288, + 0x35cd6a1b, 0xf512e4da, 0xf4740643, 0x34ab8882, 0xb7beb3ab, + 0x77613d6a, 0x7607dff3, 0xb6d85132, 0xbbe85f0f, 0x7b37d1ce, + 0x7a513357, 0xba8ebd96, 0x399b86bf, 0xf944087e, 0xf822eae7, + 0x38fd6426, 0xfe099cb5, 0x3ed61274, 0x3fb0f0ed, 0xff6f7e2c, + 0x7c7a4505, 0xbca5cbc4, 0xbdc3295d, 0x7d1ca79c, 0xa7a33527, + 0x677cbbe6, 0x661a597f, 0xa6c5d7be, 0x25d0ec97, 0xe50f6256, + 0xe46980cf, 0x24b60e0e, 0xe242f69d, 0x229d785c, 0x23fb9ac5, + 0xe3241404, 0x60312f2d, 0xa0eea1ec, 0xa1884375, 0x6157cdb4, + 0x6c67c389, 0xacb84d48, 0xaddeafd1, 0x6d012110, 0xee141a39, + 0x2ecb94f8, 0x2fad7661, 0xef72f8a0, 0x29860033, 0xe9598ef2, + 0xe83f6c6b, 0x28e0e2aa, 0xabf5d983, 0x6b2a5742, 0x6a4cb5db, + 0xaa933b1a}, + {0x00000000, 0x6f4ca59b, 0x9f9e3bec, 0xf0d29e77, 0x7f3b0603, + 0x1077a398, 0xe0a53def, 0x8fe99874, 0xfe760c06, 0x913aa99d, + 0x61e837ea, 0x0ea49271, 0x814d0a05, 0xee01af9e, 0x1ed331e9, + 0x719f9472, 0xfced180c, 0x93a1bd97, 0x637323e0, 0x0c3f867b, + 0x83d61e0f, 0xec9abb94, 0x1c4825e3, 0x73048078, 0x029b140a, + 0x6dd7b191, 0x9d052fe6, 0xf2498a7d, 0x7da01209, 0x12ecb792, + 0xe23e29e5, 0x8d728c7e, 0xf8db3118, 0x97979483, 0x67450af4, + 0x0809af6f, 0x87e0371b, 0xe8ac9280, 0x187e0cf7, 0x7732a96c, + 0x06ad3d1e, 0x69e19885, 0x993306f2, 0xf67fa369, 0x79963b1d, + 0x16da9e86, 0xe60800f1, 0x8944a56a, 0x04362914, 0x6b7a8c8f, + 0x9ba812f8, 0xf4e4b763, 0x7b0d2f17, 0x14418a8c, 0xe49314fb, + 0x8bdfb160, 0xfa402512, 0x950c8089, 0x65de1efe, 0x0a92bb65, + 0x857b2311, 0xea37868a, 0x1ae518fd, 0x75a9bd66, 0xf0b76330, + 0x9ffbc6ab, 0x6f2958dc, 0x0065fd47, 0x8f8c6533, 0xe0c0c0a8, + 0x10125edf, 0x7f5efb44, 0x0ec16f36, 0x618dcaad, 0x915f54da, + 0xfe13f141, 0x71fa6935, 0x1eb6ccae, 0xee6452d9, 0x8128f742, + 0x0c5a7b3c, 0x6316dea7, 0x93c440d0, 0xfc88e54b, 0x73617d3f, + 0x1c2dd8a4, 0xecff46d3, 0x83b3e348, 0xf22c773a, 0x9d60d2a1, + 0x6db24cd6, 0x02fee94d, 0x8d177139, 0xe25bd4a2, 0x12894ad5, + 0x7dc5ef4e, 0x086c5228, 0x6720f7b3, 0x97f269c4, 0xf8becc5f, + 0x7757542b, 0x181bf1b0, 0xe8c96fc7, 0x8785ca5c, 0xf61a5e2e, + 0x9956fbb5, 0x698465c2, 0x06c8c059, 0x8921582d, 0xe66dfdb6, + 0x16bf63c1, 0x79f3c65a, 0xf4814a24, 0x9bcdefbf, 0x6b1f71c8, + 0x0453d453, 0x8bba4c27, 0xe4f6e9bc, 0x142477cb, 0x7b68d250, + 0x0af74622, 0x65bbe3b9, 0x95697dce, 0xfa25d855, 0x75cc4021, + 0x1a80e5ba, 0xea527bcd, 0x851ede56, 0xe06fc760, 0x8f2362fb, + 0x7ff1fc8c, 0x10bd5917, 0x9f54c163, 0xf01864f8, 0x00cafa8f, + 0x6f865f14, 0x1e19cb66, 0x71556efd, 0x8187f08a, 0xeecb5511, + 0x6122cd65, 0x0e6e68fe, 0xfebcf689, 0x91f05312, 0x1c82df6c, + 0x73ce7af7, 0x831ce480, 0xec50411b, 0x63b9d96f, 0x0cf57cf4, + 0xfc27e283, 0x936b4718, 0xe2f4d36a, 0x8db876f1, 0x7d6ae886, + 0x12264d1d, 0x9dcfd569, 0xf28370f2, 0x0251ee85, 0x6d1d4b1e, + 0x18b4f678, 0x77f853e3, 0x872acd94, 0xe866680f, 0x678ff07b, + 0x08c355e0, 0xf811cb97, 0x975d6e0c, 0xe6c2fa7e, 0x898e5fe5, + 0x795cc192, 0x16106409, 0x99f9fc7d, 0xf6b559e6, 0x0667c791, + 0x692b620a, 0xe459ee74, 0x8b154bef, 0x7bc7d598, 0x148b7003, + 0x9b62e877, 0xf42e4dec, 0x04fcd39b, 0x6bb07600, 0x1a2fe272, + 0x756347e9, 0x85b1d99e, 0xeafd7c05, 0x6514e471, 0x0a5841ea, + 0xfa8adf9d, 0x95c67a06, 0x10d8a450, 0x7f9401cb, 0x8f469fbc, + 0xe00a3a27, 0x6fe3a253, 0x00af07c8, 0xf07d99bf, 0x9f313c24, + 0xeeaea856, 0x81e20dcd, 0x713093ba, 0x1e7c3621, 0x9195ae55, + 0xfed90bce, 0x0e0b95b9, 0x61473022, 0xec35bc5c, 0x837919c7, + 0x73ab87b0, 0x1ce7222b, 0x930eba5f, 0xfc421fc4, 0x0c9081b3, + 0x63dc2428, 0x1243b05a, 0x7d0f15c1, 0x8ddd8bb6, 0xe2912e2d, + 0x6d78b659, 0x023413c2, 0xf2e68db5, 0x9daa282e, 0xe8039548, + 0x874f30d3, 0x779daea4, 0x18d10b3f, 0x9738934b, 0xf87436d0, + 0x08a6a8a7, 0x67ea0d3c, 0x1675994e, 0x79393cd5, 0x89eba2a2, + 0xe6a70739, 0x694e9f4d, 0x06023ad6, 0xf6d0a4a1, 0x999c013a, + 0x14ee8d44, 0x7ba228df, 0x8b70b6a8, 0xe43c1333, 0x6bd58b47, + 0x04992edc, 0xf44bb0ab, 0x9b071530, 0xea988142, 0x85d424d9, + 0x7506baae, 0x1a4a1f35, 0x95a38741, 0xfaef22da, 0x0a3dbcad, + 0x65711936}}; + +#endif + +#endif + +#if N == 4 + +#if W == 8 + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0xf1da05aa, 0x38c50d15, 0xc91f08bf, 0x718a1a2a, + 0x80501f80, 0x494f173f, 0xb8951295, 0xe3143454, 0x12ce31fe, + 0xdbd13941, 0x2a0b3ceb, 0x929e2e7e, 0x63442bd4, 0xaa5b236b, + 0x5b8126c1, 0x1d596ee9, 0xec836b43, 0x259c63fc, 0xd4466656, + 0x6cd374c3, 0x9d097169, 0x541679d6, 0xa5cc7c7c, 0xfe4d5abd, + 0x0f975f17, 0xc68857a8, 0x37525202, 0x8fc74097, 0x7e1d453d, + 0xb7024d82, 0x46d84828, 0x3ab2ddd2, 0xcb68d878, 0x0277d0c7, + 0xf3add56d, 0x4b38c7f8, 0xbae2c252, 0x73fdcaed, 0x8227cf47, + 0xd9a6e986, 0x287cec2c, 0xe163e493, 0x10b9e139, 0xa82cf3ac, + 0x59f6f606, 0x90e9feb9, 0x6133fb13, 0x27ebb33b, 0xd631b691, + 0x1f2ebe2e, 0xeef4bb84, 0x5661a911, 0xa7bbacbb, 0x6ea4a404, + 0x9f7ea1ae, 0xc4ff876f, 0x352582c5, 0xfc3a8a7a, 0x0de08fd0, + 0xb5759d45, 0x44af98ef, 0x8db09050, 0x7c6a95fa, 0x7565bba4, + 0x84bfbe0e, 0x4da0b6b1, 0xbc7ab31b, 0x04efa18e, 0xf535a424, + 0x3c2aac9b, 0xcdf0a931, 0x96718ff0, 0x67ab8a5a, 0xaeb482e5, + 0x5f6e874f, 0xe7fb95da, 0x16219070, 0xdf3e98cf, 0x2ee49d65, + 0x683cd54d, 0x99e6d0e7, 0x50f9d858, 0xa123ddf2, 0x19b6cf67, + 0xe86ccacd, 0x2173c272, 0xd0a9c7d8, 0x8b28e119, 0x7af2e4b3, + 0xb3edec0c, 0x4237e9a6, 0xfaa2fb33, 0x0b78fe99, 0xc267f626, + 0x33bdf38c, 0x4fd76676, 0xbe0d63dc, 0x77126b63, 0x86c86ec9, + 0x3e5d7c5c, 0xcf8779f6, 0x06987149, 0xf74274e3, 0xacc35222, + 0x5d195788, 0x94065f37, 0x65dc5a9d, 0xdd494808, 0x2c934da2, + 0xe58c451d, 0x145640b7, 0x528e089f, 0xa3540d35, 0x6a4b058a, + 0x9b910020, 0x230412b5, 0xd2de171f, 0x1bc11fa0, 0xea1b1a0a, + 0xb19a3ccb, 0x40403961, 0x895f31de, 0x78853474, 0xc01026e1, + 0x31ca234b, 0xf8d52bf4, 0x090f2e5e, 0xeacb7748, 0x1b1172e2, + 0xd20e7a5d, 0x23d47ff7, 0x9b416d62, 0x6a9b68c8, 0xa3846077, + 0x525e65dd, 0x09df431c, 0xf80546b6, 0x311a4e09, 0xc0c04ba3, + 0x78555936, 0x898f5c9c, 0x40905423, 0xb14a5189, 0xf79219a1, + 0x06481c0b, 0xcf5714b4, 0x3e8d111e, 0x8618038b, 0x77c20621, + 0xbedd0e9e, 0x4f070b34, 0x14862df5, 0xe55c285f, 0x2c4320e0, + 0xdd99254a, 0x650c37df, 0x94d63275, 0x5dc93aca, 0xac133f60, + 0xd079aa9a, 0x21a3af30, 0xe8bca78f, 0x1966a225, 0xa1f3b0b0, + 0x5029b51a, 0x9936bda5, 0x68ecb80f, 0x336d9ece, 0xc2b79b64, + 0x0ba893db, 0xfa729671, 0x42e784e4, 0xb33d814e, 0x7a2289f1, + 0x8bf88c5b, 0xcd20c473, 0x3cfac1d9, 0xf5e5c966, 0x043fcccc, + 0xbcaade59, 0x4d70dbf3, 0x846fd34c, 0x75b5d6e6, 0x2e34f027, + 0xdfeef58d, 0x16f1fd32, 0xe72bf898, 0x5fbeea0d, 0xae64efa7, + 0x677be718, 0x96a1e2b2, 0x9faeccec, 0x6e74c946, 0xa76bc1f9, + 0x56b1c453, 0xee24d6c6, 0x1ffed36c, 0xd6e1dbd3, 0x273bde79, + 0x7cbaf8b8, 0x8d60fd12, 0x447ff5ad, 0xb5a5f007, 0x0d30e292, + 0xfceae738, 0x35f5ef87, 0xc42fea2d, 0x82f7a205, 0x732da7af, + 0xba32af10, 0x4be8aaba, 0xf37db82f, 0x02a7bd85, 0xcbb8b53a, + 0x3a62b090, 0x61e39651, 0x903993fb, 0x59269b44, 0xa8fc9eee, + 0x10698c7b, 0xe1b389d1, 0x28ac816e, 0xd97684c4, 0xa51c113e, + 0x54c61494, 0x9dd91c2b, 0x6c031981, 0xd4960b14, 0x254c0ebe, + 0xec530601, 0x1d8903ab, 0x4608256a, 0xb7d220c0, 0x7ecd287f, + 0x8f172dd5, 0x37823f40, 0xc6583aea, 0x0f473255, 0xfe9d37ff, + 0xb8457fd7, 0x499f7a7d, 0x808072c2, 0x715a7768, 0xc9cf65fd, + 0x38156057, 0xf10a68e8, 0x00d06d42, 0x5b514b83, 0xaa8b4e29, + 0x63944696, 0x924e433c, 0x2adb51a9, 0xdb015403, 0x121e5cbc, + 0xe3c45916}, + {0x00000000, 0x0ee7e8d1, 0x1dcfd1a2, 0x13283973, 0x3b9fa344, + 0x35784b95, 0x265072e6, 0x28b79a37, 0x773f4688, 0x79d8ae59, + 0x6af0972a, 0x64177ffb, 0x4ca0e5cc, 0x42470d1d, 0x516f346e, + 0x5f88dcbf, 0xee7e8d10, 0xe09965c1, 0xf3b15cb2, 0xfd56b463, + 0xd5e12e54, 0xdb06c685, 0xc82efff6, 0xc6c91727, 0x9941cb98, + 0x97a62349, 0x848e1a3a, 0x8a69f2eb, 0xa2de68dc, 0xac39800d, + 0xbf11b97e, 0xb1f651af, 0x078c1c61, 0x096bf4b0, 0x1a43cdc3, + 0x14a42512, 0x3c13bf25, 0x32f457f4, 0x21dc6e87, 0x2f3b8656, + 0x70b35ae9, 0x7e54b238, 0x6d7c8b4b, 0x639b639a, 0x4b2cf9ad, + 0x45cb117c, 0x56e3280f, 0x5804c0de, 0xe9f29171, 0xe71579a0, + 0xf43d40d3, 0xfadaa802, 0xd26d3235, 0xdc8adae4, 0xcfa2e397, + 0xc1450b46, 0x9ecdd7f9, 0x902a3f28, 0x8302065b, 0x8de5ee8a, + 0xa55274bd, 0xabb59c6c, 0xb89da51f, 0xb67a4dce, 0x0f1838c2, + 0x01ffd013, 0x12d7e960, 0x1c3001b1, 0x34879b86, 0x3a607357, + 0x29484a24, 0x27afa2f5, 0x78277e4a, 0x76c0969b, 0x65e8afe8, + 0x6b0f4739, 0x43b8dd0e, 0x4d5f35df, 0x5e770cac, 0x5090e47d, + 0xe166b5d2, 0xef815d03, 0xfca96470, 0xf24e8ca1, 0xdaf91696, + 0xd41efe47, 0xc736c734, 0xc9d12fe5, 0x9659f35a, 0x98be1b8b, + 0x8b9622f8, 0x8571ca29, 0xadc6501e, 0xa321b8cf, 0xb00981bc, + 0xbeee696d, 0x089424a3, 0x0673cc72, 0x155bf501, 0x1bbc1dd0, + 0x330b87e7, 0x3dec6f36, 0x2ec45645, 0x2023be94, 0x7fab622b, + 0x714c8afa, 0x6264b389, 0x6c835b58, 0x4434c16f, 0x4ad329be, + 0x59fb10cd, 0x571cf81c, 0xe6eaa9b3, 0xe80d4162, 0xfb257811, + 0xf5c290c0, 0xdd750af7, 0xd392e226, 0xc0badb55, 0xce5d3384, + 0x91d5ef3b, 0x9f3207ea, 0x8c1a3e99, 0x82fdd648, 0xaa4a4c7f, + 0xa4ada4ae, 0xb7859ddd, 0xb962750c, 0x1e307184, 0x10d79955, + 0x03ffa026, 0x0d1848f7, 0x25afd2c0, 0x2b483a11, 0x38600362, + 0x3687ebb3, 0x690f370c, 0x67e8dfdd, 0x74c0e6ae, 0x7a270e7f, + 0x52909448, 0x5c777c99, 0x4f5f45ea, 0x41b8ad3b, 0xf04efc94, + 0xfea91445, 0xed812d36, 0xe366c5e7, 0xcbd15fd0, 0xc536b701, + 0xd61e8e72, 0xd8f966a3, 0x8771ba1c, 0x899652cd, 0x9abe6bbe, + 0x9459836f, 0xbcee1958, 0xb209f189, 0xa121c8fa, 0xafc6202b, + 0x19bc6de5, 0x175b8534, 0x0473bc47, 0x0a945496, 0x2223cea1, + 0x2cc42670, 0x3fec1f03, 0x310bf7d2, 0x6e832b6d, 0x6064c3bc, + 0x734cfacf, 0x7dab121e, 0x551c8829, 0x5bfb60f8, 0x48d3598b, + 0x4634b15a, 0xf7c2e0f5, 0xf9250824, 0xea0d3157, 0xe4ead986, + 0xcc5d43b1, 0xc2baab60, 0xd1929213, 0xdf757ac2, 0x80fda67d, + 0x8e1a4eac, 0x9d3277df, 0x93d59f0e, 0xbb620539, 0xb585ede8, + 0xa6add49b, 0xa84a3c4a, 0x11284946, 0x1fcfa197, 0x0ce798e4, + 0x02007035, 0x2ab7ea02, 0x245002d3, 0x37783ba0, 0x399fd371, + 0x66170fce, 0x68f0e71f, 0x7bd8de6c, 0x753f36bd, 0x5d88ac8a, + 0x536f445b, 0x40477d28, 0x4ea095f9, 0xff56c456, 0xf1b12c87, + 0xe29915f4, 0xec7efd25, 0xc4c96712, 0xca2e8fc3, 0xd906b6b0, + 0xd7e15e61, 0x886982de, 0x868e6a0f, 0x95a6537c, 0x9b41bbad, + 0xb3f6219a, 0xbd11c94b, 0xae39f038, 0xa0de18e9, 0x16a45527, + 0x1843bdf6, 0x0b6b8485, 0x058c6c54, 0x2d3bf663, 0x23dc1eb2, + 0x30f427c1, 0x3e13cf10, 0x619b13af, 0x6f7cfb7e, 0x7c54c20d, + 0x72b32adc, 0x5a04b0eb, 0x54e3583a, 0x47cb6149, 0x492c8998, + 0xf8dad837, 0xf63d30e6, 0xe5150995, 0xebf2e144, 0xc3457b73, + 0xcda293a2, 0xde8aaad1, 0xd06d4200, 0x8fe59ebf, 0x8102766e, + 0x922a4f1d, 0x9ccda7cc, 0xb47a3dfb, 0xba9dd52a, 0xa9b5ec59, + 0xa7520488}, + {0x00000000, 0x3c60e308, 0x78c1c610, 0x44a12518, 0xf1838c20, + 0xcde36f28, 0x89424a30, 0xb522a938, 0x38761e01, 0x0416fd09, + 0x40b7d811, 0x7cd73b19, 0xc9f59221, 0xf5957129, 0xb1345431, + 0x8d54b739, 0x70ec3c02, 0x4c8cdf0a, 0x082dfa12, 0x344d191a, + 0x816fb022, 0xbd0f532a, 0xf9ae7632, 0xc5ce953a, 0x489a2203, + 0x74fac10b, 0x305be413, 0x0c3b071b, 0xb919ae23, 0x85794d2b, + 0xc1d86833, 0xfdb88b3b, 0xe1d87804, 0xddb89b0c, 0x9919be14, + 0xa5795d1c, 0x105bf424, 0x2c3b172c, 0x689a3234, 0x54fad13c, + 0xd9ae6605, 0xe5ce850d, 0xa16fa015, 0x9d0f431d, 0x282dea25, + 0x144d092d, 0x50ec2c35, 0x6c8ccf3d, 0x91344406, 0xad54a70e, + 0xe9f58216, 0xd595611e, 0x60b7c826, 0x5cd72b2e, 0x18760e36, + 0x2416ed3e, 0xa9425a07, 0x9522b90f, 0xd1839c17, 0xede37f1f, + 0x58c1d627, 0x64a1352f, 0x20001037, 0x1c60f33f, 0x18c1f649, + 0x24a11541, 0x60003059, 0x5c60d351, 0xe9427a69, 0xd5229961, + 0x9183bc79, 0xade35f71, 0x20b7e848, 0x1cd70b40, 0x58762e58, + 0x6416cd50, 0xd1346468, 0xed548760, 0xa9f5a278, 0x95954170, + 0x682dca4b, 0x544d2943, 0x10ec0c5b, 0x2c8cef53, 0x99ae466b, + 0xa5cea563, 0xe16f807b, 0xdd0f6373, 0x505bd44a, 0x6c3b3742, + 0x289a125a, 0x14faf152, 0xa1d8586a, 0x9db8bb62, 0xd9199e7a, + 0xe5797d72, 0xf9198e4d, 0xc5796d45, 0x81d8485d, 0xbdb8ab55, + 0x089a026d, 0x34fae165, 0x705bc47d, 0x4c3b2775, 0xc16f904c, + 0xfd0f7344, 0xb9ae565c, 0x85ceb554, 0x30ec1c6c, 0x0c8cff64, + 0x482dda7c, 0x744d3974, 0x89f5b24f, 0xb5955147, 0xf134745f, + 0xcd549757, 0x78763e6f, 0x4416dd67, 0x00b7f87f, 0x3cd71b77, + 0xb183ac4e, 0x8de34f46, 0xc9426a5e, 0xf5228956, 0x4000206e, + 0x7c60c366, 0x38c1e67e, 0x04a10576, 0x3183ec92, 0x0de30f9a, + 0x49422a82, 0x7522c98a, 0xc00060b2, 0xfc6083ba, 0xb8c1a6a2, + 0x84a145aa, 0x09f5f293, 0x3595119b, 0x71343483, 0x4d54d78b, + 0xf8767eb3, 0xc4169dbb, 0x80b7b8a3, 0xbcd75bab, 0x416fd090, + 0x7d0f3398, 0x39ae1680, 0x05cef588, 0xb0ec5cb0, 0x8c8cbfb8, + 0xc82d9aa0, 0xf44d79a8, 0x7919ce91, 0x45792d99, 0x01d80881, + 0x3db8eb89, 0x889a42b1, 0xb4faa1b9, 0xf05b84a1, 0xcc3b67a9, + 0xd05b9496, 0xec3b779e, 0xa89a5286, 0x94fab18e, 0x21d818b6, + 0x1db8fbbe, 0x5919dea6, 0x65793dae, 0xe82d8a97, 0xd44d699f, + 0x90ec4c87, 0xac8caf8f, 0x19ae06b7, 0x25cee5bf, 0x616fc0a7, + 0x5d0f23af, 0xa0b7a894, 0x9cd74b9c, 0xd8766e84, 0xe4168d8c, + 0x513424b4, 0x6d54c7bc, 0x29f5e2a4, 0x159501ac, 0x98c1b695, + 0xa4a1559d, 0xe0007085, 0xdc60938d, 0x69423ab5, 0x5522d9bd, + 0x1183fca5, 0x2de31fad, 0x29421adb, 0x1522f9d3, 0x5183dccb, + 0x6de33fc3, 0xd8c196fb, 0xe4a175f3, 0xa00050eb, 0x9c60b3e3, + 0x113404da, 0x2d54e7d2, 0x69f5c2ca, 0x559521c2, 0xe0b788fa, + 0xdcd76bf2, 0x98764eea, 0xa416ade2, 0x59ae26d9, 0x65cec5d1, + 0x216fe0c9, 0x1d0f03c1, 0xa82daaf9, 0x944d49f1, 0xd0ec6ce9, + 0xec8c8fe1, 0x61d838d8, 0x5db8dbd0, 0x1919fec8, 0x25791dc0, + 0x905bb4f8, 0xac3b57f0, 0xe89a72e8, 0xd4fa91e0, 0xc89a62df, + 0xf4fa81d7, 0xb05ba4cf, 0x8c3b47c7, 0x3919eeff, 0x05790df7, + 0x41d828ef, 0x7db8cbe7, 0xf0ec7cde, 0xcc8c9fd6, 0x882dbace, + 0xb44d59c6, 0x016ff0fe, 0x3d0f13f6, 0x79ae36ee, 0x45ced5e6, + 0xb8765edd, 0x8416bdd5, 0xc0b798cd, 0xfcd77bc5, 0x49f5d2fd, + 0x759531f5, 0x313414ed, 0x0d54f7e5, 0x800040dc, 0xbc60a3d4, + 0xf8c186cc, 0xc4a165c4, 0x7183ccfc, 0x4de32ff4, 0x09420aec, + 0x3522e9e4}, + {0x00000000, 0x6307d924, 0xc60fb248, 0xa5086b6c, 0x576e62d1, + 0x3469bbf5, 0x9161d099, 0xf26609bd, 0xaedcc5a2, 0xcddb1c86, + 0x68d377ea, 0x0bd4aece, 0xf9b2a773, 0x9ab57e57, 0x3fbd153b, + 0x5cbacc1f, 0x86c88d05, 0xe5cf5421, 0x40c73f4d, 0x23c0e669, + 0xd1a6efd4, 0xb2a136f0, 0x17a95d9c, 0x74ae84b8, 0x281448a7, + 0x4b139183, 0xee1bfaef, 0x8d1c23cb, 0x7f7a2a76, 0x1c7df352, + 0xb975983e, 0xda72411a, 0xd6e01c4b, 0xb5e7c56f, 0x10efae03, + 0x73e87727, 0x818e7e9a, 0xe289a7be, 0x4781ccd2, 0x248615f6, + 0x783cd9e9, 0x1b3b00cd, 0xbe336ba1, 0xdd34b285, 0x2f52bb38, + 0x4c55621c, 0xe95d0970, 0x8a5ad054, 0x5028914e, 0x332f486a, + 0x96272306, 0xf520fa22, 0x0746f39f, 0x64412abb, 0xc14941d7, + 0xa24e98f3, 0xfef454ec, 0x9df38dc8, 0x38fbe6a4, 0x5bfc3f80, + 0xa99a363d, 0xca9def19, 0x6f958475, 0x0c925d51, 0x76b13ed7, + 0x15b6e7f3, 0xb0be8c9f, 0xd3b955bb, 0x21df5c06, 0x42d88522, + 0xe7d0ee4e, 0x84d7376a, 0xd86dfb75, 0xbb6a2251, 0x1e62493d, + 0x7d659019, 0x8f0399a4, 0xec044080, 0x490c2bec, 0x2a0bf2c8, + 0xf079b3d2, 0x937e6af6, 0x3676019a, 0x5571d8be, 0xa717d103, + 0xc4100827, 0x6118634b, 0x021fba6f, 0x5ea57670, 0x3da2af54, + 0x98aac438, 0xfbad1d1c, 0x09cb14a1, 0x6acccd85, 0xcfc4a6e9, + 0xacc37fcd, 0xa051229c, 0xc356fbb8, 0x665e90d4, 0x055949f0, + 0xf73f404d, 0x94389969, 0x3130f205, 0x52372b21, 0x0e8de73e, + 0x6d8a3e1a, 0xc8825576, 0xab858c52, 0x59e385ef, 0x3ae45ccb, + 0x9fec37a7, 0xfcebee83, 0x2699af99, 0x459e76bd, 0xe0961dd1, + 0x8391c4f5, 0x71f7cd48, 0x12f0146c, 0xb7f87f00, 0xd4ffa624, + 0x88456a3b, 0xeb42b31f, 0x4e4ad873, 0x2d4d0157, 0xdf2b08ea, + 0xbc2cd1ce, 0x1924baa2, 0x7a236386, 0xed627dae, 0x8e65a48a, + 0x2b6dcfe6, 0x486a16c2, 0xba0c1f7f, 0xd90bc65b, 0x7c03ad37, + 0x1f047413, 0x43beb80c, 0x20b96128, 0x85b10a44, 0xe6b6d360, + 0x14d0dadd, 0x77d703f9, 0xd2df6895, 0xb1d8b1b1, 0x6baaf0ab, + 0x08ad298f, 0xada542e3, 0xcea29bc7, 0x3cc4927a, 0x5fc34b5e, + 0xfacb2032, 0x99ccf916, 0xc5763509, 0xa671ec2d, 0x03798741, + 0x607e5e65, 0x921857d8, 0xf11f8efc, 0x5417e590, 0x37103cb4, + 0x3b8261e5, 0x5885b8c1, 0xfd8dd3ad, 0x9e8a0a89, 0x6cec0334, + 0x0febda10, 0xaae3b17c, 0xc9e46858, 0x955ea447, 0xf6597d63, + 0x5351160f, 0x3056cf2b, 0xc230c696, 0xa1371fb2, 0x043f74de, + 0x6738adfa, 0xbd4aece0, 0xde4d35c4, 0x7b455ea8, 0x1842878c, + 0xea248e31, 0x89235715, 0x2c2b3c79, 0x4f2ce55d, 0x13962942, + 0x7091f066, 0xd5999b0a, 0xb69e422e, 0x44f84b93, 0x27ff92b7, + 0x82f7f9db, 0xe1f020ff, 0x9bd34379, 0xf8d49a5d, 0x5ddcf131, + 0x3edb2815, 0xccbd21a8, 0xafbaf88c, 0x0ab293e0, 0x69b54ac4, + 0x350f86db, 0x56085fff, 0xf3003493, 0x9007edb7, 0x6261e40a, + 0x01663d2e, 0xa46e5642, 0xc7698f66, 0x1d1bce7c, 0x7e1c1758, + 0xdb147c34, 0xb813a510, 0x4a75acad, 0x29727589, 0x8c7a1ee5, + 0xef7dc7c1, 0xb3c70bde, 0xd0c0d2fa, 0x75c8b996, 0x16cf60b2, + 0xe4a9690f, 0x87aeb02b, 0x22a6db47, 0x41a10263, 0x4d335f32, + 0x2e348616, 0x8b3ced7a, 0xe83b345e, 0x1a5d3de3, 0x795ae4c7, + 0xdc528fab, 0xbf55568f, 0xe3ef9a90, 0x80e843b4, 0x25e028d8, + 0x46e7f1fc, 0xb481f841, 0xd7862165, 0x728e4a09, 0x1189932d, + 0xcbfbd237, 0xa8fc0b13, 0x0df4607f, 0x6ef3b95b, 0x9c95b0e6, + 0xff9269c2, 0x5a9a02ae, 0x399ddb8a, 0x65271795, 0x0620ceb1, + 0xa328a5dd, 0xc02f7cf9, 0x32497544, 0x514eac60, 0xf446c70c, + 0x97411e28}, + {0x00000000, 0x01b5fd1d, 0x036bfa3a, 0x02de0727, 0x06d7f474, + 0x07620969, 0x05bc0e4e, 0x0409f353, 0x0dafe8e8, 0x0c1a15f5, + 0x0ec412d2, 0x0f71efcf, 0x0b781c9c, 0x0acde181, 0x0813e6a6, + 0x09a61bbb, 0x1b5fd1d0, 0x1aea2ccd, 0x18342bea, 0x1981d6f7, + 0x1d8825a4, 0x1c3dd8b9, 0x1ee3df9e, 0x1f562283, 0x16f03938, + 0x1745c425, 0x159bc302, 0x142e3e1f, 0x1027cd4c, 0x11923051, + 0x134c3776, 0x12f9ca6b, 0x36bfa3a0, 0x370a5ebd, 0x35d4599a, + 0x3461a487, 0x306857d4, 0x31ddaac9, 0x3303adee, 0x32b650f3, + 0x3b104b48, 0x3aa5b655, 0x387bb172, 0x39ce4c6f, 0x3dc7bf3c, + 0x3c724221, 0x3eac4506, 0x3f19b81b, 0x2de07270, 0x2c558f6d, + 0x2e8b884a, 0x2f3e7557, 0x2b378604, 0x2a827b19, 0x285c7c3e, + 0x29e98123, 0x204f9a98, 0x21fa6785, 0x232460a2, 0x22919dbf, + 0x26986eec, 0x272d93f1, 0x25f394d6, 0x244669cb, 0x6d7f4740, + 0x6ccaba5d, 0x6e14bd7a, 0x6fa14067, 0x6ba8b334, 0x6a1d4e29, + 0x68c3490e, 0x6976b413, 0x60d0afa8, 0x616552b5, 0x63bb5592, + 0x620ea88f, 0x66075bdc, 0x67b2a6c1, 0x656ca1e6, 0x64d95cfb, + 0x76209690, 0x77956b8d, 0x754b6caa, 0x74fe91b7, 0x70f762e4, + 0x71429ff9, 0x739c98de, 0x722965c3, 0x7b8f7e78, 0x7a3a8365, + 0x78e48442, 0x7951795f, 0x7d588a0c, 0x7ced7711, 0x7e337036, + 0x7f868d2b, 0x5bc0e4e0, 0x5a7519fd, 0x58ab1eda, 0x591ee3c7, + 0x5d171094, 0x5ca2ed89, 0x5e7ceaae, 0x5fc917b3, 0x566f0c08, + 0x57daf115, 0x5504f632, 0x54b10b2f, 0x50b8f87c, 0x510d0561, + 0x53d30246, 0x5266ff5b, 0x409f3530, 0x412ac82d, 0x43f4cf0a, + 0x42413217, 0x4648c144, 0x47fd3c59, 0x45233b7e, 0x4496c663, + 0x4d30ddd8, 0x4c8520c5, 0x4e5b27e2, 0x4feedaff, 0x4be729ac, + 0x4a52d4b1, 0x488cd396, 0x49392e8b, 0xdafe8e80, 0xdb4b739d, + 0xd99574ba, 0xd82089a7, 0xdc297af4, 0xdd9c87e9, 0xdf4280ce, + 0xdef77dd3, 0xd7516668, 0xd6e49b75, 0xd43a9c52, 0xd58f614f, + 0xd186921c, 0xd0336f01, 0xd2ed6826, 0xd358953b, 0xc1a15f50, + 0xc014a24d, 0xc2caa56a, 0xc37f5877, 0xc776ab24, 0xc6c35639, + 0xc41d511e, 0xc5a8ac03, 0xcc0eb7b8, 0xcdbb4aa5, 0xcf654d82, + 0xced0b09f, 0xcad943cc, 0xcb6cbed1, 0xc9b2b9f6, 0xc80744eb, + 0xec412d20, 0xedf4d03d, 0xef2ad71a, 0xee9f2a07, 0xea96d954, + 0xeb232449, 0xe9fd236e, 0xe848de73, 0xe1eec5c8, 0xe05b38d5, + 0xe2853ff2, 0xe330c2ef, 0xe73931bc, 0xe68ccca1, 0xe452cb86, + 0xe5e7369b, 0xf71efcf0, 0xf6ab01ed, 0xf47506ca, 0xf5c0fbd7, + 0xf1c90884, 0xf07cf599, 0xf2a2f2be, 0xf3170fa3, 0xfab11418, + 0xfb04e905, 0xf9daee22, 0xf86f133f, 0xfc66e06c, 0xfdd31d71, + 0xff0d1a56, 0xfeb8e74b, 0xb781c9c0, 0xb63434dd, 0xb4ea33fa, + 0xb55fcee7, 0xb1563db4, 0xb0e3c0a9, 0xb23dc78e, 0xb3883a93, + 0xba2e2128, 0xbb9bdc35, 0xb945db12, 0xb8f0260f, 0xbcf9d55c, + 0xbd4c2841, 0xbf922f66, 0xbe27d27b, 0xacde1810, 0xad6be50d, + 0xafb5e22a, 0xae001f37, 0xaa09ec64, 0xabbc1179, 0xa962165e, + 0xa8d7eb43, 0xa171f0f8, 0xa0c40de5, 0xa21a0ac2, 0xa3aff7df, + 0xa7a6048c, 0xa613f991, 0xa4cdfeb6, 0xa57803ab, 0x813e6a60, + 0x808b977d, 0x8255905a, 0x83e06d47, 0x87e99e14, 0x865c6309, + 0x8482642e, 0x85379933, 0x8c918288, 0x8d247f95, 0x8ffa78b2, + 0x8e4f85af, 0x8a4676fc, 0x8bf38be1, 0x892d8cc6, 0x889871db, + 0x9a61bbb0, 0x9bd446ad, 0x990a418a, 0x98bfbc97, 0x9cb64fc4, + 0x9d03b2d9, 0x9fddb5fe, 0x9e6848e3, 0x97ce5358, 0x967bae45, + 0x94a5a962, 0x9510547f, 0x9119a72c, 0x90ac5a31, 0x92725d16, + 0x93c7a00b}, + {0x00000000, 0x6e8c1b41, 0xdd183682, 0xb3942dc3, 0x61416b45, + 0x0fcd7004, 0xbc595dc7, 0xd2d54686, 0xc282d68a, 0xac0ecdcb, + 0x1f9ae008, 0x7116fb49, 0xa3c3bdcf, 0xcd4fa68e, 0x7edb8b4d, + 0x1057900c, 0x5e74ab55, 0x30f8b014, 0x836c9dd7, 0xede08696, + 0x3f35c010, 0x51b9db51, 0xe22df692, 0x8ca1edd3, 0x9cf67ddf, + 0xf27a669e, 0x41ee4b5d, 0x2f62501c, 0xfdb7169a, 0x933b0ddb, + 0x20af2018, 0x4e233b59, 0xbce956aa, 0xd2654deb, 0x61f16028, + 0x0f7d7b69, 0xdda83def, 0xb32426ae, 0x00b00b6d, 0x6e3c102c, + 0x7e6b8020, 0x10e79b61, 0xa373b6a2, 0xcdffade3, 0x1f2aeb65, + 0x71a6f024, 0xc232dde7, 0xacbec6a6, 0xe29dfdff, 0x8c11e6be, + 0x3f85cb7d, 0x5109d03c, 0x83dc96ba, 0xed508dfb, 0x5ec4a038, + 0x3048bb79, 0x201f2b75, 0x4e933034, 0xfd071df7, 0x938b06b6, + 0x415e4030, 0x2fd25b71, 0x9c4676b2, 0xf2ca6df3, 0xa2a3ab15, + 0xcc2fb054, 0x7fbb9d97, 0x113786d6, 0xc3e2c050, 0xad6edb11, + 0x1efaf6d2, 0x7076ed93, 0x60217d9f, 0x0ead66de, 0xbd394b1d, + 0xd3b5505c, 0x016016da, 0x6fec0d9b, 0xdc782058, 0xb2f43b19, + 0xfcd70040, 0x925b1b01, 0x21cf36c2, 0x4f432d83, 0x9d966b05, + 0xf31a7044, 0x408e5d87, 0x2e0246c6, 0x3e55d6ca, 0x50d9cd8b, + 0xe34de048, 0x8dc1fb09, 0x5f14bd8f, 0x3198a6ce, 0x820c8b0d, + 0xec80904c, 0x1e4afdbf, 0x70c6e6fe, 0xc352cb3d, 0xadded07c, + 0x7f0b96fa, 0x11878dbb, 0xa213a078, 0xcc9fbb39, 0xdcc82b35, + 0xb2443074, 0x01d01db7, 0x6f5c06f6, 0xbd894070, 0xd3055b31, + 0x609176f2, 0x0e1d6db3, 0x403e56ea, 0x2eb24dab, 0x9d266068, + 0xf3aa7b29, 0x217f3daf, 0x4ff326ee, 0xfc670b2d, 0x92eb106c, + 0x82bc8060, 0xec309b21, 0x5fa4b6e2, 0x3128ada3, 0xe3fdeb25, + 0x8d71f064, 0x3ee5dda7, 0x5069c6e6, 0x9e36506b, 0xf0ba4b2a, + 0x432e66e9, 0x2da27da8, 0xff773b2e, 0x91fb206f, 0x226f0dac, + 0x4ce316ed, 0x5cb486e1, 0x32389da0, 0x81acb063, 0xef20ab22, + 0x3df5eda4, 0x5379f6e5, 0xe0eddb26, 0x8e61c067, 0xc042fb3e, + 0xaecee07f, 0x1d5acdbc, 0x73d6d6fd, 0xa103907b, 0xcf8f8b3a, + 0x7c1ba6f9, 0x1297bdb8, 0x02c02db4, 0x6c4c36f5, 0xdfd81b36, + 0xb1540077, 0x638146f1, 0x0d0d5db0, 0xbe997073, 0xd0156b32, + 0x22df06c1, 0x4c531d80, 0xffc73043, 0x914b2b02, 0x439e6d84, + 0x2d1276c5, 0x9e865b06, 0xf00a4047, 0xe05dd04b, 0x8ed1cb0a, + 0x3d45e6c9, 0x53c9fd88, 0x811cbb0e, 0xef90a04f, 0x5c048d8c, + 0x328896cd, 0x7cabad94, 0x1227b6d5, 0xa1b39b16, 0xcf3f8057, + 0x1deac6d1, 0x7366dd90, 0xc0f2f053, 0xae7eeb12, 0xbe297b1e, + 0xd0a5605f, 0x63314d9c, 0x0dbd56dd, 0xdf68105b, 0xb1e40b1a, + 0x027026d9, 0x6cfc3d98, 0x3c95fb7e, 0x5219e03f, 0xe18dcdfc, + 0x8f01d6bd, 0x5dd4903b, 0x33588b7a, 0x80cca6b9, 0xee40bdf8, + 0xfe172df4, 0x909b36b5, 0x230f1b76, 0x4d830037, 0x9f5646b1, + 0xf1da5df0, 0x424e7033, 0x2cc26b72, 0x62e1502b, 0x0c6d4b6a, + 0xbff966a9, 0xd1757de8, 0x03a03b6e, 0x6d2c202f, 0xdeb80dec, + 0xb03416ad, 0xa06386a1, 0xceef9de0, 0x7d7bb023, 0x13f7ab62, + 0xc122ede4, 0xafaef6a5, 0x1c3adb66, 0x72b6c027, 0x807cadd4, + 0xeef0b695, 0x5d649b56, 0x33e88017, 0xe13dc691, 0x8fb1ddd0, + 0x3c25f013, 0x52a9eb52, 0x42fe7b5e, 0x2c72601f, 0x9fe64ddc, + 0xf16a569d, 0x23bf101b, 0x4d330b5a, 0xfea72699, 0x902b3dd8, + 0xde080681, 0xb0841dc0, 0x03103003, 0x6d9c2b42, 0xbf496dc4, + 0xd1c57685, 0x62515b46, 0x0cdd4007, 0x1c8ad00b, 0x7206cb4a, + 0xc192e689, 0xaf1efdc8, 0x7dcbbb4e, 0x1347a00f, 0xa0d38dcc, + 0xce5f968d}, + {0x00000000, 0xe71da697, 0x154a4b6f, 0xf257edf8, 0x2a9496de, + 0xcd893049, 0x3fdeddb1, 0xd8c37b26, 0x55292dbc, 0xb2348b2b, + 0x406366d3, 0xa77ec044, 0x7fbdbb62, 0x98a01df5, 0x6af7f00d, + 0x8dea569a, 0xaa525b78, 0x4d4ffdef, 0xbf181017, 0x5805b680, + 0x80c6cda6, 0x67db6b31, 0x958c86c9, 0x7291205e, 0xff7b76c4, + 0x1866d053, 0xea313dab, 0x0d2c9b3c, 0xd5efe01a, 0x32f2468d, + 0xc0a5ab75, 0x27b80de2, 0x8fd5b0b1, 0x68c81626, 0x9a9ffbde, + 0x7d825d49, 0xa541266f, 0x425c80f8, 0xb00b6d00, 0x5716cb97, + 0xdafc9d0d, 0x3de13b9a, 0xcfb6d662, 0x28ab70f5, 0xf0680bd3, + 0x1775ad44, 0xe52240bc, 0x023fe62b, 0x2587ebc9, 0xc29a4d5e, + 0x30cda0a6, 0xd7d00631, 0x0f137d17, 0xe80edb80, 0x1a593678, + 0xfd4490ef, 0x70aec675, 0x97b360e2, 0x65e48d1a, 0x82f92b8d, + 0x5a3a50ab, 0xbd27f63c, 0x4f701bc4, 0xa86dbd53, 0xc4da6723, + 0x23c7c1b4, 0xd1902c4c, 0x368d8adb, 0xee4ef1fd, 0x0953576a, + 0xfb04ba92, 0x1c191c05, 0x91f34a9f, 0x76eeec08, 0x84b901f0, + 0x63a4a767, 0xbb67dc41, 0x5c7a7ad6, 0xae2d972e, 0x493031b9, + 0x6e883c5b, 0x89959acc, 0x7bc27734, 0x9cdfd1a3, 0x441caa85, + 0xa3010c12, 0x5156e1ea, 0xb64b477d, 0x3ba111e7, 0xdcbcb770, + 0x2eeb5a88, 0xc9f6fc1f, 0x11358739, 0xf62821ae, 0x047fcc56, + 0xe3626ac1, 0x4b0fd792, 0xac127105, 0x5e459cfd, 0xb9583a6a, + 0x619b414c, 0x8686e7db, 0x74d10a23, 0x93ccacb4, 0x1e26fa2e, + 0xf93b5cb9, 0x0b6cb141, 0xec7117d6, 0x34b26cf0, 0xd3afca67, + 0x21f8279f, 0xc6e58108, 0xe15d8cea, 0x06402a7d, 0xf417c785, + 0x130a6112, 0xcbc91a34, 0x2cd4bca3, 0xde83515b, 0x399ef7cc, + 0xb474a156, 0x536907c1, 0xa13eea39, 0x46234cae, 0x9ee03788, + 0x79fd911f, 0x8baa7ce7, 0x6cb7da70, 0x52c5c807, 0xb5d86e90, + 0x478f8368, 0xa09225ff, 0x78515ed9, 0x9f4cf84e, 0x6d1b15b6, + 0x8a06b321, 0x07ece5bb, 0xe0f1432c, 0x12a6aed4, 0xf5bb0843, + 0x2d787365, 0xca65d5f2, 0x3832380a, 0xdf2f9e9d, 0xf897937f, + 0x1f8a35e8, 0xedddd810, 0x0ac07e87, 0xd20305a1, 0x351ea336, + 0xc7494ece, 0x2054e859, 0xadbebec3, 0x4aa31854, 0xb8f4f5ac, + 0x5fe9533b, 0x872a281d, 0x60378e8a, 0x92606372, 0x757dc5e5, + 0xdd1078b6, 0x3a0dde21, 0xc85a33d9, 0x2f47954e, 0xf784ee68, + 0x109948ff, 0xe2cea507, 0x05d30390, 0x8839550a, 0x6f24f39d, + 0x9d731e65, 0x7a6eb8f2, 0xa2adc3d4, 0x45b06543, 0xb7e788bb, + 0x50fa2e2c, 0x774223ce, 0x905f8559, 0x620868a1, 0x8515ce36, + 0x5dd6b510, 0xbacb1387, 0x489cfe7f, 0xaf8158e8, 0x226b0e72, + 0xc576a8e5, 0x3721451d, 0xd03ce38a, 0x08ff98ac, 0xefe23e3b, + 0x1db5d3c3, 0xfaa87554, 0x961faf24, 0x710209b3, 0x8355e44b, + 0x644842dc, 0xbc8b39fa, 0x5b969f6d, 0xa9c17295, 0x4edcd402, + 0xc3368298, 0x242b240f, 0xd67cc9f7, 0x31616f60, 0xe9a21446, + 0x0ebfb2d1, 0xfce85f29, 0x1bf5f9be, 0x3c4df45c, 0xdb5052cb, + 0x2907bf33, 0xce1a19a4, 0x16d96282, 0xf1c4c415, 0x039329ed, + 0xe48e8f7a, 0x6964d9e0, 0x8e797f77, 0x7c2e928f, 0x9b333418, + 0x43f04f3e, 0xa4ede9a9, 0x56ba0451, 0xb1a7a2c6, 0x19ca1f95, + 0xfed7b902, 0x0c8054fa, 0xeb9df26d, 0x335e894b, 0xd4432fdc, + 0x2614c224, 0xc10964b3, 0x4ce33229, 0xabfe94be, 0x59a97946, + 0xbeb4dfd1, 0x6677a4f7, 0x816a0260, 0x733def98, 0x9420490f, + 0xb39844ed, 0x5485e27a, 0xa6d20f82, 0x41cfa915, 0x990cd233, + 0x7e1174a4, 0x8c46995c, 0x6b5b3fcb, 0xe6b16951, 0x01accfc6, + 0xf3fb223e, 0x14e684a9, 0xcc25ff8f, 0x2b385918, 0xd96fb4e0, + 0x3e721277}, + {0x00000000, 0xa58b900e, 0x9066265d, 0x35edb653, 0xfbbd4afb, + 0x5e36daf5, 0x6bdb6ca6, 0xce50fca8, 0x2c0b93b7, 0x898003b9, + 0xbc6db5ea, 0x19e625e4, 0xd7b6d94c, 0x723d4942, 0x47d0ff11, + 0xe25b6f1f, 0x5817276e, 0xfd9cb760, 0xc8710133, 0x6dfa913d, + 0xa3aa6d95, 0x0621fd9b, 0x33cc4bc8, 0x9647dbc6, 0x741cb4d9, + 0xd19724d7, 0xe47a9284, 0x41f1028a, 0x8fa1fe22, 0x2a2a6e2c, + 0x1fc7d87f, 0xba4c4871, 0xb02e4edc, 0x15a5ded2, 0x20486881, + 0x85c3f88f, 0x4b930427, 0xee189429, 0xdbf5227a, 0x7e7eb274, + 0x9c25dd6b, 0x39ae4d65, 0x0c43fb36, 0xa9c86b38, 0x67989790, + 0xc213079e, 0xf7feb1cd, 0x527521c3, 0xe83969b2, 0x4db2f9bc, + 0x785f4fef, 0xddd4dfe1, 0x13842349, 0xb60fb347, 0x83e20514, + 0x2669951a, 0xc432fa05, 0x61b96a0b, 0x5454dc58, 0xf1df4c56, + 0x3f8fb0fe, 0x9a0420f0, 0xafe996a3, 0x0a6206ad, 0xbb2d9bf9, + 0x1ea60bf7, 0x2b4bbda4, 0x8ec02daa, 0x4090d102, 0xe51b410c, + 0xd0f6f75f, 0x757d6751, 0x9726084e, 0x32ad9840, 0x07402e13, + 0xa2cbbe1d, 0x6c9b42b5, 0xc910d2bb, 0xfcfd64e8, 0x5976f4e6, + 0xe33abc97, 0x46b12c99, 0x735c9aca, 0xd6d70ac4, 0x1887f66c, + 0xbd0c6662, 0x88e1d031, 0x2d6a403f, 0xcf312f20, 0x6ababf2e, + 0x5f57097d, 0xfadc9973, 0x348c65db, 0x9107f5d5, 0xa4ea4386, + 0x0161d388, 0x0b03d525, 0xae88452b, 0x9b65f378, 0x3eee6376, + 0xf0be9fde, 0x55350fd0, 0x60d8b983, 0xc553298d, 0x27084692, + 0x8283d69c, 0xb76e60cf, 0x12e5f0c1, 0xdcb50c69, 0x793e9c67, + 0x4cd32a34, 0xe958ba3a, 0x5314f24b, 0xf69f6245, 0xc372d416, + 0x66f94418, 0xa8a9b8b0, 0x0d2228be, 0x38cf9eed, 0x9d440ee3, + 0x7f1f61fc, 0xda94f1f2, 0xef7947a1, 0x4af2d7af, 0x84a22b07, + 0x2129bb09, 0x14c40d5a, 0xb14f9d54, 0xad2a31b3, 0x08a1a1bd, + 0x3d4c17ee, 0x98c787e0, 0x56977b48, 0xf31ceb46, 0xc6f15d15, + 0x637acd1b, 0x8121a204, 0x24aa320a, 0x11478459, 0xb4cc1457, + 0x7a9ce8ff, 0xdf1778f1, 0xeafacea2, 0x4f715eac, 0xf53d16dd, + 0x50b686d3, 0x655b3080, 0xc0d0a08e, 0x0e805c26, 0xab0bcc28, + 0x9ee67a7b, 0x3b6dea75, 0xd936856a, 0x7cbd1564, 0x4950a337, + 0xecdb3339, 0x228bcf91, 0x87005f9f, 0xb2ede9cc, 0x176679c2, + 0x1d047f6f, 0xb88fef61, 0x8d625932, 0x28e9c93c, 0xe6b93594, + 0x4332a59a, 0x76df13c9, 0xd35483c7, 0x310fecd8, 0x94847cd6, + 0xa169ca85, 0x04e25a8b, 0xcab2a623, 0x6f39362d, 0x5ad4807e, + 0xff5f1070, 0x45135801, 0xe098c80f, 0xd5757e5c, 0x70feee52, + 0xbeae12fa, 0x1b2582f4, 0x2ec834a7, 0x8b43a4a9, 0x6918cbb6, + 0xcc935bb8, 0xf97eedeb, 0x5cf57de5, 0x92a5814d, 0x372e1143, + 0x02c3a710, 0xa748371e, 0x1607aa4a, 0xb38c3a44, 0x86618c17, + 0x23ea1c19, 0xedbae0b1, 0x483170bf, 0x7ddcc6ec, 0xd85756e2, + 0x3a0c39fd, 0x9f87a9f3, 0xaa6a1fa0, 0x0fe18fae, 0xc1b17306, + 0x643ae308, 0x51d7555b, 0xf45cc555, 0x4e108d24, 0xeb9b1d2a, + 0xde76ab79, 0x7bfd3b77, 0xb5adc7df, 0x102657d1, 0x25cbe182, + 0x8040718c, 0x621b1e93, 0xc7908e9d, 0xf27d38ce, 0x57f6a8c0, + 0x99a65468, 0x3c2dc466, 0x09c07235, 0xac4be23b, 0xa629e496, + 0x03a27498, 0x364fc2cb, 0x93c452c5, 0x5d94ae6d, 0xf81f3e63, + 0xcdf28830, 0x6879183e, 0x8a227721, 0x2fa9e72f, 0x1a44517c, + 0xbfcfc172, 0x719f3dda, 0xd414add4, 0xe1f91b87, 0x44728b89, + 0xfe3ec3f8, 0x5bb553f6, 0x6e58e5a5, 0xcbd375ab, 0x05838903, + 0xa008190d, 0x95e5af5e, 0x306e3f50, 0xd235504f, 0x77bec041, + 0x42537612, 0xe7d8e61c, 0x29881ab4, 0x8c038aba, 0xb9ee3ce9, + 0x1c65ace7}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x0000000000000000, 0x0e908ba500000000, 0x5d26669000000000, + 0x53b6ed3500000000, 0xfb4abdfb00000000, 0xf5da365e00000000, + 0xa66cdb6b00000000, 0xa8fc50ce00000000, 0xb7930b2c00000000, + 0xb903808900000000, 0xeab56dbc00000000, 0xe425e61900000000, + 0x4cd9b6d700000000, 0x42493d7200000000, 0x11ffd04700000000, + 0x1f6f5be200000000, 0x6e27175800000000, 0x60b79cfd00000000, + 0x330171c800000000, 0x3d91fa6d00000000, 0x956daaa300000000, + 0x9bfd210600000000, 0xc84bcc3300000000, 0xc6db479600000000, + 0xd9b41c7400000000, 0xd72497d100000000, 0x84927ae400000000, + 0x8a02f14100000000, 0x22fea18f00000000, 0x2c6e2a2a00000000, + 0x7fd8c71f00000000, 0x71484cba00000000, 0xdc4e2eb000000000, + 0xd2dea51500000000, 0x8168482000000000, 0x8ff8c38500000000, + 0x2704934b00000000, 0x299418ee00000000, 0x7a22f5db00000000, + 0x74b27e7e00000000, 0x6bdd259c00000000, 0x654dae3900000000, + 0x36fb430c00000000, 0x386bc8a900000000, 0x9097986700000000, + 0x9e0713c200000000, 0xcdb1fef700000000, 0xc321755200000000, + 0xb26939e800000000, 0xbcf9b24d00000000, 0xef4f5f7800000000, + 0xe1dfd4dd00000000, 0x4923841300000000, 0x47b30fb600000000, + 0x1405e28300000000, 0x1a95692600000000, 0x05fa32c400000000, + 0x0b6ab96100000000, 0x58dc545400000000, 0x564cdff100000000, + 0xfeb08f3f00000000, 0xf020049a00000000, 0xa396e9af00000000, + 0xad06620a00000000, 0xf99b2dbb00000000, 0xf70ba61e00000000, + 0xa4bd4b2b00000000, 0xaa2dc08e00000000, 0x02d1904000000000, + 0x0c411be500000000, 0x5ff7f6d000000000, 0x51677d7500000000, + 0x4e08269700000000, 0x4098ad3200000000, 0x132e400700000000, + 0x1dbecba200000000, 0xb5429b6c00000000, 0xbbd210c900000000, + 0xe864fdfc00000000, 0xe6f4765900000000, 0x97bc3ae300000000, + 0x992cb14600000000, 0xca9a5c7300000000, 0xc40ad7d600000000, + 0x6cf6871800000000, 0x62660cbd00000000, 0x31d0e18800000000, + 0x3f406a2d00000000, 0x202f31cf00000000, 0x2ebfba6a00000000, + 0x7d09575f00000000, 0x7399dcfa00000000, 0xdb658c3400000000, + 0xd5f5079100000000, 0x8643eaa400000000, 0x88d3610100000000, + 0x25d5030b00000000, 0x2b4588ae00000000, 0x78f3659b00000000, + 0x7663ee3e00000000, 0xde9fbef000000000, 0xd00f355500000000, + 0x83b9d86000000000, 0x8d2953c500000000, 0x9246082700000000, + 0x9cd6838200000000, 0xcf606eb700000000, 0xc1f0e51200000000, + 0x690cb5dc00000000, 0x679c3e7900000000, 0x342ad34c00000000, + 0x3aba58e900000000, 0x4bf2145300000000, 0x45629ff600000000, + 0x16d472c300000000, 0x1844f96600000000, 0xb0b8a9a800000000, + 0xbe28220d00000000, 0xed9ecf3800000000, 0xe30e449d00000000, + 0xfc611f7f00000000, 0xf2f194da00000000, 0xa14779ef00000000, + 0xafd7f24a00000000, 0x072ba28400000000, 0x09bb292100000000, + 0x5a0dc41400000000, 0x549d4fb100000000, 0xb3312aad00000000, + 0xbda1a10800000000, 0xee174c3d00000000, 0xe087c79800000000, + 0x487b975600000000, 0x46eb1cf300000000, 0x155df1c600000000, + 0x1bcd7a6300000000, 0x04a2218100000000, 0x0a32aa2400000000, + 0x5984471100000000, 0x5714ccb400000000, 0xffe89c7a00000000, + 0xf17817df00000000, 0xa2cefaea00000000, 0xac5e714f00000000, + 0xdd163df500000000, 0xd386b65000000000, 0x80305b6500000000, + 0x8ea0d0c000000000, 0x265c800e00000000, 0x28cc0bab00000000, + 0x7b7ae69e00000000, 0x75ea6d3b00000000, 0x6a8536d900000000, + 0x6415bd7c00000000, 0x37a3504900000000, 0x3933dbec00000000, + 0x91cf8b2200000000, 0x9f5f008700000000, 0xcce9edb200000000, + 0xc279661700000000, 0x6f7f041d00000000, 0x61ef8fb800000000, + 0x3259628d00000000, 0x3cc9e92800000000, 0x9435b9e600000000, + 0x9aa5324300000000, 0xc913df7600000000, 0xc78354d300000000, + 0xd8ec0f3100000000, 0xd67c849400000000, 0x85ca69a100000000, + 0x8b5ae20400000000, 0x23a6b2ca00000000, 0x2d36396f00000000, + 0x7e80d45a00000000, 0x70105fff00000000, 0x0158134500000000, + 0x0fc898e000000000, 0x5c7e75d500000000, 0x52eefe7000000000, + 0xfa12aebe00000000, 0xf482251b00000000, 0xa734c82e00000000, + 0xa9a4438b00000000, 0xb6cb186900000000, 0xb85b93cc00000000, + 0xebed7ef900000000, 0xe57df55c00000000, 0x4d81a59200000000, + 0x43112e3700000000, 0x10a7c30200000000, 0x1e3748a700000000, + 0x4aaa071600000000, 0x443a8cb300000000, 0x178c618600000000, + 0x191cea2300000000, 0xb1e0baed00000000, 0xbf70314800000000, + 0xecc6dc7d00000000, 0xe25657d800000000, 0xfd390c3a00000000, + 0xf3a9879f00000000, 0xa01f6aaa00000000, 0xae8fe10f00000000, + 0x0673b1c100000000, 0x08e33a6400000000, 0x5b55d75100000000, + 0x55c55cf400000000, 0x248d104e00000000, 0x2a1d9beb00000000, + 0x79ab76de00000000, 0x773bfd7b00000000, 0xdfc7adb500000000, + 0xd157261000000000, 0x82e1cb2500000000, 0x8c71408000000000, + 0x931e1b6200000000, 0x9d8e90c700000000, 0xce387df200000000, + 0xc0a8f65700000000, 0x6854a69900000000, 0x66c42d3c00000000, + 0x3572c00900000000, 0x3be24bac00000000, 0x96e429a600000000, + 0x9874a20300000000, 0xcbc24f3600000000, 0xc552c49300000000, + 0x6dae945d00000000, 0x633e1ff800000000, 0x3088f2cd00000000, + 0x3e18796800000000, 0x2177228a00000000, 0x2fe7a92f00000000, + 0x7c51441a00000000, 0x72c1cfbf00000000, 0xda3d9f7100000000, + 0xd4ad14d400000000, 0x871bf9e100000000, 0x898b724400000000, + 0xf8c33efe00000000, 0xf653b55b00000000, 0xa5e5586e00000000, + 0xab75d3cb00000000, 0x0389830500000000, 0x0d1908a000000000, + 0x5eafe59500000000, 0x503f6e3000000000, 0x4f5035d200000000, + 0x41c0be7700000000, 0x1276534200000000, 0x1ce6d8e700000000, + 0xb41a882900000000, 0xba8a038c00000000, 0xe93ceeb900000000, + 0xe7ac651c00000000}, + {0x0000000000000000, 0x97a61de700000000, 0x6f4b4a1500000000, + 0xf8ed57f200000000, 0xde96942a00000000, 0x493089cd00000000, + 0xb1ddde3f00000000, 0x267bc3d800000000, 0xbc2d295500000000, + 0x2b8b34b200000000, 0xd366634000000000, 0x44c07ea700000000, + 0x62bbbd7f00000000, 0xf51da09800000000, 0x0df0f76a00000000, + 0x9a56ea8d00000000, 0x785b52aa00000000, 0xeffd4f4d00000000, + 0x171018bf00000000, 0x80b6055800000000, 0xa6cdc68000000000, + 0x316bdb6700000000, 0xc9868c9500000000, 0x5e20917200000000, + 0xc4767bff00000000, 0x53d0661800000000, 0xab3d31ea00000000, + 0x3c9b2c0d00000000, 0x1ae0efd500000000, 0x8d46f23200000000, + 0x75aba5c000000000, 0xe20db82700000000, 0xb1b0d58f00000000, + 0x2616c86800000000, 0xdefb9f9a00000000, 0x495d827d00000000, + 0x6f2641a500000000, 0xf8805c4200000000, 0x006d0bb000000000, + 0x97cb165700000000, 0x0d9dfcda00000000, 0x9a3be13d00000000, + 0x62d6b6cf00000000, 0xf570ab2800000000, 0xd30b68f000000000, + 0x44ad751700000000, 0xbc4022e500000000, 0x2be63f0200000000, + 0xc9eb872500000000, 0x5e4d9ac200000000, 0xa6a0cd3000000000, + 0x3106d0d700000000, 0x177d130f00000000, 0x80db0ee800000000, + 0x7836591a00000000, 0xef9044fd00000000, 0x75c6ae7000000000, + 0xe260b39700000000, 0x1a8de46500000000, 0x8d2bf98200000000, + 0xab503a5a00000000, 0x3cf627bd00000000, 0xc41b704f00000000, + 0x53bd6da800000000, 0x2367dac400000000, 0xb4c1c72300000000, + 0x4c2c90d100000000, 0xdb8a8d3600000000, 0xfdf14eee00000000, + 0x6a57530900000000, 0x92ba04fb00000000, 0x051c191c00000000, + 0x9f4af39100000000, 0x08ecee7600000000, 0xf001b98400000000, + 0x67a7a46300000000, 0x41dc67bb00000000, 0xd67a7a5c00000000, + 0x2e972dae00000000, 0xb931304900000000, 0x5b3c886e00000000, + 0xcc9a958900000000, 0x3477c27b00000000, 0xa3d1df9c00000000, + 0x85aa1c4400000000, 0x120c01a300000000, 0xeae1565100000000, + 0x7d474bb600000000, 0xe711a13b00000000, 0x70b7bcdc00000000, + 0x885aeb2e00000000, 0x1ffcf6c900000000, 0x3987351100000000, + 0xae2128f600000000, 0x56cc7f0400000000, 0xc16a62e300000000, + 0x92d70f4b00000000, 0x057112ac00000000, 0xfd9c455e00000000, + 0x6a3a58b900000000, 0x4c419b6100000000, 0xdbe7868600000000, + 0x230ad17400000000, 0xb4accc9300000000, 0x2efa261e00000000, + 0xb95c3bf900000000, 0x41b16c0b00000000, 0xd61771ec00000000, + 0xf06cb23400000000, 0x67caafd300000000, 0x9f27f82100000000, + 0x0881e5c600000000, 0xea8c5de100000000, 0x7d2a400600000000, + 0x85c717f400000000, 0x12610a1300000000, 0x341ac9cb00000000, + 0xa3bcd42c00000000, 0x5b5183de00000000, 0xccf79e3900000000, + 0x56a174b400000000, 0xc107695300000000, 0x39ea3ea100000000, + 0xae4c234600000000, 0x8837e09e00000000, 0x1f91fd7900000000, + 0xe77caa8b00000000, 0x70dab76c00000000, 0x07c8c55200000000, + 0x906ed8b500000000, 0x68838f4700000000, 0xff2592a000000000, + 0xd95e517800000000, 0x4ef84c9f00000000, 0xb6151b6d00000000, + 0x21b3068a00000000, 0xbbe5ec0700000000, 0x2c43f1e000000000, + 0xd4aea61200000000, 0x4308bbf500000000, 0x6573782d00000000, + 0xf2d565ca00000000, 0x0a38323800000000, 0x9d9e2fdf00000000, + 0x7f9397f800000000, 0xe8358a1f00000000, 0x10d8dded00000000, + 0x877ec00a00000000, 0xa10503d200000000, 0x36a31e3500000000, + 0xce4e49c700000000, 0x59e8542000000000, 0xc3bebead00000000, + 0x5418a34a00000000, 0xacf5f4b800000000, 0x3b53e95f00000000, + 0x1d282a8700000000, 0x8a8e376000000000, 0x7263609200000000, + 0xe5c57d7500000000, 0xb67810dd00000000, 0x21de0d3a00000000, + 0xd9335ac800000000, 0x4e95472f00000000, 0x68ee84f700000000, + 0xff48991000000000, 0x07a5cee200000000, 0x9003d30500000000, + 0x0a55398800000000, 0x9df3246f00000000, 0x651e739d00000000, + 0xf2b86e7a00000000, 0xd4c3ada200000000, 0x4365b04500000000, + 0xbb88e7b700000000, 0x2c2efa5000000000, 0xce23427700000000, + 0x59855f9000000000, 0xa168086200000000, 0x36ce158500000000, + 0x10b5d65d00000000, 0x8713cbba00000000, 0x7ffe9c4800000000, + 0xe85881af00000000, 0x720e6b2200000000, 0xe5a876c500000000, + 0x1d45213700000000, 0x8ae33cd000000000, 0xac98ff0800000000, + 0x3b3ee2ef00000000, 0xc3d3b51d00000000, 0x5475a8fa00000000, + 0x24af1f9600000000, 0xb309027100000000, 0x4be4558300000000, + 0xdc42486400000000, 0xfa398bbc00000000, 0x6d9f965b00000000, + 0x9572c1a900000000, 0x02d4dc4e00000000, 0x988236c300000000, + 0x0f242b2400000000, 0xf7c97cd600000000, 0x606f613100000000, + 0x4614a2e900000000, 0xd1b2bf0e00000000, 0x295fe8fc00000000, + 0xbef9f51b00000000, 0x5cf44d3c00000000, 0xcb5250db00000000, + 0x33bf072900000000, 0xa4191ace00000000, 0x8262d91600000000, + 0x15c4c4f100000000, 0xed29930300000000, 0x7a8f8ee400000000, + 0xe0d9646900000000, 0x777f798e00000000, 0x8f922e7c00000000, + 0x1834339b00000000, 0x3e4ff04300000000, 0xa9e9eda400000000, + 0x5104ba5600000000, 0xc6a2a7b100000000, 0x951fca1900000000, + 0x02b9d7fe00000000, 0xfa54800c00000000, 0x6df29deb00000000, + 0x4b895e3300000000, 0xdc2f43d400000000, 0x24c2142600000000, + 0xb36409c100000000, 0x2932e34c00000000, 0xbe94feab00000000, + 0x4679a95900000000, 0xd1dfb4be00000000, 0xf7a4776600000000, + 0x60026a8100000000, 0x98ef3d7300000000, 0x0f49209400000000, + 0xed4498b300000000, 0x7ae2855400000000, 0x820fd2a600000000, + 0x15a9cf4100000000, 0x33d20c9900000000, 0xa474117e00000000, + 0x5c99468c00000000, 0xcb3f5b6b00000000, 0x5169b1e600000000, + 0xc6cfac0100000000, 0x3e22fbf300000000, 0xa984e61400000000, + 0x8fff25cc00000000, 0x1859382b00000000, 0xe0b46fd900000000, + 0x7712723e00000000}, + {0x0000000000000000, 0x411b8c6e00000000, 0x823618dd00000000, + 0xc32d94b300000000, 0x456b416100000000, 0x0470cd0f00000000, + 0xc75d59bc00000000, 0x8646d5d200000000, 0x8ad682c200000000, + 0xcbcd0eac00000000, 0x08e09a1f00000000, 0x49fb167100000000, + 0xcfbdc3a300000000, 0x8ea64fcd00000000, 0x4d8bdb7e00000000, + 0x0c90571000000000, 0x55ab745e00000000, 0x14b0f83000000000, + 0xd79d6c8300000000, 0x9686e0ed00000000, 0x10c0353f00000000, + 0x51dbb95100000000, 0x92f62de200000000, 0xd3eda18c00000000, + 0xdf7df69c00000000, 0x9e667af200000000, 0x5d4bee4100000000, + 0x1c50622f00000000, 0x9a16b7fd00000000, 0xdb0d3b9300000000, + 0x1820af2000000000, 0x593b234e00000000, 0xaa56e9bc00000000, + 0xeb4d65d200000000, 0x2860f16100000000, 0x697b7d0f00000000, + 0xef3da8dd00000000, 0xae2624b300000000, 0x6d0bb00000000000, + 0x2c103c6e00000000, 0x20806b7e00000000, 0x619be71000000000, + 0xa2b673a300000000, 0xe3adffcd00000000, 0x65eb2a1f00000000, + 0x24f0a67100000000, 0xe7dd32c200000000, 0xa6c6beac00000000, + 0xfffd9de200000000, 0xbee6118c00000000, 0x7dcb853f00000000, + 0x3cd0095100000000, 0xba96dc8300000000, 0xfb8d50ed00000000, + 0x38a0c45e00000000, 0x79bb483000000000, 0x752b1f2000000000, + 0x3430934e00000000, 0xf71d07fd00000000, 0xb6068b9300000000, + 0x30405e4100000000, 0x715bd22f00000000, 0xb276469c00000000, + 0xf36dcaf200000000, 0x15aba3a200000000, 0x54b02fcc00000000, + 0x979dbb7f00000000, 0xd686371100000000, 0x50c0e2c300000000, + 0x11db6ead00000000, 0xd2f6fa1e00000000, 0x93ed767000000000, + 0x9f7d216000000000, 0xde66ad0e00000000, 0x1d4b39bd00000000, + 0x5c50b5d300000000, 0xda16600100000000, 0x9b0dec6f00000000, + 0x582078dc00000000, 0x193bf4b200000000, 0x4000d7fc00000000, + 0x011b5b9200000000, 0xc236cf2100000000, 0x832d434f00000000, + 0x056b969d00000000, 0x44701af300000000, 0x875d8e4000000000, + 0xc646022e00000000, 0xcad6553e00000000, 0x8bcdd95000000000, + 0x48e04de300000000, 0x09fbc18d00000000, 0x8fbd145f00000000, + 0xcea6983100000000, 0x0d8b0c8200000000, 0x4c9080ec00000000, + 0xbffd4a1e00000000, 0xfee6c67000000000, 0x3dcb52c300000000, + 0x7cd0dead00000000, 0xfa960b7f00000000, 0xbb8d871100000000, + 0x78a013a200000000, 0x39bb9fcc00000000, 0x352bc8dc00000000, + 0x743044b200000000, 0xb71dd00100000000, 0xf6065c6f00000000, + 0x704089bd00000000, 0x315b05d300000000, 0xf276916000000000, + 0xb36d1d0e00000000, 0xea563e4000000000, 0xab4db22e00000000, + 0x6860269d00000000, 0x297baaf300000000, 0xaf3d7f2100000000, + 0xee26f34f00000000, 0x2d0b67fc00000000, 0x6c10eb9200000000, + 0x6080bc8200000000, 0x219b30ec00000000, 0xe2b6a45f00000000, + 0xa3ad283100000000, 0x25ebfde300000000, 0x64f0718d00000000, + 0xa7dde53e00000000, 0xe6c6695000000000, 0x6b50369e00000000, + 0x2a4bbaf000000000, 0xe9662e4300000000, 0xa87da22d00000000, + 0x2e3b77ff00000000, 0x6f20fb9100000000, 0xac0d6f2200000000, + 0xed16e34c00000000, 0xe186b45c00000000, 0xa09d383200000000, + 0x63b0ac8100000000, 0x22ab20ef00000000, 0xa4edf53d00000000, + 0xe5f6795300000000, 0x26dbede000000000, 0x67c0618e00000000, + 0x3efb42c000000000, 0x7fe0ceae00000000, 0xbccd5a1d00000000, + 0xfdd6d67300000000, 0x7b9003a100000000, 0x3a8b8fcf00000000, + 0xf9a61b7c00000000, 0xb8bd971200000000, 0xb42dc00200000000, + 0xf5364c6c00000000, 0x361bd8df00000000, 0x770054b100000000, + 0xf146816300000000, 0xb05d0d0d00000000, 0x737099be00000000, + 0x326b15d000000000, 0xc106df2200000000, 0x801d534c00000000, + 0x4330c7ff00000000, 0x022b4b9100000000, 0x846d9e4300000000, + 0xc576122d00000000, 0x065b869e00000000, 0x47400af000000000, + 0x4bd05de000000000, 0x0acbd18e00000000, 0xc9e6453d00000000, + 0x88fdc95300000000, 0x0ebb1c8100000000, 0x4fa090ef00000000, + 0x8c8d045c00000000, 0xcd96883200000000, 0x94adab7c00000000, + 0xd5b6271200000000, 0x169bb3a100000000, 0x57803fcf00000000, + 0xd1c6ea1d00000000, 0x90dd667300000000, 0x53f0f2c000000000, + 0x12eb7eae00000000, 0x1e7b29be00000000, 0x5f60a5d000000000, + 0x9c4d316300000000, 0xdd56bd0d00000000, 0x5b1068df00000000, + 0x1a0be4b100000000, 0xd926700200000000, 0x983dfc6c00000000, + 0x7efb953c00000000, 0x3fe0195200000000, 0xfccd8de100000000, + 0xbdd6018f00000000, 0x3b90d45d00000000, 0x7a8b583300000000, + 0xb9a6cc8000000000, 0xf8bd40ee00000000, 0xf42d17fe00000000, + 0xb5369b9000000000, 0x761b0f2300000000, 0x3700834d00000000, + 0xb146569f00000000, 0xf05ddaf100000000, 0x33704e4200000000, + 0x726bc22c00000000, 0x2b50e16200000000, 0x6a4b6d0c00000000, + 0xa966f9bf00000000, 0xe87d75d100000000, 0x6e3ba00300000000, + 0x2f202c6d00000000, 0xec0db8de00000000, 0xad1634b000000000, + 0xa18663a000000000, 0xe09defce00000000, 0x23b07b7d00000000, + 0x62abf71300000000, 0xe4ed22c100000000, 0xa5f6aeaf00000000, + 0x66db3a1c00000000, 0x27c0b67200000000, 0xd4ad7c8000000000, + 0x95b6f0ee00000000, 0x569b645d00000000, 0x1780e83300000000, + 0x91c63de100000000, 0xd0ddb18f00000000, 0x13f0253c00000000, + 0x52eba95200000000, 0x5e7bfe4200000000, 0x1f60722c00000000, + 0xdc4de69f00000000, 0x9d566af100000000, 0x1b10bf2300000000, + 0x5a0b334d00000000, 0x9926a7fe00000000, 0xd83d2b9000000000, + 0x810608de00000000, 0xc01d84b000000000, 0x0330100300000000, + 0x422b9c6d00000000, 0xc46d49bf00000000, 0x8576c5d100000000, + 0x465b516200000000, 0x0740dd0c00000000, 0x0bd08a1c00000000, + 0x4acb067200000000, 0x89e692c100000000, 0xc8fd1eaf00000000, + 0x4ebbcb7d00000000, 0x0fa0471300000000, 0xcc8dd3a000000000, + 0x8d965fce00000000}, + {0x0000000000000000, 0x1dfdb50100000000, 0x3afa6b0300000000, + 0x2707de0200000000, 0x74f4d70600000000, 0x6909620700000000, + 0x4e0ebc0500000000, 0x53f3090400000000, 0xe8e8af0d00000000, + 0xf5151a0c00000000, 0xd212c40e00000000, 0xcfef710f00000000, + 0x9c1c780b00000000, 0x81e1cd0a00000000, 0xa6e6130800000000, + 0xbb1ba60900000000, 0xd0d15f1b00000000, 0xcd2cea1a00000000, + 0xea2b341800000000, 0xf7d6811900000000, 0xa425881d00000000, + 0xb9d83d1c00000000, 0x9edfe31e00000000, 0x8322561f00000000, + 0x3839f01600000000, 0x25c4451700000000, 0x02c39b1500000000, + 0x1f3e2e1400000000, 0x4ccd271000000000, 0x5130921100000000, + 0x76374c1300000000, 0x6bcaf91200000000, 0xa0a3bf3600000000, + 0xbd5e0a3700000000, 0x9a59d43500000000, 0x87a4613400000000, + 0xd457683000000000, 0xc9aadd3100000000, 0xeead033300000000, + 0xf350b63200000000, 0x484b103b00000000, 0x55b6a53a00000000, + 0x72b17b3800000000, 0x6f4cce3900000000, 0x3cbfc73d00000000, + 0x2142723c00000000, 0x0645ac3e00000000, 0x1bb8193f00000000, + 0x7072e02d00000000, 0x6d8f552c00000000, 0x4a888b2e00000000, + 0x57753e2f00000000, 0x0486372b00000000, 0x197b822a00000000, + 0x3e7c5c2800000000, 0x2381e92900000000, 0x989a4f2000000000, + 0x8567fa2100000000, 0xa260242300000000, 0xbf9d912200000000, + 0xec6e982600000000, 0xf1932d2700000000, 0xd694f32500000000, + 0xcb69462400000000, 0x40477f6d00000000, 0x5dbaca6c00000000, + 0x7abd146e00000000, 0x6740a16f00000000, 0x34b3a86b00000000, + 0x294e1d6a00000000, 0x0e49c36800000000, 0x13b4766900000000, + 0xa8afd06000000000, 0xb552656100000000, 0x9255bb6300000000, + 0x8fa80e6200000000, 0xdc5b076600000000, 0xc1a6b26700000000, + 0xe6a16c6500000000, 0xfb5cd96400000000, 0x9096207600000000, + 0x8d6b957700000000, 0xaa6c4b7500000000, 0xb791fe7400000000, + 0xe462f77000000000, 0xf99f427100000000, 0xde989c7300000000, + 0xc365297200000000, 0x787e8f7b00000000, 0x65833a7a00000000, + 0x4284e47800000000, 0x5f79517900000000, 0x0c8a587d00000000, + 0x1177ed7c00000000, 0x3670337e00000000, 0x2b8d867f00000000, + 0xe0e4c05b00000000, 0xfd19755a00000000, 0xda1eab5800000000, + 0xc7e31e5900000000, 0x9410175d00000000, 0x89eda25c00000000, + 0xaeea7c5e00000000, 0xb317c95f00000000, 0x080c6f5600000000, + 0x15f1da5700000000, 0x32f6045500000000, 0x2f0bb15400000000, + 0x7cf8b85000000000, 0x61050d5100000000, 0x4602d35300000000, + 0x5bff665200000000, 0x30359f4000000000, 0x2dc82a4100000000, + 0x0acff44300000000, 0x1732414200000000, 0x44c1484600000000, + 0x593cfd4700000000, 0x7e3b234500000000, 0x63c6964400000000, + 0xd8dd304d00000000, 0xc520854c00000000, 0xe2275b4e00000000, + 0xffdaee4f00000000, 0xac29e74b00000000, 0xb1d4524a00000000, + 0x96d38c4800000000, 0x8b2e394900000000, 0x808efeda00000000, + 0x9d734bdb00000000, 0xba7495d900000000, 0xa78920d800000000, + 0xf47a29dc00000000, 0xe9879cdd00000000, 0xce8042df00000000, + 0xd37df7de00000000, 0x686651d700000000, 0x759be4d600000000, + 0x529c3ad400000000, 0x4f618fd500000000, 0x1c9286d100000000, + 0x016f33d000000000, 0x2668edd200000000, 0x3b9558d300000000, + 0x505fa1c100000000, 0x4da214c000000000, 0x6aa5cac200000000, + 0x77587fc300000000, 0x24ab76c700000000, 0x3956c3c600000000, + 0x1e511dc400000000, 0x03aca8c500000000, 0xb8b70ecc00000000, + 0xa54abbcd00000000, 0x824d65cf00000000, 0x9fb0d0ce00000000, + 0xcc43d9ca00000000, 0xd1be6ccb00000000, 0xf6b9b2c900000000, + 0xeb4407c800000000, 0x202d41ec00000000, 0x3dd0f4ed00000000, + 0x1ad72aef00000000, 0x072a9fee00000000, 0x54d996ea00000000, + 0x492423eb00000000, 0x6e23fde900000000, 0x73de48e800000000, + 0xc8c5eee100000000, 0xd5385be000000000, 0xf23f85e200000000, + 0xefc230e300000000, 0xbc3139e700000000, 0xa1cc8ce600000000, + 0x86cb52e400000000, 0x9b36e7e500000000, 0xf0fc1ef700000000, + 0xed01abf600000000, 0xca0675f400000000, 0xd7fbc0f500000000, + 0x8408c9f100000000, 0x99f57cf000000000, 0xbef2a2f200000000, + 0xa30f17f300000000, 0x1814b1fa00000000, 0x05e904fb00000000, + 0x22eedaf900000000, 0x3f136ff800000000, 0x6ce066fc00000000, + 0x711dd3fd00000000, 0x561a0dff00000000, 0x4be7b8fe00000000, + 0xc0c981b700000000, 0xdd3434b600000000, 0xfa33eab400000000, + 0xe7ce5fb500000000, 0xb43d56b100000000, 0xa9c0e3b000000000, + 0x8ec73db200000000, 0x933a88b300000000, 0x28212eba00000000, + 0x35dc9bbb00000000, 0x12db45b900000000, 0x0f26f0b800000000, + 0x5cd5f9bc00000000, 0x41284cbd00000000, 0x662f92bf00000000, + 0x7bd227be00000000, 0x1018deac00000000, 0x0de56bad00000000, + 0x2ae2b5af00000000, 0x371f00ae00000000, 0x64ec09aa00000000, + 0x7911bcab00000000, 0x5e1662a900000000, 0x43ebd7a800000000, + 0xf8f071a100000000, 0xe50dc4a000000000, 0xc20a1aa200000000, + 0xdff7afa300000000, 0x8c04a6a700000000, 0x91f913a600000000, + 0xb6fecda400000000, 0xab0378a500000000, 0x606a3e8100000000, + 0x7d978b8000000000, 0x5a90558200000000, 0x476de08300000000, + 0x149ee98700000000, 0x09635c8600000000, 0x2e64828400000000, + 0x3399378500000000, 0x8882918c00000000, 0x957f248d00000000, + 0xb278fa8f00000000, 0xaf854f8e00000000, 0xfc76468a00000000, + 0xe18bf38b00000000, 0xc68c2d8900000000, 0xdb71988800000000, + 0xb0bb619a00000000, 0xad46d49b00000000, 0x8a410a9900000000, + 0x97bcbf9800000000, 0xc44fb69c00000000, 0xd9b2039d00000000, + 0xfeb5dd9f00000000, 0xe348689e00000000, 0x5853ce9700000000, + 0x45ae7b9600000000, 0x62a9a59400000000, 0x7f54109500000000, + 0x2ca7199100000000, 0x315aac9000000000, 0x165d729200000000, + 0x0ba0c79300000000}, + {0x0000000000000000, 0x24d9076300000000, 0x48b20fc600000000, + 0x6c6b08a500000000, 0xd1626e5700000000, 0xf5bb693400000000, + 0x99d0619100000000, 0xbd0966f200000000, 0xa2c5dcae00000000, + 0x861cdbcd00000000, 0xea77d36800000000, 0xceaed40b00000000, + 0x73a7b2f900000000, 0x577eb59a00000000, 0x3b15bd3f00000000, + 0x1fccba5c00000000, 0x058dc88600000000, 0x2154cfe500000000, + 0x4d3fc74000000000, 0x69e6c02300000000, 0xd4efa6d100000000, + 0xf036a1b200000000, 0x9c5da91700000000, 0xb884ae7400000000, + 0xa748142800000000, 0x8391134b00000000, 0xeffa1bee00000000, + 0xcb231c8d00000000, 0x762a7a7f00000000, 0x52f37d1c00000000, + 0x3e9875b900000000, 0x1a4172da00000000, 0x4b1ce0d600000000, + 0x6fc5e7b500000000, 0x03aeef1000000000, 0x2777e87300000000, + 0x9a7e8e8100000000, 0xbea789e200000000, 0xd2cc814700000000, + 0xf615862400000000, 0xe9d93c7800000000, 0xcd003b1b00000000, + 0xa16b33be00000000, 0x85b234dd00000000, 0x38bb522f00000000, + 0x1c62554c00000000, 0x70095de900000000, 0x54d05a8a00000000, + 0x4e91285000000000, 0x6a482f3300000000, 0x0623279600000000, + 0x22fa20f500000000, 0x9ff3460700000000, 0xbb2a416400000000, + 0xd74149c100000000, 0xf3984ea200000000, 0xec54f4fe00000000, + 0xc88df39d00000000, 0xa4e6fb3800000000, 0x803ffc5b00000000, + 0x3d369aa900000000, 0x19ef9dca00000000, 0x7584956f00000000, + 0x515d920c00000000, 0xd73eb17600000000, 0xf3e7b61500000000, + 0x9f8cbeb000000000, 0xbb55b9d300000000, 0x065cdf2100000000, + 0x2285d84200000000, 0x4eeed0e700000000, 0x6a37d78400000000, + 0x75fb6dd800000000, 0x51226abb00000000, 0x3d49621e00000000, + 0x1990657d00000000, 0xa499038f00000000, 0x804004ec00000000, + 0xec2b0c4900000000, 0xc8f20b2a00000000, 0xd2b379f000000000, + 0xf66a7e9300000000, 0x9a01763600000000, 0xbed8715500000000, + 0x03d117a700000000, 0x270810c400000000, 0x4b63186100000000, + 0x6fba1f0200000000, 0x7076a55e00000000, 0x54afa23d00000000, + 0x38c4aa9800000000, 0x1c1dadfb00000000, 0xa114cb0900000000, + 0x85cdcc6a00000000, 0xe9a6c4cf00000000, 0xcd7fc3ac00000000, + 0x9c2251a000000000, 0xb8fb56c300000000, 0xd4905e6600000000, + 0xf049590500000000, 0x4d403ff700000000, 0x6999389400000000, + 0x05f2303100000000, 0x212b375200000000, 0x3ee78d0e00000000, + 0x1a3e8a6d00000000, 0x765582c800000000, 0x528c85ab00000000, + 0xef85e35900000000, 0xcb5ce43a00000000, 0xa737ec9f00000000, + 0x83eeebfc00000000, 0x99af992600000000, 0xbd769e4500000000, + 0xd11d96e000000000, 0xf5c4918300000000, 0x48cdf77100000000, + 0x6c14f01200000000, 0x007ff8b700000000, 0x24a6ffd400000000, + 0x3b6a458800000000, 0x1fb342eb00000000, 0x73d84a4e00000000, + 0x57014d2d00000000, 0xea082bdf00000000, 0xced12cbc00000000, + 0xa2ba241900000000, 0x8663237a00000000, 0xae7d62ed00000000, + 0x8aa4658e00000000, 0xe6cf6d2b00000000, 0xc2166a4800000000, + 0x7f1f0cba00000000, 0x5bc60bd900000000, 0x37ad037c00000000, + 0x1374041f00000000, 0x0cb8be4300000000, 0x2861b92000000000, + 0x440ab18500000000, 0x60d3b6e600000000, 0xdddad01400000000, + 0xf903d77700000000, 0x9568dfd200000000, 0xb1b1d8b100000000, + 0xabf0aa6b00000000, 0x8f29ad0800000000, 0xe342a5ad00000000, + 0xc79ba2ce00000000, 0x7a92c43c00000000, 0x5e4bc35f00000000, + 0x3220cbfa00000000, 0x16f9cc9900000000, 0x093576c500000000, + 0x2dec71a600000000, 0x4187790300000000, 0x655e7e6000000000, + 0xd857189200000000, 0xfc8e1ff100000000, 0x90e5175400000000, + 0xb43c103700000000, 0xe561823b00000000, 0xc1b8855800000000, + 0xadd38dfd00000000, 0x890a8a9e00000000, 0x3403ec6c00000000, + 0x10daeb0f00000000, 0x7cb1e3aa00000000, 0x5868e4c900000000, + 0x47a45e9500000000, 0x637d59f600000000, 0x0f16515300000000, + 0x2bcf563000000000, 0x96c630c200000000, 0xb21f37a100000000, + 0xde743f0400000000, 0xfaad386700000000, 0xe0ec4abd00000000, + 0xc4354dde00000000, 0xa85e457b00000000, 0x8c87421800000000, + 0x318e24ea00000000, 0x1557238900000000, 0x793c2b2c00000000, + 0x5de52c4f00000000, 0x4229961300000000, 0x66f0917000000000, + 0x0a9b99d500000000, 0x2e429eb600000000, 0x934bf84400000000, + 0xb792ff2700000000, 0xdbf9f78200000000, 0xff20f0e100000000, + 0x7943d39b00000000, 0x5d9ad4f800000000, 0x31f1dc5d00000000, + 0x1528db3e00000000, 0xa821bdcc00000000, 0x8cf8baaf00000000, + 0xe093b20a00000000, 0xc44ab56900000000, 0xdb860f3500000000, + 0xff5f085600000000, 0x933400f300000000, 0xb7ed079000000000, + 0x0ae4616200000000, 0x2e3d660100000000, 0x42566ea400000000, + 0x668f69c700000000, 0x7cce1b1d00000000, 0x58171c7e00000000, + 0x347c14db00000000, 0x10a513b800000000, 0xadac754a00000000, + 0x8975722900000000, 0xe51e7a8c00000000, 0xc1c77def00000000, + 0xde0bc7b300000000, 0xfad2c0d000000000, 0x96b9c87500000000, + 0xb260cf1600000000, 0x0f69a9e400000000, 0x2bb0ae8700000000, + 0x47dba62200000000, 0x6302a14100000000, 0x325f334d00000000, + 0x1686342e00000000, 0x7aed3c8b00000000, 0x5e343be800000000, + 0xe33d5d1a00000000, 0xc7e45a7900000000, 0xab8f52dc00000000, + 0x8f5655bf00000000, 0x909aefe300000000, 0xb443e88000000000, + 0xd828e02500000000, 0xfcf1e74600000000, 0x41f881b400000000, + 0x652186d700000000, 0x094a8e7200000000, 0x2d93891100000000, + 0x37d2fbcb00000000, 0x130bfca800000000, 0x7f60f40d00000000, + 0x5bb9f36e00000000, 0xe6b0959c00000000, 0xc26992ff00000000, + 0xae029a5a00000000, 0x8adb9d3900000000, 0x9517276500000000, + 0xb1ce200600000000, 0xdda528a300000000, 0xf97c2fc000000000, + 0x4475493200000000, 0x60ac4e5100000000, 0x0cc746f400000000, + 0x281e419700000000}, + {0x0000000000000000, 0x08e3603c00000000, 0x10c6c17800000000, + 0x1825a14400000000, 0x208c83f100000000, 0x286fe3cd00000000, + 0x304a428900000000, 0x38a922b500000000, 0x011e763800000000, + 0x09fd160400000000, 0x11d8b74000000000, 0x193bd77c00000000, + 0x2192f5c900000000, 0x297195f500000000, 0x315434b100000000, + 0x39b7548d00000000, 0x023cec7000000000, 0x0adf8c4c00000000, + 0x12fa2d0800000000, 0x1a194d3400000000, 0x22b06f8100000000, + 0x2a530fbd00000000, 0x3276aef900000000, 0x3a95cec500000000, + 0x03229a4800000000, 0x0bc1fa7400000000, 0x13e45b3000000000, + 0x1b073b0c00000000, 0x23ae19b900000000, 0x2b4d798500000000, + 0x3368d8c100000000, 0x3b8bb8fd00000000, 0x0478d8e100000000, + 0x0c9bb8dd00000000, 0x14be199900000000, 0x1c5d79a500000000, + 0x24f45b1000000000, 0x2c173b2c00000000, 0x34329a6800000000, + 0x3cd1fa5400000000, 0x0566aed900000000, 0x0d85cee500000000, + 0x15a06fa100000000, 0x1d430f9d00000000, 0x25ea2d2800000000, + 0x2d094d1400000000, 0x352cec5000000000, 0x3dcf8c6c00000000, + 0x0644349100000000, 0x0ea754ad00000000, 0x1682f5e900000000, + 0x1e6195d500000000, 0x26c8b76000000000, 0x2e2bd75c00000000, + 0x360e761800000000, 0x3eed162400000000, 0x075a42a900000000, + 0x0fb9229500000000, 0x179c83d100000000, 0x1f7fe3ed00000000, + 0x27d6c15800000000, 0x2f35a16400000000, 0x3710002000000000, + 0x3ff3601c00000000, 0x49f6c11800000000, 0x4115a12400000000, + 0x5930006000000000, 0x51d3605c00000000, 0x697a42e900000000, + 0x619922d500000000, 0x79bc839100000000, 0x715fe3ad00000000, + 0x48e8b72000000000, 0x400bd71c00000000, 0x582e765800000000, + 0x50cd166400000000, 0x686434d100000000, 0x608754ed00000000, + 0x78a2f5a900000000, 0x7041959500000000, 0x4bca2d6800000000, + 0x43294d5400000000, 0x5b0cec1000000000, 0x53ef8c2c00000000, + 0x6b46ae9900000000, 0x63a5cea500000000, 0x7b806fe100000000, + 0x73630fdd00000000, 0x4ad45b5000000000, 0x42373b6c00000000, + 0x5a129a2800000000, 0x52f1fa1400000000, 0x6a58d8a100000000, + 0x62bbb89d00000000, 0x7a9e19d900000000, 0x727d79e500000000, + 0x4d8e19f900000000, 0x456d79c500000000, 0x5d48d88100000000, + 0x55abb8bd00000000, 0x6d029a0800000000, 0x65e1fa3400000000, + 0x7dc45b7000000000, 0x75273b4c00000000, 0x4c906fc100000000, + 0x44730ffd00000000, 0x5c56aeb900000000, 0x54b5ce8500000000, + 0x6c1cec3000000000, 0x64ff8c0c00000000, 0x7cda2d4800000000, + 0x74394d7400000000, 0x4fb2f58900000000, 0x475195b500000000, + 0x5f7434f100000000, 0x579754cd00000000, 0x6f3e767800000000, + 0x67dd164400000000, 0x7ff8b70000000000, 0x771bd73c00000000, + 0x4eac83b100000000, 0x464fe38d00000000, 0x5e6a42c900000000, + 0x568922f500000000, 0x6e20004000000000, 0x66c3607c00000000, + 0x7ee6c13800000000, 0x7605a10400000000, 0x92ec833100000000, + 0x9a0fe30d00000000, 0x822a424900000000, 0x8ac9227500000000, + 0xb26000c000000000, 0xba8360fc00000000, 0xa2a6c1b800000000, + 0xaa45a18400000000, 0x93f2f50900000000, 0x9b11953500000000, + 0x8334347100000000, 0x8bd7544d00000000, 0xb37e76f800000000, + 0xbb9d16c400000000, 0xa3b8b78000000000, 0xab5bd7bc00000000, + 0x90d06f4100000000, 0x98330f7d00000000, 0x8016ae3900000000, + 0x88f5ce0500000000, 0xb05cecb000000000, 0xb8bf8c8c00000000, + 0xa09a2dc800000000, 0xa8794df400000000, 0x91ce197900000000, + 0x992d794500000000, 0x8108d80100000000, 0x89ebb83d00000000, + 0xb1429a8800000000, 0xb9a1fab400000000, 0xa1845bf000000000, + 0xa9673bcc00000000, 0x96945bd000000000, 0x9e773bec00000000, + 0x86529aa800000000, 0x8eb1fa9400000000, 0xb618d82100000000, + 0xbefbb81d00000000, 0xa6de195900000000, 0xae3d796500000000, + 0x978a2de800000000, 0x9f694dd400000000, 0x874cec9000000000, + 0x8faf8cac00000000, 0xb706ae1900000000, 0xbfe5ce2500000000, + 0xa7c06f6100000000, 0xaf230f5d00000000, 0x94a8b7a000000000, + 0x9c4bd79c00000000, 0x846e76d800000000, 0x8c8d16e400000000, + 0xb424345100000000, 0xbcc7546d00000000, 0xa4e2f52900000000, + 0xac01951500000000, 0x95b6c19800000000, 0x9d55a1a400000000, + 0x857000e000000000, 0x8d9360dc00000000, 0xb53a426900000000, + 0xbdd9225500000000, 0xa5fc831100000000, 0xad1fe32d00000000, + 0xdb1a422900000000, 0xd3f9221500000000, 0xcbdc835100000000, + 0xc33fe36d00000000, 0xfb96c1d800000000, 0xf375a1e400000000, + 0xeb5000a000000000, 0xe3b3609c00000000, 0xda04341100000000, + 0xd2e7542d00000000, 0xcac2f56900000000, 0xc221955500000000, + 0xfa88b7e000000000, 0xf26bd7dc00000000, 0xea4e769800000000, + 0xe2ad16a400000000, 0xd926ae5900000000, 0xd1c5ce6500000000, + 0xc9e06f2100000000, 0xc1030f1d00000000, 0xf9aa2da800000000, + 0xf1494d9400000000, 0xe96cecd000000000, 0xe18f8cec00000000, + 0xd838d86100000000, 0xd0dbb85d00000000, 0xc8fe191900000000, + 0xc01d792500000000, 0xf8b45b9000000000, 0xf0573bac00000000, + 0xe8729ae800000000, 0xe091fad400000000, 0xdf629ac800000000, + 0xd781faf400000000, 0xcfa45bb000000000, 0xc7473b8c00000000, + 0xffee193900000000, 0xf70d790500000000, 0xef28d84100000000, + 0xe7cbb87d00000000, 0xde7cecf000000000, 0xd69f8ccc00000000, + 0xceba2d8800000000, 0xc6594db400000000, 0xfef06f0100000000, + 0xf6130f3d00000000, 0xee36ae7900000000, 0xe6d5ce4500000000, + 0xdd5e76b800000000, 0xd5bd168400000000, 0xcd98b7c000000000, + 0xc57bd7fc00000000, 0xfdd2f54900000000, 0xf531957500000000, + 0xed14343100000000, 0xe5f7540d00000000, 0xdc40008000000000, + 0xd4a360bc00000000, 0xcc86c1f800000000, 0xc465a1c400000000, + 0xfccc837100000000, 0xf42fe34d00000000, 0xec0a420900000000, + 0xe4e9223500000000}, + {0x0000000000000000, 0xd1e8e70e00000000, 0xa2d1cf1d00000000, + 0x7339281300000000, 0x44a39f3b00000000, 0x954b783500000000, + 0xe672502600000000, 0x379ab72800000000, 0x88463f7700000000, + 0x59aed87900000000, 0x2a97f06a00000000, 0xfb7f176400000000, + 0xcce5a04c00000000, 0x1d0d474200000000, 0x6e346f5100000000, + 0xbfdc885f00000000, 0x108d7eee00000000, 0xc16599e000000000, + 0xb25cb1f300000000, 0x63b456fd00000000, 0x542ee1d500000000, + 0x85c606db00000000, 0xf6ff2ec800000000, 0x2717c9c600000000, + 0x98cb419900000000, 0x4923a69700000000, 0x3a1a8e8400000000, + 0xebf2698a00000000, 0xdc68dea200000000, 0x0d8039ac00000000, + 0x7eb911bf00000000, 0xaf51f6b100000000, 0x611c8c0700000000, + 0xb0f46b0900000000, 0xc3cd431a00000000, 0x1225a41400000000, + 0x25bf133c00000000, 0xf457f43200000000, 0x876edc2100000000, + 0x56863b2f00000000, 0xe95ab37000000000, 0x38b2547e00000000, + 0x4b8b7c6d00000000, 0x9a639b6300000000, 0xadf92c4b00000000, + 0x7c11cb4500000000, 0x0f28e35600000000, 0xdec0045800000000, + 0x7191f2e900000000, 0xa07915e700000000, 0xd3403df400000000, + 0x02a8dafa00000000, 0x35326dd200000000, 0xe4da8adc00000000, + 0x97e3a2cf00000000, 0x460b45c100000000, 0xf9d7cd9e00000000, + 0x283f2a9000000000, 0x5b06028300000000, 0x8aeee58d00000000, + 0xbd7452a500000000, 0x6c9cb5ab00000000, 0x1fa59db800000000, + 0xce4d7ab600000000, 0xc238180f00000000, 0x13d0ff0100000000, + 0x60e9d71200000000, 0xb101301c00000000, 0x869b873400000000, + 0x5773603a00000000, 0x244a482900000000, 0xf5a2af2700000000, + 0x4a7e277800000000, 0x9b96c07600000000, 0xe8afe86500000000, + 0x39470f6b00000000, 0x0eddb84300000000, 0xdf355f4d00000000, + 0xac0c775e00000000, 0x7de4905000000000, 0xd2b566e100000000, + 0x035d81ef00000000, 0x7064a9fc00000000, 0xa18c4ef200000000, + 0x9616f9da00000000, 0x47fe1ed400000000, 0x34c736c700000000, + 0xe52fd1c900000000, 0x5af3599600000000, 0x8b1bbe9800000000, + 0xf822968b00000000, 0x29ca718500000000, 0x1e50c6ad00000000, + 0xcfb821a300000000, 0xbc8109b000000000, 0x6d69eebe00000000, + 0xa324940800000000, 0x72cc730600000000, 0x01f55b1500000000, + 0xd01dbc1b00000000, 0xe7870b3300000000, 0x366fec3d00000000, + 0x4556c42e00000000, 0x94be232000000000, 0x2b62ab7f00000000, + 0xfa8a4c7100000000, 0x89b3646200000000, 0x585b836c00000000, + 0x6fc1344400000000, 0xbe29d34a00000000, 0xcd10fb5900000000, + 0x1cf81c5700000000, 0xb3a9eae600000000, 0x62410de800000000, + 0x117825fb00000000, 0xc090c2f500000000, 0xf70a75dd00000000, + 0x26e292d300000000, 0x55dbbac000000000, 0x84335dce00000000, + 0x3befd59100000000, 0xea07329f00000000, 0x993e1a8c00000000, + 0x48d6fd8200000000, 0x7f4c4aaa00000000, 0xaea4ada400000000, + 0xdd9d85b700000000, 0x0c7562b900000000, 0x8471301e00000000, + 0x5599d71000000000, 0x26a0ff0300000000, 0xf748180d00000000, + 0xc0d2af2500000000, 0x113a482b00000000, 0x6203603800000000, + 0xb3eb873600000000, 0x0c370f6900000000, 0xdddfe86700000000, + 0xaee6c07400000000, 0x7f0e277a00000000, 0x4894905200000000, + 0x997c775c00000000, 0xea455f4f00000000, 0x3badb84100000000, + 0x94fc4ef000000000, 0x4514a9fe00000000, 0x362d81ed00000000, + 0xe7c566e300000000, 0xd05fd1cb00000000, 0x01b736c500000000, + 0x728e1ed600000000, 0xa366f9d800000000, 0x1cba718700000000, + 0xcd52968900000000, 0xbe6bbe9a00000000, 0x6f83599400000000, + 0x5819eebc00000000, 0x89f109b200000000, 0xfac821a100000000, + 0x2b20c6af00000000, 0xe56dbc1900000000, 0x34855b1700000000, + 0x47bc730400000000, 0x9654940a00000000, 0xa1ce232200000000, + 0x7026c42c00000000, 0x031fec3f00000000, 0xd2f70b3100000000, + 0x6d2b836e00000000, 0xbcc3646000000000, 0xcffa4c7300000000, + 0x1e12ab7d00000000, 0x29881c5500000000, 0xf860fb5b00000000, + 0x8b59d34800000000, 0x5ab1344600000000, 0xf5e0c2f700000000, + 0x240825f900000000, 0x57310dea00000000, 0x86d9eae400000000, + 0xb1435dcc00000000, 0x60abbac200000000, 0x139292d100000000, + 0xc27a75df00000000, 0x7da6fd8000000000, 0xac4e1a8e00000000, + 0xdf77329d00000000, 0x0e9fd59300000000, 0x390562bb00000000, + 0xe8ed85b500000000, 0x9bd4ada600000000, 0x4a3c4aa800000000, + 0x4649281100000000, 0x97a1cf1f00000000, 0xe498e70c00000000, + 0x3570000200000000, 0x02eab72a00000000, 0xd302502400000000, + 0xa03b783700000000, 0x71d39f3900000000, 0xce0f176600000000, + 0x1fe7f06800000000, 0x6cded87b00000000, 0xbd363f7500000000, + 0x8aac885d00000000, 0x5b446f5300000000, 0x287d474000000000, + 0xf995a04e00000000, 0x56c456ff00000000, 0x872cb1f100000000, + 0xf41599e200000000, 0x25fd7eec00000000, 0x1267c9c400000000, + 0xc38f2eca00000000, 0xb0b606d900000000, 0x615ee1d700000000, + 0xde82698800000000, 0x0f6a8e8600000000, 0x7c53a69500000000, + 0xadbb419b00000000, 0x9a21f6b300000000, 0x4bc911bd00000000, + 0x38f039ae00000000, 0xe918dea000000000, 0x2755a41600000000, + 0xf6bd431800000000, 0x85846b0b00000000, 0x546c8c0500000000, + 0x63f63b2d00000000, 0xb21edc2300000000, 0xc127f43000000000, + 0x10cf133e00000000, 0xaf139b6100000000, 0x7efb7c6f00000000, + 0x0dc2547c00000000, 0xdc2ab37200000000, 0xebb0045a00000000, + 0x3a58e35400000000, 0x4961cb4700000000, 0x98892c4900000000, + 0x37d8daf800000000, 0xe6303df600000000, 0x950915e500000000, + 0x44e1f2eb00000000, 0x737b45c300000000, 0xa293a2cd00000000, + 0xd1aa8ade00000000, 0x00426dd000000000, 0xbf9ee58f00000000, + 0x6e76028100000000, 0x1d4f2a9200000000, 0xcca7cd9c00000000, + 0xfb3d7ab400000000, 0x2ad59dba00000000, 0x59ecb5a900000000, + 0x880452a700000000}, + {0x0000000000000000, 0xaa05daf100000000, 0x150dc53800000000, + 0xbf081fc900000000, 0x2a1a8a7100000000, 0x801f508000000000, + 0x3f174f4900000000, 0x951295b800000000, 0x543414e300000000, + 0xfe31ce1200000000, 0x4139d1db00000000, 0xeb3c0b2a00000000, + 0x7e2e9e9200000000, 0xd42b446300000000, 0x6b235baa00000000, + 0xc126815b00000000, 0xe96e591d00000000, 0x436b83ec00000000, + 0xfc639c2500000000, 0x566646d400000000, 0xc374d36c00000000, + 0x6971099d00000000, 0xd679165400000000, 0x7c7ccca500000000, + 0xbd5a4dfe00000000, 0x175f970f00000000, 0xa85788c600000000, + 0x0252523700000000, 0x9740c78f00000000, 0x3d451d7e00000000, + 0x824d02b700000000, 0x2848d84600000000, 0xd2ddb23a00000000, + 0x78d868cb00000000, 0xc7d0770200000000, 0x6dd5adf300000000, + 0xf8c7384b00000000, 0x52c2e2ba00000000, 0xedcafd7300000000, + 0x47cf278200000000, 0x86e9a6d900000000, 0x2cec7c2800000000, + 0x93e463e100000000, 0x39e1b91000000000, 0xacf32ca800000000, + 0x06f6f65900000000, 0xb9fee99000000000, 0x13fb336100000000, + 0x3bb3eb2700000000, 0x91b631d600000000, 0x2ebe2e1f00000000, + 0x84bbf4ee00000000, 0x11a9615600000000, 0xbbacbba700000000, + 0x04a4a46e00000000, 0xaea17e9f00000000, 0x6f87ffc400000000, + 0xc582253500000000, 0x7a8a3afc00000000, 0xd08fe00d00000000, + 0x459d75b500000000, 0xef98af4400000000, 0x5090b08d00000000, + 0xfa956a7c00000000, 0xa4bb657500000000, 0x0ebebf8400000000, + 0xb1b6a04d00000000, 0x1bb37abc00000000, 0x8ea1ef0400000000, + 0x24a435f500000000, 0x9bac2a3c00000000, 0x31a9f0cd00000000, + 0xf08f719600000000, 0x5a8aab6700000000, 0xe582b4ae00000000, + 0x4f876e5f00000000, 0xda95fbe700000000, 0x7090211600000000, + 0xcf983edf00000000, 0x659de42e00000000, 0x4dd53c6800000000, + 0xe7d0e69900000000, 0x58d8f95000000000, 0xf2dd23a100000000, + 0x67cfb61900000000, 0xcdca6ce800000000, 0x72c2732100000000, + 0xd8c7a9d000000000, 0x19e1288b00000000, 0xb3e4f27a00000000, + 0x0cecedb300000000, 0xa6e9374200000000, 0x33fba2fa00000000, + 0x99fe780b00000000, 0x26f667c200000000, 0x8cf3bd3300000000, + 0x7666d74f00000000, 0xdc630dbe00000000, 0x636b127700000000, + 0xc96ec88600000000, 0x5c7c5d3e00000000, 0xf67987cf00000000, + 0x4971980600000000, 0xe37442f700000000, 0x2252c3ac00000000, + 0x8857195d00000000, 0x375f069400000000, 0x9d5adc6500000000, + 0x084849dd00000000, 0xa24d932c00000000, 0x1d458ce500000000, + 0xb740561400000000, 0x9f088e5200000000, 0x350d54a300000000, + 0x8a054b6a00000000, 0x2000919b00000000, 0xb512042300000000, + 0x1f17ded200000000, 0xa01fc11b00000000, 0x0a1a1bea00000000, + 0xcb3c9ab100000000, 0x6139404000000000, 0xde315f8900000000, + 0x7434857800000000, 0xe12610c000000000, 0x4b23ca3100000000, + 0xf42bd5f800000000, 0x5e2e0f0900000000, 0x4877cbea00000000, + 0xe272111b00000000, 0x5d7a0ed200000000, 0xf77fd42300000000, + 0x626d419b00000000, 0xc8689b6a00000000, 0x776084a300000000, + 0xdd655e5200000000, 0x1c43df0900000000, 0xb64605f800000000, + 0x094e1a3100000000, 0xa34bc0c000000000, 0x3659557800000000, + 0x9c5c8f8900000000, 0x2354904000000000, 0x89514ab100000000, + 0xa11992f700000000, 0x0b1c480600000000, 0xb41457cf00000000, + 0x1e118d3e00000000, 0x8b03188600000000, 0x2106c27700000000, + 0x9e0eddbe00000000, 0x340b074f00000000, 0xf52d861400000000, + 0x5f285ce500000000, 0xe020432c00000000, 0x4a2599dd00000000, + 0xdf370c6500000000, 0x7532d69400000000, 0xca3ac95d00000000, + 0x603f13ac00000000, 0x9aaa79d000000000, 0x30afa32100000000, + 0x8fa7bce800000000, 0x25a2661900000000, 0xb0b0f3a100000000, + 0x1ab5295000000000, 0xa5bd369900000000, 0x0fb8ec6800000000, + 0xce9e6d3300000000, 0x649bb7c200000000, 0xdb93a80b00000000, + 0x719672fa00000000, 0xe484e74200000000, 0x4e813db300000000, + 0xf189227a00000000, 0x5b8cf88b00000000, 0x73c420cd00000000, + 0xd9c1fa3c00000000, 0x66c9e5f500000000, 0xcccc3f0400000000, + 0x59deaabc00000000, 0xf3db704d00000000, 0x4cd36f8400000000, + 0xe6d6b57500000000, 0x27f0342e00000000, 0x8df5eedf00000000, + 0x32fdf11600000000, 0x98f82be700000000, 0x0deabe5f00000000, + 0xa7ef64ae00000000, 0x18e77b6700000000, 0xb2e2a19600000000, + 0xecccae9f00000000, 0x46c9746e00000000, 0xf9c16ba700000000, + 0x53c4b15600000000, 0xc6d624ee00000000, 0x6cd3fe1f00000000, + 0xd3dbe1d600000000, 0x79de3b2700000000, 0xb8f8ba7c00000000, + 0x12fd608d00000000, 0xadf57f4400000000, 0x07f0a5b500000000, + 0x92e2300d00000000, 0x38e7eafc00000000, 0x87eff53500000000, + 0x2dea2fc400000000, 0x05a2f78200000000, 0xafa72d7300000000, + 0x10af32ba00000000, 0xbaaae84b00000000, 0x2fb87df300000000, + 0x85bda70200000000, 0x3ab5b8cb00000000, 0x90b0623a00000000, + 0x5196e36100000000, 0xfb93399000000000, 0x449b265900000000, + 0xee9efca800000000, 0x7b8c691000000000, 0xd189b3e100000000, + 0x6e81ac2800000000, 0xc48476d900000000, 0x3e111ca500000000, + 0x9414c65400000000, 0x2b1cd99d00000000, 0x8119036c00000000, + 0x140b96d400000000, 0xbe0e4c2500000000, 0x010653ec00000000, + 0xab03891d00000000, 0x6a25084600000000, 0xc020d2b700000000, + 0x7f28cd7e00000000, 0xd52d178f00000000, 0x403f823700000000, + 0xea3a58c600000000, 0x5532470f00000000, 0xff379dfe00000000, + 0xd77f45b800000000, 0x7d7a9f4900000000, 0xc272808000000000, + 0x68775a7100000000, 0xfd65cfc900000000, 0x5760153800000000, + 0xe8680af100000000, 0x426dd00000000000, 0x834b515b00000000, + 0x294e8baa00000000, 0x9646946300000000, 0x3c434e9200000000, + 0xa951db2a00000000, 0x035401db00000000, 0xbc5c1e1200000000, + 0x1659c4e300000000}}; + +#else /* W == 4 */ + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0xae689191, 0x87a02563, 0x29c8b4f2, 0xd4314c87, + 0x7a59dd16, 0x539169e4, 0xfdf9f875, 0x73139f4f, 0xdd7b0ede, + 0xf4b3ba2c, 0x5adb2bbd, 0xa722d3c8, 0x094a4259, 0x2082f6ab, + 0x8eea673a, 0xe6273e9e, 0x484faf0f, 0x61871bfd, 0xcfef8a6c, + 0x32167219, 0x9c7ee388, 0xb5b6577a, 0x1bdec6eb, 0x9534a1d1, + 0x3b5c3040, 0x129484b2, 0xbcfc1523, 0x4105ed56, 0xef6d7cc7, + 0xc6a5c835, 0x68cd59a4, 0x173f7b7d, 0xb957eaec, 0x909f5e1e, + 0x3ef7cf8f, 0xc30e37fa, 0x6d66a66b, 0x44ae1299, 0xeac68308, + 0x642ce432, 0xca4475a3, 0xe38cc151, 0x4de450c0, 0xb01da8b5, + 0x1e753924, 0x37bd8dd6, 0x99d51c47, 0xf11845e3, 0x5f70d472, + 0x76b86080, 0xd8d0f111, 0x25290964, 0x8b4198f5, 0xa2892c07, + 0x0ce1bd96, 0x820bdaac, 0x2c634b3d, 0x05abffcf, 0xabc36e5e, + 0x563a962b, 0xf85207ba, 0xd19ab348, 0x7ff222d9, 0x2e7ef6fa, + 0x8016676b, 0xa9ded399, 0x07b64208, 0xfa4fba7d, 0x54272bec, + 0x7def9f1e, 0xd3870e8f, 0x5d6d69b5, 0xf305f824, 0xdacd4cd6, + 0x74a5dd47, 0x895c2532, 0x2734b4a3, 0x0efc0051, 0xa09491c0, + 0xc859c864, 0x663159f5, 0x4ff9ed07, 0xe1917c96, 0x1c6884e3, + 0xb2001572, 0x9bc8a180, 0x35a03011, 0xbb4a572b, 0x1522c6ba, + 0x3cea7248, 0x9282e3d9, 0x6f7b1bac, 0xc1138a3d, 0xe8db3ecf, + 0x46b3af5e, 0x39418d87, 0x97291c16, 0xbee1a8e4, 0x10893975, + 0xed70c100, 0x43185091, 0x6ad0e463, 0xc4b875f2, 0x4a5212c8, + 0xe43a8359, 0xcdf237ab, 0x639aa63a, 0x9e635e4f, 0x300bcfde, + 0x19c37b2c, 0xb7abeabd, 0xdf66b319, 0x710e2288, 0x58c6967a, + 0xf6ae07eb, 0x0b57ff9e, 0xa53f6e0f, 0x8cf7dafd, 0x229f4b6c, + 0xac752c56, 0x021dbdc7, 0x2bd50935, 0x85bd98a4, 0x784460d1, + 0xd62cf140, 0xffe445b2, 0x518cd423, 0x5cfdedf4, 0xf2957c65, + 0xdb5dc897, 0x75355906, 0x88cca173, 0x26a430e2, 0x0f6c8410, + 0xa1041581, 0x2fee72bb, 0x8186e32a, 0xa84e57d8, 0x0626c649, + 0xfbdf3e3c, 0x55b7afad, 0x7c7f1b5f, 0xd2178ace, 0xbadad36a, + 0x14b242fb, 0x3d7af609, 0x93126798, 0x6eeb9fed, 0xc0830e7c, + 0xe94bba8e, 0x47232b1f, 0xc9c94c25, 0x67a1ddb4, 0x4e696946, + 0xe001f8d7, 0x1df800a2, 0xb3909133, 0x9a5825c1, 0x3430b450, + 0x4bc29689, 0xe5aa0718, 0xcc62b3ea, 0x620a227b, 0x9ff3da0e, + 0x319b4b9f, 0x1853ff6d, 0xb63b6efc, 0x38d109c6, 0x96b99857, + 0xbf712ca5, 0x1119bd34, 0xece04541, 0x4288d4d0, 0x6b406022, + 0xc528f1b3, 0xade5a817, 0x038d3986, 0x2a458d74, 0x842d1ce5, + 0x79d4e490, 0xd7bc7501, 0xfe74c1f3, 0x501c5062, 0xdef63758, + 0x709ea6c9, 0x5956123b, 0xf73e83aa, 0x0ac77bdf, 0xa4afea4e, + 0x8d675ebc, 0x230fcf2d, 0x72831b0e, 0xdceb8a9f, 0xf5233e6d, + 0x5b4baffc, 0xa6b25789, 0x08dac618, 0x211272ea, 0x8f7ae37b, + 0x01908441, 0xaff815d0, 0x8630a122, 0x285830b3, 0xd5a1c8c6, + 0x7bc95957, 0x5201eda5, 0xfc697c34, 0x94a42590, 0x3accb401, + 0x130400f3, 0xbd6c9162, 0x40956917, 0xeefdf886, 0xc7354c74, + 0x695ddde5, 0xe7b7badf, 0x49df2b4e, 0x60179fbc, 0xce7f0e2d, + 0x3386f658, 0x9dee67c9, 0xb426d33b, 0x1a4e42aa, 0x65bc6073, + 0xcbd4f1e2, 0xe21c4510, 0x4c74d481, 0xb18d2cf4, 0x1fe5bd65, + 0x362d0997, 0x98459806, 0x16afff3c, 0xb8c76ead, 0x910fda5f, + 0x3f674bce, 0xc29eb3bb, 0x6cf6222a, 0x453e96d8, 0xeb560749, + 0x839b5eed, 0x2df3cf7c, 0x043b7b8e, 0xaa53ea1f, 0x57aa126a, + 0xf9c283fb, 0xd00a3709, 0x7e62a698, 0xf088c1a2, 0x5ee05033, + 0x7728e4c1, 0xd9407550, 0x24b98d25, 0x8ad11cb4, 0xa319a846, + 0x0d7139d7}, + {0x00000000, 0xb9fbdbe8, 0xa886b191, 0x117d6a79, 0x8a7c6563, + 0x3387be8b, 0x22fad4f2, 0x9b010f1a, 0xcf89cc87, 0x7672176f, + 0x670f7d16, 0xdef4a6fe, 0x45f5a9e4, 0xfc0e720c, 0xed731875, + 0x5488c39d, 0x44629f4f, 0xfd9944a7, 0xece42ede, 0x551ff536, + 0xce1efa2c, 0x77e521c4, 0x66984bbd, 0xdf639055, 0x8beb53c8, + 0x32108820, 0x236de259, 0x9a9639b1, 0x019736ab, 0xb86ced43, + 0xa911873a, 0x10ea5cd2, 0x88c53e9e, 0x313ee576, 0x20438f0f, + 0x99b854e7, 0x02b95bfd, 0xbb428015, 0xaa3fea6c, 0x13c43184, + 0x474cf219, 0xfeb729f1, 0xefca4388, 0x56319860, 0xcd30977a, + 0x74cb4c92, 0x65b626eb, 0xdc4dfd03, 0xcca7a1d1, 0x755c7a39, + 0x64211040, 0xdddacba8, 0x46dbc4b2, 0xff201f5a, 0xee5d7523, + 0x57a6aecb, 0x032e6d56, 0xbad5b6be, 0xaba8dcc7, 0x1253072f, + 0x89520835, 0x30a9d3dd, 0x21d4b9a4, 0x982f624c, 0xcafb7b7d, + 0x7300a095, 0x627dcaec, 0xdb861104, 0x40871e1e, 0xf97cc5f6, + 0xe801af8f, 0x51fa7467, 0x0572b7fa, 0xbc896c12, 0xadf4066b, + 0x140fdd83, 0x8f0ed299, 0x36f50971, 0x27886308, 0x9e73b8e0, + 0x8e99e432, 0x37623fda, 0x261f55a3, 0x9fe48e4b, 0x04e58151, + 0xbd1e5ab9, 0xac6330c0, 0x1598eb28, 0x411028b5, 0xf8ebf35d, + 0xe9969924, 0x506d42cc, 0xcb6c4dd6, 0x7297963e, 0x63eafc47, + 0xda1127af, 0x423e45e3, 0xfbc59e0b, 0xeab8f472, 0x53432f9a, + 0xc8422080, 0x71b9fb68, 0x60c49111, 0xd93f4af9, 0x8db78964, + 0x344c528c, 0x253138f5, 0x9ccae31d, 0x07cbec07, 0xbe3037ef, + 0xaf4d5d96, 0x16b6867e, 0x065cdaac, 0xbfa70144, 0xaeda6b3d, + 0x1721b0d5, 0x8c20bfcf, 0x35db6427, 0x24a60e5e, 0x9d5dd5b6, + 0xc9d5162b, 0x702ecdc3, 0x6153a7ba, 0xd8a87c52, 0x43a97348, + 0xfa52a8a0, 0xeb2fc2d9, 0x52d41931, 0x4e87f0bb, 0xf77c2b53, + 0xe601412a, 0x5ffa9ac2, 0xc4fb95d8, 0x7d004e30, 0x6c7d2449, + 0xd586ffa1, 0x810e3c3c, 0x38f5e7d4, 0x29888dad, 0x90735645, + 0x0b72595f, 0xb28982b7, 0xa3f4e8ce, 0x1a0f3326, 0x0ae56ff4, + 0xb31eb41c, 0xa263de65, 0x1b98058d, 0x80990a97, 0x3962d17f, + 0x281fbb06, 0x91e460ee, 0xc56ca373, 0x7c97789b, 0x6dea12e2, + 0xd411c90a, 0x4f10c610, 0xf6eb1df8, 0xe7967781, 0x5e6dac69, + 0xc642ce25, 0x7fb915cd, 0x6ec47fb4, 0xd73fa45c, 0x4c3eab46, + 0xf5c570ae, 0xe4b81ad7, 0x5d43c13f, 0x09cb02a2, 0xb030d94a, + 0xa14db333, 0x18b668db, 0x83b767c1, 0x3a4cbc29, 0x2b31d650, + 0x92ca0db8, 0x8220516a, 0x3bdb8a82, 0x2aa6e0fb, 0x935d3b13, + 0x085c3409, 0xb1a7efe1, 0xa0da8598, 0x19215e70, 0x4da99ded, + 0xf4524605, 0xe52f2c7c, 0x5cd4f794, 0xc7d5f88e, 0x7e2e2366, + 0x6f53491f, 0xd6a892f7, 0x847c8bc6, 0x3d87502e, 0x2cfa3a57, + 0x9501e1bf, 0x0e00eea5, 0xb7fb354d, 0xa6865f34, 0x1f7d84dc, + 0x4bf54741, 0xf20e9ca9, 0xe373f6d0, 0x5a882d38, 0xc1892222, + 0x7872f9ca, 0x690f93b3, 0xd0f4485b, 0xc01e1489, 0x79e5cf61, + 0x6898a518, 0xd1637ef0, 0x4a6271ea, 0xf399aa02, 0xe2e4c07b, + 0x5b1f1b93, 0x0f97d80e, 0xb66c03e6, 0xa711699f, 0x1eeab277, + 0x85ebbd6d, 0x3c106685, 0x2d6d0cfc, 0x9496d714, 0x0cb9b558, + 0xb5426eb0, 0xa43f04c9, 0x1dc4df21, 0x86c5d03b, 0x3f3e0bd3, + 0x2e4361aa, 0x97b8ba42, 0xc33079df, 0x7acba237, 0x6bb6c84e, + 0xd24d13a6, 0x494c1cbc, 0xf0b7c754, 0xe1caad2d, 0x583176c5, + 0x48db2a17, 0xf120f1ff, 0xe05d9b86, 0x59a6406e, 0xc2a74f74, + 0x7b5c949c, 0x6a21fee5, 0xd3da250d, 0x8752e690, 0x3ea93d78, + 0x2fd45701, 0x962f8ce9, 0x0d2e83f3, 0xb4d5581b, 0xa5a83262, + 0x1c53e98a}, + {0x00000000, 0x9d0fe176, 0xe16ec4ad, 0x7c6125db, 0x19ac8f1b, + 0x84a36e6d, 0xf8c24bb6, 0x65cdaac0, 0x33591e36, 0xae56ff40, + 0xd237da9b, 0x4f383bed, 0x2af5912d, 0xb7fa705b, 0xcb9b5580, + 0x5694b4f6, 0x66b23c6c, 0xfbbddd1a, 0x87dcf8c1, 0x1ad319b7, + 0x7f1eb377, 0xe2115201, 0x9e7077da, 0x037f96ac, 0x55eb225a, + 0xc8e4c32c, 0xb485e6f7, 0x298a0781, 0x4c47ad41, 0xd1484c37, + 0xad2969ec, 0x3026889a, 0xcd6478d8, 0x506b99ae, 0x2c0abc75, + 0xb1055d03, 0xd4c8f7c3, 0x49c716b5, 0x35a6336e, 0xa8a9d218, + 0xfe3d66ee, 0x63328798, 0x1f53a243, 0x825c4335, 0xe791e9f5, + 0x7a9e0883, 0x06ff2d58, 0x9bf0cc2e, 0xabd644b4, 0x36d9a5c2, + 0x4ab88019, 0xd7b7616f, 0xb27acbaf, 0x2f752ad9, 0x53140f02, + 0xce1bee74, 0x988f5a82, 0x0580bbf4, 0x79e19e2f, 0xe4ee7f59, + 0x8123d599, 0x1c2c34ef, 0x604d1134, 0xfd42f042, 0x41b9f7f1, + 0xdcb61687, 0xa0d7335c, 0x3dd8d22a, 0x581578ea, 0xc51a999c, + 0xb97bbc47, 0x24745d31, 0x72e0e9c7, 0xefef08b1, 0x938e2d6a, + 0x0e81cc1c, 0x6b4c66dc, 0xf64387aa, 0x8a22a271, 0x172d4307, + 0x270bcb9d, 0xba042aeb, 0xc6650f30, 0x5b6aee46, 0x3ea74486, + 0xa3a8a5f0, 0xdfc9802b, 0x42c6615d, 0x1452d5ab, 0x895d34dd, + 0xf53c1106, 0x6833f070, 0x0dfe5ab0, 0x90f1bbc6, 0xec909e1d, + 0x719f7f6b, 0x8cdd8f29, 0x11d26e5f, 0x6db34b84, 0xf0bcaaf2, + 0x95710032, 0x087ee144, 0x741fc49f, 0xe91025e9, 0xbf84911f, + 0x228b7069, 0x5eea55b2, 0xc3e5b4c4, 0xa6281e04, 0x3b27ff72, + 0x4746daa9, 0xda493bdf, 0xea6fb345, 0x77605233, 0x0b0177e8, + 0x960e969e, 0xf3c33c5e, 0x6eccdd28, 0x12adf8f3, 0x8fa21985, + 0xd936ad73, 0x44394c05, 0x385869de, 0xa55788a8, 0xc09a2268, + 0x5d95c31e, 0x21f4e6c5, 0xbcfb07b3, 0x8373efe2, 0x1e7c0e94, + 0x621d2b4f, 0xff12ca39, 0x9adf60f9, 0x07d0818f, 0x7bb1a454, + 0xe6be4522, 0xb02af1d4, 0x2d2510a2, 0x51443579, 0xcc4bd40f, + 0xa9867ecf, 0x34899fb9, 0x48e8ba62, 0xd5e75b14, 0xe5c1d38e, + 0x78ce32f8, 0x04af1723, 0x99a0f655, 0xfc6d5c95, 0x6162bde3, + 0x1d039838, 0x800c794e, 0xd698cdb8, 0x4b972cce, 0x37f60915, + 0xaaf9e863, 0xcf3442a3, 0x523ba3d5, 0x2e5a860e, 0xb3556778, + 0x4e17973a, 0xd318764c, 0xaf795397, 0x3276b2e1, 0x57bb1821, + 0xcab4f957, 0xb6d5dc8c, 0x2bda3dfa, 0x7d4e890c, 0xe041687a, + 0x9c204da1, 0x012facd7, 0x64e20617, 0xf9ede761, 0x858cc2ba, + 0x188323cc, 0x28a5ab56, 0xb5aa4a20, 0xc9cb6ffb, 0x54c48e8d, + 0x3109244d, 0xac06c53b, 0xd067e0e0, 0x4d680196, 0x1bfcb560, + 0x86f35416, 0xfa9271cd, 0x679d90bb, 0x02503a7b, 0x9f5fdb0d, + 0xe33efed6, 0x7e311fa0, 0xc2ca1813, 0x5fc5f965, 0x23a4dcbe, + 0xbeab3dc8, 0xdb669708, 0x4669767e, 0x3a0853a5, 0xa707b2d3, + 0xf1930625, 0x6c9ce753, 0x10fdc288, 0x8df223fe, 0xe83f893e, + 0x75306848, 0x09514d93, 0x945eace5, 0xa478247f, 0x3977c509, + 0x4516e0d2, 0xd81901a4, 0xbdd4ab64, 0x20db4a12, 0x5cba6fc9, + 0xc1b58ebf, 0x97213a49, 0x0a2edb3f, 0x764ffee4, 0xeb401f92, + 0x8e8db552, 0x13825424, 0x6fe371ff, 0xf2ec9089, 0x0fae60cb, + 0x92a181bd, 0xeec0a466, 0x73cf4510, 0x1602efd0, 0x8b0d0ea6, + 0xf76c2b7d, 0x6a63ca0b, 0x3cf77efd, 0xa1f89f8b, 0xdd99ba50, + 0x40965b26, 0x255bf1e6, 0xb8541090, 0xc435354b, 0x593ad43d, + 0x691c5ca7, 0xf413bdd1, 0x8872980a, 0x157d797c, 0x70b0d3bc, + 0xedbf32ca, 0x91de1711, 0x0cd1f667, 0x5a454291, 0xc74aa3e7, + 0xbb2b863c, 0x2624674a, 0x43e9cd8a, 0xdee62cfc, 0xa2870927, + 0x3f88e851}, + {0x00000000, 0xdd96d985, 0x605cb54b, 0xbdca6cce, 0xc0b96a96, + 0x1d2fb313, 0xa0e5dfdd, 0x7d730658, 0x5a03d36d, 0x87950ae8, + 0x3a5f6626, 0xe7c9bfa3, 0x9abab9fb, 0x472c607e, 0xfae60cb0, + 0x2770d535, 0xb407a6da, 0x69917f5f, 0xd45b1391, 0x09cdca14, + 0x74becc4c, 0xa92815c9, 0x14e27907, 0xc974a082, 0xee0475b7, + 0x3392ac32, 0x8e58c0fc, 0x53ce1979, 0x2ebd1f21, 0xf32bc6a4, + 0x4ee1aa6a, 0x937773ef, 0xb37e4bf5, 0x6ee89270, 0xd322febe, + 0x0eb4273b, 0x73c72163, 0xae51f8e6, 0x139b9428, 0xce0d4dad, + 0xe97d9898, 0x34eb411d, 0x89212dd3, 0x54b7f456, 0x29c4f20e, + 0xf4522b8b, 0x49984745, 0x940e9ec0, 0x0779ed2f, 0xdaef34aa, + 0x67255864, 0xbab381e1, 0xc7c087b9, 0x1a565e3c, 0xa79c32f2, + 0x7a0aeb77, 0x5d7a3e42, 0x80ece7c7, 0x3d268b09, 0xe0b0528c, + 0x9dc354d4, 0x40558d51, 0xfd9fe19f, 0x2009381a, 0xbd8d91ab, + 0x601b482e, 0xddd124e0, 0x0047fd65, 0x7d34fb3d, 0xa0a222b8, + 0x1d684e76, 0xc0fe97f3, 0xe78e42c6, 0x3a189b43, 0x87d2f78d, + 0x5a442e08, 0x27372850, 0xfaa1f1d5, 0x476b9d1b, 0x9afd449e, + 0x098a3771, 0xd41ceef4, 0x69d6823a, 0xb4405bbf, 0xc9335de7, + 0x14a58462, 0xa96fe8ac, 0x74f93129, 0x5389e41c, 0x8e1f3d99, + 0x33d55157, 0xee4388d2, 0x93308e8a, 0x4ea6570f, 0xf36c3bc1, + 0x2efae244, 0x0ef3da5e, 0xd36503db, 0x6eaf6f15, 0xb339b690, + 0xce4ab0c8, 0x13dc694d, 0xae160583, 0x7380dc06, 0x54f00933, + 0x8966d0b6, 0x34acbc78, 0xe93a65fd, 0x944963a5, 0x49dfba20, + 0xf415d6ee, 0x29830f6b, 0xbaf47c84, 0x6762a501, 0xdaa8c9cf, + 0x073e104a, 0x7a4d1612, 0xa7dbcf97, 0x1a11a359, 0xc7877adc, + 0xe0f7afe9, 0x3d61766c, 0x80ab1aa2, 0x5d3dc327, 0x204ec57f, + 0xfdd81cfa, 0x40127034, 0x9d84a9b1, 0xa06a2517, 0x7dfcfc92, + 0xc036905c, 0x1da049d9, 0x60d34f81, 0xbd459604, 0x008ffaca, + 0xdd19234f, 0xfa69f67a, 0x27ff2fff, 0x9a354331, 0x47a39ab4, + 0x3ad09cec, 0xe7464569, 0x5a8c29a7, 0x871af022, 0x146d83cd, + 0xc9fb5a48, 0x74313686, 0xa9a7ef03, 0xd4d4e95b, 0x094230de, + 0xb4885c10, 0x691e8595, 0x4e6e50a0, 0x93f88925, 0x2e32e5eb, + 0xf3a43c6e, 0x8ed73a36, 0x5341e3b3, 0xee8b8f7d, 0x331d56f8, + 0x13146ee2, 0xce82b767, 0x7348dba9, 0xaede022c, 0xd3ad0474, + 0x0e3bddf1, 0xb3f1b13f, 0x6e6768ba, 0x4917bd8f, 0x9481640a, + 0x294b08c4, 0xf4ddd141, 0x89aed719, 0x54380e9c, 0xe9f26252, + 0x3464bbd7, 0xa713c838, 0x7a8511bd, 0xc74f7d73, 0x1ad9a4f6, + 0x67aaa2ae, 0xba3c7b2b, 0x07f617e5, 0xda60ce60, 0xfd101b55, + 0x2086c2d0, 0x9d4cae1e, 0x40da779b, 0x3da971c3, 0xe03fa846, + 0x5df5c488, 0x80631d0d, 0x1de7b4bc, 0xc0716d39, 0x7dbb01f7, + 0xa02dd872, 0xdd5ede2a, 0x00c807af, 0xbd026b61, 0x6094b2e4, + 0x47e467d1, 0x9a72be54, 0x27b8d29a, 0xfa2e0b1f, 0x875d0d47, + 0x5acbd4c2, 0xe701b80c, 0x3a976189, 0xa9e01266, 0x7476cbe3, + 0xc9bca72d, 0x142a7ea8, 0x695978f0, 0xb4cfa175, 0x0905cdbb, + 0xd493143e, 0xf3e3c10b, 0x2e75188e, 0x93bf7440, 0x4e29adc5, + 0x335aab9d, 0xeecc7218, 0x53061ed6, 0x8e90c753, 0xae99ff49, + 0x730f26cc, 0xcec54a02, 0x13539387, 0x6e2095df, 0xb3b64c5a, + 0x0e7c2094, 0xd3eaf911, 0xf49a2c24, 0x290cf5a1, 0x94c6996f, + 0x495040ea, 0x342346b2, 0xe9b59f37, 0x547ff3f9, 0x89e92a7c, + 0x1a9e5993, 0xc7088016, 0x7ac2ecd8, 0xa754355d, 0xda273305, + 0x07b1ea80, 0xba7b864e, 0x67ed5fcb, 0x409d8afe, 0x9d0b537b, + 0x20c13fb5, 0xfd57e630, 0x8024e068, 0x5db239ed, 0xe0785523, + 0x3dee8ca6}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x00000000, 0x85d996dd, 0x4bb55c60, 0xce6ccabd, 0x966ab9c0, + 0x13b32f1d, 0xdddfe5a0, 0x5806737d, 0x6dd3035a, 0xe80a9587, + 0x26665f3a, 0xa3bfc9e7, 0xfbb9ba9a, 0x7e602c47, 0xb00ce6fa, + 0x35d57027, 0xdaa607b4, 0x5f7f9169, 0x91135bd4, 0x14cacd09, + 0x4cccbe74, 0xc91528a9, 0x0779e214, 0x82a074c9, 0xb77504ee, + 0x32ac9233, 0xfcc0588e, 0x7919ce53, 0x211fbd2e, 0xa4c62bf3, + 0x6aaae14e, 0xef737793, 0xf54b7eb3, 0x7092e86e, 0xbefe22d3, + 0x3b27b40e, 0x6321c773, 0xe6f851ae, 0x28949b13, 0xad4d0dce, + 0x98987de9, 0x1d41eb34, 0xd32d2189, 0x56f4b754, 0x0ef2c429, + 0x8b2b52f4, 0x45479849, 0xc09e0e94, 0x2fed7907, 0xaa34efda, + 0x64582567, 0xe181b3ba, 0xb987c0c7, 0x3c5e561a, 0xf2329ca7, + 0x77eb0a7a, 0x423e7a5d, 0xc7e7ec80, 0x098b263d, 0x8c52b0e0, + 0xd454c39d, 0x518d5540, 0x9fe19ffd, 0x1a380920, 0xab918dbd, + 0x2e481b60, 0xe024d1dd, 0x65fd4700, 0x3dfb347d, 0xb822a2a0, + 0x764e681d, 0xf397fec0, 0xc6428ee7, 0x439b183a, 0x8df7d287, + 0x082e445a, 0x50283727, 0xd5f1a1fa, 0x1b9d6b47, 0x9e44fd9a, + 0x71378a09, 0xf4ee1cd4, 0x3a82d669, 0xbf5b40b4, 0xe75d33c9, + 0x6284a514, 0xace86fa9, 0x2931f974, 0x1ce48953, 0x993d1f8e, + 0x5751d533, 0xd28843ee, 0x8a8e3093, 0x0f57a64e, 0xc13b6cf3, + 0x44e2fa2e, 0x5edaf30e, 0xdb0365d3, 0x156faf6e, 0x90b639b3, + 0xc8b04ace, 0x4d69dc13, 0x830516ae, 0x06dc8073, 0x3309f054, + 0xb6d06689, 0x78bcac34, 0xfd653ae9, 0xa5634994, 0x20badf49, + 0xeed615f4, 0x6b0f8329, 0x847cf4ba, 0x01a56267, 0xcfc9a8da, + 0x4a103e07, 0x12164d7a, 0x97cfdba7, 0x59a3111a, 0xdc7a87c7, + 0xe9aff7e0, 0x6c76613d, 0xa21aab80, 0x27c33d5d, 0x7fc54e20, + 0xfa1cd8fd, 0x34701240, 0xb1a9849d, 0x17256aa0, 0x92fcfc7d, + 0x5c9036c0, 0xd949a01d, 0x814fd360, 0x049645bd, 0xcafa8f00, + 0x4f2319dd, 0x7af669fa, 0xff2fff27, 0x3143359a, 0xb49aa347, + 0xec9cd03a, 0x694546e7, 0xa7298c5a, 0x22f01a87, 0xcd836d14, + 0x485afbc9, 0x86363174, 0x03efa7a9, 0x5be9d4d4, 0xde304209, + 0x105c88b4, 0x95851e69, 0xa0506e4e, 0x2589f893, 0xebe5322e, + 0x6e3ca4f3, 0x363ad78e, 0xb3e34153, 0x7d8f8bee, 0xf8561d33, + 0xe26e1413, 0x67b782ce, 0xa9db4873, 0x2c02deae, 0x7404add3, + 0xf1dd3b0e, 0x3fb1f1b3, 0xba68676e, 0x8fbd1749, 0x0a648194, + 0xc4084b29, 0x41d1ddf4, 0x19d7ae89, 0x9c0e3854, 0x5262f2e9, + 0xd7bb6434, 0x38c813a7, 0xbd11857a, 0x737d4fc7, 0xf6a4d91a, + 0xaea2aa67, 0x2b7b3cba, 0xe517f607, 0x60ce60da, 0x551b10fd, + 0xd0c28620, 0x1eae4c9d, 0x9b77da40, 0xc371a93d, 0x46a83fe0, + 0x88c4f55d, 0x0d1d6380, 0xbcb4e71d, 0x396d71c0, 0xf701bb7d, + 0x72d82da0, 0x2ade5edd, 0xaf07c800, 0x616b02bd, 0xe4b29460, + 0xd167e447, 0x54be729a, 0x9ad2b827, 0x1f0b2efa, 0x470d5d87, + 0xc2d4cb5a, 0x0cb801e7, 0x8961973a, 0x6612e0a9, 0xe3cb7674, + 0x2da7bcc9, 0xa87e2a14, 0xf0785969, 0x75a1cfb4, 0xbbcd0509, + 0x3e1493d4, 0x0bc1e3f3, 0x8e18752e, 0x4074bf93, 0xc5ad294e, + 0x9dab5a33, 0x1872ccee, 0xd61e0653, 0x53c7908e, 0x49ff99ae, + 0xcc260f73, 0x024ac5ce, 0x87935313, 0xdf95206e, 0x5a4cb6b3, + 0x94207c0e, 0x11f9ead3, 0x242c9af4, 0xa1f50c29, 0x6f99c694, + 0xea405049, 0xb2462334, 0x379fb5e9, 0xf9f37f54, 0x7c2ae989, + 0x93599e1a, 0x168008c7, 0xd8ecc27a, 0x5d3554a7, 0x053327da, + 0x80eab107, 0x4e867bba, 0xcb5fed67, 0xfe8a9d40, 0x7b530b9d, + 0xb53fc120, 0x30e657fd, 0x68e02480, 0xed39b25d, 0x235578e0, + 0xa68cee3d}, + {0x00000000, 0x76e10f9d, 0xadc46ee1, 0xdb25617c, 0x1b8fac19, + 0x6d6ea384, 0xb64bc2f8, 0xc0aacd65, 0x361e5933, 0x40ff56ae, + 0x9bda37d2, 0xed3b384f, 0x2d91f52a, 0x5b70fab7, 0x80559bcb, + 0xf6b49456, 0x6c3cb266, 0x1addbdfb, 0xc1f8dc87, 0xb719d31a, + 0x77b31e7f, 0x015211e2, 0xda77709e, 0xac967f03, 0x5a22eb55, + 0x2cc3e4c8, 0xf7e685b4, 0x81078a29, 0x41ad474c, 0x374c48d1, + 0xec6929ad, 0x9a882630, 0xd87864cd, 0xae996b50, 0x75bc0a2c, + 0x035d05b1, 0xc3f7c8d4, 0xb516c749, 0x6e33a635, 0x18d2a9a8, + 0xee663dfe, 0x98873263, 0x43a2531f, 0x35435c82, 0xf5e991e7, + 0x83089e7a, 0x582dff06, 0x2eccf09b, 0xb444d6ab, 0xc2a5d936, + 0x1980b84a, 0x6f61b7d7, 0xafcb7ab2, 0xd92a752f, 0x020f1453, + 0x74ee1bce, 0x825a8f98, 0xf4bb8005, 0x2f9ee179, 0x597feee4, + 0x99d52381, 0xef342c1c, 0x34114d60, 0x42f042fd, 0xf1f7b941, + 0x8716b6dc, 0x5c33d7a0, 0x2ad2d83d, 0xea781558, 0x9c991ac5, + 0x47bc7bb9, 0x315d7424, 0xc7e9e072, 0xb108efef, 0x6a2d8e93, + 0x1ccc810e, 0xdc664c6b, 0xaa8743f6, 0x71a2228a, 0x07432d17, + 0x9dcb0b27, 0xeb2a04ba, 0x300f65c6, 0x46ee6a5b, 0x8644a73e, + 0xf0a5a8a3, 0x2b80c9df, 0x5d61c642, 0xabd55214, 0xdd345d89, + 0x06113cf5, 0x70f03368, 0xb05afe0d, 0xc6bbf190, 0x1d9e90ec, + 0x6b7f9f71, 0x298fdd8c, 0x5f6ed211, 0x844bb36d, 0xf2aabcf0, + 0x32007195, 0x44e17e08, 0x9fc41f74, 0xe92510e9, 0x1f9184bf, + 0x69708b22, 0xb255ea5e, 0xc4b4e5c3, 0x041e28a6, 0x72ff273b, + 0xa9da4647, 0xdf3b49da, 0x45b36fea, 0x33526077, 0xe877010b, + 0x9e960e96, 0x5e3cc3f3, 0x28ddcc6e, 0xf3f8ad12, 0x8519a28f, + 0x73ad36d9, 0x054c3944, 0xde695838, 0xa88857a5, 0x68229ac0, + 0x1ec3955d, 0xc5e6f421, 0xb307fbbc, 0xe2ef7383, 0x940e7c1e, + 0x4f2b1d62, 0x39ca12ff, 0xf960df9a, 0x8f81d007, 0x54a4b17b, + 0x2245bee6, 0xd4f12ab0, 0xa210252d, 0x79354451, 0x0fd44bcc, + 0xcf7e86a9, 0xb99f8934, 0x62bae848, 0x145be7d5, 0x8ed3c1e5, + 0xf832ce78, 0x2317af04, 0x55f6a099, 0x955c6dfc, 0xe3bd6261, + 0x3898031d, 0x4e790c80, 0xb8cd98d6, 0xce2c974b, 0x1509f637, + 0x63e8f9aa, 0xa34234cf, 0xd5a33b52, 0x0e865a2e, 0x786755b3, + 0x3a97174e, 0x4c7618d3, 0x975379af, 0xe1b27632, 0x2118bb57, + 0x57f9b4ca, 0x8cdcd5b6, 0xfa3dda2b, 0x0c894e7d, 0x7a6841e0, + 0xa14d209c, 0xd7ac2f01, 0x1706e264, 0x61e7edf9, 0xbac28c85, + 0xcc238318, 0x56aba528, 0x204aaab5, 0xfb6fcbc9, 0x8d8ec454, + 0x4d240931, 0x3bc506ac, 0xe0e067d0, 0x9601684d, 0x60b5fc1b, + 0x1654f386, 0xcd7192fa, 0xbb909d67, 0x7b3a5002, 0x0ddb5f9f, + 0xd6fe3ee3, 0xa01f317e, 0x1318cac2, 0x65f9c55f, 0xbedca423, + 0xc83dabbe, 0x089766db, 0x7e766946, 0xa553083a, 0xd3b207a7, + 0x250693f1, 0x53e79c6c, 0x88c2fd10, 0xfe23f28d, 0x3e893fe8, + 0x48683075, 0x934d5109, 0xe5ac5e94, 0x7f2478a4, 0x09c57739, + 0xd2e01645, 0xa40119d8, 0x64abd4bd, 0x124adb20, 0xc96fba5c, + 0xbf8eb5c1, 0x493a2197, 0x3fdb2e0a, 0xe4fe4f76, 0x921f40eb, + 0x52b58d8e, 0x24548213, 0xff71e36f, 0x8990ecf2, 0xcb60ae0f, + 0xbd81a192, 0x66a4c0ee, 0x1045cf73, 0xd0ef0216, 0xa60e0d8b, + 0x7d2b6cf7, 0x0bca636a, 0xfd7ef73c, 0x8b9ff8a1, 0x50ba99dd, + 0x265b9640, 0xe6f15b25, 0x901054b8, 0x4b3535c4, 0x3dd43a59, + 0xa75c1c69, 0xd1bd13f4, 0x0a987288, 0x7c797d15, 0xbcd3b070, + 0xca32bfed, 0x1117de91, 0x67f6d10c, 0x9142455a, 0xe7a34ac7, + 0x3c862bbb, 0x4a672426, 0x8acde943, 0xfc2ce6de, 0x270987a2, + 0x51e8883f}, + {0x00000000, 0xe8dbfbb9, 0x91b186a8, 0x796a7d11, 0x63657c8a, + 0x8bbe8733, 0xf2d4fa22, 0x1a0f019b, 0x87cc89cf, 0x6f177276, + 0x167d0f67, 0xfea6f4de, 0xe4a9f545, 0x0c720efc, 0x751873ed, + 0x9dc38854, 0x4f9f6244, 0xa74499fd, 0xde2ee4ec, 0x36f51f55, + 0x2cfa1ece, 0xc421e577, 0xbd4b9866, 0x559063df, 0xc853eb8b, + 0x20881032, 0x59e26d23, 0xb139969a, 0xab369701, 0x43ed6cb8, + 0x3a8711a9, 0xd25cea10, 0x9e3ec588, 0x76e53e31, 0x0f8f4320, + 0xe754b899, 0xfd5bb902, 0x158042bb, 0x6cea3faa, 0x8431c413, + 0x19f24c47, 0xf129b7fe, 0x8843caef, 0x60983156, 0x7a9730cd, + 0x924ccb74, 0xeb26b665, 0x03fd4ddc, 0xd1a1a7cc, 0x397a5c75, + 0x40102164, 0xa8cbdadd, 0xb2c4db46, 0x5a1f20ff, 0x23755dee, + 0xcbaea657, 0x566d2e03, 0xbeb6d5ba, 0xc7dca8ab, 0x2f075312, + 0x35085289, 0xddd3a930, 0xa4b9d421, 0x4c622f98, 0x7d7bfbca, + 0x95a00073, 0xecca7d62, 0x041186db, 0x1e1e8740, 0xf6c57cf9, + 0x8faf01e8, 0x6774fa51, 0xfab77205, 0x126c89bc, 0x6b06f4ad, + 0x83dd0f14, 0x99d20e8f, 0x7109f536, 0x08638827, 0xe0b8739e, + 0x32e4998e, 0xda3f6237, 0xa3551f26, 0x4b8ee49f, 0x5181e504, + 0xb95a1ebd, 0xc03063ac, 0x28eb9815, 0xb5281041, 0x5df3ebf8, + 0x249996e9, 0xcc426d50, 0xd64d6ccb, 0x3e969772, 0x47fcea63, + 0xaf2711da, 0xe3453e42, 0x0b9ec5fb, 0x72f4b8ea, 0x9a2f4353, + 0x802042c8, 0x68fbb971, 0x1191c460, 0xf94a3fd9, 0x6489b78d, + 0x8c524c34, 0xf5383125, 0x1de3ca9c, 0x07eccb07, 0xef3730be, + 0x965d4daf, 0x7e86b616, 0xacda5c06, 0x4401a7bf, 0x3d6bdaae, + 0xd5b02117, 0xcfbf208c, 0x2764db35, 0x5e0ea624, 0xb6d55d9d, + 0x2b16d5c9, 0xc3cd2e70, 0xbaa75361, 0x527ca8d8, 0x4873a943, + 0xa0a852fa, 0xd9c22feb, 0x3119d452, 0xbbf0874e, 0x532b7cf7, + 0x2a4101e6, 0xc29afa5f, 0xd895fbc4, 0x304e007d, 0x49247d6c, + 0xa1ff86d5, 0x3c3c0e81, 0xd4e7f538, 0xad8d8829, 0x45567390, + 0x5f59720b, 0xb78289b2, 0xcee8f4a3, 0x26330f1a, 0xf46fe50a, + 0x1cb41eb3, 0x65de63a2, 0x8d05981b, 0x970a9980, 0x7fd16239, + 0x06bb1f28, 0xee60e491, 0x73a36cc5, 0x9b78977c, 0xe212ea6d, + 0x0ac911d4, 0x10c6104f, 0xf81debf6, 0x817796e7, 0x69ac6d5e, + 0x25ce42c6, 0xcd15b97f, 0xb47fc46e, 0x5ca43fd7, 0x46ab3e4c, + 0xae70c5f5, 0xd71ab8e4, 0x3fc1435d, 0xa202cb09, 0x4ad930b0, + 0x33b34da1, 0xdb68b618, 0xc167b783, 0x29bc4c3a, 0x50d6312b, + 0xb80dca92, 0x6a512082, 0x828adb3b, 0xfbe0a62a, 0x133b5d93, + 0x09345c08, 0xe1efa7b1, 0x9885daa0, 0x705e2119, 0xed9da94d, + 0x054652f4, 0x7c2c2fe5, 0x94f7d45c, 0x8ef8d5c7, 0x66232e7e, + 0x1f49536f, 0xf792a8d6, 0xc68b7c84, 0x2e50873d, 0x573afa2c, + 0xbfe10195, 0xa5ee000e, 0x4d35fbb7, 0x345f86a6, 0xdc847d1f, + 0x4147f54b, 0xa99c0ef2, 0xd0f673e3, 0x382d885a, 0x222289c1, + 0xcaf97278, 0xb3930f69, 0x5b48f4d0, 0x89141ec0, 0x61cfe579, + 0x18a59868, 0xf07e63d1, 0xea71624a, 0x02aa99f3, 0x7bc0e4e2, + 0x931b1f5b, 0x0ed8970f, 0xe6036cb6, 0x9f6911a7, 0x77b2ea1e, + 0x6dbdeb85, 0x8566103c, 0xfc0c6d2d, 0x14d79694, 0x58b5b90c, + 0xb06e42b5, 0xc9043fa4, 0x21dfc41d, 0x3bd0c586, 0xd30b3e3f, + 0xaa61432e, 0x42bab897, 0xdf7930c3, 0x37a2cb7a, 0x4ec8b66b, + 0xa6134dd2, 0xbc1c4c49, 0x54c7b7f0, 0x2dadcae1, 0xc5763158, + 0x172adb48, 0xfff120f1, 0x869b5de0, 0x6e40a659, 0x744fa7c2, + 0x9c945c7b, 0xe5fe216a, 0x0d25dad3, 0x90e65287, 0x783da93e, + 0x0157d42f, 0xe98c2f96, 0xf3832e0d, 0x1b58d5b4, 0x6232a8a5, + 0x8ae9531c}, + {0x00000000, 0x919168ae, 0x6325a087, 0xf2b4c829, 0x874c31d4, + 0x16dd597a, 0xe4699153, 0x75f8f9fd, 0x4f9f1373, 0xde0e7bdd, + 0x2cbab3f4, 0xbd2bdb5a, 0xc8d322a7, 0x59424a09, 0xabf68220, + 0x3a67ea8e, 0x9e3e27e6, 0x0faf4f48, 0xfd1b8761, 0x6c8aefcf, + 0x19721632, 0x88e37e9c, 0x7a57b6b5, 0xebc6de1b, 0xd1a13495, + 0x40305c3b, 0xb2849412, 0x2315fcbc, 0x56ed0541, 0xc77c6def, + 0x35c8a5c6, 0xa459cd68, 0x7d7b3f17, 0xecea57b9, 0x1e5e9f90, + 0x8fcff73e, 0xfa370ec3, 0x6ba6666d, 0x9912ae44, 0x0883c6ea, + 0x32e42c64, 0xa37544ca, 0x51c18ce3, 0xc050e44d, 0xb5a81db0, + 0x2439751e, 0xd68dbd37, 0x471cd599, 0xe34518f1, 0x72d4705f, + 0x8060b876, 0x11f1d0d8, 0x64092925, 0xf598418b, 0x072c89a2, + 0x96bde10c, 0xacda0b82, 0x3d4b632c, 0xcfffab05, 0x5e6ec3ab, + 0x2b963a56, 0xba0752f8, 0x48b39ad1, 0xd922f27f, 0xfaf67e2e, + 0x6b671680, 0x99d3dea9, 0x0842b607, 0x7dba4ffa, 0xec2b2754, + 0x1e9fef7d, 0x8f0e87d3, 0xb5696d5d, 0x24f805f3, 0xd64ccdda, + 0x47dda574, 0x32255c89, 0xa3b43427, 0x5100fc0e, 0xc09194a0, + 0x64c859c8, 0xf5593166, 0x07edf94f, 0x967c91e1, 0xe384681c, + 0x721500b2, 0x80a1c89b, 0x1130a035, 0x2b574abb, 0xbac62215, + 0x4872ea3c, 0xd9e38292, 0xac1b7b6f, 0x3d8a13c1, 0xcf3edbe8, + 0x5eafb346, 0x878d4139, 0x161c2997, 0xe4a8e1be, 0x75398910, + 0x00c170ed, 0x91501843, 0x63e4d06a, 0xf275b8c4, 0xc812524a, + 0x59833ae4, 0xab37f2cd, 0x3aa69a63, 0x4f5e639e, 0xdecf0b30, + 0x2c7bc319, 0xbdeaabb7, 0x19b366df, 0x88220e71, 0x7a96c658, + 0xeb07aef6, 0x9eff570b, 0x0f6e3fa5, 0xfddaf78c, 0x6c4b9f22, + 0x562c75ac, 0xc7bd1d02, 0x3509d52b, 0xa498bd85, 0xd1604478, + 0x40f12cd6, 0xb245e4ff, 0x23d48c51, 0xf4edfd5c, 0x657c95f2, + 0x97c85ddb, 0x06593575, 0x73a1cc88, 0xe230a426, 0x10846c0f, + 0x811504a1, 0xbb72ee2f, 0x2ae38681, 0xd8574ea8, 0x49c62606, + 0x3c3edffb, 0xadafb755, 0x5f1b7f7c, 0xce8a17d2, 0x6ad3daba, + 0xfb42b214, 0x09f67a3d, 0x98671293, 0xed9feb6e, 0x7c0e83c0, + 0x8eba4be9, 0x1f2b2347, 0x254cc9c9, 0xb4dda167, 0x4669694e, + 0xd7f801e0, 0xa200f81d, 0x339190b3, 0xc125589a, 0x50b43034, + 0x8996c24b, 0x1807aae5, 0xeab362cc, 0x7b220a62, 0x0edaf39f, + 0x9f4b9b31, 0x6dff5318, 0xfc6e3bb6, 0xc609d138, 0x5798b996, + 0xa52c71bf, 0x34bd1911, 0x4145e0ec, 0xd0d48842, 0x2260406b, + 0xb3f128c5, 0x17a8e5ad, 0x86398d03, 0x748d452a, 0xe51c2d84, + 0x90e4d479, 0x0175bcd7, 0xf3c174fe, 0x62501c50, 0x5837f6de, + 0xc9a69e70, 0x3b125659, 0xaa833ef7, 0xdf7bc70a, 0x4eeaafa4, + 0xbc5e678d, 0x2dcf0f23, 0x0e1b8372, 0x9f8aebdc, 0x6d3e23f5, + 0xfcaf4b5b, 0x8957b2a6, 0x18c6da08, 0xea721221, 0x7be37a8f, + 0x41849001, 0xd015f8af, 0x22a13086, 0xb3305828, 0xc6c8a1d5, + 0x5759c97b, 0xa5ed0152, 0x347c69fc, 0x9025a494, 0x01b4cc3a, + 0xf3000413, 0x62916cbd, 0x17699540, 0x86f8fdee, 0x744c35c7, + 0xe5dd5d69, 0xdfbab7e7, 0x4e2bdf49, 0xbc9f1760, 0x2d0e7fce, + 0x58f68633, 0xc967ee9d, 0x3bd326b4, 0xaa424e1a, 0x7360bc65, + 0xe2f1d4cb, 0x10451ce2, 0x81d4744c, 0xf42c8db1, 0x65bde51f, + 0x97092d36, 0x06984598, 0x3cffaf16, 0xad6ec7b8, 0x5fda0f91, + 0xce4b673f, 0xbbb39ec2, 0x2a22f66c, 0xd8963e45, 0x490756eb, + 0xed5e9b83, 0x7ccff32d, 0x8e7b3b04, 0x1fea53aa, 0x6a12aa57, + 0xfb83c2f9, 0x09370ad0, 0x98a6627e, 0xa2c188f0, 0x3350e05e, + 0xc1e42877, 0x507540d9, 0x258db924, 0xb41cd18a, 0x46a819a3, + 0xd739710d}}; + +#endif + +#endif + +#if N == 5 + +#if W == 8 + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0xaf449247, 0x85f822cf, 0x2abcb088, 0xd08143df, + 0x7fc5d198, 0x55796110, 0xfa3df357, 0x7a7381ff, 0xd53713b8, + 0xff8ba330, 0x50cf3177, 0xaaf2c220, 0x05b65067, 0x2f0ae0ef, + 0x804e72a8, 0xf4e703fe, 0x5ba391b9, 0x711f2131, 0xde5bb376, + 0x24664021, 0x8b22d266, 0xa19e62ee, 0x0edaf0a9, 0x8e948201, + 0x21d01046, 0x0b6ca0ce, 0xa4283289, 0x5e15c1de, 0xf1515399, + 0xdbede311, 0x74a97156, 0x32bf01bd, 0x9dfb93fa, 0xb7472372, + 0x1803b135, 0xe23e4262, 0x4d7ad025, 0x67c660ad, 0xc882f2ea, + 0x48cc8042, 0xe7881205, 0xcd34a28d, 0x627030ca, 0x984dc39d, + 0x370951da, 0x1db5e152, 0xb2f17315, 0xc6580243, 0x691c9004, + 0x43a0208c, 0xece4b2cb, 0x16d9419c, 0xb99dd3db, 0x93216353, + 0x3c65f114, 0xbc2b83bc, 0x136f11fb, 0x39d3a173, 0x96973334, + 0x6caac063, 0xc3ee5224, 0xe952e2ac, 0x461670eb, 0x657e037a, + 0xca3a913d, 0xe08621b5, 0x4fc2b3f2, 0xb5ff40a5, 0x1abbd2e2, + 0x3007626a, 0x9f43f02d, 0x1f0d8285, 0xb04910c2, 0x9af5a04a, + 0x35b1320d, 0xcf8cc15a, 0x60c8531d, 0x4a74e395, 0xe53071d2, + 0x91990084, 0x3edd92c3, 0x1461224b, 0xbb25b00c, 0x4118435b, + 0xee5cd11c, 0xc4e06194, 0x6ba4f3d3, 0xebea817b, 0x44ae133c, + 0x6e12a3b4, 0xc15631f3, 0x3b6bc2a4, 0x942f50e3, 0xbe93e06b, + 0x11d7722c, 0x57c102c7, 0xf8859080, 0xd2392008, 0x7d7db24f, + 0x87404118, 0x2804d35f, 0x02b863d7, 0xadfcf190, 0x2db28338, + 0x82f6117f, 0xa84aa1f7, 0x070e33b0, 0xfd33c0e7, 0x527752a0, + 0x78cbe228, 0xd78f706f, 0xa3260139, 0x0c62937e, 0x26de23f6, + 0x899ab1b1, 0x73a742e6, 0xdce3d0a1, 0xf65f6029, 0x591bf26e, + 0xd95580c6, 0x76111281, 0x5cada209, 0xf3e9304e, 0x09d4c319, + 0xa690515e, 0x8c2ce1d6, 0x23687391, 0xcafc06f4, 0x65b894b3, + 0x4f04243b, 0xe040b67c, 0x1a7d452b, 0xb539d76c, 0x9f8567e4, + 0x30c1f5a3, 0xb08f870b, 0x1fcb154c, 0x3577a5c4, 0x9a333783, + 0x600ec4d4, 0xcf4a5693, 0xe5f6e61b, 0x4ab2745c, 0x3e1b050a, + 0x915f974d, 0xbbe327c5, 0x14a7b582, 0xee9a46d5, 0x41ded492, + 0x6b62641a, 0xc426f65d, 0x446884f5, 0xeb2c16b2, 0xc190a63a, + 0x6ed4347d, 0x94e9c72a, 0x3bad556d, 0x1111e5e5, 0xbe5577a2, + 0xf8430749, 0x5707950e, 0x7dbb2586, 0xd2ffb7c1, 0x28c24496, + 0x8786d6d1, 0xad3a6659, 0x027ef41e, 0x823086b6, 0x2d7414f1, + 0x07c8a479, 0xa88c363e, 0x52b1c569, 0xfdf5572e, 0xd749e7a6, + 0x780d75e1, 0x0ca404b7, 0xa3e096f0, 0x895c2678, 0x2618b43f, + 0xdc254768, 0x7361d52f, 0x59dd65a7, 0xf699f7e0, 0x76d78548, + 0xd993170f, 0xf32fa787, 0x5c6b35c0, 0xa656c697, 0x091254d0, + 0x23aee458, 0x8cea761f, 0xaf82058e, 0x00c697c9, 0x2a7a2741, + 0x853eb506, 0x7f034651, 0xd047d416, 0xfafb649e, 0x55bff6d9, + 0xd5f18471, 0x7ab51636, 0x5009a6be, 0xff4d34f9, 0x0570c7ae, + 0xaa3455e9, 0x8088e561, 0x2fcc7726, 0x5b650670, 0xf4219437, + 0xde9d24bf, 0x71d9b6f8, 0x8be445af, 0x24a0d7e8, 0x0e1c6760, + 0xa158f527, 0x2116878f, 0x8e5215c8, 0xa4eea540, 0x0baa3707, + 0xf197c450, 0x5ed35617, 0x746fe69f, 0xdb2b74d8, 0x9d3d0433, + 0x32799674, 0x18c526fc, 0xb781b4bb, 0x4dbc47ec, 0xe2f8d5ab, + 0xc8446523, 0x6700f764, 0xe74e85cc, 0x480a178b, 0x62b6a703, + 0xcdf23544, 0x37cfc613, 0x988b5454, 0xb237e4dc, 0x1d73769b, + 0x69da07cd, 0xc69e958a, 0xec222502, 0x4366b745, 0xb95b4412, + 0x161fd655, 0x3ca366dd, 0x93e7f49a, 0x13a98632, 0xbced1475, + 0x9651a4fd, 0x391536ba, 0xc328c5ed, 0x6c6c57aa, 0x46d0e722, + 0xe9947565}, + {0x00000000, 0x4e890ba9, 0x9d121752, 0xd39b1cfb, 0xe15528e5, + 0xafdc234c, 0x7c473fb7, 0x32ce341e, 0x19db578b, 0x57525c22, + 0x84c940d9, 0xca404b70, 0xf88e7f6e, 0xb60774c7, 0x659c683c, + 0x2b156395, 0x33b6af16, 0x7d3fa4bf, 0xaea4b844, 0xe02db3ed, + 0xd2e387f3, 0x9c6a8c5a, 0x4ff190a1, 0x01789b08, 0x2a6df89d, + 0x64e4f334, 0xb77fefcf, 0xf9f6e466, 0xcb38d078, 0x85b1dbd1, + 0x562ac72a, 0x18a3cc83, 0x676d5e2c, 0x29e45585, 0xfa7f497e, + 0xb4f642d7, 0x863876c9, 0xc8b17d60, 0x1b2a619b, 0x55a36a32, + 0x7eb609a7, 0x303f020e, 0xe3a41ef5, 0xad2d155c, 0x9fe32142, + 0xd16a2aeb, 0x02f13610, 0x4c783db9, 0x54dbf13a, 0x1a52fa93, + 0xc9c9e668, 0x8740edc1, 0xb58ed9df, 0xfb07d276, 0x289cce8d, + 0x6615c524, 0x4d00a6b1, 0x0389ad18, 0xd012b1e3, 0x9e9bba4a, + 0xac558e54, 0xe2dc85fd, 0x31479906, 0x7fce92af, 0xcedabc58, + 0x8053b7f1, 0x53c8ab0a, 0x1d41a0a3, 0x2f8f94bd, 0x61069f14, + 0xb29d83ef, 0xfc148846, 0xd701ebd3, 0x9988e07a, 0x4a13fc81, + 0x049af728, 0x3654c336, 0x78ddc89f, 0xab46d464, 0xe5cfdfcd, + 0xfd6c134e, 0xb3e518e7, 0x607e041c, 0x2ef70fb5, 0x1c393bab, + 0x52b03002, 0x812b2cf9, 0xcfa22750, 0xe4b744c5, 0xaa3e4f6c, + 0x79a55397, 0x372c583e, 0x05e26c20, 0x4b6b6789, 0x98f07b72, + 0xd67970db, 0xa9b7e274, 0xe73ee9dd, 0x34a5f526, 0x7a2cfe8f, + 0x48e2ca91, 0x066bc138, 0xd5f0ddc3, 0x9b79d66a, 0xb06cb5ff, + 0xfee5be56, 0x2d7ea2ad, 0x63f7a904, 0x51399d1a, 0x1fb096b3, + 0xcc2b8a48, 0x82a281e1, 0x9a014d62, 0xd48846cb, 0x07135a30, + 0x499a5199, 0x7b546587, 0x35dd6e2e, 0xe64672d5, 0xa8cf797c, + 0x83da1ae9, 0xcd531140, 0x1ec80dbb, 0x50410612, 0x628f320c, + 0x2c0639a5, 0xff9d255e, 0xb1142ef7, 0x46c47ef1, 0x084d7558, + 0xdbd669a3, 0x955f620a, 0xa7915614, 0xe9185dbd, 0x3a834146, + 0x740a4aef, 0x5f1f297a, 0x119622d3, 0xc20d3e28, 0x8c843581, + 0xbe4a019f, 0xf0c30a36, 0x235816cd, 0x6dd11d64, 0x7572d1e7, + 0x3bfbda4e, 0xe860c6b5, 0xa6e9cd1c, 0x9427f902, 0xdaaef2ab, + 0x0935ee50, 0x47bce5f9, 0x6ca9866c, 0x22208dc5, 0xf1bb913e, + 0xbf329a97, 0x8dfcae89, 0xc375a520, 0x10eeb9db, 0x5e67b272, + 0x21a920dd, 0x6f202b74, 0xbcbb378f, 0xf2323c26, 0xc0fc0838, + 0x8e750391, 0x5dee1f6a, 0x136714c3, 0x38727756, 0x76fb7cff, + 0xa5606004, 0xebe96bad, 0xd9275fb3, 0x97ae541a, 0x443548e1, + 0x0abc4348, 0x121f8fcb, 0x5c968462, 0x8f0d9899, 0xc1849330, + 0xf34aa72e, 0xbdc3ac87, 0x6e58b07c, 0x20d1bbd5, 0x0bc4d840, + 0x454dd3e9, 0x96d6cf12, 0xd85fc4bb, 0xea91f0a5, 0xa418fb0c, + 0x7783e7f7, 0x390aec5e, 0x881ec2a9, 0xc697c900, 0x150cd5fb, + 0x5b85de52, 0x694bea4c, 0x27c2e1e5, 0xf459fd1e, 0xbad0f6b7, + 0x91c59522, 0xdf4c9e8b, 0x0cd78270, 0x425e89d9, 0x7090bdc7, + 0x3e19b66e, 0xed82aa95, 0xa30ba13c, 0xbba86dbf, 0xf5216616, + 0x26ba7aed, 0x68337144, 0x5afd455a, 0x14744ef3, 0xc7ef5208, + 0x896659a1, 0xa2733a34, 0xecfa319d, 0x3f612d66, 0x71e826cf, + 0x432612d1, 0x0daf1978, 0xde340583, 0x90bd0e2a, 0xef739c85, + 0xa1fa972c, 0x72618bd7, 0x3ce8807e, 0x0e26b460, 0x40afbfc9, + 0x9334a332, 0xddbda89b, 0xf6a8cb0e, 0xb821c0a7, 0x6bbadc5c, + 0x2533d7f5, 0x17fde3eb, 0x5974e842, 0x8aeff4b9, 0xc466ff10, + 0xdcc53393, 0x924c383a, 0x41d724c1, 0x0f5e2f68, 0x3d901b76, + 0x731910df, 0xa0820c24, 0xee0b078d, 0xc51e6418, 0x8b976fb1, + 0x580c734a, 0x168578e3, 0x244b4cfd, 0x6ac24754, 0xb9595baf, + 0xf7d05006}, + {0x00000000, 0x8d88fde2, 0xc060fd85, 0x4de80067, 0x5bb0fd4b, + 0xd63800a9, 0x9bd000ce, 0x1658fd2c, 0xb761fa96, 0x3ae90774, + 0x77010713, 0xfa89faf1, 0xecd107dd, 0x6159fa3f, 0x2cb1fa58, + 0xa13907ba, 0xb5b2f36d, 0x383a0e8f, 0x75d20ee8, 0xf85af30a, + 0xee020e26, 0x638af3c4, 0x2e62f3a3, 0xa3ea0e41, 0x02d309fb, + 0x8f5bf419, 0xc2b3f47e, 0x4f3b099c, 0x5963f4b0, 0xd4eb0952, + 0x99030935, 0x148bf4d7, 0xb014e09b, 0x3d9c1d79, 0x70741d1e, + 0xfdfce0fc, 0xeba41dd0, 0x662ce032, 0x2bc4e055, 0xa64c1db7, + 0x07751a0d, 0x8afde7ef, 0xc715e788, 0x4a9d1a6a, 0x5cc5e746, + 0xd14d1aa4, 0x9ca51ac3, 0x112de721, 0x05a613f6, 0x882eee14, + 0xc5c6ee73, 0x484e1391, 0x5e16eebd, 0xd39e135f, 0x9e761338, + 0x13feeeda, 0xb2c7e960, 0x3f4f1482, 0x72a714e5, 0xff2fe907, + 0xe977142b, 0x64ffe9c9, 0x2917e9ae, 0xa49f144c, 0xbb58c777, + 0x36d03a95, 0x7b383af2, 0xf6b0c710, 0xe0e83a3c, 0x6d60c7de, + 0x2088c7b9, 0xad003a5b, 0x0c393de1, 0x81b1c003, 0xcc59c064, + 0x41d13d86, 0x5789c0aa, 0xda013d48, 0x97e93d2f, 0x1a61c0cd, + 0x0eea341a, 0x8362c9f8, 0xce8ac99f, 0x4302347d, 0x555ac951, + 0xd8d234b3, 0x953a34d4, 0x18b2c936, 0xb98bce8c, 0x3403336e, + 0x79eb3309, 0xf463ceeb, 0xe23b33c7, 0x6fb3ce25, 0x225bce42, + 0xafd333a0, 0x0b4c27ec, 0x86c4da0e, 0xcb2cda69, 0x46a4278b, + 0x50fcdaa7, 0xdd742745, 0x909c2722, 0x1d14dac0, 0xbc2ddd7a, + 0x31a52098, 0x7c4d20ff, 0xf1c5dd1d, 0xe79d2031, 0x6a15ddd3, + 0x27fdddb4, 0xaa752056, 0xbefed481, 0x33762963, 0x7e9e2904, + 0xf316d4e6, 0xe54e29ca, 0x68c6d428, 0x252ed44f, 0xa8a629ad, + 0x099f2e17, 0x8417d3f5, 0xc9ffd392, 0x44772e70, 0x522fd35c, + 0xdfa72ebe, 0x924f2ed9, 0x1fc7d33b, 0xadc088af, 0x2048754d, + 0x6da0752a, 0xe02888c8, 0xf67075e4, 0x7bf88806, 0x36108861, + 0xbb987583, 0x1aa17239, 0x97298fdb, 0xdac18fbc, 0x5749725e, + 0x41118f72, 0xcc997290, 0x817172f7, 0x0cf98f15, 0x18727bc2, + 0x95fa8620, 0xd8128647, 0x559a7ba5, 0x43c28689, 0xce4a7b6b, + 0x83a27b0c, 0x0e2a86ee, 0xaf138154, 0x229b7cb6, 0x6f737cd1, + 0xe2fb8133, 0xf4a37c1f, 0x792b81fd, 0x34c3819a, 0xb94b7c78, + 0x1dd46834, 0x905c95d6, 0xddb495b1, 0x503c6853, 0x4664957f, + 0xcbec689d, 0x860468fa, 0x0b8c9518, 0xaab592a2, 0x273d6f40, + 0x6ad56f27, 0xe75d92c5, 0xf1056fe9, 0x7c8d920b, 0x3165926c, + 0xbced6f8e, 0xa8669b59, 0x25ee66bb, 0x680666dc, 0xe58e9b3e, + 0xf3d66612, 0x7e5e9bf0, 0x33b69b97, 0xbe3e6675, 0x1f0761cf, + 0x928f9c2d, 0xdf679c4a, 0x52ef61a8, 0x44b79c84, 0xc93f6166, + 0x84d76101, 0x095f9ce3, 0x16984fd8, 0x9b10b23a, 0xd6f8b25d, + 0x5b704fbf, 0x4d28b293, 0xc0a04f71, 0x8d484f16, 0x00c0b2f4, + 0xa1f9b54e, 0x2c7148ac, 0x619948cb, 0xec11b529, 0xfa494805, + 0x77c1b5e7, 0x3a29b580, 0xb7a14862, 0xa32abcb5, 0x2ea24157, + 0x634a4130, 0xeec2bcd2, 0xf89a41fe, 0x7512bc1c, 0x38fabc7b, + 0xb5724199, 0x144b4623, 0x99c3bbc1, 0xd42bbba6, 0x59a34644, + 0x4ffbbb68, 0xc273468a, 0x8f9b46ed, 0x0213bb0f, 0xa68caf43, + 0x2b0452a1, 0x66ec52c6, 0xeb64af24, 0xfd3c5208, 0x70b4afea, + 0x3d5caf8d, 0xb0d4526f, 0x11ed55d5, 0x9c65a837, 0xd18da850, + 0x5c0555b2, 0x4a5da89e, 0xc7d5557c, 0x8a3d551b, 0x07b5a8f9, + 0x133e5c2e, 0x9eb6a1cc, 0xd35ea1ab, 0x5ed65c49, 0x488ea165, + 0xc5065c87, 0x88ee5ce0, 0x0566a102, 0xa45fa6b8, 0x29d75b5a, + 0x643f5b3d, 0xe9b7a6df, 0xffef5bf3, 0x7267a611, 0x3f8fa676, + 0xb2075b94}, + {0x00000000, 0x80f0171f, 0xda91287f, 0x5a613f60, 0x6e5356bf, + 0xeea341a0, 0xb4c27ec0, 0x343269df, 0xdca6ad7e, 0x5c56ba61, + 0x06378501, 0x86c7921e, 0xb2f5fbc1, 0x3205ecde, 0x6864d3be, + 0xe894c4a1, 0x623c5cbd, 0xe2cc4ba2, 0xb8ad74c2, 0x385d63dd, + 0x0c6f0a02, 0x8c9f1d1d, 0xd6fe227d, 0x560e3562, 0xbe9af1c3, + 0x3e6ae6dc, 0x640bd9bc, 0xe4fbcea3, 0xd0c9a77c, 0x5039b063, + 0x0a588f03, 0x8aa8981c, 0xc478b97a, 0x4488ae65, 0x1ee99105, + 0x9e19861a, 0xaa2befc5, 0x2adbf8da, 0x70bac7ba, 0xf04ad0a5, + 0x18de1404, 0x982e031b, 0xc24f3c7b, 0x42bf2b64, 0x768d42bb, + 0xf67d55a4, 0xac1c6ac4, 0x2cec7ddb, 0xa644e5c7, 0x26b4f2d8, + 0x7cd5cdb8, 0xfc25daa7, 0xc817b378, 0x48e7a467, 0x12869b07, + 0x92768c18, 0x7ae248b9, 0xfa125fa6, 0xa07360c6, 0x208377d9, + 0x14b11e06, 0x94410919, 0xce203679, 0x4ed02166, 0x538074b5, + 0xd37063aa, 0x89115cca, 0x09e14bd5, 0x3dd3220a, 0xbd233515, + 0xe7420a75, 0x67b21d6a, 0x8f26d9cb, 0x0fd6ced4, 0x55b7f1b4, + 0xd547e6ab, 0xe1758f74, 0x6185986b, 0x3be4a70b, 0xbb14b014, + 0x31bc2808, 0xb14c3f17, 0xeb2d0077, 0x6bdd1768, 0x5fef7eb7, + 0xdf1f69a8, 0x857e56c8, 0x058e41d7, 0xed1a8576, 0x6dea9269, + 0x378bad09, 0xb77bba16, 0x8349d3c9, 0x03b9c4d6, 0x59d8fbb6, + 0xd928eca9, 0x97f8cdcf, 0x1708dad0, 0x4d69e5b0, 0xcd99f2af, + 0xf9ab9b70, 0x795b8c6f, 0x233ab30f, 0xa3caa410, 0x4b5e60b1, + 0xcbae77ae, 0x91cf48ce, 0x113f5fd1, 0x250d360e, 0xa5fd2111, + 0xff9c1e71, 0x7f6c096e, 0xf5c49172, 0x7534866d, 0x2f55b90d, + 0xafa5ae12, 0x9b97c7cd, 0x1b67d0d2, 0x4106efb2, 0xc1f6f8ad, + 0x29623c0c, 0xa9922b13, 0xf3f31473, 0x7303036c, 0x47316ab3, + 0xc7c17dac, 0x9da042cc, 0x1d5055d3, 0xa700e96a, 0x27f0fe75, + 0x7d91c115, 0xfd61d60a, 0xc953bfd5, 0x49a3a8ca, 0x13c297aa, + 0x933280b5, 0x7ba64414, 0xfb56530b, 0xa1376c6b, 0x21c77b74, + 0x15f512ab, 0x950505b4, 0xcf643ad4, 0x4f942dcb, 0xc53cb5d7, + 0x45cca2c8, 0x1fad9da8, 0x9f5d8ab7, 0xab6fe368, 0x2b9ff477, + 0x71fecb17, 0xf10edc08, 0x199a18a9, 0x996a0fb6, 0xc30b30d6, + 0x43fb27c9, 0x77c94e16, 0xf7395909, 0xad586669, 0x2da87176, + 0x63785010, 0xe388470f, 0xb9e9786f, 0x39196f70, 0x0d2b06af, + 0x8ddb11b0, 0xd7ba2ed0, 0x574a39cf, 0xbfdefd6e, 0x3f2eea71, + 0x654fd511, 0xe5bfc20e, 0xd18dabd1, 0x517dbcce, 0x0b1c83ae, + 0x8bec94b1, 0x01440cad, 0x81b41bb2, 0xdbd524d2, 0x5b2533cd, + 0x6f175a12, 0xefe74d0d, 0xb586726d, 0x35766572, 0xdde2a1d3, + 0x5d12b6cc, 0x077389ac, 0x87839eb3, 0xb3b1f76c, 0x3341e073, + 0x6920df13, 0xe9d0c80c, 0xf4809ddf, 0x74708ac0, 0x2e11b5a0, + 0xaee1a2bf, 0x9ad3cb60, 0x1a23dc7f, 0x4042e31f, 0xc0b2f400, + 0x282630a1, 0xa8d627be, 0xf2b718de, 0x72470fc1, 0x4675661e, + 0xc6857101, 0x9ce44e61, 0x1c14597e, 0x96bcc162, 0x164cd67d, + 0x4c2de91d, 0xccddfe02, 0xf8ef97dd, 0x781f80c2, 0x227ebfa2, + 0xa28ea8bd, 0x4a1a6c1c, 0xcaea7b03, 0x908b4463, 0x107b537c, + 0x24493aa3, 0xa4b92dbc, 0xfed812dc, 0x7e2805c3, 0x30f824a5, + 0xb00833ba, 0xea690cda, 0x6a991bc5, 0x5eab721a, 0xde5b6505, + 0x843a5a65, 0x04ca4d7a, 0xec5e89db, 0x6cae9ec4, 0x36cfa1a4, + 0xb63fb6bb, 0x820ddf64, 0x02fdc87b, 0x589cf71b, 0xd86ce004, + 0x52c47818, 0xd2346f07, 0x88555067, 0x08a54778, 0x3c972ea7, + 0xbc6739b8, 0xe60606d8, 0x66f611c7, 0x8e62d566, 0x0e92c279, + 0x54f3fd19, 0xd403ea06, 0xe03183d9, 0x60c194c6, 0x3aa0aba6, + 0xba50bcb9}, + {0x00000000, 0x9570d495, 0xf190af6b, 0x64e07bfe, 0x38505897, + 0xad208c02, 0xc9c0f7fc, 0x5cb02369, 0x70a0b12e, 0xe5d065bb, + 0x81301e45, 0x1440cad0, 0x48f0e9b9, 0xdd803d2c, 0xb96046d2, + 0x2c109247, 0xe141625c, 0x7431b6c9, 0x10d1cd37, 0x85a119a2, + 0xd9113acb, 0x4c61ee5e, 0x288195a0, 0xbdf14135, 0x91e1d372, + 0x049107e7, 0x60717c19, 0xf501a88c, 0xa9b18be5, 0x3cc15f70, + 0x5821248e, 0xcd51f01b, 0x19f3c2f9, 0x8c83166c, 0xe8636d92, + 0x7d13b907, 0x21a39a6e, 0xb4d34efb, 0xd0333505, 0x4543e190, + 0x695373d7, 0xfc23a742, 0x98c3dcbc, 0x0db30829, 0x51032b40, + 0xc473ffd5, 0xa093842b, 0x35e350be, 0xf8b2a0a5, 0x6dc27430, + 0x09220fce, 0x9c52db5b, 0xc0e2f832, 0x55922ca7, 0x31725759, + 0xa40283cc, 0x8812118b, 0x1d62c51e, 0x7982bee0, 0xecf26a75, + 0xb042491c, 0x25329d89, 0x41d2e677, 0xd4a232e2, 0x33e785f2, + 0xa6975167, 0xc2772a99, 0x5707fe0c, 0x0bb7dd65, 0x9ec709f0, + 0xfa27720e, 0x6f57a69b, 0x434734dc, 0xd637e049, 0xb2d79bb7, + 0x27a74f22, 0x7b176c4b, 0xee67b8de, 0x8a87c320, 0x1ff717b5, + 0xd2a6e7ae, 0x47d6333b, 0x233648c5, 0xb6469c50, 0xeaf6bf39, + 0x7f866bac, 0x1b661052, 0x8e16c4c7, 0xa2065680, 0x37768215, + 0x5396f9eb, 0xc6e62d7e, 0x9a560e17, 0x0f26da82, 0x6bc6a17c, + 0xfeb675e9, 0x2a14470b, 0xbf64939e, 0xdb84e860, 0x4ef43cf5, + 0x12441f9c, 0x8734cb09, 0xe3d4b0f7, 0x76a46462, 0x5ab4f625, + 0xcfc422b0, 0xab24594e, 0x3e548ddb, 0x62e4aeb2, 0xf7947a27, + 0x937401d9, 0x0604d54c, 0xcb552557, 0x5e25f1c2, 0x3ac58a3c, + 0xafb55ea9, 0xf3057dc0, 0x6675a955, 0x0295d2ab, 0x97e5063e, + 0xbbf59479, 0x2e8540ec, 0x4a653b12, 0xdf15ef87, 0x83a5ccee, + 0x16d5187b, 0x72356385, 0xe745b710, 0x67cf0be4, 0xf2bfdf71, + 0x965fa48f, 0x032f701a, 0x5f9f5373, 0xcaef87e6, 0xae0ffc18, + 0x3b7f288d, 0x176fbaca, 0x821f6e5f, 0xe6ff15a1, 0x738fc134, + 0x2f3fe25d, 0xba4f36c8, 0xdeaf4d36, 0x4bdf99a3, 0x868e69b8, + 0x13febd2d, 0x771ec6d3, 0xe26e1246, 0xbede312f, 0x2baee5ba, + 0x4f4e9e44, 0xda3e4ad1, 0xf62ed896, 0x635e0c03, 0x07be77fd, + 0x92cea368, 0xce7e8001, 0x5b0e5494, 0x3fee2f6a, 0xaa9efbff, + 0x7e3cc91d, 0xeb4c1d88, 0x8fac6676, 0x1adcb2e3, 0x466c918a, + 0xd31c451f, 0xb7fc3ee1, 0x228cea74, 0x0e9c7833, 0x9becaca6, + 0xff0cd758, 0x6a7c03cd, 0x36cc20a4, 0xa3bcf431, 0xc75c8fcf, + 0x522c5b5a, 0x9f7dab41, 0x0a0d7fd4, 0x6eed042a, 0xfb9dd0bf, + 0xa72df3d6, 0x325d2743, 0x56bd5cbd, 0xc3cd8828, 0xefdd1a6f, + 0x7aadcefa, 0x1e4db504, 0x8b3d6191, 0xd78d42f8, 0x42fd966d, + 0x261ded93, 0xb36d3906, 0x54288e16, 0xc1585a83, 0xa5b8217d, + 0x30c8f5e8, 0x6c78d681, 0xf9080214, 0x9de879ea, 0x0898ad7f, + 0x24883f38, 0xb1f8ebad, 0xd5189053, 0x406844c6, 0x1cd867af, + 0x89a8b33a, 0xed48c8c4, 0x78381c51, 0xb569ec4a, 0x201938df, + 0x44f94321, 0xd18997b4, 0x8d39b4dd, 0x18496048, 0x7ca91bb6, + 0xe9d9cf23, 0xc5c95d64, 0x50b989f1, 0x3459f20f, 0xa129269a, + 0xfd9905f3, 0x68e9d166, 0x0c09aa98, 0x99797e0d, 0x4ddb4cef, + 0xd8ab987a, 0xbc4be384, 0x293b3711, 0x758b1478, 0xe0fbc0ed, + 0x841bbb13, 0x116b6f86, 0x3d7bfdc1, 0xa80b2954, 0xcceb52aa, + 0x599b863f, 0x052ba556, 0x905b71c3, 0xf4bb0a3d, 0x61cbdea8, + 0xac9a2eb3, 0x39eafa26, 0x5d0a81d8, 0xc87a554d, 0x94ca7624, + 0x01baa2b1, 0x655ad94f, 0xf02a0dda, 0xdc3a9f9d, 0x494a4b08, + 0x2daa30f6, 0xb8dae463, 0xe46ac70a, 0x711a139f, 0x15fa6861, + 0x808abcf4}, + {0x00000000, 0xcf9e17c8, 0x444d29d1, 0x8bd33e19, 0x889a53a2, + 0x4704446a, 0xccd77a73, 0x03496dbb, 0xca45a105, 0x05dbb6cd, + 0x8e0888d4, 0x41969f1c, 0x42dff2a7, 0x8d41e56f, 0x0692db76, + 0xc90cccbe, 0x4ffa444b, 0x80645383, 0x0bb76d9a, 0xc4297a52, + 0xc76017e9, 0x08fe0021, 0x832d3e38, 0x4cb329f0, 0x85bfe54e, + 0x4a21f286, 0xc1f2cc9f, 0x0e6cdb57, 0x0d25b6ec, 0xc2bba124, + 0x49689f3d, 0x86f688f5, 0x9ff48896, 0x506a9f5e, 0xdbb9a147, + 0x1427b68f, 0x176edb34, 0xd8f0ccfc, 0x5323f2e5, 0x9cbde52d, + 0x55b12993, 0x9a2f3e5b, 0x11fc0042, 0xde62178a, 0xdd2b7a31, + 0x12b56df9, 0x996653e0, 0x56f84428, 0xd00eccdd, 0x1f90db15, + 0x9443e50c, 0x5bddf2c4, 0x58949f7f, 0x970a88b7, 0x1cd9b6ae, + 0xd347a166, 0x1a4b6dd8, 0xd5d57a10, 0x5e064409, 0x919853c1, + 0x92d13e7a, 0x5d4f29b2, 0xd69c17ab, 0x19020063, 0xe498176d, + 0x2b0600a5, 0xa0d53ebc, 0x6f4b2974, 0x6c0244cf, 0xa39c5307, + 0x284f6d1e, 0xe7d17ad6, 0x2eddb668, 0xe143a1a0, 0x6a909fb9, + 0xa50e8871, 0xa647e5ca, 0x69d9f202, 0xe20acc1b, 0x2d94dbd3, + 0xab625326, 0x64fc44ee, 0xef2f7af7, 0x20b16d3f, 0x23f80084, + 0xec66174c, 0x67b52955, 0xa82b3e9d, 0x6127f223, 0xaeb9e5eb, + 0x256adbf2, 0xeaf4cc3a, 0xe9bda181, 0x2623b649, 0xadf08850, + 0x626e9f98, 0x7b6c9ffb, 0xb4f28833, 0x3f21b62a, 0xf0bfa1e2, + 0xf3f6cc59, 0x3c68db91, 0xb7bbe588, 0x7825f240, 0xb1293efe, + 0x7eb72936, 0xf564172f, 0x3afa00e7, 0x39b36d5c, 0xf62d7a94, + 0x7dfe448d, 0xb2605345, 0x3496dbb0, 0xfb08cc78, 0x70dbf261, + 0xbf45e5a9, 0xbc0c8812, 0x73929fda, 0xf841a1c3, 0x37dfb60b, + 0xfed37ab5, 0x314d6d7d, 0xba9e5364, 0x750044ac, 0x76492917, + 0xb9d73edf, 0x320400c6, 0xfd9a170e, 0x1241289b, 0xdddf3f53, + 0x560c014a, 0x99921682, 0x9adb7b39, 0x55456cf1, 0xde9652e8, + 0x11084520, 0xd804899e, 0x179a9e56, 0x9c49a04f, 0x53d7b787, + 0x509eda3c, 0x9f00cdf4, 0x14d3f3ed, 0xdb4de425, 0x5dbb6cd0, + 0x92257b18, 0x19f64501, 0xd66852c9, 0xd5213f72, 0x1abf28ba, + 0x916c16a3, 0x5ef2016b, 0x97fecdd5, 0x5860da1d, 0xd3b3e404, + 0x1c2df3cc, 0x1f649e77, 0xd0fa89bf, 0x5b29b7a6, 0x94b7a06e, + 0x8db5a00d, 0x422bb7c5, 0xc9f889dc, 0x06669e14, 0x052ff3af, + 0xcab1e467, 0x4162da7e, 0x8efccdb6, 0x47f00108, 0x886e16c0, + 0x03bd28d9, 0xcc233f11, 0xcf6a52aa, 0x00f44562, 0x8b277b7b, + 0x44b96cb3, 0xc24fe446, 0x0dd1f38e, 0x8602cd97, 0x499cda5f, + 0x4ad5b7e4, 0x854ba02c, 0x0e989e35, 0xc10689fd, 0x080a4543, + 0xc794528b, 0x4c476c92, 0x83d97b5a, 0x809016e1, 0x4f0e0129, + 0xc4dd3f30, 0x0b4328f8, 0xf6d93ff6, 0x3947283e, 0xb2941627, + 0x7d0a01ef, 0x7e436c54, 0xb1dd7b9c, 0x3a0e4585, 0xf590524d, + 0x3c9c9ef3, 0xf302893b, 0x78d1b722, 0xb74fa0ea, 0xb406cd51, + 0x7b98da99, 0xf04be480, 0x3fd5f348, 0xb9237bbd, 0x76bd6c75, + 0xfd6e526c, 0x32f045a4, 0x31b9281f, 0xfe273fd7, 0x75f401ce, + 0xba6a1606, 0x7366dab8, 0xbcf8cd70, 0x372bf369, 0xf8b5e4a1, + 0xfbfc891a, 0x34629ed2, 0xbfb1a0cb, 0x702fb703, 0x692db760, + 0xa6b3a0a8, 0x2d609eb1, 0xe2fe8979, 0xe1b7e4c2, 0x2e29f30a, + 0xa5facd13, 0x6a64dadb, 0xa3681665, 0x6cf601ad, 0xe7253fb4, + 0x28bb287c, 0x2bf245c7, 0xe46c520f, 0x6fbf6c16, 0xa0217bde, + 0x26d7f32b, 0xe949e4e3, 0x629adafa, 0xad04cd32, 0xae4da089, + 0x61d3b741, 0xea008958, 0x259e9e90, 0xec92522e, 0x230c45e6, + 0xa8df7bff, 0x67416c37, 0x6408018c, 0xab961644, 0x2045285d, + 0xefdb3f95}, + {0x00000000, 0x24825136, 0x4904a26c, 0x6d86f35a, 0x920944d8, + 0xb68b15ee, 0xdb0de6b4, 0xff8fb782, 0xff638ff1, 0xdbe1dec7, + 0xb6672d9d, 0x92e57cab, 0x6d6acb29, 0x49e89a1f, 0x246e6945, + 0x00ec3873, 0x25b619a3, 0x01344895, 0x6cb2bbcf, 0x4830eaf9, + 0xb7bf5d7b, 0x933d0c4d, 0xfebbff17, 0xda39ae21, 0xdad59652, + 0xfe57c764, 0x93d1343e, 0xb7536508, 0x48dcd28a, 0x6c5e83bc, + 0x01d870e6, 0x255a21d0, 0x4b6c3346, 0x6fee6270, 0x0268912a, + 0x26eac01c, 0xd965779e, 0xfde726a8, 0x9061d5f2, 0xb4e384c4, + 0xb40fbcb7, 0x908ded81, 0xfd0b1edb, 0xd9894fed, 0x2606f86f, + 0x0284a959, 0x6f025a03, 0x4b800b35, 0x6eda2ae5, 0x4a587bd3, + 0x27de8889, 0x035cd9bf, 0xfcd36e3d, 0xd8513f0b, 0xb5d7cc51, + 0x91559d67, 0x91b9a514, 0xb53bf422, 0xd8bd0778, 0xfc3f564e, + 0x03b0e1cc, 0x2732b0fa, 0x4ab443a0, 0x6e361296, 0x96d8668c, + 0xb25a37ba, 0xdfdcc4e0, 0xfb5e95d6, 0x04d12254, 0x20537362, + 0x4dd58038, 0x6957d10e, 0x69bbe97d, 0x4d39b84b, 0x20bf4b11, + 0x043d1a27, 0xfbb2ada5, 0xdf30fc93, 0xb2b60fc9, 0x96345eff, + 0xb36e7f2f, 0x97ec2e19, 0xfa6add43, 0xdee88c75, 0x21673bf7, + 0x05e56ac1, 0x6863999b, 0x4ce1c8ad, 0x4c0df0de, 0x688fa1e8, + 0x050952b2, 0x218b0384, 0xde04b406, 0xfa86e530, 0x9700166a, + 0xb382475c, 0xddb455ca, 0xf93604fc, 0x94b0f7a6, 0xb032a690, + 0x4fbd1112, 0x6b3f4024, 0x06b9b37e, 0x223be248, 0x22d7da3b, + 0x06558b0d, 0x6bd37857, 0x4f512961, 0xb0de9ee3, 0x945ccfd5, + 0xf9da3c8f, 0xdd586db9, 0xf8024c69, 0xdc801d5f, 0xb106ee05, + 0x9584bf33, 0x6a0b08b1, 0x4e895987, 0x230faadd, 0x078dfbeb, + 0x0761c398, 0x23e392ae, 0x4e6561f4, 0x6ae730c2, 0x95688740, + 0xb1ead676, 0xdc6c252c, 0xf8ee741a, 0xf6c1cb59, 0xd2439a6f, + 0xbfc56935, 0x9b473803, 0x64c88f81, 0x404adeb7, 0x2dcc2ded, + 0x094e7cdb, 0x09a244a8, 0x2d20159e, 0x40a6e6c4, 0x6424b7f2, + 0x9bab0070, 0xbf295146, 0xd2afa21c, 0xf62df32a, 0xd377d2fa, + 0xf7f583cc, 0x9a737096, 0xbef121a0, 0x417e9622, 0x65fcc714, + 0x087a344e, 0x2cf86578, 0x2c145d0b, 0x08960c3d, 0x6510ff67, + 0x4192ae51, 0xbe1d19d3, 0x9a9f48e5, 0xf719bbbf, 0xd39bea89, + 0xbdadf81f, 0x992fa929, 0xf4a95a73, 0xd02b0b45, 0x2fa4bcc7, + 0x0b26edf1, 0x66a01eab, 0x42224f9d, 0x42ce77ee, 0x664c26d8, + 0x0bcad582, 0x2f4884b4, 0xd0c73336, 0xf4456200, 0x99c3915a, + 0xbd41c06c, 0x981be1bc, 0xbc99b08a, 0xd11f43d0, 0xf59d12e6, + 0x0a12a564, 0x2e90f452, 0x43160708, 0x6794563e, 0x67786e4d, + 0x43fa3f7b, 0x2e7ccc21, 0x0afe9d17, 0xf5712a95, 0xd1f37ba3, + 0xbc7588f9, 0x98f7d9cf, 0x6019add5, 0x449bfce3, 0x291d0fb9, + 0x0d9f5e8f, 0xf210e90d, 0xd692b83b, 0xbb144b61, 0x9f961a57, + 0x9f7a2224, 0xbbf87312, 0xd67e8048, 0xf2fcd17e, 0x0d7366fc, + 0x29f137ca, 0x4477c490, 0x60f595a6, 0x45afb476, 0x612de540, + 0x0cab161a, 0x2829472c, 0xd7a6f0ae, 0xf324a198, 0x9ea252c2, + 0xba2003f4, 0xbacc3b87, 0x9e4e6ab1, 0xf3c899eb, 0xd74ac8dd, + 0x28c57f5f, 0x0c472e69, 0x61c1dd33, 0x45438c05, 0x2b759e93, + 0x0ff7cfa5, 0x62713cff, 0x46f36dc9, 0xb97cda4b, 0x9dfe8b7d, + 0xf0787827, 0xd4fa2911, 0xd4161162, 0xf0944054, 0x9d12b30e, + 0xb990e238, 0x461f55ba, 0x629d048c, 0x0f1bf7d6, 0x2b99a6e0, + 0x0ec38730, 0x2a41d606, 0x47c7255c, 0x6345746a, 0x9ccac3e8, + 0xb84892de, 0xd5ce6184, 0xf14c30b2, 0xf1a008c1, 0xd52259f7, + 0xb8a4aaad, 0x9c26fb9b, 0x63a94c19, 0x472b1d2f, 0x2aadee75, + 0x0e2fbf43}, + {0x00000000, 0x36f290f3, 0x6de521e6, 0x5b17b115, 0xdbca43cc, + 0xed38d33f, 0xb62f622a, 0x80ddf2d9, 0x6ce581d9, 0x5a17112a, + 0x0100a03f, 0x37f230cc, 0xb72fc215, 0x81dd52e6, 0xdacae3f3, + 0xec387300, 0xd9cb03b2, 0xef399341, 0xb42e2254, 0x82dcb2a7, + 0x0201407e, 0x34f3d08d, 0x6fe46198, 0x5916f16b, 0xb52e826b, + 0x83dc1298, 0xd8cba38d, 0xee39337e, 0x6ee4c1a7, 0x58165154, + 0x0301e041, 0x35f370b2, 0x68e70125, 0x5e1591d6, 0x050220c3, + 0x33f0b030, 0xb32d42e9, 0x85dfd21a, 0xdec8630f, 0xe83af3fc, + 0x040280fc, 0x32f0100f, 0x69e7a11a, 0x5f1531e9, 0xdfc8c330, + 0xe93a53c3, 0xb22de2d6, 0x84df7225, 0xb12c0297, 0x87de9264, + 0xdcc92371, 0xea3bb382, 0x6ae6415b, 0x5c14d1a8, 0x070360bd, + 0x31f1f04e, 0xddc9834e, 0xeb3b13bd, 0xb02ca2a8, 0x86de325b, + 0x0603c082, 0x30f15071, 0x6be6e164, 0x5d147197, 0xd1ce024a, + 0xe73c92b9, 0xbc2b23ac, 0x8ad9b35f, 0x0a044186, 0x3cf6d175, + 0x67e16060, 0x5113f093, 0xbd2b8393, 0x8bd91360, 0xd0cea275, + 0xe63c3286, 0x66e1c05f, 0x501350ac, 0x0b04e1b9, 0x3df6714a, + 0x080501f8, 0x3ef7910b, 0x65e0201e, 0x5312b0ed, 0xd3cf4234, + 0xe53dd2c7, 0xbe2a63d2, 0x88d8f321, 0x64e08021, 0x521210d2, + 0x0905a1c7, 0x3ff73134, 0xbf2ac3ed, 0x89d8531e, 0xd2cfe20b, + 0xe43d72f8, 0xb929036f, 0x8fdb939c, 0xd4cc2289, 0xe23eb27a, + 0x62e340a3, 0x5411d050, 0x0f066145, 0x39f4f1b6, 0xd5cc82b6, + 0xe33e1245, 0xb829a350, 0x8edb33a3, 0x0e06c17a, 0x38f45189, + 0x63e3e09c, 0x5511706f, 0x60e200dd, 0x5610902e, 0x0d07213b, + 0x3bf5b1c8, 0xbb284311, 0x8ddad3e2, 0xd6cd62f7, 0xe03ff204, + 0x0c078104, 0x3af511f7, 0x61e2a0e2, 0x57103011, 0xd7cdc2c8, + 0xe13f523b, 0xba28e32e, 0x8cda73dd, 0x78ed02d5, 0x4e1f9226, + 0x15082333, 0x23fab3c0, 0xa3274119, 0x95d5d1ea, 0xcec260ff, + 0xf830f00c, 0x1408830c, 0x22fa13ff, 0x79eda2ea, 0x4f1f3219, + 0xcfc2c0c0, 0xf9305033, 0xa227e126, 0x94d571d5, 0xa1260167, + 0x97d49194, 0xccc32081, 0xfa31b072, 0x7aec42ab, 0x4c1ed258, + 0x1709634d, 0x21fbf3be, 0xcdc380be, 0xfb31104d, 0xa026a158, + 0x96d431ab, 0x1609c372, 0x20fb5381, 0x7bece294, 0x4d1e7267, + 0x100a03f0, 0x26f89303, 0x7def2216, 0x4b1db2e5, 0xcbc0403c, + 0xfd32d0cf, 0xa62561da, 0x90d7f129, 0x7cef8229, 0x4a1d12da, + 0x110aa3cf, 0x27f8333c, 0xa725c1e5, 0x91d75116, 0xcac0e003, + 0xfc3270f0, 0xc9c10042, 0xff3390b1, 0xa42421a4, 0x92d6b157, + 0x120b438e, 0x24f9d37d, 0x7fee6268, 0x491cf29b, 0xa524819b, + 0x93d61168, 0xc8c1a07d, 0xfe33308e, 0x7eeec257, 0x481c52a4, + 0x130be3b1, 0x25f97342, 0xa923009f, 0x9fd1906c, 0xc4c62179, + 0xf234b18a, 0x72e94353, 0x441bd3a0, 0x1f0c62b5, 0x29fef246, + 0xc5c68146, 0xf33411b5, 0xa823a0a0, 0x9ed13053, 0x1e0cc28a, + 0x28fe5279, 0x73e9e36c, 0x451b739f, 0x70e8032d, 0x461a93de, + 0x1d0d22cb, 0x2bffb238, 0xab2240e1, 0x9dd0d012, 0xc6c76107, + 0xf035f1f4, 0x1c0d82f4, 0x2aff1207, 0x71e8a312, 0x471a33e1, + 0xc7c7c138, 0xf13551cb, 0xaa22e0de, 0x9cd0702d, 0xc1c401ba, + 0xf7369149, 0xac21205c, 0x9ad3b0af, 0x1a0e4276, 0x2cfcd285, + 0x77eb6390, 0x4119f363, 0xad218063, 0x9bd31090, 0xc0c4a185, + 0xf6363176, 0x76ebc3af, 0x4019535c, 0x1b0ee249, 0x2dfc72ba, + 0x180f0208, 0x2efd92fb, 0x75ea23ee, 0x4318b31d, 0xc3c541c4, + 0xf537d137, 0xae206022, 0x98d2f0d1, 0x74ea83d1, 0x42181322, + 0x190fa237, 0x2ffd32c4, 0xaf20c01d, 0x99d250ee, 0xc2c5e1fb, + 0xf4377108}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x0000000000000000, 0xf390f23600000000, 0xe621e56d00000000, + 0x15b1175b00000000, 0xcc43cadb00000000, 0x3fd338ed00000000, + 0x2a622fb600000000, 0xd9f2dd8000000000, 0xd981e56c00000000, + 0x2a11175a00000000, 0x3fa0000100000000, 0xcc30f23700000000, + 0x15c22fb700000000, 0xe652dd8100000000, 0xf3e3cada00000000, + 0x007338ec00000000, 0xb203cbd900000000, 0x419339ef00000000, + 0x54222eb400000000, 0xa7b2dc8200000000, 0x7e40010200000000, + 0x8dd0f33400000000, 0x9861e46f00000000, 0x6bf1165900000000, + 0x6b822eb500000000, 0x9812dc8300000000, 0x8da3cbd800000000, + 0x7e3339ee00000000, 0xa7c1e46e00000000, 0x5451165800000000, + 0x41e0010300000000, 0xb270f33500000000, 0x2501e76800000000, + 0xd691155e00000000, 0xc320020500000000, 0x30b0f03300000000, + 0xe9422db300000000, 0x1ad2df8500000000, 0x0f63c8de00000000, + 0xfcf33ae800000000, 0xfc80020400000000, 0x0f10f03200000000, + 0x1aa1e76900000000, 0xe931155f00000000, 0x30c3c8df00000000, + 0xc3533ae900000000, 0xd6e22db200000000, 0x2572df8400000000, + 0x97022cb100000000, 0x6492de8700000000, 0x7123c9dc00000000, + 0x82b33bea00000000, 0x5b41e66a00000000, 0xa8d1145c00000000, + 0xbd60030700000000, 0x4ef0f13100000000, 0x4e83c9dd00000000, + 0xbd133beb00000000, 0xa8a22cb000000000, 0x5b32de8600000000, + 0x82c0030600000000, 0x7150f13000000000, 0x64e1e66b00000000, + 0x9771145d00000000, 0x4a02ced100000000, 0xb9923ce700000000, + 0xac232bbc00000000, 0x5fb3d98a00000000, 0x8641040a00000000, + 0x75d1f63c00000000, 0x6060e16700000000, 0x93f0135100000000, + 0x93832bbd00000000, 0x6013d98b00000000, 0x75a2ced000000000, + 0x86323ce600000000, 0x5fc0e16600000000, 0xac50135000000000, + 0xb9e1040b00000000, 0x4a71f63d00000000, 0xf801050800000000, + 0x0b91f73e00000000, 0x1e20e06500000000, 0xedb0125300000000, + 0x3442cfd300000000, 0xc7d23de500000000, 0xd2632abe00000000, + 0x21f3d88800000000, 0x2180e06400000000, 0xd210125200000000, + 0xc7a1050900000000, 0x3431f73f00000000, 0xedc32abf00000000, + 0x1e53d88900000000, 0x0be2cfd200000000, 0xf8723de400000000, + 0x6f0329b900000000, 0x9c93db8f00000000, 0x8922ccd400000000, + 0x7ab23ee200000000, 0xa340e36200000000, 0x50d0115400000000, + 0x4561060f00000000, 0xb6f1f43900000000, 0xb682ccd500000000, + 0x45123ee300000000, 0x50a329b800000000, 0xa333db8e00000000, + 0x7ac1060e00000000, 0x8951f43800000000, 0x9ce0e36300000000, + 0x6f70115500000000, 0xdd00e26000000000, 0x2e90105600000000, + 0x3b21070d00000000, 0xc8b1f53b00000000, 0x114328bb00000000, + 0xe2d3da8d00000000, 0xf762cdd600000000, 0x04f23fe000000000, + 0x0481070c00000000, 0xf711f53a00000000, 0xe2a0e26100000000, + 0x1130105700000000, 0xc8c2cdd700000000, 0x3b523fe100000000, + 0x2ee328ba00000000, 0xdd73da8c00000000, 0xd502ed7800000000, + 0x26921f4e00000000, 0x3323081500000000, 0xc0b3fa2300000000, + 0x194127a300000000, 0xead1d59500000000, 0xff60c2ce00000000, + 0x0cf030f800000000, 0x0c83081400000000, 0xff13fa2200000000, + 0xeaa2ed7900000000, 0x19321f4f00000000, 0xc0c0c2cf00000000, + 0x335030f900000000, 0x26e127a200000000, 0xd571d59400000000, + 0x670126a100000000, 0x9491d49700000000, 0x8120c3cc00000000, + 0x72b031fa00000000, 0xab42ec7a00000000, 0x58d21e4c00000000, + 0x4d63091700000000, 0xbef3fb2100000000, 0xbe80c3cd00000000, + 0x4d1031fb00000000, 0x58a126a000000000, 0xab31d49600000000, + 0x72c3091600000000, 0x8153fb2000000000, 0x94e2ec7b00000000, + 0x67721e4d00000000, 0xf0030a1000000000, 0x0393f82600000000, + 0x1622ef7d00000000, 0xe5b21d4b00000000, 0x3c40c0cb00000000, + 0xcfd032fd00000000, 0xda6125a600000000, 0x29f1d79000000000, + 0x2982ef7c00000000, 0xda121d4a00000000, 0xcfa30a1100000000, + 0x3c33f82700000000, 0xe5c125a700000000, 0x1651d79100000000, + 0x03e0c0ca00000000, 0xf07032fc00000000, 0x4200c1c900000000, + 0xb19033ff00000000, 0xa42124a400000000, 0x57b1d69200000000, + 0x8e430b1200000000, 0x7dd3f92400000000, 0x6862ee7f00000000, + 0x9bf21c4900000000, 0x9b8124a500000000, 0x6811d69300000000, + 0x7da0c1c800000000, 0x8e3033fe00000000, 0x57c2ee7e00000000, + 0xa4521c4800000000, 0xb1e30b1300000000, 0x4273f92500000000, + 0x9f0023a900000000, 0x6c90d19f00000000, 0x7921c6c400000000, + 0x8ab134f200000000, 0x5343e97200000000, 0xa0d31b4400000000, + 0xb5620c1f00000000, 0x46f2fe2900000000, 0x4681c6c500000000, + 0xb51134f300000000, 0xa0a023a800000000, 0x5330d19e00000000, + 0x8ac20c1e00000000, 0x7952fe2800000000, 0x6ce3e97300000000, + 0x9f731b4500000000, 0x2d03e87000000000, 0xde931a4600000000, + 0xcb220d1d00000000, 0x38b2ff2b00000000, 0xe14022ab00000000, + 0x12d0d09d00000000, 0x0761c7c600000000, 0xf4f135f000000000, + 0xf4820d1c00000000, 0x0712ff2a00000000, 0x12a3e87100000000, + 0xe1331a4700000000, 0x38c1c7c700000000, 0xcb5135f100000000, + 0xdee022aa00000000, 0x2d70d09c00000000, 0xba01c4c100000000, + 0x499136f700000000, 0x5c2021ac00000000, 0xafb0d39a00000000, + 0x76420e1a00000000, 0x85d2fc2c00000000, 0x9063eb7700000000, + 0x63f3194100000000, 0x638021ad00000000, 0x9010d39b00000000, + 0x85a1c4c000000000, 0x763136f600000000, 0xafc3eb7600000000, + 0x5c53194000000000, 0x49e20e1b00000000, 0xba72fc2d00000000, + 0x08020f1800000000, 0xfb92fd2e00000000, 0xee23ea7500000000, + 0x1db3184300000000, 0xc441c5c300000000, 0x37d137f500000000, + 0x226020ae00000000, 0xd1f0d29800000000, 0xd183ea7400000000, + 0x2213184200000000, 0x37a20f1900000000, 0xc432fd2f00000000, + 0x1dc020af00000000, 0xee50d29900000000, 0xfbe1c5c200000000, + 0x087137f400000000}, + {0x0000000000000000, 0x3651822400000000, 0x6ca2044900000000, + 0x5af3866d00000000, 0xd844099200000000, 0xee158bb600000000, + 0xb4e60ddb00000000, 0x82b78fff00000000, 0xf18f63ff00000000, + 0xc7dee1db00000000, 0x9d2d67b600000000, 0xab7ce59200000000, + 0x29cb6a6d00000000, 0x1f9ae84900000000, 0x45696e2400000000, + 0x7338ec0000000000, 0xa319b62500000000, 0x9548340100000000, + 0xcfbbb26c00000000, 0xf9ea304800000000, 0x7b5dbfb700000000, + 0x4d0c3d9300000000, 0x17ffbbfe00000000, 0x21ae39da00000000, + 0x5296d5da00000000, 0x64c757fe00000000, 0x3e34d19300000000, + 0x086553b700000000, 0x8ad2dc4800000000, 0xbc835e6c00000000, + 0xe670d80100000000, 0xd0215a2500000000, 0x46336c4b00000000, + 0x7062ee6f00000000, 0x2a91680200000000, 0x1cc0ea2600000000, + 0x9e7765d900000000, 0xa826e7fd00000000, 0xf2d5619000000000, + 0xc484e3b400000000, 0xb7bc0fb400000000, 0x81ed8d9000000000, + 0xdb1e0bfd00000000, 0xed4f89d900000000, 0x6ff8062600000000, + 0x59a9840200000000, 0x035a026f00000000, 0x350b804b00000000, + 0xe52ada6e00000000, 0xd37b584a00000000, 0x8988de2700000000, + 0xbfd95c0300000000, 0x3d6ed3fc00000000, 0x0b3f51d800000000, + 0x51ccd7b500000000, 0x679d559100000000, 0x14a5b99100000000, + 0x22f43bb500000000, 0x7807bdd800000000, 0x4e563ffc00000000, + 0xcce1b00300000000, 0xfab0322700000000, 0xa043b44a00000000, + 0x9612366e00000000, 0x8c66d89600000000, 0xba375ab200000000, + 0xe0c4dcdf00000000, 0xd6955efb00000000, 0x5422d10400000000, + 0x6273532000000000, 0x3880d54d00000000, 0x0ed1576900000000, + 0x7de9bb6900000000, 0x4bb8394d00000000, 0x114bbf2000000000, + 0x271a3d0400000000, 0xa5adb2fb00000000, 0x93fc30df00000000, + 0xc90fb6b200000000, 0xff5e349600000000, 0x2f7f6eb300000000, + 0x192eec9700000000, 0x43dd6afa00000000, 0x758ce8de00000000, + 0xf73b672100000000, 0xc16ae50500000000, 0x9b99636800000000, + 0xadc8e14c00000000, 0xdef00d4c00000000, 0xe8a18f6800000000, + 0xb252090500000000, 0x84038b2100000000, 0x06b404de00000000, + 0x30e586fa00000000, 0x6a16009700000000, 0x5c4782b300000000, + 0xca55b4dd00000000, 0xfc0436f900000000, 0xa6f7b09400000000, + 0x90a632b000000000, 0x1211bd4f00000000, 0x24403f6b00000000, + 0x7eb3b90600000000, 0x48e23b2200000000, 0x3bdad72200000000, + 0x0d8b550600000000, 0x5778d36b00000000, 0x6129514f00000000, + 0xe39edeb000000000, 0xd5cf5c9400000000, 0x8f3cdaf900000000, + 0xb96d58dd00000000, 0x694c02f800000000, 0x5f1d80dc00000000, + 0x05ee06b100000000, 0x33bf849500000000, 0xb1080b6a00000000, + 0x8759894e00000000, 0xddaa0f2300000000, 0xebfb8d0700000000, + 0x98c3610700000000, 0xae92e32300000000, 0xf461654e00000000, + 0xc230e76a00000000, 0x4087689500000000, 0x76d6eab100000000, + 0x2c256cdc00000000, 0x1a74eef800000000, 0x59cbc1f600000000, + 0x6f9a43d200000000, 0x3569c5bf00000000, 0x0338479b00000000, + 0x818fc86400000000, 0xb7de4a4000000000, 0xed2dcc2d00000000, + 0xdb7c4e0900000000, 0xa844a20900000000, 0x9e15202d00000000, + 0xc4e6a64000000000, 0xf2b7246400000000, 0x7000ab9b00000000, + 0x465129bf00000000, 0x1ca2afd200000000, 0x2af32df600000000, + 0xfad277d300000000, 0xcc83f5f700000000, 0x9670739a00000000, + 0xa021f1be00000000, 0x22967e4100000000, 0x14c7fc6500000000, + 0x4e347a0800000000, 0x7865f82c00000000, 0x0b5d142c00000000, + 0x3d0c960800000000, 0x67ff106500000000, 0x51ae924100000000, + 0xd3191dbe00000000, 0xe5489f9a00000000, 0xbfbb19f700000000, + 0x89ea9bd300000000, 0x1ff8adbd00000000, 0x29a92f9900000000, + 0x735aa9f400000000, 0x450b2bd000000000, 0xc7bca42f00000000, + 0xf1ed260b00000000, 0xab1ea06600000000, 0x9d4f224200000000, + 0xee77ce4200000000, 0xd8264c6600000000, 0x82d5ca0b00000000, + 0xb484482f00000000, 0x3633c7d000000000, 0x006245f400000000, + 0x5a91c39900000000, 0x6cc041bd00000000, 0xbce11b9800000000, + 0x8ab099bc00000000, 0xd0431fd100000000, 0xe6129df500000000, + 0x64a5120a00000000, 0x52f4902e00000000, 0x0807164300000000, + 0x3e56946700000000, 0x4d6e786700000000, 0x7b3ffa4300000000, + 0x21cc7c2e00000000, 0x179dfe0a00000000, 0x952a71f500000000, + 0xa37bf3d100000000, 0xf98875bc00000000, 0xcfd9f79800000000, + 0xd5ad196000000000, 0xe3fc9b4400000000, 0xb90f1d2900000000, + 0x8f5e9f0d00000000, 0x0de910f200000000, 0x3bb892d600000000, + 0x614b14bb00000000, 0x571a969f00000000, 0x24227a9f00000000, + 0x1273f8bb00000000, 0x48807ed600000000, 0x7ed1fcf200000000, + 0xfc66730d00000000, 0xca37f12900000000, 0x90c4774400000000, + 0xa695f56000000000, 0x76b4af4500000000, 0x40e52d6100000000, + 0x1a16ab0c00000000, 0x2c47292800000000, 0xaef0a6d700000000, + 0x98a124f300000000, 0xc252a29e00000000, 0xf40320ba00000000, + 0x873bccba00000000, 0xb16a4e9e00000000, 0xeb99c8f300000000, + 0xddc84ad700000000, 0x5f7fc52800000000, 0x692e470c00000000, + 0x33ddc16100000000, 0x058c434500000000, 0x939e752b00000000, + 0xa5cff70f00000000, 0xff3c716200000000, 0xc96df34600000000, + 0x4bda7cb900000000, 0x7d8bfe9d00000000, 0x277878f000000000, + 0x1129fad400000000, 0x621116d400000000, 0x544094f000000000, + 0x0eb3129d00000000, 0x38e290b900000000, 0xba551f4600000000, + 0x8c049d6200000000, 0xd6f71b0f00000000, 0xe0a6992b00000000, + 0x3087c30e00000000, 0x06d6412a00000000, 0x5c25c74700000000, + 0x6a74456300000000, 0xe8c3ca9c00000000, 0xde9248b800000000, + 0x8461ced500000000, 0xb2304cf100000000, 0xc108a0f100000000, + 0xf75922d500000000, 0xadaaa4b800000000, 0x9bfb269c00000000, + 0x194ca96300000000, 0x2f1d2b4700000000, 0x75eead2a00000000, + 0x43bf2f0e00000000}, + {0x0000000000000000, 0xc8179ecf00000000, 0xd1294d4400000000, + 0x193ed38b00000000, 0xa2539a8800000000, 0x6a44044700000000, + 0x737ad7cc00000000, 0xbb6d490300000000, 0x05a145ca00000000, + 0xcdb6db0500000000, 0xd488088e00000000, 0x1c9f964100000000, + 0xa7f2df4200000000, 0x6fe5418d00000000, 0x76db920600000000, + 0xbecc0cc900000000, 0x4b44fa4f00000000, 0x8353648000000000, + 0x9a6db70b00000000, 0x527a29c400000000, 0xe91760c700000000, + 0x2100fe0800000000, 0x383e2d8300000000, 0xf029b34c00000000, + 0x4ee5bf8500000000, 0x86f2214a00000000, 0x9fccf2c100000000, + 0x57db6c0e00000000, 0xecb6250d00000000, 0x24a1bbc200000000, + 0x3d9f684900000000, 0xf588f68600000000, 0x9688f49f00000000, + 0x5e9f6a5000000000, 0x47a1b9db00000000, 0x8fb6271400000000, + 0x34db6e1700000000, 0xfcccf0d800000000, 0xe5f2235300000000, + 0x2de5bd9c00000000, 0x9329b15500000000, 0x5b3e2f9a00000000, + 0x4200fc1100000000, 0x8a1762de00000000, 0x317a2bdd00000000, + 0xf96db51200000000, 0xe053669900000000, 0x2844f85600000000, + 0xddcc0ed000000000, 0x15db901f00000000, 0x0ce5439400000000, + 0xc4f2dd5b00000000, 0x7f9f945800000000, 0xb7880a9700000000, + 0xaeb6d91c00000000, 0x66a147d300000000, 0xd86d4b1a00000000, + 0x107ad5d500000000, 0x0944065e00000000, 0xc153989100000000, + 0x7a3ed19200000000, 0xb2294f5d00000000, 0xab179cd600000000, + 0x6300021900000000, 0x6d1798e400000000, 0xa500062b00000000, + 0xbc3ed5a000000000, 0x74294b6f00000000, 0xcf44026c00000000, + 0x07539ca300000000, 0x1e6d4f2800000000, 0xd67ad1e700000000, + 0x68b6dd2e00000000, 0xa0a143e100000000, 0xb99f906a00000000, + 0x71880ea500000000, 0xcae547a600000000, 0x02f2d96900000000, + 0x1bcc0ae200000000, 0xd3db942d00000000, 0x265362ab00000000, + 0xee44fc6400000000, 0xf77a2fef00000000, 0x3f6db12000000000, + 0x8400f82300000000, 0x4c1766ec00000000, 0x5529b56700000000, + 0x9d3e2ba800000000, 0x23f2276100000000, 0xebe5b9ae00000000, + 0xf2db6a2500000000, 0x3accf4ea00000000, 0x81a1bde900000000, + 0x49b6232600000000, 0x5088f0ad00000000, 0x989f6e6200000000, + 0xfb9f6c7b00000000, 0x3388f2b400000000, 0x2ab6213f00000000, + 0xe2a1bff000000000, 0x59ccf6f300000000, 0x91db683c00000000, + 0x88e5bbb700000000, 0x40f2257800000000, 0xfe3e29b100000000, + 0x3629b77e00000000, 0x2f1764f500000000, 0xe700fa3a00000000, + 0x5c6db33900000000, 0x947a2df600000000, 0x8d44fe7d00000000, + 0x455360b200000000, 0xb0db963400000000, 0x78cc08fb00000000, + 0x61f2db7000000000, 0xa9e545bf00000000, 0x12880cbc00000000, + 0xda9f927300000000, 0xc3a141f800000000, 0x0bb6df3700000000, + 0xb57ad3fe00000000, 0x7d6d4d3100000000, 0x64539eba00000000, + 0xac44007500000000, 0x1729497600000000, 0xdf3ed7b900000000, + 0xc600043200000000, 0x0e179afd00000000, 0x9b28411200000000, + 0x533fdfdd00000000, 0x4a010c5600000000, 0x8216929900000000, + 0x397bdb9a00000000, 0xf16c455500000000, 0xe85296de00000000, + 0x2045081100000000, 0x9e8904d800000000, 0x569e9a1700000000, + 0x4fa0499c00000000, 0x87b7d75300000000, 0x3cda9e5000000000, + 0xf4cd009f00000000, 0xedf3d31400000000, 0x25e44ddb00000000, + 0xd06cbb5d00000000, 0x187b259200000000, 0x0145f61900000000, + 0xc95268d600000000, 0x723f21d500000000, 0xba28bf1a00000000, + 0xa3166c9100000000, 0x6b01f25e00000000, 0xd5cdfe9700000000, + 0x1dda605800000000, 0x04e4b3d300000000, 0xccf32d1c00000000, + 0x779e641f00000000, 0xbf89fad000000000, 0xa6b7295b00000000, + 0x6ea0b79400000000, 0x0da0b58d00000000, 0xc5b72b4200000000, + 0xdc89f8c900000000, 0x149e660600000000, 0xaff32f0500000000, + 0x67e4b1ca00000000, 0x7eda624100000000, 0xb6cdfc8e00000000, + 0x0801f04700000000, 0xc0166e8800000000, 0xd928bd0300000000, + 0x113f23cc00000000, 0xaa526acf00000000, 0x6245f40000000000, + 0x7b7b278b00000000, 0xb36cb94400000000, 0x46e44fc200000000, + 0x8ef3d10d00000000, 0x97cd028600000000, 0x5fda9c4900000000, + 0xe4b7d54a00000000, 0x2ca04b8500000000, 0x359e980e00000000, + 0xfd8906c100000000, 0x43450a0800000000, 0x8b5294c700000000, + 0x926c474c00000000, 0x5a7bd98300000000, 0xe116908000000000, + 0x29010e4f00000000, 0x303fddc400000000, 0xf828430b00000000, + 0xf63fd9f600000000, 0x3e28473900000000, 0x271694b200000000, + 0xef010a7d00000000, 0x546c437e00000000, 0x9c7bddb100000000, + 0x85450e3a00000000, 0x4d5290f500000000, 0xf39e9c3c00000000, + 0x3b8902f300000000, 0x22b7d17800000000, 0xeaa04fb700000000, + 0x51cd06b400000000, 0x99da987b00000000, 0x80e44bf000000000, + 0x48f3d53f00000000, 0xbd7b23b900000000, 0x756cbd7600000000, + 0x6c526efd00000000, 0xa445f03200000000, 0x1f28b93100000000, + 0xd73f27fe00000000, 0xce01f47500000000, 0x06166aba00000000, + 0xb8da667300000000, 0x70cdf8bc00000000, 0x69f32b3700000000, + 0xa1e4b5f800000000, 0x1a89fcfb00000000, 0xd29e623400000000, + 0xcba0b1bf00000000, 0x03b72f7000000000, 0x60b72d6900000000, + 0xa8a0b3a600000000, 0xb19e602d00000000, 0x7989fee200000000, + 0xc2e4b7e100000000, 0x0af3292e00000000, 0x13cdfaa500000000, + 0xdbda646a00000000, 0x651668a300000000, 0xad01f66c00000000, + 0xb43f25e700000000, 0x7c28bb2800000000, 0xc745f22b00000000, + 0x0f526ce400000000, 0x166cbf6f00000000, 0xde7b21a000000000, + 0x2bf3d72600000000, 0xe3e449e900000000, 0xfada9a6200000000, + 0x32cd04ad00000000, 0x89a04dae00000000, 0x41b7d36100000000, + 0x588900ea00000000, 0x909e9e2500000000, 0x2e5292ec00000000, + 0xe6450c2300000000, 0xff7bdfa800000000, 0x376c416700000000, + 0x8c01086400000000, 0x441696ab00000000, 0x5d28452000000000, + 0x953fdbef00000000}, + {0x0000000000000000, 0x95d4709500000000, 0x6baf90f100000000, + 0xfe7be06400000000, 0x9758503800000000, 0x028c20ad00000000, + 0xfcf7c0c900000000, 0x6923b05c00000000, 0x2eb1a07000000000, + 0xbb65d0e500000000, 0x451e308100000000, 0xd0ca401400000000, + 0xb9e9f04800000000, 0x2c3d80dd00000000, 0xd24660b900000000, + 0x4792102c00000000, 0x5c6241e100000000, 0xc9b6317400000000, + 0x37cdd11000000000, 0xa219a18500000000, 0xcb3a11d900000000, + 0x5eee614c00000000, 0xa095812800000000, 0x3541f1bd00000000, + 0x72d3e19100000000, 0xe707910400000000, 0x197c716000000000, + 0x8ca801f500000000, 0xe58bb1a900000000, 0x705fc13c00000000, + 0x8e24215800000000, 0x1bf051cd00000000, 0xf9c2f31900000000, + 0x6c16838c00000000, 0x926d63e800000000, 0x07b9137d00000000, + 0x6e9aa32100000000, 0xfb4ed3b400000000, 0x053533d000000000, + 0x90e1434500000000, 0xd773536900000000, 0x42a723fc00000000, + 0xbcdcc39800000000, 0x2908b30d00000000, 0x402b035100000000, + 0xd5ff73c400000000, 0x2b8493a000000000, 0xbe50e33500000000, + 0xa5a0b2f800000000, 0x3074c26d00000000, 0xce0f220900000000, + 0x5bdb529c00000000, 0x32f8e2c000000000, 0xa72c925500000000, + 0x5957723100000000, 0xcc8302a400000000, 0x8b11128800000000, + 0x1ec5621d00000000, 0xe0be827900000000, 0x756af2ec00000000, + 0x1c4942b000000000, 0x899d322500000000, 0x77e6d24100000000, + 0xe232a2d400000000, 0xf285e73300000000, 0x675197a600000000, + 0x992a77c200000000, 0x0cfe075700000000, 0x65ddb70b00000000, + 0xf009c79e00000000, 0x0e7227fa00000000, 0x9ba6576f00000000, + 0xdc34474300000000, 0x49e037d600000000, 0xb79bd7b200000000, + 0x224fa72700000000, 0x4b6c177b00000000, 0xdeb867ee00000000, + 0x20c3878a00000000, 0xb517f71f00000000, 0xaee7a6d200000000, + 0x3b33d64700000000, 0xc548362300000000, 0x509c46b600000000, + 0x39bff6ea00000000, 0xac6b867f00000000, 0x5210661b00000000, + 0xc7c4168e00000000, 0x805606a200000000, 0x1582763700000000, + 0xebf9965300000000, 0x7e2de6c600000000, 0x170e569a00000000, + 0x82da260f00000000, 0x7ca1c66b00000000, 0xe975b6fe00000000, + 0x0b47142a00000000, 0x9e9364bf00000000, 0x60e884db00000000, + 0xf53cf44e00000000, 0x9c1f441200000000, 0x09cb348700000000, + 0xf7b0d4e300000000, 0x6264a47600000000, 0x25f6b45a00000000, + 0xb022c4cf00000000, 0x4e5924ab00000000, 0xdb8d543e00000000, + 0xb2aee46200000000, 0x277a94f700000000, 0xd901749300000000, + 0x4cd5040600000000, 0x572555cb00000000, 0xc2f1255e00000000, + 0x3c8ac53a00000000, 0xa95eb5af00000000, 0xc07d05f300000000, + 0x55a9756600000000, 0xabd2950200000000, 0x3e06e59700000000, + 0x7994f5bb00000000, 0xec40852e00000000, 0x123b654a00000000, + 0x87ef15df00000000, 0xeecca58300000000, 0x7b18d51600000000, + 0x8563357200000000, 0x10b745e700000000, 0xe40bcf6700000000, + 0x71dfbff200000000, 0x8fa45f9600000000, 0x1a702f0300000000, + 0x73539f5f00000000, 0xe687efca00000000, 0x18fc0fae00000000, + 0x8d287f3b00000000, 0xcaba6f1700000000, 0x5f6e1f8200000000, + 0xa115ffe600000000, 0x34c18f7300000000, 0x5de23f2f00000000, + 0xc8364fba00000000, 0x364dafde00000000, 0xa399df4b00000000, + 0xb8698e8600000000, 0x2dbdfe1300000000, 0xd3c61e7700000000, + 0x46126ee200000000, 0x2f31debe00000000, 0xbae5ae2b00000000, + 0x449e4e4f00000000, 0xd14a3eda00000000, 0x96d82ef600000000, + 0x030c5e6300000000, 0xfd77be0700000000, 0x68a3ce9200000000, + 0x01807ece00000000, 0x94540e5b00000000, 0x6a2fee3f00000000, + 0xfffb9eaa00000000, 0x1dc93c7e00000000, 0x881d4ceb00000000, + 0x7666ac8f00000000, 0xe3b2dc1a00000000, 0x8a916c4600000000, + 0x1f451cd300000000, 0xe13efcb700000000, 0x74ea8c2200000000, + 0x33789c0e00000000, 0xa6acec9b00000000, 0x58d70cff00000000, + 0xcd037c6a00000000, 0xa420cc3600000000, 0x31f4bca300000000, + 0xcf8f5cc700000000, 0x5a5b2c5200000000, 0x41ab7d9f00000000, + 0xd47f0d0a00000000, 0x2a04ed6e00000000, 0xbfd09dfb00000000, + 0xd6f32da700000000, 0x43275d3200000000, 0xbd5cbd5600000000, + 0x2888cdc300000000, 0x6f1addef00000000, 0xfacead7a00000000, + 0x04b54d1e00000000, 0x91613d8b00000000, 0xf8428dd700000000, + 0x6d96fd4200000000, 0x93ed1d2600000000, 0x06396db300000000, + 0x168e285400000000, 0x835a58c100000000, 0x7d21b8a500000000, + 0xe8f5c83000000000, 0x81d6786c00000000, 0x140208f900000000, + 0xea79e89d00000000, 0x7fad980800000000, 0x383f882400000000, + 0xadebf8b100000000, 0x539018d500000000, 0xc644684000000000, + 0xaf67d81c00000000, 0x3ab3a88900000000, 0xc4c848ed00000000, + 0x511c387800000000, 0x4aec69b500000000, 0xdf38192000000000, + 0x2143f94400000000, 0xb49789d100000000, 0xddb4398d00000000, + 0x4860491800000000, 0xb61ba97c00000000, 0x23cfd9e900000000, + 0x645dc9c500000000, 0xf189b95000000000, 0x0ff2593400000000, + 0x9a2629a100000000, 0xf30599fd00000000, 0x66d1e96800000000, + 0x98aa090c00000000, 0x0d7e799900000000, 0xef4cdb4d00000000, + 0x7a98abd800000000, 0x84e34bbc00000000, 0x11373b2900000000, + 0x78148b7500000000, 0xedc0fbe000000000, 0x13bb1b8400000000, + 0x866f6b1100000000, 0xc1fd7b3d00000000, 0x54290ba800000000, + 0xaa52ebcc00000000, 0x3f869b5900000000, 0x56a52b0500000000, + 0xc3715b9000000000, 0x3d0abbf400000000, 0xa8decb6100000000, + 0xb32e9aac00000000, 0x26faea3900000000, 0xd8810a5d00000000, + 0x4d557ac800000000, 0x2476ca9400000000, 0xb1a2ba0100000000, + 0x4fd95a6500000000, 0xda0d2af000000000, 0x9d9f3adc00000000, + 0x084b4a4900000000, 0xf630aa2d00000000, 0x63e4dab800000000, + 0x0ac76ae400000000, 0x9f131a7100000000, 0x6168fa1500000000, + 0xf4bc8a8000000000}, + {0x0000000000000000, 0x1f17f08000000000, 0x7f2891da00000000, + 0x603f615a00000000, 0xbf56536e00000000, 0xa041a3ee00000000, + 0xc07ec2b400000000, 0xdf69323400000000, 0x7eada6dc00000000, + 0x61ba565c00000000, 0x0185370600000000, 0x1e92c78600000000, + 0xc1fbf5b200000000, 0xdeec053200000000, 0xbed3646800000000, + 0xa1c494e800000000, 0xbd5c3c6200000000, 0xa24bcce200000000, + 0xc274adb800000000, 0xdd635d3800000000, 0x020a6f0c00000000, + 0x1d1d9f8c00000000, 0x7d22fed600000000, 0x62350e5600000000, + 0xc3f19abe00000000, 0xdce66a3e00000000, 0xbcd90b6400000000, + 0xa3cefbe400000000, 0x7ca7c9d000000000, 0x63b0395000000000, + 0x038f580a00000000, 0x1c98a88a00000000, 0x7ab978c400000000, + 0x65ae884400000000, 0x0591e91e00000000, 0x1a86199e00000000, + 0xc5ef2baa00000000, 0xdaf8db2a00000000, 0xbac7ba7000000000, + 0xa5d04af000000000, 0x0414de1800000000, 0x1b032e9800000000, + 0x7b3c4fc200000000, 0x642bbf4200000000, 0xbb428d7600000000, + 0xa4557df600000000, 0xc46a1cac00000000, 0xdb7dec2c00000000, + 0xc7e544a600000000, 0xd8f2b42600000000, 0xb8cdd57c00000000, + 0xa7da25fc00000000, 0x78b317c800000000, 0x67a4e74800000000, + 0x079b861200000000, 0x188c769200000000, 0xb948e27a00000000, + 0xa65f12fa00000000, 0xc66073a000000000, 0xd977832000000000, + 0x061eb11400000000, 0x1909419400000000, 0x793620ce00000000, + 0x6621d04e00000000, 0xb574805300000000, 0xaa6370d300000000, + 0xca5c118900000000, 0xd54be10900000000, 0x0a22d33d00000000, + 0x153523bd00000000, 0x750a42e700000000, 0x6a1db26700000000, + 0xcbd9268f00000000, 0xd4ced60f00000000, 0xb4f1b75500000000, + 0xabe647d500000000, 0x748f75e100000000, 0x6b98856100000000, + 0x0ba7e43b00000000, 0x14b014bb00000000, 0x0828bc3100000000, + 0x173f4cb100000000, 0x77002deb00000000, 0x6817dd6b00000000, + 0xb77eef5f00000000, 0xa8691fdf00000000, 0xc8567e8500000000, + 0xd7418e0500000000, 0x76851aed00000000, 0x6992ea6d00000000, + 0x09ad8b3700000000, 0x16ba7bb700000000, 0xc9d3498300000000, + 0xd6c4b90300000000, 0xb6fbd85900000000, 0xa9ec28d900000000, + 0xcfcdf89700000000, 0xd0da081700000000, 0xb0e5694d00000000, + 0xaff299cd00000000, 0x709babf900000000, 0x6f8c5b7900000000, + 0x0fb33a2300000000, 0x10a4caa300000000, 0xb1605e4b00000000, + 0xae77aecb00000000, 0xce48cf9100000000, 0xd15f3f1100000000, + 0x0e360d2500000000, 0x1121fda500000000, 0x711e9cff00000000, + 0x6e096c7f00000000, 0x7291c4f500000000, 0x6d86347500000000, + 0x0db9552f00000000, 0x12aea5af00000000, 0xcdc7979b00000000, + 0xd2d0671b00000000, 0xb2ef064100000000, 0xadf8f6c100000000, + 0x0c3c622900000000, 0x132b92a900000000, 0x7314f3f300000000, + 0x6c03037300000000, 0xb36a314700000000, 0xac7dc1c700000000, + 0xcc42a09d00000000, 0xd355501d00000000, 0x6ae900a700000000, + 0x75fef02700000000, 0x15c1917d00000000, 0x0ad661fd00000000, + 0xd5bf53c900000000, 0xcaa8a34900000000, 0xaa97c21300000000, + 0xb580329300000000, 0x1444a67b00000000, 0x0b5356fb00000000, + 0x6b6c37a100000000, 0x747bc72100000000, 0xab12f51500000000, + 0xb405059500000000, 0xd43a64cf00000000, 0xcb2d944f00000000, + 0xd7b53cc500000000, 0xc8a2cc4500000000, 0xa89dad1f00000000, + 0xb78a5d9f00000000, 0x68e36fab00000000, 0x77f49f2b00000000, + 0x17cbfe7100000000, 0x08dc0ef100000000, 0xa9189a1900000000, + 0xb60f6a9900000000, 0xd6300bc300000000, 0xc927fb4300000000, + 0x164ec97700000000, 0x095939f700000000, 0x696658ad00000000, + 0x7671a82d00000000, 0x1050786300000000, 0x0f4788e300000000, + 0x6f78e9b900000000, 0x706f193900000000, 0xaf062b0d00000000, + 0xb011db8d00000000, 0xd02ebad700000000, 0xcf394a5700000000, + 0x6efddebf00000000, 0x71ea2e3f00000000, 0x11d54f6500000000, + 0x0ec2bfe500000000, 0xd1ab8dd100000000, 0xcebc7d5100000000, + 0xae831c0b00000000, 0xb194ec8b00000000, 0xad0c440100000000, + 0xb21bb48100000000, 0xd224d5db00000000, 0xcd33255b00000000, + 0x125a176f00000000, 0x0d4de7ef00000000, 0x6d7286b500000000, + 0x7265763500000000, 0xd3a1e2dd00000000, 0xccb6125d00000000, + 0xac89730700000000, 0xb39e838700000000, 0x6cf7b1b300000000, + 0x73e0413300000000, 0x13df206900000000, 0x0cc8d0e900000000, + 0xdf9d80f400000000, 0xc08a707400000000, 0xa0b5112e00000000, + 0xbfa2e1ae00000000, 0x60cbd39a00000000, 0x7fdc231a00000000, + 0x1fe3424000000000, 0x00f4b2c000000000, 0xa130262800000000, + 0xbe27d6a800000000, 0xde18b7f200000000, 0xc10f477200000000, + 0x1e66754600000000, 0x017185c600000000, 0x614ee49c00000000, + 0x7e59141c00000000, 0x62c1bc9600000000, 0x7dd64c1600000000, + 0x1de92d4c00000000, 0x02feddcc00000000, 0xdd97eff800000000, + 0xc2801f7800000000, 0xa2bf7e2200000000, 0xbda88ea200000000, + 0x1c6c1a4a00000000, 0x037beaca00000000, 0x63448b9000000000, + 0x7c537b1000000000, 0xa33a492400000000, 0xbc2db9a400000000, + 0xdc12d8fe00000000, 0xc305287e00000000, 0xa524f83000000000, + 0xba3308b000000000, 0xda0c69ea00000000, 0xc51b996a00000000, + 0x1a72ab5e00000000, 0x05655bde00000000, 0x655a3a8400000000, + 0x7a4dca0400000000, 0xdb895eec00000000, 0xc49eae6c00000000, + 0xa4a1cf3600000000, 0xbbb63fb600000000, 0x64df0d8200000000, + 0x7bc8fd0200000000, 0x1bf79c5800000000, 0x04e06cd800000000, + 0x1878c45200000000, 0x076f34d200000000, 0x6750558800000000, + 0x7847a50800000000, 0xa72e973c00000000, 0xb83967bc00000000, + 0xd80606e600000000, 0xc711f66600000000, 0x66d5628e00000000, + 0x79c2920e00000000, 0x19fdf35400000000, 0x06ea03d400000000, + 0xd98331e000000000, 0xc694c16000000000, 0xa6aba03a00000000, + 0xb9bc50ba00000000}, + {0x0000000000000000, 0xe2fd888d00000000, 0x85fd60c000000000, + 0x6700e84d00000000, 0x4bfdb05b00000000, 0xa90038d600000000, + 0xce00d09b00000000, 0x2cfd581600000000, 0x96fa61b700000000, + 0x7407e93a00000000, 0x1307017700000000, 0xf1fa89fa00000000, + 0xdd07d1ec00000000, 0x3ffa596100000000, 0x58fab12c00000000, + 0xba0739a100000000, 0x6df3b2b500000000, 0x8f0e3a3800000000, + 0xe80ed27500000000, 0x0af35af800000000, 0x260e02ee00000000, + 0xc4f38a6300000000, 0xa3f3622e00000000, 0x410eeaa300000000, + 0xfb09d30200000000, 0x19f45b8f00000000, 0x7ef4b3c200000000, + 0x9c093b4f00000000, 0xb0f4635900000000, 0x5209ebd400000000, + 0x3509039900000000, 0xd7f48b1400000000, 0x9be014b000000000, + 0x791d9c3d00000000, 0x1e1d747000000000, 0xfce0fcfd00000000, + 0xd01da4eb00000000, 0x32e02c6600000000, 0x55e0c42b00000000, + 0xb71d4ca600000000, 0x0d1a750700000000, 0xefe7fd8a00000000, + 0x88e715c700000000, 0x6a1a9d4a00000000, 0x46e7c55c00000000, + 0xa41a4dd100000000, 0xc31aa59c00000000, 0x21e72d1100000000, + 0xf613a60500000000, 0x14ee2e8800000000, 0x73eec6c500000000, + 0x91134e4800000000, 0xbdee165e00000000, 0x5f139ed300000000, + 0x3813769e00000000, 0xdaeefe1300000000, 0x60e9c7b200000000, + 0x82144f3f00000000, 0xe514a77200000000, 0x07e92fff00000000, + 0x2b1477e900000000, 0xc9e9ff6400000000, 0xaee9172900000000, + 0x4c149fa400000000, 0x77c758bb00000000, 0x953ad03600000000, + 0xf23a387b00000000, 0x10c7b0f600000000, 0x3c3ae8e000000000, + 0xdec7606d00000000, 0xb9c7882000000000, 0x5b3a00ad00000000, + 0xe13d390c00000000, 0x03c0b18100000000, 0x64c059cc00000000, + 0x863dd14100000000, 0xaac0895700000000, 0x483d01da00000000, + 0x2f3de99700000000, 0xcdc0611a00000000, 0x1a34ea0e00000000, + 0xf8c9628300000000, 0x9fc98ace00000000, 0x7d34024300000000, + 0x51c95a5500000000, 0xb334d2d800000000, 0xd4343a9500000000, + 0x36c9b21800000000, 0x8cce8bb900000000, 0x6e33033400000000, + 0x0933eb7900000000, 0xebce63f400000000, 0xc7333be200000000, + 0x25ceb36f00000000, 0x42ce5b2200000000, 0xa033d3af00000000, + 0xec274c0b00000000, 0x0edac48600000000, 0x69da2ccb00000000, + 0x8b27a44600000000, 0xa7dafc5000000000, 0x452774dd00000000, + 0x22279c9000000000, 0xc0da141d00000000, 0x7add2dbc00000000, + 0x9820a53100000000, 0xff204d7c00000000, 0x1dddc5f100000000, + 0x31209de700000000, 0xd3dd156a00000000, 0xb4ddfd2700000000, + 0x562075aa00000000, 0x81d4febe00000000, 0x6329763300000000, + 0x04299e7e00000000, 0xe6d416f300000000, 0xca294ee500000000, + 0x28d4c66800000000, 0x4fd42e2500000000, 0xad29a6a800000000, + 0x172e9f0900000000, 0xf5d3178400000000, 0x92d3ffc900000000, + 0x702e774400000000, 0x5cd32f5200000000, 0xbe2ea7df00000000, + 0xd92e4f9200000000, 0x3bd3c71f00000000, 0xaf88c0ad00000000, + 0x4d75482000000000, 0x2a75a06d00000000, 0xc88828e000000000, + 0xe47570f600000000, 0x0688f87b00000000, 0x6188103600000000, + 0x837598bb00000000, 0x3972a11a00000000, 0xdb8f299700000000, + 0xbc8fc1da00000000, 0x5e72495700000000, 0x728f114100000000, + 0x907299cc00000000, 0xf772718100000000, 0x158ff90c00000000, + 0xc27b721800000000, 0x2086fa9500000000, 0x478612d800000000, + 0xa57b9a5500000000, 0x8986c24300000000, 0x6b7b4ace00000000, + 0x0c7ba28300000000, 0xee862a0e00000000, 0x548113af00000000, + 0xb67c9b2200000000, 0xd17c736f00000000, 0x3381fbe200000000, + 0x1f7ca3f400000000, 0xfd812b7900000000, 0x9a81c33400000000, + 0x787c4bb900000000, 0x3468d41d00000000, 0xd6955c9000000000, + 0xb195b4dd00000000, 0x53683c5000000000, 0x7f95644600000000, + 0x9d68eccb00000000, 0xfa68048600000000, 0x18958c0b00000000, + 0xa292b5aa00000000, 0x406f3d2700000000, 0x276fd56a00000000, + 0xc5925de700000000, 0xe96f05f100000000, 0x0b928d7c00000000, + 0x6c92653100000000, 0x8e6fedbc00000000, 0x599b66a800000000, + 0xbb66ee2500000000, 0xdc66066800000000, 0x3e9b8ee500000000, + 0x1266d6f300000000, 0xf09b5e7e00000000, 0x979bb63300000000, + 0x75663ebe00000000, 0xcf61071f00000000, 0x2d9c8f9200000000, + 0x4a9c67df00000000, 0xa861ef5200000000, 0x849cb74400000000, + 0x66613fc900000000, 0x0161d78400000000, 0xe39c5f0900000000, + 0xd84f981600000000, 0x3ab2109b00000000, 0x5db2f8d600000000, + 0xbf4f705b00000000, 0x93b2284d00000000, 0x714fa0c000000000, + 0x164f488d00000000, 0xf4b2c00000000000, 0x4eb5f9a100000000, + 0xac48712c00000000, 0xcb48996100000000, 0x29b511ec00000000, + 0x054849fa00000000, 0xe7b5c17700000000, 0x80b5293a00000000, + 0x6248a1b700000000, 0xb5bc2aa300000000, 0x5741a22e00000000, + 0x30414a6300000000, 0xd2bcc2ee00000000, 0xfe419af800000000, + 0x1cbc127500000000, 0x7bbcfa3800000000, 0x994172b500000000, + 0x23464b1400000000, 0xc1bbc39900000000, 0xa6bb2bd400000000, + 0x4446a35900000000, 0x68bbfb4f00000000, 0x8a4673c200000000, + 0xed469b8f00000000, 0x0fbb130200000000, 0x43af8ca600000000, + 0xa152042b00000000, 0xc652ec6600000000, 0x24af64eb00000000, + 0x08523cfd00000000, 0xeaafb47000000000, 0x8daf5c3d00000000, + 0x6f52d4b000000000, 0xd555ed1100000000, 0x37a8659c00000000, + 0x50a88dd100000000, 0xb255055c00000000, 0x9ea85d4a00000000, + 0x7c55d5c700000000, 0x1b553d8a00000000, 0xf9a8b50700000000, + 0x2e5c3e1300000000, 0xcca1b69e00000000, 0xaba15ed300000000, + 0x495cd65e00000000, 0x65a18e4800000000, 0x875c06c500000000, + 0xe05cee8800000000, 0x02a1660500000000, 0xb8a65fa400000000, + 0x5a5bd72900000000, 0x3d5b3f6400000000, 0xdfa6b7e900000000, + 0xf35befff00000000, 0x11a6677200000000, 0x76a68f3f00000000, + 0x945b07b200000000}, + {0x0000000000000000, 0xa90b894e00000000, 0x5217129d00000000, + 0xfb1c9bd300000000, 0xe52855e100000000, 0x4c23dcaf00000000, + 0xb73f477c00000000, 0x1e34ce3200000000, 0x8b57db1900000000, + 0x225c525700000000, 0xd940c98400000000, 0x704b40ca00000000, + 0x6e7f8ef800000000, 0xc77407b600000000, 0x3c689c6500000000, + 0x9563152b00000000, 0x16afb63300000000, 0xbfa43f7d00000000, + 0x44b8a4ae00000000, 0xedb32de000000000, 0xf387e3d200000000, + 0x5a8c6a9c00000000, 0xa190f14f00000000, 0x089b780100000000, + 0x9df86d2a00000000, 0x34f3e46400000000, 0xcfef7fb700000000, + 0x66e4f6f900000000, 0x78d038cb00000000, 0xd1dbb18500000000, + 0x2ac72a5600000000, 0x83cca31800000000, 0x2c5e6d6700000000, + 0x8555e42900000000, 0x7e497ffa00000000, 0xd742f6b400000000, + 0xc976388600000000, 0x607db1c800000000, 0x9b612a1b00000000, + 0x326aa35500000000, 0xa709b67e00000000, 0x0e023f3000000000, + 0xf51ea4e300000000, 0x5c152dad00000000, 0x4221e39f00000000, + 0xeb2a6ad100000000, 0x1036f10200000000, 0xb93d784c00000000, + 0x3af1db5400000000, 0x93fa521a00000000, 0x68e6c9c900000000, + 0xc1ed408700000000, 0xdfd98eb500000000, 0x76d207fb00000000, + 0x8dce9c2800000000, 0x24c5156600000000, 0xb1a6004d00000000, + 0x18ad890300000000, 0xe3b112d000000000, 0x4aba9b9e00000000, + 0x548e55ac00000000, 0xfd85dce200000000, 0x0699473100000000, + 0xaf92ce7f00000000, 0x58bcdace00000000, 0xf1b7538000000000, + 0x0aabc85300000000, 0xa3a0411d00000000, 0xbd948f2f00000000, + 0x149f066100000000, 0xef839db200000000, 0x468814fc00000000, + 0xd3eb01d700000000, 0x7ae0889900000000, 0x81fc134a00000000, + 0x28f79a0400000000, 0x36c3543600000000, 0x9fc8dd7800000000, + 0x64d446ab00000000, 0xcddfcfe500000000, 0x4e136cfd00000000, + 0xe718e5b300000000, 0x1c047e6000000000, 0xb50ff72e00000000, + 0xab3b391c00000000, 0x0230b05200000000, 0xf92c2b8100000000, + 0x5027a2cf00000000, 0xc544b7e400000000, 0x6c4f3eaa00000000, + 0x9753a57900000000, 0x3e582c3700000000, 0x206ce20500000000, + 0x89676b4b00000000, 0x727bf09800000000, 0xdb7079d600000000, + 0x74e2b7a900000000, 0xdde93ee700000000, 0x26f5a53400000000, + 0x8ffe2c7a00000000, 0x91cae24800000000, 0x38c16b0600000000, + 0xc3ddf0d500000000, 0x6ad6799b00000000, 0xffb56cb000000000, + 0x56bee5fe00000000, 0xada27e2d00000000, 0x04a9f76300000000, + 0x1a9d395100000000, 0xb396b01f00000000, 0x488a2bcc00000000, + 0xe181a28200000000, 0x624d019a00000000, 0xcb4688d400000000, + 0x305a130700000000, 0x99519a4900000000, 0x8765547b00000000, + 0x2e6edd3500000000, 0xd57246e600000000, 0x7c79cfa800000000, + 0xe91ada8300000000, 0x401153cd00000000, 0xbb0dc81e00000000, + 0x1206415000000000, 0x0c328f6200000000, 0xa539062c00000000, + 0x5e259dff00000000, 0xf72e14b100000000, 0xf17ec44600000000, + 0x58754d0800000000, 0xa369d6db00000000, 0x0a625f9500000000, + 0x145691a700000000, 0xbd5d18e900000000, 0x4641833a00000000, + 0xef4a0a7400000000, 0x7a291f5f00000000, 0xd322961100000000, + 0x283e0dc200000000, 0x8135848c00000000, 0x9f014abe00000000, + 0x360ac3f000000000, 0xcd16582300000000, 0x641dd16d00000000, + 0xe7d1727500000000, 0x4edafb3b00000000, 0xb5c660e800000000, + 0x1ccde9a600000000, 0x02f9279400000000, 0xabf2aeda00000000, + 0x50ee350900000000, 0xf9e5bc4700000000, 0x6c86a96c00000000, + 0xc58d202200000000, 0x3e91bbf100000000, 0x979a32bf00000000, + 0x89aefc8d00000000, 0x20a575c300000000, 0xdbb9ee1000000000, + 0x72b2675e00000000, 0xdd20a92100000000, 0x742b206f00000000, + 0x8f37bbbc00000000, 0x263c32f200000000, 0x3808fcc000000000, + 0x9103758e00000000, 0x6a1fee5d00000000, 0xc314671300000000, + 0x5677723800000000, 0xff7cfb7600000000, 0x046060a500000000, + 0xad6be9eb00000000, 0xb35f27d900000000, 0x1a54ae9700000000, + 0xe148354400000000, 0x4843bc0a00000000, 0xcb8f1f1200000000, + 0x6284965c00000000, 0x99980d8f00000000, 0x309384c100000000, + 0x2ea74af300000000, 0x87acc3bd00000000, 0x7cb0586e00000000, + 0xd5bbd12000000000, 0x40d8c40b00000000, 0xe9d34d4500000000, + 0x12cfd69600000000, 0xbbc45fd800000000, 0xa5f091ea00000000, + 0x0cfb18a400000000, 0xf7e7837700000000, 0x5eec0a3900000000, + 0xa9c21e8800000000, 0x00c997c600000000, 0xfbd50c1500000000, + 0x52de855b00000000, 0x4cea4b6900000000, 0xe5e1c22700000000, + 0x1efd59f400000000, 0xb7f6d0ba00000000, 0x2295c59100000000, + 0x8b9e4cdf00000000, 0x7082d70c00000000, 0xd9895e4200000000, + 0xc7bd907000000000, 0x6eb6193e00000000, 0x95aa82ed00000000, + 0x3ca10ba300000000, 0xbf6da8bb00000000, 0x166621f500000000, + 0xed7aba2600000000, 0x4471336800000000, 0x5a45fd5a00000000, + 0xf34e741400000000, 0x0852efc700000000, 0xa159668900000000, + 0x343a73a200000000, 0x9d31faec00000000, 0x662d613f00000000, + 0xcf26e87100000000, 0xd112264300000000, 0x7819af0d00000000, + 0x830534de00000000, 0x2a0ebd9000000000, 0x859c73ef00000000, + 0x2c97faa100000000, 0xd78b617200000000, 0x7e80e83c00000000, + 0x60b4260e00000000, 0xc9bfaf4000000000, 0x32a3349300000000, + 0x9ba8bddd00000000, 0x0ecba8f600000000, 0xa7c021b800000000, + 0x5cdcba6b00000000, 0xf5d7332500000000, 0xebe3fd1700000000, + 0x42e8745900000000, 0xb9f4ef8a00000000, 0x10ff66c400000000, + 0x9333c5dc00000000, 0x3a384c9200000000, 0xc124d74100000000, + 0x682f5e0f00000000, 0x761b903d00000000, 0xdf10197300000000, + 0x240c82a000000000, 0x8d070bee00000000, 0x18641ec500000000, + 0xb16f978b00000000, 0x4a730c5800000000, 0xe378851600000000, + 0xfd4c4b2400000000, 0x5447c26a00000000, 0xaf5b59b900000000, + 0x0650d0f700000000}, + {0x0000000000000000, 0x479244af00000000, 0xcf22f88500000000, + 0x88b0bc2a00000000, 0xdf4381d000000000, 0x98d1c57f00000000, + 0x1061795500000000, 0x57f33dfa00000000, 0xff81737a00000000, + 0xb81337d500000000, 0x30a38bff00000000, 0x7731cf5000000000, + 0x20c2f2aa00000000, 0x6750b60500000000, 0xefe00a2f00000000, + 0xa8724e8000000000, 0xfe03e7f400000000, 0xb991a35b00000000, + 0x31211f7100000000, 0x76b35bde00000000, 0x2140662400000000, + 0x66d2228b00000000, 0xee629ea100000000, 0xa9f0da0e00000000, + 0x0182948e00000000, 0x4610d02100000000, 0xcea06c0b00000000, + 0x893228a400000000, 0xdec1155e00000000, 0x995351f100000000, + 0x11e3eddb00000000, 0x5671a97400000000, 0xbd01bf3200000000, + 0xfa93fb9d00000000, 0x722347b700000000, 0x35b1031800000000, + 0x62423ee200000000, 0x25d07a4d00000000, 0xad60c66700000000, + 0xeaf282c800000000, 0x4280cc4800000000, 0x051288e700000000, + 0x8da234cd00000000, 0xca30706200000000, 0x9dc34d9800000000, + 0xda51093700000000, 0x52e1b51d00000000, 0x1573f1b200000000, + 0x430258c600000000, 0x04901c6900000000, 0x8c20a04300000000, + 0xcbb2e4ec00000000, 0x9c41d91600000000, 0xdbd39db900000000, + 0x5363219300000000, 0x14f1653c00000000, 0xbc832bbc00000000, + 0xfb116f1300000000, 0x73a1d33900000000, 0x3433979600000000, + 0x63c0aa6c00000000, 0x2452eec300000000, 0xace252e900000000, + 0xeb70164600000000, 0x7a037e6500000000, 0x3d913aca00000000, + 0xb52186e000000000, 0xf2b3c24f00000000, 0xa540ffb500000000, + 0xe2d2bb1a00000000, 0x6a62073000000000, 0x2df0439f00000000, + 0x85820d1f00000000, 0xc21049b000000000, 0x4aa0f59a00000000, + 0x0d32b13500000000, 0x5ac18ccf00000000, 0x1d53c86000000000, + 0x95e3744a00000000, 0xd27130e500000000, 0x8400999100000000, + 0xc392dd3e00000000, 0x4b22611400000000, 0x0cb025bb00000000, + 0x5b43184100000000, 0x1cd15cee00000000, 0x9461e0c400000000, + 0xd3f3a46b00000000, 0x7b81eaeb00000000, 0x3c13ae4400000000, + 0xb4a3126e00000000, 0xf33156c100000000, 0xa4c26b3b00000000, + 0xe3502f9400000000, 0x6be093be00000000, 0x2c72d71100000000, + 0xc702c15700000000, 0x809085f800000000, 0x082039d200000000, + 0x4fb27d7d00000000, 0x1841408700000000, 0x5fd3042800000000, + 0xd763b80200000000, 0x90f1fcad00000000, 0x3883b22d00000000, + 0x7f11f68200000000, 0xf7a14aa800000000, 0xb0330e0700000000, + 0xe7c033fd00000000, 0xa052775200000000, 0x28e2cb7800000000, + 0x6f708fd700000000, 0x390126a300000000, 0x7e93620c00000000, + 0xf623de2600000000, 0xb1b19a8900000000, 0xe642a77300000000, + 0xa1d0e3dc00000000, 0x29605ff600000000, 0x6ef21b5900000000, + 0xc68055d900000000, 0x8112117600000000, 0x09a2ad5c00000000, + 0x4e30e9f300000000, 0x19c3d40900000000, 0x5e5190a600000000, + 0xd6e12c8c00000000, 0x9173682300000000, 0xf406fcca00000000, + 0xb394b86500000000, 0x3b24044f00000000, 0x7cb640e000000000, + 0x2b457d1a00000000, 0x6cd739b500000000, 0xe467859f00000000, + 0xa3f5c13000000000, 0x0b878fb000000000, 0x4c15cb1f00000000, + 0xc4a5773500000000, 0x8337339a00000000, 0xd4c40e6000000000, + 0x93564acf00000000, 0x1be6f6e500000000, 0x5c74b24a00000000, + 0x0a051b3e00000000, 0x4d975f9100000000, 0xc527e3bb00000000, + 0x82b5a71400000000, 0xd5469aee00000000, 0x92d4de4100000000, + 0x1a64626b00000000, 0x5df626c400000000, 0xf584684400000000, + 0xb2162ceb00000000, 0x3aa690c100000000, 0x7d34d46e00000000, + 0x2ac7e99400000000, 0x6d55ad3b00000000, 0xe5e5111100000000, + 0xa27755be00000000, 0x490743f800000000, 0x0e95075700000000, + 0x8625bb7d00000000, 0xc1b7ffd200000000, 0x9644c22800000000, + 0xd1d6868700000000, 0x59663aad00000000, 0x1ef47e0200000000, + 0xb686308200000000, 0xf114742d00000000, 0x79a4c80700000000, + 0x3e368ca800000000, 0x69c5b15200000000, 0x2e57f5fd00000000, + 0xa6e749d700000000, 0xe1750d7800000000, 0xb704a40c00000000, + 0xf096e0a300000000, 0x78265c8900000000, 0x3fb4182600000000, + 0x684725dc00000000, 0x2fd5617300000000, 0xa765dd5900000000, + 0xe0f799f600000000, 0x4885d77600000000, 0x0f1793d900000000, + 0x87a72ff300000000, 0xc0356b5c00000000, 0x97c656a600000000, + 0xd054120900000000, 0x58e4ae2300000000, 0x1f76ea8c00000000, + 0x8e0582af00000000, 0xc997c60000000000, 0x41277a2a00000000, + 0x06b53e8500000000, 0x5146037f00000000, 0x16d447d000000000, + 0x9e64fbfa00000000, 0xd9f6bf5500000000, 0x7184f1d500000000, + 0x3616b57a00000000, 0xbea6095000000000, 0xf9344dff00000000, + 0xaec7700500000000, 0xe95534aa00000000, 0x61e5888000000000, + 0x2677cc2f00000000, 0x7006655b00000000, 0x379421f400000000, + 0xbf249dde00000000, 0xf8b6d97100000000, 0xaf45e48b00000000, + 0xe8d7a02400000000, 0x60671c0e00000000, 0x27f558a100000000, + 0x8f87162100000000, 0xc815528e00000000, 0x40a5eea400000000, + 0x0737aa0b00000000, 0x50c497f100000000, 0x1756d35e00000000, + 0x9fe66f7400000000, 0xd8742bdb00000000, 0x33043d9d00000000, + 0x7496793200000000, 0xfc26c51800000000, 0xbbb481b700000000, + 0xec47bc4d00000000, 0xabd5f8e200000000, 0x236544c800000000, + 0x64f7006700000000, 0xcc854ee700000000, 0x8b170a4800000000, + 0x03a7b66200000000, 0x4435f2cd00000000, 0x13c6cf3700000000, + 0x54548b9800000000, 0xdce437b200000000, 0x9b76731d00000000, + 0xcd07da6900000000, 0x8a959ec600000000, 0x022522ec00000000, + 0x45b7664300000000, 0x12445bb900000000, 0x55d61f1600000000, + 0xdd66a33c00000000, 0x9af4e79300000000, 0x3286a91300000000, + 0x7514edbc00000000, 0xfda4519600000000, 0xba36153900000000, + 0xedc528c300000000, 0xaa576c6c00000000, 0x22e7d04600000000, + 0x657594e900000000}}; + +#else /* W == 4 */ + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0x65673b46, 0xcace768c, 0xafa94dca, 0x4eedeb59, + 0x2b8ad01f, 0x84239dd5, 0xe144a693, 0x9ddbd6b2, 0xf8bcedf4, + 0x5715a03e, 0x32729b78, 0xd3363deb, 0xb65106ad, 0x19f84b67, + 0x7c9f7021, 0xe0c6ab25, 0x85a19063, 0x2a08dda9, 0x4f6fe6ef, + 0xae2b407c, 0xcb4c7b3a, 0x64e536f0, 0x01820db6, 0x7d1d7d97, + 0x187a46d1, 0xb7d30b1b, 0xd2b4305d, 0x33f096ce, 0x5697ad88, + 0xf93ee042, 0x9c59db04, 0x1afc500b, 0x7f9b6b4d, 0xd0322687, + 0xb5551dc1, 0x5411bb52, 0x31768014, 0x9edfcdde, 0xfbb8f698, + 0x872786b9, 0xe240bdff, 0x4de9f035, 0x288ecb73, 0xc9ca6de0, + 0xacad56a6, 0x03041b6c, 0x6663202a, 0xfa3afb2e, 0x9f5dc068, + 0x30f48da2, 0x5593b6e4, 0xb4d71077, 0xd1b02b31, 0x7e1966fb, + 0x1b7e5dbd, 0x67e12d9c, 0x028616da, 0xad2f5b10, 0xc8486056, + 0x290cc6c5, 0x4c6bfd83, 0xe3c2b049, 0x86a58b0f, 0x35f8a016, + 0x509f9b50, 0xff36d69a, 0x9a51eddc, 0x7b154b4f, 0x1e727009, + 0xb1db3dc3, 0xd4bc0685, 0xa82376a4, 0xcd444de2, 0x62ed0028, + 0x078a3b6e, 0xe6ce9dfd, 0x83a9a6bb, 0x2c00eb71, 0x4967d037, + 0xd53e0b33, 0xb0593075, 0x1ff07dbf, 0x7a9746f9, 0x9bd3e06a, + 0xfeb4db2c, 0x511d96e6, 0x347aada0, 0x48e5dd81, 0x2d82e6c7, + 0x822bab0d, 0xe74c904b, 0x060836d8, 0x636f0d9e, 0xccc64054, + 0xa9a17b12, 0x2f04f01d, 0x4a63cb5b, 0xe5ca8691, 0x80adbdd7, + 0x61e91b44, 0x048e2002, 0xab276dc8, 0xce40568e, 0xb2df26af, + 0xd7b81de9, 0x78115023, 0x1d766b65, 0xfc32cdf6, 0x9955f6b0, + 0x36fcbb7a, 0x539b803c, 0xcfc25b38, 0xaaa5607e, 0x050c2db4, + 0x606b16f2, 0x812fb061, 0xe4488b27, 0x4be1c6ed, 0x2e86fdab, + 0x52198d8a, 0x377eb6cc, 0x98d7fb06, 0xfdb0c040, 0x1cf466d3, + 0x79935d95, 0xd63a105f, 0xb35d2b19, 0x6bf1402c, 0x0e967b6a, + 0xa13f36a0, 0xc4580de6, 0x251cab75, 0x407b9033, 0xefd2ddf9, + 0x8ab5e6bf, 0xf62a969e, 0x934dadd8, 0x3ce4e012, 0x5983db54, + 0xb8c77dc7, 0xdda04681, 0x72090b4b, 0x176e300d, 0x8b37eb09, + 0xee50d04f, 0x41f99d85, 0x249ea6c3, 0xc5da0050, 0xa0bd3b16, + 0x0f1476dc, 0x6a734d9a, 0x16ec3dbb, 0x738b06fd, 0xdc224b37, + 0xb9457071, 0x5801d6e2, 0x3d66eda4, 0x92cfa06e, 0xf7a89b28, + 0x710d1027, 0x146a2b61, 0xbbc366ab, 0xdea45ded, 0x3fe0fb7e, + 0x5a87c038, 0xf52e8df2, 0x9049b6b4, 0xecd6c695, 0x89b1fdd3, + 0x2618b019, 0x437f8b5f, 0xa23b2dcc, 0xc75c168a, 0x68f55b40, + 0x0d926006, 0x91cbbb02, 0xf4ac8044, 0x5b05cd8e, 0x3e62f6c8, + 0xdf26505b, 0xba416b1d, 0x15e826d7, 0x708f1d91, 0x0c106db0, + 0x697756f6, 0xc6de1b3c, 0xa3b9207a, 0x42fd86e9, 0x279abdaf, + 0x8833f065, 0xed54cb23, 0x5e09e03a, 0x3b6edb7c, 0x94c796b6, + 0xf1a0adf0, 0x10e40b63, 0x75833025, 0xda2a7def, 0xbf4d46a9, + 0xc3d23688, 0xa6b50dce, 0x091c4004, 0x6c7b7b42, 0x8d3fddd1, + 0xe858e697, 0x47f1ab5d, 0x2296901b, 0xbecf4b1f, 0xdba87059, + 0x74013d93, 0x116606d5, 0xf022a046, 0x95459b00, 0x3aecd6ca, + 0x5f8bed8c, 0x23149dad, 0x4673a6eb, 0xe9daeb21, 0x8cbdd067, + 0x6df976f4, 0x089e4db2, 0xa7370078, 0xc2503b3e, 0x44f5b031, + 0x21928b77, 0x8e3bc6bd, 0xeb5cfdfb, 0x0a185b68, 0x6f7f602e, + 0xc0d62de4, 0xa5b116a2, 0xd92e6683, 0xbc495dc5, 0x13e0100f, + 0x76872b49, 0x97c38dda, 0xf2a4b69c, 0x5d0dfb56, 0x386ac010, + 0xa4331b14, 0xc1542052, 0x6efd6d98, 0x0b9a56de, 0xeadef04d, + 0x8fb9cb0b, 0x201086c1, 0x4577bd87, 0x39e8cda6, 0x5c8ff6e0, + 0xf326bb2a, 0x9641806c, 0x770526ff, 0x12621db9, 0xbdcb5073, + 0xd8ac6b35}, + {0x00000000, 0xd7e28058, 0x74b406f1, 0xa35686a9, 0xe9680de2, + 0x3e8a8dba, 0x9ddc0b13, 0x4a3e8b4b, 0x09a11d85, 0xde439ddd, + 0x7d151b74, 0xaaf79b2c, 0xe0c91067, 0x372b903f, 0x947d1696, + 0x439f96ce, 0x13423b0a, 0xc4a0bb52, 0x67f63dfb, 0xb014bda3, + 0xfa2a36e8, 0x2dc8b6b0, 0x8e9e3019, 0x597cb041, 0x1ae3268f, + 0xcd01a6d7, 0x6e57207e, 0xb9b5a026, 0xf38b2b6d, 0x2469ab35, + 0x873f2d9c, 0x50ddadc4, 0x26847614, 0xf166f64c, 0x523070e5, + 0x85d2f0bd, 0xcfec7bf6, 0x180efbae, 0xbb587d07, 0x6cbafd5f, + 0x2f256b91, 0xf8c7ebc9, 0x5b916d60, 0x8c73ed38, 0xc64d6673, + 0x11afe62b, 0xb2f96082, 0x651be0da, 0x35c64d1e, 0xe224cd46, + 0x41724bef, 0x9690cbb7, 0xdcae40fc, 0x0b4cc0a4, 0xa81a460d, + 0x7ff8c655, 0x3c67509b, 0xeb85d0c3, 0x48d3566a, 0x9f31d632, + 0xd50f5d79, 0x02eddd21, 0xa1bb5b88, 0x7659dbd0, 0x4d08ec28, + 0x9aea6c70, 0x39bcead9, 0xee5e6a81, 0xa460e1ca, 0x73826192, + 0xd0d4e73b, 0x07366763, 0x44a9f1ad, 0x934b71f5, 0x301df75c, + 0xe7ff7704, 0xadc1fc4f, 0x7a237c17, 0xd975fabe, 0x0e977ae6, + 0x5e4ad722, 0x89a8577a, 0x2afed1d3, 0xfd1c518b, 0xb722dac0, + 0x60c05a98, 0xc396dc31, 0x14745c69, 0x57ebcaa7, 0x80094aff, + 0x235fcc56, 0xf4bd4c0e, 0xbe83c745, 0x6961471d, 0xca37c1b4, + 0x1dd541ec, 0x6b8c9a3c, 0xbc6e1a64, 0x1f389ccd, 0xc8da1c95, + 0x82e497de, 0x55061786, 0xf650912f, 0x21b21177, 0x622d87b9, + 0xb5cf07e1, 0x16998148, 0xc17b0110, 0x8b458a5b, 0x5ca70a03, + 0xfff18caa, 0x28130cf2, 0x78cea136, 0xaf2c216e, 0x0c7aa7c7, + 0xdb98279f, 0x91a6acd4, 0x46442c8c, 0xe512aa25, 0x32f02a7d, + 0x716fbcb3, 0xa68d3ceb, 0x05dbba42, 0xd2393a1a, 0x9807b151, + 0x4fe53109, 0xecb3b7a0, 0x3b5137f8, 0x9a11d850, 0x4df35808, + 0xeea5dea1, 0x39475ef9, 0x7379d5b2, 0xa49b55ea, 0x07cdd343, + 0xd02f531b, 0x93b0c5d5, 0x4452458d, 0xe704c324, 0x30e6437c, + 0x7ad8c837, 0xad3a486f, 0x0e6ccec6, 0xd98e4e9e, 0x8953e35a, + 0x5eb16302, 0xfde7e5ab, 0x2a0565f3, 0x603beeb8, 0xb7d96ee0, + 0x148fe849, 0xc36d6811, 0x80f2fedf, 0x57107e87, 0xf446f82e, + 0x23a47876, 0x699af33d, 0xbe787365, 0x1d2ef5cc, 0xcacc7594, + 0xbc95ae44, 0x6b772e1c, 0xc821a8b5, 0x1fc328ed, 0x55fda3a6, + 0x821f23fe, 0x2149a557, 0xf6ab250f, 0xb534b3c1, 0x62d63399, + 0xc180b530, 0x16623568, 0x5c5cbe23, 0x8bbe3e7b, 0x28e8b8d2, + 0xff0a388a, 0xafd7954e, 0x78351516, 0xdb6393bf, 0x0c8113e7, + 0x46bf98ac, 0x915d18f4, 0x320b9e5d, 0xe5e91e05, 0xa67688cb, + 0x71940893, 0xd2c28e3a, 0x05200e62, 0x4f1e8529, 0x98fc0571, + 0x3baa83d8, 0xec480380, 0xd7193478, 0x00fbb420, 0xa3ad3289, + 0x744fb2d1, 0x3e71399a, 0xe993b9c2, 0x4ac53f6b, 0x9d27bf33, + 0xdeb829fd, 0x095aa9a5, 0xaa0c2f0c, 0x7deeaf54, 0x37d0241f, + 0xe032a447, 0x436422ee, 0x9486a2b6, 0xc45b0f72, 0x13b98f2a, + 0xb0ef0983, 0x670d89db, 0x2d330290, 0xfad182c8, 0x59870461, + 0x8e658439, 0xcdfa12f7, 0x1a1892af, 0xb94e1406, 0x6eac945e, + 0x24921f15, 0xf3709f4d, 0x502619e4, 0x87c499bc, 0xf19d426c, + 0x267fc234, 0x8529449d, 0x52cbc4c5, 0x18f54f8e, 0xcf17cfd6, + 0x6c41497f, 0xbba3c927, 0xf83c5fe9, 0x2fdedfb1, 0x8c885918, + 0x5b6ad940, 0x1154520b, 0xc6b6d253, 0x65e054fa, 0xb202d4a2, + 0xe2df7966, 0x353df93e, 0x966b7f97, 0x4189ffcf, 0x0bb77484, + 0xdc55f4dc, 0x7f037275, 0xa8e1f22d, 0xeb7e64e3, 0x3c9ce4bb, + 0x9fca6212, 0x4828e24a, 0x02166901, 0xd5f4e959, 0x76a26ff0, + 0xa140efa8}, + {0x00000000, 0xef52b6e1, 0x05d46b83, 0xea86dd62, 0x0ba8d706, + 0xe4fa61e7, 0x0e7cbc85, 0xe12e0a64, 0x1751ae0c, 0xf80318ed, + 0x1285c58f, 0xfdd7736e, 0x1cf9790a, 0xf3abcfeb, 0x192d1289, + 0xf67fa468, 0x2ea35c18, 0xc1f1eaf9, 0x2b77379b, 0xc425817a, + 0x250b8b1e, 0xca593dff, 0x20dfe09d, 0xcf8d567c, 0x39f2f214, + 0xd6a044f5, 0x3c269997, 0xd3742f76, 0x325a2512, 0xdd0893f3, + 0x378e4e91, 0xd8dcf870, 0x5d46b830, 0xb2140ed1, 0x5892d3b3, + 0xb7c06552, 0x56ee6f36, 0xb9bcd9d7, 0x533a04b5, 0xbc68b254, + 0x4a17163c, 0xa545a0dd, 0x4fc37dbf, 0xa091cb5e, 0x41bfc13a, + 0xaeed77db, 0x446baab9, 0xab391c58, 0x73e5e428, 0x9cb752c9, + 0x76318fab, 0x9963394a, 0x784d332e, 0x971f85cf, 0x7d9958ad, + 0x92cbee4c, 0x64b44a24, 0x8be6fcc5, 0x616021a7, 0x8e329746, + 0x6f1c9d22, 0x804e2bc3, 0x6ac8f6a1, 0x859a4040, 0xba8d7060, + 0x55dfc681, 0xbf591be3, 0x500bad02, 0xb125a766, 0x5e771187, + 0xb4f1cce5, 0x5ba37a04, 0xaddcde6c, 0x428e688d, 0xa808b5ef, + 0x475a030e, 0xa674096a, 0x4926bf8b, 0xa3a062e9, 0x4cf2d408, + 0x942e2c78, 0x7b7c9a99, 0x91fa47fb, 0x7ea8f11a, 0x9f86fb7e, + 0x70d44d9f, 0x9a5290fd, 0x7500261c, 0x837f8274, 0x6c2d3495, + 0x86abe9f7, 0x69f95f16, 0x88d75572, 0x6785e393, 0x8d033ef1, + 0x62518810, 0xe7cbc850, 0x08997eb1, 0xe21fa3d3, 0x0d4d1532, + 0xec631f56, 0x0331a9b7, 0xe9b774d5, 0x06e5c234, 0xf09a665c, + 0x1fc8d0bd, 0xf54e0ddf, 0x1a1cbb3e, 0xfb32b15a, 0x146007bb, + 0xfee6dad9, 0x11b46c38, 0xc9689448, 0x263a22a9, 0xccbcffcb, + 0x23ee492a, 0xc2c0434e, 0x2d92f5af, 0xc71428cd, 0x28469e2c, + 0xde393a44, 0x316b8ca5, 0xdbed51c7, 0x34bfe726, 0xd591ed42, + 0x3ac35ba3, 0xd04586c1, 0x3f173020, 0xae6be681, 0x41395060, + 0xabbf8d02, 0x44ed3be3, 0xa5c33187, 0x4a918766, 0xa0175a04, + 0x4f45ece5, 0xb93a488d, 0x5668fe6c, 0xbcee230e, 0x53bc95ef, + 0xb2929f8b, 0x5dc0296a, 0xb746f408, 0x581442e9, 0x80c8ba99, + 0x6f9a0c78, 0x851cd11a, 0x6a4e67fb, 0x8b606d9f, 0x6432db7e, + 0x8eb4061c, 0x61e6b0fd, 0x97991495, 0x78cba274, 0x924d7f16, + 0x7d1fc9f7, 0x9c31c393, 0x73637572, 0x99e5a810, 0x76b71ef1, + 0xf32d5eb1, 0x1c7fe850, 0xf6f93532, 0x19ab83d3, 0xf88589b7, + 0x17d73f56, 0xfd51e234, 0x120354d5, 0xe47cf0bd, 0x0b2e465c, + 0xe1a89b3e, 0x0efa2ddf, 0xefd427bb, 0x0086915a, 0xea004c38, + 0x0552fad9, 0xdd8e02a9, 0x32dcb448, 0xd85a692a, 0x3708dfcb, + 0xd626d5af, 0x3974634e, 0xd3f2be2c, 0x3ca008cd, 0xcadfaca5, + 0x258d1a44, 0xcf0bc726, 0x205971c7, 0xc1777ba3, 0x2e25cd42, + 0xc4a31020, 0x2bf1a6c1, 0x14e696e1, 0xfbb42000, 0x1132fd62, + 0xfe604b83, 0x1f4e41e7, 0xf01cf706, 0x1a9a2a64, 0xf5c89c85, + 0x03b738ed, 0xece58e0c, 0x0663536e, 0xe931e58f, 0x081fefeb, + 0xe74d590a, 0x0dcb8468, 0xe2993289, 0x3a45caf9, 0xd5177c18, + 0x3f91a17a, 0xd0c3179b, 0x31ed1dff, 0xdebfab1e, 0x3439767c, + 0xdb6bc09d, 0x2d1464f5, 0xc246d214, 0x28c00f76, 0xc792b997, + 0x26bcb3f3, 0xc9ee0512, 0x2368d870, 0xcc3a6e91, 0x49a02ed1, + 0xa6f29830, 0x4c744552, 0xa326f3b3, 0x4208f9d7, 0xad5a4f36, + 0x47dc9254, 0xa88e24b5, 0x5ef180dd, 0xb1a3363c, 0x5b25eb5e, + 0xb4775dbf, 0x555957db, 0xba0be13a, 0x508d3c58, 0xbfdf8ab9, + 0x670372c9, 0x8851c428, 0x62d7194a, 0x8d85afab, 0x6caba5cf, + 0x83f9132e, 0x697fce4c, 0x862d78ad, 0x7052dcc5, 0x9f006a24, + 0x7586b746, 0x9ad401a7, 0x7bfa0bc3, 0x94a8bd22, 0x7e2e6040, + 0x917cd6a1}, + {0x00000000, 0x87a6cb43, 0xd43c90c7, 0x539a5b84, 0x730827cf, + 0xf4aeec8c, 0xa734b708, 0x20927c4b, 0xe6104f9e, 0x61b684dd, + 0x322cdf59, 0xb58a141a, 0x95186851, 0x12bea312, 0x4124f896, + 0xc68233d5, 0x1751997d, 0x90f7523e, 0xc36d09ba, 0x44cbc2f9, + 0x6459beb2, 0xe3ff75f1, 0xb0652e75, 0x37c3e536, 0xf141d6e3, + 0x76e71da0, 0x257d4624, 0xa2db8d67, 0x8249f12c, 0x05ef3a6f, + 0x567561eb, 0xd1d3aaa8, 0x2ea332fa, 0xa905f9b9, 0xfa9fa23d, + 0x7d39697e, 0x5dab1535, 0xda0dde76, 0x899785f2, 0x0e314eb1, + 0xc8b37d64, 0x4f15b627, 0x1c8feda3, 0x9b2926e0, 0xbbbb5aab, + 0x3c1d91e8, 0x6f87ca6c, 0xe821012f, 0x39f2ab87, 0xbe5460c4, + 0xedce3b40, 0x6a68f003, 0x4afa8c48, 0xcd5c470b, 0x9ec61c8f, + 0x1960d7cc, 0xdfe2e419, 0x58442f5a, 0x0bde74de, 0x8c78bf9d, + 0xaceac3d6, 0x2b4c0895, 0x78d65311, 0xff709852, 0x5d4665f4, + 0xdae0aeb7, 0x897af533, 0x0edc3e70, 0x2e4e423b, 0xa9e88978, + 0xfa72d2fc, 0x7dd419bf, 0xbb562a6a, 0x3cf0e129, 0x6f6abaad, + 0xe8cc71ee, 0xc85e0da5, 0x4ff8c6e6, 0x1c629d62, 0x9bc45621, + 0x4a17fc89, 0xcdb137ca, 0x9e2b6c4e, 0x198da70d, 0x391fdb46, + 0xbeb91005, 0xed234b81, 0x6a8580c2, 0xac07b317, 0x2ba17854, + 0x783b23d0, 0xff9de893, 0xdf0f94d8, 0x58a95f9b, 0x0b33041f, + 0x8c95cf5c, 0x73e5570e, 0xf4439c4d, 0xa7d9c7c9, 0x207f0c8a, + 0x00ed70c1, 0x874bbb82, 0xd4d1e006, 0x53772b45, 0x95f51890, + 0x1253d3d3, 0x41c98857, 0xc66f4314, 0xe6fd3f5f, 0x615bf41c, + 0x32c1af98, 0xb56764db, 0x64b4ce73, 0xe3120530, 0xb0885eb4, + 0x372e95f7, 0x17bce9bc, 0x901a22ff, 0xc380797b, 0x4426b238, + 0x82a481ed, 0x05024aae, 0x5698112a, 0xd13eda69, 0xf1aca622, + 0x760a6d61, 0x259036e5, 0xa236fda6, 0xba8ccbe8, 0x3d2a00ab, + 0x6eb05b2f, 0xe916906c, 0xc984ec27, 0x4e222764, 0x1db87ce0, + 0x9a1eb7a3, 0x5c9c8476, 0xdb3a4f35, 0x88a014b1, 0x0f06dff2, + 0x2f94a3b9, 0xa83268fa, 0xfba8337e, 0x7c0ef83d, 0xaddd5295, + 0x2a7b99d6, 0x79e1c252, 0xfe470911, 0xded5755a, 0x5973be19, + 0x0ae9e59d, 0x8d4f2ede, 0x4bcd1d0b, 0xcc6bd648, 0x9ff18dcc, + 0x1857468f, 0x38c53ac4, 0xbf63f187, 0xecf9aa03, 0x6b5f6140, + 0x942ff912, 0x13893251, 0x401369d5, 0xc7b5a296, 0xe727dedd, + 0x6081159e, 0x331b4e1a, 0xb4bd8559, 0x723fb68c, 0xf5997dcf, + 0xa603264b, 0x21a5ed08, 0x01379143, 0x86915a00, 0xd50b0184, + 0x52adcac7, 0x837e606f, 0x04d8ab2c, 0x5742f0a8, 0xd0e43beb, + 0xf07647a0, 0x77d08ce3, 0x244ad767, 0xa3ec1c24, 0x656e2ff1, + 0xe2c8e4b2, 0xb152bf36, 0x36f47475, 0x1666083e, 0x91c0c37d, + 0xc25a98f9, 0x45fc53ba, 0xe7caae1c, 0x606c655f, 0x33f63edb, + 0xb450f598, 0x94c289d3, 0x13644290, 0x40fe1914, 0xc758d257, + 0x01dae182, 0x867c2ac1, 0xd5e67145, 0x5240ba06, 0x72d2c64d, + 0xf5740d0e, 0xa6ee568a, 0x21489dc9, 0xf09b3761, 0x773dfc22, + 0x24a7a7a6, 0xa3016ce5, 0x839310ae, 0x0435dbed, 0x57af8069, + 0xd0094b2a, 0x168b78ff, 0x912db3bc, 0xc2b7e838, 0x4511237b, + 0x65835f30, 0xe2259473, 0xb1bfcff7, 0x361904b4, 0xc9699ce6, + 0x4ecf57a5, 0x1d550c21, 0x9af3c762, 0xba61bb29, 0x3dc7706a, + 0x6e5d2bee, 0xe9fbe0ad, 0x2f79d378, 0xa8df183b, 0xfb4543bf, + 0x7ce388fc, 0x5c71f4b7, 0xdbd73ff4, 0x884d6470, 0x0febaf33, + 0xde38059b, 0x599eced8, 0x0a04955c, 0x8da25e1f, 0xad302254, + 0x2a96e917, 0x790cb293, 0xfeaa79d0, 0x38284a05, 0xbf8e8146, + 0xec14dac2, 0x6bb21181, 0x4b206dca, 0xcc86a689, 0x9f1cfd0d, + 0x18ba364e}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x00000000, 0x43cba687, 0xc7903cd4, 0x845b9a53, 0xcf270873, + 0x8cecaef4, 0x08b734a7, 0x4b7c9220, 0x9e4f10e6, 0xdd84b661, + 0x59df2c32, 0x1a148ab5, 0x51681895, 0x12a3be12, 0x96f82441, + 0xd53382c6, 0x7d995117, 0x3e52f790, 0xba096dc3, 0xf9c2cb44, + 0xb2be5964, 0xf175ffe3, 0x752e65b0, 0x36e5c337, 0xe3d641f1, + 0xa01de776, 0x24467d25, 0x678ddba2, 0x2cf14982, 0x6f3aef05, + 0xeb617556, 0xa8aad3d1, 0xfa32a32e, 0xb9f905a9, 0x3da29ffa, + 0x7e69397d, 0x3515ab5d, 0x76de0dda, 0xf2859789, 0xb14e310e, + 0x647db3c8, 0x27b6154f, 0xa3ed8f1c, 0xe026299b, 0xab5abbbb, + 0xe8911d3c, 0x6cca876f, 0x2f0121e8, 0x87abf239, 0xc46054be, + 0x403bceed, 0x03f0686a, 0x488cfa4a, 0x0b475ccd, 0x8f1cc69e, + 0xccd76019, 0x19e4e2df, 0x5a2f4458, 0xde74de0b, 0x9dbf788c, + 0xd6c3eaac, 0x95084c2b, 0x1153d678, 0x529870ff, 0xf465465d, + 0xb7aee0da, 0x33f57a89, 0x703edc0e, 0x3b424e2e, 0x7889e8a9, + 0xfcd272fa, 0xbf19d47d, 0x6a2a56bb, 0x29e1f03c, 0xadba6a6f, + 0xee71cce8, 0xa50d5ec8, 0xe6c6f84f, 0x629d621c, 0x2156c49b, + 0x89fc174a, 0xca37b1cd, 0x4e6c2b9e, 0x0da78d19, 0x46db1f39, + 0x0510b9be, 0x814b23ed, 0xc280856a, 0x17b307ac, 0x5478a12b, + 0xd0233b78, 0x93e89dff, 0xd8940fdf, 0x9b5fa958, 0x1f04330b, + 0x5ccf958c, 0x0e57e573, 0x4d9c43f4, 0xc9c7d9a7, 0x8a0c7f20, + 0xc170ed00, 0x82bb4b87, 0x06e0d1d4, 0x452b7753, 0x9018f595, + 0xd3d35312, 0x5788c941, 0x14436fc6, 0x5f3ffde6, 0x1cf45b61, + 0x98afc132, 0xdb6467b5, 0x73ceb464, 0x300512e3, 0xb45e88b0, + 0xf7952e37, 0xbce9bc17, 0xff221a90, 0x7b7980c3, 0x38b22644, + 0xed81a482, 0xae4a0205, 0x2a119856, 0x69da3ed1, 0x22a6acf1, + 0x616d0a76, 0xe5369025, 0xa6fd36a2, 0xe8cb8cba, 0xab002a3d, + 0x2f5bb06e, 0x6c9016e9, 0x27ec84c9, 0x6427224e, 0xe07cb81d, + 0xa3b71e9a, 0x76849c5c, 0x354f3adb, 0xb114a088, 0xf2df060f, + 0xb9a3942f, 0xfa6832a8, 0x7e33a8fb, 0x3df80e7c, 0x9552ddad, + 0xd6997b2a, 0x52c2e179, 0x110947fe, 0x5a75d5de, 0x19be7359, + 0x9de5e90a, 0xde2e4f8d, 0x0b1dcd4b, 0x48d66bcc, 0xcc8df19f, + 0x8f465718, 0xc43ac538, 0x87f163bf, 0x03aaf9ec, 0x40615f6b, + 0x12f92f94, 0x51328913, 0xd5691340, 0x96a2b5c7, 0xddde27e7, + 0x9e158160, 0x1a4e1b33, 0x5985bdb4, 0x8cb63f72, 0xcf7d99f5, + 0x4b2603a6, 0x08eda521, 0x43913701, 0x005a9186, 0x84010bd5, + 0xc7caad52, 0x6f607e83, 0x2cabd804, 0xa8f04257, 0xeb3be4d0, + 0xa04776f0, 0xe38cd077, 0x67d74a24, 0x241ceca3, 0xf12f6e65, + 0xb2e4c8e2, 0x36bf52b1, 0x7574f436, 0x3e086616, 0x7dc3c091, + 0xf9985ac2, 0xba53fc45, 0x1caecae7, 0x5f656c60, 0xdb3ef633, + 0x98f550b4, 0xd389c294, 0x90426413, 0x1419fe40, 0x57d258c7, + 0x82e1da01, 0xc12a7c86, 0x4571e6d5, 0x06ba4052, 0x4dc6d272, + 0x0e0d74f5, 0x8a56eea6, 0xc99d4821, 0x61379bf0, 0x22fc3d77, + 0xa6a7a724, 0xe56c01a3, 0xae109383, 0xeddb3504, 0x6980af57, + 0x2a4b09d0, 0xff788b16, 0xbcb32d91, 0x38e8b7c2, 0x7b231145, + 0x305f8365, 0x739425e2, 0xf7cfbfb1, 0xb4041936, 0xe69c69c9, + 0xa557cf4e, 0x210c551d, 0x62c7f39a, 0x29bb61ba, 0x6a70c73d, + 0xee2b5d6e, 0xade0fbe9, 0x78d3792f, 0x3b18dfa8, 0xbf4345fb, + 0xfc88e37c, 0xb7f4715c, 0xf43fd7db, 0x70644d88, 0x33afeb0f, + 0x9b0538de, 0xd8ce9e59, 0x5c95040a, 0x1f5ea28d, 0x542230ad, + 0x17e9962a, 0x93b20c79, 0xd079aafe, 0x054a2838, 0x46818ebf, + 0xc2da14ec, 0x8111b26b, 0xca6d204b, 0x89a686cc, 0x0dfd1c9f, + 0x4e36ba18}, + {0x00000000, 0xe1b652ef, 0x836bd405, 0x62dd86ea, 0x06d7a80b, + 0xe761fae4, 0x85bc7c0e, 0x640a2ee1, 0x0cae5117, 0xed1803f8, + 0x8fc58512, 0x6e73d7fd, 0x0a79f91c, 0xebcfabf3, 0x89122d19, + 0x68a47ff6, 0x185ca32e, 0xf9eaf1c1, 0x9b37772b, 0x7a8125c4, + 0x1e8b0b25, 0xff3d59ca, 0x9de0df20, 0x7c568dcf, 0x14f2f239, + 0xf544a0d6, 0x9799263c, 0x762f74d3, 0x12255a32, 0xf39308dd, + 0x914e8e37, 0x70f8dcd8, 0x30b8465d, 0xd10e14b2, 0xb3d39258, + 0x5265c0b7, 0x366fee56, 0xd7d9bcb9, 0xb5043a53, 0x54b268bc, + 0x3c16174a, 0xdda045a5, 0xbf7dc34f, 0x5ecb91a0, 0x3ac1bf41, + 0xdb77edae, 0xb9aa6b44, 0x581c39ab, 0x28e4e573, 0xc952b79c, + 0xab8f3176, 0x4a396399, 0x2e334d78, 0xcf851f97, 0xad58997d, + 0x4ceecb92, 0x244ab464, 0xc5fce68b, 0xa7216061, 0x4697328e, + 0x229d1c6f, 0xc32b4e80, 0xa1f6c86a, 0x40409a85, 0x60708dba, + 0x81c6df55, 0xe31b59bf, 0x02ad0b50, 0x66a725b1, 0x8711775e, + 0xe5ccf1b4, 0x047aa35b, 0x6cdedcad, 0x8d688e42, 0xefb508a8, + 0x0e035a47, 0x6a0974a6, 0x8bbf2649, 0xe962a0a3, 0x08d4f24c, + 0x782c2e94, 0x999a7c7b, 0xfb47fa91, 0x1af1a87e, 0x7efb869f, + 0x9f4dd470, 0xfd90529a, 0x1c260075, 0x74827f83, 0x95342d6c, + 0xf7e9ab86, 0x165ff969, 0x7255d788, 0x93e38567, 0xf13e038d, + 0x10885162, 0x50c8cbe7, 0xb17e9908, 0xd3a31fe2, 0x32154d0d, + 0x561f63ec, 0xb7a93103, 0xd574b7e9, 0x34c2e506, 0x5c669af0, + 0xbdd0c81f, 0xdf0d4ef5, 0x3ebb1c1a, 0x5ab132fb, 0xbb076014, + 0xd9dae6fe, 0x386cb411, 0x489468c9, 0xa9223a26, 0xcbffbccc, + 0x2a49ee23, 0x4e43c0c2, 0xaff5922d, 0xcd2814c7, 0x2c9e4628, + 0x443a39de, 0xa58c6b31, 0xc751eddb, 0x26e7bf34, 0x42ed91d5, + 0xa35bc33a, 0xc18645d0, 0x2030173f, 0x81e66bae, 0x60503941, + 0x028dbfab, 0xe33bed44, 0x8731c3a5, 0x6687914a, 0x045a17a0, + 0xe5ec454f, 0x8d483ab9, 0x6cfe6856, 0x0e23eebc, 0xef95bc53, + 0x8b9f92b2, 0x6a29c05d, 0x08f446b7, 0xe9421458, 0x99bac880, + 0x780c9a6f, 0x1ad11c85, 0xfb674e6a, 0x9f6d608b, 0x7edb3264, + 0x1c06b48e, 0xfdb0e661, 0x95149997, 0x74a2cb78, 0x167f4d92, + 0xf7c91f7d, 0x93c3319c, 0x72756373, 0x10a8e599, 0xf11eb776, + 0xb15e2df3, 0x50e87f1c, 0x3235f9f6, 0xd383ab19, 0xb78985f8, + 0x563fd717, 0x34e251fd, 0xd5540312, 0xbdf07ce4, 0x5c462e0b, + 0x3e9ba8e1, 0xdf2dfa0e, 0xbb27d4ef, 0x5a918600, 0x384c00ea, + 0xd9fa5205, 0xa9028edd, 0x48b4dc32, 0x2a695ad8, 0xcbdf0837, + 0xafd526d6, 0x4e637439, 0x2cbef2d3, 0xcd08a03c, 0xa5acdfca, + 0x441a8d25, 0x26c70bcf, 0xc7715920, 0xa37b77c1, 0x42cd252e, + 0x2010a3c4, 0xc1a6f12b, 0xe196e614, 0x0020b4fb, 0x62fd3211, + 0x834b60fe, 0xe7414e1f, 0x06f71cf0, 0x642a9a1a, 0x859cc8f5, + 0xed38b703, 0x0c8ee5ec, 0x6e536306, 0x8fe531e9, 0xebef1f08, + 0x0a594de7, 0x6884cb0d, 0x893299e2, 0xf9ca453a, 0x187c17d5, + 0x7aa1913f, 0x9b17c3d0, 0xff1ded31, 0x1eabbfde, 0x7c763934, + 0x9dc06bdb, 0xf564142d, 0x14d246c2, 0x760fc028, 0x97b992c7, + 0xf3b3bc26, 0x1205eec9, 0x70d86823, 0x916e3acc, 0xd12ea049, + 0x3098f2a6, 0x5245744c, 0xb3f326a3, 0xd7f90842, 0x364f5aad, + 0x5492dc47, 0xb5248ea8, 0xdd80f15e, 0x3c36a3b1, 0x5eeb255b, + 0xbf5d77b4, 0xdb575955, 0x3ae10bba, 0x583c8d50, 0xb98adfbf, + 0xc9720367, 0x28c45188, 0x4a19d762, 0xabaf858d, 0xcfa5ab6c, + 0x2e13f983, 0x4cce7f69, 0xad782d86, 0xc5dc5270, 0x246a009f, + 0x46b78675, 0xa701d49a, 0xc30bfa7b, 0x22bda894, 0x40602e7e, + 0xa1d67c91}, + {0x00000000, 0x5880e2d7, 0xf106b474, 0xa98656a3, 0xe20d68e9, + 0xba8d8a3e, 0x130bdc9d, 0x4b8b3e4a, 0x851da109, 0xdd9d43de, + 0x741b157d, 0x2c9bf7aa, 0x6710c9e0, 0x3f902b37, 0x96167d94, + 0xce969f43, 0x0a3b4213, 0x52bba0c4, 0xfb3df667, 0xa3bd14b0, + 0xe8362afa, 0xb0b6c82d, 0x19309e8e, 0x41b07c59, 0x8f26e31a, + 0xd7a601cd, 0x7e20576e, 0x26a0b5b9, 0x6d2b8bf3, 0x35ab6924, + 0x9c2d3f87, 0xc4addd50, 0x14768426, 0x4cf666f1, 0xe5703052, + 0xbdf0d285, 0xf67beccf, 0xaefb0e18, 0x077d58bb, 0x5ffdba6c, + 0x916b252f, 0xc9ebc7f8, 0x606d915b, 0x38ed738c, 0x73664dc6, + 0x2be6af11, 0x8260f9b2, 0xdae01b65, 0x1e4dc635, 0x46cd24e2, + 0xef4b7241, 0xb7cb9096, 0xfc40aedc, 0xa4c04c0b, 0x0d461aa8, + 0x55c6f87f, 0x9b50673c, 0xc3d085eb, 0x6a56d348, 0x32d6319f, + 0x795d0fd5, 0x21dded02, 0x885bbba1, 0xd0db5976, 0x28ec084d, + 0x706cea9a, 0xd9eabc39, 0x816a5eee, 0xcae160a4, 0x92618273, + 0x3be7d4d0, 0x63673607, 0xadf1a944, 0xf5714b93, 0x5cf71d30, + 0x0477ffe7, 0x4ffcc1ad, 0x177c237a, 0xbefa75d9, 0xe67a970e, + 0x22d74a5e, 0x7a57a889, 0xd3d1fe2a, 0x8b511cfd, 0xc0da22b7, + 0x985ac060, 0x31dc96c3, 0x695c7414, 0xa7caeb57, 0xff4a0980, + 0x56cc5f23, 0x0e4cbdf4, 0x45c783be, 0x1d476169, 0xb4c137ca, + 0xec41d51d, 0x3c9a8c6b, 0x641a6ebc, 0xcd9c381f, 0x951cdac8, + 0xde97e482, 0x86170655, 0x2f9150f6, 0x7711b221, 0xb9872d62, + 0xe107cfb5, 0x48819916, 0x10017bc1, 0x5b8a458b, 0x030aa75c, + 0xaa8cf1ff, 0xf20c1328, 0x36a1ce78, 0x6e212caf, 0xc7a77a0c, + 0x9f2798db, 0xd4aca691, 0x8c2c4446, 0x25aa12e5, 0x7d2af032, + 0xb3bc6f71, 0xeb3c8da6, 0x42badb05, 0x1a3a39d2, 0x51b10798, + 0x0931e54f, 0xa0b7b3ec, 0xf837513b, 0x50d8119a, 0x0858f34d, + 0xa1dea5ee, 0xf95e4739, 0xb2d57973, 0xea559ba4, 0x43d3cd07, + 0x1b532fd0, 0xd5c5b093, 0x8d455244, 0x24c304e7, 0x7c43e630, + 0x37c8d87a, 0x6f483aad, 0xc6ce6c0e, 0x9e4e8ed9, 0x5ae35389, + 0x0263b15e, 0xabe5e7fd, 0xf365052a, 0xb8ee3b60, 0xe06ed9b7, + 0x49e88f14, 0x11686dc3, 0xdffef280, 0x877e1057, 0x2ef846f4, + 0x7678a423, 0x3df39a69, 0x657378be, 0xccf52e1d, 0x9475ccca, + 0x44ae95bc, 0x1c2e776b, 0xb5a821c8, 0xed28c31f, 0xa6a3fd55, + 0xfe231f82, 0x57a54921, 0x0f25abf6, 0xc1b334b5, 0x9933d662, + 0x30b580c1, 0x68356216, 0x23be5c5c, 0x7b3ebe8b, 0xd2b8e828, + 0x8a380aff, 0x4e95d7af, 0x16153578, 0xbf9363db, 0xe713810c, + 0xac98bf46, 0xf4185d91, 0x5d9e0b32, 0x051ee9e5, 0xcb8876a6, + 0x93089471, 0x3a8ec2d2, 0x620e2005, 0x29851e4f, 0x7105fc98, + 0xd883aa3b, 0x800348ec, 0x783419d7, 0x20b4fb00, 0x8932ada3, + 0xd1b24f74, 0x9a39713e, 0xc2b993e9, 0x6b3fc54a, 0x33bf279d, + 0xfd29b8de, 0xa5a95a09, 0x0c2f0caa, 0x54afee7d, 0x1f24d037, + 0x47a432e0, 0xee226443, 0xb6a28694, 0x720f5bc4, 0x2a8fb913, + 0x8309efb0, 0xdb890d67, 0x9002332d, 0xc882d1fa, 0x61048759, + 0x3984658e, 0xf712facd, 0xaf92181a, 0x06144eb9, 0x5e94ac6e, + 0x151f9224, 0x4d9f70f3, 0xe4192650, 0xbc99c487, 0x6c429df1, + 0x34c27f26, 0x9d442985, 0xc5c4cb52, 0x8e4ff518, 0xd6cf17cf, + 0x7f49416c, 0x27c9a3bb, 0xe95f3cf8, 0xb1dfde2f, 0x1859888c, + 0x40d96a5b, 0x0b525411, 0x53d2b6c6, 0xfa54e065, 0xa2d402b2, + 0x6679dfe2, 0x3ef93d35, 0x977f6b96, 0xcfff8941, 0x8474b70b, + 0xdcf455dc, 0x7572037f, 0x2df2e1a8, 0xe3647eeb, 0xbbe49c3c, + 0x1262ca9f, 0x4ae22848, 0x01691602, 0x59e9f4d5, 0xf06fa276, + 0xa8ef40a1}, + {0x00000000, 0x463b6765, 0x8c76ceca, 0xca4da9af, 0x59ebed4e, + 0x1fd08a2b, 0xd59d2384, 0x93a644e1, 0xb2d6db9d, 0xf4edbcf8, + 0x3ea01557, 0x789b7232, 0xeb3d36d3, 0xad0651b6, 0x674bf819, + 0x21709f7c, 0x25abc6e0, 0x6390a185, 0xa9dd082a, 0xefe66f4f, + 0x7c402bae, 0x3a7b4ccb, 0xf036e564, 0xb60d8201, 0x977d1d7d, + 0xd1467a18, 0x1b0bd3b7, 0x5d30b4d2, 0xce96f033, 0x88ad9756, + 0x42e03ef9, 0x04db599c, 0x0b50fc1a, 0x4d6b9b7f, 0x872632d0, + 0xc11d55b5, 0x52bb1154, 0x14807631, 0xdecddf9e, 0x98f6b8fb, + 0xb9862787, 0xffbd40e2, 0x35f0e94d, 0x73cb8e28, 0xe06dcac9, + 0xa656adac, 0x6c1b0403, 0x2a206366, 0x2efb3afa, 0x68c05d9f, + 0xa28df430, 0xe4b69355, 0x7710d7b4, 0x312bb0d1, 0xfb66197e, + 0xbd5d7e1b, 0x9c2de167, 0xda168602, 0x105b2fad, 0x566048c8, + 0xc5c60c29, 0x83fd6b4c, 0x49b0c2e3, 0x0f8ba586, 0x16a0f835, + 0x509b9f50, 0x9ad636ff, 0xdced519a, 0x4f4b157b, 0x0970721e, + 0xc33ddbb1, 0x8506bcd4, 0xa47623a8, 0xe24d44cd, 0x2800ed62, + 0x6e3b8a07, 0xfd9dcee6, 0xbba6a983, 0x71eb002c, 0x37d06749, + 0x330b3ed5, 0x753059b0, 0xbf7df01f, 0xf946977a, 0x6ae0d39b, + 0x2cdbb4fe, 0xe6961d51, 0xa0ad7a34, 0x81dde548, 0xc7e6822d, + 0x0dab2b82, 0x4b904ce7, 0xd8360806, 0x9e0d6f63, 0x5440c6cc, + 0x127ba1a9, 0x1df0042f, 0x5bcb634a, 0x9186cae5, 0xd7bdad80, + 0x441be961, 0x02208e04, 0xc86d27ab, 0x8e5640ce, 0xaf26dfb2, + 0xe91db8d7, 0x23501178, 0x656b761d, 0xf6cd32fc, 0xb0f65599, + 0x7abbfc36, 0x3c809b53, 0x385bc2cf, 0x7e60a5aa, 0xb42d0c05, + 0xf2166b60, 0x61b02f81, 0x278b48e4, 0xedc6e14b, 0xabfd862e, + 0x8a8d1952, 0xccb67e37, 0x06fbd798, 0x40c0b0fd, 0xd366f41c, + 0x955d9379, 0x5f103ad6, 0x192b5db3, 0x2c40f16b, 0x6a7b960e, + 0xa0363fa1, 0xe60d58c4, 0x75ab1c25, 0x33907b40, 0xf9ddd2ef, + 0xbfe6b58a, 0x9e962af6, 0xd8ad4d93, 0x12e0e43c, 0x54db8359, + 0xc77dc7b8, 0x8146a0dd, 0x4b0b0972, 0x0d306e17, 0x09eb378b, + 0x4fd050ee, 0x859df941, 0xc3a69e24, 0x5000dac5, 0x163bbda0, + 0xdc76140f, 0x9a4d736a, 0xbb3dec16, 0xfd068b73, 0x374b22dc, + 0x717045b9, 0xe2d60158, 0xa4ed663d, 0x6ea0cf92, 0x289ba8f7, + 0x27100d71, 0x612b6a14, 0xab66c3bb, 0xed5da4de, 0x7efbe03f, + 0x38c0875a, 0xf28d2ef5, 0xb4b64990, 0x95c6d6ec, 0xd3fdb189, + 0x19b01826, 0x5f8b7f43, 0xcc2d3ba2, 0x8a165cc7, 0x405bf568, + 0x0660920d, 0x02bbcb91, 0x4480acf4, 0x8ecd055b, 0xc8f6623e, + 0x5b5026df, 0x1d6b41ba, 0xd726e815, 0x911d8f70, 0xb06d100c, + 0xf6567769, 0x3c1bdec6, 0x7a20b9a3, 0xe986fd42, 0xafbd9a27, + 0x65f03388, 0x23cb54ed, 0x3ae0095e, 0x7cdb6e3b, 0xb696c794, + 0xf0ada0f1, 0x630be410, 0x25308375, 0xef7d2ada, 0xa9464dbf, + 0x8836d2c3, 0xce0db5a6, 0x04401c09, 0x427b7b6c, 0xd1dd3f8d, + 0x97e658e8, 0x5dabf147, 0x1b909622, 0x1f4bcfbe, 0x5970a8db, + 0x933d0174, 0xd5066611, 0x46a022f0, 0x009b4595, 0xcad6ec3a, + 0x8ced8b5f, 0xad9d1423, 0xeba67346, 0x21ebdae9, 0x67d0bd8c, + 0xf476f96d, 0xb24d9e08, 0x780037a7, 0x3e3b50c2, 0x31b0f544, + 0x778b9221, 0xbdc63b8e, 0xfbfd5ceb, 0x685b180a, 0x2e607f6f, + 0xe42dd6c0, 0xa216b1a5, 0x83662ed9, 0xc55d49bc, 0x0f10e013, + 0x492b8776, 0xda8dc397, 0x9cb6a4f2, 0x56fb0d5d, 0x10c06a38, + 0x141b33a4, 0x522054c1, 0x986dfd6e, 0xde569a0b, 0x4df0deea, + 0x0bcbb98f, 0xc1861020, 0x87bd7745, 0xa6cde839, 0xe0f68f5c, + 0x2abb26f3, 0x6c804196, 0xff260577, 0xb91d6212, 0x7350cbbd, + 0x356bacd8}}; + +#endif + +#endif + +#if N == 6 + +#if W == 8 + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0x3db1ecdc, 0x7b63d9b8, 0x46d23564, 0xf6c7b370, + 0xcb765fac, 0x8da46ac8, 0xb0158614, 0x36fe60a1, 0x0b4f8c7d, + 0x4d9db919, 0x702c55c5, 0xc039d3d1, 0xfd883f0d, 0xbb5a0a69, + 0x86ebe6b5, 0x6dfcc142, 0x504d2d9e, 0x169f18fa, 0x2b2ef426, + 0x9b3b7232, 0xa68a9eee, 0xe058ab8a, 0xdde94756, 0x5b02a1e3, + 0x66b34d3f, 0x2061785b, 0x1dd09487, 0xadc51293, 0x9074fe4f, + 0xd6a6cb2b, 0xeb1727f7, 0xdbf98284, 0xe6486e58, 0xa09a5b3c, + 0x9d2bb7e0, 0x2d3e31f4, 0x108fdd28, 0x565de84c, 0x6bec0490, + 0xed07e225, 0xd0b60ef9, 0x96643b9d, 0xabd5d741, 0x1bc05155, + 0x2671bd89, 0x60a388ed, 0x5d126431, 0xb60543c6, 0x8bb4af1a, + 0xcd669a7e, 0xf0d776a2, 0x40c2f0b6, 0x7d731c6a, 0x3ba1290e, + 0x0610c5d2, 0x80fb2367, 0xbd4acfbb, 0xfb98fadf, 0xc6291603, + 0x763c9017, 0x4b8d7ccb, 0x0d5f49af, 0x30eea573, 0x6c820349, + 0x5133ef95, 0x17e1daf1, 0x2a50362d, 0x9a45b039, 0xa7f45ce5, + 0xe1266981, 0xdc97855d, 0x5a7c63e8, 0x67cd8f34, 0x211fba50, + 0x1cae568c, 0xacbbd098, 0x910a3c44, 0xd7d80920, 0xea69e5fc, + 0x017ec20b, 0x3ccf2ed7, 0x7a1d1bb3, 0x47acf76f, 0xf7b9717b, + 0xca089da7, 0x8cdaa8c3, 0xb16b441f, 0x3780a2aa, 0x0a314e76, + 0x4ce37b12, 0x715297ce, 0xc14711da, 0xfcf6fd06, 0xba24c862, + 0x879524be, 0xb77b81cd, 0x8aca6d11, 0xcc185875, 0xf1a9b4a9, + 0x41bc32bd, 0x7c0dde61, 0x3adfeb05, 0x076e07d9, 0x8185e16c, + 0xbc340db0, 0xfae638d4, 0xc757d408, 0x7742521c, 0x4af3bec0, + 0x0c218ba4, 0x31906778, 0xda87408f, 0xe736ac53, 0xa1e49937, + 0x9c5575eb, 0x2c40f3ff, 0x11f11f23, 0x57232a47, 0x6a92c69b, + 0xec79202e, 0xd1c8ccf2, 0x971af996, 0xaaab154a, 0x1abe935e, + 0x270f7f82, 0x61dd4ae6, 0x5c6ca63a, 0xd9040692, 0xe4b5ea4e, + 0xa267df2a, 0x9fd633f6, 0x2fc3b5e2, 0x1272593e, 0x54a06c5a, + 0x69118086, 0xeffa6633, 0xd24b8aef, 0x9499bf8b, 0xa9285357, + 0x193dd543, 0x248c399f, 0x625e0cfb, 0x5fefe027, 0xb4f8c7d0, + 0x89492b0c, 0xcf9b1e68, 0xf22af2b4, 0x423f74a0, 0x7f8e987c, + 0x395cad18, 0x04ed41c4, 0x8206a771, 0xbfb74bad, 0xf9657ec9, + 0xc4d49215, 0x74c11401, 0x4970f8dd, 0x0fa2cdb9, 0x32132165, + 0x02fd8416, 0x3f4c68ca, 0x799e5dae, 0x442fb172, 0xf43a3766, + 0xc98bdbba, 0x8f59eede, 0xb2e80202, 0x3403e4b7, 0x09b2086b, + 0x4f603d0f, 0x72d1d1d3, 0xc2c457c7, 0xff75bb1b, 0xb9a78e7f, + 0x841662a3, 0x6f014554, 0x52b0a988, 0x14629cec, 0x29d37030, + 0x99c6f624, 0xa4771af8, 0xe2a52f9c, 0xdf14c340, 0x59ff25f5, + 0x644ec929, 0x229cfc4d, 0x1f2d1091, 0xaf389685, 0x92897a59, + 0xd45b4f3d, 0xe9eaa3e1, 0xb58605db, 0x8837e907, 0xcee5dc63, + 0xf35430bf, 0x4341b6ab, 0x7ef05a77, 0x38226f13, 0x059383cf, + 0x8378657a, 0xbec989a6, 0xf81bbcc2, 0xc5aa501e, 0x75bfd60a, + 0x480e3ad6, 0x0edc0fb2, 0x336de36e, 0xd87ac499, 0xe5cb2845, + 0xa3191d21, 0x9ea8f1fd, 0x2ebd77e9, 0x130c9b35, 0x55deae51, + 0x686f428d, 0xee84a438, 0xd33548e4, 0x95e77d80, 0xa856915c, + 0x18431748, 0x25f2fb94, 0x6320cef0, 0x5e91222c, 0x6e7f875f, + 0x53ce6b83, 0x151c5ee7, 0x28adb23b, 0x98b8342f, 0xa509d8f3, + 0xe3dbed97, 0xde6a014b, 0x5881e7fe, 0x65300b22, 0x23e23e46, + 0x1e53d29a, 0xae46548e, 0x93f7b852, 0xd5258d36, 0xe89461ea, + 0x0383461d, 0x3e32aac1, 0x78e09fa5, 0x45517379, 0xf544f56d, + 0xc8f519b1, 0x8e272cd5, 0xb396c009, 0x357d26bc, 0x08ccca60, + 0x4e1eff04, 0x73af13d8, 0xc3ba95cc, 0xfe0b7910, 0xb8d94c74, + 0x8568a0a8}, + {0x00000000, 0x69790b65, 0xd2f216ca, 0xbb8b1daf, 0x7e952bd5, + 0x17ec20b0, 0xac673d1f, 0xc51e367a, 0xfd2a57aa, 0x94535ccf, + 0x2fd84160, 0x46a14a05, 0x83bf7c7f, 0xeac6771a, 0x514d6ab5, + 0x383461d0, 0x2125a915, 0x485ca270, 0xf3d7bfdf, 0x9aaeb4ba, + 0x5fb082c0, 0x36c989a5, 0x8d42940a, 0xe43b9f6f, 0xdc0ffebf, + 0xb576f5da, 0x0efde875, 0x6784e310, 0xa29ad56a, 0xcbe3de0f, + 0x7068c3a0, 0x1911c8c5, 0x424b522a, 0x2b32594f, 0x90b944e0, + 0xf9c04f85, 0x3cde79ff, 0x55a7729a, 0xee2c6f35, 0x87556450, + 0xbf610580, 0xd6180ee5, 0x6d93134a, 0x04ea182f, 0xc1f42e55, + 0xa88d2530, 0x1306389f, 0x7a7f33fa, 0x636efb3f, 0x0a17f05a, + 0xb19cedf5, 0xd8e5e690, 0x1dfbd0ea, 0x7482db8f, 0xcf09c620, + 0xa670cd45, 0x9e44ac95, 0xf73da7f0, 0x4cb6ba5f, 0x25cfb13a, + 0xe0d18740, 0x89a88c25, 0x3223918a, 0x5b5a9aef, 0x8496a454, + 0xedefaf31, 0x5664b29e, 0x3f1db9fb, 0xfa038f81, 0x937a84e4, + 0x28f1994b, 0x4188922e, 0x79bcf3fe, 0x10c5f89b, 0xab4ee534, + 0xc237ee51, 0x0729d82b, 0x6e50d34e, 0xd5dbcee1, 0xbca2c584, + 0xa5b30d41, 0xccca0624, 0x77411b8b, 0x1e3810ee, 0xdb262694, + 0xb25f2df1, 0x09d4305e, 0x60ad3b3b, 0x58995aeb, 0x31e0518e, + 0x8a6b4c21, 0xe3124744, 0x260c713e, 0x4f757a5b, 0xf4fe67f4, + 0x9d876c91, 0xc6ddf67e, 0xafa4fd1b, 0x142fe0b4, 0x7d56ebd1, + 0xb848ddab, 0xd131d6ce, 0x6abacb61, 0x03c3c004, 0x3bf7a1d4, + 0x528eaab1, 0xe905b71e, 0x807cbc7b, 0x45628a01, 0x2c1b8164, + 0x97909ccb, 0xfee997ae, 0xe7f85f6b, 0x8e81540e, 0x350a49a1, + 0x5c7342c4, 0x996d74be, 0xf0147fdb, 0x4b9f6274, 0x22e66911, + 0x1ad208c1, 0x73ab03a4, 0xc8201e0b, 0xa159156e, 0x64472314, + 0x0d3e2871, 0xb6b535de, 0xdfcc3ebb, 0xd25c4ee9, 0xbb25458c, + 0x00ae5823, 0x69d75346, 0xacc9653c, 0xc5b06e59, 0x7e3b73f6, + 0x17427893, 0x2f761943, 0x460f1226, 0xfd840f89, 0x94fd04ec, + 0x51e33296, 0x389a39f3, 0x8311245c, 0xea682f39, 0xf379e7fc, + 0x9a00ec99, 0x218bf136, 0x48f2fa53, 0x8deccc29, 0xe495c74c, + 0x5f1edae3, 0x3667d186, 0x0e53b056, 0x672abb33, 0xdca1a69c, + 0xb5d8adf9, 0x70c69b83, 0x19bf90e6, 0xa2348d49, 0xcb4d862c, + 0x90171cc3, 0xf96e17a6, 0x42e50a09, 0x2b9c016c, 0xee823716, + 0x87fb3c73, 0x3c7021dc, 0x55092ab9, 0x6d3d4b69, 0x0444400c, + 0xbfcf5da3, 0xd6b656c6, 0x13a860bc, 0x7ad16bd9, 0xc15a7676, + 0xa8237d13, 0xb132b5d6, 0xd84bbeb3, 0x63c0a31c, 0x0ab9a879, + 0xcfa79e03, 0xa6de9566, 0x1d5588c9, 0x742c83ac, 0x4c18e27c, + 0x2561e919, 0x9eeaf4b6, 0xf793ffd3, 0x328dc9a9, 0x5bf4c2cc, + 0xe07fdf63, 0x8906d406, 0x56caeabd, 0x3fb3e1d8, 0x8438fc77, + 0xed41f712, 0x285fc168, 0x4126ca0d, 0xfaadd7a2, 0x93d4dcc7, + 0xabe0bd17, 0xc299b672, 0x7912abdd, 0x106ba0b8, 0xd57596c2, + 0xbc0c9da7, 0x07878008, 0x6efe8b6d, 0x77ef43a8, 0x1e9648cd, + 0xa51d5562, 0xcc645e07, 0x097a687d, 0x60036318, 0xdb887eb7, + 0xb2f175d2, 0x8ac51402, 0xe3bc1f67, 0x583702c8, 0x314e09ad, + 0xf4503fd7, 0x9d2934b2, 0x26a2291d, 0x4fdb2278, 0x1481b897, + 0x7df8b3f2, 0xc673ae5d, 0xaf0aa538, 0x6a149342, 0x036d9827, + 0xb8e68588, 0xd19f8eed, 0xe9abef3d, 0x80d2e458, 0x3b59f9f7, + 0x5220f292, 0x973ec4e8, 0xfe47cf8d, 0x45ccd222, 0x2cb5d947, + 0x35a41182, 0x5cdd1ae7, 0xe7560748, 0x8e2f0c2d, 0x4b313a57, + 0x22483132, 0x99c32c9d, 0xf0ba27f8, 0xc88e4628, 0xa1f74d4d, + 0x1a7c50e2, 0x73055b87, 0xb61b6dfd, 0xdf626698, 0x64e97b37, + 0x0d907052}, + {0x00000000, 0x7fc99b93, 0xff933726, 0x805aacb5, 0x2457680d, + 0x5b9ef39e, 0xdbc45f2b, 0xa40dc4b8, 0x48aed01a, 0x37674b89, + 0xb73de73c, 0xc8f47caf, 0x6cf9b817, 0x13302384, 0x936a8f31, + 0xeca314a2, 0x915da034, 0xee943ba7, 0x6ece9712, 0x11070c81, + 0xb50ac839, 0xcac353aa, 0x4a99ff1f, 0x3550648c, 0xd9f3702e, + 0xa63aebbd, 0x26604708, 0x59a9dc9b, 0xfda41823, 0x826d83b0, + 0x02372f05, 0x7dfeb496, 0xf9ca4629, 0x8603ddba, 0x0659710f, + 0x7990ea9c, 0xdd9d2e24, 0xa254b5b7, 0x220e1902, 0x5dc78291, + 0xb1649633, 0xcead0da0, 0x4ef7a115, 0x313e3a86, 0x9533fe3e, + 0xeafa65ad, 0x6aa0c918, 0x1569528b, 0x6897e61d, 0x175e7d8e, + 0x9704d13b, 0xe8cd4aa8, 0x4cc08e10, 0x33091583, 0xb353b936, + 0xcc9a22a5, 0x20393607, 0x5ff0ad94, 0xdfaa0121, 0xa0639ab2, + 0x046e5e0a, 0x7ba7c599, 0xfbfd692c, 0x8434f2bf, 0x28e58a13, + 0x572c1180, 0xd776bd35, 0xa8bf26a6, 0x0cb2e21e, 0x737b798d, + 0xf321d538, 0x8ce84eab, 0x604b5a09, 0x1f82c19a, 0x9fd86d2f, + 0xe011f6bc, 0x441c3204, 0x3bd5a997, 0xbb8f0522, 0xc4469eb1, + 0xb9b82a27, 0xc671b1b4, 0x462b1d01, 0x39e28692, 0x9def422a, + 0xe226d9b9, 0x627c750c, 0x1db5ee9f, 0xf116fa3d, 0x8edf61ae, + 0x0e85cd1b, 0x714c5688, 0xd5419230, 0xaa8809a3, 0x2ad2a516, + 0x551b3e85, 0xd12fcc3a, 0xaee657a9, 0x2ebcfb1c, 0x5175608f, + 0xf578a437, 0x8ab13fa4, 0x0aeb9311, 0x75220882, 0x99811c20, + 0xe64887b3, 0x66122b06, 0x19dbb095, 0xbdd6742d, 0xc21fefbe, + 0x4245430b, 0x3d8cd898, 0x40726c0e, 0x3fbbf79d, 0xbfe15b28, + 0xc028c0bb, 0x64250403, 0x1bec9f90, 0x9bb63325, 0xe47fa8b6, + 0x08dcbc14, 0x77152787, 0xf74f8b32, 0x888610a1, 0x2c8bd419, + 0x53424f8a, 0xd318e33f, 0xacd178ac, 0x51cb1426, 0x2e028fb5, + 0xae582300, 0xd191b893, 0x759c7c2b, 0x0a55e7b8, 0x8a0f4b0d, + 0xf5c6d09e, 0x1965c43c, 0x66ac5faf, 0xe6f6f31a, 0x993f6889, + 0x3d32ac31, 0x42fb37a2, 0xc2a19b17, 0xbd680084, 0xc096b412, + 0xbf5f2f81, 0x3f058334, 0x40cc18a7, 0xe4c1dc1f, 0x9b08478c, + 0x1b52eb39, 0x649b70aa, 0x88386408, 0xf7f1ff9b, 0x77ab532e, + 0x0862c8bd, 0xac6f0c05, 0xd3a69796, 0x53fc3b23, 0x2c35a0b0, + 0xa801520f, 0xd7c8c99c, 0x57926529, 0x285bfeba, 0x8c563a02, + 0xf39fa191, 0x73c50d24, 0x0c0c96b7, 0xe0af8215, 0x9f661986, + 0x1f3cb533, 0x60f52ea0, 0xc4f8ea18, 0xbb31718b, 0x3b6bdd3e, + 0x44a246ad, 0x395cf23b, 0x469569a8, 0xc6cfc51d, 0xb9065e8e, + 0x1d0b9a36, 0x62c201a5, 0xe298ad10, 0x9d513683, 0x71f22221, + 0x0e3bb9b2, 0x8e611507, 0xf1a88e94, 0x55a54a2c, 0x2a6cd1bf, + 0xaa367d0a, 0xd5ffe699, 0x792e9e35, 0x06e705a6, 0x86bda913, + 0xf9743280, 0x5d79f638, 0x22b06dab, 0xa2eac11e, 0xdd235a8d, + 0x31804e2f, 0x4e49d5bc, 0xce137909, 0xb1dae29a, 0x15d72622, + 0x6a1ebdb1, 0xea441104, 0x958d8a97, 0xe8733e01, 0x97baa592, + 0x17e00927, 0x682992b4, 0xcc24560c, 0xb3edcd9f, 0x33b7612a, + 0x4c7efab9, 0xa0ddee1b, 0xdf147588, 0x5f4ed93d, 0x208742ae, + 0x848a8616, 0xfb431d85, 0x7b19b130, 0x04d02aa3, 0x80e4d81c, + 0xff2d438f, 0x7f77ef3a, 0x00be74a9, 0xa4b3b011, 0xdb7a2b82, + 0x5b208737, 0x24e91ca4, 0xc84a0806, 0xb7839395, 0x37d93f20, + 0x4810a4b3, 0xec1d600b, 0x93d4fb98, 0x138e572d, 0x6c47ccbe, + 0x11b97828, 0x6e70e3bb, 0xee2a4f0e, 0x91e3d49d, 0x35ee1025, + 0x4a278bb6, 0xca7d2703, 0xb5b4bc90, 0x5917a832, 0x26de33a1, + 0xa6849f14, 0xd94d0487, 0x7d40c03f, 0x02895bac, 0x82d3f719, + 0xfd1a6c8a}, + {0x00000000, 0xa396284c, 0x9c5d56d9, 0x3fcb7e95, 0xe3cbabf3, + 0x405d83bf, 0x7f96fd2a, 0xdc00d566, 0x1ce651a7, 0xbf7079eb, + 0x80bb077e, 0x232d2f32, 0xff2dfa54, 0x5cbbd218, 0x6370ac8d, + 0xc0e684c1, 0x39cca34e, 0x9a5a8b02, 0xa591f597, 0x0607dddb, + 0xda0708bd, 0x799120f1, 0x465a5e64, 0xe5cc7628, 0x252af2e9, + 0x86bcdaa5, 0xb977a430, 0x1ae18c7c, 0xc6e1591a, 0x65777156, + 0x5abc0fc3, 0xf92a278f, 0x7399469c, 0xd00f6ed0, 0xefc41045, + 0x4c523809, 0x9052ed6f, 0x33c4c523, 0x0c0fbbb6, 0xaf9993fa, + 0x6f7f173b, 0xcce93f77, 0xf32241e2, 0x50b469ae, 0x8cb4bcc8, + 0x2f229484, 0x10e9ea11, 0xb37fc25d, 0x4a55e5d2, 0xe9c3cd9e, + 0xd608b30b, 0x759e9b47, 0xa99e4e21, 0x0a08666d, 0x35c318f8, + 0x965530b4, 0x56b3b475, 0xf5259c39, 0xcaeee2ac, 0x6978cae0, + 0xb5781f86, 0x16ee37ca, 0x2925495f, 0x8ab36113, 0xe7328d38, + 0x44a4a574, 0x7b6fdbe1, 0xd8f9f3ad, 0x04f926cb, 0xa76f0e87, + 0x98a47012, 0x3b32585e, 0xfbd4dc9f, 0x5842f4d3, 0x67898a46, + 0xc41fa20a, 0x181f776c, 0xbb895f20, 0x844221b5, 0x27d409f9, + 0xdefe2e76, 0x7d68063a, 0x42a378af, 0xe13550e3, 0x3d358585, + 0x9ea3adc9, 0xa168d35c, 0x02fefb10, 0xc2187fd1, 0x618e579d, + 0x5e452908, 0xfdd30144, 0x21d3d422, 0x8245fc6e, 0xbd8e82fb, + 0x1e18aab7, 0x94abcba4, 0x373de3e8, 0x08f69d7d, 0xab60b531, + 0x77606057, 0xd4f6481b, 0xeb3d368e, 0x48ab1ec2, 0x884d9a03, + 0x2bdbb24f, 0x1410ccda, 0xb786e496, 0x6b8631f0, 0xc81019bc, + 0xf7db6729, 0x544d4f65, 0xad6768ea, 0x0ef140a6, 0x313a3e33, + 0x92ac167f, 0x4eacc319, 0xed3aeb55, 0xd2f195c0, 0x7167bd8c, + 0xb181394d, 0x12171101, 0x2ddc6f94, 0x8e4a47d8, 0x524a92be, + 0xf1dcbaf2, 0xce17c467, 0x6d81ec2b, 0x15141c31, 0xb682347d, + 0x89494ae8, 0x2adf62a4, 0xf6dfb7c2, 0x55499f8e, 0x6a82e11b, + 0xc914c957, 0x09f24d96, 0xaa6465da, 0x95af1b4f, 0x36393303, + 0xea39e665, 0x49afce29, 0x7664b0bc, 0xd5f298f0, 0x2cd8bf7f, + 0x8f4e9733, 0xb085e9a6, 0x1313c1ea, 0xcf13148c, 0x6c853cc0, + 0x534e4255, 0xf0d86a19, 0x303eeed8, 0x93a8c694, 0xac63b801, + 0x0ff5904d, 0xd3f5452b, 0x70636d67, 0x4fa813f2, 0xec3e3bbe, + 0x668d5aad, 0xc51b72e1, 0xfad00c74, 0x59462438, 0x8546f15e, + 0x26d0d912, 0x191ba787, 0xba8d8fcb, 0x7a6b0b0a, 0xd9fd2346, + 0xe6365dd3, 0x45a0759f, 0x99a0a0f9, 0x3a3688b5, 0x05fdf620, + 0xa66bde6c, 0x5f41f9e3, 0xfcd7d1af, 0xc31caf3a, 0x608a8776, + 0xbc8a5210, 0x1f1c7a5c, 0x20d704c9, 0x83412c85, 0x43a7a844, + 0xe0318008, 0xdffafe9d, 0x7c6cd6d1, 0xa06c03b7, 0x03fa2bfb, + 0x3c31556e, 0x9fa77d22, 0xf2269109, 0x51b0b945, 0x6e7bc7d0, + 0xcdedef9c, 0x11ed3afa, 0xb27b12b6, 0x8db06c23, 0x2e26446f, + 0xeec0c0ae, 0x4d56e8e2, 0x729d9677, 0xd10bbe3b, 0x0d0b6b5d, + 0xae9d4311, 0x91563d84, 0x32c015c8, 0xcbea3247, 0x687c1a0b, + 0x57b7649e, 0xf4214cd2, 0x282199b4, 0x8bb7b1f8, 0xb47ccf6d, + 0x17eae721, 0xd70c63e0, 0x749a4bac, 0x4b513539, 0xe8c71d75, + 0x34c7c813, 0x9751e05f, 0xa89a9eca, 0x0b0cb686, 0x81bfd795, + 0x2229ffd9, 0x1de2814c, 0xbe74a900, 0x62747c66, 0xc1e2542a, + 0xfe292abf, 0x5dbf02f3, 0x9d598632, 0x3ecfae7e, 0x0104d0eb, + 0xa292f8a7, 0x7e922dc1, 0xdd04058d, 0xe2cf7b18, 0x41595354, + 0xb87374db, 0x1be55c97, 0x242e2202, 0x87b80a4e, 0x5bb8df28, + 0xf82ef764, 0xc7e589f1, 0x6473a1bd, 0xa495257c, 0x07030d30, + 0x38c873a5, 0x9b5e5be9, 0x475e8e8f, 0xe4c8a6c3, 0xdb03d856, + 0x7895f01a}, + {0x00000000, 0x2a283862, 0x545070c4, 0x7e7848a6, 0xa8a0e188, + 0x8288d9ea, 0xfcf0914c, 0xd6d8a92e, 0x8a30c551, 0xa018fd33, + 0xde60b595, 0xf4488df7, 0x229024d9, 0x08b81cbb, 0x76c0541d, + 0x5ce86c7f, 0xcf108ce3, 0xe538b481, 0x9b40fc27, 0xb168c445, + 0x67b06d6b, 0x4d985509, 0x33e01daf, 0x19c825cd, 0x452049b2, + 0x6f0871d0, 0x11703976, 0x3b580114, 0xed80a83a, 0xc7a89058, + 0xb9d0d8fe, 0x93f8e09c, 0x45501f87, 0x6f7827e5, 0x11006f43, + 0x3b285721, 0xedf0fe0f, 0xc7d8c66d, 0xb9a08ecb, 0x9388b6a9, + 0xcf60dad6, 0xe548e2b4, 0x9b30aa12, 0xb1189270, 0x67c03b5e, + 0x4de8033c, 0x33904b9a, 0x19b873f8, 0x8a409364, 0xa068ab06, + 0xde10e3a0, 0xf438dbc2, 0x22e072ec, 0x08c84a8e, 0x76b00228, + 0x5c983a4a, 0x00705635, 0x2a586e57, 0x542026f1, 0x7e081e93, + 0xa8d0b7bd, 0x82f88fdf, 0xfc80c779, 0xd6a8ff1b, 0x8aa03f0e, + 0xa088076c, 0xdef04fca, 0xf4d877a8, 0x2200de86, 0x0828e6e4, + 0x7650ae42, 0x5c789620, 0x0090fa5f, 0x2ab8c23d, 0x54c08a9b, + 0x7ee8b2f9, 0xa8301bd7, 0x821823b5, 0xfc606b13, 0xd6485371, + 0x45b0b3ed, 0x6f988b8f, 0x11e0c329, 0x3bc8fb4b, 0xed105265, + 0xc7386a07, 0xb94022a1, 0x93681ac3, 0xcf8076bc, 0xe5a84ede, + 0x9bd00678, 0xb1f83e1a, 0x67209734, 0x4d08af56, 0x3370e7f0, + 0x1958df92, 0xcff02089, 0xe5d818eb, 0x9ba0504d, 0xb188682f, + 0x6750c101, 0x4d78f963, 0x3300b1c5, 0x192889a7, 0x45c0e5d8, + 0x6fe8ddba, 0x1190951c, 0x3bb8ad7e, 0xed600450, 0xc7483c32, + 0xb9307494, 0x93184cf6, 0x00e0ac6a, 0x2ac89408, 0x54b0dcae, + 0x7e98e4cc, 0xa8404de2, 0x82687580, 0xfc103d26, 0xd6380544, + 0x8ad0693b, 0xa0f85159, 0xde8019ff, 0xf4a8219d, 0x227088b3, + 0x0858b0d1, 0x7620f877, 0x5c08c015, 0xce31785d, 0xe419403f, + 0x9a610899, 0xb04930fb, 0x669199d5, 0x4cb9a1b7, 0x32c1e911, + 0x18e9d173, 0x4401bd0c, 0x6e29856e, 0x1051cdc8, 0x3a79f5aa, + 0xeca15c84, 0xc68964e6, 0xb8f12c40, 0x92d91422, 0x0121f4be, + 0x2b09ccdc, 0x5571847a, 0x7f59bc18, 0xa9811536, 0x83a92d54, + 0xfdd165f2, 0xd7f95d90, 0x8b1131ef, 0xa139098d, 0xdf41412b, + 0xf5697949, 0x23b1d067, 0x0999e805, 0x77e1a0a3, 0x5dc998c1, + 0x8b6167da, 0xa1495fb8, 0xdf31171e, 0xf5192f7c, 0x23c18652, + 0x09e9be30, 0x7791f696, 0x5db9cef4, 0x0151a28b, 0x2b799ae9, + 0x5501d24f, 0x7f29ea2d, 0xa9f14303, 0x83d97b61, 0xfda133c7, + 0xd7890ba5, 0x4471eb39, 0x6e59d35b, 0x10219bfd, 0x3a09a39f, + 0xecd10ab1, 0xc6f932d3, 0xb8817a75, 0x92a94217, 0xce412e68, + 0xe469160a, 0x9a115eac, 0xb03966ce, 0x66e1cfe0, 0x4cc9f782, + 0x32b1bf24, 0x18998746, 0x44914753, 0x6eb97f31, 0x10c13797, + 0x3ae90ff5, 0xec31a6db, 0xc6199eb9, 0xb861d61f, 0x9249ee7d, + 0xcea18202, 0xe489ba60, 0x9af1f2c6, 0xb0d9caa4, 0x6601638a, + 0x4c295be8, 0x3251134e, 0x18792b2c, 0x8b81cbb0, 0xa1a9f3d2, + 0xdfd1bb74, 0xf5f98316, 0x23212a38, 0x0909125a, 0x77715afc, + 0x5d59629e, 0x01b10ee1, 0x2b993683, 0x55e17e25, 0x7fc94647, + 0xa911ef69, 0x8339d70b, 0xfd419fad, 0xd769a7cf, 0x01c158d4, + 0x2be960b6, 0x55912810, 0x7fb91072, 0xa961b95c, 0x8349813e, + 0xfd31c998, 0xd719f1fa, 0x8bf19d85, 0xa1d9a5e7, 0xdfa1ed41, + 0xf589d523, 0x23517c0d, 0x0979446f, 0x77010cc9, 0x5d2934ab, + 0xced1d437, 0xe4f9ec55, 0x9a81a4f3, 0xb0a99c91, 0x667135bf, + 0x4c590ddd, 0x3221457b, 0x18097d19, 0x44e11166, 0x6ec92904, + 0x10b161a2, 0x3a9959c0, 0xec41f0ee, 0xc669c88c, 0xb811802a, + 0x9239b848}, + {0x00000000, 0x4713f6fb, 0x8e27edf6, 0xc9341b0d, 0xc73eddad, + 0x802d2b56, 0x4919305b, 0x0e0ac6a0, 0x550cbd1b, 0x121f4be0, + 0xdb2b50ed, 0x9c38a616, 0x923260b6, 0xd521964d, 0x1c158d40, + 0x5b067bbb, 0xaa197a36, 0xed0a8ccd, 0x243e97c0, 0x632d613b, + 0x6d27a79b, 0x2a345160, 0xe3004a6d, 0xa413bc96, 0xff15c72d, + 0xb80631d6, 0x71322adb, 0x3621dc20, 0x382b1a80, 0x7f38ec7b, + 0xb60cf776, 0xf11f018d, 0x8f43f22d, 0xc85004d6, 0x01641fdb, + 0x4677e920, 0x487d2f80, 0x0f6ed97b, 0xc65ac276, 0x8149348d, + 0xda4f4f36, 0x9d5cb9cd, 0x5468a2c0, 0x137b543b, 0x1d71929b, + 0x5a626460, 0x93567f6d, 0xd4458996, 0x255a881b, 0x62497ee0, + 0xab7d65ed, 0xec6e9316, 0xe26455b6, 0xa577a34d, 0x6c43b840, + 0x2b504ebb, 0x70563500, 0x3745c3fb, 0xfe71d8f6, 0xb9622e0d, + 0xb768e8ad, 0xf07b1e56, 0x394f055b, 0x7e5cf3a0, 0xc5f6e21b, + 0x82e514e0, 0x4bd10fed, 0x0cc2f916, 0x02c83fb6, 0x45dbc94d, + 0x8cefd240, 0xcbfc24bb, 0x90fa5f00, 0xd7e9a9fb, 0x1eddb2f6, + 0x59ce440d, 0x57c482ad, 0x10d77456, 0xd9e36f5b, 0x9ef099a0, + 0x6fef982d, 0x28fc6ed6, 0xe1c875db, 0xa6db8320, 0xa8d14580, + 0xefc2b37b, 0x26f6a876, 0x61e55e8d, 0x3ae32536, 0x7df0d3cd, + 0xb4c4c8c0, 0xf3d73e3b, 0xfdddf89b, 0xbace0e60, 0x73fa156d, + 0x34e9e396, 0x4ab51036, 0x0da6e6cd, 0xc492fdc0, 0x83810b3b, + 0x8d8bcd9b, 0xca983b60, 0x03ac206d, 0x44bfd696, 0x1fb9ad2d, + 0x58aa5bd6, 0x919e40db, 0xd68db620, 0xd8877080, 0x9f94867b, + 0x56a09d76, 0x11b36b8d, 0xe0ac6a00, 0xa7bf9cfb, 0x6e8b87f6, + 0x2998710d, 0x2792b7ad, 0x60814156, 0xa9b55a5b, 0xeea6aca0, + 0xb5a0d71b, 0xf2b321e0, 0x3b873aed, 0x7c94cc16, 0x729e0ab6, + 0x358dfc4d, 0xfcb9e740, 0xbbaa11bb, 0x509cc277, 0x178f348c, + 0xdebb2f81, 0x99a8d97a, 0x97a21fda, 0xd0b1e921, 0x1985f22c, + 0x5e9604d7, 0x05907f6c, 0x42838997, 0x8bb7929a, 0xcca46461, + 0xc2aea2c1, 0x85bd543a, 0x4c894f37, 0x0b9ab9cc, 0xfa85b841, + 0xbd964eba, 0x74a255b7, 0x33b1a34c, 0x3dbb65ec, 0x7aa89317, + 0xb39c881a, 0xf48f7ee1, 0xaf89055a, 0xe89af3a1, 0x21aee8ac, + 0x66bd1e57, 0x68b7d8f7, 0x2fa42e0c, 0xe6903501, 0xa183c3fa, + 0xdfdf305a, 0x98ccc6a1, 0x51f8ddac, 0x16eb2b57, 0x18e1edf7, + 0x5ff21b0c, 0x96c60001, 0xd1d5f6fa, 0x8ad38d41, 0xcdc07bba, + 0x04f460b7, 0x43e7964c, 0x4ded50ec, 0x0afea617, 0xc3cabd1a, + 0x84d94be1, 0x75c64a6c, 0x32d5bc97, 0xfbe1a79a, 0xbcf25161, + 0xb2f897c1, 0xf5eb613a, 0x3cdf7a37, 0x7bcc8ccc, 0x20caf777, + 0x67d9018c, 0xaeed1a81, 0xe9feec7a, 0xe7f42ada, 0xa0e7dc21, + 0x69d3c72c, 0x2ec031d7, 0x956a206c, 0xd279d697, 0x1b4dcd9a, + 0x5c5e3b61, 0x5254fdc1, 0x15470b3a, 0xdc731037, 0x9b60e6cc, + 0xc0669d77, 0x87756b8c, 0x4e417081, 0x0952867a, 0x075840da, + 0x404bb621, 0x897fad2c, 0xce6c5bd7, 0x3f735a5a, 0x7860aca1, + 0xb154b7ac, 0xf6474157, 0xf84d87f7, 0xbf5e710c, 0x766a6a01, + 0x31799cfa, 0x6a7fe741, 0x2d6c11ba, 0xe4580ab7, 0xa34bfc4c, + 0xad413aec, 0xea52cc17, 0x2366d71a, 0x647521e1, 0x1a29d241, + 0x5d3a24ba, 0x940e3fb7, 0xd31dc94c, 0xdd170fec, 0x9a04f917, + 0x5330e21a, 0x142314e1, 0x4f256f5a, 0x083699a1, 0xc10282ac, + 0x86117457, 0x881bb2f7, 0xcf08440c, 0x063c5f01, 0x412fa9fa, + 0xb030a877, 0xf7235e8c, 0x3e174581, 0x7904b37a, 0x770e75da, + 0x301d8321, 0xf929982c, 0xbe3a6ed7, 0xe53c156c, 0xa22fe397, + 0x6b1bf89a, 0x2c080e61, 0x2202c8c1, 0x65113e3a, 0xac252537, + 0xeb36d3cc}, + {0x00000000, 0xa13984ee, 0x99020f9d, 0x383b8b73, 0xe975197b, + 0x484c9d95, 0x707716e6, 0xd14e9208, 0x099b34b7, 0xa8a2b059, + 0x90993b2a, 0x31a0bfc4, 0xe0ee2dcc, 0x41d7a922, 0x79ec2251, + 0xd8d5a6bf, 0x1336696e, 0xb20fed80, 0x8a3466f3, 0x2b0de21d, + 0xfa437015, 0x5b7af4fb, 0x63417f88, 0xc278fb66, 0x1aad5dd9, + 0xbb94d937, 0x83af5244, 0x2296d6aa, 0xf3d844a2, 0x52e1c04c, + 0x6ada4b3f, 0xcbe3cfd1, 0x266cd2dc, 0x87555632, 0xbf6edd41, + 0x1e5759af, 0xcf19cba7, 0x6e204f49, 0x561bc43a, 0xf72240d4, + 0x2ff7e66b, 0x8ece6285, 0xb6f5e9f6, 0x17cc6d18, 0xc682ff10, + 0x67bb7bfe, 0x5f80f08d, 0xfeb97463, 0x355abbb2, 0x94633f5c, + 0xac58b42f, 0x0d6130c1, 0xdc2fa2c9, 0x7d162627, 0x452dad54, + 0xe41429ba, 0x3cc18f05, 0x9df80beb, 0xa5c38098, 0x04fa0476, + 0xd5b4967e, 0x748d1290, 0x4cb699e3, 0xed8f1d0d, 0x4cd9a5b8, + 0xede02156, 0xd5dbaa25, 0x74e22ecb, 0xa5acbcc3, 0x0495382d, + 0x3caeb35e, 0x9d9737b0, 0x4542910f, 0xe47b15e1, 0xdc409e92, + 0x7d791a7c, 0xac378874, 0x0d0e0c9a, 0x353587e9, 0x940c0307, + 0x5fefccd6, 0xfed64838, 0xc6edc34b, 0x67d447a5, 0xb69ad5ad, + 0x17a35143, 0x2f98da30, 0x8ea15ede, 0x5674f861, 0xf74d7c8f, + 0xcf76f7fc, 0x6e4f7312, 0xbf01e11a, 0x1e3865f4, 0x2603ee87, + 0x873a6a69, 0x6ab57764, 0xcb8cf38a, 0xf3b778f9, 0x528efc17, + 0x83c06e1f, 0x22f9eaf1, 0x1ac26182, 0xbbfbe56c, 0x632e43d3, + 0xc217c73d, 0xfa2c4c4e, 0x5b15c8a0, 0x8a5b5aa8, 0x2b62de46, + 0x13595535, 0xb260d1db, 0x79831e0a, 0xd8ba9ae4, 0xe0811197, + 0x41b89579, 0x90f60771, 0x31cf839f, 0x09f408ec, 0xa8cd8c02, + 0x70182abd, 0xd121ae53, 0xe91a2520, 0x4823a1ce, 0x996d33c6, + 0x3854b728, 0x006f3c5b, 0xa156b8b5, 0x99b34b70, 0x388acf9e, + 0x00b144ed, 0xa188c003, 0x70c6520b, 0xd1ffd6e5, 0xe9c45d96, + 0x48fdd978, 0x90287fc7, 0x3111fb29, 0x092a705a, 0xa813f4b4, + 0x795d66bc, 0xd864e252, 0xe05f6921, 0x4166edcf, 0x8a85221e, + 0x2bbca6f0, 0x13872d83, 0xb2bea96d, 0x63f03b65, 0xc2c9bf8b, + 0xfaf234f8, 0x5bcbb016, 0x831e16a9, 0x22279247, 0x1a1c1934, + 0xbb259dda, 0x6a6b0fd2, 0xcb528b3c, 0xf369004f, 0x525084a1, + 0xbfdf99ac, 0x1ee61d42, 0x26dd9631, 0x87e412df, 0x56aa80d7, + 0xf7930439, 0xcfa88f4a, 0x6e910ba4, 0xb644ad1b, 0x177d29f5, + 0x2f46a286, 0x8e7f2668, 0x5f31b460, 0xfe08308e, 0xc633bbfd, + 0x670a3f13, 0xace9f0c2, 0x0dd0742c, 0x35ebff5f, 0x94d27bb1, + 0x459ce9b9, 0xe4a56d57, 0xdc9ee624, 0x7da762ca, 0xa572c475, + 0x044b409b, 0x3c70cbe8, 0x9d494f06, 0x4c07dd0e, 0xed3e59e0, + 0xd505d293, 0x743c567d, 0xd56aeec8, 0x74536a26, 0x4c68e155, + 0xed5165bb, 0x3c1ff7b3, 0x9d26735d, 0xa51df82e, 0x04247cc0, + 0xdcf1da7f, 0x7dc85e91, 0x45f3d5e2, 0xe4ca510c, 0x3584c304, + 0x94bd47ea, 0xac86cc99, 0x0dbf4877, 0xc65c87a6, 0x67650348, + 0x5f5e883b, 0xfe670cd5, 0x2f299edd, 0x8e101a33, 0xb62b9140, + 0x171215ae, 0xcfc7b311, 0x6efe37ff, 0x56c5bc8c, 0xf7fc3862, + 0x26b2aa6a, 0x878b2e84, 0xbfb0a5f7, 0x1e892119, 0xf3063c14, + 0x523fb8fa, 0x6a043389, 0xcb3db767, 0x1a73256f, 0xbb4aa181, + 0x83712af2, 0x2248ae1c, 0xfa9d08a3, 0x5ba48c4d, 0x639f073e, + 0xc2a683d0, 0x13e811d8, 0xb2d19536, 0x8aea1e45, 0x2bd39aab, + 0xe030557a, 0x4109d194, 0x79325ae7, 0xd80bde09, 0x09454c01, + 0xa87cc8ef, 0x9047439c, 0x317ec772, 0xe9ab61cd, 0x4892e523, + 0x70a96e50, 0xd190eabe, 0x00de78b6, 0xa1e7fc58, 0x99dc772b, + 0x38e5f3c5}, + {0x00000000, 0xe81790a1, 0x0b5e2703, 0xe349b7a2, 0x16bc4e06, + 0xfeabdea7, 0x1de26905, 0xf5f5f9a4, 0x2d789c0c, 0xc56f0cad, + 0x2626bb0f, 0xce312bae, 0x3bc4d20a, 0xd3d342ab, 0x309af509, + 0xd88d65a8, 0x5af13818, 0xb2e6a8b9, 0x51af1f1b, 0xb9b88fba, + 0x4c4d761e, 0xa45ae6bf, 0x4713511d, 0xaf04c1bc, 0x7789a414, + 0x9f9e34b5, 0x7cd78317, 0x94c013b6, 0x6135ea12, 0x89227ab3, + 0x6a6bcd11, 0x827c5db0, 0xb5e27030, 0x5df5e091, 0xbebc5733, + 0x56abc792, 0xa35e3e36, 0x4b49ae97, 0xa8001935, 0x40178994, + 0x989aec3c, 0x708d7c9d, 0x93c4cb3f, 0x7bd35b9e, 0x8e26a23a, + 0x6631329b, 0x85788539, 0x6d6f1598, 0xef134828, 0x0704d889, + 0xe44d6f2b, 0x0c5aff8a, 0xf9af062e, 0x11b8968f, 0xf2f1212d, + 0x1ae6b18c, 0xc26bd424, 0x2a7c4485, 0xc935f327, 0x21226386, + 0xd4d79a22, 0x3cc00a83, 0xdf89bd21, 0x379e2d80, 0xb0b5e621, + 0x58a27680, 0xbbebc122, 0x53fc5183, 0xa609a827, 0x4e1e3886, + 0xad578f24, 0x45401f85, 0x9dcd7a2d, 0x75daea8c, 0x96935d2e, + 0x7e84cd8f, 0x8b71342b, 0x6366a48a, 0x802f1328, 0x68388389, + 0xea44de39, 0x02534e98, 0xe11af93a, 0x090d699b, 0xfcf8903f, + 0x14ef009e, 0xf7a6b73c, 0x1fb1279d, 0xc73c4235, 0x2f2bd294, + 0xcc626536, 0x2475f597, 0xd1800c33, 0x39979c92, 0xdade2b30, + 0x32c9bb91, 0x05579611, 0xed4006b0, 0x0e09b112, 0xe61e21b3, + 0x13ebd817, 0xfbfc48b6, 0x18b5ff14, 0xf0a26fb5, 0x282f0a1d, + 0xc0389abc, 0x23712d1e, 0xcb66bdbf, 0x3e93441b, 0xd684d4ba, + 0x35cd6318, 0xdddaf3b9, 0x5fa6ae09, 0xb7b13ea8, 0x54f8890a, + 0xbcef19ab, 0x491ae00f, 0xa10d70ae, 0x4244c70c, 0xaa5357ad, + 0x72de3205, 0x9ac9a2a4, 0x79801506, 0x919785a7, 0x64627c03, + 0x8c75eca2, 0x6f3c5b00, 0x872bcba1, 0xba1aca03, 0x520d5aa2, + 0xb144ed00, 0x59537da1, 0xaca68405, 0x44b114a4, 0xa7f8a306, + 0x4fef33a7, 0x9762560f, 0x7f75c6ae, 0x9c3c710c, 0x742be1ad, + 0x81de1809, 0x69c988a8, 0x8a803f0a, 0x6297afab, 0xe0ebf21b, + 0x08fc62ba, 0xebb5d518, 0x03a245b9, 0xf657bc1d, 0x1e402cbc, + 0xfd099b1e, 0x151e0bbf, 0xcd936e17, 0x2584feb6, 0xc6cd4914, + 0x2edad9b5, 0xdb2f2011, 0x3338b0b0, 0xd0710712, 0x386697b3, + 0x0ff8ba33, 0xe7ef2a92, 0x04a69d30, 0xecb10d91, 0x1944f435, + 0xf1536494, 0x121ad336, 0xfa0d4397, 0x2280263f, 0xca97b69e, + 0x29de013c, 0xc1c9919d, 0x343c6839, 0xdc2bf898, 0x3f624f3a, + 0xd775df9b, 0x5509822b, 0xbd1e128a, 0x5e57a528, 0xb6403589, + 0x43b5cc2d, 0xaba25c8c, 0x48ebeb2e, 0xa0fc7b8f, 0x78711e27, + 0x90668e86, 0x732f3924, 0x9b38a985, 0x6ecd5021, 0x86dac080, + 0x65937722, 0x8d84e783, 0x0aaf2c22, 0xe2b8bc83, 0x01f10b21, + 0xe9e69b80, 0x1c136224, 0xf404f285, 0x174d4527, 0xff5ad586, + 0x27d7b02e, 0xcfc0208f, 0x2c89972d, 0xc49e078c, 0x316bfe28, + 0xd97c6e89, 0x3a35d92b, 0xd222498a, 0x505e143a, 0xb849849b, + 0x5b003339, 0xb317a398, 0x46e25a3c, 0xaef5ca9d, 0x4dbc7d3f, + 0xa5abed9e, 0x7d268836, 0x95311897, 0x7678af35, 0x9e6f3f94, + 0x6b9ac630, 0x838d5691, 0x60c4e133, 0x88d37192, 0xbf4d5c12, + 0x575accb3, 0xb4137b11, 0x5c04ebb0, 0xa9f11214, 0x41e682b5, + 0xa2af3517, 0x4ab8a5b6, 0x9235c01e, 0x7a2250bf, 0x996be71d, + 0x717c77bc, 0x84898e18, 0x6c9e1eb9, 0x8fd7a91b, 0x67c039ba, + 0xe5bc640a, 0x0dabf4ab, 0xeee24309, 0x06f5d3a8, 0xf3002a0c, + 0x1b17baad, 0xf85e0d0f, 0x10499dae, 0xc8c4f806, 0x20d368a7, + 0xc39adf05, 0x2b8d4fa4, 0xde78b600, 0x366f26a1, 0xd5269103, + 0x3d3101a2}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x0000000000000000, 0xa19017e800000000, 0x03275e0b00000000, + 0xa2b749e300000000, 0x064ebc1600000000, 0xa7deabfe00000000, + 0x0569e21d00000000, 0xa4f9f5f500000000, 0x0c9c782d00000000, + 0xad0c6fc500000000, 0x0fbb262600000000, 0xae2b31ce00000000, + 0x0ad2c43b00000000, 0xab42d3d300000000, 0x09f59a3000000000, + 0xa8658dd800000000, 0x1838f15a00000000, 0xb9a8e6b200000000, + 0x1b1faf5100000000, 0xba8fb8b900000000, 0x1e764d4c00000000, + 0xbfe65aa400000000, 0x1d51134700000000, 0xbcc104af00000000, + 0x14a4897700000000, 0xb5349e9f00000000, 0x1783d77c00000000, + 0xb613c09400000000, 0x12ea356100000000, 0xb37a228900000000, + 0x11cd6b6a00000000, 0xb05d7c8200000000, 0x3070e2b500000000, + 0x91e0f55d00000000, 0x3357bcbe00000000, 0x92c7ab5600000000, + 0x363e5ea300000000, 0x97ae494b00000000, 0x351900a800000000, + 0x9489174000000000, 0x3cec9a9800000000, 0x9d7c8d7000000000, + 0x3fcbc49300000000, 0x9e5bd37b00000000, 0x3aa2268e00000000, + 0x9b32316600000000, 0x3985788500000000, 0x98156f6d00000000, + 0x284813ef00000000, 0x89d8040700000000, 0x2b6f4de400000000, + 0x8aff5a0c00000000, 0x2e06aff900000000, 0x8f96b81100000000, + 0x2d21f1f200000000, 0x8cb1e61a00000000, 0x24d46bc200000000, + 0x85447c2a00000000, 0x27f335c900000000, 0x8663222100000000, + 0x229ad7d400000000, 0x830ac03c00000000, 0x21bd89df00000000, + 0x802d9e3700000000, 0x21e6b5b000000000, 0x8076a25800000000, + 0x22c1ebbb00000000, 0x8351fc5300000000, 0x27a809a600000000, + 0x86381e4e00000000, 0x248f57ad00000000, 0x851f404500000000, + 0x2d7acd9d00000000, 0x8ceada7500000000, 0x2e5d939600000000, + 0x8fcd847e00000000, 0x2b34718b00000000, 0x8aa4666300000000, + 0x28132f8000000000, 0x8983386800000000, 0x39de44ea00000000, + 0x984e530200000000, 0x3af91ae100000000, 0x9b690d0900000000, + 0x3f90f8fc00000000, 0x9e00ef1400000000, 0x3cb7a6f700000000, + 0x9d27b11f00000000, 0x35423cc700000000, 0x94d22b2f00000000, + 0x366562cc00000000, 0x97f5752400000000, 0x330c80d100000000, + 0x929c973900000000, 0x302bdeda00000000, 0x91bbc93200000000, + 0x1196570500000000, 0xb00640ed00000000, 0x12b1090e00000000, + 0xb3211ee600000000, 0x17d8eb1300000000, 0xb648fcfb00000000, + 0x14ffb51800000000, 0xb56fa2f000000000, 0x1d0a2f2800000000, + 0xbc9a38c000000000, 0x1e2d712300000000, 0xbfbd66cb00000000, + 0x1b44933e00000000, 0xbad484d600000000, 0x1863cd3500000000, + 0xb9f3dadd00000000, 0x09aea65f00000000, 0xa83eb1b700000000, + 0x0a89f85400000000, 0xab19efbc00000000, 0x0fe01a4900000000, + 0xae700da100000000, 0x0cc7444200000000, 0xad5753aa00000000, + 0x0532de7200000000, 0xa4a2c99a00000000, 0x0615807900000000, + 0xa785979100000000, 0x037c626400000000, 0xa2ec758c00000000, + 0x005b3c6f00000000, 0xa1cb2b8700000000, 0x03ca1aba00000000, + 0xa25a0d5200000000, 0x00ed44b100000000, 0xa17d535900000000, + 0x0584a6ac00000000, 0xa414b14400000000, 0x06a3f8a700000000, + 0xa733ef4f00000000, 0x0f56629700000000, 0xaec6757f00000000, + 0x0c713c9c00000000, 0xade12b7400000000, 0x0918de8100000000, + 0xa888c96900000000, 0x0a3f808a00000000, 0xabaf976200000000, + 0x1bf2ebe000000000, 0xba62fc0800000000, 0x18d5b5eb00000000, + 0xb945a20300000000, 0x1dbc57f600000000, 0xbc2c401e00000000, + 0x1e9b09fd00000000, 0xbf0b1e1500000000, 0x176e93cd00000000, + 0xb6fe842500000000, 0x1449cdc600000000, 0xb5d9da2e00000000, + 0x11202fdb00000000, 0xb0b0383300000000, 0x120771d000000000, + 0xb397663800000000, 0x33baf80f00000000, 0x922aefe700000000, + 0x309da60400000000, 0x910db1ec00000000, 0x35f4441900000000, + 0x946453f100000000, 0x36d31a1200000000, 0x97430dfa00000000, + 0x3f26802200000000, 0x9eb697ca00000000, 0x3c01de2900000000, + 0x9d91c9c100000000, 0x39683c3400000000, 0x98f82bdc00000000, + 0x3a4f623f00000000, 0x9bdf75d700000000, 0x2b82095500000000, + 0x8a121ebd00000000, 0x28a5575e00000000, 0x893540b600000000, + 0x2dccb54300000000, 0x8c5ca2ab00000000, 0x2eebeb4800000000, + 0x8f7bfca000000000, 0x271e717800000000, 0x868e669000000000, + 0x24392f7300000000, 0x85a9389b00000000, 0x2150cd6e00000000, + 0x80c0da8600000000, 0x2277936500000000, 0x83e7848d00000000, + 0x222caf0a00000000, 0x83bcb8e200000000, 0x210bf10100000000, + 0x809be6e900000000, 0x2462131c00000000, 0x85f204f400000000, + 0x27454d1700000000, 0x86d55aff00000000, 0x2eb0d72700000000, + 0x8f20c0cf00000000, 0x2d97892c00000000, 0x8c079ec400000000, + 0x28fe6b3100000000, 0x896e7cd900000000, 0x2bd9353a00000000, + 0x8a4922d200000000, 0x3a145e5000000000, 0x9b8449b800000000, + 0x3933005b00000000, 0x98a317b300000000, 0x3c5ae24600000000, + 0x9dcaf5ae00000000, 0x3f7dbc4d00000000, 0x9eedaba500000000, + 0x3688267d00000000, 0x9718319500000000, 0x35af787600000000, + 0x943f6f9e00000000, 0x30c69a6b00000000, 0x91568d8300000000, + 0x33e1c46000000000, 0x9271d38800000000, 0x125c4dbf00000000, + 0xb3cc5a5700000000, 0x117b13b400000000, 0xb0eb045c00000000, + 0x1412f1a900000000, 0xb582e64100000000, 0x1735afa200000000, + 0xb6a5b84a00000000, 0x1ec0359200000000, 0xbf50227a00000000, + 0x1de76b9900000000, 0xbc777c7100000000, 0x188e898400000000, + 0xb91e9e6c00000000, 0x1ba9d78f00000000, 0xba39c06700000000, + 0x0a64bce500000000, 0xabf4ab0d00000000, 0x0943e2ee00000000, + 0xa8d3f50600000000, 0x0c2a00f300000000, 0xadba171b00000000, + 0x0f0d5ef800000000, 0xae9d491000000000, 0x06f8c4c800000000, + 0xa768d32000000000, 0x05df9ac300000000, 0xa44f8d2b00000000, + 0x00b678de00000000, 0xa1266f3600000000, 0x039126d500000000, + 0xa201313d00000000}, + {0x0000000000000000, 0xee8439a100000000, 0x9d0f029900000000, + 0x738b3b3800000000, 0x7b1975e900000000, 0x959d4c4800000000, + 0xe616777000000000, 0x08924ed100000000, 0xb7349b0900000000, + 0x59b0a2a800000000, 0x2a3b999000000000, 0xc4bfa03100000000, + 0xcc2deee000000000, 0x22a9d74100000000, 0x5122ec7900000000, + 0xbfa6d5d800000000, 0x6e69361300000000, 0x80ed0fb200000000, + 0xf366348a00000000, 0x1de20d2b00000000, 0x157043fa00000000, + 0xfbf47a5b00000000, 0x887f416300000000, 0x66fb78c200000000, + 0xd95dad1a00000000, 0x37d994bb00000000, 0x4452af8300000000, + 0xaad6962200000000, 0xa244d8f300000000, 0x4cc0e15200000000, + 0x3f4bda6a00000000, 0xd1cfe3cb00000000, 0xdcd26c2600000000, + 0x3256558700000000, 0x41dd6ebf00000000, 0xaf59571e00000000, + 0xa7cb19cf00000000, 0x494f206e00000000, 0x3ac41b5600000000, + 0xd44022f700000000, 0x6be6f72f00000000, 0x8562ce8e00000000, + 0xf6e9f5b600000000, 0x186dcc1700000000, 0x10ff82c600000000, + 0xfe7bbb6700000000, 0x8df0805f00000000, 0x6374b9fe00000000, + 0xb2bb5a3500000000, 0x5c3f639400000000, 0x2fb458ac00000000, + 0xc130610d00000000, 0xc9a22fdc00000000, 0x2726167d00000000, + 0x54ad2d4500000000, 0xba2914e400000000, 0x058fc13c00000000, + 0xeb0bf89d00000000, 0x9880c3a500000000, 0x7604fa0400000000, + 0x7e96b4d500000000, 0x90128d7400000000, 0xe399b64c00000000, + 0x0d1d8fed00000000, 0xb8a5d94c00000000, 0x5621e0ed00000000, + 0x25aadbd500000000, 0xcb2ee27400000000, 0xc3bcaca500000000, + 0x2d38950400000000, 0x5eb3ae3c00000000, 0xb037979d00000000, + 0x0f91424500000000, 0xe1157be400000000, 0x929e40dc00000000, + 0x7c1a797d00000000, 0x748837ac00000000, 0x9a0c0e0d00000000, + 0xe987353500000000, 0x07030c9400000000, 0xd6ccef5f00000000, + 0x3848d6fe00000000, 0x4bc3edc600000000, 0xa547d46700000000, + 0xadd59ab600000000, 0x4351a31700000000, 0x30da982f00000000, + 0xde5ea18e00000000, 0x61f8745600000000, 0x8f7c4df700000000, + 0xfcf776cf00000000, 0x12734f6e00000000, 0x1ae101bf00000000, + 0xf465381e00000000, 0x87ee032600000000, 0x696a3a8700000000, + 0x6477b56a00000000, 0x8af38ccb00000000, 0xf978b7f300000000, + 0x17fc8e5200000000, 0x1f6ec08300000000, 0xf1eaf92200000000, + 0x8261c21a00000000, 0x6ce5fbbb00000000, 0xd3432e6300000000, + 0x3dc717c200000000, 0x4e4c2cfa00000000, 0xa0c8155b00000000, + 0xa85a5b8a00000000, 0x46de622b00000000, 0x3555591300000000, + 0xdbd160b200000000, 0x0a1e837900000000, 0xe49abad800000000, + 0x971181e000000000, 0x7995b84100000000, 0x7107f69000000000, + 0x9f83cf3100000000, 0xec08f40900000000, 0x028ccda800000000, + 0xbd2a187000000000, 0x53ae21d100000000, 0x20251ae900000000, + 0xcea1234800000000, 0xc6336d9900000000, 0x28b7543800000000, + 0x5b3c6f0000000000, 0xb5b856a100000000, 0x704bb39900000000, + 0x9ecf8a3800000000, 0xed44b10000000000, 0x03c088a100000000, + 0x0b52c67000000000, 0xe5d6ffd100000000, 0x965dc4e900000000, + 0x78d9fd4800000000, 0xc77f289000000000, 0x29fb113100000000, + 0x5a702a0900000000, 0xb4f413a800000000, 0xbc665d7900000000, + 0x52e264d800000000, 0x21695fe000000000, 0xcfed664100000000, + 0x1e22858a00000000, 0xf0a6bc2b00000000, 0x832d871300000000, + 0x6da9beb200000000, 0x653bf06300000000, 0x8bbfc9c200000000, + 0xf834f2fa00000000, 0x16b0cb5b00000000, 0xa9161e8300000000, + 0x4792272200000000, 0x34191c1a00000000, 0xda9d25bb00000000, + 0xd20f6b6a00000000, 0x3c8b52cb00000000, 0x4f0069f300000000, + 0xa184505200000000, 0xac99dfbf00000000, 0x421de61e00000000, + 0x3196dd2600000000, 0xdf12e48700000000, 0xd780aa5600000000, + 0x390493f700000000, 0x4a8fa8cf00000000, 0xa40b916e00000000, + 0x1bad44b600000000, 0xf5297d1700000000, 0x86a2462f00000000, + 0x68267f8e00000000, 0x60b4315f00000000, 0x8e3008fe00000000, + 0xfdbb33c600000000, 0x133f0a6700000000, 0xc2f0e9ac00000000, + 0x2c74d00d00000000, 0x5fffeb3500000000, 0xb17bd29400000000, + 0xb9e99c4500000000, 0x576da5e400000000, 0x24e69edc00000000, + 0xca62a77d00000000, 0x75c472a500000000, 0x9b404b0400000000, + 0xe8cb703c00000000, 0x064f499d00000000, 0x0edd074c00000000, + 0xe0593eed00000000, 0x93d205d500000000, 0x7d563c7400000000, + 0xc8ee6ad500000000, 0x266a537400000000, 0x55e1684c00000000, + 0xbb6551ed00000000, 0xb3f71f3c00000000, 0x5d73269d00000000, + 0x2ef81da500000000, 0xc07c240400000000, 0x7fdaf1dc00000000, + 0x915ec87d00000000, 0xe2d5f34500000000, 0x0c51cae400000000, + 0x04c3843500000000, 0xea47bd9400000000, 0x99cc86ac00000000, + 0x7748bf0d00000000, 0xa6875cc600000000, 0x4803656700000000, + 0x3b885e5f00000000, 0xd50c67fe00000000, 0xdd9e292f00000000, + 0x331a108e00000000, 0x40912bb600000000, 0xae15121700000000, + 0x11b3c7cf00000000, 0xff37fe6e00000000, 0x8cbcc55600000000, + 0x6238fcf700000000, 0x6aaab22600000000, 0x842e8b8700000000, + 0xf7a5b0bf00000000, 0x1921891e00000000, 0x143c06f300000000, + 0xfab83f5200000000, 0x8933046a00000000, 0x67b73dcb00000000, + 0x6f25731a00000000, 0x81a14abb00000000, 0xf22a718300000000, + 0x1cae482200000000, 0xa3089dfa00000000, 0x4d8ca45b00000000, + 0x3e079f6300000000, 0xd083a6c200000000, 0xd811e81300000000, + 0x3695d1b200000000, 0x451eea8a00000000, 0xab9ad32b00000000, + 0x7a5530e000000000, 0x94d1094100000000, 0xe75a327900000000, + 0x09de0bd800000000, 0x014c450900000000, 0xefc87ca800000000, + 0x9c43479000000000, 0x72c77e3100000000, 0xcd61abe900000000, + 0x23e5924800000000, 0x506ea97000000000, 0xbeea90d100000000, + 0xb678de0000000000, 0x58fce7a100000000, 0x2b77dc9900000000, + 0xc5f3e53800000000}, + {0x0000000000000000, 0xfbf6134700000000, 0xf6ed278e00000000, + 0x0d1b34c900000000, 0xaddd3ec700000000, 0x562b2d8000000000, + 0x5b30194900000000, 0xa0c60a0e00000000, 0x1bbd0c5500000000, + 0xe04b1f1200000000, 0xed502bdb00000000, 0x16a6389c00000000, + 0xb660329200000000, 0x4d9621d500000000, 0x408d151c00000000, + 0xbb7b065b00000000, 0x367a19aa00000000, 0xcd8c0aed00000000, + 0xc0973e2400000000, 0x3b612d6300000000, 0x9ba7276d00000000, + 0x6051342a00000000, 0x6d4a00e300000000, 0x96bc13a400000000, + 0x2dc715ff00000000, 0xd63106b800000000, 0xdb2a327100000000, + 0x20dc213600000000, 0x801a2b3800000000, 0x7bec387f00000000, + 0x76f70cb600000000, 0x8d011ff100000000, 0x2df2438f00000000, + 0xd60450c800000000, 0xdb1f640100000000, 0x20e9774600000000, + 0x802f7d4800000000, 0x7bd96e0f00000000, 0x76c25ac600000000, + 0x8d34498100000000, 0x364f4fda00000000, 0xcdb95c9d00000000, + 0xc0a2685400000000, 0x3b547b1300000000, 0x9b92711d00000000, + 0x6064625a00000000, 0x6d7f569300000000, 0x968945d400000000, + 0x1b885a2500000000, 0xe07e496200000000, 0xed657dab00000000, + 0x16936eec00000000, 0xb65564e200000000, 0x4da377a500000000, + 0x40b8436c00000000, 0xbb4e502b00000000, 0x0035567000000000, + 0xfbc3453700000000, 0xf6d871fe00000000, 0x0d2e62b900000000, + 0xade868b700000000, 0x561e7bf000000000, 0x5b054f3900000000, + 0xa0f35c7e00000000, 0x1be2f6c500000000, 0xe014e58200000000, + 0xed0fd14b00000000, 0x16f9c20c00000000, 0xb63fc80200000000, + 0x4dc9db4500000000, 0x40d2ef8c00000000, 0xbb24fccb00000000, + 0x005ffa9000000000, 0xfba9e9d700000000, 0xf6b2dd1e00000000, + 0x0d44ce5900000000, 0xad82c45700000000, 0x5674d71000000000, + 0x5b6fe3d900000000, 0xa099f09e00000000, 0x2d98ef6f00000000, + 0xd66efc2800000000, 0xdb75c8e100000000, 0x2083dba600000000, + 0x8045d1a800000000, 0x7bb3c2ef00000000, 0x76a8f62600000000, + 0x8d5ee56100000000, 0x3625e33a00000000, 0xcdd3f07d00000000, + 0xc0c8c4b400000000, 0x3b3ed7f300000000, 0x9bf8ddfd00000000, + 0x600eceba00000000, 0x6d15fa7300000000, 0x96e3e93400000000, + 0x3610b54a00000000, 0xcde6a60d00000000, 0xc0fd92c400000000, + 0x3b0b818300000000, 0x9bcd8b8d00000000, 0x603b98ca00000000, + 0x6d20ac0300000000, 0x96d6bf4400000000, 0x2dadb91f00000000, + 0xd65baa5800000000, 0xdb409e9100000000, 0x20b68dd600000000, + 0x807087d800000000, 0x7b86949f00000000, 0x769da05600000000, + 0x8d6bb31100000000, 0x006aace000000000, 0xfb9cbfa700000000, + 0xf6878b6e00000000, 0x0d71982900000000, 0xadb7922700000000, + 0x5641816000000000, 0x5b5ab5a900000000, 0xa0aca6ee00000000, + 0x1bd7a0b500000000, 0xe021b3f200000000, 0xed3a873b00000000, + 0x16cc947c00000000, 0xb60a9e7200000000, 0x4dfc8d3500000000, + 0x40e7b9fc00000000, 0xbb11aabb00000000, 0x77c29c5000000000, + 0x8c348f1700000000, 0x812fbbde00000000, 0x7ad9a89900000000, + 0xda1fa29700000000, 0x21e9b1d000000000, 0x2cf2851900000000, + 0xd704965e00000000, 0x6c7f900500000000, 0x9789834200000000, + 0x9a92b78b00000000, 0x6164a4cc00000000, 0xc1a2aec200000000, + 0x3a54bd8500000000, 0x374f894c00000000, 0xccb99a0b00000000, + 0x41b885fa00000000, 0xba4e96bd00000000, 0xb755a27400000000, + 0x4ca3b13300000000, 0xec65bb3d00000000, 0x1793a87a00000000, + 0x1a889cb300000000, 0xe17e8ff400000000, 0x5a0589af00000000, + 0xa1f39ae800000000, 0xace8ae2100000000, 0x571ebd6600000000, + 0xf7d8b76800000000, 0x0c2ea42f00000000, 0x013590e600000000, + 0xfac383a100000000, 0x5a30dfdf00000000, 0xa1c6cc9800000000, + 0xacddf85100000000, 0x572beb1600000000, 0xf7ede11800000000, + 0x0c1bf25f00000000, 0x0100c69600000000, 0xfaf6d5d100000000, + 0x418dd38a00000000, 0xba7bc0cd00000000, 0xb760f40400000000, + 0x4c96e74300000000, 0xec50ed4d00000000, 0x17a6fe0a00000000, + 0x1abdcac300000000, 0xe14bd98400000000, 0x6c4ac67500000000, + 0x97bcd53200000000, 0x9aa7e1fb00000000, 0x6151f2bc00000000, + 0xc197f8b200000000, 0x3a61ebf500000000, 0x377adf3c00000000, + 0xcc8ccc7b00000000, 0x77f7ca2000000000, 0x8c01d96700000000, + 0x811aedae00000000, 0x7aecfee900000000, 0xda2af4e700000000, + 0x21dce7a000000000, 0x2cc7d36900000000, 0xd731c02e00000000, + 0x6c206a9500000000, 0x97d679d200000000, 0x9acd4d1b00000000, + 0x613b5e5c00000000, 0xc1fd545200000000, 0x3a0b471500000000, + 0x371073dc00000000, 0xcce6609b00000000, 0x779d66c000000000, + 0x8c6b758700000000, 0x8170414e00000000, 0x7a86520900000000, + 0xda40580700000000, 0x21b64b4000000000, 0x2cad7f8900000000, + 0xd75b6cce00000000, 0x5a5a733f00000000, 0xa1ac607800000000, + 0xacb754b100000000, 0x574147f600000000, 0xf7874df800000000, + 0x0c715ebf00000000, 0x016a6a7600000000, 0xfa9c793100000000, + 0x41e77f6a00000000, 0xba116c2d00000000, 0xb70a58e400000000, + 0x4cfc4ba300000000, 0xec3a41ad00000000, 0x17cc52ea00000000, + 0x1ad7662300000000, 0xe121756400000000, 0x41d2291a00000000, + 0xba243a5d00000000, 0xb73f0e9400000000, 0x4cc91dd300000000, + 0xec0f17dd00000000, 0x17f9049a00000000, 0x1ae2305300000000, + 0xe114231400000000, 0x5a6f254f00000000, 0xa199360800000000, + 0xac8202c100000000, 0x5774118600000000, 0xf7b21b8800000000, + 0x0c4408cf00000000, 0x015f3c0600000000, 0xfaa92f4100000000, + 0x77a830b000000000, 0x8c5e23f700000000, 0x8145173e00000000, + 0x7ab3047900000000, 0xda750e7700000000, 0x21831d3000000000, + 0x2c9829f900000000, 0xd76e3abe00000000, 0x6c153ce500000000, + 0x97e32fa200000000, 0x9af81b6b00000000, 0x610e082c00000000, + 0xc1c8022200000000, 0x3a3e116500000000, 0x372525ac00000000, + 0xccd336eb00000000}, + {0x0000000000000000, 0x6238282a00000000, 0xc470505400000000, + 0xa648787e00000000, 0x88e1a0a800000000, 0xead9888200000000, + 0x4c91f0fc00000000, 0x2ea9d8d600000000, 0x51c5308a00000000, + 0x33fd18a000000000, 0x95b560de00000000, 0xf78d48f400000000, + 0xd924902200000000, 0xbb1cb80800000000, 0x1d54c07600000000, + 0x7f6ce85c00000000, 0xe38c10cf00000000, 0x81b438e500000000, + 0x27fc409b00000000, 0x45c468b100000000, 0x6b6db06700000000, + 0x0955984d00000000, 0xaf1de03300000000, 0xcd25c81900000000, + 0xb249204500000000, 0xd071086f00000000, 0x7639701100000000, + 0x1401583b00000000, 0x3aa880ed00000000, 0x5890a8c700000000, + 0xfed8d0b900000000, 0x9ce0f89300000000, 0x871f504500000000, + 0xe527786f00000000, 0x436f001100000000, 0x2157283b00000000, + 0x0ffef0ed00000000, 0x6dc6d8c700000000, 0xcb8ea0b900000000, + 0xa9b6889300000000, 0xd6da60cf00000000, 0xb4e248e500000000, + 0x12aa309b00000000, 0x709218b100000000, 0x5e3bc06700000000, + 0x3c03e84d00000000, 0x9a4b903300000000, 0xf873b81900000000, + 0x6493408a00000000, 0x06ab68a000000000, 0xa0e310de00000000, + 0xc2db38f400000000, 0xec72e02200000000, 0x8e4ac80800000000, + 0x2802b07600000000, 0x4a3a985c00000000, 0x3556700000000000, + 0x576e582a00000000, 0xf126205400000000, 0x931e087e00000000, + 0xbdb7d0a800000000, 0xdf8ff88200000000, 0x79c780fc00000000, + 0x1bffa8d600000000, 0x0e3fa08a00000000, 0x6c0788a000000000, + 0xca4ff0de00000000, 0xa877d8f400000000, 0x86de002200000000, + 0xe4e6280800000000, 0x42ae507600000000, 0x2096785c00000000, + 0x5ffa900000000000, 0x3dc2b82a00000000, 0x9b8ac05400000000, + 0xf9b2e87e00000000, 0xd71b30a800000000, 0xb523188200000000, + 0x136b60fc00000000, 0x715348d600000000, 0xedb3b04500000000, + 0x8f8b986f00000000, 0x29c3e01100000000, 0x4bfbc83b00000000, + 0x655210ed00000000, 0x076a38c700000000, 0xa12240b900000000, + 0xc31a689300000000, 0xbc7680cf00000000, 0xde4ea8e500000000, + 0x7806d09b00000000, 0x1a3ef8b100000000, 0x3497206700000000, + 0x56af084d00000000, 0xf0e7703300000000, 0x92df581900000000, + 0x8920f0cf00000000, 0xeb18d8e500000000, 0x4d50a09b00000000, + 0x2f6888b100000000, 0x01c1506700000000, 0x63f9784d00000000, + 0xc5b1003300000000, 0xa789281900000000, 0xd8e5c04500000000, + 0xbadde86f00000000, 0x1c95901100000000, 0x7eadb83b00000000, + 0x500460ed00000000, 0x323c48c700000000, 0x947430b900000000, + 0xf64c189300000000, 0x6aace00000000000, 0x0894c82a00000000, + 0xaedcb05400000000, 0xcce4987e00000000, 0xe24d40a800000000, + 0x8075688200000000, 0x263d10fc00000000, 0x440538d600000000, + 0x3b69d08a00000000, 0x5951f8a000000000, 0xff1980de00000000, + 0x9d21a8f400000000, 0xb388702200000000, 0xd1b0580800000000, + 0x77f8207600000000, 0x15c0085c00000000, 0x5d7831ce00000000, + 0x3f4019e400000000, 0x9908619a00000000, 0xfb3049b000000000, + 0xd599916600000000, 0xb7a1b94c00000000, 0x11e9c13200000000, + 0x73d1e91800000000, 0x0cbd014400000000, 0x6e85296e00000000, + 0xc8cd511000000000, 0xaaf5793a00000000, 0x845ca1ec00000000, + 0xe66489c600000000, 0x402cf1b800000000, 0x2214d99200000000, + 0xbef4210100000000, 0xdccc092b00000000, 0x7a84715500000000, + 0x18bc597f00000000, 0x361581a900000000, 0x542da98300000000, + 0xf265d1fd00000000, 0x905df9d700000000, 0xef31118b00000000, + 0x8d0939a100000000, 0x2b4141df00000000, 0x497969f500000000, + 0x67d0b12300000000, 0x05e8990900000000, 0xa3a0e17700000000, + 0xc198c95d00000000, 0xda67618b00000000, 0xb85f49a100000000, + 0x1e1731df00000000, 0x7c2f19f500000000, 0x5286c12300000000, + 0x30bee90900000000, 0x96f6917700000000, 0xf4ceb95d00000000, + 0x8ba2510100000000, 0xe99a792b00000000, 0x4fd2015500000000, + 0x2dea297f00000000, 0x0343f1a900000000, 0x617bd98300000000, + 0xc733a1fd00000000, 0xa50b89d700000000, 0x39eb714400000000, + 0x5bd3596e00000000, 0xfd9b211000000000, 0x9fa3093a00000000, + 0xb10ad1ec00000000, 0xd332f9c600000000, 0x757a81b800000000, + 0x1742a99200000000, 0x682e41ce00000000, 0x0a1669e400000000, + 0xac5e119a00000000, 0xce6639b000000000, 0xe0cfe16600000000, + 0x82f7c94c00000000, 0x24bfb13200000000, 0x4687991800000000, + 0x5347914400000000, 0x317fb96e00000000, 0x9737c11000000000, + 0xf50fe93a00000000, 0xdba631ec00000000, 0xb99e19c600000000, + 0x1fd661b800000000, 0x7dee499200000000, 0x0282a1ce00000000, + 0x60ba89e400000000, 0xc6f2f19a00000000, 0xa4cad9b000000000, + 0x8a63016600000000, 0xe85b294c00000000, 0x4e13513200000000, + 0x2c2b791800000000, 0xb0cb818b00000000, 0xd2f3a9a100000000, + 0x74bbd1df00000000, 0x1683f9f500000000, 0x382a212300000000, + 0x5a12090900000000, 0xfc5a717700000000, 0x9e62595d00000000, + 0xe10eb10100000000, 0x8336992b00000000, 0x257ee15500000000, + 0x4746c97f00000000, 0x69ef11a900000000, 0x0bd7398300000000, + 0xad9f41fd00000000, 0xcfa769d700000000, 0xd458c10100000000, + 0xb660e92b00000000, 0x1028915500000000, 0x7210b97f00000000, + 0x5cb961a900000000, 0x3e81498300000000, 0x98c931fd00000000, + 0xfaf119d700000000, 0x859df18b00000000, 0xe7a5d9a100000000, + 0x41eda1df00000000, 0x23d589f500000000, 0x0d7c512300000000, + 0x6f44790900000000, 0xc90c017700000000, 0xab34295d00000000, + 0x37d4d1ce00000000, 0x55ecf9e400000000, 0xf3a4819a00000000, + 0x919ca9b000000000, 0xbf35716600000000, 0xdd0d594c00000000, + 0x7b45213200000000, 0x197d091800000000, 0x6611e14400000000, + 0x0429c96e00000000, 0xa261b11000000000, 0xc059993a00000000, + 0xeef041ec00000000, 0x8cc869c600000000, 0x2a8011b800000000, + 0x48b8399200000000}, + {0x0000000000000000, 0x4c2896a300000000, 0xd9565d9c00000000, + 0x957ecb3f00000000, 0xf3abcbe300000000, 0xbf835d4000000000, + 0x2afd967f00000000, 0x66d500dc00000000, 0xa751e61c00000000, + 0xeb7970bf00000000, 0x7e07bb8000000000, 0x322f2d2300000000, + 0x54fa2dff00000000, 0x18d2bb5c00000000, 0x8dac706300000000, + 0xc184e6c000000000, 0x4ea3cc3900000000, 0x028b5a9a00000000, + 0x97f591a500000000, 0xdbdd070600000000, 0xbd0807da00000000, + 0xf120917900000000, 0x645e5a4600000000, 0x2876cce500000000, + 0xe9f22a2500000000, 0xa5dabc8600000000, 0x30a477b900000000, + 0x7c8ce11a00000000, 0x1a59e1c600000000, 0x5671776500000000, + 0xc30fbc5a00000000, 0x8f272af900000000, 0x9c46997300000000, + 0xd06e0fd000000000, 0x4510c4ef00000000, 0x0938524c00000000, + 0x6fed529000000000, 0x23c5c43300000000, 0xb6bb0f0c00000000, + 0xfa9399af00000000, 0x3b177f6f00000000, 0x773fe9cc00000000, + 0xe24122f300000000, 0xae69b45000000000, 0xc8bcb48c00000000, + 0x8494222f00000000, 0x11eae91000000000, 0x5dc27fb300000000, + 0xd2e5554a00000000, 0x9ecdc3e900000000, 0x0bb308d600000000, + 0x479b9e7500000000, 0x214e9ea900000000, 0x6d66080a00000000, + 0xf818c33500000000, 0xb430559600000000, 0x75b4b35600000000, + 0x399c25f500000000, 0xace2eeca00000000, 0xe0ca786900000000, + 0x861f78b500000000, 0xca37ee1600000000, 0x5f49252900000000, + 0x1361b38a00000000, 0x388d32e700000000, 0x74a5a44400000000, + 0xe1db6f7b00000000, 0xadf3f9d800000000, 0xcb26f90400000000, + 0x870e6fa700000000, 0x1270a49800000000, 0x5e58323b00000000, + 0x9fdcd4fb00000000, 0xd3f4425800000000, 0x468a896700000000, + 0x0aa21fc400000000, 0x6c771f1800000000, 0x205f89bb00000000, + 0xb521428400000000, 0xf909d42700000000, 0x762efede00000000, + 0x3a06687d00000000, 0xaf78a34200000000, 0xe35035e100000000, + 0x8585353d00000000, 0xc9ada39e00000000, 0x5cd368a100000000, + 0x10fbfe0200000000, 0xd17f18c200000000, 0x9d578e6100000000, + 0x0829455e00000000, 0x4401d3fd00000000, 0x22d4d32100000000, + 0x6efc458200000000, 0xfb828ebd00000000, 0xb7aa181e00000000, + 0xa4cbab9400000000, 0xe8e33d3700000000, 0x7d9df60800000000, + 0x31b560ab00000000, 0x5760607700000000, 0x1b48f6d400000000, + 0x8e363deb00000000, 0xc21eab4800000000, 0x039a4d8800000000, + 0x4fb2db2b00000000, 0xdacc101400000000, 0x96e486b700000000, + 0xf031866b00000000, 0xbc1910c800000000, 0x2967dbf700000000, + 0x654f4d5400000000, 0xea6867ad00000000, 0xa640f10e00000000, + 0x333e3a3100000000, 0x7f16ac9200000000, 0x19c3ac4e00000000, + 0x55eb3aed00000000, 0xc095f1d200000000, 0x8cbd677100000000, + 0x4d3981b100000000, 0x0111171200000000, 0x946fdc2d00000000, + 0xd8474a8e00000000, 0xbe924a5200000000, 0xf2badcf100000000, + 0x67c417ce00000000, 0x2bec816d00000000, 0x311c141500000000, + 0x7d3482b600000000, 0xe84a498900000000, 0xa462df2a00000000, + 0xc2b7dff600000000, 0x8e9f495500000000, 0x1be1826a00000000, + 0x57c914c900000000, 0x964df20900000000, 0xda6564aa00000000, + 0x4f1baf9500000000, 0x0333393600000000, 0x65e639ea00000000, + 0x29ceaf4900000000, 0xbcb0647600000000, 0xf098f2d500000000, + 0x7fbfd82c00000000, 0x33974e8f00000000, 0xa6e985b000000000, + 0xeac1131300000000, 0x8c1413cf00000000, 0xc03c856c00000000, + 0x55424e5300000000, 0x196ad8f000000000, 0xd8ee3e3000000000, + 0x94c6a89300000000, 0x01b863ac00000000, 0x4d90f50f00000000, + 0x2b45f5d300000000, 0x676d637000000000, 0xf213a84f00000000, + 0xbe3b3eec00000000, 0xad5a8d6600000000, 0xe1721bc500000000, + 0x740cd0fa00000000, 0x3824465900000000, 0x5ef1468500000000, + 0x12d9d02600000000, 0x87a71b1900000000, 0xcb8f8dba00000000, + 0x0a0b6b7a00000000, 0x4623fdd900000000, 0xd35d36e600000000, + 0x9f75a04500000000, 0xf9a0a09900000000, 0xb588363a00000000, + 0x20f6fd0500000000, 0x6cde6ba600000000, 0xe3f9415f00000000, + 0xafd1d7fc00000000, 0x3aaf1cc300000000, 0x76878a6000000000, + 0x10528abc00000000, 0x5c7a1c1f00000000, 0xc904d72000000000, + 0x852c418300000000, 0x44a8a74300000000, 0x088031e000000000, + 0x9dfefadf00000000, 0xd1d66c7c00000000, 0xb7036ca000000000, + 0xfb2bfa0300000000, 0x6e55313c00000000, 0x227da79f00000000, + 0x099126f200000000, 0x45b9b05100000000, 0xd0c77b6e00000000, + 0x9cefedcd00000000, 0xfa3aed1100000000, 0xb6127bb200000000, + 0x236cb08d00000000, 0x6f44262e00000000, 0xaec0c0ee00000000, + 0xe2e8564d00000000, 0x77969d7200000000, 0x3bbe0bd100000000, + 0x5d6b0b0d00000000, 0x11439dae00000000, 0x843d569100000000, + 0xc815c03200000000, 0x4732eacb00000000, 0x0b1a7c6800000000, + 0x9e64b75700000000, 0xd24c21f400000000, 0xb499212800000000, + 0xf8b1b78b00000000, 0x6dcf7cb400000000, 0x21e7ea1700000000, + 0xe0630cd700000000, 0xac4b9a7400000000, 0x3935514b00000000, + 0x751dc7e800000000, 0x13c8c73400000000, 0x5fe0519700000000, + 0xca9e9aa800000000, 0x86b60c0b00000000, 0x95d7bf8100000000, + 0xd9ff292200000000, 0x4c81e21d00000000, 0x00a974be00000000, + 0x667c746200000000, 0x2a54e2c100000000, 0xbf2a29fe00000000, + 0xf302bf5d00000000, 0x3286599d00000000, 0x7eaecf3e00000000, + 0xebd0040100000000, 0xa7f892a200000000, 0xc12d927e00000000, + 0x8d0504dd00000000, 0x187bcfe200000000, 0x5453594100000000, + 0xdb7473b800000000, 0x975ce51b00000000, 0x02222e2400000000, + 0x4e0ab88700000000, 0x28dfb85b00000000, 0x64f72ef800000000, + 0xf189e5c700000000, 0xbda1736400000000, 0x7c2595a400000000, + 0x300d030700000000, 0xa573c83800000000, 0xe95b5e9b00000000, + 0x8f8e5e4700000000, 0xc3a6c8e400000000, 0x56d803db00000000, + 0x1af0957800000000}, + {0x0000000000000000, 0x939bc97f00000000, 0x263793ff00000000, + 0xb5ac5a8000000000, 0x0d68572400000000, 0x9ef39e5b00000000, + 0x2b5fc4db00000000, 0xb8c40da400000000, 0x1ad0ae4800000000, + 0x894b673700000000, 0x3ce73db700000000, 0xaf7cf4c800000000, + 0x17b8f96c00000000, 0x8423301300000000, 0x318f6a9300000000, + 0xa214a3ec00000000, 0x34a05d9100000000, 0xa73b94ee00000000, + 0x1297ce6e00000000, 0x810c071100000000, 0x39c80ab500000000, + 0xaa53c3ca00000000, 0x1fff994a00000000, 0x8c64503500000000, + 0x2e70f3d900000000, 0xbdeb3aa600000000, 0x0847602600000000, + 0x9bdca95900000000, 0x2318a4fd00000000, 0xb0836d8200000000, + 0x052f370200000000, 0x96b4fe7d00000000, 0x2946caf900000000, + 0xbadd038600000000, 0x0f71590600000000, 0x9cea907900000000, + 0x242e9ddd00000000, 0xb7b554a200000000, 0x02190e2200000000, + 0x9182c75d00000000, 0x339664b100000000, 0xa00dadce00000000, + 0x15a1f74e00000000, 0x863a3e3100000000, 0x3efe339500000000, + 0xad65faea00000000, 0x18c9a06a00000000, 0x8b52691500000000, + 0x1de6976800000000, 0x8e7d5e1700000000, 0x3bd1049700000000, + 0xa84acde800000000, 0x108ec04c00000000, 0x8315093300000000, + 0x36b953b300000000, 0xa5229acc00000000, 0x0736392000000000, + 0x94adf05f00000000, 0x2101aadf00000000, 0xb29a63a000000000, + 0x0a5e6e0400000000, 0x99c5a77b00000000, 0x2c69fdfb00000000, + 0xbff2348400000000, 0x138ae52800000000, 0x80112c5700000000, + 0x35bd76d700000000, 0xa626bfa800000000, 0x1ee2b20c00000000, + 0x8d797b7300000000, 0x38d521f300000000, 0xab4ee88c00000000, + 0x095a4b6000000000, 0x9ac1821f00000000, 0x2f6dd89f00000000, + 0xbcf611e000000000, 0x04321c4400000000, 0x97a9d53b00000000, + 0x22058fbb00000000, 0xb19e46c400000000, 0x272ab8b900000000, + 0xb4b171c600000000, 0x011d2b4600000000, 0x9286e23900000000, + 0x2a42ef9d00000000, 0xb9d926e200000000, 0x0c757c6200000000, + 0x9feeb51d00000000, 0x3dfa16f100000000, 0xae61df8e00000000, + 0x1bcd850e00000000, 0x88564c7100000000, 0x309241d500000000, + 0xa30988aa00000000, 0x16a5d22a00000000, 0x853e1b5500000000, + 0x3acc2fd100000000, 0xa957e6ae00000000, 0x1cfbbc2e00000000, + 0x8f60755100000000, 0x37a478f500000000, 0xa43fb18a00000000, + 0x1193eb0a00000000, 0x8208227500000000, 0x201c819900000000, + 0xb38748e600000000, 0x062b126600000000, 0x95b0db1900000000, + 0x2d74d6bd00000000, 0xbeef1fc200000000, 0x0b43454200000000, + 0x98d88c3d00000000, 0x0e6c724000000000, 0x9df7bb3f00000000, + 0x285be1bf00000000, 0xbbc028c000000000, 0x0304256400000000, + 0x909fec1b00000000, 0x2533b69b00000000, 0xb6a87fe400000000, + 0x14bcdc0800000000, 0x8727157700000000, 0x328b4ff700000000, + 0xa110868800000000, 0x19d48b2c00000000, 0x8a4f425300000000, + 0x3fe318d300000000, 0xac78d1ac00000000, 0x2614cb5100000000, + 0xb58f022e00000000, 0x002358ae00000000, 0x93b891d100000000, + 0x2b7c9c7500000000, 0xb8e7550a00000000, 0x0d4b0f8a00000000, + 0x9ed0c6f500000000, 0x3cc4651900000000, 0xaf5fac6600000000, + 0x1af3f6e600000000, 0x89683f9900000000, 0x31ac323d00000000, + 0xa237fb4200000000, 0x179ba1c200000000, 0x840068bd00000000, + 0x12b496c000000000, 0x812f5fbf00000000, 0x3483053f00000000, + 0xa718cc4000000000, 0x1fdcc1e400000000, 0x8c47089b00000000, + 0x39eb521b00000000, 0xaa709b6400000000, 0x0864388800000000, + 0x9bfff1f700000000, 0x2e53ab7700000000, 0xbdc8620800000000, + 0x050c6fac00000000, 0x9697a6d300000000, 0x233bfc5300000000, + 0xb0a0352c00000000, 0x0f5201a800000000, 0x9cc9c8d700000000, + 0x2965925700000000, 0xbafe5b2800000000, 0x023a568c00000000, + 0x91a19ff300000000, 0x240dc57300000000, 0xb7960c0c00000000, + 0x1582afe000000000, 0x8619669f00000000, 0x33b53c1f00000000, + 0xa02ef56000000000, 0x18eaf8c400000000, 0x8b7131bb00000000, + 0x3edd6b3b00000000, 0xad46a24400000000, 0x3bf25c3900000000, + 0xa869954600000000, 0x1dc5cfc600000000, 0x8e5e06b900000000, + 0x369a0b1d00000000, 0xa501c26200000000, 0x10ad98e200000000, + 0x8336519d00000000, 0x2122f27100000000, 0xb2b93b0e00000000, + 0x0715618e00000000, 0x948ea8f100000000, 0x2c4aa55500000000, + 0xbfd16c2a00000000, 0x0a7d36aa00000000, 0x99e6ffd500000000, + 0x359e2e7900000000, 0xa605e70600000000, 0x13a9bd8600000000, + 0x803274f900000000, 0x38f6795d00000000, 0xab6db02200000000, + 0x1ec1eaa200000000, 0x8d5a23dd00000000, 0x2f4e803100000000, + 0xbcd5494e00000000, 0x097913ce00000000, 0x9ae2dab100000000, + 0x2226d71500000000, 0xb1bd1e6a00000000, 0x041144ea00000000, + 0x978a8d9500000000, 0x013e73e800000000, 0x92a5ba9700000000, + 0x2709e01700000000, 0xb492296800000000, 0x0c5624cc00000000, + 0x9fcdedb300000000, 0x2a61b73300000000, 0xb9fa7e4c00000000, + 0x1beedda000000000, 0x887514df00000000, 0x3dd94e5f00000000, + 0xae42872000000000, 0x16868a8400000000, 0x851d43fb00000000, + 0x30b1197b00000000, 0xa32ad00400000000, 0x1cd8e48000000000, + 0x8f432dff00000000, 0x3aef777f00000000, 0xa974be0000000000, + 0x11b0b3a400000000, 0x822b7adb00000000, 0x3787205b00000000, + 0xa41ce92400000000, 0x06084ac800000000, 0x959383b700000000, + 0x203fd93700000000, 0xb3a4104800000000, 0x0b601dec00000000, + 0x98fbd49300000000, 0x2d578e1300000000, 0xbecc476c00000000, + 0x2878b91100000000, 0xbbe3706e00000000, 0x0e4f2aee00000000, + 0x9dd4e39100000000, 0x2510ee3500000000, 0xb68b274a00000000, + 0x03277dca00000000, 0x90bcb4b500000000, 0x32a8175900000000, + 0xa133de2600000000, 0x149f84a600000000, 0x87044dd900000000, + 0x3fc0407d00000000, 0xac5b890200000000, 0x19f7d38200000000, + 0x8a6c1afd00000000}, + {0x0000000000000000, 0x650b796900000000, 0xca16f2d200000000, + 0xaf1d8bbb00000000, 0xd52b957e00000000, 0xb020ec1700000000, + 0x1f3d67ac00000000, 0x7a361ec500000000, 0xaa572afd00000000, + 0xcf5c539400000000, 0x6041d82f00000000, 0x054aa14600000000, + 0x7f7cbf8300000000, 0x1a77c6ea00000000, 0xb56a4d5100000000, + 0xd061343800000000, 0x15a9252100000000, 0x70a25c4800000000, + 0xdfbfd7f300000000, 0xbab4ae9a00000000, 0xc082b05f00000000, + 0xa589c93600000000, 0x0a94428d00000000, 0x6f9f3be400000000, + 0xbffe0fdc00000000, 0xdaf576b500000000, 0x75e8fd0e00000000, + 0x10e3846700000000, 0x6ad59aa200000000, 0x0fdee3cb00000000, + 0xa0c3687000000000, 0xc5c8111900000000, 0x2a524b4200000000, + 0x4f59322b00000000, 0xe044b99000000000, 0x854fc0f900000000, + 0xff79de3c00000000, 0x9a72a75500000000, 0x356f2cee00000000, + 0x5064558700000000, 0x800561bf00000000, 0xe50e18d600000000, + 0x4a13936d00000000, 0x2f18ea0400000000, 0x552ef4c100000000, + 0x30258da800000000, 0x9f38061300000000, 0xfa337f7a00000000, + 0x3ffb6e6300000000, 0x5af0170a00000000, 0xf5ed9cb100000000, + 0x90e6e5d800000000, 0xead0fb1d00000000, 0x8fdb827400000000, + 0x20c609cf00000000, 0x45cd70a600000000, 0x95ac449e00000000, + 0xf0a73df700000000, 0x5fbab64c00000000, 0x3ab1cf2500000000, + 0x4087d1e000000000, 0x258ca88900000000, 0x8a91233200000000, + 0xef9a5a5b00000000, 0x54a4968400000000, 0x31afefed00000000, + 0x9eb2645600000000, 0xfbb91d3f00000000, 0x818f03fa00000000, + 0xe4847a9300000000, 0x4b99f12800000000, 0x2e92884100000000, + 0xfef3bc7900000000, 0x9bf8c51000000000, 0x34e54eab00000000, + 0x51ee37c200000000, 0x2bd8290700000000, 0x4ed3506e00000000, + 0xe1cedbd500000000, 0x84c5a2bc00000000, 0x410db3a500000000, + 0x2406cacc00000000, 0x8b1b417700000000, 0xee10381e00000000, + 0x942626db00000000, 0xf12d5fb200000000, 0x5e30d40900000000, + 0x3b3bad6000000000, 0xeb5a995800000000, 0x8e51e03100000000, + 0x214c6b8a00000000, 0x444712e300000000, 0x3e710c2600000000, + 0x5b7a754f00000000, 0xf467fef400000000, 0x916c879d00000000, + 0x7ef6ddc600000000, 0x1bfda4af00000000, 0xb4e02f1400000000, + 0xd1eb567d00000000, 0xabdd48b800000000, 0xced631d100000000, + 0x61cbba6a00000000, 0x04c0c30300000000, 0xd4a1f73b00000000, + 0xb1aa8e5200000000, 0x1eb705e900000000, 0x7bbc7c8000000000, + 0x018a624500000000, 0x64811b2c00000000, 0xcb9c909700000000, + 0xae97e9fe00000000, 0x6b5ff8e700000000, 0x0e54818e00000000, + 0xa1490a3500000000, 0xc442735c00000000, 0xbe746d9900000000, + 0xdb7f14f000000000, 0x74629f4b00000000, 0x1169e62200000000, + 0xc108d21a00000000, 0xa403ab7300000000, 0x0b1e20c800000000, + 0x6e1559a100000000, 0x1423476400000000, 0x71283e0d00000000, + 0xde35b5b600000000, 0xbb3eccdf00000000, 0xe94e5cd200000000, + 0x8c4525bb00000000, 0x2358ae0000000000, 0x4653d76900000000, + 0x3c65c9ac00000000, 0x596eb0c500000000, 0xf6733b7e00000000, + 0x9378421700000000, 0x4319762f00000000, 0x26120f4600000000, + 0x890f84fd00000000, 0xec04fd9400000000, 0x9632e35100000000, + 0xf3399a3800000000, 0x5c24118300000000, 0x392f68ea00000000, + 0xfce779f300000000, 0x99ec009a00000000, 0x36f18b2100000000, + 0x53faf24800000000, 0x29ccec8d00000000, 0x4cc795e400000000, + 0xe3da1e5f00000000, 0x86d1673600000000, 0x56b0530e00000000, + 0x33bb2a6700000000, 0x9ca6a1dc00000000, 0xf9add8b500000000, + 0x839bc67000000000, 0xe690bf1900000000, 0x498d34a200000000, + 0x2c864dcb00000000, 0xc31c179000000000, 0xa6176ef900000000, + 0x090ae54200000000, 0x6c019c2b00000000, 0x163782ee00000000, + 0x733cfb8700000000, 0xdc21703c00000000, 0xb92a095500000000, + 0x694b3d6d00000000, 0x0c40440400000000, 0xa35dcfbf00000000, + 0xc656b6d600000000, 0xbc60a81300000000, 0xd96bd17a00000000, + 0x76765ac100000000, 0x137d23a800000000, 0xd6b532b100000000, + 0xb3be4bd800000000, 0x1ca3c06300000000, 0x79a8b90a00000000, + 0x039ea7cf00000000, 0x6695dea600000000, 0xc988551d00000000, + 0xac832c7400000000, 0x7ce2184c00000000, 0x19e9612500000000, + 0xb6f4ea9e00000000, 0xd3ff93f700000000, 0xa9c98d3200000000, + 0xccc2f45b00000000, 0x63df7fe000000000, 0x06d4068900000000, + 0xbdeaca5600000000, 0xd8e1b33f00000000, 0x77fc388400000000, + 0x12f741ed00000000, 0x68c15f2800000000, 0x0dca264100000000, + 0xa2d7adfa00000000, 0xc7dcd49300000000, 0x17bde0ab00000000, + 0x72b699c200000000, 0xddab127900000000, 0xb8a06b1000000000, + 0xc29675d500000000, 0xa79d0cbc00000000, 0x0880870700000000, + 0x6d8bfe6e00000000, 0xa843ef7700000000, 0xcd48961e00000000, + 0x62551da500000000, 0x075e64cc00000000, 0x7d687a0900000000, + 0x1863036000000000, 0xb77e88db00000000, 0xd275f1b200000000, + 0x0214c58a00000000, 0x671fbce300000000, 0xc802375800000000, + 0xad094e3100000000, 0xd73f50f400000000, 0xb234299d00000000, + 0x1d29a22600000000, 0x7822db4f00000000, 0x97b8811400000000, + 0xf2b3f87d00000000, 0x5dae73c600000000, 0x38a50aaf00000000, + 0x4293146a00000000, 0x27986d0300000000, 0x8885e6b800000000, + 0xed8e9fd100000000, 0x3defabe900000000, 0x58e4d28000000000, + 0xf7f9593b00000000, 0x92f2205200000000, 0xe8c43e9700000000, + 0x8dcf47fe00000000, 0x22d2cc4500000000, 0x47d9b52c00000000, + 0x8211a43500000000, 0xe71add5c00000000, 0x480756e700000000, + 0x2d0c2f8e00000000, 0x573a314b00000000, 0x3231482200000000, + 0x9d2cc39900000000, 0xf827baf000000000, 0x28468ec800000000, + 0x4d4df7a100000000, 0xe2507c1a00000000, 0x875b057300000000, + 0xfd6d1bb600000000, 0x986662df00000000, 0x377be96400000000, + 0x5270900d00000000}, + {0x0000000000000000, 0xdcecb13d00000000, 0xb8d9637b00000000, + 0x6435d24600000000, 0x70b3c7f600000000, 0xac5f76cb00000000, + 0xc86aa48d00000000, 0x148615b000000000, 0xa160fe3600000000, + 0x7d8c4f0b00000000, 0x19b99d4d00000000, 0xc5552c7000000000, + 0xd1d339c000000000, 0x0d3f88fd00000000, 0x690a5abb00000000, + 0xb5e6eb8600000000, 0x42c1fc6d00000000, 0x9e2d4d5000000000, + 0xfa189f1600000000, 0x26f42e2b00000000, 0x32723b9b00000000, + 0xee9e8aa600000000, 0x8aab58e000000000, 0x5647e9dd00000000, + 0xe3a1025b00000000, 0x3f4db36600000000, 0x5b78612000000000, + 0x8794d01d00000000, 0x9312c5ad00000000, 0x4ffe749000000000, + 0x2bcba6d600000000, 0xf72717eb00000000, 0x8482f9db00000000, + 0x586e48e600000000, 0x3c5b9aa000000000, 0xe0b72b9d00000000, + 0xf4313e2d00000000, 0x28dd8f1000000000, 0x4ce85d5600000000, + 0x9004ec6b00000000, 0x25e207ed00000000, 0xf90eb6d000000000, + 0x9d3b649600000000, 0x41d7d5ab00000000, 0x5551c01b00000000, + 0x89bd712600000000, 0xed88a36000000000, 0x3164125d00000000, + 0xc64305b600000000, 0x1aafb48b00000000, 0x7e9a66cd00000000, + 0xa276d7f000000000, 0xb6f0c24000000000, 0x6a1c737d00000000, + 0x0e29a13b00000000, 0xd2c5100600000000, 0x6723fb8000000000, + 0xbbcf4abd00000000, 0xdffa98fb00000000, 0x031629c600000000, + 0x17903c7600000000, 0xcb7c8d4b00000000, 0xaf495f0d00000000, + 0x73a5ee3000000000, 0x4903826c00000000, 0x95ef335100000000, + 0xf1dae11700000000, 0x2d36502a00000000, 0x39b0459a00000000, + 0xe55cf4a700000000, 0x816926e100000000, 0x5d8597dc00000000, + 0xe8637c5a00000000, 0x348fcd6700000000, 0x50ba1f2100000000, + 0x8c56ae1c00000000, 0x98d0bbac00000000, 0x443c0a9100000000, + 0x2009d8d700000000, 0xfce569ea00000000, 0x0bc27e0100000000, + 0xd72ecf3c00000000, 0xb31b1d7a00000000, 0x6ff7ac4700000000, + 0x7b71b9f700000000, 0xa79d08ca00000000, 0xc3a8da8c00000000, + 0x1f446bb100000000, 0xaaa2803700000000, 0x764e310a00000000, + 0x127be34c00000000, 0xce97527100000000, 0xda1147c100000000, + 0x06fdf6fc00000000, 0x62c824ba00000000, 0xbe24958700000000, + 0xcd817bb700000000, 0x116dca8a00000000, 0x755818cc00000000, + 0xa9b4a9f100000000, 0xbd32bc4100000000, 0x61de0d7c00000000, + 0x05ebdf3a00000000, 0xd9076e0700000000, 0x6ce1858100000000, + 0xb00d34bc00000000, 0xd438e6fa00000000, 0x08d457c700000000, + 0x1c52427700000000, 0xc0bef34a00000000, 0xa48b210c00000000, + 0x7867903100000000, 0x8f4087da00000000, 0x53ac36e700000000, + 0x3799e4a100000000, 0xeb75559c00000000, 0xfff3402c00000000, + 0x231ff11100000000, 0x472a235700000000, 0x9bc6926a00000000, + 0x2e2079ec00000000, 0xf2ccc8d100000000, 0x96f91a9700000000, + 0x4a15abaa00000000, 0x5e93be1a00000000, 0x827f0f2700000000, + 0xe64add6100000000, 0x3aa66c5c00000000, 0x920604d900000000, + 0x4eeab5e400000000, 0x2adf67a200000000, 0xf633d69f00000000, + 0xe2b5c32f00000000, 0x3e59721200000000, 0x5a6ca05400000000, + 0x8680116900000000, 0x3366faef00000000, 0xef8a4bd200000000, + 0x8bbf999400000000, 0x575328a900000000, 0x43d53d1900000000, + 0x9f398c2400000000, 0xfb0c5e6200000000, 0x27e0ef5f00000000, + 0xd0c7f8b400000000, 0x0c2b498900000000, 0x681e9bcf00000000, + 0xb4f22af200000000, 0xa0743f4200000000, 0x7c988e7f00000000, + 0x18ad5c3900000000, 0xc441ed0400000000, 0x71a7068200000000, + 0xad4bb7bf00000000, 0xc97e65f900000000, 0x1592d4c400000000, + 0x0114c17400000000, 0xddf8704900000000, 0xb9cda20f00000000, + 0x6521133200000000, 0x1684fd0200000000, 0xca684c3f00000000, + 0xae5d9e7900000000, 0x72b12f4400000000, 0x66373af400000000, + 0xbadb8bc900000000, 0xdeee598f00000000, 0x0202e8b200000000, + 0xb7e4033400000000, 0x6b08b20900000000, 0x0f3d604f00000000, + 0xd3d1d17200000000, 0xc757c4c200000000, 0x1bbb75ff00000000, + 0x7f8ea7b900000000, 0xa362168400000000, 0x5445016f00000000, + 0x88a9b05200000000, 0xec9c621400000000, 0x3070d32900000000, + 0x24f6c69900000000, 0xf81a77a400000000, 0x9c2fa5e200000000, + 0x40c314df00000000, 0xf525ff5900000000, 0x29c94e6400000000, + 0x4dfc9c2200000000, 0x91102d1f00000000, 0x859638af00000000, + 0x597a899200000000, 0x3d4f5bd400000000, 0xe1a3eae900000000, + 0xdb0586b500000000, 0x07e9378800000000, 0x63dce5ce00000000, + 0xbf3054f300000000, 0xabb6414300000000, 0x775af07e00000000, + 0x136f223800000000, 0xcf83930500000000, 0x7a65788300000000, + 0xa689c9be00000000, 0xc2bc1bf800000000, 0x1e50aac500000000, + 0x0ad6bf7500000000, 0xd63a0e4800000000, 0xb20fdc0e00000000, + 0x6ee36d3300000000, 0x99c47ad800000000, 0x4528cbe500000000, + 0x211d19a300000000, 0xfdf1a89e00000000, 0xe977bd2e00000000, + 0x359b0c1300000000, 0x51aede5500000000, 0x8d426f6800000000, + 0x38a484ee00000000, 0xe44835d300000000, 0x807de79500000000, + 0x5c9156a800000000, 0x4817431800000000, 0x94fbf22500000000, + 0xf0ce206300000000, 0x2c22915e00000000, 0x5f877f6e00000000, + 0x836bce5300000000, 0xe75e1c1500000000, 0x3bb2ad2800000000, + 0x2f34b89800000000, 0xf3d809a500000000, 0x97eddbe300000000, + 0x4b016ade00000000, 0xfee7815800000000, 0x220b306500000000, + 0x463ee22300000000, 0x9ad2531e00000000, 0x8e5446ae00000000, + 0x52b8f79300000000, 0x368d25d500000000, 0xea6194e800000000, + 0x1d46830300000000, 0xc1aa323e00000000, 0xa59fe07800000000, + 0x7973514500000000, 0x6df544f500000000, 0xb119f5c800000000, + 0xd52c278e00000000, 0x09c096b300000000, 0xbc267d3500000000, + 0x60cacc0800000000, 0x04ff1e4e00000000, 0xd813af7300000000, + 0xcc95bac300000000, 0x10790bfe00000000, 0x744cd9b800000000, + 0xa8a0688500000000}}; + +#else /* W == 4 */ + +local const z_crc_t FAR crc_braid_table[][256] = { + {0x00000000, 0x81256527, 0xd93bcc0f, 0x581ea928, 0x69069e5f, + 0xe823fb78, 0xb03d5250, 0x31183777, 0xd20d3cbe, 0x53285999, + 0x0b36f0b1, 0x8a139596, 0xbb0ba2e1, 0x3a2ec7c6, 0x62306eee, + 0xe3150bc9, 0x7f6b7f3d, 0xfe4e1a1a, 0xa650b332, 0x2775d615, + 0x166de162, 0x97488445, 0xcf562d6d, 0x4e73484a, 0xad664383, + 0x2c4326a4, 0x745d8f8c, 0xf578eaab, 0xc460dddc, 0x4545b8fb, + 0x1d5b11d3, 0x9c7e74f4, 0xfed6fe7a, 0x7ff39b5d, 0x27ed3275, + 0xa6c85752, 0x97d06025, 0x16f50502, 0x4eebac2a, 0xcfcec90d, + 0x2cdbc2c4, 0xadfea7e3, 0xf5e00ecb, 0x74c56bec, 0x45dd5c9b, + 0xc4f839bc, 0x9ce69094, 0x1dc3f5b3, 0x81bd8147, 0x0098e460, + 0x58864d48, 0xd9a3286f, 0xe8bb1f18, 0x699e7a3f, 0x3180d317, + 0xb0a5b630, 0x53b0bdf9, 0xd295d8de, 0x8a8b71f6, 0x0bae14d1, + 0x3ab623a6, 0xbb934681, 0xe38defa9, 0x62a88a8e, 0x26dcfab5, + 0xa7f99f92, 0xffe736ba, 0x7ec2539d, 0x4fda64ea, 0xceff01cd, + 0x96e1a8e5, 0x17c4cdc2, 0xf4d1c60b, 0x75f4a32c, 0x2dea0a04, + 0xaccf6f23, 0x9dd75854, 0x1cf23d73, 0x44ec945b, 0xc5c9f17c, + 0x59b78588, 0xd892e0af, 0x808c4987, 0x01a92ca0, 0x30b11bd7, + 0xb1947ef0, 0xe98ad7d8, 0x68afb2ff, 0x8bbab936, 0x0a9fdc11, + 0x52817539, 0xd3a4101e, 0xe2bc2769, 0x6399424e, 0x3b87eb66, + 0xbaa28e41, 0xd80a04cf, 0x592f61e8, 0x0131c8c0, 0x8014ade7, + 0xb10c9a90, 0x3029ffb7, 0x6837569f, 0xe91233b8, 0x0a073871, + 0x8b225d56, 0xd33cf47e, 0x52199159, 0x6301a62e, 0xe224c309, + 0xba3a6a21, 0x3b1f0f06, 0xa7617bf2, 0x26441ed5, 0x7e5ab7fd, + 0xff7fd2da, 0xce67e5ad, 0x4f42808a, 0x175c29a2, 0x96794c85, + 0x756c474c, 0xf449226b, 0xac578b43, 0x2d72ee64, 0x1c6ad913, + 0x9d4fbc34, 0xc551151c, 0x4474703b, 0x4db9f56a, 0xcc9c904d, + 0x94823965, 0x15a75c42, 0x24bf6b35, 0xa59a0e12, 0xfd84a73a, + 0x7ca1c21d, 0x9fb4c9d4, 0x1e91acf3, 0x468f05db, 0xc7aa60fc, + 0xf6b2578b, 0x779732ac, 0x2f899b84, 0xaeacfea3, 0x32d28a57, + 0xb3f7ef70, 0xebe94658, 0x6acc237f, 0x5bd41408, 0xdaf1712f, + 0x82efd807, 0x03cabd20, 0xe0dfb6e9, 0x61fad3ce, 0x39e47ae6, + 0xb8c11fc1, 0x89d928b6, 0x08fc4d91, 0x50e2e4b9, 0xd1c7819e, + 0xb36f0b10, 0x324a6e37, 0x6a54c71f, 0xeb71a238, 0xda69954f, + 0x5b4cf068, 0x03525940, 0x82773c67, 0x616237ae, 0xe0475289, + 0xb859fba1, 0x397c9e86, 0x0864a9f1, 0x8941ccd6, 0xd15f65fe, + 0x507a00d9, 0xcc04742d, 0x4d21110a, 0x153fb822, 0x941add05, + 0xa502ea72, 0x24278f55, 0x7c39267d, 0xfd1c435a, 0x1e094893, + 0x9f2c2db4, 0xc732849c, 0x4617e1bb, 0x770fd6cc, 0xf62ab3eb, + 0xae341ac3, 0x2f117fe4, 0x6b650fdf, 0xea406af8, 0xb25ec3d0, + 0x337ba6f7, 0x02639180, 0x8346f4a7, 0xdb585d8f, 0x5a7d38a8, + 0xb9683361, 0x384d5646, 0x6053ff6e, 0xe1769a49, 0xd06ead3e, + 0x514bc819, 0x09556131, 0x88700416, 0x140e70e2, 0x952b15c5, + 0xcd35bced, 0x4c10d9ca, 0x7d08eebd, 0xfc2d8b9a, 0xa43322b2, + 0x25164795, 0xc6034c5c, 0x4726297b, 0x1f388053, 0x9e1de574, + 0xaf05d203, 0x2e20b724, 0x763e1e0c, 0xf71b7b2b, 0x95b3f1a5, + 0x14969482, 0x4c883daa, 0xcdad588d, 0xfcb56ffa, 0x7d900add, + 0x258ea3f5, 0xa4abc6d2, 0x47becd1b, 0xc69ba83c, 0x9e850114, + 0x1fa06433, 0x2eb85344, 0xaf9d3663, 0xf7839f4b, 0x76a6fa6c, + 0xead88e98, 0x6bfdebbf, 0x33e34297, 0xb2c627b0, 0x83de10c7, + 0x02fb75e0, 0x5ae5dcc8, 0xdbc0b9ef, 0x38d5b226, 0xb9f0d701, + 0xe1ee7e29, 0x60cb1b0e, 0x51d32c79, 0xd0f6495e, 0x88e8e076, + 0x09cd8551}, + {0x00000000, 0x9b73ead4, 0xed96d3e9, 0x76e5393d, 0x005ca193, + 0x9b2f4b47, 0xedca727a, 0x76b998ae, 0x00b94326, 0x9bcaa9f2, + 0xed2f90cf, 0x765c7a1b, 0x00e5e2b5, 0x9b960861, 0xed73315c, + 0x7600db88, 0x0172864c, 0x9a016c98, 0xece455a5, 0x7797bf71, + 0x012e27df, 0x9a5dcd0b, 0xecb8f436, 0x77cb1ee2, 0x01cbc56a, + 0x9ab82fbe, 0xec5d1683, 0x772efc57, 0x019764f9, 0x9ae48e2d, + 0xec01b710, 0x77725dc4, 0x02e50c98, 0x9996e64c, 0xef73df71, + 0x740035a5, 0x02b9ad0b, 0x99ca47df, 0xef2f7ee2, 0x745c9436, + 0x025c4fbe, 0x992fa56a, 0xefca9c57, 0x74b97683, 0x0200ee2d, + 0x997304f9, 0xef963dc4, 0x74e5d710, 0x03978ad4, 0x98e46000, + 0xee01593d, 0x7572b3e9, 0x03cb2b47, 0x98b8c193, 0xee5df8ae, + 0x752e127a, 0x032ec9f2, 0x985d2326, 0xeeb81a1b, 0x75cbf0cf, + 0x03726861, 0x980182b5, 0xeee4bb88, 0x7597515c, 0x05ca1930, + 0x9eb9f3e4, 0xe85ccad9, 0x732f200d, 0x0596b8a3, 0x9ee55277, + 0xe8006b4a, 0x7373819e, 0x05735a16, 0x9e00b0c2, 0xe8e589ff, + 0x7396632b, 0x052ffb85, 0x9e5c1151, 0xe8b9286c, 0x73cac2b8, + 0x04b89f7c, 0x9fcb75a8, 0xe92e4c95, 0x725da641, 0x04e43eef, + 0x9f97d43b, 0xe972ed06, 0x720107d2, 0x0401dc5a, 0x9f72368e, + 0xe9970fb3, 0x72e4e567, 0x045d7dc9, 0x9f2e971d, 0xe9cbae20, + 0x72b844f4, 0x072f15a8, 0x9c5cff7c, 0xeab9c641, 0x71ca2c95, + 0x0773b43b, 0x9c005eef, 0xeae567d2, 0x71968d06, 0x0796568e, + 0x9ce5bc5a, 0xea008567, 0x71736fb3, 0x07caf71d, 0x9cb91dc9, + 0xea5c24f4, 0x712fce20, 0x065d93e4, 0x9d2e7930, 0xebcb400d, + 0x70b8aad9, 0x06013277, 0x9d72d8a3, 0xeb97e19e, 0x70e40b4a, + 0x06e4d0c2, 0x9d973a16, 0xeb72032b, 0x7001e9ff, 0x06b87151, + 0x9dcb9b85, 0xeb2ea2b8, 0x705d486c, 0x0b943260, 0x90e7d8b4, + 0xe602e189, 0x7d710b5d, 0x0bc893f3, 0x90bb7927, 0xe65e401a, + 0x7d2daace, 0x0b2d7146, 0x905e9b92, 0xe6bba2af, 0x7dc8487b, + 0x0b71d0d5, 0x90023a01, 0xe6e7033c, 0x7d94e9e8, 0x0ae6b42c, + 0x91955ef8, 0xe77067c5, 0x7c038d11, 0x0aba15bf, 0x91c9ff6b, + 0xe72cc656, 0x7c5f2c82, 0x0a5ff70a, 0x912c1dde, 0xe7c924e3, + 0x7cbace37, 0x0a035699, 0x9170bc4d, 0xe7958570, 0x7ce66fa4, + 0x09713ef8, 0x9202d42c, 0xe4e7ed11, 0x7f9407c5, 0x092d9f6b, + 0x925e75bf, 0xe4bb4c82, 0x7fc8a656, 0x09c87dde, 0x92bb970a, + 0xe45eae37, 0x7f2d44e3, 0x0994dc4d, 0x92e73699, 0xe4020fa4, + 0x7f71e570, 0x0803b8b4, 0x93705260, 0xe5956b5d, 0x7ee68189, + 0x085f1927, 0x932cf3f3, 0xe5c9cace, 0x7eba201a, 0x08bafb92, + 0x93c91146, 0xe52c287b, 0x7e5fc2af, 0x08e65a01, 0x9395b0d5, + 0xe57089e8, 0x7e03633c, 0x0e5e2b50, 0x952dc184, 0xe3c8f8b9, + 0x78bb126d, 0x0e028ac3, 0x95716017, 0xe394592a, 0x78e7b3fe, + 0x0ee76876, 0x959482a2, 0xe371bb9f, 0x7802514b, 0x0ebbc9e5, + 0x95c82331, 0xe32d1a0c, 0x785ef0d8, 0x0f2cad1c, 0x945f47c8, + 0xe2ba7ef5, 0x79c99421, 0x0f700c8f, 0x9403e65b, 0xe2e6df66, + 0x799535b2, 0x0f95ee3a, 0x94e604ee, 0xe2033dd3, 0x7970d707, + 0x0fc94fa9, 0x94baa57d, 0xe25f9c40, 0x792c7694, 0x0cbb27c8, + 0x97c8cd1c, 0xe12df421, 0x7a5e1ef5, 0x0ce7865b, 0x97946c8f, + 0xe17155b2, 0x7a02bf66, 0x0c0264ee, 0x97718e3a, 0xe194b707, + 0x7ae75dd3, 0x0c5ec57d, 0x972d2fa9, 0xe1c81694, 0x7abbfc40, + 0x0dc9a184, 0x96ba4b50, 0xe05f726d, 0x7b2c98b9, 0x0d950017, + 0x96e6eac3, 0xe003d3fe, 0x7b70392a, 0x0d70e2a2, 0x96030876, + 0xe0e6314b, 0x7b95db9f, 0x0d2c4331, 0x965fa9e5, 0xe0ba90d8, + 0x7bc97a0c}, + {0x00000000, 0x172864c0, 0x2e50c980, 0x3978ad40, 0x5ca19300, + 0x4b89f7c0, 0x72f15a80, 0x65d93e40, 0xb9432600, 0xae6b42c0, + 0x9713ef80, 0x803b8b40, 0xe5e2b500, 0xf2cad1c0, 0xcbb27c80, + 0xdc9a1840, 0xa9f74a41, 0xbedf2e81, 0x87a783c1, 0x908fe701, + 0xf556d941, 0xe27ebd81, 0xdb0610c1, 0xcc2e7401, 0x10b46c41, + 0x079c0881, 0x3ee4a5c1, 0x29ccc101, 0x4c15ff41, 0x5b3d9b81, + 0x624536c1, 0x756d5201, 0x889f92c3, 0x9fb7f603, 0xa6cf5b43, + 0xb1e73f83, 0xd43e01c3, 0xc3166503, 0xfa6ec843, 0xed46ac83, + 0x31dcb4c3, 0x26f4d003, 0x1f8c7d43, 0x08a41983, 0x6d7d27c3, + 0x7a554303, 0x432dee43, 0x54058a83, 0x2168d882, 0x3640bc42, + 0x0f381102, 0x181075c2, 0x7dc94b82, 0x6ae12f42, 0x53998202, + 0x44b1e6c2, 0x982bfe82, 0x8f039a42, 0xb67b3702, 0xa15353c2, + 0xc48a6d82, 0xd3a20942, 0xeadaa402, 0xfdf2c0c2, 0xca4e23c7, + 0xdd664707, 0xe41eea47, 0xf3368e87, 0x96efb0c7, 0x81c7d407, + 0xb8bf7947, 0xaf971d87, 0x730d05c7, 0x64256107, 0x5d5dcc47, + 0x4a75a887, 0x2fac96c7, 0x3884f207, 0x01fc5f47, 0x16d43b87, + 0x63b96986, 0x74910d46, 0x4de9a006, 0x5ac1c4c6, 0x3f18fa86, + 0x28309e46, 0x11483306, 0x066057c6, 0xdafa4f86, 0xcdd22b46, + 0xf4aa8606, 0xe382e2c6, 0x865bdc86, 0x9173b846, 0xa80b1506, + 0xbf2371c6, 0x42d1b104, 0x55f9d5c4, 0x6c817884, 0x7ba91c44, + 0x1e702204, 0x095846c4, 0x3020eb84, 0x27088f44, 0xfb929704, + 0xecbaf3c4, 0xd5c25e84, 0xc2ea3a44, 0xa7330404, 0xb01b60c4, + 0x8963cd84, 0x9e4ba944, 0xeb26fb45, 0xfc0e9f85, 0xc57632c5, + 0xd25e5605, 0xb7876845, 0xa0af0c85, 0x99d7a1c5, 0x8effc505, + 0x5265dd45, 0x454db985, 0x7c3514c5, 0x6b1d7005, 0x0ec44e45, + 0x19ec2a85, 0x209487c5, 0x37bce305, 0x4fed41cf, 0x58c5250f, + 0x61bd884f, 0x7695ec8f, 0x134cd2cf, 0x0464b60f, 0x3d1c1b4f, + 0x2a347f8f, 0xf6ae67cf, 0xe186030f, 0xd8feae4f, 0xcfd6ca8f, + 0xaa0ff4cf, 0xbd27900f, 0x845f3d4f, 0x9377598f, 0xe61a0b8e, + 0xf1326f4e, 0xc84ac20e, 0xdf62a6ce, 0xbabb988e, 0xad93fc4e, + 0x94eb510e, 0x83c335ce, 0x5f592d8e, 0x4871494e, 0x7109e40e, + 0x662180ce, 0x03f8be8e, 0x14d0da4e, 0x2da8770e, 0x3a8013ce, + 0xc772d30c, 0xd05ab7cc, 0xe9221a8c, 0xfe0a7e4c, 0x9bd3400c, + 0x8cfb24cc, 0xb583898c, 0xa2abed4c, 0x7e31f50c, 0x691991cc, + 0x50613c8c, 0x4749584c, 0x2290660c, 0x35b802cc, 0x0cc0af8c, + 0x1be8cb4c, 0x6e85994d, 0x79adfd8d, 0x40d550cd, 0x57fd340d, + 0x32240a4d, 0x250c6e8d, 0x1c74c3cd, 0x0b5ca70d, 0xd7c6bf4d, + 0xc0eedb8d, 0xf99676cd, 0xeebe120d, 0x8b672c4d, 0x9c4f488d, + 0xa537e5cd, 0xb21f810d, 0x85a36208, 0x928b06c8, 0xabf3ab88, + 0xbcdbcf48, 0xd902f108, 0xce2a95c8, 0xf7523888, 0xe07a5c48, + 0x3ce04408, 0x2bc820c8, 0x12b08d88, 0x0598e948, 0x6041d708, + 0x7769b3c8, 0x4e111e88, 0x59397a48, 0x2c542849, 0x3b7c4c89, + 0x0204e1c9, 0x152c8509, 0x70f5bb49, 0x67dddf89, 0x5ea572c9, + 0x498d1609, 0x95170e49, 0x823f6a89, 0xbb47c7c9, 0xac6fa309, + 0xc9b69d49, 0xde9ef989, 0xe7e654c9, 0xf0ce3009, 0x0d3cf0cb, + 0x1a14940b, 0x236c394b, 0x34445d8b, 0x519d63cb, 0x46b5070b, + 0x7fcdaa4b, 0x68e5ce8b, 0xb47fd6cb, 0xa357b20b, 0x9a2f1f4b, + 0x8d077b8b, 0xe8de45cb, 0xfff6210b, 0xc68e8c4b, 0xd1a6e88b, + 0xa4cbba8a, 0xb3e3de4a, 0x8a9b730a, 0x9db317ca, 0xf86a298a, + 0xef424d4a, 0xd63ae00a, 0xc11284ca, 0x1d889c8a, 0x0aa0f84a, + 0x33d8550a, 0x24f031ca, 0x41290f8a, 0x56016b4a, 0x6f79c60a, + 0x7851a2ca}, + {0x00000000, 0x9fda839e, 0xe4c4017d, 0x7b1e82e3, 0x12f904bb, + 0x8d238725, 0xf63d05c6, 0x69e78658, 0x25f20976, 0xba288ae8, + 0xc136080b, 0x5eec8b95, 0x370b0dcd, 0xa8d18e53, 0xd3cf0cb0, + 0x4c158f2e, 0x4be412ec, 0xd43e9172, 0xaf201391, 0x30fa900f, + 0x591d1657, 0xc6c795c9, 0xbdd9172a, 0x220394b4, 0x6e161b9a, + 0xf1cc9804, 0x8ad21ae7, 0x15089979, 0x7cef1f21, 0xe3359cbf, + 0x982b1e5c, 0x07f19dc2, 0x97c825d8, 0x0812a646, 0x730c24a5, + 0xecd6a73b, 0x85312163, 0x1aeba2fd, 0x61f5201e, 0xfe2fa380, + 0xb23a2cae, 0x2de0af30, 0x56fe2dd3, 0xc924ae4d, 0xa0c32815, + 0x3f19ab8b, 0x44072968, 0xdbddaaf6, 0xdc2c3734, 0x43f6b4aa, + 0x38e83649, 0xa732b5d7, 0xced5338f, 0x510fb011, 0x2a1132f2, + 0xb5cbb16c, 0xf9de3e42, 0x6604bddc, 0x1d1a3f3f, 0x82c0bca1, + 0xeb273af9, 0x74fdb967, 0x0fe33b84, 0x9039b81a, 0xf4e14df1, + 0x6b3bce6f, 0x10254c8c, 0x8fffcf12, 0xe618494a, 0x79c2cad4, + 0x02dc4837, 0x9d06cba9, 0xd1134487, 0x4ec9c719, 0x35d745fa, + 0xaa0dc664, 0xc3ea403c, 0x5c30c3a2, 0x272e4141, 0xb8f4c2df, + 0xbf055f1d, 0x20dfdc83, 0x5bc15e60, 0xc41bddfe, 0xadfc5ba6, + 0x3226d838, 0x49385adb, 0xd6e2d945, 0x9af7566b, 0x052dd5f5, + 0x7e335716, 0xe1e9d488, 0x880e52d0, 0x17d4d14e, 0x6cca53ad, + 0xf310d033, 0x63296829, 0xfcf3ebb7, 0x87ed6954, 0x1837eaca, + 0x71d06c92, 0xee0aef0c, 0x95146def, 0x0aceee71, 0x46db615f, + 0xd901e2c1, 0xa21f6022, 0x3dc5e3bc, 0x542265e4, 0xcbf8e67a, + 0xb0e66499, 0x2f3ce707, 0x28cd7ac5, 0xb717f95b, 0xcc097bb8, + 0x53d3f826, 0x3a347e7e, 0xa5eefde0, 0xdef07f03, 0x412afc9d, + 0x0d3f73b3, 0x92e5f02d, 0xe9fb72ce, 0x7621f150, 0x1fc67708, + 0x801cf496, 0xfb027675, 0x64d8f5eb, 0x32b39da3, 0xad691e3d, + 0xd6779cde, 0x49ad1f40, 0x204a9918, 0xbf901a86, 0xc48e9865, + 0x5b541bfb, 0x174194d5, 0x889b174b, 0xf38595a8, 0x6c5f1636, + 0x05b8906e, 0x9a6213f0, 0xe17c9113, 0x7ea6128d, 0x79578f4f, + 0xe68d0cd1, 0x9d938e32, 0x02490dac, 0x6bae8bf4, 0xf474086a, + 0x8f6a8a89, 0x10b00917, 0x5ca58639, 0xc37f05a7, 0xb8618744, + 0x27bb04da, 0x4e5c8282, 0xd186011c, 0xaa9883ff, 0x35420061, + 0xa57bb87b, 0x3aa13be5, 0x41bfb906, 0xde653a98, 0xb782bcc0, + 0x28583f5e, 0x5346bdbd, 0xcc9c3e23, 0x8089b10d, 0x1f533293, + 0x644db070, 0xfb9733ee, 0x9270b5b6, 0x0daa3628, 0x76b4b4cb, + 0xe96e3755, 0xee9faa97, 0x71452909, 0x0a5babea, 0x95812874, + 0xfc66ae2c, 0x63bc2db2, 0x18a2af51, 0x87782ccf, 0xcb6da3e1, + 0x54b7207f, 0x2fa9a29c, 0xb0732102, 0xd994a75a, 0x464e24c4, + 0x3d50a627, 0xa28a25b9, 0xc652d052, 0x598853cc, 0x2296d12f, + 0xbd4c52b1, 0xd4abd4e9, 0x4b715777, 0x306fd594, 0xafb5560a, + 0xe3a0d924, 0x7c7a5aba, 0x0764d859, 0x98be5bc7, 0xf159dd9f, + 0x6e835e01, 0x159ddce2, 0x8a475f7c, 0x8db6c2be, 0x126c4120, + 0x6972c3c3, 0xf6a8405d, 0x9f4fc605, 0x0095459b, 0x7b8bc778, + 0xe45144e6, 0xa844cbc8, 0x379e4856, 0x4c80cab5, 0xd35a492b, + 0xbabdcf73, 0x25674ced, 0x5e79ce0e, 0xc1a34d90, 0x519af58a, + 0xce407614, 0xb55ef4f7, 0x2a847769, 0x4363f131, 0xdcb972af, + 0xa7a7f04c, 0x387d73d2, 0x7468fcfc, 0xebb27f62, 0x90acfd81, + 0x0f767e1f, 0x6691f847, 0xf94b7bd9, 0x8255f93a, 0x1d8f7aa4, + 0x1a7ee766, 0x85a464f8, 0xfebae61b, 0x61606585, 0x0887e3dd, + 0x975d6043, 0xec43e2a0, 0x7399613e, 0x3f8cee10, 0xa0566d8e, + 0xdb48ef6d, 0x44926cf3, 0x2d75eaab, 0xb2af6935, 0xc9b1ebd6, + 0x566b6848}}; + +local const z_word_t FAR crc_braid_big_table[][256] = { + {0x00000000, 0x9e83da9f, 0x7d01c4e4, 0xe3821e7b, 0xbb04f912, + 0x2587238d, 0xc6053df6, 0x5886e769, 0x7609f225, 0xe88a28ba, + 0x0b0836c1, 0x958bec5e, 0xcd0d0b37, 0x538ed1a8, 0xb00ccfd3, + 0x2e8f154c, 0xec12e44b, 0x72913ed4, 0x911320af, 0x0f90fa30, + 0x57161d59, 0xc995c7c6, 0x2a17d9bd, 0xb4940322, 0x9a1b166e, + 0x0498ccf1, 0xe71ad28a, 0x79990815, 0x211fef7c, 0xbf9c35e3, + 0x5c1e2b98, 0xc29df107, 0xd825c897, 0x46a61208, 0xa5240c73, + 0x3ba7d6ec, 0x63213185, 0xfda2eb1a, 0x1e20f561, 0x80a32ffe, + 0xae2c3ab2, 0x30afe02d, 0xd32dfe56, 0x4dae24c9, 0x1528c3a0, + 0x8bab193f, 0x68290744, 0xf6aadddb, 0x34372cdc, 0xaab4f643, + 0x4936e838, 0xd7b532a7, 0x8f33d5ce, 0x11b00f51, 0xf232112a, + 0x6cb1cbb5, 0x423edef9, 0xdcbd0466, 0x3f3f1a1d, 0xa1bcc082, + 0xf93a27eb, 0x67b9fd74, 0x843be30f, 0x1ab83990, 0xf14de1f4, + 0x6fce3b6b, 0x8c4c2510, 0x12cfff8f, 0x4a4918e6, 0xd4cac279, + 0x3748dc02, 0xa9cb069d, 0x874413d1, 0x19c7c94e, 0xfa45d735, + 0x64c60daa, 0x3c40eac3, 0xa2c3305c, 0x41412e27, 0xdfc2f4b8, + 0x1d5f05bf, 0x83dcdf20, 0x605ec15b, 0xfedd1bc4, 0xa65bfcad, + 0x38d82632, 0xdb5a3849, 0x45d9e2d6, 0x6b56f79a, 0xf5d52d05, + 0x1657337e, 0x88d4e9e1, 0xd0520e88, 0x4ed1d417, 0xad53ca6c, + 0x33d010f3, 0x29682963, 0xb7ebf3fc, 0x5469ed87, 0xcaea3718, + 0x926cd071, 0x0cef0aee, 0xef6d1495, 0x71eece0a, 0x5f61db46, + 0xc1e201d9, 0x22601fa2, 0xbce3c53d, 0xe4652254, 0x7ae6f8cb, + 0x9964e6b0, 0x07e73c2f, 0xc57acd28, 0x5bf917b7, 0xb87b09cc, + 0x26f8d353, 0x7e7e343a, 0xe0fdeea5, 0x037ff0de, 0x9dfc2a41, + 0xb3733f0d, 0x2df0e592, 0xce72fbe9, 0x50f12176, 0x0877c61f, + 0x96f41c80, 0x757602fb, 0xebf5d864, 0xa39db332, 0x3d1e69ad, + 0xde9c77d6, 0x401fad49, 0x18994a20, 0x861a90bf, 0x65988ec4, + 0xfb1b545b, 0xd5944117, 0x4b179b88, 0xa89585f3, 0x36165f6c, + 0x6e90b805, 0xf013629a, 0x13917ce1, 0x8d12a67e, 0x4f8f5779, + 0xd10c8de6, 0x328e939d, 0xac0d4902, 0xf48bae6b, 0x6a0874f4, + 0x898a6a8f, 0x1709b010, 0x3986a55c, 0xa7057fc3, 0x448761b8, + 0xda04bb27, 0x82825c4e, 0x1c0186d1, 0xff8398aa, 0x61004235, + 0x7bb87ba5, 0xe53ba13a, 0x06b9bf41, 0x983a65de, 0xc0bc82b7, + 0x5e3f5828, 0xbdbd4653, 0x233e9ccc, 0x0db18980, 0x9332531f, + 0x70b04d64, 0xee3397fb, 0xb6b57092, 0x2836aa0d, 0xcbb4b476, + 0x55376ee9, 0x97aa9fee, 0x09294571, 0xeaab5b0a, 0x74288195, + 0x2cae66fc, 0xb22dbc63, 0x51afa218, 0xcf2c7887, 0xe1a36dcb, + 0x7f20b754, 0x9ca2a92f, 0x022173b0, 0x5aa794d9, 0xc4244e46, + 0x27a6503d, 0xb9258aa2, 0x52d052c6, 0xcc538859, 0x2fd19622, + 0xb1524cbd, 0xe9d4abd4, 0x7757714b, 0x94d56f30, 0x0a56b5af, + 0x24d9a0e3, 0xba5a7a7c, 0x59d86407, 0xc75bbe98, 0x9fdd59f1, + 0x015e836e, 0xe2dc9d15, 0x7c5f478a, 0xbec2b68d, 0x20416c12, + 0xc3c37269, 0x5d40a8f6, 0x05c64f9f, 0x9b459500, 0x78c78b7b, + 0xe64451e4, 0xc8cb44a8, 0x56489e37, 0xb5ca804c, 0x2b495ad3, + 0x73cfbdba, 0xed4c6725, 0x0ece795e, 0x904da3c1, 0x8af59a51, + 0x147640ce, 0xf7f45eb5, 0x6977842a, 0x31f16343, 0xaf72b9dc, + 0x4cf0a7a7, 0xd2737d38, 0xfcfc6874, 0x627fb2eb, 0x81fdac90, + 0x1f7e760f, 0x47f89166, 0xd97b4bf9, 0x3af95582, 0xa47a8f1d, + 0x66e77e1a, 0xf864a485, 0x1be6bafe, 0x85656061, 0xdde38708, + 0x43605d97, 0xa0e243ec, 0x3e619973, 0x10ee8c3f, 0x8e6d56a0, + 0x6def48db, 0xf36c9244, 0xabea752d, 0x3569afb2, 0xd6ebb1c9, + 0x48686b56}, + {0x00000000, 0xc0642817, 0x80c9502e, 0x40ad7839, 0x0093a15c, + 0xc0f7894b, 0x805af172, 0x403ed965, 0x002643b9, 0xc0426bae, + 0x80ef1397, 0x408b3b80, 0x00b5e2e5, 0xc0d1caf2, 0x807cb2cb, + 0x40189adc, 0x414af7a9, 0x812edfbe, 0xc183a787, 0x01e78f90, + 0x41d956f5, 0x81bd7ee2, 0xc11006db, 0x01742ecc, 0x416cb410, + 0x81089c07, 0xc1a5e43e, 0x01c1cc29, 0x41ff154c, 0x819b3d5b, + 0xc1364562, 0x01526d75, 0xc3929f88, 0x03f6b79f, 0x435bcfa6, + 0x833fe7b1, 0xc3013ed4, 0x036516c3, 0x43c86efa, 0x83ac46ed, + 0xc3b4dc31, 0x03d0f426, 0x437d8c1f, 0x8319a408, 0xc3277d6d, + 0x0343557a, 0x43ee2d43, 0x838a0554, 0x82d86821, 0x42bc4036, + 0x0211380f, 0xc2751018, 0x824bc97d, 0x422fe16a, 0x02829953, + 0xc2e6b144, 0x82fe2b98, 0x429a038f, 0x02377bb6, 0xc25353a1, + 0x826d8ac4, 0x4209a2d3, 0x02a4daea, 0xc2c0f2fd, 0xc7234eca, + 0x074766dd, 0x47ea1ee4, 0x878e36f3, 0xc7b0ef96, 0x07d4c781, + 0x4779bfb8, 0x871d97af, 0xc7050d73, 0x07612564, 0x47cc5d5d, + 0x87a8754a, 0xc796ac2f, 0x07f28438, 0x475ffc01, 0x873bd416, + 0x8669b963, 0x460d9174, 0x06a0e94d, 0xc6c4c15a, 0x86fa183f, + 0x469e3028, 0x06334811, 0xc6576006, 0x864ffada, 0x462bd2cd, + 0x0686aaf4, 0xc6e282e3, 0x86dc5b86, 0x46b87391, 0x06150ba8, + 0xc67123bf, 0x04b1d142, 0xc4d5f955, 0x8478816c, 0x441ca97b, + 0x0422701e, 0xc4465809, 0x84eb2030, 0x448f0827, 0x049792fb, + 0xc4f3baec, 0x845ec2d5, 0x443aeac2, 0x040433a7, 0xc4601bb0, + 0x84cd6389, 0x44a94b9e, 0x45fb26eb, 0x859f0efc, 0xc53276c5, + 0x05565ed2, 0x456887b7, 0x850cafa0, 0xc5a1d799, 0x05c5ff8e, + 0x45dd6552, 0x85b94d45, 0xc514357c, 0x05701d6b, 0x454ec40e, + 0x852aec19, 0xc5879420, 0x05e3bc37, 0xcf41ed4f, 0x0f25c558, + 0x4f88bd61, 0x8fec9576, 0xcfd24c13, 0x0fb66404, 0x4f1b1c3d, + 0x8f7f342a, 0xcf67aef6, 0x0f0386e1, 0x4faefed8, 0x8fcad6cf, + 0xcff40faa, 0x0f9027bd, 0x4f3d5f84, 0x8f597793, 0x8e0b1ae6, + 0x4e6f32f1, 0x0ec24ac8, 0xcea662df, 0x8e98bbba, 0x4efc93ad, + 0x0e51eb94, 0xce35c383, 0x8e2d595f, 0x4e497148, 0x0ee40971, + 0xce802166, 0x8ebef803, 0x4edad014, 0x0e77a82d, 0xce13803a, + 0x0cd372c7, 0xccb75ad0, 0x8c1a22e9, 0x4c7e0afe, 0x0c40d39b, + 0xcc24fb8c, 0x8c8983b5, 0x4cedaba2, 0x0cf5317e, 0xcc911969, + 0x8c3c6150, 0x4c584947, 0x0c669022, 0xcc02b835, 0x8cafc00c, + 0x4ccbe81b, 0x4d99856e, 0x8dfdad79, 0xcd50d540, 0x0d34fd57, + 0x4d0a2432, 0x8d6e0c25, 0xcdc3741c, 0x0da75c0b, 0x4dbfc6d7, + 0x8ddbeec0, 0xcd7696f9, 0x0d12beee, 0x4d2c678b, 0x8d484f9c, + 0xcde537a5, 0x0d811fb2, 0x0862a385, 0xc8068b92, 0x88abf3ab, + 0x48cfdbbc, 0x08f102d9, 0xc8952ace, 0x883852f7, 0x485c7ae0, + 0x0844e03c, 0xc820c82b, 0x888db012, 0x48e99805, 0x08d74160, + 0xc8b36977, 0x881e114e, 0x487a3959, 0x4928542c, 0x894c7c3b, + 0xc9e10402, 0x09852c15, 0x49bbf570, 0x89dfdd67, 0xc972a55e, + 0x09168d49, 0x490e1795, 0x896a3f82, 0xc9c747bb, 0x09a36fac, + 0x499db6c9, 0x89f99ede, 0xc954e6e7, 0x0930cef0, 0xcbf03c0d, + 0x0b94141a, 0x4b396c23, 0x8b5d4434, 0xcb639d51, 0x0b07b546, + 0x4baacd7f, 0x8bcee568, 0xcbd67fb4, 0x0bb257a3, 0x4b1f2f9a, + 0x8b7b078d, 0xcb45dee8, 0x0b21f6ff, 0x4b8c8ec6, 0x8be8a6d1, + 0x8abacba4, 0x4adee3b3, 0x0a739b8a, 0xca17b39d, 0x8a296af8, + 0x4a4d42ef, 0x0ae03ad6, 0xca8412c1, 0x8a9c881d, 0x4af8a00a, + 0x0a55d833, 0xca31f024, 0x8a0f2941, 0x4a6b0156, 0x0ac6796f, + 0xcaa25178}, + {0x00000000, 0xd4ea739b, 0xe9d396ed, 0x3d39e576, 0x93a15c00, + 0x474b2f9b, 0x7a72caed, 0xae98b976, 0x2643b900, 0xf2a9ca9b, + 0xcf902fed, 0x1b7a5c76, 0xb5e2e500, 0x6108969b, 0x5c3173ed, + 0x88db0076, 0x4c867201, 0x986c019a, 0xa555e4ec, 0x71bf9777, + 0xdf272e01, 0x0bcd5d9a, 0x36f4b8ec, 0xe21ecb77, 0x6ac5cb01, + 0xbe2fb89a, 0x83165dec, 0x57fc2e77, 0xf9649701, 0x2d8ee49a, + 0x10b701ec, 0xc45d7277, 0x980ce502, 0x4ce69699, 0x71df73ef, + 0xa5350074, 0x0badb902, 0xdf47ca99, 0xe27e2fef, 0x36945c74, + 0xbe4f5c02, 0x6aa52f99, 0x579ccaef, 0x8376b974, 0x2dee0002, + 0xf9047399, 0xc43d96ef, 0x10d7e574, 0xd48a9703, 0x0060e498, + 0x3d5901ee, 0xe9b37275, 0x472bcb03, 0x93c1b898, 0xaef85dee, + 0x7a122e75, 0xf2c92e03, 0x26235d98, 0x1b1ab8ee, 0xcff0cb75, + 0x61687203, 0xb5820198, 0x88bbe4ee, 0x5c519775, 0x3019ca05, + 0xe4f3b99e, 0xd9ca5ce8, 0x0d202f73, 0xa3b89605, 0x7752e59e, + 0x4a6b00e8, 0x9e817373, 0x165a7305, 0xc2b0009e, 0xff89e5e8, + 0x2b639673, 0x85fb2f05, 0x51115c9e, 0x6c28b9e8, 0xb8c2ca73, + 0x7c9fb804, 0xa875cb9f, 0x954c2ee9, 0x41a65d72, 0xef3ee404, + 0x3bd4979f, 0x06ed72e9, 0xd2070172, 0x5adc0104, 0x8e36729f, + 0xb30f97e9, 0x67e5e472, 0xc97d5d04, 0x1d972e9f, 0x20aecbe9, + 0xf444b872, 0xa8152f07, 0x7cff5c9c, 0x41c6b9ea, 0x952cca71, + 0x3bb47307, 0xef5e009c, 0xd267e5ea, 0x068d9671, 0x8e569607, + 0x5abce59c, 0x678500ea, 0xb36f7371, 0x1df7ca07, 0xc91db99c, + 0xf4245cea, 0x20ce2f71, 0xe4935d06, 0x30792e9d, 0x0d40cbeb, + 0xd9aab870, 0x77320106, 0xa3d8729d, 0x9ee197eb, 0x4a0be470, + 0xc2d0e406, 0x163a979d, 0x2b0372eb, 0xffe90170, 0x5171b806, + 0x859bcb9d, 0xb8a22eeb, 0x6c485d70, 0x6032940b, 0xb4d8e790, + 0x89e102e6, 0x5d0b717d, 0xf393c80b, 0x2779bb90, 0x1a405ee6, + 0xceaa2d7d, 0x46712d0b, 0x929b5e90, 0xafa2bbe6, 0x7b48c87d, + 0xd5d0710b, 0x013a0290, 0x3c03e7e6, 0xe8e9947d, 0x2cb4e60a, + 0xf85e9591, 0xc56770e7, 0x118d037c, 0xbf15ba0a, 0x6bffc991, + 0x56c62ce7, 0x822c5f7c, 0x0af75f0a, 0xde1d2c91, 0xe324c9e7, + 0x37ceba7c, 0x9956030a, 0x4dbc7091, 0x708595e7, 0xa46fe67c, + 0xf83e7109, 0x2cd40292, 0x11ede7e4, 0xc507947f, 0x6b9f2d09, + 0xbf755e92, 0x824cbbe4, 0x56a6c87f, 0xde7dc809, 0x0a97bb92, + 0x37ae5ee4, 0xe3442d7f, 0x4ddc9409, 0x9936e792, 0xa40f02e4, + 0x70e5717f, 0xb4b80308, 0x60527093, 0x5d6b95e5, 0x8981e67e, + 0x27195f08, 0xf3f32c93, 0xcecac9e5, 0x1a20ba7e, 0x92fbba08, + 0x4611c993, 0x7b282ce5, 0xafc25f7e, 0x015ae608, 0xd5b09593, + 0xe88970e5, 0x3c63037e, 0x502b5e0e, 0x84c12d95, 0xb9f8c8e3, + 0x6d12bb78, 0xc38a020e, 0x17607195, 0x2a5994e3, 0xfeb3e778, + 0x7668e70e, 0xa2829495, 0x9fbb71e3, 0x4b510278, 0xe5c9bb0e, + 0x3123c895, 0x0c1a2de3, 0xd8f05e78, 0x1cad2c0f, 0xc8475f94, + 0xf57ebae2, 0x2194c979, 0x8f0c700f, 0x5be60394, 0x66dfe6e2, + 0xb2359579, 0x3aee950f, 0xee04e694, 0xd33d03e2, 0x07d77079, + 0xa94fc90f, 0x7da5ba94, 0x409c5fe2, 0x94762c79, 0xc827bb0c, + 0x1ccdc897, 0x21f42de1, 0xf51e5e7a, 0x5b86e70c, 0x8f6c9497, + 0xb25571e1, 0x66bf027a, 0xee64020c, 0x3a8e7197, 0x07b794e1, + 0xd35de77a, 0x7dc55e0c, 0xa92f2d97, 0x9416c8e1, 0x40fcbb7a, + 0x84a1c90d, 0x504bba96, 0x6d725fe0, 0xb9982c7b, 0x1700950d, + 0xc3eae696, 0xfed303e0, 0x2a39707b, 0xa2e2700d, 0x76080396, + 0x4b31e6e0, 0x9fdb957b, 0x31432c0d, 0xe5a95f96, 0xd890bae0, + 0x0c7ac97b}, + {0x00000000, 0x27652581, 0x0fcc3bd9, 0x28a91e58, 0x5f9e0669, + 0x78fb23e8, 0x50523db0, 0x77371831, 0xbe3c0dd2, 0x99592853, + 0xb1f0360b, 0x9695138a, 0xe1a20bbb, 0xc6c72e3a, 0xee6e3062, + 0xc90b15e3, 0x3d7f6b7f, 0x1a1a4efe, 0x32b350a6, 0x15d67527, + 0x62e16d16, 0x45844897, 0x6d2d56cf, 0x4a48734e, 0x834366ad, + 0xa426432c, 0x8c8f5d74, 0xabea78f5, 0xdcdd60c4, 0xfbb84545, + 0xd3115b1d, 0xf4747e9c, 0x7afed6fe, 0x5d9bf37f, 0x7532ed27, + 0x5257c8a6, 0x2560d097, 0x0205f516, 0x2aaceb4e, 0x0dc9cecf, + 0xc4c2db2c, 0xe3a7fead, 0xcb0ee0f5, 0xec6bc574, 0x9b5cdd45, + 0xbc39f8c4, 0x9490e69c, 0xb3f5c31d, 0x4781bd81, 0x60e49800, + 0x484d8658, 0x6f28a3d9, 0x181fbbe8, 0x3f7a9e69, 0x17d38031, + 0x30b6a5b0, 0xf9bdb053, 0xded895d2, 0xf6718b8a, 0xd114ae0b, + 0xa623b63a, 0x814693bb, 0xa9ef8de3, 0x8e8aa862, 0xb5fadc26, + 0x929ff9a7, 0xba36e7ff, 0x9d53c27e, 0xea64da4f, 0xcd01ffce, + 0xe5a8e196, 0xc2cdc417, 0x0bc6d1f4, 0x2ca3f475, 0x040aea2d, + 0x236fcfac, 0x5458d79d, 0x733df21c, 0x5b94ec44, 0x7cf1c9c5, + 0x8885b759, 0xafe092d8, 0x87498c80, 0xa02ca901, 0xd71bb130, + 0xf07e94b1, 0xd8d78ae9, 0xffb2af68, 0x36b9ba8b, 0x11dc9f0a, + 0x39758152, 0x1e10a4d3, 0x6927bce2, 0x4e429963, 0x66eb873b, + 0x418ea2ba, 0xcf040ad8, 0xe8612f59, 0xc0c83101, 0xe7ad1480, + 0x909a0cb1, 0xb7ff2930, 0x9f563768, 0xb83312e9, 0x7138070a, + 0x565d228b, 0x7ef43cd3, 0x59911952, 0x2ea60163, 0x09c324e2, + 0x216a3aba, 0x060f1f3b, 0xf27b61a7, 0xd51e4426, 0xfdb75a7e, + 0xdad27fff, 0xade567ce, 0x8a80424f, 0xa2295c17, 0x854c7996, + 0x4c476c75, 0x6b2249f4, 0x438b57ac, 0x64ee722d, 0x13d96a1c, + 0x34bc4f9d, 0x1c1551c5, 0x3b707444, 0x6af5b94d, 0x4d909ccc, + 0x65398294, 0x425ca715, 0x356bbf24, 0x120e9aa5, 0x3aa784fd, + 0x1dc2a17c, 0xd4c9b49f, 0xf3ac911e, 0xdb058f46, 0xfc60aac7, + 0x8b57b2f6, 0xac329777, 0x849b892f, 0xa3feacae, 0x578ad232, + 0x70eff7b3, 0x5846e9eb, 0x7f23cc6a, 0x0814d45b, 0x2f71f1da, + 0x07d8ef82, 0x20bdca03, 0xe9b6dfe0, 0xced3fa61, 0xe67ae439, + 0xc11fc1b8, 0xb628d989, 0x914dfc08, 0xb9e4e250, 0x9e81c7d1, + 0x100b6fb3, 0x376e4a32, 0x1fc7546a, 0x38a271eb, 0x4f9569da, + 0x68f04c5b, 0x40595203, 0x673c7782, 0xae376261, 0x895247e0, + 0xa1fb59b8, 0x869e7c39, 0xf1a96408, 0xd6cc4189, 0xfe655fd1, + 0xd9007a50, 0x2d7404cc, 0x0a11214d, 0x22b83f15, 0x05dd1a94, + 0x72ea02a5, 0x558f2724, 0x7d26397c, 0x5a431cfd, 0x9348091e, + 0xb42d2c9f, 0x9c8432c7, 0xbbe11746, 0xccd60f77, 0xebb32af6, + 0xc31a34ae, 0xe47f112f, 0xdf0f656b, 0xf86a40ea, 0xd0c35eb2, + 0xf7a67b33, 0x80916302, 0xa7f44683, 0x8f5d58db, 0xa8387d5a, + 0x613368b9, 0x46564d38, 0x6eff5360, 0x499a76e1, 0x3ead6ed0, + 0x19c84b51, 0x31615509, 0x16047088, 0xe2700e14, 0xc5152b95, + 0xedbc35cd, 0xcad9104c, 0xbdee087d, 0x9a8b2dfc, 0xb22233a4, + 0x95471625, 0x5c4c03c6, 0x7b292647, 0x5380381f, 0x74e51d9e, + 0x03d205af, 0x24b7202e, 0x0c1e3e76, 0x2b7b1bf7, 0xa5f1b395, + 0x82949614, 0xaa3d884c, 0x8d58adcd, 0xfa6fb5fc, 0xdd0a907d, + 0xf5a38e25, 0xd2c6aba4, 0x1bcdbe47, 0x3ca89bc6, 0x1401859e, + 0x3364a01f, 0x4453b82e, 0x63369daf, 0x4b9f83f7, 0x6cfaa676, + 0x988ed8ea, 0xbfebfd6b, 0x9742e333, 0xb027c6b2, 0xc710de83, + 0xe075fb02, 0xc8dce55a, 0xefb9c0db, 0x26b2d538, 0x01d7f0b9, + 0x297eeee1, 0x0e1bcb60, 0x792cd351, 0x5e49f6d0, 0x76e0e888, + 0x5185cd09}}; + +#endif + +#endif + +#endif + +local const z_crc_t FAR x2n_table[] = { + 0x40000000, 0x20000000, 0x08000000, 0x00800000, 0x00008000, + 0xedb88320, 0xb1e6b092, 0xa06a2517, 0xed627dae, 0x88d14467, + 0xd7bbfe6a, 0xec447f11, 0x8e7ea170, 0x6427800e, 0x4d47bae0, + 0x09fe548f, 0x83852d0f, 0x30362f1a, 0x7b5a9cc3, 0x31fec169, + 0x9fec022a, 0x6c8dedc4, 0x15d6874d, 0x5fde7a4e, 0xbad90e37, + 0x2e4e5eef, 0x4eaba214, 0xa8a472c0, 0x429a969e, 0x148d302a, + 0xc40ba6d0, 0xc4e22c3c}; diff --git a/Minecraft.Client/Common/zlib/deflate.c b/Minecraft.Client/Common/zlib/deflate.c new file mode 100644 index 0000000..a5be5e6 --- /dev/null +++ b/Minecraft.Client/Common/zlib/deflate.c @@ -0,0 +1,2185 @@ +/* deflate.c -- compress data using the deflation algorithm + * Copyright (C) 1995-2026 Jean-loup Gailly and Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* + * ALGORITHM + * + * The "deflation" process depends on being able to identify portions + * of the input text which are identical to earlier input (within a + * sliding window trailing behind the input currently being processed). + * + * The most straightforward technique turns out to be the fastest for + * most input files: try all possible matches and select the longest. + * The key feature of this algorithm is that insertions into the string + * dictionary are very simple and thus fast, and deletions are avoided + * completely. Insertions are performed at each input character, whereas + * string matches are performed only when the previous match ends. So it + * is preferable to spend more time in matches to allow very fast string + * insertions and avoid deletions. The matching algorithm for small + * strings is inspired from that of Rabin & Karp. A brute force approach + * is used to find longer strings when a small match has been found. + * A similar algorithm is used in comic (by Jan-Mark Wams) and freeze + * (by Leonid Broukhis). + * A previous version of this file used a more sophisticated algorithm + * (by Fiala and Greene) which is guaranteed to run in linear amortized + * time, but has a larger average cost, uses more memory and is patented. + * However the F&G algorithm may be faster for some highly redundant + * files if the parameter max_chain_length (described below) is too large. + * + * ACKNOWLEDGEMENTS + * + * The idea of lazy evaluation of matches is due to Jan-Mark Wams, and + * I found it in 'freeze' written by Leonid Broukhis. + * Thanks to many people for bug reports and testing. + * + * REFERENCES + * + * Deutsch, L.P.,"DEFLATE Compressed Data Format Specification". + * Available at https://datatracker.ietf.org/doc/html/rfc1951 + * + * A description of the Rabin and Karp algorithm is given in the book + * "Algorithms" by R. Sedgewick, Addison-Wesley, p252. + * + * Fiala,E.R., and Greene,D.H. + * Data Compression with Finite Windows, Comm.ACM, 32,4 (1989) 490-595 + * + */ + +/* @(#) $Id$ */ + +#include "deflate.h" + +const char deflate_copyright[] = + " deflate 1.3.2.1 Copyright 1995-2026 Jean-loup Gailly and Mark Adler "; +/* + If you use the zlib library in a product, an acknowledgment is welcome + in the documentation of your product. If for some reason you cannot + include such an acknowledgment, I would appreciate that you keep this + copyright string in the executable of your product. + */ + +typedef enum { + need_more, /* block not completed, need more input or more output */ + block_done, /* block flush performed */ + finish_started, /* finish started, need only more output at next deflate */ + finish_done /* finish done, accept no more input or output */ +} block_state; + +typedef block_state (*compress_func)(deflate_state *s, int flush); +/* Compression function. Returns the block state after the call. */ + +local block_state deflate_stored(deflate_state *s, int flush); +local block_state deflate_fast(deflate_state *s, int flush); +#ifndef FASTEST +local block_state deflate_slow(deflate_state *s, int flush); +#endif +local block_state deflate_rle(deflate_state *s, int flush); +local block_state deflate_huff(deflate_state *s, int flush); + +/* =========================================================================== + * Local data + */ + +#define NIL 0 +/* Tail of hash chains */ + +#ifndef TOO_FAR +# define TOO_FAR 4096 +#endif +/* Matches of length 3 are discarded if their distance exceeds TOO_FAR */ + +/* Values for max_lazy_match, good_match and max_chain_length, depending on + * the desired pack level (0..9). The values given below have been tuned to + * exclude worst case performance for pathological files. Better values may be + * found for specific files. + */ +typedef struct config_s { + ush good_length; /* reduce lazy search above this match length */ + ush max_lazy; /* do not perform lazy search above this match length */ + ush nice_length; /* quit search above this match length */ + ush max_chain; + compress_func func; +} config; + +#ifdef FASTEST +local const config configuration_table[2] = { +/* good lazy nice chain */ +/* 0 */ {0, 0, 0, 0, deflate_stored}, /* store only */ +/* 1 */ {4, 4, 8, 4, deflate_fast}}; /* max speed, no lazy matches */ +#else +local const config configuration_table[10] = { +/* good lazy nice chain */ +/* 0 */ {0, 0, 0, 0, deflate_stored}, /* store only */ +/* 1 */ {4, 4, 8, 4, deflate_fast}, /* max speed, no lazy matches */ +/* 2 */ {4, 5, 16, 8, deflate_fast}, +/* 3 */ {4, 6, 32, 32, deflate_fast}, + +/* 4 */ {4, 4, 16, 16, deflate_slow}, /* lazy matches */ +/* 5 */ {8, 16, 32, 32, deflate_slow}, +/* 6 */ {8, 16, 128, 128, deflate_slow}, +/* 7 */ {8, 32, 128, 256, deflate_slow}, +/* 8 */ {32, 128, 258, 1024, deflate_slow}, +/* 9 */ {32, 258, 258, 4096, deflate_slow}}; /* max compression */ +#endif + +/* Note: the deflate() code requires max_lazy >= MIN_MATCH and max_chain >= 4 + * For deflate_fast() (levels <= 3) good is ignored and lazy has a different + * meaning. + */ + +/* rank Z_BLOCK between Z_NO_FLUSH and Z_PARTIAL_FLUSH */ +#define RANK(f) (((f) * 2) - ((f) > 4 ? 9 : 0)) + +/* =========================================================================== + * Update a hash value with the given input byte + * IN assertion: all calls to UPDATE_HASH are made with consecutive input + * characters, so that a running hash key can be computed from the previous + * key instead of complete recalculation each time. + */ +#define UPDATE_HASH(s,h,c) (h = (((h) << s->hash_shift) ^ (c)) & s->hash_mask) + + +/* =========================================================================== + * Insert string str in the dictionary and set match_head to the previous head + * of the hash chain (the most recent string with same hash key). Return + * the previous length of the hash chain. + * If this file is compiled with -DFASTEST, the compression level is forced + * to 1, and no hash chains are maintained. + * IN assertion: all calls to INSERT_STRING are made with consecutive input + * characters and the first MIN_MATCH bytes of str are valid (except for + * the last MIN_MATCH-1 bytes of the input file). + */ +#ifdef FASTEST +#define INSERT_STRING(s, str, match_head) \ + (UPDATE_HASH(s, s->ins_h, s->window[(str) + (MIN_MATCH-1)]), \ + match_head = s->head[s->ins_h], \ + s->head[s->ins_h] = (Pos)(str)) +#else +#define INSERT_STRING(s, str, match_head) \ + (UPDATE_HASH(s, s->ins_h, s->window[(str) + (MIN_MATCH-1)]), \ + match_head = s->prev[(str) & s->w_mask] = s->head[s->ins_h], \ + s->head[s->ins_h] = (Pos)(str)) +#endif + +/* =========================================================================== + * Initialize the hash table (avoiding 64K overflow for 16 bit systems). + * prev[] will be initialized on the fly. + */ +#define CLEAR_HASH(s) \ + do { \ + s->head[s->hash_size - 1] = NIL; \ + zmemzero(s->head, (unsigned)(s->hash_size - 1)*sizeof(*s->head)); \ + s->slid = 0; \ + } while (0) + +/* =========================================================================== + * Slide the hash table when sliding the window down (could be avoided with 32 + * bit values at the expense of memory usage). We slide even when level == 0 to + * keep the hash table consistent if we switch back to level > 0 later. + */ +#if defined(__has_feature) +# if __has_feature(memory_sanitizer) + __attribute__((no_sanitize("memory"))) +# endif +#endif +local void slide_hash(deflate_state *s) { + unsigned n, m; + Posf *p; + uInt wsize = s->w_size; + + n = s->hash_size; + p = &s->head[n]; + do { + m = *--p; + *p = (Pos)(m >= wsize ? m - wsize : NIL); + } while (--n); +#ifndef FASTEST + n = wsize; + p = &s->prev[n]; + do { + m = *--p; + *p = (Pos)(m >= wsize ? m - wsize : NIL); + /* If n is not on any hash chain, prev[n] is garbage but + * its value will never be used. + */ + } while (--n); +#endif + s->slid = 1; +} + +/* =========================================================================== + * Read a new buffer from the current input stream, update the adler32 + * and total number of bytes read. All deflate() input goes through + * this function so some applications may wish to modify it to avoid + * allocating a large strm->next_in buffer and copying from it. + * (See also flush_pending()). + */ +local unsigned read_buf(z_streamp strm, Bytef *buf, unsigned size) { + unsigned len = strm->avail_in; + + if (len > size) len = size; + if (len == 0) return 0; + + strm->avail_in -= len; + + zmemcpy(buf, strm->next_in, len); + if (strm->state->wrap == 1) { + strm->adler = adler32(strm->adler, buf, len); + } +#ifdef GZIP + else if (strm->state->wrap == 2) { + strm->adler = crc32(strm->adler, buf, len); + } +#endif + strm->next_in += len; + strm->total_in += len; + + return len; +} + +/* =========================================================================== + * Fill the window when the lookahead becomes insufficient. + * Updates strstart and lookahead. + * + * IN assertion: lookahead < MIN_LOOKAHEAD + * OUT assertions: strstart <= window_size-MIN_LOOKAHEAD + * At least one byte has been read, or avail_in == 0; reads are + * performed for at least two bytes (required for the zip translate_eol + * option -- not supported here). + */ +local void fill_window(deflate_state *s) { + unsigned n; + unsigned more; /* Amount of free space at the end of the window. */ + uInt wsize = s->w_size; + + Assert(s->lookahead < MIN_LOOKAHEAD, "already enough lookahead"); + + do { + more = (unsigned)(s->window_size -(ulg)s->lookahead -(ulg)s->strstart); + + /* Deal with !@#$% 64K limit: */ +#ifdef _MSC_VER +#pragma warning(push) +#pragma warning(disable: 4127) +#endif + if (sizeof(int) <= 2) { +#ifdef _MSC_VER +#pragma warning(pop) +#endif + if (more == 0 && s->strstart == 0 && s->lookahead == 0) { + more = wsize; + + } else if (more == (unsigned)(-1)) { + /* Very unlikely, but possible on 16 bit machine if + * strstart == 0 && lookahead == 1 (input done a byte at time) + */ + more--; + } + } + + /* If the window is almost full and there is insufficient lookahead, + * move the upper half to the lower one to make room in the upper half. + */ + if (s->strstart >= wsize + MAX_DIST(s)) { + + zmemcpy(s->window, s->window + wsize, (unsigned)wsize - more); + s->match_start -= wsize; + s->strstart -= wsize; /* we now have strstart >= MAX_DIST */ + s->block_start -= (long) wsize; + if (s->insert > s->strstart) + s->insert = s->strstart; + slide_hash(s); + more += wsize; + } + if (s->strm->avail_in == 0) break; + + /* If there was no sliding: + * strstart <= WSIZE+MAX_DIST-1 && lookahead <= MIN_LOOKAHEAD - 1 && + * more == window_size - lookahead - strstart + * => more >= window_size - (MIN_LOOKAHEAD-1 + WSIZE + MAX_DIST-1) + * => more >= window_size - 2*WSIZE + 2 + * In the BIG_MEM or MMAP case (not yet supported), + * window_size == input_size + MIN_LOOKAHEAD && + * strstart + s->lookahead <= input_size => more >= MIN_LOOKAHEAD. + * Otherwise, window_size == 2*WSIZE so more >= 2. + * If there was sliding, more >= WSIZE. So in all cases, more >= 2. + */ + Assert(more >= 2, "more < 2"); + + n = read_buf(s->strm, s->window + s->strstart + s->lookahead, more); + s->lookahead += n; + + /* Initialize the hash value now that we have some input: */ + if (s->lookahead + s->insert >= MIN_MATCH) { + uInt str = s->strstart - s->insert; + s->ins_h = s->window[str]; + UPDATE_HASH(s, s->ins_h, s->window[str + 1]); +#if MIN_MATCH != 3 + Call UPDATE_HASH() MIN_MATCH-3 more times +#endif + while (s->insert) { + UPDATE_HASH(s, s->ins_h, s->window[str + MIN_MATCH-1]); +#ifndef FASTEST + s->prev[str & s->w_mask] = s->head[s->ins_h]; +#endif + s->head[s->ins_h] = (Pos)str; + str++; + s->insert--; + if (s->lookahead + s->insert < MIN_MATCH) + break; + } + } + /* If the whole input has less than MIN_MATCH bytes, ins_h is garbage, + * but this is not important since only literal bytes will be emitted. + */ + + } while (s->lookahead < MIN_LOOKAHEAD && s->strm->avail_in != 0); + + /* If the WIN_INIT bytes after the end of the current data have never been + * written, then zero those bytes in order to avoid memory check reports of + * the use of uninitialized (or uninitialised as Julian writes) bytes by + * the longest match routines. Update the high water mark for the next + * time through here. WIN_INIT is set to MAX_MATCH since the longest match + * routines allow scanning to strstart + MAX_MATCH, ignoring lookahead. + */ + if (s->high_water < s->window_size) { + ulg curr = s->strstart + (ulg)(s->lookahead); + ulg init; + + if (s->high_water < curr) { + /* Previous high water mark below current data -- zero WIN_INIT + * bytes or up to end of window, whichever is less. + */ + init = s->window_size - curr; + if (init > WIN_INIT) + init = WIN_INIT; + zmemzero(s->window + curr, (unsigned)init); + s->high_water = curr + init; + } + else if (s->high_water < (ulg)curr + WIN_INIT) { + /* High water mark at or above current data, but below current data + * plus WIN_INIT -- zero out to current data plus WIN_INIT, or up + * to end of window, whichever is less. + */ + init = (ulg)curr + WIN_INIT - s->high_water; + if (init > s->window_size - s->high_water) + init = s->window_size - s->high_water; + zmemzero(s->window + s->high_water, (unsigned)init); + s->high_water += init; + } + } + + Assert((ulg)s->strstart <= s->window_size - MIN_LOOKAHEAD, + "not enough room for search"); +} + +/* ========================================================================= */ +int ZEXPORT deflateInit_(z_streamp strm, int level, const char *version, + int stream_size) { + return deflateInit2_(strm, level, Z_DEFLATED, MAX_WBITS, DEF_MEM_LEVEL, + Z_DEFAULT_STRATEGY, version, stream_size); + /* To do: ignore strm->next_in if we use it as window */ +} + +/* ========================================================================= */ +int ZEXPORT deflateInit2_(z_streamp strm, int level, int method, + int windowBits, int memLevel, int strategy, + const char *version, int stream_size) { + deflate_state *s; + int wrap = 1; + static const char my_version[] = ZLIB_VERSION; + + if (version == Z_NULL || version[0] != my_version[0] || + stream_size != sizeof(z_stream)) { + return Z_VERSION_ERROR; + } + if (strm == Z_NULL) return Z_STREAM_ERROR; + + strm->msg = Z_NULL; + if (strm->zalloc == (alloc_func)0) { +#ifdef Z_SOLO + return Z_STREAM_ERROR; +#else + strm->zalloc = zcalloc; + strm->opaque = (voidpf)0; +#endif + } + if (strm->zfree == (free_func)0) +#ifdef Z_SOLO + return Z_STREAM_ERROR; +#else + strm->zfree = zcfree; +#endif + +#ifdef FASTEST + if (level != 0) level = 1; +#else + if (level == Z_DEFAULT_COMPRESSION) level = 6; +#endif + + if (windowBits < 0) { /* suppress zlib wrapper */ + wrap = 0; + if (windowBits < -15) + return Z_STREAM_ERROR; + windowBits = -windowBits; + } +#ifdef GZIP + else if (windowBits > 15) { + wrap = 2; /* write gzip wrapper instead */ + windowBits -= 16; + } +#endif + if (memLevel < 1 || memLevel > MAX_MEM_LEVEL || method != Z_DEFLATED || + windowBits < 8 || windowBits > 15 || level < 0 || level > 9 || + strategy < 0 || strategy > Z_FIXED || (windowBits == 8 && wrap != 1)) { + return Z_STREAM_ERROR; + } + if (windowBits == 8) windowBits = 9; /* until 256-byte window bug fixed */ + s = (deflate_state *) ZALLOC(strm, 1, sizeof(deflate_state)); + if (s == Z_NULL) return Z_MEM_ERROR; + zmemzero(s, sizeof(deflate_state)); + strm->state = (struct internal_state FAR *)s; + s->strm = strm; + s->status = INIT_STATE; /* to pass state test in deflateReset() */ + + s->wrap = wrap; + s->gzhead = Z_NULL; + s->w_bits = (uInt)windowBits; + s->w_size = 1 << s->w_bits; + s->w_mask = s->w_size - 1; + + s->hash_bits = (uInt)memLevel + 7; + s->hash_size = 1 << s->hash_bits; + s->hash_mask = s->hash_size - 1; + s->hash_shift = ((s->hash_bits + MIN_MATCH-1) / MIN_MATCH); + + s->window = (Bytef *) ZALLOC(strm, s->w_size, 2*sizeof(Byte)); + s->prev = (Posf *) ZALLOC(strm, s->w_size, sizeof(Pos)); + s->head = (Posf *) ZALLOC(strm, s->hash_size, sizeof(Pos)); + + s->high_water = 0; /* nothing written to s->window yet */ + + s->lit_bufsize = 1 << (memLevel + 6); /* 16K elements by default */ + + /* We overlay pending_buf and sym_buf. This works since the average size + * for length/distance pairs over any compressed block is assured to be 31 + * bits or less. + * + * Analysis: The longest fixed codes are a length code of 8 bits plus 5 + * extra bits, for lengths 131 to 257. The longest fixed distance codes are + * 5 bits plus 13 extra bits, for distances 16385 to 32768. The longest + * possible fixed-codes length/distance pair is then 31 bits total. + * + * sym_buf starts one-fourth of the way into pending_buf. So there are + * three bytes in sym_buf for every four bytes in pending_buf. Each symbol + * in sym_buf is three bytes -- two for the distance and one for the + * literal/length. As each symbol is consumed, the pointer to the next + * sym_buf value to read moves forward three bytes. From that symbol, up to + * 31 bits are written to pending_buf. The closest the written pending_buf + * bits gets to the next sym_buf symbol to read is just before the last + * code is written. At that time, 31*(n - 2) bits have been written, just + * after 24*(n - 2) bits have been consumed from sym_buf. sym_buf starts at + * 8*n bits into pending_buf. (Note that the symbol buffer fills when n - 1 + * symbols are written.) The closest the writing gets to what is unread is + * then n + 14 bits. Here n is lit_bufsize, which is 16384 by default, and + * can range from 128 to 32768. + * + * Therefore, at a minimum, there are 142 bits of space between what is + * written and what is read in the overlain buffers, so the symbols cannot + * be overwritten by the compressed data. That space is actually 139 bits, + * due to the three-bit fixed-code block header. + * + * That covers the case where either Z_FIXED is specified, forcing fixed + * codes, or when the use of fixed codes is chosen, because that choice + * results in a smaller compressed block than dynamic codes. That latter + * condition then assures that the above analysis also covers all dynamic + * blocks. A dynamic-code block will only be chosen to be emitted if it has + * fewer bits than a fixed-code block would for the same set of symbols. + * Therefore its average symbol length is assured to be less than 31. So + * the compressed data for a dynamic block also cannot overwrite the + * symbols from which it is being constructed. + */ + + s->pending_buf = (uchf *) ZALLOC(strm, s->lit_bufsize, LIT_BUFS); + s->pending_buf_size = (ulg)s->lit_bufsize * 4; + + if (s->window == Z_NULL || s->prev == Z_NULL || s->head == Z_NULL || + s->pending_buf == Z_NULL) { + s->status = FINISH_STATE; + strm->msg = ERR_MSG(Z_MEM_ERROR); + deflateEnd (strm); + return Z_MEM_ERROR; + } +#ifdef LIT_MEM + s->d_buf = (ushf *)(s->pending_buf + (s->lit_bufsize << 1)); + s->l_buf = s->pending_buf + (s->lit_bufsize << 2); + s->sym_end = s->lit_bufsize - 1; +#else + s->sym_buf = s->pending_buf + s->lit_bufsize; + s->sym_end = (s->lit_bufsize - 1) * 3; +#endif + /* We avoid equality with lit_bufsize*3 because of wraparound at 64K + * on 16 bit machines and because stored blocks are restricted to + * 64K-1 bytes. + */ + + s->level = level; + s->strategy = strategy; + s->method = (Byte)method; + + return deflateReset(strm); +} + +/* ========================================================================= + * Check for a valid deflate stream state. Return 0 if ok, 1 if not. + */ +local int deflateStateCheck(z_streamp strm) { + deflate_state *s; + if (strm == Z_NULL || + strm->zalloc == (alloc_func)0 || strm->zfree == (free_func)0) + return 1; + s = strm->state; + if (s == Z_NULL || s->strm != strm || (s->status != INIT_STATE && +#ifdef GZIP + s->status != GZIP_STATE && +#endif + s->status != EXTRA_STATE && + s->status != NAME_STATE && + s->status != COMMENT_STATE && + s->status != HCRC_STATE && + s->status != BUSY_STATE && + s->status != FINISH_STATE)) + return 1; + return 0; +} + +/* ========================================================================= */ +int ZEXPORT deflateSetDictionary(z_streamp strm, const Bytef *dictionary, + uInt dictLength) { + deflate_state *s; + uInt str, n; + int wrap; + unsigned avail; + z_const unsigned char *next; + + if (deflateStateCheck(strm) || dictionary == Z_NULL) + return Z_STREAM_ERROR; + s = strm->state; + wrap = s->wrap; + if (wrap == 2 || (wrap == 1 && s->status != INIT_STATE) || s->lookahead) + return Z_STREAM_ERROR; + + /* when using zlib wrappers, compute Adler-32 for provided dictionary */ + if (wrap == 1) + strm->adler = adler32(strm->adler, dictionary, dictLength); + s->wrap = 0; /* avoid computing Adler-32 in read_buf */ + + /* if dictionary would fill window, just replace the history */ + if (dictLength >= s->w_size) { + if (wrap == 0) { /* already empty otherwise */ + CLEAR_HASH(s); + s->strstart = 0; + s->block_start = 0L; + s->insert = 0; + } + dictionary += dictLength - s->w_size; /* use the tail */ + dictLength = s->w_size; + } + + /* insert dictionary into window and hash */ + avail = strm->avail_in; + next = strm->next_in; + strm->avail_in = dictLength; + strm->next_in = (z_const Bytef *)dictionary; + fill_window(s); + while (s->lookahead >= MIN_MATCH) { + str = s->strstart; + n = s->lookahead - (MIN_MATCH-1); + do { + UPDATE_HASH(s, s->ins_h, s->window[str + MIN_MATCH-1]); +#ifndef FASTEST + s->prev[str & s->w_mask] = s->head[s->ins_h]; +#endif + s->head[s->ins_h] = (Pos)str; + str++; + } while (--n); + s->strstart = str; + s->lookahead = MIN_MATCH-1; + fill_window(s); + } + s->strstart += s->lookahead; + s->block_start = (long)s->strstart; + s->insert = s->lookahead; + s->lookahead = 0; + s->match_length = s->prev_length = MIN_MATCH-1; + s->match_available = 0; + strm->next_in = next; + strm->avail_in = avail; + s->wrap = wrap; + return Z_OK; +} + +/* ========================================================================= */ +int ZEXPORT deflateGetDictionary(z_streamp strm, Bytef *dictionary, + uInt *dictLength) { + deflate_state *s; + uInt len; + + if (deflateStateCheck(strm)) + return Z_STREAM_ERROR; + s = strm->state; + len = s->strstart + s->lookahead; + if (len > s->w_size) + len = s->w_size; + if (dictionary != Z_NULL && len) + zmemcpy(dictionary, s->window + s->strstart + s->lookahead - len, len); + if (dictLength != Z_NULL) + *dictLength = len; + return Z_OK; +} + +/* ========================================================================= */ +int ZEXPORT deflateResetKeep(z_streamp strm) { + deflate_state *s; + + if (deflateStateCheck(strm)) { + return Z_STREAM_ERROR; + } + + strm->total_in = strm->total_out = 0; + strm->msg = Z_NULL; /* use zfree if we ever allocate msg dynamically */ + strm->data_type = Z_UNKNOWN; + + s = (deflate_state *)strm->state; + s->pending = 0; + s->pending_out = s->pending_buf; + + if (s->wrap < 0) { + s->wrap = -s->wrap; /* was made negative by deflate(..., Z_FINISH); */ + } + s->status = +#ifdef GZIP + s->wrap == 2 ? GZIP_STATE : +#endif + INIT_STATE; + strm->adler = +#ifdef GZIP + s->wrap == 2 ? crc32(0L, Z_NULL, 0) : +#endif + adler32(0L, Z_NULL, 0); + s->last_flush = -2; + + _tr_init(s); + + return Z_OK; +} + +/* =========================================================================== + * Initialize the "longest match" routines for a new zlib stream + */ +local void lm_init(deflate_state *s) { + s->window_size = (ulg)2L*s->w_size; + + CLEAR_HASH(s); + + /* Set the default configuration parameters: + */ + s->max_lazy_match = configuration_table[s->level].max_lazy; + s->good_match = configuration_table[s->level].good_length; + s->nice_match = configuration_table[s->level].nice_length; + s->max_chain_length = configuration_table[s->level].max_chain; + + s->strstart = 0; + s->block_start = 0L; + s->lookahead = 0; + s->insert = 0; + s->match_length = s->prev_length = MIN_MATCH-1; + s->match_available = 0; + s->ins_h = 0; +} + +/* ========================================================================= */ +int ZEXPORT deflateReset(z_streamp strm) { + int ret; + + ret = deflateResetKeep(strm); + if (ret == Z_OK) + lm_init(strm->state); + return ret; +} + +/* ========================================================================= */ +int ZEXPORT deflateSetHeader(z_streamp strm, gz_headerp head) { + if (deflateStateCheck(strm) || strm->state->wrap != 2) + return Z_STREAM_ERROR; + strm->state->gzhead = head; + return Z_OK; +} + +/* ========================================================================= */ +int ZEXPORT deflatePending(z_streamp strm, unsigned *pending, int *bits) { + if (deflateStateCheck(strm)) return Z_STREAM_ERROR; + if (bits != Z_NULL) + *bits = strm->state->bi_valid; + if (pending != Z_NULL) { + *pending = (unsigned)strm->state->pending; + if (*pending != strm->state->pending) { + *pending = (unsigned)-1; + return Z_BUF_ERROR; + } + } + return Z_OK; +} + +/* ========================================================================= */ +int ZEXPORT deflateUsed(z_streamp strm, int *bits) { + if (deflateStateCheck(strm)) return Z_STREAM_ERROR; + if (bits != Z_NULL) + *bits = strm->state->bi_used; + return Z_OK; +} + +/* ========================================================================= */ +int ZEXPORT deflatePrime(z_streamp strm, int bits, int value) { + deflate_state *s; + int put; + + if (deflateStateCheck(strm)) return Z_STREAM_ERROR; + s = strm->state; +#ifdef LIT_MEM + if (bits < 0 || bits > 16 || + (uchf *)s->d_buf < s->pending_out + ((Buf_size + 7) >> 3)) + return Z_BUF_ERROR; +#else + if (bits < 0 || bits > 16 || + s->sym_buf < s->pending_out + ((Buf_size + 7) >> 3)) + return Z_BUF_ERROR; +#endif + do { + put = Buf_size - s->bi_valid; + if (put > bits) + put = bits; + s->bi_buf |= (ush)((value & ((1 << put) - 1)) << s->bi_valid); + s->bi_valid += put; + _tr_flush_bits(s); + value >>= put; + bits -= put; + } while (bits); + return Z_OK; +} + +/* ========================================================================= */ +int ZEXPORT deflateParams(z_streamp strm, int level, int strategy) { + deflate_state *s; + compress_func func; + + if (deflateStateCheck(strm)) return Z_STREAM_ERROR; + s = strm->state; + +#ifdef FASTEST + if (level != 0) level = 1; +#else + if (level == Z_DEFAULT_COMPRESSION) level = 6; +#endif + if (level < 0 || level > 9 || strategy < 0 || strategy > Z_FIXED) { + return Z_STREAM_ERROR; + } + func = configuration_table[s->level].func; + + if ((strategy != s->strategy || func != configuration_table[level].func) && + s->last_flush != -2) { + /* Flush the last buffer: */ + int err = deflate(strm, Z_BLOCK); + if (err == Z_STREAM_ERROR) + return err; + if (strm->avail_in || (s->strstart - s->block_start) + s->lookahead) + return Z_BUF_ERROR; + } + if (s->level != level) { + if (s->level == 0 && s->matches != 0) { + if (s->matches == 1) + slide_hash(s); + else + CLEAR_HASH(s); + s->matches = 0; + } + s->level = level; + s->max_lazy_match = configuration_table[level].max_lazy; + s->good_match = configuration_table[level].good_length; + s->nice_match = configuration_table[level].nice_length; + s->max_chain_length = configuration_table[level].max_chain; + } + s->strategy = strategy; + return Z_OK; +} + +/* ========================================================================= */ +int ZEXPORT deflateTune(z_streamp strm, int good_length, int max_lazy, + int nice_length, int max_chain) { + deflate_state *s; + + if (deflateStateCheck(strm)) return Z_STREAM_ERROR; + s = strm->state; + s->good_match = (uInt)good_length; + s->max_lazy_match = (uInt)max_lazy; + s->nice_match = nice_length; + s->max_chain_length = (uInt)max_chain; + return Z_OK; +} + +/* ========================================================================= + * For the default windowBits of 15 and memLevel of 8, this function returns a + * close to exact, as well as small, upper bound on the compressed size. This + * is an expansion of ~0.03%, plus a small constant. + * + * For any setting other than those defaults for windowBits and memLevel, one + * of two worst case bounds is returned. This is at most an expansion of ~4% or + * ~13%, plus a small constant. + * + * Both the 0.03% and 4% derive from the overhead of stored blocks. The first + * one is for stored blocks of 16383 bytes (memLevel == 8), whereas the second + * is for stored blocks of 127 bytes (the worst case memLevel == 1). The + * expansion results from five bytes of header for each stored block. + * + * The larger expansion of 13% results from a window size less than or equal to + * the symbols buffer size (windowBits <= memLevel + 7). In that case some of + * the data being compressed may have slid out of the sliding window, impeding + * a stored block from being emitted. Then the only choice is a fixed or + * dynamic block, where a fixed block limits the maximum expansion to 9 bits + * per 8-bit byte, plus 10 bits for every block. The smallest block size for + * which this can occur is 255 (memLevel == 2). + * + * Shifts are used to approximate divisions, for speed. + */ +z_size_t ZEXPORT deflateBound_z(z_streamp strm, z_size_t sourceLen) { + deflate_state *s; + z_size_t fixedlen, storelen, wraplen, bound; + + /* upper bound for fixed blocks with 9-bit literals and length 255 + (memLevel == 2, which is the lowest that may not use stored blocks) -- + ~13% overhead plus a small constant */ + fixedlen = sourceLen + (sourceLen >> 3) + (sourceLen >> 8) + + (sourceLen >> 9) + 4; + if (fixedlen < sourceLen) + fixedlen = (z_size_t)-1; + + /* upper bound for stored blocks with length 127 (memLevel == 1) -- + ~4% overhead plus a small constant */ + storelen = sourceLen + (sourceLen >> 5) + (sourceLen >> 7) + + (sourceLen >> 11) + 7; + if (storelen < sourceLen) + storelen = (z_size_t)-1; + + /* if can't get parameters, return larger bound plus a wrapper */ + if (deflateStateCheck(strm)) { + bound = fixedlen > storelen ? fixedlen : storelen; + return bound + 18 < bound ? (z_size_t)-1 : bound + 18; + } + + /* compute wrapper length */ + s = strm->state; + switch (s->wrap < 0 ? -s->wrap : s->wrap) { + case 0: /* raw deflate */ + wraplen = 0; + break; + case 1: /* zlib wrapper */ + wraplen = 6 + (s->strstart ? 4 : 0); + break; +#ifdef GZIP + case 2: /* gzip wrapper */ + wraplen = 18; + if (s->gzhead != Z_NULL) { /* user-supplied gzip header */ + Bytef *str; + if (s->gzhead->extra != Z_NULL) + wraplen += 2 + s->gzhead->extra_len; + str = s->gzhead->name; + if (str != Z_NULL) + do { + wraplen++; + } while (*str++); + str = s->gzhead->comment; + if (str != Z_NULL) + do { + wraplen++; + } while (*str++); + if (s->gzhead->hcrc) + wraplen += 2; + } + break; +#endif + default: /* for compiler happiness */ + wraplen = 18; + } + + /* if not default parameters, return one of the conservative bounds */ + if (s->w_bits != 15 || s->hash_bits != 8 + 7) { + bound = s->w_bits <= s->hash_bits && s->level ? fixedlen : + storelen; + return bound + wraplen < bound ? (z_size_t)-1 : bound + wraplen; + } + + /* default settings: return tight bound for that case -- ~0.03% overhead + plus a small constant */ + bound = sourceLen + (sourceLen >> 12) + (sourceLen >> 14) + + (sourceLen >> 25) + 13 - 6 + wraplen; + return bound < sourceLen ? (z_size_t)-1 : bound; +} +uLong ZEXPORT deflateBound(z_streamp strm, uLong sourceLen) { + z_size_t bound = deflateBound_z(strm, sourceLen); + return (uLong)bound != bound ? (uLong)-1 : (uLong)bound; +} + +/* ========================================================================= + * Put a short in the pending buffer. The 16-bit value is put in MSB order. + * IN assertion: the stream state is correct and there is enough room in + * pending_buf. + */ +local void putShortMSB(deflate_state *s, uInt b) { + put_byte(s, (Byte)(b >> 8)); + put_byte(s, (Byte)(b & 0xff)); +} + +/* ========================================================================= + * Flush as much pending output as possible. All deflate() output, except for + * some deflate_stored() output, goes through this function so some + * applications may wish to modify it to avoid allocating a large + * strm->next_out buffer and copying into it. (See also read_buf()). + */ +local void flush_pending(z_streamp strm) { + unsigned len; + deflate_state *s = strm->state; + + _tr_flush_bits(s); + len = s->pending > strm->avail_out ? strm->avail_out : + (unsigned)s->pending; + if (len == 0) return; + + zmemcpy(strm->next_out, s->pending_out, len); + strm->next_out += len; + s->pending_out += len; + strm->total_out += len; + strm->avail_out -= len; + s->pending -= len; + if (s->pending == 0) { + s->pending_out = s->pending_buf; + } +} + +/* =========================================================================== + * Update the header CRC with the bytes s->pending_buf[beg..s->pending - 1]. + */ +#define HCRC_UPDATE(beg) \ + do { \ + if (s->gzhead->hcrc && s->pending > (beg)) \ + strm->adler = crc32_z(strm->adler, s->pending_buf + (beg), \ + s->pending - (beg)); \ + } while (0) + +/* ========================================================================= */ +int ZEXPORT deflate(z_streamp strm, int flush) { + int old_flush; /* value of flush param for previous deflate call */ + deflate_state *s; + + if (deflateStateCheck(strm) || flush > Z_BLOCK || flush < 0) { + return Z_STREAM_ERROR; + } + s = strm->state; + + if (strm->next_out == Z_NULL || + (strm->avail_in != 0 && strm->next_in == Z_NULL) || + (s->status == FINISH_STATE && flush != Z_FINISH)) { + ERR_RETURN(strm, Z_STREAM_ERROR); + } + if (strm->avail_out == 0) ERR_RETURN(strm, Z_BUF_ERROR); + + old_flush = s->last_flush; + s->last_flush = flush; + + /* Flush as much pending output as possible */ + if (s->pending != 0) { + flush_pending(strm); + if (strm->avail_out == 0) { + /* Since avail_out is 0, deflate will be called again with + * more output space, but possibly with both pending and + * avail_in equal to zero. There won't be anything to do, + * but this is not an error situation so make sure we + * return OK instead of BUF_ERROR at next call of deflate: + */ + s->last_flush = -1; + return Z_OK; + } + + /* Make sure there is something to do and avoid duplicate consecutive + * flushes. For repeated and useless calls with Z_FINISH, we keep + * returning Z_STREAM_END instead of Z_BUF_ERROR. + */ + } else if (strm->avail_in == 0 && RANK(flush) <= RANK(old_flush) && + flush != Z_FINISH) { + ERR_RETURN(strm, Z_BUF_ERROR); + } + + /* User must not provide more input after the first FINISH: */ + if (s->status == FINISH_STATE && strm->avail_in != 0) { + ERR_RETURN(strm, Z_BUF_ERROR); + } + + /* Write the header */ + if (s->status == INIT_STATE && s->wrap == 0) + s->status = BUSY_STATE; + if (s->status == INIT_STATE) { + /* zlib header */ + uInt header = (Z_DEFLATED + ((s->w_bits - 8) << 4)) << 8; + uInt level_flags; + + if (s->strategy >= Z_HUFFMAN_ONLY || s->level < 2) + level_flags = 0; + else if (s->level < 6) + level_flags = 1; + else if (s->level == 6) + level_flags = 2; + else + level_flags = 3; + header |= (level_flags << 6); + if (s->strstart != 0) header |= PRESET_DICT; + header += 31 - (header % 31); + + putShortMSB(s, header); + + /* Save the adler32 of the preset dictionary: */ + if (s->strstart != 0) { + putShortMSB(s, (uInt)(strm->adler >> 16)); + putShortMSB(s, (uInt)(strm->adler & 0xffff)); + } + strm->adler = adler32(0L, Z_NULL, 0); + s->status = BUSY_STATE; + + /* Compression must start with an empty pending buffer */ + flush_pending(strm); + if (s->pending != 0) { + s->last_flush = -1; + return Z_OK; + } + } +#ifdef GZIP + if (s->status == GZIP_STATE) { + /* gzip header */ + strm->adler = crc32(0L, Z_NULL, 0); + put_byte(s, 31); + put_byte(s, 139); + put_byte(s, 8); + if (s->gzhead == Z_NULL) { + put_byte(s, 0); + put_byte(s, 0); + put_byte(s, 0); + put_byte(s, 0); + put_byte(s, 0); + put_byte(s, s->level == 9 ? 2 : + (s->strategy >= Z_HUFFMAN_ONLY || s->level < 2 ? + 4 : 0)); + put_byte(s, OS_CODE); + s->status = BUSY_STATE; + + /* Compression must start with an empty pending buffer */ + flush_pending(strm); + if (s->pending != 0) { + s->last_flush = -1; + return Z_OK; + } + } + else { + put_byte(s, (s->gzhead->text ? 1 : 0) + + (s->gzhead->hcrc ? 2 : 0) + + (s->gzhead->extra == Z_NULL ? 0 : 4) + + (s->gzhead->name == Z_NULL ? 0 : 8) + + (s->gzhead->comment == Z_NULL ? 0 : 16) + ); + put_byte(s, (Byte)(s->gzhead->time & 0xff)); + put_byte(s, (Byte)((s->gzhead->time >> 8) & 0xff)); + put_byte(s, (Byte)((s->gzhead->time >> 16) & 0xff)); + put_byte(s, (Byte)((s->gzhead->time >> 24) & 0xff)); + put_byte(s, s->level == 9 ? 2 : + (s->strategy >= Z_HUFFMAN_ONLY || s->level < 2 ? + 4 : 0)); + put_byte(s, s->gzhead->os & 0xff); + if (s->gzhead->extra != Z_NULL) { + put_byte(s, s->gzhead->extra_len & 0xff); + put_byte(s, (s->gzhead->extra_len >> 8) & 0xff); + } + if (s->gzhead->hcrc) + strm->adler = crc32_z(strm->adler, s->pending_buf, + s->pending); + s->gzindex = 0; + s->status = EXTRA_STATE; + } + } + if (s->status == EXTRA_STATE) { + if (s->gzhead->extra != Z_NULL) { + ulg beg = s->pending; /* start of bytes to update crc */ + ulg left = (s->gzhead->extra_len & 0xffff) - s->gzindex; + while (s->pending + left > s->pending_buf_size) { + ulg copy = s->pending_buf_size - s->pending; + zmemcpy(s->pending_buf + s->pending, + s->gzhead->extra + s->gzindex, copy); + s->pending = s->pending_buf_size; + HCRC_UPDATE(beg); + s->gzindex += copy; + flush_pending(strm); + if (s->pending != 0) { + s->last_flush = -1; + return Z_OK; + } + beg = 0; + left -= copy; + } + zmemcpy(s->pending_buf + s->pending, + s->gzhead->extra + s->gzindex, left); + s->pending += left; + HCRC_UPDATE(beg); + s->gzindex = 0; + } + s->status = NAME_STATE; + } + if (s->status == NAME_STATE) { + if (s->gzhead->name != Z_NULL) { + ulg beg = s->pending; /* start of bytes to update crc */ + int val; + do { + if (s->pending == s->pending_buf_size) { + HCRC_UPDATE(beg); + flush_pending(strm); + if (s->pending != 0) { + s->last_flush = -1; + return Z_OK; + } + beg = 0; + } + val = s->gzhead->name[s->gzindex++]; + put_byte(s, val); + } while (val != 0); + HCRC_UPDATE(beg); + s->gzindex = 0; + } + s->status = COMMENT_STATE; + } + if (s->status == COMMENT_STATE) { + if (s->gzhead->comment != Z_NULL) { + ulg beg = s->pending; /* start of bytes to update crc */ + int val; + do { + if (s->pending == s->pending_buf_size) { + HCRC_UPDATE(beg); + flush_pending(strm); + if (s->pending != 0) { + s->last_flush = -1; + return Z_OK; + } + beg = 0; + } + val = s->gzhead->comment[s->gzindex++]; + put_byte(s, val); + } while (val != 0); + HCRC_UPDATE(beg); + } + s->status = HCRC_STATE; + } + if (s->status == HCRC_STATE) { + if (s->gzhead->hcrc) { + if (s->pending + 2 > s->pending_buf_size) { + flush_pending(strm); + if (s->pending != 0) { + s->last_flush = -1; + return Z_OK; + } + } + put_byte(s, (Byte)(strm->adler & 0xff)); + put_byte(s, (Byte)((strm->adler >> 8) & 0xff)); + strm->adler = crc32(0L, Z_NULL, 0); + } + s->status = BUSY_STATE; + + /* Compression must start with an empty pending buffer */ + flush_pending(strm); + if (s->pending != 0) { + s->last_flush = -1; + return Z_OK; + } + } +#endif + + /* Start a new block or continue the current one. + */ + if (strm->avail_in != 0 || s->lookahead != 0 || + (flush != Z_NO_FLUSH && s->status != FINISH_STATE)) { + block_state bstate; + + bstate = s->level == 0 ? deflate_stored(s, flush) : + s->strategy == Z_HUFFMAN_ONLY ? deflate_huff(s, flush) : + s->strategy == Z_RLE ? deflate_rle(s, flush) : + (*(configuration_table[s->level].func))(s, flush); + + if (bstate == finish_started || bstate == finish_done) { + s->status = FINISH_STATE; + } + if (bstate == need_more || bstate == finish_started) { + if (strm->avail_out == 0) { + s->last_flush = -1; /* avoid BUF_ERROR next call, see above */ + } + return Z_OK; + /* If flush != Z_NO_FLUSH && avail_out == 0, the next call + * of deflate should use the same flush parameter to make sure + * that the flush is complete. So we don't have to output an + * empty block here, this will be done at next call. This also + * ensures that for a very small output buffer, we emit at most + * one empty block. + */ + } + if (bstate == block_done) { + if (flush == Z_PARTIAL_FLUSH) { + _tr_align(s); + } else if (flush != Z_BLOCK) { /* FULL_FLUSH or SYNC_FLUSH */ + _tr_stored_block(s, (char*)0, 0L, 0); + /* For a full flush, this empty block will be recognized + * as a special marker by inflate_sync(). + */ + if (flush == Z_FULL_FLUSH) { + CLEAR_HASH(s); /* forget history */ + if (s->lookahead == 0) { + s->strstart = 0; + s->block_start = 0L; + s->insert = 0; + } + } + } + flush_pending(strm); + if (strm->avail_out == 0) { + s->last_flush = -1; /* avoid BUF_ERROR at next call, see above */ + return Z_OK; + } + } + } + + if (flush != Z_FINISH) return Z_OK; + if (s->wrap <= 0) return Z_STREAM_END; + + /* Write the trailer */ +#ifdef GZIP + if (s->wrap == 2) { + put_byte(s, (Byte)(strm->adler & 0xff)); + put_byte(s, (Byte)((strm->adler >> 8) & 0xff)); + put_byte(s, (Byte)((strm->adler >> 16) & 0xff)); + put_byte(s, (Byte)((strm->adler >> 24) & 0xff)); + put_byte(s, (Byte)(strm->total_in & 0xff)); + put_byte(s, (Byte)((strm->total_in >> 8) & 0xff)); + put_byte(s, (Byte)((strm->total_in >> 16) & 0xff)); + put_byte(s, (Byte)((strm->total_in >> 24) & 0xff)); + } + else +#endif + { + putShortMSB(s, (uInt)(strm->adler >> 16)); + putShortMSB(s, (uInt)(strm->adler & 0xffff)); + } + flush_pending(strm); + /* If avail_out is zero, the application will call deflate again + * to flush the rest. + */ + if (s->wrap > 0) s->wrap = -s->wrap; /* write the trailer only once! */ + return s->pending != 0 ? Z_OK : Z_STREAM_END; +} + +/* ========================================================================= */ +int ZEXPORT deflateEnd(z_streamp strm) { + int status; + + if (deflateStateCheck(strm)) return Z_STREAM_ERROR; + + status = strm->state->status; + + /* Deallocate in reverse order of allocations: */ + TRY_FREE(strm, strm->state->pending_buf); + TRY_FREE(strm, strm->state->head); + TRY_FREE(strm, strm->state->prev); + TRY_FREE(strm, strm->state->window); + + ZFREE(strm, strm->state); + strm->state = Z_NULL; + + return status == BUSY_STATE ? Z_DATA_ERROR : Z_OK; +} + +/* ========================================================================= + * Copy the source state to the destination state. + * To simplify the source, this is not supported for 16-bit MSDOS (which + * doesn't have enough memory anyway to duplicate compression states). + */ +int ZEXPORT deflateCopy(z_streamp dest, z_streamp source) { +#ifdef MAXSEG_64K + (void)dest; + (void)source; + return Z_STREAM_ERROR; +#else + deflate_state *ds; + deflate_state *ss; + + + if (deflateStateCheck(source) || dest == Z_NULL) { + return Z_STREAM_ERROR; + } + + ss = source->state; + + zmemcpy(dest, source, sizeof(z_stream)); + + ds = (deflate_state *) ZALLOC(dest, 1, sizeof(deflate_state)); + if (ds == Z_NULL) return Z_MEM_ERROR; + zmemzero(ds, sizeof(deflate_state)); + dest->state = (struct internal_state FAR *) ds; + zmemcpy(ds, ss, sizeof(deflate_state)); + ds->strm = dest; + + ds->window = (Bytef *) ZALLOC(dest, ds->w_size, 2*sizeof(Byte)); + ds->prev = (Posf *) ZALLOC(dest, ds->w_size, sizeof(Pos)); + ds->head = (Posf *) ZALLOC(dest, ds->hash_size, sizeof(Pos)); + ds->pending_buf = (uchf *) ZALLOC(dest, ds->lit_bufsize, LIT_BUFS); + + if (ds->window == Z_NULL || ds->prev == Z_NULL || ds->head == Z_NULL || + ds->pending_buf == Z_NULL) { + deflateEnd (dest); + return Z_MEM_ERROR; + } + /* following zmemcpy's do not work for 16-bit MSDOS */ + zmemcpy(ds->window, ss->window, ss->high_water); + zmemcpy(ds->prev, ss->prev, + (ss->slid || ss->strstart - ss->insert > ds->w_size ? ds->w_size : + ss->strstart - ss->insert) * sizeof(Pos)); + zmemcpy(ds->head, ss->head, ds->hash_size * sizeof(Pos)); + + ds->pending_out = ds->pending_buf + (ss->pending_out - ss->pending_buf); + zmemcpy(ds->pending_out, ss->pending_out, ss->pending); +#ifdef LIT_MEM + ds->d_buf = (ushf *)(ds->pending_buf + (ds->lit_bufsize << 1)); + ds->l_buf = ds->pending_buf + (ds->lit_bufsize << 2); + zmemcpy(ds->d_buf, ss->d_buf, ss->sym_next * sizeof(ush)); + zmemcpy(ds->l_buf, ss->l_buf, ss->sym_next); +#else + ds->sym_buf = ds->pending_buf + ds->lit_bufsize; + zmemcpy(ds->sym_buf, ss->sym_buf, ss->sym_next); +#endif + + ds->l_desc.dyn_tree = ds->dyn_ltree; + ds->d_desc.dyn_tree = ds->dyn_dtree; + ds->bl_desc.dyn_tree = ds->bl_tree; + + return Z_OK; +#endif /* MAXSEG_64K */ +} + +#ifndef FASTEST +/* =========================================================================== + * Set match_start to the longest match starting at the given string and + * return its length. Matches shorter or equal to prev_length are discarded, + * in which case the result is equal to prev_length and match_start is + * garbage. + * IN assertions: cur_match is the head of the hash chain for the current + * string (strstart) and its distance is <= MAX_DIST, and prev_length >= 1 + * OUT assertion: the match length is not greater than s->lookahead. + */ +local uInt longest_match(deflate_state *s, IPos cur_match) { + unsigned chain_length = s->max_chain_length;/* max hash chain length */ + Bytef *scan = s->window + s->strstart; /* current string */ + Bytef *match; /* matched string */ + int len; /* length of current match */ + int best_len = (int)s->prev_length; /* best match length so far */ + int nice_match = s->nice_match; /* stop if match long enough */ + IPos limit = s->strstart > (IPos)MAX_DIST(s) ? + s->strstart - (IPos)MAX_DIST(s) : NIL; + /* Stop when cur_match becomes <= limit. To simplify the code, + * we prevent matches with the string of window index 0. + */ + Posf *prev = s->prev; + uInt wmask = s->w_mask; + +#ifdef UNALIGNED_OK + /* Compare two bytes at a time. Note: this is not always beneficial. + * Try with and without -DUNALIGNED_OK to check. + */ + Bytef *strend = s->window + s->strstart + MAX_MATCH - 1; + ush scan_start = *(ushf*)scan; + ush scan_end = *(ushf*)(scan + best_len - 1); +#else + Bytef *strend = s->window + s->strstart + MAX_MATCH; + Byte scan_end1 = scan[best_len - 1]; + Byte scan_end = scan[best_len]; +#endif + + /* The code is optimized for HASH_BITS >= 8 and MAX_MATCH-2 multiple of 16. + * It is easy to get rid of this optimization if necessary. + */ + Assert(s->hash_bits >= 8 && MAX_MATCH == 258, "Code too clever"); + + /* Do not waste too much time if we already have a good match: */ + if (s->prev_length >= s->good_match) { + chain_length >>= 2; + } + /* Do not look for matches beyond the end of the input. This is necessary + * to make deflate deterministic. + */ + if ((uInt)nice_match > s->lookahead) nice_match = (int)s->lookahead; + + Assert((ulg)s->strstart <= s->window_size - MIN_LOOKAHEAD, + "need lookahead"); + + do { + Assert(cur_match < s->strstart, "no future"); + match = s->window + cur_match; + + /* Skip to next match if the match length cannot increase + * or if the match length is less than 2. Note that the checks below + * for insufficient lookahead only occur occasionally for performance + * reasons. Therefore uninitialized memory will be accessed, and + * conditional jumps will be made that depend on those values. + * However the length of the match is limited to the lookahead, so + * the output of deflate is not affected by the uninitialized values. + */ +#if (defined(UNALIGNED_OK) && MAX_MATCH == 258) + /* This code assumes sizeof(unsigned short) == 2. Do not use + * UNALIGNED_OK if your compiler uses a different size. + */ + if (*(ushf*)(match + best_len - 1) != scan_end || + *(ushf*)match != scan_start) continue; + + /* It is not necessary to compare scan[2] and match[2] since they are + * always equal when the other bytes match, given that the hash keys + * are equal and that HASH_BITS >= 8. Compare 2 bytes at a time at + * strstart + 3, + 5, up to strstart + 257. We check for insufficient + * lookahead only every 4th comparison; the 128th check will be made + * at strstart + 257. If MAX_MATCH-2 is not a multiple of 8, it is + * necessary to put more guard bytes at the end of the window, or + * to check more often for insufficient lookahead. + */ + Assert(scan[2] == match[2], "scan[2]?"); + scan++, match++; + do { + } while (*(ushf*)(scan += 2) == *(ushf*)(match += 2) && + *(ushf*)(scan += 2) == *(ushf*)(match += 2) && + *(ushf*)(scan += 2) == *(ushf*)(match += 2) && + *(ushf*)(scan += 2) == *(ushf*)(match += 2) && + scan < strend); + /* The funny "do {}" generates better code on most compilers */ + + /* Here, scan <= window + strstart + 257 */ + Assert(scan <= s->window + (unsigned)(s->window_size - 1), + "wild scan"); + if (*scan == *match) scan++; + + len = (MAX_MATCH - 1) - (int)(strend - scan); + scan = strend - (MAX_MATCH-1); + +#else /* UNALIGNED_OK */ + + if (match[best_len] != scan_end || + match[best_len - 1] != scan_end1 || + *match != *scan || + *++match != scan[1]) continue; + + /* The check at best_len - 1 can be removed because it will be made + * again later. (This heuristic is not always a win.) + * It is not necessary to compare scan[2] and match[2] since they + * are always equal when the other bytes match, given that + * the hash keys are equal and that HASH_BITS >= 8. + */ + scan += 2, match++; + Assert(*scan == *match, "match[2]?"); + + /* We check for insufficient lookahead only every 8th comparison; + * the 256th check will be made at strstart + 258. + */ + do { + } while (*++scan == *++match && *++scan == *++match && + *++scan == *++match && *++scan == *++match && + *++scan == *++match && *++scan == *++match && + *++scan == *++match && *++scan == *++match && + scan < strend); + + Assert(scan <= s->window + (unsigned)(s->window_size - 1), + "wild scan"); + + len = MAX_MATCH - (int)(strend - scan); + scan = strend - MAX_MATCH; + +#endif /* UNALIGNED_OK */ + + if (len > best_len) { + s->match_start = cur_match; + best_len = len; + if (len >= nice_match) break; +#ifdef UNALIGNED_OK + scan_end = *(ushf*)(scan + best_len - 1); +#else + scan_end1 = scan[best_len - 1]; + scan_end = scan[best_len]; +#endif + } + } while ((cur_match = prev[cur_match & wmask]) > limit + && --chain_length != 0); + + if ((uInt)best_len <= s->lookahead) return (uInt)best_len; + return s->lookahead; +} + +#else /* FASTEST */ + +/* --------------------------------------------------------------------------- + * Optimized version for FASTEST only + */ +local uInt longest_match(deflate_state *s, IPos cur_match) { + Bytef *scan = s->window + s->strstart; /* current string */ + Bytef *match; /* matched string */ + int len; /* length of current match */ + Bytef *strend = s->window + s->strstart + MAX_MATCH; + + /* The code is optimized for HASH_BITS >= 8 and MAX_MATCH-2 multiple of 16. + * It is easy to get rid of this optimization if necessary. + */ + Assert(s->hash_bits >= 8 && MAX_MATCH == 258, "Code too clever"); + + Assert((ulg)s->strstart <= s->window_size - MIN_LOOKAHEAD, + "need lookahead"); + + Assert(cur_match < s->strstart, "no future"); + + match = s->window + cur_match; + + /* Return failure if the match length is less than 2: + */ + if (match[0] != scan[0] || match[1] != scan[1]) return MIN_MATCH-1; + + /* The check at best_len - 1 can be removed because it will be made + * again later. (This heuristic is not always a win.) + * It is not necessary to compare scan[2] and match[2] since they + * are always equal when the other bytes match, given that + * the hash keys are equal and that HASH_BITS >= 8. + */ + scan += 2, match += 2; + Assert(*scan == *match, "match[2]?"); + + /* We check for insufficient lookahead only every 8th comparison; + * the 256th check will be made at strstart + 258. + */ + do { + } while (*++scan == *++match && *++scan == *++match && + *++scan == *++match && *++scan == *++match && + *++scan == *++match && *++scan == *++match && + *++scan == *++match && *++scan == *++match && + scan < strend); + + Assert(scan <= s->window + (unsigned)(s->window_size - 1), "wild scan"); + + len = MAX_MATCH - (int)(strend - scan); + + if (len < MIN_MATCH) return MIN_MATCH - 1; + + s->match_start = cur_match; + return (uInt)len <= s->lookahead ? (uInt)len : s->lookahead; +} + +#endif /* FASTEST */ + +#ifdef ZLIB_DEBUG + +#define EQUAL 0 +/* result of memcmp for equal strings */ + +/* =========================================================================== + * Check that the match at match_start is indeed a match. + */ +local void check_match(deflate_state *s, IPos start, IPos match, int length) { + /* check that the match is indeed a match */ + Bytef *back = s->window + (int)match, *here = s->window + start; + IPos len = (IPos)length; + if (match == (IPos)-1) { + /* match starts one byte before the current window -- just compare the + subsequent length-1 bytes */ + back++; + here++; + len--; + } + if (zmemcmp(back, here, len) != EQUAL) { + fprintf(stderr, " start %u, match %d, length %d\n", + start, (int)match, length); + do { + fprintf(stderr, "(%02x %02x)", *back++, *here++); + } while (--len != 0); + z_error("invalid match"); + } + if (z_verbose > 1) { + fprintf(stderr,"\\[%d,%d]", start - match, length); + do { putc(s->window[start++], stderr); } while (--length != 0); + } +} +#else +# define check_match(s, start, match, length) +#endif /* ZLIB_DEBUG */ + +/* =========================================================================== + * Flush the current block, with given end-of-file flag. + * IN assertion: strstart is set to the end of the current match. + */ +#define FLUSH_BLOCK_ONLY(s, last) { \ + _tr_flush_block(s, (s->block_start >= 0L ? \ + (charf *)&s->window[(unsigned)s->block_start] : \ + (charf *)Z_NULL), \ + (ulg)((long)s->strstart - s->block_start), \ + (last)); \ + s->block_start = s->strstart; \ + flush_pending(s->strm); \ + Tracev((stderr,"[FLUSH]")); \ +} + +/* Same but force premature exit if necessary. */ +#define FLUSH_BLOCK(s, last) { \ + FLUSH_BLOCK_ONLY(s, last); \ + if (s->strm->avail_out == 0) return (last) ? finish_started : need_more; \ +} + +/* Maximum stored block length in deflate format (not including header). */ +#define MAX_STORED 65535 + +/* Minimum of a and b. */ +#define MIN(a, b) ((a) > (b) ? (b) : (a)) + +/* =========================================================================== + * Copy without compression as much as possible from the input stream, return + * the current block state. + * + * In case deflateParams() is used to later switch to a non-zero compression + * level, s->matches (otherwise unused when storing) keeps track of the number + * of hash table slides to perform. If s->matches is 1, then one hash table + * slide will be done when switching. If s->matches is 2, the maximum value + * allowed here, then the hash table will be cleared, since two or more slides + * is the same as a clear. + * + * deflate_stored() is written to minimize the number of times an input byte is + * copied. It is most efficient with large input and output buffers, which + * maximizes the opportunities to have a single copy from next_in to next_out. + */ +local block_state deflate_stored(deflate_state *s, int flush) { + /* Smallest worthy block size when not flushing or finishing. By default + * this is 32K. This can be as small as 507 bytes for memLevel == 1. For + * large input and output buffers, the stored block size will be larger. + */ + unsigned min_block = (unsigned)(MIN(s->pending_buf_size - 5, s->w_size)); + + /* Copy as many min_block or larger stored blocks directly to next_out as + * possible. If flushing, copy the remaining available input to next_out as + * stored blocks, if there is enough space. + */ + int last = 0; + unsigned len, left, have; + unsigned used = s->strm->avail_in; + do { + /* Set len to the maximum size block that we can copy directly with the + * available input data and output space. Set left to how much of that + * would be copied from what's left in the window. + */ + len = MAX_STORED; /* maximum deflate stored block length */ + have = ((unsigned)s->bi_valid + 42) >> 3; /* bytes in header */ + if (s->strm->avail_out < have) /* need room for header */ + break; + /* maximum stored block length that will fit in avail_out: */ + have = s->strm->avail_out - have; + left = (unsigned)(s->strstart - s->block_start); /* window bytes */ + if (len > (ulg)left + s->strm->avail_in) + len = left + s->strm->avail_in; /* limit len to the input */ + if (len > have) + len = have; /* limit len to the output */ + + /* If the stored block would be less than min_block in length, or if + * unable to copy all of the available input when flushing, then try + * copying to the window and the pending buffer instead. Also don't + * write an empty block when flushing -- deflate() does that. + */ + if (len < min_block && ((len == 0 && flush != Z_FINISH) || + flush == Z_NO_FLUSH || + len != left + s->strm->avail_in)) + break; + + /* Make a dummy stored block in pending to get the header bytes, + * including any pending bits. This also updates the debugging counts. + */ + last = flush == Z_FINISH && len == left + s->strm->avail_in ? 1 : 0; + _tr_stored_block(s, (char *)0, 0L, last); + + /* Replace the lengths in the dummy stored block with len. */ + s->pending_buf[s->pending - 4] = (Bytef)len; + s->pending_buf[s->pending - 3] = (Bytef)(len >> 8); + s->pending_buf[s->pending - 2] = (Bytef)~len; + s->pending_buf[s->pending - 1] = (Bytef)(~len >> 8); + + /* Write the stored block header bytes. */ + flush_pending(s->strm); + +#ifdef ZLIB_DEBUG + /* Update debugging counts for the data about to be copied. */ + s->compressed_len += len << 3; + s->bits_sent += len << 3; +#endif + + /* Copy uncompressed bytes from the window to next_out. */ + if (left) { + if (left > len) + left = len; + zmemcpy(s->strm->next_out, s->window + s->block_start, left); + s->strm->next_out += left; + s->strm->avail_out -= left; + s->strm->total_out += left; + s->block_start += left; + len -= left; + } + + /* Copy uncompressed bytes directly from next_in to next_out, updating + * the check value. + */ + if (len) { + read_buf(s->strm, s->strm->next_out, len); + s->strm->next_out += len; + s->strm->avail_out -= len; + s->strm->total_out += len; + } + } while (last == 0); + + /* Update the sliding window with the last s->w_size bytes of the copied + * data, or append all of the copied data to the existing window if less + * than s->w_size bytes were copied. Also update the number of bytes to + * insert in the hash tables, in the event that deflateParams() switches to + * a non-zero compression level. + */ + used -= s->strm->avail_in; /* number of input bytes directly copied */ + if (used) { + /* If any input was used, then no unused input remains in the window, + * therefore s->block_start == s->strstart. + */ + if (used >= s->w_size) { /* supplant the previous history */ + s->matches = 2; /* clear hash */ + zmemcpy(s->window, s->strm->next_in - s->w_size, s->w_size); + s->strstart = s->w_size; + s->insert = s->strstart; + } + else { + if (s->window_size - s->strstart <= used) { + /* Slide the window down. */ + s->strstart -= s->w_size; + zmemcpy(s->window, s->window + s->w_size, s->strstart); + if (s->matches < 2) + s->matches++; /* add a pending slide_hash() */ + if (s->insert > s->strstart) + s->insert = s->strstart; + } + zmemcpy(s->window + s->strstart, s->strm->next_in - used, used); + s->strstart += used; + s->insert += MIN(used, s->w_size - s->insert); + } + s->block_start = s->strstart; + } + if (s->high_water < s->strstart) + s->high_water = s->strstart; + + /* If the last block was written to next_out, then done. */ + if (last) { + s->bi_used = 8; + return finish_done; + } + + /* If flushing and all input has been consumed, then done. */ + if (flush != Z_NO_FLUSH && flush != Z_FINISH && + s->strm->avail_in == 0 && (long)s->strstart == s->block_start) + return block_done; + + /* Fill the window with any remaining input. */ + have = (unsigned)(s->window_size - s->strstart); + if (s->strm->avail_in > have && s->block_start >= (long)s->w_size) { + /* Slide the window down. */ + s->block_start -= s->w_size; + s->strstart -= s->w_size; + zmemcpy(s->window, s->window + s->w_size, s->strstart); + if (s->matches < 2) + s->matches++; /* add a pending slide_hash() */ + have += s->w_size; /* more space now */ + if (s->insert > s->strstart) + s->insert = s->strstart; + } + if (have > s->strm->avail_in) + have = s->strm->avail_in; + if (have) { + read_buf(s->strm, s->window + s->strstart, have); + s->strstart += have; + s->insert += MIN(have, s->w_size - s->insert); + } + if (s->high_water < s->strstart) + s->high_water = s->strstart; + + /* There was not enough avail_out to write a complete worthy or flushed + * stored block to next_out. Write a stored block to pending instead, if we + * have enough input for a worthy block, or if flushing and there is enough + * room for the remaining input as a stored block in the pending buffer. + */ + have = ((unsigned)s->bi_valid + 42) >> 3; /* bytes in header */ + /* maximum stored block length that will fit in pending: */ + have = (unsigned)MIN(s->pending_buf_size - have, MAX_STORED); + min_block = MIN(have, s->w_size); + left = (unsigned)(s->strstart - s->block_start); + if (left >= min_block || + ((left || flush == Z_FINISH) && flush != Z_NO_FLUSH && + s->strm->avail_in == 0 && left <= have)) { + len = MIN(left, have); + last = flush == Z_FINISH && s->strm->avail_in == 0 && + len == left ? 1 : 0; + _tr_stored_block(s, (charf *)s->window + s->block_start, len, last); + s->block_start += len; + flush_pending(s->strm); + } + + /* We've done all we can with the available input and output. */ + if (last) + s->bi_used = 8; + return last ? finish_started : need_more; +} + +/* =========================================================================== + * Compress as much as possible from the input stream, return the current + * block state. + * This function does not perform lazy evaluation of matches and inserts + * new strings in the dictionary only for unmatched strings or for short + * matches. It is used only for the fast compression options. + */ +local block_state deflate_fast(deflate_state *s, int flush) { + IPos hash_head; /* head of the hash chain */ + int bflush; /* set if current block must be flushed */ + + for (;;) { + /* Make sure that we always have enough lookahead, except + * at the end of the input file. We need MAX_MATCH bytes + * for the next match, plus MIN_MATCH bytes to insert the + * string following the next match. + */ + if (s->lookahead < MIN_LOOKAHEAD) { + fill_window(s); + if (s->lookahead < MIN_LOOKAHEAD && flush == Z_NO_FLUSH) { + return need_more; + } + if (s->lookahead == 0) break; /* flush the current block */ + } + + /* Insert the string window[strstart .. strstart + 2] in the + * dictionary, and set hash_head to the head of the hash chain: + */ + hash_head = NIL; + if (s->lookahead >= MIN_MATCH) { + INSERT_STRING(s, s->strstart, hash_head); + } + + /* Find the longest match, discarding those <= prev_length. + * At this point we have always match_length < MIN_MATCH + */ + if (hash_head != NIL && s->strstart - hash_head <= MAX_DIST(s)) { + /* To simplify the code, we prevent matches with the string + * of window index 0 (in particular we have to avoid a match + * of the string with itself at the start of the input file). + */ + s->match_length = longest_match (s, hash_head); + /* longest_match() sets match_start */ + } + if (s->match_length >= MIN_MATCH) { + check_match(s, s->strstart, s->match_start, (int)s->match_length); + + _tr_tally_dist(s, s->strstart - s->match_start, + s->match_length - MIN_MATCH, bflush); + + s->lookahead -= s->match_length; + + /* Insert new strings in the hash table only if the match length + * is not too large. This saves time but degrades compression. + */ +#ifndef FASTEST + if (s->match_length <= s->max_insert_length && + s->lookahead >= MIN_MATCH) { + s->match_length--; /* string at strstart already in table */ + do { + s->strstart++; + INSERT_STRING(s, s->strstart, hash_head); + /* strstart never exceeds WSIZE-MAX_MATCH, so there are + * always MIN_MATCH bytes ahead. + */ + } while (--s->match_length != 0); + s->strstart++; + } else +#endif + { + s->strstart += s->match_length; + s->match_length = 0; + s->ins_h = s->window[s->strstart]; + UPDATE_HASH(s, s->ins_h, s->window[s->strstart + 1]); +#if MIN_MATCH != 3 + Call UPDATE_HASH() MIN_MATCH-3 more times +#endif + /* If lookahead < MIN_MATCH, ins_h is garbage, but it does not + * matter since it will be recomputed at next deflate call. + */ + } + } else { + /* No match, output a literal byte */ + Tracevv((stderr,"%c", s->window[s->strstart])); + _tr_tally_lit(s, s->window[s->strstart], bflush); + s->lookahead--; + s->strstart++; + } + if (bflush) FLUSH_BLOCK(s, 0); + } + s->insert = s->strstart < MIN_MATCH-1 ? s->strstart : MIN_MATCH-1; + if (flush == Z_FINISH) { + FLUSH_BLOCK(s, 1); + return finish_done; + } + if (s->sym_next) + FLUSH_BLOCK(s, 0); + return block_done; +} + +#ifndef FASTEST +/* =========================================================================== + * Same as above, but achieves better compression. We use a lazy + * evaluation for matches: a match is finally adopted only if there is + * no better match at the next window position. + */ +local block_state deflate_slow(deflate_state *s, int flush) { + IPos hash_head; /* head of hash chain */ + int bflush; /* set if current block must be flushed */ + + /* Process the input block. */ + for (;;) { + /* Make sure that we always have enough lookahead, except + * at the end of the input file. We need MAX_MATCH bytes + * for the next match, plus MIN_MATCH bytes to insert the + * string following the next match. + */ + if (s->lookahead < MIN_LOOKAHEAD) { + fill_window(s); + if (s->lookahead < MIN_LOOKAHEAD && flush == Z_NO_FLUSH) { + return need_more; + } + if (s->lookahead == 0) break; /* flush the current block */ + } + + /* Insert the string window[strstart .. strstart + 2] in the + * dictionary, and set hash_head to the head of the hash chain: + */ + hash_head = NIL; + if (s->lookahead >= MIN_MATCH) { + INSERT_STRING(s, s->strstart, hash_head); + } + + /* Find the longest match, discarding those <= prev_length. + */ + s->prev_length = s->match_length, s->prev_match = s->match_start; + s->match_length = MIN_MATCH-1; + + if (hash_head != NIL && s->prev_length < s->max_lazy_match && + s->strstart - hash_head <= MAX_DIST(s)) { + /* To simplify the code, we prevent matches with the string + * of window index 0 (in particular we have to avoid a match + * of the string with itself at the start of the input file). + */ + s->match_length = longest_match (s, hash_head); + /* longest_match() sets match_start */ + + if (s->match_length <= 5 && (s->strategy == Z_FILTERED +#if TOO_FAR <= 32767 + || (s->match_length == MIN_MATCH && + s->strstart - s->match_start > TOO_FAR) +#endif + )) { + + /* If prev_match is also MIN_MATCH, match_start is garbage + * but we will ignore the current match anyway. + */ + s->match_length = MIN_MATCH-1; + } + } + /* If there was a match at the previous step and the current + * match is not better, output the previous match: + */ + if (s->prev_length >= MIN_MATCH && s->match_length <= s->prev_length) { + uInt max_insert = s->strstart + s->lookahead - MIN_MATCH; + /* Do not insert strings in hash table beyond this. */ + + check_match(s, s->strstart - 1, s->prev_match, (int)s->prev_length); + + _tr_tally_dist(s, s->strstart - 1 - s->prev_match, + s->prev_length - MIN_MATCH, bflush); + + /* Insert in hash table all strings up to the end of the match. + * strstart - 1 and strstart are already inserted. If there is not + * enough lookahead, the last two strings are not inserted in + * the hash table. + */ + s->lookahead -= s->prev_length - 1; + s->prev_length -= 2; + do { + if (++s->strstart <= max_insert) { + INSERT_STRING(s, s->strstart, hash_head); + } + } while (--s->prev_length != 0); + s->match_available = 0; + s->match_length = MIN_MATCH-1; + s->strstart++; + + if (bflush) FLUSH_BLOCK(s, 0); + + } else if (s->match_available) { + /* If there was no match at the previous position, output a + * single literal. If there was a match but the current match + * is longer, truncate the previous match to a single literal. + */ + Tracevv((stderr,"%c", s->window[s->strstart - 1])); + _tr_tally_lit(s, s->window[s->strstart - 1], bflush); + if (bflush) { + FLUSH_BLOCK_ONLY(s, 0); + } + s->strstart++; + s->lookahead--; + if (s->strm->avail_out == 0) return need_more; + } else { + /* There is no previous match to compare with, wait for + * the next step to decide. + */ + s->match_available = 1; + s->strstart++; + s->lookahead--; + } + } + Assert (flush != Z_NO_FLUSH, "no flush?"); + if (s->match_available) { + Tracevv((stderr,"%c", s->window[s->strstart - 1])); + _tr_tally_lit(s, s->window[s->strstart - 1], bflush); + s->match_available = 0; + } + s->insert = s->strstart < MIN_MATCH-1 ? s->strstart : MIN_MATCH-1; + if (flush == Z_FINISH) { + FLUSH_BLOCK(s, 1); + return finish_done; + } + if (s->sym_next) + FLUSH_BLOCK(s, 0); + return block_done; +} +#endif /* FASTEST */ + +/* =========================================================================== + * For Z_RLE, simply look for runs of bytes, generate matches only of distance + * one. Do not maintain a hash table. (It will be regenerated if this run of + * deflate switches away from Z_RLE.) + */ +local block_state deflate_rle(deflate_state *s, int flush) { + int bflush; /* set if current block must be flushed */ + uInt prev; /* byte at distance one to match */ + Bytef *scan, *strend; /* scan goes up to strend for length of run */ + + for (;;) { + /* Make sure that we always have enough lookahead, except + * at the end of the input file. We need MAX_MATCH bytes + * for the longest run, plus one for the unrolled loop. + */ + if (s->lookahead <= MAX_MATCH) { + fill_window(s); + if (s->lookahead <= MAX_MATCH && flush == Z_NO_FLUSH) { + return need_more; + } + if (s->lookahead == 0) break; /* flush the current block */ + } + + /* See how many times the previous byte repeats */ + s->match_length = 0; + if (s->lookahead >= MIN_MATCH && s->strstart > 0) { + scan = s->window + s->strstart - 1; + prev = *scan; + if (prev == *++scan && prev == *++scan && prev == *++scan) { + strend = s->window + s->strstart + MAX_MATCH; + do { + } while (prev == *++scan && prev == *++scan && + prev == *++scan && prev == *++scan && + prev == *++scan && prev == *++scan && + prev == *++scan && prev == *++scan && + scan < strend); + s->match_length = MAX_MATCH - (uInt)(strend - scan); + if (s->match_length > s->lookahead) + s->match_length = s->lookahead; + } + Assert(scan <= s->window + (uInt)(s->window_size - 1), + "wild scan"); + } + + /* Emit match if have run of MIN_MATCH or longer, else emit literal */ + if (s->match_length >= MIN_MATCH) { + check_match(s, s->strstart, s->strstart - 1, (int)s->match_length); + + _tr_tally_dist(s, 1, s->match_length - MIN_MATCH, bflush); + + s->lookahead -= s->match_length; + s->strstart += s->match_length; + s->match_length = 0; + } else { + /* No match, output a literal byte */ + Tracevv((stderr,"%c", s->window[s->strstart])); + _tr_tally_lit(s, s->window[s->strstart], bflush); + s->lookahead--; + s->strstart++; + } + if (bflush) FLUSH_BLOCK(s, 0); + } + s->insert = 0; + if (flush == Z_FINISH) { + FLUSH_BLOCK(s, 1); + return finish_done; + } + if (s->sym_next) + FLUSH_BLOCK(s, 0); + return block_done; +} + +/* =========================================================================== + * For Z_HUFFMAN_ONLY, do not look for matches. Do not maintain a hash table. + * (It will be regenerated if this run of deflate switches away from Huffman.) + */ +local block_state deflate_huff(deflate_state *s, int flush) { + int bflush; /* set if current block must be flushed */ + + for (;;) { + /* Make sure that we have a literal to write. */ + if (s->lookahead == 0) { + fill_window(s); + if (s->lookahead == 0) { + if (flush == Z_NO_FLUSH) + return need_more; + break; /* flush the current block */ + } + } + + /* Output a literal byte */ + s->match_length = 0; + Tracevv((stderr,"%c", s->window[s->strstart])); + _tr_tally_lit(s, s->window[s->strstart], bflush); + s->lookahead--; + s->strstart++; + if (bflush) FLUSH_BLOCK(s, 0); + } + s->insert = 0; + if (flush == Z_FINISH) { + FLUSH_BLOCK(s, 1); + return finish_done; + } + if (s->sym_next) + FLUSH_BLOCK(s, 0); + return block_done; +} diff --git a/Minecraft.Client/Common/zlib/deflate.h b/Minecraft.Client/Common/zlib/deflate.h new file mode 100644 index 0000000..0732ba8 --- /dev/null +++ b/Minecraft.Client/Common/zlib/deflate.h @@ -0,0 +1,383 @@ +/* deflate.h -- internal compression state + * Copyright (C) 1995-2026 Jean-loup Gailly + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* WARNING: this file should *not* be used by applications. It is + part of the implementation of the compression library and is + subject to change. Applications should only use zlib.h. + */ + +/* @(#) $Id$ */ + +#ifndef DEFLATE_H +#define DEFLATE_H + +#include "zutil.h" + +/* define NO_GZIP when compiling if you want to disable gzip header and + trailer creation by deflate(). NO_GZIP would be used to avoid linking in + the crc code when it is not needed. For shared libraries, gzip encoding + should be left enabled. */ +#ifndef NO_GZIP +# define GZIP +#endif + +/* define LIT_MEM to slightly increase the speed of deflate (order 1% to 2%) at + the cost of a larger memory footprint */ +/* #define LIT_MEM */ + +/* =========================================================================== + * Internal compression state. + */ + +#define LENGTH_CODES 29 +/* number of length codes, not counting the special END_BLOCK code */ + +#define LITERALS 256 +/* number of literal bytes 0..255 */ + +#define L_CODES (LITERALS+1+LENGTH_CODES) +/* number of Literal or Length codes, including the END_BLOCK code */ + +#define D_CODES 30 +/* number of distance codes */ + +#define BL_CODES 19 +/* number of codes used to transfer the bit lengths */ + +#define HEAP_SIZE (2*L_CODES+1) +/* maximum heap size */ + +#define MAX_BITS 15 +/* All codes must not exceed MAX_BITS bits */ + +#define Buf_size 16 +/* size of bit buffer in bi_buf */ + +#define INIT_STATE 42 /* zlib header -> BUSY_STATE */ +#ifdef GZIP +# define GZIP_STATE 57 /* gzip header -> BUSY_STATE | EXTRA_STATE */ +#endif +#define EXTRA_STATE 69 /* gzip extra block -> NAME_STATE */ +#define NAME_STATE 73 /* gzip file name -> COMMENT_STATE */ +#define COMMENT_STATE 91 /* gzip comment -> HCRC_STATE */ +#define HCRC_STATE 103 /* gzip header CRC -> BUSY_STATE */ +#define BUSY_STATE 113 /* deflate -> FINISH_STATE */ +#define FINISH_STATE 666 /* stream complete */ +/* Stream status */ + + +/* Data structure describing a single value and its code string. */ +typedef struct ct_data_s { + union { + ush freq; /* frequency count */ + ush code; /* bit string */ + } fc; + union { + ush dad; /* father node in Huffman tree */ + ush len; /* length of bit string */ + } dl; +} FAR ct_data; + +#define Freq fc.freq +#define Code fc.code +#define Dad dl.dad +#define Len dl.len + +typedef struct static_tree_desc_s static_tree_desc; + +typedef struct tree_desc_s { + ct_data *dyn_tree; /* the dynamic tree */ + int max_code; /* largest code with non zero frequency */ + const static_tree_desc *stat_desc; /* the corresponding static tree */ +} FAR tree_desc; + +typedef ush Pos; +typedef Pos FAR Posf; +typedef unsigned IPos; + +/* A Pos is an index in the character window. We use short instead of int to + * save space in the various tables. IPos is used only for parameter passing. + */ + +typedef struct internal_state { + z_streamp strm; /* pointer back to this zlib stream */ + int status; /* as the name implies */ + Bytef *pending_buf; /* output still pending */ + ulg pending_buf_size; /* size of pending_buf */ + Bytef *pending_out; /* next pending byte to output to the stream */ + ulg pending; /* nb of bytes in the pending buffer */ + int wrap; /* bit 0 true for zlib, bit 1 true for gzip */ + gz_headerp gzhead; /* gzip header information to write */ + ulg gzindex; /* where in extra, name, or comment */ + Byte method; /* can only be DEFLATED */ + int last_flush; /* value of flush param for previous deflate call */ + + /* used by deflate.c: */ + + uInt w_size; /* LZ77 window size (32K by default) */ + uInt w_bits; /* log2(w_size) (8..16) */ + uInt w_mask; /* w_size - 1 */ + + Bytef *window; + /* Sliding window. Input bytes are read into the second half of the window, + * and move to the first half later to keep a dictionary of at least wSize + * bytes. With this organization, matches are limited to a distance of + * wSize-MAX_MATCH bytes, but this ensures that IO is always + * performed with a length multiple of the block size. Also, it limits + * the window size to 64K, which is quite useful on MSDOS. + * To do: use the user input buffer as sliding window. + */ + + ulg window_size; + /* Actual size of window: 2*wSize, except when the user input buffer + * is directly used as sliding window. + */ + + Posf *prev; + /* Link to older string with same hash index. To limit the size of this + * array to 64K, this link is maintained only for the last 32K strings. + * An index in this array is thus a window index modulo 32K. + */ + + Posf *head; /* Heads of the hash chains or NIL. */ + + uInt ins_h; /* hash index of string to be inserted */ + uInt hash_size; /* number of elements in hash table */ + uInt hash_bits; /* log2(hash_size) */ + uInt hash_mask; /* hash_size-1 */ + + uInt hash_shift; + /* Number of bits by which ins_h must be shifted at each input + * step. It must be such that after MIN_MATCH steps, the oldest + * byte no longer takes part in the hash key, that is: + * hash_shift * MIN_MATCH >= hash_bits + */ + + long block_start; + /* Window position at the beginning of the current output block. Gets + * negative when the window is moved backwards. + */ + + uInt match_length; /* length of best match */ + IPos prev_match; /* previous match */ + int match_available; /* set if previous match exists */ + uInt strstart; /* start of string to insert */ + uInt match_start; /* start of matching string */ + uInt lookahead; /* number of valid bytes ahead in window */ + + uInt prev_length; + /* Length of the best match at previous step. Matches not greater than this + * are discarded. This is used in the lazy match evaluation. + */ + + uInt max_chain_length; + /* To speed up deflation, hash chains are never searched beyond this + * length. A higher limit improves compression ratio but degrades the + * speed. + */ + + uInt max_lazy_match; + /* Attempt to find a better match only when the current match is strictly + * smaller than this value. This mechanism is used only for compression + * levels >= 4. + */ +# define max_insert_length max_lazy_match + /* Insert new strings in the hash table only if the match length is not + * greater than this length. This saves time but degrades compression. + * max_insert_length is used only for compression levels <= 3. + */ + + int level; /* compression level (1..9) */ + int strategy; /* favor or force Huffman coding*/ + + uInt good_match; + /* Use a faster search when the previous match is longer than this */ + + int nice_match; /* Stop searching when current match exceeds this */ + + /* used by trees.c: */ + /* Didn't use ct_data typedef below to suppress compiler warning */ + struct ct_data_s dyn_ltree[HEAP_SIZE]; /* literal and length tree */ + struct ct_data_s dyn_dtree[2*D_CODES+1]; /* distance tree */ + struct ct_data_s bl_tree[2*BL_CODES+1]; /* Huffman tree for bit lengths */ + + struct tree_desc_s l_desc; /* desc. for literal tree */ + struct tree_desc_s d_desc; /* desc. for distance tree */ + struct tree_desc_s bl_desc; /* desc. for bit length tree */ + + ush bl_count[MAX_BITS+1]; + /* number of codes at each bit length for an optimal tree */ + + int heap[2*L_CODES+1]; /* heap used to build the Huffman trees */ + int heap_len; /* number of elements in the heap */ + int heap_max; /* element of largest frequency */ + /* The sons of heap[n] are heap[2*n] and heap[2*n+1]. heap[0] is not used. + * The same heap array is used to build all trees. + */ + + uch depth[2*L_CODES+1]; + /* Depth of each subtree used as tie breaker for trees of equal frequency + */ + +#ifdef LIT_MEM +# define LIT_BUFS 5 + ushf *d_buf; /* buffer for distances */ + uchf *l_buf; /* buffer for literals/lengths */ +#else +# define LIT_BUFS 4 + uchf *sym_buf; /* buffer for distances and literals/lengths */ +#endif + + uInt lit_bufsize; + /* Size of match buffer for literals/lengths. There are 4 reasons for + * limiting lit_bufsize to 64K: + * - frequencies can be kept in 16 bit counters + * - if compression is not successful for the first block, all input + * data is still in the window so we can still emit a stored block even + * when input comes from standard input. (This can also be done for + * all blocks if lit_bufsize is not greater than 32K.) + * - if compression is not successful for a file smaller than 64K, we can + * even emit a stored file instead of a stored block (saving 5 bytes). + * This is applicable only for zip (not gzip or zlib). + * - creating new Huffman trees less frequently may not provide fast + * adaptation to changes in the input data statistics. (Take for + * example a binary file with poorly compressible code followed by + * a highly compressible string table.) Smaller buffer sizes give + * fast adaptation but have of course the overhead of transmitting + * trees more frequently. + * - I can't count above 4 + */ + + uInt sym_next; /* running index in symbol buffer */ + uInt sym_end; /* symbol table full when sym_next reaches this */ + + ulg opt_len; /* bit length of current block with optimal trees */ + ulg static_len; /* bit length of current block with static trees */ + uInt matches; /* number of string matches in current block */ + uInt insert; /* bytes at end of window left to insert */ + +#ifdef ZLIB_DEBUG + ulg compressed_len; /* total bit length of compressed file mod 2^32 */ + ulg bits_sent; /* bit length of compressed data sent mod 2^32 */ +#endif + + ush bi_buf; + /* Output buffer. bits are inserted starting at the bottom (least + * significant bits). + */ + int bi_valid; + /* Number of valid bits in bi_buf. All bits above the last valid bit + * are always zero. + */ + int bi_used; + /* Last number of used bits when going to a byte boundary. + */ + + ulg high_water; + /* High water mark offset in window for initialized bytes -- bytes above + * this are set to zero in order to avoid memory check warnings when + * longest match routines access bytes past the input. This is then + * updated to the new high water mark. + */ + + int slid; + /* True if the hash table has been slid since it was cleared. */ + +} FAR deflate_state; + +/* Output a byte on the stream. + * IN assertion: there is enough room in pending_buf. + */ +#define put_byte(s, c) {s->pending_buf[s->pending++] = (Bytef)(c);} + + +#define MIN_LOOKAHEAD (MAX_MATCH+MIN_MATCH+1) +/* Minimum amount of lookahead, except at the end of the input file. + * See deflate.c for comments about the MIN_MATCH+1. + */ + +#define MAX_DIST(s) ((s)->w_size-MIN_LOOKAHEAD) +/* In order to simplify the code, particularly on 16 bit machines, match + * distances are limited to MAX_DIST instead of WSIZE. + */ + +#define WIN_INIT MAX_MATCH +/* Number of bytes after end of data in window to initialize in order to avoid + memory checker errors from longest match routines */ + + /* in trees.c */ +void ZLIB_INTERNAL _tr_init(deflate_state *s); +int ZLIB_INTERNAL _tr_tally(deflate_state *s, unsigned dist, unsigned lc); +void ZLIB_INTERNAL _tr_flush_block(deflate_state *s, charf *buf, + ulg stored_len, int last); +void ZLIB_INTERNAL _tr_flush_bits(deflate_state *s); +void ZLIB_INTERNAL _tr_align(deflate_state *s); +void ZLIB_INTERNAL _tr_stored_block(deflate_state *s, charf *buf, + ulg stored_len, int last); + +#define d_code(dist) \ + ((dist) < 256 ? _dist_code[dist] : _dist_code[256+((dist)>>7)]) +/* Mapping from a distance to a distance code. dist is the distance - 1 and + * must not have side effects. _dist_code[256] and _dist_code[257] are never + * used. + */ + +#ifndef ZLIB_DEBUG +/* Inline versions of _tr_tally for speed: */ + +#if defined(GEN_TREES_H) || !defined(STDC) + extern uch ZLIB_INTERNAL _length_code[]; + extern uch ZLIB_INTERNAL _dist_code[]; +#else + extern const uch ZLIB_INTERNAL _length_code[]; + extern const uch ZLIB_INTERNAL _dist_code[]; +#endif + +#ifdef LIT_MEM +# define _tr_tally_lit(s, c, flush) \ + { uch cc = (c); \ + s->d_buf[s->sym_next] = 0; \ + s->l_buf[s->sym_next++] = cc; \ + s->dyn_ltree[cc].Freq++; \ + flush = (s->sym_next == s->sym_end); \ + } +# define _tr_tally_dist(s, distance, length, flush) \ + { uch len = (uch)(length); \ + ush dist = (ush)(distance); \ + s->d_buf[s->sym_next] = dist; \ + s->l_buf[s->sym_next++] = len; \ + dist--; \ + s->dyn_ltree[_length_code[len]+LITERALS+1].Freq++; \ + s->dyn_dtree[d_code(dist)].Freq++; \ + flush = (s->sym_next == s->sym_end); \ + } +#else +# define _tr_tally_lit(s, c, flush) \ + { uch cc = (c); \ + s->sym_buf[s->sym_next++] = 0; \ + s->sym_buf[s->sym_next++] = 0; \ + s->sym_buf[s->sym_next++] = cc; \ + s->dyn_ltree[cc].Freq++; \ + flush = (s->sym_next == s->sym_end); \ + } +# define _tr_tally_dist(s, distance, length, flush) \ + { uch len = (uch)(length); \ + ush dist = (ush)(distance); \ + s->sym_buf[s->sym_next++] = (uch)dist; \ + s->sym_buf[s->sym_next++] = (uch)(dist >> 8); \ + s->sym_buf[s->sym_next++] = len; \ + dist--; \ + s->dyn_ltree[_length_code[len]+LITERALS+1].Freq++; \ + s->dyn_dtree[d_code(dist)].Freq++; \ + flush = (s->sym_next == s->sym_end); \ + } +#endif +#else +# define _tr_tally_lit(s, c, flush) flush = _tr_tally(s, 0, c) +# define _tr_tally_dist(s, distance, length, flush) \ + flush = _tr_tally(s, distance, length) +#endif + +#endif /* DEFLATE_H */ diff --git a/Minecraft.Client/Common/zlib/gzclose.c b/Minecraft.Client/Common/zlib/gzclose.c new file mode 100644 index 0000000..48d6a86 --- /dev/null +++ b/Minecraft.Client/Common/zlib/gzclose.c @@ -0,0 +1,23 @@ +/* gzclose.c -- zlib gzclose() function + * Copyright (C) 2004, 2010 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +#include "gzguts.h" + +/* gzclose() is in a separate file so that it is linked in only if it is used. + That way the other gzclose functions can be used instead to avoid linking in + unneeded compression or decompression routines. */ +int ZEXPORT gzclose(gzFile file) { +#ifndef NO_GZCOMPRESS + gz_statep state; + + if (file == NULL) + return Z_STREAM_ERROR; + state = (gz_statep)file; + + return state->mode == GZ_READ ? gzclose_r(file) : gzclose_w(file); +#else + return gzclose_r(file); +#endif +} diff --git a/Minecraft.Client/Common/zlib/gzguts.h b/Minecraft.Client/Common/zlib/gzguts.h new file mode 100644 index 0000000..266305d --- /dev/null +++ b/Minecraft.Client/Common/zlib/gzguts.h @@ -0,0 +1,216 @@ +/* gzguts.h -- zlib internal header definitions for gz* operations + * Copyright (C) 2004-2026 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +#ifdef _LARGEFILE64_SOURCE +# ifndef _LARGEFILE_SOURCE +# define _LARGEFILE_SOURCE 1 +# endif +# undef _FILE_OFFSET_BITS +# undef _TIME_BITS +#endif + +#ifdef HAVE_HIDDEN +# define ZLIB_INTERNAL __attribute__((visibility ("hidden"))) +#else +# define ZLIB_INTERNAL +#endif + +#if defined(_WIN32) +# ifndef WIN32_LEAN_AND_MEAN +# define WIN32_LEAN_AND_MEAN +# endif +# ifndef _CRT_SECURE_NO_WARNINGS +# define _CRT_SECURE_NO_WARNINGS +# endif +# ifndef _CRT_NONSTDC_NO_DEPRECATE +# define _CRT_NONSTDC_NO_DEPRECATE +# endif +#endif + +#include +#include "zlib.h" +#ifdef STDC +# include +# include +# include +#endif + +#ifndef _POSIX_C_SOURCE +# define _POSIX_C_SOURCE 200112L +#endif +#include + +#ifdef _WIN32 +# include +#endif + +#if defined(__TURBOC__) || defined(_MSC_VER) || defined(_WIN32) +# include +# include +#endif + +#if defined(_WIN32) && !defined(WIDECHAR) +# define WIDECHAR +#endif + +#ifdef NO_DEFLATE /* for compatibility with old definition */ +# define NO_GZCOMPRESS +#endif + +#if defined(STDC99) || (defined(__TURBOC__) && __TURBOC__ >= 0x550) +# ifndef HAVE_VSNPRINTF +# define HAVE_VSNPRINTF +# endif +#endif + +#if defined(__CYGWIN__) +# ifndef HAVE_VSNPRINTF +# define HAVE_VSNPRINTF +# endif +#endif + +#if defined(MSDOS) && defined(__BORLANDC__) && (BORLANDC > 0x410) +# ifndef HAVE_VSNPRINTF +# define HAVE_VSNPRINTF +# endif +#endif + +#ifndef HAVE_VSNPRINTF +# if !defined(NO_vsnprintf) && \ + (defined(MSDOS) || defined(__TURBOC__) || defined(__SASC) || \ + defined(VMS) || defined(__OS400) || defined(__MVS__)) +/* vsnprintf may exist on some MS-DOS compilers (DJGPP?), + but for now we just assume it doesn't. */ +# define NO_vsnprintf +# endif +# ifdef WIN32 +/* In Win32, vsnprintf is available as the "non-ANSI" _vsnprintf. */ +# if !defined(_MSC_VER) || ( defined(_MSC_VER) && _MSC_VER < 1500 ) +# ifndef vsnprintf +# define vsnprintf _vsnprintf +# endif +# endif +# elif !defined(__STDC_VERSION__) || __STDC_VERSION__-0 < 199901L +/* Otherwise if C89/90, assume no C99 snprintf() or vsnprintf() */ +# ifndef NO_snprintf +# define NO_snprintf +# endif +# ifndef NO_vsnprintf +# define NO_vsnprintf +# endif +# endif +#endif + +/* unlike snprintf (which is required in C99), _snprintf does not guarantee + null termination of the result -- however this is only used in gzlib.c where + the result is assured to fit in the space provided */ +#if defined(_MSC_VER) && _MSC_VER < 1900 +# define snprintf _snprintf +#endif + +#ifndef local +# define local static +#endif +/* since "static" is used to mean two completely different things in C, we + define "local" for the non-static meaning of "static", for readability + (compile with -Dlocal if your debugger can't find static symbols) */ + +/* gz* functions always use library allocation functions */ +#ifndef STDC + extern voidp malloc(uInt size); + extern void free(voidpf ptr); +#endif + +/* get errno and strerror definition */ +#if defined UNDER_CE +# include +# define zstrerror() gz_strwinerror((DWORD)GetLastError()) +#else +# ifndef NO_STRERROR +# include +# define zstrerror() strerror(errno) +# else +# define zstrerror() "stdio error (consult errno)" +# endif +#endif + +/* provide prototypes for these when building zlib without LFS */ +#if !defined(_LARGEFILE64_SOURCE) || _LFS64_LARGEFILE-0 == 0 + ZEXTERN gzFile ZEXPORT gzopen64(const char *, const char *); + ZEXTERN z_off64_t ZEXPORT gzseek64(gzFile, z_off64_t, int); + ZEXTERN z_off64_t ZEXPORT gztell64(gzFile); + ZEXTERN z_off64_t ZEXPORT gzoffset64(gzFile); +#endif + +/* default memLevel */ +#if MAX_MEM_LEVEL >= 8 +# define DEF_MEM_LEVEL 8 +#else +# define DEF_MEM_LEVEL MAX_MEM_LEVEL +#endif + +/* default i/o buffer size -- double this for output when reading (this and + twice this must be able to fit in an unsigned type) */ +#define GZBUFSIZE 8192 + +/* gzip modes, also provide a little integrity check on the passed structure */ +#define GZ_NONE 0 +#define GZ_READ 7247 +#define GZ_WRITE 31153 +#define GZ_APPEND 1 /* mode set to GZ_WRITE after the file is opened */ + +/* values for gz_state how */ +#define LOOK 0 /* look for a gzip header */ +#define COPY 1 /* copy input directly */ +#define GZIP 2 /* decompress a gzip stream */ + +/* internal gzip file state data structure */ +typedef struct { + /* exposed contents for gzgetc() macro */ + struct gzFile_s x; /* "x" for exposed */ + /* x.have: number of bytes available at x.next */ + /* x.next: next output data to deliver or write */ + /* x.pos: current position in uncompressed data */ + /* used for both reading and writing */ + int mode; /* see gzip modes above */ + int fd; /* file descriptor */ + char *path; /* path or fd for error messages */ + unsigned size; /* buffer size, zero if not allocated yet */ + unsigned want; /* requested buffer size, default is GZBUFSIZE */ + unsigned char *in; /* input buffer (double-sized when writing) */ + unsigned char *out; /* output buffer (double-sized when reading) */ + int direct; /* 0 if processing gzip, 1 if transparent */ + /* just for reading */ + int junk; /* -1 = start, 1 = junk candidate, 0 = in gzip */ + int how; /* 0: get header, 1: copy, 2: decompress */ + int again; /* true if EAGAIN or EWOULDBLOCK on last i/o */ + z_off64_t start; /* where the gzip data started, for rewinding */ + int eof; /* true if end of input file reached */ + int past; /* true if read requested past end */ + /* just for writing */ + int level; /* compression level */ + int strategy; /* compression strategy */ + int reset; /* true if a reset is pending after a Z_FINISH */ + /* seek request */ + z_off64_t skip; /* amount to skip (already rewound if backwards) */ + /* error information */ + int err; /* error code */ + char *msg; /* error message */ + /* zlib inflate or deflate stream */ + z_stream strm; /* stream structure in-place (not a pointer) */ +} gz_state; +typedef gz_state FAR *gz_statep; + +/* shared functions */ +void ZLIB_INTERNAL gz_error(gz_statep, int, const char *); +#if defined UNDER_CE +char ZLIB_INTERNAL *gz_strwinerror(DWORD error); +#endif + +/* GT_OFF(x), where x is an unsigned value, is true if x > maximum z_off64_t + value -- needed when comparing unsigned to z_off64_t, which is signed + (possible z_off64_t types off_t, off64_t, and long are all signed) */ +unsigned ZLIB_INTERNAL gz_intmax(void); +#define GT_OFF(x) (sizeof(int) == sizeof(z_off64_t) && (x) > gz_intmax()) diff --git a/Minecraft.Client/Common/zlib/gzlib.c b/Minecraft.Client/Common/zlib/gzlib.c new file mode 100644 index 0000000..7a37a96 --- /dev/null +++ b/Minecraft.Client/Common/zlib/gzlib.c @@ -0,0 +1,609 @@ +/* gzlib.c -- zlib functions common to reading and writing gzip files + * Copyright (C) 2004-2026 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +#include "gzguts.h" + +#if defined(__DJGPP__) +# define LSEEK llseek +#elif defined(_WIN32) && !defined(__BORLANDC__) && !defined(UNDER_CE) +# define LSEEK _lseeki64 +#elif defined(_LARGEFILE64_SOURCE) && _LFS64_LARGEFILE-0 +# define LSEEK lseek64 +#else +# define LSEEK lseek +#endif + +#if defined UNDER_CE + +/* Map the Windows error number in ERROR to a locale-dependent error message + string and return a pointer to it. Typically, the values for ERROR come + from GetLastError. + + The string pointed to shall not be modified by the application, but may be + overwritten by a subsequent call to gz_strwinerror + + The gz_strwinerror function does not change the current setting of + GetLastError. */ +char ZLIB_INTERNAL *gz_strwinerror(DWORD error) { + static char buf[1024]; + + wchar_t *msgbuf; + DWORD lasterr = GetLastError(); + DWORD chars = FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM + | FORMAT_MESSAGE_ALLOCATE_BUFFER, + NULL, + error, + 0, /* Default language */ + (LPVOID)&msgbuf, + 0, + NULL); + if (chars != 0) { + /* If there is an \r\n appended, zap it. */ + if (chars >= 2 + && msgbuf[chars - 2] == '\r' && msgbuf[chars - 1] == '\n') { + chars -= 2; + msgbuf[chars] = 0; + } + + if (chars > sizeof (buf) - 1) { + chars = sizeof (buf) - 1; + msgbuf[chars] = 0; + } + + wcstombs(buf, msgbuf, chars + 1); /* assumes buf is big enough */ + LocalFree(msgbuf); + } + else { + sprintf(buf, "unknown win32 error (%ld)", error); + } + + SetLastError(lasterr); + return buf; +} + +#endif /* UNDER_CE */ + +/* Reset gzip file state */ +local void gz_reset(gz_statep state) { + state->x.have = 0; /* no output data available */ + if (state->mode == GZ_READ) { /* for reading ... */ + state->eof = 0; /* not at end of file */ + state->past = 0; /* have not read past end yet */ + state->how = LOOK; /* look for gzip header */ + state->junk = -1; /* mark first member */ + } + else /* for writing ... */ + state->reset = 0; /* no deflateReset pending */ + state->again = 0; /* no stalled i/o yet */ + state->skip = 0; /* no seek request pending */ + gz_error(state, Z_OK, NULL); /* clear error */ + state->x.pos = 0; /* no uncompressed data yet */ + state->strm.avail_in = 0; /* no input data yet */ +} + +/* Open a gzip file either by name or file descriptor. */ +local gzFile gz_open(const void *path, int fd, const char *mode) { + gz_statep state; + z_size_t len; + int oflag = 0; +#ifdef O_EXCL + int exclusive = 0; +#endif + + /* check input */ + if (path == NULL || mode == NULL) + return NULL; + + /* allocate gzFile structure to return */ + state = (gz_statep)malloc(sizeof(gz_state)); + if (state == NULL) + return NULL; + state->size = 0; /* no buffers allocated yet */ + state->want = GZBUFSIZE; /* requested buffer size */ + state->err = Z_OK; /* no error yet */ + state->msg = NULL; /* no error message yet */ + + /* interpret mode */ + state->mode = GZ_NONE; + state->level = Z_DEFAULT_COMPRESSION; + state->strategy = Z_DEFAULT_STRATEGY; + state->direct = 0; + while (*mode) { + if (*mode >= '0' && *mode <= '9') + state->level = *mode - '0'; + else + switch (*mode) { + case 'r': + state->mode = GZ_READ; + break; +#ifndef NO_GZCOMPRESS + case 'w': + state->mode = GZ_WRITE; + break; + case 'a': + state->mode = GZ_APPEND; + break; +#endif + case '+': /* can't read and write at the same time */ + free(state); + return NULL; + case 'b': /* ignore -- will request binary anyway */ + break; +#ifdef O_CLOEXEC + case 'e': + oflag |= O_CLOEXEC; + break; +#endif +#ifdef O_EXCL + case 'x': + exclusive = 1; + break; +#endif + case 'f': + state->strategy = Z_FILTERED; + break; + case 'h': + state->strategy = Z_HUFFMAN_ONLY; + break; + case 'R': + state->strategy = Z_RLE; + break; + case 'F': + state->strategy = Z_FIXED; + break; + case 'G': + state->direct = -1; + break; +#ifdef O_NONBLOCK + case 'N': + oflag |= O_NONBLOCK; + break; +#endif + case 'T': + state->direct = 1; + break; + default: /* could consider as an error, but just ignore */ + ; + } + mode++; + } + + /* must provide an "r", "w", or "a" */ + if (state->mode == GZ_NONE) { + free(state); + return NULL; + } + + /* direct is 0, 1 if "T", or -1 if "G" (last "G" or "T" wins) */ + if (state->mode == GZ_READ) { + if (state->direct == 1) { + /* can't force a transparent read */ + free(state); + return NULL; + } + if (state->direct == 0) + /* default when reading is auto-detect of gzip vs. transparent -- + start with a transparent assumption in case of an empty file */ + state->direct = 1; + } + else if (state->direct == -1) { + /* "G" has no meaning when writing -- disallow it */ + free(state); + return NULL; + } + /* if reading, direct == 1 for auto-detect, -1 for gzip only; if writing or + appending, direct == 0 for gzip, 1 for transparent (copy in to out) */ + + /* save the path name for error messages */ +#ifdef WIDECHAR + if (fd == -2) + len = wcstombs(NULL, path, 0); + else +#endif + len = strlen((const char *)path); + state->path = (char *)malloc(len + 1); + if (state->path == NULL) { + free(state); + return NULL; + } +#ifdef WIDECHAR + if (fd == -2) { + if (len) + wcstombs(state->path, path, len + 1); + else + *(state->path) = 0; + } + else +#endif + { +#if !defined(NO_snprintf) && !defined(NO_vsnprintf) + (void)snprintf(state->path, len + 1, "%s", (const char *)path); +#else + strcpy(state->path, path); +#endif + } + + /* compute the flags for open() */ + oflag |= +#ifdef O_LARGEFILE + O_LARGEFILE | +#endif +#ifdef O_BINARY + O_BINARY | +#endif + (state->mode == GZ_READ ? + O_RDONLY : + (O_WRONLY | O_CREAT | +#ifdef O_EXCL + (exclusive ? O_EXCL : 0) | +#endif + (state->mode == GZ_WRITE ? + O_TRUNC : + O_APPEND))); + + /* open the file with the appropriate flags (or just use fd) */ + if (fd == -1) + state->fd = open((const char *)path, oflag, 0666); +#ifdef WIDECHAR + else if (fd == -2) + state->fd = _wopen(path, oflag, _S_IREAD | _S_IWRITE); +#endif + else { +#ifdef O_NONBLOCK + if (oflag & O_NONBLOCK) + fcntl(fd, F_SETFL, fcntl(fd, F_GETFL) | O_NONBLOCK); +#endif +#ifdef O_CLOEXEC + if (oflag & O_CLOEXEC) + fcntl(fd, F_SETFD, fcntl(fd, F_GETFD) | O_CLOEXEC); +#endif + state->fd = fd; + } + if (state->fd == -1) { + free(state->path); + free(state); + return NULL; + } + if (state->mode == GZ_APPEND) { + LSEEK(state->fd, 0, SEEK_END); /* so gzoffset() is correct */ + state->mode = GZ_WRITE; /* simplify later checks */ + } + + /* save the current position for rewinding (only if reading) */ + if (state->mode == GZ_READ) { + state->start = LSEEK(state->fd, 0, SEEK_CUR); + if (state->start == -1) state->start = 0; + } + + /* initialize stream */ + gz_reset(state); + + /* return stream */ + return (gzFile)state; +} + +/* -- see zlib.h -- */ +gzFile ZEXPORT gzopen(const char *path, const char *mode) { + return gz_open(path, -1, mode); +} + +/* -- see zlib.h -- */ +gzFile ZEXPORT gzopen64(const char *path, const char *mode) { + return gz_open(path, -1, mode); +} + +/* -- see zlib.h -- */ +gzFile ZEXPORT gzdopen(int fd, const char *mode) { + char *path; /* identifier for error messages */ + gzFile gz; + + if (fd == -1 || (path = (char *)malloc(7 + 3 * sizeof(int))) == NULL) + return NULL; +#if !defined(NO_snprintf) && !defined(NO_vsnprintf) + (void)snprintf(path, 7 + 3 * sizeof(int), "", fd); +#else + sprintf(path, "", fd); /* for debugging */ +#endif + gz = gz_open(path, fd, mode); + free(path); + return gz; +} + +/* -- see zlib.h -- */ +#ifdef WIDECHAR +gzFile ZEXPORT gzopen_w(const wchar_t *path, const char *mode) { + return gz_open(path, -2, mode); +} +#endif + +/* -- see zlib.h -- */ +int ZEXPORT gzbuffer(gzFile file, unsigned size) { + gz_statep state; + + /* get internal structure and check integrity */ + if (file == NULL) + return -1; + state = (gz_statep)file; + if (state->mode != GZ_READ && state->mode != GZ_WRITE) + return -1; + + /* make sure we haven't already allocated memory */ + if (state->size != 0) + return -1; + + /* check and set requested size */ + if ((size << 1) < size) + return -1; /* need to be able to double it */ + if (size < 8) + size = 8; /* needed to behave well with flushing */ + state->want = size; + return 0; +} + +/* -- see zlib.h -- */ +int ZEXPORT gzrewind(gzFile file) { + gz_statep state; + + /* get internal structure */ + if (file == NULL) + return -1; + state = (gz_statep)file; + + /* check that we're reading and that there's no error */ + if (state->mode != GZ_READ || + (state->err != Z_OK && state->err != Z_BUF_ERROR)) + return -1; + + /* back up and start over */ + if (LSEEK(state->fd, state->start, SEEK_SET) == -1) + return -1; + gz_reset(state); + return 0; +} + +/* -- see zlib.h -- */ +z_off64_t ZEXPORT gzseek64(gzFile file, z_off64_t offset, int whence) { + unsigned n; + z_off64_t ret; + gz_statep state; + + /* get internal structure and check integrity */ + if (file == NULL) + return -1; + state = (gz_statep)file; + if (state->mode != GZ_READ && state->mode != GZ_WRITE) + return -1; + + /* check that there's no error */ + if (state->err != Z_OK && state->err != Z_BUF_ERROR) + return -1; + + /* can only seek from start or relative to current position */ + if (whence != SEEK_SET && whence != SEEK_CUR) + return -1; + + /* normalize offset to a SEEK_CUR specification */ + if (whence == SEEK_SET) + offset -= state->x.pos; + else { + offset += state->past ? 0 : state->skip; + state->skip = 0; + } + + /* if within raw area while reading, just go there */ + if (state->mode == GZ_READ && state->how == COPY && + state->x.pos + offset >= 0) { + ret = LSEEK(state->fd, offset - (z_off64_t)state->x.have, SEEK_CUR); + if (ret == -1) + return -1; + state->x.have = 0; + state->eof = 0; + state->past = 0; + state->skip = 0; + gz_error(state, Z_OK, NULL); + state->strm.avail_in = 0; + state->x.pos += offset; + return state->x.pos; + } + + /* calculate skip amount, rewinding if needed for back seek when reading */ + if (offset < 0) { + if (state->mode != GZ_READ) /* writing -- can't go backwards */ + return -1; + offset += state->x.pos; + if (offset < 0) /* before start of file! */ + return -1; + if (gzrewind(file) == -1) /* rewind, then skip to offset */ + return -1; + } + + /* if reading, skip what's in output buffer (one less gzgetc() check) */ + if (state->mode == GZ_READ) { + n = GT_OFF(state->x.have) || (z_off64_t)state->x.have > offset ? + (unsigned)offset : state->x.have; + state->x.have -= n; + state->x.next += n; + state->x.pos += n; + offset -= n; + } + + /* request skip (if not zero) */ + state->skip = offset; + return state->x.pos + offset; +} + +/* -- see zlib.h -- */ +z_off_t ZEXPORT gzseek(gzFile file, z_off_t offset, int whence) { + z_off64_t ret; + + ret = gzseek64(file, (z_off64_t)offset, whence); + return ret == (z_off_t)ret ? (z_off_t)ret : -1; +} + +/* -- see zlib.h -- */ +z_off64_t ZEXPORT gztell64(gzFile file) { + gz_statep state; + + /* get internal structure and check integrity */ + if (file == NULL) + return -1; + state = (gz_statep)file; + if (state->mode != GZ_READ && state->mode != GZ_WRITE) + return -1; + + /* return position */ + return state->x.pos + (state->past ? 0 : state->skip); +} + +/* -- see zlib.h -- */ +z_off_t ZEXPORT gztell(gzFile file) { + z_off64_t ret; + + ret = gztell64(file); + return ret == (z_off_t)ret ? (z_off_t)ret : -1; +} + +/* -- see zlib.h -- */ +z_off64_t ZEXPORT gzoffset64(gzFile file) { + z_off64_t offset; + gz_statep state; + + /* get internal structure and check integrity */ + if (file == NULL) + return -1; + state = (gz_statep)file; + if (state->mode != GZ_READ && state->mode != GZ_WRITE) + return -1; + + /* compute and return effective offset in file */ + offset = LSEEK(state->fd, 0, SEEK_CUR); + if (offset == -1) + return -1; + if (state->mode == GZ_READ) /* reading */ + offset -= state->strm.avail_in; /* don't count buffered input */ + return offset; +} + +/* -- see zlib.h -- */ +z_off_t ZEXPORT gzoffset(gzFile file) { + z_off64_t ret; + + ret = gzoffset64(file); + return ret == (z_off_t)ret ? (z_off_t)ret : -1; +} + +/* -- see zlib.h -- */ +int ZEXPORT gzeof(gzFile file) { + gz_statep state; + + /* get internal structure and check integrity */ + if (file == NULL) + return 0; + state = (gz_statep)file; + if (state->mode != GZ_READ && state->mode != GZ_WRITE) + return 0; + + /* return end-of-file state */ + return state->mode == GZ_READ ? state->past : 0; +} + +/* -- see zlib.h -- */ +const char * ZEXPORT gzerror(gzFile file, int *errnum) { + gz_statep state; + + /* get internal structure and check integrity */ + if (file == NULL) + return NULL; + state = (gz_statep)file; + if (state->mode != GZ_READ && state->mode != GZ_WRITE) + return NULL; + + /* return error information */ + if (errnum != NULL) + *errnum = state->err; + return state->err == Z_MEM_ERROR ? "out of memory" : + (state->msg == NULL ? "" : state->msg); +} + +/* -- see zlib.h -- */ +void ZEXPORT gzclearerr(gzFile file) { + gz_statep state; + + /* get internal structure and check integrity */ + if (file == NULL) + return; + state = (gz_statep)file; + if (state->mode != GZ_READ && state->mode != GZ_WRITE) + return; + + /* clear error and end-of-file */ + if (state->mode == GZ_READ) { + state->eof = 0; + state->past = 0; + } + gz_error(state, Z_OK, NULL); +} + +/* Create an error message in allocated memory and set state->err and + state->msg accordingly. Free any previous error message already there. Do + not try to free or allocate space if the error is Z_MEM_ERROR (out of + memory). Simply save the error message as a static string. If there is an + allocation failure constructing the error message, then convert the error to + out of memory. */ +void ZLIB_INTERNAL gz_error(gz_statep state, int err, const char *msg) { + /* free previously allocated message and clear */ + if (state->msg != NULL) { + if (state->err != Z_MEM_ERROR) + free(state->msg); + state->msg = NULL; + } + + /* if fatal, set state->x.have to 0 so that the gzgetc() macro fails */ + if (err != Z_OK && err != Z_BUF_ERROR && !state->again) + state->x.have = 0; + + /* set error code, and if no message, then done */ + state->err = err; + if (msg == NULL) + return; + + /* for an out of memory error, return literal string when requested */ + if (err == Z_MEM_ERROR) + return; + + /* construct error message with path */ + if ((state->msg = (char *)malloc(strlen(state->path) + strlen(msg) + 3)) == + NULL) { + state->err = Z_MEM_ERROR; + return; + } +#if !defined(NO_snprintf) && !defined(NO_vsnprintf) + (void)snprintf(state->msg, strlen(state->path) + strlen(msg) + 3, + "%s%s%s", state->path, ": ", msg); +#else + strcpy(state->msg, state->path); + strcat(state->msg, ": "); + strcat(state->msg, msg); +#endif +} + +/* portably return maximum value for an int (when limits.h presumed not + available) -- we need to do this to cover cases where 2's complement not + used, since C standard permits 1's complement and sign-bit representations, + otherwise we could just use ((unsigned)-1) >> 1 */ +unsigned ZLIB_INTERNAL gz_intmax(void) { +#ifdef INT_MAX + return INT_MAX; +#else + unsigned p = 1, q; + + do { + q = p; + p <<= 1; + p++; + } while (p > q); + return q >> 1; +#endif +} diff --git a/Minecraft.Client/Common/zlib/gzread.c b/Minecraft.Client/Common/zlib/gzread.c new file mode 100644 index 0000000..8b3e369 --- /dev/null +++ b/Minecraft.Client/Common/zlib/gzread.c @@ -0,0 +1,668 @@ +/* gzread.c -- zlib functions for reading gzip files + * Copyright (C) 2004-2026 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +#include "gzguts.h" + +/* Use read() to load a buffer -- return -1 on error, otherwise 0. Read from + state->fd, and update state->eof, state->err, and state->msg as appropriate. + This function needs to loop on read(), since read() is not guaranteed to + read the number of bytes requested, depending on the type of descriptor. It + also needs to loop to manage the fact that read() returns an int. If the + descriptor is non-blocking and read() returns with no data in order to avoid + blocking, then gz_load() will return 0 if some data has been read, or -1 if + no data has been read. Either way, state->again is set true to indicate a + non-blocking event. If errno is non-zero on return, then there was an error + signaled from read(). *have is set to the number of bytes read. */ +local int gz_load(gz_statep state, unsigned char *buf, unsigned len, + unsigned *have) { + int ret; + unsigned get, max = ((unsigned)-1 >> 2) + 1; + + state->again = 0; + errno = 0; + *have = 0; + do { + get = len - *have; + if (get > max) + get = max; + ret = (int)read(state->fd, buf + *have, get); + if (ret <= 0) + break; + *have += (unsigned)ret; + } while (*have < len); + if (ret < 0) { + if (errno == EAGAIN || errno == EWOULDBLOCK) { + state->again = 1; + if (*have != 0) + return 0; + } + gz_error(state, Z_ERRNO, zstrerror()); + return -1; + } + if (ret == 0) + state->eof = 1; + return 0; +} + +/* Load up input buffer and set eof flag if last data loaded -- return -1 on + error, 0 otherwise. Note that the eof flag is set when the end of the input + file is reached, even though there may be unused data in the buffer. Once + that data has been used, no more attempts will be made to read the file. + If strm->avail_in != 0, then the current data is moved to the beginning of + the input buffer, and then the remainder of the buffer is loaded with the + available data from the input file. */ +local int gz_avail(gz_statep state) { + unsigned got; + z_streamp strm = &(state->strm); + + if (state->err != Z_OK && state->err != Z_BUF_ERROR) + return -1; + if (state->eof == 0) { + if (strm->avail_in) { /* copy what's there to the start */ + unsigned char *p = state->in; + unsigned const char *q = strm->next_in; + + if (q != p) { + unsigned n = strm->avail_in; + + do { + *p++ = *q++; + } while (--n); + } + } + if (gz_load(state, state->in + strm->avail_in, + state->size - strm->avail_in, &got) == -1) + return -1; + strm->avail_in += got; + strm->next_in = state->in; + } + return 0; +} + +/* Look for gzip header, set up for inflate or copy. state->x.have must be 0. + If this is the first time in, allocate required memory. state->how will be + left unchanged if there is no more input data available, will be set to COPY + if there is no gzip header and direct copying will be performed, or it will + be set to GZIP for decompression. If direct copying, then leftover input + data from the input buffer will be copied to the output buffer. In that + case, all further file reads will be directly to either the output buffer or + a user buffer. If decompressing, the inflate state will be initialized. + gz_look() will return 0 on success or -1 on failure. */ +local int gz_look(gz_statep state) { + z_streamp strm = &(state->strm); + + /* allocate read buffers and inflate memory */ + if (state->size == 0) { + /* allocate buffers */ + state->in = (unsigned char *)malloc(state->want); + state->out = (unsigned char *)malloc(state->want << 1); + if (state->in == NULL || state->out == NULL) { + free(state->out); + free(state->in); + gz_error(state, Z_MEM_ERROR, "out of memory"); + return -1; + } + state->size = state->want; + + /* allocate inflate memory */ + state->strm.zalloc = Z_NULL; + state->strm.zfree = Z_NULL; + state->strm.opaque = Z_NULL; + state->strm.avail_in = 0; + state->strm.next_in = Z_NULL; + if (inflateInit2(&(state->strm), 15 + 16) != Z_OK) { /* gunzip */ + free(state->out); + free(state->in); + state->size = 0; + gz_error(state, Z_MEM_ERROR, "out of memory"); + return -1; + } + } + + /* if transparent reading is disabled, which would only be at the start, or + if we're looking for a gzip member after the first one, which is not at + the start, then proceed directly to look for a gzip member next */ + if (state->direct == -1 || state->junk == 0) { + inflateReset(strm); + state->how = GZIP; + state->junk = state->junk != -1; + state->direct = 0; + return 0; + } + + /* otherwise we're at the start with auto-detect -- we check to see if the + first four bytes could be gzip header in order to decide whether or not + this will be a transparent read */ + + /* load any header bytes into the input buffer -- if the input is empty, + then it's not an error as this is a transparent read of zero bytes */ + if (gz_avail(state) == -1) + return -1; + if (strm->avail_in == 0 || (state->again && strm->avail_in < 4)) + /* if non-blocking input stalled before getting four bytes, then + return and wait until a later call has accumulated enough */ + return 0; + + /* see if this is (likely) gzip input -- if the first four bytes are + consistent with a gzip header, then go look for the first gzip member, + otherwise proceed to copy the input transparently */ + if (strm->avail_in > 3 && + strm->next_in[0] == 31 && strm->next_in[1] == 139 && + strm->next_in[2] == 8 && strm->next_in[3] < 32) { + inflateReset(strm); + state->how = GZIP; + state->junk = 1; + state->direct = 0; + return 0; + } + + /* doing raw i/o: copy any leftover input to output -- this assumes that + the output buffer is larger than the input buffer, which also assures + space for gzungetc() */ + state->x.next = state->out; + memcpy(state->x.next, strm->next_in, strm->avail_in); + state->x.have = strm->avail_in; + strm->avail_in = 0; + state->how = COPY; + return 0; +} + +/* Decompress from input to the provided next_out and avail_out in the state. + On return, state->x.have and state->x.next point to the just decompressed + data. If the gzip stream completes, state->how is reset to LOOK to look for + the next gzip stream or raw data, once state->x.have is depleted. Returns 0 + on success, -1 on failure. If EOF is reached when looking for more input to + complete the gzip member, then an unexpected end of file error is raised. + If there is no more input, but state->again is true, then EOF has not been + reached, and no error is raised. */ +local int gz_decomp(gz_statep state) { + int ret = Z_OK; + unsigned had; + z_streamp strm = &(state->strm); + + /* fill output buffer up to end of deflate stream */ + had = strm->avail_out; + do { + /* get more input for inflate() */ + if (strm->avail_in == 0 && gz_avail(state) == -1) { + ret = state->err; + break; + } + if (strm->avail_in == 0) { + if (!state->again) + gz_error(state, Z_BUF_ERROR, "unexpected end of file"); + break; + } + + /* decompress and handle errors */ + ret = inflate(strm, Z_NO_FLUSH); + if (strm->avail_out < had) + /* any decompressed data marks this as a real gzip stream */ + state->junk = 0; + if (ret == Z_STREAM_ERROR || ret == Z_NEED_DICT) { + gz_error(state, Z_STREAM_ERROR, + "internal error: inflate stream corrupt"); + break; + } + if (ret == Z_MEM_ERROR) { + gz_error(state, Z_MEM_ERROR, "out of memory"); + break; + } + if (ret == Z_DATA_ERROR) { /* deflate stream invalid */ + if (state->junk == 1) { /* trailing garbage is ok */ + strm->avail_in = 0; + state->eof = 1; + state->how = LOOK; + ret = Z_OK; + break; + } + gz_error(state, Z_DATA_ERROR, + strm->msg == NULL ? "compressed data error" : strm->msg); + break; + } + } while (strm->avail_out && ret != Z_STREAM_END); + + /* update available output */ + state->x.have = had - strm->avail_out; + state->x.next = strm->next_out - state->x.have; + + /* if the gzip stream completed successfully, look for another */ + if (ret == Z_STREAM_END) { + state->junk = 0; + state->how = LOOK; + return 0; + } + + /* return decompression status */ + return ret != Z_OK ? -1 : 0; +} + +/* Fetch data and put it in the output buffer. Assumes state->x.have is 0. + Data is either copied from the input file or decompressed from the input + file depending on state->how. If state->how is LOOK, then a gzip header is + looked for to determine whether to copy or decompress. Returns -1 on error, + otherwise 0. gz_fetch() will leave state->how as COPY or GZIP unless the + end of the input file has been reached and all data has been processed. */ +local int gz_fetch(gz_statep state) { + z_streamp strm = &(state->strm); + + do { + switch(state->how) { + case LOOK: /* -> LOOK, COPY (only if never GZIP), or GZIP */ + if (gz_look(state) == -1) + return -1; + if (state->how == LOOK) + return 0; + break; + case COPY: /* -> COPY */ + if (gz_load(state, state->out, state->size << 1, &(state->x.have)) + == -1) + return -1; + state->x.next = state->out; + return 0; + case GZIP: /* -> GZIP or LOOK (if end of gzip stream) */ + strm->avail_out = state->size << 1; + strm->next_out = state->out; + if (gz_decomp(state) == -1) + return -1; + break; + default: + gz_error(state, Z_STREAM_ERROR, "state corrupt"); + return -1; + } + } while (state->x.have == 0 && (!state->eof || strm->avail_in)); + return 0; +} + +/* Skip state->skip (> 0) uncompressed bytes of output. Return -1 on error, 0 + on success. */ +local int gz_skip(gz_statep state) { + unsigned n; + + /* skip over len bytes or reach end-of-file, whichever comes first */ + do { + /* skip over whatever is in output buffer */ + if (state->x.have) { + n = GT_OFF(state->x.have) || + (z_off64_t)state->x.have > state->skip ? + (unsigned)state->skip : state->x.have; + state->x.have -= n; + state->x.next += n; + state->x.pos += n; + state->skip -= n; + } + + /* output buffer empty -- return if we're at the end of the input */ + else if (state->eof && state->strm.avail_in == 0) + break; + + /* need more data to skip -- load up output buffer */ + else { + /* get more output, looking for header if required */ + if (gz_fetch(state) == -1) + return -1; + } + } while (state->skip); + return 0; +} + +/* Read len bytes into buf from file, or less than len up to the end of the + input. Return the number of bytes read. If zero is returned, either the end + of file was reached, or there was an error. state->err must be consulted in + that case to determine which. If there was an error, but some uncompressed + bytes were read before the error, then that count is returned. The error is + still recorded, and so is deferred until the next call. */ +local z_size_t gz_read(gz_statep state, voidp buf, z_size_t len) { + z_size_t got; + unsigned n; + int err; + + /* if len is zero, avoid unnecessary operations */ + if (len == 0) + return 0; + + /* process a skip request */ + if (state->skip && gz_skip(state) == -1) + return 0; + + /* get len bytes to buf, or less than len if at the end */ + got = 0; + err = 0; + do { + /* set n to the maximum amount of len that fits in an unsigned int */ + n = (unsigned)-1; + if (n > len) + n = (unsigned)len; + + /* first just try copying data from the output buffer */ + if (state->x.have) { + if (state->x.have < n) + n = state->x.have; + memcpy(buf, state->x.next, n); + state->x.next += n; + state->x.have -= n; + if (state->err != Z_OK) + /* caught deferred error from gz_fetch() */ + err = -1; + } + + /* output buffer empty -- return if we're at the end of the input */ + else if (state->eof && state->strm.avail_in == 0) + break; + + /* need output data -- for small len or new stream load up our output + buffer, so that gzgetc() can be fast */ + else if (state->how == LOOK || n < (state->size << 1)) { + /* get more output, looking for header if required */ + if (gz_fetch(state) == -1 && state->x.have == 0) + /* if state->x.have != 0, error will be caught after copy */ + err = -1; + continue; /* no progress yet -- go back to copy above */ + /* the copy above assures that we will leave with space in the + output buffer, allowing at least one gzungetc() to succeed */ + } + + /* large len -- read directly into user buffer */ + else if (state->how == COPY) /* read directly */ + err = gz_load(state, (unsigned char *)buf, n, &n); + + /* large len -- decompress directly into user buffer */ + else { /* state->how == GZIP */ + state->strm.avail_out = n; + state->strm.next_out = (unsigned char *)buf; + err = gz_decomp(state); + n = state->x.have; + state->x.have = 0; + } + + /* update progress */ + len -= n; + buf = (char *)buf + n; + got += n; + state->x.pos += n; + } while (len && !err); + + /* note read past eof */ + if (len && state->eof) + state->past = 1; + + /* return number of bytes read into user buffer */ + return got; +} + +/* -- see zlib.h -- */ +int ZEXPORT gzread(gzFile file, voidp buf, unsigned len) { + gz_statep state; + + /* get internal structure and check that it's for reading */ + if (file == NULL) + return -1; + state = (gz_statep)file; + if (state->mode != GZ_READ) + return -1; + + /* check that there was no (serious) error */ + if (state->err != Z_OK && state->err != Z_BUF_ERROR && !state->again) + return -1; + gz_error(state, Z_OK, NULL); + + /* since an int is returned, make sure len fits in one, otherwise return + with an error (this avoids a flaw in the interface) */ + if ((int)len < 0) { + gz_error(state, Z_STREAM_ERROR, "request does not fit in an int"); + return -1; + } + + /* read len or fewer bytes to buf */ + len = (unsigned)gz_read(state, buf, len); + + /* check for an error */ + if (len == 0) { + if (state->err != Z_OK && state->err != Z_BUF_ERROR) + return -1; + if (state->again) { + /* non-blocking input stalled after some input was read, but no + uncompressed bytes were produced -- let the application know + this isn't EOF */ + gz_error(state, Z_ERRNO, zstrerror()); + return -1; + } + } + + /* return the number of bytes read */ + return (int)len; +} + +/* -- see zlib.h -- */ +z_size_t ZEXPORT gzfread(voidp buf, z_size_t size, z_size_t nitems, + gzFile file) { + z_size_t len; + gz_statep state; + + /* get internal structure and check that it's for reading */ + if (file == NULL) + return 0; + state = (gz_statep)file; + if (state->mode != GZ_READ) + return 0; + + /* check that there was no (serious) error */ + if (state->err != Z_OK && state->err != Z_BUF_ERROR && !state->again) + return 0; + gz_error(state, Z_OK, NULL); + + /* compute bytes to read -- error on overflow */ + len = nitems * size; + if (size && len / size != nitems) { + gz_error(state, Z_STREAM_ERROR, "request does not fit in a size_t"); + return 0; + } + + /* read len or fewer bytes to buf, return the number of full items read */ + return len ? gz_read(state, buf, len) / size : 0; +} + +/* -- see zlib.h -- */ +#ifdef Z_PREFIX_SET +# undef z_gzgetc +#else +# undef gzgetc +#endif +int ZEXPORT gzgetc(gzFile file) { + unsigned char buf[1]; + gz_statep state; + + /* get internal structure and check that it's for reading */ + if (file == NULL) + return -1; + state = (gz_statep)file; + if (state->mode != GZ_READ) + return -1; + + /* check that there was no (serious) error */ + if (state->err != Z_OK && state->err != Z_BUF_ERROR && !state->again) + return -1; + gz_error(state, Z_OK, NULL); + + /* try output buffer (no need to check for skip request) */ + if (state->x.have) { + state->x.have--; + state->x.pos++; + return *(state->x.next)++; + } + + /* nothing there -- try gz_read() */ + return gz_read(state, buf, 1) < 1 ? -1 : buf[0]; +} + +int ZEXPORT gzgetc_(gzFile file) { + return gzgetc(file); +} + +/* -- see zlib.h -- */ +int ZEXPORT gzungetc(int c, gzFile file) { + gz_statep state; + + /* get internal structure and check that it's for reading */ + if (file == NULL) + return -1; + state = (gz_statep)file; + if (state->mode != GZ_READ) + return -1; + + /* in case this was just opened, set up the input buffer */ + if (state->how == LOOK && state->x.have == 0) + (void)gz_look(state); + + /* check that there was no (serious) error */ + if (state->err != Z_OK && state->err != Z_BUF_ERROR && !state->again) + return -1; + gz_error(state, Z_OK, NULL); + + /* process a skip request */ + if (state->skip && gz_skip(state) == -1) + return -1; + + /* can't push EOF */ + if (c < 0) + return -1; + + /* if output buffer empty, put byte at end (allows more pushing) */ + if (state->x.have == 0) { + state->x.have = 1; + state->x.next = state->out + (state->size << 1) - 1; + state->x.next[0] = (unsigned char)c; + state->x.pos--; + state->past = 0; + return c; + } + + /* if no room, give up (must have already done a gzungetc()) */ + if (state->x.have == (state->size << 1)) { + gz_error(state, Z_DATA_ERROR, "out of room to push characters"); + return -1; + } + + /* slide output data if needed and insert byte before existing data */ + if (state->x.next == state->out) { + unsigned char *src = state->out + state->x.have; + unsigned char *dest = state->out + (state->size << 1); + + while (src > state->out) + *--dest = *--src; + state->x.next = dest; + } + state->x.have++; + state->x.next--; + state->x.next[0] = (unsigned char)c; + state->x.pos--; + state->past = 0; + return c; +} + +/* -- see zlib.h -- */ +char * ZEXPORT gzgets(gzFile file, char *buf, int len) { + unsigned left, n; + char *str; + unsigned char *eol; + gz_statep state; + + /* check parameters, get internal structure, and check that it's for + reading */ + if (file == NULL || buf == NULL || len < 1) + return NULL; + state = (gz_statep)file; + if (state->mode != GZ_READ) + return NULL; + + /* check that there was no (serious) error */ + if (state->err != Z_OK && state->err != Z_BUF_ERROR && !state->again) + return NULL; + gz_error(state, Z_OK, NULL); + + /* process a skip request */ + if (state->skip && gz_skip(state) == -1) + return NULL; + + /* copy output up to a new line, len-1 bytes, or there is no more output, + whichever comes first */ + str = buf; + left = (unsigned)len - 1; + if (left) do { + /* assure that something is in the output buffer */ + if (state->x.have == 0 && gz_fetch(state) == -1) + break; /* error */ + if (state->x.have == 0) { /* end of file */ + state->past = 1; /* read past end */ + break; /* return what we have */ + } + + /* look for end-of-line in current output buffer */ + n = state->x.have > left ? left : state->x.have; + eol = (unsigned char *)memchr(state->x.next, '\n', n); + if (eol != NULL) + n = (unsigned)(eol - state->x.next) + 1; + + /* copy through end-of-line, or remainder if not found */ + memcpy(buf, state->x.next, n); + state->x.have -= n; + state->x.next += n; + state->x.pos += n; + left -= n; + buf += n; + } while (left && eol == NULL); + + /* append a terminating zero to the string (we don't check for a zero in + the contents, let the user worry about that) -- return the terminated + string, or if nothing was read, NULL */ + if (buf == str) + return NULL; + buf[0] = 0; + return str; +} + +/* -- see zlib.h -- */ +int ZEXPORT gzdirect(gzFile file) { + gz_statep state; + + /* get internal structure */ + if (file == NULL) + return 0; + state = (gz_statep)file; + + /* if the state is not known, but we can find out, then do so (this is + mainly for right after a gzopen() or gzdopen()) */ + if (state->mode == GZ_READ && state->how == LOOK && state->x.have == 0) + (void)gz_look(state); + + /* return 1 if transparent, 0 if processing a gzip stream */ + return state->direct == 1; +} + +/* -- see zlib.h -- */ +int ZEXPORT gzclose_r(gzFile file) { + int ret, err; + gz_statep state; + + /* get internal structure and check that it's for reading */ + if (file == NULL) + return Z_STREAM_ERROR; + state = (gz_statep)file; + if (state->mode != GZ_READ) + return Z_STREAM_ERROR; + + /* free memory and close file */ + if (state->size) { + inflateEnd(&(state->strm)); + free(state->out); + free(state->in); + } + err = state->err == Z_BUF_ERROR ? Z_BUF_ERROR : Z_OK; + gz_error(state, Z_OK, NULL); + free(state->path); + ret = close(state->fd); + free(state); + return ret ? Z_ERRNO : err; +} diff --git a/Minecraft.Client/Common/zlib/gzwrite.c b/Minecraft.Client/Common/zlib/gzwrite.c new file mode 100644 index 0000000..13a3700 --- /dev/null +++ b/Minecraft.Client/Common/zlib/gzwrite.c @@ -0,0 +1,700 @@ +/* gzwrite.c -- zlib functions for writing gzip files + * Copyright (C) 2004-2026 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +#include "gzguts.h" + +/* Initialize state for writing a gzip file. Mark initialization by setting + state->size to non-zero. Return -1 on a memory allocation failure, or 0 on + success. */ +local int gz_init(gz_statep state) { + int ret; + z_streamp strm = &(state->strm); + + /* allocate input buffer (double size for gzprintf) */ + state->in = (unsigned char *)malloc(state->want << 1); + if (state->in == NULL) { + gz_error(state, Z_MEM_ERROR, "out of memory"); + return -1; + } + + /* only need output buffer and deflate state if compressing */ + if (!state->direct) { + /* allocate output buffer */ + state->out = (unsigned char *)malloc(state->want); + if (state->out == NULL) { + free(state->in); + gz_error(state, Z_MEM_ERROR, "out of memory"); + return -1; + } + + /* allocate deflate memory, set up for gzip compression */ + strm->zalloc = Z_NULL; + strm->zfree = Z_NULL; + strm->opaque = Z_NULL; + ret = deflateInit2(strm, state->level, Z_DEFLATED, + MAX_WBITS + 16, DEF_MEM_LEVEL, state->strategy); + if (ret != Z_OK) { + free(state->out); + free(state->in); + gz_error(state, Z_MEM_ERROR, "out of memory"); + return -1; + } + strm->next_in = NULL; + } + + /* mark state as initialized */ + state->size = state->want; + + /* initialize write buffer if compressing */ + if (!state->direct) { + strm->avail_out = state->size; + strm->next_out = state->out; + state->x.next = strm->next_out; + } + return 0; +} + +/* Compress whatever is at avail_in and next_in and write to the output file. + Return -1 if there is an error writing to the output file or if gz_init() + fails to allocate memory, otherwise 0. flush is assumed to be a valid + deflate() flush value. If flush is Z_FINISH, then the deflate() state is + reset to start a new gzip stream. If gz->direct is true, then simply write + to the output file without compressing, and ignore flush. */ +local int gz_comp(gz_statep state, int flush) { + int ret, writ; + unsigned have, put, max = ((unsigned)-1 >> 2) + 1; + z_streamp strm = &(state->strm); + + /* allocate memory if this is the first time through */ + if (state->size == 0 && gz_init(state) == -1) + return -1; + + /* write directly if requested */ + if (state->direct) { + while (strm->avail_in) { + errno = 0; + state->again = 0; + put = strm->avail_in > max ? max : strm->avail_in; + writ = (int)write(state->fd, strm->next_in, put); + if (writ < 0) { + if (errno == EAGAIN || errno == EWOULDBLOCK) + state->again = 1; + gz_error(state, Z_ERRNO, zstrerror()); + return -1; + } + strm->avail_in -= (unsigned)writ; + strm->next_in += writ; + } + return 0; + } + + /* check for a pending reset */ + if (state->reset) { + /* don't start a new gzip member unless there is data to write and + we're not flushing */ + if (strm->avail_in == 0 && flush == Z_NO_FLUSH) + return 0; + deflateReset(strm); + state->reset = 0; + } + + /* run deflate() on provided input until it produces no more output */ + ret = Z_OK; + do { + /* write out current buffer contents if full, or if flushing, but if + doing Z_FINISH then don't write until we get to Z_STREAM_END */ + if (strm->avail_out == 0 || (flush != Z_NO_FLUSH && + (flush != Z_FINISH || ret == Z_STREAM_END))) { + while (strm->next_out > state->x.next) { + errno = 0; + state->again = 0; + put = strm->next_out - state->x.next > (int)max ? max : + (unsigned)(strm->next_out - state->x.next); + writ = (int)write(state->fd, state->x.next, put); + if (writ < 0) { + if (errno == EAGAIN || errno == EWOULDBLOCK) + state->again = 1; + gz_error(state, Z_ERRNO, zstrerror()); + return -1; + } + state->x.next += writ; + } + if (strm->avail_out == 0) { + strm->avail_out = state->size; + strm->next_out = state->out; + state->x.next = state->out; + } + } + + /* compress */ + have = strm->avail_out; + ret = deflate(strm, flush); + if (ret == Z_STREAM_ERROR) { + gz_error(state, Z_STREAM_ERROR, + "internal error: deflate stream corrupt"); + return -1; + } + have -= strm->avail_out; + } while (have); + + /* if that completed a deflate stream, allow another to start */ + if (flush == Z_FINISH) + state->reset = 1; + + /* all done, no errors */ + return 0; +} + +/* Compress state->skip (> 0) zeros to output. Return -1 on a write error or + memory allocation failure by gz_comp(), or 0 on success. state->skip is + updated with the number of successfully written zeros, in case there is a + stall on a non-blocking write destination. */ +local int gz_zero(gz_statep state) { + int first, ret; + unsigned n; + z_streamp strm = &(state->strm); + + /* consume whatever's left in the input buffer */ + if (strm->avail_in && gz_comp(state, Z_NO_FLUSH) == -1) + return -1; + + /* compress state->skip zeros */ + first = 1; + do { + n = GT_OFF(state->size) || (z_off64_t)state->size > state->skip ? + (unsigned)state->skip : state->size; + if (first) { + memset(state->in, 0, n); + first = 0; + } + strm->avail_in = n; + strm->next_in = state->in; + ret = gz_comp(state, Z_NO_FLUSH); + n -= strm->avail_in; + state->x.pos += n; + state->skip -= n; + if (ret == -1) + return -1; + } while (state->skip); + return 0; +} + +/* Write len bytes from buf to file. Return the number of bytes written. If + the returned value is less than len, then there was an error. If the error + was a non-blocking stall, then the number of bytes consumed is returned. + For any other error, 0 is returned. */ +local z_size_t gz_write(gz_statep state, voidpc buf, z_size_t len) { + z_size_t put = len; + int ret; + + /* if len is zero, avoid unnecessary operations */ + if (len == 0) + return 0; + + /* allocate memory if this is the first time through */ + if (state->size == 0 && gz_init(state) == -1) + return 0; + + /* check for seek request */ + if (state->skip && gz_zero(state) == -1) + return 0; + + /* for small len, copy to input buffer, otherwise compress directly */ + if (len < state->size) { + /* copy to input buffer, compress when full */ + for (;;) { + unsigned have, copy; + + if (state->strm.avail_in == 0) + state->strm.next_in = state->in; + have = (unsigned)((state->strm.next_in + state->strm.avail_in) - + state->in); + copy = state->size - have; + if (copy > len) + copy = (unsigned)len; + memcpy(state->in + have, buf, copy); + state->strm.avail_in += copy; + state->x.pos += copy; + buf = (const char *)buf + copy; + len -= copy; + if (len == 0) + break; + if (gz_comp(state, Z_NO_FLUSH) == -1) + return state->again ? put - len : 0; + } + } + else { + /* consume whatever's left in the input buffer */ + if (state->strm.avail_in && gz_comp(state, Z_NO_FLUSH) == -1) + return 0; + + /* directly compress user buffer to file */ + state->strm.next_in = (z_const Bytef *)buf; + do { + unsigned n = (unsigned)-1; + + if (n > len) + n = (unsigned)len; + state->strm.avail_in = n; + ret = gz_comp(state, Z_NO_FLUSH); + n -= state->strm.avail_in; + state->x.pos += n; + len -= n; + if (ret == -1) + return state->again ? put - len : 0; + } while (len); + } + + /* input was all buffered or compressed */ + return put; +} + +/* -- see zlib.h -- */ +int ZEXPORT gzwrite(gzFile file, voidpc buf, unsigned len) { + gz_statep state; + + /* get internal structure */ + if (file == NULL) + return 0; + state = (gz_statep)file; + + /* check that we're writing and that there's no (serious) error */ + if (state->mode != GZ_WRITE || (state->err != Z_OK && !state->again)) + return 0; + gz_error(state, Z_OK, NULL); + + /* since an int is returned, make sure len fits in one, otherwise return + with an error (this avoids a flaw in the interface) */ + if ((int)len < 0) { + gz_error(state, Z_DATA_ERROR, "requested length does not fit in int"); + return 0; + } + + /* write len bytes from buf (the return value will fit in an int) */ + return (int)gz_write(state, buf, len); +} + +/* -- see zlib.h -- */ +z_size_t ZEXPORT gzfwrite(voidpc buf, z_size_t size, z_size_t nitems, + gzFile file) { + z_size_t len; + gz_statep state; + + /* get internal structure */ + if (file == NULL) + return 0; + state = (gz_statep)file; + + /* check that we're writing and that there's no (serious) error */ + if (state->mode != GZ_WRITE || (state->err != Z_OK && !state->again)) + return 0; + gz_error(state, Z_OK, NULL); + + /* compute bytes to read -- error on overflow */ + len = nitems * size; + if (size && len / size != nitems) { + gz_error(state, Z_STREAM_ERROR, "request does not fit in a size_t"); + return 0; + } + + /* write len bytes to buf, return the number of full items written */ + return len ? gz_write(state, buf, len) / size : 0; +} + +/* -- see zlib.h -- */ +int ZEXPORT gzputc(gzFile file, int c) { + unsigned have; + unsigned char buf[1]; + gz_statep state; + z_streamp strm; + + /* get internal structure */ + if (file == NULL) + return -1; + state = (gz_statep)file; + strm = &(state->strm); + + /* check that we're writing and that there's no (serious) error */ + if (state->mode != GZ_WRITE || (state->err != Z_OK && !state->again)) + return -1; + gz_error(state, Z_OK, NULL); + + /* check for seek request */ + if (state->skip && gz_zero(state) == -1) + return -1; + + /* try writing to input buffer for speed (state->size == 0 if buffer not + initialized) */ + if (state->size) { + if (strm->avail_in == 0) + strm->next_in = state->in; + have = (unsigned)((strm->next_in + strm->avail_in) - state->in); + if (have < state->size) { + state->in[have] = (unsigned char)c; + strm->avail_in++; + state->x.pos++; + return c & 0xff; + } + } + + /* no room in buffer or not initialized, use gz_write() */ + buf[0] = (unsigned char)c; + if (gz_write(state, buf, 1) != 1) + return -1; + return c & 0xff; +} + +/* -- see zlib.h -- */ +int ZEXPORT gzputs(gzFile file, const char *s) { + z_size_t len, put; + gz_statep state; + + /* get internal structure */ + if (file == NULL) + return -1; + state = (gz_statep)file; + + /* check that we're writing and that there's no (serious) error */ + if (state->mode != GZ_WRITE || (state->err != Z_OK && !state->again)) + return -1; + gz_error(state, Z_OK, NULL); + + /* write string */ + len = strlen(s); + if ((int)len < 0 || (unsigned)len != len) { + gz_error(state, Z_STREAM_ERROR, "string length does not fit in int"); + return -1; + } + put = gz_write(state, s, len); + return len && put == 0 ? -1 : (int)put; +} + +#if (((!defined(STDC) && !defined(Z_HAVE_STDARG_H)) || !defined(NO_vsnprintf)) && \ + (defined(STDC) || defined(Z_HAVE_STDARG_H) || !defined(NO_snprintf))) || \ + defined(ZLIB_INSECURE) +/* If the second half of the input buffer is occupied, write out the contents. + If there is any input remaining due to a non-blocking stall on write, move + it to the start of the buffer. Return true if this did not open up the + second half of the buffer. state->err should be checked after this to + handle a gz_comp() error. */ +local int gz_vacate(gz_statep state) { + z_streamp strm; + + strm = &(state->strm); + if (strm->next_in + strm->avail_in <= state->in + state->size) + return 0; + (void)gz_comp(state, Z_NO_FLUSH); + if (strm->avail_in == 0) { + strm->next_in = state->in; + return 0; + } + memmove(state->in, strm->next_in, strm->avail_in); + strm->next_in = state->in; + return strm->avail_in > state->size; +} +#endif + +#if defined(STDC) || defined(Z_HAVE_STDARG_H) +#include + +/* -- see zlib.h -- */ +int ZEXPORTVA gzvprintf(gzFile file, const char *format, va_list va) { +#if defined(NO_vsnprintf) && !defined(ZLIB_INSECURE) +#warning "vsnprintf() not available -- gzprintf() stub returns Z_STREAM_ERROR" +#warning "you can recompile with ZLIB_INSECURE defined to use vsprintf()" + /* prevent use of insecure vsprintf(), unless purposefully requested */ + (void)file, (void)format, (void)va; + return Z_STREAM_ERROR; +#else + int len, ret; + char *next; + gz_statep state; + z_streamp strm; + + /* get internal structure */ + if (file == NULL) + return Z_STREAM_ERROR; + state = (gz_statep)file; + strm = &(state->strm); + + /* check that we're writing and that there's no (serious) error */ + if (state->mode != GZ_WRITE || (state->err != Z_OK && !state->again)) + return Z_STREAM_ERROR; + gz_error(state, Z_OK, NULL); + + /* make sure we have some buffer space */ + if (state->size == 0 && gz_init(state) == -1) + return state->err; + + /* check for seek request */ + if (state->skip && gz_zero(state) == -1) + return state->err; + + /* do the printf() into the input buffer, put length in len -- the input + buffer is double-sized just for this function, so there should be + state->size bytes available after the current contents */ + ret = gz_vacate(state); + if (state->err) { + if (ret && state->again) { + /* There was a non-blocking stall on write, resulting in the part + of the second half of the output buffer being occupied. Return + a Z_BUF_ERROR to let the application know that this gzprintf() + needs to be retried. */ + gz_error(state, Z_BUF_ERROR, "stalled write on gzprintf"); + } + if (!state->again) + return state->err; + } + if (strm->avail_in == 0) + strm->next_in = state->in; + next = (char *)(state->in + (strm->next_in - state->in) + strm->avail_in); + next[state->size - 1] = 0; +#ifdef NO_vsnprintf +# ifdef HAS_vsprintf_void + (void)vsprintf(next, format, va); + for (len = 0; len < state->size; len++) + if (next[len] == 0) break; +# else + len = vsprintf(next, format, va); +# endif +#else +# ifdef HAS_vsnprintf_void + (void)vsnprintf(next, state->size, format, va); + len = strlen(next); +# else + len = vsnprintf(next, state->size, format, va); +# endif +#endif + + /* check that printf() results fit in buffer */ + if (len == 0 || (unsigned)len >= state->size || next[state->size - 1] != 0) + return 0; + + /* update buffer and position */ + strm->avail_in += (unsigned)len; + state->x.pos += len; + + /* write out buffer if more than half is occupied */ + ret = gz_vacate(state); + if (state->err && !state->again) + return state->err; + return len; +#endif +} + +int ZEXPORTVA gzprintf(gzFile file, const char *format, ...) { + va_list va; + int ret; + + va_start(va, format); + ret = gzvprintf(file, format, va); + va_end(va); + return ret; +} + +#else /* !STDC && !Z_HAVE_STDARG_H */ + +/* -- see zlib.h -- */ +int ZEXPORTVA gzprintf(gzFile file, const char *format, int a1, int a2, int a3, + int a4, int a5, int a6, int a7, int a8, int a9, int a10, + int a11, int a12, int a13, int a14, int a15, int a16, + int a17, int a18, int a19, int a20) { +#if defined(NO_snprintf) && !defined(ZLIB_INSECURE) +#warning "snprintf() not available -- gzprintf() stub returns Z_STREAM_ERROR" +#warning "you can recompile with ZLIB_INSECURE defined to use sprintf()" + /* prevent use of insecure sprintf(), unless purposefully requested */ + (void)file, (void)format, (void)a1, (void)a2, (void)a3, (void)a4, (void)a5, + (void)a6, (void)a7, (void)a8, (void)a9, (void)a10, (void)a11, (void)a12, + (void)a13, (void)a14, (void)a15, (void)a16, (void)a17, (void)a18, + (void)a19, (void)a20; + return Z_STREAM_ERROR; +#else + int ret; + unsigned len, left; + char *next; + gz_statep state; + z_streamp strm; + + /* get internal structure */ + if (file == NULL) + return Z_STREAM_ERROR; + state = (gz_statep)file; + strm = &(state->strm); + + /* check that can really pass pointer in ints */ + if (sizeof(int) != sizeof(void *)) + return Z_STREAM_ERROR; + + /* check that we're writing and that there's no (serious) error */ + if (state->mode != GZ_WRITE || (state->err != Z_OK && !state->again)) + return Z_STREAM_ERROR; + gz_error(state, Z_OK, NULL); + + /* make sure we have some buffer space */ + if (state->size == 0 && gz_init(state) == -1) + return state->err; + + /* check for seek request */ + if (state->skip && gz_zero(state) == -1) + return state->err; + + /* do the printf() into the input buffer, put length in len -- the input + buffer is double-sized just for this function, so there is guaranteed to + be state->size bytes available after the current contents */ + ret = gz_vacate(state); + if (state->err) { + if (ret && state->again) { + /* There was a non-blocking stall on write, resulting in the part + of the second half of the output buffer being occupied. Return + a Z_BUF_ERROR to let the application know that this gzprintf() + needs to be retried. */ + gz_error(state, Z_BUF_ERROR, "stalled write on gzprintf"); + } + if (!state->again) + return state->err; + } + if (strm->avail_in == 0) + strm->next_in = state->in; + next = (char *)(strm->next_in + strm->avail_in); + next[state->size - 1] = 0; +#ifdef NO_snprintf +# ifdef HAS_sprintf_void + sprintf(next, format, a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, a12, + a13, a14, a15, a16, a17, a18, a19, a20); + for (len = 0; len < size; len++) + if (next[len] == 0) + break; +# else + len = sprintf(next, format, a1, a2, a3, a4, a5, a6, a7, a8, a9, a10, a11, + a12, a13, a14, a15, a16, a17, a18, a19, a20); +# endif +#else +# ifdef HAS_snprintf_void + snprintf(next, state->size, format, a1, a2, a3, a4, a5, a6, a7, a8, a9, + a10, a11, a12, a13, a14, a15, a16, a17, a18, a19, a20); + len = strlen(next); +# else + len = snprintf(next, state->size, format, a1, a2, a3, a4, a5, a6, a7, a8, + a9, a10, a11, a12, a13, a14, a15, a16, a17, a18, a19, a20); +# endif +#endif + + /* check that printf() results fit in buffer */ + if (len == 0 || len >= state->size || next[state->size - 1] != 0) + return 0; + + /* update buffer and position, compress first half if past that */ + strm->avail_in += len; + state->x.pos += len; + + /* write out buffer if more than half is occupied */ + ret = gz_vacate(state); + if (state->err && !state->again) + return state->err; + return (int)len; +#endif +} + +#endif + +/* -- see zlib.h -- */ +int ZEXPORT gzflush(gzFile file, int flush) { + gz_statep state; + + /* get internal structure */ + if (file == NULL) + return Z_STREAM_ERROR; + state = (gz_statep)file; + + /* check that we're writing and that there's no (serious) error */ + if (state->mode != GZ_WRITE || (state->err != Z_OK && !state->again)) + return Z_STREAM_ERROR; + gz_error(state, Z_OK, NULL); + + /* check flush parameter */ + if (flush < 0 || flush > Z_FINISH) + return Z_STREAM_ERROR; + + /* check for seek request */ + if (state->skip && gz_zero(state) == -1) + return state->err; + + /* compress remaining data with requested flush */ + (void)gz_comp(state, flush); + return state->err; +} + +/* -- see zlib.h -- */ +int ZEXPORT gzsetparams(gzFile file, int level, int strategy) { + gz_statep state; + z_streamp strm; + + /* get internal structure */ + if (file == NULL) + return Z_STREAM_ERROR; + state = (gz_statep)file; + strm = &(state->strm); + + /* check that we're compressing and that there's no (serious) error */ + if (state->mode != GZ_WRITE || (state->err != Z_OK && !state->again) || + state->direct) + return Z_STREAM_ERROR; + gz_error(state, Z_OK, NULL); + + /* if no change is requested, then do nothing */ + if (level == state->level && strategy == state->strategy) + return Z_OK; + + /* check for seek request */ + if (state->skip && gz_zero(state) == -1) + return state->err; + + /* change compression parameters for subsequent input */ + if (state->size) { + /* flush previous input with previous parameters before changing */ + if (strm->avail_in && gz_comp(state, Z_BLOCK) == -1) + return state->err; + deflateParams(strm, level, strategy); + } + state->level = level; + state->strategy = strategy; + return Z_OK; +} + +/* -- see zlib.h -- */ +int ZEXPORT gzclose_w(gzFile file) { + int ret = Z_OK; + gz_statep state; + + /* get internal structure */ + if (file == NULL) + return Z_STREAM_ERROR; + state = (gz_statep)file; + + /* check that we're writing */ + if (state->mode != GZ_WRITE) + return Z_STREAM_ERROR; + + /* check for seek request */ + if (state->skip && gz_zero(state) == -1) + ret = state->err; + + /* flush, free memory, and close file */ + if (gz_comp(state, Z_FINISH) == -1) + ret = state->err; + if (state->size) { + if (!state->direct) { + (void)deflateEnd(&(state->strm)); + free(state->out); + } + free(state->in); + } + gz_error(state, Z_OK, NULL); + free(state->path); + if (close(state->fd) == -1) + ret = Z_ERRNO; + free(state); + return ret; +} diff --git a/Minecraft.Client/Common/zlib/infback.c b/Minecraft.Client/Common/zlib/infback.c new file mode 100644 index 0000000..ac96ba1 --- /dev/null +++ b/Minecraft.Client/Common/zlib/infback.c @@ -0,0 +1,579 @@ +/* infback.c -- inflate using a call-back interface + * Copyright (C) 1995-2026 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* + This code is largely copied from inflate.c. Normally either infback.o or + inflate.o would be linked into an application--not both. The interface + with inffast.c is retained so that optimized assembler-coded versions of + inflate_fast() can be used with either inflate.c or infback.c. + */ + +#include "zutil.h" +#include "inftrees.h" +#include "inflate.h" +#include "inffast.h" + +/* + strm provides memory allocation functions in zalloc and zfree, or + Z_NULL to use the library memory allocation functions. + + windowBits is in the range 8..15, and window is a user-supplied + window and output buffer that is 2**windowBits bytes. + */ +int ZEXPORT inflateBackInit_(z_streamp strm, int windowBits, + unsigned char FAR *window, const char *version, + int stream_size) { + struct inflate_state FAR *state; + + if (version == Z_NULL || version[0] != ZLIB_VERSION[0] || + stream_size != (int)(sizeof(z_stream))) + return Z_VERSION_ERROR; + if (strm == Z_NULL || window == Z_NULL || + windowBits < 8 || windowBits > 15) + return Z_STREAM_ERROR; + strm->msg = Z_NULL; /* in case we return an error */ + if (strm->zalloc == (alloc_func)0) { +#ifdef Z_SOLO + return Z_STREAM_ERROR; +#else + strm->zalloc = zcalloc; + strm->opaque = (voidpf)0; +#endif + } + if (strm->zfree == (free_func)0) +#ifdef Z_SOLO + return Z_STREAM_ERROR; +#else + strm->zfree = zcfree; +#endif + state = (struct inflate_state FAR *)ZALLOC(strm, 1, + sizeof(struct inflate_state)); + if (state == Z_NULL) return Z_MEM_ERROR; + Tracev((stderr, "inflate: allocated\n")); + strm->state = (struct internal_state FAR *)state; + state->dmax = 32768U; + state->wbits = (uInt)windowBits; + state->wsize = 1U << windowBits; + state->window = window; + state->wnext = 0; + state->whave = 0; + state->sane = 1; + return Z_OK; +} + +/* Macros for inflateBack(): */ + +/* Load returned state from inflate_fast() */ +#define LOAD() \ + do { \ + put = strm->next_out; \ + left = strm->avail_out; \ + next = strm->next_in; \ + have = strm->avail_in; \ + hold = state->hold; \ + bits = state->bits; \ + } while (0) + +/* Set state from registers for inflate_fast() */ +#define RESTORE() \ + do { \ + strm->next_out = put; \ + strm->avail_out = left; \ + strm->next_in = next; \ + strm->avail_in = have; \ + state->hold = hold; \ + state->bits = bits; \ + } while (0) + +/* Clear the input bit accumulator */ +#define INITBITS() \ + do { \ + hold = 0; \ + bits = 0; \ + } while (0) + +/* Assure that some input is available. If input is requested, but denied, + then return a Z_BUF_ERROR from inflateBack(). */ +#define PULL() \ + do { \ + if (have == 0) { \ + have = in(in_desc, &next); \ + if (have == 0) { \ + next = Z_NULL; \ + ret = Z_BUF_ERROR; \ + goto inf_leave; \ + } \ + } \ + } while (0) + +/* Get a byte of input into the bit accumulator, or return from inflateBack() + with an error if there is no input available. */ +#define PULLBYTE() \ + do { \ + PULL(); \ + have--; \ + hold += (unsigned long)(*next++) << bits; \ + bits += 8; \ + } while (0) + +/* Assure that there are at least n bits in the bit accumulator. If there is + not enough available input to do that, then return from inflateBack() with + an error. */ +#define NEEDBITS(n) \ + do { \ + while (bits < (unsigned)(n)) \ + PULLBYTE(); \ + } while (0) + +/* Return the low n bits of the bit accumulator (n < 16) */ +#define BITS(n) \ + ((unsigned)hold & ((1U << (n)) - 1)) + +/* Remove n bits from the bit accumulator */ +#define DROPBITS(n) \ + do { \ + hold >>= (n); \ + bits -= (unsigned)(n); \ + } while (0) + +/* Remove zero to seven bits as needed to go to a byte boundary */ +#define BYTEBITS() \ + do { \ + hold >>= bits & 7; \ + bits -= bits & 7; \ + } while (0) + +/* Assure that some output space is available, by writing out the window + if it's full. If the write fails, return from inflateBack() with a + Z_BUF_ERROR. */ +#define ROOM() \ + do { \ + if (left == 0) { \ + put = state->window; \ + left = state->wsize; \ + state->whave = left; \ + if (out(out_desc, put, left)) { \ + ret = Z_BUF_ERROR; \ + goto inf_leave; \ + } \ + } \ + } while (0) + +/* + strm provides the memory allocation functions and window buffer on input, + and provides information on the unused input on return. For Z_DATA_ERROR + returns, strm will also provide an error message. + + in() and out() are the call-back input and output functions. When + inflateBack() needs more input, it calls in(). When inflateBack() has + filled the window with output, or when it completes with data in the + window, it calls out() to write out the data. The application must not + change the provided input until in() is called again or inflateBack() + returns. The application must not change the window/output buffer until + inflateBack() returns. + + in() and out() are called with a descriptor parameter provided in the + inflateBack() call. This parameter can be a structure that provides the + information required to do the read or write, as well as accumulated + information on the input and output such as totals and check values. + + in() should return zero on failure. out() should return non-zero on + failure. If either in() or out() fails, than inflateBack() returns a + Z_BUF_ERROR. strm->next_in can be checked for Z_NULL to see whether it + was in() or out() that caused in the error. Otherwise, inflateBack() + returns Z_STREAM_END on success, Z_DATA_ERROR for an deflate format + error, or Z_MEM_ERROR if it could not allocate memory for the state. + inflateBack() can also return Z_STREAM_ERROR if the input parameters + are not correct, i.e. strm is Z_NULL or the state was not initialized. + */ +int ZEXPORT inflateBack(z_streamp strm, in_func in, void FAR *in_desc, + out_func out, void FAR *out_desc) { + struct inflate_state FAR *state; + z_const unsigned char FAR *next; /* next input */ + unsigned char FAR *put; /* next output */ + unsigned have, left; /* available input and output */ + unsigned long hold; /* bit buffer */ + unsigned bits; /* bits in bit buffer */ + unsigned copy; /* number of stored or match bytes to copy */ + unsigned char FAR *from; /* where to copy match bytes from */ + code here; /* current decoding table entry */ + code last; /* parent table entry */ + unsigned len; /* length to copy for repeats, bits to drop */ + int ret; /* return code */ + static const unsigned short order[19] = /* permutation of code lengths */ + {16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15}; + + /* Check that the strm exists and that the state was initialized */ + if (strm == Z_NULL || strm->state == Z_NULL) + return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; + + /* Reset the state */ + strm->msg = Z_NULL; + state->mode = TYPE; + state->last = 0; + state->whave = 0; + next = strm->next_in; + have = next != Z_NULL ? strm->avail_in : 0; + hold = 0; + bits = 0; + put = state->window; + left = state->wsize; + + /* Inflate until end of block marked as last */ + for (;;) + switch (state->mode) { + case TYPE: + /* determine and dispatch block type */ + if (state->last) { + BYTEBITS(); + state->mode = DONE; + break; + } + NEEDBITS(3); + state->last = BITS(1); + DROPBITS(1); + switch (BITS(2)) { + case 0: /* stored block */ + Tracev((stderr, "inflate: stored block%s\n", + state->last ? " (last)" : "")); + state->mode = STORED; + break; + case 1: /* fixed block */ + inflate_fixed(state); + Tracev((stderr, "inflate: fixed codes block%s\n", + state->last ? " (last)" : "")); + state->mode = LEN; /* decode codes */ + break; + case 2: /* dynamic block */ + Tracev((stderr, "inflate: dynamic codes block%s\n", + state->last ? " (last)" : "")); + state->mode = TABLE; + break; + default: + strm->msg = (z_const char *)"invalid block type"; + state->mode = BAD; + } + DROPBITS(2); + break; + + case STORED: + /* get and verify stored block length */ + BYTEBITS(); /* go to byte boundary */ + NEEDBITS(32); + if ((hold & 0xffff) != ((hold >> 16) ^ 0xffff)) { + strm->msg = (z_const char *)"invalid stored block lengths"; + state->mode = BAD; + break; + } + state->length = (unsigned)hold & 0xffff; + Tracev((stderr, "inflate: stored length %u\n", + state->length)); + INITBITS(); + + /* copy stored block from input to output */ + while (state->length != 0) { + copy = state->length; + PULL(); + ROOM(); + if (copy > have) copy = have; + if (copy > left) copy = left; + zmemcpy(put, next, copy); + have -= copy; + next += copy; + left -= copy; + put += copy; + state->length -= copy; + } + Tracev((stderr, "inflate: stored end\n")); + state->mode = TYPE; + break; + + case TABLE: + /* get dynamic table entries descriptor */ + NEEDBITS(14); + state->nlen = BITS(5) + 257; + DROPBITS(5); + state->ndist = BITS(5) + 1; + DROPBITS(5); + state->ncode = BITS(4) + 4; + DROPBITS(4); +#ifndef PKZIP_BUG_WORKAROUND + if (state->nlen > 286 || state->ndist > 30) { + strm->msg = (z_const char *) + "too many length or distance symbols"; + state->mode = BAD; + break; + } +#endif + Tracev((stderr, "inflate: table sizes ok\n")); + + /* get code length code lengths (not a typo) */ + state->have = 0; + while (state->have < state->ncode) { + NEEDBITS(3); + state->lens[order[state->have++]] = (unsigned short)BITS(3); + DROPBITS(3); + } + while (state->have < 19) + state->lens[order[state->have++]] = 0; + state->next = state->codes; + state->lencode = (code const FAR *)(state->next); + state->lenbits = 7; + ret = inflate_table(CODES, state->lens, 19, &(state->next), + &(state->lenbits), state->work); + if (ret) { + strm->msg = (z_const char *)"invalid code lengths set"; + state->mode = BAD; + break; + } + Tracev((stderr, "inflate: code lengths ok\n")); + + /* get length and distance code code lengths */ + state->have = 0; + while (state->have < state->nlen + state->ndist) { + for (;;) { + here = state->lencode[BITS(state->lenbits)]; + if ((unsigned)(here.bits) <= bits) break; + PULLBYTE(); + } + if (here.val < 16) { + DROPBITS(here.bits); + state->lens[state->have++] = here.val; + } + else { + if (here.val == 16) { + NEEDBITS(here.bits + 2); + DROPBITS(here.bits); + if (state->have == 0) { + strm->msg = (z_const char *) + "invalid bit length repeat"; + state->mode = BAD; + break; + } + len = (unsigned)(state->lens[state->have - 1]); + copy = 3 + BITS(2); + DROPBITS(2); + } + else if (here.val == 17) { + NEEDBITS(here.bits + 3); + DROPBITS(here.bits); + len = 0; + copy = 3 + BITS(3); + DROPBITS(3); + } + else { + NEEDBITS(here.bits + 7); + DROPBITS(here.bits); + len = 0; + copy = 11 + BITS(7); + DROPBITS(7); + } + if (state->have + copy > state->nlen + state->ndist) { + strm->msg = (z_const char *) + "invalid bit length repeat"; + state->mode = BAD; + break; + } + while (copy--) + state->lens[state->have++] = (unsigned short)len; + } + } + + /* handle error breaks in while */ + if (state->mode == BAD) break; + + /* check for end-of-block code (better have one) */ + if (state->lens[256] == 0) { + strm->msg = (z_const char *) + "invalid code -- missing end-of-block"; + state->mode = BAD; + break; + } + + /* build code tables -- note: do not change the lenbits or distbits + values here (9 and 6) without reading the comments in inftrees.h + concerning the ENOUGH constants, which depend on those values */ + state->next = state->codes; + state->lencode = (code const FAR *)(state->next); + state->lenbits = 9; + ret = inflate_table(LENS, state->lens, state->nlen, &(state->next), + &(state->lenbits), state->work); + if (ret) { + strm->msg = (z_const char *)"invalid literal/lengths set"; + state->mode = BAD; + break; + } + state->distcode = (code const FAR *)(state->next); + state->distbits = 6; + ret = inflate_table(DISTS, state->lens + state->nlen, state->ndist, + &(state->next), &(state->distbits), state->work); + if (ret) { + strm->msg = (z_const char *)"invalid distances set"; + state->mode = BAD; + break; + } + Tracev((stderr, "inflate: codes ok\n")); + state->mode = LEN; + /* fallthrough */ + + case LEN: + /* use inflate_fast() if we have enough input and output */ + if (have >= 6 && left >= 258) { + RESTORE(); + inflate_fast(strm, state->wsize); + LOAD(); + break; + } + + /* get a literal, length, or end-of-block code */ + for (;;) { + here = state->lencode[BITS(state->lenbits)]; + if ((unsigned)(here.bits) <= bits) break; + PULLBYTE(); + } + if (here.op && (here.op & 0xf0) == 0) { + last = here; + for (;;) { + here = state->lencode[last.val + + (BITS(last.bits + last.op) >> last.bits)]; + if ((unsigned)(last.bits + here.bits) <= bits) break; + PULLBYTE(); + } + DROPBITS(last.bits); + } + DROPBITS(here.bits); + state->length = (unsigned)here.val; + + /* process literal */ + if (here.op == 0) { + Tracevv((stderr, here.val >= 0x20 && here.val < 0x7f ? + "inflate: literal '%c'\n" : + "inflate: literal 0x%02x\n", here.val)); + ROOM(); + *put++ = (unsigned char)(state->length); + left--; + state->mode = LEN; + break; + } + + /* process end of block */ + if (here.op & 32) { + Tracevv((stderr, "inflate: end of block\n")); + state->mode = TYPE; + break; + } + + /* invalid code */ + if (here.op & 64) { + strm->msg = (z_const char *)"invalid literal/length code"; + state->mode = BAD; + break; + } + + /* length code -- get extra bits, if any */ + state->extra = (unsigned)(here.op) & 15; + if (state->extra != 0) { + NEEDBITS(state->extra); + state->length += BITS(state->extra); + DROPBITS(state->extra); + } + Tracevv((stderr, "inflate: length %u\n", state->length)); + + /* get distance code */ + for (;;) { + here = state->distcode[BITS(state->distbits)]; + if ((unsigned)(here.bits) <= bits) break; + PULLBYTE(); + } + if ((here.op & 0xf0) == 0) { + last = here; + for (;;) { + here = state->distcode[last.val + + (BITS(last.bits + last.op) >> last.bits)]; + if ((unsigned)(last.bits + here.bits) <= bits) break; + PULLBYTE(); + } + DROPBITS(last.bits); + } + DROPBITS(here.bits); + if (here.op & 64) { + strm->msg = (z_const char *)"invalid distance code"; + state->mode = BAD; + break; + } + state->offset = (unsigned)here.val; + + /* get distance extra bits, if any */ + state->extra = (unsigned)(here.op) & 15; + if (state->extra != 0) { + NEEDBITS(state->extra); + state->offset += BITS(state->extra); + DROPBITS(state->extra); + } + if (state->offset > state->wsize - (state->whave < state->wsize ? + left : 0)) { + strm->msg = (z_const char *)"invalid distance too far back"; + state->mode = BAD; + break; + } + Tracevv((stderr, "inflate: distance %u\n", state->offset)); + + /* copy match from window to output */ + do { + ROOM(); + copy = state->wsize - state->offset; + if (copy < left) { + from = put + copy; + copy = left - copy; + } + else { + from = put - state->offset; + copy = left; + } + if (copy > state->length) copy = state->length; + state->length -= copy; + left -= copy; + do { + *put++ = *from++; + } while (--copy); + } while (state->length != 0); + break; + + case DONE: + /* inflate stream terminated properly */ + ret = Z_STREAM_END; + goto inf_leave; + + case BAD: + ret = Z_DATA_ERROR; + goto inf_leave; + + default: + /* can't happen, but makes compilers happy */ + ret = Z_STREAM_ERROR; + goto inf_leave; + } + + /* Write leftover output and return unused input */ + inf_leave: + if (left < state->wsize) { + if (out(out_desc, state->window, state->wsize - left) && + ret == Z_STREAM_END) + ret = Z_BUF_ERROR; + } + strm->next_in = next; + strm->avail_in = have; + return ret; +} + +int ZEXPORT inflateBackEnd(z_streamp strm) { + if (strm == Z_NULL || strm->state == Z_NULL || strm->zfree == (free_func)0) + return Z_STREAM_ERROR; + ZFREE(strm, strm->state); + strm->state = Z_NULL; + Tracev((stderr, "inflate: end\n")); + return Z_OK; +} diff --git a/Minecraft.Client/Common/zlib/inffast.c b/Minecraft.Client/Common/zlib/inffast.c new file mode 100644 index 0000000..d1657f3 --- /dev/null +++ b/Minecraft.Client/Common/zlib/inffast.c @@ -0,0 +1,321 @@ +/* inffast.c -- fast decoding + * Copyright (C) 1995-2026 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +#include "zutil.h" +#include "inftrees.h" +#include "inflate.h" +#include "inffast.h" + +#ifdef ASMINF +# pragma message("Assembler code may have bugs -- use at your own risk") +#else + +/* + Decode literal, length, and distance codes and write out the resulting + literal and match bytes until either not enough input or output is + available, an end-of-block is encountered, or a data error is encountered. + When large enough input and output buffers are supplied to inflate(), for + example, a 16K input buffer and a 64K output buffer, more than 95% of the + inflate execution time is spent in this routine. + + Entry assumptions: + + state->mode == LEN + strm->avail_in >= 6 + strm->avail_out >= 258 + start >= strm->avail_out + state->bits < 8 + + On return, state->mode is one of: + + LEN -- ran out of enough output space or enough available input + TYPE -- reached end of block code, inflate() to interpret next block + BAD -- error in block data + + Notes: + + - The maximum input bits used by a length/distance pair is 15 bits for the + length code, 5 bits for the length extra, 15 bits for the distance code, + and 13 bits for the distance extra. This totals 48 bits, or six bytes. + Therefore if strm->avail_in >= 6, then there is enough input to avoid + checking for available input while decoding. + + - The maximum bytes that a single length/distance pair can output is 258 + bytes, which is the maximum length that can be coded. inflate_fast() + requires strm->avail_out >= 258 for each loop to avoid checking for + output space. + */ +void ZLIB_INTERNAL inflate_fast(z_streamp strm, unsigned start) { + struct inflate_state FAR *state; + z_const unsigned char FAR *in; /* local strm->next_in */ + z_const unsigned char FAR *last; /* have enough input while in < last */ + unsigned char FAR *out; /* local strm->next_out */ + unsigned char FAR *beg; /* inflate()'s initial strm->next_out */ + unsigned char FAR *end; /* while out < end, enough space available */ +#ifdef INFLATE_STRICT + unsigned dmax; /* maximum distance from zlib header */ +#endif + unsigned wsize; /* window size or zero if not using window */ + unsigned whave; /* valid bytes in the window */ + unsigned wnext; /* window write index */ + unsigned char FAR *window; /* allocated sliding window, if wsize != 0 */ + unsigned long hold; /* local strm->hold */ + unsigned bits; /* local strm->bits */ + code const FAR *lcode; /* local strm->lencode */ + code const FAR *dcode; /* local strm->distcode */ + unsigned lmask; /* mask for first level of length codes */ + unsigned dmask; /* mask for first level of distance codes */ + code const *here; /* retrieved table entry */ + unsigned op; /* code bits, operation, extra bits, or */ + /* window position, window bytes to copy */ + unsigned len; /* match length, unused bytes */ + unsigned dist; /* match distance */ + unsigned char FAR *from; /* where to copy match from */ + + /* copy state to local variables */ + state = (struct inflate_state FAR *)strm->state; + in = strm->next_in; + last = in + (strm->avail_in - 5); + out = strm->next_out; + beg = out - (start - strm->avail_out); + end = out + (strm->avail_out - 257); +#ifdef INFLATE_STRICT + dmax = state->dmax; +#endif + wsize = state->wsize; + whave = state->whave; + wnext = state->wnext; + window = state->window; + hold = state->hold; + bits = state->bits; + lcode = state->lencode; + dcode = state->distcode; + lmask = (1U << state->lenbits) - 1; + dmask = (1U << state->distbits) - 1; + + /* decode literals and length/distances until end-of-block or not enough + input data or output space */ + do { + if (bits < 15) { + hold += (unsigned long)(*in++) << bits; + bits += 8; + hold += (unsigned long)(*in++) << bits; + bits += 8; + } + here = lcode + (hold & lmask); + dolen: + op = (unsigned)(here->bits); + hold >>= op; + bits -= op; + op = (unsigned)(here->op); + if (op == 0) { /* literal */ + Tracevv((stderr, here->val >= 0x20 && here->val < 0x7f ? + "inflate: literal '%c'\n" : + "inflate: literal 0x%02x\n", here->val)); + *out++ = (unsigned char)(here->val); + } + else if (op & 16) { /* length base */ + len = (unsigned)(here->val); + op &= 15; /* number of extra bits */ + if (op) { + if (bits < op) { + hold += (unsigned long)(*in++) << bits; + bits += 8; + } + len += (unsigned)hold & ((1U << op) - 1); + hold >>= op; + bits -= op; + } + Tracevv((stderr, "inflate: length %u\n", len)); + if (bits < 15) { + hold += (unsigned long)(*in++) << bits; + bits += 8; + hold += (unsigned long)(*in++) << bits; + bits += 8; + } + here = dcode + (hold & dmask); + dodist: + op = (unsigned)(here->bits); + hold >>= op; + bits -= op; + op = (unsigned)(here->op); + if (op & 16) { /* distance base */ + dist = (unsigned)(here->val); + op &= 15; /* number of extra bits */ + if (bits < op) { + hold += (unsigned long)(*in++) << bits; + bits += 8; + if (bits < op) { + hold += (unsigned long)(*in++) << bits; + bits += 8; + } + } + dist += (unsigned)hold & ((1U << op) - 1); +#ifdef INFLATE_STRICT + if (dist > dmax) { + strm->msg = (z_const char *) + "invalid distance too far back"; + state->mode = BAD; + break; + } +#endif + hold >>= op; + bits -= op; + Tracevv((stderr, "inflate: distance %u\n", dist)); + op = (unsigned)(out - beg); /* max distance in output */ + if (dist > op) { /* see if copy from window */ + op = dist - op; /* distance back in window */ + if (op > whave) { + if (state->sane) { + strm->msg = (z_const char *) + "invalid distance too far back"; + state->mode = BAD; + break; + } +#ifdef INFLATE_ALLOW_INVALID_DISTANCE_TOOFAR_ARRR + if (len <= op - whave) { + do { + *out++ = 0; + } while (--len); + continue; + } + len -= op - whave; + do { + *out++ = 0; + } while (--op > whave); + if (op == 0) { + from = out - dist; + do { + *out++ = *from++; + } while (--len); + continue; + } +#endif + } + from = window; + if (wnext == 0) { /* very common case */ + from += wsize - op; + if (op < len) { /* some from window */ + len -= op; + do { + *out++ = *from++; + } while (--op); + from = out - dist; /* rest from output */ + } + } + else if (wnext < op) { /* wrap around window */ + from += wsize + wnext - op; + op -= wnext; + if (op < len) { /* some from end of window */ + len -= op; + do { + *out++ = *from++; + } while (--op); + from = window; + if (wnext < len) { /* some from start of window */ + op = wnext; + len -= op; + do { + *out++ = *from++; + } while (--op); + from = out - dist; /* rest from output */ + } + } + } + else { /* contiguous in window */ + from += wnext - op; + if (op < len) { /* some from window */ + len -= op; + do { + *out++ = *from++; + } while (--op); + from = out - dist; /* rest from output */ + } + } + while (len > 2) { + *out++ = *from++; + *out++ = *from++; + *out++ = *from++; + len -= 3; + } + if (len) { + *out++ = *from++; + if (len > 1) + *out++ = *from++; + } + } + else { + from = out - dist; /* copy direct from output */ + do { /* minimum length is three */ + *out++ = *from++; + *out++ = *from++; + *out++ = *from++; + len -= 3; + } while (len > 2); + if (len) { + *out++ = *from++; + if (len > 1) + *out++ = *from++; + } + } + } + else if ((op & 64) == 0) { /* 2nd level distance code */ + here = dcode + here->val + (hold & ((1U << op) - 1)); + goto dodist; + } + else { + strm->msg = (z_const char *)"invalid distance code"; + state->mode = BAD; + break; + } + } + else if ((op & 64) == 0) { /* 2nd level length code */ + here = lcode + here->val + (hold & ((1U << op) - 1)); + goto dolen; + } + else if (op & 32) { /* end-of-block */ + Tracevv((stderr, "inflate: end of block\n")); + state->mode = TYPE; + break; + } + else { + strm->msg = (z_const char *)"invalid literal/length code"; + state->mode = BAD; + break; + } + } while (in < last && out < end); + + /* return unused bytes (on entry, bits < 8, so in won't go too far back) */ + len = bits >> 3; + in -= len; + bits -= len << 3; + hold &= (1U << bits) - 1; + + /* update state and return */ + strm->next_in = in; + strm->next_out = out; + strm->avail_in = (unsigned)(in < last ? 5 + (last - in) : 5 - (in - last)); + strm->avail_out = (unsigned)(out < end ? + 257 + (end - out) : 257 - (out - end)); + state->hold = hold; + state->bits = bits; + return; +} + +/* + inflate_fast() speedups that turned out slower (on a PowerPC G3 750CXe): + - Using bit fields for code structure + - Different op definition to avoid & for extra bits (do & for table bits) + - Three separate decoding do-loops for direct, window, and wnext == 0 + - Special case for distance > 1 copies to do overlapped load and store copy + - Explicit branch predictions (based on measured branch probabilities) + - Deferring match copy and interspersed it with decoding subsequent codes + - Swapping literal/length else + - Swapping window/direct else + - Larger unrolled copy loops (three is about right) + - Moving len -= 3 statement into middle of loop + */ + +#endif /* !ASMINF */ diff --git a/Minecraft.Client/Common/zlib/inffast.h b/Minecraft.Client/Common/zlib/inffast.h new file mode 100644 index 0000000..49c6d15 --- /dev/null +++ b/Minecraft.Client/Common/zlib/inffast.h @@ -0,0 +1,11 @@ +/* inffast.h -- header to use inffast.c + * Copyright (C) 1995-2003, 2010 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* WARNING: this file should *not* be used by applications. It is + part of the implementation of the compression library and is + subject to change. Applications should only use zlib.h. + */ + +void ZLIB_INTERNAL inflate_fast(z_streamp strm, unsigned start); diff --git a/Minecraft.Client/Common/zlib/inffixed.h b/Minecraft.Client/Common/zlib/inffixed.h new file mode 100644 index 0000000..05ce88e --- /dev/null +++ b/Minecraft.Client/Common/zlib/inffixed.h @@ -0,0 +1,94 @@ +/* inffixed.h -- table for decoding fixed codes + * Generated automatically by makefixed(). + */ + +/* WARNING: this file should *not* be used by applications. + It is part of the implementation of this library and is + subject to change. Applications should only use zlib.h. + */ + +static const code lenfix[512] = { + {96,7,0},{0,8,80},{0,8,16},{20,8,115},{18,7,31},{0,8,112},{0,8,48}, + {0,9,192},{16,7,10},{0,8,96},{0,8,32},{0,9,160},{0,8,0},{0,8,128}, + {0,8,64},{0,9,224},{16,7,6},{0,8,88},{0,8,24},{0,9,144},{19,7,59}, + {0,8,120},{0,8,56},{0,9,208},{17,7,17},{0,8,104},{0,8,40},{0,9,176}, + {0,8,8},{0,8,136},{0,8,72},{0,9,240},{16,7,4},{0,8,84},{0,8,20}, + {21,8,227},{19,7,43},{0,8,116},{0,8,52},{0,9,200},{17,7,13},{0,8,100}, + {0,8,36},{0,9,168},{0,8,4},{0,8,132},{0,8,68},{0,9,232},{16,7,8}, + {0,8,92},{0,8,28},{0,9,152},{20,7,83},{0,8,124},{0,8,60},{0,9,216}, + {18,7,23},{0,8,108},{0,8,44},{0,9,184},{0,8,12},{0,8,140},{0,8,76}, + {0,9,248},{16,7,3},{0,8,82},{0,8,18},{21,8,163},{19,7,35},{0,8,114}, + {0,8,50},{0,9,196},{17,7,11},{0,8,98},{0,8,34},{0,9,164},{0,8,2}, + {0,8,130},{0,8,66},{0,9,228},{16,7,7},{0,8,90},{0,8,26},{0,9,148}, + {20,7,67},{0,8,122},{0,8,58},{0,9,212},{18,7,19},{0,8,106},{0,8,42}, + {0,9,180},{0,8,10},{0,8,138},{0,8,74},{0,9,244},{16,7,5},{0,8,86}, + {0,8,22},{64,8,0},{19,7,51},{0,8,118},{0,8,54},{0,9,204},{17,7,15}, + {0,8,102},{0,8,38},{0,9,172},{0,8,6},{0,8,134},{0,8,70},{0,9,236}, + {16,7,9},{0,8,94},{0,8,30},{0,9,156},{20,7,99},{0,8,126},{0,8,62}, + {0,9,220},{18,7,27},{0,8,110},{0,8,46},{0,9,188},{0,8,14},{0,8,142}, + {0,8,78},{0,9,252},{96,7,0},{0,8,81},{0,8,17},{21,8,131},{18,7,31}, + {0,8,113},{0,8,49},{0,9,194},{16,7,10},{0,8,97},{0,8,33},{0,9,162}, + {0,8,1},{0,8,129},{0,8,65},{0,9,226},{16,7,6},{0,8,89},{0,8,25}, + {0,9,146},{19,7,59},{0,8,121},{0,8,57},{0,9,210},{17,7,17},{0,8,105}, + {0,8,41},{0,9,178},{0,8,9},{0,8,137},{0,8,73},{0,9,242},{16,7,4}, + {0,8,85},{0,8,21},{16,8,258},{19,7,43},{0,8,117},{0,8,53},{0,9,202}, + {17,7,13},{0,8,101},{0,8,37},{0,9,170},{0,8,5},{0,8,133},{0,8,69}, + {0,9,234},{16,7,8},{0,8,93},{0,8,29},{0,9,154},{20,7,83},{0,8,125}, + {0,8,61},{0,9,218},{18,7,23},{0,8,109},{0,8,45},{0,9,186},{0,8,13}, + {0,8,141},{0,8,77},{0,9,250},{16,7,3},{0,8,83},{0,8,19},{21,8,195}, + {19,7,35},{0,8,115},{0,8,51},{0,9,198},{17,7,11},{0,8,99},{0,8,35}, + {0,9,166},{0,8,3},{0,8,131},{0,8,67},{0,9,230},{16,7,7},{0,8,91}, + {0,8,27},{0,9,150},{20,7,67},{0,8,123},{0,8,59},{0,9,214},{18,7,19}, + {0,8,107},{0,8,43},{0,9,182},{0,8,11},{0,8,139},{0,8,75},{0,9,246}, + {16,7,5},{0,8,87},{0,8,23},{64,8,0},{19,7,51},{0,8,119},{0,8,55}, + {0,9,206},{17,7,15},{0,8,103},{0,8,39},{0,9,174},{0,8,7},{0,8,135}, + {0,8,71},{0,9,238},{16,7,9},{0,8,95},{0,8,31},{0,9,158},{20,7,99}, + {0,8,127},{0,8,63},{0,9,222},{18,7,27},{0,8,111},{0,8,47},{0,9,190}, + {0,8,15},{0,8,143},{0,8,79},{0,9,254},{96,7,0},{0,8,80},{0,8,16}, + {20,8,115},{18,7,31},{0,8,112},{0,8,48},{0,9,193},{16,7,10},{0,8,96}, + {0,8,32},{0,9,161},{0,8,0},{0,8,128},{0,8,64},{0,9,225},{16,7,6}, + {0,8,88},{0,8,24},{0,9,145},{19,7,59},{0,8,120},{0,8,56},{0,9,209}, + {17,7,17},{0,8,104},{0,8,40},{0,9,177},{0,8,8},{0,8,136},{0,8,72}, + {0,9,241},{16,7,4},{0,8,84},{0,8,20},{21,8,227},{19,7,43},{0,8,116}, + {0,8,52},{0,9,201},{17,7,13},{0,8,100},{0,8,36},{0,9,169},{0,8,4}, + {0,8,132},{0,8,68},{0,9,233},{16,7,8},{0,8,92},{0,8,28},{0,9,153}, + {20,7,83},{0,8,124},{0,8,60},{0,9,217},{18,7,23},{0,8,108},{0,8,44}, + {0,9,185},{0,8,12},{0,8,140},{0,8,76},{0,9,249},{16,7,3},{0,8,82}, + {0,8,18},{21,8,163},{19,7,35},{0,8,114},{0,8,50},{0,9,197},{17,7,11}, + {0,8,98},{0,8,34},{0,9,165},{0,8,2},{0,8,130},{0,8,66},{0,9,229}, + {16,7,7},{0,8,90},{0,8,26},{0,9,149},{20,7,67},{0,8,122},{0,8,58}, + {0,9,213},{18,7,19},{0,8,106},{0,8,42},{0,9,181},{0,8,10},{0,8,138}, + {0,8,74},{0,9,245},{16,7,5},{0,8,86},{0,8,22},{64,8,0},{19,7,51}, + {0,8,118},{0,8,54},{0,9,205},{17,7,15},{0,8,102},{0,8,38},{0,9,173}, + {0,8,6},{0,8,134},{0,8,70},{0,9,237},{16,7,9},{0,8,94},{0,8,30}, + {0,9,157},{20,7,99},{0,8,126},{0,8,62},{0,9,221},{18,7,27},{0,8,110}, + {0,8,46},{0,9,189},{0,8,14},{0,8,142},{0,8,78},{0,9,253},{96,7,0}, + {0,8,81},{0,8,17},{21,8,131},{18,7,31},{0,8,113},{0,8,49},{0,9,195}, + {16,7,10},{0,8,97},{0,8,33},{0,9,163},{0,8,1},{0,8,129},{0,8,65}, + {0,9,227},{16,7,6},{0,8,89},{0,8,25},{0,9,147},{19,7,59},{0,8,121}, + {0,8,57},{0,9,211},{17,7,17},{0,8,105},{0,8,41},{0,9,179},{0,8,9}, + {0,8,137},{0,8,73},{0,9,243},{16,7,4},{0,8,85},{0,8,21},{16,8,258}, + {19,7,43},{0,8,117},{0,8,53},{0,9,203},{17,7,13},{0,8,101},{0,8,37}, + {0,9,171},{0,8,5},{0,8,133},{0,8,69},{0,9,235},{16,7,8},{0,8,93}, + {0,8,29},{0,9,155},{20,7,83},{0,8,125},{0,8,61},{0,9,219},{18,7,23}, + {0,8,109},{0,8,45},{0,9,187},{0,8,13},{0,8,141},{0,8,77},{0,9,251}, + {16,7,3},{0,8,83},{0,8,19},{21,8,195},{19,7,35},{0,8,115},{0,8,51}, + {0,9,199},{17,7,11},{0,8,99},{0,8,35},{0,9,167},{0,8,3},{0,8,131}, + {0,8,67},{0,9,231},{16,7,7},{0,8,91},{0,8,27},{0,9,151},{20,7,67}, + {0,8,123},{0,8,59},{0,9,215},{18,7,19},{0,8,107},{0,8,43},{0,9,183}, + {0,8,11},{0,8,139},{0,8,75},{0,9,247},{16,7,5},{0,8,87},{0,8,23}, + {64,8,0},{19,7,51},{0,8,119},{0,8,55},{0,9,207},{17,7,15},{0,8,103}, + {0,8,39},{0,9,175},{0,8,7},{0,8,135},{0,8,71},{0,9,239},{16,7,9}, + {0,8,95},{0,8,31},{0,9,159},{20,7,99},{0,8,127},{0,8,63},{0,9,223}, + {18,7,27},{0,8,111},{0,8,47},{0,9,191},{0,8,15},{0,8,143},{0,8,79}, + {0,9,255} +}; + +static const code distfix[32] = { + {16,5,1},{23,5,257},{19,5,17},{27,5,4097},{17,5,5},{25,5,1025}, + {21,5,65},{29,5,16385},{16,5,3},{24,5,513},{20,5,33},{28,5,8193}, + {18,5,9},{26,5,2049},{22,5,129},{64,5,0},{16,5,2},{23,5,385}, + {19,5,25},{27,5,6145},{17,5,7},{25,5,1537},{21,5,97},{29,5,24577}, + {16,5,4},{24,5,769},{20,5,49},{28,5,12289},{18,5,13},{26,5,3073}, + {22,5,193},{64,5,0} +}; diff --git a/Minecraft.Client/Common/zlib/inflate.c b/Minecraft.Client/Common/zlib/inflate.c new file mode 100644 index 0000000..5f5d492 --- /dev/null +++ b/Minecraft.Client/Common/zlib/inflate.c @@ -0,0 +1,1413 @@ +/* inflate.c -- zlib decompression + * Copyright (C) 1995-2026 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* + * Change history: + * + * 1.2.beta0 24 Nov 2002 + * - First version -- complete rewrite of inflate to simplify code, avoid + * creation of window when not needed, minimize use of window when it is + * needed, make inffast.c even faster, implement gzip decoding, and to + * improve code readability and style over the previous zlib inflate code + * + * 1.2.beta1 25 Nov 2002 + * - Use pointers for available input and output checking in inffast.c + * - Remove input and output counters in inffast.c + * - Change inffast.c entry and loop from avail_in >= 7 to >= 6 + * - Remove unnecessary second byte pull from length extra in inffast.c + * - Unroll direct copy to three copies per loop in inffast.c + * + * 1.2.beta2 4 Dec 2002 + * - Change external routine names to reduce potential conflicts + * - Correct filename to inffixed.h for fixed tables in inflate.c + * - Make hbuf[] unsigned char to match parameter type in inflate.c + * - Change strm->next_out[-state->offset] to *(strm->next_out - state->offset) + * to avoid negation problem on Alphas (64 bit) in inflate.c + * + * 1.2.beta3 22 Dec 2002 + * - Add comments on state->bits assertion in inffast.c + * - Add comments on op field in inftrees.h + * - Fix bug in reuse of allocated window after inflateReset() + * - Remove bit fields--back to byte structure for speed + * - Remove distance extra == 0 check in inflate_fast()--only helps for lengths + * - Change post-increments to pre-increments in inflate_fast(), PPC biased? + * - Add compile time option, POSTINC, to use post-increments instead (Intel?) + * - Make MATCH copy in inflate() much faster for when inflate_fast() not used + * - Use local copies of stream next and avail values, as well as local bit + * buffer and bit count in inflate()--for speed when inflate_fast() not used + * + * 1.2.beta4 1 Jan 2003 + * - Split ptr - 257 statements in inflate_table() to avoid compiler warnings + * - Move a comment on output buffer sizes from inffast.c to inflate.c + * - Add comments in inffast.c to introduce the inflate_fast() routine + * - Rearrange window copies in inflate_fast() for speed and simplification + * - Unroll last copy for window match in inflate_fast() + * - Use local copies of window variables in inflate_fast() for speed + * - Pull out common wnext == 0 case for speed in inflate_fast() + * - Make op and len in inflate_fast() unsigned for consistency + * - Add FAR to lcode and dcode declarations in inflate_fast() + * - Simplified bad distance check in inflate_fast() + * - Added inflateBackInit(), inflateBack(), and inflateBackEnd() in new + * source file infback.c to provide a call-back interface to inflate for + * programs like gzip and unzip -- uses window as output buffer to avoid + * window copying + * + * 1.2.beta5 1 Jan 2003 + * - Improved inflateBack() interface to allow the caller to provide initial + * input in strm. + * - Fixed stored blocks bug in inflateBack() + * + * 1.2.beta6 4 Jan 2003 + * - Added comments in inffast.c on effectiveness of POSTINC + * - Typecasting all around to reduce compiler warnings + * - Changed loops from while (1) or do {} while (1) to for (;;), again to + * make compilers happy + * - Changed type of window in inflateBackInit() to unsigned char * + * + * 1.2.beta7 27 Jan 2003 + * - Changed many types to unsigned or unsigned short to avoid warnings + * - Added inflateCopy() function + * + * 1.2.0 9 Mar 2003 + * - Changed inflateBack() interface to provide separate opaque descriptors + * for the in() and out() functions + * - Changed inflateBack() argument and in_func typedef to swap the length + * and buffer address return values for the input function + * - Check next_in and next_out for Z_NULL on entry to inflate() + * + * The history for versions after 1.2.0 are in ChangeLog in zlib distribution. + */ + +#include "zutil.h" +#include "inftrees.h" +#include "inflate.h" +#include "inffast.h" + +local int inflateStateCheck(z_streamp strm) { + struct inflate_state FAR *state; + if (strm == Z_NULL || + strm->zalloc == (alloc_func)0 || strm->zfree == (free_func)0) + return 1; + state = (struct inflate_state FAR *)strm->state; + if (state == Z_NULL || state->strm != strm || + state->mode < HEAD || state->mode > SYNC) + return 1; + return 0; +} + +int ZEXPORT inflateResetKeep(z_streamp strm) { + struct inflate_state FAR *state; + + if (inflateStateCheck(strm)) return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; + strm->total_in = strm->total_out = state->total = 0; + strm->msg = Z_NULL; + strm->data_type = 0; + if (state->wrap) /* to support ill-conceived Java test suite */ + strm->adler = state->wrap & 1; + state->mode = HEAD; + state->last = 0; + state->havedict = 0; + state->flags = -1; + state->dmax = 32768U; + state->head = Z_NULL; + state->hold = 0; + state->bits = 0; + state->lencode = state->distcode = state->next = state->codes; + state->sane = 1; + state->back = -1; + Tracev((stderr, "inflate: reset\n")); + return Z_OK; +} + +int ZEXPORT inflateReset(z_streamp strm) { + struct inflate_state FAR *state; + + if (inflateStateCheck(strm)) return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; + state->wsize = 0; + state->whave = 0; + state->wnext = 0; + return inflateResetKeep(strm); +} + +int ZEXPORT inflateReset2(z_streamp strm, int windowBits) { + int wrap; + struct inflate_state FAR *state; + + /* get the state */ + if (inflateStateCheck(strm)) return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; + + /* extract wrap request from windowBits parameter */ + if (windowBits < 0) { + if (windowBits < -15) + return Z_STREAM_ERROR; + wrap = 0; + windowBits = -windowBits; + } + else { + wrap = (windowBits >> 4) + 5; +#ifdef GUNZIP + if (windowBits < 48) + windowBits &= 15; +#endif + } + + /* set number of window bits, free window if different */ + if (windowBits && (windowBits < 8 || windowBits > 15)) + return Z_STREAM_ERROR; + if (state->window != Z_NULL && state->wbits != (unsigned)windowBits) { + ZFREE(strm, state->window); + state->window = Z_NULL; + } + + /* update state and reset the rest of it */ + state->wrap = wrap; + state->wbits = (unsigned)windowBits; + return inflateReset(strm); +} + +int ZEXPORT inflateInit2_(z_streamp strm, int windowBits, + const char *version, int stream_size) { + int ret; + struct inflate_state FAR *state; + + if (version == Z_NULL || version[0] != ZLIB_VERSION[0] || + stream_size != (int)(sizeof(z_stream))) + return Z_VERSION_ERROR; + if (strm == Z_NULL) return Z_STREAM_ERROR; + strm->msg = Z_NULL; /* in case we return an error */ + if (strm->zalloc == (alloc_func)0) { +#ifdef Z_SOLO + return Z_STREAM_ERROR; +#else + strm->zalloc = zcalloc; + strm->opaque = (voidpf)0; +#endif + } + if (strm->zfree == (free_func)0) +#ifdef Z_SOLO + return Z_STREAM_ERROR; +#else + strm->zfree = zcfree; +#endif + state = (struct inflate_state FAR *) + ZALLOC(strm, 1, sizeof(struct inflate_state)); + if (state == Z_NULL) return Z_MEM_ERROR; + zmemzero(state, sizeof(struct inflate_state)); + Tracev((stderr, "inflate: allocated\n")); + strm->state = (struct internal_state FAR *)state; + state->strm = strm; + state->window = Z_NULL; + state->mode = HEAD; /* to pass state test in inflateReset2() */ + ret = inflateReset2(strm, windowBits); + if (ret != Z_OK) { + ZFREE(strm, state); + strm->state = Z_NULL; + } + return ret; +} + +int ZEXPORT inflateInit_(z_streamp strm, const char *version, + int stream_size) { + return inflateInit2_(strm, DEF_WBITS, version, stream_size); +} + +int ZEXPORT inflatePrime(z_streamp strm, int bits, int value) { + struct inflate_state FAR *state; + + if (inflateStateCheck(strm)) return Z_STREAM_ERROR; + if (bits == 0) + return Z_OK; + state = (struct inflate_state FAR *)strm->state; + if (bits < 0) { + state->hold = 0; + state->bits = 0; + return Z_OK; + } + if (bits > 16 || state->bits + (uInt)bits > 32) return Z_STREAM_ERROR; + value &= (1L << bits) - 1; + state->hold += (unsigned long)value << state->bits; + state->bits += (uInt)bits; + return Z_OK; +} + +/* + Update the window with the last wsize (normally 32K) bytes written before + returning. If window does not exist yet, create it. This is only called + when a window is already in use, or when output has been written during this + inflate call, but the end of the deflate stream has not been reached yet. + It is also called to create a window for dictionary data when a dictionary + is loaded. + + Providing output buffers larger than 32K to inflate() should provide a speed + advantage, since only the last 32K of output is copied to the sliding window + upon return from inflate(), and since all distances after the first 32K of + output will fall in the output data, making match copies simpler and faster. + The advantage may be dependent on the size of the processor's data caches. + */ +local int updatewindow(z_streamp strm, const Bytef *end, unsigned copy) { + struct inflate_state FAR *state; + unsigned dist; + + state = (struct inflate_state FAR *)strm->state; + + /* if it hasn't been done already, allocate space for the window */ + if (state->window == Z_NULL) { + state->window = (unsigned char FAR *) + ZALLOC(strm, 1U << state->wbits, + sizeof(unsigned char)); + if (state->window == Z_NULL) return 1; + } + + /* if window not in use yet, initialize */ + if (state->wsize == 0) { + state->wsize = 1U << state->wbits; + state->wnext = 0; + state->whave = 0; + } + + /* copy state->wsize or less output bytes into the circular window */ + if (copy >= state->wsize) { + zmemcpy(state->window, end - state->wsize, state->wsize); + state->wnext = 0; + state->whave = state->wsize; + } + else { + dist = state->wsize - state->wnext; + if (dist > copy) dist = copy; + zmemcpy(state->window + state->wnext, end - copy, dist); + copy -= dist; + if (copy) { + zmemcpy(state->window, end - copy, copy); + state->wnext = copy; + state->whave = state->wsize; + } + else { + state->wnext += dist; + if (state->wnext == state->wsize) state->wnext = 0; + if (state->whave < state->wsize) state->whave += dist; + } + } + return 0; +} + +/* Macros for inflate(): */ + +/* check function to use adler32() for zlib or crc32() for gzip */ +#ifdef GUNZIP +# define UPDATE_CHECK(check, buf, len) \ + (state->flags ? crc32(check, buf, len) : adler32(check, buf, len)) +#else +# define UPDATE_CHECK(check, buf, len) adler32(check, buf, len) +#endif + +/* check macros for header crc */ +#ifdef GUNZIP +# define CRC2(check, word) \ + do { \ + hbuf[0] = (unsigned char)(word); \ + hbuf[1] = (unsigned char)((word) >> 8); \ + check = crc32(check, hbuf, 2); \ + } while (0) + +# define CRC4(check, word) \ + do { \ + hbuf[0] = (unsigned char)(word); \ + hbuf[1] = (unsigned char)((word) >> 8); \ + hbuf[2] = (unsigned char)((word) >> 16); \ + hbuf[3] = (unsigned char)((word) >> 24); \ + check = crc32(check, hbuf, 4); \ + } while (0) +#endif + +/* Load registers with state in inflate() for speed */ +#define LOAD() \ + do { \ + put = strm->next_out; \ + left = strm->avail_out; \ + next = strm->next_in; \ + have = strm->avail_in; \ + hold = state->hold; \ + bits = state->bits; \ + } while (0) + +/* Restore state from registers in inflate() */ +#define RESTORE() \ + do { \ + strm->next_out = put; \ + strm->avail_out = left; \ + strm->next_in = next; \ + strm->avail_in = have; \ + state->hold = hold; \ + state->bits = bits; \ + } while (0) + +/* Clear the input bit accumulator */ +#define INITBITS() \ + do { \ + hold = 0; \ + bits = 0; \ + } while (0) + +/* Get a byte of input into the bit accumulator, or return from inflate() + if there is no input available. */ +#define PULLBYTE() \ + do { \ + if (have == 0) goto inf_leave; \ + have--; \ + hold += (unsigned long)(*next++) << bits; \ + bits += 8; \ + } while (0) + +/* Assure that there are at least n bits in the bit accumulator. If there is + not enough available input to do that, then return from inflate(). */ +#define NEEDBITS(n) \ + do { \ + while (bits < (unsigned)(n)) \ + PULLBYTE(); \ + } while (0) + +/* Return the low n bits of the bit accumulator (n < 16) */ +#define BITS(n) \ + ((unsigned)hold & ((1U << (n)) - 1)) + +/* Remove n bits from the bit accumulator */ +#define DROPBITS(n) \ + do { \ + hold >>= (n); \ + bits -= (unsigned)(n); \ + } while (0) + +/* Remove zero to seven bits as needed to go to a byte boundary */ +#define BYTEBITS() \ + do { \ + hold >>= bits & 7; \ + bits -= bits & 7; \ + } while (0) + +/* + inflate() uses a state machine to process as much input data and generate as + much output data as possible before returning. The state machine is + structured roughly as follows: + + for (;;) switch (state) { + ... + case STATEn: + if (not enough input data or output space to make progress) + return; + ... make progress ... + state = STATEm; + break; + ... + } + + so when inflate() is called again, the same case is attempted again, and + if the appropriate resources are provided, the machine proceeds to the + next state. The NEEDBITS() macro is usually the way the state evaluates + whether it can proceed or should return. NEEDBITS() does the return if + the requested bits are not available. The typical use of the BITS macros + is: + + NEEDBITS(n); + ... do something with BITS(n) ... + DROPBITS(n); + + where NEEDBITS(n) either returns from inflate() if there isn't enough + input left to load n bits into the accumulator, or it continues. BITS(n) + gives the low n bits in the accumulator. When done, DROPBITS(n) drops + the low n bits off the accumulator. INITBITS() clears the accumulator + and sets the number of available bits to zero. BYTEBITS() discards just + enough bits to put the accumulator on a byte boundary. After BYTEBITS() + and a NEEDBITS(8), then BITS(8) would return the next byte in the stream. + + NEEDBITS(n) uses PULLBYTE() to get an available byte of input, or to return + if there is no input available. The decoding of variable length codes uses + PULLBYTE() directly in order to pull just enough bytes to decode the next + code, and no more. + + Some states loop until they get enough input, making sure that enough + state information is maintained to continue the loop where it left off + if NEEDBITS() returns in the loop. For example, want, need, and keep + would all have to actually be part of the saved state in case NEEDBITS() + returns: + + case STATEw: + while (want < need) { + NEEDBITS(n); + keep[want++] = BITS(n); + DROPBITS(n); + } + state = STATEx; + case STATEx: + + As shown above, if the next state is also the next case, then the break + is omitted. + + A state may also return if there is not enough output space available to + complete that state. Those states are copying stored data, writing a + literal byte, and copying a matching string. + + When returning, a "goto inf_leave" is used to update the total counters, + update the check value, and determine whether any progress has been made + during that inflate() call in order to return the proper return code. + Progress is defined as a change in either strm->avail_in or strm->avail_out. + When there is a window, goto inf_leave will update the window with the last + output written. If a goto inf_leave occurs in the middle of decompression + and there is no window currently, goto inf_leave will create one and copy + output to the window for the next call of inflate(). + + In this implementation, the flush parameter of inflate() only affects the + return code (per zlib.h). inflate() always writes as much as possible to + strm->next_out, given the space available and the provided input--the effect + documented in zlib.h of Z_SYNC_FLUSH. Furthermore, inflate() always defers + the allocation of and copying into a sliding window until necessary, which + provides the effect documented in zlib.h for Z_FINISH when the entire input + stream available. So the only thing the flush parameter actually does is: + when flush is set to Z_FINISH, inflate() cannot return Z_OK. Instead it + will return Z_BUF_ERROR if it has not reached the end of the stream. + */ + +int ZEXPORT inflate(z_streamp strm, int flush) { + struct inflate_state FAR *state; + z_const unsigned char FAR *next; /* next input */ + unsigned char FAR *put; /* next output */ + unsigned have, left; /* available input and output */ + unsigned long hold; /* bit buffer */ + unsigned bits; /* bits in bit buffer */ + unsigned in, out; /* save starting available input and output */ + unsigned copy; /* number of stored or match bytes to copy */ + unsigned char FAR *from; /* where to copy match bytes from */ + code here; /* current decoding table entry */ + code last; /* parent table entry */ + unsigned len; /* length to copy for repeats, bits to drop */ + int ret; /* return code */ +#ifdef GUNZIP + unsigned char hbuf[4]; /* buffer for gzip header crc calculation */ +#endif + static const unsigned short order[19] = /* permutation of code lengths */ + {16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15}; + + if (inflateStateCheck(strm) || strm->next_out == Z_NULL || + (strm->next_in == Z_NULL && strm->avail_in != 0)) + return Z_STREAM_ERROR; + + state = (struct inflate_state FAR *)strm->state; + if (state->mode == TYPE) state->mode = TYPEDO; /* skip check */ + LOAD(); + in = have; + out = left; + ret = Z_OK; + for (;;) + switch (state->mode) { + case HEAD: + if (state->wrap == 0) { + state->mode = TYPEDO; + break; + } + NEEDBITS(16); +#ifdef GUNZIP + if ((state->wrap & 2) && hold == 0x8b1f) { /* gzip header */ + if (state->wbits == 0) + state->wbits = 15; + state->check = crc32(0L, Z_NULL, 0); + CRC2(state->check, hold); + INITBITS(); + state->mode = FLAGS; + break; + } + if (state->head != Z_NULL) + state->head->done = -1; + if (!(state->wrap & 1) || /* check if zlib header allowed */ +#else + if ( +#endif + ((BITS(8) << 8) + (hold >> 8)) % 31) { + strm->msg = (z_const char *)"incorrect header check"; + state->mode = BAD; + break; + } + if (BITS(4) != Z_DEFLATED) { + strm->msg = (z_const char *)"unknown compression method"; + state->mode = BAD; + break; + } + DROPBITS(4); + len = BITS(4) + 8; + if (state->wbits == 0) + state->wbits = len; + if (len > 15 || len > state->wbits) { + strm->msg = (z_const char *)"invalid window size"; + state->mode = BAD; + break; + } + state->dmax = 1U << len; + state->flags = 0; /* indicate zlib header */ + Tracev((stderr, "inflate: zlib header ok\n")); + strm->adler = state->check = adler32(0L, Z_NULL, 0); + state->mode = hold & 0x200 ? DICTID : TYPE; + INITBITS(); + break; +#ifdef GUNZIP + case FLAGS: + NEEDBITS(16); + state->flags = (int)(hold); + if ((state->flags & 0xff) != Z_DEFLATED) { + strm->msg = (z_const char *)"unknown compression method"; + state->mode = BAD; + break; + } + if (state->flags & 0xe000) { + strm->msg = (z_const char *)"unknown header flags set"; + state->mode = BAD; + break; + } + if (state->head != Z_NULL) + state->head->text = (int)((hold >> 8) & 1); + if ((state->flags & 0x0200) && (state->wrap & 4)) + CRC2(state->check, hold); + INITBITS(); + state->mode = TIME; + /* fallthrough */ + case TIME: + NEEDBITS(32); + if (state->head != Z_NULL) + state->head->time = hold; + if ((state->flags & 0x0200) && (state->wrap & 4)) + CRC4(state->check, hold); + INITBITS(); + state->mode = OS; + /* fallthrough */ + case OS: + NEEDBITS(16); + if (state->head != Z_NULL) { + state->head->xflags = (int)(hold & 0xff); + state->head->os = (int)(hold >> 8); + } + if ((state->flags & 0x0200) && (state->wrap & 4)) + CRC2(state->check, hold); + INITBITS(); + state->mode = EXLEN; + /* fallthrough */ + case EXLEN: + if (state->flags & 0x0400) { + NEEDBITS(16); + state->length = (unsigned)(hold); + if (state->head != Z_NULL) + state->head->extra_len = (unsigned)hold; + if ((state->flags & 0x0200) && (state->wrap & 4)) + CRC2(state->check, hold); + INITBITS(); + } + else if (state->head != Z_NULL) + state->head->extra = Z_NULL; + state->mode = EXTRA; + /* fallthrough */ + case EXTRA: + if (state->flags & 0x0400) { + copy = state->length; + if (copy > have) copy = have; + if (copy) { + if (state->head != Z_NULL && + state->head->extra != Z_NULL && + (len = state->head->extra_len - state->length) < + state->head->extra_max) { + zmemcpy(state->head->extra + len, next, + len + copy > state->head->extra_max ? + state->head->extra_max - len : copy); + } + if ((state->flags & 0x0200) && (state->wrap & 4)) + state->check = crc32(state->check, next, copy); + have -= copy; + next += copy; + state->length -= copy; + } + if (state->length) goto inf_leave; + } + state->length = 0; + state->mode = NAME; + /* fallthrough */ + case NAME: + if (state->flags & 0x0800) { + if (have == 0) goto inf_leave; + copy = 0; + do { + len = (unsigned)(next[copy++]); + if (state->head != Z_NULL && + state->head->name != Z_NULL && + state->length < state->head->name_max) + state->head->name[state->length++] = (Bytef)len; + } while (len && copy < have); + if ((state->flags & 0x0200) && (state->wrap & 4)) + state->check = crc32(state->check, next, copy); + have -= copy; + next += copy; + if (len) goto inf_leave; + } + else if (state->head != Z_NULL) + state->head->name = Z_NULL; + state->length = 0; + state->mode = COMMENT; + /* fallthrough */ + case COMMENT: + if (state->flags & 0x1000) { + if (have == 0) goto inf_leave; + copy = 0; + do { + len = (unsigned)(next[copy++]); + if (state->head != Z_NULL && + state->head->comment != Z_NULL && + state->length < state->head->comm_max) + state->head->comment[state->length++] = (Bytef)len; + } while (len && copy < have); + if ((state->flags & 0x0200) && (state->wrap & 4)) + state->check = crc32(state->check, next, copy); + have -= copy; + next += copy; + if (len) goto inf_leave; + } + else if (state->head != Z_NULL) + state->head->comment = Z_NULL; + state->mode = HCRC; + /* fallthrough */ + case HCRC: + if (state->flags & 0x0200) { + NEEDBITS(16); + if ((state->wrap & 4) && hold != (state->check & 0xffff)) { + strm->msg = (z_const char *)"header crc mismatch"; + state->mode = BAD; + break; + } + INITBITS(); + } + if (state->head != Z_NULL) { + state->head->hcrc = (int)((state->flags >> 9) & 1); + state->head->done = 1; + } + strm->adler = state->check = crc32(0L, Z_NULL, 0); + state->mode = TYPE; + break; +#endif + case DICTID: + NEEDBITS(32); + strm->adler = state->check = ZSWAP32(hold); + INITBITS(); + state->mode = DICT; + /* fallthrough */ + case DICT: + if (state->havedict == 0) { + RESTORE(); + return Z_NEED_DICT; + } + strm->adler = state->check = adler32(0L, Z_NULL, 0); + state->mode = TYPE; + /* fallthrough */ + case TYPE: + if (flush == Z_BLOCK || flush == Z_TREES) goto inf_leave; + /* fallthrough */ + case TYPEDO: + if (state->last) { + BYTEBITS(); + state->mode = CHECK; + break; + } + NEEDBITS(3); + state->last = BITS(1); + DROPBITS(1); + switch (BITS(2)) { + case 0: /* stored block */ + Tracev((stderr, "inflate: stored block%s\n", + state->last ? " (last)" : "")); + state->mode = STORED; + break; + case 1: /* fixed block */ + inflate_fixed(state); + Tracev((stderr, "inflate: fixed codes block%s\n", + state->last ? " (last)" : "")); + state->mode = LEN_; /* decode codes */ + if (flush == Z_TREES) { + DROPBITS(2); + goto inf_leave; + } + break; + case 2: /* dynamic block */ + Tracev((stderr, "inflate: dynamic codes block%s\n", + state->last ? " (last)" : "")); + state->mode = TABLE; + break; + default: + strm->msg = (z_const char *)"invalid block type"; + state->mode = BAD; + } + DROPBITS(2); + break; + case STORED: + BYTEBITS(); /* go to byte boundary */ + NEEDBITS(32); + if ((hold & 0xffff) != ((hold >> 16) ^ 0xffff)) { + strm->msg = (z_const char *)"invalid stored block lengths"; + state->mode = BAD; + break; + } + state->length = (unsigned)hold & 0xffff; + Tracev((stderr, "inflate: stored length %u\n", + state->length)); + INITBITS(); + state->mode = COPY_; + if (flush == Z_TREES) goto inf_leave; + /* fallthrough */ + case COPY_: + state->mode = COPY; + /* fallthrough */ + case COPY: + copy = state->length; + if (copy) { + if (copy > have) copy = have; + if (copy > left) copy = left; + if (copy == 0) goto inf_leave; + zmemcpy(put, next, copy); + have -= copy; + next += copy; + left -= copy; + put += copy; + state->length -= copy; + break; + } + Tracev((stderr, "inflate: stored end\n")); + state->mode = TYPE; + break; + case TABLE: + NEEDBITS(14); + state->nlen = BITS(5) + 257; + DROPBITS(5); + state->ndist = BITS(5) + 1; + DROPBITS(5); + state->ncode = BITS(4) + 4; + DROPBITS(4); +#ifndef PKZIP_BUG_WORKAROUND + if (state->nlen > 286 || state->ndist > 30) { + strm->msg = (z_const char *) + "too many length or distance symbols"; + state->mode = BAD; + break; + } +#endif + Tracev((stderr, "inflate: table sizes ok\n")); + state->have = 0; + state->mode = LENLENS; + /* fallthrough */ + case LENLENS: + while (state->have < state->ncode) { + NEEDBITS(3); + state->lens[order[state->have++]] = (unsigned short)BITS(3); + DROPBITS(3); + } + while (state->have < 19) + state->lens[order[state->have++]] = 0; + state->next = state->codes; + state->lencode = state->distcode = (const code FAR *)(state->next); + state->lenbits = 7; + ret = inflate_table(CODES, state->lens, 19, &(state->next), + &(state->lenbits), state->work); + if (ret) { + strm->msg = (z_const char *)"invalid code lengths set"; + state->mode = BAD; + break; + } + Tracev((stderr, "inflate: code lengths ok\n")); + state->have = 0; + state->mode = CODELENS; + /* fallthrough */ + case CODELENS: + while (state->have < state->nlen + state->ndist) { + for (;;) { + here = state->lencode[BITS(state->lenbits)]; + if ((unsigned)(here.bits) <= bits) break; + PULLBYTE(); + } + if (here.val < 16) { + DROPBITS(here.bits); + state->lens[state->have++] = here.val; + } + else { + if (here.val == 16) { + NEEDBITS(here.bits + 2); + DROPBITS(here.bits); + if (state->have == 0) { + strm->msg = (z_const char *) + "invalid bit length repeat"; + state->mode = BAD; + break; + } + len = state->lens[state->have - 1]; + copy = 3 + BITS(2); + DROPBITS(2); + } + else if (here.val == 17) { + NEEDBITS(here.bits + 3); + DROPBITS(here.bits); + len = 0; + copy = 3 + BITS(3); + DROPBITS(3); + } + else { + NEEDBITS(here.bits + 7); + DROPBITS(here.bits); + len = 0; + copy = 11 + BITS(7); + DROPBITS(7); + } + if (state->have + copy > state->nlen + state->ndist) { + strm->msg = (z_const char *) + "invalid bit length repeat"; + state->mode = BAD; + break; + } + while (copy--) + state->lens[state->have++] = (unsigned short)len; + } + } + + /* handle error breaks in while */ + if (state->mode == BAD) break; + + /* check for end-of-block code (better have one) */ + if (state->lens[256] == 0) { + strm->msg = (z_const char *) + "invalid code -- missing end-of-block"; + state->mode = BAD; + break; + } + + /* build code tables -- note: do not change the lenbits or distbits + values here (9 and 6) without reading the comments in inftrees.h + concerning the ENOUGH constants, which depend on those values */ + state->next = state->codes; + state->lencode = (const code FAR *)(state->next); + state->lenbits = 9; + ret = inflate_table(LENS, state->lens, state->nlen, &(state->next), + &(state->lenbits), state->work); + if (ret) { + strm->msg = (z_const char *)"invalid literal/lengths set"; + state->mode = BAD; + break; + } + state->distcode = (const code FAR *)(state->next); + state->distbits = 6; + ret = inflate_table(DISTS, state->lens + state->nlen, state->ndist, + &(state->next), &(state->distbits), state->work); + if (ret) { + strm->msg = (z_const char *)"invalid distances set"; + state->mode = BAD; + break; + } + Tracev((stderr, "inflate: codes ok\n")); + state->mode = LEN_; + if (flush == Z_TREES) goto inf_leave; + /* fallthrough */ + case LEN_: + state->mode = LEN; + /* fallthrough */ + case LEN: + if (have >= 6 && left >= 258) { + RESTORE(); + inflate_fast(strm, out); + LOAD(); + if (state->mode == TYPE) + state->back = -1; + break; + } + state->back = 0; + for (;;) { + here = state->lencode[BITS(state->lenbits)]; + if ((unsigned)(here.bits) <= bits) break; + PULLBYTE(); + } + if (here.op && (here.op & 0xf0) == 0) { + last = here; + for (;;) { + here = state->lencode[last.val + + (BITS(last.bits + last.op) >> last.bits)]; + if ((unsigned)(last.bits + here.bits) <= bits) break; + PULLBYTE(); + } + DROPBITS(last.bits); + state->back += last.bits; + } + DROPBITS(here.bits); + state->back += here.bits; + state->length = (unsigned)here.val; + if ((int)(here.op) == 0) { + Tracevv((stderr, here.val >= 0x20 && here.val < 0x7f ? + "inflate: literal '%c'\n" : + "inflate: literal 0x%02x\n", here.val)); + state->mode = LIT; + break; + } + if (here.op & 32) { + Tracevv((stderr, "inflate: end of block\n")); + state->back = -1; + state->mode = TYPE; + break; + } + if (here.op & 64) { + strm->msg = (z_const char *)"invalid literal/length code"; + state->mode = BAD; + break; + } + state->extra = (unsigned)(here.op) & 15; + state->mode = LENEXT; + /* fallthrough */ + case LENEXT: + if (state->extra) { + NEEDBITS(state->extra); + state->length += BITS(state->extra); + DROPBITS(state->extra); + state->back += state->extra; + } + Tracevv((stderr, "inflate: length %u\n", state->length)); + state->was = state->length; + state->mode = DIST; + /* fallthrough */ + case DIST: + for (;;) { + here = state->distcode[BITS(state->distbits)]; + if ((unsigned)(here.bits) <= bits) break; + PULLBYTE(); + } + if ((here.op & 0xf0) == 0) { + last = here; + for (;;) { + here = state->distcode[last.val + + (BITS(last.bits + last.op) >> last.bits)]; + if ((unsigned)(last.bits + here.bits) <= bits) break; + PULLBYTE(); + } + DROPBITS(last.bits); + state->back += last.bits; + } + DROPBITS(here.bits); + state->back += here.bits; + if (here.op & 64) { + strm->msg = (z_const char *)"invalid distance code"; + state->mode = BAD; + break; + } + state->offset = (unsigned)here.val; + state->extra = (unsigned)(here.op) & 15; + state->mode = DISTEXT; + /* fallthrough */ + case DISTEXT: + if (state->extra) { + NEEDBITS(state->extra); + state->offset += BITS(state->extra); + DROPBITS(state->extra); + state->back += state->extra; + } +#ifdef INFLATE_STRICT + if (state->offset > state->dmax) { + strm->msg = (z_const char *)"invalid distance too far back"; + state->mode = BAD; + break; + } +#endif + Tracevv((stderr, "inflate: distance %u\n", state->offset)); + state->mode = MATCH; + /* fallthrough */ + case MATCH: + if (left == 0) goto inf_leave; + copy = out - left; + if (state->offset > copy) { /* copy from window */ + copy = state->offset - copy; + if (copy > state->whave) { + if (state->sane) { + strm->msg = (z_const char *) + "invalid distance too far back"; + state->mode = BAD; + break; + } +#ifdef INFLATE_ALLOW_INVALID_DISTANCE_TOOFAR_ARRR + Trace((stderr, "inflate.c too far\n")); + copy -= state->whave; + if (copy > state->length) copy = state->length; + if (copy > left) copy = left; + left -= copy; + state->length -= copy; + do { + *put++ = 0; + } while (--copy); + if (state->length == 0) state->mode = LEN; + break; +#endif + } + if (copy > state->wnext) { + copy -= state->wnext; + from = state->window + (state->wsize - copy); + } + else + from = state->window + (state->wnext - copy); + if (copy > state->length) copy = state->length; + } + else { /* copy from output */ + from = put - state->offset; + copy = state->length; + } + if (copy > left) copy = left; + left -= copy; + state->length -= copy; + do { + *put++ = *from++; + } while (--copy); + if (state->length == 0) state->mode = LEN; + break; + case LIT: + if (left == 0) goto inf_leave; + *put++ = (unsigned char)(state->length); + left--; + state->mode = LEN; + break; + case CHECK: + if (state->wrap) { + NEEDBITS(32); + out -= left; + strm->total_out += out; + state->total += out; + if ((state->wrap & 4) && out) + strm->adler = state->check = + UPDATE_CHECK(state->check, put - out, out); + out = left; + if ((state->wrap & 4) && ( +#ifdef GUNZIP + state->flags ? hold : +#endif + ZSWAP32(hold)) != state->check) { + strm->msg = (z_const char *)"incorrect data check"; + state->mode = BAD; + break; + } + INITBITS(); + Tracev((stderr, "inflate: check matches trailer\n")); + } +#ifdef GUNZIP + state->mode = LENGTH; + /* fallthrough */ + case LENGTH: + if (state->wrap && state->flags) { + NEEDBITS(32); + if ((state->wrap & 4) && hold != (state->total & 0xffffffff)) { + strm->msg = (z_const char *)"incorrect length check"; + state->mode = BAD; + break; + } + INITBITS(); + Tracev((stderr, "inflate: length matches trailer\n")); + } +#endif + state->mode = DONE; + /* fallthrough */ + case DONE: + ret = Z_STREAM_END; + goto inf_leave; + case BAD: + ret = Z_DATA_ERROR; + goto inf_leave; + case MEM: + return Z_MEM_ERROR; + case SYNC: + /* fallthrough */ + default: + return Z_STREAM_ERROR; + } + + /* + Return from inflate(), updating the total counts and the check value. + If there was no progress during the inflate() call, return a buffer + error. Call updatewindow() to create and/or update the window state. + Note: a memory error from inflate() is non-recoverable. + */ + inf_leave: + RESTORE(); + if (state->wsize || (out != strm->avail_out && state->mode < BAD && + (state->mode < CHECK || flush != Z_FINISH))) + if (updatewindow(strm, strm->next_out, out - strm->avail_out)) { + state->mode = MEM; + return Z_MEM_ERROR; + } + in -= strm->avail_in; + out -= strm->avail_out; + strm->total_in += in; + strm->total_out += out; + state->total += out; + if ((state->wrap & 4) && out) + strm->adler = state->check = + UPDATE_CHECK(state->check, strm->next_out - out, out); + strm->data_type = (int)state->bits + (state->last ? 64 : 0) + + (state->mode == TYPE ? 128 : 0) + + (state->mode == LEN_ || state->mode == COPY_ ? 256 : 0); + if (((in == 0 && out == 0) || flush == Z_FINISH) && ret == Z_OK) + ret = Z_BUF_ERROR; + return ret; +} + +int ZEXPORT inflateEnd(z_streamp strm) { + struct inflate_state FAR *state; + if (inflateStateCheck(strm)) + return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; + if (state->window != Z_NULL) ZFREE(strm, state->window); + ZFREE(strm, strm->state); + strm->state = Z_NULL; + Tracev((stderr, "inflate: end\n")); + return Z_OK; +} + +int ZEXPORT inflateGetDictionary(z_streamp strm, Bytef *dictionary, + uInt *dictLength) { + struct inflate_state FAR *state; + + /* check state */ + if (inflateStateCheck(strm)) return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; + + /* copy dictionary */ + if (state->whave && dictionary != Z_NULL) { + zmemcpy(dictionary, state->window + state->wnext, + state->whave - state->wnext); + zmemcpy(dictionary + state->whave - state->wnext, + state->window, state->wnext); + } + if (dictLength != Z_NULL) + *dictLength = state->whave; + return Z_OK; +} + +int ZEXPORT inflateSetDictionary(z_streamp strm, const Bytef *dictionary, + uInt dictLength) { + struct inflate_state FAR *state; + unsigned long dictid; + int ret; + + /* check state */ + if (inflateStateCheck(strm)) return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; + if (state->wrap != 0 && state->mode != DICT) + return Z_STREAM_ERROR; + + /* check for correct dictionary identifier */ + if (state->mode == DICT) { + dictid = adler32(0L, Z_NULL, 0); + dictid = adler32(dictid, dictionary, dictLength); + if (dictid != state->check) + return Z_DATA_ERROR; + } + + /* copy dictionary to window using updatewindow(), which will amend the + existing dictionary if appropriate */ + ret = updatewindow(strm, dictionary + dictLength, dictLength); + if (ret) { + state->mode = MEM; + return Z_MEM_ERROR; + } + state->havedict = 1; + Tracev((stderr, "inflate: dictionary set\n")); + return Z_OK; +} + +int ZEXPORT inflateGetHeader(z_streamp strm, gz_headerp head) { + struct inflate_state FAR *state; + + /* check state */ + if (inflateStateCheck(strm)) return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; + if ((state->wrap & 2) == 0) return Z_STREAM_ERROR; + + /* save header structure */ + state->head = head; + head->done = 0; + return Z_OK; +} + +/* + Search buf[0..len-1] for the pattern: 0, 0, 0xff, 0xff. Return when found + or when out of input. When called, *have is the number of pattern bytes + found in order so far, in 0..3. On return *have is updated to the new + state. If on return *have equals four, then the pattern was found and the + return value is how many bytes were read including the last byte of the + pattern. If *have is less than four, then the pattern has not been found + yet and the return value is len. In the latter case, syncsearch() can be + called again with more data and the *have state. *have is initialized to + zero for the first call. + */ +local unsigned syncsearch(unsigned FAR *have, const unsigned char FAR *buf, + unsigned len) { + unsigned got; + unsigned next; + + got = *have; + next = 0; + while (next < len && got < 4) { + if ((int)(buf[next]) == (got < 2 ? 0 : 0xff)) + got++; + else if (buf[next]) + got = 0; + else + got = 4 - got; + next++; + } + *have = got; + return next; +} + +int ZEXPORT inflateSync(z_streamp strm) { + unsigned len; /* number of bytes to look at or looked at */ + int flags; /* temporary to save header status */ + unsigned long in, out; /* temporary to save total_in and total_out */ + unsigned char buf[4]; /* to restore bit buffer to byte string */ + struct inflate_state FAR *state; + + /* check parameters */ + if (inflateStateCheck(strm)) return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; + if (strm->avail_in == 0 && state->bits < 8) return Z_BUF_ERROR; + + /* if first time, start search in bit buffer */ + if (state->mode != SYNC) { + state->mode = SYNC; + state->hold >>= state->bits & 7; + state->bits -= state->bits & 7; + len = 0; + while (state->bits >= 8) { + buf[len++] = (unsigned char)(state->hold); + state->hold >>= 8; + state->bits -= 8; + } + state->have = 0; + syncsearch(&(state->have), buf, len); + } + + /* search available input */ + len = syncsearch(&(state->have), strm->next_in, strm->avail_in); + strm->avail_in -= len; + strm->next_in += len; + strm->total_in += len; + + /* return no joy or set up to restart inflate() on a new block */ + if (state->have != 4) return Z_DATA_ERROR; + if (state->flags == -1) + state->wrap = 0; /* if no header yet, treat as raw */ + else + state->wrap &= ~4; /* no point in computing a check value now */ + flags = state->flags; + in = strm->total_in; out = strm->total_out; + inflateReset(strm); + strm->total_in = in; strm->total_out = out; + state->flags = flags; + state->mode = TYPE; + return Z_OK; +} + +/* + Returns true if inflate is currently at the end of a block generated by + Z_SYNC_FLUSH or Z_FULL_FLUSH. This function is used by one PPP + implementation to provide an additional safety check. PPP uses + Z_SYNC_FLUSH but removes the length bytes of the resulting empty stored + block. When decompressing, PPP checks that at the end of input packet, + inflate is waiting for these length bytes. + */ +int ZEXPORT inflateSyncPoint(z_streamp strm) { + struct inflate_state FAR *state; + + if (inflateStateCheck(strm)) return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; + return state->mode == STORED && state->bits == 0; +} + +int ZEXPORT inflateCopy(z_streamp dest, z_streamp source) { + struct inflate_state FAR *state; + struct inflate_state FAR *copy; + unsigned char FAR *window; + + /* check input */ + if (inflateStateCheck(source) || dest == Z_NULL) + return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)source->state; + + /* allocate space */ + copy = (struct inflate_state FAR *) + ZALLOC(source, 1, sizeof(struct inflate_state)); + if (copy == Z_NULL) return Z_MEM_ERROR; + zmemzero(copy, sizeof(struct inflate_state)); + window = Z_NULL; + if (state->window != Z_NULL) { + window = (unsigned char FAR *) + ZALLOC(source, 1U << state->wbits, sizeof(unsigned char)); + if (window == Z_NULL) { + ZFREE(source, copy); + return Z_MEM_ERROR; + } + } + + /* copy state */ + zmemcpy(dest, source, sizeof(z_stream)); + zmemcpy(copy, state, sizeof(struct inflate_state)); + copy->strm = dest; + if (state->lencode >= state->codes && + state->lencode <= state->codes + ENOUGH - 1) { + copy->lencode = copy->codes + (state->lencode - state->codes); + copy->distcode = copy->codes + (state->distcode - state->codes); + } + copy->next = copy->codes + (state->next - state->codes); + if (window != Z_NULL) + zmemcpy(window, state->window, state->whave); + copy->window = window; + dest->state = (struct internal_state FAR *)copy; + return Z_OK; +} + +int ZEXPORT inflateUndermine(z_streamp strm, int subvert) { + struct inflate_state FAR *state; + + if (inflateStateCheck(strm)) return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; +#ifdef INFLATE_ALLOW_INVALID_DISTANCE_TOOFAR_ARRR + state->sane = !subvert; + return Z_OK; +#else + (void)subvert; + state->sane = 1; + return Z_DATA_ERROR; +#endif +} + +int ZEXPORT inflateValidate(z_streamp strm, int check) { + struct inflate_state FAR *state; + + if (inflateStateCheck(strm)) return Z_STREAM_ERROR; + state = (struct inflate_state FAR *)strm->state; + if (check && state->wrap) + state->wrap |= 4; + else + state->wrap &= ~4; + return Z_OK; +} + +long ZEXPORT inflateMark(z_streamp strm) { + struct inflate_state FAR *state; + + if (inflateStateCheck(strm)) + return -(1L << 16); + state = (struct inflate_state FAR *)strm->state; + return (long)(((unsigned long)((long)state->back)) << 16) + + (state->mode == COPY ? state->length : + (state->mode == MATCH ? state->was - state->length : 0)); +} + +unsigned long ZEXPORT inflateCodesUsed(z_streamp strm) { + struct inflate_state FAR *state; + if (inflateStateCheck(strm)) return (unsigned long)-1; + state = (struct inflate_state FAR *)strm->state; + return (unsigned long)(state->next - state->codes); +} diff --git a/Minecraft.Client/Common/zlib/inflate.h b/Minecraft.Client/Common/zlib/inflate.h new file mode 100644 index 0000000..f758e0d --- /dev/null +++ b/Minecraft.Client/Common/zlib/inflate.h @@ -0,0 +1,126 @@ +/* inflate.h -- internal inflate state definition + * Copyright (C) 1995-2019 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* WARNING: this file should *not* be used by applications. It is + part of the implementation of the compression library and is + subject to change. Applications should only use zlib.h. + */ + +/* define NO_GZIP when compiling if you want to disable gzip header and + trailer decoding by inflate(). NO_GZIP would be used to avoid linking in + the crc code when it is not needed. For shared libraries, gzip decoding + should be left enabled. */ +#ifndef NO_GZIP +# define GUNZIP +#endif + +/* Possible inflate modes between inflate() calls */ +typedef enum { + HEAD = 16180, /* i: waiting for magic header */ + FLAGS, /* i: waiting for method and flags (gzip) */ + TIME, /* i: waiting for modification time (gzip) */ + OS, /* i: waiting for extra flags and operating system (gzip) */ + EXLEN, /* i: waiting for extra length (gzip) */ + EXTRA, /* i: waiting for extra bytes (gzip) */ + NAME, /* i: waiting for end of file name (gzip) */ + COMMENT, /* i: waiting for end of comment (gzip) */ + HCRC, /* i: waiting for header crc (gzip) */ + DICTID, /* i: waiting for dictionary check value */ + DICT, /* waiting for inflateSetDictionary() call */ + TYPE, /* i: waiting for type bits, including last-flag bit */ + TYPEDO, /* i: same, but skip check to exit inflate on new block */ + STORED, /* i: waiting for stored size (length and complement) */ + COPY_, /* i/o: same as COPY below, but only first time in */ + COPY, /* i/o: waiting for input or output to copy stored block */ + TABLE, /* i: waiting for dynamic block table lengths */ + LENLENS, /* i: waiting for code length code lengths */ + CODELENS, /* i: waiting for length/lit and distance code lengths */ + LEN_, /* i: same as LEN below, but only first time in */ + LEN, /* i: waiting for length/lit/eob code */ + LENEXT, /* i: waiting for length extra bits */ + DIST, /* i: waiting for distance code */ + DISTEXT, /* i: waiting for distance extra bits */ + MATCH, /* o: waiting for output space to copy string */ + LIT, /* o: waiting for output space to write literal */ + CHECK, /* i: waiting for 32-bit check value */ + LENGTH, /* i: waiting for 32-bit length (gzip) */ + DONE, /* finished check, done -- remain here until reset */ + BAD, /* got a data error -- remain here until reset */ + MEM, /* got an inflate() memory error -- remain here until reset */ + SYNC /* looking for synchronization bytes to restart inflate() */ +} inflate_mode; + +/* + State transitions between above modes - + + (most modes can go to BAD or MEM on error -- not shown for clarity) + + Process header: + HEAD -> (gzip) or (zlib) or (raw) + (gzip) -> FLAGS -> TIME -> OS -> EXLEN -> EXTRA -> NAME -> COMMENT -> + HCRC -> TYPE + (zlib) -> DICTID or TYPE + DICTID -> DICT -> TYPE + (raw) -> TYPEDO + Read deflate blocks: + TYPE -> TYPEDO -> STORED or TABLE or LEN_ or CHECK + STORED -> COPY_ -> COPY -> TYPE + TABLE -> LENLENS -> CODELENS -> LEN_ + LEN_ -> LEN + Read deflate codes in fixed or dynamic block: + LEN -> LENEXT or LIT or TYPE + LENEXT -> DIST -> DISTEXT -> MATCH -> LEN + LIT -> LEN + Process trailer: + CHECK -> LENGTH -> DONE + */ + +/* State maintained between inflate() calls -- approximately 7K bytes, not + including the allocated sliding window, which is up to 32K bytes. */ +struct inflate_state { + z_streamp strm; /* pointer back to this zlib stream */ + inflate_mode mode; /* current inflate mode */ + int last; /* true if processing last block */ + int wrap; /* bit 0 true for zlib, bit 1 true for gzip, + bit 2 true to validate check value */ + int havedict; /* true if dictionary provided */ + int flags; /* gzip header method and flags, 0 if zlib, or + -1 if raw or no header yet */ + unsigned dmax; /* zlib header max distance (INFLATE_STRICT) */ + unsigned long check; /* protected copy of check value */ + unsigned long total; /* protected copy of output count */ + gz_headerp head; /* where to save gzip header information */ + /* sliding window */ + unsigned wbits; /* log base 2 of requested window size */ + unsigned wsize; /* window size or zero if not using window */ + unsigned whave; /* valid bytes in the window */ + unsigned wnext; /* window write index */ + unsigned char FAR *window; /* allocated sliding window, if needed */ + /* bit accumulator */ + unsigned long hold; /* input bit accumulator */ + unsigned bits; /* number of bits in hold */ + /* for string and stored block copying */ + unsigned length; /* literal or length of data to copy */ + unsigned offset; /* distance back to copy string from */ + /* for table and code decoding */ + unsigned extra; /* extra bits needed */ + /* fixed and dynamic code tables */ + code const FAR *lencode; /* starting table for length/literal codes */ + code const FAR *distcode; /* starting table for distance codes */ + unsigned lenbits; /* index bits for lencode */ + unsigned distbits; /* index bits for distcode */ + /* dynamic table building */ + unsigned ncode; /* number of code length code lengths */ + unsigned nlen; /* number of length code lengths */ + unsigned ndist; /* number of distance code lengths */ + unsigned have; /* number of code lengths in lens[] */ + code FAR *next; /* next available space in codes[] */ + unsigned short lens[320]; /* temporary storage for code lengths */ + unsigned short work[288]; /* work area for code table building */ + code codes[ENOUGH]; /* space for code tables */ + int sane; /* if false, allow invalid distance too far */ + int back; /* bits back of last unprocessed length/lit */ + unsigned was; /* initial length of match */ +}; diff --git a/Minecraft.Client/Common/zlib/inftrees.c b/Minecraft.Client/Common/zlib/inftrees.c new file mode 100644 index 0000000..99d8d77 --- /dev/null +++ b/Minecraft.Client/Common/zlib/inftrees.c @@ -0,0 +1,424 @@ +/* inftrees.c -- generate Huffman trees for efficient decoding + * Copyright (C) 1995-2026 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +#ifdef MAKEFIXED +# ifndef BUILDFIXED +# define BUILDFIXED +# endif +#endif +#ifdef BUILDFIXED +# define Z_ONCE +#endif + +#include "zutil.h" +#include "inftrees.h" +#include "inflate.h" + +#ifndef NULL +# define NULL 0 +#endif + +#define MAXBITS 15 + +const char inflate_copyright[] = + " inflate 1.3.2.1 Copyright 1995-2026 Mark Adler "; +/* + If you use the zlib library in a product, an acknowledgment is welcome + in the documentation of your product. If for some reason you cannot + include such an acknowledgment, I would appreciate that you keep this + copyright string in the executable of your product. + */ + +/* + Build a set of tables to decode the provided canonical Huffman code. + The code lengths are lens[0..codes-1]. The result starts at *table, + whose indices are 0..2^bits-1. work is a writable array of at least + lens shorts, which is used as a work area. type is the type of code + to be generated, CODES, LENS, or DISTS. On return, zero is success, + -1 is an invalid code, and +1 means that ENOUGH isn't enough. table + on return points to the next available entry's address. bits is the + requested root table index bits, and on return it is the actual root + table index bits. It will differ if the request is greater than the + longest code or if it is less than the shortest code. + */ +int ZLIB_INTERNAL inflate_table(codetype type, unsigned short FAR *lens, + unsigned codes, code FAR * FAR *table, + unsigned FAR *bits, unsigned short FAR *work) { + unsigned len; /* a code's length in bits */ + unsigned sym; /* index of code symbols */ + unsigned min, max; /* minimum and maximum code lengths */ + unsigned root; /* number of index bits for root table */ + unsigned curr; /* number of index bits for current table */ + unsigned drop; /* code bits to drop for sub-table */ + int left; /* number of prefix codes available */ + unsigned used; /* code entries in table used */ + unsigned huff; /* Huffman code */ + unsigned incr; /* for incrementing code, index */ + unsigned fill; /* index for replicating entries */ + unsigned low; /* low bits for current root entry */ + unsigned mask; /* mask for low root bits */ + code here; /* table entry for duplication */ + code FAR *next; /* next available space in table */ + const unsigned short FAR *base = NULL; /* base value table to use */ + const unsigned short FAR *extra = NULL; /* extra bits table to use */ + unsigned match = 0; /* use base and extra for symbol >= match */ + unsigned short count[MAXBITS+1]; /* number of codes of each length */ + unsigned short offs[MAXBITS+1]; /* offsets in table for each length */ + static const unsigned short lbase[31] = { /* Length codes 257..285 base */ + 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 15, 17, 19, 23, 27, 31, + 35, 43, 51, 59, 67, 83, 99, 115, 131, 163, 195, 227, 258, 0, 0}; + static const unsigned short lext[31] = { /* Length codes 257..285 extra */ + 16, 16, 16, 16, 16, 16, 16, 16, 17, 17, 17, 17, 18, 18, 18, 18, + 19, 19, 19, 19, 20, 20, 20, 20, 21, 21, 21, 21, 16, 68, 193}; + static const unsigned short dbase[32] = { /* Distance codes 0..29 base */ + 1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193, + 257, 385, 513, 769, 1025, 1537, 2049, 3073, 4097, 6145, + 8193, 12289, 16385, 24577, 0, 0}; + static const unsigned short dext[32] = { /* Distance codes 0..29 extra */ + 16, 16, 16, 16, 17, 17, 18, 18, 19, 19, 20, 20, 21, 21, 22, 22, + 23, 23, 24, 24, 25, 25, 26, 26, 27, 27, + 28, 28, 29, 29, 64, 64}; + + /* + Process a set of code lengths to create a canonical Huffman code. The + code lengths are lens[0..codes-1]. Each length corresponds to the + symbols 0..codes-1. The Huffman code is generated by first sorting the + symbols by length from short to long, and retaining the symbol order + for codes with equal lengths. Then the code starts with all zero bits + for the first code of the shortest length, and the codes are integer + increments for the same length, and zeros are appended as the length + increases. For the deflate format, these bits are stored backwards + from their more natural integer increment ordering, and so when the + decoding tables are built in the large loop below, the integer codes + are incremented backwards. + + This routine assumes, but does not check, that all of the entries in + lens[] are in the range 0..MAXBITS. The caller must assure this. + 1..MAXBITS is interpreted as that code length. zero means that that + symbol does not occur in this code. + + The codes are sorted by computing a count of codes for each length, + creating from that a table of starting indices for each length in the + sorted table, and then entering the symbols in order in the sorted + table. The sorted table is work[], with that space being provided by + the caller. + + The length counts are used for other purposes as well, i.e. finding + the minimum and maximum length codes, determining if there are any + codes at all, checking for a valid set of lengths, and looking ahead + at length counts to determine sub-table sizes when building the + decoding tables. + */ + + /* accumulate lengths for codes (assumes lens[] all in 0..MAXBITS) */ + for (len = 0; len <= MAXBITS; len++) + count[len] = 0; + for (sym = 0; sym < codes; sym++) + count[lens[sym]]++; + + /* bound code lengths, force root to be within code lengths */ + root = *bits; + for (max = MAXBITS; max >= 1; max--) + if (count[max] != 0) break; + if (root > max) root = max; + if (max == 0) { /* no symbols to code at all */ + here.op = (unsigned char)64; /* invalid code marker */ + here.bits = (unsigned char)1; + here.val = (unsigned short)0; + *(*table)++ = here; /* make a table to force an error */ + *(*table)++ = here; + *bits = 1; + return 0; /* no symbols, but wait for decoding to report error */ + } + for (min = 1; min < max; min++) + if (count[min] != 0) break; + if (root < min) root = min; + + /* check for an over-subscribed or incomplete set of lengths */ + left = 1; + for (len = 1; len <= MAXBITS; len++) { + left <<= 1; + left -= count[len]; + if (left < 0) return -1; /* over-subscribed */ + } + if (left > 0 && (type == CODES || max != 1)) + return -1; /* incomplete set */ + + /* generate offsets into symbol table for each length for sorting */ + offs[1] = 0; + for (len = 1; len < MAXBITS; len++) + offs[len + 1] = offs[len] + count[len]; + + /* sort symbols by length, by symbol order within each length */ + for (sym = 0; sym < codes; sym++) + if (lens[sym] != 0) work[offs[lens[sym]]++] = (unsigned short)sym; + + /* + Create and fill in decoding tables. In this loop, the table being + filled is at next and has curr index bits. The code being used is huff + with length len. That code is converted to an index by dropping drop + bits off of the bottom. For codes where len is less than drop + curr, + those top drop + curr - len bits are incremented through all values to + fill the table with replicated entries. + + root is the number of index bits for the root table. When len exceeds + root, sub-tables are created pointed to by the root entry with an index + of the low root bits of huff. This is saved in low to check for when a + new sub-table should be started. drop is zero when the root table is + being filled, and drop is root when sub-tables are being filled. + + When a new sub-table is needed, it is necessary to look ahead in the + code lengths to determine what size sub-table is needed. The length + counts are used for this, and so count[] is decremented as codes are + entered in the tables. + + used keeps track of how many table entries have been allocated from the + provided *table space. It is checked for LENS and DIST tables against + the constants ENOUGH_LENS and ENOUGH_DISTS to guard against changes in + the initial root table size constants. See the comments in inftrees.h + for more information. + + sym increments through all symbols, and the loop terminates when + all codes of length max, i.e. all codes, have been processed. This + routine permits incomplete codes, so another loop after this one fills + in the rest of the decoding tables with invalid code markers. + */ + + /* set up for code type */ + switch (type) { + case CODES: + match = 20; + break; + case LENS: + base = lbase; + extra = lext; + match = 257; + break; + case DISTS: + base = dbase; + extra = dext; + } + + /* initialize state for loop */ + huff = 0; /* starting code */ + sym = 0; /* starting code symbol */ + len = min; /* starting code length */ + next = *table; /* current table to fill in */ + curr = root; /* current table index bits */ + drop = 0; /* current bits to drop from code for index */ + low = (unsigned)(-1); /* trigger new sub-table when len > root */ + used = 1U << root; /* use root table entries */ + mask = used - 1; /* mask for comparing low */ + + /* check available table space */ + if ((type == LENS && used > ENOUGH_LENS) || + (type == DISTS && used > ENOUGH_DISTS)) + return 1; + + /* process all codes and make table entries */ + for (;;) { + /* create table entry */ + here.bits = (unsigned char)(len - drop); + if (work[sym] + 1U < match) { + here.op = (unsigned char)0; + here.val = work[sym]; + } + else if (work[sym] >= match) { + here.op = (unsigned char)(extra[work[sym] - match]); + here.val = base[work[sym] - match]; + } + else { + here.op = (unsigned char)(32 + 64); /* end of block */ + here.val = 0; + } + + /* replicate for those indices with low len bits equal to huff */ + incr = 1U << (len - drop); + fill = 1U << curr; + min = fill; /* save offset to next table */ + do { + fill -= incr; + next[(huff >> drop) + fill] = here; + } while (fill != 0); + + /* backwards increment the len-bit code huff */ + incr = 1U << (len - 1); + while (huff & incr) + incr >>= 1; + if (incr != 0) { + huff &= incr - 1; + huff += incr; + } + else + huff = 0; + + /* go to next symbol, update count, len */ + sym++; + if (--(count[len]) == 0) { + if (len == max) break; + len = lens[work[sym]]; + } + + /* create new sub-table if needed */ + if (len > root && (huff & mask) != low) { + /* if first time, transition to sub-tables */ + if (drop == 0) + drop = root; + + /* increment past last table */ + next += min; /* here min is 1 << curr */ + + /* determine length of next table */ + curr = len - drop; + left = (int)(1 << curr); + while (curr + drop < max) { + left -= count[curr + drop]; + if (left <= 0) break; + curr++; + left <<= 1; + } + + /* check for enough space */ + used += 1U << curr; + if ((type == LENS && used > ENOUGH_LENS) || + (type == DISTS && used > ENOUGH_DISTS)) + return 1; + + /* point entry in root table to sub-table */ + low = huff & mask; + (*table)[low].op = (unsigned char)curr; + (*table)[low].bits = (unsigned char)root; + (*table)[low].val = (unsigned short)(next - *table); + } + } + + /* fill in remaining table entry if code is incomplete (guaranteed to have + at most one remaining entry, since if the code is incomplete, the + maximum code length that was allowed to get this far is one bit) */ + if (huff != 0) { + here.op = (unsigned char)64; /* invalid code marker */ + here.bits = (unsigned char)(len - drop); + here.val = (unsigned short)0; + next[huff] = here; + } + + /* set return parameters */ + *table += used; + *bits = root; + return 0; +} + +#ifdef BUILDFIXED +/* + If this is compiled with BUILDFIXED defined, and if inflate will be used in + multiple threads, and if atomics are not available, then inflate() must be + called with a fixed block (e.g. 0x03 0x00) to initialize the tables and must + return before any other threads are allowed to call inflate. + */ + +static code *lenfix, *distfix; +static code fixed[544]; + +/* State for z_once(). */ +local z_once_t built = Z_ONCE_INIT; + +local void buildtables(void) { + unsigned sym, bits; + static code *next; + unsigned short lens[288], work[288]; + + /* literal/length table */ + sym = 0; + while (sym < 144) lens[sym++] = 8; + while (sym < 256) lens[sym++] = 9; + while (sym < 280) lens[sym++] = 7; + while (sym < 288) lens[sym++] = 8; + next = fixed; + lenfix = next; + bits = 9; + inflate_table(LENS, lens, 288, &(next), &(bits), work); + + /* distance table */ + sym = 0; + while (sym < 32) lens[sym++] = 5; + distfix = next; + bits = 5; + inflate_table(DISTS, lens, 32, &(next), &(bits), work); +} +#else /* !BUILDFIXED */ +# include "inffixed.h" +#endif /* BUILDFIXED */ + +/* + Return state with length and distance decoding tables and index sizes set to + fixed code decoding. Normally this returns fixed tables from inffixed.h. + If BUILDFIXED is defined, then instead this routine builds the tables the + first time it's called, and returns those tables the first time and + thereafter. This reduces the size of the code by about 2K bytes, in + exchange for a little execution time. However, BUILDFIXED should not be + used for threaded applications if atomics are not available, as it will + not be thread-safe. + */ +void inflate_fixed(struct inflate_state FAR *state) { +#ifdef BUILDFIXED + z_once(&built, buildtables); +#endif /* BUILDFIXED */ + state->lencode = lenfix; + state->lenbits = 9; + state->distcode = distfix; + state->distbits = 5; +} + +#ifdef MAKEFIXED +#include + +/* + Write out the inffixed.h that will be #include'd above. Defining MAKEFIXED + also defines BUILDFIXED, so the tables are built on the fly. main() writes + those tables to stdout, which would directed to inffixed.h. Compile this + along with zutil.c: + + cc -DMAKEFIXED -o fix inftrees.c zutil.c + ./fix > inffixed.h + */ +int main(void) { + unsigned low, size; + struct inflate_state state; + + inflate_fixed(&state); + puts("/* inffixed.h -- table for decoding fixed codes"); + puts(" * Generated automatically by makefixed()."); + puts(" */"); + puts(""); + puts("/* WARNING: this file should *not* be used by applications."); + puts(" It is part of the implementation of this library and is"); + puts(" subject to change. Applications should only use zlib.h."); + puts(" */"); + puts(""); + size = 1U << 9; + printf("static const code lenfix[%u] = {", size); + low = 0; + for (;;) { + if ((low % 7) == 0) printf("\n "); + printf("{%u,%u,%d}", (low & 127) == 99 ? 64 : state.lencode[low].op, + state.lencode[low].bits, state.lencode[low].val); + if (++low == size) break; + putchar(','); + } + puts("\n};"); + size = 1U << 5; + printf("\nstatic const code distfix[%u] = {", size); + low = 0; + for (;;) { + if ((low % 6) == 0) printf("\n "); + printf("{%u,%u,%d}", state.distcode[low].op, state.distcode[low].bits, + state.distcode[low].val); + if (++low == size) break; + putchar(','); + } + puts("\n};"); + return 0; +} +#endif /* MAKEFIXED */ diff --git a/Minecraft.Client/Common/zlib/inftrees.h b/Minecraft.Client/Common/zlib/inftrees.h new file mode 100644 index 0000000..84d0536 --- /dev/null +++ b/Minecraft.Client/Common/zlib/inftrees.h @@ -0,0 +1,64 @@ +/* inftrees.h -- header to use inftrees.c + * Copyright (C) 1995-2026 Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* WARNING: this file should *not* be used by applications. It is + part of the implementation of the compression library and is + subject to change. Applications should only use zlib.h. + */ + +/* Structure for decoding tables. Each entry provides either the + information needed to do the operation requested by the code that + indexed that table entry, or it provides a pointer to another + table that indexes more bits of the code. op indicates whether + the entry is a pointer to another table, a literal, a length or + distance, an end-of-block, or an invalid code. For a table + pointer, the low four bits of op is the number of index bits of + that table. For a length or distance, the low four bits of op + is the number of extra bits to get after the code. bits is + the number of bits in this code or part of the code to drop off + of the bit buffer. val is the actual byte to output in the case + of a literal, the base length or distance, or the offset from + the current table to the next table. Each entry is four bytes. */ +typedef struct { + unsigned char op; /* operation, extra bits, table bits */ + unsigned char bits; /* bits in this part of the code */ + unsigned short val; /* offset in table or code value */ +} code; + +/* op values as set by inflate_table(): + 00000000 - literal + 0000tttt - table link, tttt != 0 is the number of table index bits + 0001eeee - length or distance, eeee is the number of extra bits + 01100000 - end of block + 01000000 - invalid code + */ + +/* Maximum size of the dynamic table. The maximum number of code structures is + 1444, which is the sum of 852 for literal/length codes and 592 for distance + codes. These values were found by exhaustive searches using the program + examples/enough.c found in the zlib distribution. The arguments to that + program are the number of symbols, the initial root table size, and the + maximum bit length of a code. "enough 286 9 15" for literal/length codes + returns 852, and "enough 30 6 15" for distance codes returns 592. The + initial root table size (9 or 6) is found in the fifth argument of the + inflate_table() calls in inflate.c and infback.c. If the root table size is + changed, then these maximum sizes would be need to be recalculated and + updated. */ +#define ENOUGH_LENS 852 +#define ENOUGH_DISTS 592 +#define ENOUGH (ENOUGH_LENS+ENOUGH_DISTS) + +/* Type of code to build for inflate_table() */ +typedef enum { + CODES, + LENS, + DISTS +} codetype; + +int ZLIB_INTERNAL inflate_table(codetype type, unsigned short FAR *lens, + unsigned codes, code FAR * FAR *table, + unsigned FAR *bits, unsigned short FAR *work); +struct inflate_state; +void ZLIB_INTERNAL inflate_fixed(struct inflate_state FAR *state); diff --git a/Minecraft.Client/Common/zlib/trees.c b/Minecraft.Client/Common/zlib/trees.c new file mode 100644 index 0000000..8e4da01 --- /dev/null +++ b/Minecraft.Client/Common/zlib/trees.c @@ -0,0 +1,1119 @@ +/* trees.c -- output deflated data using Huffman coding + * Copyright (C) 1995-2026 Jean-loup Gailly + * detect_data_type() function provided freely by Cosmin Truta, 2006 + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* + * ALGORITHM + * + * The "deflation" process uses several Huffman trees. The more + * common source values are represented by shorter bit sequences. + * + * Each code tree is stored in a compressed form which is itself + * a Huffman encoding of the lengths of all the code strings (in + * ascending order by source values). The actual code strings are + * reconstructed from the lengths in the inflate process, as described + * in the deflate specification. + * + * REFERENCES + * + * Deutsch, L.P.,"'Deflate' Compressed Data Format Specification". + * Available in ftp.uu.net:/pub/archiving/zip/doc/deflate-1.1.doc + * + * Storer, James A. + * Data Compression: Methods and Theory, pp. 49-50. + * Computer Science Press, 1988. ISBN 0-7167-8156-5. + * + * Sedgewick, R. + * Algorithms, p290. + * Addison-Wesley, 1983. ISBN 0-201-06672-6. + */ + +/* @(#) $Id$ */ + +/* #define GEN_TREES_H */ + +#include "deflate.h" + +#ifdef ZLIB_DEBUG +# include +#endif + +/* =========================================================================== + * Constants + */ + +#define MAX_BL_BITS 7 +/* Bit length codes must not exceed MAX_BL_BITS bits */ + +#define END_BLOCK 256 +/* end of block literal code */ + +#define REP_3_6 16 +/* repeat previous bit length 3-6 times (2 bits of repeat count) */ + +#define REPZ_3_10 17 +/* repeat a zero length 3-10 times (3 bits of repeat count) */ + +#define REPZ_11_138 18 +/* repeat a zero length 11-138 times (7 bits of repeat count) */ + +local const int extra_lbits[LENGTH_CODES] /* extra bits for each length code */ + = {0,0,0,0,0,0,0,0,1,1,1,1,2,2,2,2,3,3,3,3,4,4,4,4,5,5,5,5,0}; + +local const int extra_dbits[D_CODES] /* extra bits for each distance code */ + = {0,0,0,0,1,1,2,2,3,3,4,4,5,5,6,6,7,7,8,8,9,9,10,10,11,11,12,12,13,13}; + +local const int extra_blbits[BL_CODES]/* extra bits for each bit length code */ + = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,2,3,7}; + +local const uch bl_order[BL_CODES] + = {16,17,18,0,8,7,9,6,10,5,11,4,12,3,13,2,14,1,15}; +/* The lengths of the bit length codes are sent in order of decreasing + * probability, to avoid transmitting the lengths for unused bit length codes. + */ + +/* =========================================================================== + * Local data. These are initialized only once. + */ + +#define DIST_CODE_LEN 512 /* see definition of array dist_code below */ + +#if defined(GEN_TREES_H) || !defined(STDC) +/* non ANSI compilers may not accept trees.h */ + +local ct_data static_ltree[L_CODES+2]; +/* The static literal tree. Since the bit lengths are imposed, there is no + * need for the L_CODES extra codes used during heap construction. However + * The codes 286 and 287 are needed to build a canonical tree (see _tr_init + * below). + */ + +local ct_data static_dtree[D_CODES]; +/* The static distance tree. (Actually a trivial tree since all codes use + * 5 bits.) + */ + +uch _dist_code[DIST_CODE_LEN]; +/* Distance codes. The first 256 values correspond to the distances + * 3 .. 258, the last 256 values correspond to the top 8 bits of + * the 15 bit distances. + */ + +uch _length_code[MAX_MATCH-MIN_MATCH+1]; +/* length code for each normalized match length (0 == MIN_MATCH) */ + +local int base_length[LENGTH_CODES]; +/* First normalized length for each code (0 = MIN_MATCH) */ + +local int base_dist[D_CODES]; +/* First normalized distance for each code (0 = distance of 1) */ + +#else +# include "trees.h" +#endif /* defined(GEN_TREES_H) || !defined(STDC) */ + +struct static_tree_desc_s { + const ct_data *static_tree; /* static tree or NULL */ + const intf *extra_bits; /* extra bits for each code or NULL */ + int extra_base; /* base index for extra_bits */ + int elems; /* max number of elements in the tree */ + int max_length; /* max bit length for the codes */ +}; + +#ifdef NO_INIT_GLOBAL_POINTERS +# define TCONST +#else +# define TCONST const +#endif + +local TCONST static_tree_desc static_l_desc = +{static_ltree, extra_lbits, LITERALS+1, L_CODES, MAX_BITS}; + +local TCONST static_tree_desc static_d_desc = +{static_dtree, extra_dbits, 0, D_CODES, MAX_BITS}; + +local TCONST static_tree_desc static_bl_desc = +{(const ct_data *)0, extra_blbits, 0, BL_CODES, MAX_BL_BITS}; + +/* =========================================================================== + * Output a short LSB first on the stream. + * IN assertion: there is enough room in pendingBuf. + */ +#define put_short(s, w) { \ + put_byte(s, (uch)((w) & 0xff)); \ + put_byte(s, (uch)((ush)(w) >> 8)); \ +} + +/* =========================================================================== + * Reverse the first len bits of a code, using straightforward code (a faster + * method would use a table) + * IN assertion: 1 <= len <= 15 + */ +local unsigned bi_reverse(unsigned code, int len) { + unsigned res = 0; + do { + res |= code & 1; + code >>= 1, res <<= 1; + } while (--len > 0); + return res >> 1; +} + +/* =========================================================================== + * Flush the bit buffer, keeping at most 7 bits in it. + */ +local void bi_flush(deflate_state *s) { + if (s->bi_valid == 16) { + put_short(s, s->bi_buf); + s->bi_buf = 0; + s->bi_valid = 0; + } else if (s->bi_valid >= 8) { + put_byte(s, (Byte)s->bi_buf); + s->bi_buf >>= 8; + s->bi_valid -= 8; + } +} + +/* =========================================================================== + * Flush the bit buffer and align the output on a byte boundary + */ +local void bi_windup(deflate_state *s) { + if (s->bi_valid > 8) { + put_short(s, s->bi_buf); + } else if (s->bi_valid > 0) { + put_byte(s, (Byte)s->bi_buf); + } + s->bi_used = ((s->bi_valid - 1) & 7) + 1; + s->bi_buf = 0; + s->bi_valid = 0; +#ifdef ZLIB_DEBUG + s->bits_sent = (s->bits_sent + 7) & ~(ulg)7; +#endif +} + +/* =========================================================================== + * Generate the codes for a given tree and bit counts (which need not be + * optimal). + * IN assertion: the array bl_count contains the bit length statistics for + * the given tree and the field len is set for all tree elements. + * OUT assertion: the field code is set for all tree elements of non + * zero code length. + */ +local void gen_codes(ct_data *tree, int max_code, ushf *bl_count) { + ush next_code[MAX_BITS+1]; /* next code value for each bit length */ + unsigned code = 0; /* running code value */ + int bits; /* bit index */ + int n; /* code index */ + + /* The distribution counts are first used to generate the code values + * without bit reversal. + */ + for (bits = 1; bits <= MAX_BITS; bits++) { + code = (code + bl_count[bits - 1]) << 1; + next_code[bits] = (ush)code; + } + /* Check that the bit counts in bl_count are consistent. The last code + * must be all ones. + */ + Assert (code + bl_count[MAX_BITS] - 1 == (1 << MAX_BITS) - 1, + "inconsistent bit counts"); + Tracev((stderr,"\ngen_codes: max_code %d ", max_code)); + + for (n = 0; n <= max_code; n++) { + int len = tree[n].Len; + if (len == 0) continue; + /* Now reverse the bits */ + tree[n].Code = (ush)bi_reverse(next_code[len]++, len); + + Tracecv(tree != static_ltree, (stderr,"\nn %3d %c l %2d c %4x (%x) ", + n, (isgraph(n) ? n : ' '), len, tree[n].Code, next_code[len] - 1)); + } +} + +#ifdef GEN_TREES_H +local void gen_trees_header(void); +#endif + +#ifndef ZLIB_DEBUG +# define send_code(s, c, tree) send_bits(s, tree[c].Code, tree[c].Len) + /* Send a code of the given tree. c and tree must not have side effects */ + +#else /* !ZLIB_DEBUG */ +# define send_code(s, c, tree) \ + { if (z_verbose>2) fprintf(stderr,"\ncd %3d ",(c)); \ + send_bits(s, tree[c].Code, tree[c].Len); } +#endif + +/* =========================================================================== + * Send a value on a given number of bits. + * IN assertion: length <= 16 and value fits in length bits. + */ +#ifdef ZLIB_DEBUG +local void send_bits(deflate_state *s, int value, int length) { + Tracevv((stderr," l %2d v %4x ", length, value)); + Assert(length > 0 && length <= 15, "invalid length"); + s->bits_sent += (ulg)length; + + /* If not enough room in bi_buf, use (valid) bits from bi_buf and + * (16 - bi_valid) bits from value, leaving (width - (16 - bi_valid)) + * unused bits in value. + */ + if (s->bi_valid > (int)Buf_size - length) { + s->bi_buf |= (ush)value << s->bi_valid; + put_short(s, s->bi_buf); + s->bi_buf = (ush)value >> (Buf_size - s->bi_valid); + s->bi_valid += length - Buf_size; + } else { + s->bi_buf |= (ush)value << s->bi_valid; + s->bi_valid += length; + } +} +#else /* !ZLIB_DEBUG */ + +#define send_bits(s, value, length) \ +{ int len = length;\ + if (s->bi_valid > (int)Buf_size - len) {\ + int val = (int)value;\ + s->bi_buf |= (ush)val << s->bi_valid;\ + put_short(s, s->bi_buf);\ + s->bi_buf = (ush)val >> (Buf_size - s->bi_valid);\ + s->bi_valid += len - Buf_size;\ + } else {\ + s->bi_buf |= (ush)(value) << s->bi_valid;\ + s->bi_valid += len;\ + }\ +} +#endif /* ZLIB_DEBUG */ + + +/* the arguments must not have side effects */ + +/* =========================================================================== + * Initialize the various 'constant' tables. + */ +local void tr_static_init(void) { +#if defined(GEN_TREES_H) || !defined(STDC) + static int static_init_done = 0; + int n; /* iterates over tree elements */ + int bits; /* bit counter */ + int length; /* length value */ + int code; /* code value */ + int dist; /* distance index */ + ush bl_count[MAX_BITS+1]; + /* number of codes at each bit length for an optimal tree */ + + if (static_init_done) return; + + /* For some embedded targets, global variables are not initialized: */ +#ifdef NO_INIT_GLOBAL_POINTERS + static_l_desc.static_tree = static_ltree; + static_l_desc.extra_bits = extra_lbits; + static_d_desc.static_tree = static_dtree; + static_d_desc.extra_bits = extra_dbits; + static_bl_desc.extra_bits = extra_blbits; +#endif + + /* Initialize the mapping length (0..255) -> length code (0..28) */ + length = 0; + for (code = 0; code < LENGTH_CODES-1; code++) { + base_length[code] = length; + for (n = 0; n < (1 << extra_lbits[code]); n++) { + _length_code[length++] = (uch)code; + } + } + Assert (length == 256, "tr_static_init: length != 256"); + /* Note that the length 255 (match length 258) can be represented + * in two different ways: code 284 + 5 bits or code 285, so we + * overwrite length_code[255] to use the best encoding: + */ + _length_code[length - 1] = (uch)code; + + /* Initialize the mapping dist (0..32K) -> dist code (0..29) */ + dist = 0; + for (code = 0 ; code < 16; code++) { + base_dist[code] = dist; + for (n = 0; n < (1 << extra_dbits[code]); n++) { + _dist_code[dist++] = (uch)code; + } + } + Assert (dist == 256, "tr_static_init: dist != 256"); + dist >>= 7; /* from now on, all distances are divided by 128 */ + for ( ; code < D_CODES; code++) { + base_dist[code] = dist << 7; + for (n = 0; n < (1 << (extra_dbits[code] - 7)); n++) { + _dist_code[256 + dist++] = (uch)code; + } + } + Assert (dist == 256, "tr_static_init: 256 + dist != 512"); + + /* Construct the codes of the static literal tree */ + for (bits = 0; bits <= MAX_BITS; bits++) bl_count[bits] = 0; + n = 0; + while (n <= 143) static_ltree[n++].Len = 8, bl_count[8]++; + while (n <= 255) static_ltree[n++].Len = 9, bl_count[9]++; + while (n <= 279) static_ltree[n++].Len = 7, bl_count[7]++; + while (n <= 287) static_ltree[n++].Len = 8, bl_count[8]++; + /* Codes 286 and 287 do not exist, but we must include them in the + * tree construction to get a canonical Huffman tree (longest code + * all ones) + */ + gen_codes((ct_data *)static_ltree, L_CODES+1, bl_count); + + /* The static distance tree is trivial: */ + for (n = 0; n < D_CODES; n++) { + static_dtree[n].Len = 5; + static_dtree[n].Code = bi_reverse((unsigned)n, 5); + } + static_init_done = 1; + +# ifdef GEN_TREES_H + gen_trees_header(); +# endif +#endif /* defined(GEN_TREES_H) || !defined(STDC) */ +} + +/* =========================================================================== + * Generate the file trees.h describing the static trees. + */ +#ifdef GEN_TREES_H +# ifndef ZLIB_DEBUG +# include +# endif + +# define SEPARATOR(i, last, width) \ + ((i) == (last)? "\n};\n\n" : \ + ((i) % (width) == (width) - 1 ? ",\n" : ", ")) + +void gen_trees_header(void) { + FILE *header = fopen("trees.h", "w"); + int i; + + Assert (header != NULL, "Can't open trees.h"); + fprintf(header, + "/* header created automatically with -DGEN_TREES_H */\n\n"); + + fprintf(header, "local const ct_data static_ltree[L_CODES+2] = {\n"); + for (i = 0; i < L_CODES+2; i++) { + fprintf(header, "{{%3u},{%3u}}%s", static_ltree[i].Code, + static_ltree[i].Len, SEPARATOR(i, L_CODES+1, 5)); + } + + fprintf(header, "local const ct_data static_dtree[D_CODES] = {\n"); + for (i = 0; i < D_CODES; i++) { + fprintf(header, "{{%2u},{%2u}}%s", static_dtree[i].Code, + static_dtree[i].Len, SEPARATOR(i, D_CODES-1, 5)); + } + + fprintf(header, "const uch ZLIB_INTERNAL _dist_code[DIST_CODE_LEN] = {\n"); + for (i = 0; i < DIST_CODE_LEN; i++) { + fprintf(header, "%2u%s", _dist_code[i], + SEPARATOR(i, DIST_CODE_LEN-1, 20)); + } + + fprintf(header, + "const uch ZLIB_INTERNAL _length_code[MAX_MATCH-MIN_MATCH+1]= {\n"); + for (i = 0; i < MAX_MATCH-MIN_MATCH+1; i++) { + fprintf(header, "%2u%s", _length_code[i], + SEPARATOR(i, MAX_MATCH-MIN_MATCH, 20)); + } + + fprintf(header, "local const int base_length[LENGTH_CODES] = {\n"); + for (i = 0; i < LENGTH_CODES; i++) { + fprintf(header, "%1u%s", base_length[i], + SEPARATOR(i, LENGTH_CODES-1, 20)); + } + + fprintf(header, "local const int base_dist[D_CODES] = {\n"); + for (i = 0; i < D_CODES; i++) { + fprintf(header, "%5u%s", base_dist[i], + SEPARATOR(i, D_CODES-1, 10)); + } + + fclose(header); +} +#endif /* GEN_TREES_H */ + +/* =========================================================================== + * Initialize a new block. + */ +local void init_block(deflate_state *s) { + int n; /* iterates over tree elements */ + + /* Initialize the trees. */ + for (n = 0; n < L_CODES; n++) s->dyn_ltree[n].Freq = 0; + for (n = 0; n < D_CODES; n++) s->dyn_dtree[n].Freq = 0; + for (n = 0; n < BL_CODES; n++) s->bl_tree[n].Freq = 0; + + s->dyn_ltree[END_BLOCK].Freq = 1; + s->opt_len = s->static_len = 0L; + s->sym_next = s->matches = 0; +} + +/* =========================================================================== + * Initialize the tree data structures for a new zlib stream. + */ +void ZLIB_INTERNAL _tr_init(deflate_state *s) { + tr_static_init(); + + s->l_desc.dyn_tree = s->dyn_ltree; + s->l_desc.stat_desc = &static_l_desc; + + s->d_desc.dyn_tree = s->dyn_dtree; + s->d_desc.stat_desc = &static_d_desc; + + s->bl_desc.dyn_tree = s->bl_tree; + s->bl_desc.stat_desc = &static_bl_desc; + + s->bi_buf = 0; + s->bi_valid = 0; + s->bi_used = 0; +#ifdef ZLIB_DEBUG + s->compressed_len = 0L; + s->bits_sent = 0L; +#endif + + /* Initialize the first block of the first file: */ + init_block(s); +} + +#define SMALLEST 1 +/* Index within the heap array of least frequent node in the Huffman tree */ + + +/* =========================================================================== + * Remove the smallest element from the heap and recreate the heap with + * one less element. Updates heap and heap_len. + */ +#define pqremove(s, tree, top) \ +{\ + top = s->heap[SMALLEST]; \ + s->heap[SMALLEST] = s->heap[s->heap_len--]; \ + pqdownheap(s, tree, SMALLEST); \ +} + +/* =========================================================================== + * Compares to subtrees, using the tree depth as tie breaker when + * the subtrees have equal frequency. This minimizes the worst case length. + */ +#define smaller(tree, n, m, depth) \ + (tree[n].Freq < tree[m].Freq || \ + (tree[n].Freq == tree[m].Freq && depth[n] <= depth[m])) + +/* =========================================================================== + * Restore the heap property by moving down the tree starting at node k, + * exchanging a node with the smallest of its two sons if necessary, stopping + * when the heap property is re-established (each father smaller than its + * two sons). + */ +local void pqdownheap(deflate_state *s, ct_data *tree, int k) { + int v = s->heap[k]; + int j = k << 1; /* left son of k */ + while (j <= s->heap_len) { + /* Set j to the smallest of the two sons: */ + if (j < s->heap_len && + smaller(tree, s->heap[j + 1], s->heap[j], s->depth)) { + j++; + } + /* Exit if v is smaller than both sons */ + if (smaller(tree, v, s->heap[j], s->depth)) break; + + /* Exchange v with the smallest son */ + s->heap[k] = s->heap[j]; k = j; + + /* And continue down the tree, setting j to the left son of k */ + j <<= 1; + } + s->heap[k] = v; +} + +/* =========================================================================== + * Compute the optimal bit lengths for a tree and update the total bit length + * for the current block. + * IN assertion: the fields freq and dad are set, heap[heap_max] and + * above are the tree nodes sorted by increasing frequency. + * OUT assertions: the field len is set to the optimal bit length, the + * array bl_count contains the frequencies for each bit length. + * The length opt_len is updated; static_len is also updated if stree is + * not null. + */ +local void gen_bitlen(deflate_state *s, tree_desc *desc) { + ct_data *tree = desc->dyn_tree; + int max_code = desc->max_code; + const ct_data *stree = desc->stat_desc->static_tree; + const intf *extra = desc->stat_desc->extra_bits; + int base = desc->stat_desc->extra_base; + int max_length = desc->stat_desc->max_length; + int h; /* heap index */ + int n, m; /* iterate over the tree elements */ + int bits; /* bit length */ + int xbits; /* extra bits */ + ush f; /* frequency */ + int overflow = 0; /* number of elements with bit length too large */ + + for (bits = 0; bits <= MAX_BITS; bits++) s->bl_count[bits] = 0; + + /* In a first pass, compute the optimal bit lengths (which may + * overflow in the case of the bit length tree). + */ + tree[s->heap[s->heap_max]].Len = 0; /* root of the heap */ + + for (h = s->heap_max + 1; h < HEAP_SIZE; h++) { + n = s->heap[h]; + bits = tree[tree[n].Dad].Len + 1; + if (bits > max_length) bits = max_length, overflow++; + tree[n].Len = (ush)bits; + /* We overwrite tree[n].Dad which is no longer needed */ + + if (n > max_code) continue; /* not a leaf node */ + + s->bl_count[bits]++; + xbits = 0; + if (n >= base) xbits = extra[n - base]; + f = tree[n].Freq; + s->opt_len += (ulg)f * (unsigned)(bits + xbits); + if (stree) s->static_len += (ulg)f * (unsigned)(stree[n].Len + xbits); + } + if (overflow == 0) return; + + Tracev((stderr,"\nbit length overflow\n")); + /* This happens for example on obj2 and pic of the Calgary corpus */ + + /* Find the first bit length which could increase: */ + do { + bits = max_length - 1; + while (s->bl_count[bits] == 0) bits--; + s->bl_count[bits]--; /* move one leaf down the tree */ + s->bl_count[bits + 1] += 2; /* move one overflow item as its brother */ + s->bl_count[max_length]--; + /* The brother of the overflow item also moves one step up, + * but this does not affect bl_count[max_length] + */ + overflow -= 2; + } while (overflow > 0); + + /* Now recompute all bit lengths, scanning in increasing frequency. + * h is still equal to HEAP_SIZE. (It is simpler to reconstruct all + * lengths instead of fixing only the wrong ones. This idea is taken + * from 'ar' written by Haruhiko Okumura.) + */ + for (bits = max_length; bits != 0; bits--) { + n = s->bl_count[bits]; + while (n != 0) { + m = s->heap[--h]; + if (m > max_code) continue; + if ((unsigned) tree[m].Len != (unsigned) bits) { + Tracev((stderr,"code %d bits %d->%d\n", m, tree[m].Len, bits)); + s->opt_len += ((ulg)bits - tree[m].Len) * tree[m].Freq; + tree[m].Len = (ush)bits; + } + n--; + } + } +} + +#ifdef DUMP_BL_TREE +# include +#endif + +/* =========================================================================== + * Construct one Huffman tree and assigns the code bit strings and lengths. + * Update the total bit length for the current block. + * IN assertion: the field freq is set for all tree elements. + * OUT assertions: the fields len and code are set to the optimal bit length + * and corresponding code. The length opt_len is updated; static_len is + * also updated if stree is not null. The field max_code is set. + */ +local void build_tree(deflate_state *s, tree_desc *desc) { + ct_data *tree = desc->dyn_tree; + const ct_data *stree = desc->stat_desc->static_tree; + int elems = desc->stat_desc->elems; + int n, m; /* iterate over heap elements */ + int max_code = -1; /* largest code with non zero frequency */ + int node; /* new node being created */ + + /* Construct the initial heap, with least frequent element in + * heap[SMALLEST]. The sons of heap[n] are heap[2*n] and heap[2*n + 1]. + * heap[0] is not used. + */ + s->heap_len = 0, s->heap_max = HEAP_SIZE; + + for (n = 0; n < elems; n++) { + if (tree[n].Freq != 0) { + s->heap[++(s->heap_len)] = max_code = n; + s->depth[n] = 0; + } else { + tree[n].Len = 0; + } + } + + /* The pkzip format requires that at least one distance code exists, + * and that at least one bit should be sent even if there is only one + * possible code. So to avoid special checks later on we force at least + * two codes of non zero frequency. + */ + while (s->heap_len < 2) { + node = s->heap[++(s->heap_len)] = (max_code < 2 ? ++max_code : 0); + tree[node].Freq = 1; + s->depth[node] = 0; + s->opt_len--; if (stree) s->static_len -= stree[node].Len; + /* node is 0 or 1 so it does not have extra bits */ + } + desc->max_code = max_code; + + /* The elements heap[heap_len/2 + 1 .. heap_len] are leaves of the tree, + * establish sub-heaps of increasing lengths: + */ + for (n = s->heap_len/2; n >= 1; n--) pqdownheap(s, tree, n); + + /* Construct the Huffman tree by repeatedly combining the least two + * frequent nodes. + */ + node = elems; /* next internal node of the tree */ + do { + pqremove(s, tree, n); /* n = node of least frequency */ + m = s->heap[SMALLEST]; /* m = node of next least frequency */ + + s->heap[--(s->heap_max)] = n; /* keep the nodes sorted by frequency */ + s->heap[--(s->heap_max)] = m; + + /* Create a new node father of n and m */ + tree[node].Freq = tree[n].Freq + tree[m].Freq; + s->depth[node] = (uch)((s->depth[n] >= s->depth[m] ? + s->depth[n] : s->depth[m]) + 1); + tree[n].Dad = tree[m].Dad = (ush)node; +#ifdef DUMP_BL_TREE + if (tree == s->bl_tree) { + fprintf(stderr,"\nnode %d(%d), sons %d(%d) %d(%d)", + node, tree[node].Freq, n, tree[n].Freq, m, tree[m].Freq); + } +#endif + /* and insert the new node in the heap */ + s->heap[SMALLEST] = node++; + pqdownheap(s, tree, SMALLEST); + + } while (s->heap_len >= 2); + + s->heap[--(s->heap_max)] = s->heap[SMALLEST]; + + /* At this point, the fields freq and dad are set. We can now + * generate the bit lengths. + */ + gen_bitlen(s, (tree_desc *)desc); + + /* The field len is now set, we can generate the bit codes */ + gen_codes ((ct_data *)tree, max_code, s->bl_count); +} + +/* =========================================================================== + * Scan a literal or distance tree to determine the frequencies of the codes + * in the bit length tree. + */ +local void scan_tree(deflate_state *s, ct_data *tree, int max_code) { + int n; /* iterates over all tree elements */ + int prevlen = -1; /* last emitted length */ + int curlen; /* length of current code */ + int nextlen = tree[0].Len; /* length of next code */ + int count = 0; /* repeat count of the current code */ + int max_count = 7; /* max repeat count */ + int min_count = 4; /* min repeat count */ + + if (nextlen == 0) max_count = 138, min_count = 3; + tree[max_code + 1].Len = (ush)0xffff; /* guard */ + + for (n = 0; n <= max_code; n++) { + curlen = nextlen; nextlen = tree[n + 1].Len; + if (++count < max_count && curlen == nextlen) { + continue; + } else if (count < min_count) { + s->bl_tree[curlen].Freq += (ush)count; + } else if (curlen != 0) { + if (curlen != prevlen) s->bl_tree[curlen].Freq++; + s->bl_tree[REP_3_6].Freq++; + } else if (count <= 10) { + s->bl_tree[REPZ_3_10].Freq++; + } else { + s->bl_tree[REPZ_11_138].Freq++; + } + count = 0; prevlen = curlen; + if (nextlen == 0) { + max_count = 138, min_count = 3; + } else if (curlen == nextlen) { + max_count = 6, min_count = 3; + } else { + max_count = 7, min_count = 4; + } + } +} + +/* =========================================================================== + * Send a literal or distance tree in compressed form, using the codes in + * bl_tree. + */ +local void send_tree(deflate_state *s, ct_data *tree, int max_code) { + int n; /* iterates over all tree elements */ + int prevlen = -1; /* last emitted length */ + int curlen; /* length of current code */ + int nextlen = tree[0].Len; /* length of next code */ + int count = 0; /* repeat count of the current code */ + int max_count = 7; /* max repeat count */ + int min_count = 4; /* min repeat count */ + + /* tree[max_code + 1].Len = -1; */ /* guard already set */ + if (nextlen == 0) max_count = 138, min_count = 3; + + for (n = 0; n <= max_code; n++) { + curlen = nextlen; nextlen = tree[n + 1].Len; + if (++count < max_count && curlen == nextlen) { + continue; + } else if (count < min_count) { + do { send_code(s, curlen, s->bl_tree); } while (--count != 0); + + } else if (curlen != 0) { + if (curlen != prevlen) { + send_code(s, curlen, s->bl_tree); count--; + } + Assert(count >= 3 && count <= 6, " 3_6?"); + send_code(s, REP_3_6, s->bl_tree); send_bits(s, count - 3, 2); + + } else if (count <= 10) { + send_code(s, REPZ_3_10, s->bl_tree); send_bits(s, count - 3, 3); + + } else { + send_code(s, REPZ_11_138, s->bl_tree); send_bits(s, count - 11, 7); + } + count = 0; prevlen = curlen; + if (nextlen == 0) { + max_count = 138, min_count = 3; + } else if (curlen == nextlen) { + max_count = 6, min_count = 3; + } else { + max_count = 7, min_count = 4; + } + } +} + +/* =========================================================================== + * Construct the Huffman tree for the bit lengths and return the index in + * bl_order of the last bit length code to send. + */ +local int build_bl_tree(deflate_state *s) { + int max_blindex; /* index of last bit length code of non zero freq */ + + /* Determine the bit length frequencies for literal and distance trees */ + scan_tree(s, (ct_data *)s->dyn_ltree, s->l_desc.max_code); + scan_tree(s, (ct_data *)s->dyn_dtree, s->d_desc.max_code); + + /* Build the bit length tree: */ + build_tree(s, (tree_desc *)(&(s->bl_desc))); + /* opt_len now includes the length of the tree representations, except the + * lengths of the bit lengths codes and the 5 + 5 + 4 bits for the counts. + */ + + /* Determine the number of bit length codes to send. The pkzip format + * requires that at least 4 bit length codes be sent. (appnote.txt says + * 3 but the actual value used is 4.) + */ + for (max_blindex = BL_CODES-1; max_blindex >= 3; max_blindex--) { + if (s->bl_tree[bl_order[max_blindex]].Len != 0) break; + } + /* Update opt_len to include the bit length tree and counts */ + s->opt_len += 3*((ulg)max_blindex + 1) + 5 + 5 + 4; + Tracev((stderr, "\ndyn trees: dyn %lu, stat %lu", + s->opt_len, s->static_len)); + + return max_blindex; +} + +/* =========================================================================== + * Send the header for a block using dynamic Huffman trees: the counts, the + * lengths of the bit length codes, the literal tree and the distance tree. + * IN assertion: lcodes >= 257, dcodes >= 1, blcodes >= 4. + */ +local void send_all_trees(deflate_state *s, int lcodes, int dcodes, + int blcodes) { + int rank; /* index in bl_order */ + + Assert (lcodes >= 257 && dcodes >= 1 && blcodes >= 4, "not enough codes"); + Assert (lcodes <= L_CODES && dcodes <= D_CODES && blcodes <= BL_CODES, + "too many codes"); + Tracev((stderr, "\nbl counts: ")); + send_bits(s, lcodes - 257, 5); /* not +255 as stated in appnote.txt */ + send_bits(s, dcodes - 1, 5); + send_bits(s, blcodes - 4, 4); /* not -3 as stated in appnote.txt */ + for (rank = 0; rank < blcodes; rank++) { + Tracev((stderr, "\nbl code %2d ", bl_order[rank])); + send_bits(s, s->bl_tree[bl_order[rank]].Len, 3); + } + Tracev((stderr, "\nbl tree: sent %lu", s->bits_sent)); + + send_tree(s, (ct_data *)s->dyn_ltree, lcodes - 1); /* literal tree */ + Tracev((stderr, "\nlit tree: sent %lu", s->bits_sent)); + + send_tree(s, (ct_data *)s->dyn_dtree, dcodes - 1); /* distance tree */ + Tracev((stderr, "\ndist tree: sent %lu", s->bits_sent)); +} + +/* =========================================================================== + * Send a stored block + */ +void ZLIB_INTERNAL _tr_stored_block(deflate_state *s, charf *buf, + ulg stored_len, int last) { + send_bits(s, (STORED_BLOCK<<1) + last, 3); /* send block type */ + bi_windup(s); /* align on byte boundary */ + put_short(s, (ush)stored_len); + put_short(s, (ush)~stored_len); + if (stored_len) + zmemcpy(s->pending_buf + s->pending, (Bytef *)buf, stored_len); + s->pending += stored_len; +#ifdef ZLIB_DEBUG + s->compressed_len = (s->compressed_len + 3 + 7) & (ulg)~7L; + s->compressed_len += (stored_len + 4) << 3; + s->bits_sent += 2*16; + s->bits_sent += stored_len << 3; +#endif +} + +/* =========================================================================== + * Flush the bits in the bit buffer to pending output (leaves at most 7 bits) + */ +void ZLIB_INTERNAL _tr_flush_bits(deflate_state *s) { + bi_flush(s); +} + +/* =========================================================================== + * Send one empty static block to give enough lookahead for inflate. + * This takes 10 bits, of which 7 may remain in the bit buffer. + */ +void ZLIB_INTERNAL _tr_align(deflate_state *s) { + send_bits(s, STATIC_TREES<<1, 3); + send_code(s, END_BLOCK, static_ltree); +#ifdef ZLIB_DEBUG + s->compressed_len += 10L; /* 3 for block type, 7 for EOB */ +#endif + bi_flush(s); +} + +/* =========================================================================== + * Send the block data compressed using the given Huffman trees + */ +local void compress_block(deflate_state *s, const ct_data *ltree, + const ct_data *dtree) { + unsigned dist; /* distance of matched string */ + int lc; /* match length or unmatched char (if dist == 0) */ + unsigned sx = 0; /* running index in symbol buffers */ + unsigned code; /* the code to send */ + int extra; /* number of extra bits to send */ + + if (s->sym_next != 0) do { +#ifdef LIT_MEM + dist = s->d_buf[sx]; + lc = s->l_buf[sx++]; +#else + dist = s->sym_buf[sx++] & 0xff; + dist += (unsigned)(s->sym_buf[sx++] & 0xff) << 8; + lc = s->sym_buf[sx++]; +#endif + if (dist == 0) { + send_code(s, lc, ltree); /* send a literal byte */ + Tracecv(isgraph(lc), (stderr," '%c' ", lc)); + } else { + /* Here, lc is the match length - MIN_MATCH */ + code = _length_code[lc]; + send_code(s, code + LITERALS + 1, ltree); /* send length code */ + extra = extra_lbits[code]; + if (extra != 0) { + lc -= base_length[code]; + send_bits(s, lc, extra); /* send the extra length bits */ + } + dist--; /* dist is now the match distance - 1 */ + code = d_code(dist); + Assert (code < D_CODES, "bad d_code"); + + send_code(s, code, dtree); /* send the distance code */ + extra = extra_dbits[code]; + if (extra != 0) { + dist -= (unsigned)base_dist[code]; + send_bits(s, (int)dist, extra); /* send the extra bits */ + } + } /* literal or match pair ? */ + + /* Check for no overlay of pending_buf on needed symbols */ +#ifdef LIT_MEM + Assert(s->pending < 2 * (s->lit_bufsize + sx), "pendingBuf overflow"); +#else + Assert(s->pending < s->lit_bufsize + sx, "pendingBuf overflow"); +#endif + + } while (sx < s->sym_next); + + send_code(s, END_BLOCK, ltree); +} + +/* =========================================================================== + * Check if the data type is TEXT or BINARY, using the following algorithm: + * - TEXT if the two conditions below are satisfied: + * a) There are no non-portable control characters belonging to the + * "block list" (0..6, 14..25, 28..31). + * b) There is at least one printable character belonging to the + * "allow list" (9 {TAB}, 10 {LF}, 13 {CR}, 32..255). + * - BINARY otherwise. + * - The following partially-portable control characters form a + * "gray list" that is ignored in this detection algorithm: + * (7 {BEL}, 8 {BS}, 11 {VT}, 12 {FF}, 26 {SUB}, 27 {ESC}). + * IN assertion: the fields Freq of dyn_ltree are set. + */ +local int detect_data_type(deflate_state *s) { + /* block_mask is the bit mask of block-listed bytes + * set bits 0..6, 14..25, and 28..31 + * 0xf3ffc07f = binary 11110011111111111100000001111111 + */ + unsigned long block_mask = 0xf3ffc07fUL; + int n; + + /* Check for non-textual ("block-listed") bytes. */ + for (n = 0; n <= 31; n++, block_mask >>= 1) + if ((block_mask & 1) && (s->dyn_ltree[n].Freq != 0)) + return Z_BINARY; + + /* Check for textual ("allow-listed") bytes. */ + if (s->dyn_ltree[9].Freq != 0 || s->dyn_ltree[10].Freq != 0 + || s->dyn_ltree[13].Freq != 0) + return Z_TEXT; + for (n = 32; n < LITERALS; n++) + if (s->dyn_ltree[n].Freq != 0) + return Z_TEXT; + + /* There are no "block-listed" or "allow-listed" bytes: + * this stream either is empty or has tolerated ("gray-listed") bytes only. + */ + return Z_BINARY; +} + +/* =========================================================================== + * Determine the best encoding for the current block: dynamic trees, static + * trees or store, and write out the encoded block. + */ +void ZLIB_INTERNAL _tr_flush_block(deflate_state *s, charf *buf, + ulg stored_len, int last) { + ulg opt_lenb, static_lenb; /* opt_len and static_len in bytes */ + int max_blindex = 0; /* index of last bit length code of non zero freq */ + + /* Build the Huffman trees unless a stored block is forced */ + if (s->level > 0) { + + /* Check if the file is binary or text */ + if (s->strm->data_type == Z_UNKNOWN) + s->strm->data_type = detect_data_type(s); + + /* Construct the literal and distance trees */ + build_tree(s, (tree_desc *)(&(s->l_desc))); + Tracev((stderr, "\nlit data: dyn %lu, stat %lu", s->opt_len, + s->static_len)); + + build_tree(s, (tree_desc *)(&(s->d_desc))); + Tracev((stderr, "\ndist data: dyn %lu, stat %lu", s->opt_len, + s->static_len)); + /* At this point, opt_len and static_len are the total bit lengths of + * the compressed block data, excluding the tree representations. + */ + + /* Build the bit length tree for the above two trees, and get the index + * in bl_order of the last bit length code to send. + */ + max_blindex = build_bl_tree(s); + + /* Determine the best encoding. Compute the block lengths in bytes. */ + opt_lenb = (s->opt_len + 3 + 7) >> 3; + static_lenb = (s->static_len + 3 + 7) >> 3; + + Tracev((stderr, "\nopt %lu(%lu) stat %lu(%lu) stored %lu lit %u ", + opt_lenb, s->opt_len, static_lenb, s->static_len, stored_len, + s->sym_next / 3)); + +#ifndef FORCE_STATIC + if (static_lenb <= opt_lenb || s->strategy == Z_FIXED) +#endif + opt_lenb = static_lenb; + + } else { + Assert(buf != (char*)0, "lost buf"); + opt_lenb = static_lenb = stored_len + 5; /* force a stored block */ + } + +#ifdef FORCE_STORED + if (buf != (char*)0) { /* force stored block */ +#else + if (stored_len + 4 <= opt_lenb && buf != (char*)0) { + /* 4: two words for the lengths */ +#endif + /* The test buf != NULL is only necessary if LIT_BUFSIZE > WSIZE. + * Otherwise we can't have processed more than WSIZE input bytes since + * the last block flush, because compression would have been + * successful. If LIT_BUFSIZE <= WSIZE, it is never too late to + * transform a block into a stored block. + */ + _tr_stored_block(s, buf, stored_len, last); + + } else if (static_lenb == opt_lenb) { + send_bits(s, (STATIC_TREES<<1) + last, 3); + compress_block(s, (const ct_data *)static_ltree, + (const ct_data *)static_dtree); +#ifdef ZLIB_DEBUG + s->compressed_len += 3 + s->static_len; +#endif + } else { + send_bits(s, (DYN_TREES<<1) + last, 3); + send_all_trees(s, s->l_desc.max_code + 1, s->d_desc.max_code + 1, + max_blindex + 1); + compress_block(s, (const ct_data *)s->dyn_ltree, + (const ct_data *)s->dyn_dtree); +#ifdef ZLIB_DEBUG + s->compressed_len += 3 + s->opt_len; +#endif + } + Assert (s->compressed_len == s->bits_sent, "bad compressed size"); + /* The above check is made mod 2^32, for files larger than 512 MB + * and uLong implemented on 32 bits. + */ + init_block(s); + + if (last) { + bi_windup(s); +#ifdef ZLIB_DEBUG + s->compressed_len += 7; /* align on byte boundary */ +#endif + } + Tracev((stderr,"\ncomprlen %lu(%lu) ", s->compressed_len >> 3, + s->compressed_len - 7*(ulg)last)); +} + +/* =========================================================================== + * Save the match info and tally the frequency counts. Return true if + * the current block must be flushed. + */ +int ZLIB_INTERNAL _tr_tally(deflate_state *s, unsigned dist, unsigned lc) { +#ifdef LIT_MEM + s->d_buf[s->sym_next] = (ush)dist; + s->l_buf[s->sym_next++] = (uch)lc; +#else + s->sym_buf[s->sym_next++] = (uch)dist; + s->sym_buf[s->sym_next++] = (uch)(dist >> 8); + s->sym_buf[s->sym_next++] = (uch)lc; +#endif + if (dist == 0) { + /* lc is the unmatched char */ + s->dyn_ltree[lc].Freq++; + } else { + s->matches++; + /* Here, lc is the match length - MIN_MATCH */ + dist--; /* dist = match distance - 1 */ + Assert((ush)dist < (ush)MAX_DIST(s) && + (ush)lc <= (ush)(MAX_MATCH-MIN_MATCH) && + (ush)d_code(dist) < (ush)D_CODES, "_tr_tally: bad match"); + + s->dyn_ltree[_length_code[lc] + LITERALS + 1].Freq++; + s->dyn_dtree[d_code(dist)].Freq++; + } + return (s->sym_next == s->sym_end); +} diff --git a/Minecraft.Client/Common/zlib/trees.h b/Minecraft.Client/Common/zlib/trees.h new file mode 100644 index 0000000..d35639d --- /dev/null +++ b/Minecraft.Client/Common/zlib/trees.h @@ -0,0 +1,128 @@ +/* header created automatically with -DGEN_TREES_H */ + +local const ct_data static_ltree[L_CODES+2] = { +{{ 12},{ 8}}, {{140},{ 8}}, {{ 76},{ 8}}, {{204},{ 8}}, {{ 44},{ 8}}, +{{172},{ 8}}, {{108},{ 8}}, {{236},{ 8}}, {{ 28},{ 8}}, {{156},{ 8}}, +{{ 92},{ 8}}, {{220},{ 8}}, {{ 60},{ 8}}, {{188},{ 8}}, {{124},{ 8}}, +{{252},{ 8}}, {{ 2},{ 8}}, {{130},{ 8}}, {{ 66},{ 8}}, {{194},{ 8}}, +{{ 34},{ 8}}, {{162},{ 8}}, {{ 98},{ 8}}, {{226},{ 8}}, {{ 18},{ 8}}, +{{146},{ 8}}, {{ 82},{ 8}}, {{210},{ 8}}, {{ 50},{ 8}}, {{178},{ 8}}, +{{114},{ 8}}, {{242},{ 8}}, {{ 10},{ 8}}, {{138},{ 8}}, {{ 74},{ 8}}, +{{202},{ 8}}, {{ 42},{ 8}}, {{170},{ 8}}, {{106},{ 8}}, {{234},{ 8}}, +{{ 26},{ 8}}, {{154},{ 8}}, {{ 90},{ 8}}, {{218},{ 8}}, {{ 58},{ 8}}, +{{186},{ 8}}, {{122},{ 8}}, {{250},{ 8}}, {{ 6},{ 8}}, {{134},{ 8}}, +{{ 70},{ 8}}, {{198},{ 8}}, {{ 38},{ 8}}, {{166},{ 8}}, {{102},{ 8}}, +{{230},{ 8}}, {{ 22},{ 8}}, {{150},{ 8}}, {{ 86},{ 8}}, {{214},{ 8}}, +{{ 54},{ 8}}, {{182},{ 8}}, {{118},{ 8}}, {{246},{ 8}}, {{ 14},{ 8}}, +{{142},{ 8}}, {{ 78},{ 8}}, {{206},{ 8}}, {{ 46},{ 8}}, {{174},{ 8}}, +{{110},{ 8}}, {{238},{ 8}}, {{ 30},{ 8}}, {{158},{ 8}}, {{ 94},{ 8}}, +{{222},{ 8}}, {{ 62},{ 8}}, {{190},{ 8}}, {{126},{ 8}}, {{254},{ 8}}, +{{ 1},{ 8}}, {{129},{ 8}}, {{ 65},{ 8}}, {{193},{ 8}}, {{ 33},{ 8}}, +{{161},{ 8}}, {{ 97},{ 8}}, {{225},{ 8}}, {{ 17},{ 8}}, {{145},{ 8}}, +{{ 81},{ 8}}, {{209},{ 8}}, {{ 49},{ 8}}, {{177},{ 8}}, {{113},{ 8}}, +{{241},{ 8}}, {{ 9},{ 8}}, {{137},{ 8}}, {{ 73},{ 8}}, {{201},{ 8}}, +{{ 41},{ 8}}, {{169},{ 8}}, {{105},{ 8}}, {{233},{ 8}}, {{ 25},{ 8}}, +{{153},{ 8}}, {{ 89},{ 8}}, {{217},{ 8}}, {{ 57},{ 8}}, {{185},{ 8}}, +{{121},{ 8}}, {{249},{ 8}}, {{ 5},{ 8}}, {{133},{ 8}}, {{ 69},{ 8}}, +{{197},{ 8}}, {{ 37},{ 8}}, {{165},{ 8}}, {{101},{ 8}}, {{229},{ 8}}, +{{ 21},{ 8}}, {{149},{ 8}}, {{ 85},{ 8}}, {{213},{ 8}}, {{ 53},{ 8}}, +{{181},{ 8}}, {{117},{ 8}}, {{245},{ 8}}, {{ 13},{ 8}}, {{141},{ 8}}, +{{ 77},{ 8}}, {{205},{ 8}}, {{ 45},{ 8}}, {{173},{ 8}}, {{109},{ 8}}, +{{237},{ 8}}, {{ 29},{ 8}}, {{157},{ 8}}, {{ 93},{ 8}}, {{221},{ 8}}, +{{ 61},{ 8}}, {{189},{ 8}}, {{125},{ 8}}, {{253},{ 8}}, {{ 19},{ 9}}, +{{275},{ 9}}, {{147},{ 9}}, {{403},{ 9}}, {{ 83},{ 9}}, {{339},{ 9}}, +{{211},{ 9}}, {{467},{ 9}}, {{ 51},{ 9}}, {{307},{ 9}}, {{179},{ 9}}, +{{435},{ 9}}, {{115},{ 9}}, {{371},{ 9}}, {{243},{ 9}}, {{499},{ 9}}, +{{ 11},{ 9}}, {{267},{ 9}}, {{139},{ 9}}, {{395},{ 9}}, {{ 75},{ 9}}, +{{331},{ 9}}, {{203},{ 9}}, {{459},{ 9}}, {{ 43},{ 9}}, {{299},{ 9}}, +{{171},{ 9}}, {{427},{ 9}}, {{107},{ 9}}, {{363},{ 9}}, {{235},{ 9}}, +{{491},{ 9}}, {{ 27},{ 9}}, {{283},{ 9}}, {{155},{ 9}}, {{411},{ 9}}, +{{ 91},{ 9}}, {{347},{ 9}}, {{219},{ 9}}, {{475},{ 9}}, {{ 59},{ 9}}, +{{315},{ 9}}, {{187},{ 9}}, {{443},{ 9}}, {{123},{ 9}}, {{379},{ 9}}, +{{251},{ 9}}, {{507},{ 9}}, {{ 7},{ 9}}, {{263},{ 9}}, {{135},{ 9}}, +{{391},{ 9}}, {{ 71},{ 9}}, {{327},{ 9}}, {{199},{ 9}}, {{455},{ 9}}, +{{ 39},{ 9}}, {{295},{ 9}}, {{167},{ 9}}, {{423},{ 9}}, {{103},{ 9}}, +{{359},{ 9}}, {{231},{ 9}}, {{487},{ 9}}, {{ 23},{ 9}}, {{279},{ 9}}, +{{151},{ 9}}, {{407},{ 9}}, {{ 87},{ 9}}, {{343},{ 9}}, {{215},{ 9}}, +{{471},{ 9}}, {{ 55},{ 9}}, {{311},{ 9}}, {{183},{ 9}}, {{439},{ 9}}, +{{119},{ 9}}, {{375},{ 9}}, {{247},{ 9}}, {{503},{ 9}}, {{ 15},{ 9}}, +{{271},{ 9}}, {{143},{ 9}}, {{399},{ 9}}, {{ 79},{ 9}}, {{335},{ 9}}, +{{207},{ 9}}, {{463},{ 9}}, {{ 47},{ 9}}, {{303},{ 9}}, {{175},{ 9}}, +{{431},{ 9}}, {{111},{ 9}}, {{367},{ 9}}, {{239},{ 9}}, {{495},{ 9}}, +{{ 31},{ 9}}, {{287},{ 9}}, {{159},{ 9}}, {{415},{ 9}}, {{ 95},{ 9}}, +{{351},{ 9}}, {{223},{ 9}}, {{479},{ 9}}, {{ 63},{ 9}}, {{319},{ 9}}, +{{191},{ 9}}, {{447},{ 9}}, {{127},{ 9}}, {{383},{ 9}}, {{255},{ 9}}, +{{511},{ 9}}, {{ 0},{ 7}}, {{ 64},{ 7}}, {{ 32},{ 7}}, {{ 96},{ 7}}, +{{ 16},{ 7}}, {{ 80},{ 7}}, {{ 48},{ 7}}, {{112},{ 7}}, {{ 8},{ 7}}, +{{ 72},{ 7}}, {{ 40},{ 7}}, {{104},{ 7}}, {{ 24},{ 7}}, {{ 88},{ 7}}, +{{ 56},{ 7}}, {{120},{ 7}}, {{ 4},{ 7}}, {{ 68},{ 7}}, {{ 36},{ 7}}, +{{100},{ 7}}, {{ 20},{ 7}}, {{ 84},{ 7}}, {{ 52},{ 7}}, {{116},{ 7}}, +{{ 3},{ 8}}, {{131},{ 8}}, {{ 67},{ 8}}, {{195},{ 8}}, {{ 35},{ 8}}, +{{163},{ 8}}, {{ 99},{ 8}}, {{227},{ 8}} +}; + +local const ct_data static_dtree[D_CODES] = { +{{ 0},{ 5}}, {{16},{ 5}}, {{ 8},{ 5}}, {{24},{ 5}}, {{ 4},{ 5}}, +{{20},{ 5}}, {{12},{ 5}}, {{28},{ 5}}, {{ 2},{ 5}}, {{18},{ 5}}, +{{10},{ 5}}, {{26},{ 5}}, {{ 6},{ 5}}, {{22},{ 5}}, {{14},{ 5}}, +{{30},{ 5}}, {{ 1},{ 5}}, {{17},{ 5}}, {{ 9},{ 5}}, {{25},{ 5}}, +{{ 5},{ 5}}, {{21},{ 5}}, {{13},{ 5}}, {{29},{ 5}}, {{ 3},{ 5}}, +{{19},{ 5}}, {{11},{ 5}}, {{27},{ 5}}, {{ 7},{ 5}}, {{23},{ 5}} +}; + +const uch ZLIB_INTERNAL _dist_code[DIST_CODE_LEN] = { + 0, 1, 2, 3, 4, 4, 5, 5, 6, 6, 6, 6, 7, 7, 7, 7, 8, 8, 8, 8, + 8, 8, 8, 8, 9, 9, 9, 9, 9, 9, 9, 9, 10, 10, 10, 10, 10, 10, 10, 10, +10, 10, 10, 10, 10, 10, 10, 10, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, 11, +11, 11, 11, 11, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, +12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 12, 13, 13, 13, 13, +13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, 13, +13, 13, 13, 13, 13, 13, 13, 13, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, +14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, +14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, +14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 14, 15, 15, 15, 15, 15, 15, 15, 15, +15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, +15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, +15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 15, 0, 0, 16, 17, +18, 18, 19, 19, 20, 20, 20, 20, 21, 21, 21, 21, 22, 22, 22, 22, 22, 22, 22, 22, +23, 23, 23, 23, 23, 23, 23, 23, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, +24, 24, 24, 24, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, +26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, +26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 27, 27, 27, 27, 27, 27, 27, 27, +27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, +27, 27, 27, 27, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, +28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, +28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, 28, +28, 28, 28, 28, 28, 28, 28, 28, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, +29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, +29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, +29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29, 29 +}; + +const uch ZLIB_INTERNAL _length_code[MAX_MATCH-MIN_MATCH+1]= { + 0, 1, 2, 3, 4, 5, 6, 7, 8, 8, 9, 9, 10, 10, 11, 11, 12, 12, 12, 12, +13, 13, 13, 13, 14, 14, 14, 14, 15, 15, 15, 15, 16, 16, 16, 16, 16, 16, 16, 16, +17, 17, 17, 17, 17, 17, 17, 17, 18, 18, 18, 18, 18, 18, 18, 18, 19, 19, 19, 19, +19, 19, 19, 19, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, 20, +21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 21, 22, 22, 22, 22, +22, 22, 22, 22, 22, 22, 22, 22, 22, 22, 22, 22, 23, 23, 23, 23, 23, 23, 23, 23, +23, 23, 23, 23, 23, 23, 23, 23, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, +24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, 24, +25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, +25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 25, 26, 26, 26, 26, 26, 26, 26, 26, +26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, 26, +26, 26, 26, 26, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, +27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 27, 28 +}; + +local const int base_length[LENGTH_CODES] = { +0, 1, 2, 3, 4, 5, 6, 7, 8, 10, 12, 14, 16, 20, 24, 28, 32, 40, 48, 56, +64, 80, 96, 112, 128, 160, 192, 224, 0 +}; + +local const int base_dist[D_CODES] = { + 0, 1, 2, 3, 4, 6, 8, 12, 16, 24, + 32, 48, 64, 96, 128, 192, 256, 384, 512, 768, + 1024, 1536, 2048, 3072, 4096, 6144, 8192, 12288, 16384, 24576 +}; + diff --git a/Minecraft.Client/Common/zlib/uncompr.c b/Minecraft.Client/Common/zlib/uncompr.c new file mode 100644 index 0000000..2195e78 --- /dev/null +++ b/Minecraft.Client/Common/zlib/uncompr.c @@ -0,0 +1,101 @@ +/* uncompr.c -- decompress a memory buffer + * Copyright (C) 1995-2026 Jean-loup Gailly, Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* @(#) $Id$ */ + +#define ZLIB_INTERNAL +#include "zlib.h" + +/* =========================================================================== + Decompresses the source buffer into the destination buffer. *sourceLen is + the byte length of the source buffer. Upon entry, *destLen is the total size + of the destination buffer, which must be large enough to hold the entire + uncompressed data. (The size of the uncompressed data must have been saved + previously by the compressor and transmitted to the decompressor by some + mechanism outside the scope of this compression library.) Upon exit, + *destLen is the size of the decompressed data and *sourceLen is the number + of source bytes consumed. Upon return, source + *sourceLen points to the + first unused input byte. + + uncompress returns Z_OK if success, Z_MEM_ERROR if there was not enough + memory, Z_BUF_ERROR if there was not enough room in the output buffer, or + Z_DATA_ERROR if the input data was corrupted, including if the input data is + an incomplete zlib stream. + + The _z versions of the functions take size_t length arguments. +*/ +int ZEXPORT uncompress2_z(Bytef *dest, z_size_t *destLen, const Bytef *source, + z_size_t *sourceLen) { + z_stream stream; + int err; + const uInt max = (uInt)-1; + z_size_t len, left; + + if (sourceLen == NULL || (*sourceLen > 0 && source == NULL) || + destLen == NULL || (*destLen > 0 && dest == NULL)) + return Z_STREAM_ERROR; + + len = *sourceLen; + left = *destLen; + if (left == 0 && dest == Z_NULL) + dest = (Bytef *)&stream.reserved; /* next_out cannot be NULL */ + + stream.next_in = (z_const Bytef *)source; + stream.avail_in = 0; + stream.zalloc = (alloc_func)0; + stream.zfree = (free_func)0; + stream.opaque = (voidpf)0; + + err = inflateInit(&stream); + if (err != Z_OK) return err; + + stream.next_out = dest; + stream.avail_out = 0; + + do { + if (stream.avail_out == 0) { + stream.avail_out = left > (z_size_t)max ? max : (uInt)left; + left -= stream.avail_out; + } + if (stream.avail_in == 0) { + stream.avail_in = len > (z_size_t)max ? max : (uInt)len; + len -= stream.avail_in; + } + err = inflate(&stream, Z_NO_FLUSH); + } while (err == Z_OK); + + /* Set len and left to the unused input data and unused output space. Set + *sourceLen to the amount of input consumed. Set *destLen to the amount + of data produced. */ + len += stream.avail_in; + left += stream.avail_out; + *sourceLen -= len; + *destLen -= left; + + inflateEnd(&stream); + return err == Z_STREAM_END ? Z_OK : + err == Z_NEED_DICT ? Z_DATA_ERROR : + err == Z_BUF_ERROR && len == 0 ? Z_DATA_ERROR : + err; +} +int ZEXPORT uncompress2(Bytef *dest, uLongf *destLen, const Bytef *source, + uLong *sourceLen) { + int ret; + z_size_t got = *destLen, used = *sourceLen; + ret = uncompress2_z(dest, &got, source, &used); + *sourceLen = (uLong)used; + *destLen = (uLong)got; + return ret; +} +int ZEXPORT uncompress_z(Bytef *dest, z_size_t *destLen, const Bytef *source, + z_size_t sourceLen) { + z_size_t used = sourceLen; + return uncompress2_z(dest, destLen, source, &used); +} +int ZEXPORT uncompress(Bytef *dest, uLongf *destLen, const Bytef *source, + uLong sourceLen) { + uLong used = sourceLen; + return uncompress2(dest, destLen, source, &used); +} diff --git a/Minecraft.Client/Common/zlib/zconf.h b/Minecraft.Client/Common/zlib/zconf.h new file mode 100644 index 0000000..828ca61 --- /dev/null +++ b/Minecraft.Client/Common/zlib/zconf.h @@ -0,0 +1,551 @@ +/* zconf.h -- configuration of the zlib compression library + * Copyright (C) 1995-2026 Jean-loup Gailly, Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* @(#) $Id$ */ + +#ifndef ZCONF_H +#define ZCONF_H + +/* + * If you *really* need a unique prefix for all types and library functions, + * compile with -DZ_PREFIX. The "standard" zlib should be compiled without it. + * Even better than compiling with -DZ_PREFIX would be to use configure to set + * this permanently in zconf.h using "./configure --zprefix". + */ +#ifdef Z_PREFIX /* may be set to #if 1 by ./configure */ +# define Z_PREFIX_SET + +/* all linked symbols and init macros */ +# define _dist_code z__dist_code +# define _length_code z__length_code +# define _tr_align z__tr_align +# define _tr_flush_bits z__tr_flush_bits +# define _tr_flush_block z__tr_flush_block +# define _tr_init z__tr_init +# define _tr_stored_block z__tr_stored_block +# define _tr_tally z__tr_tally +# define adler32 z_adler32 +# define adler32_combine z_adler32_combine +# define adler32_combine64 z_adler32_combine64 +# define adler32_z z_adler32_z +# ifndef Z_SOLO +# define compress z_compress +# define compress2 z_compress2 +# define compress_z z_compress_z +# define compress2_z z_compress2_z +# define compressBound z_compressBound +# define compressBound_z z_compressBound_z +# endif +# define crc32 z_crc32 +# define crc32_combine z_crc32_combine +# define crc32_combine64 z_crc32_combine64 +# define crc32_combine_gen z_crc32_combine_gen +# define crc32_combine_gen64 z_crc32_combine_gen64 +# define crc32_combine_op z_crc32_combine_op +# define crc32_z z_crc32_z +# define deflate z_deflate +# define deflateBound z_deflateBound +# define deflateBound_z z_deflateBound_z +# define deflateCopy z_deflateCopy +# define deflateEnd z_deflateEnd +# define deflateGetDictionary z_deflateGetDictionary +# define deflateInit z_deflateInit +# define deflateInit2 z_deflateInit2 +# define deflateInit2_ z_deflateInit2_ +# define deflateInit_ z_deflateInit_ +# define deflateParams z_deflateParams +# define deflatePending z_deflatePending +# define deflatePrime z_deflatePrime +# define deflateReset z_deflateReset +# define deflateResetKeep z_deflateResetKeep +# define deflateSetDictionary z_deflateSetDictionary +# define deflateSetHeader z_deflateSetHeader +# define deflateTune z_deflateTune +# define deflateUsed z_deflateUsed +# define deflate_copyright z_deflate_copyright +# define get_crc_table z_get_crc_table +# ifndef Z_SOLO +# define gz_error z_gz_error +# define gz_intmax z_gz_intmax +# define gz_strwinerror z_gz_strwinerror +# define gzbuffer z_gzbuffer +# define gzclearerr z_gzclearerr +# define gzclose z_gzclose +# define gzclose_r z_gzclose_r +# define gzclose_w z_gzclose_w +# define gzdirect z_gzdirect +# define gzdopen z_gzdopen +# define gzeof z_gzeof +# define gzerror z_gzerror +# define gzflush z_gzflush +# define gzfread z_gzfread +# define gzfwrite z_gzfwrite +# define gzgetc z_gzgetc +# define gzgetc_ z_gzgetc_ +# define gzgets z_gzgets +# define gzoffset z_gzoffset +# define gzoffset64 z_gzoffset64 +# define gzopen z_gzopen +# define gzopen64 z_gzopen64 +# ifdef _WIN32 +# define gzopen_w z_gzopen_w +# endif +# define gzprintf z_gzprintf +# define gzputc z_gzputc +# define gzputs z_gzputs +# define gzread z_gzread +# define gzrewind z_gzrewind +# define gzseek z_gzseek +# define gzseek64 z_gzseek64 +# define gzsetparams z_gzsetparams +# define gztell z_gztell +# define gztell64 z_gztell64 +# define gzungetc z_gzungetc +# define gzvprintf z_gzvprintf +# define gzwrite z_gzwrite +# endif +# define inflate z_inflate +# define inflateBack z_inflateBack +# define inflateBackEnd z_inflateBackEnd +# define inflateBackInit z_inflateBackInit +# define inflateBackInit_ z_inflateBackInit_ +# define inflateCodesUsed z_inflateCodesUsed +# define inflateCopy z_inflateCopy +# define inflateEnd z_inflateEnd +# define inflateGetDictionary z_inflateGetDictionary +# define inflateGetHeader z_inflateGetHeader +# define inflateInit z_inflateInit +# define inflateInit2 z_inflateInit2 +# define inflateInit2_ z_inflateInit2_ +# define inflateInit_ z_inflateInit_ +# define inflateMark z_inflateMark +# define inflatePrime z_inflatePrime +# define inflateReset z_inflateReset +# define inflateReset2 z_inflateReset2 +# define inflateResetKeep z_inflateResetKeep +# define inflateSetDictionary z_inflateSetDictionary +# define inflateSync z_inflateSync +# define inflateSyncPoint z_inflateSyncPoint +# define inflateUndermine z_inflateUndermine +# define inflateValidate z_inflateValidate +# define inflate_copyright z_inflate_copyright +# define inflate_fast z_inflate_fast +# define inflate_table z_inflate_table +# define inflate_fixed z_inflate_fixed +# ifndef Z_SOLO +# define uncompress z_uncompress +# define uncompress2 z_uncompress2 +# define uncompress_z z_uncompress_z +# define uncompress2_z z_uncompress2_z +# endif +# define zError z_zError +# ifndef Z_SOLO +# define zcalloc z_zcalloc +# define zcfree z_zcfree +# endif +# define zlibCompileFlags z_zlibCompileFlags +# define zlibVersion z_zlibVersion + +/* all zlib typedefs in zlib.h and zconf.h */ +# define Byte z_Byte +# define Bytef z_Bytef +# define alloc_func z_alloc_func +# define charf z_charf +# define free_func z_free_func +# ifndef Z_SOLO +# define gzFile z_gzFile +# endif +# define gz_header z_gz_header +# define gz_headerp z_gz_headerp +# define in_func z_in_func +# define intf z_intf +# define out_func z_out_func +# define uInt z_uInt +# define uIntf z_uIntf +# define uLong z_uLong +# define uLongf z_uLongf +# define voidp z_voidp +# define voidpc z_voidpc +# define voidpf z_voidpf + +/* all zlib structs in zlib.h and zconf.h */ +# define gz_header_s z_gz_header_s +# define internal_state z_internal_state + +#endif + +#if defined(__MSDOS__) && !defined(MSDOS) +# define MSDOS +#endif +#if (defined(OS_2) || defined(__OS2__)) && !defined(OS2) +# define OS2 +#endif +#if defined(_WINDOWS) && !defined(WINDOWS) +# define WINDOWS +#endif +#if defined(_WIN32) || defined(_WIN32_WCE) || defined(__WIN32__) +# ifndef WIN32 +# define WIN32 +# endif +#endif +#if (defined(MSDOS) || defined(OS2) || defined(WINDOWS)) && !defined(WIN32) +# if !defined(__GNUC__) && !defined(__FLAT__) && !defined(__386__) +# ifndef SYS16BIT +# define SYS16BIT +# endif +# endif +#endif + +/* + * Compile with -DMAXSEG_64K if the alloc function cannot allocate more + * than 64k bytes at a time (needed on systems with 16-bit int). + */ +#ifdef SYS16BIT +# define MAXSEG_64K +#endif +#ifdef MSDOS +# define UNALIGNED_OK +#endif + +#ifdef __STDC_VERSION__ +# ifndef STDC +# define STDC +# endif +# if __STDC_VERSION__ >= 199901L +# ifndef STDC99 +# define STDC99 +# endif +# endif +#endif +#if !defined(STDC) && (defined(__STDC__) || defined(__cplusplus)) +# define STDC +#endif +#if !defined(STDC) && (defined(__GNUC__) || defined(__BORLANDC__)) +# define STDC +#endif +#if !defined(STDC) && (defined(MSDOS) || defined(WINDOWS) || defined(WIN32)) +# define STDC +#endif +#if !defined(STDC) && (defined(OS2) || defined(__HOS_AIX__)) +# define STDC +#endif + +#if defined(__OS400__) && !defined(STDC) /* iSeries (formerly AS/400). */ +# define STDC +#endif + +#ifndef STDC +# ifndef const /* cannot use !defined(STDC) && !defined(const) on Mac */ +# define const /* note: need a more gentle solution here */ +# endif +#endif + +#ifndef z_const +# ifdef ZLIB_CONST +# define z_const const +# else +# define z_const +# endif +#endif + +#ifdef Z_SOLO +# ifdef _WIN64 + typedef unsigned long long z_size_t; +# else + typedef unsigned long z_size_t; +# endif +#else +# define z_longlong long long +# if defined(NO_SIZE_T) + typedef unsigned NO_SIZE_T z_size_t; +# elif defined(STDC) +# include + typedef size_t z_size_t; +# else + typedef unsigned long z_size_t; +# endif +# undef z_longlong +#endif + +/* Maximum value for memLevel in deflateInit2 */ +#ifndef MAX_MEM_LEVEL +# ifdef MAXSEG_64K +# define MAX_MEM_LEVEL 8 +# else +# define MAX_MEM_LEVEL 9 +# endif +#endif + +/* Maximum value for windowBits in deflateInit2 and inflateInit2. + * WARNING: reducing MAX_WBITS makes minigzip unable to extract .gz files + * created by gzip. (Files created by minigzip can still be extracted by + * gzip.) + */ +#ifndef MAX_WBITS +# define MAX_WBITS 15 /* 32K LZ77 window */ +#endif + +/* The memory requirements for deflate are (in bytes): + (1 << (windowBits+2)) + (1 << (memLevel+9)) + that is: 128K for windowBits=15 + 128K for memLevel = 8 (default values) + plus a few kilobytes for small objects. For example, if you want to reduce + the default memory requirements from 256K to 128K, compile with + make CFLAGS="-O -DMAX_WBITS=14 -DMAX_MEM_LEVEL=7" + Of course this will generally degrade compression (there's no free lunch). + + The memory requirements for inflate are (in bytes) 1 << windowBits + that is, 32K for windowBits=15 (default value) plus about 7 kilobytes + for small objects. +*/ + + /* Type declarations */ + +#ifndef OF /* function prototypes */ +# ifdef STDC +# define OF(args) args +# else +# define OF(args) () +# endif +#endif + +/* The following definitions for FAR are needed only for MSDOS mixed + * model programming (small or medium model with some far allocations). + * This was tested only with MSC; for other MSDOS compilers you may have + * to define NO_MEMCPY in zutil.h. If you don't need the mixed model, + * just define FAR to be empty. + */ +#ifdef SYS16BIT +# if defined(M_I86SM) || defined(M_I86MM) + /* MSC small or medium model */ +# define SMALL_MEDIUM +# ifdef _MSC_VER +# define FAR _far +# else +# define FAR far +# endif +# endif +# if (defined(__SMALL__) || defined(__MEDIUM__)) + /* Turbo C small or medium model */ +# define SMALL_MEDIUM +# ifdef __BORLANDC__ +# define FAR _far +# else +# define FAR far +# endif +# endif +#endif + +#if defined(WINDOWS) || defined(WIN32) + /* If building or using zlib as a DLL, define ZLIB_DLL. + * This is not mandatory, but it offers a little performance increase. + */ +# ifdef ZLIB_DLL +# if defined(WIN32) && (!defined(__BORLANDC__) || (__BORLANDC__ >= 0x500)) +# ifdef ZLIB_INTERNAL +# define ZEXTERN extern __declspec(dllexport) +# else +# define ZEXTERN extern __declspec(dllimport) +# endif +# endif +# endif /* ZLIB_DLL */ + /* If building or using zlib with the WINAPI/WINAPIV calling convention, + * define ZLIB_WINAPI. + * Caution: the standard ZLIB1.DLL is NOT compiled using ZLIB_WINAPI. + */ +# ifdef ZLIB_WINAPI +# ifdef FAR +# undef FAR +# endif +# ifndef WIN32_LEAN_AND_MEAN +# define WIN32_LEAN_AND_MEAN +# endif +# include + /* No need for _export, use ZLIB.DEF instead. */ + /* For complete Windows compatibility, use WINAPI, not __stdcall. */ +# define ZEXPORT WINAPI +# ifdef WIN32 +# define ZEXPORTVA WINAPIV +# else +# define ZEXPORTVA FAR CDECL +# endif +# endif +#endif + +#if defined (__BEOS__) +# ifdef ZLIB_DLL +# ifdef ZLIB_INTERNAL +# define ZEXPORT __declspec(dllexport) +# define ZEXPORTVA __declspec(dllexport) +# else +# define ZEXPORT __declspec(dllimport) +# define ZEXPORTVA __declspec(dllimport) +# endif +# endif +#endif + +#ifndef ZEXTERN +# define ZEXTERN extern +#endif +#ifndef ZEXPORT +# define ZEXPORT +#endif +#ifndef ZEXPORTVA +# define ZEXPORTVA +#endif + +#ifndef FAR +# define FAR +#endif + +#if !defined(__MACTYPES__) +typedef unsigned char Byte; /* 8 bits */ +#endif +typedef unsigned int uInt; /* 16 bits or more */ +typedef unsigned long uLong; /* 32 bits or more */ + +#ifdef SMALL_MEDIUM + /* Borland C/C++ and some old MSC versions ignore FAR inside typedef */ +# define Bytef Byte FAR +#else + typedef Byte FAR Bytef; +#endif +typedef char FAR charf; +typedef int FAR intf; +typedef uInt FAR uIntf; +typedef uLong FAR uLongf; + +#ifdef STDC + typedef void const *voidpc; + typedef void FAR *voidpf; + typedef void *voidp; +#else + typedef Byte const *voidpc; + typedef Byte FAR *voidpf; + typedef Byte *voidp; +#endif + +#if !defined(Z_U4) && !defined(Z_SOLO) && defined(STDC) +# include +# if (UINT_MAX == 0xffffffffUL) +# define Z_U4 unsigned +# elif (ULONG_MAX == 0xffffffffUL) +# define Z_U4 unsigned long +# elif (USHRT_MAX == 0xffffffffUL) +# define Z_U4 unsigned short +# endif +#endif + +#ifdef Z_U4 + typedef Z_U4 z_crc_t; +#else + typedef unsigned long z_crc_t; +#endif + +#if HAVE_UNISTD_H-0 /* may be set to #if 1 by ./configure */ +# define Z_HAVE_UNISTD_H +#endif + +#if HAVE_STDARG_H-0 /* may be set to #if 1 by ./configure */ +# define Z_HAVE_STDARG_H +#endif + +#ifdef STDC +# ifndef Z_SOLO +# include /* for off_t */ +# endif +#endif + +#if defined(STDC) || defined(Z_HAVE_STDARG_H) +# ifndef Z_SOLO +# include /* for va_list */ +# endif +#endif + +#ifdef _WIN32 +# ifndef Z_SOLO +# include /* for wchar_t */ +# endif +#endif + +/* a little trick to accommodate both "#define _LARGEFILE64_SOURCE" and + * "#define _LARGEFILE64_SOURCE 1" as requesting 64-bit operations, (even + * though the former does not conform to the LFS document), but considering + * both "#undef _LARGEFILE64_SOURCE" and "#define _LARGEFILE64_SOURCE 0" as + * equivalently requesting no 64-bit operations + */ +#if defined(_LARGEFILE64_SOURCE) && -_LARGEFILE64_SOURCE - -1 == 1 +# undef _LARGEFILE64_SOURCE +#endif + +#ifndef Z_HAVE_UNISTD_H +# if defined(__WATCOMC__) || defined(__GO32__) || \ + (defined(_LARGEFILE64_SOURCE) && !defined(_WIN32)) +# define Z_HAVE_UNISTD_H +# endif +#endif +#ifndef Z_SOLO +# if defined(Z_HAVE_UNISTD_H) +# include /* for SEEK_*, off_t, and _LFS64_LARGEFILE */ +# ifdef VMS +# include /* for off_t */ +# endif +# ifndef z_off_t +# define z_off_t off_t +# endif +# endif +#endif + +#if defined(_LFS64_LARGEFILE) && _LFS64_LARGEFILE-0 +# define Z_LFS64 +#endif + +#if defined(_LARGEFILE64_SOURCE) && defined(Z_LFS64) +# define Z_LARGE64 +#endif + +#if defined(_FILE_OFFSET_BITS) && _FILE_OFFSET_BITS-0 == 64 && defined(Z_LFS64) +# define Z_WANT64 +#endif + +#if !defined(SEEK_SET) && !defined(Z_SOLO) +# define SEEK_SET 0 /* Seek from beginning of file. */ +# define SEEK_CUR 1 /* Seek from current position. */ +# define SEEK_END 2 /* Set file pointer to EOF plus "offset" */ +#endif + +#ifndef z_off_t +# define z_off_t long long +#endif + +#if !defined(_WIN32) && defined(Z_LARGE64) +# define z_off64_t off64_t +#elif defined(__MINGW32__) +# define z_off64_t long long +#elif defined(_WIN32) && !defined(__GNUC__) +# define z_off64_t __int64 +#elif defined(__GO32__) +# define z_off64_t offset_t +#else +# define z_off64_t z_off_t +#endif + +/* MVS linker does not support external names larger than 8 bytes */ +#if defined(__MVS__) + #pragma map(deflateInit_,"DEIN") + #pragma map(deflateInit2_,"DEIN2") + #pragma map(deflateEnd,"DEEND") + #pragma map(deflateBound,"DEBND") + #pragma map(inflateInit_,"ININ") + #pragma map(inflateInit2_,"ININ2") + #pragma map(inflateEnd,"INEND") + #pragma map(inflateSync,"INSY") + #pragma map(inflateSetDictionary,"INSEDI") + #pragma map(compressBound,"CMBND") + #pragma map(inflate_table,"INTABL") + #pragma map(inflate_fast,"INFA") + #pragma map(inflate_copyright,"INCOPY") +#endif + +#endif /* ZCONF_H */ diff --git a/Minecraft.Client/Common/zlib/zlib.h b/Minecraft.Client/Common/zlib/zlib.h new file mode 100644 index 0000000..0a9e790 --- /dev/null +++ b/Minecraft.Client/Common/zlib/zlib.h @@ -0,0 +1,2057 @@ +/* zlib.h -- interface of the 'zlib' general purpose compression library + version 1.3.2.1, February xxth, 2026 + + Copyright (C) 1995-2026 Jean-loup Gailly and Mark Adler + + This software is provided 'as-is', without any express or implied + warranty. In no event will the authors be held liable for any damages + arising from the use of this software. + + Permission is granted to anyone to use this software for any purpose, + including commercial applications, and to alter it and redistribute it + freely, subject to the following restrictions: + + 1. The origin of this software must not be misrepresented; you must not + claim that you wrote the original software. If you use this software + in a product, an acknowledgment in the product documentation would be + appreciated but is not required. + 2. Altered source versions must be plainly marked as such, and must not be + misrepresented as being the original software. + 3. This notice may not be removed or altered from any source distribution. + + Jean-loup Gailly Mark Adler + jloup@gzip.org madler@alumni.caltech.edu + + + The data format used by the zlib library is described by RFCs (Request for + Comments) 1950 to 1952 at https://datatracker.ietf.org/doc/html/rfc1950 + (zlib format), rfc1951 (deflate format) and rfc1952 (gzip format). +*/ + +#ifndef ZLIB_H +#define ZLIB_H + +#ifdef ZLIB_BUILD +# include +#else +# include "zconf.h" +#endif + +#ifdef __cplusplus +extern "C" { +#endif + +#define ZLIB_VERSION "1.3.2.1-motley" +#define ZLIB_VERNUM 0x1321 +#define ZLIB_VER_MAJOR 1 +#define ZLIB_VER_MINOR 3 +#define ZLIB_VER_REVISION 2 +#define ZLIB_VER_SUBREVISION 1 + +/* + The 'zlib' compression library provides in-memory compression and + decompression functions, including integrity checks of the uncompressed data. + This version of the library supports only one compression method (deflation) + but other algorithms will be added later and will have the same stream + interface. + + Compression can be done in a single step if the buffers are large enough, + or can be done by repeated calls of the compression function. In the latter + case, the application must provide more input and/or consume the output + (providing more output space) before each call. + + The compressed data format used by default by the in-memory functions is + the zlib format, which is a zlib wrapper documented in RFC 1950, wrapped + around a deflate stream, which is itself documented in RFC 1951. + + The library also supports reading and writing files in gzip (.gz) format + with an interface similar to that of stdio using the functions that start + with "gz". The gzip format is different from the zlib format. gzip is a + gzip wrapper, documented in RFC 1952, wrapped around a deflate stream. + + This library can optionally read and write gzip and raw deflate streams in + memory as well. + + The zlib format was designed to be compact and fast for use in memory + and on communications channels. The gzip format was designed for single- + file compression on file systems, has a larger header than zlib to maintain + directory information, and uses a different, slower check method than zlib. + + The library does not install any signal handler. The decoder checks + the consistency of the compressed data, so the library should never crash + even in the case of corrupted input. +*/ + +typedef voidpf (*alloc_func)(voidpf opaque, uInt items, uInt size); +typedef void (*free_func)(voidpf opaque, voidpf address); + +struct internal_state; + +typedef struct z_stream_s { + z_const Bytef *next_in; /* next input byte */ + uInt avail_in; /* number of bytes available at next_in */ + uLong total_in; /* total number of input bytes read so far */ + + Bytef *next_out; /* next output byte will go here */ + uInt avail_out; /* remaining free space at next_out */ + uLong total_out; /* total number of bytes output so far */ + + z_const char *msg; /* last error message, NULL if no error */ + struct internal_state FAR *state; /* not visible by applications */ + + alloc_func zalloc; /* used to allocate the internal state */ + free_func zfree; /* used to free the internal state */ + voidpf opaque; /* private data object passed to zalloc and zfree */ + + int data_type; /* best guess about the data type: binary or text + for deflate, or the decoding state for inflate */ + uLong adler; /* Adler-32 or CRC-32 value of the uncompressed data */ + uLong reserved; /* reserved for future use */ +} z_stream; + +typedef z_stream FAR *z_streamp; + +/* + gzip header information passed to and from zlib routines. See RFC 1952 + for more details on the meanings of these fields. +*/ +typedef struct gz_header_s { + int text; /* true if compressed data believed to be text */ + uLong time; /* modification time */ + int xflags; /* extra flags (not used when writing a gzip file) */ + int os; /* operating system */ + Bytef *extra; /* pointer to extra field or Z_NULL if none */ + uInt extra_len; /* extra field length (valid if extra != Z_NULL) */ + uInt extra_max; /* space at extra (only when reading header) */ + Bytef *name; /* pointer to zero-terminated file name or Z_NULL */ + uInt name_max; /* space at name (only when reading header) */ + Bytef *comment; /* pointer to zero-terminated comment or Z_NULL */ + uInt comm_max; /* space at comment (only when reading header) */ + int hcrc; /* true if there was or will be a header crc */ + int done; /* true when done reading gzip header (not used + when writing a gzip file) */ +} gz_header; + +typedef gz_header FAR *gz_headerp; + +/* + The application must update next_in and avail_in when avail_in has dropped + to zero. It must update next_out and avail_out when avail_out has dropped + to zero. The application must initialize zalloc, zfree and opaque before + calling the init function. All other fields are set by the compression + library and must not be updated by the application. + + The opaque value provided by the application will be passed as the first + parameter for calls of zalloc and zfree. This can be useful for custom + memory management. The compression library attaches no meaning to the + opaque value. + + zalloc must return Z_NULL if there is not enough memory for the object. + If zlib is used in a multi-threaded application, zalloc and zfree must be + thread safe. In that case, zlib is thread-safe. When zalloc and zfree are + Z_NULL on entry to the initialization function, they are set to internal + routines that use the standard library functions malloc() and free(). + + On 16-bit systems, the functions zalloc and zfree must be able to allocate + exactly 65536 bytes, but will not be required to allocate more than this if + the symbol MAXSEG_64K is defined (see zconf.h). WARNING: On MSDOS, pointers + returned by zalloc for objects of exactly 65536 bytes *must* have their + offset normalized to zero. The default allocation function provided by this + library ensures this (see zutil.c). To reduce memory requirements and avoid + any allocation of 64K objects, at the expense of compression ratio, compile + the library with -DMAX_WBITS=14 (see zconf.h). + + The fields total_in and total_out can be used for statistics or progress + reports. After compression, total_in holds the total size of the + uncompressed data and may be saved for use by the decompressor (particularly + if the decompressor wants to decompress everything in a single step). +*/ + + /* constants */ + +#define Z_NO_FLUSH 0 +#define Z_PARTIAL_FLUSH 1 +#define Z_SYNC_FLUSH 2 +#define Z_FULL_FLUSH 3 +#define Z_FINISH 4 +#define Z_BLOCK 5 +#define Z_TREES 6 +/* Allowed flush values; see deflate() and inflate() below for details */ + +#define Z_OK 0 +#define Z_STREAM_END 1 +#define Z_NEED_DICT 2 +#define Z_ERRNO (-1) +#define Z_STREAM_ERROR (-2) +#define Z_DATA_ERROR (-3) +#define Z_MEM_ERROR (-4) +#define Z_BUF_ERROR (-5) +#define Z_VERSION_ERROR (-6) +/* Return codes for the compression/decompression functions. Negative values + * are errors, positive values are used for special but normal events. + */ + +#define Z_NO_COMPRESSION 0 +#define Z_BEST_SPEED 1 +#define Z_BEST_COMPRESSION 9 +#define Z_DEFAULT_COMPRESSION (-1) +/* compression levels */ + +#define Z_FILTERED 1 +#define Z_HUFFMAN_ONLY 2 +#define Z_RLE 3 +#define Z_FIXED 4 +#define Z_DEFAULT_STRATEGY 0 +/* compression strategy; see deflateInit2() below for details */ + +#define Z_BINARY 0 +#define Z_TEXT 1 +#define Z_ASCII Z_TEXT /* for compatibility with 1.2.2 and earlier */ +#define Z_UNKNOWN 2 +/* Possible values of the data_type field for deflate() */ + +#define Z_DEFLATED 8 +/* The deflate compression method (the only one supported in this version) */ + +#define Z_NULL 0 /* for initializing zalloc, zfree, opaque */ + +#define zlib_version zlibVersion() +/* for compatibility with versions < 1.0.2 */ + + + /* basic functions */ + +ZEXTERN const char * ZEXPORT zlibVersion(void); +/* The application can compare zlibVersion and ZLIB_VERSION for consistency. + If the first character differs, the library code actually used is not + compatible with the zlib.h header file used by the application. This check + is automatically made by deflateInit and inflateInit. + */ + +/* +ZEXTERN int ZEXPORT deflateInit(z_streamp strm, int level); + + Initializes the internal stream state for compression. The fields + zalloc, zfree and opaque must be initialized before by the caller. If + zalloc and zfree are set to Z_NULL, deflateInit updates them to use default + allocation functions. total_in, total_out, adler, and msg are initialized. + + The compression level must be Z_DEFAULT_COMPRESSION, or between 0 and 9: + 1 gives best speed, 9 gives best compression, 0 gives no compression at all + (the input data is simply copied a block at a time). Z_DEFAULT_COMPRESSION + requests a default compromise between speed and compression (currently + equivalent to level 6). + + deflateInit returns Z_OK if success, Z_MEM_ERROR if there was not enough + memory, Z_STREAM_ERROR if level is not a valid compression level, or + Z_VERSION_ERROR if the zlib library version (zlib_version) is incompatible + with the version assumed by the caller (ZLIB_VERSION). msg is set to null + if there is no error message. deflateInit does not perform any compression: + this will be done by deflate(). +*/ + + +ZEXTERN int ZEXPORT deflate(z_streamp strm, int flush); +/* + deflate compresses as much data as possible, and stops when the input + buffer becomes empty or the output buffer becomes full. It may introduce + some output latency (reading input without producing any output) except when + forced to flush. + + The detailed semantics are as follows. deflate performs one or both of the + following actions: + + - Compress more input starting at next_in and update next_in and avail_in + accordingly. If not all input can be processed (because there is not + enough room in the output buffer), next_in and avail_in are updated and + processing will resume at this point for the next call of deflate(). + + - Generate more output starting at next_out and update next_out and avail_out + accordingly. This action is forced if the parameter flush is non zero. + Forcing flush frequently degrades the compression ratio, so this parameter + should be set only when necessary. Some output may be provided even if + flush is zero. + + Before the call of deflate(), the application should ensure that at least + one of the actions is possible, by providing more input and/or consuming more + output, and updating avail_in or avail_out accordingly; avail_out should + never be zero before the call. The application can consume the compressed + output when it wants, for example when the output buffer is full (avail_out + == 0), or after each call of deflate(). If deflate returns Z_OK and with + zero avail_out, it must be called again after making room in the output + buffer because there might be more output pending. See deflatePending(), + which can be used if desired to determine whether or not there is more output + in that case. + + Normally the parameter flush is set to Z_NO_FLUSH, which allows deflate to + decide how much data to accumulate before producing output, in order to + maximize compression. + + If the parameter flush is set to Z_SYNC_FLUSH, all pending output is + flushed to the output buffer and the output is aligned on a byte boundary, so + that the decompressor can get all input data available so far. (In + particular avail_in is zero after the call if enough output space has been + provided before the call.) Flushing may degrade compression for some + compression algorithms and so it should be used only when necessary. This + completes the current deflate block and follows it with an empty stored block + that is three bits plus filler bits to the next byte, followed by four bytes + (00 00 ff ff). + + If flush is set to Z_PARTIAL_FLUSH, all pending output is flushed to the + output buffer, but the output is not aligned to a byte boundary. All of the + input data so far will be available to the decompressor, as for Z_SYNC_FLUSH. + This completes the current deflate block and follows it with an empty fixed + codes block that is 10 bits long. This assures that enough bytes are output + in order for the decompressor to finish the block before the empty fixed + codes block. + + If flush is set to Z_BLOCK, a deflate block is completed and emitted, as + for Z_SYNC_FLUSH, but the output is not aligned on a byte boundary, and up to + seven bits of the current block are held to be written as the next byte after + the next deflate block is completed. In this case, the decompressor may not + be provided enough bits at this point in order to complete decompression of + the data provided so far to the compressor. It may need to wait for the next + block to be emitted. This is for advanced applications that need to control + the emission of deflate blocks. + + If flush is set to Z_FULL_FLUSH, all output is flushed as with + Z_SYNC_FLUSH, and the compression state is reset so that decompression can + restart from this point if previous compressed data has been damaged or if + random access is desired. Using Z_FULL_FLUSH too often can seriously degrade + compression. + + If deflate returns with avail_out == 0, this function must be called again + with the same value of the flush parameter and more output space (updated + avail_out), until the flush is complete (deflate returns with non-zero + avail_out). In the case of a Z_FULL_FLUSH or Z_SYNC_FLUSH, make sure that + avail_out is greater than six when the flush marker begins, in order to avoid + repeated flush markers upon calling deflate() again when avail_out == 0. + + If the parameter flush is set to Z_FINISH, pending input is processed, + pending output is flushed and deflate returns with Z_STREAM_END if there was + enough output space. If deflate returns with Z_OK or Z_BUF_ERROR, this + function must be called again with Z_FINISH and more output space (updated + avail_out) but no more input data, until it returns with Z_STREAM_END or an + error. After deflate has returned Z_STREAM_END, the only possible operations + on the stream are deflateReset or deflateEnd. + + Z_FINISH can be used in the first deflate call after deflateInit if all the + compression is to be done in a single step. In order to complete in one + call, avail_out must be at least the value returned by deflateBound (see + below). Then deflate is guaranteed to return Z_STREAM_END. If not enough + output space is provided, deflate will not return Z_STREAM_END, and it must + be called again as described above. + + deflate() sets strm->adler to the Adler-32 checksum of all input read + so far (that is, total_in bytes). If a gzip stream is being generated, then + strm->adler will be the CRC-32 checksum of the input read so far. (See + deflateInit2 below.) + + deflate() may update strm->data_type if it can make a good guess about + the input data type (Z_BINARY or Z_TEXT). If in doubt, the data is + considered binary. This field is only for information purposes and does not + affect the compression algorithm in any manner. + + deflate() returns Z_OK if some progress has been made (more input + processed or more output produced), Z_STREAM_END if all input has been + consumed and all output has been produced (only when flush is set to + Z_FINISH), Z_STREAM_ERROR if the stream state was inconsistent (for example + if next_in or next_out was Z_NULL or the state was inadvertently written over + by the application), or Z_BUF_ERROR if no progress is possible (for example + avail_in or avail_out was zero). Note that Z_BUF_ERROR is not fatal, and + deflate() can be called again with more input and more output space to + continue compressing. +*/ + + +ZEXTERN int ZEXPORT deflateEnd(z_streamp strm); +/* + All dynamically allocated data structures for this stream are freed. + This function discards any unprocessed input and does not flush any pending + output. + + deflateEnd returns Z_OK if success, Z_STREAM_ERROR if the + stream state was inconsistent, Z_DATA_ERROR if the stream was freed + prematurely (some input or output was discarded). In the error case, msg + may be set but then points to a static string (which must not be + deallocated). +*/ + + +/* +ZEXTERN int ZEXPORT inflateInit(z_streamp strm); + + Initializes the internal stream state for decompression. The fields + next_in, avail_in, zalloc, zfree and opaque must be initialized before by + the caller. In the current version of inflate, the provided input is not + read or consumed. The allocation of a sliding window will be deferred to + the first call of inflate (if the decompression does not complete on the + first call). If zalloc and zfree are set to Z_NULL, inflateInit updates + them to use default allocation functions. total_in, total_out, adler, and + msg are initialized. + + inflateInit returns Z_OK if success, Z_MEM_ERROR if there was not enough + memory, Z_VERSION_ERROR if the zlib library version is incompatible with the + version assumed by the caller, or Z_STREAM_ERROR if the parameters are + invalid, such as a null pointer to the structure. msg is set to null if + there is no error message. inflateInit does not perform any decompression. + Actual decompression will be done by inflate(). So next_in, and avail_in, + next_out, and avail_out are unused and unchanged. The current + implementation of inflateInit() does not process any header information -- + that is deferred until inflate() is called. +*/ + + +ZEXTERN int ZEXPORT inflate(z_streamp strm, int flush); +/* + inflate decompresses as much data as possible, and stops when the input + buffer becomes empty or the output buffer becomes full. It may introduce + some output latency (reading input without producing any output) except when + forced to flush. + + The detailed semantics are as follows. inflate performs one or both of the + following actions: + + - Decompress more input starting at next_in and update next_in and avail_in + accordingly. If not all input can be processed (because there is not + enough room in the output buffer), then next_in and avail_in are updated + accordingly, and processing will resume at this point for the next call of + inflate(). + + - Generate more output starting at next_out and update next_out and avail_out + accordingly. inflate() provides as much output as possible, until there is + no more input data or no more space in the output buffer (see below about + the flush parameter). + + Before the call of inflate(), the application should ensure that at least + one of the actions is possible, by providing more input and/or consuming more + output, and updating the next_* and avail_* values accordingly. If the + caller of inflate() does not provide both available input and available + output space, it is possible that there will be no progress made. The + application can consume the uncompressed output when it wants, for example + when the output buffer is full (avail_out == 0), or after each call of + inflate(). If inflate returns Z_OK and with zero avail_out, it must be + called again after making room in the output buffer because there might be + more output pending. + + The flush parameter of inflate() can be Z_NO_FLUSH, Z_SYNC_FLUSH, Z_FINISH, + Z_BLOCK, or Z_TREES. Z_SYNC_FLUSH requests that inflate() flush as much + output as possible to the output buffer. Z_BLOCK requests that inflate() + stop if and when it gets to the next deflate block boundary. When decoding + the zlib or gzip format, this will cause inflate() to return immediately + after the header and before the first block. When doing a raw inflate, + inflate() will go ahead and process the first block, and will return when it + gets to the end of that block, or when it runs out of data. + + The Z_BLOCK option assists in appending to or combining deflate streams. + To assist in this, on return inflate() always sets strm->data_type to the + number of unused bits in the input taken from strm->next_in, plus 64 if + inflate() is currently decoding the last block in the deflate stream, plus + 128 if inflate() returned immediately after decoding an end-of-block code or + decoding the complete header up to just before the first byte of the deflate + stream. The end-of-block will not be indicated until all of the uncompressed + data from that block has been written to strm->next_out. The number of + unused bits may in general be greater than seven, except when bit 7 of + data_type is set, in which case the number of unused bits will be less than + eight. data_type is set as noted here every time inflate() returns for all + flush options, and so can be used to determine the amount of currently + consumed input in bits. + + The Z_TREES option behaves as Z_BLOCK does, but it also returns when the + end of each deflate block header is reached, before any actual data in that + block is decoded. This allows the caller to determine the length of the + deflate block header for later use in random access within a deflate block. + 256 is added to the value of strm->data_type when inflate() returns + immediately after reaching the end of the deflate block header. + + inflate() should normally be called until it returns Z_STREAM_END or an + error. However if all decompression is to be performed in a single step (a + single call of inflate), the parameter flush should be set to Z_FINISH. In + this case all pending input is processed and all pending output is flushed; + avail_out must be large enough to hold all of the uncompressed data for the + operation to complete. (The size of the uncompressed data may have been + saved by the compressor for this purpose.) The use of Z_FINISH is not + required to perform an inflation in one step. However it may be used to + inform inflate that a faster approach can be used for the single inflate() + call. Z_FINISH also informs inflate to not maintain a sliding window if the + stream completes, which reduces inflate's memory footprint. If the stream + does not complete, either because not all of the stream is provided or not + enough output space is provided, then a sliding window will be allocated and + inflate() can be called again to continue the operation as if Z_NO_FLUSH had + been used. + + In this implementation, inflate() always flushes as much output as + possible to the output buffer, and always uses the faster approach on the + first call. So the effects of the flush parameter in this implementation are + on the return value of inflate() as noted below, when inflate() returns early + when Z_BLOCK or Z_TREES is used, and when inflate() avoids the allocation of + memory for a sliding window when Z_FINISH is used. + + If a preset dictionary is needed after this call (see inflateSetDictionary + below), inflate sets strm->adler to the Adler-32 checksum of the dictionary + chosen by the compressor and returns Z_NEED_DICT; otherwise it sets + strm->adler to the Adler-32 checksum of all output produced so far (that is, + total_out bytes) and returns Z_OK, Z_STREAM_END or an error code as described + below. At the end of the stream, inflate() checks that its computed Adler-32 + checksum is equal to that saved by the compressor and returns Z_STREAM_END + only if the checksum is correct. + + inflate() can decompress and check either zlib-wrapped or gzip-wrapped + deflate data. The header type is detected automatically, if requested when + initializing with inflateInit2(). Any information contained in the gzip + header is not retained unless inflateGetHeader() is used. When processing + gzip-wrapped deflate data, strm->adler32 is set to the CRC-32 of the output + produced so far. The CRC-32 is checked against the gzip trailer, as is the + uncompressed length, modulo 2^32. + + inflate() returns Z_OK if some progress has been made (more input processed + or more output produced), Z_STREAM_END if the end of the compressed data has + been reached and all uncompressed output has been produced, Z_NEED_DICT if a + preset dictionary is needed at this point, Z_DATA_ERROR if the input data was + corrupted (input stream not conforming to the zlib format or incorrect check + value, in which case strm->msg points to a string with a more specific + error), Z_STREAM_ERROR if the stream structure was inconsistent (for example + next_in or next_out was Z_NULL, or the state was inadvertently written over + by the application), Z_MEM_ERROR if there was not enough memory, Z_BUF_ERROR + if no progress was possible or if there was not enough room in the output + buffer when Z_FINISH is used. Note that Z_BUF_ERROR is not fatal, and + inflate() can be called again with more input and more output space to + continue decompressing. If Z_DATA_ERROR is returned, the application may + then call inflateSync() to look for a good compression block if a partial + recovery of the data is to be attempted. +*/ + + +ZEXTERN int ZEXPORT inflateEnd(z_streamp strm); +/* + All dynamically allocated data structures for this stream are freed. + This function discards any unprocessed input and does not flush any pending + output. + + inflateEnd returns Z_OK if success, or Z_STREAM_ERROR if the stream state + was inconsistent. +*/ + + + /* Advanced functions */ + +/* + The following functions are needed only in some special applications. +*/ + +/* +ZEXTERN int ZEXPORT deflateInit2(z_streamp strm, + int level, + int method, + int windowBits, + int memLevel, + int strategy); + + This is another version of deflateInit with more compression options. The + fields zalloc, zfree and opaque must be initialized before by the caller. + + The method parameter is the compression method. It must be Z_DEFLATED in + this version of the library. + + The windowBits parameter is the base two logarithm of the window size + (the size of the history buffer). It should be in the range 8..15 for this + version of the library. Larger values of this parameter result in better + compression at the expense of memory usage. The default value is 15 if + deflateInit is used instead. + + For the current implementation of deflate(), a windowBits value of 8 (a + window size of 256 bytes) is not supported. As a result, a request for 8 + will result in 9 (a 512-byte window). In that case, providing 8 to + inflateInit2() will result in an error when the zlib header with 9 is + checked against the initialization of inflate(). The remedy is to not use 8 + with deflateInit2() with this initialization, or at least in that case use 9 + with inflateInit2(). + + windowBits can also be -8..-15 for raw deflate. In this case, -windowBits + determines the window size. deflate() will then generate raw deflate data + with no zlib header or trailer, and will not compute a check value. + + windowBits can also be greater than 15 for optional gzip encoding. Add + 16 to windowBits to write a simple gzip header and trailer around the + compressed data instead of a zlib wrapper. The gzip header will have no + file name, no extra data, no comment, no modification time (set to zero), no + header crc, and the operating system will be set to the appropriate value, + if the operating system was determined at compile time. If a gzip stream is + being written, strm->adler is a CRC-32 instead of an Adler-32. + + For raw deflate or gzip encoding, a request for a 256-byte window is + rejected as invalid, since only the zlib header provides a means of + transmitting the window size to the decompressor. + + The memLevel parameter specifies how much memory should be allocated + for the internal compression state. memLevel=1 uses minimum memory but is + slow and reduces compression ratio; memLevel=9 uses maximum memory for + optimal speed. The default value is 8. See zconf.h for total memory usage + as a function of windowBits and memLevel. + + The strategy parameter is used to tune the compression algorithm. Use the + value Z_DEFAULT_STRATEGY for normal data, Z_FILTERED for data produced by a + filter (or predictor), Z_RLE to limit match distances to one (run-length + encoding), or Z_HUFFMAN_ONLY to force Huffman encoding only (no string + matching). Filtered data consists mostly of small values with a somewhat + random distribution, as produced by the PNG filters. In this case, the + compression algorithm is tuned to compress them better. The effect of + Z_FILTERED is to force more Huffman coding and less string matching than the + default; it is intermediate between Z_DEFAULT_STRATEGY and Z_HUFFMAN_ONLY. + Z_RLE is almost as fast as Z_HUFFMAN_ONLY, but should give better + compression for PNG image data than Huffman only. The degree of string + matching from most to none is: Z_DEFAULT_STRATEGY, Z_FILTERED, Z_RLE, then + Z_HUFFMAN_ONLY. The strategy parameter affects the compression ratio but + never the correctness of the compressed output, even if it is not set + optimally for the given data. Z_FIXED uses the default string matching, but + prevents the use of dynamic Huffman codes, allowing for a simpler decoder + for special applications. + + deflateInit2 returns Z_OK if success, Z_MEM_ERROR if there was not enough + memory, Z_STREAM_ERROR if any parameter is invalid (such as an invalid + method), or Z_VERSION_ERROR if the zlib library version (zlib_version) is + incompatible with the version assumed by the caller (ZLIB_VERSION). msg is + set to null if there is no error message. deflateInit2 does not perform any + compression: this will be done by deflate(). +*/ + +ZEXTERN int ZEXPORT deflateSetDictionary(z_streamp strm, + const Bytef *dictionary, + uInt dictLength); +/* + Initializes the compression dictionary from the given byte sequence + without producing any compressed output. When using the zlib format, this + function must be called immediately after deflateInit, deflateInit2 or + deflateReset, and before any call of deflate. When doing raw deflate, this + function must be called either before any call of deflate, or immediately + after the completion of a deflate block, i.e. after all input has been + consumed and all output has been delivered when using any of the flush + options Z_BLOCK, Z_PARTIAL_FLUSH, Z_SYNC_FLUSH, or Z_FULL_FLUSH. The + compressor and decompressor must use exactly the same dictionary (see + inflateSetDictionary). + + The dictionary should consist of strings (byte sequences) that are likely + to be encountered later in the data to be compressed, with the most commonly + used strings preferably put towards the end of the dictionary. Using a + dictionary is most useful when the data to be compressed is short and can be + predicted with good accuracy; the data can then be compressed better than + with the default empty dictionary. + + Depending on the size of the compression data structures selected by + deflateInit or deflateInit2, a part of the dictionary may in effect be + discarded, for example if the dictionary is larger than the window size + provided in deflateInit or deflateInit2. Thus the strings most likely to be + useful should be put at the end of the dictionary, not at the front. In + addition, the current implementation of deflate will use at most the window + size minus 262 bytes of the provided dictionary. + + Upon return of this function, strm->adler is set to the Adler-32 value + of the dictionary; the decompressor may later use this value to determine + which dictionary has been used by the compressor. (The Adler-32 value + applies to the whole dictionary even if only a subset of the dictionary is + actually used by the compressor.) If a raw deflate was requested, then the + Adler-32 value is not computed and strm->adler is not set. + + deflateSetDictionary returns Z_OK if success, or Z_STREAM_ERROR if a + parameter is invalid (e.g. dictionary being Z_NULL) or the stream state is + inconsistent (for example if deflate has already been called for this stream + or if not at a block boundary for raw deflate). deflateSetDictionary does + not perform any compression: this will be done by deflate(). +*/ + +ZEXTERN int ZEXPORT deflateGetDictionary(z_streamp strm, + Bytef *dictionary, + uInt *dictLength); +/* + Returns the sliding dictionary being maintained by deflate. dictLength is + set to the number of bytes in the dictionary, and that many bytes are copied + to dictionary. dictionary must have enough space, where 32768 bytes is + always enough. If deflateGetDictionary() is called with dictionary equal to + Z_NULL, then only the dictionary length is returned, and nothing is copied. + Similarly, if dictLength is Z_NULL, then it is not set. + + deflateGetDictionary() may return a length less than the window size, even + when more than the window size in input has been provided. It may return up + to 258 bytes less in that case, due to how zlib's implementation of deflate + manages the sliding window and lookahead for matches, where matches can be + up to 258 bytes long. If the application needs the last window-size bytes of + input, then that would need to be saved by the application outside of zlib. + + deflateGetDictionary returns Z_OK on success, or Z_STREAM_ERROR if the + stream state is inconsistent. +*/ + +ZEXTERN int ZEXPORT deflateCopy(z_streamp dest, + z_streamp source); +/* + Sets the destination stream as a complete copy of the source stream. + + This function can be useful when several compression strategies will be + tried, for example when there are several ways of pre-processing the input + data with a filter. The streams that will be discarded should then be freed + by calling deflateEnd. Note that deflateCopy duplicates the internal + compression state which can be quite large, so this strategy is slow and can + consume lots of memory. + + deflateCopy returns Z_OK if success, Z_MEM_ERROR if there was not + enough memory, Z_STREAM_ERROR if the source stream state was inconsistent + (such as zalloc being Z_NULL). msg is left unchanged in both source and + destination. +*/ + +ZEXTERN int ZEXPORT deflateReset(z_streamp strm); +/* + This function is equivalent to deflateEnd followed by deflateInit, but + does not free and reallocate the internal compression state. The stream + will leave the compression level and any other attributes that may have been + set unchanged. total_in, total_out, adler, and msg are initialized. + + deflateReset returns Z_OK if success, or Z_STREAM_ERROR if the source + stream state was inconsistent (such as zalloc or state being Z_NULL). +*/ + +ZEXTERN int ZEXPORT deflateParams(z_streamp strm, + int level, + int strategy); +/* + Dynamically update the compression level and compression strategy. The + interpretation of level and strategy is as in deflateInit2(). This can be + used to switch between compression and straight copy of the input data, or + to switch to a different kind of input data requiring a different strategy. + If the compression approach (which is a function of the level) or the + strategy is changed, and if there have been any deflate() calls since the + state was initialized or reset, then the input available so far is + compressed with the old level and strategy using deflate(strm, Z_BLOCK). + There are three approaches for the compression levels 0, 1..3, and 4..9 + respectively. The new level and strategy will take effect at the next call + of deflate(). + + If a deflate(strm, Z_BLOCK) is performed by deflateParams(), and it does + not have enough output space to complete, then the parameter change will not + take effect. In this case, deflateParams() can be called again with the + same parameters and more output space to try again. + + In order to assure a change in the parameters on the first try, the + deflate stream should be flushed using deflate() with Z_BLOCK or other flush + request until strm.avail_out is not zero, before calling deflateParams(). + Then no more input data should be provided before the deflateParams() call. + If this is done, the old level and strategy will be applied to the data + compressed before deflateParams(), and the new level and strategy will be + applied to the data compressed after deflateParams(). + + deflateParams returns Z_OK on success, Z_STREAM_ERROR if the source stream + state was inconsistent or if a parameter was invalid, or Z_BUF_ERROR if + there was not enough output space to complete the compression of the + available input data before a change in the strategy or approach. Note that + in the case of a Z_BUF_ERROR, the parameters are not changed. A return + value of Z_BUF_ERROR is not fatal, in which case deflateParams() can be + retried with more output space. +*/ + +ZEXTERN int ZEXPORT deflateTune(z_streamp strm, + int good_length, + int max_lazy, + int nice_length, + int max_chain); +/* + Fine tune deflate's internal compression parameters. This should only be + used by someone who understands the algorithm used by zlib's deflate for + searching for the best matching string, and even then only by the most + fanatic optimizer trying to squeeze out the last compressed bit for their + specific input data. Read the deflate.c source code for the meaning of the + max_lazy, good_length, nice_length, and max_chain parameters. + + deflateTune() can be called after deflateInit() or deflateInit2(), and + returns Z_OK on success, or Z_STREAM_ERROR for an invalid deflate stream. + */ + +ZEXTERN uLong ZEXPORT deflateBound(z_streamp strm, uLong sourceLen); +ZEXTERN z_size_t ZEXPORT deflateBound_z(z_streamp strm, z_size_t sourceLen); +/* + deflateBound() returns an upper bound on the compressed size after + deflation of sourceLen bytes. It must be called after deflateInit() or + deflateInit2(), and after deflateSetHeader(), if used. This would be used + to allocate an output buffer for deflation in a single pass, and so would be + called before deflate(). If that first deflate() call is provided the + sourceLen input bytes, an output buffer allocated to the size returned by + deflateBound(), and the flush value Z_FINISH, then deflate() is guaranteed + to return Z_STREAM_END. Note that it is possible for the compressed size to + be larger than the value returned by deflateBound() if flush options other + than Z_FINISH or Z_NO_FLUSH are used. + + delfateBound_z() is the same, but takes and returns a size_t length. Note + that a long is 32 bits on Windows. +*/ + +ZEXTERN int ZEXPORT deflatePending(z_streamp strm, + unsigned *pending, + int *bits); +/* + deflatePending() returns the number of bytes and bits of output that have + been generated, but not yet provided in the available output. The bytes not + provided would be due to the available output space having being consumed. + The number of bits of output not provided are between 0 and 7, where they + await more bits to join them in order to fill out a full byte. If pending + or bits are Z_NULL, then those values are not set. + + deflatePending returns Z_OK if success, or Z_STREAM_ERROR if the source + stream state was inconsistent. If an int is 16 bits and memLevel is 9, then + it is possible for the number of pending bytes to not fit in an unsigned. In + that case Z_BUF_ERROR is returned and *pending is set to the maximum value + of an unsigned. + */ + +ZEXTERN int ZEXPORT deflateUsed(z_streamp strm, + int *bits); +/* + deflateUsed() returns in *bits the most recent number of deflate bits used + in the last byte when flushing to a byte boundary. The result is in 1..8, or + 0 if there has not yet been a flush. This helps determine the location of + the last bit of a deflate stream. + + deflateUsed returns Z_OK if success, or Z_STREAM_ERROR if the source + stream state was inconsistent. + */ + +ZEXTERN int ZEXPORT deflatePrime(z_streamp strm, + int bits, + int value); +/* + deflatePrime() inserts bits in the deflate output stream. The intent + is that this function is used to start off the deflate output with the bits + leftover from a previous deflate stream when appending to it. As such, this + function can only be used for raw deflate, and must be used before the first + deflate() call after a deflateInit2() or deflateReset(). bits must be less + than or equal to 16, and that many of the least significant bits of value + will be inserted in the output. + + deflatePrime returns Z_OK if success, Z_BUF_ERROR if there was not enough + room in the internal buffer to insert the bits, or Z_STREAM_ERROR if the + source stream state was inconsistent. +*/ + +ZEXTERN int ZEXPORT deflateSetHeader(z_streamp strm, + gz_headerp head); +/* + deflateSetHeader() provides gzip header information for when a gzip + stream is requested by deflateInit2(). deflateSetHeader() may be called + after deflateInit2() or deflateReset() and before the first call of + deflate(). The text, time, os, extra field, name, and comment information + in the provided gz_header structure are written to the gzip header (xflag is + ignored -- the extra flags are set according to the compression level). The + caller must assure that, if not Z_NULL, name and comment are terminated with + a zero byte, and that if extra is not Z_NULL, that extra_len bytes are + available there. If hcrc is true, a gzip header crc is included. Note that + the current versions of the command-line version of gzip (up through version + 1.3.x) do not support header crc's, and will report that it is a "multi-part + gzip file" and give up. + + If deflateSetHeader is not used, the default gzip header has text false, + the time set to zero, and os set to the current operating system, with no + extra, name, or comment fields. The gzip header is returned to the default + state by deflateReset(). + + deflateSetHeader returns Z_OK if success, or Z_STREAM_ERROR if the source + stream state was inconsistent. +*/ + +/* +ZEXTERN int ZEXPORT inflateInit2(z_streamp strm, + int windowBits); + + This is another version of inflateInit with an extra parameter. The + fields next_in, avail_in, zalloc, zfree and opaque must be initialized + before by the caller. + + The windowBits parameter is the base two logarithm of the maximum window + size (the size of the history buffer). It should be in the range 8..15 for + this version of the library. The default value is 15 if inflateInit is used + instead. windowBits must be greater than or equal to the windowBits value + provided to deflateInit2() while compressing, or it must be equal to 15 if + deflateInit2() was not used. If a compressed stream with a larger window + size is given as input, inflate() will return with the error code + Z_DATA_ERROR instead of trying to allocate a larger window. + + windowBits can also be zero to request that inflate use the window size in + the zlib header of the compressed stream. + + windowBits can also be -8..-15 for raw inflate. In this case, -windowBits + determines the window size. inflate() will then process raw deflate data, + not looking for a zlib or gzip header, not generating a check value, and not + looking for any check values for comparison at the end of the stream. This + is for use with other formats that use the deflate compressed data format + such as zip. Those formats provide their own check values. If a custom + format is developed using the raw deflate format for compressed data, it is + recommended that a check value such as an Adler-32 or a CRC-32 be applied to + the uncompressed data as is done in the zlib, gzip, and zip formats. For + most applications, the zlib format should be used as is. Note that comments + above on the use in deflateInit2() applies to the magnitude of windowBits. + + windowBits can also be greater than 15 for optional gzip decoding. Add + 32 to windowBits to enable zlib and gzip decoding with automatic header + detection, or add 16 to decode only the gzip format (the zlib format will + return a Z_DATA_ERROR). If a gzip stream is being decoded, strm->adler is a + CRC-32 instead of an Adler-32. Unlike the gunzip utility and gzread() (see + below), inflate() will *not* automatically decode concatenated gzip members. + inflate() will return Z_STREAM_END at the end of the gzip member. The state + would need to be reset to continue decoding a subsequent gzip member. This + *must* be done if there is more data after a gzip member, in order for the + decompression to be compliant with the gzip standard (RFC 1952). + + inflateInit2 returns Z_OK if success, Z_MEM_ERROR if there was not enough + memory, Z_VERSION_ERROR if the zlib library version is incompatible with the + version assumed by the caller, or Z_STREAM_ERROR if the parameters are + invalid, such as a null pointer to the structure. msg is set to null if + there is no error message. inflateInit2 does not perform any decompression + apart from possibly reading the zlib header if present: actual decompression + will be done by inflate(). (So next_in and avail_in may be modified, but + next_out and avail_out are unused and unchanged.) The current implementation + of inflateInit2() does not process any header information -- that is + deferred until inflate() is called. +*/ + +ZEXTERN int ZEXPORT inflateSetDictionary(z_streamp strm, + const Bytef *dictionary, + uInt dictLength); +/* + Initializes the decompression dictionary from the given uncompressed byte + sequence. This function must be called immediately after a call of inflate, + if that call returned Z_NEED_DICT. The dictionary chosen by the compressor + can be determined from the Adler-32 value returned by that call of inflate. + The compressor and decompressor must use exactly the same dictionary (see + deflateSetDictionary). For raw inflate, this function can be called at any + time to set the dictionary. If the provided dictionary is smaller than the + window and there is already data in the window, then the provided dictionary + will amend what's there. The application must insure that the dictionary + that was used for compression is provided. + + inflateSetDictionary returns Z_OK if success, Z_STREAM_ERROR if a + parameter is invalid (e.g. dictionary being Z_NULL) or the stream state is + inconsistent, Z_DATA_ERROR if the given dictionary doesn't match the + expected one (incorrect Adler-32 value). inflateSetDictionary does not + perform any decompression: this will be done by subsequent calls of + inflate(). +*/ + +ZEXTERN int ZEXPORT inflateGetDictionary(z_streamp strm, + Bytef *dictionary, + uInt *dictLength); +/* + Returns the sliding dictionary being maintained by inflate. dictLength is + set to the number of bytes in the dictionary, and that many bytes are copied + to dictionary. dictionary must have enough space, where 32768 bytes is + always enough. If inflateGetDictionary() is called with dictionary equal to + Z_NULL, then only the dictionary length is returned, and nothing is copied. + Similarly, if dictLength is Z_NULL, then it is not set. + + inflateGetDictionary returns Z_OK on success, or Z_STREAM_ERROR if the + stream state is inconsistent. +*/ + +ZEXTERN int ZEXPORT inflateSync(z_streamp strm); +/* + Skips invalid compressed data until a possible full flush point (see above + for the description of deflate with Z_FULL_FLUSH) can be found, or until all + available input is skipped. No output is provided. + + inflateSync searches for a 00 00 FF FF pattern in the compressed data. + All full flush points have this pattern, but not all occurrences of this + pattern are full flush points. + + inflateSync returns Z_OK if a possible full flush point has been found, + Z_BUF_ERROR if no more input was provided, Z_DATA_ERROR if no flush point + has been found, or Z_STREAM_ERROR if the stream structure was inconsistent. + In the success case, the application may save the current value of total_in + which indicates where valid compressed data was found. In the error case, + the application may repeatedly call inflateSync, providing more input each + time, until success or end of the input data. +*/ + +ZEXTERN int ZEXPORT inflateCopy(z_streamp dest, + z_streamp source); +/* + Sets the destination stream as a complete copy of the source stream. + + This function can be useful when randomly accessing a large stream. The + first pass through the stream can periodically record the inflate state, + allowing restarting inflate at those points when randomly accessing the + stream. + + inflateCopy returns Z_OK if success, Z_MEM_ERROR if there was not + enough memory, Z_STREAM_ERROR if the source stream state was inconsistent + (such as zalloc being Z_NULL). msg is left unchanged in both source and + destination. +*/ + +ZEXTERN int ZEXPORT inflateReset(z_streamp strm); +/* + This function is equivalent to inflateEnd followed by inflateInit, + but does not free and reallocate the internal decompression state. The + stream will keep attributes that may have been set by inflateInit2. + total_in, total_out, adler, and msg are initialized. + + inflateReset returns Z_OK if success, or Z_STREAM_ERROR if the source + stream state was inconsistent (such as zalloc or state being Z_NULL). +*/ + +ZEXTERN int ZEXPORT inflateReset2(z_streamp strm, + int windowBits); +/* + This function is the same as inflateReset, but it also permits changing + the wrap and window size requests. The windowBits parameter is interpreted + the same as it is for inflateInit2. If the window size is changed, then the + memory allocated for the window is freed, and the window will be reallocated + by inflate() if needed. + + inflateReset2 returns Z_OK if success, or Z_STREAM_ERROR if the source + stream state was inconsistent (such as zalloc or state being Z_NULL), or if + the windowBits parameter is invalid. +*/ + +ZEXTERN int ZEXPORT inflatePrime(z_streamp strm, + int bits, + int value); +/* + This function inserts bits in the inflate input stream. The intent is to + use inflatePrime() to start inflating at a bit position in the middle of a + byte. The provided bits will be used before any bytes are used from + next_in. This function should be used with raw inflate, before the first + inflate() call, after inflateInit2() or inflateReset(). It can also be used + after an inflate() return indicates the end of a deflate block or header + when using Z_BLOCK. bits must be less than or equal to 16, and that many of + the least significant bits of value will be inserted in the input. The + other bits in value can be non-zero, and will be ignored. + + If bits is negative, then the input stream bit buffer is emptied. Then + inflatePrime() can be called again to put bits in the buffer. This is used + to clear out bits leftover after feeding inflate a block description prior + to feeding inflate codes. + + inflatePrime returns Z_OK if success, or Z_STREAM_ERROR if the source + stream state was inconsistent, or if bits is out of range. If inflate was + in the middle of processing a header, trailer, or stored block lengths, then + it is possible for there to be only eight bits available in the bit buffer. + In that case, bits > 8 is considered out of range. However, when used as + outlined above, there will always be 16 bits available in the buffer for + insertion. As noted in its documentation above, inflate records the number + of bits in the bit buffer on return in data_type. 32 minus that is the + number of bits available for insertion. inflatePrime does not update + data_type with the new number of bits in buffer. +*/ + +ZEXTERN long ZEXPORT inflateMark(z_streamp strm); +/* + This function returns two values, one in the lower 16 bits of the return + value, and the other in the remaining upper bits, obtained by shifting the + return value down 16 bits. If the upper value is -1 and the lower value is + zero, then inflate() is currently decoding information outside of a block. + If the upper value is -1 and the lower value is non-zero, then inflate is in + the middle of a stored block, with the lower value equaling the number of + bytes from the input remaining to copy. If the upper value is not -1, then + it is the number of bits back from the current bit position in the input of + the code (literal or length/distance pair) currently being processed. In + that case the lower value is the number of bytes already emitted for that + code. + + A code is being processed if inflate is waiting for more input to complete + decoding of the code, or if it has completed decoding but is waiting for + more output space to write the literal or match data. + + inflateMark() is used to mark locations in the input data for random + access, which may be at bit positions, and to note those cases where the + output of a code may span boundaries of random access blocks. The current + location in the input stream can be determined from avail_in and data_type + as noted in the description for the Z_BLOCK flush parameter for inflate. + + inflateMark returns the value noted above, or -65536 if the provided + source stream state was inconsistent. +*/ + +ZEXTERN int ZEXPORT inflateGetHeader(z_streamp strm, + gz_headerp head); +/* + inflateGetHeader() requests that gzip header information be stored in the + provided gz_header structure. inflateGetHeader() may be called after + inflateInit2() or inflateReset(), and before the first call of inflate(). + As inflate() processes the gzip stream, head->done is zero until the header + is completed, at which time head->done is set to one. If a zlib stream is + being decoded, then head->done is set to -1 to indicate that there will be + no gzip header information forthcoming. Note that Z_BLOCK or Z_TREES can be + used to force inflate() to return immediately after header processing is + complete and before any actual data is decompressed. + + The text, time, xflags, and os fields are filled in with the gzip header + contents. hcrc is set to true if there is a header CRC. (The header CRC + was valid if done is set to one.) The extra, name, and comment pointers + much each be either Z_NULL or point to space to store that information from + the header. If extra is not Z_NULL, then extra_max contains the maximum + number of bytes that can be written to extra. Once done is true, extra_len + contains the actual extra field length, and extra contains the extra field, + or that field truncated if extra_max is less than extra_len. If name is not + Z_NULL, then up to name_max characters, including the terminating zero, are + written there. If comment is not Z_NULL, then up to comm_max characters, + including the terminating zero, are written there. The application can tell + that the name or comment did not fit in the provided space by the absence of + a terminating zero. If any of extra, name, or comment are not present in + the header, then that field's pointer is set to Z_NULL. This allows the use + of deflateSetHeader() with the returned structure to duplicate the header. + Note that if those fields initially pointed to allocated memory, then the + application will need to save them elsewhere so that they can be eventually + freed. + + If inflateGetHeader is not used, then the header information is simply + discarded. The header is always checked for validity, including the header + CRC if present. inflateReset() will reset the process to discard the header + information. The application would need to call inflateGetHeader() again to + retrieve the header from the next gzip stream. + + inflateGetHeader returns Z_OK if success, or Z_STREAM_ERROR if the source + stream state was inconsistent. +*/ + +/* +ZEXTERN int ZEXPORT inflateBackInit(z_streamp strm, int windowBits, + unsigned char FAR *window); + + Initialize the internal stream state for decompression using inflateBack() + calls. The fields zalloc, zfree and opaque in strm must be initialized + before the call. If zalloc and zfree are Z_NULL, then the default library- + derived memory allocation routines are used. windowBits is the base two + logarithm of the window size, in the range 8..15. window is a caller + supplied buffer of that size. Except for special applications where it is + assured that deflate was used with small window sizes, windowBits must be 15 + and a 32K byte window must be supplied to be able to decompress general + deflate streams. + + See inflateBack() for the usage of these routines. + + inflateBackInit will return Z_OK on success, Z_STREAM_ERROR if any of + the parameters are invalid, Z_MEM_ERROR if the internal state could not be + allocated, or Z_VERSION_ERROR if the version of the library does not match + the version of the header file. +*/ + +typedef unsigned (*in_func)(void FAR *, + z_const unsigned char FAR * FAR *); +typedef int (*out_func)(void FAR *, unsigned char FAR *, unsigned); + +ZEXTERN int ZEXPORT inflateBack(z_streamp strm, + in_func in, void FAR *in_desc, + out_func out, void FAR *out_desc); +/* + inflateBack() does a raw inflate with a single call using a call-back + interface for input and output. This is potentially more efficient than + inflate() for file i/o applications, in that it avoids copying between the + output and the sliding window by simply making the window itself the output + buffer. inflate() can be faster on modern CPUs when used with large + buffers. inflateBack() trusts the application to not change the output + buffer passed by the output function, at least until inflateBack() returns. + + inflateBackInit() must be called first to allocate the internal state + and to initialize the state with the user-provided window buffer. + inflateBack() may then be used multiple times to inflate a complete, raw + deflate stream with each call. inflateBackEnd() is then called to free the + allocated state. + + A raw deflate stream is one with no zlib or gzip header or trailer. + This routine would normally be used in a utility that reads zip or gzip + files and writes out uncompressed files. The utility would decode the + header and process the trailer on its own, hence this routine expects only + the raw deflate stream to decompress. This is different from the default + behavior of inflate(), which expects a zlib header and trailer around the + deflate stream. + + inflateBack() uses two subroutines supplied by the caller that are then + called by inflateBack() for input and output. inflateBack() calls those + routines until it reads a complete deflate stream and writes out all of the + uncompressed data, or until it encounters an error. The function's + parameters and return types are defined above in the in_func and out_func + typedefs. inflateBack() will call in(in_desc, &buf) which should return the + number of bytes of provided input, and a pointer to that input in buf. If + there is no input available, in() must return zero -- buf is ignored in that + case -- and inflateBack() will return a buffer error. inflateBack() will + call out(out_desc, buf, len) to write the uncompressed data buf[0..len-1]. + out() should return zero on success, or non-zero on failure. If out() + returns non-zero, inflateBack() will return with an error. Neither in() nor + out() are permitted to change the contents of the window provided to + inflateBackInit(), which is also the buffer that out() uses to write from. + The length written by out() will be at most the window size. Any non-zero + amount of input may be provided by in(). + + For convenience, inflateBack() can be provided input on the first call by + setting strm->next_in and strm->avail_in. If that input is exhausted, then + in() will be called. Therefore strm->next_in must be initialized before + calling inflateBack(). If strm->next_in is Z_NULL, then in() will be called + immediately for input. If strm->next_in is not Z_NULL, then strm->avail_in + must also be initialized, and then if strm->avail_in is not zero, input will + initially be taken from strm->next_in[0 .. strm->avail_in - 1]. + + The in_desc and out_desc parameters of inflateBack() is passed as the + first parameter of in() and out() respectively when they are called. These + descriptors can be optionally used to pass any information that the caller- + supplied in() and out() functions need to do their job. + + On return, inflateBack() will set strm->next_in and strm->avail_in to + pass back any unused input that was provided by the last in() call. The + return values of inflateBack() can be Z_STREAM_END on success, Z_BUF_ERROR + if in() or out() returned an error, Z_DATA_ERROR if there was a format error + in the deflate stream (in which case strm->msg is set to indicate the nature + of the error), or Z_STREAM_ERROR if the stream was not properly initialized. + In the case of Z_BUF_ERROR, an input or output error can be distinguished + using strm->next_in which will be Z_NULL only if in() returned an error. If + strm->next_in is not Z_NULL, then the Z_BUF_ERROR was due to out() returning + non-zero. (in() will always be called before out(), so strm->next_in is + assured to be defined if out() returns non-zero.) Note that inflateBack() + cannot return Z_OK. +*/ + +ZEXTERN int ZEXPORT inflateBackEnd(z_streamp strm); +/* + All memory allocated by inflateBackInit() is freed. + + inflateBackEnd() returns Z_OK on success, or Z_STREAM_ERROR if the stream + state was inconsistent. +*/ + +ZEXTERN uLong ZEXPORT zlibCompileFlags(void); +/* Return flags indicating compile-time options. + + Type sizes, two bits each, 00 = 16 bits, 01 = 32, 10 = 64, 11 = other: + 1.0: size of uInt + 3.2: size of uLong + 5.4: size of voidpf (pointer) + 7.6: size of z_off_t + + Compiler, assembler, and debug options: + 8: ZLIB_DEBUG + 9: ASMV or ASMINF -- use ASM code + 10: ZLIB_WINAPI -- exported functions use the WINAPI calling convention + 11: 0 (reserved) + + One-time table building (smaller code, but not thread-safe if true): + 12: BUILDFIXED -- build static block decoding tables when needed + 13: DYNAMIC_CRC_TABLE -- build CRC calculation tables when needed + 14,15: 0 (reserved) + + Library content (indicates missing functionality): + 16: NO_GZCOMPRESS -- gz* functions cannot compress (to avoid linking + deflate code when not needed) + 17: NO_GZIP -- deflate can't write gzip streams, and inflate can't detect + and decode gzip streams (to avoid linking crc code) + 18-19: 0 (reserved) + + Operation variations (changes in library functionality): + 20: PKZIP_BUG_WORKAROUND -- slightly more permissive inflate + 21: FASTEST -- deflate algorithm with only one, lowest compression level + 22,23: 0 (reserved) + + The sprintf variant used by gzprintf (all zeros is best): + 24: 0 = vs*, 1 = s* -- 1 means limited to 20 arguments after the format + 25: 0 = *nprintf, 1 = *printf -- 1 means gzprintf() is not secure! + 26: 0 = returns value, 1 = void -- 1 means inferred string length returned + 27: 0 = gzprintf() present, 1 = not -- 1 means gzprintf() returns an error + + Remainder: + 28-31: 0 (reserved) + */ + +#ifndef Z_SOLO + + /* utility functions */ + +/* + The following utility functions are implemented on top of the basic + stream-oriented functions. To simplify the interface, some default options + are assumed (compression level and memory usage, standard memory allocation + functions). The source code of these utility functions can be modified if + you need special options. The _z versions of the functions use the size_t + type for lengths. Note that a long is 32 bits on Windows. +*/ + +ZEXTERN int ZEXPORT compress(Bytef *dest, uLongf *destLen, + const Bytef *source, uLong sourceLen); +ZEXTERN int ZEXPORT compress_z(Bytef *dest, z_size_t *destLen, + const Bytef *source, z_size_t sourceLen); +/* + Compresses the source buffer into the destination buffer. sourceLen is + the byte length of the source buffer. Upon entry, destLen is the total size + of the destination buffer, which must be at least the value returned by + compressBound(sourceLen). Upon exit, destLen is the actual size of the + compressed data. compress() is equivalent to compress2() with a level + parameter of Z_DEFAULT_COMPRESSION. + + compress returns Z_OK if success, Z_MEM_ERROR if there was not + enough memory, Z_BUF_ERROR if there was not enough room in the output + buffer. +*/ + +ZEXTERN int ZEXPORT compress2(Bytef *dest, uLongf *destLen, + const Bytef *source, uLong sourceLen, + int level); +ZEXTERN int ZEXPORT compress2_z(Bytef *dest, z_size_t *destLen, + const Bytef *source, z_size_t sourceLen, + int level); +/* + Compresses the source buffer into the destination buffer. The level + parameter has the same meaning as in deflateInit. sourceLen is the byte + length of the source buffer. Upon entry, destLen is the total size of the + destination buffer, which must be at least the value returned by + compressBound(sourceLen). Upon exit, destLen is the actual size of the + compressed data. + + compress2 returns Z_OK if success, Z_MEM_ERROR if there was not enough + memory, Z_BUF_ERROR if there was not enough room in the output buffer, + Z_STREAM_ERROR if the level parameter is invalid. +*/ + +ZEXTERN uLong ZEXPORT compressBound(uLong sourceLen); +ZEXTERN z_size_t ZEXPORT compressBound_z(z_size_t sourceLen); +/* + compressBound() returns an upper bound on the compressed size after + compress() or compress2() on sourceLen bytes. It would be used before a + compress() or compress2() call to allocate the destination buffer. +*/ + +ZEXTERN int ZEXPORT uncompress(Bytef *dest, uLongf *destLen, + const Bytef *source, uLong sourceLen); +ZEXTERN int ZEXPORT uncompress_z(Bytef *dest, z_size_t *destLen, + const Bytef *source, z_size_t sourceLen); +/* + Decompresses the source buffer into the destination buffer. sourceLen is + the byte length of the source buffer. On entry, *destLen is the total size + of the destination buffer, which must be large enough to hold the entire + uncompressed data. (The size of the uncompressed data must have been saved + previously by the compressor and transmitted to the decompressor by some + mechanism outside the scope of this compression library.) On exit, *destLen + is the actual size of the uncompressed data. + + uncompress returns Z_OK if success, Z_MEM_ERROR if there was not + enough memory, Z_BUF_ERROR if there was not enough room in the output + buffer, or Z_DATA_ERROR if the input data was corrupted or incomplete. In + the case where there is not enough room, uncompress() will fill the output + buffer with the uncompressed data up to that point. +*/ + +ZEXTERN int ZEXPORT uncompress2(Bytef *dest, uLongf *destLen, + const Bytef *source, uLong *sourceLen); +ZEXTERN int ZEXPORT uncompress2_z(Bytef *dest, z_size_t *destLen, + const Bytef *source, z_size_t *sourceLen); +/* + Same as uncompress, except that sourceLen is a pointer, where the + length of the source is *sourceLen. On return, *sourceLen is the number of + source bytes consumed. +*/ + + /* gzip file access functions */ + +/* + This library supports reading and writing files in gzip (.gz) format with + an interface similar to that of stdio, using the functions that start with + "gz". The gzip format is different from the zlib format. gzip is a gzip + wrapper, documented in RFC 1952, wrapped around a deflate stream. +*/ + +typedef struct gzFile_s *gzFile; /* semi-opaque gzip file descriptor */ + +/* +ZEXTERN gzFile ZEXPORT gzopen(const char *path, const char *mode); + + Open the gzip (.gz) file at path for reading and decompressing, or + compressing and writing. The mode parameter is as in fopen ("rb" or "wb") + but can also include a compression level ("wb9") or a strategy: 'f' for + filtered data as in "wb6f", 'h' for Huffman-only compression as in "wb1h", + 'R' for run-length encoding as in "wb1R", or 'F' for fixed code compression + as in "wb9F". (See the description of deflateInit2 for more information + about the strategy parameter.) 'T' will request transparent writing or + appending with no compression and not using the gzip format. 'T' cannot be + used to force transparent reading. Transparent reading is automatically + performed if there is no gzip header at the start. Transparent reading can + be disabled with the 'G' option, which will instead return an error if there + is no gzip header. 'N' will open the file in non-blocking mode. + + 'a' can be used instead of 'w' to request that the gzip stream that will + be written be appended to the file. '+' will result in an error, since + reading and writing to the same gzip file is not supported. The addition of + 'x' when writing will create the file exclusively, which fails if the file + already exists. On systems that support it, the addition of 'e' when + reading or writing will set the flag to close the file on an execve() call. + + These functions, as well as gzip, will read and decode a sequence of gzip + streams in a file. The append function of gzopen() can be used to create + such a file. (Also see gzflush() for another way to do this.) When + appending, gzopen does not test whether the file begins with a gzip stream, + nor does it look for the end of the gzip streams to begin appending. gzopen + will simply append a gzip stream to the existing file. + + gzopen can be used to read a file which is not in gzip format; in this + case gzread will directly read from the file without decompression. When + reading, this will be detected automatically by looking for the magic two- + byte gzip header. + + gzopen returns NULL if the file could not be opened, if there was + insufficient memory to allocate the gzFile state, or if an invalid mode was + specified (an 'r', 'w', or 'a' was not provided, or '+' was provided). + errno can be checked to determine if the reason gzopen failed was that the + file could not be opened. Note that if 'N' is in mode for non-blocking, the + open() itself can fail in order to not block. In that case gzopen() will + return NULL and errno will be EAGAIN or ENONBLOCK. The call to gzopen() can + then be re-tried. If the application would like to block on opening the + file, then it can use open() without O_NONBLOCK, and then gzdopen() with the + resulting file descriptor and 'N' in the mode, which will set it to non- + blocking. +*/ + +ZEXTERN gzFile ZEXPORT gzdopen(int fd, const char *mode); +/* + Associate a gzFile with the file descriptor fd. File descriptors are + obtained from calls like open, dup, creat, pipe or fileno (if the file has + been previously opened with fopen). The mode parameter is as in gzopen. An + 'e' in mode will set fd's flag to close the file on an execve() call. An 'N' + in mode will set fd's non-blocking flag. + + The next call of gzclose on the returned gzFile will also close the file + descriptor fd, just like fclose(fdopen(fd, mode)) closes the file descriptor + fd. If you want to keep fd open, use fd = dup(fd_keep); gz = gzdopen(fd, + mode);. The duplicated descriptor should be saved to avoid a leak, since + gzdopen does not close fd if it fails. If you are using fileno() to get the + file descriptor from a FILE *, then you will have to use dup() to avoid + double-close()ing the file descriptor. Both gzclose() and fclose() will + close the associated file descriptor, so they need to have different file + descriptors. + + gzdopen returns NULL if there was insufficient memory to allocate the + gzFile state, if an invalid mode was specified (an 'r', 'w', or 'a' was not + provided, or '+' was provided), or if fd is -1. The file descriptor is not + used until the next gz* read, write, seek, or close operation, so gzdopen + will not detect if fd is invalid (unless fd is -1). +*/ + +ZEXTERN int ZEXPORT gzbuffer(gzFile file, unsigned size); +/* + Set the internal buffer size used by this library's functions for file to + size. The default buffer size is 8192 bytes. This function must be called + after gzopen() or gzdopen(), and before any other calls that read or write + the file. The buffer memory allocation is always deferred to the first read + or write. Three times that size in buffer space is allocated. A larger + buffer size of, for example, 64K or 128K bytes will noticeably increase the + speed of decompression (reading). + + The new buffer size also affects the maximum length for gzprintf(). + + gzbuffer() returns 0 on success, or -1 on failure, such as being called + too late. +*/ + +ZEXTERN int ZEXPORT gzsetparams(gzFile file, int level, int strategy); +/* + Dynamically update the compression level and strategy for file. See the + description of deflateInit2 for the meaning of these parameters. Previously + provided data is flushed before applying the parameter changes. + + gzsetparams returns Z_OK if success, Z_STREAM_ERROR if the file was not + opened for writing, Z_ERRNO if there is an error writing the flushed data, + or Z_MEM_ERROR if there is a memory allocation error. +*/ + +ZEXTERN int ZEXPORT gzread(gzFile file, voidp buf, unsigned len); +/* + Read and decompress up to len uncompressed bytes from file into buf. If + the input file is not in gzip format, gzread copies the given number of + bytes into the buffer directly from the file. + + After reaching the end of a gzip stream in the input, gzread will continue + to read, looking for another gzip stream. Any number of gzip streams may be + concatenated in the input file, and will all be decompressed by gzread(). + If something other than a gzip stream is encountered after a gzip stream, + that remaining trailing garbage is ignored (and no error is returned). + + gzread can be used to read a gzip file that is being concurrently written. + Upon reaching the end of the input, gzread will return with the available + data. If the error code returned by gzerror is Z_OK or Z_BUF_ERROR, then + gzclearerr can be used to clear the end of file indicator in order to permit + gzread to be tried again. Z_OK indicates that a gzip stream was completed + on the last gzread. Z_BUF_ERROR indicates that the input file ended in the + middle of a gzip stream. Note that gzread does not return -1 in the event + of an incomplete gzip stream. This error is deferred until gzclose(), which + will return Z_BUF_ERROR if the last gzread ended in the middle of a gzip + stream. Alternatively, gzerror can be used before gzclose to detect this + case. + + gzread can be used to read a gzip file on a non-blocking device. If the + input stalls and there is no uncompressed data to return, then gzread() will + return -1, and errno will be EAGAIN or EWOULDBLOCK. gzread() can then be + called again. + + gzread returns the number of uncompressed bytes actually read, less than + len for end of file, or -1 for error. If len is too large to fit in an int, + then nothing is read, -1 is returned, and the error state is set to + Z_STREAM_ERROR. If some data was read before an error, then that data is + returned until exhausted, after which the next call will signal the error. +*/ + +ZEXTERN z_size_t ZEXPORT gzfread(voidp buf, z_size_t size, z_size_t nitems, + gzFile file); +/* + Read and decompress up to nitems items of size size from file into buf, + otherwise operating as gzread() does. This duplicates the interface of + stdio's fread(), with size_t request and return types. If the library + defines size_t, then z_size_t is identical to size_t. If not, then z_size_t + is an unsigned integer type that can contain a pointer. + + gzfread() returns the number of full items read of size size, or zero if + the end of the file was reached and a full item could not be read, or if + there was an error. gzerror() must be consulted if zero is returned in + order to determine if there was an error. If the multiplication of size and + nitems overflows, i.e. the product does not fit in a z_size_t, then nothing + is read, zero is returned, and the error state is set to Z_STREAM_ERROR. + + In the event that the end of file is reached and only a partial item is + available at the end, i.e. the remaining uncompressed data length is not a + multiple of size, then the final partial item is nevertheless read into buf + and the end-of-file flag is set. The length of the partial item read is not + provided, but could be inferred from the result of gztell(). This behavior + is the same as that of fread() implementations in common libraries. This + could result in data loss if used with size != 1 when reading a concurrently + written file or a non-blocking file. In that case, use size == 1 or gzread() + instead. +*/ + +ZEXTERN int ZEXPORT gzwrite(gzFile file, voidpc buf, unsigned len); +/* + Compress and write the len uncompressed bytes at buf to file. gzwrite + returns the number of uncompressed bytes written, or 0 in case of error or + if len is 0. If the write destination is non-blocking, then gzwrite() may + return a number of bytes written that is not 0 and less than len. + + If len does not fit in an int, then 0 is returned and nothing is written. +*/ + +ZEXTERN z_size_t ZEXPORT gzfwrite(voidpc buf, z_size_t size, + z_size_t nitems, gzFile file); +/* + Compress and write nitems items of size size from buf to file, duplicating + the interface of stdio's fwrite(), with size_t request and return types. If + the library defines size_t, then z_size_t is identical to size_t. If not, + then z_size_t is an unsigned integer type that can contain a pointer. + + gzfwrite() returns the number of full items written of size size, or zero + if there was an error. If the multiplication of size and nitems overflows, + i.e. the product does not fit in a z_size_t, then nothing is written, zero + is returned, and the error state is set to Z_STREAM_ERROR. + + If writing a concurrently read file or a non-blocking file with size != 1, + a partial item could be written, with no way of knowing how much of it was + not written, resulting in data loss. In that case, use size == 1 or + gzwrite() instead. +*/ + +#if defined(STDC) || defined(Z_HAVE_STDARG_H) +ZEXTERN int ZEXPORTVA gzprintf(gzFile file, const char *format, ...); +#else +ZEXTERN int ZEXPORTVA gzprintf(); +#endif +/* + Convert, format, compress, and write the arguments (...) to file under + control of the string format, as in fprintf. gzprintf returns the number of + uncompressed bytes actually written, or a negative zlib error code in case + of error. The number of uncompressed bytes written is limited to 8191, or + one less than the buffer size given to gzbuffer(). The caller should assure + that this limit is not exceeded. If it is exceeded, then gzprintf() will + return an error (0) with nothing written. + + In that last case, there may also be a buffer overflow with unpredictable + consequences, which is possible only if zlib was compiled with the insecure + functions sprintf() or vsprintf(), because the secure snprintf() and + vsnprintf() functions were not available. That would only be the case for + a non-ANSI C compiler. zlib may have been built without gzprintf() because + secure functions were not available and having gzprintf() be insecure was + not an option, in which case, gzprintf() returns Z_STREAM_ERROR. All of + these possibilities can be determined using zlibCompileFlags(). + + If a Z_BUF_ERROR is returned, then nothing was written due to a stall on + the non-blocking write destination. +*/ + +ZEXTERN int ZEXPORT gzputs(gzFile file, const char *s); +/* + Compress and write the given null-terminated string s to file, excluding + the terminating null character. + + gzputs returns the number of characters written, or -1 in case of error. + The number of characters written may be less than the length of the string + if the write destination is non-blocking. + + If the length of the string does not fit in an int, then -1 is returned + and nothing is written. +*/ + +ZEXTERN char * ZEXPORT gzgets(gzFile file, char *buf, int len); +/* + Read and decompress bytes from file into buf, until len-1 characters are + read, or until a newline character is read and transferred to buf, or an + end-of-file condition is encountered. If any characters are read or if len + is one, the string is terminated with a null character. If no characters + are read due to an end-of-file or len is less than one, then the buffer is + left untouched. + + gzgets returns buf which is a null-terminated string, or it returns NULL + for end-of-file or in case of error. If some data was read before an error, + then that data is returned until exhausted, after which the next call will + return NULL to signal the error. + + gzgets can be used on a file being concurrently written, and on a non- + blocking device, both as for gzread(). However lines may be broken in the + middle, leaving it up to the application to reassemble them as needed. +*/ + +ZEXTERN int ZEXPORT gzputc(gzFile file, int c); +/* + Compress and write c, converted to an unsigned char, into file. gzputc + returns the value that was written, or -1 in case of error. +*/ + +ZEXTERN int ZEXPORT gzgetc(gzFile file); +/* + Read and decompress one byte from file. gzgetc returns this byte or -1 in + case of end of file or error. If some data was read before an error, then + that data is returned until exhausted, after which the next call will return + -1 to signal the error. + + This is implemented as a macro for speed. As such, it does not do all of + the checking the other functions do. I.e. it does not check to see if file + is NULL, nor whether the structure file points to has been clobbered or not. + + gzgetc can be used to read a gzip file on a non-blocking device. If the + input stalls and there is no uncompressed data to return, then gzgetc() will + return -1, and errno will be EAGAIN or EWOULDBLOCK. gzread() can then be + called again. +*/ + +ZEXTERN int ZEXPORT gzungetc(int c, gzFile file); +/* + Push c back onto the stream for file to be read as the first character on + the next read. At least one character of push-back is always allowed. + gzungetc() returns the character pushed, or -1 on failure. gzungetc() will + fail if c is -1, and may fail if a character has been pushed but not read + yet. If gzungetc is used immediately after gzopen or gzdopen, at least the + output buffer size of pushed characters is allowed. (See gzbuffer above.) + The pushed character will be discarded if the stream is repositioned with + gzseek() or gzrewind(). + + gzungetc(-1, file) will force any pending seek to execute. Then gztell() + will report the position, even if the requested seek reached end of file. + This can be used to determine the number of uncompressed bytes in a gzip + file without having to read it into a buffer. +*/ + +ZEXTERN int ZEXPORT gzflush(gzFile file, int flush); +/* + Flush all pending output to file. The parameter flush is as in the + deflate() function. The return value is the zlib error number (see function + gzerror below). gzflush is only permitted when writing. + + If the flush parameter is Z_FINISH, the remaining data is written and the + gzip stream is completed in the output. If gzwrite() is called again, a new + gzip stream will be started in the output. gzread() is able to read such + concatenated gzip streams. + + gzflush should be called only when strictly necessary because it will + degrade compression if called too often. +*/ + +/* +ZEXTERN z_off_t ZEXPORT gzseek(gzFile file, + z_off_t offset, int whence); + + Set the starting position to offset relative to whence for the next gzread + or gzwrite on file. The offset represents a number of bytes in the + uncompressed data stream. The whence parameter is defined as in lseek(2); + the value SEEK_END is not supported. + + If the file is opened for reading, this function is emulated but can be + extremely slow. If the file is opened for writing, only forward seeks are + supported; gzseek then compresses a sequence of zeroes up to the new + starting position. For reading or writing, any actual seeking is deferred + until the next read or write operation, or close operation when writing. + + gzseek returns the resulting offset location as measured in bytes from + the beginning of the uncompressed stream, or -1 in case of error, in + particular if the file is opened for writing and the new starting position + would be before the current position. +*/ + +ZEXTERN int ZEXPORT gzrewind(gzFile file); +/* + Rewind file. This function is supported only for reading. + + gzrewind(file) is equivalent to (int)gzseek(file, 0L, SEEK_SET). +*/ + +/* +ZEXTERN z_off_t ZEXPORT gztell(gzFile file); + + Return the starting position for the next gzread or gzwrite on file. + This position represents a number of bytes in the uncompressed data stream, + and is zero when starting, even if appending or reading a gzip stream from + the middle of a file using gzdopen(). + + gztell(file) is equivalent to gzseek(file, 0L, SEEK_CUR) +*/ + +/* +ZEXTERN z_off_t ZEXPORT gzoffset(gzFile file); + + Return the current compressed (actual) read or write offset of file. This + offset includes the count of bytes that precede the gzip stream, for example + when appending or when using gzdopen() for reading. When reading, the + offset does not include as yet unused buffered input. This information can + be used for a progress indicator. On error, gzoffset() returns -1. +*/ + +ZEXTERN int ZEXPORT gzeof(gzFile file); +/* + Return true (1) if the end-of-file indicator for file has been set while + reading, false (0) otherwise. Note that the end-of-file indicator is set + only if the read tried to go past the end of the input, but came up short. + Therefore, just like feof(), gzeof() may return false even if there is no + more data to read, in the event that the last read request was for the exact + number of bytes remaining in the input file. This will happen if the input + file size is an exact multiple of the buffer size. + + If gzeof() returns true, then the read functions will return no more data, + unless the end-of-file indicator is reset by gzclearerr() and the input file + has grown since the previous end of file was detected. +*/ + +ZEXTERN int ZEXPORT gzdirect(gzFile file); +/* + Return true (1) if file is being copied directly while reading, or false + (0) if file is a gzip stream being decompressed. + + If the input file is empty, gzdirect() will return true, since the input + does not contain a gzip stream. + + If gzdirect() is used immediately after gzopen() or gzdopen() it will + cause buffers to be allocated to allow reading the file to determine if it + is a gzip file. Therefore if gzbuffer() is used, it should be called before + gzdirect(). If the input is being written concurrently or the device is non- + blocking, then gzdirect() may give a different answer once four bytes of + input have been accumulated, which is what is needed to confirm or deny a + gzip header. Before this, gzdirect() will return true (1). + + When writing, gzdirect() returns true (1) if transparent writing was + requested ("wT" for the gzopen() mode), or false (0) otherwise. (Note: + gzdirect() is not needed when writing. Transparent writing must be + explicitly requested, so the application already knows the answer. When + linking statically, using gzdirect() will include all of the zlib code for + gzip file reading and decompression, which may not be desired.) +*/ + +ZEXTERN int ZEXPORT gzclose(gzFile file); +/* + Flush all pending output for file, if necessary, close file and + deallocate the (de)compression state. Note that once file is closed, you + cannot call gzerror with file, since its structures have been deallocated. + gzclose must not be called more than once on the same file, just as free + must not be called more than once on the same allocation. + + gzclose will return Z_STREAM_ERROR if file is not valid, Z_ERRNO on a + file operation error, Z_MEM_ERROR if out of memory, Z_BUF_ERROR if the + last read ended in the middle of a gzip stream, or Z_OK on success. +*/ + +ZEXTERN int ZEXPORT gzclose_r(gzFile file); +ZEXTERN int ZEXPORT gzclose_w(gzFile file); +/* + Same as gzclose(), but gzclose_r() is only for use when reading, and + gzclose_w() is only for use when writing or appending. The advantage to + using these instead of gzclose() is that they avoid linking in zlib + compression or decompression code that is not used when only reading or only + writing respectively. If gzclose() is used, then both compression and + decompression code will be included the application when linking to a static + zlib library. +*/ + +ZEXTERN const char * ZEXPORT gzerror(gzFile file, int *errnum); +/* + Return the error message for the last error which occurred on file. + If errnum is not NULL, *errnum is set to zlib error number. If an error + occurred in the file system and not in the compression library, *errnum is + set to Z_ERRNO and the application may consult errno to get the exact error + code. + + The application must not modify the returned string. Future calls to + this function may invalidate the previously returned string. If file is + closed, then the string previously returned by gzerror will no longer be + available. + + gzerror() should be used to distinguish errors from end-of-file for those + functions above that do not distinguish those cases in their return values. +*/ + +ZEXTERN void ZEXPORT gzclearerr(gzFile file); +/* + Clear the error and end-of-file flags for file. This is analogous to the + clearerr() function in stdio. This is useful for continuing to read a gzip + file that is being written concurrently. +*/ + +#endif /* !Z_SOLO */ + + /* checksum functions */ + +/* + These functions are not related to compression but are exported + anyway because they might be useful in applications using the compression + library. +*/ + +ZEXTERN uLong ZEXPORT adler32(uLong adler, const Bytef *buf, uInt len); +/* + Update a running Adler-32 checksum with the bytes buf[0..len-1] and + return the updated checksum. An Adler-32 value is in the range of a 32-bit + unsigned integer. If buf is Z_NULL, this function returns the required + initial value for the checksum. + + An Adler-32 checksum is almost as reliable as a CRC-32 but can be computed + much faster. + + Usage example: + + uLong adler = adler32(0L, Z_NULL, 0); + + while (read_buffer(buffer, length) != EOF) { + adler = adler32(adler, buffer, length); + } + if (adler != original_adler) error(); +*/ + +ZEXTERN uLong ZEXPORT adler32_z(uLong adler, const Bytef *buf, + z_size_t len); +/* + Same as adler32(), but with a size_t length. Note that a long is 32 bits + on Windows. +*/ + +/* +ZEXTERN uLong ZEXPORT adler32_combine(uLong adler1, uLong adler2, + z_off_t len2); + + Combine two Adler-32 checksums into one. For two sequences of bytes, seq1 + and seq2 with lengths len1 and len2, Adler-32 checksums were calculated for + each, adler1 and adler2. adler32_combine() returns the Adler-32 checksum of + seq1 and seq2 concatenated, requiring only adler1, adler2, and len2. Note + that the z_off_t type (like off_t) is a signed integer. If len2 is + negative, the result has no meaning or utility. +*/ + +ZEXTERN uLong ZEXPORT crc32(uLong crc, const Bytef *buf, uInt len); +/* + Update a running CRC-32 with the bytes buf[0..len-1] and return the + updated CRC-32. A CRC-32 value is in the range of a 32-bit unsigned integer. + If buf is Z_NULL, this function returns the required initial value for the + crc. Pre- and post-conditioning (one's complement) is performed within this + function so it shouldn't be done by the application. + + Usage example: + + uLong crc = crc32(0L, Z_NULL, 0); + + while (read_buffer(buffer, length) != EOF) { + crc = crc32(crc, buffer, length); + } + if (crc != original_crc) error(); +*/ + +ZEXTERN uLong ZEXPORT crc32_z(uLong crc, const Bytef *buf, + z_size_t len); +/* + Same as crc32(), but with a size_t length. Note that a long is 32 bits on + Windows. +*/ + +/* +ZEXTERN uLong ZEXPORT crc32_combine(uLong crc1, uLong crc2, z_off_t len2); + + Combine two CRC-32 check values into one. For two sequences of bytes, + seq1 and seq2 with lengths len1 and len2, CRC-32 check values were + calculated for each, crc1 and crc2. crc32_combine() returns the CRC-32 + check value of seq1 and seq2 concatenated, requiring only crc1, crc2, and + len2. len2 must be non-negative, otherwise zero is returned. +*/ + +/* +ZEXTERN uLong ZEXPORT crc32_combine_gen(z_off_t len2); + + Return the operator corresponding to length len2, to be used with + crc32_combine_op(). len2 must be non-negative, otherwise zero is returned. +*/ + +ZEXTERN uLong ZEXPORT crc32_combine_op(uLong crc1, uLong crc2, uLong op); +/* + Give the same result as crc32_combine(), using op in place of len2. op is + is generated from len2 by crc32_combine_gen(). This will be faster than + crc32_combine() if the generated op is used more than once. +*/ + + + /* various hacks, don't look :) */ + +/* deflateInit and inflateInit are macros to allow checking the zlib version + * and the compiler's view of z_stream: + */ +ZEXTERN int ZEXPORT deflateInit_(z_streamp strm, int level, + const char *version, int stream_size); +ZEXTERN int ZEXPORT inflateInit_(z_streamp strm, + const char *version, int stream_size); +ZEXTERN int ZEXPORT deflateInit2_(z_streamp strm, int level, int method, + int windowBits, int memLevel, + int strategy, const char *version, + int stream_size); +ZEXTERN int ZEXPORT inflateInit2_(z_streamp strm, int windowBits, + const char *version, int stream_size); +ZEXTERN int ZEXPORT inflateBackInit_(z_streamp strm, int windowBits, + unsigned char FAR *window, + const char *version, + int stream_size); +#ifdef Z_PREFIX_SET +# define z_deflateInit(strm, level) \ + deflateInit_((strm), (level), ZLIB_VERSION, (int)sizeof(z_stream)) +# define z_inflateInit(strm) \ + inflateInit_((strm), ZLIB_VERSION, (int)sizeof(z_stream)) +# define z_deflateInit2(strm, level, method, windowBits, memLevel, strategy) \ + deflateInit2_((strm),(level),(method),(windowBits),(memLevel),\ + (strategy), ZLIB_VERSION, (int)sizeof(z_stream)) +# define z_inflateInit2(strm, windowBits) \ + inflateInit2_((strm), (windowBits), ZLIB_VERSION, \ + (int)sizeof(z_stream)) +# define z_inflateBackInit(strm, windowBits, window) \ + inflateBackInit_((strm), (windowBits), (window), \ + ZLIB_VERSION, (int)sizeof(z_stream)) +#else +# define deflateInit(strm, level) \ + deflateInit_((strm), (level), ZLIB_VERSION, (int)sizeof(z_stream)) +# define inflateInit(strm) \ + inflateInit_((strm), ZLIB_VERSION, (int)sizeof(z_stream)) +# define deflateInit2(strm, level, method, windowBits, memLevel, strategy) \ + deflateInit2_((strm),(level),(method),(windowBits),(memLevel),\ + (strategy), ZLIB_VERSION, (int)sizeof(z_stream)) +# define inflateInit2(strm, windowBits) \ + inflateInit2_((strm), (windowBits), ZLIB_VERSION, \ + (int)sizeof(z_stream)) +# define inflateBackInit(strm, windowBits, window) \ + inflateBackInit_((strm), (windowBits), (window), \ + ZLIB_VERSION, (int)sizeof(z_stream)) +#endif + +#ifndef Z_SOLO + +/* gzgetc() macro and its supporting function and exposed data structure. Note + * that the real internal state is much larger than the exposed structure. + * This abbreviated structure exposes just enough for the gzgetc() macro. The + * user should not mess with these exposed elements, since their names or + * behavior could change in the future, perhaps even capriciously. They can + * only be used by the gzgetc() macro. You have been warned. + */ +struct gzFile_s { + unsigned have; + unsigned char *next; + z_off64_t pos; +}; +ZEXTERN int ZEXPORT gzgetc_(gzFile file); /* backward compatibility */ +#ifdef Z_PREFIX_SET +# undef z_gzgetc +# define z_gzgetc(g) \ + ((g)->have ? ((g)->have--, (g)->pos++, *((g)->next)++) : (gzgetc)(g)) +#else +# define gzgetc(g) \ + ((g)->have ? ((g)->have--, (g)->pos++, *((g)->next)++) : (gzgetc)(g)) +#endif + +/* provide 64-bit offset functions if _LARGEFILE64_SOURCE defined, and/or + * change the regular functions to 64 bits if _FILE_OFFSET_BITS is 64 (if + * both are true, the application gets the *64 functions, and the regular + * functions are changed to 64 bits) -- in case these are set on systems + * without large file support, _LFS64_LARGEFILE must also be true + */ +#ifdef Z_LARGE64 + ZEXTERN gzFile ZEXPORT gzopen64(const char *, const char *); + ZEXTERN z_off64_t ZEXPORT gzseek64(gzFile, z_off64_t, int); + ZEXTERN z_off64_t ZEXPORT gztell64(gzFile); + ZEXTERN z_off64_t ZEXPORT gzoffset64(gzFile); + ZEXTERN uLong ZEXPORT adler32_combine64(uLong, uLong, z_off64_t); + ZEXTERN uLong ZEXPORT crc32_combine64(uLong, uLong, z_off64_t); + ZEXTERN uLong ZEXPORT crc32_combine_gen64(z_off64_t); +#endif + +#if !defined(ZLIB_INTERNAL) && defined(Z_WANT64) +# ifdef Z_PREFIX_SET +# define z_gzopen z_gzopen64 +# define z_gzseek z_gzseek64 +# define z_gztell z_gztell64 +# define z_gzoffset z_gzoffset64 +# define z_adler32_combine z_adler32_combine64 +# define z_crc32_combine z_crc32_combine64 +# define z_crc32_combine_gen z_crc32_combine_gen64 +# else +# define gzopen gzopen64 +# define gzseek gzseek64 +# define gztell gztell64 +# define gzoffset gzoffset64 +# define adler32_combine adler32_combine64 +# define crc32_combine crc32_combine64 +# define crc32_combine_gen crc32_combine_gen64 +# endif +# ifndef Z_LARGE64 + ZEXTERN gzFile ZEXPORT gzopen64(const char *, const char *); + ZEXTERN z_off_t ZEXPORT gzseek64(gzFile, z_off_t, int); + ZEXTERN z_off_t ZEXPORT gztell64(gzFile); + ZEXTERN z_off_t ZEXPORT gzoffset64(gzFile); + ZEXTERN uLong ZEXPORT adler32_combine64(uLong, uLong, z_off64_t); + ZEXTERN uLong ZEXPORT crc32_combine64(uLong, uLong, z_off64_t); + ZEXTERN uLong ZEXPORT crc32_combine_gen64(z_off64_t); +# endif +#else + ZEXTERN gzFile ZEXPORT gzopen(const char *, const char *); + ZEXTERN z_off_t ZEXPORT gzseek(gzFile, z_off_t, int); + ZEXTERN z_off_t ZEXPORT gztell(gzFile); + ZEXTERN z_off_t ZEXPORT gzoffset(gzFile); + ZEXTERN uLong ZEXPORT adler32_combine(uLong, uLong, z_off_t); + ZEXTERN uLong ZEXPORT crc32_combine(uLong, uLong, z_off_t); + ZEXTERN uLong ZEXPORT crc32_combine_gen(z_off_t); +#endif + +#else /* Z_SOLO */ + + ZEXTERN uLong ZEXPORT adler32_combine(uLong, uLong, z_off_t); + ZEXTERN uLong ZEXPORT crc32_combine(uLong, uLong, z_off_t); + ZEXTERN uLong ZEXPORT crc32_combine_gen(z_off_t); + +#endif /* !Z_SOLO */ + +/* undocumented functions */ +ZEXTERN const char * ZEXPORT zError(int); +ZEXTERN int ZEXPORT inflateSyncPoint(z_streamp); +ZEXTERN const z_crc_t FAR * ZEXPORT get_crc_table(void); +ZEXTERN int ZEXPORT inflateUndermine(z_streamp, int); +ZEXTERN int ZEXPORT inflateValidate(z_streamp, int); +ZEXTERN unsigned long ZEXPORT inflateCodesUsed(z_streamp); +ZEXTERN int ZEXPORT inflateResetKeep(z_streamp); +ZEXTERN int ZEXPORT deflateResetKeep(z_streamp); +#if defined(_WIN32) && !defined(Z_SOLO) +ZEXTERN gzFile ZEXPORT gzopen_w(const wchar_t *path, + const char *mode); +#endif +#if defined(STDC) || defined(Z_HAVE_STDARG_H) +# ifndef Z_SOLO +ZEXTERN int ZEXPORTVA gzvprintf(gzFile file, + const char *format, + va_list va); +# endif +#endif + +#ifdef __cplusplus +} +#endif + +#endif /* ZLIB_H */ diff --git a/Minecraft.Client/Common/zlib/zutil.c b/Minecraft.Client/Common/zlib/zutil.c new file mode 100644 index 0000000..0e30c56 --- /dev/null +++ b/Minecraft.Client/Common/zlib/zutil.c @@ -0,0 +1,312 @@ +/* zutil.c -- target dependent utility functions for the compression library + * Copyright (C) 1995-2026 Jean-loup Gailly + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* @(#) $Id$ */ + +#include "zutil.h" +#ifndef Z_SOLO +# include "gzguts.h" +#endif + +z_const char * const z_errmsg[10] = { + (z_const char *)"need dictionary", /* Z_NEED_DICT 2 */ + (z_const char *)"stream end", /* Z_STREAM_END 1 */ + (z_const char *)"", /* Z_OK 0 */ + (z_const char *)"file error", /* Z_ERRNO (-1) */ + (z_const char *)"stream error", /* Z_STREAM_ERROR (-2) */ + (z_const char *)"data error", /* Z_DATA_ERROR (-3) */ + (z_const char *)"insufficient memory", /* Z_MEM_ERROR (-4) */ + (z_const char *)"buffer error", /* Z_BUF_ERROR (-5) */ + (z_const char *)"incompatible version",/* Z_VERSION_ERROR (-6) */ + (z_const char *)"" +}; + + +const char * ZEXPORT zlibVersion(void) { + return ZLIB_VERSION; +} + +uLong ZEXPORT zlibCompileFlags(void) { + uLong flags; + + flags = 0; + switch ((int)(sizeof(uInt))) { + case 2: break; + case 4: flags += 1; break; + case 8: flags += 2; break; + default: flags += 3; + } + switch ((int)(sizeof(uLong))) { + case 2: break; + case 4: flags += 1 << 2; break; + case 8: flags += 2 << 2; break; + default: flags += 3 << 2; + } + switch ((int)(sizeof(voidpf))) { + case 2: break; + case 4: flags += 1 << 4; break; + case 8: flags += 2 << 4; break; + default: flags += 3 << 4; + } + switch ((int)(sizeof(z_off_t))) { + case 2: break; + case 4: flags += 1 << 6; break; + case 8: flags += 2 << 6; break; + default: flags += 3 << 6; + } +#ifdef ZLIB_DEBUG + flags += 1 << 8; +#endif + /* +#if defined(ASMV) || defined(ASMINF) + flags += 1 << 9; +#endif + */ +#ifdef ZLIB_WINAPI + flags += 1 << 10; +#endif +#ifdef BUILDFIXED + flags += 1 << 12; +#endif +#ifdef DYNAMIC_CRC_TABLE + flags += 1 << 13; +#endif +#ifdef NO_GZCOMPRESS + flags += 1L << 16; +#endif +#ifdef NO_GZIP + flags += 1L << 17; +#endif +#ifdef PKZIP_BUG_WORKAROUND + flags += 1L << 20; +#endif +#ifdef FASTEST + flags += 1L << 21; +#endif +#if defined(STDC) || defined(Z_HAVE_STDARG_H) +# ifdef NO_vsnprintf +# ifdef ZLIB_INSECURE + flags += 1L << 25; +# else + flags += 1L << 27; +# endif +# ifdef HAS_vsprintf_void + flags += 1L << 26; +# endif +# else +# ifdef HAS_vsnprintf_void + flags += 1L << 26; +# endif +# endif +#else + flags += 1L << 24; +# ifdef NO_snprintf +# ifdef ZLIB_INSECURE + flags += 1L << 25; +# else + flags += 1L << 27; +# endif +# ifdef HAS_sprintf_void + flags += 1L << 26; +# endif +# else +# ifdef HAS_snprintf_void + flags += 1L << 26; +# endif +# endif +#endif + return flags; +} + +#ifdef ZLIB_DEBUG +#include +# ifndef verbose +# define verbose 0 +# endif +int ZLIB_INTERNAL z_verbose = verbose; + +void ZLIB_INTERNAL z_error(char *m) { + fprintf(stderr, "%s\n", m); + exit(1); +} +#endif + +/* exported to allow conversion of error code to string for compress() and + * uncompress() + */ +const char * ZEXPORT zError(int err) { + return ERR_MSG(err); +} + +#if defined(_WIN32_WCE) && _WIN32_WCE < 0x800 + /* The older Microsoft C Run-Time Library for Windows CE doesn't have + * errno. We define it as a global variable to simplify porting. + * Its value is always 0 and should not be used. + */ + int errno = 0; +#endif + +#ifndef HAVE_MEMCPY + +void ZLIB_INTERNAL zmemcpy(void FAR *dst, const void FAR *src, z_size_t n) { + uchf *p = dst; + const uchf *q = src; + while (n) { + *p++ = *q++; + n--; + } +} + +int ZLIB_INTERNAL zmemcmp(const void FAR *s1, const void FAR *s2, z_size_t n) { + const uchf *p = s1, *q = s2; + while (n) { + if (*p++ != *q++) + return (int)p[-1] - (int)q[-1]; + n--; + } + return 0; +} + +void ZLIB_INTERNAL zmemzero(void FAR *b, z_size_t len) { + uchf *p = b; + while (len) { + *p++ = 0; + len--; + } +} + +#endif + +#ifndef Z_SOLO + +#ifdef SYS16BIT + +#ifdef __TURBOC__ +/* Turbo C in 16-bit mode */ + +# define MY_ZCALLOC + +/* Turbo C malloc() does not allow dynamic allocation of 64K bytes + * and farmalloc(64K) returns a pointer with an offset of 8, so we + * must fix the pointer. Warning: the pointer must be put back to its + * original form in order to free it, use zcfree(). + */ + +#define MAX_PTR 10 +/* 10*64K = 640K */ + +local int next_ptr = 0; + +typedef struct ptr_table_s { + voidpf org_ptr; + voidpf new_ptr; +} ptr_table; + +local ptr_table table[MAX_PTR]; +/* This table is used to remember the original form of pointers + * to large buffers (64K). Such pointers are normalized with a zero offset. + * Since MSDOS is not a preemptive multitasking OS, this table is not + * protected from concurrent access. This hack doesn't work anyway on + * a protected system like OS/2. Use Microsoft C instead. + */ + +voidpf ZLIB_INTERNAL zcalloc(voidpf opaque, unsigned items, unsigned size) { + voidpf buf; + ulg bsize = (ulg)items*size; + + (void)opaque; + + /* If we allocate less than 65520 bytes, we assume that farmalloc + * will return a usable pointer which doesn't have to be normalized. + */ + if (bsize < 65520L) { + buf = farmalloc(bsize); + if (*(ush*)&buf != 0) return buf; + } else { + buf = farmalloc(bsize + 16L); + } + if (buf == NULL || next_ptr >= MAX_PTR) return NULL; + table[next_ptr].org_ptr = buf; + + /* Normalize the pointer to seg:0 */ + *((ush*)&buf+1) += ((ush)((uch*)buf-0) + 15) >> 4; + *(ush*)&buf = 0; + table[next_ptr++].new_ptr = buf; + return buf; +} + +void ZLIB_INTERNAL zcfree(voidpf opaque, voidpf ptr) { + int n; + + (void)opaque; + + if (*(ush*)&ptr != 0) { /* object < 64K */ + farfree(ptr); + return; + } + /* Find the original pointer */ + for (n = 0; n < next_ptr; n++) { + if (ptr != table[n].new_ptr) continue; + + farfree(table[n].org_ptr); + while (++n < next_ptr) { + table[n-1] = table[n]; + } + next_ptr--; + return; + } + Assert(0, "zcfree: ptr not found"); +} + +#endif /* __TURBOC__ */ + + +#ifdef M_I86 +/* Microsoft C in 16-bit mode */ + +# define MY_ZCALLOC + +#if (!defined(_MSC_VER) || (_MSC_VER <= 600)) +# define _halloc halloc +# define _hfree hfree +#endif + +voidpf ZLIB_INTERNAL zcalloc(voidpf opaque, uInt items, uInt size) { + (void)opaque; + return _halloc((long)items, size); +} + +void ZLIB_INTERNAL zcfree(voidpf opaque, voidpf ptr) { + (void)opaque; + _hfree(ptr); +} + +#endif /* M_I86 */ + +#endif /* SYS16BIT */ + + +#ifndef MY_ZCALLOC /* Any system without a special alloc function */ + +#ifndef STDC +extern voidp malloc(uInt size); +extern voidp calloc(uInt items, uInt size); +extern void free(voidpf ptr); +#endif + +voidpf ZLIB_INTERNAL zcalloc(voidpf opaque, unsigned items, unsigned size) { + (void)opaque; + return sizeof(uInt) > 2 ? (voidpf)malloc(items * size) : + (voidpf)calloc(items, size); +} + +void ZLIB_INTERNAL zcfree(voidpf opaque, voidpf ptr) { + (void)opaque; + free(ptr); +} + +#endif /* MY_ZCALLOC */ + +#endif /* !Z_SOLO */ diff --git a/Minecraft.Client/Common/zlib/zutil.h b/Minecraft.Client/Common/zlib/zutil.h new file mode 100644 index 0000000..a9bc23c --- /dev/null +++ b/Minecraft.Client/Common/zlib/zutil.h @@ -0,0 +1,331 @@ +/* zutil.h -- internal interface and configuration of the compression library + * Copyright (C) 1995-2026 Jean-loup Gailly, Mark Adler + * For conditions of distribution and use, see copyright notice in zlib.h + */ + +/* WARNING: this file should *not* be used by applications. It is + part of the implementation of the compression library and is + subject to change. Applications should only use zlib.h. + */ + +/* @(#) $Id$ */ + +#ifndef ZUTIL_H +#define ZUTIL_H + +#ifdef HAVE_HIDDEN +# define ZLIB_INTERNAL __attribute__((visibility ("hidden"))) +#else +# define ZLIB_INTERNAL +#endif + +#include "zlib.h" + +#if defined(STDC) && !defined(Z_SOLO) +# if !(defined(_WIN32_WCE) && defined(_MSC_VER)) +# include +# endif +# include +# include +#endif + +#ifndef local +# define local static +#endif +/* since "static" is used to mean two completely different things in C, we + define "local" for the non-static meaning of "static", for readability + (compile with -Dlocal if your debugger can't find static symbols) */ + +extern const char deflate_copyright[]; +extern const char inflate_copyright[]; +extern const char inflate9_copyright[]; + +typedef unsigned char uch; +typedef uch FAR uchf; +typedef unsigned short ush; +typedef ush FAR ushf; +typedef unsigned long ulg; + +#if !defined(Z_U8) && !defined(Z_SOLO) && defined(STDC) +# include +# if (ULONG_MAX == 0xffffffffffffffff) +# define Z_U8 unsigned long +# elif (ULLONG_MAX == 0xffffffffffffffff) +# define Z_U8 unsigned long long +# elif (ULONG_LONG_MAX == 0xffffffffffffffff) +# define Z_U8 unsigned long long +# elif (UINT_MAX == 0xffffffffffffffff) +# define Z_U8 unsigned +# endif +#endif + +extern z_const char * const z_errmsg[10]; /* indexed by 2-zlib_error */ +/* (size given to avoid silly warnings with Visual C++) */ + +#define ERR_MSG(err) z_errmsg[(err) < -6 || (err) > 2 ? 9 : 2 - (err)] + +#define ERR_RETURN(strm,err) \ + return (strm->msg = ERR_MSG(err), (err)) +/* To be used only when the state is known to be valid */ + + /* common constants */ +#if MAX_WBITS < 9 || MAX_WBITS > 15 +# error MAX_WBITS must be in 9..15 +#endif +#ifndef DEF_WBITS +# define DEF_WBITS MAX_WBITS +#endif +/* default windowBits for decompression. MAX_WBITS is for compression only */ + +#if MAX_MEM_LEVEL >= 8 +# define DEF_MEM_LEVEL 8 +#else +# define DEF_MEM_LEVEL MAX_MEM_LEVEL +#endif +/* default memLevel */ + +#define STORED_BLOCK 0 +#define STATIC_TREES 1 +#define DYN_TREES 2 +/* The three kinds of block type */ + +#define MIN_MATCH 3 +#define MAX_MATCH 258 +/* The minimum and maximum match lengths */ + +#define PRESET_DICT 0x20 /* preset dictionary flag in zlib header */ + + /* target dependencies */ + +#if defined(MSDOS) || (defined(WINDOWS) && !defined(WIN32)) +# define OS_CODE 0x00 +# ifndef Z_SOLO +# if defined(__TURBOC__) || defined(__BORLANDC__) +# if (__STDC__ == 1) && (defined(__LARGE__) || defined(__COMPACT__)) + /* Allow compilation with ANSI keywords only enabled */ + void _Cdecl farfree( void *block ); + void *_Cdecl farmalloc( unsigned long nbytes ); +# else +# include +# endif +# else /* MSC or DJGPP */ +# include +# endif +# endif +#endif + +#ifdef AMIGA +# define OS_CODE 1 +#endif + +#if defined(VAXC) || defined(VMS) +# define OS_CODE 2 +# define F_OPEN(name, mode) \ + fopen((name), (mode), "mbc=60", "ctx=stm", "rfm=fix", "mrs=512") +#endif + +#ifdef __370__ +# if __TARGET_LIB__ < 0x20000000 +# define OS_CODE 4 +# elif __TARGET_LIB__ < 0x40000000 +# define OS_CODE 11 +# else +# define OS_CODE 8 +# endif +#endif + +#if defined(ATARI) || defined(atarist) +# define OS_CODE 5 +#endif + +#ifdef OS2 +# define OS_CODE 6 +# if defined(M_I86) && !defined(Z_SOLO) +# include +# endif +#endif + +#if defined(MACOS) +# define OS_CODE 7 +#endif + +#if defined(__acorn) || defined(__riscos) +# define OS_CODE 13 +#endif + +#if defined(WIN32) && !defined(__CYGWIN__) +# define OS_CODE 10 +#endif + +#ifdef _BEOS_ +# define OS_CODE 16 +#endif + +#ifdef __TOS_OS400__ +# define OS_CODE 18 +#endif + +#ifdef __APPLE__ +# define OS_CODE 19 +#endif + +#if defined(__BORLANDC__) && !defined(MSDOS) + #pragma warn -8004 + #pragma warn -8008 + #pragma warn -8066 +#endif + +/* provide prototypes for these when building zlib without LFS */ +#ifndef Z_LARGE64 + ZEXTERN uLong ZEXPORT adler32_combine64(uLong, uLong, z_off64_t); + ZEXTERN uLong ZEXPORT crc32_combine64(uLong, uLong, z_off64_t); + ZEXTERN uLong ZEXPORT crc32_combine_gen64(z_off64_t); +#endif + + /* common defaults */ + +#ifndef OS_CODE +# define OS_CODE 3 /* assume Unix */ +#endif + +#ifndef F_OPEN +# define F_OPEN(name, mode) fopen((name), (mode)) +#endif + + /* functions */ + +#if defined(pyr) || defined(Z_SOLO) +# define NO_MEMCPY +#endif +#if defined(SMALL_MEDIUM) && !defined(_MSC_VER) && !defined(__SC__) + /* Use our own functions for small and medium model with MSC <= 5.0. + * You may have to use the same strategy for Borland C (untested). + * The __SC__ check is for Symantec. + */ +# define NO_MEMCPY +#endif +#if defined(STDC) && !defined(HAVE_MEMCPY) && !defined(NO_MEMCPY) +# define HAVE_MEMCPY +#endif +#ifdef HAVE_MEMCPY +# ifdef SMALL_MEDIUM /* MSDOS small or medium model */ +# define zmemcpy _fmemcpy +# define zmemcmp _fmemcmp +# define zmemzero(dest, len) _fmemset(dest, 0, len) +# else +# define zmemcpy memcpy +# define zmemcmp memcmp +# define zmemzero(dest, len) memset(dest, 0, len) +# endif +#else + void ZLIB_INTERNAL zmemcpy(void FAR *, const void FAR *, z_size_t); + int ZLIB_INTERNAL zmemcmp(const void FAR *, const void FAR *, z_size_t); + void ZLIB_INTERNAL zmemzero(void FAR *, z_size_t); +#endif + +/* Diagnostic functions */ +#ifdef ZLIB_DEBUG +# include + extern int ZLIB_INTERNAL z_verbose; + extern void ZLIB_INTERNAL z_error(char *m); +# define Assert(cond,msg) {if(!(cond)) z_error(msg);} +# define Trace(x) {if (z_verbose>=0) fprintf x ;} +# define Tracev(x) {if (z_verbose>0) fprintf x ;} +# define Tracevv(x) {if (z_verbose>1) fprintf x ;} +# define Tracec(c,x) {if (z_verbose>0 && (c)) fprintf x ;} +# define Tracecv(c,x) {if (z_verbose>1 && (c)) fprintf x ;} +#else +# define Assert(cond,msg) +# define Trace(x) +# define Tracev(x) +# define Tracevv(x) +# define Tracec(c,x) +# define Tracecv(c,x) +#endif + +#ifndef Z_SOLO + voidpf ZLIB_INTERNAL zcalloc(voidpf opaque, unsigned items, + unsigned size); + void ZLIB_INTERNAL zcfree(voidpf opaque, voidpf ptr); +#endif + +#define ZALLOC(strm, items, size) \ + (*((strm)->zalloc))((strm)->opaque, (items), (size)) +#define ZFREE(strm, addr) (*((strm)->zfree))((strm)->opaque, (voidpf)(addr)) +#define TRY_FREE(s, p) {if (p) ZFREE(s, p);} + +/* Reverse the bytes in a 32-bit value */ +#define ZSWAP32(q) ((((q) >> 24) & 0xff) + (((q) >> 8) & 0xff00) + \ + (((q) & 0xff00) << 8) + (((q) & 0xff) << 24)) + +#ifdef Z_ONCE +/* + Create a local z_once() function depending on the availability of atomics. + */ + +/* Check for the availability of atomics. */ +#if defined(__STDC__) && __STDC_VERSION__ >= 201112L && \ + !defined(__STDC_NO_ATOMICS__) + +#include +typedef struct { + atomic_flag begun; + atomic_int done; +} z_once_t; +#define Z_ONCE_INIT {ATOMIC_FLAG_INIT, 0} + +/* + Run the provided init() function exactly once, even if multiple threads + invoke once() at the same time. The state must be a once_t initialized with + Z_ONCE_INIT. + */ +local void z_once(z_once_t *state, void (*init)(void)) { + if (!atomic_load(&state->done)) { + if (atomic_flag_test_and_set(&state->begun)) + while (!atomic_load(&state->done)) + ; + else { + init(); + atomic_store(&state->done, 1); + } + } +} + +#else /* no atomics */ + +#warning zlib not thread-safe + +typedef struct z_once_s { + volatile int begun; + volatile int done; +} z_once_t; +#define Z_ONCE_INIT {0, 0} + +/* Test and set. Alas, not atomic, but tries to limit the period of + vulnerability. */ +local int test_and_set(int volatile *flag) { + int was; + + was = *flag; + *flag = 1; + return was; +} + +/* Run the provided init() function once. This is not thread-safe. */ +local void z_once(z_once_t *state, void (*init)(void)) { + if (!state->done) { + if (test_and_set(&state->begun)) + while (!state->done) + ; + else { + init(); + state->done = 1; + } + } +} + +#endif /* ?atomics */ + +#endif /* Z_ONCE */ + +#endif /* ZUTIL_H */ diff --git a/Minecraft.Client/CompassTexture.cpp b/Minecraft.Client/CompassTexture.cpp new file mode 100644 index 0000000..1480699 --- /dev/null +++ b/Minecraft.Client/CompassTexture.cpp @@ -0,0 +1,142 @@ +#include "stdafx.h" +#include "Minecraft.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "MultiplayerLocalPlayer.h" +#include "..\Minecraft.World\JavaMath.h" +#include "Texture.h" +#include "CompassTexture.h" + +CompassTexture *CompassTexture::instance = nullptr; + +CompassTexture::CompassTexture() : StitchedTexture(L"compass",L"compass") +{ + instance = this; + + m_dataTexture = nullptr; + m_iPad = XUSER_INDEX_ANY; + + rot = rota = 0.0; +} + +CompassTexture::CompassTexture(int iPad, CompassTexture *dataTexture) : StitchedTexture(L"compass",L"compass") +{ + m_dataTexture = dataTexture; + m_iPad = iPad; + + rot = rota = 0.0; +} + +void CompassTexture::cycleFrames() +{ + Minecraft *mc = Minecraft::GetInstance(); + + if (m_iPad >= 0 && m_iPad < XUSER_MAX_COUNT && mc->level != nullptr && mc->localplayers[m_iPad] != nullptr) + { + updateFromPosition(mc->localplayers[m_iPad]->level, mc->localplayers[m_iPad]->x, mc->localplayers[m_iPad]->z, mc->localplayers[m_iPad]->yRot, false, false); + } + else + { + frame = 1; + updateFromPosition(nullptr, 0, 0, 0, false, true); + } +} + +void CompassTexture::updateFromPosition(Level *level, double x, double z, double yRot, bool noNeedle, bool instant) +{ + double rott = 0; + if (level != nullptr && !noNeedle) + { + Pos *spawnPos = level->getSharedSpawnPos(); + double xa = spawnPos->x - x; + double za = spawnPos->z - z; + delete spawnPos; + yRot = static_cast(yRot) % 360; + rott = -((yRot - 90) * PI / 180 - atan2(za, xa)); + if (!level->dimension->isNaturalDimension()) + { + rott = Math::random() * PI * 2; + } + } + + if (instant) + { + rot = rott; + } + else + { + double rotd = rott - rot; + while (rotd < -PI) + rotd += PI * 2; + while (rotd >= PI) + rotd -= PI * 2; + if (rotd < -1) rotd = -1; + if (rotd > 1) rotd = 1; + rota += rotd * 0.1; + rota *= 0.8; + rot += rota; + } + + // 4J Stu - We share data with another texture + if(m_dataTexture != nullptr) + { + int newFrame = static_cast(((rot / (PI * 2)) + 1.0) * m_dataTexture->frames->size()) % m_dataTexture->frames->size(); + while (newFrame < 0) + { + newFrame = (newFrame + m_dataTexture->frames->size()) % m_dataTexture->frames->size(); + } + if (newFrame != frame) + { + frame = newFrame; + m_dataTexture->source->blit(this->x, this->y, m_dataTexture->frames->at(this->frame), rotated); + } + } + else + { + int newFrame = static_cast(((rot / (PI * 2)) + 1.0) * frames->size()) % frames->size(); + while (newFrame < 0) + { + newFrame = (newFrame + frames->size()) % frames->size(); + } + if (newFrame != frame) + { + frame = newFrame; + source->blit(this->x, this->y, frames->at(this->frame), rotated); + } + } +} + +int CompassTexture::getSourceWidth() const +{ + return source->getWidth(); +} + +int CompassTexture::getSourceHeight() const +{ + return source->getHeight(); +} + +int CompassTexture::getFrames() +{ + if(m_dataTexture == nullptr) + { + return StitchedTexture::getFrames(); + } + else + { + return m_dataTexture->getFrames(); + } +} + +void CompassTexture::freeFrameTextures() +{ + if(m_dataTexture == nullptr) + { + StitchedTexture::freeFrameTextures(); + } +} + +bool CompassTexture::hasOwnData() +{ + return m_dataTexture == nullptr; +} \ No newline at end of file diff --git a/Minecraft.Client/CompassTexture.h b/Minecraft.Client/CompassTexture.h new file mode 100644 index 0000000..44c99e0 --- /dev/null +++ b/Minecraft.Client/CompassTexture.h @@ -0,0 +1,25 @@ +#pragma once +#include "StitchedTexture.h" + +class CompassTexture : public StitchedTexture +{ +private: + int m_iPad; + CompassTexture* m_dataTexture; + +public: + static CompassTexture *instance; + double rot, rota; + + CompassTexture(); + CompassTexture(int iPad, CompassTexture *dataTexture); + + void cycleFrames(); + void updateFromPosition(Level *level, double x, double z, double yRot, bool noNeedle, bool instant); + + virtual int getSourceWidth() const; + virtual int getSourceHeight() const; + virtual int getFrames(); + virtual void freeFrameTextures(); // 4J added + virtual bool hasOwnData(); // 4J Added +}; \ No newline at end of file diff --git a/Minecraft.Client/ConsoleInput.cpp b/Minecraft.Client/ConsoleInput.cpp new file mode 100644 index 0000000..7fd6c49 --- /dev/null +++ b/Minecraft.Client/ConsoleInput.cpp @@ -0,0 +1,8 @@ +#include "stdafx.h" +#include "ConsoleInput.h" + +ConsoleInput::ConsoleInput(const wstring& msg, ConsoleInputSource *source) +{ + this->msg = msg; + this->source = source; +} \ No newline at end of file diff --git a/Minecraft.Client/ConsoleInput.h b/Minecraft.Client/ConsoleInput.h new file mode 100644 index 0000000..1206b24 --- /dev/null +++ b/Minecraft.Client/ConsoleInput.h @@ -0,0 +1,12 @@ +#pragma once +#include "ConsoleInputSource.h" +using namespace std; + +class ConsoleInput +{ +public: + wstring msg; + ConsoleInputSource *source; + + ConsoleInput(const wstring& msg, ConsoleInputSource *source); +}; \ No newline at end of file diff --git a/Minecraft.Client/ConsoleInputSource.h b/Minecraft.Client/ConsoleInputSource.h new file mode 100644 index 0000000..ab2a258 --- /dev/null +++ b/Minecraft.Client/ConsoleInputSource.h @@ -0,0 +1,9 @@ +#pragma once + +class ConsoleInputSource +{ +public: + virtual void info(const wstring& string) = 0; + virtual void warn(const wstring& string) = 0; + virtual wstring getConsoleName() = 0; +}; diff --git a/Minecraft.Client/CreativeMode.cpp b/Minecraft.Client/CreativeMode.cpp new file mode 100644 index 0000000..48342eb --- /dev/null +++ b/Minecraft.Client/CreativeMode.cpp @@ -0,0 +1,128 @@ +#include "stdafx.h" +#include "CreativeMode.h" +#include "User.h" +#include "LocalPlayer.h" +#include "..\Minecraft.World\\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\net.minecraft.world.inventory.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" + +CreativeMode::CreativeMode(Minecraft *minecraft) : GameMode(minecraft) +{ + destroyDelay = 0; + instaBuild = true; +} + +void CreativeMode::init() +{ + // initPlayer(); +} + +void CreativeMode::enableCreativeForPlayer(shared_ptr player) +{ + // please check ServerPlayerGameMode.java if you change these + player->abilities.mayfly = true; + player->abilities.instabuild = true; + player->abilities.invulnerable = true; +} + +void CreativeMode::disableCreativeForPlayer(shared_ptr player) +{ + player->abilities.mayfly = false; + player->abilities.flying = false; + player->abilities.instabuild = false; + player->abilities.invulnerable = false; +} + +void CreativeMode::adjustPlayer(shared_ptr player) +{ + enableCreativeForPlayer(player); + + for (int i = 0; i < 9; i++) + { + if (player->inventory->items[i] == NULL) + { + player->inventory->items[i] = shared_ptr( new ItemInstance(User::allowedTiles[i]) ); + } + else + { + // 4J-PB - this line is commented out in 1.0.1 + //player->inventory->items[i]->count = 1; + } + } +} + +void CreativeMode::creativeDestroyBlock(Minecraft *minecraft, GameMode *gameMode, int x, int y, int z, int face) +{ + if(!minecraft->level->extinguishFire(minecraft->player, x, y, z, face)) + { + gameMode->destroyBlock(x, y, z, face); + } +} + +bool CreativeMode::useItemOn(shared_ptr player, Level *level, shared_ptr item, int x, int y, int z, int face, bool bTestUseOnOnly, bool *pbUsedItem) +{ + int t = level->getTile(x, y, z); + if (t > 0) + { + if (Tile::tiles[t]->use(level, x, y, z, player)) return true; + } + if (item == NULL) return false; + int aux = item->getAuxValue(); + int count = item->count; + bool success = item->useOn(player, level, x, y, z, face); + item->setAuxValue(aux); + item->count = count; + return success; +} + +void CreativeMode::startDestroyBlock(int x, int y, int z, int face) +{ + creativeDestroyBlock(minecraft, this, x, y, z, face); + destroyDelay = 5; +} + +void CreativeMode::continueDestroyBlock(int x, int y, int z, int face) +{ + destroyDelay--; + if (destroyDelay <= 0) + { + destroyDelay = 5; + creativeDestroyBlock(minecraft, this, x, y, z, face); + } +} + +void CreativeMode::stopDestroyBlock() +{ +} + +bool CreativeMode::canHurtPlayer() +{ + return false; +} + +void CreativeMode::initLevel(Level *level) +{ + GameMode::initLevel(level); +} + +float CreativeMode::getPickRange() +{ + return 5.0f; +} + +bool CreativeMode::hasMissTime() +{ + return false; +} + +bool CreativeMode::hasInfiniteItems() +{ + return true; +} + +bool CreativeMode::hasFarPickRange() +{ + return true; +} \ No newline at end of file diff --git a/Minecraft.Client/CreativeMode.h b/Minecraft.Client/CreativeMode.h new file mode 100644 index 0000000..10b27a5 --- /dev/null +++ b/Minecraft.Client/CreativeMode.h @@ -0,0 +1,26 @@ +#pragma once +#include "GameMode.h" + +class CreativeMode : public GameMode +{ +private: + int destroyDelay; + +public: + CreativeMode(Minecraft *minecraft); + virtual void init(); + static void enableCreativeForPlayer(shared_ptr player); + static void disableCreativeForPlayer(shared_ptr player); + virtual void adjustPlayer(shared_ptr player); + static void creativeDestroyBlock(Minecraft *minecraft, GameMode *gameMode, int x, int y, int z, int face); + virtual bool useItemOn(shared_ptr player, Level *level, shared_ptr item, int x, int y, int z, int face, bool bTestUseOnOnly=false, bool *pbUsedItem = NULL); + virtual void startDestroyBlock(int x, int y, int z, int face); + virtual void continueDestroyBlock(int x, int y, int z, int face); + virtual void stopDestroyBlock(); + virtual bool canHurtPlayer(); + virtual void initLevel(Level *level); + virtual float getPickRange(); + virtual bool hasMissTime(); + virtual bool hasInfiniteItems(); + virtual bool hasFarPickRange(); +}; \ No newline at end of file diff --git a/Minecraft.Client/CritParticle.cpp b/Minecraft.Client/CritParticle.cpp new file mode 100644 index 0000000..6c71b02 --- /dev/null +++ b/Minecraft.Client/CritParticle.cpp @@ -0,0 +1,61 @@ +#include "stdafx.h" +#include "CritParticle.h" +#include "..\Minecraft.World\net.minecraft.world.entity.h" +#include "..\Minecraft.World\Random.h" +#include "..\Minecraft.World\net.minecraft.world.phys.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" + +void CritParticle::_init(Level *level, shared_ptr entity, ePARTICLE_TYPE type) +{ + life = 0; + this->entity = entity; + lifeTime = 3; + particleName = type; + // 4J-PB - can't use a shared_from_this in the constructor + //tick(); +} + +CritParticle::CritParticle(Level *level, shared_ptr entity) : Particle(level, entity->x, entity->bb->y0 + entity->bbHeight / 2, entity->z, entity->xd, entity->yd, entity->zd) +{ + _init(level,entity,eParticleType_crit); +} + +CritParticle::CritParticle(Level *level, shared_ptr entity, ePARTICLE_TYPE type) : Particle(level, entity->x, entity->bb->y0 + entity->bbHeight / 2, entity->z, entity->xd, entity->yd, entity->zd) +{ + _init(level, entity, type); +} + +// 4J - Added this so that we can use some shared_ptr functions that were needed in the ctor +void CritParticle::CritParticlePostConstructor(void) +{ + tick(); +} + +void CritParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ +} + +void CritParticle::tick() +{ + for (int i=0; i<16; i++) + { + double xa = random->nextFloat()*2-1; + double ya = random->nextFloat()*2-1; + double za = random->nextFloat()*2-1; + if (xa*xa+ya*ya+za*za>1) continue; + double x = entity->x+xa*entity->bbWidth/4; + double y = entity->bb->y0+entity->bbHeight/2+ya*entity->bbHeight/4; + double z = entity->z+za*entity->bbWidth/4; + level->addParticle(particleName, x, y, z, xa, ya+0.2, za); + } + life++; + if (life >= lifeTime) + { + remove(); + } +} + +int CritParticle::getParticleTexture() +{ + return ParticleEngine::ENTITY_PARTICLE_TEXTURE; +} \ No newline at end of file diff --git a/Minecraft.Client/CritParticle.h b/Minecraft.Client/CritParticle.h new file mode 100644 index 0000000..23f3033 --- /dev/null +++ b/Minecraft.Client/CritParticle.h @@ -0,0 +1,25 @@ +#pragma once + +#include "Particle.h" + +class Entity; + +class CritParticle : public Particle +{ +private: + shared_ptr entity; + int life; + int lifeTime; + ePARTICLE_TYPE particleName; + + void _init(Level *level, shared_ptr entity, ePARTICLE_TYPE type); + +public: + virtual eINSTANCEOF GetType() { return eType_CRITPARTICLE; } + CritParticle(Level *level, shared_ptr entity); + CritParticle(Level *level, shared_ptr entity, ePARTICLE_TYPE type); + void CritParticlePostConstructor(void); + void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + void tick(); + int getParticleTexture(); +}; \ No newline at end of file diff --git a/Minecraft.Client/CritParticle2.cpp b/Minecraft.Client/CritParticle2.cpp new file mode 100644 index 0000000..fe64b91 --- /dev/null +++ b/Minecraft.Client/CritParticle2.cpp @@ -0,0 +1,93 @@ +#include "stdafx.h" +#include "CritParticle2.h" +#include "..\Minecraft.World\JavaMath.h" + +void CritParticle2::_init(double xa, double ya, double za, float scale) +{ + xd *= 0.1f; + yd *= 0.1f; + zd *= 0.1f; + xd += xa * 0.4; + yd += ya * 0.4; + zd += za * 0.4; + + rCol = gCol = bCol = static_cast(Math::random() * 0.3f + 0.6f); + size *= 0.75f; + size *= scale; + oSize = size; + + lifetime = static_cast(6 / (Math::random() * 0.8 + 0.6)); + lifetime *= scale; + noPhysics = false; + + setMiscTex(16 * 4 + 1); + // 4J-PB - can't use a shared_from_this in the constructor + //tick(); + m_bAgeUniformly=false; // 4J added +} + +CritParticle2::CritParticle2(Level *level, double x, double y, double z, double xa, double ya, double za) : Particle(level, x, y, z, 0, 0, 0) +{ + _init(xa,ya,za,1); +} + +CritParticle2::CritParticle2(Level *level, double x, double y, double z, double xa, double ya, double za, float scale) : Particle(level, x, y, z, 0, 0, 0) +{ + _init(xa,ya,za,scale); +} + +void CritParticle2::CritParticle2PostConstructor(void) +{ + tick(); +} + +void CritParticle2::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float l = ((age + a) / lifetime) * 32; + if (l < 0) l = 0; + if (l > 1) l = 1; + + size = oSize * l; + Particle::render(t, a, xa, ya, za, xa2, za2); +} + +void CritParticle2::SetAgeUniformly() +{ + m_bAgeUniformly=true; +} + +void CritParticle2::tick() +{ + xo = x; + yo = y; + zo = z; + + if (age++ >= lifetime) remove(); + + move(xd, yd, zd); + gCol *= 0.96; + bCol *= 0.9; + + if(m_bAgeUniformly) + { + rCol *= 0.99; + gCol *= 0.99; + bCol *= 0.99; + } + else + { + gCol *= 0.96; + bCol *= 0.9; + } + + xd *= 0.70f; + yd *= 0.70f; + zd *= 0.70f; + yd-=0.02f; + + if (onGround) + { + xd *= 0.7f; + zd *= 0.7f; + } +} diff --git a/Minecraft.Client/CritParticle2.h b/Minecraft.Client/CritParticle2.h new file mode 100644 index 0000000..3febb0f --- /dev/null +++ b/Minecraft.Client/CritParticle2.h @@ -0,0 +1,19 @@ +#pragma once + +#include "Particle.h" + +class CritParticle2 : public Particle +{ +public: + float oSize; + bool m_bAgeUniformly; // 4J added for Halo texture pack + + virtual eINSTANCEOF GetType() { return eType_CRITPARTICLE2; } + void _init(double xa, double ya, double za, float scale); + CritParticle2(Level *level, double x, double y, double z, double xa, double ya, double za); + CritParticle2(Level *level, double x, double y, double z, double xa, double ya, double za, float scale); + void CritParticle2PostConstructor(void); + void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + void tick(); + void SetAgeUniformly(); +}; diff --git a/Minecraft.Client/Culler.h b/Minecraft.Client/Culler.h new file mode 100644 index 0000000..bd428ac --- /dev/null +++ b/Minecraft.Client/Culler.h @@ -0,0 +1,11 @@ +#pragma once +#include "..\Minecraft.World\AABB.h" + +class Culler +{ +public: + virtual bool isVisible(AABB *bb) = 0; + virtual bool cubeInFrustum(double x0, double y0, double z0, double x1, double y1, double z1) = 0; + virtual bool cubeFullyInFrustum(double x0, double y0, double z0, double x1, double y1, double z1) = 0; + virtual void prepare(double xOff, double yOff, double zOff) = 0; +}; \ No newline at end of file diff --git a/Minecraft.Client/DLCTexturePack.cpp b/Minecraft.Client/DLCTexturePack.cpp new file mode 100644 index 0000000..fc4defd --- /dev/null +++ b/Minecraft.Client/DLCTexturePack.cpp @@ -0,0 +1,613 @@ +#include "stdafx.h" +#include "Common\DLC\DLCGameRulesFile.h" +#include "Common\DLC\DLCGameRulesHeader.h" +#include "Common\DLC\DLCGameRules.h" +#include "DLCTexturePack.h" +#include "Common\DLC\DLCColourTableFile.h" +#include "Common\DLC\DLCUIDataFile.h" +#include "Common\DLC\DLCTextureFile.h" +#include "Common\DLC\DLCLocalisationFile.h" +#include "..\Minecraft.World\StringHelpers.h" +#include "StringTable.h" +#include "Common\DLC\DLCAudioFile.h" + + +DLCTexturePack::DLCTexturePack(DWORD id, DLCPack *pack, TexturePack *fallback) : AbstractTexturePack(id, nullptr, pack->getName(), fallback) +{ + m_dlcInfoPack = pack; + m_dlcDataPack = nullptr; + bUILoaded = false; + m_bLoadingData = false; + m_bHasLoadedData = false; + m_archiveFile = nullptr; + if (app.getLevelGenerationOptions()) app.getLevelGenerationOptions()->setLoadedData(); + m_bUsingDefaultColourTable = true; + + m_stringTable = nullptr; + +#ifdef _XBOX + m_pStreamedWaveBank=nullptr; + m_pSoundBank=nullptr; +#endif + + if(m_dlcInfoPack->doesPackContainFile(DLCManager::e_DLCType_LocalisationData, L"languages.loc")) + { + DLCLocalisationFile *localisationFile = static_cast(m_dlcInfoPack->getFile(DLCManager::e_DLCType_LocalisationData, L"languages.loc")); + m_stringTable = localisationFile->getStringTable(); + } + + // 4J Stu - These calls need to be in the most derived version of the class + loadIcon(); + loadName(); + loadDescription(); + //loadDefaultHTMLColourTable(); +} + +void DLCTexturePack::loadIcon() +{ + if(m_dlcInfoPack->doesPackContainFile(DLCManager::e_DLCType_Texture, L"icon.png")) + { + DLCTextureFile *textureFile = static_cast(m_dlcInfoPack->getFile(DLCManager::e_DLCType_Texture, L"icon.png")); + m_iconData = textureFile->getData(m_iconSize); + } + else + { + AbstractTexturePack::loadIcon(); + } +} + +void DLCTexturePack::loadComparison() +{ + if(m_dlcInfoPack->doesPackContainFile(DLCManager::e_DLCType_Texture, L"comparison.png")) + { + DLCTextureFile *textureFile = static_cast(m_dlcInfoPack->getFile(DLCManager::e_DLCType_Texture, L"comparison.png")); + m_comparisonData = textureFile->getData(m_comparisonSize); + } +} + +void DLCTexturePack::loadName() +{ + texname = L""; + + if(m_dlcInfoPack->GetPackID()&1024) + { + if(m_stringTable != nullptr) + { + texname = m_stringTable->getString(L"IDS_DISPLAY_NAME"); + m_wsWorldName=m_stringTable->getString(L"IDS_WORLD_NAME"); + } + } + else + { + if(m_stringTable != nullptr) + { + texname = m_stringTable->getString(L"IDS_DISPLAY_NAME"); + } + } + +} + +void DLCTexturePack::loadDescription() +{ + desc1 = L""; + + if(m_stringTable != nullptr) + { + desc1 = m_stringTable->getString(L"IDS_TP_DESCRIPTION"); + } +} + +wstring DLCTexturePack::getResource(const wstring& name) +{ + // 4J Stu - We should never call this function +#ifndef __CONTENT_PACKAGE + __debugbreak(); +#endif + return L""; +} + +InputStream *DLCTexturePack::getResourceImplementation(const wstring &name) //throws IOException +{ + // 4J Stu - We should never call this function +#ifndef _CONTENT_PACKAGE + __debugbreak(); + if(hasFile(name)) return nullptr; +#endif + return nullptr; //resource; +} + +bool DLCTexturePack::hasFile(const wstring &name) +{ + bool hasFile = false; + if(m_dlcDataPack != nullptr) hasFile = m_dlcDataPack->doesPackContainFile(DLCManager::e_DLCType_Texture, name); + return hasFile; +} + +bool DLCTexturePack::isTerrainUpdateCompatible() +{ + return true; +} + +wstring DLCTexturePack::getPath(bool bTitleUpdateTexture /*= false*/, const char *pchBDPatchFilename) +{ + return L""; +} + +wstring DLCTexturePack::getAnimationString(const wstring &textureName, const wstring &path) +{ + wstring result = L""; + + wstring fullpath = L"res/" + path + textureName + L".png"; + if(hasFile(fullpath)) + { + result = m_dlcDataPack->getFile(DLCManager::e_DLCType_Texture, fullpath)->getParameterAsString(DLCManager::e_DLCParamType_Anim); + } + + return result; +} + +BufferedImage *DLCTexturePack::getImageResource(const wstring& File, bool filenameHasExtension /*= false*/, bool bTitleUpdateTexture /*=false*/, const wstring &drive /*=L""*/) +{ + if(m_dlcDataPack) return new BufferedImage(m_dlcDataPack, L"/" + File, filenameHasExtension); + else return fallback->getImageResource(File, filenameHasExtension, bTitleUpdateTexture, drive); +} + +DLCPack * DLCTexturePack::getDLCPack() +{ + return m_dlcDataPack; +} + +void DLCTexturePack::loadColourTable() +{ + // Load the game colours + if(m_dlcDataPack != nullptr && m_dlcDataPack->doesPackContainFile(DLCManager::e_DLCType_ColourTable, L"colours.col")) + { + DLCColourTableFile *colourFile = static_cast(m_dlcDataPack->getFile(DLCManager::e_DLCType_ColourTable, L"colours.col")); + m_colourTable = colourFile->getColourTable(); + m_bUsingDefaultColourTable = false; + } + else + { + // 4J Stu - We can delete the default colour table, but not the one from the DLCColourTableFile + if(!m_bUsingDefaultColourTable) m_colourTable = nullptr; + loadDefaultColourTable(); + m_bUsingDefaultColourTable = true; + } + + // Load the text colours +#ifdef _XBOX + if(m_dlcDataPack != nullptr && m_dlcDataPack->doesPackContainFile(DLCManager::e_DLCType_UIData, L"TexturePack.xzp")) + { + DLCUIDataFile *dataFile = (DLCUIDataFile *)m_dlcDataPack->getFile(DLCManager::e_DLCType_UIData, L"TexturePack.xzp"); + + DWORD dwSize = 0; + PBYTE pbData = dataFile->getData(dwSize); + + const DWORD LOCATOR_SIZE = 256; // Use this to allocate space to hold a ResourceLocator string + WCHAR szResourceLocator[ LOCATOR_SIZE ]; + + // Try and load the HTMLColours.col based off the common XML first, before the deprecated xuiscene_colourtable + swprintf(szResourceLocator, LOCATOR_SIZE,L"memory://%08X,%04X#HTMLColours.col",pbData, dwSize); + BYTE *data; + UINT dataLength; + if(XuiResourceLoadAll(szResourceLocator, &data, &dataLength) == S_OK) + { + m_colourTable->loadColoursFromData(data,dataLength); + + XuiFree(data); + } + else + { + + swprintf(szResourceLocator, LOCATOR_SIZE,L"memory://%08X,%04X#xuiscene_colourtable.xur",pbData, dwSize); + HXUIOBJ hScene; + HRESULT hr = XuiSceneCreate(szResourceLocator,szResourceLocator, nullptr, &hScene); + + if(HRESULT_SUCCEEDED(hr)) + { + loadHTMLColourTableFromXuiScene(hScene); + } + else + { + loadDefaultHTMLColourTable(); + } + } + } + else + { + loadDefaultHTMLColourTable(); + } +#else + if(app.hasArchiveFile(L"HTMLColours.col")) + { + byteArray textColours = app.getArchiveFile(L"HTMLColours.col"); + m_colourTable->loadColoursFromData(textColours.data,textColours.length); + + delete [] textColours.data; + } +#endif +} + +void DLCTexturePack::loadData() +{ + int mountIndex = m_dlcInfoPack->GetDLCMountIndex(); + + if(mountIndex > -1) + { +#ifdef _DURANGO + if(StorageManager.MountInstalledDLC(ProfileManager.GetPrimaryPad(),mountIndex,&DLCTexturePack::packMounted,this,L"TPACK")!=ERROR_IO_PENDING) +#else + if(StorageManager.MountInstalledDLC(ProfileManager.GetPrimaryPad(),mountIndex,&DLCTexturePack::packMounted,this,"TPACK")!=ERROR_IO_PENDING) +#endif + { + // corrupt DLC + m_bHasLoadedData = true; + if (app.getLevelGenerationOptions()) app.getLevelGenerationOptions()->setLoadedData(); + app.DebugPrintf("Failed to mount texture pack DLC %d for pad %d\n",mountIndex,ProfileManager.GetPrimaryPad()); + } + else + { + m_bLoadingData = true; + app.DebugPrintf("Attempted to mount DLC data for texture pack %d\n", mountIndex); + } + } + else + { + m_bHasLoadedData = true; + if (app.getLevelGenerationOptions()) app.getLevelGenerationOptions()->setLoadedData(); + app.SetAction(ProfileManager.GetPrimaryPad(), eAppAction_ReloadTexturePack); + } +} + + + + + +wstring DLCTexturePack::getFilePath(DWORD packId, wstring filename, bool bAddDataFolder) +{ + return app.getFilePath(packId,filename,bAddDataFolder); +} + +int DLCTexturePack::packMounted(LPVOID pParam,int iPad,DWORD dwErr,DWORD dwLicenceMask) +{ + DLCTexturePack *texturePack = static_cast(pParam); + texturePack->m_bLoadingData = false; + if(dwErr!=ERROR_SUCCESS) + { + // corrupt DLC + app.DebugPrintf("Failed to mount DLC for pad %d: %d\n",iPad,dwErr); + } + else + { + app.DebugPrintf("Mounted DLC for texture pack, attempting to load data\n"); + texturePack->m_dlcDataPack = new DLCPack(texturePack->m_dlcInfoPack->getName(), dwLicenceMask); + texturePack->setHasAudio(false); + DWORD dwFilesProcessed = 0; + // Load the DLC textures + wstring dataFilePath = texturePack->m_dlcInfoPack->getFullDataPath(); + if(!dataFilePath.empty()) + { + if(!app.m_dlcManager.readDLCDataFile(dwFilesProcessed, getFilePath(texturePack->m_dlcInfoPack->GetPackID(), dataFilePath),texturePack->m_dlcDataPack)) + { + delete texturePack->m_dlcDataPack; + texturePack->m_dlcDataPack = nullptr; + } + + // Load the UI data + if(texturePack->m_dlcDataPack != nullptr) + { +#ifdef _XBOX + File xzpPath(getFilePath(texturePack->m_dlcInfoPack->GetPackID(), wstring(L"TexturePack.xzp") ) ); + + if(xzpPath.exists()) + { + const char *pchFilename=wstringtofilename(xzpPath.getPath()); + HANDLE fileHandle = CreateFile( + pchFilename, // file name + GENERIC_READ, // access mode + 0, // share mode // TODO 4J Stu - Will we need to share file? Probably not but... + nullptr, // Unused + OPEN_EXISTING , // how to create // TODO 4J Stu - Assuming that the file already exists if we are opening to read from it + FILE_FLAG_SEQUENTIAL_SCAN, // file attributes + nullptr // Unsupported + ); + + if( fileHandle != INVALID_HANDLE_VALUE ) + { + DWORD dwFileSize = xzpPath.length(); + DWORD bytesRead; + PBYTE pbData = (PBYTE) new BYTE[dwFileSize]; + BOOL success = ReadFile(fileHandle,pbData,dwFileSize,&bytesRead,nullptr); + CloseHandle(fileHandle); + if(success) + { + DLCUIDataFile *uiDLCFile = (DLCUIDataFile *)texturePack->m_dlcDataPack->addFile(DLCManager::e_DLCType_UIData,L"TexturePack.xzp"); + uiDLCFile->addData(pbData,bytesRead,true); + + } + } + } +#else + File archivePath(getFilePath(texturePack->m_dlcInfoPack->GetPackID(), wstring(L"media.arc") ) ); + if(archivePath.exists()) texturePack->m_archiveFile = new ArchiveFile(archivePath); +#endif + + /** + 4J-JEV: + For all the GameRuleHeader files we find + */ + DLCPack *pack = texturePack->m_dlcInfoPack->GetParentPack(); + LevelGenerationOptions *levelGen = app.getLevelGenerationOptions(); + if (levelGen != nullptr && !levelGen->hasLoadedData()) + { + int gameRulesCount = pack->getDLCItemsCount(DLCManager::e_DLCType_GameRulesHeader); + for(int i = 0; i < gameRulesCount; ++i) + { + DLCGameRulesHeader *dlcFile = static_cast(pack->getFile(DLCManager::e_DLCType_GameRulesHeader, i)); + + if (!dlcFile->getGrfPath().empty()) + { + File grf( getFilePath(texturePack->m_dlcInfoPack->GetPackID(), dlcFile->getGrfPath() ) ); + if (grf.exists()) + { +#ifdef _UNICODE + wstring path = grf.getPath(); + const WCHAR *pchFilename=path.c_str(); + HANDLE fileHandle = CreateFile( + pchFilename, // file name + GENERIC_READ, // access mode + 0, // share mode // TODO 4J Stu - Will we need to share file? Probably not but... + nullptr, // Unused + OPEN_EXISTING , // how to create // TODO 4J Stu - Assuming that the file already exists if we are opening to read from it + FILE_FLAG_SEQUENTIAL_SCAN, // file attributes + nullptr // Unsupported + ); +#else + const char *pchFilename=wstringtofilename(grf.getPath()); + HANDLE fileHandle = CreateFile( + pchFilename, // file name + GENERIC_READ, // access mode + 0, // share mode // TODO 4J Stu - Will we need to share file? Probably not but... + nullptr, // Unused + OPEN_EXISTING , // how to create // TODO 4J Stu - Assuming that the file already exists if we are opening to read from it + FILE_FLAG_SEQUENTIAL_SCAN, // file attributes + nullptr // Unsupported + ); +#endif + + if( fileHandle != INVALID_HANDLE_VALUE ) + { + DWORD dwFileSize = grf.length(); + DWORD bytesRead; + PBYTE pbData = (PBYTE) new BYTE[dwFileSize]; + BOOL bSuccess = ReadFile(fileHandle,pbData,dwFileSize,&bytesRead,nullptr); + if(bSuccess==FALSE) + { + app.FatalLoadError(); + } + CloseHandle(fileHandle); + + // 4J-PB - is it possible that we can get here after a read fail and it's not an error? + dlcFile->setGrfData(pbData, dwFileSize, texturePack->m_stringTable); + + delete [] pbData; + + app.m_gameRules.setLevelGenerationOptions( dlcFile->lgo ); + } + } + } + } + if(levelGen->requiresBaseSave() && !levelGen->getBaseSavePath().empty() ) + { + File grf(getFilePath(texturePack->m_dlcInfoPack->GetPackID(), levelGen->getBaseSavePath() )); + if (grf.exists()) + { +#ifdef _UNICODE + wstring path = grf.getPath(); + const WCHAR *pchFilename=path.c_str(); + HANDLE fileHandle = CreateFile( + pchFilename, // file name + GENERIC_READ, // access mode + 0, // share mode // TODO 4J Stu - Will we need to share file? Probably not but... + nullptr, // Unused + OPEN_EXISTING , // how to create // TODO 4J Stu - Assuming that the file already exists if we are opening to read from it + FILE_FLAG_SEQUENTIAL_SCAN, // file attributes + nullptr // Unsupported + ); +#else + const char *pchFilename=wstringtofilename(grf.getPath()); + HANDLE fileHandle = CreateFile( + pchFilename, // file name + GENERIC_READ, // access mode + 0, // share mode // TODO 4J Stu - Will we need to share file? Probably not but... + nullptr, // Unused + OPEN_EXISTING , // how to create // TODO 4J Stu - Assuming that the file already exists if we are opening to read from it + FILE_FLAG_SEQUENTIAL_SCAN, // file attributes + nullptr // Unsupported + ); +#endif + + if( fileHandle != INVALID_HANDLE_VALUE ) + { + DWORD bytesRead,dwFileSize = GetFileSize(fileHandle,nullptr); + PBYTE pbData = (PBYTE) new BYTE[dwFileSize]; + BOOL bSuccess = ReadFile(fileHandle,pbData,dwFileSize,&bytesRead,nullptr); + if(bSuccess==FALSE) + { + app.FatalLoadError(); + } + CloseHandle(fileHandle); + + // 4J-PB - is it possible that we can get here after a read fail and it's not an error? + levelGen->setBaseSaveData(pbData, dwFileSize); + } + } + } + } + + + // any audio data? +#ifdef _XBOX + File audioXSBPath(getFilePath(texturePack->m_dlcInfoPack->GetPackID(), wstring(L"MashUp.xsb") ) ); + File audioXWBPath(getFilePath(texturePack->m_dlcInfoPack->GetPackID(), wstring(L"MashUp.xwb") ) ); + + if(audioXSBPath.exists() && audioXWBPath.exists()) + { + + texturePack->setHasAudio(true); + const char *pchXWBFilename=wstringtofilename(audioXWBPath.getPath()); + Minecraft::GetInstance()->soundEngine->CreateStreamingWavebank(pchXWBFilename,&texturePack->m_pStreamedWaveBank); + const char *pchXSBFilename=wstringtofilename(audioXSBPath.getPath()); + Minecraft::GetInstance()->soundEngine->CreateSoundbank(pchXSBFilename,&texturePack->m_pSoundBank); + + } +#else + //DLCPack *pack = texturePack->m_dlcInfoPack->GetParentPack(); + if(pack->getDLCItemsCount(DLCManager::e_DLCType_Audio)>0) + { + DLCAudioFile *dlcFile = static_cast(pack->getFile(DLCManager::e_DLCType_Audio, 0)); + texturePack->setHasAudio(true); + // init the streaming sound ids for this texture pack + int iOverworldStart, iNetherStart, iEndStart; + int iOverworldC, iNetherC, iEndC; + + iOverworldStart=0; + iOverworldC=dlcFile->GetCountofType(DLCAudioFile::e_AudioType_Overworld); + iNetherStart=iOverworldC; + iNetherC=dlcFile->GetCountofType(DLCAudioFile::e_AudioType_Nether); + iEndStart=iOverworldC+iNetherC; + iEndC=dlcFile->GetCountofType(DLCAudioFile::e_AudioType_End); + + Minecraft::GetInstance()->soundEngine->SetStreamingSounds(iOverworldStart,iOverworldStart+iOverworldC-1, + iNetherStart,iNetherStart+iNetherC-1,iEndStart,iEndStart+iEndC-1,iEndStart+iEndC); // push the CD start to after + } +#endif +} + texturePack->loadColourTable(); + } + + // 4J-PB - we need to leave the texture pack mounted if it contained streaming audio + if(texturePack->hasAudio()==false) + { +#ifdef _XBOX + StorageManager.UnmountInstalledDLC("TPACK"); +#endif + } + } + + texturePack->m_bHasLoadedData = true; + if (app.getLevelGenerationOptions()) app.getLevelGenerationOptions()->setLoadedData(); + app.SetAction(ProfileManager.GetPrimaryPad(), eAppAction_ReloadTexturePack); + + return 0; +} + +void DLCTexturePack::loadUI() +{ +#ifdef _XBOX +//Syntax: "memory://" + Address + "," + Size + "#" + File +//L"memory://0123ABCD,21A3#skin_default.xur" + + // Load new skin + if(m_dlcDataPack != nullptr && m_dlcDataPack->doesPackContainFile(DLCManager::e_DLCType_UIData, L"TexturePack.xzp")) + { + DLCUIDataFile *dataFile = (DLCUIDataFile *)m_dlcDataPack->getFile(DLCManager::e_DLCType_UIData, L"TexturePack.xzp"); + + DWORD dwSize = 0; + PBYTE pbData = dataFile->getData(dwSize); + + const DWORD LOCATOR_SIZE = 256; // Use this to allocate space to hold a ResourceLocator string + WCHAR szResourceLocator[ LOCATOR_SIZE ]; + swprintf(szResourceLocator, LOCATOR_SIZE,L"memory://%08X,%04X#skin_Minecraft.xur",pbData, dwSize); + + XuiFreeVisuals(L""); + + + HRESULT hr = app.LoadSkin(szResourceLocator,nullptr);//L"TexturePack"); + if(HRESULT_SUCCEEDED(hr)) + { + bUILoaded = true; + //CXuiSceneBase::GetInstance()->SetVisualPrefix(L"TexturePack"); + //CXuiSceneBase::GetInstance()->SkinChanged(CXuiSceneBase::GetInstance()->m_hObj); + } + } +#else +#endif + { + loadDefaultUI(); + bUILoaded = true; + } + + AbstractTexturePack::loadUI(); +#ifndef _XBOX + if(hasAudio()==false) + { +#ifdef _DURANGO + StorageManager.UnmountInstalledDLC(L"TPACK"); +#else + StorageManager.UnmountInstalledDLC("TPACK"); +#endif + } +#endif +} + +void DLCTexturePack::unloadUI() +{ + // Unload skin + if(bUILoaded) + { +#ifdef _XBOX + XuiFreeVisuals(L"TexturePack"); + XuiFreeVisuals(L""); + CXuiSceneBase::GetInstance()->SetVisualPrefix(L""); + CXuiSceneBase::GetInstance()->SkinChanged(CXuiSceneBase::GetInstance()->m_hObj); +#endif + setHasAudio(false); + } + AbstractTexturePack::unloadUI(); + + app.m_dlcManager.removePack(m_dlcDataPack); + m_dlcDataPack = nullptr; + delete m_archiveFile; + m_bHasLoadedData = false; + + bUILoaded = false; +} + +wstring DLCTexturePack::getXuiRootPath() +{ + wstring path = L""; + if(m_dlcDataPack != nullptr && m_dlcDataPack->doesPackContainFile(DLCManager::e_DLCType_UIData, L"TexturePack.xzp")) + { + DLCUIDataFile *dataFile = static_cast(m_dlcDataPack->getFile(DLCManager::e_DLCType_UIData, L"TexturePack.xzp")); + + DWORD dwSize = 0; + PBYTE pbData = dataFile->getData(dwSize); + + const DWORD LOCATOR_SIZE = 256; // Use this to allocate space to hold a ResourceLocator string + WCHAR szResourceLocator[ LOCATOR_SIZE ]; + swprintf(szResourceLocator, LOCATOR_SIZE,L"memory://%08X,%04X#",pbData, dwSize); + path = szResourceLocator; + } + return path; +} + +unsigned int DLCTexturePack::getDLCParentPackId() +{ + return m_dlcInfoPack->GetParentPackId(); +} + +unsigned char DLCTexturePack::getDLCSubPackId() +{ + return (m_dlcInfoPack->GetPackId()>>24)&0xFF; +} + +DLCPack * DLCTexturePack::getDLCInfoParentPack() +{ + return m_dlcInfoPack->GetParentPack(); +} + +XCONTENTDEVICEID DLCTexturePack::GetDLCDeviceID() +{ + return m_dlcInfoPack->GetDLCDeviceID(); +} diff --git a/Minecraft.Client/DLCTexturePack.h b/Minecraft.Client/DLCTexturePack.h new file mode 100644 index 0000000..595c47d --- /dev/null +++ b/Minecraft.Client/DLCTexturePack.h @@ -0,0 +1,76 @@ +#pragma once + +#include "AbstractTexturePack.h" + +class DLCPack; +class StringTable; + +class DLCTexturePack : public AbstractTexturePack +{ +private: + DLCPack *m_dlcInfoPack; // Description, icon etc + DLCPack *m_dlcDataPack; // Actual textures + StringTable *m_stringTable; + bool bUILoaded; + bool m_bLoadingData, m_bHasLoadedData; + bool m_bUsingDefaultColourTable; + //bool m_bHasAudio; + ArchiveFile *m_archiveFile; + + + +public: + using AbstractTexturePack::getResource; + + DLCTexturePack(DWORD id, DLCPack *pack, TexturePack *fallback); + ~DLCTexturePack(); + + virtual wstring getResource(const wstring& name); + virtual DLCPack * getDLCPack(); + virtual wstring getDesc1() {return m_stringTable->getString(L"IDS_TP_DESCRIPTION");} + virtual wstring getName() {return m_stringTable->getString(L"IDS_DISPLAY_NAME");} + virtual wstring getWorldName() { return m_stringTable->getString(L"IDS_WORLD_NAME");} + + // Added for sound banks with MashUp packs +#ifdef _XBOX + IXACT3WaveBank *m_pStreamedWaveBank; + IXACT3SoundBank *m_pSoundBank; +#endif +protected: + //@Override + void loadIcon(); + void loadComparison(); + void loadName(); + void loadDescription(); + InputStream *getResourceImplementation(const wstring &name); //throws IOException + +public: + //@Override + bool hasFile(const wstring &name); + bool isTerrainUpdateCompatible(); + + // 4J Added + virtual wstring getPath(bool bTitleUpdateTexture = false, const char *pchBDPatchFilename=nullptr); + virtual wstring getAnimationString(const wstring &textureName, const wstring &path); + virtual BufferedImage *getImageResource(const wstring& File, bool filenameHasExtension = false, bool bTitleUpdateTexture=false, const wstring &drive =L""); + virtual void loadColourTable(); + virtual bool hasData() { return m_bHasLoadedData; } + virtual bool isLoadingData() { return m_bLoadingData; } + +private: + static wstring getRootPath(DWORD packId, bool allowOverride, bool bAddDataFolder); + static wstring getFilePath(DWORD packId, wstring filename, bool bAddDataFolder=true); + +public: + static int packMounted(LPVOID pParam,int iPad,DWORD dwErr,DWORD dwLicenceMask); + virtual void loadData(); + virtual void loadUI(); + virtual void unloadUI(); + virtual wstring getXuiRootPath(); + virtual ArchiveFile *getArchiveFile() { return m_archiveFile; } + + virtual unsigned int getDLCParentPackId(); + virtual DLCPack *getDLCInfoParentPack(); + virtual unsigned char getDLCSubPackId(); + XCONTENTDEVICEID GetDLCDeviceID(); +}; diff --git a/Minecraft.Client/DefaultTexturePack.cpp b/Minecraft.Client/DefaultTexturePack.cpp new file mode 100644 index 0000000..d271240 --- /dev/null +++ b/Minecraft.Client/DefaultTexturePack.cpp @@ -0,0 +1,131 @@ +#include "stdafx.h" +#include "DefaultTexturePack.h" +#include "Textures.h" +#include "..\Minecraft.World\StringHelpers.h" + + +DefaultTexturePack::DefaultTexturePack() : AbstractTexturePack(0, nullptr, L"Minecraft", nullptr) +{ + // 4J Stu - These calls need to be in the most derived version of the class + loadIcon(); + loadName(); // 4J-PB - added so the PS3 can have localised texture names' + loadDescription(); + loadColourTable(); +} + +void DefaultTexturePack::loadIcon() +{ +#ifdef _XBOX + // 4J Stu - Temporary only + const DWORD LOCATOR_SIZE = 256; // Use this to allocate space to hold a ResourceLocator string + WCHAR szResourceLocator[ LOCATOR_SIZE ]; + + const ULONG_PTR c_ModuleHandle = (ULONG_PTR)GetModuleHandle(nullptr); + swprintf(szResourceLocator, LOCATOR_SIZE ,L"section://%X,%ls#%ls",c_ModuleHandle,L"media", L"media/Graphics/TexturePackIcon.png"); + + UINT size = 0; + HRESULT hr = XuiResourceLoadAllNoLoc(szResourceLocator, &m_iconData, &size); + m_iconSize = size; +#else + if(app.hasArchiveFile(L"Graphics\\TexturePackIcon.png")) + { + byteArray ba = app.getArchiveFile(L"Graphics\\TexturePackIcon.png"); + m_iconData = ba.data; + m_iconSize = ba.length; + } +#endif +} + +void DefaultTexturePack::loadDescription() +{ + desc1 = L"LOCALISE ME: The default look of Minecraft"; +} +void DefaultTexturePack::loadName() +{ + texname = L"Minecraft"; +} + +bool DefaultTexturePack::hasFile(const wstring &name) +{ +// return DefaultTexturePack::class->getResourceAsStream(name) != null; + return true; +} + +bool DefaultTexturePack::isTerrainUpdateCompatible() +{ + return true; +} + +InputStream *DefaultTexturePack::getResourceImplementation(const wstring &name)// throws FileNotFoundException +{ + wstring wDrive = L""; + // Make the content package point to to the UPDATE: drive is needed +#ifdef _XBOX + #ifdef _TU_BUILD + wDrive=L"UPDATE:\\res"; + #else + + wDrive=L"GAME:\\res\\TitleUpdate\\res"; + #endif +#elif __PS3__ + + char *pchUsrDir; + if(app.GetBootedFromDiscPatch()) + { + const char *pchTextureName=wstringtofilename(name); + pchUsrDir = app.GetBDUsrDirPath(pchTextureName); + app.DebugPrintf("DefaultTexturePack::getResourceImplementation - texture %s - Drive - %s\n",pchTextureName,pchUsrDir); + } + else + { + const char *pchTextureName=wstringtofilename(name); + pchUsrDir=getUsrDirPath(); + app.DebugPrintf("DefaultTexturePack::getResourceImplementation - texture %s - Drive - %s\n",pchTextureName,pchUsrDir); + } + + + wstring wstr (pchUsrDir, pchUsrDir+strlen(pchUsrDir)); + + wDrive = wstr + L"\\Common\\res\\TitleUpdate\\res"; +#elif __PSVITA__ + + /* + char *pchUsrDir=getUsrDirPath(); + wstring wstr (pchUsrDir, pchUsrDir+strlen(pchUsrDir)); + + wDrive = wstr + L"Common\\res\\TitleUpdate\\res"; + */ + wDrive = L"Common\\res\\TitleUpdate\\res"; +#else + wDrive = L"Common\\res\\TitleUpdate\\res"; + +#endif + InputStream *resource = InputStream::getResourceAsStream(wDrive + name); + //InputStream *stream = DefaultTexturePack::class->getResourceAsStream(name); + //if (stream == nullptr) + //{ + // throw new FileNotFoundException(name); + //} + + //return stream; + return resource; +} + +void DefaultTexturePack::loadUI() +{ + loadDefaultUI(); + + AbstractTexturePack::loadUI(); +} + +void DefaultTexturePack::unloadUI() +{ +#ifdef _XBOX + // Unload skin + XuiFreeVisuals(L"TexturePack"); + XuiFreeVisuals(L""); + CXuiSceneBase::GetInstance()->SetVisualPrefix(L""); + CXuiSceneBase::GetInstance()->SkinChanged(CXuiSceneBase::GetInstance()->m_hObj); +#endif + AbstractTexturePack::unloadUI(); +} diff --git a/Minecraft.Client/DefaultTexturePack.h b/Minecraft.Client/DefaultTexturePack.h new file mode 100644 index 0000000..5fd0b40 --- /dev/null +++ b/Minecraft.Client/DefaultTexturePack.h @@ -0,0 +1,33 @@ +#pragma once +#include "AbstractTexturePack.h" + +class DefaultTexturePack : public AbstractTexturePack +{ +public: + DefaultTexturePack(); + DLCPack * getDLCPack() {return nullptr;} + +protected: + //@Override + void loadIcon(); + void loadName(); + void loadDescription(); + +public: + //@Override + bool hasFile(const wstring &name); + bool isTerrainUpdateCompatible(); + + wstring getDesc1() {return app.GetString(IDS_DEFAULT_TEXTUREPACK);} + +protected: + //@Override + InputStream *getResourceImplementation(const wstring &name); // throws FileNotFoundException + +public: + virtual bool hasData() { return true; } + virtual bool hasAudio() { return false; } + virtual bool isLoadingData() { return false; } + virtual void loadUI(); + virtual void unloadUI(); +}; \ No newline at end of file diff --git a/Minecraft.Client/DemoLevel.cpp b/Minecraft.Client/DemoLevel.cpp new file mode 100644 index 0000000..91d2339 --- /dev/null +++ b/Minecraft.Client/DemoLevel.cpp @@ -0,0 +1,12 @@ +#include "stdafx.h" +#include "DemoLevel.h" +#include "..\Minecraft.World\net.minecraft.world.level.storage.h" + +DemoLevel::DemoLevel(shared_ptr levelStorage, const wstring& levelName) : Level(levelStorage, levelName, DEMO_LEVEL_SEED) +{ +} + +void DemoLevel::setInitialSpawn() +{ + levelData->setSpawn(DEMO_SPAWN_X, DEMO_SPAWN_Y, DEMO_SPAWN_Z); +} \ No newline at end of file diff --git a/Minecraft.Client/DemoLevel.h b/Minecraft.Client/DemoLevel.h new file mode 100644 index 0000000..6464c32 --- /dev/null +++ b/Minecraft.Client/DemoLevel.h @@ -0,0 +1,16 @@ +#pragma once +#include "..\Minecraft.World\net.minecraft.world.level.h" + +class DemoLevel : public Level +{ +private: + static const int64_t DEMO_LEVEL_SEED = 0; // 4J - TODO - was "Don't Look Back".hashCode(); + static const int DEMO_SPAWN_X = 796; + static const int DEMO_SPAWN_Y = 72; + static const int DEMO_SPAWN_Z = -731; +public: + DemoLevel(shared_ptr levelStorage, const wstring& levelName); + DemoLevel(Level *level, Dimension *dimension); +protected: + virtual void setInitialSpawn(); +}; diff --git a/Minecraft.Client/DemoMode.cpp b/Minecraft.Client/DemoMode.cpp new file mode 100644 index 0000000..2a5664e --- /dev/null +++ b/Minecraft.Client/DemoMode.cpp @@ -0,0 +1,125 @@ +#include "stdafx.h" +#include "DemoMode.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" + +DemoMode::DemoMode(Minecraft *minecraft) : SurvivalMode(minecraft) +{ + demoHasEnded = false; + demoEndedReminder = 0; +} + +void DemoMode::tick() +{ + SurvivalMode::tick(); + +/* 4J - TODO - seems unlikely we need this demo mode anyway + int64_t time = minecraft->level->getTime(); + int64_t day = (time / Level::TICKS_PER_DAY) + 1; + + demoHasEnded = (time > (500 + Level::TICKS_PER_DAY * DEMO_DAYS)); + if (demoHasEnded) + { + demoEndedReminder++; + } + + if ((time % Level::TICKS_PER_DAY) == 500) + { + if (day <= (DEMO_DAYS + 1)) + { + minecraft->gui->displayClientMessage(L"demo.day." + std::to_wstring(day)); + } + } + else if (day == 1) + { + Options *options = minecraft->options; + wstring message; + + if (time == 100) { + minecraft.gui.addMessage("Seed: " + minecraft.level.getSeed()); + message = language.getElement("demo.help.movement"); + message = String.format(message, Keyboard.getKeyName(options.keyUp.key), Keyboard.getKeyName(options.keyLeft.key), Keyboard.getKeyName(options.keyDown.key), + Keyboard.getKeyName(options.keyRight.key)); + } else if (time == 175) { + message = language.getElement("demo.help.jump"); + message = String.format(message, Keyboard.getKeyName(options.keyJump.key)); + } else if (time == 250) { + message = language.getElement("demo.help.inventory"); + message = String.format(message, Keyboard.getKeyName(options.keyBuild.key)); + } + if (message != null) { + minecraft.gui.addMessage(message); + } + } else if (day == DEMO_DAYS) { + if ((time % Level.TICKS_PER_DAY) == 22000) { + minecraft.gui.displayClientMessage("demo.day.warning"); + } + } +*/ +} + +void DemoMode::outputDemoReminder() +{ +/* 4J - TODO + if (demoEndedReminder > 100) { + minecraft.gui.displayClientMessage("demo.reminder"); + demoEndedReminder = 0; + } + */ +} + +void DemoMode::startDestroyBlock(int x, int y, int z, int face) +{ + if (demoHasEnded) + { + outputDemoReminder(); + return; + } + SurvivalMode::startDestroyBlock(x, y, z, face); +} + +void DemoMode::continueDestroyBlock(int x, int y, int z, int face) +{ + if (demoHasEnded) + { + return; + } + SurvivalMode::continueDestroyBlock(x, y, z, face); +} + +bool DemoMode::destroyBlock(int x, int y, int z, int face) +{ + if (demoHasEnded) + { + return false; + } + return SurvivalMode::destroyBlock(x, y, z, face); +} + +bool DemoMode::useItem(shared_ptr player, Level *level, shared_ptr item) +{ + if (demoHasEnded) + { + outputDemoReminder(); + return false; + } + return SurvivalMode::useItem(player, level, item); +} + +bool DemoMode::useItemOn(shared_ptr player, Level *level, shared_ptr item, int x, int y, int z, int face) +{ + if (demoHasEnded) { + outputDemoReminder(); + return false; + } + return SurvivalMode::useItemOn(player, level, item, x, y, z, face); +} + +void DemoMode::attack(shared_ptr player, shared_ptr entity) +{ + if (demoHasEnded) + { + outputDemoReminder(); + return; + } + SurvivalMode::attack(player, entity); +} diff --git a/Minecraft.Client/DemoMode.h b/Minecraft.Client/DemoMode.h new file mode 100644 index 0000000..429c9ec --- /dev/null +++ b/Minecraft.Client/DemoMode.h @@ -0,0 +1,27 @@ +#pragma once +#include "SurvivalMode.h" + +class DemoMode : public SurvivalMode +{ +private: + static const int DEMO_DAYS = 5; + + bool demoHasEnded; + int demoEndedReminder; + +public: + DemoMode(Minecraft *minecraft); + virtual void tick(); +private: + void outputDemoReminder(); +public: + using GameMode::useItem; + using SurvivalMode::useItemOn; + + virtual void startDestroyBlock(int x, int y, int z, int face); + virtual void continueDestroyBlock(int x, int y, int z, int face); + virtual bool destroyBlock(int x, int y, int z, int face); + virtual bool useItem(shared_ptr player, Level *level, shared_ptr item); + virtual bool useItemOn(shared_ptr player, Level *level, shared_ptr item, int x, int y, int z, int face); + virtual void attack(shared_ptr player, shared_ptr entity); +}; diff --git a/Minecraft.Client/DemoUser.cpp b/Minecraft.Client/DemoUser.cpp new file mode 100644 index 0000000..b19b368 --- /dev/null +++ b/Minecraft.Client/DemoUser.cpp @@ -0,0 +1,6 @@ +#include "stdafx.h" +#include "DemoUser.h" + +DemoUser::DemoUser() : User(L"DemoUser", L"n/a") +{ +} \ No newline at end of file diff --git a/Minecraft.Client/DemoUser.h b/Minecraft.Client/DemoUser.h new file mode 100644 index 0000000..d10085d --- /dev/null +++ b/Minecraft.Client/DemoUser.h @@ -0,0 +1,8 @@ +#pragma once +#include "User.h" + +class DemoUser : public User +{ +public: + DemoUser(); +}; \ No newline at end of file diff --git a/Minecraft.Client/DerivedServerLevel.cpp b/Minecraft.Client/DerivedServerLevel.cpp new file mode 100644 index 0000000..78de818 --- /dev/null +++ b/Minecraft.Client/DerivedServerLevel.cpp @@ -0,0 +1,29 @@ +#include "stdafx.h" +#include "DerivedServerLevel.h" +#include "..\Minecraft.World\SavedDataStorage.h" +#include "..\Minecraft.World\DerivedLevelData.h" + +DerivedServerLevel::DerivedServerLevel(MinecraftServer *server, shared_ptr levelStorage, const wstring& levelName, int dimension, LevelSettings *levelSettings, ServerLevel *wrapped) + : ServerLevel(server, levelStorage, levelName, dimension, levelSettings) +{ + // 4J-PB - we're going to override the savedDataStorage, so we need to delete the current one + if(this->savedDataStorage) + { + delete this->savedDataStorage; + this->savedDataStorage=nullptr; + } + this->savedDataStorage = wrapped->savedDataStorage; + levelData = new DerivedLevelData(wrapped->getLevelData()); +} + +DerivedServerLevel::~DerivedServerLevel() +{ + // we didn't allocate savedDataStorage here, so we don't want the level destructor to delete it + this->savedDataStorage=nullptr; +} + +void DerivedServerLevel::saveLevelData() +{ + // Do nothing? + // Do nothing! +} \ No newline at end of file diff --git a/Minecraft.Client/DerivedServerLevel.h b/Minecraft.Client/DerivedServerLevel.h new file mode 100644 index 0000000..2d49e4f --- /dev/null +++ b/Minecraft.Client/DerivedServerLevel.h @@ -0,0 +1,12 @@ +#pragma once +#include "ServerLevel.h" + +class DerivedServerLevel : public ServerLevel +{ +public: + DerivedServerLevel(MinecraftServer *server, shared_ptrlevelStorage, const wstring& levelName, int dimension, LevelSettings *levelSettings, ServerLevel *wrapped); + ~DerivedServerLevel(); + +protected: + void saveLevelData(); +}; \ No newline at end of file diff --git a/Minecraft.Client/DirtyChunkSorter.cpp b/Minecraft.Client/DirtyChunkSorter.cpp new file mode 100644 index 0000000..ebeed96 --- /dev/null +++ b/Minecraft.Client/DirtyChunkSorter.cpp @@ -0,0 +1,26 @@ +#include "stdafx.h" +#include "DirtyChunkSorter.h" +#include "../Minecraft.World/net.minecraft.world.entity.player.h" +#include "Chunk.h" + +DirtyChunkSorter::DirtyChunkSorter(shared_ptr cameraEntity, int playerIndex) // 4J - added player index +{ + this->cameraEntity = cameraEntity; + this->playerIndex = playerIndex; +} + +bool DirtyChunkSorter::operator()(const Chunk *c0, const Chunk *c1) const +{ + bool i0 = c0->clipChunk->visible; + bool i1 = c1->clipChunk->visible; + if (i0 && !i1) return false; + if (i1 && !i0) return true; + + double d0 = c0->distanceToSqr(cameraEntity); + double d1 = c1->distanceToSqr(cameraEntity); + + if (d0 < d1) return false; + if (d0 > d1) return true; + + return c0->id >= c1->id; // 4J - was c0.id < c1.id ? 1 : -1 +} \ No newline at end of file diff --git a/Minecraft.Client/DirtyChunkSorter.h b/Minecraft.Client/DirtyChunkSorter.h new file mode 100644 index 0000000..2c34d4b --- /dev/null +++ b/Minecraft.Client/DirtyChunkSorter.h @@ -0,0 +1,14 @@ +#pragma once +class Chunk; +class Mob; + +class DirtyChunkSorter +{ +private: + shared_ptr cameraEntity; + int playerIndex; // 4J added + +public: + DirtyChunkSorter(shared_ptr cameraEntity, int playerIndex); // 4J - added player index + bool operator()(const Chunk *a, const Chunk *b) const; +}; \ No newline at end of file diff --git a/Minecraft.Client/DispenserBootstrap.cpp b/Minecraft.Client/DispenserBootstrap.cpp new file mode 100644 index 0000000..1577c4e --- /dev/null +++ b/Minecraft.Client/DispenserBootstrap.cpp @@ -0,0 +1 @@ +#include "stdafx.h" \ No newline at end of file diff --git a/Minecraft.Client/DispenserBootstrap.h b/Minecraft.Client/DispenserBootstrap.h new file mode 100644 index 0000000..84dde91 --- /dev/null +++ b/Minecraft.Client/DispenserBootstrap.h @@ -0,0 +1,29 @@ +#pragma once +#include "../Minecraft.World/net.minecraft.world.item.h" +#include "../Minecraft.World/DispenserTile.h" +#include "../Minecraft.World/net.minecraft.core.h" +#include "../Minecraft.World/LevelEvent.h" + +class DispenserBootstrap +{ +public: + static void bootStrap() + { + DispenserTile::REGISTRY.add(Item::arrow, new ArrowDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::egg, new EggDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::snowBall, new SnowballDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::expBottle, new ExpBottleDispenseBehavior()); + + DispenserTile::REGISTRY.add(Item::potion, new PotionDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::spawnEgg, new SpawnEggDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::fireworks, new FireworksDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::fireball, new FireballDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::boat, new BoatDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::bucket_lava, new FilledBucketDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::bucket_water, new FilledBucketDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::bucket_empty, new EmptyBucketDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::flintAndSteel, new FlintAndSteelDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::dye_powder, new DyeDispenseBehavior()); + DispenserTile::REGISTRY.add(Item::items[Tile::tnt_Id], new TntDispenseBehavior()); + } +}; \ No newline at end of file diff --git a/Minecraft.Client/DistanceChunkSorter.cpp b/Minecraft.Client/DistanceChunkSorter.cpp new file mode 100644 index 0000000..80ac0cd --- /dev/null +++ b/Minecraft.Client/DistanceChunkSorter.cpp @@ -0,0 +1,24 @@ +#include "stdafx.h" +#include "DistanceChunkSorter.h" +#include "../Minecraft.World/net.minecraft.world.entity.player.h" +#include "Chunk.h" + +DistanceChunkSorter::DistanceChunkSorter(shared_ptr player) +{ + ix = -player->x; + iy = -player->y; + iz = -player->z; +} + +bool DistanceChunkSorter::operator()(const Chunk *c0, const Chunk *c1) const +{ + double xd0 = c0->xm + ix; + double yd0 = c0->ym + iy; + double zd0 = c0->zm + iz; + + double xd1 = c1->xm + ix; + double yd1 = c1->ym + iy; + double zd1 = c1->zm + iz; + + return (((xd0 * xd0 + yd0 * yd0 + zd0 * zd0) - (xd1 * xd1 + yd1 * yd1 + zd1 * zd1)) * 1024) < 0.0; +} \ No newline at end of file diff --git a/Minecraft.Client/DistanceChunkSorter.h b/Minecraft.Client/DistanceChunkSorter.h new file mode 100644 index 0000000..224737a --- /dev/null +++ b/Minecraft.Client/DistanceChunkSorter.h @@ -0,0 +1,13 @@ +#pragma once +class Entity; +class Chunk; + +class DistanceChunkSorter +{ +private: + double ix, iy, iz; + +public: + DistanceChunkSorter(shared_ptr player); + bool operator()(const Chunk *a, const Chunk *b) const; +}; \ No newline at end of file diff --git a/Minecraft.Client/DragonBreathParticle.cpp b/Minecraft.Client/DragonBreathParticle.cpp new file mode 100644 index 0000000..3fd9080 --- /dev/null +++ b/Minecraft.Client/DragonBreathParticle.cpp @@ -0,0 +1,104 @@ +#include "stdafx.h" +#include "..\Minecraft.World\JavaMath.h" +#include "DragonBreathParticle.h" + +void DragonBreathParticle::init(Level *level, double x, double y, double z, double xa, double ya, double za, float scale) +{ + xd *= 0.1f; + yd *= 0.1f; + zd *= 0.1f; + xd = xa; //+= xa; + yd = ya; //+= ya; + zd = za; //+= za; + + unsigned int cMin = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_DragonBreathMin ); //0xb700d2 + unsigned int cMax = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_DragonBreathMax ); //0xdf00f9 + double rMin = ( (cMin>>16)&0xFF )/255.0f, gMin = ( (cMin>>8)&0xFF )/255.0, bMin = ( cMin&0xFF )/255.0; + double rMax = ( (cMax>>16)&0xFF )/255.0f, gMax = ( (cMax>>8)&0xFF )/255.0, bMax = ( cMax&0xFF )/255.0; + + rCol = (rMax - rMin) * Math::random() + rMin; // 184/255 -- 224/255 + gCol = (gMax - gMin) * Math::random() + gMin; // 0,0 + bCol = (bMax - bMin) * Math::random() + bMin; // 210/255 -- 250/255 + + size *= 0.75f; + size *= scale; + oSize = size; + + lifetime = static_cast(20 / (Math::random() * 0.8 + 0.2)); + lifetime = static_cast(lifetime * scale); + noPhysics = false; + + m_bHasHitGround = false; +} + +DragonBreathParticle::DragonBreathParticle(Level *level, double x, double y, double z, double xa, double ya, double za) : Particle(level, x, y, z, 0, 0, 0) +{ + init(level, x, y, z, xa, ya, za, 1); +} + +DragonBreathParticle::DragonBreathParticle(Level *level, double x, double y, double z, double xa, double ya, double za, float scale) : Particle(level, x, y, z, 0, 0, 0) +{ + init(level, x, y, z, xa, ya, za, scale); +} + +void DragonBreathParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float l = ((age + a) / lifetime) * 32; + if (l < 0) l = 0; + if (l > 1) l = 1; + + size = oSize * l; + Particle::render(t, a, xa, ya, za, xa2, za2); +} + +void DragonBreathParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + if (age++ >= lifetime) remove(); + + setMiscTex( ( 3 * age / lifetime) + 5 ); + + if(onGround) + { + yd = 0; + m_bHasHitGround = true; + } + + if(m_bHasHitGround) yd += 0.002; //0.004; + + move(xd, yd, zd); + if (y == yo) + { + xd *= 1.1; + zd *= 1.1; + } + xd *= 0.96f; + zd *= 0.96f; + + if(m_bHasHitGround) yd *= 0.96f; + + // if (onGround) + //{ + // xd *= 0.7f; + // zd *= 0.7f; + // } +} + +int DragonBreathParticle::getParticleTexture() +{ + return ParticleEngine::DRAGON_BREATH_TEXTURE; +} + +float DragonBreathParticle::getBrightness(float a) +{ + float l = ((age + a) / lifetime) * 32; + if (l < 0) l = 0; + if (l > 1) l = 1; + + float brightness = (0.5f / l) + 0.5f; + + return brightness; +} \ No newline at end of file diff --git a/Minecraft.Client/DragonBreathParticle.h b/Minecraft.Client/DragonBreathParticle.h new file mode 100644 index 0000000..e9199d7 --- /dev/null +++ b/Minecraft.Client/DragonBreathParticle.h @@ -0,0 +1,20 @@ +#pragma once +#include "Particle.h" + +class DragonBreathParticle : public Particle +{ +public: + virtual eINSTANCEOF GetType() { return eTYPE_DRAGONBREATHPARTICLE; } +private: + bool m_bHasHitGround; + void init(Level *level, double x, double y, double z, double xa, double ya, double za, float scale); // 4J - added +public: + DragonBreathParticle(Level *level, double x, double y, double z, double xa, double ya, double za); + float oSize; + + DragonBreathParticle(Level *level, double x, double y, double z, double xa, double ya, double za, float scale); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual void tick(); + virtual int getParticleTexture(); + virtual float getBrightness(float a); +}; \ No newline at end of file diff --git a/Minecraft.Client/DripParticle.cpp b/Minecraft.Client/DripParticle.cpp new file mode 100644 index 0000000..d7202b0 --- /dev/null +++ b/Minecraft.Client/DripParticle.cpp @@ -0,0 +1,132 @@ +#include "stdafx.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.material.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\Mth.h" +#include "DripParticle.h" + +DripParticle::DripParticle(Level *level, double x, double y, double z, Material *material) : Particle(level, x, y, z, 0, 0, 0) +{ + xd = yd = zd = 0; + + unsigned int clr; + if (material == Material::water) + { + clr = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_DripWater); + } + else + { + clr = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_DripLavaStart ); + } + + rCol = ( (clr>>16)&0xFF )/255.0f; + gCol = ( (clr>>8)&0xFF )/255.0; + bCol = ( clr&0xFF )/255.0; + + setMiscTex(16 * 7 + 1); + this->setSize(0.01f, 0.01f); + gravity = 0.06f; + this->material = material; + stuckTime = 40; + + lifetime = static_cast(64 / (Math::random() * 0.8 + 0.2)); + xd = yd = zd = 0; +} + +int DripParticle::getLightColor(float a) +{ + if (material == Material::water) return Particle::getLightColor(a); + + // 4J-JEV: Looks like this value was never used on the java version, + // but it is on ours, so I've changed this to be bright manualy. + int s = 0x0f; + int b = 0x0f; + return s << 20 | b << 4; // MGH changed this to a proper value as PS3 wasn't clamping the values. +} + +float DripParticle::getBrightness(float a) +{ + if (material == Material::water) return Particle::getBrightness(a); + else return 1.0f; +} + +void DripParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + if (material == Material::water) + { + //rCol = 0.2f; + //gCol = 0.3f; + //bCol = 1.0f; + + unsigned int clr = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_DripWater); + rCol = ( (clr>>16)&0xFF )/255.0f; + gCol = ( (clr>>8)&0xFF )/255.0; + bCol = ( clr&0xFF )/255.0; + } + else + { + //rCol = 1.0f; + //gCol = 16.0f / (40 - stuckTime + 16); + //bCol = 4.0f / (40 - stuckTime + 8); + + unsigned int cStart = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_DripLavaStart ); + unsigned int cEnd = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_DripLavaEnd ); + double rStart = ( (cStart>>16)&0xFF )/255.0f, gStart = ( (cStart>>8)&0xFF )/255.0, bStart = ( cStart&0xFF )/255.0; + double rEnd = ( (cEnd>>16)&0xFF )/255.0f, gEnd = ( (cEnd>>8)&0xFF )/255.0, bEnd = ( cEnd&0xFF )/255.0; + + float variance = (40 - stuckTime); + rCol = rStart - ((rStart - rEnd)/40) * variance; + gCol = gStart - ((gStart - gEnd)/40) * variance; + bCol = bStart - ((bStart - bEnd)/40) * variance; + } + + yd -= gravity; + if (stuckTime-- > 0) + { + xd *= 0.02; + yd *= 0.02; + zd *= 0.02; + setMiscTex(16 * 7 + 1); + } + else + { + setMiscTex(16 * 7 + 0); + } + move(xd, yd, zd); + xd *= 0.98f; + yd *= 0.98f; + zd *= 0.98f; + + if (lifetime-- <= 0) remove(); + + if (onGround) + { + if (material == Material::water) + { + remove(); + level->addParticle(eParticleType_splash, x, y, z, 0, 0, 0); + } + else + { + setMiscTex(16 * 7 + 2); + + } + xd *= 0.7f; + zd *= 0.7f; + } + + Material *m = level->getMaterial(Mth::floor(x), Mth::floor(y), Mth::floor(z)); + if (m->isLiquid() || m->isSolid()) + { + double y0 = Mth::floor(y) + 1 - LiquidTile::getHeight(level->getData(Mth::floor(x), Mth::floor(y), Mth::floor(z))); + if (y < y0) + { + remove(); + } + } +} diff --git a/Minecraft.Client/DripParticle.h b/Minecraft.Client/DripParticle.h new file mode 100644 index 0000000..1549c33 --- /dev/null +++ b/Minecraft.Client/DripParticle.h @@ -0,0 +1,22 @@ +#pragma once + +#include "Particle.h" + +class Level; +class Material; + +class DripParticle : public Particle +{ +private: + Material *material; + int stuckTime; + +public: + virtual eINSTANCEOF GetType() { return eTYPE_DRIPPARTICLE; } + + DripParticle(Level *level, double x, double y, double z, Material *material); + + virtual int getLightColor(float a); + virtual float getBrightness(float a); + virtual void tick(); +}; \ No newline at end of file diff --git a/Minecraft.Client/EchantmentTableParticle.cpp b/Minecraft.Client/EchantmentTableParticle.cpp new file mode 100644 index 0000000..95bd3db --- /dev/null +++ b/Minecraft.Client/EchantmentTableParticle.cpp @@ -0,0 +1,71 @@ +#include "stdafx.h" +#include "..\Minecraft.World\JavaMath.h" +#include "EchantmentTableParticle.h" + +EchantmentTableParticle::EchantmentTableParticle(Level *level, double x, double y, double z, double xd, double yd, double zd) : Particle(level, x, y, z, xd, yd, zd) +{ + this->xd = xd; + this->yd = yd; + this->zd = zd; + this->xStart = this->x = x; + this->yStart = this->y = y; + this->zStart = this->z = z; + + unsigned int clr = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_EnchantmentTable ); //0xE5E5FF + double r = ( (clr>>16)&0xFF )/255.0f, g = ( (clr>>8)&0xFF )/255.0, b = ( clr&0xFF )/255.0; + + float br = random->nextFloat() * 0.6f + 0.4f; + rCol = r * br; + gCol = g * br; + bCol = b * br; + + oSize = size = random->nextFloat() * 0.5f + 0.2f; + + lifetime = static_cast(Math::random() * 10) + 30; + noPhysics = true; + setMiscTex( static_cast(Math::random() * 26 + 1 + 14 * 16) ); +} + +int EchantmentTableParticle::getLightColor(float a) +{ + int br = Particle::getLightColor(a); + + float pos = age / static_cast(lifetime); + pos = pos * pos; + pos = pos * pos; + + int br1 = (br) & 0xff; + int br2 = (br >> 16) & 0xff; + br2 += static_cast(pos * 15 * 16); + if (br2 > 15 * 16) br2 = 15 * 16; + return br1 | br2 << 16; +} + +float EchantmentTableParticle::getBrightness(float a) +{ + float br = Particle::getBrightness(a); + float pos = age / static_cast(lifetime); + pos = pos * pos; + pos = pos * pos; + return br * (1 - pos) + pos; +} + +void EchantmentTableParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + float pos = age / static_cast(lifetime); + + pos = 1 - pos; + + float pp = 1 - pos; + pp = pp * pp; + pp = pp * pp; + x = xStart + xd * pos; + y = yStart + yd * pos - pp * 1.2f; + z = zStart + zd * pos; + + if (age++ >= lifetime) remove(); +} \ No newline at end of file diff --git a/Minecraft.Client/EchantmentTableParticle.h b/Minecraft.Client/EchantmentTableParticle.h new file mode 100644 index 0000000..98b027c --- /dev/null +++ b/Minecraft.Client/EchantmentTableParticle.h @@ -0,0 +1,21 @@ +#pragma once + +#include "Particle.h" + +class Level; + +class EchantmentTableParticle : public Particle +{ +private: + float oSize; + double xStart, yStart, zStart; + +public: + virtual eINSTANCEOF GetType() { return eTYPE_ENCHANTMENTTABLEPARTICLE; } + + EchantmentTableParticle(Level *level, double x, double y, double z, double xd, double yd, double zd); + + virtual int getLightColor(float a); + virtual float getBrightness(float a); + virtual void tick(); +}; \ No newline at end of file diff --git a/Minecraft.Client/EnderParticle.cpp b/Minecraft.Client/EnderParticle.cpp new file mode 100644 index 0000000..ee1a9c3 --- /dev/null +++ b/Minecraft.Client/EnderParticle.cpp @@ -0,0 +1,94 @@ +#include "stdafx.h" +#include "EnderParticle.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\Random.h" + +// 4J Stu - This class was originally "PortalParticle" but I have split the two uses of the particle +// End creatures/items (e.g. EnderMan, EyeOfEnder, etc) use this particle + +EnderParticle::EnderParticle(Level *level, double x, double y, double z, double xd, double yd, double zd) : Particle(level, x, y, z, xd, yd, zd) +{ + this->xd = xd; + this->yd = yd; + this->zd = zd; + this->xStart = this->x = x; + this->yStart = this->y = y; + this->zStart = this->z = z; + + // 4J-JEV: Set particle colour from colour-table. + unsigned int col = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_Ender ); //0xE54CFF + rCol = ( (col>>16)&0xFF )/255.0f, gCol = ( (col>>8)&0xFF )/255.0, bCol = ( col&0xFF )/255.0; + + float br = random->nextFloat() * 0.6f + 0.4f; + rCol *= br; gCol *= br; bCol *= br; + + //rCol = gCol = bCol = 1.0f*br; + //gCol *= 0.3f; + //rCol *= 0.9f; + + oSize = size = random->nextFloat()*0.2f+0.5f; + + lifetime = static_cast(Math::random() * 10) + 40; + noPhysics = true; + setMiscTex(static_cast(Math::random() * 8)); +} + +void EnderParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float s = (age + a) / static_cast(lifetime); + s = 1-s; + s = s*s; + s = 1-s; + size = oSize * (s); + Particle::render(t, a, xa, ya, za, xa2, za2); +} + +// 4J - brought forward from 1.8.2 +int EnderParticle::getLightColor(float a) +{ + int br = Particle::getLightColor(a); + + float pos = age/static_cast(lifetime); + pos = pos*pos; + pos = pos*pos; + + int br1 = (br) & 0xff; + int br2 = (br >> 16) & 0xff; + br2 += static_cast(pos * 15 * 16); + if (br2 > 15 * 16) br2 = 15 * 16; + return br1 | br2 << 16; +} + +float EnderParticle::getBrightness(float a) +{ + float br = Particle::getBrightness(a); + float pos = age/static_cast(lifetime); + pos = pos*pos; + pos = pos*pos; + return br*(1-pos)+pos; +} + +void EnderParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + float pos = age/static_cast(lifetime); + float a = pos; + pos = -pos+pos*pos*2; +// pos = pos*pos; +// pos = pos*pos; + pos = 1-pos; + + x = xStart+xd*pos; + y = yStart+yd*pos+(1-a); + z = zStart+zd*pos; + + +// spd+=0.002/lifetime*age; + + if (age++ >= lifetime) remove(); + +// move(xd*spd, yd*spd, zd*spd); +} diff --git a/Minecraft.Client/EnderParticle.h b/Minecraft.Client/EnderParticle.h new file mode 100644 index 0000000..56b75b6 --- /dev/null +++ b/Minecraft.Client/EnderParticle.h @@ -0,0 +1,21 @@ +#pragma once +#include "Particle.h" + +// 4J Stu - This class was originally "PortalParticle" but I have split the two uses of the particle +// End creatures/items (e.g. EnderMan, EyeOfEnder, etc) use this particle + +class EnderParticle : public Particle +{ +public: + virtual eINSTANCEOF GetType() { return eType_ENDERPARTICLE; } +private: + float oSize; + double xStart, yStart, zStart; + +public: + EnderParticle(Level *level, double x, double y, double z, double xd, double yd, double zd); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual int getLightColor(float a); // 4J - brought forward from 1.8.2 + virtual float getBrightness(float a); + virtual void tick(); +}; \ No newline at end of file diff --git a/Minecraft.Client/EntityTracker.cpp b/Minecraft.Client/EntityTracker.cpp new file mode 100644 index 0000000..087227e --- /dev/null +++ b/Minecraft.Client/EntityTracker.cpp @@ -0,0 +1,249 @@ +#include "stdafx.h" +#include "EntityTracker.h" +#include "MinecraftServer.h" +#include "PlayerList.h" +#include "TrackedEntity.h" +#include "ServerPlayer.h" +#include "ServerLevel.h" +#include "..\Minecraft.World\Mth.h" +#include "..\Minecraft.World\net.minecraft.world.entity.h" +#include "..\Minecraft.World\net.minecraft.world.entity.item.h" +#include "..\Minecraft.World\net.minecraft.world.entity.monster.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.entity.animal.h" +#include "..\Minecraft.World\net.minecraft.world.entity.global.h" +#include "..\Minecraft.World\net.minecraft.world.entity.projectile.h" +#include "..\Minecraft.World\net.minecraft.world.entity.boss.enderdragon.h" +#include "..\Minecraft.World\net.minecraft.network.packet.h" +#include "..\Minecraft.World\net.minecraft.network.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\BasicTypeContainers.h" +#include "..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "PlayerConnection.h" + +EntityTracker::EntityTracker(ServerLevel *level) +{ + this->level = level; + maxRange = level->getServer()->getPlayers()->getMaxRange(); +} + +void EntityTracker::addEntity(shared_ptr e) +{ + if (e->instanceof(eTYPE_SERVERPLAYER)) + { + addEntity(e, 32 * 16, 2); + shared_ptr player = dynamic_pointer_cast(e); + for ( auto& it : entities ) + { + if( it && it->e != player ) + { + it->updatePlayer(this, player); + } + } + } + else if (e->instanceof(eTYPE_FISHINGHOOK)) addEntity(e, 16 * 4, 5, true); + else if (e->instanceof(eTYPE_SMALL_FIREBALL)) addEntity(e, 16 * 4, 10, false); + else if (e->instanceof(eTYPE_DRAGON_FIREBALL)) addEntity(e, 16 * 4, 10, false); // 4J Added TU9 + else if (e->instanceof(eTYPE_ARROW)) addEntity(e, 16 * 4, 20, false); + else if (e->instanceof(eTYPE_FIREBALL)) addEntity(e, 16 * 4, 10, false); + else if (e->instanceof(eTYPE_SNOWBALL)) addEntity(e, 16 * 4, 10, true); + else if (e->instanceof(eTYPE_THROWNENDERPEARL)) addEntity(e, 16 * 4, 10, true); + else if (e->instanceof(eTYPE_EYEOFENDERSIGNAL)) addEntity(e, 16 * 4, 4, true); + else if (e->instanceof(eTYPE_THROWNEGG)) addEntity(e, 16 * 4, 10, true); + else if (e->instanceof(eTYPE_THROWNPOTION)) addEntity(e, 16 * 4, 10, true); + else if (e->instanceof(eTYPE_THROWNEXPBOTTLE)) addEntity(e, 16 * 4, 10, true); + else if (e->instanceof(eTYPE_FIREWORKS_ROCKET)) addEntity(e, 16 * 4, 10, true); + else if (e->instanceof(eTYPE_ITEMENTITY)) addEntity(e, 16 * 4, 20, true); + else if (e->instanceof(eTYPE_MINECART)) addEntity(e, 16 * 5, 1, true); + else if (e->instanceof(eTYPE_BOAT)) addEntity(e, 16 * 5, 1, true); + else if (e->instanceof(eTYPE_SQUID)) addEntity(e, 16 * 4, 1, true); + else if (e->instanceof(eTYPE_WITHERBOSS)) addEntity(e, 16 * 5, 1, false); + else if (e->instanceof(eTYPE_BAT)) addEntity(e, 16 * 5, 1, false); + else if (dynamic_pointer_cast(e)!=nullptr) addEntity(e, 16 * 5, 1, true); + else if (e->instanceof(eTYPE_ENDERDRAGON)) addEntity(e, 16 * 10, 1, true); + else if (e->instanceof(eTYPE_PRIMEDTNT)) addEntity(e, 16 * 10, 10, true); + else if (e->instanceof(eTYPE_FALLINGTILE)) addEntity(e, 16 * 10, 20, true); + else if (e->instanceof(eTYPE_HANGING_ENTITY)) addEntity(e, 16 * 10, INT_MAX, false); + else if (e->instanceof(eTYPE_EXPERIENCEORB)) addEntity(e, 16 * 10, 20, true); + else if (e->instanceof(eTYPE_ENDER_CRYSTAL)) addEntity(e, 16 * 16, INT_MAX, false); + else if (e->instanceof(eTYPE_ITEM_FRAME)) addEntity(e, 16 * 10, INT_MAX, false); +} + +void EntityTracker::addEntity(shared_ptr e, int range, int updateInterval) +{ + addEntity(e, range, updateInterval, false); +} + +void EntityTracker::addEntity(shared_ptr e, int range, int updateInterval, bool trackDeltas) +{ + if (range > maxRange) range = maxRange; + if (entityMap.find(e->entityId) != entityMap.end()) + { + assert(false); // Entity already tracked + } + if( e->entityId >= 2048 ) + { + __debugbreak(); + } + shared_ptr te = std::make_shared(e, range, updateInterval, trackDeltas); + entities.insert(te); + entityMap[e->entityId] = te; + te->updatePlayers(this, &level->players); +} + +// 4J - have split removeEntity into two bits - it used to do the equivalent of EntityTracker::removePlayer followed by EntityTracker::removeEntity. +// This is to allow us to now choose to remove the player as a "seenBy" only when the player has actually been removed from the level's own player array +void EntityTracker::removeEntity(shared_ptr e) +{ + auto it = entityMap.find(e->entityId); + if( it != entityMap.end() ) + { + shared_ptr te = it->second; + entityMap.erase(it); + entities.erase(te); + te->broadcastRemoved(); + } +} + +void EntityTracker::removePlayer(shared_ptr e) +{ + if (e->GetType() == eTYPE_SERVERPLAYER) + { + shared_ptr player = dynamic_pointer_cast(e); + for( auto& it : entities ) + { + if ( it ) + it->removePlayer(player); + } + + // 4J: Flush now to ensure remove packets are sent before player respawns and add entity packets are sent + player->flushEntitiesToRemove(); + } +} + +void EntityTracker::tick() +{ + vector > movedPlayers; + for( auto& te : entities ) + { + if ( te ) + { + te->tick(this, &level->players); + if (te->moved && te->e->GetType() == eTYPE_SERVERPLAYER) + { + movedPlayers.push_back(dynamic_pointer_cast(te->e)); + } + } + } + + // 4J Stu - If one player on a system is updated, then make sure they all are as they all have their + // range extended to include entities visible by any other player on the system + // Fix for #11194 - Gameplay: Host player and their split-screen avatars can become invisible and invulnerable to client. + MinecraftServer *server = MinecraftServer::getInstance(); + for( unsigned int i = 0; i < server->getPlayers()->players.size(); i++ ) + { + shared_ptr ep = server->getPlayers()->players[i]; + if( ep->dimension != level->dimension->id ) continue; + + if( ep->connection == nullptr ) continue; + INetworkPlayer *thisPlayer = ep->connection->getNetworkPlayer(); + if( thisPlayer == nullptr ) continue; + + bool addPlayer = false; + for (unsigned int j = 0; j < movedPlayers.size(); j++) + { + shared_ptr sp = movedPlayers[j]; + + if( sp == ep ) break; + + if(sp->connection == nullptr) continue; + INetworkPlayer *otherPlayer = sp->connection->getNetworkPlayer(); + if( otherPlayer != nullptr && thisPlayer->IsSameSystem(otherPlayer) ) + { + addPlayer = true; + break; + } + } + if( addPlayer ) movedPlayers.push_back( ep ); + } + + for (unsigned int i = 0; i < movedPlayers.size(); i++) + { + shared_ptr player = movedPlayers[i]; + if(player->connection == nullptr) continue; + for( auto& te : entities ) + { + if ( te && te->e != player) + { + te->updatePlayer(this, player); + } + } + } + + // 4J Stu - We want to do this for dead players as they don't tick normally + for (auto& it : level->players ) + { + shared_ptr player = dynamic_pointer_cast(it); + if( player && !player->isAlive()) + { + player->flushEntitiesToRemove(); + } + } +} + +void EntityTracker::broadcast(shared_ptr e, shared_ptr packet) +{ + auto it = entityMap.find(e->entityId); + if( it != entityMap.end() ) + { + shared_ptr te = it->second; + te->broadcast(packet); + } +} + +void EntityTracker::broadcastAndSend(shared_ptr e, shared_ptr packet) +{ + auto it = entityMap.find(e->entityId); + if( it != entityMap.end() ) + { + shared_ptr te = it->second; + te->broadcastAndSend(packet); + } +} + +void EntityTracker::clear(shared_ptr serverPlayer) +{ + for ( auto& te : entities ) + { + if ( te ) + te->clear(serverPlayer); + } +} + +void EntityTracker::playerLoadedChunk(shared_ptr player, LevelChunk *chunk) +{ + for ( auto& te : entities ) + { + if (te->e != player && te->e->xChunk == chunk->x && te->e->zChunk == chunk->z) + { + te->updatePlayer(this, player); + } + } +} + +// AP added for Vita so the range can be increased once the level starts +void EntityTracker::updateMaxRange() +{ + maxRange = level->getServer()->getPlayers()->getMaxRange(); +} + + +shared_ptr EntityTracker::getTracker(shared_ptr e) +{ + auto it = entityMap.find(e->entityId); + if( it != entityMap.end() ) + { + return it->second; + } + return nullptr; +} diff --git a/Minecraft.Client/EntityTracker.h b/Minecraft.Client/EntityTracker.h new file mode 100644 index 0000000..6ff9fe0 --- /dev/null +++ b/Minecraft.Client/EntityTracker.h @@ -0,0 +1,37 @@ +#pragma once +#include "..\Minecraft.World\HashExtension.h" +#include "..\Minecraft.World\JavaIntHash.h" +class Entity; +class ServerPlayer; +class TrackedEntity; +class MinecraftServer; +class Packet; + +using namespace std; + +class EntityTracker +{ +private: + ServerLevel *level; + unordered_set > entities; + unordered_map , IntKeyHash2, IntKeyEq> entityMap; // was IntHashMap + int maxRange; + +public: + EntityTracker(ServerLevel *level); + void addEntity(shared_ptr e); + void addEntity(shared_ptr e, int range, int updateInterval); + void addEntity(shared_ptr e, int range, int updateInterval, bool trackDeltas); + void removeEntity(shared_ptr e); + void removePlayer(shared_ptr e); // 4J added + void tick(); + void broadcast(shared_ptr e, shared_ptr packet); + void broadcastAndSend(shared_ptr e, shared_ptr packet); + void clear(shared_ptr serverPlayer); + void playerLoadedChunk(shared_ptr player, LevelChunk *chunk); + void updateMaxRange(); // AP added for Vita + + + // 4J-JEV: Added, needed access to tracked entity of a riders mount. + shared_ptr getTracker(shared_ptr entity); +}; diff --git a/Minecraft.Client/ExplodeParticle.cpp b/Minecraft.Client/ExplodeParticle.cpp new file mode 100644 index 0000000..e9d4687 --- /dev/null +++ b/Minecraft.Client/ExplodeParticle.cpp @@ -0,0 +1,62 @@ +#include "stdafx.h" +#include "ExplodeParticle.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\Random.h" + +ExplodeParticle::ExplodeParticle(Level *level, double x, double y, double z, double xa, double ya, double za) : Particle(level, x, y, z, xa, ya, za) +{ + xd = xa+static_cast(Math::random() * 2 - 1)*0.05f; + yd = ya+static_cast(Math::random() * 2 - 1)*0.05f; + zd = za+static_cast(Math::random() * 2 - 1)*0.05f; + + //rCol = gCol = bCol = random->nextFloat()*.3f+.7; + + unsigned int clr = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_Explode ); //0xFFFFFF + double r = ( (clr>>16)&0xFF )/255.0f, g = ( (clr>>8)&0xFF )/255.0, b = ( clr&0xFF )/255.0; + + float br = random->nextFloat() * 0.3f + 0.7f; + rCol = r * br; + gCol = g * br; + bCol = b * br; + + size = random->nextFloat()*random->nextFloat()*6+1; + + lifetime = static_cast(16 / (random->nextFloat() * 0.8 + 0.2))+2; +// noPhysics = true; +} + +void ExplodeParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + // 4J - don't render explosion particles that are less than 3 metres away, to try and avoid large particles that are causing us problems with photosensitivity testing + float x = static_cast(xo + (this->x - xo) * a - xOff); + float y = static_cast(yo + (this->y - yo) * a - yOff); + float z = static_cast(zo + (this->z - zo) * a - zOff); + + float distSq = (x*x + y*y + z*z); + if( distSq < (3.0f * 3.0f) ) return; + + Particle::render(t, a, xa, ya, za, xa2, za2); +} + +void ExplodeParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + if (age++ >= lifetime) remove(); + + setMiscTex(7-age*8/lifetime); + + yd += 0.004; + move(xd, yd, zd); + xd *= 0.90f; + yd *= 0.90f; + zd *= 0.90f; + + if (onGround) + { + xd *= 0.7f; + zd *= 0.7f; + } +} \ No newline at end of file diff --git a/Minecraft.Client/ExplodeParticle.h b/Minecraft.Client/ExplodeParticle.h new file mode 100644 index 0000000..e25243d --- /dev/null +++ b/Minecraft.Client/ExplodeParticle.h @@ -0,0 +1,11 @@ +#pragma once +#include "Particle.h" + +class ExplodeParticle : public Particle +{ +public: + virtual eINSTANCEOF GetType() { return eType_EXPLODEPARTICLE; } + ExplodeParticle(Level *level, double x, double y, double z, double xa, double ya, double za); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual void tick(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Extrax64Stubs.cpp b/Minecraft.Client/Extrax64Stubs.cpp new file mode 100644 index 0000000..0147896 --- /dev/null +++ b/Minecraft.Client/Extrax64Stubs.cpp @@ -0,0 +1,851 @@ +#include "stdafx.h" +#ifndef __PS3__ +//#include +#endif // __PS3__ + +#ifdef __PS3__ +#include "PS3\Sentient\SentientManager.h" +#include "StatsCounter.h" +#include "PS3\Social\SocialManager.h" +#include +#include +#elif defined _DURANGO +#include "Durango\Sentient\SentientManager.h" +#include "StatsCounter.h" +#include "Durango\Social\SocialManager.h" +#include "Durango\Sentient\DynamicConfigurations.h" +#include "Durango\DurangoExtras\xcompress.h" +#elif defined _WINDOWS64 +#include "Windows64\Sentient\SentientManager.h" +#include "StatsCounter.h" +#include "Windows64\Social\SocialManager.h" +#include "Windows64\Sentient\DynamicConfigurations.h" +#include "Windows64\Network\WinsockNetLayer.h" +#include "Windows64\Windows64_Xuid.h" +#elif defined __PSVITA__ +#include "PSVita\Sentient\SentientManager.h" +#include "StatsCounter.h" +#include "PSVita\Social\SocialManager.h" +#include "PSVita\Sentient\DynamicConfigurations.h" +#include +#else +#include "Orbis\Sentient\SentientManager.h" +#include "StatsCounter.h" +#include "Orbis\Social\SocialManager.h" +#include "Orbis\Sentient\DynamicConfigurations.h" +#include +#endif + +#if !defined(__PS3__) && !defined(__ORBIS__) && !defined(__PSVITA__) +#ifdef _WINDOWS64 +//C4JStorage StorageManager; +C_4JProfile ProfileManager; +#endif +#endif // __PS3__ +CSentientManager SentientManager; +CXuiStringTable StringTable; + +#ifndef _XBOX_ONE +ATG::XMLParser::XMLParser() {} +ATG::XMLParser::~XMLParser() {} +HRESULT ATG::XMLParser::ParseXMLBuffer(CONST CHAR* strBuffer, UINT uBufferSize) { return S_OK; } +VOID ATG::XMLParser::RegisterSAXCallbackInterface(ISAXCallback* pISAXCallback) {} +#endif + +bool CSocialManager::IsTitleAllowedToPostAnything() { return false; } +bool CSocialManager::AreAllUsersAllowedToPostImages() { return false; } +bool CSocialManager::IsTitleAllowedToPostImages() { return false; } + +bool CSocialManager::PostLinkToSocialNetwork(ESocialNetwork eSocialNetwork, DWORD dwUserIndex, bool bUsingKinect) { return false; } +bool CSocialManager::PostImageToSocialNetwork(ESocialNetwork eSocialNetwork, DWORD dwUserIndex, bool bUsingKinect) { return false; } +CSocialManager* CSocialManager::Instance() { return nullptr; } +void CSocialManager::SetSocialPostText(LPCWSTR Title, LPCWSTR Caption, LPCWSTR Desc) {}; + +DWORD XShowPartyUI(DWORD dwUserIndex) { return 0; } +DWORD XShowFriendsUI(DWORD dwUserIndex) { return 0; } +HRESULT XPartyGetUserList(XPARTY_USER_LIST* pUserList) { return S_OK; } +DWORD XContentGetThumbnail(DWORD dwUserIndex, const XCONTENT_DATA* pContentData, PBYTE pbThumbnail, PDWORD pcbThumbnail, PXOVERLAPPED* pOverlapped) { return 0; } +void XShowAchievementsUI(int i) {} +DWORD XBackgroundDownloadSetMode(XBACKGROUND_DOWNLOAD_MODE Mode) { return 0; } + +#if !defined(_DURANGO) && !defined(_WIN64) +void PIXAddNamedCounter(int a, const char* b, ...) {} +//#define PS3_USE_PIX_EVENTS +//#define PS4_USE_PIX_EVENTS +void PIXBeginNamedEvent(int a, const char* b, ...) +{ +#ifdef PS4_USE_PIX_EVENTS + char buf[512]; + va_list args; + va_start(args, b); + vsprintf(buf, b, args); + sceRazorCpuPushMarker(buf, 0xffffffff, SCE_RAZOR_MARKER_ENABLE_HUD); + +#endif +#ifdef PS3_USE_PIX_EVENTS + char buf[256]; + wchar_t wbuf[256]; + va_list args; + va_start(args, b); + vsprintf(buf, b, args); + snPushMarker(buf); + + // mbstowcs(wbuf,buf,256); + // RenderManager.BeginEvent(wbuf); + va_end(args); +#endif +} +#if 0//__PSVITA__ +if (PixDepth < 64) +{ + char buf[512]; + va_list args; + va_start(args, b); + vsprintf(buf, b, args); + sceRazorCpuPushMarkerWithHud(buf, 0xffffffff, SCE_RAZOR_MARKER_ENABLE_HUD); +} +PixDepth += 1; +#endif + + +void PIXEndNamedEvent() +{ +#ifdef PS4_USE_PIX_EVENTS + sceRazorCpuPopMarker(); +#endif +#ifdef PS3_USE_PIX_EVENTS + snPopMarker(); + // RenderManager.EndEvent(); +#endif +#if 0//__PSVITA__ + if (PixDepth <= 64) + { + sceRazorCpuPopMarker(); + } + PixDepth -= 1; +#endif +} +void PIXSetMarkerDeprecated(int a, const char* b, ...) {} +#endif + +#if 0//__PSVITA__ +// 4J Stu - Removed this implementation in favour of a macro that will convert our string format +// conversion at compile time rather than at runtime +//void PIXBeginNamedEvent(int a, char *b, ...) +//{ +// char buf[256]; +// wchar_t wbuf[256]; +// va_list args; +// va_start(args,b); +// vsprintf(buf,b,args); +// +// mbstowcs(wbuf,buf,256); +// PIXBeginEvent(a,wbuf); +//} +// +//void PIXEndNamedEvent() +//{ +// PIXEndEvent(); +//} +// +//void PIXSetMarkerDeprecated(int a, char *b, ...) +//{ +// char buf[256]; +// wchar_t wbuf[256]; +// va_list args; +// va_start(args,b); +// vsprintf(buf,b,args); +// +// mbstowcs(wbuf,buf,256); +// PIXSetMarker(a, wbuf); +//} +#endif + +// void *D3DXBUFFER::GetBufferPointer() { return nullptr; } +// int D3DXBUFFER::GetBufferSize() { return 0; } +// void D3DXBUFFER::Release() {} + +// #ifdef _DURANGO +// void GetLocalTime(SYSTEMTIME *time) {} +// #endif + + +bool IsEqualXUID(PlayerUID a, PlayerUID b) +{ +#if defined(__PS3__) || defined(__ORBIS__) || defined (__PSVITA__) || defined(_DURANGO) + return (a == b); +#else + return false; +#endif +} + +void XMemCpy(void* a, const void* b, size_t s) { memcpy(a, b, s); } +void XMemSet(void* a, int t, size_t s) { memset(a, t, s); } +void XMemSet128(void* a, int t, size_t s) { memset(a, t, s); } +void* XPhysicalAlloc(SIZE_T a, ULONG_PTR b, ULONG_PTR c, DWORD d) { return malloc(a); } +void XPhysicalFree(void* a) { free(a); } + +D3DXVECTOR3::D3DXVECTOR3() {} +D3DXVECTOR3::D3DXVECTOR3(float x, float y, float z) : x(x), y(y), z(z) {} +D3DXVECTOR3& D3DXVECTOR3::operator += (CONST D3DXVECTOR3 & add) { x += add.x; y += add.y; z += add.z; return *this; } + +BYTE IQNetPlayer::GetSmallId() { return m_smallId; } +void IQNetPlayer::SendData(IQNetPlayer * player, const void* pvData, DWORD dwDataSize, DWORD dwFlags) +{ + if (WinsockNetLayer::IsActive()) + { + if (!WinsockNetLayer::IsHosting() && !m_isRemote) + { + SOCKET sock = WinsockNetLayer::GetLocalSocket(m_smallId); + if (sock != INVALID_SOCKET) + WinsockNetLayer::SendOnSocket(sock, pvData, dwDataSize); + } + else + { + WinsockNetLayer::SendToSmallId(player->m_smallId, pvData, dwDataSize); + } + } +} +bool IQNetPlayer::IsSameSystem(IQNetPlayer * player) { return (this == player) || (!m_isRemote && !player->m_isRemote); } +DWORD IQNetPlayer::GetSendQueueSize(IQNetPlayer * player, DWORD dwFlags) { return 0; } +DWORD IQNetPlayer::GetCurrentRtt() { return 0; } +bool IQNetPlayer::IsHost() { return m_isHostPlayer; } +bool IQNetPlayer::IsGuest() { return false; } +bool IQNetPlayer::IsLocal() { return !m_isRemote; } +PlayerUID IQNetPlayer::GetXuid() +{ + // Compatibility model: + // - Preferred path: use per-player resolved XUID populated from login/add-player flow. + // - Fallback path: keep legacy base+smallId behavior for peers/saves still on old scheme. + if (m_resolvedXuid != INVALID_XUID) + return m_resolvedXuid; + return (PlayerUID)(0xe000d45248242f2e + m_smallId); +} +LPCWSTR IQNetPlayer::GetGamertag() { return m_gamertag; } +int IQNetPlayer::GetSessionIndex() { return m_smallId; } +bool IQNetPlayer::IsTalking() { return false; } +bool IQNetPlayer::IsMutedByLocalUser(DWORD dwUserIndex) { return false; } +bool IQNetPlayer::HasVoice() { return false; } +bool IQNetPlayer::HasCamera() { return false; } +int IQNetPlayer::GetUserIndex() { return this - &IQNet::m_player[0]; } +void IQNetPlayer::SetCustomDataValue(ULONG_PTR ulpCustomDataValue) { + m_customData = ulpCustomDataValue; +} +ULONG_PTR IQNetPlayer::GetCustomDataValue() { + return m_customData; +} + +IQNetPlayer IQNet::m_player[MINECRAFT_NET_MAX_PLAYERS]; +DWORD IQNet::s_playerCount = 1; +bool IQNet::s_isHosting = true; + +QNET_STATE _iQNetStubState = QNET_STATE_IDLE; + +void Win64_SetupRemoteQNetPlayer(IQNetPlayer * player, BYTE smallId, bool isHost, bool isLocal) +{ + player->m_smallId = smallId; + player->m_isRemote = !isLocal; + player->m_isHostPlayer = isHost; + player->m_resolvedXuid = INVALID_XUID; + swprintf_s(player->m_gamertag, 32, L"Player%d", smallId); + if (smallId >= IQNet::s_playerCount) + IQNet::s_playerCount = smallId + 1; +} + +static bool Win64_IsActivePlayer(IQNetPlayer* p, DWORD index); + +HRESULT IQNet::AddLocalPlayerByUserIndex(DWORD dwUserIndex) { + if (dwUserIndex >= MINECRAFT_NET_MAX_PLAYERS) return E_FAIL; + m_player[dwUserIndex].m_isRemote = false; + m_player[dwUserIndex].m_isHostPlayer = false; + // Give the joining player a distinct gamertag + extern wchar_t g_Win64UsernameW[17]; + if (dwUserIndex == 0) + wcscpy_s(m_player[0].m_gamertag, 32, g_Win64UsernameW); + else + swprintf_s(m_player[dwUserIndex].m_gamertag, 32, L"%s(%d)", g_Win64UsernameW, dwUserIndex + 1); + if (dwUserIndex >= s_playerCount) + s_playerCount = dwUserIndex + 1; + return S_OK; +} +IQNetPlayer* IQNet::GetHostPlayer() { return &m_player[0]; } +IQNetPlayer* IQNet::GetLocalPlayerByUserIndex(DWORD dwUserIndex) +{ + if (s_isHosting) + { + if (dwUserIndex < MINECRAFT_NET_MAX_PLAYERS && + !m_player[dwUserIndex].m_isRemote && + Win64_IsActivePlayer(&m_player[dwUserIndex], dwUserIndex)) + return &m_player[dwUserIndex]; + return nullptr; + } + if (dwUserIndex == 0) + { + // Primary pad: use direct index when networking is active (smallId may not be 0) + if (WinsockNetLayer::IsActive()) + { + DWORD idx = WinsockNetLayer::GetLocalSmallId(); + if (idx < MINECRAFT_NET_MAX_PLAYERS && + !m_player[idx].m_isRemote && + Win64_IsActivePlayer(&m_player[idx], idx)) + return &m_player[idx]; + return nullptr; + } + // Offline: scan for first local player + for (DWORD i = 0; i < s_playerCount; i++) + { + if (!m_player[i].m_isRemote && Win64_IsActivePlayer(&m_player[i], i)) + return &m_player[i]; + } + return nullptr; + } + // Split-screen pads 1-3: the player is at m_player[dwUserIndex] with isRemote=false + if (dwUserIndex < MINECRAFT_NET_MAX_PLAYERS && + !m_player[dwUserIndex].m_isRemote && + Win64_IsActivePlayer(&m_player[dwUserIndex], dwUserIndex)) + return &m_player[dwUserIndex]; + return nullptr; +} +static bool Win64_IsActivePlayer(IQNetPlayer * p, DWORD index) +{ + if (index == 0) return true; + return (p->GetCustomDataValue() != 0); +} + +IQNetPlayer* IQNet::GetPlayerByIndex(DWORD dwPlayerIndex) +{ + DWORD found = 0; + for (DWORD i = 0; i < s_playerCount; i++) + { + if (Win64_IsActivePlayer(&m_player[i], i)) + { + if (found == dwPlayerIndex) return &m_player[i]; + found++; + } + } + return &m_player[0]; +} +IQNetPlayer* IQNet::GetPlayerBySmallId(BYTE SmallId) +{ + for (DWORD i = 0; i < s_playerCount; i++) + { + if (m_player[i].m_smallId == SmallId && Win64_IsActivePlayer(&m_player[i], i)) return &m_player[i]; + } + return nullptr; +} +IQNetPlayer* IQNet::GetPlayerByXuid(PlayerUID xuid) +{ + for (DWORD i = 0; i < s_playerCount; i++) + { + if (!Win64_IsActivePlayer(&m_player[i], i)) + continue; + + if (m_player[i].GetXuid() == xuid) + return &m_player[i]; + } + // Keep existing stub behavior: return host slot instead of nullptr on miss. + return &m_player[0]; +} +DWORD IQNet::GetPlayerCount() +{ + DWORD count = 0; + for (DWORD i = 0; i < s_playerCount; i++) + { + if (Win64_IsActivePlayer(&m_player[i], i)) count++; + } + return count; +} +QNET_STATE IQNet::GetState() { return _iQNetStubState; } +bool IQNet::IsHost() { return s_isHosting; } +HRESULT IQNet::JoinGameFromInviteInfo(DWORD dwUserIndex, DWORD dwUserMask, const INVITE_INFO * pInviteInfo) { return S_OK; } +void IQNet::HostGame() +{ + _iQNetStubState = QNET_STATE_SESSION_STARTING; + s_isHosting = true; + // Host slot keeps legacy XUID so old host player data remains addressable. + m_player[0].m_resolvedXuid = Win64Xuid::GetLegacyEmbeddedHostXuid(); +} +void IQNet::ClientJoinGame() +{ + _iQNetStubState = QNET_STATE_SESSION_STARTING; + s_isHosting = false; + + for (int i = 0; i < MINECRAFT_NET_MAX_PLAYERS; i++) + { + m_player[i].m_smallId = static_cast(i); + m_player[i].m_isRemote = true; + m_player[i].m_isHostPlayer = false; + m_player[i].m_resolvedXuid = INVALID_XUID; + m_player[i].m_gamertag[0] = 0; + m_player[i].SetCustomDataValue(0); + } +} +void IQNet::EndGame() +{ + _iQNetStubState = QNET_STATE_IDLE; + s_isHosting = false; + s_playerCount = 1; + for (int i = 0; i < MINECRAFT_NET_MAX_PLAYERS; i++) + { + m_player[i].m_smallId = static_cast(i); + m_player[i].m_isRemote = false; + m_player[i].m_isHostPlayer = false; + m_player[i].m_resolvedXuid = INVALID_XUID; + m_player[i].m_gamertag[0] = 0; + m_player[i].SetCustomDataValue(0); + } + // Restore local player 0's gamertag so re-joining works correctly + extern wchar_t g_Win64UsernameW[17]; + m_player[0].m_isHostPlayer = true; + wcscpy_s(m_player[0].m_gamertag, 32, g_Win64UsernameW); +} + +DWORD MinecraftDynamicConfigurations::GetTrialTime() { return DYNAMIC_CONFIG_DEFAULT_TRIAL_TIME; } + +void XSetThreadProcessor(HANDLE a, int b) {} +// #if !(defined __PS3__) && !(defined __ORBIS__) +// BOOL XCloseHandle(HANDLE a) { return CloseHandle(a); } +// #endif // __PS3__ + +DWORD XUserGetSigninInfo( + DWORD dwUserIndex, + DWORD dwFlags, + PXUSER_SIGNIN_INFO pSigninInfo +) +{ + return 0; +} + +LPCWSTR CXuiStringTable::Lookup(LPCWSTR szId) { return szId; } +LPCWSTR CXuiStringTable::Lookup(UINT nIndex) { return L"String"; } +void CXuiStringTable::Clear() {} +HRESULT CXuiStringTable::Load(LPCWSTR szId) { return S_OK; } + +DWORD XUserAreUsersFriends(DWORD dwUserIndex, PPlayerUID pXuids, DWORD dwXuidCount, PBOOL pfResult, void* pOverlapped) { return 0; } + +#if defined __ORBIS__ || defined __PS3__ || defined _XBOX_ONE +#else +HRESULT XMemDecompress( + XMEMDECOMPRESSION_CONTEXT Context, + VOID * pDestination, + SIZE_T * pDestSize, + CONST VOID * pSource, + SIZE_T SrcSize +) +{ + memcpy(pDestination, pSource, SrcSize); + *pDestSize = SrcSize; + return S_OK; + + /* + DECOMPRESSOR_HANDLE Decompressor = (DECOMPRESSOR_HANDLE)Context; + if( Decompress( + Decompressor, // Decompressor handle + (void *)pSource, // Compressed data + SrcSize, // Compressed data size + pDestination, // Decompressed buffer + *pDestSize, // Decompressed buffer size + pDestSize) ) // Decompressed data size + { + return S_OK; + } + else + */ + { + return E_FAIL; + } +} + +HRESULT XMemCompress( + XMEMCOMPRESSION_CONTEXT Context, + VOID * pDestination, + SIZE_T * pDestSize, + CONST VOID * pSource, + SIZE_T SrcSize +) +{ + memcpy(pDestination, pSource, SrcSize); + *pDestSize = SrcSize; + return S_OK; + + /* + COMPRESSOR_HANDLE Compressor = (COMPRESSOR_HANDLE)Context; + if( Compress( + Compressor, // Compressor Handle + (void *)pSource, // Input buffer, Uncompressed data + SrcSize, // Uncompressed data size + pDestination, // Compressed Buffer + *pDestSize, // Compressed Buffer size + pDestSize) ) // Compressed Data size + { + return S_OK; + } + else + */ + { + return E_FAIL; + } +} + +HRESULT XMemCreateCompressionContext( + XMEMCODEC_TYPE CodecType, + CONST VOID * pCodecParams, + DWORD Flags, + XMEMCOMPRESSION_CONTEXT * pContext +) +{ + /* + COMPRESSOR_HANDLE Compressor = nullptr; + + HRESULT hr = CreateCompressor( + COMPRESS_ALGORITHM_XPRESS_HUFF, // Compression Algorithm + nullptr, // Optional allocation routine + &Compressor); // Handle + + pContext = (XMEMDECOMPRESSION_CONTEXT *)Compressor; + return hr; + */ + return 0; +} + +HRESULT XMemCreateDecompressionContext( + XMEMCODEC_TYPE CodecType, + CONST VOID * pCodecParams, + DWORD Flags, + XMEMDECOMPRESSION_CONTEXT * pContext +) +{ + /* + DECOMPRESSOR_HANDLE Decompressor = nullptr; + + HRESULT hr = CreateDecompressor( + COMPRESS_ALGORITHM_XPRESS_HUFF, // Compression Algorithm + nullptr, // Optional allocation routine + &Decompressor); // Handle + + pContext = (XMEMDECOMPRESSION_CONTEXT *)Decompressor; + return hr; + */ + return 0; +} + +void XMemDestroyCompressionContext(XMEMCOMPRESSION_CONTEXT Context) +{ + // COMPRESSOR_HANDLE Compressor = (COMPRESSOR_HANDLE)Context; + // CloseCompressor(Compressor); +} + +void XMemDestroyDecompressionContext(XMEMDECOMPRESSION_CONTEXT Context) +{ + // DECOMPRESSOR_HANDLE Decompressor = (DECOMPRESSOR_HANDLE)Context; + // CloseDecompressor(Decompressor); +} +#endif + +//#ifndef __PS3__ +#if !(defined _DURANGO || defined __PS3__ || defined __ORBIS__ || defined __PSVITA__) +DWORD XGetLanguage() { return 1; } +DWORD XGetLocale() { return 0; } +DWORD XEnableGuestSignin(BOOL fEnable) { return 0; } +#endif + + + +/////////////////////////////////////////////// Profile library +#ifdef _WINDOWS64 +static void* profileData[4]; +static bool s_bProfileIsFullVersion; +void C_4JProfile::Initialise(DWORD dwTitleID, + DWORD dwOfferID, + unsigned short usProfileVersion, + UINT uiProfileValuesC, + UINT uiProfileSettingsC, + DWORD * pdwProfileSettingsA, + int iGameDefinedDataSizeX4, + unsigned int* puiGameDefinedDataChangedBitmask) +{ + for (int i = 0; i < 4; i++) + { + profileData[i] = new byte[iGameDefinedDataSizeX4 / 4]; + ZeroMemory(profileData[i], sizeof(byte) * iGameDefinedDataSizeX4 / 4); + + // Set some sane initial values! + GAME_SETTINGS* pGameSettings = static_cast(profileData[i]); + pGameSettings->ucMenuSensitivity = 100; //eGameSetting_Sensitivity_InMenu + pGameSettings->ucInterfaceOpacity = 80; //eGameSetting_Sensitivity_InMenu + pGameSettings->usBitmaskValues |= 0x0200; //eGameSetting_DisplaySplitscreenGamertags - on + pGameSettings->usBitmaskValues |= 0x0400; //eGameSetting_Hints - on + pGameSettings->usBitmaskValues |= 0x1000; //eGameSetting_Autosave - 2 + pGameSettings->usBitmaskValues |= 0x8000; //eGameSetting_Tooltips - on + pGameSettings->uiBitmaskValues = 0L; // reset + pGameSettings->uiBitmaskValues |= GAMESETTING_CLOUDS; //eGameSetting_Clouds - on + pGameSettings->uiBitmaskValues |= GAMESETTING_ONLINE; //eGameSetting_GameSetting_Online - on + pGameSettings->uiBitmaskValues |= GAMESETTING_FRIENDSOFFRIENDS; //eGameSetting_GameSetting_FriendsOfFriends - on + pGameSettings->uiBitmaskValues |= GAMESETTING_DISPLAYUPDATEMSG; //eGameSetting_DisplayUpdateMessage (counter) + pGameSettings->uiBitmaskValues &= ~GAMESETTING_BEDROCKFOG; //eGameSetting_BedrockFog - off + pGameSettings->uiBitmaskValues |= GAMESETTING_DISPLAYHUD; //eGameSetting_DisplayHUD - on + pGameSettings->uiBitmaskValues |= GAMESETTING_DISPLAYHAND; //eGameSetting_DisplayHand - on + pGameSettings->uiBitmaskValues |= GAMESETTING_CUSTOMSKINANIM; //eGameSetting_CustomSkinAnim - on + pGameSettings->uiBitmaskValues |= GAMESETTING_DEATHMESSAGES; //eGameSetting_DeathMessages - on + pGameSettings->uiBitmaskValues |= (GAMESETTING_UISIZE & 0x00000800); // uisize 2 + pGameSettings->uiBitmaskValues |= (GAMESETTING_UISIZE_SPLITSCREEN & 0x00004000); // splitscreen ui size 3 + pGameSettings->uiBitmaskValues |= GAMESETTING_ANIMATEDCHARACTER; //eGameSetting_AnimatedCharacter - on + + // TU12 + // favorite skins added, but only set in TU12 - set to FFs + for (int i = 0; i < MAX_FAVORITE_SKINS; i++) + { + pGameSettings->uiFavoriteSkinA[i] = 0xFFFFFFFF; + } + pGameSettings->ucCurrentFavoriteSkinPos = 0; + // Added a bitmask in TU13 to enable/disable display of the Mash-up pack worlds in the saves list + pGameSettings->uiMashUpPackWorldsDisplay = 0xFFFFFFFF; + + // PS3DEC13 + pGameSettings->uiBitmaskValues &= ~GAMESETTING_PS3EULAREAD; //eGameSetting_PS3_EULA_Read - off + + // PS3 1.05 - added Greek + pGameSettings->ucLanguage = MINECRAFT_LANGUAGE_DEFAULT; // use the system language + + // PS Vita - network mode added + pGameSettings->uiBitmaskValues &= ~GAMESETTING_PSVITANETWORKMODEADHOC; //eGameSetting_PSVita_NetworkModeAdhoc - off + + + // Tutorials for most menus, and a few other things + pGameSettings->ucTutorialCompletion[0] = 0xFF; + pGameSettings->ucTutorialCompletion[1] = 0xFF; + pGameSettings->ucTutorialCompletion[2] = 0xF; + + // Has gone halfway through the tutorial + pGameSettings->ucTutorialCompletion[28] |= 1 << 0; + } +} +void C_4JProfile::SetTrialTextStringTable(CXuiStringTable * pStringTable, int iAccept, int iReject) {} +void C_4JProfile::SetTrialAwardText(eAwardType AwardType, int iTitle, int iText) {} +int C_4JProfile::GetLockedProfile() { return 0; } +void C_4JProfile::SetLockedProfile(int iProf) {} +bool C_4JProfile::IsSignedIn(int iQuadrant) { return (iQuadrant == 0) || InputManager.IsPadConnected(iQuadrant); } +bool C_4JProfile::IsSignedInLive(int iProf) { return true; } +bool C_4JProfile::IsGuest(int iQuadrant) { return false; } +UINT C_4JProfile::RequestSignInUI(bool bFromInvite, bool bLocalGame, bool bNoGuestsAllowed, bool bMultiplayerSignIn, bool bAddUser, int(*Func)(LPVOID, const bool, const int iPad), LPVOID lpParam, int iQuadrant) { return 0; } +UINT C_4JProfile::DisplayOfflineProfile(int(*Func)(LPVOID, const bool, const int iPad), LPVOID lpParam, int iQuadrant) { return 0; } +UINT C_4JProfile::RequestConvertOfflineToGuestUI(int(*Func)(LPVOID, const bool, const int iPad), LPVOID lpParam, int iQuadrant) { return 0; } +void C_4JProfile::SetPrimaryPlayerChanged(bool bVal) {} +bool C_4JProfile::QuerySigninStatus(void) { return true; } +void C_4JProfile::GetXUID(int iPad, PlayerUID * pXuid, bool bOnlineXuid) +{ +#ifdef _WINDOWS64 + // Each pad gets a unique XUID derived from the persistent uid.dat value. + // Pad 0 uses the base XUID directly. Pads 1-3 get a deterministic hash + // of (base + pad) to produce fully independent IDs with no overlap risk. + *pXuid = Win64Xuid::DeriveXuidForPad(Win64Xuid::ResolvePersistentXuid(), iPad); +#else + * pXuid = 0xe000d45248242f2e + iPad; +#endif +} +BOOL C_4JProfile::AreXUIDSEqual(PlayerUID xuid1, PlayerUID xuid2) { return xuid1 == xuid2; } +BOOL C_4JProfile::XUIDIsGuest(PlayerUID xuid) { return false; } +bool C_4JProfile::AllowedToPlayMultiplayer(int iProf) { return true; } + +#if defined(__ORBIS__) +bool C_4JProfile::GetChatAndContentRestrictions(int iPad, bool thisQuadrantOnly, bool* pbChatRestricted, bool* pbContentRestricted, int* piAge) +{ + if (pbChatRestricted) *pbChatRestricted = false; + if (pbContentRestricted) *pbContentRestricted = false; + if (piAge) *piAge = 100; + return true; +} +#endif + +void C_4JProfile::StartTrialGame() {} +void C_4JProfile::AllowedPlayerCreatedContent(int iPad, bool thisQuadrantOnly, BOOL * allAllowed, BOOL * friendsAllowed) {} +BOOL C_4JProfile::CanViewPlayerCreatedContent(int iPad, bool thisQuadrantOnly, PPlayerUID pXuids, DWORD dwXuidCount) { return true; } +bool C_4JProfile::GetProfileAvatar(int iPad, int(*Func)(LPVOID lpParam, PBYTE pbThumbnail, DWORD dwThumbnailBytes), LPVOID lpParam) { return false; } +void C_4JProfile::CancelProfileAvatarRequest() {} +int C_4JProfile::GetPrimaryPad() { return 0; } +void C_4JProfile::SetPrimaryPad(int iPad) {} +#ifdef _DURANGO +char fakeGamerTag[32] = "PlayerName"; +void SetFakeGamertag(char* name) { strcpy_s(fakeGamerTag, name); } +#else +char* C_4JProfile::GetGamertag(int iPad) { + extern char g_Win64Username[17]; + if (iPad > 0 && iPad < XUSER_MAX_COUNT && IQNet::m_player[iPad].m_gamertag[0] != 0 && + !IQNet::m_player[iPad].m_isRemote) + { + static char s_padGamertag[XUSER_MAX_COUNT][17]; + WideCharToMultiByte(CP_ACP, 0, IQNet::m_player[iPad].m_gamertag, -1, s_padGamertag[iPad], 17, nullptr, nullptr); + return s_padGamertag[iPad]; + } + return g_Win64Username; +} +wstring C_4JProfile::GetDisplayName(int iPad) { + extern wchar_t g_Win64UsernameW[17]; + if (iPad > 0 && iPad < XUSER_MAX_COUNT && IQNet::m_player[iPad].m_gamertag[0] != 0 && + !IQNet::m_player[iPad].m_isRemote) + return IQNet::m_player[iPad].m_gamertag; + return g_Win64UsernameW; +} +#endif +bool C_4JProfile::IsFullVersion() { return s_bProfileIsFullVersion; } +void C_4JProfile::SetSignInChangeCallback(void (*Func)(LPVOID, bool, unsigned int), LPVOID lpParam) {} +void C_4JProfile::SetNotificationsCallback(void (*Func)(LPVOID, DWORD, unsigned int), LPVOID lpParam) {} +bool C_4JProfile::RegionIsNorthAmerica(void) { return false; } +bool C_4JProfile::LocaleIsUSorCanada(void) { return false; } +HRESULT C_4JProfile::GetLiveConnectionStatus() { return S_OK; } +bool C_4JProfile::IsSystemUIDisplayed() { return false; } +void C_4JProfile::SetProfileReadErrorCallback(void (*Func)(LPVOID), LPVOID lpParam) {} +int(*defaultOptionsCallback)(LPVOID, C_4JProfile::PROFILESETTINGS*, const int iPad) = nullptr; +LPVOID lpProfileParam = nullptr; +int C_4JProfile::SetDefaultOptionsCallback(int(*Func)(LPVOID, PROFILESETTINGS*, const int iPad), LPVOID lpParam) +{ + defaultOptionsCallback = Func; + lpProfileParam = lpParam; + return 0; +} +int C_4JProfile::SetOldProfileVersionCallback(int(*Func)(LPVOID, unsigned char*, const unsigned short, const int), LPVOID lpParam) { return 0; } + +// To store the dashboard preferences for controller flipped, etc. +C_4JProfile::PROFILESETTINGS ProfileSettingsA[XUSER_MAX_COUNT]; + +C_4JProfile::PROFILESETTINGS* C_4JProfile::GetDashboardProfileSettings(int iPad) { return &ProfileSettingsA[iPad]; } +void C_4JProfile::WriteToProfile(int iQuadrant, bool bGameDefinedDataChanged, bool bOverride5MinuteLimitOnProfileWrites) {} +void C_4JProfile::ForceQueuedProfileWrites(int iPad) {} +void* C_4JProfile::GetGameDefinedProfileData(int iQuadrant) +{ + // 4J Stu - Don't reset the options when we call this!! + //defaultOptionsCallback(lpProfileParam, (C_4JProfile::PROFILESETTINGS *)profileData[iQuadrant], iQuadrant); + //pApp->SetDefaultOptions(pSettings,iPad); + + return profileData[iQuadrant]; +} +void C_4JProfile::ResetProfileProcessState() {} +void C_4JProfile::Tick(void) {} +void C_4JProfile::RegisterAward(int iAwardNumber, int iGamerconfigID, eAwardType eType, bool bLeaderboardAffected, + CXuiStringTable * pStringTable, int iTitleStr, int iTextStr, int iAcceptStr, char* pszThemeName, unsigned int ulThemeSize) { +} +int C_4JProfile::GetAwardId(int iAwardNumber) { return 0; } +eAwardType C_4JProfile::GetAwardType(int iAwardNumber) { return eAwardType_Achievement; } +bool C_4JProfile::CanBeAwarded(int iQuadrant, int iAwardNumber) { return false; } +void C_4JProfile::Award(int iQuadrant, int iAwardNumber, bool bForce) {} +bool C_4JProfile::IsAwardsFlagSet(int iQuadrant, int iAward) { return false; } +void C_4JProfile::RichPresenceInit(int iPresenceCount, int iContextCount) {} +void C_4JProfile::RegisterRichPresenceContext(int iGameConfigContextID) {} +void C_4JProfile::SetRichPresenceContextValue(int iPad, int iContextID, int iVal) {} +void C_4JProfile::SetCurrentGameActivity(int iPad, int iNewPresence, bool bSetOthersToIdle) {} +void C_4JProfile::DisplayFullVersionPurchase(bool bRequired, int iQuadrant, int iUpsellParam) {} +void C_4JProfile::SetUpsellCallback(void (*Func)(LPVOID lpParam, eUpsellType type, eUpsellResponse response, int iUserData), LPVOID lpParam) {} +void C_4JProfile::SetDebugFullOverride(bool bVal) { s_bProfileIsFullVersion = bVal; } +void C_4JProfile::ShowProfileCard(int iPad, PlayerUID targetUid) {} + +/////////////////////////////////////////////// Storage library +//#ifdef _WINDOWS64 +#if 0 +C4JStorage::C4JStorage() {} +void C4JStorage::Tick() {} +C4JStorage::EMessageResult C4JStorage::RequestMessageBox(UINT uiTitle, UINT uiText, UINT * uiOptionA, UINT uiOptionC, DWORD dwPad, int(*Func)(LPVOID, int, const C4JStorage::EMessageResult), LPVOID lpParam, C4JStringTable * pStringTable, WCHAR * pwchFormatString, DWORD dwFocusButton) { return C4JStorage::EMessage_Undefined; } +C4JStorage::EMessageResult C4JStorage::GetMessageBoxResult() { return C4JStorage::EMessage_Undefined; } +bool C4JStorage::SetSaveDevice(int(*Func)(LPVOID, const bool), LPVOID lpParam, bool bForceResetOfSaveDevice) { return true; } +void C4JStorage::Init(LPCWSTR pwchDefaultSaveName, char* pszSavePackName, int iMinimumSaveSize, int(*Func)(LPVOID, const ESavingMessage, int), LPVOID lpParam) {} +void C4JStorage::ResetSaveData() {} +void C4JStorage::SetDefaultSaveNameForKeyboardDisplay(LPCWSTR pwchDefaultSaveName) {} +void C4JStorage::SetSaveTitle(LPCWSTR pwchDefaultSaveName) {} +LPCWSTR C4JStorage::GetSaveTitle() { return L""; } +bool C4JStorage::GetSaveUniqueNumber(INT * piVal) { return true; } +bool C4JStorage::GetSaveUniqueFilename(char* pszName) { return true; } +void C4JStorage::SetSaveUniqueFilename(char* szFilename) {} +void C4JStorage::SetState(ESaveGameControlState eControlState, int(*Func)(LPVOID, const bool), LPVOID lpParam) {} +void C4JStorage::SetSaveDisabled(bool bDisable) {} +bool C4JStorage::GetSaveDisabled(void) { return false; } +unsigned int C4JStorage::GetSaveSize() { return 0; } +void C4JStorage::GetSaveData(void* pvData, unsigned int* pulBytes) {} +PVOID C4JStorage::AllocateSaveData(unsigned int ulBytes) { return new char[ulBytes]; } +void C4JStorage::SaveSaveData(unsigned int ulBytes, PBYTE pbThumbnail, DWORD cbThumbnail, PBYTE pbTextData, DWORD dwTextLen) {} +void C4JStorage::CopySaveDataToNewSave(PBYTE pbThumbnail, DWORD cbThumbnail, WCHAR * wchNewName, int (*Func)(LPVOID lpParam, bool), LPVOID lpParam) {} +void C4JStorage::SetSaveDeviceSelected(unsigned int uiPad, bool bSelected) {} +bool C4JStorage::GetSaveDeviceSelected(unsigned int iPad) { return true; } +C4JStorage::ELoadGameStatus C4JStorage::DoesSaveExist(bool* pbExists) { return C4JStorage::ELoadGame_Idle; } +bool C4JStorage::EnoughSpaceForAMinSaveGame() { return true; } +void C4JStorage::SetSaveMessageVPosition(float fY) {} +//C4JStorage::ESGIStatus C4JStorage::GetSavesInfo(int iPad,bool ( *Func)(LPVOID, int, CACHEINFOSTRUCT *, int, HRESULT),LPVOID lpParam,char *pszSavePackName) { return C4JStorage::ESGIStatus_Idle; } +C4JStorage::ESaveGameState C4JStorage::GetSavesInfo(int iPad, int (*Func)(LPVOID lpParam, SAVE_DETAILS * pSaveDetails, const bool), LPVOID lpParam, char* pszSavePackName) { return C4JStorage::ESaveGame_Idle; } + +void C4JStorage::GetSaveCacheFileInfo(DWORD dwFile, XCONTENT_DATA & xContentData) {} +void C4JStorage::GetSaveCacheFileInfo(DWORD dwFile, PBYTE * ppbImageData, DWORD * pdwImageBytes) {} +C4JStorage::ESaveGameState C4JStorage::LoadSaveData(PSAVE_INFO pSaveInfo, int(*Func)(LPVOID lpParam, const bool, const bool), LPVOID lpParam) { return C4JStorage::ESaveGame_Idle; } +C4JStorage::EDeleteGameStatus C4JStorage::DeleteSaveData(PSAVE_INFO pSaveInfo, int(*Func)(LPVOID lpParam, const bool), LPVOID lpParam) { return C4JStorage::EDeleteGame_Idle; } +PSAVE_DETAILS C4JStorage::ReturnSavesInfo() { return nullptr; } + +void C4JStorage::RegisterMarketplaceCountsCallback(int (*Func)(LPVOID lpParam, C4JStorage::DLC_TMS_DETAILS*, int), LPVOID lpParam) {} +void C4JStorage::SetDLCPackageRoot(char* pszDLCRoot) {} +C4JStorage::EDLCStatus C4JStorage::GetDLCOffers(int iPad, int(*Func)(LPVOID, int, DWORD, int), LPVOID lpParam, DWORD dwOfferTypesBitmaskT) { return C4JStorage::EDLC_Idle; } +DWORD C4JStorage::CancelGetDLCOffers() { return 0; } +void C4JStorage::ClearDLCOffers() {} +XMARKETPLACE_CONTENTOFFER_INFO& C4JStorage::GetOffer(DWORD dw) { static XMARKETPLACE_CONTENTOFFER_INFO retval = { 0 }; return retval; } +int C4JStorage::GetOfferCount() { return 0; } +DWORD C4JStorage::InstallOffer(int iOfferIDC, ULONGLONG * ullOfferIDA, int(*Func)(LPVOID, int, int), LPVOID lpParam, bool bTrial) { return 0; } +DWORD C4JStorage::GetAvailableDLCCount(int iPad) { return 0; } +XCONTENT_DATA& C4JStorage::GetDLC(DWORD dw) { static XCONTENT_DATA retval = { 0 }; return retval; } +C4JStorage::EDLCStatus C4JStorage::GetInstalledDLC(int iPad, int(*Func)(LPVOID, int, int), LPVOID lpParam) { return C4JStorage::EDLC_Idle; } +DWORD C4JStorage::MountInstalledDLC(int iPad, DWORD dwDLC, int(*Func)(LPVOID, int, DWORD, DWORD), LPVOID lpParam, LPCSTR szMountDrive) { return 0; } +DWORD C4JStorage::UnmountInstalledDLC(LPCSTR szMountDrive) { return 0; } +C4JStorage::ETMSStatus C4JStorage::ReadTMSFile(int iQuadrant, eGlobalStorage eStorageFacility, C4JStorage::eTMS_FileType eFileType, WCHAR * pwchFilename, BYTE * *ppBuffer, DWORD * pdwBufferSize, int(*Func)(LPVOID, WCHAR*, int, bool, int), LPVOID lpParam, int iAction) { return C4JStorage::ETMSStatus_Idle; } +bool C4JStorage::WriteTMSFile(int iQuadrant, eGlobalStorage eStorageFacility, WCHAR * pwchFilename, BYTE * pBuffer, DWORD dwBufferSize) { return true; } +bool C4JStorage::DeleteTMSFile(int iQuadrant, eGlobalStorage eStorageFacility, WCHAR * pwchFilename) { return true; } +void C4JStorage::StoreTMSPathName(WCHAR * pwchName) {} +unsigned int C4JStorage::CRC(unsigned char* buf, int len) { return 0; } + +struct PTMSPP_FILEDATA; +C4JStorage::ETMSStatus C4JStorage::TMSPP_ReadFile(int iPad, C4JStorage::eGlobalStorage eStorageFacility, C4JStorage::eTMS_FILETYPEVAL eFileTypeVal, LPCSTR szFilename, int(*Func)(LPVOID, int, int, PTMSPP_FILEDATA, LPCSTR)/*=nullptr*/, LPVOID lpParam/*=nullptr*/, int iUserData/*=0*/) { return C4JStorage::ETMSStatus_Idle; } +#endif // _WINDOWS64 + +#endif // __PS3__ + +/////////////////////////////////////////////////////// Sentient manager + +HRESULT CSentientManager::Init() { return S_OK; } +HRESULT CSentientManager::Tick() { return S_OK; } +HRESULT CSentientManager::Flush() { return S_OK; } +BOOL CSentientManager::RecordPlayerSessionStart(DWORD dwUserId) { return true; } +BOOL CSentientManager::RecordPlayerSessionExit(DWORD dwUserId, int exitStatus) { return true; } +BOOL CSentientManager::RecordHeartBeat(DWORD dwUserId) { return true; } +BOOL CSentientManager::RecordLevelStart(DWORD dwUserId, ESen_FriendOrMatch friendsOrMatch, ESen_CompeteOrCoop competeOrCoop, int difficulty, DWORD numberOfLocalPlayers, DWORD numberOfOnlinePlayers) { return true; } +BOOL CSentientManager::RecordLevelExit(DWORD dwUserId, ESen_LevelExitStatus levelExitStatus) { return true; } +BOOL CSentientManager::RecordLevelSaveOrCheckpoint(DWORD dwUserId, INT saveOrCheckPointID, INT saveSizeInBytes) { return true; } +BOOL CSentientManager::RecordLevelResume(DWORD dwUserId, ESen_FriendOrMatch friendsOrMatch, ESen_CompeteOrCoop competeOrCoop, int difficulty, DWORD numberOfLocalPlayers, DWORD numberOfOnlinePlayers, INT saveOrCheckPointID) { return true; } +BOOL CSentientManager::RecordPauseOrInactive(DWORD dwUserId) { return true; } +BOOL CSentientManager::RecordUnpauseOrActive(DWORD dwUserId) { return true; } +BOOL CSentientManager::RecordMenuShown(DWORD dwUserId, INT menuID, INT optionalMenuSubID) { return true; } +BOOL CSentientManager::RecordAchievementUnlocked(DWORD dwUserId, INT achievementID, INT achievementGamerscore) { return true; } +BOOL CSentientManager::RecordMediaShareUpload(DWORD dwUserId, ESen_MediaDestination mediaDestination, ESen_MediaType mediaType) { return true; } +BOOL CSentientManager::RecordUpsellPresented(DWORD dwUserId, ESen_UpsellID upsellId, INT marketplaceOfferID) { return true; } +BOOL CSentientManager::RecordUpsellResponded(DWORD dwUserId, ESen_UpsellID upsellId, INT marketplaceOfferID, ESen_UpsellOutcome upsellOutcome) { return true; } +BOOL CSentientManager::RecordPlayerDiedOrFailed(DWORD dwUserId, INT lowResMapX, INT lowResMapY, INT lowResMapZ, INT mapID, INT playerWeaponID, INT enemyWeaponID, ETelemetryChallenges enemyTypeID) { return true; } +BOOL CSentientManager::RecordEnemyKilledOrOvercome(DWORD dwUserId, INT lowResMapX, INT lowResMapY, INT lowResMapZ, INT mapID, INT playerWeaponID, INT enemyWeaponID, ETelemetryChallenges enemyTypeID) { return true; } +BOOL CSentientManager::RecordSkinChanged(DWORD dwUserId, DWORD dwSkinId) { return true; } +BOOL CSentientManager::RecordBanLevel(DWORD dwUserId) { return true; } +BOOL CSentientManager::RecordUnBanLevel(DWORD dwUserId) { return true; } +INT CSentientManager::GetMultiplayerInstanceID() { return 0; } +INT CSentientManager::GenerateMultiplayerInstanceId() { return 0; } +void CSentientManager::SetMultiplayerInstanceId(INT value) {} + +//////////////////////////////////////////////////////// Stats counter + +/* +StatsCounter::StatsCounter() {} +void StatsCounter::award(Stat *stat, unsigned int difficulty, unsigned int count) {} +bool StatsCounter::hasTaken(Achievement *ach) { return true; } +bool StatsCounter::canTake(Achievement *ach) { return true; } +unsigned int StatsCounter::getValue(Stat *stat, unsigned int difficulty) { return 0; } +unsigned int StatsCounter::getTotalValue(Stat *stat) { return 0; } +void StatsCounter::tick(int player) {} +void StatsCounter::parse(void* data) {} +void StatsCounter::clear() {} +void StatsCounter::save(int player, bool force) {} +void StatsCounter::flushLeaderboards() {} +void StatsCounter::saveLeaderboards() {} +void StatsCounter::setupStatBoards() {} +#ifdef _DEBUG +void StatsCounter::WipeLeaderboards() {} +#endif +*/ diff --git a/Minecraft.Client/FileTexturePack.cpp b/Minecraft.Client/FileTexturePack.cpp new file mode 100644 index 0000000..711f673 --- /dev/null +++ b/Minecraft.Client/FileTexturePack.cpp @@ -0,0 +1,86 @@ +#include "stdafx.h" +#include "FileTexturePack.h" + +FileTexturePack::FileTexturePack(DWORD id, File *file, TexturePack *fallback) : AbstractTexturePack(id, file, file->getName(), fallback) +{ + // 4J Stu - These calls need to be in the most derived version of the class + loadIcon(); + loadName(); + loadDescription(); +} + +void FileTexturePack::unload(Textures *textures) +{ +#if 0 + super.unload(textures); + + try { + if (zipFile != null) zipFile.close(); + } + catch (IOException ignored) + { + } + zipFile = null; +#endif +} + +InputStream *FileTexturePack::getResourceImplementation(const wstring &name) //throws IOException +{ +#if 0 + loadZipFile(); + + ZipEntry entry = zipFile.getEntry(name.substring(1)); + if (entry == null) { + throw new FileNotFoundException(name); + } + + return zipFile.getInputStream(entry); +#endif + return nullptr; +} + +bool FileTexturePack::hasFile(const wstring &name) +{ +#if 0 + try { + loadZipFile(); + + return zipFile.getEntry(name.substring(1)) != null; + } catch (Exception e) { + return false; + } +#endif + return false; +} + +void FileTexturePack::loadZipFile() //throws IOException +{ +#if 0 + if (zipFile != null) { + return; + } + + zipFile = new ZipFile(file); +#endif +} + +bool FileTexturePack::isTerrainUpdateCompatible() +{ +#if 0 + try { + loadZipFile(); + + Enumeration entries = zipFile.entries(); + while (entries.hasMoreElements()) { + ZipEntry entry = entries.nextElement(); + if (entry.getName().startsWith("textures/")) { + return true; + } + } + } catch (Exception ignored) { + } + boolean hasOldFiles = hasFile("terrain.png") || hasFile("gui/items.png"); + return !hasOldFiles; +#endif + return false; +} \ No newline at end of file diff --git a/Minecraft.Client/FileTexturePack.h b/Minecraft.Client/FileTexturePack.h new file mode 100644 index 0000000..85221d1 --- /dev/null +++ b/Minecraft.Client/FileTexturePack.h @@ -0,0 +1,32 @@ +#pragma once +#include "AbstractTexturePack.h" +//class ZipFile; +class BufferedImage; +class File; +class Textures; +using namespace std; + +class FileTexturePack : public AbstractTexturePack +{ +private: + //ZipFile *zipFile; + +public: + FileTexturePack(DWORD id, File *file, TexturePack *fallback); + + //@Override + void unload(Textures *textures); + +protected: + InputStream *getResourceImplementation(const wstring &name); //throws IOException + +public: + //@Override + bool hasFile(const wstring &name); + +private: + void loadZipFile(); //throws IOException + +public: + bool isTerrainUpdateCompatible(); +}; diff --git a/Minecraft.Client/FireworksParticles.cpp b/Minecraft.Client/FireworksParticles.cpp new file mode 100644 index 0000000..c17283a --- /dev/null +++ b/Minecraft.Client/FireworksParticles.cpp @@ -0,0 +1,491 @@ +#include "stdafx.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "FireworksParticles.h" +#include "Tesselator.h" +#include "../Minecraft.World/Level.h" + +FireworksParticles::FireworksStarter::FireworksStarter(Level *level, double x, double y, double z, double xd, double yd, double zd, ParticleEngine *engine, CompoundTag *infoTag) : Particle(level, x, y, z, 0, 0, 0) +{ + life = 0; + twinkleDelay = false; + + this->xd = xd; + this->yd = yd; + this->zd = zd; + this->engine = engine; + lifetime = 8; + + if (infoTag != nullptr) + { + explosions = static_cast *>(infoTag->getList(FireworksItem::TAG_EXPLOSIONS)->copy()); + if (explosions->size() == 0) + { + explosions = nullptr; + } + else + { + lifetime = explosions->size() * 2 - 1; + + // check if any of the explosions has flickering + for (int e = 0; e < explosions->size(); e++) + { + CompoundTag *compoundTag = explosions->get(e); + if (compoundTag->getBoolean(FireworksItem::TAG_E_FLICKER)) + { + twinkleDelay = true; + lifetime += 15; + break; + } + } + } + } + else + { + // 4J: + explosions = nullptr; + } +} + +void FireworksParticles::FireworksStarter::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + // Do nothing +} + +void FireworksParticles::FireworksStarter::tick() +{ + if (life == 0 && explosions != nullptr) + { + bool farEffect = isFarAwayFromCamera(); + + bool largeExplosion = false; + if (explosions->size() >= 3) + { + largeExplosion = true; + } + else + { + for (int e = 0; e < explosions->size(); e++) + { + CompoundTag *compoundTag = explosions->get(e); + if (compoundTag->getByte(FireworksItem::TAG_E_TYPE) == FireworksItem::TYPE_BIG) + { + largeExplosion = true; + break; + } + } + } + + eSOUND_TYPE soundId; + + if (largeExplosion && farEffect) + { + soundId = eSoundType_FIREWORKS_LARGE_BLAST_FAR; + } + else if (largeExplosion && !farEffect) + { + soundId = eSoundType_FIREWORKS_LARGE_BLAST; + } + else if (!largeExplosion && farEffect) + { + soundId = eSoundType_FIREWORKS_BLAST_FAR; + } + else + { + soundId = eSoundType_FIREWORKS_BLAST; + } + + level->playLocalSound(x, y, z, soundId, 20, .95f + random->nextFloat() * .1f, true, 100.0f); + } + + if ((life % 2) == 0 && explosions != nullptr && (life / 2) < explosions->size()) + { + int eIndex = life / 2; + CompoundTag *compoundTag = explosions->get(eIndex); + + int type = compoundTag->getByte(FireworksItem::TAG_E_TYPE); + bool trail = compoundTag->getBoolean(FireworksItem::TAG_E_TRAIL); + bool flicker = compoundTag->getBoolean(FireworksItem::TAG_E_FLICKER); + intArray colors = compoundTag->getIntArray(FireworksItem::TAG_E_COLORS); + intArray fadeColors = compoundTag->getIntArray(FireworksItem::TAG_E_FADECOLORS); + + if (type == FireworksItem::TYPE_BIG) + { + // large ball + createParticleBall(.5, 4, colors, fadeColors, trail, flicker); + } + else if (type == FireworksItem::TYPE_STAR) + { + double coords[6][2] = { + 0.0, 1.0, + 0.3455, 0.3090, + 0.9511, 0.3090, + 93.0 / 245.0, -31.0 / 245.0, + 150.0 / 245.0, -197.0 / 245.0, + 0.0, -88.0 / 245.0, + }; + coords2DArray coordsArray(6, 2); + for(unsigned int i = 0; i < coordsArray.length; ++i) + { + for(unsigned int j = 0; j < coordsArray[i]->length; ++j) + { + coordsArray[i]->data[j] = coords[i][j]; + } + } + + // star-shape + createParticleShape(.5, coordsArray, colors, fadeColors, trail, flicker, false); + + for(unsigned int i = 0; i < coordsArray.length; ++i) + { + delete [] coordsArray[i]->data; + } + delete [] coordsArray.data; + } + else if (type == FireworksItem::TYPE_CREEPER) + { + double coords[12][2] = { + 0.0, 0.2, + 0.2, 0.2, + 0.2, 0.6, + 0.6, 0.6, + 0.6, 0.2, + 0.2, 0.2, + 0.2, 0.0, + 0.4, 0.0, + 0.4, -0.6, + 0.2, -0.6, + 0.2, -0.4, + 0.0, -0.4, + }; + coords2DArray coordsArray(12, 2); + for(unsigned int i = 0; i < coordsArray.length; ++i) + { + for(unsigned int j = 0; j < coordsArray[i]->length; ++j) + { + coordsArray[i]->data[j] = coords[i][j]; + } + } + + // creeper-shape + createParticleShape(.5, coordsArray, colors, fadeColors, trail, flicker, true); + + for(unsigned int i = 0; i < coordsArray.length; ++i) + { + delete [] coordsArray[i]->data; + } + delete [] coordsArray.data; + } + else if (type == FireworksItem::TYPE_BURST) + { + createParticleBurst(colors, fadeColors, trail, flicker); + } + else + { + // small ball + createParticleBall(.25, 2, colors, fadeColors, trail, flicker); + } + { + int rgb = colors[0]; + float r = static_cast((rgb & 0xff0000) >> 16) / 255.0f; + float g = static_cast((rgb & 0x00ff00) >> 8) / 255.0f; + float b = static_cast((rgb & 0x0000ff) >> 0) / 255.0f; + shared_ptr fireworksOverlayParticle = std::make_shared(level, x, y, z); + fireworksOverlayParticle->setColor(r, g, b); + fireworksOverlayParticle->setAlpha(0.99f); // 4J added + engine->add(fireworksOverlayParticle); + } + } + life++; + if (life > lifetime) + { + if (twinkleDelay) + { + bool farEffect = isFarAwayFromCamera(); + eSOUND_TYPE soundId = farEffect ? eSoundType_FIREWORKS_TWINKLE_FAR : eSoundType_FIREWORKS_TWINKLE; + level->playLocalSound(x, y, z, soundId, 20, .90f + random->nextFloat() * .15f, true, 100.0f); + + } + remove(); + } +} + +bool FireworksParticles::FireworksStarter::isFarAwayFromCamera() +{ + Minecraft *instance = Minecraft::GetInstance(); + if (instance != nullptr && instance->cameraTargetPlayer != nullptr) + { + if (instance->cameraTargetPlayer->distanceToSqr(x, y, z) < 16 * 16) + { + return false; + } + } + return true; +} + +void FireworksParticles::FireworksStarter::createParticle(double x, double y, double z, double xa, double ya, double za, intArray rgbColors, intArray fadeColors, bool trail, bool flicker) +{ + shared_ptr fireworksSparkParticle = std::make_shared(level, x, y, z, xa, ya, za, engine); + fireworksSparkParticle->setAlpha(0.99f); + fireworksSparkParticle->setTrail(trail); + fireworksSparkParticle->setFlicker(flicker); + + int color = random->nextInt(rgbColors.length); + fireworksSparkParticle->setColor(rgbColors[color]); + if (/*fadeColors != nullptr &&*/ fadeColors.length > 0) + { + fireworksSparkParticle->setFadeColor(fadeColors[random->nextInt(fadeColors.length)]); + } + engine->add(fireworksSparkParticle); +} + +void FireworksParticles::FireworksStarter::createParticleBall(double baseSpeed, int steps, intArray rgbColors, intArray fadeColors, bool trail, bool flicker) { + + double xx = x; + double yy = y; + double zz = z; + + for (int yStep = -steps; yStep <= steps; yStep++) { + for (int xStep = -steps; xStep <= steps; xStep++) { + for (int zStep = -steps; zStep <= steps; zStep++) { + double xa = xStep + (random->nextDouble() - random->nextDouble()) * .5; + double ya = yStep + (random->nextDouble() - random->nextDouble()) * .5; + double za = zStep + (random->nextDouble() - random->nextDouble()) * .5; + double len = sqrt(xa * xa + ya * ya + za * za) / baseSpeed + random->nextGaussian() * .05; + + createParticle(xx, yy, zz, xa / len, ya / len, za / len, rgbColors, fadeColors, trail, flicker); + + if (yStep != -steps && yStep != steps && xStep != -steps && xStep != steps) { + zStep += steps * 2 - 1; + } + } + } + } +} + +void FireworksParticles::FireworksStarter::createParticleShape(double baseSpeed, coords2DArray coords, intArray rgbColors, intArray fadeColors, bool trail, bool flicker, bool flat) +{ + double sx = coords[0]->data[0]; + double sy = coords[0]->data[1]; + + { + createParticle(x, y, z, sx * baseSpeed, sy * baseSpeed, 0, rgbColors, fadeColors, trail, flicker); + } + + float baseAngle = random->nextFloat() * PI; + double angleMod = (flat ? .034 : .34); + for (int angleStep = 0; angleStep < 3; angleStep++) + { + double angle = baseAngle + angleStep * PI * angleMod; + + double ox = sx; + double oy = sy; + + for (int c = 1; c < coords.length; c++) + { + double tx = coords[c]->data[0]; + double ty = coords[c]->data[1]; + + for (double subStep = .25; subStep <= 1.0; subStep += .25) + { + double xa = (ox + (tx - ox) * subStep) * baseSpeed; + double ya = (oy + (ty - oy) * subStep) * baseSpeed; + + double za = xa * sin(angle); + xa = xa * cos(angle); + + for (double flip = -1; flip <= 1; flip += 2) + { + createParticle(x, y, z, xa * flip, ya, za * flip, rgbColors, fadeColors, trail, flicker); + } + } + ox = tx; + oy = ty; + } + + } +} + +void FireworksParticles::FireworksStarter::createParticleBurst(intArray rgbColors, intArray fadeColors, bool trail, bool flicker) +{ + double baseOffX = random->nextGaussian() * .05; + double baseOffZ = random->nextGaussian() * .05; + + for (int i = 0; i < 70; i++) { + + double xa = xd * .5 + random->nextGaussian() * .15 + baseOffX; + double za = zd * .5 + random->nextGaussian() * .15 + baseOffZ; + double ya = yd * .5 + random->nextDouble() * .5; + + createParticle(x, y, z, xa, ya, za, rgbColors, fadeColors, trail, flicker); + } +} + +int FireworksParticles::FireworksStarter::getParticleTexture() +{ + return ParticleEngine::MISC_TEXTURE; +} + +FireworksParticles::FireworksSparkParticle::FireworksSparkParticle(Level *level, double x, double y, double z, double xa, double ya, double za, ParticleEngine *engine) : Particle(level, x, y, z) +{ + baseTex = 10 * 16; + + xd = xa; + yd = ya; + zd = za; + this->engine = engine; + + size *= 0.75f; + + lifetime = 48 + random->nextInt(12); +#ifdef __PSVITA__ + noPhysics = true; // 4J - optimisation, these are just too slow on Vita to be running with physics on +#else + noPhysics = false; +#endif + + + trail = false; + flicker = false; + + fadeR = 0.0f; + fadeG = 0.0f; + fadeB = 0.0f; + hasFade = false; +} + +void FireworksParticles::FireworksSparkParticle::setTrail(bool trail) +{ + this->trail = trail; +} + +void FireworksParticles::FireworksSparkParticle::setFlicker(bool flicker) +{ + this->flicker = flicker; +} + +void FireworksParticles::FireworksSparkParticle::setColor(int rgb) +{ + float r = static_cast((rgb & 0xff0000) >> 16) / 255.0f; + float g = static_cast((rgb & 0x00ff00) >> 8) / 255.0f; + float b = static_cast((rgb & 0x0000ff) >> 0) / 255.0f; + float scale = 1.0f; + Particle::setColor(r * scale, g * scale, b * scale); +} + +void FireworksParticles::FireworksSparkParticle::setFadeColor(int rgb) +{ + fadeR = static_cast((rgb & 0xff0000) >> 16) / 255.0f; + fadeG = static_cast((rgb & 0x00ff00) >> 8) / 255.0f; + fadeB = static_cast((rgb & 0x0000ff) >> 0) / 255.0f; + hasFade = true; +} + +AABB *FireworksParticles::FireworksSparkParticle::getCollideBox() +{ + return nullptr; +} + +bool FireworksParticles::FireworksSparkParticle::isPushable() +{ + return false; +} + +void FireworksParticles::FireworksSparkParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + if (!flicker || age < (lifetime / 3) || (((age + lifetime) / 3) % 2) == 0) + { + Particle::render(t, a, xa, ya, za, xa2, za2); + } +} + +void FireworksParticles::FireworksSparkParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + if (age++ >= lifetime) remove(); + if (age > lifetime / 2) + { + setAlpha(1.0f - ((static_cast(age) - lifetime / 2) / static_cast(lifetime))); + + if (hasFade) + { + rCol = rCol + (fadeR - rCol) * .2f; + gCol = gCol + (fadeG - gCol) * .2f; + bCol = bCol + (fadeB - bCol) * .2f; + } + } + + setMiscTex(baseTex + (7 - age * 8 / lifetime)); + + yd -= 0.004; + move(xd, yd, zd, true); // 4J - changed so these don't attempt to collide with entities + xd *= 0.91f; + yd *= 0.91f; + zd *= 0.91f; + + if (onGround) + { + xd *= 0.7f; + zd *= 0.7f; + } + + if (trail && (age < lifetime / 2) && ((age + lifetime) % 2) == 0) + { + shared_ptr fireworksSparkParticle = std::make_shared(level, x, y, z, 0, 0, 0, engine); + fireworksSparkParticle->setAlpha(0.99f); + fireworksSparkParticle->setColor(rCol, gCol, bCol); + fireworksSparkParticle->age = fireworksSparkParticle->lifetime / 2; + if (hasFade) + { + fireworksSparkParticle->hasFade = true; + fireworksSparkParticle->fadeR = fadeR; + fireworksSparkParticle->fadeG = fadeG; + fireworksSparkParticle->fadeB = fadeB; + } + fireworksSparkParticle->flicker = flicker; + engine->add(fireworksSparkParticle); + } +} + +void FireworksParticles::FireworksSparkParticle::setBaseTex(int baseTex) +{ + this->baseTex = baseTex; +} + +int FireworksParticles::FireworksSparkParticle::getLightColor(float a) +{ + return SharedConstants::FULLBRIGHT_LIGHTVALUE; +} + +float FireworksParticles::FireworksSparkParticle::getBrightness(float a) +{ + return 1; +} + +FireworksParticles::FireworksOverlayParticle::FireworksOverlayParticle(Level *level, double x, double y, double z) : Particle(level, x, y, z) +{ + lifetime = 4; +} + +void FireworksParticles::FireworksOverlayParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float u0 = 32.0f / 128.0f; + float u1 = u0 + 32.0f / 128.0f; + float v0 = 16.0f / 128.0f; + float v1 = v0 + 32.0f / 128.0f; + float r = 7.1f * sin((static_cast(age) + a - 1.0f) * .25f * PI); + alpha = 0.6f - (static_cast(age) + a - 1.0f) * .25f * .5f; + + float x = static_cast(xo + (this->x - xo) * a - xOff); + float y = static_cast(yo + (this->y - yo) * a - yOff); + float z = static_cast(zo + (this->z - zo) * a - zOff); + + t->color(rCol, gCol, bCol, alpha); + + t->vertexUV(x - xa * r - xa2 * r, y - ya * r, z - za * r - za2 * r, u1, v1); + t->vertexUV(x - xa * r + xa2 * r, y + ya * r, z - za * r + za2 * r, u1, v0); + t->vertexUV(x + xa * r + xa2 * r, y + ya * r, z + za * r + za2 * r, u0, v0); + t->vertexUV(x + xa * r - xa2 * r, y - ya * r, z + za * r - za2 * r, u0, v1); +} \ No newline at end of file diff --git a/Minecraft.Client/FireworksParticles.h b/Minecraft.Client/FireworksParticles.h new file mode 100644 index 0000000..ac06be0 --- /dev/null +++ b/Minecraft.Client/FireworksParticles.h @@ -0,0 +1,77 @@ +#pragma once +#include "Particle.h" +#include "..\Minecraft.World\CompoundTag.h" + +class ParticleEngine; + +class FireworksParticles +{ +public: + + class FireworksStarter : public Particle + { + public: + virtual eINSTANCEOF GetType() { return eType_FIREWORKSSTARTERPARTICLE; } + + private: + int life; + ParticleEngine *engine; + ListTag *explosions; + bool twinkleDelay; + + public: + FireworksStarter(Level *level, double x, double y, double z, double xd, double yd, double zd, ParticleEngine *engine, CompoundTag *infoTag); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual void tick(); + bool isFarAwayFromCamera(); + void createParticle(double x, double y, double z, double xa, double ya, double za, intArray rgbColors, intArray fadeColors, bool trail, bool flicker); + void createParticleBall(double baseSpeed, int steps, intArray rgbColors, intArray fadeColors, bool trail, bool flicker); + void createParticleShape(double baseSpeed, coords2DArray coords, intArray rgbColors, intArray fadeColors, bool trail, bool flicker, bool flat); + void createParticleBurst(intArray rgbColors, intArray fadeColors, bool trail, bool flicker); + + public: + int getParticleTexture(); + }; + + class FireworksSparkParticle : public Particle + { + public: + virtual eINSTANCEOF GetType() { return eType_FIREWORKSSPARKPARTICLE; } + + private: + int baseTex; + bool trail; + bool flicker; + ParticleEngine *engine; + + float fadeR; + float fadeG; + float fadeB; + bool hasFade; + + public: + FireworksSparkParticle(Level *level, double x, double y, double z, double xa, double ya, double za, ParticleEngine *engine); + void setTrail(bool trail); + void setFlicker(bool flicker); + using Particle::setColor; + void setColor(int rgb); + void setFadeColor(int rgb); + virtual AABB *getCollideBox(); + virtual bool isPushable(); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual void tick(); + virtual void setBaseTex(int baseTex); + virtual int getLightColor(float a); + virtual float getBrightness(float a); + }; + + class FireworksOverlayParticle : public Particle + { + public: + virtual eINSTANCEOF GetType() { return eType_FIREWORKSOVERLAYPARTICLE; } + + FireworksOverlayParticle(Level *level, double x, double y, double z); + + void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + }; +}; \ No newline at end of file diff --git a/Minecraft.Client/FlameParticle.cpp b/Minecraft.Client/FlameParticle.cpp new file mode 100644 index 0000000..a242f71 --- /dev/null +++ b/Minecraft.Client/FlameParticle.cpp @@ -0,0 +1,73 @@ +#include "stdafx.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\Random.h" +#include "FlameParticle.h" + +FlameParticle::FlameParticle(Level *level, double x, double y, double z, double xd, double yd, double zd) : Particle(level, x, y, z, xd, yd, zd) +{ + this->xd=this->xd*0.01f+xd; + this->yd=this->yd*0.01f+yd; + this->zd=this->zd*0.01f+zd; + x+=(random->nextFloat()-random->nextFloat())*0.05f; + y+=(random->nextFloat()-random->nextFloat())*0.05f; + z+=(random->nextFloat()-random->nextFloat())*0.05f; + + oSize = size; + rCol = gCol = bCol = 1.0f; + + lifetime = static_cast(8 / (Math::random() * 0.8 + 0.2))+4; + noPhysics = true; + setMiscTex(48); +} + +void FlameParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float s = (age + a) / static_cast(lifetime); + size = oSize * (1 - s*s*0.5f); + Particle::render(t, a, xa, ya, za, xa2, za2); +} + +// 4J - brought forward from 1.8.2 +int FlameParticle::getLightColor(float a) +{ + float l = (age + a) / lifetime; + if (l < 0) l = 0; + if (l > 1) l = 1; + int br = Particle::getLightColor(a); + + int br1 = (br) & 0xff; + int br2 = (br >> 16) & 0xff; + br1 += static_cast(l * 15 * 16); + if (br1 > 15 * 16) br1 = 15 * 16; + return br1 | br2 << 16; +} + +float FlameParticle::getBrightness(float a) +{ + float l = (age+a)/lifetime; + if (l<0) l = 0; + if (l>1) l = 1; + float br = Particle::getBrightness(a); + + return br*l+(1-l); +} + +void FlameParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + if (age++ >= lifetime) remove(); + + move(xd, yd, zd); + xd *= 0.96f; + yd *= 0.96f; + zd *= 0.96f; + + if (onGround) + { + xd *= 0.7f; + zd *= 0.7f; + } +} \ No newline at end of file diff --git a/Minecraft.Client/FlameParticle.h b/Minecraft.Client/FlameParticle.h new file mode 100644 index 0000000..7097d9d --- /dev/null +++ b/Minecraft.Client/FlameParticle.h @@ -0,0 +1,17 @@ +#pragma once +#include "Particle.h" + +class FlameParticle : public Particle +{ +public: + virtual eINSTANCEOF GetType() { return eType_FLAMEPARTICLE; } +private: + float oSize; + +public: + FlameParticle(Level *level, double x, double y, double z, double xd, double yd, double zd); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual int getLightColor(float a); // 4J - brought forward from 1.8.2 + virtual float getBrightness(float a); + virtual void tick(); +}; \ No newline at end of file diff --git a/Minecraft.Client/FolderTexturePack.cpp b/Minecraft.Client/FolderTexturePack.cpp new file mode 100644 index 0000000..05feca6 --- /dev/null +++ b/Minecraft.Client/FolderTexturePack.cpp @@ -0,0 +1,110 @@ +#include "stdafx.h" +#include "FolderTexturePack.h" + +FolderTexturePack::FolderTexturePack(DWORD id, const wstring &name, File *folder, TexturePack *fallback) : AbstractTexturePack(id, folder, name, fallback) +{ + // 4J Stu - These calls need to be in the most derived version of the class + loadIcon(); + loadName(); + loadDescription(); + + bUILoaded = false; +} + +InputStream *FolderTexturePack::getResourceImplementation(const wstring &name) //throws IOException +{ +#if 0 + final File file = new File(this.file, name.substring(1)); + if (!file.exists()) { + throw new FileNotFoundException(name); + } + + return new BufferedInputStream(new FileInputStream(file)); +#endif + + wstring wDrive = L""; + // Make the content package point to to the UPDATE: drive is needed +#ifdef _XBOX + wDrive=L"GAME:\\DummyTexturePack\\res"; +#else + wDrive = L"Common\\DummyTexturePack\\res"; +#endif + InputStream *resource = InputStream::getResourceAsStream(wDrive + name); + //InputStream *stream = DefaultTexturePack::class->getResourceAsStream(name); + //if (stream == nullptr) + //{ + // throw new FileNotFoundException(name); + //} + + //return stream; + return resource; +} + +bool FolderTexturePack::hasFile(const wstring &name) +{ + File file = File( getPath() + name); + return file.exists() && file.isFile(); + //return true; +} + +bool FolderTexturePack::isTerrainUpdateCompatible() +{ +#if 0 + final File dir = new File(this.file, "textures/"); + final boolean hasTexturesFolder = dir.exists() && dir.isDirectory(); + final boolean hasOldFiles = hasFile("terrain.png") || hasFile("gui/items.png"); + return hasTexturesFolder || !hasOldFiles; +#endif + return true; +} + +wstring FolderTexturePack::getPath(bool bTitleUpdateTexture /*= false*/,const char *pchBDPatchFilename) +{ + wstring wDrive; +#ifdef _XBOX + wDrive=L"GAME:\\" + file->getPath() + L"\\"; +#else + wDrive=L"Common\\" + file->getPath() + L"\\"; +#endif + return wDrive; +} + +void FolderTexturePack::loadUI() +{ +#ifdef _XBOX + //"file://" + Drive + PathToXZP + "#" + PathInsideXZP + + //L"file://game:/ui.xzp#skin_default.xur" + + // Load new skin + if(hasFile(L"TexturePack.xzp")) + { + const DWORD LOCATOR_SIZE = 256; // Use this to allocate space to hold a ResourceLocator string + WCHAR szResourceLocator[ LOCATOR_SIZE ]; + + swprintf(szResourceLocator, LOCATOR_SIZE,L"file://%lsTexturePack.xzp#skin_Minecraft.xur",getPath().c_str()); + + XuiFreeVisuals(L""); + app.LoadSkin(szResourceLocator,nullptr);//L"TexturePack"); + bUILoaded = true; + //CXuiSceneBase::GetInstance()->SetVisualPrefix(L"TexturePack"); + } + + AbstractTexturePack::loadUI(); +#endif +} + +void FolderTexturePack::unloadUI() +{ +#ifdef _XBOX + // Unload skin + if(bUILoaded) + { + XuiFreeVisuals(L"TexturePack"); + XuiFreeVisuals(L""); + CXuiSceneBase::GetInstance()->SetVisualPrefix(L""); + CXuiSceneBase::GetInstance()->SkinChanged(CXuiSceneBase::GetInstance()->m_hObj); + } + AbstractTexturePack::unloadUI(); +#endif +} \ No newline at end of file diff --git a/Minecraft.Client/FolderTexturePack.h b/Minecraft.Client/FolderTexturePack.h new file mode 100644 index 0000000..4327698 --- /dev/null +++ b/Minecraft.Client/FolderTexturePack.h @@ -0,0 +1,26 @@ +#pragma once + +#include "AbstractTexturePack.h" + +class FolderTexturePack : public AbstractTexturePack +{ +private: + bool bUILoaded; + +public: + FolderTexturePack(DWORD id, const wstring &name, File *folder, TexturePack *fallback); + +protected: + //@Override + InputStream *getResourceImplementation(const wstring &name); //throws IOException + +public: + //@Override + bool hasFile(const wstring &name); + bool isTerrainUpdateCompatible(); + + // 4J Added + virtual wstring getPath(bool bTitleUpdateTexture = false, const char *pchBDPatchFilename=nullptr); + virtual void loadUI(); + virtual void unloadUI(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Font.cpp b/Minecraft.Client/Font.cpp new file mode 100644 index 0000000..db2a18c --- /dev/null +++ b/Minecraft.Client/Font.cpp @@ -0,0 +1,739 @@ +#include "stdafx.h" +#include "Textures.h" +#include "Font.h" +#include "Options.h" +#include "Tesselator.h" +#include "ResourceLocation.h" +#include "..\Minecraft.World\IntBuffer.h" +#include "..\Minecraft.World\net.minecraft.h" +#include "..\Minecraft.World\StringHelpers.h" +#include "..\Minecraft.World\Random.h" + +Font::Font(Options *options, const wstring& name, Textures* textures, bool enforceUnicode, ResourceLocation *textureLocation, int cols, int rows, int charWidth, int charHeight, unsigned short charMap[]/* = nullptr */) : textures(textures) +{ + int charC = cols * rows; // Number of characters in the font + + charWidths = new int[charC]; + + // 4J - added initialisers + memset(charWidths, 0, charC); + + enforceUnicodeSheet = false; + bidirectional = false; + xPos = yPos = 0.0f; + m_bold = false; + m_italic = false; + m_underline = false; + m_strikethrough = false; + + // Set up member variables + m_cols = cols; + m_rows = rows; + m_charWidth = charWidth; + m_charHeight = charHeight; + m_textureLocation = textureLocation; + + // Build character map + if (charMap != nullptr) + { + for(int i = 0; i < charC; i++) + { + m_charMap.insert(std::make_pair(charMap[i], i)); + } + } + + random = new Random(); + + // Load the image + BufferedImage *img = textures->readImage(textureLocation->getTexture(), name); + + /* - 4J - TODO + try { + img = ImageIO.read(Textures.class.getResourceAsStream(name)); + } catch (IOException e) { + throw new RuntimeException(e); + } + */ + + int w = img->getWidth(); + int h = img->getHeight(); + intArray rawPixels(w * h); + img->getRGB(0, 0, w, h, rawPixels, 0, w); + + for (int i = 0; i < charC; i++) + { + int xt = i % m_cols; + int yt = i / m_cols; + + int x = 7; + for (; x >= 0; x--) + { + int xPixel = xt * 8 + x; + bool emptyColumn = true; + for (int y = 0; y < 8 && emptyColumn; y++) + { + int yPixel = (yt * 8 + y) * w; + bool emptyPixel = (rawPixels[xPixel + yPixel] >> 24) == 0; // Check the alpha value + if (!emptyPixel) emptyColumn = false; + } + if (!emptyColumn) + { + break; + } + } + + if (i == ' ') x = 4 - 2; + charWidths[i] = x + 2; + } + + delete img; + + // calculate colors + for (int colorN = 0; colorN < 32; ++colorN) + { + int var10 = (colorN >> 3 & 1) * 85; + int red = (colorN >> 2 & 1) * 170 + var10; + int green = (colorN >> 1 & 1) * 170 + var10; + int blue = (colorN >> 0 & 1) * 170 + var10; + + if (colorN == 6) + { + red += 85; + } + + if (options->anaglyph3d) + { + int tmpRed = (red * 30 + green * 59 + blue * 11) / 100; + int tmpGreen = (red * 30 + green * 70) / 100; + int tmpBlue = (red * 30 + blue * 70) / 100; + red = tmpRed; + green = tmpGreen; + blue = tmpBlue; + } + + if (colorN >= 16) + { + red /= 4; + green /= 4; + blue /= 4; + } + + colors[colorN] = (red & 255) << 16 | (green & 255) << 8 | (blue & 255); + } +} + +#ifndef _XBOX +// 4J Stu - This dtor clashes with one in xui! We never delete these anyway so take it out for now. Can go back when we have got rid of XUI +Font::~Font() +{ + delete[] charWidths; +} +#endif + +void Font::renderStyleLine(float x0, float y0, float x1, float y1) +{ + Tesselator* t = Tesselator::getInstance(); + float u = 0.0f, v = 0.0f; + t->begin(); + t->tex(u, v); + t->vertex(x0, y1, 0.0f); + t->tex(u, v); + t->vertex(x1, y1, 0.0f); + t->tex(u, v); + t->vertex(x1, y0, 0.0f); + t->tex(u, v); + t->vertex(x0, y0, 0.0f); + t->end(); +} + +void Font::addCharacterQuad(wchar_t c) +{ + float xOff = c % m_cols * m_charWidth; + float yOff = c / m_cols * m_charHeight; // was m_charWidth — wrong when glyphs aren't square + float width = charWidths[c] - .01f; + float height = m_charHeight - .01f; + float fontWidth = m_cols * m_charWidth; + float fontHeight = m_rows * m_charHeight; + const float shear = m_italic ? (height * 0.25f) : 0.0f; + float x0 = xPos, x1 = xPos + width + shear; + float y0 = yPos, y1 = yPos + height; + + Tesselator *t = Tesselator::getInstance(); + t->tex(xOff / fontWidth, (yOff + 7.99f) / fontHeight); + t->vertex(x0, y1, 0.0f); + t->tex((xOff + width) / fontWidth, (yOff + 7.99f) / fontHeight); + t->vertex(x1, y1, 0.0f); + t->tex((xOff + width) / fontWidth, yOff / fontHeight); + t->vertex(x1, y0, 0.0f); + t->tex(xOff / fontWidth, yOff / fontHeight); + t->vertex(x0, y0, 0.0f); + + if (m_bold) + { + float dx = 1.0f; + t->tex(xOff / fontWidth, (yOff + 7.99f) / fontHeight); + t->vertex(x0 + dx, y1, 0.0f); + t->tex((xOff + width) / fontWidth, (yOff + 7.99f) / fontHeight); + t->vertex(x1 + dx, y1, 0.0f); + t->tex((xOff + width) / fontWidth, yOff / fontHeight); + t->vertex(x1 + dx, y0, 0.0f); + t->tex(xOff / fontWidth, yOff / fontHeight); + t->vertex(x0 + dx, y0, 0.0f); + } + + xPos += static_cast(charWidths[c]); +} + +void Font::renderCharacter(wchar_t c) +{ + float xOff = c % m_cols * m_charWidth; + float yOff = c / m_cols * m_charHeight; // was m_charWidth — wrong when glyphs aren't square + + float width = charWidths[c] - .01f; + float height = m_charHeight - .01f; + + float fontWidth = m_cols * m_charWidth; + float fontHeight = m_rows * m_charHeight; + + const float shear = m_italic ? (height * 0.25f) : 0.0f; + float x0 = xPos, x1 = xPos + width + shear; + float y0 = yPos, y1 = yPos + height; + + Tesselator *t = Tesselator::getInstance(); + t->begin(); + t->tex(xOff / fontWidth, (yOff + 7.99f) / fontHeight); + t->vertex(x0, y1, 0.0f); + t->tex((xOff + width) / fontWidth, (yOff + 7.99f) / fontHeight); + t->vertex(x1, y1, 0.0f); + t->tex((xOff + width) / fontWidth, yOff / fontHeight); + t->vertex(x1, y0, 0.0f); + t->tex(xOff / fontWidth, yOff / fontHeight); + t->vertex(x0, y0, 0.0f); + t->end(); + + if (m_bold) + { + float dx = 1.0f; + t->begin(); + t->tex(xOff / fontWidth, (yOff + 7.99f) / fontHeight); + t->vertex(x0 + dx, y1, 0.0f); + t->tex((xOff + width) / fontWidth, (yOff + 7.99f) / fontHeight); + t->vertex(x1 + dx, y1, 0.0f); + t->tex((xOff + width) / fontWidth, yOff / fontHeight); + t->vertex(x1 + dx, y0, 0.0f); + t->tex(xOff / fontWidth, yOff / fontHeight); + t->vertex(x0 + dx, y0, 0.0f); + t->end(); + } + + if (m_underline) + renderStyleLine(x0, y1 - 1.0f, xPos + static_cast(charWidths[c]), y1); + + if (m_strikethrough) + { + float mid = y0 + height * 0.5f; + renderStyleLine(x0, mid - 0.5f, xPos + static_cast(charWidths[c]), mid + 0.5f); + } + + xPos += static_cast(charWidths[c]); +} + +void Font::drawShadow(const wstring& str, int x, int y, int color) +{ + draw(str, x + 1, y + 1, color, true); + draw(str, x, y, color, false); +} + +void Font::drawShadowLiteral(const wstring& str, int x, int y, int color) +{ + int shadowColor = (color & 0xFCFCFC) >> 2 | (color & 0xFF000000); + drawLiteral(str, x + 1, y + 1, shadowColor); + drawLiteral(str, x, y, color); +} + +void Font::drawLiteral(const wstring& str, int x, int y, int color) +{ + if (str.empty()) return; + if ((color & 0xFC000000) == 0) color |= 0xFF000000; + textures->bindTexture(m_textureLocation); + glColor4f((color >> 16 & 255) / 255.0F, (color >> 8 & 255) / 255.0F, (color & 255) / 255.0F, (color >> 24 & 255) / 255.0F); + xPos = static_cast(x); + yPos = static_cast(y); + wstring cleanStr = sanitize(str); + for (size_t i = 0; i < cleanStr.length(); ++i) + renderCharacter(cleanStr.at(i)); +} + +void Font::drawShadowWordWrap(const wstring &str, int x, int y, int w, int color, int h) +{ + drawWordWrapInternal(str, x + 1, y + 1, w, color, true, h); + drawWordWrapInternal(str, x, y, w, color, h); +} + +void Font::draw(const wstring& str, int x, int y, int color) +{ + draw(str, x, y, color, false); +} + +wstring Font::reorderBidi(const wstring &str) +{ + // 4J Not implemented + return str; +} + +static bool isSectionFormatCode(wchar_t ca) +{ + if ((ca >= L'0' && ca <= L'9') || (ca >= L'a' && ca <= L'f') || (ca >= L'A' && ca <= L'F')) + return true; + wchar_t l = static_cast(ca | 32); + return l == L'l' || l == L'o' || l == L'n' || l == L'm' || l == L'r' || l == L'k'; +} + +void Font::draw(const wstring &str, bool dropShadow) +{ + // Bind the texture + textures->bindTexture(m_textureLocation); + bool noise = false; + m_bold = m_italic = m_underline = m_strikethrough = false; + wstring cleanStr = sanitize(str); + + Tesselator *t = Tesselator::getInstance(); + t->begin(); + + for (int i = 0; i < static_cast(cleanStr.length()); ++i) + { + // Map character + wchar_t c = cleanStr.at(i); + + if (c == 167 && i + 1 < cleanStr.length()) + { + wchar_t ca = cleanStr[i+1]; + if (!isSectionFormatCode(ca)) + { + t->end(); + renderCharacter(167); + renderCharacter(ca); + t->begin(); + i += 1; + continue; + } + int colorN = 16; + if(( ca >= L'0' ) && (ca <= L'9')) colorN = ca - L'0'; + else if(( ca >= L'a' ) && (ca <= L'f')) colorN = (ca - L'a') + 10; + else if(( ca >= L'A' ) && (ca <= L'F')) colorN = (ca - L'A') + 10; + + if (colorN == 16) + { + wchar_t l = static_cast(ca | 32); + if (l == L'l') m_bold = true; + else if (l == L'o') m_italic = true; + else if (l == L'n') m_underline = true; + else if (l == L'm') m_strikethrough = true; + else if (l == L'r') m_bold = m_italic = m_underline = m_strikethrough = noise = false; + else if (l == L'k') noise = true; + } + else + { + noise = false; + if (colorN < 0 || colorN > 15) colorN = 15; + if (dropShadow) colorN += 16; + int color = colors[colorN]; + glColor3f((color >> 16) / 255.0F, ((color >> 8) & 255) / 255.0F, (color & 255) / 255.0F); + } + i += 1; + continue; + } + + // "noise" for crazy splash screen message + if (noise) + { + int newc; + do + { + newc = random->nextInt(SharedConstants::acceptableLetters.length()); + } while (charWidths[c + 32] != charWidths[newc + 32]); + c = newc; + } + + addCharacterQuad(c); + } + + t->end(); +} + +void Font::draw(const wstring& str, int x, int y, int color, bool dropShadow) +{ + if (!str.empty()) + { + if ((color & 0xFC000000) == 0) color |= 0xFF000000; // force alpha + // if not set + + if (dropShadow) // divide RGB by 4, preserve alpha + color = (color & 0xfcfcfc) >> 2 | (color & (-1 << 24)); + + glColor4f((color >> 16 & 255) / 255.0F, (color >> 8 & 255) / 255.0F, (color & 255) / 255.0F, (color >> 24 & 255) / 255.0F); + + xPos = x; + yPos = y; + draw(str, dropShadow); + } +} + +int Font::width(const wstring& str) +{ + wstring cleanStr = sanitize(str); + + if (cleanStr == L"") return 0; // 4J - was nullptr comparison + int len = 0; + + for (int i = 0; i < cleanStr.length(); ++i) + { + wchar_t c = cleanStr.at(i); + + if (c == 167) + { + if (i + 1 < cleanStr.length() && isSectionFormatCode(cleanStr[i+1])) + ++i; + else + { + len += charWidths[167]; + if (i + 1 < cleanStr.length()) + len += charWidths[static_cast(cleanStr[++i])]; + } + } + else + len += charWidths[c]; + } + + return len; +} + +int Font::widthLiteral(const wstring& str) +{ + wstring cleanStr = sanitize(str); + if (cleanStr == L"") return 0; + int len = 0; + for (size_t i = 0; i < cleanStr.length(); ++i) + len += charWidths[static_cast(cleanStr.at(i))]; + return len; +} + +wstring Font::sanitize(const wstring& str) +{ + wstring sb = str; + + for (unsigned int i = 0; i < sb.length(); i++) + { + if (CharacterExists(sb[i])) + { + sb[i] = MapCharacter(sb[i]); + } + else + { + // If this character isn't supported, just show the first character (empty square box character) + sb[i] = 0; + } + } + return sb; +} + +int Font::MapCharacter(wchar_t c) +{ + if (!m_charMap.empty()) + { + // Don't map space character + return c == ' ' ? c : m_charMap[c]; + } + else + { + return c; + } +} + +bool Font::CharacterExists(wchar_t c) +{ + if (!m_charMap.empty()) + { + return m_charMap.find(c) != m_charMap.end(); + } + else + { + return c >= 0 && c <= m_rows*m_cols; + } +} + +void Font::drawWordWrap(const wstring &string, int x, int y, int w, int col, int h) +{ + //if (bidirectional) + //{ + // string = reorderBidi(string); + //} + drawWordWrapInternal(string, x, y, w, col, h); +} + +void Font::drawWordWrapInternal(const wstring &string, int x, int y, int w, int col, int h) +{ + drawWordWrapInternal(string, x, y, w, col, false, h); +} + +void Font::drawWordWrap(const wstring &string, int x, int y, int w, int col, bool darken, int h) +{ + //if (bidirectional) + //{ + // string = reorderBidi(string); + //} + drawWordWrapInternal(string, x, y, w, col, darken, h); +} + +void Font::drawWordWrapInternal(const wstring& string, int x, int y, int w, int col, bool darken, int h) +{ + vectorlines = stringSplit(string,L'\n'); + if (lines.size() > 1) + { + for ( auto& it : lines ) + { + // 4J Stu - Don't draw text that will be partially cutoff/overlap something it shouldn't + if( (y + this->wordWrapHeight(it, w)) > h) break; + drawWordWrapInternal(it, x, y, w, col, h); + y += this->wordWrapHeight(it, w); + } + return; + } + vector words = stringSplit(string,L' '); + unsigned int pos = 0; + while (pos < words.size()) + { + wstring line = words[pos++] + L" "; + while (pos < words.size() && width(line + words[pos]) < w) + { + line += words[pos++] + L" "; + } + while (width(line) > w) + { + int l = 0; + while (width(line.substr(0, l + 1)) <= w) + { + l++; + } + if (trimString(line.substr(0, l)).length() > 0) + { + draw(line.substr(0, l), x, y, col); + y += 8; + } + line = line.substr(l); + + // 4J Stu - Don't draw text that will be partially cutoff/overlap something it shouldn't + if( (y + 8) > h) break; + } + // 4J Stu - Don't draw text that will be partially cutoff/overlap something it shouldn't + if (trimString(line).length() > 0 && !( (y + 8) > h) ) + { + draw(line, x, y, col); + y += 8; + } + } + +} + +int Font::wordWrapHeight(const wstring& string, int w) +{ + vector lines = stringSplit(string,L'\n'); + if (lines.size() > 1) + { + int h = 0; + for ( auto& it : lines ) + { + h += this->wordWrapHeight(it, w); + } + return h; + } + vector words = stringSplit(string,L' '); + unsigned int pos = 0; + int y = 0; + while (pos < words.size()) + { + wstring line = words[pos++] + L" "; + while (pos < words.size() && width(line + words[pos]) < w) + { + line += words[pos++] + L" "; + } + while (width(line) > w) + { + int l = 0; + while (width(line.substr(0, l + 1)) <= w) + { + l++; + } + if (trimString(line.substr(0, l)).length() > 0) + { + y += 8; + } + line = line.substr(l); + } + if (trimString(line).length() > 0) { + y += 8; + } + } + if (y < 8) y += 8; + return y; + +} + +void Font::setEnforceUnicodeSheet(bool enforceUnicodeSheet) +{ + this->enforceUnicodeSheet = enforceUnicodeSheet; +} + +void Font::setBidirectional(bool bidirectional) +{ + this->bidirectional = bidirectional; +} + +bool Font::AllCharactersValid(const wstring &str) +{ + for (int i = 0; i < static_cast(str.length()); ++i) + { + wchar_t c = str.at(i); + + if (c == 167 && i + 1 < str.length()) + { + // skip special color setting + i += 1; + continue; + } + + size_t index = SharedConstants::acceptableLetters.find(c); + + if ((c != ' ') && !(index > 0 && !enforceUnicodeSheet)) + { + return false; + } + } + return true; +} + +// Not in use +/*// 4J - this code is lifted from #if 0 section above, so that we can directly create what would have gone in each of our 256 + 32 command buffers +void Font::renderFakeCB(IntBuffer *ib) +{ + Tesselator *t = Tesselator::getInstance(); + + int i; + + for(unsigned int j = 0; j < ib->limit(); j++) + { + int cb = ib->get(j); + + if( cb < 256 ) + { + i = cb; + t->begin(); + int ix = i % 16 * 8; + int iy = i / 16 * 8; + // float s = 7.99f; + float s = 7.99f; + + float uo = (0.0f) / 128.0f; + float vo = (0.0f) / 128.0f; + + t->vertexUV(static_cast(0), static_cast(0 + s), static_cast(0), static_cast(ix / 128.0f + uo), static_cast((iy + s) / 128.0f + vo)); + t->vertexUV(static_cast(0 + s), static_cast(0 + s), static_cast(0), static_cast((ix + s) / 128.0f + uo), static_cast((iy + s) / 128.0f + vo)); + t->vertexUV(static_cast(0 + s), static_cast(0), static_cast(0), static_cast((ix + s) / 128.0f + uo), static_cast(iy / 128.0f + vo)); + t->vertexUV(static_cast(0), static_cast(0), static_cast(0), static_cast(ix / 128.0f + uo), static_cast(iy / 128.0f + vo)); + // target.colorBlit(texture, x + xo, y, color, ix, iy, + // charWidths[chars[i]], 8); + t->end(); + + glTranslatef(static_cast(charWidths[i]), 0, 0); + } + else + { + i = cb - 256; + + int br = ((i >> 3) & 1) * 0x55; + int r = ((i >> 2) & 1) * 0xaa + br; + int g = ((i >> 1) & 1) * 0xaa + br; + int b = ((i >> 0) & 1) * 0xaa + br; + if (i == 6) + { + r += 0x55; + } + bool darken = i >= 16; + + // color = r << 16 | g << 8 | b; + if (darken) + { + r /= 4; + g /= 4; + b /= 4; + } + glColor3f(r / 255.0f, g / 255.0f, b / 255.0f); + } + } +} + +void Font::loadUnicodePage(int page) +{ + wchar_t fileName[25]; + //String fileName = String.format("/1_2_2/font/glyph_%02X.png", page); + swprintf(fileName,25,L"/1_2_2/font/glyph_%02X.png",page); + BufferedImage *image = new BufferedImage(fileName); + //try + //{ + // image = ImageIO.read(Textures.class.getResourceAsStream(fileName.toString())); + //} + //catch (IOException e) + //{ + // throw new RuntimeException(e); + //} + + unicodeTexID[page] = textures->getTexture(image); + lastBoundTexture = unicodeTexID[page]; +} + +void Font::renderUnicodeCharacter(wchar_t c) +{ + if (unicodeWidth[c] == 0) + { + // System.out.println("no-width char " + c); + return; + } + + int page = c / 256; + + if (unicodeTexID[page] == 0) loadUnicodePage(page); + + if (lastBoundTexture != unicodeTexID[page]) + { + glBindTexture(GL_TEXTURE_2D, unicodeTexID[page]); + lastBoundTexture = unicodeTexID[page]; + } + + // first column with non-trans pixels + int firstLeft = unicodeWidth[c] >> 4; + // last column with non-trans pixels + int firstRight = unicodeWidth[c] & 0xF; + + float left = firstLeft; + float right = firstRight + 1; + + float xOff = c % 16 * 16 + left; + float yOff = (c & 0xFF) / 16 * 16; + float width = right - left - .02f; + + Tesselator *t = Tesselator::getInstance(); + t->begin(GL_TRIANGLE_STRIP); + t->tex(xOff / 256.0F, yOff / 256.0F); + t->vertex(xPos, yPos, 0.0f); + t->tex(xOff / 256.0F, (yOff + 15.98f) / 256.0F); + t->vertex(xPos, yPos + 7.99f, 0.0f); + t->tex((xOff + width) / 256.0F, yOff / 256.0F); + t->vertex(xPos + width / 2, yPos, 0.0f); + t->tex((xOff + width) / 256.0F, (yOff + 15.98f) / 256.0F); + t->vertex(xPos + width / 2, yPos + 7.99f, 0.0f); + t->end(); + + xPos += (right - left) / 2 + 1; +} +*/ + diff --git a/Minecraft.Client/Font.h b/Minecraft.Client/Font.h new file mode 100644 index 0000000..c78ea67 --- /dev/null +++ b/Minecraft.Client/Font.h @@ -0,0 +1,96 @@ +#pragma once + +class IntBuffer; +class Options; +class Textures; +class ResourceLocation; + +class Font +{ +private: + int *charWidths; +public: + int fontTexture; + Random *random; + +private: + int colors[32]; // RGB colors for formatting + + Textures *textures; + + float xPos; + float yPos; + + // § format state (bold, italic, underline, strikethrough); set during draw(), reset by §r + bool m_bold; + bool m_italic; + bool m_underline; + bool m_strikethrough; + + bool enforceUnicodeSheet; // use unicode sheet for ascii + bool bidirectional; // use bidi to flip strings + + int m_cols; // Number of columns in font sheet + int m_rows; // Number of rows in font sheet + int m_charWidth; // Maximum character width + int m_charHeight; // Maximum character height + ResourceLocation *m_textureLocation; // Texture + std::map m_charMap; + +public: + Font(Options *options, const wstring& name, Textures* textures, bool enforceUnicode, ResourceLocation *textureLocation, int cols, int rows, int charWidth, int charHeight, unsigned short charMap[] = nullptr); +#ifndef _XBOX + // 4J Stu - This dtor clashes with one in xui! We never delete these anyway so take it out for now. Can go back when we have got rid of XUI + ~Font(); +#endif + void renderFakeCB(IntBuffer *cb); // 4J added + +private: + void renderCharacter(wchar_t c); // 4J added + void addCharacterQuad(wchar_t c); + void renderStyleLine(float x0, float y0, float x1, float y1); // solid line for underline/strikethrough + +public: + void drawShadow(const wstring& str, int x, int y, int color); + void drawShadowLiteral(const wstring& str, int x, int y, int color); // draw without interpreting § codes + void drawShadowWordWrap(const wstring &str, int x, int y, int w, int color, int h); // 4J Added h param + void draw(const wstring &str, int x, int y, int color); + /** + * Reorders the string according to bidirectional levels. A bit expensive at + * the moment. + * + * @param str + * @return + */ +private: + wstring reorderBidi(const wstring &str); + + void draw(const wstring &str, bool dropShadow); + void draw(const wstring& str, int x, int y, int color, bool dropShadow); + void drawLiteral(const wstring& str, int x, int y, int color); // no § parsing + int MapCharacter(wchar_t c); // 4J added + bool CharacterExists(wchar_t c); // 4J added + +public: + int width(const wstring& str); + int widthLiteral(const wstring& str); // width without skipping § codes (for chat input) + wstring sanitize(const wstring& str); + void drawWordWrap(const wstring &string, int x, int y, int w, int col, int h); // 4J Added h param + +private: + void drawWordWrapInternal(const wstring &string, int x, int y, int w, int col, int h); // 4J Added h param + +public: + void drawWordWrap(const wstring &string, int x, int y, int w, int col, bool darken, int h); // 4J Added h param + +private: + void drawWordWrapInternal(const wstring& string, int x, int y, int w, int col, bool darken, int h); // 4J Added h param + +public: + int wordWrapHeight(const wstring& string, int w); + void setEnforceUnicodeSheet(bool enforceUnicodeSheet); + void setBidirectional(bool bidirectional); + + // 4J-PB - check for invalid player name - Japanese local name + bool AllCharactersValid(const wstring &str); +}; diff --git a/Minecraft.Client/FootstepParticle.cpp b/Minecraft.Client/FootstepParticle.cpp new file mode 100644 index 0000000..b2bfc98 --- /dev/null +++ b/Minecraft.Client/FootstepParticle.cpp @@ -0,0 +1,66 @@ +#include "stdafx.h" +#include "FootstepParticle.h" +#include "Textures.h" +#include "Tesselator.h" +#include "..\Minecraft.World\Mth.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "ResourceLocation.h" + +ResourceLocation FootstepParticle::FOOTPRINT_LOCATION = ResourceLocation(TN_MISC_FOOTSTEP); + +FootstepParticle::FootstepParticle(Textures *textures, Level *level, double x, double y, double z) : Particle(level, x, y, z, 0, 0, 0) +{ + // 4J added initialisers + life = 0; + lifeTime = 0; + + this->textures = textures; + xd = yd = zd = 0; + lifeTime = 200; +} + +void FootstepParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float time = (life + a) / lifeTime; + time = time * time; + + float alpha = 2 - time * 2; + if (alpha > 1) alpha = 1; + alpha = alpha * 0.2f; + + glDisable(GL_LIGHTING); + float r = 2 / 16.0f; + + float xx = static_cast(x - xOff); + float yy = static_cast(y - yOff); + float zz = static_cast(z - zOff); + + float br = level->getBrightness(Mth::floor(x), Mth::floor(y), Mth::floor(z)); + + textures->bindTexture(&FOOTPRINT_LOCATION); + glEnable(GL_BLEND); + glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); + + t->begin(); + t->color(br, br, br, alpha); + t->vertexUV((float)(xx - r), (float)( yy), (float)( zz + r), static_cast(0), static_cast(1)); + t->vertexUV((float)(xx + r), (float)( yy), (float)( zz + r), static_cast(1), static_cast(1)); + t->vertexUV((float)(xx + r), (float)( yy), (float)( zz - r), static_cast(1), static_cast(0)); + t->vertexUV((float)(xx - r), (float)( yy), (float)( zz - r), static_cast(0), static_cast(0)); + t->end(); + + glDisable(GL_BLEND); + glEnable(GL_LIGHTING); + +} + +void FootstepParticle::tick() +{ + life++; + if (life == lifeTime) remove(); +} + +int FootstepParticle::getParticleTexture() +{ + return ParticleEngine::ENTITY_PARTICLE_TEXTURE; +} \ No newline at end of file diff --git a/Minecraft.Client/FootstepParticle.h b/Minecraft.Client/FootstepParticle.h new file mode 100644 index 0000000..56f2b91 --- /dev/null +++ b/Minecraft.Client/FootstepParticle.h @@ -0,0 +1,21 @@ +#pragma once +#include "Particle.h" +class Textures; + +class FootstepParticle : public Particle +{ +public: + virtual eINSTANCEOF GetType() { return eType_FOOTSTEPPARTICLE; } + +private: + static ResourceLocation FOOTPRINT_LOCATION; + int life; + int lifeTime; + Textures *textures; + +public: + FootstepParticle(Textures *textures, Level *level, double x, double y, double z); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual void tick(); + virtual int getParticleTexture(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Frustum.cpp b/Minecraft.Client/Frustum.cpp new file mode 100644 index 0000000..c40f7c6 --- /dev/null +++ b/Minecraft.Client/Frustum.cpp @@ -0,0 +1,149 @@ +#include "stdafx.h" +#include "..\Minecraft.World\FloatBuffer.h" +#include "Frustum.h" + +Frustum *Frustum::frustum = new Frustum(); + +Frustum::Frustum() +{ + _proj = MemoryTracker::createFloatBuffer(16); + _modl = MemoryTracker::createFloatBuffer(16); + _clip = MemoryTracker::createFloatBuffer(16); +} + +Frustum::~Frustum() +{ + delete _proj; + delete _modl; + delete _clip; +} + + +FrustumData *Frustum::getFrustum() +{ + frustum->calculateFrustum(); + return frustum; +} + + + ///////////////////////////////// NORMALIZE PLANE \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\* + ///// + ///// This normalizes a plane (A side) from a given frustum. + ///// + ///////////////////////////////// NORMALIZE PLANE \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\* + +void Frustum::normalizePlane(float **frustum, int side) +{ + float magnitude = (float) sqrt(frustum[side][A] * frustum[side][A] + frustum[side][B] * frustum[side][B] + frustum[side][C] * frustum[side][C]); + + // Then we divide the plane's values by it's magnitude. + // This makes it easier to work with. + frustum[side][A] /= magnitude; + frustum[side][B] /= magnitude; + frustum[side][C] /= magnitude; + frustum[side][D] /= magnitude; +} + +void Frustum::calculateFrustum() +{ + _proj->clear(); + _modl->clear(); + _clip->clear(); + + // glGetFloatv() is used to extract information about our OpenGL world. + // Below, we pass in GL_PROJECTION_MATRIX to abstract our projection matrix. + // It then stores the matrix into an array of [16]. + glGetFloat(GL_PROJECTION_MATRIX, _proj); + + // By passing in GL_MODELVIEW_MATRIX, we can abstract our model view matrix. + // This also stores it in an array of [16]. + glGetFloat(GL_MODELVIEW_MATRIX, _modl); + + _proj->flip()->limit(16); + _proj->get(&proj); + _modl->flip()->limit(16); + _modl->get(&modl); + + // Now that we have our modelview and projection matrix, if we combine these 2 matrices, + // it will give us our clipping planes. To combine 2 matrices, we multiply them. + + clip[0] = modl[0] * proj[0] + modl[1] * proj[4] + modl[2] * proj[8] + modl[3] * proj[12]; + clip[1] = modl[0] * proj[1] + modl[1] * proj[5] + modl[2] * proj[9] + modl[3] * proj[13]; + clip[2] = modl[0] * proj[2] + modl[1] * proj[6] + modl[2] * proj[10] + modl[3] * proj[14]; + clip[3] = modl[0] * proj[3] + modl[1] * proj[7] + modl[2] * proj[11] + modl[3] * proj[15]; + + clip[4] = modl[4] * proj[0] + modl[5] * proj[4] + modl[6] * proj[8] + modl[7] * proj[12]; + clip[5] = modl[4] * proj[1] + modl[5] * proj[5] + modl[6] * proj[9] + modl[7] * proj[13]; + clip[6] = modl[4] * proj[2] + modl[5] * proj[6] + modl[6] * proj[10] + modl[7] * proj[14]; + clip[7] = modl[4] * proj[3] + modl[5] * proj[7] + modl[6] * proj[11] + modl[7] * proj[15]; + + clip[8] = modl[8] * proj[0] + modl[9] * proj[4] + modl[10] * proj[8] + modl[11] * proj[12]; + clip[9] = modl[8] * proj[1] + modl[9] * proj[5] + modl[10] * proj[9] + modl[11] * proj[13]; + clip[10] = modl[8] * proj[2] + modl[9] * proj[6] + modl[10] * proj[10] + modl[11] * proj[14]; + clip[11] = modl[8] * proj[3] + modl[9] * proj[7] + modl[10] * proj[11] + modl[11] * proj[15]; + + clip[12] = modl[12] * proj[0] + modl[13] * proj[4] + modl[14] * proj[8] + modl[15] * proj[12]; + clip[13] = modl[12] * proj[1] + modl[13] * proj[5] + modl[14] * proj[9] + modl[15] * proj[13]; + clip[14] = modl[12] * proj[2] + modl[13] * proj[6] + modl[14] * proj[10] + modl[15] * proj[14]; + clip[15] = modl[12] * proj[3] + modl[13] * proj[7] + modl[14] * proj[11] + modl[15] * proj[15]; + + // Now we actually want to get the sides of the frustum. To do this we take + // the clipping planes we received above and extract the sides from them. + + // This will extract the RIGHT side of the frustum + m_Frustum[RIGHT][A] = clip[3] - clip[0]; + m_Frustum[RIGHT][B] = clip[7] - clip[4]; + m_Frustum[RIGHT][C] = clip[11] - clip[8]; + m_Frustum[RIGHT][D] = clip[15] - clip[12]; + + // Now that we have a normal (A,B,C) and a distance (D) to the plane, + // we want to normalize that normal and distance. + + // Normalize the RIGHT side + normalizePlane(m_Frustum, RIGHT); + + // This will extract the LEFT side of the frustum + m_Frustum[LEFT][A] = clip[3] + clip[0]; + m_Frustum[LEFT][B] = clip[7] + clip[4]; + m_Frustum[LEFT][C] = clip[11] + clip[8]; + m_Frustum[LEFT][D] = clip[15] + clip[12]; + + // Normalize the LEFT side + normalizePlane(m_Frustum, LEFT); + + // This will extract the BOTTOM side of the frustum + m_Frustum[BOTTOM][A] = clip[3] + clip[1]; + m_Frustum[BOTTOM][B] = clip[7] + clip[5]; + m_Frustum[BOTTOM][C] = clip[11] + clip[9]; + m_Frustum[BOTTOM][D] = clip[15] + clip[13]; + + // Normalize the BOTTOM side + normalizePlane(m_Frustum, BOTTOM); + + // This will extract the TOP side of the frustum + m_Frustum[TOP][A] = clip[3] - clip[1]; + m_Frustum[TOP][B] = clip[7] - clip[5]; + m_Frustum[TOP][C] = clip[11] - clip[9]; + m_Frustum[TOP][D] = clip[15] - clip[13]; + + // Normalize the TOP side + normalizePlane(m_Frustum, TOP); + + // This will extract the BACK side of the frustum + m_Frustum[BACK][A] = clip[3] - clip[2]; + m_Frustum[BACK][B] = clip[7] - clip[6]; + m_Frustum[BACK][C] = clip[11] - clip[10]; + m_Frustum[BACK][D] = clip[15] - clip[14]; + + // Normalize the BACK side + normalizePlane(m_Frustum, BACK); + + // This will extract the FRONT side of the frustum + m_Frustum[FRONT][A] = clip[3] + clip[2]; + m_Frustum[FRONT][B] = clip[7] + clip[6]; + m_Frustum[FRONT][C] = clip[11] + clip[10]; + m_Frustum[FRONT][D] = clip[15] + clip[14]; + + // Normalize the FRONT side + normalizePlane(m_Frustum, FRONT); +} \ No newline at end of file diff --git a/Minecraft.Client/Frustum.h b/Minecraft.Client/Frustum.h new file mode 100644 index 0000000..4ce3716 --- /dev/null +++ b/Minecraft.Client/Frustum.h @@ -0,0 +1,29 @@ +#pragma once +#include "FrustumData.h" + +class Frustum : public FrustumData +{ +private: + static Frustum *frustum; + +public: + static FrustumData *getFrustum(); + + ///////////////////////////////// NORMALIZE PLANE \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\* + ///// + ///// This normalizes a plane (A side) from a given frustum. + ///// + ///////////////////////////////// NORMALIZE PLANE \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\* + +private: + void normalizePlane(float **frustum, int side); + + FloatBuffer *_proj; + FloatBuffer *_modl; + FloatBuffer *_clip; + + void calculateFrustum(); + + Frustum(); + ~Frustum(); +}; \ No newline at end of file diff --git a/Minecraft.Client/FrustumCuller.cpp b/Minecraft.Client/FrustumCuller.cpp new file mode 100644 index 0000000..da4abd4 --- /dev/null +++ b/Minecraft.Client/FrustumCuller.cpp @@ -0,0 +1,29 @@ +#include "stdafx.h" +#include "FrustumCuller.h" + +FrustumCuller::FrustumCuller() +{ + frustum = Frustum::getFrustum(); +} + +void FrustumCuller::prepare(double xOff, double yOff, double zOff) +{ + this->xOff = xOff; + this->yOff = yOff; + this->zOff = zOff; +} + +bool FrustumCuller::cubeFullyInFrustum(double x0, double y0, double z0, double x1, double y1, double z1) +{ + return frustum->cubeFullyInFrustum(x0 - xOff, y0 - yOff, z0 - zOff, x1 - xOff, y1 - yOff, z1 - zOff); +} + +bool FrustumCuller::cubeInFrustum(double x0, double y0, double z0, double x1, double y1, double z1) +{ + return frustum->cubeInFrustum(x0 - xOff, y0 - yOff, z0 - zOff, x1 - xOff, y1 - yOff, z1 - zOff); +} + +bool FrustumCuller::isVisible(AABB *bb) +{ + return cubeInFrustum(bb->x0, bb->y0, bb->z0, bb->x1, bb->y1, bb->z1); +} \ No newline at end of file diff --git a/Minecraft.Client/FrustumCuller.h b/Minecraft.Client/FrustumCuller.h new file mode 100644 index 0000000..962f850 --- /dev/null +++ b/Minecraft.Client/FrustumCuller.h @@ -0,0 +1,16 @@ +#include "stdafx.h" +#include "Culler.h" +#include "Frustum.h" + +class FrustumCuller : public Culler +{ +public: + FrustumData *frustum; + FrustumCuller(); + double xOff, yOff, zOff; +public: + virtual void prepare(double xOff, double yOff, double zOff); + virtual bool cubeFullyInFrustum(double x0, double y0, double z0, double x1, double y1, double z1); + virtual bool cubeInFrustum(double x0, double y0, double z0, double x1, double y1, double z1); + virtual bool isVisible(AABB *bb); +}; diff --git a/Minecraft.Client/FrustumData.cpp b/Minecraft.Client/FrustumData.cpp new file mode 100644 index 0000000..177a51f --- /dev/null +++ b/Minecraft.Client/FrustumData.cpp @@ -0,0 +1,90 @@ +#include "stdafx.h" +#include "FrustumData.h" + +float** m_Frustum; + + +FrustumData::FrustumData() +{ + m_Frustum = new float *[16]; + for( int i = 0; i < 16; i++ ) m_Frustum[i] = new float[16]; + proj = floatArray( 16 ); + modl = floatArray( 16 ); + clip = floatArray( 16 ); +} + +FrustumData::~FrustumData() +{ + delete[] proj.data; + delete[] modl.data; + delete[] clip.data; + for( int i = 0; i < 16; i++ ) delete[] m_Frustum[i]; + delete[] m_Frustum; +} + +bool FrustumData::pointInFrustum(float x, float y, float z) +{ + for (int i = 0; i < 6; i++) + { + if (m_Frustum[i][A] * x + m_Frustum[i][B] * y + m_Frustum[i][C] * z + m_Frustum[i][D] <= 0) + { + return false; + } + } + + return true; +} + +bool FrustumData::sphereInFrustum(float x, float y, float z, float radius) +{ + for (int i = 0; i < 6; i++) + { + if (m_Frustum[i][A] * x + m_Frustum[i][B] * y + m_Frustum[i][C] * z + m_Frustum[i][D] <= -radius) + { + return false; + } + } + + return true; +} + +bool FrustumData::cubeFullyInFrustum(double x1, double y1, double z1, double x2, double y2, double z2) +{ + for (int i = 0; i < 6; i++) + { + if (!(m_Frustum[i][A] * (x1) + m_Frustum[i][B] * (y1) + m_Frustum[i][C] * (z1) + m_Frustum[i][D] > 0)) return false; + if (!(m_Frustum[i][A] * (x2) + m_Frustum[i][B] * (y1) + m_Frustum[i][C] * (z1) + m_Frustum[i][D] > 0)) return false; + if (!(m_Frustum[i][A] * (x1) + m_Frustum[i][B] * (y2) + m_Frustum[i][C] * (z1) + m_Frustum[i][D] > 0)) return false; + if (!(m_Frustum[i][A] * (x2) + m_Frustum[i][B] * (y2) + m_Frustum[i][C] * (z1) + m_Frustum[i][D] > 0)) return false; + if (!(m_Frustum[i][A] * (x1) + m_Frustum[i][B] * (y1) + m_Frustum[i][C] * (z2) + m_Frustum[i][D] > 0)) return false; + if (!(m_Frustum[i][A] * (x2) + m_Frustum[i][B] * (y1) + m_Frustum[i][C] * (z2) + m_Frustum[i][D] > 0)) return false; + if (!(m_Frustum[i][A] * (x1) + m_Frustum[i][B] * (y2) + m_Frustum[i][C] * (z2) + m_Frustum[i][D] > 0)) return false; + if (!(m_Frustum[i][A] * (x2) + m_Frustum[i][B] * (y2) + m_Frustum[i][C] * (z2) + m_Frustum[i][D] > 0)) return false; + } + + return true; +} + +bool FrustumData::cubeInFrustum(double x1, double y1, double z1, double x2, double y2, double z2) +{ + for (int i = 0; i < 6; i++) + { + if (m_Frustum[i][A] * (x1) + m_Frustum[i][B] * (y1) + m_Frustum[i][C] * (z1) + m_Frustum[i][D] > 0) continue; + if (m_Frustum[i][A] * (x2) + m_Frustum[i][B] * (y1) + m_Frustum[i][C] * (z1) + m_Frustum[i][D] > 0) continue; + if (m_Frustum[i][A] * (x1) + m_Frustum[i][B] * (y2) + m_Frustum[i][C] * (z1) + m_Frustum[i][D] > 0) continue; + if (m_Frustum[i][A] * (x2) + m_Frustum[i][B] * (y2) + m_Frustum[i][C] * (z1) + m_Frustum[i][D] > 0) continue; + if (m_Frustum[i][A] * (x1) + m_Frustum[i][B] * (y1) + m_Frustum[i][C] * (z2) + m_Frustum[i][D] > 0) continue; + if (m_Frustum[i][A] * (x2) + m_Frustum[i][B] * (y1) + m_Frustum[i][C] * (z2) + m_Frustum[i][D] > 0) continue; + if (m_Frustum[i][A] * (x1) + m_Frustum[i][B] * (y2) + m_Frustum[i][C] * (z2) + m_Frustum[i][D] > 0) continue; + if (m_Frustum[i][A] * (x2) + m_Frustum[i][B] * (y2) + m_Frustum[i][C] * (z2) + m_Frustum[i][D] > 0) continue; + + return false; + } + + return true; +} + +bool FrustumData::isVisible(AABB *aabb) +{ + return cubeInFrustum(aabb->x0, aabb->y0, aabb->z0, aabb->x1, aabb->y1, aabb->z1); +} \ No newline at end of file diff --git a/Minecraft.Client/FrustumData.h b/Minecraft.Client/FrustumData.h new file mode 100644 index 0000000..7285f14 --- /dev/null +++ b/Minecraft.Client/FrustumData.h @@ -0,0 +1,35 @@ +#pragma once +#include "..\Minecraft.World\AABB.h" + +class FrustumData +{ +public: + //enum FrustumSide + static const int RIGHT = 0; // The RIGHT side of the frustum + static const int LEFT = 1; // The LEFT side of the frustum + static const int BOTTOM = 2; // The BOTTOM side of the frustum + static const int TOP = 3; // The TOP side of the frustum + static const int BACK = 4; // The BACK side of the frustum + static const int FRONT = 5; // The FRONT side of the frustum + + // Like above, instead of saying a number for the ABC and D of the plane, we + // want to be more descriptive. + static const int A = 0; // The X value of the plane's normal + static const int B = 1; // The Y value of the plane's normal + static const int C = 2; // The Z value of the plane's normal + static const int D = 3; // The distance the plane is from the origin + + float** m_Frustum; + floatArray proj; + floatArray modl; + floatArray clip; + + FrustumData(); + ~FrustumData(); + + bool pointInFrustum(float x, float y, float z); + bool sphereInFrustum(float x, float y, float z, float radius); + bool cubeFullyInFrustum(double x1, double y1, double z1, double x2, double y2, double z2); + bool cubeInFrustum(double x1, double y1, double z1, double x2, double y2, double z2); + bool isVisible(AABB *aabb); +}; \ No newline at end of file diff --git a/Minecraft.Client/GameMode.cpp b/Minecraft.Client/GameMode.cpp new file mode 100644 index 0000000..a11d6c0 --- /dev/null +++ b/Minecraft.Client/GameMode.cpp @@ -0,0 +1,182 @@ +#include "stdafx.h" +#include "GameMode.h" +#include "LocalPlayer.h" +#include "LevelRenderer.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\net.minecraft.world.inventory.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.level.chunk.h" + +GameMode::GameMode(Minecraft *minecraft) +{ + instaBuild = false; // 4J - added + this->minecraft = minecraft; +} + +void GameMode::initLevel(Level *level) +{ +} + +bool GameMode::destroyBlock(int x, int y, int z, int face) +{ + Level *level = minecraft->level; + Tile *oldTile = Tile::tiles[level->getTile(x, y, z)]; + if (oldTile == NULL) return false; + + // 4J - Let the rendering side of thing know we are about to destroy the tile, so we can synchronise collision with async render data upates. + minecraft->levelRenderer->destroyedTileManager->destroyingTileAt(level, x, y, z); + level->levelEvent(LevelEvent::PARTICLES_DESTROY_BLOCK, x, y, z, oldTile->id + (level->getData(x, y, z) << Tile::TILE_NUM_SHIFT)); + int data = level->getData(x, y, z); + // 4J - before we remove the tile, recalc the heightmap - setTile depends on this being valid to be able to do + // a quick update of skylighting when the block is removed, and there are cases with falling tiles where this can get out of sync + level->getChunkAt(x,z)->recalcHeightmapOnly(); + bool changed = level->setTile(x, y, z, 0); + + if (oldTile != NULL && changed) + { + oldTile->destroy(level, x, y, z, data); + } + return changed; +} + +void GameMode::render(float a) +{ +} + +bool GameMode::useItem(shared_ptr player, Level *level, shared_ptr item, bool bTestUseOnly) +{ +} + +void GameMode::initPlayer(shared_ptr player) +{ +} + +void GameMode::tick() +{ +} + +void GameMode::adjustPlayer(shared_ptr player) +{ +} + +//bool GameMode::useItemOn(shared_ptr player, Level *level, shared_ptr item, int x, int y, int z, int face, bool bTestUseOnOnly) +//{ +// // 4J-PB - Adding a test only version to allow tooltips to be displayed +// int t = level->getTile(x, y, z); +// if (t > 0) +// { +// if(bTestUseOnOnly) +// { +// switch(t) +// { +// case Tile::recordPlayer_Id: +// case Tile::bed_Id: // special case for a bed +// if (Tile::tiles[t]->TestUse(level, x, y, z, player )) +// { +// return true; +// } +// else +// { +// // bed is too far away, or something +// return false; +// } +// break; +// default: +// if (Tile::tiles[t]->TestUse()) return true; +// break; +// } +// } +// else +// { +// if (Tile::tiles[t]->use(level, x, y, z, player )) return true; +// } +// } +// +// if (item == NULL) return false; +// return item->useOn(player, level, x, y, z, face, bTestUseOnOnly); +//} + + +shared_ptr GameMode::createPlayer(Level *level) +{ + return shared_ptr( new LocalPlayer(minecraft, level, minecraft->user, level->dimension->id) ); +} + +bool GameMode::interact(shared_ptr player, shared_ptr entity) +{ + return player->interact(entity); +} + +void GameMode::attack(shared_ptr player, shared_ptr entity) +{ + player->attack(entity); +} + +shared_ptr GameMode::handleInventoryMouseClick(int containerId, int slotNum, int buttonNum, bool quickKeyHeld, shared_ptr player) +{ + return nullptr; +} + +void GameMode::handleCloseInventory(int containerId, shared_ptr player) +{ + player->containerMenu->removed(player); + delete player->containerMenu; + player->containerMenu = player->inventoryMenu; +} + +void GameMode::handleInventoryButtonClick(int containerId, int buttonId) +{ + +} + +bool GameMode::isCutScene() +{ + return false; +} + +void GameMode::releaseUsingItem(shared_ptr player) +{ + player->releaseUsingItem(); +} + +bool GameMode::hasExperience() +{ + return false; +} + +bool GameMode::hasMissTime() +{ + return true; +} + +bool GameMode::hasInfiniteItems() +{ + return false; +} + +bool GameMode::hasFarPickRange() +{ + return false; +} + +void GameMode::handleCreativeModeItemAdd(shared_ptr clicked, int i) +{ +} + +void GameMode::handleCreativeModeItemDrop(shared_ptr clicked) +{ +} + +bool GameMode::handleCraftItem(int recipe, shared_ptr player) +{ + return true; +} + +// 4J-PB +void GameMode::handleDebugOptions(unsigned int uiVal, shared_ptr player) +{ + player->SetDebugOptions(uiVal); +} diff --git a/Minecraft.Client/GameMode.h b/Minecraft.Client/GameMode.h new file mode 100644 index 0000000..ab9ec9d --- /dev/null +++ b/Minecraft.Client/GameMode.h @@ -0,0 +1,59 @@ +#pragma once + +class Minecraft; +class Level; +class Player; +class ItemInstance; +class Entity; + +class Tutorial; + +class GameMode +{ +protected: + Minecraft *minecraft; +public: + bool instaBuild; + + GameMode(Minecraft *minecraft); + virtual ~GameMode() {} + + virtual void initLevel(Level *level) ; + virtual void startDestroyBlock(int x, int y, int z, int face) = 0; + virtual bool destroyBlock(int x, int y, int z, int face); + virtual void continueDestroyBlock(int x, int y, int z, int face) = 0; + virtual void stopDestroyBlock() = 0; + virtual void render(float a); + virtual float getPickRange() = 0; + virtual void initPlayer(shared_ptr player); + virtual void tick(); + virtual bool canHurtPlayer() = 0; + virtual void adjustPlayer(shared_ptr player); + virtual bool useItem(shared_ptr player, Level *level, shared_ptr item, bool bTestUseOnly=false); + virtual bool useItemOn(shared_ptr player, Level *level, shared_ptr item, int x, int y, int z, int face, bool bTestUseOnOnly=false, bool *pbUsedItem = NULL) = 0; + + virtual shared_ptr createPlayer(Level *level); + virtual bool interact(shared_ptr player, shared_ptr entity); + virtual void attack(shared_ptr player, shared_ptr entity); + virtual shared_ptr handleInventoryMouseClick(int containerId, int slotNum, int buttonNum, bool quickKeyHeld, shared_ptr player); + virtual void handleCloseInventory(int containerId, shared_ptr player); + virtual void handleInventoryButtonClick(int containerId, int buttonId); + + virtual bool isCutScene(); + virtual void releaseUsingItem(shared_ptr player); + virtual bool hasExperience(); + virtual bool hasMissTime(); + virtual bool hasInfiniteItems(); + virtual bool hasFarPickRange(); + virtual void handleCreativeModeItemAdd(shared_ptr clicked, int i); + virtual void handleCreativeModeItemDrop(shared_ptr clicked); + + // 4J Stu - Added so we can send packets for this in the network game + virtual bool handleCraftItem(int recipe, shared_ptr player); + virtual void handleDebugOptions(unsigned int uiVal, shared_ptr player); + + // 4J Stu - Added for tutorial checks + virtual bool isInputAllowed(int mapping) { return true; } + virtual bool isTutorial() { return false; } + virtual Tutorial *getTutorial() { return NULL; } +}; diff --git a/Minecraft.Client/GameRenderer.cpp b/Minecraft.Client/GameRenderer.cpp new file mode 100644 index 0000000..ba3906a --- /dev/null +++ b/Minecraft.Client/GameRenderer.cpp @@ -0,0 +1,225 @@ +#include "stdafx.h" +#include "GameRenderer.h" +#include "Frustum.h" +#include "FrustumCuller.h" +#include "Textures.h" +#include "Tesselator.h" +#include "ParticleEngine.h" +#include "SmokeParticle.h" +#include "WaterDropParticle.h" +#include "GameMode.h" +#include "CreativeMode.h" +#include "Lighting.h" +#include "Options.h" +#include "MultiplayerLocalPlayer.h" +#include "MultiPlayerLevel.h" +#include "Chunk.h" +#include "..\Minecraft.World\net.minecraft.world.entity.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.item.enchantment.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.material.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "..\Minecraft.World\net.minecraft.world.level.biome.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\net.minecraft.world.phys.h" +#include "..\Minecraft.World\System.h" +#include "..\Minecraft.World\FloatBuffer.h" +#include "..\Minecraft.World\ThreadName.h" +#include "..\Minecraft.World\SparseLightStorage.h" +#include "..\Minecraft.World\CompressedTileStorage.h" +#include "..\Minecraft.World\SparseDataStorage.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\Facing.h" +#include "..\Minecraft.World\MobEffect.h" +#include "..\Minecraft.World\IntCache.h" +#include "..\Minecraft.World\SmoothFloat.h" +#include "..\Minecraft.World\MobEffectInstance.h" +#include "..\Minecraft.World\Item.h" +#include "Camera.h" +#include "..\Minecraft.World\SoundTypes.h" +#include "..\Minecraft.World\Item.h" +#include "..\Minecraft.World\compression.h" +#include "BossMobGuiInfo.h" + +#include "TexturePackRepository.h" +#include "TexturePack.h" +#include "TextureAtlas.h" + +#ifdef MULTITHREAD_ENABLE +C4JThread* GameRenderer::m_updateThread; +C4JThread::EventArray* GameRenderer::m_updateEvents; +bool GameRenderer::nearThingsToDo = false; +bool GameRenderer::updateRunning = false; +vector GameRenderer::m_deleteStackByte; +vector GameRenderer::m_deleteStackSparseLightStorage; +vector GameRenderer::m_deleteStackCompressedTileStorage; +vector GameRenderer::m_deleteStackSparseDataStorage; +#endif +CRITICAL_SECTION GameRenderer::m_csDeleteStack; + +ResourceLocation GameRenderer::RAIN_LOCATION = ResourceLocation(TN_ENVIRONMENT_RAIN); +ResourceLocation GameRenderer::SNOW_LOCATION = ResourceLocation(TN_ENVIRONMENT_SNOW); + +GameRenderer::GameRenderer(Minecraft *mc) +{ + +#ifdef MULTITHREAD_ENABLE + m_updateEvents = new C4JThread::EventArray(eUpdateEventCount, C4JThread::EventArray::e_modeAutoClear); + m_updateEvents->Set(eUpdateEventIsFinished); + + InitializeCriticalSection(&m_csDeleteStack); + m_updateThread = new C4JThread(runUpdate, nullptr, "Chunk update"); +#ifdef __PS3__ + m_updateThread->SetPriority(THREAD_PRIORITY_ABOVE_NORMAL); +#endif// __PS3__ + m_updateThread->SetProcessor(CPU_CORE_CHUNK_UPDATE); + m_updateThread->Run(); +#endif +} + +// 4J Stu Added to go with 1.8.2 change +GameRenderer::~GameRenderer() { } + + +#ifdef MULTITHREAD_ENABLE +// Request that an item be deleted, when it is safe to do so +void GameRenderer::AddForDelete(byte *deleteThis) +{ + EnterCriticalSection(&m_csDeleteStack); + m_deleteStackByte.push_back(deleteThis); +} + +void GameRenderer::AddForDelete(SparseLightStorage *deleteThis) +{ + EnterCriticalSection(&m_csDeleteStack); + m_deleteStackSparseLightStorage.push_back(deleteThis); +} + +void GameRenderer::AddForDelete(CompressedTileStorage *deleteThis) +{ + EnterCriticalSection(&m_csDeleteStack); + m_deleteStackCompressedTileStorage.push_back(deleteThis); +} + +void GameRenderer::AddForDelete(SparseDataStorage *deleteThis) +{ + EnterCriticalSection(&m_csDeleteStack); + m_deleteStackSparseDataStorage.push_back(deleteThis); +} + +void GameRenderer::FinishedReassigning() +{ + LeaveCriticalSection(&m_csDeleteStack); +} + +int GameRenderer::runUpdate(LPVOID lpParam) +{ + Minecraft *minecraft = Minecraft::GetInstance(); + Vec3::CreateNewThreadStorage(); + AABB::CreateNewThreadStorage(); + IntCache::CreateNewThreadStorage(); + Tesselator::CreateNewThreadStorage(1024*1024); + Compression::UseDefaultThreadStorage(); + //RenderManager.InitialiseContext(); +#ifdef _LARGE_WORLDS + Chunk::CreateNewThreadStorage(); +#endif + Tile::CreateNewThreadStorage(); + + while(true) + { + //m_updateEvents->Clear(eUpdateEventIsFinished); + //m_updateEvents->WaitForSingle(eUpdateCanRun,INFINITE); + // 4J Stu - We Need to have this happen atomically to avoid deadlocks + m_updateEvents->WaitForAll(INFINITE); + + m_updateEvents->Set(eUpdateCanRun); + + // PIXBeginNamedEvent(0,"Updating dirty chunks %d",(count++)&7); + + // Update chunks atomically until there aren't any very near ones left - they will be deferred for rendering + // until the call to CBuffDeferredModeEnd if we have anything near to render here + // Now limiting maximum number of updates that can be deferred as have noticed that with redstone clock circuits, it is possible to create + // things that need constant updating, so if you stand near them, the render data Never gets updated and the game just keeps going until it runs out of render memory... + int count = 0; + static const int MAX_DEFERRED_UPDATES = 10; + bool shouldContinue = false; + do + { + shouldContinue = minecraft->levelRenderer->updateDirtyChunks(); + count++; + } while ( shouldContinue && count < MAX_DEFERRED_UPDATES ); + + // while( minecraft->levelRenderer->updateDirtyChunks() ) + // ; + RenderManager.CBuffDeferredModeEnd(); + + // If any renderable tile entities were flagged in this last block of chunk(s) that were udpated, then change their + // flags to say that this deferred chunk is over and they are actually safe to be removed now + minecraft->levelRenderer->fullyFlagRenderableTileEntitiesToBeRemoved(); + + // We've got stacks for things that can only safely be deleted whilst this thread isn't updating things - delete those things now + EnterCriticalSection(&m_csDeleteStack); + for(unsigned int i = 0; i < m_deleteStackByte.size(); i++ ) + { + delete m_deleteStackByte[i]; + } + m_deleteStackByte.clear(); + for(unsigned int i = 0; i < m_deleteStackSparseLightStorage.size(); i++ ) + { + delete m_deleteStackSparseLightStorage[i]; + } + m_deleteStackSparseLightStorage.clear(); + for(unsigned int i = 0; i < m_deleteStackCompressedTileStorage.size(); i++ ) + { + delete m_deleteStackCompressedTileStorage[i]; + } + m_deleteStackCompressedTileStorage.clear(); + for(unsigned int i = 0; i < m_deleteStackSparseDataStorage.size(); i++ ) + { + delete m_deleteStackSparseDataStorage[i]; + } + m_deleteStackSparseDataStorage.clear(); + LeaveCriticalSection(&m_csDeleteStack); + + // PIXEndNamedEvent(); + + AABB::resetPool(); + Vec3::resetPool(); + IntCache::Reset(); + m_updateEvents->Set(eUpdateEventIsFinished); + } + + return 0; +} +#endif + +void GameRenderer::EnableUpdateThread() +{ + // #ifdef __PS3__ // MGH - disable the update on PS3 for now + // return; + // #endif +#ifdef MULTITHREAD_ENABLE + if( updateRunning) return; + app.DebugPrintf("------------------EnableUpdateThread--------------------\n"); + updateRunning = true; + m_updateEvents->Set(eUpdateCanRun); + m_updateEvents->Set(eUpdateEventIsFinished); +#endif +} + +void GameRenderer::DisableUpdateThread() +{ + // #ifdef __PS3__ // MGH - disable the update on PS3 for now + // return; + // #endif +#ifdef MULTITHREAD_ENABLE + if( !updateRunning) return; + app.DebugPrintf("------------------DisableUpdateThread--------------------\n"); + updateRunning = false; + m_updateEvents->Clear(eUpdateCanRun); + m_updateEvents->WaitForSingle(eUpdateEventIsFinished,INFINITE); +#endif +} \ No newline at end of file diff --git a/Minecraft.Client/GameRenderer.h b/Minecraft.Client/GameRenderer.h new file mode 100644 index 0000000..156d1be --- /dev/null +++ b/Minecraft.Client/GameRenderer.h @@ -0,0 +1,59 @@ +#pragma once + +#ifdef _WIN64 +#include +#endif + +class Minecraft; +class Entity; +class Random; +class FloatBuffer; +class DataLayer; +class SparseLightStorage; +class CompressedTileStorage; +class SparseDataStorage; + +#include "..\Minecraft.World\SmoothFloat.h" +#include "..\Minecraft.World\C4JThread.h" +#include "ResourceLocation.h" + +class GameRenderer +{ +private: + static ResourceLocation RAIN_LOCATION; + static ResourceLocation SNOW_LOCATION; + +public: + + static const int NUM_LIGHT_TEXTURES = 4;// * 3; + + GameRenderer(Minecraft* mc); + ~GameRenderer(); + + +#ifdef MULTITHREAD_ENABLE + static C4JThread* m_updateThread; + static int runUpdate(LPVOID lpParam); + static C4JThread::EventArray* m_updateEvents; + enum EUpdateEvents + { + eUpdateCanRun, + eUpdateEventIsFinished, + eUpdateEventCount, + }; + static bool nearThingsToDo; + static bool updateRunning; +#endif + static vector m_deleteStackByte; + static vector m_deleteStackSparseLightStorage; + static vector m_deleteStackCompressedTileStorage; + static vector m_deleteStackSparseDataStorage; + static CRITICAL_SECTION m_csDeleteStack; + static void AddForDelete(byte *deleteThis); + static void AddForDelete(SparseLightStorage *deleteThis); + static void AddForDelete(CompressedTileStorage *deleteThis); + static void AddForDelete(SparseDataStorage *deleteThis); + static void FinishedReassigning(); + void EnableUpdateThread(); + void DisableUpdateThread(); +}; diff --git a/Minecraft.Client/GamemodeCommand.h b/Minecraft.Client/GamemodeCommand.h new file mode 100644 index 0000000..b8b6a1e --- /dev/null +++ b/Minecraft.Client/GamemodeCommand.h @@ -0,0 +1,17 @@ +#pragma once +#include "GenericCommand.h" +#include "MinecraftServer.h" +#include "Common/Consoles_App.h" +#include "Common/App_enums.h" +#include "Windows64/Windows64_App.h" +#include "PlayerList.h" +#include "../Minecraft.Server/Utils/Logger.h" + +class GamemodeCommand : public GenericCommand { +public: + GamemodeCommand(const wchar_t* _name, const wchar_t* _description) : GenericCommand(_name, _description) {}; + + void Execute(CommandSenderType senderType, std::vector& args, std::shared_ptr player) override { + + } +}; \ No newline at end of file diff --git a/Minecraft.Client/GenericCommand.h b/Minecraft.Client/GenericCommand.h new file mode 100644 index 0000000..a66d173 --- /dev/null +++ b/Minecraft.Client/GenericCommand.h @@ -0,0 +1,24 @@ +#pragma once +#include +#include +#include + +enum CommandSenderType { + ConsoleSender, + PlayerSender, + + CommandSender_Count +}; + +class GenericCommand { +public: + GenericCommand(const wchar_t* _name, const wchar_t* _description) : name(_name), description(_description) {}; + ~GenericCommand() = default; + + virtual void Execute(CommandSenderType senderType, std::vector& args, std::shared_ptr player) {}; + + const wchar_t* GetName() const { return this->name; } +private: + const wchar_t* name; + const wchar_t* description; +}; \ No newline at end of file diff --git a/Minecraft.Client/GuiMessage.cpp b/Minecraft.Client/GuiMessage.cpp new file mode 100644 index 0000000..6a7fa7e --- /dev/null +++ b/Minecraft.Client/GuiMessage.cpp @@ -0,0 +1,8 @@ +#include "stdafx.h" +#include "GuiMessage.h" + +GuiMessage::GuiMessage(const wstring& string) +{ + this->string = string; + ticks = 0; +} \ No newline at end of file diff --git a/Minecraft.Client/GuiMessage.h b/Minecraft.Client/GuiMessage.h new file mode 100644 index 0000000..dac9a9e --- /dev/null +++ b/Minecraft.Client/GuiMessage.h @@ -0,0 +1,10 @@ +#pragma once +using namespace std; + +class GuiMessage +{ +public: + wstring string; + int ticks; + GuiMessage(const wstring& string); +}; \ No newline at end of file diff --git a/Minecraft.Client/HeartParticle.cpp b/Minecraft.Client/HeartParticle.cpp new file mode 100644 index 0000000..24576c6 --- /dev/null +++ b/Minecraft.Client/HeartParticle.cpp @@ -0,0 +1,66 @@ +#include "stdafx.h" +#include "HeartParticle.h" + +// 4J - added +void HeartParticle::init(Level *level, double x, double y, double z, double xa, double ya, double za, float scale) +{ + xd *= 0.01f; + yd *= 0.01f; + zd *= 0.01f; + yd += 0.1; + + size *= 0.75f; + size *= scale; + oSize = size; + + lifetime = 16; + noPhysics = false; + + + setMiscTex(16 * 5); +} + +HeartParticle::HeartParticle(Level *level, double x, double y, double z, double xa, double ya, double za) : Particle(level, x, y, z, 0, 0, 0) +{ + init(level, x, y, z, xa, ya, za, 2); +} + +HeartParticle::HeartParticle(Level *level, double x, double y, double z, double xa, double ya, double za, float scale) : Particle(level, x, y, z, 0, 0, 0) +{ + init(level,x,y,z,xa,ya,za,scale); +} + +void HeartParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float l = ((age + a) / lifetime) * 32; + if (l < 0) l = 0; + if (l > 1) l = 1; + + size = oSize * l; + Particle::render(t, a, xa, ya, za, xa2, za2); +} + +void HeartParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + if (age++ >= lifetime) remove(); + + move(xd, yd, zd); + if (y == yo) + { + xd *= 1.1; + zd *= 1.1; + } + xd *= 0.86f; + yd *= 0.86f; + zd *= 0.86f; + + if (onGround) + { + xd *= 0.7f; + zd *= 0.7f; + } +} \ No newline at end of file diff --git a/Minecraft.Client/HeartParticle.h b/Minecraft.Client/HeartParticle.h new file mode 100644 index 0000000..f249325 --- /dev/null +++ b/Minecraft.Client/HeartParticle.h @@ -0,0 +1,19 @@ +#pragma once +#include "Particle.h" + +class HeartParticle : public Particle +{ +public: + virtual eINSTANCEOF GetType() { return eType_HEARTPARTICLE; } +private: + void init(Level *level, double x, double y, double z, double xa, double ya, double za, float scale); // 4J added +public: + HeartParticle(Level *level, double x, double y, double z, double xa, double ya, double za); + + float oSize; + + HeartParticle(Level *level, double x, double y, double z, double xa, double ya, double za, float scale); + + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual void tick(); +}; diff --git a/Minecraft.Client/HttpTexture.cpp b/Minecraft.Client/HttpTexture.cpp new file mode 100644 index 0000000..0f452e8 --- /dev/null +++ b/Minecraft.Client/HttpTexture.cpp @@ -0,0 +1,12 @@ +#include "stdafx.h" +#include "HttpTexture.h" + +HttpTexture::HttpTexture(const wstring& _url, HttpTextureProcessor *processor) +{ + // 4J - added + count = 1; + id = -1; + isLoaded = false; + + // 4J - TODO - actually implement +} \ No newline at end of file diff --git a/Minecraft.Client/HttpTexture.h b/Minecraft.Client/HttpTexture.h new file mode 100644 index 0000000..469ef6c --- /dev/null +++ b/Minecraft.Client/HttpTexture.h @@ -0,0 +1,14 @@ +#pragma once +class BufferedImage; +class HttpTextureProcessor; +using namespace std; + +class HttpTexture { +public: + BufferedImage *loadedImage; + int count; + int id; + bool isLoaded; + + HttpTexture(const wstring& _url, HttpTextureProcessor *processor); +}; \ No newline at end of file diff --git a/Minecraft.Client/HttpTextureProcessor.h b/Minecraft.Client/HttpTextureProcessor.h new file mode 100644 index 0000000..a585a03 --- /dev/null +++ b/Minecraft.Client/HttpTextureProcessor.h @@ -0,0 +1,8 @@ +#pragma once +class BufferedImage; + +class HttpTextureProcessor +{ +public: + virtual BufferedImage *process(BufferedImage *read) = 0; +}; \ No newline at end of file diff --git a/Minecraft.Client/HugeExplosionParticle.cpp b/Minecraft.Client/HugeExplosionParticle.cpp new file mode 100644 index 0000000..276b1d1 --- /dev/null +++ b/Minecraft.Client/HugeExplosionParticle.cpp @@ -0,0 +1,85 @@ +#include "stdafx.h" +#include "HugeExplosionParticle.h" +#include "..\Minecraft.World\Random.h" +#include "Textures.h" +#include "Tesselator.h" +#include "Lighting.h" +#include "ResourceLocation.h" + +ResourceLocation HugeExplosionParticle::EXPLOSION_LOCATION = ResourceLocation(TN_MISC_EXPLOSION); + +HugeExplosionParticle::HugeExplosionParticle(Textures *textures, Level *level, double x, double y, double z, double xa, double ya, double za) : Particle(level,x,y,z,0,0,0) +{ + life = 0; + + this->textures = textures; + lifeTime = 6 + random->nextInt(4); + + // rCol = gCol = bCol = random->nextFloat() * 0.6f + 0.4f; + + unsigned int clr = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_HugeExplosion ); //0x999999 + double r = ( (clr>>16)&0xFF )/255.0f, g = ( (clr>>8)&0xFF )/255.0, b = ( clr&0xFF )/255.0; + + double br = random->nextFloat() * 0.6 + 0.4; + rCol = r * br; + gCol = g * br; + bCol = b * br; + + size = 1 - static_cast(xa) * 0.5f; +} + +void HugeExplosionParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + int tex = static_cast((life + a) * 15 / lifeTime); + if (tex > 15) return; + textures->bindTexture(&EXPLOSION_LOCATION); + + float u0 = (tex % 4) / 4.0f; + float u1 = u0 + 0.999f / 4.0f; + float v0 = (tex / 4) / 4.0f; + float v1 = v0 + 0.999f / 4.0f; + + float r = 2.0f * size; + + float x = static_cast(xo + (this->x - xo) * a - xOff); + float y = static_cast(yo + (this->y - yo) * a - yOff); + float z = static_cast(zo + (this->z - zo) * a - zOff); + + // 4J - don't render explosion particles that are less than 3 metres away, to try and avoid large particles that are causing us problems with photosensitivity testing + float distSq = (x*x + y*y + z*z); + if( distSq < ( 3.0f * 3.0f )) return; + + glColor4f(1, 1, 1, 1); + glDisable(GL_LIGHTING); + Lighting::turnOff(); + t->begin(); + t->color(rCol, gCol, bCol, 1.0f); + t->normal(0, 1, 0); + t->tex2(0x00f0); + t->vertexUV(x - xa * r - xa2 * r, y - ya * r, z - za * r - za2 * r, u1, v1); + t->vertexUV(x - xa * r + xa2 * r, y + ya * r, z - za * r + za2 * r, u1, v0); + t->vertexUV(x + xa * r + xa2 * r, y + ya * r, z + za * r + za2 * r, u0, v0); + t->vertexUV(x + xa * r - xa2 * r, y - ya * r, z + za * r - za2 * r, u0, v1); + t->end(); + glPolygonOffset(0, 0.0f); + glEnable(GL_LIGHTING); +} + +int HugeExplosionParticle::getLightColor(float a) +{ + return 0xf0f0; +} + +void HugeExplosionParticle::tick() +{ + xo = x; + yo = y; + zo = z; + life++; + if (life == lifeTime) remove(); +} + +int HugeExplosionParticle::getParticleTexture() +{ + return ParticleEngine::ENTITY_PARTICLE_TEXTURE; +} \ No newline at end of file diff --git a/Minecraft.Client/HugeExplosionParticle.h b/Minecraft.Client/HugeExplosionParticle.h new file mode 100644 index 0000000..5c386d6 --- /dev/null +++ b/Minecraft.Client/HugeExplosionParticle.h @@ -0,0 +1,21 @@ +#pragma once + +#include "Particle.h" + +class HugeExplosionParticle : public Particle +{ +private: + static ResourceLocation EXPLOSION_LOCATION; + int life; + int lifeTime; + Textures *textures; + float size; + +public: + virtual eINSTANCEOF GetType() { return eType_HUGEEXPLOSIONPARTICLE; } + HugeExplosionParticle(Textures *textures, Level *level, double x, double y, double z, double xa, double ya, double za); + void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + int getLightColor(float a); + void tick(); + int getParticleTexture(); +}; \ No newline at end of file diff --git a/Minecraft.Client/HugeExplosionSeedParticle.cpp b/Minecraft.Client/HugeExplosionSeedParticle.cpp new file mode 100644 index 0000000..bb8c8f2 --- /dev/null +++ b/Minecraft.Client/HugeExplosionSeedParticle.cpp @@ -0,0 +1,37 @@ +#include "stdafx.h" +#include "HugeExplosionSeedParticle.h" +#include "..\Minecraft.World\Random.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" + +HugeExplosionSeedParticle::HugeExplosionSeedParticle(Level *level, double x, double y, double z, double xa, double ya, double za) : Particle(level,x,y,z,0,0,0) +{ + life = 0; + + lifeTime = 8; +} + +void HugeExplosionSeedParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ +} + +void HugeExplosionSeedParticle::tick() +{ + // Horrible hack to communicate with the level renderer, which is just attached as a listener to this level. This let's the particle + // rendering know to use this level (rather than try to work it out from the current player), and to not bother distance clipping particles + // which would again be based on the current player. + Minecraft::GetInstance()->animateTickLevel = level; + for (int i = 0; i < 6; i++) { + double xx = x + (random->nextDouble() - random->nextDouble()) * 4; + double yy = y + (random->nextDouble() - random->nextDouble()) * 4; + double zz = z + (random->nextDouble() - random->nextDouble()) * 4; + level->addParticle(eParticleType_largeexplode, xx, yy, zz, life / static_cast(lifeTime), 0, 0); + } + Minecraft::GetInstance()->animateTickLevel = nullptr; + life++; + if (life == lifeTime) remove(); +} + +int HugeExplosionSeedParticle::getParticleTexture() +{ + return ParticleEngine::TERRAIN_TEXTURE; +} \ No newline at end of file diff --git a/Minecraft.Client/HugeExplosionSeedParticle.h b/Minecraft.Client/HugeExplosionSeedParticle.h new file mode 100644 index 0000000..445c8a3 --- /dev/null +++ b/Minecraft.Client/HugeExplosionSeedParticle.h @@ -0,0 +1,17 @@ +#pragma once + +#include "Particle.h" + +class HugeExplosionSeedParticle : public Particle +{ +private: + int life; + int lifeTime; + +public: + virtual eINSTANCEOF GetType() { return eType_HUGEEXPLOSIONSEEDPARTICLE; } + HugeExplosionSeedParticle(Level *level, double x, double y, double z, double xa, double ya, double za); + void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + void tick(); + int getParticleTexture(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Input.cpp b/Minecraft.Client/Input.cpp new file mode 100644 index 0000000..c9b04e7 --- /dev/null +++ b/Minecraft.Client/Input.cpp @@ -0,0 +1,210 @@ +#include "stdafx.h" +#include "Minecraft.h" +#include "GameMode.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.storage.h" +#include "Input.h" +#include "..\Minecraft.Client\LocalPlayer.h" +#include "Options.h" +#ifdef _WINDOWS64 +#include "Windows64\KeyboardMouseInput.h" +#endif + +Input::Input() +{ + xa = 0; + ya = 0; + wasJumping = false; + jumping = false; + sneaking = false; + sprinting = false; + + lReset = false; + rReset = false; +} + +void Input::tick(LocalPlayer *player) +{ + // 4J Stu - Assume that we only need one input class, even though the java has subclasses for keyboard/controller + // This function is based on the ControllerInput class in the Java, and will probably need changed + //OutputDebugString("INPUT: Beginning input tick\n"); + + Minecraft *pMinecraft=Minecraft::GetInstance(); + int iPad=player->GetXboxPad(); + + float controllerXA = 0.0f; + float controllerYA = 0.0f; + + // 4J-PB minecraft movement seems to be the wrong way round, so invert x! + if( pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_LEFT) || pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_RIGHT) ) + controllerXA = -InputManager.GetJoypadStick_LX(iPad); + + if( pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_FORWARD) || pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_BACKWARD) ) + controllerYA = InputManager.GetJoypadStick_LY(iPad); + + float kbXA = 0.0f; + float kbYA = 0.0f; +#ifdef _WINDOWS64 + if (iPad == 0 && g_KBMInput.IsMouseGrabbed() && g_KBMInput.IsKBMActive()) + { + if( pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_LEFT) || pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_RIGHT) ) + kbXA = g_KBMInput.GetMoveX(); + if( pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_FORWARD) || pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_BACKWARD) ) + kbYA = g_KBMInput.GetMoveY(); + } +#endif + + if (kbXA != 0.0f || kbYA != 0.0f) + { + xa = kbXA; + ya = kbYA; + } + else + { + xa = controllerXA; + ya = controllerYA; + } + +#ifndef _CONTENT_PACKAGE + if (app.GetFreezePlayers()) + { + xa = ya = 0.0f; + player->abilities.flying = true; + } +#endif + + if (!lReset) + { + if (xa*xa+ya*ya==0.0f) + { + lReset = true; + } + xa = ya = 0.0f; + } + + // 4J: In flying mode, don't actually toggle sneaking (unless we're riding in which case we need to sneak to dismount) + if(!player->abilities.flying || player->riding != nullptr) + { + if((player->ullButtonsPressed&(1LL<localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_SNEAK_TOGGLE)) + { + sneaking=!sneaking; + } + } + +#ifdef _WINDOWS64 + if (iPad == 0 && g_KBMInput.IsMouseGrabbed() && g_KBMInput.IsKBMActive()) + { + // Left Shift = sneak (hold to crouch) + if (pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_SNEAK_TOGGLE)) + { + if (!player->abilities.flying) + { + sneaking = g_KBMInput.IsKeyDown(KeyboardMouseInput::KEY_SNEAK); + } + } + + // Ctrl + forward = sprint (hold to sprint, including while flying) + { + bool ctrlHeld = g_KBMInput.IsKeyDown(KeyboardMouseInput::KEY_SPRINT); + bool movingForward = (kbYA > 0.0f); + + if (ctrlHeld && movingForward) + { + sprinting = true; + } + else + { + sprinting = false; + } + } + } + else if (iPad == 0) + { + sprinting = false; + } +#endif + + if(sneaking) + { + xa*=0.3f; + ya*=0.3f; + } + + float turnSpeed = 50.0f; + + float tx = 0.0f; + float ty = 0.0f; + + if( pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_LOOK_LEFT) || pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_LOOK_RIGHT) ) + tx = InputManager.GetJoypadStick_RX(iPad)*(static_cast(app.GetGameSettings(iPad, eGameSetting_Sensitivity_InGame))/100.0f); // apply sensitivity to look + if( pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_LOOK_UP) || pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_LOOK_DOWN) ) + ty = InputManager.GetJoypadStick_RY(iPad)*(static_cast(app.GetGameSettings(iPad, eGameSetting_Sensitivity_InGame))/100.0f); // apply sensitivity to look + +#ifndef _CONTENT_PACKAGE + if (app.GetFreezePlayers()) tx = ty = 0.0f; +#endif + + // 4J: WESTY : Invert look Y if required. + if ( app.GetGameSettings(iPad,eGameSetting_ControlInvertLook) ) + { + ty = -ty; + } + + if (!rReset) + { + if (tx*tx+ty*ty==0.0f) + { + rReset = true; + } + tx = ty = 0.0f; + } + + float turnX = tx * abs(tx) * turnSpeed; + float turnY = ty * abs(ty) * turnSpeed; + +#ifdef _WINDOWS64 + if (iPad == 0 && g_KBMInput.IsMouseGrabbed() && g_KBMInput.IsKBMActive()) + { + float mouseSensitivity = static_cast(app.GetGameSettings(iPad, eGameSetting_Sensitivity_InGame)) / 100.0f; + float mouseLookScale = 5.0f; + float mx = g_KBMInput.GetLookX(mouseSensitivity * mouseLookScale); + float my = g_KBMInput.GetLookY(mouseSensitivity * mouseLookScale); + + if ( app.GetGameSettings(iPad,eGameSetting_ControlInvertLook) ) + { + my = -my; + } + + turnX += mx; + turnY += my; + } +#endif + + player->interpolateTurn(turnX, turnY); + + //jumping = controller.isButtonPressed(0); + + unsigned int jump = InputManager.GetValue(iPad, MINECRAFT_ACTION_JUMP); + bool kbJump = false; +#ifdef _WINDOWS64 + kbJump = (iPad == 0) && g_KBMInput.IsMouseGrabbed() && g_KBMInput.IsKBMActive() && g_KBMInput.IsKeyDown(KeyboardMouseInput::KEY_JUMP); +#endif + if( (jump > 0 || kbJump) && pMinecraft->localgameModes[iPad]->isInputAllowed(MINECRAFT_ACTION_JUMP) ) + jumping = true; + else + jumping = false; + +#ifndef _CONTENT_PACKAGE + if (app.GetFreezePlayers()) jumping = false; +#endif + +#ifdef _WINDOWS64 + if (iPad == 0 && g_KBMInput.IsKeyPressed(VK_ESCAPE) && g_KBMInput.IsMouseGrabbed()) + { + g_KBMInput.SetMouseGrabbed(false); + } +#endif + + //OutputDebugString("INPUT: End input tick\n"); +} diff --git a/Minecraft.Client/Input.h b/Minecraft.Client/Input.h new file mode 100644 index 0000000..c7e1eec --- /dev/null +++ b/Minecraft.Client/Input.h @@ -0,0 +1,22 @@ +#pragma once +class Player; + +class Input +{ +public: + float xa; + float ya; + + bool wasJumping; + bool jumping; + bool sneaking; + bool sprinting; + + Input(); + + virtual void tick(LocalPlayer *player); + +private: + bool lReset; + bool rReset; +}; diff --git a/Minecraft.Client/KeyMapping.cpp b/Minecraft.Client/KeyMapping.cpp new file mode 100644 index 0000000..9e93041 --- /dev/null +++ b/Minecraft.Client/KeyMapping.cpp @@ -0,0 +1,8 @@ +#include "stdafx.h" +#include "KeyMapping.h" + +KeyMapping::KeyMapping(const wstring& name, int key) +{ + this->name = name; + this->key = key; +} \ No newline at end of file diff --git a/Minecraft.Client/KeyMapping.h b/Minecraft.Client/KeyMapping.h new file mode 100644 index 0000000..45be54a --- /dev/null +++ b/Minecraft.Client/KeyMapping.h @@ -0,0 +1,10 @@ +#pragma once +using namespace std; +// 4J Stu - Not updated to 1.8.2 as we don't use this +class KeyMapping +{ +public: + wstring name; + int key; + KeyMapping(const wstring& name, int key); +}; \ No newline at end of file diff --git a/Minecraft.Client/LavaParticle.cpp b/Minecraft.Client/LavaParticle.cpp new file mode 100644 index 0000000..0ff9b1b --- /dev/null +++ b/Minecraft.Client/LavaParticle.cpp @@ -0,0 +1,69 @@ +#include "stdafx.h" +#include "LavaParticle.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\Random.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" + +LavaParticle::LavaParticle(Level *level, double x, double y, double z) : Particle(level, x, y, z, 0, 0, 0) +{ + xd *= 0.8f; + yd *= 0.8f; + zd *= 0.8f; + yd = random->nextFloat() * 0.4f + 0.05f; + + rCol = gCol = bCol = 1; + size *= (random->nextFloat() * 2 + 0.2f); + oSize = size; + + lifetime = static_cast(16 / (Math::random() * 0.8 + 0.2)); + noPhysics = false; + setMiscTex(49); +} + +// 4J - brought forward from 1.8.2 +int LavaParticle::getLightColor(float a) +{ + float l = (age + a) / lifetime; + if (l < 0) l = 0; + if (l > 1) l = 1; + int br = Particle::getLightColor(a); + + int br1 = 15 * 16; + int br2 = (br >> 16) & 0xff; + return br1 | br2 << 16; +} + +float LavaParticle::getBrightness(float a) +{ + return 1; +} + +void LavaParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float s = (age + a) / static_cast(lifetime); + size = oSize * (1 - s*s); + Particle::render(t, a, xa, ya, za, xa2, za2); +} + +void LavaParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + if (age++ >= lifetime) remove(); + float odds = age / static_cast(lifetime); + if (random->nextFloat() > odds) level->addParticle(eParticleType_smoke, x, y, z, xd, yd, zd); + + yd -= 0.03; + move(xd, yd, zd); + xd *= 0.999f; + yd *= 0.999f; + zd *= 0.999f; + + if (onGround) + { + xd *= 0.7f; + zd *= 0.7f; + } +} diff --git a/Minecraft.Client/LavaParticle.h b/Minecraft.Client/LavaParticle.h new file mode 100644 index 0000000..235edcf --- /dev/null +++ b/Minecraft.Client/LavaParticle.h @@ -0,0 +1,16 @@ +#pragma once +#include "Particle.h" + +class LavaParticle : public Particle +{ +public: + virtual eINSTANCEOF GetType() { return eType_LAVAPARTICLE; } +private: + float oSize; +public: + LavaParticle(Level *level, double x, double y, double z); + virtual int getLightColor(float a); // 4J - brought forward from 1.8.2 + virtual float getBrightness(float a); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual void tick(); +}; diff --git a/Minecraft.Client/LevelRenderer.cpp b/Minecraft.Client/LevelRenderer.cpp new file mode 100644 index 0000000..740efce --- /dev/null +++ b/Minecraft.Client/LevelRenderer.cpp @@ -0,0 +1,2433 @@ +#include "stdafx.h" +#include "LevelRenderer.h" +#include "Textures.h" +#include "TextureAtlas.h" +#include "Tesselator.h" +#include "Chunk.h" +#include "DistanceChunkSorter.h" +#include "DirtyChunkSorter.h" +#include "MobSkinTextureProcessor.h" +#include "MobSkinMemTextureProcessor.h" +#include "GameRenderer.h" +#include "BubbleParticle.h" +#include "SmokeParticle.h" +#include "NoteParticle.h" +#include "NetherPortalParticle.h" +#include "EnderParticle.h" +#include "ExplodeParticle.h" +#include "FlameParticle.h" +#include "LavaParticle.h" +#include "FootstepParticle.h" +#include "SplashParticle.h" +#include "SmokeParticle.h" +#include "RedDustParticle.h" +#include "BreakingItemParticle.h" +#include "SnowShovelParticle.h" +#include "BreakingItemParticle.h" +#include "HeartParticle.h" +#include "HugeExplosionParticle.h" +#include "HugeExplosionSeedParticle.h" +#include "SuspendedParticle.h" +#include "SuspendedTownParticle.h" +#include "CritParticle2.h" +#include "TerrainParticle.h" +#include "SpellParticle.h" +#include "DripParticle.h" +#include "EchantmentTableParticle.h" +#include "DragonBreathParticle.h" +#include "FireworksParticles.h" +#include "Lighting.h" +#include "Options.h" +#include "MultiPlayerChunkCache.h" +#include "..\Minecraft.World\ParticleTypes.h" +#include "..\Minecraft.World\IntCache.h" +#include "..\Minecraft.World\IntBuffer.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\net.minecraft.world.phys.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\System.h" +#include "..\Minecraft.World\StringHelpers.h" +#include "..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "..\Minecraft.World\net.minecraft.world.entity.projectile.h" +#include "..\Minecraft.World\net.minecraft.world.h" +#include "MultiplayerLocalPlayer.h" +#include "MultiPlayerLevel.h" +#include "..\Minecraft.World\SoundTypes.h" +#include "FrustumCuller.h" +#include "..\Minecraft.World\BasicTypeContainers.h" + +//#define DISABLE_SPU_CODE + +#ifdef __PS3__ +#include "PS3\SPU_Tasks\LevelRenderer_cull\LevelRenderer_cull.h" +#include "PS3\SPU_Tasks\LevelRenderer_FindNearestChunk\LevelRenderer_FindNearestChunk.h" +#include "C4JSpursJob.h" + +static LevelRenderer_cull_DataIn g_cullDataIn[4] __attribute__((__aligned__(16))); +static LevelRenderer_FindNearestChunk_DataIn g_findNearestChunkDataIn __attribute__((__aligned__(16))); +#endif + +ResourceLocation LevelRenderer::MOON_LOCATION = ResourceLocation(TN_TERRAIN_MOON); +ResourceLocation LevelRenderer::MOON_PHASES_LOCATION = ResourceLocation(TN_TERRAIN_MOON_PHASES); +ResourceLocation LevelRenderer::SUN_LOCATION = ResourceLocation(TN_TERRAIN_SUN); +ResourceLocation LevelRenderer::CLOUDS_LOCATION = ResourceLocation(TN_ENVIRONMENT_CLOUDS); +ResourceLocation LevelRenderer::END_SKY_LOCATION = ResourceLocation(TN_MISC_TUNNEL); + +const unsigned int HALO_RING_RADIUS = 100; + +#ifdef _LARGE_WORLDS +Chunk LevelRenderer::permaChunk[MAX_CONCURRENT_CHUNK_REBUILDS]; +C4JThread *LevelRenderer::rebuildThreads[MAX_CHUNK_REBUILD_THREADS]; +C4JThread::EventArray *LevelRenderer::s_rebuildCompleteEvents; +C4JThread::Event *LevelRenderer::s_activationEventA[MAX_CHUNK_REBUILD_THREADS]; + +// This defines the maximum size of renderable level, must be big enough to cope with actual size of level + view distance at each side +// so that we can render the "infinite" sea at the edges. Currently defined as: +const int overworldSize = LEVEL_MAX_WIDTH + LevelRenderer::PLAYER_VIEW_DISTANCE + LevelRenderer::PLAYER_VIEW_DISTANCE; +const int netherSize = HELL_LEVEL_MAX_WIDTH + 2; // 4J Stu - The plus 2 is really just to make our total chunk count a multiple of 8 for the flags, we will never see these in the nether +const int endSize = END_LEVEL_MAX_WIDTH; +const int LevelRenderer::MAX_LEVEL_RENDER_SIZE[3] = { overworldSize, netherSize, endSize }; +const int LevelRenderer::DIMENSION_OFFSETS[3] = { 0, (overworldSize * overworldSize * CHUNK_Y_COUNT) , (overworldSize * overworldSize * CHUNK_Y_COUNT) + ( netherSize * netherSize * CHUNK_Y_COUNT ) }; +#else +// This defines the maximum size of renderable level, must be big enough to cope with actual size of level + view distance at each side +// so that we can render the "infinite" sea at the edges. Currently defined as: +// Dimension idx 0 (overworld) : 80 ( = 54 + 13 + 13 ) +// Dimension idx 1 (nether) : 44 ( = 18 + 13 + 13 ) +// Dimension idx 2 (the end) : 44 ( = 18 + 13 + 13 ) + +const int LevelRenderer::MAX_LEVEL_RENDER_SIZE[3] = { 80, 44, 44 }; + +// Linked directly to the sizes in the previous array, these next values dictate the start offset for each dimension index into the global array for these things. +// Each dimension uses MAX_LEVEL_RENDER_SIZE[i]^2 * 8 indices, as a MAX_LEVEL_RENDER_SIZE * MAX_LEVEL_RENDER_SIZE * 8 sized cube of references. + +const int LevelRenderer::DIMENSION_OFFSETS[3] = { 0, (80 * 80 * CHUNK_Y_COUNT) , (80 * 80 * CHUNK_Y_COUNT) + ( 44 * 44 * CHUNK_Y_COUNT ) }; +#endif + +LevelRenderer::LevelRenderer(Minecraft *mc, Textures *textures) +{ + breakingTextures = nullptr; + + for( int i = 0; i < 4; i++ ) + { + level[i] = nullptr; + tileRenderer[i] = nullptr; + xOld[i] = -9999; + yOld[i] = -9999; + zOld[i] = -9999; + } + xChunks= yChunks= zChunks = 0; + chunkLists = 0; + + ticks = 0; + starList= skyList= darkList = 0; + xMinChunk= yMinChunk= zMinChunk = 0; + xMaxChunk= yMaxChunk= zMaxChunk = 0; + lastViewDistance = -1; + noEntityRenderFrames = 2; + totalEntities = 0; + renderedEntities = 0; + culledEntities = 0; + chunkFixOffs = 0; + frame = 0; + //repeatList = MemoryTracker::genLists(1); + + destroyProgress = 0.0f; + + totalChunks= offscreenChunks= occludedChunks= renderedChunks= emptyChunks = 0; + for( int i = 0; i < 4; i++ ) + { + // sortedChunks[i] = nullptr; // 4J - removed - not sorting our chunks anymore + chunks[i] = ClipChunkArray(); + lastPlayerCount[i] = 0; + } + + InitializeCriticalSection(&m_csDirtyChunks); + InitializeCriticalSection(&m_csRenderableTileEntities); +#ifdef _LARGE_WORLDS + InitializeCriticalSection(&m_csChunkFlags); +#endif + + dirtyChunkPresent = false; + lastDirtyChunkFound = 0; + + this->mc = mc; + this->textures = textures; + + + Chunk::levelRenderer = this; + + destroyedTileManager = new DestroyedTileManager(); + + dirtyChunksLockFreeStack.Initialize(); +} + +void LevelRenderer::setLevel(int playerIndex, MultiPlayerLevel *level) +{ + if (this->level[playerIndex] != nullptr) + { + // Remove listener for this level if this is the last player referencing it + Level *prevLevel = this->level[playerIndex]; + int refCount = 0; + for( int i = 0; i < 4; i++ ) + { + if( this->level[i] == prevLevel ) refCount++; + } + if( refCount == 1 ) + { + this->level[playerIndex]->removeListener(this); + } + } + + xOld[playerIndex] = -9999; + yOld[playerIndex] = -9999; + zOld[playerIndex] = -9999; + + this->level[playerIndex] = level; + if( tileRenderer[playerIndex] != nullptr ) + { + delete tileRenderer[playerIndex]; + } + //tileRenderer[playerIndex] = new TileRenderer(level); + if (level != nullptr) + { + // If we're the only player referencing this level, add a new listener for it + int refCount = 0; + for( int i = 0; i < 4; i++ ) + { + if( this->level[i] == level ) refCount++; + } + if( refCount == 1 ) + { + level->addListener(this); + } + + allChanged(playerIndex); + } + else + { + // printf("NULLing player %d, chunks @ 0x%x\n",playerIndex,chunks[playerIndex]); + if( chunks[playerIndex].data != nullptr ) + { + for (unsigned int i = 0; i < chunks[playerIndex].length; i++) + { + chunks[playerIndex][i].chunk->_delete(); + delete chunks[playerIndex][i].chunk; + } + delete chunks[playerIndex].data; + chunks[playerIndex].data = nullptr; + chunks[playerIndex].length = 0; + // delete sortedChunks[playerIndex]; // 4J - removed - not sorting our chunks anymore + // sortedChunks[playerIndex] = nullptr; // 4J - removed - not sorting our chunks anymore + } + + // 4J Stu - If we do this for splitscreen players leaving, then all the tile entities in the world dissappear + // We should only do this when actually exiting the game, so only when the primary player sets there level to nullptr + if(playerIndex == ProfileManager.GetPrimaryPad()) renderableTileEntities.clear(); + } +} + +void LevelRenderer::AddDLCSkinsToMemTextures() +{ + //for(size_t i=0;iaddMemTexture(app.vSkinNames[i], new MobSkinMemTextureProcessor()); + //} +} + +void LevelRenderer::allChanged() +{ + int playerIndex = mc->player->GetXboxPad(); // 4J added + allChanged(playerIndex); +} + +int LevelRenderer::activePlayers() +{ + int playerCount = 0; + for( int i = 0; i < 4; i++ ) + { + if( level[i] ) playerCount++; + } + return playerCount; +} + +void LevelRenderer::allChanged(int playerIndex) +{ + // 4J Stu - This was required by the threaded Minecraft::tick(). If we need to add it back then: + // If this CS is entered before DisableUpdateThread is called then (on 360 at least) we can get a + // deadlock when starting a game in splitscreen. + //EnterCriticalSection(&m_csDirtyChunks); + if( level == nullptr ) + { + return; + } + + Minecraft::GetInstance()->gameRenderer->DisableUpdateThread(); + + Tile::leaves->setFancy(mc->options->fancyGraphics); + lastViewDistance = mc->options->viewDistance; + + //int realviewDistance = UIScene_SettingsGraphicsMenu::LevelToDistance(3 - mc->options->viewDistance) + 2; + //int realrenderArea = (realviewDistance * realviewDistance * 4); + + // Calculate size of area we can render based on number of players we need to render for + //int dist = static_cast(sqrtf(static_cast(realrenderArea) / static_cast(activePlayers()))); + + // AP - poor little Vita just can't cope with such a big area +#ifdef __PSVITA__ + dist = 10; +#endif + + lastPlayerCount[playerIndex] = activePlayers(); + + //xChunks = dist; + yChunks = Level::maxBuildHeight / CHUNK_SIZE; + //zChunks = dist; + + if( chunks[playerIndex].data != nullptr ) + { + for (unsigned int i = 0; i < chunks[playerIndex].length; i++) + { + chunks[playerIndex][i].chunk->_delete(); + delete chunks[playerIndex][i].chunk; + } + delete chunks[playerIndex].data; + // delete sortedChunks[playerIndex]; // 4J - removed - not sorting our chunks anymore + } + + chunks[playerIndex] = ClipChunkArray(xChunks * yChunks * zChunks); + // sortedChunks[playerIndex] = new vector(xChunks * yChunks * zChunks); // 4J - removed - not sorting our chunks anymore + int id = 0; + int count = 0; + + xMinChunk = 0; + yMinChunk = 0; + zMinChunk = 0; + xMaxChunk = xChunks; + yMaxChunk = yChunks; + zMaxChunk = zChunks; + + // 4J removed - we now only fully clear this on exiting the game (setting level to nullptr). Apart from that, the chunk rebuilding is responsible for maintaining this + // renderableTileEntities.clear(); + + for (int x = 0; x < xChunks; x++) + { + for (int y = 0; y < yChunks; y++) + { + for (int z = 0; z < zChunks; z++) + { + chunks[playerIndex][(z * yChunks + y) * xChunks + x].chunk = new Chunk(level[playerIndex], renderableTileEntities, m_csRenderableTileEntities, x * CHUNK_XZSIZE, y * CHUNK_SIZE, z * CHUNK_XZSIZE, &chunks[playerIndex][(z * yChunks + y) * xChunks + x]); + chunks[playerIndex][(z * yChunks + y) * xChunks + x].visible = true; + chunks[playerIndex][(z * yChunks + y) * xChunks + x].chunk->id = count++; + // sortedChunks[playerIndex]->at((z * yChunks + y) * xChunks + x) = chunks[playerIndex]->at((z * yChunks + y) * xChunks + x); // 4J - removed - not sorting our chunks anymore + + id += 3; + } + } + } + nonStackDirtyChunksAdded(); + + if (level != nullptr) + { + shared_ptr player = mc->cameraTargetPlayer; + if (player != nullptr) + { + this->resortChunks(Mth::floor(player->x), Mth::floor(player->y), Mth::floor(player->z)); + // sort(sortedChunks[playerIndex]->begin(),sortedChunks[playerIndex]->end(), DistanceChunkSorter(player)); // 4J - removed - not sorting our chunks anymore + } + } + + noEntityRenderFrames = 2; + + Minecraft::GetInstance()->gameRenderer->EnableUpdateThread(); + + // 4J Stu - Remove. See comment above. + //LeaveCriticalSection(&m_csDirtyChunks); +} + +void LevelRenderer::renderEntities(Vec3 *cam, Culler *culler, float a) +{ + return; +} + +wstring LevelRenderer::gatherStats1() +{ + return L"C: " + std::to_wstring(renderedChunks) + L"/" + std::to_wstring(totalChunks) + L". F: " + std::to_wstring(offscreenChunks) + L", O: " + std::to_wstring(occludedChunks) + L", E: " + std::to_wstring(emptyChunks); +} + +wstring LevelRenderer::gatherStats2() +{ + return L"E: " + std::to_wstring(renderedEntities) + L"/" + std::to_wstring(totalEntities) + L". B: " + std::to_wstring(culledEntities) + L", I: " + std::to_wstring((totalEntities - culledEntities) - renderedEntities); +} + +void LevelRenderer::resortChunks(int xc, int yc, int zc) +{ + EnterCriticalSection(&m_csDirtyChunks); + xc -= CHUNK_XZSIZE / 2; + yc -= CHUNK_SIZE / 2; + zc -= CHUNK_XZSIZE / 2; + xMinChunk = INT_MAX; + yMinChunk = INT_MAX; + zMinChunk = INT_MAX; + xMaxChunk = INT_MIN; + yMaxChunk = INT_MIN; + zMaxChunk = INT_MIN; + + int playerIndex = mc->player->GetXboxPad(); // 4J added + + int s2 = xChunks * CHUNK_XZSIZE; + int s1 = s2 / 2; + + for (int x = 0; x < xChunks; x++) + { + int xx = x * CHUNK_XZSIZE; + + int xOff = (xx + s1 - xc); + if (xOff < 0) xOff -= (s2 - 1); + xOff /= s2; + xx -= xOff * s2; + + if (xx < xMinChunk) xMinChunk = xx; + if (xx > xMaxChunk) xMaxChunk = xx; + + for (int z = 0; z < zChunks; z++) + { + int zz = z * CHUNK_XZSIZE; + int zOff = (zz + s1 - zc); + if (zOff < 0) zOff -= (s2 - 1); + zOff /= s2; + zz -= zOff * s2; + + if (zz < zMinChunk) zMinChunk = zz; + if (zz > zMaxChunk) zMaxChunk = zz; + + for (int y = 0; y < yChunks; y++) + { + int yy = y * CHUNK_SIZE; + if (yy < yMinChunk) yMinChunk = yy; + if (yy > yMaxChunk) yMaxChunk = yy; + + Chunk *chunk = chunks[playerIndex][(z * yChunks + y) * xChunks + x].chunk; + chunk->setPos(xx, yy, zz); + } + } + } + nonStackDirtyChunksAdded(); + LeaveCriticalSection(&m_csDirtyChunks); +} + +int LevelRenderer::render(shared_ptr player, int layer, double alpha, bool updateChunks) +{ + return 0; +} + +int LevelRenderer::renderChunks(int from, int to, int layer, double alpha) +{ + return 0; +} + + +void LevelRenderer::renderSameAsLast(int layer, double alpha) +{ + for (int i = 0; i < RENDERLISTS_LENGTH; i++) + { + renderLists[i].render(); + } +} + +void LevelRenderer::tick() +{ + ticks++; + + if ((ticks % SharedConstants::TICKS_PER_SECOND) == 0) + { + auto it = destroyingBlocks.begin(); + while (it != destroyingBlocks.end()) + { + BlockDestructionProgress *block = it->second; + + int updatedRenderTick = block->getUpdatedRenderTick(); + + if (ticks - updatedRenderTick > (SharedConstants::TICKS_PER_SECOND * 20)) + { + delete it->second; + it = destroyingBlocks.erase(it); + } + else + { + ++it; + } + } + } +} + +bool LevelRenderer::isInCloud(double x, double y, double z, float alpha) +{ + return false; +} + +bool LevelRenderer::updateDirtyChunks() +{ +#ifdef _LARGE_WORLDS + std::list< std::pair > nearestClipChunks; +#endif + + ClipChunk *nearChunk = nullptr; // Nearest chunk that is dirty + int veryNearCount = 0; + int minDistSq = 0x7fffffff; // Distances to this chunk + + + // Set a flag if we should only rebuild existing chunks, not create anything new + unsigned int memAlloc = RenderManager.CBuffSize(-1); + /* + static int throttle = 0; + if( ( throttle % 100 ) == 0 ) + { + app.DebugPrintf("CBuffSize: %d\n",memAlloc/(1024*1024)); + } + throttle++; + */ + PIXAddNamedCounter(static_cast(memAlloc)/(1024.0f*1024.0f),"Command buffer allocations"); + bool onlyRebuild = ( memAlloc >= MAX_COMMANDBUFFER_ALLOCATIONS ); + EnterCriticalSection(&m_csDirtyChunks); + + // Move any dirty chunks stored in the lock free stack into global flags + int index = 0; + + do + { + // See comment on dirtyChunksLockFreeStack.Push() regarding details of this casting/subtracting -2. + index = (size_t)dirtyChunksLockFreeStack.Pop(); +#ifdef _CRITICAL_CHUNKS + int oldIndex = index; + index &= 0x0fffffff; // remove the top bit that marked the chunk as non-critical +#endif + if( index == 1 ) dirtyChunkPresent = true; // 1 is a special value passed to let this thread know that a chunk which isn't on this stack has been set to dirty + else if( index > 1 ) + { + int i2 = index - 2; + if( i2 >= DIMENSION_OFFSETS[2] ) + { + i2 -= DIMENSION_OFFSETS[2]; + int y2 = i2 & (CHUNK_Y_COUNT-1); + i2 /= CHUNK_Y_COUNT; + int z2 = i2 / MAX_LEVEL_RENDER_SIZE[2]; + int x2 = i2 - z2 * MAX_LEVEL_RENDER_SIZE[2]; + x2 -= MAX_LEVEL_RENDER_SIZE[2] / 2; + z2 -= MAX_LEVEL_RENDER_SIZE[2] / 2; + } + setGlobalChunkFlag(index - 2, CHUNK_FLAG_DIRTY); + +#ifdef _CRITICAL_CHUNKS + if( !(oldIndex & 0x10000000) ) // was this chunk not marked as non-critical. Ugh double negatives + { + setGlobalChunkFlag(index - 2, CHUNK_FLAG_CRITICAL); + } +#endif + + dirtyChunkPresent = true; + } + } while( index ); + + // Only bother searching round all the chunks if we have some dirty chunk(s) + if( dirtyChunkPresent ) + { + lastDirtyChunkFound = System::currentTimeMillis(); + PIXBeginNamedEvent(0,"Finding nearest chunk\n"); +#if defined __PS3__ && !defined DISABLE_SPU_CODE + // find the nearest chunk with a spu task, copy all the data over here for uploading to SPU + g_findNearestChunkDataIn.numGlobalChunks = getGlobalChunkCount(); + g_findNearestChunkDataIn.pGlobalChunkFlags = globalChunkFlags; + g_findNearestChunkDataIn.onlyRebuild = onlyRebuild; + g_findNearestChunkDataIn.lowerOffset = (int)&((LevelChunk*)0)->lowerBlocks; // dodgy bit of class structure poking, as we don't want to try and get the whole of LevelChunk copmpiling on SPU + g_findNearestChunkDataIn.upperOffset = (int)&((LevelChunk*)0)->upperBlocks; + g_findNearestChunkDataIn.xChunks = xChunks; + g_findNearestChunkDataIn.yChunks = yChunks; + g_findNearestChunkDataIn.zChunks = zChunks; + + for(int i=0;i<4;i++) + { + g_findNearestChunkDataIn.chunks[i] = (LevelRenderer_FindNearestChunk_DataIn::ClipChunk*)chunks[i].data; + g_findNearestChunkDataIn.chunkLengths[i] = chunks[i].length; + g_findNearestChunkDataIn.level[i] = level[i]; + g_findNearestChunkDataIn.playerData[i].bValid = mc->localplayers[i] != nullptr; + if(mc->localplayers[i] != nullptr) + { + g_findNearestChunkDataIn.playerData[i].x = mc->localplayers[i]->x; + g_findNearestChunkDataIn.playerData[i].y = mc->localplayers[i]->y; + g_findNearestChunkDataIn.playerData[i].z = mc->localplayers[i]->z; + + } + if(level[i] != nullptr) + { + g_findNearestChunkDataIn.multiplayerChunkCache[i].XZOFFSET = ((MultiPlayerChunkCache*)(level[i]->chunkSource))->XZOFFSET; + g_findNearestChunkDataIn.multiplayerChunkCache[i].XZSIZE = ((MultiPlayerChunkCache*)(level[i]->chunkSource))->XZSIZE; + g_findNearestChunkDataIn.multiplayerChunkCache[i].cache = (void**)((MultiPlayerChunkCache*)(level[i]->chunkSource))->cache; + } + + } + + // assert(sizeof(LevelRenderer_FindNearestChunk_DataIn::Chunk) == sizeof(Chunk)); + C4JSpursJob_LevelRenderer_FindNearestChunk findJob(&g_findNearestChunkDataIn); + m_jobPort_FindNearestChunk->submitJob(&findJob); + m_jobPort_FindNearestChunk->waitForCompletion(); + nearChunk = (ClipChunk*)g_findNearestChunkDataIn.nearChunk; + veryNearCount = g_findNearestChunkDataIn.veryNearCount; +#else // __PS3__ + +#ifdef _LARGE_WORLDS + int maxNearestChunks = MAX_CONCURRENT_CHUNK_REBUILDS; + // 4J Stu - On XboxOne we should cut this down if in a constrained state so the saving threads get more time +#endif + // Find nearest chunk that is dirty + for( int p = 0; p < XUSER_MAX_COUNT; p++ ) + { + // It's possible that the localplayers member can be set to nullptr on the main thread when a player chooses to exit the game + // So take a reference to the player object now. As it is a shared_ptr it should live as long as we need it + shared_ptr player = mc->localplayers[p]; + if( player == nullptr ) continue; + if( chunks[p].data == nullptr ) continue; + if( level[p] == nullptr ) continue; + if( chunks[p].length != xChunks * zChunks * CHUNK_Y_COUNT ) continue; + int px = static_cast(player->x); + int py = static_cast(player->y); + int pz = static_cast(player->z); + + // app.DebugPrintf("!! %d %d %d, %d %d %d {%d,%d} ",px,py,pz,stackChunkDirty,nonStackChunkDirty,onlyRebuild, xChunks, zChunks); + + int considered = 0; + int wouldBeNearButEmpty = 0; + for( int x = 0; x < xChunks; x++ ) + { + for( int z = 0; z < zChunks; z++ ) + { + for( int y = 0; y < CHUNK_Y_COUNT; y++ ) + { + ClipChunk *pClipChunk = &chunks[p][(z * yChunks + y) * xChunks + x]; + // Get distance to this chunk - deliberately not calling the chunk's method of doing this to avoid overheads (passing entitie, type conversion etc.) that this involves + int xd = pClipChunk->xm - px; + int yd = pClipChunk->ym - py; + int zd = pClipChunk->zm - pz; + int distSq = xd * xd + yd * yd + zd * zd; + int distSqWeighted = xd * xd + yd * yd * 4 + zd * zd; // Weighting against y to prioritise things in same x/z plane as player first + + if( globalChunkFlags[ pClipChunk->globalIdx ] & CHUNK_FLAG_DIRTY ) + { + if( (!onlyRebuild) || + globalChunkFlags[ pClipChunk->globalIdx ] & CHUNK_FLAG_COMPILED || + ( distSq < 96 * 96 ) ) // Always rebuild really near things or else building (say) at tower up into empty blocks when we are low on memory will not create render data + { // distSq adjusted from 20 * 20 to 96 * 96 - updated by detectiveren + considered++; + // Is this chunk nearer than our nearest? +#ifdef _LARGE_WORLDS + bool isNearer = nearestClipChunks.empty(); + auto itNearest = nearestClipChunks.begin(); + for(; itNearest != nearestClipChunks.end(); ++itNearest) + { + isNearer = distSqWeighted < itNearest->second; + if(isNearer) break; + } + isNearer = isNearer || (nearestClipChunks.size() < maxNearestChunks); +#else + bool isNearer = distSqWeighted < minDistSq; +#endif + +#ifdef _CRITICAL_CHUNKS + // AP - this will make sure that if a deferred grouping has started, only critical chunks go into that + // grouping, even if a non-critical chunk is closer. + if( (!veryNearCount && isNearer) || + (distSq < 20 * 20 && (globalChunkFlags[ pClipChunk->globalIdx ] & CHUNK_FLAG_CRITICAL)) ) +#else + if( isNearer ) +#endif + { + // At this point we've got a chunk that we would like to consider for rendering, at least based on its proximity to the player(s). + // Its *quite* quick to generate empty render data for render chunks, but if we let the rebuilding do that then the after rebuilding we will have + // to start searching for the next nearest chunk from scratch again. Instead, its better to detect empty chunks at this stage, flag them up as not dirty + // (and empty), and carry on. The levelchunk's isRenderChunkEmpty method can be quite optimal as it can make use of the chunk's data compression to detect + // emptiness without actually testing as many data items as uncompressed data would. + Chunk *chunk = pClipChunk->chunk; + LevelChunk *lc = level[p]->getChunkAt(chunk->x,chunk->z); + if( !lc->isRenderChunkEmpty(y * 16) ) + { + nearChunk = pClipChunk; + minDistSq = distSqWeighted; +#ifdef _LARGE_WORLDS + nearestClipChunks.insert(itNearest, std::make_pair(nearChunk, minDistSq) ); + if(nearestClipChunks.size() > maxNearestChunks) + { + nearestClipChunks.pop_back(); + } +#endif + } + else + { + chunk->clearDirty(); + globalChunkFlags[ pClipChunk->globalIdx ] |= CHUNK_FLAG_EMPTYBOTH; + wouldBeNearButEmpty++; + } + } + +#ifdef _CRITICAL_CHUNKS + // AP - is the chunk near and also critical + if( distSq < 20 * 20 && ((globalChunkFlags[ pClipChunk->globalIdx ] & CHUNK_FLAG_CRITICAL)) ) +#else + if( distSq < 20 * 20 ) +#endif + { + veryNearCount++; + } + } + } + } + } + } + // app.DebugPrintf("[%d,%d,%d]\n",nearestClipChunks.empty(),considered,wouldBeNearButEmpty); + } +#endif // __PS3__ + PIXEndNamedEvent(); + } + + + + Chunk *chunk = nullptr; +#ifdef _LARGE_WORLDS + if(!nearestClipChunks.empty()) + { + int index = 0; + for(auto & it : nearestClipChunks) + { + chunk = it.first->chunk; + // If this chunk is very near, then move the renderer into a deferred mode. This won't commit any command buffers + // for rendering until we call CBuffDeferredModeEnd(), allowing us to group any near changes into an atomic unit. This + // is essential so we don't temporarily create any holes in the environment whilst updating one chunk and not the neighbours. + // The "ver near" aspect of this is just a cosmetic nicety - exactly the same thing would happen further away, but we just don't + // care about it so much from terms of visual impact. + if( veryNearCount > 0 ) + { + RenderManager.CBuffDeferredModeStart(); + } + // Build this chunk & return false to continue processing + chunk->clearDirty(); + // Take a copy of the details that are required for chunk rebuilding, and rebuild That instead of the original chunk data. This is done within + // the m_csDirtyChunks critical section, which means that any chunks can't be repositioned whilst we are doing this copy. The copy will then + // be guaranteed to be consistent whilst rebuilding takes place outside of that critical section. + permaChunk[index].makeCopyForRebuild(chunk); + ++index; + } + LeaveCriticalSection(&m_csDirtyChunks); + + --index; // Bring it back into 0 counted range + + for(int i = MAX_CHUNK_REBUILD_THREADS - 1; i >= 0; --i) + { + // Set the events that won't run + if( (i+1) > index) s_rebuildCompleteEvents->Set(i); + else break; + } + + for(; index >=0; --index) + { + bool bAtomic = false; + if((veryNearCount > 0)) + bAtomic = true; //MGH - if veryNearCount, then we're trying to rebuild atomically, so do it all on the main thread + + if( bAtomic || (index == 0) ) + { + //PIXBeginNamedEvent(0,"Rebuilding near chunk %d %d %d",chunk->x, chunk->y, chunk->z); + // static int64_t totalTime = 0; + // static int64_t countTime = 0; + // int64_t startTime = System::currentTimeMillis(); + + //app.DebugPrintf("Rebuilding permaChunk %d\n", index); + + permaChunk[index].rebuild(); + + if(index !=0) + s_rebuildCompleteEvents->Set(index-1); // MGH - this rebuild happening on the main thread instead, mark the thread it should have been running on as complete + + // int64_t endTime = System::currentTimeMillis(); + // totalTime += (endTime - startTime); + // countTime++; + // printf("%d : %f\n", countTime, (float)totalTime / (float)countTime); + //PIXEndNamedEvent(); + } + // 4J Stu - Ignore this path when in constrained mode on Xbox One + else + { + // Activate thread to rebuild this chunk + s_activationEventA[index - 1]->Set(); + } + } + + // Wait for the other threads to be done as well + s_rebuildCompleteEvents->WaitForAll(INFINITE); + } +#else + if( nearChunk ) + { + chunk = nearChunk->chunk; + PIXBeginNamedEvent(0,"Rebuilding near chunk %d %d %d",chunk->x, chunk->y, chunk->z); + // If this chunk is very near, then move the renderer into a deferred mode. This won't commit any command buffers + // for rendering until we call CBuffDeferredModeEnd(), allowing us to group any near changes into an atomic unit. This + // is essential so we don't temporarily create any holes in the environment whilst updating one chunk and not the neighbours. + // The "ver near" aspect of this is just a cosmetic nicety - exactly the same thing would happen further away, but we just don't + // care about it so much from terms of visual impact. + if( veryNearCount > 0 ) + { + RenderManager.CBuffDeferredModeStart(); + } + // Build this chunk & return false to continue processing + chunk->clearDirty(); + // Take a copy of the details that are required for chunk rebuilding, and rebuild That instead of the original chunk data. This is done within + // the m_csDirtyChunks critical section, which means that any chunks can't be repositioned whilst we are doing this copy. The copy will then + // be guaranteed to be consistent whilst rebuilding takes place outside of that critical section. + static Chunk permaChunk; + permaChunk.makeCopyForRebuild(chunk); + LeaveCriticalSection(&m_csDirtyChunks); + // static int64_t totalTime = 0; + // static int64_t countTime = 0; + // int64_t startTime = System::currentTimeMillis(); + permaChunk.rebuild(); + // int64_t endTime = System::currentTimeMillis(); + // totalTime += (endTime - startTime); + // countTime++; + // printf("%d : %f\n", countTime, (float)totalTime / (float)countTime); + PIXEndNamedEvent(); + } +#endif + else + { + // Nothing to do - clear flags that there are things to process, unless it's been a while since we found any dirty chunks in which case force a check next time through + if( ( System::currentTimeMillis() - lastDirtyChunkFound ) > FORCE_DIRTY_CHUNK_CHECK_PERIOD_MS ) + { + dirtyChunkPresent = true; + } + else + { + dirtyChunkPresent = false; + } + LeaveCriticalSection(&m_csDirtyChunks); +#ifdef __PS3__ + Sleep(5); +#endif // __PS3__ + return false; + } + + // If there was more than one very near thing found in our initial assessment, then return true so that we will keep doing the other one(s) + // in an atomic unit + if( veryNearCount > 1 ) + { + destroyedTileManager->updatedChunkAt(chunk->level, chunk->x, chunk->y, chunk->z, veryNearCount ); + return true; + } + // If the chunk we've just built was near, and it has been marked dirty at some point while we are rebuilding, also return true so + // we can rebuild the same thing atomically - if its data was changed during creating render data, it may well be invalid + if( ( veryNearCount == 1 ) && getGlobalChunkFlag(chunk->x, chunk->y, chunk->z, chunk->level, CHUNK_FLAG_DIRTY ) ) + { + destroyedTileManager->updatedChunkAt(chunk->level, chunk->x, chunk->y, chunk->z, veryNearCount + 1); + return true; + } + + if( nearChunk ) destroyedTileManager->updatedChunkAt(chunk->level, chunk->x, chunk->y, chunk->z, veryNearCount ); + + return false; +} + +void LevelRenderer::renderHit(shared_ptr player, HitResult *h, int mode, shared_ptr inventoryItem, float a) +{ + Tesselator *t = Tesselator::getInstance(); + glEnable(GL_BLEND); + glEnable(GL_ALPHA_TEST); + glBlendFunc(GL_SRC_ALPHA, GL_ONE); + glColor4f(1, 1, 1, ((float) (Mth::sin(Minecraft::currentTimeMillis() / 100.0f)) * 0.2f + 0.4f) * 0.5f); + if (mode != 0 && inventoryItem != nullptr) + { + glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); + float br = (Mth::sin(Minecraft::currentTimeMillis() / 100.0f) * 0.2f + 0.8f); + glColor4f(br, br, br, (Mth::sin(Minecraft::currentTimeMillis() / 200.0f) * 0.2f + 0.5f)); + + textures->bindTexture(&TextureAtlas::LOCATION_BLOCKS); + } + glDisable(GL_BLEND); + glDisable(GL_ALPHA_TEST); +} + +void LevelRenderer::renderDestroyAnimation(Tesselator *t, shared_ptr player, float a) +{ + double xo = player->xOld + (player->x - player->xOld) * a; + double yo = player->yOld + (player->y - player->yOld) * a; + double zo = player->zOld + (player->z - player->zOld) * a; + + int playerIndex = mc->player->GetXboxPad(); + if (!destroyingBlocks.empty()) + { + glBlendFunc(GL_DST_COLOR, GL_SRC_COLOR); + + textures->bindTexture(&TextureAtlas::LOCATION_BLOCKS); + glColor4f(1, 1, 1, 0.5f); + glPushMatrix(); + + glDisable(GL_ALPHA_TEST); + + glPolygonOffset(-3.0f, -3.0f); + glEnable(GL_POLYGON_OFFSET_FILL); + + glEnable(GL_ALPHA_TEST); + t->begin(); +#ifdef __PSVITA__ + // AP : fix for bug 4952. No amount of polygon offset will push this close enough to be seen above the second tile layer when looking straight down + // so just add on a little bit of y to fix this. hacky hacky + t->offset((float)-xo, (float)-yo + 0.01f,(float) -zo); +#else + t->offset(static_cast(-xo), static_cast(-yo),static_cast(-zo)); +#endif + t->noColor(); + + auto it = destroyingBlocks.begin(); + while (it != destroyingBlocks.end()) + { + BlockDestructionProgress *block = it->second; + double xd = block->getX() - xo; + double yd = block->getY() - yo; + double zd = block->getZ() - zo; + + if (xd * xd + yd * yd + zd * zd < 32 * 32) // 4J MGH - now only culling instead of removing, as the list is shared in split screen + { + int iPad = mc->player->GetXboxPad(); // 4J added + int tileId = level[iPad]->getTile(block->getX(), block->getY(), block->getZ()); + Tile *tile = tileId > 0 ? Tile::tiles[tileId] : nullptr; + if (tile == nullptr) tile = Tile::stone; + //tileRenderer[iPad]->tesselateInWorldFixedTexture(tile, block->getX(), block->getY(), block->getZ(), breakingTextures[block->getProgress()]); // 4J renamed to differentiate from tesselateInWorld + } + ++it; + } + + t->end(); + t->offset(0, 0, 0); + glDisable(GL_ALPHA_TEST); + /* + * for (int i = 0; i < 6; i++) { tile.renderFace(t, h.x, h.y, + * h.z, i, 15 * 16 + (int) (destroyProgress * 10)); } + */ + glPolygonOffset(0.0f, 0.0f); + glDisable(GL_POLYGON_OFFSET_FILL); + glEnable(GL_ALPHA_TEST); + + glDepthMask(true); + glPopMatrix(); + } +} + +void LevelRenderer::renderHitOutline(shared_ptr player, HitResult *h, int mode, float a) +{ + + if (mode == 0 && h->type == HitResult::TILE) + { + int iPad = mc->player->GetXboxPad(); // 4J added + + // 4J-PB - If Display HUD is false, don't render the hit outline + if ( app.GetGameSettings(iPad,eGameSetting_DisplayHUD)==0 ) return; + + glEnable(GL_BLEND); + glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); + glColor4f(0, 0, 0, 0.4f); + glLineWidth(2.0f); + glDisable(GL_TEXTURE_2D); + glDepthMask(false); + float ss = 0.002f; + int tileId = level[iPad]->getTile(h->x, h->y, h->z); + + if (tileId > 0) + { + Tile::tiles[tileId]->updateShape(level[iPad], h->x, h->y, h->z); + double xo = player->xOld + (player->x - player->xOld) * a; + double yo = player->yOld + (player->y - player->yOld) * a; + double zo = player->zOld + (player->z - player->zOld) * a; + render(Tile::tiles[tileId]->getTileAABB(level[iPad], h->x, h->y, h->z)->grow(ss, ss, ss)->cloneMove(-xo, -yo, -zo)); + } + glDepthMask(true); + glEnable(GL_TEXTURE_2D); + glDisable(GL_BLEND); + } +} + +void LevelRenderer::render(AABB *b) +{ + Tesselator *t = Tesselator::getInstance(); + + t->begin(GL_LINE_STRIP); + t->vertex(static_cast(b->x0), static_cast(b->y0), static_cast(b->z0)); + t->vertex(static_cast(b->x1), static_cast(b->y0), static_cast(b->z0)); + t->vertex(static_cast(b->x1), static_cast(b->y0), static_cast(b->z1)); + t->vertex(static_cast(b->x0), static_cast(b->y0), static_cast(b->z1)); + t->vertex(static_cast(b->x0), static_cast(b->y0), static_cast(b->z0)); + t->end(); + + t->begin(GL_LINE_STRIP); + t->vertex(static_cast(b->x0), static_cast(b->y1), static_cast(b->z0)); + t->vertex(static_cast(b->x1), static_cast(b->y1), static_cast(b->z0)); + t->vertex(static_cast(b->x1), static_cast(b->y1), static_cast(b->z1)); + t->vertex(static_cast(b->x0), static_cast(b->y1), static_cast(b->z1)); + t->vertex(static_cast(b->x0), static_cast(b->y1), static_cast(b->z0)); + t->end(); + + t->begin(GL_LINES); + t->vertex(static_cast(b->x0), static_cast(b->y0), static_cast(b->z0)); + t->vertex(static_cast(b->x0), static_cast(b->y1), static_cast(b->z0)); + t->vertex(static_cast(b->x1), static_cast(b->y0), static_cast(b->z0)); + t->vertex(static_cast(b->x1), static_cast(b->y1), static_cast(b->z0)); + t->vertex(static_cast(b->x1), static_cast(b->y0), static_cast(b->z1)); + t->vertex(static_cast(b->x1), static_cast(b->y1), static_cast(b->z1)); + t->vertex(static_cast(b->x0), static_cast(b->y0), static_cast(b->z1)); + t->vertex(static_cast(b->x0), static_cast(b->y1), static_cast(b->z1)); + t->end(); +} + +void LevelRenderer::setDirty(int x0, int y0, int z0, int x1, int y1, int z1, Level *level) // 4J - added level param +{ + // 4J - level is passed if this is coming from setTilesDirty, which could come from when connection is being ticked outside of normal level tick, and player won't + // be set up + if( level == nullptr ) level = this->level[mc->player->GetXboxPad()]; + // EnterCriticalSection(&m_csDirtyChunks); + int _x0 = Mth::intFloorDiv(x0, CHUNK_XZSIZE); + int _y0 = Mth::intFloorDiv(y0, CHUNK_SIZE); + int _z0 = Mth::intFloorDiv(z0, CHUNK_XZSIZE); + int _x1 = Mth::intFloorDiv(x1, CHUNK_XZSIZE); + int _y1 = Mth::intFloorDiv(y1, CHUNK_SIZE); + int _z1 = Mth::intFloorDiv(z1, CHUNK_XZSIZE); + + for (int x = _x0; x <= _x1; x++) + { + for (int y = _y0; y <= _y1; y++) + { + for (int z = _z0; z <= _z1; z++) + { + // printf("Setting %d %d %d dirty\n",x,y,z); + int index = getGlobalIndexForChunk(x * 16, y * 16, z * 16, level); + // Rather than setting the flags directly, add any dirty chunks into a lock free stack - this avoids having to lock m_csDirtyChunks . + // These chunks are then added to the global flags in the render update thread. + // An XLockFreeQueue actually implements a queue of pointers to its templated type, and I don't want to have to go allocating ints here just to store the + // pointer to them in a queue. Hence actually pretending that the int Is a pointer here. Our Index has a a valid range from 0 to something quite big, + // but including zero. The lock free queue, since it thinks it is dealing with pointers, uses a nullptr pointer to signify that a Pop hasn't succeeded. + // We also want to reserve one special value (of 1 ) for use when multiple chunks not individually listed are made dirty. Therefore adding 2 to our + // index value here to move our valid range from 1 to something quite big + 2 + if( index > -1 ) + { +#ifdef _CRITICAL_CHUNKS + index += 2; + + // AP - by the time we reach this function the area passed in has a 1 block border added to it to make sure geometry and lighting is updated correctly. + // Some of those blocks will only need lighting updated so it is acceptable to not have those blocks grouped in the deferral system as the mismatch + // will hardly be noticable. The blocks that need geometry updated will be adjacent to the original, non-bordered area. + // This bit of code will mark a chunk as 'non-critical' if all of the blocks inside it are NOT adjacent to the original area. This has the greatest effect + // when digging a single block. Only 6 of the blocks out of the possible 26 are actually adjacent to the original block. The other 20 only need lighting updated. + // Note I have noticed a new side effect of this system where it's possible to see into the sides of water but this is acceptable compared to seeing through + // the entire landscape. + // is the left or right most block just inside this chunk + if( ((x0 & 15) == 15 && x == _x0) || ((x1 & 15) == 0 && x == _x1) ) + { + // is the front, back, top or bottom most block just inside this chunk + if( ((z0 & 15) == 15 && z == _z0) || ((z1 & 15) == 0 && z == _z1) || + ((y0 & 15) == 15 && y == _y0) || ((y1 & 15) == 0 && y == _y1)) + { + index |= 0x10000000; + } + } + else + { + // is the front or back most block just inside this chunk + if( ((z0 & 15) == 15 && z == _z0) || ((z1 & 15) == 0 && z == _z1) ) + { + // is the top or bottom most block just inside this chunk + if( ((y0 & 15) == 15 && y == _y0) || ((y1 & 15) == 0 && y == _y1)) + { + index |= 0x10000000; + } + } + } + + dirtyChunksLockFreeStack.Push((int *)(index)); +#else + dirtyChunksLockFreeStack.Push((int *)(index + 2)); +#endif + +#ifdef _XBOX + PIXSetMarker(0,"Setting chunk %d %d %d dirty",x * 16,y * 16,z * 16); +#else + PIXSetMarkerDeprecated(0,"Setting chunk %d %d %d dirty",x * 16,y * 16,z * 16); +#endif + } + // setGlobalChunkFlag(x * 16, y * 16, z * 16, level, CHUNK_FLAG_DIRTY); + } + } + } + // LeaveCriticalSection(&m_csDirtyChunks); +} + +void LevelRenderer::tileChanged(int x, int y, int z) +{ + setDirty(x - 1, y - 1, z - 1, x + 1, y + 1, z + 1, nullptr); +} + +void LevelRenderer::tileLightChanged(int x, int y, int z) +{ + setDirty(x - 1, y - 1, z - 1, x + 1, y + 1, z + 1, nullptr); +} + +void LevelRenderer::setTilesDirty(int x0, int y0, int z0, int x1, int y1, int z1, Level *level) // 4J - added level param +{ + setDirty(x0 - 1, y0 - 1, z0 - 1, x1 + 1, y1 + 1, z1 + 1, level); +} + +bool inline clip(float *bb, float *frustum) +{ + for (int i = 0; i < 6; ++i, frustum += 4) + { + if (frustum[0] * (bb[0]) + frustum[1] * (bb[1]) + frustum[2] * (bb[2]) + frustum[3] > 0) continue; + if (frustum[0] * (bb[3]) + frustum[1] * (bb[1]) + frustum[2] * (bb[2]) + frustum[3] > 0) continue; + if (frustum[0] * (bb[0]) + frustum[1] * (bb[4]) + frustum[2] * (bb[2]) + frustum[3] > 0) continue; + if (frustum[0] * (bb[3]) + frustum[1] * (bb[4]) + frustum[2] * (bb[2]) + frustum[3] > 0) continue; + if (frustum[0] * (bb[0]) + frustum[1] * (bb[1]) + frustum[2] * (bb[5]) + frustum[3] > 0) continue; + if (frustum[0] * (bb[3]) + frustum[1] * (bb[1]) + frustum[2] * (bb[5]) + frustum[3] > 0) continue; + if (frustum[0] * (bb[0]) + frustum[1] * (bb[4]) + frustum[2] * (bb[5]) + frustum[3] > 0) continue; + if (frustum[0] * (bb[3]) + frustum[1] * (bb[4]) + frustum[2] * (bb[5]) + frustum[3] > 0) continue; + + return false; + } + + return true; +} + +#ifdef __PS3__ +int g_listArray_layer0[4][LevelRenderer_cull_DataIn::sc_listSize]__attribute__((__aligned__(16))); // 8000 +int g_listArray_layer1[4][LevelRenderer_cull_DataIn::sc_listSize]__attribute__((__aligned__(16))); +float g_zDepth_layer0[4][LevelRenderer_cull_DataIn::sc_listSize]__attribute__((__aligned__(16))); // 8000 +float g_zDepth_layer1[4][LevelRenderer_cull_DataIn::sc_listSize]__attribute__((__aligned__(16))); + +volatile bool g_useIdent = false; +volatile float g_maxDepthRender = 1000; +volatile float g_maxHeightRender = -1000; +volatile float g_offMulVal = 1; + +void LevelRenderer::cull_SPU(int playerIndex, Culler *culler, float a) +{ + if(m_bSPUCullStarted[playerIndex]) + { + return; // running already + } + + FrustumCuller *fc = (FrustumCuller *)culler; + FrustumData *fd = fc->frustum; + float fdraw[6 * 4]; + for( int i = 0; i < 6; i++ ) + { + double fx = fd->m_Frustum[i][0]; + double fy = fd->m_Frustum[i][1]; + double fz = fd->m_Frustum[i][2]; + fdraw[i * 4 + 0] = (float)fx; + fdraw[i * 4 + 1] = (float)fy; + fdraw[i * 4 + 2] = (float)fz; + fdraw[i * 4 + 3] = (float)(fd->m_Frustum[i][3] + ( fx * -fc->xOff ) + ( fy * - fc->yOff ) + ( fz * -fc->zOff )); + } + + memcpy(&g_cullDataIn[playerIndex].fdraw, fdraw, sizeof(fdraw)); + g_cullDataIn[playerIndex].numClipChunks = chunks[playerIndex].length; + g_cullDataIn[playerIndex].pClipChunks = (ClipChunk_SPU*)chunks[playerIndex].data; + g_cullDataIn[playerIndex].numGlobalChunks = getGlobalChunkCount(); + g_cullDataIn[playerIndex].pGlobalChunkFlags = globalChunkFlags; + g_cullDataIn[playerIndex].chunkLists = chunkLists; + g_cullDataIn[playerIndex].listArray_layer0 = g_listArray_layer0[playerIndex]; + g_cullDataIn[playerIndex].listArray_layer1 = g_listArray_layer1[playerIndex]; + g_cullDataIn[playerIndex].zDepth_layer0 = g_zDepth_layer0[playerIndex]; + g_cullDataIn[playerIndex].zDepth_layer1 = g_zDepth_layer1[playerIndex]; + g_cullDataIn[playerIndex].maxDepthRender = g_maxDepthRender; + g_cullDataIn[playerIndex].maxHeightRender = g_maxHeightRender; + + if(g_useIdent) + g_cullDataIn[playerIndex].clipMat = Vectormath::Aos::Matrix4::identity(); + else + { + memcpy(&g_cullDataIn[playerIndex].clipMat, &fc->frustum->modl[0], sizeof(float) * 16); + g_cullDataIn[playerIndex].clipMat[3][0] = -fc->xOff; + g_cullDataIn[playerIndex].clipMat[3][1] = -fc->yOff; + g_cullDataIn[playerIndex].clipMat[3][2] = -fc->zOff; + } + + + C4JSpursJob_LevelRenderer_cull cullJob(&g_cullDataIn[playerIndex]); + C4JSpursJob_LevelRenderer_zSort sortJob(&g_cullDataIn[playerIndex]); + + m_jobPort_CullSPU->submitJob(&cullJob); + m_jobPort_CullSPU->submitSync(); + // static int doSort = false; + // if(doSort) + { + m_jobPort_CullSPU->submitJob(&sortJob); + } + // doSort ^= 1; + m_bSPUCullStarted[playerIndex] = true; +} +void LevelRenderer::waitForCull_SPU() +{ + m_jobPort_CullSPU->waitForCompletion(); + int playerIndex = mc->player->GetXboxPad(); // 4J added + m_bSPUCullStarted[playerIndex] = false; +} +#endif // __PS3__ + +void LevelRenderer::cull(Culler *culler, float a) +{ + int playerIndex = mc->player->GetXboxPad(); // 4J added + +#if defined __PS3__ && !defined DISABLE_SPU_CODE + cull_SPU(playerIndex, culler, a); + return; +#endif // __PS3__ + + + FrustumCuller *fc = static_cast(culler); + FrustumData *fd = fc->frustum; + float fdraw[6 * 4]; + for( int i = 0; i < 6; i++ ) + { + double fx = fd->m_Frustum[i][0]; + double fy = fd->m_Frustum[i][1]; + double fz = fd->m_Frustum[i][2]; + fdraw[i * 4 + 0] = static_cast(fx); + fdraw[i * 4 + 1] = static_cast(fy); + fdraw[i * 4 + 2] = static_cast(fz); + fdraw[i * 4 + 3] = static_cast(fd->m_Frustum[i][3] + (fx * -fc->xOff) + (fy * -fc->yOff) + (fz * -fc->zOff)); + } + + ClipChunk *pClipChunk = chunks[playerIndex].data; + int vis = 0; + int total = 0; + int numWrong = 0; + for (unsigned int i = 0; i < chunks[playerIndex].length; i++) + { + unsigned char flags = pClipChunk->globalIdx == -1 ? 0 : globalChunkFlags[ pClipChunk->globalIdx ]; + + // Always perform frustum cull test + bool clipres = clip(pClipChunk->aabb, fdraw); + + if ( (flags & CHUNK_FLAG_COMPILED ) && ( ( flags & CHUNK_FLAG_EMPTYBOTH ) != CHUNK_FLAG_EMPTYBOTH ) ) + { + pClipChunk->visible = clipres; + if( pClipChunk->visible ) vis++; + total++; + } + else if (clipres) + { + pClipChunk->visible = true; + } + else + { + pClipChunk->visible = false; + } + pClipChunk++; + } +} + + +void LevelRenderer::playStreamingMusic(const wstring& name, int x, int y, int z) +{ + if (name != L"") + { + //mc->gui->setNowPlaying(L"C418 - " + name); + } + mc->soundEngine->playStreaming(name, static_cast(x), static_cast(y), static_cast(z), 1, 1); +} + +void LevelRenderer::playSound(int iSound, double x, double y, double z, float volume, float pitch, float fSoundClipDist) +{ + // 4J-PB - removed in 1.4 + + //float dd = 16; + /*if (volume > 1) fSoundClipDist *= volume; + + // 4J - find min distance to any players rather than just the current one + float minDistSq = FLT_MAX; + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( mc->localplayers[i] ) + { + float distSq = mc->localplayers[i]->distanceToSqr(x, y, z ); + if( distSq < minDistSq ) + { + minDistSq = distSq; + } + } + } + + if (minDistSq < fSoundClipDist * fSoundClipDist) + { + mc->soundEngine->play(iSound, (float) x, (float) y, (float) z, volume, pitch); + } */ +} + +void LevelRenderer::playSound(shared_ptr entity,int iSound, double x, double y, double z, float volume, float pitch, float fSoundClipDist) +{ +} + +void LevelRenderer::playSoundExceptPlayer(shared_ptr player, int iSound, double x, double y, double z, float volume, float pitch, float fSoundClipDist) +{ +} + +// 4J-PB - original function. I've changed to an enum instead of string compares +// 4J removed - +/* +void LevelRenderer::addParticle(const wstring& name, double x, double y, double z, double xa, double ya, double za) +{ +if (mc == nullptr || mc->cameraTargetPlayer == nullptr || mc->particleEngine == nullptr) return; + +double xd = mc->cameraTargetPlayer->x - x; +double yd = mc->cameraTargetPlayer->y - y; +double zd = mc->cameraTargetPlayer->z - z; + +double particleDistance = 16; +if (xd * xd + yd * yd + zd * zd > particleDistance * particleDistance) return; + +int playerIndex = mc->player->GetXboxPad(); // 4J added + +if (name== L"bubble") mc->particleEngine->add(shared_ptr( new BubbleParticle(level[playerIndex], x, y, z, xa, ya, za) ) ); +else if (name== L"smoke") mc->particleEngine->add(shared_ptr( new SmokeParticle(level[playerIndex], x, y, z, xa, ya, za) ) ); +else if (name== L"note") mc->particleEngine->add(shared_ptr( new NoteParticle(level[playerIndex], x, y, z, xa, ya, za) ) ); +else if (name== L"portal") mc->particleEngine->add(shared_ptr( new PortalParticle(level[playerIndex], x, y, z, xa, ya, za) ) ); +else if (name== L"explode") mc->particleEngine->add(shared_ptr( new ExplodeParticle(level[playerIndex], x, y, z, xa, ya, za) ) ); +else if (name== L"flame") mc->particleEngine->add(shared_ptr( new FlameParticle(level[playerIndex], x, y, z, xa, ya, za) ) ); +else if (name== L"lava") mc->particleEngine->add(shared_ptr( new LavaParticle(level[playerIndex], x, y, z) ) ); +else if (name== L"footstep") mc->particleEngine->add(shared_ptr( new FootstepParticle(textures, level[playerIndex], x, y, z) ) ); +else if (name== L"splash") mc->particleEngine->add(shared_ptr( new SplashParticle(level[playerIndex], x, y, z, xa, ya, za) ) ); +else if (name== L"largesmoke") mc->particleEngine->add(shared_ptr( new SmokeParticle(level[playerIndex], x, y, z, xa, ya, za, 2.5f) ) ); +else if (name== L"reddust") mc->particleEngine->add(shared_ptr( new RedDustParticle(level[playerIndex], x, y, z, (float) xa, (float) ya, (float) za) ) ); +else if (name== L"snowballpoof") mc->particleEngine->add(shared_ptr( new BreakingItemParticle(level[playerIndex], x, y, z, Item::snowBall) ) ); +else if (name== L"snowshovel") mc->particleEngine->add(shared_ptr( new SnowShovelParticle(level[playerIndex], x, y, z, xa, ya, za) ) ); +else if (name== L"slime") mc->particleEngine->add(shared_ptr( new BreakingItemParticle(level[playerIndex], x, y, z, Item::slimeBall)) ) ; +else if (name== L"heart") mc->particleEngine->add(shared_ptr( new HeartParticle(level[playerIndex], x, y, z, xa, ya, za) ) ); +} +*/ + +void LevelRenderer::addParticle(ePARTICLE_TYPE eParticleType, double x, double y, double z, double xa, double ya, double za) +{ + addParticleInternal( eParticleType, x, y, z, xa, ya, za ); +} + +shared_ptr LevelRenderer::addParticleInternal(ePARTICLE_TYPE eParticleType, double x, double y, double z, double xa, double ya, double za) +{ + if (mc == nullptr || mc->cameraTargetPlayer == nullptr || mc->particleEngine == nullptr) + { + return nullptr; + } + + // 4J added - do some explicit checking for NaN. The normal depth clipping seems to generally work for NaN (ie they get rejected), except on optimised PS3 code which + // reverses the logic on the comparison with particleDistanceSquared and gets the opposite result to what you might expect. + if( Double::isNaN(x) ) return nullptr; + if( Double::isNaN(y) ) return nullptr; + if( Double::isNaN(z) ) return nullptr; + + int particleLevel = mc->options->particles; + + Level *lev; + int playerIndex = mc->player->GetXboxPad(); // 4J added + lev = level[playerIndex]; + + if (particleLevel == 1) + { + // when playing at "decreased" particle level, randomly filter + // particles by setting the level to "minimal" + if (level[playerIndex]->random->nextInt(3) == 0) + { + particleLevel = 2; + } + } + + // 4J - the java code doesn't distance cull these two particle types, we need to implement this behaviour differently as our distance check is + // mixed up with other things + bool distCull = true; + if ( (eParticleType == eParticleType_hugeexplosion) || (eParticleType == eParticleType_largeexplode) || (eParticleType == eParticleType_dragonbreath) ) + { + distCull = false; + } + + // 4J - this is a bit of hack to get communication through from the level itself, but if Minecraft::animateTickLevel is nullptr then + // we are to behave as normal, and if it is set, then we should use that as a pointer to the level the particle is to be created with + // rather than try to work it out from the current player. This is because in this state we are calling from a loop that is trying + // to amalgamate particle creation between all players for a particular level. Also don't do distance clipping as it isn't for a particular + // player, and distance is already taken into account before we get here anyway by the code in Level::animateTickDoWork + if( mc->animateTickLevel == nullptr ) + { + double particleDistanceSquared = 16 * 16; + double xd = 0.0f; + double yd = 0.0f; + double zd = 0.0f; + + // 4J Stu - Changed this as we need to check all local players in case one of them is in range of this particle + // Fix for #13454 - art : note blocks do not show notes + bool inRange = false; + for(unsigned int i = 0; i < XUSER_MAX_COUNT; ++i) + { + shared_ptr thisPlayer = mc->localplayers[i]; + if(thisPlayer != nullptr && level[i] == lev) + { + xd = thisPlayer->x - x; + yd = thisPlayer->y - y; + zd = thisPlayer->z - z; + if (xd * xd + yd * yd + zd * zd <= particleDistanceSquared) inRange = true; + } + } + if( (!inRange) && distCull ) return nullptr; + } + else + { + lev = mc->animateTickLevel; + } + + if (particleLevel > 1) + { + // TODO: If any of the particles below are necessary even if + // particles are turned off, then modify this if statement + return nullptr; + } + + shared_ptr particle; + + switch(eParticleType) + { + case eParticleType_hugeexplosion: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_largeexplode: + particle = std::make_shared(textures, lev, x, y, z, xa, ya, za); + break; + case eParticleType_fireworksspark: + particle = std::make_shared(lev, x, y, z, xa, ya, za, mc->particleEngine); + particle->setAlpha(0.99f); + break; + + case eParticleType_bubble: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + + case eParticleType_suspended: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_depthsuspend: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_townaura: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_crit: + { + shared_ptr critParticle2 = std::make_shared(lev, x, y, z, xa, ya, za); + critParticle2->CritParticle2PostConstructor(); + particle = shared_ptr( critParticle2 ); + // request from 343 to set pink for the needler in the Halo Texture Pack + // Set particle colour from colour-table. + unsigned int cStart = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_CritStart ); + unsigned int cEnd = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_CritEnd ); + + // If the start and end colours are the same, just set that colour, otherwise random between them + if(cStart==cEnd) + { + critParticle2->SetAgeUniformly(); + particle->setColor( ( (cStart>>16)&0xFF )/255.0f, ( (cStart>>8)&0xFF )/255.0, ( cStart&0xFF )/255.0 ); + } + else + { + float fStart=static_cast(cStart & 0xFF); + float fDiff=static_cast((cEnd - cStart) & 0xFF); + + float fCol = (fStart + (Math::random() * fDiff))/255.0f; + particle->setColor( fCol, fCol, fCol ); + } + } + break; + case eParticleType_magicCrit: + { + shared_ptr critParticle2 = std::make_shared(lev, x, y, z, xa, ya, za); + critParticle2->CritParticle2PostConstructor(); + particle = shared_ptr(critParticle2); + particle->setColor(particle->getRedCol() * 0.3f, particle->getGreenCol() * 0.8f, particle->getBlueCol()); + particle->setNextMiscAnimTex(); + } + break; + case eParticleType_smoke: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_endportal: // 4J - Added. + { + SmokeParticle *tmp = new SmokeParticle(lev, x, y, z, xa, ya, za); + + // 4J-JEV: Set particle colour from colour-table. + unsigned int col = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_EnderPortal ); + tmp->setColor( ( (col>>16)&0xFF )/255.0f, ( (col>>8)&0xFF )/255.0, ( col&0xFF )/255.0 ); + + particle = shared_ptr(tmp); + } + break; + case eParticleType_mobSpell: + particle = std::make_shared(lev, x, y, z, 0, 0, 0); + particle->setColor(static_cast(xa), static_cast(ya), static_cast(za)); + break; + case eParticleType_mobSpellAmbient: + particle = std::make_shared(lev, x, y, z, 0, 0, 0); + particle->setAlpha(0.15f); + particle->setColor(static_cast(xa), static_cast(ya), static_cast(za)); + break; + case eParticleType_spell: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_witchMagic: + { + particle = std::make_shared(lev, x, y, z, xa, ya, za); + dynamic_pointer_cast(particle)->setBaseTex(9 * 16); + float randBrightness = lev->random->nextFloat() * 0.5f + 0.35f; + particle->setColor(1 * randBrightness, 0 * randBrightness, 1 * randBrightness); + } + break; + case eParticleType_instantSpell: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + dynamic_pointer_cast(particle)->setBaseTex(9 * 16); + break; + case eParticleType_note: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_netherportal: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_ender: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_enchantmenttable: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_explode: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_flame: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_lava: + particle = std::make_shared(lev, x, y, z); + break; + case eParticleType_footstep: + particle = std::make_shared(textures, lev, x, y, z); + break; + case eParticleType_splash: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_largesmoke: + particle = std::make_shared(lev, x, y, z, xa, ya, za, 2.5f); + break; + case eParticleType_reddust: + particle = std::make_shared(lev, x, y, z, static_cast(xa), static_cast(ya), static_cast(za)); + break; + case eParticleType_snowballpoof: + particle = std::make_shared(lev, x, y, z, Item::snowBall, textures); + break; + case eParticleType_dripWater: + particle = std::make_shared(lev, x, y, z, Material::water); + break; + case eParticleType_dripLava: + particle = std::make_shared(lev, x, y, z, Material::lava); + break; + case eParticleType_snowshovel: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_slime: + particle = std::make_shared(lev, x, y, z, Item::slimeBall, textures); + break; + case eParticleType_heart: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + case eParticleType_angryVillager: + particle = std::make_shared(lev, x, y + 0.5f, z, xa, ya, za); + particle->setMiscTex(1 + 16 * 5); + particle->setColor(1, 1, 1); + break; + case eParticleType_happyVillager: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + particle->setMiscTex(2 + 16 * 5); + particle->setColor(1, 1, 1); + break; + case eParticleType_dragonbreath: + particle = std::make_shared(lev, x, y, z, xa, ya, za); + break; + default: + if( ( eParticleType >= eParticleType_iconcrack_base ) && ( eParticleType <= eParticleType_iconcrack_last ) ) + { + int id = PARTICLE_CRACK_ID(eParticleType), data = PARTICLE_CRACK_DATA(eParticleType); + particle = std::make_shared(lev, x, y, z, xa, ya, za, Item::items[id], textures, data); + } + else if( ( eParticleType >= eParticleType_tilecrack_base ) && ( eParticleType <= eParticleType_tilecrack_last ) ) + { + int id = PARTICLE_CRACK_ID(eParticleType), data = PARTICLE_CRACK_DATA(eParticleType); + particle = dynamic_pointer_cast(std::make_shared(lev, x, y, z, xa, ya, za, Tile::tiles[id], 0, data, textures)->init(data) ); + } + } + + if (particle != nullptr) + { + mc->particleEngine->add(particle); + } + + return particle; +} + +void LevelRenderer::entityAdded(shared_ptr entity) +{ + if(entity->instanceof(eTYPE_PLAYER)) + { + shared_ptr player = dynamic_pointer_cast(entity); + player->prepareCustomTextures(); + + // 4J-PB - adding these from global title storage + if (player->customTextureUrl != L"") + { + textures->addMemTexture(player->customTextureUrl, new MobSkinMemTextureProcessor()); + } + if (player->customTextureUrl2 != L"") + { + textures->addMemTexture(player->customTextureUrl2, new MobSkinMemTextureProcessor()); + } + } +} + +void LevelRenderer::entityRemoved(shared_ptr entity) +{ + if(entity->instanceof(eTYPE_PLAYER)) + { + shared_ptr player = dynamic_pointer_cast(entity); + if (player->customTextureUrl != L"") + { + textures->removeMemTexture(player->customTextureUrl); + } + if (player->customTextureUrl2 != L"") + { + textures->removeMemTexture(player->customTextureUrl2); + } + } +} + +void LevelRenderer::skyColorChanged() +{ + // 4J - no longer used +#if 0 + EnterCriticalSection(&m_csDirtyChunks); + for( int i = 0; i < getGlobalChunkCountForOverworld(); i++ ) + { + if( ( globalChunkFlags[i] & CHUNK_FLAG_NOTSKYLIT ) == 0 ) + { + globalChunkFlags[i] |= CHUNK_FLAG_DIRTY; + } + } + LeaveCriticalSection(&m_csDirtyChunks); +#endif +} + +void LevelRenderer::clear() +{ + MemoryTracker::releaseLists(chunkLists); +} + +void LevelRenderer::globalLevelEvent(int type, int sourceX, int sourceY, int sourceZ, int data) +{ + Level *lev; + int playerIndex = mc->player->GetXboxPad(); // 4J added + lev = level[playerIndex]; + + Random *random = lev->random; + + switch (type) + { + case LevelEvent::SOUND_WITHER_BOSS_SPAWN: + case LevelEvent::SOUND_DRAGON_DEATH: + if (mc->cameraTargetPlayer != nullptr) + { + // play the sound at an offset from the player + double dx = sourceX - mc->cameraTargetPlayer->x; + double dy = sourceY - mc->cameraTargetPlayer->y; + double dz = sourceZ - mc->cameraTargetPlayer->z; + + double len = sqrt(dx * dx + dy * dy + dz * dz); + double sx = mc->cameraTargetPlayer->x; + double sy = mc->cameraTargetPlayer->y; + double sz = mc->cameraTargetPlayer->z; + + if (len > 0) + { + sx += dx / len * 2; + sy += dy / len * 2; + sz += dz / len * 2; + } + if (type == LevelEvent::SOUND_WITHER_BOSS_SPAWN) + { + lev->playLocalSound(sx, sy, sz, eSoundType_MOB_WITHER_SPAWN, 1.0f, 1.0f, false); + } + else if (type == LevelEvent::SOUND_DRAGON_DEATH) + { + lev->playLocalSound(sx, sy, sz, eSoundType_MOB_ENDERDRAGON_END, 5.0f, 1.0f, false); + } + } + break; + } +} + +void LevelRenderer::levelEvent(shared_ptr source, int type, int x, int y, int z, int data) +{ + int playerIndex = mc->player->GetXboxPad(); // 4J added + Random *random = level[playerIndex]->random; + switch (type) + { + //case LevelEvent::SOUND_WITHER_BOSS_SPAWN: + case LevelEvent::SOUND_DRAGON_DEATH: + if (mc->cameraTargetPlayer != nullptr) + { + // play the sound at an offset from the player + double dx = x - mc->cameraTargetPlayer->x; + double dy = y - mc->cameraTargetPlayer->y; + double dz = z - mc->cameraTargetPlayer->z; + + double len = sqrt(dx * dx + dy * dy + dz * dz); + double sx = mc->cameraTargetPlayer->x; + double sy = mc->cameraTargetPlayer->y; + double sz = mc->cameraTargetPlayer->z; + + if (len > 0) + { + sx += (dx / len) * 2; + sy += (dy / len) * 2; + sz += (dz / len) * 2; + } + + level[playerIndex]->playLocalSound(sx, sy, sz, eSoundType_MOB_ENDERDRAGON_END, 5.0f, 1.0f); + } + break; + case LevelEvent::SOUND_CLICK_FAIL: + //level[playerIndex]->playSound(x, y, z, L"random.click", 1.0f, 1.2f); + level[playerIndex]->playLocalSound(x, y, z, eSoundType_RANDOM_CLICK, 1.0f, 1.2f, false); + break; + case LevelEvent::SOUND_CLICK: + level[playerIndex]->playLocalSound(x, y, z, eSoundType_RANDOM_CLICK, 1.0f, 1.0f, false); + break; + case LevelEvent::SOUND_LAUNCH: + level[playerIndex]->playLocalSound(x, y, z, eSoundType_RANDOM_BOW, 1.0f, 1.2f, false); + break; + case LevelEvent::PARTICLES_SHOOT: + { + int xd = (data % 3) - 1; + int zd = (data / 3 % 3) - 1; + double xp = x + xd * 0.6 + 0.5; + double yp = y + 0.5; + double zp = z + zd * 0.6 + 0.5; + for (int i = 0; i < 10; i++) + { + double pow = random->nextDouble() * 0.2 + 0.01; + double xs = xp + xd * 0.01 + (random->nextDouble() - 0.5) * zd * 0.5; + double ys = yp + (random->nextDouble() - 0.5) * 0.5; + double zs = zp + zd * 0.01 + (random->nextDouble() - 0.5) * xd * 0.5; + double xsa = xd * pow + random->nextGaussian() * 0.01; + double ysa = -0.03 + random->nextGaussian() * 0.01; + double zsa = zd * pow + random->nextGaussian() * 0.01; + addParticle(eParticleType_smoke, xs, ys, zs, xsa, ysa, zsa); + } + break; + } + case LevelEvent::PARTICLES_EYE_OF_ENDER_DEATH: + { + double xp = x + 0.5; + double yp = y; + double zp = z + 0.5; + + ePARTICLE_TYPE particle = PARTICLE_ICONCRACK(Item::eyeOfEnder->id,0); + for (int i = 0; i < 8; i++) + { + addParticle(particle, xp, yp, zp, random->nextGaussian() * 0.15, random->nextDouble() * 0.2, random->nextGaussian() * .15); + } + for (double a = 0; a < PI * 2.0; a += PI * 0.05) + { + addParticle(eParticleType_ender, xp + cos(a) * 5, yp - .4, zp + sin(a) * 5, cos(a) * -5, 0, sin(a) * -5); + addParticle(eParticleType_ender, xp + cos(a) * 5, yp - .4, zp + sin(a) * 5, cos(a) * -7, 0, sin(a) * -7); + } + + } + break; + case LevelEvent::PARTICLES_POTION_SPLASH: + { + double xp = x; + double yp = y; + double zp = z; + + ePARTICLE_TYPE particle = PARTICLE_ICONCRACK(Item::potion->id, data); + for (int i = 0; i < 8; i++) + { + addParticle(particle, xp, yp, zp, random->nextGaussian() * 0.15, random->nextDouble() * 0.2, random->nextGaussian() * 0.15); + } + + + int colorValue = Item::potion->getColor(data); + + float red = static_cast((colorValue >> 16) & 0xff) / 255.0f; + float green = static_cast((colorValue >> 8) & 0xff) / 255.0f; + float blue = static_cast((colorValue >> 0) & 0xff) / 255.0f; + + ePARTICLE_TYPE particleName = eParticleType_spell; + if (Item::potion->hasInstantenousEffects(data)) + { + particleName = eParticleType_instantSpell; + } + + for (int i = 0; i < 100; i++) + { + double dist = random->nextDouble() * ThrownPotion::SPLASH_RANGE; + double angle = random->nextDouble() * PI * 2; + double xs = cos(angle) * dist; + double ys = 0.01 + random->nextDouble() * 0.5; + double zs = sin(angle) * dist; + + shared_ptr spellParticle = addParticleInternal(particleName, xp + xs * 0.1, yp + 0.3, zp + zs * 0.1, xs, ys, zs); + if (spellParticle != nullptr) + { + float randBrightness = 0.75f + random->nextFloat() * 0.25f; + spellParticle->setColor(red * randBrightness, green * randBrightness, blue * randBrightness); + spellParticle->setPower(static_cast(dist)); + } + } + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_RANDOM_GLASS, 1, level[playerIndex]->random->nextFloat() * 0.1f + 0.9f, false); + } + break; + case LevelEvent::ENDERDRAGON_FIREBALL_SPLASH: + { + double xp = x; + double yp = y; + double zp = z; + + ePARTICLE_TYPE particleName = eParticleType_dragonbreath; + + for (int i = 0; i < 200; i++) + { + double dist = random->nextDouble() * DragonFireball::SPLASH_RANGE; + double angle = random->nextDouble() * PI * 2; + double xs = cos(angle) * dist; + double ys = 0.01 + random->nextDouble() * 0.5; + double zs = sin(angle) * dist; + + shared_ptr acidParticle = addParticleInternal(particleName, xp + xs * 0.1, yp + 0.3, zp + zs * 0.1, xs, ys, zs); + if (acidParticle != nullptr) + { + float randBrightness = 0.75f + random->nextFloat() * 0.25f; + acidParticle->setPower(static_cast(dist)); + } + } + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_RANDOM_EXPLODE, 1, level[playerIndex]->random->nextFloat() * 0.1f + 0.9f); + } + break; + case LevelEvent::PARTICLES_DESTROY_BLOCK: + { + int t = data & Tile::TILE_NUM_MASK; + if (t > 0) + { + Tile *oldTile = Tile::tiles[t]; + mc->soundEngine->play(oldTile->soundType->getBreakSound(), x + 0.5f, y + 0.5f, z + 0.5f, (oldTile->soundType->getVolume() + 1) / 2, oldTile->soundType->getPitch() * 0.8f); + } + + mc->particleEngine->destroy(x, y, z, data & Tile::TILE_NUM_MASK, (data >> Tile::TILE_NUM_SHIFT) & 0xff); + break; + } + case LevelEvent::PARTICLES_MOBTILE_SPAWN: + { + for (int i = 0; i < 20; i++) + { + + double xP = x + 0.5 + (level[playerIndex]->random->nextFloat() - 0.5) * 2; + double yP = y + 0.5 + (level[playerIndex]->random->nextFloat() - 0.5) * 2; + double zP = z + 0.5 + (level[playerIndex]->random->nextFloat() - 0.5) * 2; + + level[playerIndex]->addParticle(eParticleType_smoke, xP, yP, zP, 0, 0, 0); + level[playerIndex]->addParticle(eParticleType_flame, xP, yP, zP, 0, 0, 0); + } + break; + } + case LevelEvent::PARTICLES_PLANT_GROWTH: + DyePowderItem::addGrowthParticles(level[playerIndex], x, y, z, data); + break; + case LevelEvent::SOUND_OPEN_DOOR: + if (Math::random() < 0.5) + { + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_RANDOM_DOOR_OPEN, 1.0f, level[playerIndex]->random->nextFloat() * 0.1f + 0.9f, false); + } else { + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_RANDOM_DOOR_CLOSE, 1.0f, level[playerIndex]->random->nextFloat() * 0.1f + 0.9f, false); + } + break; + case LevelEvent::SOUND_FIZZ: + level[playerIndex]->playLocalSound(x + 0.5f, y + 0.5f, z + 0.5f, eSoundType_RANDOM_FIZZ, 0.5f, 2.6f + (random->nextFloat() - random->nextFloat()) * 0.8f, false); + break; + case LevelEvent::SOUND_ANVIL_BROKEN: + level[playerIndex]->playLocalSound(x + 0.5f, y + 0.5f, z + 0.5f, eSoundType_RANDOM_ANVIL_BREAK, 1.0f, level[playerIndex]->random->nextFloat() * 0.1f + 0.9f, false); + break; + case LevelEvent::SOUND_ANVIL_USED: + level[playerIndex]->playLocalSound(x + 0.5f, y + 0.5f, z + 0.5f, eSoundType_RANDOM_ANVIL_USE, 1.0f, level[playerIndex]->random->nextFloat() * 0.1f + 0.9f, false); + break; + case LevelEvent::SOUND_ANVIL_LAND: + level[playerIndex]->playLocalSound(x + 0.5f, y + 0.5f, z + 0.5f, eSoundType_RANDOM_ANVIL_LAND, 0.3f, level[playerIndex]->random->nextFloat() * 0.1f + 0.9f, false); + break; + case LevelEvent::SOUND_PLAY_RECORDING: + { + RecordingItem *rci = dynamic_cast(Item::items[data]); + if (rci != nullptr) + { + level[playerIndex]->playStreamingMusic(rci->recording, x, y, z); + } + else + { + // 4J-PB - only play streaming music if there isn't already some playing - the CD playing may have finished, and game music started playing already + if(!mc->soundEngine->GetIsPlayingStreamingGameMusic()) + { + level[playerIndex]->playStreamingMusic(L"", x, y, z); // 4J - used to pass nullptr, but using empty string here now instead + } + } + mc->localplayers[playerIndex]->updateRichPresence(); + } + break; + // 4J - new level event sounds brought forward from 1.2.3 + case LevelEvent::SOUND_GHAST_WARNING: + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_MOB_GHAST_CHARGE, 2.0f, (random->nextFloat() - random->nextFloat()) * 0.2f + 1.0f, false, 80.0f); + break; + case LevelEvent::SOUND_GHAST_FIREBALL: + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_MOB_GHAST_FIREBALL, 2.0f, (random->nextFloat() - random->nextFloat()) * 0.2f + 1.0f, false, 80.0f); + break; + case LevelEvent::SOUND_ZOMBIE_WOODEN_DOOR: + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_MOB_ZOMBIE_WOOD, 2.0f, (random->nextFloat() - random->nextFloat()) * 0.2f + 1.0f); + break; + case LevelEvent::SOUND_ZOMBIE_DOOR_CRASH: + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_MOB_ZOMBIE_WOOD_BREAK, 2.0f, (random->nextFloat() - random->nextFloat()) * 0.2f + 1.0f); + break; + case LevelEvent::SOUND_ZOMBIE_IRON_DOOR: + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_MOB_ZOMBIE_METAL, 2.0f, (random->nextFloat() - random->nextFloat()) * 0.2f + 1.0f); + break; + case LevelEvent::SOUND_BLAZE_FIREBALL: + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_MOB_GHAST_FIREBALL, 2, (random->nextFloat() - random->nextFloat()) * 0.2f + 1.0f);//, false); + break; + case LevelEvent::SOUND_WITHER_BOSS_SHOOT: + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_MOB_WITHER_SHOOT, 2, (random->nextFloat() - random->nextFloat()) * 0.2f + 1.0f);//, false); + break; + case LevelEvent::SOUND_ZOMBIE_INFECTED: + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_MOB_ZOMBIE_INFECT, 2.0f, (random->nextFloat() - random->nextFloat()) * 0.2f + 1.0f);//, false); + break; + case LevelEvent::SOUND_ZOMBIE_CONVERTED: + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_MOB_ZOMBIE_UNFECT, 2.0f, (random->nextFloat() - random->nextFloat()) * 0.2f + 1.0f);//, false); + break; + // 4J Added TU9 to fix #77475 - TU9: Content: Art: Dragon egg teleport particle effect isn't present. + case LevelEvent::END_EGG_TELEPORT: + // 4J Added to show the paricles when the End egg teleports after being attacked + EggTile::generateTeleportParticles(level[playerIndex],x,y,z,data); + break; + case LevelEvent::SOUND_BAT_LIFTOFF: + level[playerIndex]->playLocalSound(x + 0.5, y + 0.5, z + 0.5, eSoundType_MOB_BAT_TAKEOFF, .05f, (random->nextFloat() - random->nextFloat()) * 0.2f + 1.0f); + break; + } + +} + +void LevelRenderer::destroyTileProgress(int id, int x, int y, int z, int progress) +{ + if (progress < 0 || progress >= 10) + { + auto it = destroyingBlocks.find(id); + if(it != destroyingBlocks.end()) + { + delete it->second; + destroyingBlocks.erase(it); + } + //destroyingBlocks.remove(id); + } + else + { + BlockDestructionProgress *entry = nullptr; + + auto it = destroyingBlocks.find(id); + if(it != destroyingBlocks.end()) entry = it->second; + + if (entry == nullptr || entry->getX() != x || entry->getY() != y || entry->getZ() != z) + { + entry = new BlockDestructionProgress(id, x, y, z); + destroyingBlocks.insert( unordered_map::value_type(id, entry) ); + } + + entry->setProgress(progress); + entry->updateTick(ticks); + } +} + +void LevelRenderer::registerTextures(IconRegister *iconRegister) +{ + breakingTextures = new Icon*[10]; + + for (int i = 0; i < 10; i++) + { + breakingTextures[i] = iconRegister->registerIcon(L"destroy_" + std::to_wstring(i) ); + } +} + +// Gets a dimension index (0, 1, or 2) from an id ( 0, -1, 1) +int LevelRenderer::getDimensionIndexFromId(int id) +{ + return ( 3 - id ) % 3; +} + +// 4J - added for new render list handling. Render lists used to be allocated per chunk, but these are now allocated per fixed chunk position +// in our (now finite) maps. +int LevelRenderer::getGlobalIndexForChunk(int x, int y, int z, Level *level) +{ + return getGlobalIndexForChunk(x,y,z,level->dimension->id); +} + +int LevelRenderer::getGlobalIndexForChunk(int x, int y, int z, int dimensionId) +{ + int dimIdx = getDimensionIndexFromId(dimensionId); + int xx = ( x / CHUNK_XZSIZE ) + ( MAX_LEVEL_RENDER_SIZE[dimIdx] / 2 ); + int yy = y / CHUNK_SIZE; + int zz = ( z / CHUNK_XZSIZE ) + ( MAX_LEVEL_RENDER_SIZE[dimIdx] / 2 ); + + if( ( xx < 0 ) || ( xx >= MAX_LEVEL_RENDER_SIZE[dimIdx] ) ) return -1; + if( ( zz < 0 ) || ( zz >= MAX_LEVEL_RENDER_SIZE[dimIdx] ) ) return -1; + if( ( yy < 0 ) || ( yy >= CHUNK_Y_COUNT ) ) return -1; + + int dimOffset = DIMENSION_OFFSETS[dimIdx]; + + int offset = dimOffset; // Offset caused by current dimension + offset += ( zz * MAX_LEVEL_RENDER_SIZE[dimIdx] + xx ) * CHUNK_Y_COUNT; // Offset by x/z pos + offset += yy; // Offset by y pos + + return offset; +} + +bool LevelRenderer::isGlobalIndexInSameDimension( int idx, Level *level) +{ + int dim = getDimensionIndexFromId(level->dimension->id); + int idxDim = 0; + if( idx >= DIMENSION_OFFSETS[2] ) idxDim = 2; + else if ( idx >= DIMENSION_OFFSETS[1] ) idxDim = 1; + return (dim == idxDim); +} + +int LevelRenderer::getGlobalChunkCount() +{ + return ( MAX_LEVEL_RENDER_SIZE[0] * MAX_LEVEL_RENDER_SIZE[0] * CHUNK_Y_COUNT ) + + ( MAX_LEVEL_RENDER_SIZE[1] * MAX_LEVEL_RENDER_SIZE[1] * CHUNK_Y_COUNT ) + + ( MAX_LEVEL_RENDER_SIZE[2] * MAX_LEVEL_RENDER_SIZE[2] * CHUNK_Y_COUNT ); +} + +int LevelRenderer::getGlobalChunkCountForOverworld() +{ + return ( MAX_LEVEL_RENDER_SIZE[0] * MAX_LEVEL_RENDER_SIZE[0] * CHUNK_Y_COUNT ); +} + +unsigned char LevelRenderer::getGlobalChunkFlags(int x, int y, int z, Level *level) +{ + int index = getGlobalIndexForChunk(x, y, z, level); + if( index == -1 ) + { + return 0; + } + else + { + return globalChunkFlags[ index ]; + } +} + +void LevelRenderer::setGlobalChunkFlags(int x, int y, int z, Level *level, unsigned char flags) +{ + int index = getGlobalIndexForChunk(x, y, z, level); + if( index != -1 ) + { +#ifdef _LARGE_WORLDS + EnterCriticalSection(&m_csChunkFlags); +#endif + globalChunkFlags[ index ] = flags; +#ifdef _LARGE_WORLDS + LeaveCriticalSection(&m_csChunkFlags); +#endif + } +} + +void LevelRenderer::setGlobalChunkFlag(int index, unsigned char flag, unsigned char shift) +{ + unsigned char sflag = flag << shift; + + if( index != -1 ) + { +#ifdef _LARGE_WORLDS + EnterCriticalSection(&m_csChunkFlags); +#endif + globalChunkFlags[ index ] |= sflag; +#ifdef _LARGE_WORLDS + LeaveCriticalSection(&m_csChunkFlags); +#endif + } +} + +void LevelRenderer::setGlobalChunkFlag(int x, int y, int z, Level *level, unsigned char flag, unsigned char shift) +{ + unsigned char sflag = flag << shift; + int index = getGlobalIndexForChunk(x, y, z, level); + if( index != -1 ) + { +#ifdef _LARGE_WORLDS + EnterCriticalSection(&m_csChunkFlags); +#endif + globalChunkFlags[ index ] |= sflag; +#ifdef _LARGE_WORLDS + LeaveCriticalSection(&m_csChunkFlags); +#endif + } +} + +void LevelRenderer::clearGlobalChunkFlag(int x, int y, int z, Level *level, unsigned char flag, unsigned char shift) +{ + unsigned char sflag = flag << shift; + int index = getGlobalIndexForChunk(x, y, z, level); + if( index != -1 ) + { +#ifdef _LARGE_WORLDS + EnterCriticalSection(&m_csChunkFlags); +#endif + globalChunkFlags[ index ] &= ~sflag; +#ifdef _LARGE_WORLDS + LeaveCriticalSection(&m_csChunkFlags); +#endif + } +} + +bool LevelRenderer::getGlobalChunkFlag(int x, int y, int z, Level *level, unsigned char flag, unsigned char shift) +{ + unsigned char sflag = flag << shift; + int index = getGlobalIndexForChunk(x, y, z, level); + if( index == -1 ) + { + return false; + } + else + { + return ( globalChunkFlags[ index ] & sflag ) == sflag; + } +} + +unsigned char LevelRenderer::incGlobalChunkRefCount(int x, int y, int z, Level *level) +{ + int index = getGlobalIndexForChunk(x, y, z, level); + if( index != -1 ) + { + unsigned char flags = globalChunkFlags[ index ]; + unsigned char refCount = (flags >> CHUNK_FLAG_REF_SHIFT ) & CHUNK_FLAG_REF_MASK; + refCount++; + flags &= ~(CHUNK_FLAG_REF_MASK<> CHUNK_FLAG_REF_SHIFT ) & CHUNK_FLAG_REF_MASK; + refCount--; + flags &= ~(CHUNK_FLAG_REF_MASK<upgradeRenderRemoveStage(); + } + } + LeaveCriticalSection(&m_csRenderableTileEntities); +} + +LevelRenderer::DestroyedTileManager::RecentTile::RecentTile(int x, int y, int z, Level *level) : x(x), y(y), z(z), level(level) +{ + timeout_ticks = 20; + rebuilt = false; +} + +LevelRenderer::DestroyedTileManager::RecentTile::~RecentTile() +{ + for(auto& it : boxes) + { + delete it; + } +} + +LevelRenderer::DestroyedTileManager::DestroyedTileManager() +{ + InitializeCriticalSection(&m_csDestroyedTiles); +} + +LevelRenderer::DestroyedTileManager::~DestroyedTileManager() +{ + DeleteCriticalSection(&m_csDestroyedTiles); + for( unsigned int i = 0; i < m_destroyedTiles.size(); i++ ) + { + delete m_destroyedTiles[i]; + } +} + + +// For game to let this manager know that a tile is about to be destroyed (must be called before it actually is) +void LevelRenderer::DestroyedTileManager::destroyingTileAt( Level *level, int x, int y, int z ) +{ + EnterCriticalSection(&m_csDestroyedTiles); + + // Store a list of AABBs that the tile to be destroyed would have made, before we go and destroy it. This + // is made slightly more complicated as the addAABBs method for tiles adds temporary AABBs and we need permanent + // ones, so make a temporary list and then copy over + + RecentTile *recentTile = new RecentTile(x, y, z, level); + AABB *box = AABB::newTemp(static_cast(x), static_cast(y), static_cast(z), static_cast(x + 1), static_cast(y + 1), static_cast(z + 1)); + Tile *tile = Tile::tiles[level->getTile(x, y, z)]; + + if (tile != nullptr) + { + tile->addAABBs(level, x, y, z, box, &recentTile->boxes, nullptr); + } + + // Make these temporary AABBs into permanently allocated AABBs + for( unsigned int i = 0; i < recentTile->boxes.size(); i++ ) + { + recentTile->boxes[i] = AABB::newPermanent(recentTile->boxes[i]->x0, + recentTile->boxes[i]->y0, + recentTile->boxes[i]->z0, + recentTile->boxes[i]->x1, + recentTile->boxes[i]->y1, + recentTile->boxes[i]->z1); + } + + m_destroyedTiles.push_back( recentTile ); + + LeaveCriticalSection(&m_csDestroyedTiles); +} + +// For chunk rebuilding to inform the manager that a chunk (a 16x16x16 tile render chunk) has been updated +void LevelRenderer::DestroyedTileManager::updatedChunkAt(Level *level, int x, int y, int z, int veryNearCount) +{ + EnterCriticalSection(&m_csDestroyedTiles); + + // There's 2 stages to this. This function is called when a renderer chunk has been rebuilt, but that chunk's render data might be grouped atomically with + // changes to other very near chunks. Therefore, we don't want to consider the render data to be fully updated until the chunk that it is in has been + // rebuilt, AND there aren't any very near things waiting to be rebuilt. + + // First pass through - see if any tiles are within the chunk which is being rebuilt, and mark up by setting their rebuilt flag + bool printed = false; + for( unsigned int i = 0; i < m_destroyedTiles.size(); i++) + { + if( ( m_destroyedTiles[i]->level == level ) && + ( m_destroyedTiles[i]->x >= x ) && ( m_destroyedTiles[i]->x < ( x + 16 ) ) && + ( m_destroyedTiles[i]->y >= y ) && ( m_destroyedTiles[i]->y < ( y + 16 ) ) && + ( m_destroyedTiles[i]->z >= z ) && ( m_destroyedTiles[i]->z < ( z + 16 ) ) ) + { + printed = true; + m_destroyedTiles[i]->rebuilt = true; + } + } + + // Now go through every tile that has been marked up as already being rebuilt, and fully remove it once there aren't going to be any more + // very near chunks. This might not happen on the same call to this function that rebuilt the chunk with the tile in. + if( veryNearCount <= 1 ) + { + for( unsigned int i = 0; i < m_destroyedTiles.size(); ) + { + if( m_destroyedTiles[i]->rebuilt ) + { + printed = true; + delete m_destroyedTiles[i]; + m_destroyedTiles[i] = m_destroyedTiles[m_destroyedTiles.size() - 1]; + m_destroyedTiles.pop_back(); + } + else + { + i++; + } + } + } + + LeaveCriticalSection(&m_csDestroyedTiles); +} + +// For game to get any AABBs that the user should be colliding with as render data has not yet been updated +void LevelRenderer::DestroyedTileManager::addAABBs( Level *level, AABB *box, AABBList *boxes ) +{ + EnterCriticalSection(&m_csDestroyedTiles); + + for( unsigned int i = 0; i < m_destroyedTiles.size(); i++ ) + { + if( m_destroyedTiles[i]->level == level ) + { + for( unsigned int j = 0; j < m_destroyedTiles[i]->boxes.size(); j++ ) + { + // If we find any AABBs intersecting the region we are interested in, add them to the output list, making a temp AABB copy so that we can destroy our own copy + // without worrying about the lifespan of the copy we've passed out + if( m_destroyedTiles[i]->boxes[j]->intersects( box ) ) + { + boxes->push_back(AABB::newTemp( m_destroyedTiles[i]->boxes[j]->x0, + m_destroyedTiles[i]->boxes[j]->y0, + m_destroyedTiles[i]->boxes[j]->z0, + m_destroyedTiles[i]->boxes[j]->x1, + m_destroyedTiles[i]->boxes[j]->y1, + m_destroyedTiles[i]->boxes[j]->z1 ) ); + } + } + } + } + + LeaveCriticalSection(&m_csDestroyedTiles); +} + +void LevelRenderer::DestroyedTileManager::tick() +{ + EnterCriticalSection(&m_csDestroyedTiles); + + // Remove any tiles that have timed out + for( unsigned int i = 0; i < m_destroyedTiles.size(); ) + { + if( --m_destroyedTiles[i]->timeout_ticks == 0 ) + { + delete m_destroyedTiles[i]; + m_destroyedTiles[i] = m_destroyedTiles[m_destroyedTiles.size() - 1]; + m_destroyedTiles.pop_back(); + } + else + { + i++; + } + } + + LeaveCriticalSection(&m_csDestroyedTiles); +} + +#ifdef _LARGE_WORLDS +void LevelRenderer::staticCtor() +{ + s_rebuildCompleteEvents = new C4JThread::EventArray(MAX_CHUNK_REBUILD_THREADS); + char threadName[256]; + for(unsigned int i = 0; i < MAX_CHUNK_REBUILD_THREADS; ++i) + { + sprintf(threadName,"Rebuild Chunk Thread %d\n",i); + rebuildThreads[i] = new C4JThread(rebuildChunkThreadProc,(void *)i,threadName); + + s_activationEventA[i] = new C4JThread::Event(); + + // Threads 1,3 and 5 are generally idle so use them + if((i%3) == 0) rebuildThreads[i]->SetProcessor(CPU_CORE_CHUNK_REBUILD_A); + else if((i%3) == 1) + { + rebuildThreads[i]->SetProcessor(CPU_CORE_CHUNK_REBUILD_B); +#ifdef __ORBIS__ + rebuildThreads[i]->SetPriority(THREAD_PRIORITY_BELOW_NORMAL); // On Orbis, this core is also used for Matching 2, and that priority of that seems to be always at default no matter what we set it to. Prioritise this below Matching 2. +#endif + } + else if((i%3) == 2) rebuildThreads[i]->SetProcessor(CPU_CORE_CHUNK_REBUILD_C); + + //ResumeThread( saveThreads[j] ); + rebuildThreads[i]->Run(); + } +} + +int LevelRenderer::rebuildChunkThreadProc(LPVOID lpParam) +{ + Vec3::CreateNewThreadStorage(); + AABB::CreateNewThreadStorage(); + IntCache::CreateNewThreadStorage(); + Tesselator::CreateNewThreadStorage(1024*1024); + RenderManager.InitialiseContext(); + Chunk::CreateNewThreadStorage(); + Tile::CreateNewThreadStorage(); + + int index = (size_t)lpParam; + + while(true) + { + s_activationEventA[index]->WaitForSignal(INFINITE); + + //app.DebugPrintf("Rebuilding permaChunk %d\n", index + 1); + permaChunk[index + 1].rebuild(); + + // Inform the producer thread that we are done with this chunk + s_rebuildCompleteEvents->Set(index); + } + + return 0; +} +#endif + +// This is called when chunks require rebuilding, but they haven't been added individually to the dirtyChunksLockFreeStack. Once in this +// state, the rebuilding thread will keep assuming there are dirty chunks until it has had a full pass through the chunks and found no dirty ones +void LevelRenderer::nonStackDirtyChunksAdded() +{ + dirtyChunksLockFreeStack.Push((int *)1); +} + +// 4J - for test purposes, check all chunks that are currently present for the player. Currently this is implemented to do tests to identify missing client chunks in flat worlds, but +// this could be extended to do other kinds of automated testing. Returns the number of chunks that are present, so that from the calling function we can determine when chunks have +// finished loading/generating round the current location. +int LevelRenderer::checkAllPresentChunks(bool *faultFound) +{ + int playerIndex = mc->player->GetXboxPad(); // 4J added + + int presentCount = 0; + ClipChunk *pClipChunk = chunks[playerIndex].data; + for( int i = 0; i < chunks[playerIndex].length; i++, pClipChunk++ ) + { + if(pClipChunk->chunk->y == 0 ) + { + bool chunkPresent = level[0]->reallyHasChunk(pClipChunk->chunk->x>>4,pClipChunk->chunk->z>>4); + if( chunkPresent ) + { + presentCount++; + LevelChunk *levelChunk = level[0]->getChunk(pClipChunk->chunk->x>>4,pClipChunk->chunk->z>>4); + + for( int cx = 4; cx <= 12; cx++ ) + { + for( int cz = 4; cz <= 12; cz++ ) + { + int t0 = levelChunk->getTile(cx, 0, cz); + if( ( t0 != Tile::unbreakable_Id ) && (t0 != Tile::dirt_Id) ) + { + *faultFound = true; + } + } + } + } + } + } + return presentCount; +} + diff --git a/Minecraft.Client/LevelRenderer.h b/Minecraft.Client/LevelRenderer.h new file mode 100644 index 0000000..37e0b81 --- /dev/null +++ b/Minecraft.Client/LevelRenderer.h @@ -0,0 +1,292 @@ +#pragma once +#include "..\Minecraft.World\LevelListener.h" +#include "..\Minecraft.World\Definitions.h" +#include "OffsettedRenderList.h" +#include "..\Minecraft.World\JavaIntHash.h" +#include "..\Minecraft.World\Level.h" +#include "ResourceLocation.h" +#include +#ifdef __PS3__ +#include "C4JSpursJob.h" +#endif +class MultiPlayerLevel; +class Textures; +class Chunk; +class Minecraft; +class TileRenderer; +class Culler; +class Entity; +class TileEntity; +class Mob; +class Vec3; +class Particle; +class BlockDestructionProgress; +class IconRegister; +class Tesselator; +using namespace std; + +// AP - this is a system that works out which chunks actually need to be grouped together via the deferral system when doing chunk::rebuild. Doing this will reduce the number +// of chunks built in a single group and reduce the chance of seeing through the landscape when digging near the edges/corners of a chunk. +// I've added another chunk flag to mark a chunk critical so it swipes a bit from the reference count value (goes to 3 bits to 2). This works on Vita because it doesn't have +// split screen reference counting. +#ifdef __PSVITA__ +#define _CRITICAL_CHUNKS +#endif + +class LevelRenderer : public LevelListener +{ + friend class Chunk; + +private: + static ResourceLocation MOON_LOCATION; + static ResourceLocation MOON_PHASES_LOCATION; + static ResourceLocation SUN_LOCATION; + static ResourceLocation CLOUDS_LOCATION; + static ResourceLocation END_SKY_LOCATION; + +public: + static const int CHUNK_XZSIZE = 16; +#ifdef _LARGE_WORLDS + static const int CHUNK_SIZE = 16; +#else + static const int CHUNK_SIZE = 16; +#endif + static const int CHUNK_Y_COUNT = Level::maxBuildHeight / CHUNK_SIZE; +#if defined _WINDOWS64 + static const int MAX_COMMANDBUFFER_ALLOCATIONS = 2047 * 1024 * 1024; // Changed to 2047. 4J had set to 512. +#elif defined _XBOX_ONE + static const int MAX_COMMANDBUFFER_ALLOCATIONS = 512 * 1024 * 1024; // 4J - added +#elif defined __ORBIS__ + static const int MAX_COMMANDBUFFER_ALLOCATIONS = 448 * 1024 * 1024; // 4J - added - hard limit is 512 so giving a lot of headroom here for fragmentation (have seen 16MB lost to fragmentation in multiplayer crash dump before) +#elif defined __PS3__ + static const int MAX_COMMANDBUFFER_ALLOCATIONS = 110 * 1024 * 1024; // 4J - added +#else + static const int MAX_COMMANDBUFFER_ALLOCATIONS = 55 * 1024 * 1024; // 4J - added +#endif +public: + LevelRenderer(Minecraft *mc, Textures *textures); +private: + void renderStars(); + void createCloudMesh(); // 4J added +public: + void setLevel(int playerIndex, MultiPlayerLevel *level); + void allChanged(); + void allChanged(int playerIndex); + + // 4J-PB added + void AddDLCSkinsToMemTextures(); +public: + void renderEntities(Vec3 *cam, Culler *culler, float a); + wstring gatherStats1(); + wstring gatherStats2(); +private: + void resortChunks(int xc, int yc, int zc); +public: + int render(shared_ptr player, int layer, double alpha, bool updateChunks); +private: + int renderChunks(int from, int to, int layer, double alpha); +public: + int activePlayers(); // 4J - added +public: + void renderSameAsLast(int layer, double alpha); + void tick(); + void renderSky(float alpha); + void renderHaloRing(float alpha); + void renderClouds(float alpha); + bool isInCloud(double x, double y, double z, float alpha); + void renderAdvancedClouds(float alpha); + bool updateDirtyChunks(); + +public: + void renderHit(shared_ptr player, HitResult *h, int mode, shared_ptr inventoryItem, float a); + void renderDestroyAnimation(Tesselator *t, shared_ptr player, float a); + void renderHitOutline(shared_ptr player, HitResult *h, int mode, float a); + void render(AABB *b); + void setDirty(int x0, int y0, int z0, int x1, int y1, int z1, Level *level); // 4J - added level param + void tileChanged(int x, int y, int z); + void tileLightChanged(int x, int y, int z); + void setTilesDirty(int x0, int y0, int z0, int x1, int y1, int z1, Level *level); // 4J - added level param + +#ifdef __PS3__ + void cull_SPU(int playerIndex, Culler *culler, float a); + void waitForCull_SPU(); + C4JSpursJobQueue::Port* m_jobPort_CullSPU; + C4JSpursJobQueue::Port* m_jobPort_FindNearestChunk; + bool m_bSPUCullStarted[4]; +#endif // __PS3__ + void cull(Culler *culler, float a); + void playStreamingMusic(const wstring& name, int x, int y, int z); + void playSound(int iSound, double x, double y, double z, float volume, float pitch, float fSoundClipDist=16.0f); + void playSound(shared_ptr entity,int iSound, double x, double y, double z, float volume, float pitch, float fSoundClipDist=16.0f); + void playSoundExceptPlayer(shared_ptr player, int iSound, double x, double y, double z, float volume, float pitch, float fSoundClipDist=16.0f); + void addParticle(ePARTICLE_TYPE eParticleType, double x, double y, double z, double xa, double ya, double za); // 4J added + shared_ptr addParticleInternal(ePARTICLE_TYPE eParticleType, double x, double y, double z, double xa, double ya, double za); // 4J added + void entityAdded(shared_ptr entity); + void entityRemoved(shared_ptr entity); + void playerRemoved(shared_ptr entity) {} // 4J added - for when a player is removed from the level's player array, not just the entity storage + void skyColorChanged(); + void clear(); + void globalLevelEvent(int type, int sourceX, int sourceY, int sourceZ, int data); + void levelEvent(shared_ptr source, int type, int x, int y, int z, int data); + void destroyTileProgress(int id, int x, int y, int z, int progress); + void registerTextures(IconRegister *iconRegister); + + typedef unordered_map >, IntKeyHash, IntKeyEq> rteMap; +private: + + // debug + int m_freezeticks; // used to freeze the clouds + + // 4J - this block of declarations was scattered round the code but have gathered everything into one place + rteMap renderableTileEntities; // 4J - changed - was vector, now hashed by chunk so we can find them + CRITICAL_SECTION m_csRenderableTileEntities; + MultiPlayerLevel *level[4]; // 4J - now one per player + Textures *textures; + // vector *sortedChunks[4]; // 4J - removed - not sorting our chunks anymore + ClipChunkArray chunks[4]; // 4J - now one per player + int lastPlayerCount[4]; // 4J - added + int xChunks, yChunks, zChunks; + int chunkLists; + Minecraft *mc; + TileRenderer *tileRenderer[4]; // 4J - now one per player + int ticks; + int starList, skyList, darkList, haloRingList; + int cloudList; // 4J added + int xMinChunk, yMinChunk, zMinChunk; + int xMaxChunk, yMaxChunk, zMaxChunk; + int lastViewDistance; + int noEntityRenderFrames; + int totalEntities; + int renderedEntities; + int culledEntities; + int chunkFixOffs; + vector _renderChunks; + int frame; + int repeatList; + double xOld[4]; // 4J - now one per player + double yOld[4]; // 4J - now one per player + double zOld[4]; // 4J - now one per player + + int totalChunks, offscreenChunks, occludedChunks, renderedChunks, emptyChunks; + static const int RENDERLISTS_LENGTH = 4; // 4J - added + OffsettedRenderList renderLists[RENDERLISTS_LENGTH]; + + unordered_map destroyingBlocks; + Icon **breakingTextures; + +public: + void fullyFlagRenderableTileEntitiesToBeRemoved(); // 4J added + + CRITICAL_SECTION m_csDirtyChunks; + bool m_nearDirtyChunk; + + + // 4J - Destroyed Tile Management - these things added so we can track tiles which have been recently destroyed, and + // provide temporary collision for them until the render data has been updated to reflect this change + class DestroyedTileManager + { + private: + class RecentTile + { + public: + int x; + int y; + int z; + Level *level; + AABBList boxes; + int timeout_ticks; + bool rebuilt; + RecentTile(int x, int y, int z, Level *level); + ~RecentTile(); + }; + CRITICAL_SECTION m_csDestroyedTiles; + vector m_destroyedTiles; + public: + void destroyingTileAt( Level *level, int x, int y, int z ); // For game to let this manager know that a tile is about to be destroyed (must be called before it actually is) + void updatedChunkAt( Level * level, int x, int y, int z, int veryNearCount ); // For chunk rebuilding to inform the manager that a chunk (a 16x16x16 tile render chunk) has been updated + void addAABBs( Level *level, AABB *box, AABBList *boxes ); // For game to get any AABBs that the user should be colliding with as render data has not yet been updated + void tick(); + DestroyedTileManager(); + ~DestroyedTileManager(); + }; + DestroyedTileManager *destroyedTileManager; + + float destroyProgress; + + // 4J - added for new render list handling + // This defines the maximum size of renderable level, must be big enough to cope with actual size of level + view distance at each side + // so that we can render the "infinite" sea at the edges + static const int MAX_LEVEL_RENDER_SIZE[3]; + static const int DIMENSION_OFFSETS[3]; + // This is the TOTAL area of columns of chunks to be allocated for render round the players. So for one player, it would be a region of + // sqrt(PLAYER_RENDER_AREA) x sqrt(PLAYER_RENDER_AREA) +#ifdef _LARGE_WORLDS + static const int PLAYER_VIEW_DISTANCE = 18; // Straight line distance from centre to extent of visible world + static const int PLAYER_RENDER_AREA = (PLAYER_VIEW_DISTANCE * PLAYER_VIEW_DISTANCE * 4); +#else + static const int PLAYER_RENDER_AREA = 400; +#endif + + static int getDimensionIndexFromId(int id); + static int getGlobalIndexForChunk(int x, int y, int z, Level *level); + static int getGlobalIndexForChunk(int x, int y, int z, int dimensionId); + static bool isGlobalIndexInSameDimension( int idx, Level *level); + static int getGlobalChunkCount(); + static int getGlobalChunkCountForOverworld(); + + // Get/set/clear individual flags + bool getGlobalChunkFlag(int x, int y, int z, Level *level, unsigned char flag, unsigned char shift = 0); + void setGlobalChunkFlag(int x, int y, int z, Level *level, unsigned char flag, unsigned char shift = 0); + void setGlobalChunkFlag(int index, unsigned char flag, unsigned char shift = 0); + void clearGlobalChunkFlag(int x, int y, int z, Level *level, unsigned char flag, unsigned char shift = 0); + + // Get/set whole byte of flags + unsigned char getGlobalChunkFlags(int x, int y, int z, Level *level); + void setGlobalChunkFlags(int x, int y, int z, Level *level, unsigned char flags); + + // Reference counting + unsigned char incGlobalChunkRefCount(int x, int y, int z, Level *level); + unsigned char decGlobalChunkRefCount(int x, int y, int z, Level *level); + + // Actual storage for flags + unsigned char *globalChunkFlags; + + // The flag definitions + static const int CHUNK_FLAG_COMPILED = 0x01; + static const int CHUNK_FLAG_DIRTY = 0x02; + static const int CHUNK_FLAG_EMPTY0 = 0x04; + static const int CHUNK_FLAG_EMPTY1 = 0x08; + static const int CHUNK_FLAG_EMPTYBOTH = 0x0c; + static const int CHUNK_FLAG_NOTSKYLIT = 0x10; +#ifdef _CRITICAL_CHUNKS + static const int CHUNK_FLAG_CRITICAL = 0x20; + static const int CHUNK_FLAG_CUT_OUT = 0x40; + static const int CHUNK_FLAG_REF_MASK = 0x01; + static const int CHUNK_FLAG_REF_SHIFT = 7; +#else + static const int CHUNK_FLAG_REF_MASK = 0x07; + static const int CHUNK_FLAG_REF_SHIFT = 5; +#endif + + XLockFreeStack dirtyChunksLockFreeStack; + + bool dirtyChunkPresent; + int64_t lastDirtyChunkFound; + static const int FORCE_DIRTY_CHUNK_CHECK_PERIOD_MS = 125; // decreased from 250 to 125 - updated by detectiveren + +#ifdef _LARGE_WORLDS + static const int MAX_CONCURRENT_CHUNK_REBUILDS = 8; // increased from 4 to 8 - updated by detectiveren + static const int MAX_CHUNK_REBUILD_THREADS = MAX_CONCURRENT_CHUNK_REBUILDS - 1; + static Chunk permaChunk[MAX_CONCURRENT_CHUNK_REBUILDS]; + static C4JThread *rebuildThreads[MAX_CHUNK_REBUILD_THREADS]; + static C4JThread::EventArray *s_rebuildCompleteEvents; + static C4JThread::Event *s_activationEventA[MAX_CHUNK_REBUILD_THREADS]; + static void staticCtor(); + static int rebuildChunkThreadProc(LPVOID lpParam); + + CRITICAL_SECTION m_csChunkFlags; +#endif + void nonStackDirtyChunksAdded(); + + int checkAllPresentChunks(bool *faultFound); // 4J - added for testing +}; diff --git a/Minecraft.Client/Lighting.cpp b/Minecraft.Client/Lighting.cpp new file mode 100644 index 0000000..ef9feaa --- /dev/null +++ b/Minecraft.Client/Lighting.cpp @@ -0,0 +1,65 @@ +#include "stdafx.h" +#include "Lighting.h" +#include "..\Minecraft.World\FloatBuffer.h" +#include "..\Minecraft.World\Vec3.h" + +FloatBuffer *Lighting::lb = new FloatBuffer(16); + + +void Lighting::turnOff() +{ + glDisable(GL_LIGHTING); + glDisable(GL_LIGHT0); + glDisable(GL_LIGHT1); + glDisable(GL_COLOR_MATERIAL); +} + +void Lighting::turnOn() +{ + glEnable(GL_LIGHTING); + glEnable(GL_LIGHT0); + glEnable(GL_LIGHT1); + glEnable(GL_COLOR_MATERIAL); + glColorMaterial(GL_FRONT_AND_BACK, GL_AMBIENT_AND_DIFFUSE); + float a = 0.4f; + float d = 0.6f; + float s = 0.0f; + + Vec3 *l = Vec3::newTemp(0.2f, 1.0f, -0.7f)->normalize(); + glLight(GL_LIGHT0, GL_POSITION, getBuffer(l->x, l->y, l->z, 0)); + glLight(GL_LIGHT0, GL_DIFFUSE, getBuffer(d, d, d, 1)); + glLight(GL_LIGHT0, GL_AMBIENT, getBuffer(0.0f, 0.0f, 0.0f, 1.0f)); + glLight(GL_LIGHT0, GL_SPECULAR, getBuffer(s, s, s, 1.0f)); + + l = Vec3::newTemp(-0.2f, 1.0f, 0.7f)->normalize(); + glLight(GL_LIGHT1, GL_POSITION, getBuffer(l->x, l->y, l->z, 0)); + glLight(GL_LIGHT1, GL_DIFFUSE, getBuffer(d, d, d, 1)); + glLight(GL_LIGHT1, GL_AMBIENT, getBuffer(0.0f, 0.0f, 0.0f, 1.0f)); + glLight(GL_LIGHT1, GL_SPECULAR, getBuffer(s, s, s, 1.0f)); + + glShadeModel(GL_FLAT); + glLightModel(GL_LIGHT_MODEL_AMBIENT, getBuffer(a, a, a, 1)); + +} + +FloatBuffer *Lighting::getBuffer(double a, double b, double c, double d) +{ + return getBuffer(static_cast(a), static_cast(b), static_cast(c), static_cast(d)); +} + +FloatBuffer *Lighting::getBuffer(float a, float b, float c, float d) +{ + lb->clear(); + lb->put(a)->put(b)->put(c)->put(d); + lb->flip(); + return lb; +} + +void Lighting::turnOnGui() +{ + glPushMatrix(); + glRotatef(-30, 0, 1, 0); + glRotatef(165, 1, 0, 0); + turnOn(); + glPopMatrix(); +} \ No newline at end of file diff --git a/Minecraft.Client/Lighting.h b/Minecraft.Client/Lighting.h new file mode 100644 index 0000000..c06fd53 --- /dev/null +++ b/Minecraft.Client/Lighting.h @@ -0,0 +1,16 @@ +#pragma once +class FloatBuffer; + +class Lighting +{ +private: + static FloatBuffer *lb; + +public: + static void turnOff(); + static void turnOn(); + static void turnOnGui(); +private: + static FloatBuffer *getBuffer(double a, double b, double c, double d); + static FloatBuffer *getBuffer(float a, float b, float c, float d); +}; diff --git a/Minecraft.Client/LocalPlayer.cpp b/Minecraft.Client/LocalPlayer.cpp new file mode 100644 index 0000000..f4ab64b --- /dev/null +++ b/Minecraft.Client/LocalPlayer.cpp @@ -0,0 +1,1372 @@ +#include "stdafx.h" +#include "LocalPlayer.h" +#include "User.h" +#include "Input.h" +#include "StatsCounter.h" +#include "ParticleEngine.h" +#include "TakeAnimationParticle.h" + +#include "MultiPlayerLocalPlayer.h" +#include "CreativeMode.h" +#include "GameRenderer.h" +#include "..\Minecraft.World\AttributeInstance.h" +#include "..\Minecraft.World\LevelData.h" +#include "..\Minecraft.World\net.minecraft.world.damagesource.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\net.minecraft.world.food.h" +#include "..\Minecraft.World\net.minecraft.world.effect.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.entity.monster.h" +#include "..\Minecraft.World\ItemEntity.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.entity.h" +#include "..\Minecraft.World\net.minecraft.world.phys.h" +#include "..\Minecraft.World\net.minecraft.stats.h" +#include "..\Minecraft.World\com.mojang.nbt.h" +#include "..\Minecraft.World\Random.h" +#include "..\Minecraft.World\TileEntity.h" +#include "..\Minecraft.World\Mth.h" +#include "CritParticle.h" + +// 4J : WESTY : Added for new achievements. +#include "..\Minecraft.World\item.h" +#include "..\Minecraft.World\mapitem.h" +#include "..\Minecraft.World\tile.h" + +// 4J Stu - Added for tutorial callbacks +#include "Minecraft.h" + +#include "..\Minecraft.World\Minecart.h" +#include "..\Minecraft.World\Boat.h" +#include "..\Minecraft.World\Pig.h" + +#include "..\Minecraft.World\StringHelpers.h" + +#include "Options.h" +#include "..\Minecraft.World\Dimension.h" + +#ifndef _DURANGO +#include "..\Minecraft.World\CommonStats.h" +#endif + + +LocalPlayer::LocalPlayer(Minecraft *minecraft, Level *level, User *user, int dimension) : Player(level, user->name) +{ + flyX = flyY = flyZ = 0.0f; // 4J added + m_awardedThisSession = 0; + + sprintTriggerTime = 0; + sprintTriggerRegisteredReturn = false; + twoJumpsRegistered = false; + sprintTime = 0; + m_uiInactiveTicks=0; + portalTime = 0.0f; + oPortalTime = 0.0f; + jumpRidingTicks = 0; + jumpRidingScale = 0.0f; + + yBob = xBob = yBobO = xBobO = 0.0f; + + this->minecraft = minecraft; + this->dimension = dimension; + + if (user != nullptr && user->name.length() > 0) + { + customTextureUrl = L"http://s3.amazonaws.com/MinecraftSkins/" + user->name + L".png"; + } + if( user != nullptr ) + { + this->name = user->name; + //wprintf(L"Created LocalPlayer with name %ls\n", name.c_str() ); + // check to see if this player's xuid is in the list of special players + MOJANG_DATA *pMojangData=app.GetMojangDataForXuid(getOnlineXuid()); + if(pMojangData) + { + customTextureUrl=pMojangData->wchSkin; + } + + } + input = nullptr; + m_iPad = -1; + m_iScreenSection=C4JRender::VIEWPORT_TYPE_FULLSCREEN; // assume singleplayer default + m_bPlayerRespawned=false; + ullButtonsPressed=0LL; + ullDpad_last = ullDpad_this = ullDpad_filtered = 0; + + // 4J-PB - moved in from the minecraft structure + //ticks=0; + missTime=0; + lastClickTick[0] = 0; + lastClickTick[1] = 0; + isRaining=false; + + m_bIsIdle = false; + m_iThirdPersonView=0; + + // 4J Stu - Added for telemetry + SetSessionTimerStart(); + + // 4J - added for auto repeat in creative mode + lastClickState = lastClick_invalid; + lastClickTolerance = 0.0f; + + m_bHasAwardedStayinFrosty = false; +} + +LocalPlayer::~LocalPlayer() +{ + if( this->input != nullptr ) + delete input; +} + +void LocalPlayer::calculateFlight(float xa, float ya, float za) +{ + xa = xa * minecraft->options->flySpeed; + ya = 0; + za = za * minecraft->options->flySpeed; + + flyX = smoothFlyX.getNewDeltaValue(xa, .35f * minecraft->options->sensitivity); + flyY = smoothFlyY.getNewDeltaValue(ya, .35f * minecraft->options->sensitivity); + flyZ = smoothFlyZ.getNewDeltaValue(za, .35f * minecraft->options->sensitivity); +} + +void LocalPlayer::serverAiStep() +{ + Player::serverAiStep(); + + this->xxa = input->xa; + this->yya = input->ya; + this->jumping = input->jumping; + + yBobO = yBob; + xBobO = xBob; + xBob += (xRot - xBob) * 0.5; + yBob += (yRot - yBob) * 0.5; + + // TODO 4J - Remove + //if (input->jumping) + // mapPlayerChunk(8); +} + +bool LocalPlayer::isEffectiveAi() +{ + return true; +} + +void LocalPlayer::aiStep() +{ + if (sprintTime > 0) + { + sprintTime--; + if (sprintTime == 0) + { + setSprinting(false); + } + } + if (sprintTriggerTime > 0) sprintTriggerTime--; + if (minecraft->gameMode->isCutScene()) + { + x = z = 0.5; + x = 0; + z = 0; + yRot = tickCount / 12.0f; + xRot = 10; + y = 68.5; + return; + } + oPortalTime = portalTime; + if (isInsidePortal) + { + if (!level->isClientSide) + { + if (riding != nullptr) this->ride(nullptr); + } + + if (portalTime == 0) + { + minecraft->soundEngine->playUI(eSoundType_PORTAL_TRIGGER, 1, random->nextFloat() * 0.4f + 0.8f); + } + portalTime += 1 / 80.0f; + if (portalTime >= 1) + { + portalTime = 1; + } + isInsidePortal = false; + } + else if (hasEffect(MobEffect::confusion) && getEffect(MobEffect::confusion)->getDuration() > (SharedConstants::TICKS_PER_SECOND * 3)) + { + portalTime += 1 / 150.0f; + if (portalTime > 1) + { + portalTime = 1; + } + } + else + { + if (portalTime > 0) portalTime -= 1 / 20.0f; + if (portalTime < 0) portalTime = 0; + } + + if (changingDimensionDelay > 0) changingDimensionDelay--; + bool wasJumping = input->jumping; + float runTreshold = 0.8f; + bool wasRunning = input->ya >= runTreshold; + //input->tick( dynamic_pointer_cast( shared_from_this() ) ); + // 4J-PB - make it a localplayer + input->tick( this ); + if (isUsingItem() && !isRiding()) + { + input->xa *= 0.2f; + input->ya *= 0.2f; + sprintTriggerTime = 0; + } + // this.heightOffset = input.sneaking?1.30f:1.62f; // 4J - this was already commented out + if (input->sneaking) // 4J - removed - TODO replace + { + if (ySlideOffset < 0.2f) ySlideOffset = 0.2f; + } + + checkInTile(x - bbWidth * 0.35, bb->y0 + 0.5, z + bbWidth * 0.35); + checkInTile(x - bbWidth * 0.35, bb->y0 + 0.5, z - bbWidth * 0.35); + checkInTile(x + bbWidth * 0.35, bb->y0 + 0.5, z - bbWidth * 0.35); + checkInTile(x + bbWidth * 0.35, bb->y0 + 0.5, z + bbWidth * 0.35); + + bool enoughFoodToSprint = getFoodData()->getFoodLevel() > FoodConstants::MAX_FOOD * FoodConstants::FOOD_SATURATION_LOW; + + // 4J Stu - If we can fly, then we should be able to sprint without requiring food. This is particularly a problem for people who save a survival + // world with low food, then reload it in creative. + if(abilities.mayfly || isAllowedToFly() ) enoughFoodToSprint = true; + + bool forwardEnoughToTriggerSprint = input->ya >= runTreshold; + bool forwardReturnedToDeadzone = input->ya == 0.0f; + bool forwardEnoughToContinueSprint = input->ya >= runTreshold; + + // 4J - altered this slightly to make sure that the joypad returns to below returnTreshold in between registering two movements up to runThreshold + if (onGround && !isSprinting() && enoughFoodToSprint && !isUsingItem() && !hasEffect(MobEffect::blindness)) + { + if( !wasRunning && forwardEnoughToTriggerSprint ) + { + if (sprintTriggerTime == 0) + { + sprintTriggerTime = 7; + sprintTriggerRegisteredReturn = false; + } + else + { + if( sprintTriggerRegisteredReturn ) + { + setSprinting(true); + sprintTriggerTime = 0; + sprintTriggerRegisteredReturn = false; + } + } + } + else if( ( sprintTriggerTime > 0 ) && forwardReturnedToDeadzone ) // zero sprintForward here signifies that we have returned to the deadzone + { + sprintTriggerRegisteredReturn = true; + } + } + if (isSneaking()) sprintTriggerTime = 0; +#ifdef _WINDOWS64 + if (input->sprinting && !isSprinting() && onGround && enoughFoodToSprint && !isUsingItem() && !hasEffect(MobEffect::blindness) && !isSneaking()) + { + setSprinting(true); + } +#endif + // 4J-PB - try not stopping sprint on collision + //if (isSprinting() && (input->ya < runTreshold || horizontalCollision || !enoughFoodToSprint)) + if (isSprinting() && (!forwardEnoughToContinueSprint || !enoughFoodToSprint || isSneaking() || isUsingItem())) + { + setSprinting(false); + } + + // 4J Stu - Fix for #52705 - Customer Encountered: Player can fly in bed while being in Creative mode. + if (!isSleeping() && (abilities.mayfly || isAllowedToFly() )) + { + // 4J altered to require jump button to released after being tapped twice to trigger move between flying / not flying + if (!wasJumping && input->jumping) + { + if (jumpTriggerTime == 0) + { + jumpTriggerTime = 7; // the 4J team changed it to 10 because of additional requirements to initiate flight + twoJumpsRegistered = false; + } + else + { + twoJumpsRegistered = true; + } + } + else if(jumpTriggerTime > 0 && twoJumpsRegistered) //the 4J team checked if the player was NOT jumping after the two jumps, aka had let go of the jump button + { +#ifndef _CONTENT_PACKAGE + printf("flying was %s\n", abilities.flying ? "on" : "off"); +#endif + abilities.flying = !abilities.flying; +#ifndef _CONTENT_PACKAGE + printf("flying is %s\n", abilities.flying ? "on" : "off"); +#endif + jumpTriggerTime = 0; + twoJumpsRegistered = false; + if( abilities.flying ) input->sneaking = false; // 4J added - would we ever intentially want to go into flying mode whilst sneaking? + } + } + else if(abilities.flying) + { +#ifdef _DEBUG_MENUS_ENABLED + if(!abilities.debugflying) +#endif + { + abilities.flying = false; + } + } + + + if (abilities.flying) + { + // yd = 0; + // 4J - note that the 0.42 added for going down is to make it match with what happens when you jump - jumping itself adds 0.42 to yd in Mob::jumpFromGround + if (ullButtonsPressed & (1LL<jumping) + { + noJumpDelay = 0; + yd += 0.15; + } + + // snap y rotation to nearest 90 degree axis aligned value + float yRotSnapped = floorf((yRot / 90.0f) + 0.5f) * 90.0f; + + if(InputManager.GetJoypadMapVal(m_iPad) == 0) + { + if( ullDpad_filtered & (1LL<jumping) + { + // jump release + jumpRidingTicks = -10; + sendRidingJump(); + } + else if (!wasJumping && input->jumping) + { + // jump press + jumpRidingTicks = 0; + jumpRidingScale = 0; + } + else if (wasJumping) + { + // calc jump scale + jumpRidingTicks++; + if (jumpRidingTicks < 10) + { + jumpRidingScale = static_cast(jumpRidingTicks) * .1f; + } + else + { + jumpRidingScale = .8f + (2.f / static_cast(jumpRidingTicks - 9)) * .1f; + } + } + } + else + { + jumpRidingScale = 0; + } + + Player::aiStep(); + + // 4J-PB - If we're in Creative Mode, allow flying on ground + if(!abilities.mayfly && !isAllowedToFly() ) + { + if (onGround && abilities.flying) + { +#ifdef _DEBUG_MENUS_ENABLED + if(!abilities.debugflying) +#endif + { + abilities.flying = false; + } + } + } + + if( abilities.flying )//minecraft->options->isFlying ) + { + Vec3* viewVector = getViewVector(1.0f); + + // 4J-PB - To let the player build easily while flying, we need to change this + +#ifdef _DEBUG_MENUS_ENABLED + if(abilities.debugflying) + { + flyX = static_cast(viewVector->x) * input->ya; + flyY = static_cast(viewVector->y) * input->ya; + flyZ = static_cast(viewVector->z) * input->ya; + } + else +#endif + { + if( isSprinting() ) + { + // Accelrate up to full speed if we are sprinting, moving in the direction of the view vector + flyX = static_cast(viewVector->x) * input->ya; + flyY = static_cast(viewVector->y) * input->ya; + flyZ = static_cast(viewVector->z) * input->ya; + + float scale = static_cast(SPRINT_DURATION - sprintTime)/10.0f; + scale = scale * scale; + if ( scale > 1.0f ) scale = 1.0f; + flyX *= scale; + flyY *= scale; + flyZ *= scale; + } + else + { + flyX = 0.0f; + flyY = 0.0f; + flyZ = 0.0f; + if( ullDpad_filtered & (1LL< PLAYER_IDLE_TIME ) + { + ProfileManager.SetCurrentGameActivity(m_iPad,CONTEXT_PRESENCE_IDLE,false); + m_bIsIdle = true; + } + else if ( m_bIsIdle && InputManager.GetIdleSeconds( m_iPad ) < PLAYER_IDLE_TIME ) + { + // Are we offline or online, and how many players are there + if(g_NetworkManager.GetPlayerCount()>1) + { + // only do it for this player here - each player will run this code + if(g_NetworkManager.IsLocalGame()) + { + ProfileManager.SetCurrentGameActivity(m_iPad,CONTEXT_PRESENCE_MULTIPLAYEROFFLINE,false); + } + else + { + ProfileManager.SetCurrentGameActivity(m_iPad,CONTEXT_PRESENCE_MULTIPLAYER,false); + } + } + else + { + if(g_NetworkManager.IsLocalGame()) + { + ProfileManager.SetCurrentGameActivity(m_iPad,CONTEXT_PRESENCE_MULTIPLAYER_1POFFLINE,false); + } + else + { + ProfileManager.SetCurrentGameActivity(m_iPad,CONTEXT_PRESENCE_MULTIPLAYER_1P,false); + } + } + updateRichPresence(); + m_bIsIdle = false; + } +} + +void LocalPlayer::changeDimension(int i) +{ + if (!level->isClientSide) + { + if (dimension == 1 && i == 1) + { + awardStat(GenericStats::winGame(), GenericStats::param_noArgs()); + //minecraft.setScreen(new WinScreen()); +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("LocalPlayer::changeDimension from 1 to 1 but WinScreen has not been implemented.\n"); + __debugbreak(); +#endif + } + else + { + awardStat(GenericStats::theEnd(), GenericStats::param_theEnd()); + + minecraft->soundEngine->playUI(eSoundType_PORTAL_TRAVEL, 1, random->nextFloat() * 0.4f + 0.8f); + } + } +} + +float LocalPlayer::getFieldOfViewModifier() +{ + float targetFov = 1.0f; + + // modify for movement + if (abilities.flying) targetFov *= 1.1f; + + AttributeInstance *speed = getAttribute(SharedMonsterAttributes::MOVEMENT_SPEED); + targetFov *= (speed->getValue() / abilities.getWalkingSpeed() + 1) / 2; + + // modify for bow =) + if (isUsingItem() && getUseItem()->id == Item::bow->id) + { + int ticksHeld = getTicksUsingItem(); + float scale = static_cast(ticksHeld) / BowItem::MAX_DRAW_DURATION; + if (scale > 1) + { + scale = 1; + } + else + { + scale *= scale; + } + targetFov *= 1.0f - scale * .15f; + } + + return targetFov; +} + +void LocalPlayer::addAdditonalSaveData(CompoundTag *entityTag) +{ + Player::addAdditonalSaveData(entityTag); + //entityTag->putInt(L"Score", score); +} + +void LocalPlayer::readAdditionalSaveData(CompoundTag *entityTag) +{ + Player::readAdditionalSaveData(entityTag); + //score = entityTag->getInt(L"Score"); +} + +void LocalPlayer::closeContainer() +{ + Player::closeContainer(); + minecraft->setScreen(nullptr); + + // 4J - Close any xui here + // Fix for #9164 - CRASH: MP: Title crashes upon opening a chest and having another user destroy it. +} + +void LocalPlayer::openTextEdit(shared_ptr tileEntity) +{ + bool success; + + if (tileEntity->GetType() == eTYPE_SIGNTILEENTITY) + { + success = app.LoadSignEntryMenu(GetXboxPad(), dynamic_pointer_cast(tileEntity)); + } + else if (tileEntity->GetType() == eTYPE_COMMANDBLOCKTILEENTITY) + { + success = app.LoadCommandBlockMenu(GetXboxPad(), dynamic_pointer_cast(tileEntity)); + } + + //minecraft->setScreen(new TextEditScreen(sign)); +} + +bool LocalPlayer::openContainer(shared_ptr container) +{ + bool success = app.LoadContainerMenu(GetXboxPad(), inventory, container ); + //minecraft->setScreen(new ContainerScreen(inventory, container)); + return success; +} + +bool LocalPlayer::openHopper(shared_ptr container) +{ + //minecraft->setScreen(new HopperScreen(inventory, container)); + bool success = app.LoadHopperMenu(GetXboxPad(), inventory, container ); + return success; +} + +bool LocalPlayer::openHopper(shared_ptr container) +{ + //minecraft->setScreen(new HopperScreen(inventory, container)); + bool success = app.LoadHopperMenu(GetXboxPad(), inventory, container ); + return success; +} + +bool LocalPlayer::openHorseInventory(shared_ptr horse, shared_ptr container) +{ + //minecraft->setScreen(new HorseInventoryScreen(inventory, container, horse)); + bool success = app.LoadHorseMenu(GetXboxPad(), inventory, container, horse); + return success; +} + +bool LocalPlayer::startCrafting(int x, int y, int z) +{ + bool success = app.LoadCrafting3x3Menu(GetXboxPad(), dynamic_pointer_cast( shared_from_this() ), x, y, z ); + //app.LoadXuiCraftMenu(0,inventory, level, x, y, z); + //minecraft->setScreen(new CraftingScreen(inventory, level, x, y, z)); + return success; +} + +bool LocalPlayer::openFireworks(int x, int y, int z) +{ + bool success = app.LoadFireworksMenu(GetXboxPad(), dynamic_pointer_cast( shared_from_this() ), x, y, z ); + return success; +} + +bool LocalPlayer::startEnchanting(int x, int y, int z, const wstring &name) +{ + bool success = app.LoadEnchantingMenu(GetXboxPad(), inventory, x, y, z, level, name); + //minecraft.setScreen(new EnchantmentScreen(inventory, level, x, y, z)); + return success; +} + +bool LocalPlayer::startRepairing(int x, int y, int z) +{ + bool success = app.LoadRepairingMenu(GetXboxPad(), inventory, level, x, y, z ); + //minecraft.setScreen(new RepairScreen(inventory, level, x, y, z)); + return success; +} + +bool LocalPlayer::openFurnace(shared_ptr furnace) +{ + bool success = app.LoadFurnaceMenu(GetXboxPad(),inventory, furnace); + //minecraft->setScreen(new FurnaceScreen(inventory, furnace)); + return success; +} + +bool LocalPlayer::openBrewingStand(shared_ptr brewingStand) +{ + bool success = app.LoadBrewingStandMenu(GetXboxPad(),inventory, brewingStand); + //minecraft.setScreen(new BrewingStandScreen(inventory, brewingStand)); + return success; +} + +bool LocalPlayer::openBeacon(shared_ptr beacon) +{ + //minecraft->setScreen(new BeaconScreen(inventory, beacon)); + bool success = app.LoadBeaconMenu(GetXboxPad(), inventory, beacon); + return success; +} + +bool LocalPlayer::openTrap(shared_ptr trap) +{ + bool success = app.LoadTrapMenu(GetXboxPad(),inventory, trap); + //minecraft->setScreen(new TrapScreen(inventory, trap)); + return success; +} + +bool LocalPlayer::openTrading(shared_ptr traderTarget, const wstring &name) +{ + bool success = app.LoadTradingMenu(GetXboxPad(),inventory, traderTarget, level, name); + //minecraft.setScreen(new MerchantScreen(inventory, traderTarget, level)); + return success; +} + +void LocalPlayer::crit(shared_ptr e) +{ + shared_ptr critParticle = std::make_shared(reinterpret_cast(minecraft->level), e); + critParticle->CritParticlePostConstructor(); + minecraft->particleEngine->add(critParticle); +} + +void LocalPlayer::magicCrit(shared_ptr e) +{ + shared_ptr critParticle = std::make_shared(reinterpret_cast(minecraft->level), e, eParticleType_magicCrit); + critParticle->CritParticlePostConstructor(); + minecraft->particleEngine->add(critParticle); +} + +void LocalPlayer::take(shared_ptr e, int orgCount) +{ + minecraft->particleEngine->add(std::make_shared(reinterpret_cast(minecraft->level), e, shared_from_this(), -0.5f)); +} + +void LocalPlayer::chat(const wstring& message) +{ +} + +bool LocalPlayer::isSneaking() +{ + return input->sneaking && !m_isSleeping; +} + +void LocalPlayer::hurtTo(float newHealth, ETelemetryChallenges damageSource) +{ + float dmg = getHealth() - newHealth; + if (dmg <= 0) + { + setHealth(newHealth); + if (dmg < 0) + { + invulnerableTime = invulnerableDuration / 2; + } + } + else + { + lastHurt = dmg; + setHealth(getHealth()); + invulnerableTime = invulnerableDuration; + actuallyHurt(DamageSource::genericSource,dmg); + hurtTime = hurtDuration = 10; + } + + + if( this->getHealth() <= 0) + { + int deathTime = static_cast(level->getGameTime() % Level::TICKS_PER_DAY)/1000; + int carriedId = inventory->getSelected() == nullptr ? 0 : inventory->getSelected()->id; + TelemetryManager->RecordPlayerDiedOrFailed(GetXboxPad(), 0, y, 0, 0, carriedId, 0, damageSource); + + // if there are any xuiscenes up for this player, close them + } + +} + +void LocalPlayer::respawn() +{ + // Select the right payer to respawn + //minecraft->respawnPlayer(GetXboxPad(), 0, 0); +} + +void LocalPlayer::animateRespawn() +{ +// Player.animateRespawn(this, level); +} + +void LocalPlayer::displayClientMessage(int messageId) +{ + +} + +void LocalPlayer::awardStat(Stat *stat, byteArray param) +{ +#ifdef _DURANGO + // 4J-JEV: Maybe we want to fine tune this later? #TODO + if ( !ProfileManager.IsGuest(GetXboxPad()) + && app.CanRecordStatsAndAchievements() + && ProfileManager.IsFullVersion() + ) + { + stat->handleParamBlob(dynamic_pointer_cast(shared_from_this()), param); + } + delete [] param.data; +#else + int count = CommonStats::readParam(param); + delete [] param.data; + + if (!app.CanRecordStatsAndAchievements()) return; + if (stat == nullptr) return; + + if (stat->isAchievement()) + { + Achievement *ach = static_cast(stat); + // 4J-PB - changed to attempt to award everytime - the award may need a storage device, so needs a primary player, and the player may not have been a primary player when they first 'got' the award + // so let the award manager figure it out + //if (!minecraft->stats[m_iPad]->hasTaken(ach)) + { + // 4J-PB - Don't display the java popup + //minecraft->achievementPopup->popup(ach); + + // 4J Stu - Added this function in the libraries as some achievements don't get awarded to all players + // e.g. Splitscreen players cannot get theme/avatar/gamerpic and Trial players cannot get any + // This causes some extreme flooding of some awards + if(ProfileManager.CanBeAwarded(m_iPad, ach->getAchievementID() ) ) + { + // 4J Stu - We don't (currently) care about the gamerscore, so setting to a default of 0 points + TelemetryManager->RecordAchievementUnlocked(m_iPad,ach->getAchievementID(),0); + + // 4J Stu - Some awards cause a menu to popup. This can be bad, especially if you are surrounded by mobs! + // We cannot pause the game unless in offline single player, but lets at least do it then + if( g_NetworkManager.IsLocalGame() && g_NetworkManager.GetPlayerCount() == 1 && ProfileManager.GetAwardType(ach->getAchievementID() ) != eAwardType_Achievement ) + { + + } + } + + // 4J-JEV: To stop spamming trophies. + unsigned long long achBit = static_cast(1) << ach->getAchievementID(); + if ( !(achBit & m_awardedThisSession) ) + { + ProfileManager.Award(m_iPad, ach->getAchievementID()); + if (ProfileManager.IsFullVersion()) + m_awardedThisSession |= achBit; + } + } + minecraft->stats[m_iPad]->award(stat, level->difficulty, count); + } + else + { + // 4J : WESTY : Added for new achievements. + StatsCounter* pStats = minecraft->stats[m_iPad]; + pStats->award(stat, level->difficulty, count); + + // 4J-JEV: Check achievements for unlocks. + + // LEADER OF THE PACK + if ( stat == GenericStats::tamedEntity(eTYPE_WOLF) ) + { + // Check to see if we have befriended 5 wolves! Is this really the best place to do this??!! + if ( pStats->getTotalValue(GenericStats::tamedEntity(eTYPE_WOLF)) >= 5 ) + { + awardStat(GenericStats::leaderOfThePack(), GenericStats::param_noArgs()); + } + } + + // MOAR TOOLS + { + Stat *toolStats[4][5]; + toolStats[0][0] = GenericStats::itemsCrafted(Item::shovel_wood->id); + toolStats[0][1] = GenericStats::itemsCrafted(Item::shovel_stone->id); + toolStats[0][2] = GenericStats::itemsCrafted(Item::shovel_iron->id); + toolStats[0][3] = GenericStats::itemsCrafted(Item::shovel_diamond->id); + toolStats[0][4] = GenericStats::itemsCrafted(Item::shovel_gold->id); + toolStats[1][0] = GenericStats::itemsCrafted(Item::pickAxe_wood->id); + toolStats[1][1] = GenericStats::itemsCrafted(Item::pickAxe_stone->id); + toolStats[1][2] = GenericStats::itemsCrafted(Item::pickAxe_iron->id); + toolStats[1][3] = GenericStats::itemsCrafted(Item::pickAxe_diamond->id); + toolStats[1][4] = GenericStats::itemsCrafted(Item::pickAxe_gold->id); + toolStats[2][0] = GenericStats::itemsCrafted(Item::hatchet_wood->id); + toolStats[2][1] = GenericStats::itemsCrafted(Item::hatchet_stone->id); + toolStats[2][2] = GenericStats::itemsCrafted(Item::hatchet_iron->id); + toolStats[2][3] = GenericStats::itemsCrafted(Item::hatchet_diamond->id); + toolStats[2][4] = GenericStats::itemsCrafted(Item::hatchet_gold->id); + toolStats[3][0] = GenericStats::itemsCrafted(Item::hoe_wood->id); + toolStats[3][1] = GenericStats::itemsCrafted(Item::hoe_stone->id); + toolStats[3][2] = GenericStats::itemsCrafted(Item::hoe_iron->id); + toolStats[3][3] = GenericStats::itemsCrafted(Item::hoe_diamond->id); + toolStats[3][4] = GenericStats::itemsCrafted(Item::hoe_gold->id); + + bool justCraftedTool = false; + for (int i=0; i<4; i++) + { + for (int j=0; j<5; j++) + { + if ( stat == toolStats[i][j] ) + { + justCraftedTool = true; + break; + } + } + } + + if (justCraftedTool) + { + bool awardNow = true; + for (int i=0; i<4; i++) + { + bool craftedThisTool = false; + for (int j=0; j<5; j++) + { + if ( pStats->getTotalValue(toolStats[i][j]) > 0 ) + craftedThisTool = true; + } + + if (!craftedThisTool) + { + awardNow = false; + break; + } + } + + if (awardNow) + { + awardStat(GenericStats::MOARTools(), GenericStats::param_noArgs()); + } + } + + } + +#ifdef _XBOX + // AWARD: Have we killed 10 creepers? + if ( pStats->getTotalValue( GenericStats::killsCreeper() ) >= 10 ) + { + awardStat( GenericStats::kill10Creepers(), GenericStats::param_noArgs()); + } + + // AWARD : Have we been playing for 100 game days? + if ( pStats->getTotalValue( GenericStats::timePlayed() ) >= ( Level::TICKS_PER_DAY * 100 ) ) + { + awardStat( GenericStats::play100Days(), GenericStats::param_noArgs()); + } + // AWARD : Have we mined 100 blocks? + if ( pStats->getTotalValue( GenericStats::totalBlocksMined() ) >= 100 ) + { + awardStat( GenericStats::mine100Blocks(), GenericStats::param_noArgs()); + } +#endif + +#ifdef _EXTENDED_ACHIEVEMENTS + + // AWARD : Porkchop, cook and eat a porkchop. + { + Stat *cookPorkchop, *eatPorkchop; + cookPorkchop = GenericStats::itemsCrafted(Item::porkChop_cooked_Id); + eatPorkchop = GenericStats::itemsUsed(Item::porkChop_cooked_Id); + + if ( stat == cookPorkchop || stat == eatPorkchop ) + { + int numCookPorkchop, numEatPorkchop; + numCookPorkchop = pStats->getTotalValue(cookPorkchop); + numEatPorkchop = pStats->getTotalValue(eatPorkchop); + + app.DebugPrintf( + "[AwardStat] Check unlock 'Porkchop': " + "pork_cooked=%i, pork_eaten=%i.\n", + numCookPorkchop, numEatPorkchop + ); + + if ( (0 < numCookPorkchop) && (0 < numEatPorkchop) ) + { + awardStat( GenericStats::porkChop(), GenericStats::param_porkChop() ); + } + } + } + + // AWARD : Passing the Time, play for 100 minecraft days. + { + Stat *timePlayed = GenericStats::timePlayed(); + + if ( stat == timePlayed ) + { + int iPlayedTicks, iRequiredTicks; + iPlayedTicks = pStats->getTotalValue(timePlayed); + iRequiredTicks = Level::TICKS_PER_DAY * 100; + + /* app.DebugPrintf( + "[AwardStat] Check unlock 'Passing the Time': " + "total_ticks=%i, req=%i.\n", + iPlayedTicks, iRequiredTicks + ); */ + + if (iPlayedTicks >= iRequiredTicks) + { + awardStat( GenericStats::passingTheTime(), GenericStats::param_passingTheTime() ); + } + } + } + + // AWARD : The Haggler, Acquire 30 emeralds. + { + Stat *emeraldMined, *emeraldBought; + emeraldMined = GenericStats::blocksMined(Tile::emeraldOre_Id); + emeraldBought = GenericStats::itemsBought(Item::emerald_Id); + + if ( stat == emeraldMined || stat == emeraldBought ) + { + int numEmeraldMined, numEmeraldBought, totalSum; + numEmeraldMined = pStats->getTotalValue(emeraldMined); + numEmeraldBought = pStats->getTotalValue(emeraldBought); + totalSum = numEmeraldMined + numEmeraldBought; + + app.DebugPrintf( + "[AwardStat] Check unlock 'The Haggler': " + "emerald_mined=%i, emerald_bought=%i, sum=%i.\n", + numEmeraldMined, numEmeraldBought, totalSum + ); + + if (totalSum >= 30) awardStat( GenericStats::theHaggler(), GenericStats::param_theHaggler() ); + } + } + + // AWARD : Pot Planter, craft and place a flowerpot. + { + Stat *craftFlowerpot, *placeFlowerpot; + craftFlowerpot = GenericStats::itemsCrafted(Item::flowerPot_Id); + placeFlowerpot = GenericStats::blocksPlaced(Tile::flowerPot_Id); + + if ( stat == craftFlowerpot || stat == placeFlowerpot ) + { + if ( (pStats->getTotalValue(craftFlowerpot) > 0) && (pStats->getTotalValue(placeFlowerpot) > 0) ) + { + awardStat( GenericStats::potPlanter(), GenericStats::param_potPlanter() ); + } + } + } + + // AWARD : It's a Sign, craft and place a sign. + { + Stat *craftSign, *placeWallsign, *placeSignpost; + craftSign = GenericStats::itemsCrafted(Item::sign_Id); + placeWallsign = GenericStats::blocksPlaced(Tile::wallSign_Id); + placeSignpost = GenericStats::blocksPlaced(Tile::sign_Id); + + if ( stat == craftSign || stat == placeWallsign || stat == placeSignpost ) + { + int numCraftedSigns, numPlacedWallSign, numPlacedSignpost; + numCraftedSigns = pStats->getTotalValue(craftSign); + numPlacedWallSign = pStats->getTotalValue(placeWallsign); + numPlacedSignpost = pStats->getTotalValue(placeSignpost); + + app.DebugPrintf( + "[AwardStat] Check unlock 'It's a Sign': " + "crafted=%i, placedWallSigns=%i, placedSignposts=%i.\n", + numCraftedSigns, numPlacedWallSign, numPlacedSignpost + ); + + if ( (numCraftedSigns>0) && ((numPlacedWallSign+numPlacedSignpost)>0) ) + { + awardStat( GenericStats::itsASign(), GenericStats::param_itsASign()); + } + } + } + + // AWARD : Rainbow Collection, collect all different colours of wool. + { + bool justPickedupWool = false; + + for (int i=0; i<16; i++) + if ( stat == GenericStats::itemsCollected(Tile::wool_Id, i) ) + justPickedupWool = true; + + if (justPickedupWool) + { + unsigned int woolCount = 0; + + for (unsigned int i = 0; i < 16; i++) + { + if (pStats->getTotalValue(GenericStats::itemsCollected(Tile::wool_Id, i)) > 0) + woolCount++; + } + + if (woolCount >= 16) awardStat( GenericStats::rainbowCollection(), GenericStats::param_rainbowCollection() ); + } + } + + // AWARD : Adventuring Time, visit at least 17 biomes + { + bool justEnteredBiome = false; + + for (int i=0; i<23; i++) + if ( stat == GenericStats::enteredBiome(i) ) + justEnteredBiome = true; + + if (justEnteredBiome) + { + unsigned int biomeCount = 0; + + for (unsigned int i = 0; i < 23; i++) + { + if (pStats->getTotalValue(GenericStats::enteredBiome(i)) > 0) + biomeCount++; + } + + if (biomeCount >= 17) awardStat( GenericStats::adventuringTime(), GenericStats::param_adventuringTime() ); + } + } +#endif + } +#endif +} + +bool LocalPlayer::isSolidBlock(int x, int y, int z) +{ + return level->isSolidBlockingTile(x, y, z); +} + +bool LocalPlayer::checkInTile(double x, double y, double z) +{ + int xTile = Mth::floor(x); + int yTile = Mth::floor(y); + int zTile = Mth::floor(z); + + double xd = x - xTile; + double zd = z - zTile; + + if (isSolidBlock(xTile, yTile, zTile) || isSolidBlock(xTile, yTile + 1, zTile)) + { + bool west = !isSolidBlock(xTile - 1, yTile, zTile) && !isSolidBlock(xTile - 1, yTile + 1, zTile); + bool east = !isSolidBlock(xTile + 1, yTile, zTile) && !isSolidBlock(xTile + 1, yTile + 1, zTile); + bool north = !isSolidBlock(xTile, yTile, zTile - 1) && !isSolidBlock(xTile, yTile + 1, zTile - 1); + bool south = !isSolidBlock(xTile, yTile, zTile + 1) && !isSolidBlock(xTile, yTile + 1, zTile + 1); + + int dir = -1; + double closest = 9999; + if (west && xd < closest) + { + closest = xd; + dir = 0; + } + if (east && 1 - xd < closest) + { + closest = 1 - xd; + dir = 1; + } + if (north && zd < closest) + { + closest = zd; + dir = 4; + } + if (south && 1 - zd < closest) + { + closest = 1 - zd; + dir = 5; + } + + float speed = 0.1f; + if (dir == 0) this->xd = -speed; + if (dir == 1) this->xd = +speed; + if (dir == 4) this->zd = -speed; + if (dir == 5) this->zd = +speed; + } + + return false; + +} + +void LocalPlayer::setSprinting(bool value) +{ + Player::setSprinting(value); + if (value == false) sprintTime = 0; + else sprintTime = SPRINT_DURATION; +} + +void LocalPlayer::setExperienceValues(float experienceProgress, int totalExp, int experienceLevel) +{ + this->experienceProgress = experienceProgress; + this->totalExperience = totalExp; + this->experienceLevel = experienceLevel; +} + +// 4J: removed +//void LocalPlayer::sendMessage(ChatMessageComponent *message) +//{ +// minecraft->gui->getChat()->addMessage(message.toString(true)); +//} + +Pos LocalPlayer::getCommandSenderWorldPosition() +{ + return new Pos(floor(x + .5), floor(y + .5), floor(z + .5)); +} + +shared_ptr LocalPlayer::getCarriedItem() +{ + return inventory->getSelected(); +} + +void LocalPlayer::playSound(int soundId, float volume, float pitch) +{ + level->playLocalSound(x, y - heightOffset, z, soundId, volume, pitch, false); +} + +bool LocalPlayer::isRidingJumpable() +{ + return riding != nullptr && riding->GetType() == eTYPE_HORSE; +} + +float LocalPlayer::getJumpRidingScale() +{ + return jumpRidingScale; +} + +void LocalPlayer::sendRidingJump() +{ +} + +void LocalPlayer::onCrafted(shared_ptr item) +{ + if( minecraft->localgameModes[m_iPad] != nullptr ) + { + TutorialMode *gameMode = static_cast(minecraft->localgameModes[m_iPad]); + gameMode->getTutorial()->onCrafted(item); + } +} + +void LocalPlayer::setAndBroadcastCustomSkin(DWORD skinId) +{ + setCustomSkin(skinId); +} + +void LocalPlayer::setAndBroadcastCustomCape(DWORD capeId) +{ + setCustomCape(capeId); +} + +// 4J TODO - Remove +#include "..\Minecraft.World\LevelChunk.h" +void LocalPlayer::mapPlayerChunk(const unsigned int flagTileType) +{ + int cx = this->xChunk; + int cz = this->zChunk; + + int pZ = static_cast(floor(this->z)) %16; + int pX = static_cast(floor(this->x)) %16; + + cout<<"player in chunk ("<x<<","<y<<","<z<<")\n"; + + for (int v = -1; v < 2; v++) + for (unsigned int z = 0; z < 16; z++) + { + for (int u = -1; u < 2; u++) + for (unsigned int x = 0; x < 16; x++) + { + LevelChunk *cc = level->getChunk(cx+u, cz+v); + if ( x==pX && z==pZ && u==0 && v==0) + cout << "O"; + else for (unsigned int y = 127; y > 0; y--) + { + int t = cc->getTile(x,y,z); + if (flagTileType != 0 && t == flagTileType) { cout << "@"; break; } + else if (t != 0 && t < 10) { cout << t; break; } + else if (t > 0) { cout << "#"; break; } + } + } + cout << "\n"; + } + + cout << "\n"; +} + + +void LocalPlayer::handleMouseDown(int button, bool down) +{ + // 4J Stu - We should not accept any input while asleep, except the above to wake up + if(isSleeping() && level != nullptr && level->isClientSide) + { + return; + } + if (!down) missTime = 0; + if (button == 0 && missTime > 0) return; + + if (down && minecraft->hitResult != nullptr && minecraft->hitResult->type == HitResult::TILE && button == 0) + { + int x = minecraft->hitResult->x; + int y = minecraft->hitResult->y; + int z = minecraft->hitResult->z; + + // 4J - addition to stop layer mining out of the top or bottom of the world + // 4J Stu - Allow this for The End + if( ( ( y == 0 ) || ( ( y == 127 ) && level->dimension->hasCeiling ) ) && level->dimension->id != 1 ) return; + + minecraft->gameMode->continueDestroyBlock(x, y, z, minecraft->hitResult->f); + + if(mayDestroyBlockAt(x,y,z)) + { + minecraft->particleEngine->crack(x, y, z, minecraft->hitResult->f); + swing(); + } + } + else + { + minecraft->gameMode->stopDestroyBlock(); + } +} + +bool LocalPlayer::creativeModeHandleMouseClick(int button, bool buttonPressed) +{ + return true; +} + +bool LocalPlayer::handleMouseClick(int button) +{ + return false; +} + +void LocalPlayer::updateRichPresence() +{ + if((m_iPad!=-1)/* && !ui.GetMenuDisplayed(m_iPad)*/ ) + { + shared_ptr selectedItem = inventory->getSelected(); + if(selectedItem != nullptr && selectedItem->id == Item::fishingRod_Id) + { + app.SetRichPresenceContext(m_iPad,CONTEXT_GAME_STATE_FISHING); + } + else if(selectedItem != nullptr && selectedItem->id == Item::map_Id) + { + app.SetRichPresenceContext(m_iPad,CONTEXT_GAME_STATE_MAP); + } + else if ( (riding != nullptr) && riding->instanceof(eTYPE_MINECART) ) + { + app.SetRichPresenceContext(m_iPad,CONTEXT_GAME_STATE_RIDING_MINECART); + } + else if ( (riding != nullptr) && riding->instanceof(eTYPE_BOAT) ) + { + app.SetRichPresenceContext(m_iPad,CONTEXT_GAME_STATE_BOATING); + } + else if ( (riding != nullptr) && riding->instanceof(eTYPE_PIG) ) + { + app.SetRichPresenceContext(m_iPad,CONTEXT_GAME_STATE_RIDING_PIG); + } + else if( this->dimension == -1 ) + { + app.SetRichPresenceContext(m_iPad,CONTEXT_GAME_STATE_NETHER); + } + else if( minecraft->soundEngine->GetIsPlayingStreamingCDMusic() ) + { + app.SetRichPresenceContext(m_iPad,CONTEXT_GAME_STATE_CD); + } + else + { + app.SetRichPresenceContext(m_iPad,CONTEXT_GAME_STATE_BLANK); + } + } +} + +// 4J Stu - Added for telemetry +void LocalPlayer::SetSessionTimerStart(void) +{ + m_sessionTimeStart=app.getAppTime(); + m_dimensionTimeStart=m_sessionTimeStart; +} + +float LocalPlayer::getSessionTimer(void) +{ + return app.getAppTime()-m_sessionTimeStart; +} + +float LocalPlayer::getAndResetChangeDimensionTimer() +{ + float appTime = app.getAppTime(); + float returnVal = appTime - m_dimensionTimeStart; + m_dimensionTimeStart = appTime; + return returnVal; +} + +void LocalPlayer::handleCollectItem(shared_ptr item) +{ + if(item != nullptr) + { + unsigned int itemCountAnyAux = 0; + unsigned int itemCountThisAux = 0; + for (unsigned int k = 0; k < inventory->items.length; ++k) + { + if (inventory->items[k] != nullptr) + { + // do they have the item + if(inventory->items[k]->id == item->id) + { + unsigned int quantity = inventory->items[k]->GetCount(); + + itemCountAnyAux += quantity; + + if( inventory->items[k]->getAuxValue() == item->getAuxValue() ) + { + itemCountThisAux += quantity; + } + } + } + } + TutorialMode *gameMode = static_cast(minecraft->localgameModes[m_iPad]); + gameMode->getTutorial()->onTake(item, itemCountAnyAux, itemCountThisAux); + } +} + +void LocalPlayer::SetPlayerAdditionalModelParts(vectorpAdditionalModelParts) +{ + m_pAdditionalModelParts=pAdditionalModelParts; +} diff --git a/Minecraft.Client/LocalPlayer.h b/Minecraft.Client/LocalPlayer.h new file mode 100644 index 0000000..3d88668 --- /dev/null +++ b/Minecraft.Client/LocalPlayer.h @@ -0,0 +1,218 @@ +#pragma once +#include "..\Minecraft.World\SmoothFloat.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\Pos.h" +class Level; +class User; +class CompoundTag; +class FurnaceTileEntity; +class DispenserTileEntity; +class SignTileEntity; +class Container; +class Input; +class Stat; +class Minecraft; + +using namespace std; + +// Time in seconds before the players presence is update to Idle +#define PLAYER_IDLE_TIME 300 + +class LocalPlayer : public Player +{ +public: + static const int SPRINT_DURATION = 20 * 30; + + eINSTANCEOF GetType() { return eTYPE_LOCALPLAYER; } + + Input *input; +protected: + Minecraft *minecraft; + int sprintTriggerTime; + bool sprintTriggerRegisteredReturn; // 4J added + bool twoJumpsRegistered; // 4J added + + unsigned int m_uiInactiveTicks; // To measure time for idle anims + + unsigned long long m_awardedThisSession; + + // 4J - Last time we checked for achievement uunlocks. + //long long m_lastAchievementUpdate; + +public: + int sprintTime; + + float yBob, xBob; + float yBobO, xBobO; + + float portalTime; + float oPortalTime; + + LocalPlayer(Minecraft *minecraft, Level *level, User *user, int dimension); + virtual ~LocalPlayer(); + + int m_iScreenSection; // assuming 4player splitscreen for now, or -1 for single player + uint64_t ullButtonsPressed; // Stores the button presses, since the inputmanager can be ticked faster than the minecraft + // player tick, and a button press and release combo can be missed in the minecraft::tick + + uint64_t ullDpad_last; + uint64_t ullDpad_this; + uint64_t ullDpad_filtered; + + // 4J-PB - moved these in from the minecraft structure, since they are per player things for splitscreen + //int ticks; + int missTime; + int lastClickTick[2]; + bool isRaining ; + int m_iThirdPersonView; + + bool m_bHasAwardedStayinFrosty; + +private: + float flyX, flyY, flyZ; + + int jumpRidingTicks; + float jumpRidingScale; + +protected: + // 4J-PB - player's xbox pad + int m_iPad; + + bool m_bIsIdle; + +private: + // local player fly + // -------------------------------------------------------------------------- + // smooth camera settings + + SmoothFloat smoothFlyX; + SmoothFloat smoothFlyY; + SmoothFloat smoothFlyZ; + + void calculateFlight(float xa, float ya, float za); + +public: + virtual void serverAiStep(); + +protected: + bool isEffectiveAi(); + +public: + virtual void aiStep(); + virtual void changeDimension(int i); + virtual float getFieldOfViewModifier(); + virtual void addAdditonalSaveData(CompoundTag *entityTag); + virtual void readAdditionalSaveData(CompoundTag *entityTag); + virtual void closeContainer(); + virtual void openTextEdit(shared_ptr sign); + virtual bool openContainer(shared_ptr container); // 4J added bool return + virtual bool openHopper(shared_ptr container); // 4J added bool return + virtual bool openHopper(shared_ptr container); // 4J added bool return + virtual bool openHorseInventory(shared_ptr horse, shared_ptr container); // 4J added bool return + virtual bool startCrafting(int x, int y, int z); // 4J added bool return + virtual bool openFireworks(int x, int y, int z); // 4J added + virtual bool startEnchanting(int x, int y, int z, const wstring &name); // 4J added bool return + virtual bool startRepairing(int x, int y, int z); + virtual bool openFurnace(shared_ptr furnace); // 4J added bool return + virtual bool openBrewingStand(shared_ptr brewingStand); // 4J added bool return + virtual bool openBeacon(shared_ptr beacon); // 4J added bool return + virtual bool openTrap(shared_ptr trap); // 4J added bool return + virtual bool openTrading(shared_ptr traderTarget, const wstring &name); + virtual void crit(shared_ptr e); + virtual void magicCrit(shared_ptr e); + virtual void take(shared_ptr e, int orgCount); + virtual void chat(const wstring& message); + virtual bool isSneaking(); + //virtual bool isIdle(); + virtual void hurtTo(float newHealth, ETelemetryChallenges damageSource); + virtual void respawn(); + virtual void animateRespawn(); + virtual void displayClientMessage(int messageId); + virtual void awardStat(Stat *stat, byteArray param); + virtual int ThirdPersonView() { return m_iThirdPersonView;} + // 4J - have changed 3rd person view to be 0 if not enabled, 1 for mode like original, 2 reversed mode + virtual void SetThirdPersonView(int val) {m_iThirdPersonView=val;} + + void ResetInactiveTicks() { m_uiInactiveTicks=0;} + unsigned int GetInactiveTicks() { return m_uiInactiveTicks;} + void IncrementInactiveTicks() { if(m_uiInactiveTicks<255) m_uiInactiveTicks++;} + + void mapPlayerChunk(unsigned int); + // 4J-PB - xbox pad for this player + void SetXboxPad(int iPad) {m_iPad=iPad;} + int GetXboxPad() {return m_iPad;} + void SetPlayerRespawned(bool bVal) {m_bPlayerRespawned=bVal;} + bool GetPlayerRespawned() {return m_bPlayerRespawned;} + + // 4J-PB - Moved these in here from the minecraft structure since they are local player related + void handleMouseDown(int button, bool down); + bool handleMouseClick(int button); + + // 4J - added for improved autorepeat + bool creativeModeHandleMouseClick(int button, bool buttonPressed); + float lastClickX; + float lastClickY; + float lastClickZ; + float lastClickdX; + float lastClickdY; + float lastClickdZ; + enum eLastClickState + { + lastClick_invalid, + lastClick_init, + lastClick_moving, + lastClick_stopped, + lastClick_oldRepeat, + lastClick_disabled + }; + float lastClickTolerance; + int lastClickState; + + // 4J Stu - Added to allow callback to tutorial to stay within Minecraft.Client + virtual void onCrafted(shared_ptr item); + + virtual void setAndBroadcastCustomSkin(DWORD skinId); + virtual void setAndBroadcastCustomCape(DWORD capeId); + +private: + bool isSolidBlock(int x, int y, int z); + bool m_bPlayerRespawned; + +protected: + bool checkInTile(double x, double y, double z); + +public: + void setSprinting(bool value); + void setExperienceValues(float experienceProgress, int totalExp, int experienceLevel); + + // virtual void sendMessage(ChatMessageComponent *message); // 4J: removed + virtual Pos getCommandSenderWorldPosition(); + virtual shared_ptr getCarriedItem(); + virtual void playSound(int soundId, float volume, float pitch); + bool isRidingJumpable(); + float getJumpRidingScale(); + +protected: + virtual void sendRidingJump(); + +public: + + void updateRichPresence(); + + // 4J Stu - Added for telemetry + float m_sessionTimeStart; + float m_dimensionTimeStart; + + void SetSessionTimerStart(void); + float getSessionTimer(void); + + float getAndResetChangeDimensionTimer(); + + virtual void handleCollectItem(shared_ptr item); + void SetPlayerAdditionalModelParts(vectorpAdditionalModelParts); + +private: + vector m_pAdditionalModelParts; +}; + + diff --git a/Minecraft.Client/MemTexture.cpp b/Minecraft.Client/MemTexture.cpp new file mode 100644 index 0000000..ee3ba79 --- /dev/null +++ b/Minecraft.Client/MemTexture.cpp @@ -0,0 +1,33 @@ +#include "stdafx.h" +#include "MemTexture.h" + +MemTexture::MemTexture(const wstring& _url, PBYTE pbData,DWORD dwBytes, MemTextureProcessor *processor) +{ + // 4J - added + count = 1; + id = -1; + isLoaded = false; + ticksSinceLastUse = 0; + + // 4J - TODO - actually implement + + // load the texture, and process it + //loadedImage=Textures::getTexture() + // 4J - remember to add deletes in here for any created BufferedImages when implemented + loadedImage = new BufferedImage(pbData,dwBytes); + if(processor==nullptr) + { + + } + else + { + //loadedImage=processor.process(ImageIO.read(huc.getInputStream())); + } + + +} + +MemTexture::~MemTexture() +{ + delete loadedImage; +} \ No newline at end of file diff --git a/Minecraft.Client/MemTexture.h b/Minecraft.Client/MemTexture.h new file mode 100644 index 0000000..d11d68b --- /dev/null +++ b/Minecraft.Client/MemTexture.h @@ -0,0 +1,17 @@ +#pragma once +class BufferedImage; +class MemTextureProcessor; +using namespace std; + +class MemTexture { +public: + BufferedImage *loadedImage; + int count; + int id; + bool isLoaded; + int ticksSinceLastUse; + static const int UNUSED_TICKS_TO_FREE = 20; + + MemTexture(const wstring& _name, PBYTE pbData, DWORD dwBytes, MemTextureProcessor *processor); + ~MemTexture(); +}; \ No newline at end of file diff --git a/Minecraft.Client/MemTextureProcessor.h b/Minecraft.Client/MemTextureProcessor.h new file mode 100644 index 0000000..8e945e1 --- /dev/null +++ b/Minecraft.Client/MemTextureProcessor.h @@ -0,0 +1,8 @@ +#pragma once +class BufferedImage; + +class MemTextureProcessor +{ +public: + virtual BufferedImage *process(BufferedImage *read) = 0; +}; \ No newline at end of file diff --git a/Minecraft.Client/MemoryTracker.cpp b/Minecraft.Client/MemoryTracker.cpp new file mode 100644 index 0000000..9d0b29d --- /dev/null +++ b/Minecraft.Client/MemoryTracker.cpp @@ -0,0 +1,70 @@ +#include "stdafx.h" +#include "MemoryTracker.h" +#include "..\Minecraft.World\IntBuffer.h" +#include "..\Minecraft.World\ByteBuffer.h" +#include "..\Minecraft.World\FloatBuffer.h" + +unordered_map MemoryTracker::GL_LIST_IDS; +vector MemoryTracker::TEXTURE_IDS; + +int MemoryTracker::genLists(int count) +{ + int id = glGenLists(count); + GL_LIST_IDS.insert( pair(id,count) ); + return id; +} + +int MemoryTracker::genTextures() +{ + int id = glGenTextures(); + TEXTURE_IDS.push_back(id); + return id; +} + +void MemoryTracker::releaseLists(int id) +{ + auto it = GL_LIST_IDS.find(id); + if( it != GL_LIST_IDS.end() ) + { + glDeleteLists(id, it->second); + GL_LIST_IDS.erase(it); + } +} + +void MemoryTracker::releaseTextures() +{ + for (int i = 0; i < TEXTURE_IDS.size(); i++) + { + glDeleteTextures(TEXTURE_IDS.at(i)); + } + TEXTURE_IDS.clear(); +} + +void MemoryTracker::release() +{ + //for (Map.Entry entry : GL_LIST_IDS.entrySet()) + for(auto& it : GL_LIST_IDS) + { + glDeleteLists(it.first, it.second); + } + GL_LIST_IDS.clear(); + + releaseTextures(); +} + +ByteBuffer *MemoryTracker::createByteBuffer(int size) +{ + // 4J - was ByteBuffer.allocateDirect(size).order(ByteOrder.nativeOrder()) + ByteBuffer *bb = ByteBuffer::allocate(size); + return bb; +} + +IntBuffer *MemoryTracker::createIntBuffer(int size) +{ + return createByteBuffer(size << 2)->asIntBuffer(); +} + +FloatBuffer *MemoryTracker::createFloatBuffer(int size) +{ + return createByteBuffer(size << 2)->asFloatBuffer(); +} \ No newline at end of file diff --git a/Minecraft.Client/MemoryTracker.h b/Minecraft.Client/MemoryTracker.h new file mode 100644 index 0000000..9567fac --- /dev/null +++ b/Minecraft.Client/MemoryTracker.h @@ -0,0 +1,28 @@ +#pragma once +#include "MemoryTracker.h" +class ByteBuffer; +class IntBuffer; +class FloatBuffer; +using namespace std; + +/** Original comment + * This class is used so we can release all memory (allocated on the graphics card on shutdown) + */ +// 4J - all member functions in here were synchronized +class MemoryTracker +{ +private: + static unordered_map GL_LIST_IDS; + static vector TEXTURE_IDS; + +public: + static int genLists(int count); + static int genTextures(); + static void releaseLists(int id); + static void releaseTextures(); + static void release(); + // 4J - note - have removed buffer types from here that we aren't using + static ByteBuffer *createByteBuffer(int size); + static IntBuffer *createIntBuffer(int size); + static FloatBuffer *createFloatBuffer(int size); +}; diff --git a/Minecraft.Client/Minecraft.cpp b/Minecraft.Client/Minecraft.cpp new file mode 100644 index 0000000..a71bc3c --- /dev/null +++ b/Minecraft.Client/Minecraft.cpp @@ -0,0 +1,2628 @@ +#include "stdafx.h" +#include "Minecraft.h" +#include "GameMode.h" +#include "Timer.h" +#include "LevelRenderer.h" +#include "ParticleEngine.h" +#include "MultiPlayerLocalPlayer.h" +#include "User.h" +#include "Textures.h" +#include "GameRenderer.h" +#include "Options.h" +#include "TexturePackRepository.h" +#include "StatsCounter.h" +#include "SurvivalMode.h" +#include "Chunk.h" +#include "CreativeMode.h" +#include "DemoLevel.h" +#include "MultiPlayerLevel.h" +#include "MultiPlayerLocalPlayer.h" +#include "DemoUser.h" +#include "Input.h" +#include "FrustumCuller.h" +#include "Camera.h" + +#include "..\Minecraft.World\MobEffect.h" +#include "..\Minecraft.World\Difficulty.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.entity.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.entity.item.h" +#include "..\Minecraft.World\net.minecraft.world.phys.h" +#include "..\Minecraft.World\File.h" +#include "..\Minecraft.World\net.minecraft.world.level.storage.h" +#include "..\Minecraft.World\net.minecraft.h" +#include "..\Minecraft.World\net.minecraft.stats.h" +#include "..\Minecraft.World\System.h" +#include "..\Minecraft.World\ByteBuffer.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\Minecraft.World.h" +#include "Windows64\Windows64_Xuid.h" +#include "ClientConnection.h" +#include "..\Minecraft.World\HellRandomLevelSource.h" +#include "..\Minecraft.World\net.minecraft.world.entity.animal.h" +#include "..\Minecraft.World\net.minecraft.world.entity.monster.h" +#include "..\Minecraft.World\StrongholdFeature.h" +#include "..\Minecraft.World\IntCache.h" +#include "..\Minecraft.World\Villager.h" +#include "..\Minecraft.World\SparseLightStorage.h" +#include "..\Minecraft.World\SparseDataStorage.h" +#include "..\Minecraft.World\ChestTileEntity.h" +#include "TextureManager.h" +#ifdef _XBOX +#include "Xbox\Network\NetworkPlayerXbox.h" +#endif +#include "DLCTexturePack.h" + +#ifdef __ORBIS__ +#include "Orbis\Network\PsPlusUpsellWrapper_Orbis.h" +#endif +#include + +// #define DISABLE_SPU_CODE +// 4J Turning this on will change the graph at the bottom of the debug overlay to show the number of packets of each type added per fram +//#define DEBUG_RENDER_SHOWS_PACKETS 1 +//#define SPLITSCREEN_TEST + +// If not disabled, this creates an event queue on a seperate thread so that the Level::tick calls can be offloaded +// from the main thread, and have longer to run, since it's called at 20Hz instead of 60 +#define DISABLE_LEVELTICK_THREAD + +Minecraft *Minecraft::m_instance = nullptr; +int64_t Minecraft::frameTimes[512]; +int64_t Minecraft::tickTimes[512]; +int Minecraft::frameTimePos = 0; +int64_t Minecraft::warezTime = 0; +File Minecraft::workDir = File(L""); + +#ifdef __PSVITA__ + +TOUCHSCREENRECT QuickSelectRect[3]= +{ + { 560, 890, 1360, 980 }, + { 450, 840, 1449, 960 }, + { 320, 840, 1600, 970 }, +}; + +int QuickSelectBoxWidth[3]= +{ + 89, + 111, + 142 +}; + +// 4J - TomK ToDo: these really shouldn't be magic numbers, it should read the hud position from flash. +int iToolTipOffset = 85; + +#endif + +ResourceLocation Minecraft::DEFAULT_FONT_LOCATION = ResourceLocation(TN_DEFAULT_FONT); +ResourceLocation Minecraft::ALT_FONT_LOCATION = ResourceLocation(TN_ALT_FONT); + + +Minecraft::Minecraft(Component *mouseComponent, Canvas *parent, MinecraftApplet *minecraftApplet, int width, int height, bool fullscreen) +{ + // 4J - added this block of initialisers + gameMode = nullptr; + hasCrashed = false; + timer = new Timer(SharedConstants::TICKS_PER_SECOND); + oldLevel = nullptr; //4J Stu added + level = nullptr; + levels = MultiPlayerLevelArray(3); // 4J Added + levelRenderer = nullptr; + player = nullptr; + cameraTargetPlayer = nullptr; + particleEngine = nullptr; + user = nullptr; + parent = nullptr; + pause = false; + textures = nullptr; + font = nullptr; + localPlayerIdx = 0; + rightClickDelay = 0; + + // 4J Stu Added + InitializeCriticalSection(&m_setLevelCS); + //m_hPlayerRespawned = CreateEvent(nullptr, FALSE, FALSE, nullptr); + + progressRenderer = nullptr; + gameRenderer = nullptr; + bgLoader = nullptr; + + ticks = 0; + // 4J-PB - moved into the local player + //missTime = 0; + //lastClickTick = 0; + //isRaining = false; + // 4J-PB - end + + orgWidth = orgHeight = 0; + noRender = true; + //humanoidModel = new HumanoidModel(0); + hitResult = nullptr; + options = nullptr; + //soundEngine = new SoundEngine(); + mouseHandler = nullptr; + skins = nullptr; + workingDirectory = File(L""); + levelSource = nullptr; + stats[0] = nullptr; + stats[1] = nullptr; + stats[2] = nullptr; + stats[3] = nullptr; + connectToPort = 0; + workDir = File(L""); + // 4J removed + //wasDown = false; + lastTimer = -1; + + // 4J removed + //lastTickTime = System::currentTimeMillis(); + recheckPlayerIn = 0; + running = true; + unoccupiedQuadrant = -1; + + Stats::init(); + + orgHeight = height; + this->fullscreen = fullscreen; + this->minecraftApplet = nullptr; + + this->parent = parent; + // 4J - Our actual physical frame buffer is always 1280x720 ie in a 16:9 ratio. If we want to do a 4:3 mode, we are telling the original minecraft code + // that the width is 3/4 what it actually is, to correctly present a 4:3 image. Have added width_phys and height_phys for any code we add that requires + // to know the real physical dimensions of the frame buffer. + if( RenderManager.IsWidescreen() ) + { + this->width = width; + } + else + { + this->width = (width * 3 ) / 4; + } + this->height = height; + this->width_phys = width; + this->height_phys = height; + + this->fullscreen = fullscreen; + + appletMode = false; + + Minecraft::m_instance = this; + TextureManager::createInstance(); + + for(int i=0;isoundEngine->init(nullptr); +#endif + +#ifndef DISABLE_LEVELTICK_THREAD + levelTickEventQueue = new C4JThread::EventQueue(levelTickUpdateFunc, levelTickThreadInitFunc, "LevelTick_EventQueuePoll"); + levelTickEventQueue->setProcessor(3); + levelTickEventQueue->setPriority(THREAD_PRIORITY_NORMAL); +#endif // DISABLE_LEVELTICK_THREAD +} + +void Minecraft::clearConnectionFailed() +{ + for(int i=0;iforceSend(); + stats->forceSave();*/ + + // try { + setLevel(nullptr); + // } catch (Throwable e) { + // } + + // try { + MemoryTracker::release(); + // } catch (Throwable e) { + // } + + soundEngine->destroy(); + //} finally { + Display::destroy(); + // if (!hasCrashed) System.exit(0); //4J - removed + //} + //System.gc(); // 4J - removed +} + +// 4J-PB - splitting this function into 3 parts, so we can call the middle part from our xbox game loop + +#if 0 +void Minecraft::run() +{ + running = true; + // try { // 4J - removed try/catch + init(); + // } catch (Exception e) { + // e.printStackTrace(); + // crash(new CrashReport("Failed to start game", e)); + // return; + // } + // try { // 4J - removed try/catch + if (Minecraft::FLYBY_MODE) + { + generateFlyby(); + return; + } + + int64_t lastTime = System::currentTimeMillis(); + int frames = 0; + + while (running) + { + // try { // 4J - removed try/catch + // if (minecraftApplet != null && !minecraftApplet.isActive()) break; // 4J - removed + AABB::resetPool(); + Vec3::resetPool(); + + // if (parent == nullptr && Display.isCloseRequested()) { // 4J - removed + // stop(); + // } + + if (pause && level != nullptr) + { + float lastA = timer->a; + timer->advanceTime(); + timer->a = lastA; + } + else + { + timer->advanceTime(); + } + + int64_t beforeTickTime = System::nanoTime(); + for (int i = 0; i < timer->ticks; i++) + { + ticks++; + // try { // 4J - try/catch removed + tick(); + // } catch (LevelConflictException e) { + // this.level = null; + // setLevel(null); + // setScreen(new LevelConflictScreen()); + // } + } + int64_t tickDuraction = System::nanoTime() - beforeTickTime; + checkGlError(L"Pre render"); + + TileRenderer::fancy = options->fancyGraphics; + + // if (pause) timer.a = 1; + + soundEngine->update(player, timer->a); + + glEnable(GL_TEXTURE_2D); + if (level != nullptr) level->updateLights(); + + // if (!Keyboard::isKeyDown(Keyboard.KEY_F7)) Display.update(); // 4J - removed + + if (player != nullptr && player->isInWall()) options->thirdPersonView = false; + if (!noRender) + { + if (gameMode != nullptr) gameMode->render(timer->a); + gameRenderer->render(timer->a); + } + + /* 4J - removed + if (!Display::isActive()) + { + if (fullscreen) + { + this->toggleFullScreen(); + } + Sleep(10); + } + */ + + if (options->renderDebug) + { + renderFpsMeter(tickDuraction); + } + else + { + lastTimer = System::nanoTime(); + } + + achievementPopup->render(); + + Sleep(0); // 4J - was Thread.yield() + + // if (Keyboard::isKeyDown(Keyboard::KEY_F7)) Display.update(); // 4J - removed condition + Display::update(); + + // checkScreenshot(); // 4J - removed + + /* 4J - removed + if (parent != nullptr && !fullscreen) + { + if (parent.getWidth() != width || parent.getHeight() != height) + { + width = parent.getWidth(); + height = parent.getHeight(); + if (width <= 0) width = 1; + if (height <= 0) height = 1; + + resize(width, height); + } + } + */ + checkGlError(L"Post render"); + frames++; + pause = !isClientSide() && screen != nullptr && screen->isPauseScreen(); + + while (System::currentTimeMillis() >= lastTime + 1000) + { + fpsString = std::to_wstring(frames) + L" fps (" + std::to_wstring(Chunk::updates) + L" chunk updates)"; + Chunk::updates = 0; + lastTime += 1000; + frames = 0; + } + /* + } catch (LevelConflictException e) { + this.level = null; + setLevel(null); + setScreen(new LevelConflictScreen()); + } catch (OutOfMemoryError e) { + emergencySave(); + setScreen(new OutOfMemoryScreen()); + System.gc(); + } + */ + } + /* + } catch (StopGameException e) { + } catch (Throwable e) { + emergencySave(); + e.printStackTrace(); + crash(new CrashReport("Unexpected error", e)); + } finally { + destroy(); + } + */ + destroy(); +} +#endif + +void Minecraft::run() +{ + running = true; + // try { // 4J - removed try/catch + init(); + // } catch (Exception e) { + // e.printStackTrace(); + // crash(new CrashReport("Failed to start game", e)); + // return; + // } + // try { // 4J - removed try/catch + } + +// 4J added - Selects which local player is currently active for processing by the existing minecraft code +bool Minecraft::setLocalPlayerIdx(int idx) +{ + return true; +} + +int Minecraft::getLocalPlayerIdx() +{ + return localPlayerIdx; +} + +void Minecraft::updatePlayerViewportAssignments() +{ + unoccupiedQuadrant = -1; + // Find out how many viewports we'll be needing + int viewportsRequired = 0; + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( localplayers[i] != nullptr ) viewportsRequired++; + } + if( viewportsRequired == 3 ) viewportsRequired = 4; + + // Allocate away... + if( viewportsRequired == 1 ) + { + // Single viewport + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( localplayers[i] != nullptr ) localplayers[i]->m_iScreenSection = C4JRender::VIEWPORT_TYPE_FULLSCREEN; + } + } + else if( viewportsRequired == 2 ) + { + // Split screen - TODO - option for vertical/horizontal split + int found = 0; + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( localplayers[i] != nullptr ) + { + // Primary player settings decide what the mode is + if(app.GetGameSettings(ProfileManager.GetPrimaryPad(),eGameSetting_SplitScreenVertical)) + { + localplayers[i]->m_iScreenSection = C4JRender::VIEWPORT_TYPE_SPLIT_LEFT + found; + } + else + { + localplayers[i]->m_iScreenSection = C4JRender::VIEWPORT_TYPE_SPLIT_TOP + found; + } + found++; + } + } + } + else if( viewportsRequired >= 3 ) + { + // Quadrants - this is slightly more complicated. We don't want to move viewports around if we are going from 3 to 4, or 4 to 3 players, + // so persist any allocations for quadrants that already exist. + bool quadrantsAllocated[4] = {false,false,false,false}; + + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( localplayers[i] != nullptr ) + { + + // 4J Stu - If the game hasn't started, ignore current allocations (as the players won't have seen them) + // This fixes an issue with the primary player being the 4th controller quadrant, but ending up in the 3rd viewport. + if(app.GetGameStarted()) + { + if( ( localplayers[i]->m_iScreenSection >= C4JRender::VIEWPORT_TYPE_QUADRANT_TOP_LEFT ) && + ( localplayers[i]->m_iScreenSection <= C4JRender::VIEWPORT_TYPE_QUADRANT_BOTTOM_RIGHT ) ) + { + quadrantsAllocated[localplayers[i]->m_iScreenSection - C4JRender::VIEWPORT_TYPE_QUADRANT_TOP_LEFT] = true; + } + } + else + { + // Reset the viewport so that it can be assigned in the next loop + localplayers[i]->m_iScreenSection = C4JRender::VIEWPORT_TYPE_FULLSCREEN; + } + } + } + + // Found which quadrants are currently in use, now allocate out any spares that are required + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( localplayers[i] != nullptr ) + { + if( ( localplayers[i]->m_iScreenSection < C4JRender::VIEWPORT_TYPE_QUADRANT_TOP_LEFT ) || + ( localplayers[i]->m_iScreenSection > C4JRender::VIEWPORT_TYPE_QUADRANT_BOTTOM_RIGHT ) ) + { + for( int j = 0; j < 4; j++ ) + { + if( !quadrantsAllocated[j] ) + { + localplayers[i]->m_iScreenSection = C4JRender::VIEWPORT_TYPE_QUADRANT_TOP_LEFT + j; + quadrantsAllocated[j] = true; + break; + } + } + } + } + } + // If there's an unoccupied quadrant, record which one so we can clear it to black when rendering + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( quadrantsAllocated[i] == false ) + { + unoccupiedQuadrant = i; + } + } + } +} + +// Add a temporary player so that the viewports get re-arranged, and add the player to the game session +bool Minecraft::addLocalPlayer(int idx) +{ + //int iLocalPlayerC=app.GetLocalPlayerCount(); + if( m_pendingLocalConnections[idx] != nullptr ) + { + // 4J Stu - Should we ever be in a state where this happens? + assert(false); + m_pendingLocalConnections[idx]->close(); + } + m_connectionFailed[idx] = false; + m_pendingLocalConnections[idx] = nullptr; + + bool success=g_NetworkManager.AddLocalPlayerByUserIndex(idx); + + if(success) + { + app.DebugPrintf("Adding temp local player on pad %d\n", idx); + localplayers[idx] = shared_ptr(new MultiplayerLocalPlayer(this, level, user, nullptr)); + localgameModes[idx] = nullptr; + + updatePlayerViewportAssignments(); + +#ifdef _XBOX + // tell the xui scenes a splitscreen player joined + XUIMessage xuiMsg; + CustomMessage_Splitscreenplayer_Struct myMsgData; + CustomMessage_Splitscreenplayer( &xuiMsg, &myMsgData, true); + + // send the message + for(int i=0;i Minecraft::createExtraLocalPlayer(int idx, const wstring& name, int iPad, int iDimension, ClientConnection *clientConnection /*= nullptr*/,MultiPlayerLevel *levelpassedin) +{ + if( clientConnection == nullptr) return nullptr; + + if( clientConnection == m_pendingLocalConnections[idx] ) + { + int tempScreenSection = C4JRender::VIEWPORT_TYPE_FULLSCREEN; + if( localplayers[idx] != nullptr && localgameModes[idx] == nullptr ) + { + // A temp player displaying a connecting screen + tempScreenSection = localplayers[idx]->m_iScreenSection; + } + wstring prevname = user->name; + user->name = name; + + // Don't need this any more + m_pendingLocalConnections[idx] = nullptr; + + // Add the connection to the level which will now take responsibility for ticking it + // 4J-PB - can't use the dimension from localplayers[idx], since there may be no localplayers at this point + //MultiPlayerLevel *mpLevel = (MultiPlayerLevel *)getLevel( localplayers[idx]->dimension ); + + MultiPlayerLevel *mpLevel; + + if(levelpassedin) + { + level=levelpassedin; + mpLevel=levelpassedin; + } + else + { + level=getLevel( iDimension ); + mpLevel = getLevel( iDimension ); + mpLevel->addClientConnection( clientConnection ); + } + + if( app.GetTutorialMode() ) + { + localgameModes[idx] = new FullTutorialMode(idx, this, clientConnection); + } + // check if we're in the trial version + else if(ProfileManager.IsFullVersion()==false) + { + localgameModes[idx] = new TrialMode(idx, this, clientConnection); + } + else + { + localgameModes[idx] = new ConsoleGameMode(idx, this, clientConnection); + } + + // 4J-PB - can't do this here because they use a render context, but this is running from a thread. + // Moved the creation of these into the main thread, before level launch + //localitemInHandRenderers[idx] = new ItemInHandRenderer(this); + localplayers[idx] = localgameModes[idx]->createPlayer(level); + + PlayerUID playerXUIDOffline = INVALID_XUID; + PlayerUID playerXUIDOnline = INVALID_XUID; + ProfileManager.GetXUID(idx,&playerXUIDOffline,false); + ProfileManager.GetXUID(idx,&playerXUIDOnline,true); +#ifdef _WINDOWS64 + // Compatibility rule for Win64 id migration + // host keeps legacy host XUID, non-host uses persistent uid.dat XUID. + INetworkPlayer *localNetworkPlayer = g_NetworkManager.GetLocalPlayerByUserIndex(idx); + if(localNetworkPlayer != nullptr && localNetworkPlayer->IsHost()) + { + playerXUIDOffline = Win64Xuid::GetLegacyEmbeddedHostXuid(); + } + else + { + playerXUIDOffline = Win64Xuid::ResolvePersistentXuid(); + } +#endif + localplayers[idx]->setXuid(playerXUIDOffline); + localplayers[idx]->setOnlineXuid(playerXUIDOnline); + + + localplayers[idx]->setIsGuest(ProfileManager.IsGuest(idx)); + + localplayers[idx]->m_displayName = ProfileManager.GetDisplayName(idx); + + localplayers[idx]->m_iScreenSection = tempScreenSection; + + if( levelpassedin == nullptr) level->addEntity(localplayers[idx]); // Don't add if we're passing the level in, we only do this from the client connection & we'll be handling adding it ourselves + + localplayers[idx]->SetXboxPad(iPad); + + if( localplayers[idx]->input != nullptr ) delete localplayers[idx]->input; + localplayers[idx]->input = new Input(); + + localplayers[idx]->resetPos(); + + levelRenderer->setLevel(idx, level); + localplayers[idx]->level = level; + + user->name = prevname; + + updatePlayerViewportAssignments(); + + // Fix for #105852 - TU12: Content: Gameplay: Local splitscreen Players are spawned at incorrect places after re-joining previously saved and loaded "Mass Effect World". + // Move this check to ClientConnection::handleMovePlayer +// // 4J-PB - can't call this when this function is called from the qnet thread (GetGameStarted will be false) +// if(app.GetGameStarted()) +// { +// ui.CloseUIScenes(idx); +// } + } + + return localplayers[idx]; +} + +// on a respawn of the local player, just store them +void Minecraft::storeExtraLocalPlayer(int idx) +{ + localplayers[idx] = player; + + if( localplayers[idx]->input != nullptr ) delete localplayers[idx]->input; + localplayers[idx]->input = new Input(); + + if(ProfileManager.IsSignedIn(idx)) + { + localplayers[idx]->name = convStringToWstring( ProfileManager.GetGamertag(idx) ); + } +} + +void Minecraft::removeLocalPlayerIdx(int idx) +{ + bool updateXui = true; + if(localgameModes[idx] != nullptr) + { + if( getLevel( localplayers[idx]->dimension )->isClientSide ) + { + shared_ptr mplp = localplayers[idx]; + ( (MultiPlayerLevel *)getLevel( localplayers[idx]->dimension ) )->removeClientConnection(mplp->connection, true); + delete mplp->connection; + mplp->connection = nullptr; + g_NetworkManager.RemoveLocalPlayerByUserIndex(idx); + } + getLevel( localplayers[idx]->dimension )->removeEntity(localplayers[idx]); + +#ifdef _XBOX + // 4J Stu - Fix for #12368 - Crash: Game crashes when saving then exiting and selecting to save + app.TutorialSceneNavigateBack(idx); +#endif + + // 4J Stu - Fix for #13257 - CRASH: Gameplay: Title crashed after exiting the tutorial + // It doesn't matter if they were in the tutorial already + playerLeftTutorial( idx ); + + delete localgameModes[idx]; + localgameModes[idx] = nullptr; + } + else if( m_pendingLocalConnections[idx] != nullptr ) + { + m_pendingLocalConnections[idx]->sendAndDisconnect(std::make_shared(DisconnectPacket::eDisconnect_Quitting));; + delete m_pendingLocalConnections[idx]; + m_pendingLocalConnections[idx] = nullptr; + g_NetworkManager.RemoveLocalPlayerByUserIndex(idx); + } + else + { + // Not sure how this works on qnet, but for other platforms, calling RemoveLocalPlayerByUserIndex won't do anything if there isn't a local user to remove + // Now just updating the UI directly in this case +#ifdef _XBOX + // 4J Stu - A signout early in the game creation before this player has connected to the game server + updateXui = false; +#endif + // 4J Stu - Adding this back in for exactly the reason my comment above suggests it was added in the first place +#if defined(_XBOX_ONE) || defined(__ORBIS__) + g_NetworkManager.RemoveLocalPlayerByUserIndex(idx); +#endif + } + localplayers[idx] = nullptr; + + if( idx == ProfileManager.GetPrimaryPad() ) + { + // We should never try to remove the Primary player in this way + assert(false); + /* + // If we are removing the primary player then there can't be a valid gamemode left anymore, this + // pointer will be referring to the one we've just deleted + gameMode = nullptr; + // Remove references to player + player = nullptr; + cameraTargetPlayer = nullptr; + EntityRenderDispatcher::instance->cameraEntity = nullptr; + TileEntityRenderDispatcher::instance->cameraEntity = nullptr; + */ + } + else if( updateXui ) + { + gameRenderer->DisableUpdateThread(); + levelRenderer->setLevel(idx, nullptr); + gameRenderer->EnableUpdateThread(); + updatePlayerViewportAssignments(); + } + + // We only create these once ever so don't delete it here + //delete localitemInHandRenderers[idx]; +} + +void Minecraft::createPrimaryLocalPlayer(int iPad) +{ + localgameModes[iPad] = gameMode; + localplayers[iPad] = player; + //gameRenderer->itemInHandRenderer = localitemInHandRenderers[iPad]; + // Give them the gamertag if they're signed in + if(ProfileManager.IsSignedIn(ProfileManager.GetPrimaryPad())) + { + user->name = convStringToWstring( ProfileManager.GetGamertag(ProfileManager.GetPrimaryPad()) ); + } +} + +#ifdef _WINDOWS64 +void Minecraft::applyFrameMouseLook() +{ + // Per-frame mouse look: consume mouse deltas every frame instead of waiting + // for the 20Hz game tick. Apply the same delta to both xRot/yRot AND xRotO/yRotO + // so the render interpolation instantly reflects the change without waiting for a tick. + if (level == nullptr) return; + + for (int i = 0; i < XUSER_MAX_COUNT; i++) + { + if (localplayers[i] == nullptr) continue; + int iPad = localplayers[i]->GetXboxPad(); + if (iPad != 0) continue; // Mouse only applies to pad 0 + + if (!g_KBMInput.IsMouseGrabbed()) continue; + if (localgameModes[iPad] == nullptr) continue; + + float rawDx, rawDy; + g_KBMInput.ConsumeMouseDelta(rawDx, rawDy); + if (rawDx == 0.0f && rawDy == 0.0f) continue; + + float mouseSensitivity = static_cast(app.GetGameSettings(iPad, eGameSetting_Sensitivity_InGame)) / 100.0f; + float mdx = rawDx * mouseSensitivity; + float mdy = -rawDy * mouseSensitivity; + if (app.GetGameSettings(iPad, eGameSetting_ControlInvertLook)) + mdy = -mdy; + + // Apply 0.15f scaling (same as Entity::interpolateTurn / Entity::turn) + float dyaw = mdx * 0.15f; + float dpitch = -mdy * 0.15f; + + // Apply to both current and old rotation so render interpolation + // reflects the change immediately (no 50ms tick delay) + localplayers[i]->yRot += dyaw; + localplayers[i]->yRotO += dyaw; + localplayers[i]->xRot += dpitch; + localplayers[i]->xRotO += dpitch; + + // Clamp pitch + if (localplayers[i]->xRot < -90.0f) localplayers[i]->xRot = -90.0f; + if (localplayers[i]->xRot > 90.0f) localplayers[i]->xRot = 90.0f; + if (localplayers[i]->xRotO < -90.0f) localplayers[i]->xRotO = -90.0f; + if (localplayers[i]->xRotO > 90.0f) localplayers[i]->xRotO = 90.0f; + } +} +#endif + +void Minecraft::run_middle() +{ + static int64_t lastTime = 0; + static bool bFirstTimeIntoGame = true; + static bool bAutosaveTimerSet=false; + static unsigned int uiAutosaveTimer=0; + static int iFirstTimeCountdown=60; + if( lastTime == 0 ) lastTime = System::nanoTime(); + static int frames = 0; + + EnterCriticalSection(&m_setLevelCS); + + if(running) + { + if (reloadTextures) + { + reloadTextures = false; + textures->reloadAll(); + } + + //while (running) + { + // try { // 4J - removed try/catch + // if (minecraftApplet != null && !minecraftApplet.isActive()) break; // 4J - removed + AABB::resetPool(); + Vec3::resetPool(); + + // if (parent == nullptr && Display.isCloseRequested()) { // 4J - removed + // stop(); + // } + + + + // 4J-PB - Once we're in the level, check if the players have the level in their banned list and ask if they want to play it + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( localplayers[i] && (app.GetBanListCheck(i)==false) && !Minecraft::GetInstance()->isTutorial() && ProfileManager.IsSignedInLive(i) && !ProfileManager.IsGuest(i) ) + { + // If there is a sys ui displayed, we can't display the message box here, so ignore until we can + if(!ProfileManager.IsSystemUIDisplayed()) + { + app.SetBanListCheck(i,true); + // 4J-PB - check if the level is in the banned level list + // get the unique save name and xuid from whoever is the host +#if defined _XBOX || defined _XBOX_ONE + INetworkPlayer *pHostPlayer = g_NetworkManager.GetHostPlayer(); + +#ifdef _XBOX + PlayerUID xuid=((NetworkPlayerXbox *)pHostPlayer)->GetUID(); +#else + PlayerUID xuid=pHostPlayer->GetUID(); +#endif + + if(app.IsInBannedLevelList(i,xuid,app.GetUniqueMapName())) + { + // put up a message box asking if the player would like to unban this level + app.DebugPrintf("This level is banned\n"); + // set the app action to bring up the message box to give them the option to remove from the ban list or exit the level + app.SetAction(i,eAppAction_LevelInBanLevelList,(void *)TRUE); + } +#endif + } + } + } + + if(!ProfileManager.IsSystemUIDisplayed() && app.DLCInstallProcessCompleted() && !app.DLCInstallPending() && app.m_dlcManager.NeedsCorruptCheck() ) + { + app.m_dlcManager.checkForCorruptDLCAndAlert(); + } + + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { +#ifdef __ORBIS__ + if ( m_pPsPlusUpsell != nullptr && m_pPsPlusUpsell->hasResponse() && m_pPsPlusUpsell->m_userIndex == i ) + { + delete m_pPsPlusUpsell; + m_pPsPlusUpsell = nullptr; + + if ( ProfileManager.HasPlayStationPlus(i) ) + { + app.DebugPrintf(" Player_%i is now authorised for PsPlus.\n", i); + if (!ui.PressStartPlaying(i)) ui.ShowPressStart(i); + } + else + { + UINT uiIDA[1] = { IDS_OK }; + ui.RequestErrorMessage( IDS_CANTJOIN_TITLE, IDS_NO_PLAYSTATIONPLUS, uiIDA, 1, i); + } + } + else +#endif + if(localplayers[i]) + { + // 4J-PB - add these to check for coming out of idle + if(InputManager.ButtonPressed(i, MINECRAFT_ACTION_JUMP)) localplayers[i]->ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<abilities.flying) + { + if(InputManager.ButtonDown(i, MINECRAFT_ACTION_SNEAK_TOGGLE)) localplayers[i]->ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullDpad_last = 0; + localplayers[i]->ullDpad_this = 0; + localplayers[i]->ullDpad_filtered = 0; + if(InputManager.ButtonPressed(i, MINECRAFT_ACTION_DPAD_RIGHT)) localplayers[i]->ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullButtonsPressed|=1LL<ullDpad_this = 0; + int dirCount = 0; + +#ifndef __PSVITA__ + if(InputManager.ButtonDown(i, MINECRAFT_ACTION_DPAD_LEFT)) { localplayers[i]->ullDpad_this|=1LL<ullDpad_this|=1LL<ullDpad_this|=1LL<ullDpad_this|=1LL<ullDpad_last = localplayers[i]->ullDpad_this; + localplayers[i]->ullDpad_filtered = localplayers[i]->ullDpad_this; + } + else + { + localplayers[i]->ullDpad_filtered = localplayers[i]->ullDpad_last; + } + } + + // for the opacity timer + if(InputManager.ButtonPressed(i, MINECRAFT_ACTION_LEFT_SCROLL) || InputManager.ButtonPressed(i, MINECRAFT_ACTION_RIGHT_SCROLL)) + //InputManager.ButtonPressed(i, MINECRAFT_ACTION_USE) || InputManager.ButtonPressed(i, MINECRAFT_ACTION_ACTION)) + { + app.SetOpacityTimer(i); + } + } + else + { + // 4J Stu - This doesn't make any sense with the way we handle XboxOne users +#ifndef _DURANGO + // did we just get input from a player who doesn't exist? They'll be wanting to join the game then +#ifdef _WINDOWS64 + // The 4J toggle system is unreliable here: UIController::handleInput() calls + // ButtonPressed for every ACTION_MENU_* mapped button (which covers all physical + // buttons) before run_middle() runs. Bypass it with raw XInput and own edge detection. + // A latch counter keeps startJustPressed active for ~120 frames after the rising edge + // so the detection window is large enough to be caught reliably. + static WORD s_prevXButtons[XUSER_MAX_COUNT] = {}; + static int s_startPressLatch[XUSER_MAX_COUNT] = {}; + XINPUT_STATE xstate_join; + memset(&xstate_join, 0, sizeof(xstate_join)); + WORD xCurButtons = 0; + if (XInputGetState(i, &xstate_join) == ERROR_SUCCESS) + { + xCurButtons = xstate_join.Gamepad.wButtons; + if ((xCurButtons & XINPUT_GAMEPAD_START) != 0 && (s_prevXButtons[i] & XINPUT_GAMEPAD_START) == 0) + s_startPressLatch[i] = 120; // rising edge: latch for ~120 frames (~2s at 60fps) + else if (s_startPressLatch[i] > 0) + s_startPressLatch[i]--; + s_prevXButtons[i] = xCurButtons; + } + bool startJustPressed = s_startPressLatch[i] > 0; +#else + bool tryJoin = !pause && !ui.IsIgnorePlayerJoinMenuDisplayed(ProfileManager.GetPrimaryPad()) && g_NetworkManager.SessionHasSpace() && RenderManager.IsHiDef() && InputManager.ButtonPressed(i); +#endif +#ifdef __ORBIS__ + // Check for remote play + tryJoin = tryJoin && InputManager.IsLocalMultiplayerAvailable(); + + // 4J Stu - Check that content restriction information has been received + if( !g_NetworkManager.IsLocalGame() ) + { + tryJoin = tryJoin && ProfileManager.GetChatAndContentRestrictions(i,true,nullptr,nullptr,nullptr); + } +#endif + +#endif // _DURANGO + } + } + +#ifdef _DURANGO + // did we just get input from a player who doesn't exist? They'll be wanting to join the game then + if(!pause && !ui.IsIgnorePlayerJoinMenuDisplayed(ProfileManager.GetPrimaryPad()) && g_NetworkManager.SessionHasSpace() && RenderManager.IsHiDef() ) + { + int firstEmptyUser = 0; + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if(localplayers[i] == nullptr) + { + firstEmptyUser = i; + break; + } + } + + // For durango, check for unmapped controllers + for(unsigned int iPad = XUSER_MAX_COUNT; iPad < (XUSER_MAX_COUNT + InputManager.MAX_GAMEPADS); ++iPad) + { + bool isPadLocked = InputManager.IsPadLocked(iPad), isPadConnected = InputManager.IsPadConnected(iPad), buttonPressed = InputManager.ButtonPressed(iPad); + if (isPadLocked || !isPadConnected || !buttonPressed) continue; + + if(!ui.PressStartPlaying(firstEmptyUser)) + { + ui.ShowPressStart(firstEmptyUser); + } + else + { + // did we just get input from a player who doesn't exist? They'll be wanting to join the game then + if(InputManager.ButtonPressed(iPad, MINECRAFT_ACTION_PAUSEMENU)) + { + // bring up the sign in dialog + app.DebugPrintf("Bringing up the sign in ui\n"); + ProfileManager.RequestSignInUI(false, g_NetworkManager.IsLocalGame(), true, false,true,&Minecraft::InGame_SignInReturned, this,iPad); + + // 4J Stu - If we are joining a pad here, then we don't want to try and join any others + break; + } + } + } + } +#endif + + if (pause && level != nullptr) + { + float lastA = timer->a; + timer->advanceTime(); + timer->a = lastA; + } + else + { + timer->advanceTime(); + } + + //int64_t beforeTickTime = System::nanoTime(); + for (int i = 0; i < timer->ticks; i++) + { + bool bLastTimerTick = ( i == ( timer->ticks - 1 ) ); + // 4J-PB - the tick here can run more than once, and this is a problem for our input, which would see the a key press twice with the same time - let's tick the inputmanager again + if(i!=0) + { + InputManager.Tick(); + app.HandleButtonPresses(); + } + + ticks++; + // try { // 4J - try/catch removed + bool bFirst = true; + for( int idx = 0; idx < XUSER_MAX_COUNT; idx++ ) + { + // 4J - If we are waiting for this connection to do something, then tick it here. + // This replaces many of the original Java scenes which would tick the connection while showing that scene + if( m_pendingLocalConnections[idx] != nullptr ) + { + m_pendingLocalConnections[idx]->tick(); + } + + // reset the player inactive tick + if(localplayers[idx]!=nullptr) + { + // any input received? + if((localplayers[idx]->ullButtonsPressed!=0) || InputManager.GetJoypadStick_LX(idx,false)!=0.0f || + InputManager.GetJoypadStick_LY(idx,false)!=0.0f || InputManager.GetJoypadStick_RX(idx,false)!=0.0f || + InputManager.GetJoypadStick_RY(idx,false)!=0.0f ) + { + localplayers[idx]->ResetInactiveTicks(); + } + else + { + localplayers[idx]->IncrementInactiveTicks(); + } + + if(localplayers[idx]->GetInactiveTicks()>200) + { + if(!localplayers[idx]->isIdle() && localplayers[idx]->onGround) + { + localplayers[idx]->setIsIdle(true); + } + } + else + { + if(localplayers[idx]->isIdle()) + { + localplayers[idx]->setIsIdle(false); + } + } + } + + if( setLocalPlayerIdx(idx) ) + { + tick(bFirst, bLastTimerTick); + bFirst = false; + // clear the stored button downs since the tick for this player will now have actioned them + player->ullButtonsPressed=0LL; + } + } + + + setLocalPlayerIdx(ProfileManager.GetPrimaryPad()); + + // 4J - added - now do the equivalent of level::animateTick, but taking into account the positions of all our players + + for( int l = 0; l < levels.length; l++ ) + { + if( levels[l] ) + { + levels[l]->animateTickDoWork(); + } + } + + // } catch (LevelConflictException e) { + // this.level = null; + // setLevel(null); + // setScreen(new LevelConflictScreen()); + // } +// SparseLightStorage::tick(); // 4J added +// CompressedTileStorage::tick(); // 4J added +// SparseDataStorage::tick(); // 4J added + } + //int64_t tickDuraction = System::nanoTime() - beforeTickTime; + MemSect(31); + checkGlError(L"Pre render"); + MemSect(0); + + + // if (pause) timer.a = 1; + + PIXBeginNamedEvent(0,"Sound engine update"); + soundEngine->tick((shared_ptr *)localplayers, timer->a); + PIXEndNamedEvent(); + + PIXBeginNamedEvent(0,"Light update"); + + glEnable(GL_TEXTURE_2D); + + PIXEndNamedEvent(); + + // if (!Keyboard::isKeyDown(Keyboard.KEY_F7)) Display.update(); // 4J - removed + + // 4J-PB - changing this to be per player + //if (player != nullptr && player->isInWall()) options->thirdPersonView = false; + if (player != nullptr && player->isInWall()) player->SetThirdPersonView(0); + + if (!noRender) + { + bool bFirst = true; + int iPrimaryPad=ProfileManager.GetPrimaryPad(); + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( setLocalPlayerIdx(i) ) + { + PIXBeginNamedEvent(0,"Game render player idx %d",i); + RenderManager.StateSetViewport(static_cast(player->m_iScreenSection)); + //gameRenderer->render(timer->a, bFirst); + bFirst = false; + PIXEndNamedEvent(); + + if(i==iPrimaryPad) + { +#ifdef __ORBIS__ + // PS4 does much of the screen-capturing for every frame, to simplify the synchronisation when we actually want a capture. This call tells it the point in the frame to do it. + RenderManager.InternalScreenCapture(); +#endif + // check to see if we need to capture a screenshot for the save game thumbnail + switch(app.GetXuiAction(i)) + { + case eAppAction_ExitWorldCapturedThumbnail: + case eAppAction_SaveGameCapturedThumbnail: + case eAppAction_AutosaveSaveGameCapturedThumbnail: + // capture the save thumbnail + app.CaptureSaveThumbnail(); + break; + } + } + } + } + setLocalPlayerIdx(iPrimaryPad); + RenderManager.StateSetViewport(C4JRender::VIEWPORT_TYPE_FULLSCREEN); + +#ifdef _XBOX + // Do we need to capture a screenshot for a social post? + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if(app.GetXuiAction(i)==eAppAction_SocialPostScreenshot) + { + app.CaptureScreenshot(i); + } + } +#endif + } + glFlush(); + + /* 4J - removed + if (!Display::isActive()) + { + if (fullscreen) + { + this->toggleFullScreen(); + } + Sleep(10); + } + */ + +#if PACKET_ENABLE_STAT_TRACKING + Packet::updatePacketStatsPIX(); +#endif + + if (options->renderDebug) + { + //renderFpsMeter(tickDuraction); + +#if DEBUG_RENDER_SHOWS_PACKETS + // To show data for only one packet type + //Packet::renderPacketStats(31); + + // To show data for all packet types selected as being renderable in the Packet:static_ctor call to Packet::map + Packet::renderAllPacketStats(); +#else + // To show the size of the QNet queue in bytes and messages + g_NetworkManager.renderQueueMeter(); +#endif + } + else + { + lastTimer = System::nanoTime(); + } + + + PIXBeginNamedEvent(0,"Sleeping"); + Sleep(0); // 4J - was Thread.yield() + PIXEndNamedEvent(); + + // if (Keyboard::isKeyDown(Keyboard::KEY_F7)) Display.update(); // 4J - removed condition + PIXBeginNamedEvent(0,"Display update"); + Display::update(); + PIXEndNamedEvent(); + + // checkScreenshot(); // 4J - removed + + /* 4J - removed + if (parent != nullptr && !fullscreen) + { + if (parent.getWidth() != width || parent.getHeight() != height) + { + width = parent.getWidth(); + height = parent.getHeight(); + if (width <= 0) width = 1; + if (height <= 0) height = 1; + + resize(width, height); + } + } + */ + MemSect(31); + checkGlError(L"Post render"); + MemSect(0); + frames++; + //pause = !isClientSide() && screen != nullptr && screen->isPauseScreen(); + //pause = g_NetworkManager.IsLocalGame() && g_NetworkManager.GetPlayerCount() == 1 && app.IsPauseMenuDisplayed(ProfileManager.GetPrimaryPad()); + pause = app.IsAppPaused(); + +#ifndef _CONTENT_PACKAGE + while (System::nanoTime() >= lastTime + 1000000000) + { + MemSect(31); + fpsString = std::to_wstring(frames) + L" fps (" + std::to_wstring(Chunk::updates) + L" chunk updates)"; + MemSect(0); + Chunk::updates = 0; + lastTime += 1000000000; + frames = 0; + } +#endif + /* + } catch (LevelConflictException e) { + this.level = null; + setLevel(null); + setScreen(new LevelConflictScreen()); + } catch (OutOfMemoryError e) { + emergencySave(); + setScreen(new OutOfMemoryScreen()); + System.gc(); + } + */ + } + /* + } catch (StopGameException e) { + } catch (Throwable e) { + emergencySave(); + e.printStackTrace(); + crash(new CrashReport("Unexpected error", e)); + } finally { + destroy(); + } + */ + } + LeaveCriticalSection(&m_setLevelCS); +} + +void Minecraft::run_end() +{ + destroy(); +} + +void Minecraft::emergencySave() +{ + // 4J - lots of try/catches removed here, and garbage collector things + levelRenderer->clear(); + AABB::clearPool(); + Vec3::clearPool(); + setLevel(nullptr); +} + +void Minecraft::renderFpsMeter(int64_t tickTime) +{ + int nsPer60Fps = 1000000000l / 60; + if (lastTimer == -1) + { + lastTimer = System::nanoTime(); + } + int64_t now = System::nanoTime(); + Minecraft::tickTimes[(Minecraft::frameTimePos) & (Minecraft::frameTimes_length - 1)] = tickTime; + Minecraft::frameTimes[(Minecraft::frameTimePos++) & (Minecraft::frameTimes_length - 1)] = now - lastTimer; + lastTimer = now; + + glClear(GL_DEPTH_BUFFER_BIT); + glMatrixMode(GL_PROJECTION); + glEnable(GL_COLOR_MATERIAL); + glLoadIdentity(); + glOrtho(0, static_cast(width), static_cast(height), 0, 1000, 3000); + glMatrixMode(GL_MODELVIEW); + glLoadIdentity(); + glTranslatef(0, 0, -2000); + + glLineWidth(1); + glDisable(GL_TEXTURE_2D); + Tesselator *t = Tesselator::getInstance(); + t->begin(GL_QUADS); + int hh1 = (int) (nsPer60Fps / 200000); + t->color(0x20000000); + t->vertex(static_cast(0), static_cast(height - hh1), static_cast(0)); + t->vertex(static_cast(0), static_cast(height), static_cast(0)); + t->vertex(static_cast(Minecraft::frameTimes_length), static_cast(height), static_cast(0)); + t->vertex(static_cast(Minecraft::frameTimes_length), static_cast(height - hh1), static_cast(0)); + + t->color(0x20200000); + t->vertex(static_cast(0), static_cast(height - hh1 * 2), static_cast(0)); + t->vertex(static_cast(0), static_cast(height - hh1), static_cast(0)); + t->vertex(static_cast(Minecraft::frameTimes_length), static_cast(height - hh1), static_cast(0)); + t->vertex(static_cast(Minecraft::frameTimes_length), static_cast(height - hh1 * 2), static_cast(0)); + + t->end(); + int64_t totalTime = 0; + for (int i = 0; i < Minecraft::frameTimes_length; i++) + { + totalTime += Minecraft::frameTimes[i]; + } + int hh = static_cast(totalTime / 200000 / Minecraft::frameTimes_length); + t->begin(GL_QUADS); + t->color(0x20400000); + t->vertex(static_cast(0), static_cast(height - hh), static_cast(0)); + t->vertex(static_cast(0), static_cast(height), static_cast(0)); + t->vertex(static_cast(Minecraft::frameTimes_length), static_cast(height), static_cast(0)); + t->vertex(static_cast(Minecraft::frameTimes_length), static_cast(height - hh), static_cast(0)); + t->end(); + t->begin(GL_LINES); + for (int i = 0; i < Minecraft::frameTimes_length; i++) + { + int col = ((i - Minecraft::frameTimePos) & (Minecraft::frameTimes_length - 1)) * 255 / Minecraft::frameTimes_length; + int cc = col * col / 255; + cc = cc * cc / 255; + int cc2 = cc * cc / 255; + cc2 = cc2 * cc2 / 255; + if (Minecraft::frameTimes[i] > nsPer60Fps) + { + t->color(0xff000000 + cc * 65536); + } + else + { + t->color(0xff000000 + cc * 256); + } + + int64_t time = Minecraft::frameTimes[i] / 200000; + int64_t time2 = Minecraft::tickTimes[i] / 200000; + + t->vertex((float)(i + 0.5f), (float)( height - time + 0.5f), static_cast(0)); + t->vertex((float)(i + 0.5f), (float)( height + 0.5f), static_cast(0)); + + // if (Minecraft.frameTimes[i]>nsPer60Fps) { + t->color(0xff000000 + cc * 65536 + cc * 256 + cc * 1); + // } else { + // t.color(0xff808080 + cc/2 * 256); + // } + t->vertex((float)(i + 0.5f), (float)( height - time + 0.5f), static_cast(0)); + t->vertex((float)(i + 0.5f), (float)( height - (time - time2) + 0.5f), static_cast(0)); + } + t->end(); + + glEnable(GL_TEXTURE_2D); +} + +void Minecraft::stop() +{ + running = false; + // keepPolling = false; +} + +void Minecraft::pauseGame() +{ + +} + +void Minecraft::resize(int width, int height) +{ + +} + +void Minecraft::verify() +{ + /* 4J - TODO + new Thread() { + public void run() { + try { + HttpURLConnection huc = (HttpURLConnection) new URL("https://login.minecraft.net/session?name=" + user.name + "&session=" + user.sessionId).openConnection(); + huc.connect(); + if (huc.getResponseCode() == 400) { + warezTime = System.currentTimeMillis(); + } + huc.disconnect(); + } catch (Exception e) { + e.printStackTrace(); + } + } + }.start(); + */ +} + + + + +void Minecraft::levelTickUpdateFunc(void* pParam) +{ + Level* pLevel = static_cast(pParam); + pLevel->tick(); +} + +void Minecraft::levelTickThreadInitFunc() +{ + AABB::CreateNewThreadStorage(); + Vec3::CreateNewThreadStorage(); + IntCache::CreateNewThreadStorage(); + Compression::UseDefaultThreadStorage(); +} + + +// 4J - added bFirst parameter, which is true for the first active viewport in splitscreen +// 4J - added bUpdateTextures, which is true if the actual renderer textures are to be updated - this will be true for the last time this tick runs with bFirst true +void Minecraft::tick(bool bFirst, bool bUpdateTextures) +{ + int iPad=player->GetXboxPad(); + //OutputDebugString("Minecraft::tick\n"); + + //4J-PB - only tick this player's stats + stats[iPad]->tick(iPad); + + // Tick the opacity timer (to display the interface at default opacity for a certain time if the user has been navigating it) + app.TickOpacityTimer(iPad); + + // 4J added + if( bFirst ) levelRenderer->destroyedTileManager->tick(); + + //gui->tick(); + //gameRenderer->pick(1); +#if 0 + // 4J - removed - we don't use ChunkCache anymore + if (player != nullptr) + { + ChunkSource *cs = level->getChunkSource(); + if (dynamic_cast(cs) != nullptr) + { + ChunkCache *spcc = (ChunkCache *)cs; + + // 4J - there was also Mth::floors on these ints but that seems superfluous + int xt = ((int) player->x) >> 4; + int zt = ((int) player->z) >> 4; + spcc->centerOn(xt, zt); + } + } +#endif + + // soundEngine.playMusicTick(); + + if (!pause && level != nullptr) gameMode->tick(); + MemSect(31); + glBindTexture(GL_TEXTURE_2D, textures->loadTexture(TN_TERRAIN)); //L"/terrain.png")); + MemSect(0); + if( bFirst ) + { + PIXBeginNamedEvent(0,"Texture tick"); + if (!pause) textures->tick(bUpdateTextures); + PIXEndNamedEvent(); + } + + /* + * if (serverConnection != null && !(screen instanceof ErrorScreen)) { + * if (!serverConnection.isConnected()) { + * progressRenderer.progressStart("Connecting.."); + * progressRenderer.progressStagePercentage(0); } else { + * serverConnection.tick(); serverConnection.sendPosition(player); } } + */ +} + +void Minecraft::reloadSound() +{ + // System.out.println("FORCING RELOAD!"); // 4J - removed + soundEngine = new SoundEngine(); + soundEngine->init(options); + bgLoader->forceReload(); +} + +bool Minecraft::isClientSide() +{ + return level != nullptr && level->isClientSide; +} + +void Minecraft::selectLevel(ConsoleSaveFile *saveFile, const wstring& levelId, const wstring& levelName, LevelSettings *levelSettings) +{ + } + +bool Minecraft::saveSlot(int slot, const wstring& name) +{ + return false; +} + +bool Minecraft::loadSlot(const wstring& userName, int slot) +{ + return false; +} + +void Minecraft::releaseLevel(int message) +{ + //this->level = nullptr; + setLevel(nullptr, message); +} + +// 4J Stu - This code was within setLevel, but I moved it out so that I can call it at a better +// time when exiting from an online game +void Minecraft::forceStatsSave(int idx) +{ + //4J Gordon: Force a stats save + stats[idx]->save(idx, true); + + //4J Gordon: If the player is signed in, save the leaderboards + if( ProfileManager.IsSignedInLive(idx) ) + { + int tempLockedProfile = ProfileManager.GetLockedProfile(); + ProfileManager.SetLockedProfile(idx); + stats[idx]->saveLeaderboards(); + ProfileManager.SetLockedProfile(tempLockedProfile); + } +} + +// 4J Added +MultiPlayerLevel *Minecraft::getLevel(int dimension) +{ + if (dimension == -1) return levels[1]; + else if(dimension == 1) return levels[2]; + else return levels[0]; +} + +// 4J Stu - Removed as redundant with default values in params. +//void Minecraft::setLevel(Level *level, bool doForceStatsSave /*= true*/) +//{ +// setLevel(level, -1, nullptr, doForceStatsSave); +//} + +// Also causing ambiguous call for some reason +// as it is matching shared_ptr from the func below with bool from this one +//void Minecraft::setLevel(Level *level, const wstring& message, bool doForceStatsSave /*= true*/) +//{ +// setLevel(level, message, nullptr, doForceStatsSave); +//} + +void Minecraft::forceaddLevel(MultiPlayerLevel *level) +{ + int dimId = level->dimension->id; + if (dimId == -1) levels[1] = level; + else if(dimId == 1) levels[2] = level; + else levels[0] = level; +} + +void Minecraft::setLevel(MultiPlayerLevel *level, int message /*=-1*/, shared_ptr forceInsertPlayer /*=nullptr*/, bool doForceStatsSave /*=true*/, bool bPrimaryPlayerSignedOut /*=false*/) +{ + EnterCriticalSection(&m_setLevelCS); + bool playerAdded = false; + this->cameraTargetPlayer = nullptr; + + // 4J-PB - since we now play music in the menu, just let it keep playing + //soundEngine->playStreaming(L"", 0, 0, 0, 0, 0); + + // 4J - stop update thread from processing this level, which blocks until it is safe to move on - will be re-enabled if we set the level to be non-nullptr + gameRenderer->DisableUpdateThread(); + + + for(unsigned int i = 0; i < levels.length; ++i) + { + // 4J We only need to save out in multiplayer is we are setting the level to nullptr + // If we ever go back to making single player only then this will not work properly! + if (levels[i] != nullptr && level == nullptr) + { + // 4J Stu - This is really only relevant for single player (ie not what we do at the moment) + if((doForceStatsSave==true) && player!=nullptr) + forceStatsSave(player->GetXboxPad() ); + + // 4J Stu - Added these for the case when we exit a level so we are setting the level to nullptr + // The level renderer needs to have it's stored level set to nullptr so that it doesn't break next time we set one + if (levelRenderer != nullptr) + { + for(DWORD p = 0; p < XUSER_MAX_COUNT; ++p) + { + levelRenderer->setLevel(p, nullptr); + } + } + if (particleEngine != nullptr) particleEngine->setLevel(nullptr); + } + } + // 4J If we are setting the level to nullptr then we are exiting, so delete the levels + if( level == nullptr ) + { + if(levels[0]!=nullptr) + { + delete levels[0]; + levels[0] = nullptr; + + // Both level share the same savedDataStorage + if(levels[1]!=nullptr) levels[1]->savedDataStorage = nullptr; + } + if(levels[1]!=nullptr) + { + delete levels[1]; + levels[1] = nullptr; + } + if(levels[2]!=nullptr) + { + delete levels[2]; + levels[2] = nullptr; + } + + // Delete all the player objects + for(unsigned int idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + shared_ptr mplp = localplayers[idx]; + if(mplp != nullptr && mplp->connection != nullptr ) + { + delete mplp->connection; + mplp->connection = nullptr; + } + + if( localgameModes[idx] != nullptr ) + { + delete localgameModes[idx]; + localgameModes[idx] = nullptr; + } + + if( m_pendingLocalConnections[idx] != nullptr ) + { + delete m_pendingLocalConnections[idx]; + m_pendingLocalConnections[idx] = nullptr; + } + + localplayers[idx] = nullptr; + } + // If we are removing the primary player then there can't be a valid gamemode left anymore, this + // pointer will be referring to the one we've just deleted + gameMode = nullptr; + // Remove references to player + player = nullptr; + cameraTargetPlayer = nullptr; + } + this->level = level; + + if (level != nullptr) + { + int dimId = level->dimension->id; + if (dimId == -1) levels[1] = level; + else if(dimId == 1) levels[2] = level; + else levels[0] = level; + + // If no player has been set, then this is the first level to be set this game, so set up + // a primary player & initialise some other things + if (player == nullptr) + { + int iPrimaryPlayer = ProfileManager.GetPrimaryPad(); + + player = gameMode->createPlayer(level); + + PlayerUID playerXUIDOffline = INVALID_XUID; + PlayerUID playerXUIDOnline = INVALID_XUID; + ProfileManager.GetXUID(iPrimaryPlayer,&playerXUIDOffline,false); + ProfileManager.GetXUID(iPrimaryPlayer,&playerXUIDOnline,true); +#ifdef __PSVITA__ + if(CGameNetworkManager::usingAdhocMode() && playerXUIDOnline.getOnlineID()[0] == 0) + { + // player doesn't have an online UID, set it from the player name + playerXUIDOnline.setForAdhoc(); + } +#endif +#ifdef _WINDOWS64 + // On Windows, the implementation has been changed to use a per-client pseudo XUID based on `uid.dat`. + // To maintain player data compatibility with existing worlds, the world host (the first player) will use the previous embedded pseudo XUID. + INetworkPlayer *localNetworkPlayer = g_NetworkManager.GetLocalPlayerByUserIndex(iPrimaryPlayer); + if(localNetworkPlayer != nullptr && localNetworkPlayer->IsHost()) + { + playerXUIDOffline = Win64Xuid::GetLegacyEmbeddedHostXuid(); + } + else + { + playerXUIDOffline = Win64Xuid::ResolvePersistentXuid(); + } +#endif + player->setXuid(playerXUIDOffline); + player->setOnlineXuid(playerXUIDOnline); + + player->m_displayName = ProfileManager.GetDisplayName(iPrimaryPlayer); + + + player->resetPos(); + gameMode->initPlayer(player); + + player->SetXboxPad(iPrimaryPlayer); + + for(int i=0;iresetPos(); + // gameMode.initPlayer(player); + if (level != nullptr) + { + level->addEntity(player); + playerAdded = true; + } + } + + if(player->input != nullptr) delete player->input; + player->input = new Input(); + + if (levelRenderer != nullptr) levelRenderer->setLevel(player->GetXboxPad(), level); + if (particleEngine != nullptr) particleEngine->setLevel(level); + +#if 0 + // 4J - removed - we don't use ChunkCache anymore + ChunkSource *cs = level->getChunkSource(); + if (dynamic_cast(cs) != nullptr) + { + ChunkCache *spcc = (ChunkCache *)cs; + + // 4J - these had a Mth::floor which seems unrequired + int xt = ((int) player->x) >> 4; + int zt = ((int) player->z) >> 4; + + spcc->centerOn(xt, zt); + } +#endif + gameMode->adjustPlayer(player); + + for(int i=0;icameraTargetPlayer = player; + + // 4J - allow update thread to start processing the level now both it & the player should be ok + gameRenderer->EnableUpdateThread(); + } + else + { + levelSource->clearAll(); + player = nullptr; + + // Clear all players if the new level is nullptr + for(int i=0;iclose(); + m_pendingLocalConnections[i] = nullptr; + localplayers[i] = nullptr; + localgameModes[i] = nullptr; + } + } + + // System.gc(); // 4J - removed + // 4J removed + //this->lastTickTime = 0; + LeaveCriticalSection(&m_setLevelCS); +} + +void Minecraft::prepareLevel(int title) +{ + int r = 128; + if (gameMode->isCutScene()) r = 64; + int pp = 0; + int max = r * 2 / 16 + 1; + max = max * max; + ChunkSource *cs = level->getChunkSource(); + + Pos *spawnPos = level->getSharedSpawnPos(); + if (player != nullptr) + { + spawnPos->x = static_cast(player->x); + spawnPos->z = static_cast(player->z); + } + +#if 0 + // 4J - removed - we don't use ChunkCache anymore + if (dynamic_cast(cs)!=nullptr) + { + ChunkCache *spcc = (ChunkCache *) cs; + + spcc->centerOn(spawnPos->x >> 4, spawnPos->z >> 4); + } +#endif + + + delete spawnPos; + +} + +wstring Minecraft::gatherStats1() +{ + //return levelRenderer->gatherStats1(); + return L"Time to autosave: " + std::to_wstring( app.SecondsToAutosave() ) + L"s"; +} + +wstring Minecraft::gatherStats2() +{ + return g_NetworkManager.GatherStats(); + //return levelRenderer->gatherStats2(); +} + +wstring Minecraft::gatherStats3() +{ + return g_NetworkManager.GatherRTTStats(); + //return L"P: " + particleEngine->countParticles() + L". T: " + level->gatherStats(); +} + +wstring Minecraft::gatherStats4() +{ + return level->gatherChunkSourceStats(); +} + +void Minecraft::start(const wstring& name, const wstring& sid) +{ + startAndConnectTo(name, sid, L""); +} + +void Minecraft::startAndConnectTo(const wstring& name, const wstring& sid, const wstring& url) +{ + const bool fullScreen = false; + const wstring userName = name; + + /* 4J - removed window handling things here + final Frame frame = new Frame("Minecraft"); + Canvas canvas = new Canvas(); + frame.setLayout(new BorderLayout()); + + frame.add(canvas, BorderLayout.CENTER); + + // OverlayLayout oll = new OverlayLayout(frame); + // oll.addLayoutComponent(canvas, BorderLayout.CENTER); + // oll.addLayoutComponent(new JLabel("TEST"), BorderLayout.EAST); + + canvas.setPreferredSize(new Dimension(854, 480)); + frame.pack(); + frame.setLocationRelativeTo(null); + */ + + Minecraft *minecraft; + // 4J - was new Minecraft(frame, canvas, NULL, 854, 480, fullScreen); + // Logical width is proportional to the real screen aspect ratio so that + // the ortho projection and HUD layout match the viewport without stretching. + + constexpr int logicalH = 0; + const int logicalW = 0; + + minecraft = new Minecraft(nullptr, nullptr, nullptr, logicalW, logicalH, fullScreen); + /* - 4J - removed + { + @Override + public void onCrash(CrashReport crashReport) { + frame.removeAll(); + frame.add(new CrashInfoPanel(crashReport), BorderLayout.CENTER); + frame.validate(); + } + }; */ + + /* 4J - removed + final Thread thread = new Thread(minecraft, "Minecraft main thread"); + thread.setPriority(Thread.MAX_PRIORITY); + */ + minecraft->serverDomain = L"www.minecraft.net"; + + // 4J Stu - We never want the player to be DemoUser, we always want them to have their gamertag displayed + //if (ProfileManager.IsFullVersion()) + { + if (userName != L"" && sid != L"") // 4J - username & side were compared with nullptr rather than empty strings + { + minecraft->user = new User(userName, sid); + } + else + { + minecraft->user = new User(L"Player" + std::to_wstring(System::currentTimeMillis() % 1000), L""); + } + } + //else + //{ + // minecraft->user = new DemoUser(); + //} + + /* 4J - TODO + if (url != nullptr) + { + String[] tokens = url.split(":"); + minecraft.connectTo(tokens[0], Integer.parseInt(tokens[1])); + } + */ + + /* 4J - removed + frame.setVisible(true); + frame.addWindowListener(new WindowAdapter() { + public void windowClosing(WindowEvent arg0) { + minecraft.stop(); + try { + thread.join(); + } catch (InterruptedException e) { + e.printStackTrace(); + } + System.exit(0); + } + }); + */ + // 4J - TODO - consider whether we need to actually create a thread here + minecraft->run(); +} + +ClientConnection *Minecraft::getConnection(int iPad) +{ + return localplayers[iPad]->connection; +} + +// 4J-PB - so we can access this from within our xbox game loop +Minecraft *Minecraft::GetInstance() +{ + return m_instance; +} + +bool useLomp = false; + +int g_iMainThreadId; + +void Minecraft::main() +{ + wstring name; + wstring sessionId; + + //g_iMainThreadId = GetCurrentThreadId(); + + useLomp = true; + + MinecraftWorld_RunStaticCtors(); + //EntityRenderDispatcher::staticCtor(); + //TileEntityRenderDispatcher::staticCtor(); + User::staticCtor(); + Tutorial::staticCtor(); + ColourTable::staticCtor(); + app.loadDefaultGameRules(); + +#ifdef _LARGE_WORLDS + //LevelRenderer::staticCtor(); +#endif + + // 4J Stu - This block generates XML for the game rules schema +#if 0 + for(unsigned int i = 0; i < Item::items.length; ++i) + { + if(Item::items[i] != nullptr) + { + app.DebugPrintf("%ls\n", i, app.GetString( Item::items[i]->getDescriptionId() )); + } + } + + app.DebugPrintf("\n\n\n\n\n"); + + for(unsigned int i = 0; i < 256; ++i) + { + if(Tile::tiles[i] != nullptr) + { + app.DebugPrintf("%ls\n", i, app.GetString( Tile::tiles[i]->getDescriptionId() )); + } + } + __debugbreak(); +#endif + + // 4J-PB - Can't call this for the first 5 seconds of a game - MS rule + //if (ProfileManager.IsFullVersion()) + { + name = L"Player" + std::to_wstring(System::currentTimeMillis() % 1000); + sessionId = L"-"; + /* 4J - TODO - get a session ID from somewhere? + if (args.length > 0) name = args[0]; + sessionId = "-"; + if (args.length > 1) sessionId = args[1]; + */ + } + + + // On PS4, we call Minecraft::Start from another thread, as this has been timed taking ~2.5 seconds and we need to do some basic + // rendering stuff so that we don't break the TRCs on SubmitDone calls +#ifndef __ORBIS__ + Minecraft::start(name, sessionId); +#endif +} + +bool Minecraft::renderNames() +{ + if (m_instance == nullptr || !m_instance->options->hideGui) + { + return true; + } + return false; +} + +bool Minecraft::useFancyGraphics() +{ + return (m_instance != nullptr && m_instance->options->fancyGraphics); +} + +bool Minecraft::useAmbientOcclusion() +{ + return (m_instance != nullptr && m_instance->options->ambientOcclusion != Options::AO_OFF); +} + +bool Minecraft::renderDebug() +{ + return (m_instance != nullptr && m_instance->options->renderDebug); +} + +bool Minecraft::handleClientSideCommand(const wstring& chatMessage) +{ + return false; +} + +int Minecraft::maxSupportedTextureSize() +{ + // 4J Force value + return 1024; + + //for (int texSize = 16384; texSize > 0; texSize >>= 1) { + // GL11.glTexImage2D(GL11.GL_PROXY_TEXTURE_2D, 0, GL11.GL_RGBA, texSize, texSize, 0, GL11.GL_RGBA, GL11.GL_UNSIGNED_BYTE, (ByteBuffer) null); + // final int width = GL11.glGetTexLevelParameteri(GL11.GL_PROXY_TEXTURE_2D, 0, GL11.GL_TEXTURE_WIDTH); + // if (width != 0) { + // return texSize; + // } + //} + //return -1; +} + +void Minecraft::delayTextureReload() +{ + reloadTextures = true; +} + +int64_t Minecraft::currentTimeMillis() +{ + return System::currentTimeMillis();//(Sys.getTime() * 1000) / Sys.getTimerResolution(); +} + +/*void Minecraft::handleMouseDown(int button, bool down) +{ +if (gameMode->instaBuild) return; +if (!down) missTime = 0; +if (button == 0 && missTime > 0) return; + +if (down && hitResult != nullptr && hitResult->type == HitResult::TILE && button == 0) +{ +int x = hitResult->x; +int y = hitResult->y; +int z = hitResult->z; +gameMode->continueDestroyBlock(x, y, z, hitResult->f); +particleEngine->crack(x, y, z, hitResult->f); +} +else +{ +gameMode->stopDestroyBlock(); +} +} + +void Minecraft::handleMouseClick(int button) +{ +if (button == 0 && missTime > 0) return; +if (button == 0) +{ +app.DebugPrintf("handleMouseClick - Player %d is swinging\n",player->GetXboxPad()); +player->swing(); +} + +bool mayUse = true; + +// * if (button == 1) { ItemInstance item = +// * player.inventory.getSelected(); if (item != null) { if +// * (gameMode.useItem(player, item)) { +// * gameRenderer.itemInHandRenderer.itemUsed(); return; } } } + +// 4J-PB - Adding a special case in here for sleeping in a bed in a multiplayer game - we need to wake up, and we don't have the inbedchatscreen with a button + +if(button==1 && (player->isSleeping() && level != nullptr && level->isClientSide)) +{ +shared_ptr mplp = dynamic_pointer_cast( player ); + +if(mplp) mplp->StopSleeping(); + +// 4J - TODO +//if (minecraft.player instanceof MultiplayerLocalPlayer) +//{ +// ClientConnection connection = ((MultiplayerLocalPlayer) minecraft.player).connection; +// connection.send(new PlayerCommandPacket(minecraft.player, PlayerCommandPacket.STOP_SLEEPING)); +//} +} + +if (hitResult == nullptr) +{ +if (button == 0 && !(dynamic_cast(gameMode) != nullptr)) missTime = 10; +} +else if (hitResult->type == HitResult::ENTITY) +{ +if (button == 0) +{ +gameMode->attack(player, hitResult->entity); +} +if (button == 1) +{ +gameMode->interact(player, hitResult->entity); +} +} +else if (hitResult->type == HitResult::TILE) +{ +int x = hitResult->x; +int y = hitResult->y; +int z = hitResult->z; +int face = hitResult->f; + +// * if (button != 0) { if (hitResult.f == 0) y--; if (hitResult.f == +// * 1) y++; if (hitResult.f == 2) z--; if (hitResult.f == 3) z++; if +// * (hitResult.f == 4) x--; if (hitResult.f == 5) x++; } + +// if (isClientSide()) +// { +// return; +// } + +if (button == 0) +{ +gameMode->startDestroyBlock(x, y, z, hitResult->f); +} +else +{ +shared_ptr item = player->inventory->getSelected(); +int oldCount = item != nullptr ? item->count : 0; +if (gameMode->useItemOn(player, level, item, x, y, z, face)) +{ +mayUse = false; +app.DebugPrintf("Player %d is swinging\n",player->GetXboxPad()); +player->swing(); +} +if (item == nullptr) +{ +return; +} + +if (item->count == 0) +{ +player->inventory->items[player->inventory->selected] = nullptr; +} +else if (item->count != oldCount) +{ +gameRenderer->itemInHandRenderer->itemPlaced(); +} +} +} + +if (mayUse && button == 1) +{ +shared_ptr item = player->inventory->getSelected(); +if (item != nullptr) +{ +if (gameMode->useItem(player, level, item)) +{ +gameRenderer->itemInHandRenderer->itemUsed(); +} +} +} +} +*/ + +bool Minecraft::isTutorial() +{ + return m_inFullTutorialBits > 0; + + /*if( gameMode != nullptr && gameMode->isTutorial() ) + { + return true; + } + else + { + return false; + }*/ +} + +void Minecraft::playerStartedTutorial(int iPad) +{ + // If the app doesn't think we are in a tutorial mode then just ignore this add + if( app.GetTutorialMode() ) m_inFullTutorialBits = m_inFullTutorialBits | ( 1 << iPad ); +} + +void Minecraft::playerLeftTutorial(int iPad) +{ + // 4J Stu - Fix for bug that was flooding Sentient with LevelStart events + // If the tutorial bits are already 0 then don't need to update anything + if(m_inFullTutorialBits == 0) + { + app.SetTutorialMode( false ); + return; + } + + m_inFullTutorialBits = m_inFullTutorialBits & ~( 1 << iPad ); + if(m_inFullTutorialBits == 0) + { + app.SetTutorialMode( false ); + + // 4J Stu -This telemetry event means something different on XboxOne, so we don't call it for simple state changes like this +#ifndef _XBOX_ONE + for(DWORD idx = 0; idx < XUSER_MAX_COUNT; ++idx) + { + if(localplayers[idx] != nullptr) + { + TelemetryManager->RecordLevelStart(idx, eSen_FriendOrMatch_Playing_With_Invited_Friends, eSen_CompeteOrCoop_Coop_and_Competitive, level->difficulty, app.GetLocalPlayerCount(), g_NetworkManager.GetOnlinePlayerCount()); + } + } +#endif + } +} + +#ifdef _DURANGO +void Minecraft::inGameSignInCheckAllPrivilegesCallback(LPVOID lpParam, bool hasPrivileges, int iPad) +{ + Minecraft* pClass = (Minecraft*)lpParam; + + if(!hasPrivileges) + { + ProfileManager.RemoveGamepadFromGame(iPad); + } + else + { + if( !g_NetworkManager.SessionHasSpace() ) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_OK; + ui.RequestErrorMessage(IDS_MULTIPLAYER_FULL_TITLE, IDS_MULTIPLAYER_FULL_TEXT, uiIDA, 1); + ProfileManager.RemoveGamepadFromGame(iPad); + } + else if( ProfileManager.IsSignedInLive(iPad) && ProfileManager.AllowedToPlayMultiplayer(iPad) ) + { + // create the local player for the iPad + shared_ptr player = pClass->localplayers[iPad]; + if( player == nullptr) + { + if( pClass->level->isClientSide ) + { + pClass->addLocalPlayer(iPad); + } + else + { + // create the local player for the iPad + shared_ptr player = pClass->localplayers[iPad]; + if( player == nullptr) + { + player = pClass->createExtraLocalPlayer(iPad, (convStringToWstring( ProfileManager.GetGamertag(iPad) )).c_str(), iPad, pClass->level->dimension->id); + } + } + } + } + } +} +#endif + +#ifdef _XBOX_ONE +int Minecraft::InGame_SignInReturned(void *pParam,bool bContinue, int iPad, int iController) +#else +int Minecraft::InGame_SignInReturned(void *pParam,bool bContinue, int iPad) +#endif +{ + Minecraft* pMinecraftClass = static_cast(pParam); + + if(g_NetworkManager.IsInSession()) + { + // 4J Stu - There seems to be a bug in the signin ui call that enables guest sign in. We never allow this within game, so make sure that it's disabled + // Fix for #66516 - TCR #124: MPS Guest Support ; #001: BAS Game Stability: TU8: The game crashes when second Guest signs-in on console which takes part in Xbox LIVE multiplayer session. + app.DebugPrintf("Disabling Guest Signin\n"); + XEnableGuestSignin(FALSE); + } + + // If sign in succeded, we're in game and this player isn't already playing, continue + if(bContinue==true && g_NetworkManager.IsInSession() && pMinecraftClass->localplayers[iPad] == nullptr) + { + // It's possible that the player has not signed in - they can back out or choose no for the converttoguest + if(ProfileManager.IsSignedIn(iPad)) + { +#ifdef _DURANGO + if(!g_NetworkManager.IsLocalGame() && ProfileManager.IsSignedInLive(iPad) && ProfileManager.AllowedToPlayMultiplayer(iPad)) + { + ProfileManager.CheckMultiplayerPrivileges(iPad, true, &inGameSignInCheckAllPrivilegesCallback, pMinecraftClass); + } + else +#endif + if( !g_NetworkManager.SessionHasSpace() ) + { + UINT uiIDA[1]; + uiIDA[0]=IDS_OK; +#ifdef _DURANGO + ProfileManager.RemoveGamepadFromGame(iPad); +#endif + } + // if this is a local game then profiles just need to be signed in + else if( g_NetworkManager.IsLocalGame() || (ProfileManager.IsSignedInLive(iPad) && ProfileManager.AllowedToPlayMultiplayer(iPad)) ) + { +#ifdef __ORBIS__ + bool contentRestricted = false; + ProfileManager.GetChatAndContentRestrictions(iPad,false,nullptr,&contentRestricted,nullptr); // TODO! + + if (!g_NetworkManager.IsLocalGame() && contentRestricted) + { + ui.RequestContentRestrictedMessageBox(IDS_NO_MULTIPLAYER_PRIVILEGE_TITLE, IDS_CONTENT_RESTRICTION, iPad); + } + else if(!g_NetworkManager.IsLocalGame() && !ProfileManager.HasPlayStationPlus(iPad)) + { + pMinecraftClass->m_pPsPlusUpsell = new PsPlusUpsellWrapper(iPad); + pMinecraftClass->m_pPsPlusUpsell->displayUpsell(); + } + else +#endif + if( pMinecraftClass->level->isClientSide ) + { + pMinecraftClass->addLocalPlayer(iPad); + } + else + { + // create the local player for the iPad + shared_ptr player = pMinecraftClass->localplayers[iPad]; + if( player == nullptr) + { + player = pMinecraftClass->createExtraLocalPlayer(iPad, (convStringToWstring( ProfileManager.GetGamertag(iPad) )).c_str(), iPad, pMinecraftClass->level->dimension->id); + } + } + } + else if( ProfileManager.IsSignedInLive(ProfileManager.GetPrimaryPad()) && !ProfileManager.AllowedToPlayMultiplayer(iPad) ) + { + // 4J Stu - Don't allow converting to guests as we don't allow any guest sign-in while in the game + // Fix for #66516 - TCR #124: MPS Guest Support ; #001: BAS Game Stability: TU8: The game crashes when second Guest signs-in on console which takes part in Xbox LIVE multiplayer session. + //ProfileManager.RequestConvertOfflineToGuestUI( &Minecraft::InGame_SignInReturned, pMinecraftClass,iPad); + UINT uiIDA[1]; + uiIDA[0]=IDS_CONFIRM_OK; +#ifdef _DURANGO + ProfileManager.RemoveGamepadFromGame(iPad); +#endif + } + } + } + return 0; +} + +void Minecraft::tickAllConnections() +{ + int oldIdx = getLocalPlayerIdx(); + for(unsigned int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + shared_ptr mplp = localplayers[i]; + if( mplp && mplp->connection) + { + setLocalPlayerIdx(i); + mplp->connection->tick(); + } + } + setLocalPlayerIdx(oldIdx); +} + +bool Minecraft::addPendingClientTextureRequest(const wstring &textureName) +{ + auto it = find(m_pendingTextureRequests.begin(), m_pendingTextureRequests.end(), textureName); + if( it == m_pendingTextureRequests.end() ) + { + m_pendingTextureRequests.push_back(textureName); + return true; + } + return false; +} + +void Minecraft::handleClientTextureReceived(const wstring &textureName) +{ + auto it = find(m_pendingTextureRequests.begin(), m_pendingTextureRequests.end(), textureName); + if( it != m_pendingTextureRequests.end() ) + { + m_pendingTextureRequests.erase(it); + } +} + +unsigned int Minecraft::getCurrentTexturePackId() +{ + return skins->getSelected()->getId(); +} + +ColourTable *Minecraft::getColourTable() +{ + TexturePack *selected = skins->getSelected(); + + ColourTable *colours = selected->getColourTable(); + + if(colours == nullptr) + { + colours = skins->getDefault()->getColourTable(); + } + + return colours; +} + +#if defined __ORBIS__ +int Minecraft::MustSignInReturnedPSN(void *pParam, int iPad, C4JStorage::EMessageResult result) +{ + Minecraft* pMinecraft = (Minecraft *)pParam; + + if(result == C4JStorage::EMessage_ResultAccept) + { + SQRNetworkManager_Orbis::AttemptPSNSignIn(&Minecraft::InGame_SignInReturned, pMinecraft, false, iPad); + } + + return 0; +} +#endif + diff --git a/Minecraft.Client/Minecraft.h b/Minecraft.Client/Minecraft.h new file mode 100644 index 0000000..d503c41 --- /dev/null +++ b/Minecraft.Client/Minecraft.h @@ -0,0 +1,343 @@ +#pragma once +class Timer; +class MultiPlayerLevel; +class LevelRenderer; +class MultiplayerLocalPlayer; +class Player; +class Mob; +class ParticleEngine; +class User; +class Canvas; +class Textures; +class Font; +class Screen; +class ProgressRenderer; +class GameRenderer; +class BackgroundDownloader; +class HumanoidModel; +class HitResult; +class Options; +class SoundEngine; +class MinecraftApplet; +class MouseHandler; +class TexturePackRepository; +class File; +class LevelStorageSource; +class StatsCounter; +class Component; +class Entity; +class AchievementPopup; +class WaterTexture; +class LavaTexture; +class ClientConnection; +class ConsoleSaveFile; +class LevelSettings; +class ColourTable; +class MultiPlayerGameMode; +class PsPlusUpsellWrapper; + +#include "..\Minecraft.World\File.h" +#include "..\Minecraft.World\DisconnectPacket.h" +#include "..\Minecraft.World\C4JThread.h" +#include "ResourceLocation.h" + +using namespace std; + +class Minecraft +{ +private: + enum OS{ + linux, solaris, windows, macos, unknown, xbox + }; + + static ResourceLocation DEFAULT_FONT_LOCATION; + static ResourceLocation ALT_FONT_LOCATION; + +public: + static const wstring VERSION_STRING; + Minecraft(Component *mouseComponent, Canvas *parent, MinecraftApplet *minecraftApplet, int width, int height, bool fullscreen); + void init(); + + // 4J - removed + // void crash(CrashReport crash); + // public abstract void onCrash(CrashReport crash); + +private: + static Minecraft *m_instance; + +public: + MultiPlayerGameMode *gameMode; + +private: + bool fullscreen; + bool hasCrashed; + + C4JThread::EventQueue* levelTickEventQueue; + + static void levelTickUpdateFunc(void* pParam); + static void levelTickThreadInitFunc(); + +public: + int width, height; + int width_phys, height_phys; // 4J - added + // private OpenGLCapabilities openGLCapabilities; + +private: + Timer *timer; + bool reloadTextures; +public: + Level *oldLevel; // 4J Stu added to keep a handle on an old level so we can delete it + //HANDLE m_hPlayerRespawned; // 4J Added so we can wait in menus until it is done (for async in multiplayer) +public: + + MultiPlayerLevel *level; + LevelRenderer *levelRenderer; + shared_ptr player; + + MultiPlayerLevelArray levels; + + shared_ptr localplayers[XUSER_MAX_COUNT]; + MultiPlayerGameMode *localgameModes[XUSER_MAX_COUNT]; + int localPlayerIdx; + // 4J-PB - so we can have debugoptions in the server + unsigned int uiDebugOptionsA[XUSER_MAX_COUNT]; + + // 4J Stu - Added these so that we can show a Xui scene while connecting + bool m_connectionFailed[XUSER_MAX_COUNT]; + DisconnectPacket::eDisconnectReason m_connectionFailedReason[XUSER_MAX_COUNT]; + ClientConnection *m_pendingLocalConnections[XUSER_MAX_COUNT]; + + bool addLocalPlayer(int idx); // Re-arrange the screen and start the connection + void addPendingLocalConnection(int idx, ClientConnection *connection); + void connectionDisconnected(int idx, DisconnectPacket::eDisconnectReason reason) { m_connectionFailed[idx] = true; m_connectionFailedReason[idx] = reason; } + + shared_ptr createExtraLocalPlayer(int idx, const wstring& name, int pad, int iDimension, ClientConnection *clientConnection = nullptr,MultiPlayerLevel *levelpassedin=nullptr); + void createPrimaryLocalPlayer(int iPad); + bool setLocalPlayerIdx(int idx); + int getLocalPlayerIdx(); + void removeLocalPlayerIdx(int idx); + void storeExtraLocalPlayer(int idx); + void updatePlayerViewportAssignments(); + int unoccupiedQuadrant; // 4J - added + + shared_ptr cameraTargetPlayer; + shared_ptr crosshairPickMob; + ParticleEngine *particleEngine; + User *user; + wstring serverDomain; + Canvas *parent; + bool appletMode; + + // 4J - per player ? + volatile bool pause; + + Textures *textures; + Font *font, *altFont; + ProgressRenderer *progressRenderer; + GameRenderer *gameRenderer; +private: + BackgroundDownloader *bgLoader; + + int ticks; + // 4J-PB - moved to per player + + //int missTime; + + int orgWidth, orgHeight; +public: + AchievementPopup *achievementPopup; +public: + // 4J - move to the per player structure? + bool noRender; + + HumanoidModel *humanoidModel; + HitResult *hitResult; + Options *options; +protected: + MinecraftApplet *minecraftApplet; +public: + SoundEngine *soundEngine; + MouseHandler *mouseHandler; +public: + TexturePackRepository *skins; + File workingDirectory; +private: + LevelStorageSource *levelSource; +public: + static const int frameTimes_length = 512; + static int64_t frameTimes[frameTimes_length]; + static const int tickTimes_length = 512; + static int64_t tickTimes[tickTimes_length]; + static int frameTimePos; + static int64_t warezTime; +private: + int rightClickDelay; +public: + // 4J- this should really be in localplayer + StatsCounter* stats[4]; + +private: + wstring connectToIp; + int connectToPort; + +public: + void clearConnectionFailed(); + void connectTo(const wstring& server, int port); + +private: + void renderLoadingScreen(); + +public: + void blit(int x, int y, int sx, int sy, int w, int h); + +private: + static File workDir; + +public: + LevelStorageSource *getLevelSource(); + void setScreen(Screen *screen); +private: + void checkGlError(const wstring& string); + +#ifdef __ORBIS__ + PsPlusUpsellWrapper *m_pPsPlusUpsell; +#endif + +public: + void destroy(); + volatile bool running; + wstring fpsString; + void run(); + // 4J-PB - split the run into 3 parts so we can run it from our xbox game loop + static Minecraft *GetInstance(); + void run_middle(); + void run_end(); +#ifdef _WINDOWS64 + void applyFrameMouseLook(); // Per-frame mouse look to reduce input latency +#endif + + void emergencySave(); + + // 4J - removed + //bool wasDown ; +private: + // void checkScreenshot(); // 4J - removed + // String grabHugeScreenshot(File workDir2, int width, int height, int ssWidth, int ssHeight); // 4J - removed + + // 4J - per player thing? + int64_t lastTimer; + + void renderFpsMeter(int64_t tickTime); +public: + void stop(); + // 4J removed + // bool mouseGrabbed; + // void grabMouse(); + // void releaseMouse(); + // 4J-PB - moved these into localplayer + //void handleMouseDown(int button, bool down); + //void handleMouseClick(int button); + + void pauseGame(); + // void toggleFullScreen(); // 4J - removed +private: + void resize(int width, int height); + +public: + // 4J - Moved to per player + //bool isRaining ; + + // 4J - Moved to per player + //int64_t lastTickTime; + +private: + // 4J- per player? + int recheckPlayerIn; + void verify(); + +public: + // 4J - added bFirst parameter, which is true for the first active viewport in splitscreen + // 4J - added bUpdateTextures, which is true if the actual renderer textures are to be updated - this will be true for the last time this tick runs with bFirst true + void tick(bool bFirst, bool bUpdateTextures); +private: + void reloadSound(); +public: + bool isClientSide(); + void selectLevel(ConsoleSaveFile *saveFile, const wstring& levelId, const wstring& levelName, LevelSettings *levelSettings); + //void toggleDimension(int targetDimension); + bool saveSlot(int slot, const wstring& name); + bool loadSlot(const wstring& userName, int slot); + void releaseLevel(int message); + // 4J Stu - Added the doForceStatsSave param + //void setLevel(Level *level, bool doForceStatsSave = true); + //void setLevel(Level *level, const wstring& message, bool doForceStatsSave = true); + void setLevel(MultiPlayerLevel *level, int message = -1, shared_ptr forceInsertPlayer = nullptr, bool doForceStatsSave = true,bool bPrimaryPlayerSignedOut=false); + // 4J-PB - added to force in the 'other' level when the main player creates the level at game load time + void forceaddLevel(MultiPlayerLevel *level); + void prepareLevel(int title); // 4J - changed to public + // OpenGLCapabilities getOpenGLCapabilities(); // 4J - removed + + wstring gatherStats1(); + wstring gatherStats2(); + wstring gatherStats3(); + wstring gatherStats4(); + + static void start(const wstring& name, const wstring& sid); + static void startAndConnectTo(const wstring& name, const wstring& sid, const wstring& url); + ClientConnection *getConnection(int iPad); // 4J Stu added iPad param + static void main(); + static bool renderNames(); + static bool useFancyGraphics(); + static bool useAmbientOcclusion(); + static bool renderDebug(); + bool handleClientSideCommand(const wstring& chatMessage); + + static int maxSupportedTextureSize(); + void delayTextureReload(); + static int64_t currentTimeMillis(); + +#ifdef _DURANGO + static void inGameSignInCheckAllPrivilegesCallback(LPVOID lpParam, bool hasPrivileges, int iPad); + static int InGame_SignInReturned(void *pParam,bool bContinue, int iPad, int iController); +#else + static int InGame_SignInReturned(void *pParam,bool bContinue, int iPad); +#endif + + // 4J Stu + void forceStatsSave(int idx); + + CRITICAL_SECTION m_setLevelCS; +private: + // A bit field that store whether a particular quadrant is in the full tutorial or not + BYTE m_inFullTutorialBits; +public: + bool isTutorial(); + void playerStartedTutorial(int iPad); + void playerLeftTutorial(int iPad); + + // 4J Added + MultiPlayerLevel *getLevel(int dimension); + + void tickAllConnections(); + + Level *animateTickLevel; // 4J added + + // 4J - When a client requests a texture, it should add it to here while we are waiting for it + vector m_pendingTextureRequests; + vector m_pendingGeometryRequests; // additional skin box geometry + + // 4J Added + bool addPendingClientTextureRequest(const wstring &textureName); + void handleClientTextureReceived(const wstring &textureName); + void clearPendingClientTextureRequests() { m_pendingTextureRequests.clear(); } + bool addPendingClientGeometryRequest(const wstring &textureName); + void handleClientGeometryReceived(const wstring &textureName); + void clearPendingClientGeometryRequests() { m_pendingGeometryRequests.clear(); } + + unsigned int getCurrentTexturePackId(); + ColourTable *getColourTable(); + +#if defined __ORBIS__ + static int MustSignInReturnedPSN(void *pParam, int iPad, C4JStorage::EMessageResult result); +#endif +}; diff --git a/Minecraft.Client/Minecraft.msscmp b/Minecraft.Client/Minecraft.msscmp new file mode 100644 index 0000000..729475f Binary files /dev/null and b/Minecraft.Client/Minecraft.msscmp differ diff --git a/Minecraft.Client/MinecraftServer.cpp b/Minecraft.Client/MinecraftServer.cpp new file mode 100644 index 0000000..ab9c145 --- /dev/null +++ b/Minecraft.Client/MinecraftServer.cpp @@ -0,0 +1,2054 @@ +#include "stdafx.h" +//#include "Minecraft.h" + +#include + +#include "ConsoleInput.h" +#include "DerivedServerLevel.h" +#include "DispenserBootstrap.h" +#include "EntityTracker.h" +#include "MinecraftServer.h" +#include "Options.h" +#include "PlayerList.h" +#include "ServerChunkCache.h" +#include "ServerConnection.h" +#include "ServerLevel.h" +#include "ServerLevelListener.h" +#include "Settings.h" +#include "..\Minecraft.World\AABB.h" +#include "..\Minecraft.World\Vec3.h" +#include "..\Minecraft.World\net.minecraft.network.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\net.minecraft.world.level.storage.h" +#include "..\Minecraft.World\net.minecraft.world.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\Pos.h" +#include "..\Minecraft.World\System.h" +#include "..\Minecraft.World\StringHelpers.h" +#include "..\Minecraft.World\net.minecraft.world.entity.item.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\net.minecraft.world.item.enchantment.h" +#include "..\Minecraft.World\net.minecraft.world.damagesource.h" +#ifdef _WINDOWS64 +#include "Windows64\Network\WinsockNetLayer.h" +#endif +#include +#ifdef SPLIT_SAVES +#include "..\Minecraft.World\ConsoleSaveFileSplit.h" +#endif +#include "..\Minecraft.World\ConsoleSaveFileOriginal.h" +#include "..\Minecraft.World\Socket.h" +#include "..\Minecraft.World\net.minecraft.world.entity.h" +#include "ServerPlayer.h" +#include "GameRenderer.h" +#include "..\Minecraft.World\ThreadName.h" +#include "..\Minecraft.World\IntCache.h" +#include "..\Minecraft.World\CompressedTileStorage.h" +#include "..\Minecraft.World\SparseLightStorage.h" +#include "..\Minecraft.World\SparseDataStorage.h" +#include "..\Minecraft.World\compression.h" +#ifdef _XBOX +#include "Common\XUI\XUI_DebugSetCamera.h" +#endif +#include "..\Minecraft.World\BiomeSource.h" +#include "PlayerChunkMap.h" +#include "Common\Telemetry\TelemetryManager.h" +#include "PlayerConnection.h" +#ifdef _XBOX_ONE +#include "Durango\Network\NetworkPlayerDurango.h" +#endif +#include "../Minecraft.Server/Utils/Logger.h" +#include "../Minecraft.Client/CommandDispatcher.h" +#include + +#define DEBUG_SERVER_DONT_SPAWN_MOBS 0 + +//4J Added +MinecraftServer *MinecraftServer::server = nullptr; +bool MinecraftServer::setTimeAtEndOfTick = false; +int64_t MinecraftServer::setTime = 0; +bool MinecraftServer::setTimeOfDayAtEndOfTick = false; +int64_t MinecraftServer::setTimeOfDay = 0; +bool MinecraftServer::m_bPrimaryPlayerSignedOut=false; +bool MinecraftServer::s_bServerHalted=false; +bool MinecraftServer::s_bSaveOnExitAnswered=false; +#ifdef _ACK_CHUNK_SEND_THROTTLING +bool MinecraftServer::s_hasSentEnoughPackets = false; +int64_t MinecraftServer::s_tickStartTime = 0; +vector MinecraftServer::s_sentTo; +#else +int MinecraftServer::s_slowQueuePlayerIndex = 0; +int MinecraftServer::s_slowQueueLastTime = 0; +bool MinecraftServer::s_slowQueuePacketSent = false; +#endif + +unordered_map MinecraftServer::ironTimers; + +static bool ShouldUseDedicatedServerProperties() +{ + return true; +} + +static int GetDedicatedServerInt(Settings *settings, const wchar_t *key, int defaultValue) +{ + return (ShouldUseDedicatedServerProperties() && settings != nullptr) ? settings->getInt(key, defaultValue) : defaultValue; +} + +static bool GetDedicatedServerBool(Settings *settings, const wchar_t *key, bool defaultValue) +{ + return (ShouldUseDedicatedServerProperties() && settings != nullptr) ? settings->getBoolean(key, defaultValue) : defaultValue; +} + +static wstring GetDedicatedServerString(Settings *settings, const wchar_t *key, const wstring &defaultValue) +{ + return (ShouldUseDedicatedServerProperties() && settings != nullptr) ? settings->getString(key, defaultValue) : defaultValue; +} + +static void PrintConsoleLine(const wchar_t *prefix, const wstring &message) +{ + wprintf(L"%ls%ls\n", prefix, message.c_str()); + fflush(stdout); +} + +static bool TryParseIntValue(const wstring &text, int &value) +{ + std::wistringstream stream(text); + stream >> value; + return !stream.fail() && stream.eof(); +} + +static wstring JoinConsoleCommandTokens(const vector &tokens, size_t startIndex) +{ + wstring joined; + for (size_t i = startIndex; i < tokens.size(); ++i) + { + if (!joined.empty()) joined += L" "; + joined += tokens[i]; + } + return joined; +} + +static shared_ptr FindPlayerByName(PlayerList *playerList, const wstring &name) +{ + if (playerList == nullptr) return nullptr; + + for (size_t i = 0; i < playerList->players.size(); ++i) + { + shared_ptr player = playerList->players[i]; + if (player != nullptr && equalsIgnoreCase(player->getName(), name)) + { + return player; + } + } + + return nullptr; +} + +static void SetAllLevelTimes(MinecraftServer *server, int value) +{ + for (unsigned int i = 0; i < server->levels.length; ++i) + { + if (server->levels[i] != nullptr) + { + server->levels[i]->setDayTime(value); + } + } +} + +static bool ExecuteConsoleCommand(MinecraftServer *server, const wstring &rawCommand) +{ + if (server == nullptr) + return false; + + return CommandDispatcher::OnConsoleCommand(rawCommand); +} + +MinecraftServer::MinecraftServer() +{ + // 4J - added initialisers + connection = nullptr; + settings = nullptr; + players = nullptr; + commands = nullptr; + running = true; + m_bLoaded = false; + stopped = false; + tickCount = 0; + wstring progressStatus; + progress = 0; + motd = L""; + + m_isServerPaused = false; + m_serverPausedEvent = new C4JThread::Event; + + m_saveOnExit = false; + m_suspending = false; + + m_ugcPlayersVersion = 0; + m_texturePackId = 0; + maxBuildHeight = Level::maxBuildHeight; + playerIdleTimeout = 0; + m_postUpdateThread = nullptr; + forceGameType = false; + + InitializeCriticalSection(&m_consoleInputCS); + + DispenserBootstrap::bootStrap(); +} + +MinecraftServer::~MinecraftServer() +{ + DeleteCriticalSection(&m_consoleInputCS); +} + +bool MinecraftServer::initServer(int64_t seed, NetworkGameInitData *initData, DWORD initSettings, bool findSeed) +{ + // 4J - removed +#if 0 + commands = new ConsoleCommands(this); + + Thread t = new Thread() { + public void run() { + BufferedReader br = new BufferedReader(new InputStreamReader(System.in)); + String line = null; + try { + while (!stopped && running && (line = br.readLine()) != null) { + handleConsoleInput(line, MinecraftServer.this); + } + } catch (IOException e) { + e.printStackTrace(); + } + } + }; + t.setDaemon(true); + t.start(); + + + LogConfigurator.initLogger(); + logger.info("Starting minecraft server version " + VERSION); + + if (Runtime.getRuntime().maxMemory() / 1024 / 1024 < 512) { + logger.warning("**** NOT ENOUGH RAM!"); + logger.warning("To start the server with more ram, launch it as \"java -Xmx1024M -Xms1024M -jar minecraft_server.jar\""); + } + + logger.info("Loading properties"); +#endif + Logger::Info((L"Starting Minecraft Server | Protocol(" + std::to_wstring(MINECRAFT_NET_VERSION) + L") - Build(" + VER_PRODUCTVERSION_STR_W + L")").c_str()); + + settings = new Settings(new File(L"server.properties")); + + app.SetGameHostOption(eGameHostOption_Difficulty, GetDedicatedServerInt(settings, L"difficulty", app.GetGameHostOption(eGameHostOption_Difficulty))); + app.SetGameHostOption(eGameHostOption_GameType, GetDedicatedServerInt(settings, L"gamemode", app.GetGameHostOption(eGameHostOption_GameType))); + app.SetGameHostOption(eGameHostOption_Structures, GetDedicatedServerBool(settings, L"generate-structures", app.GetGameHostOption(eGameHostOption_Structures) > 0) ? 1 : 0); + app.SetGameHostOption(eGameHostOption_BonusChest, GetDedicatedServerBool(settings, L"bonus-chest", app.GetGameHostOption(eGameHostOption_BonusChest) > 0) ? 1 : 0); + app.SetGameHostOption(eGameHostOption_PvP, GetDedicatedServerBool(settings, L"pvp", app.GetGameHostOption(eGameHostOption_PvP) > 0) ? 1 : 0); + app.SetGameHostOption(eGameHostOption_TrustPlayers, GetDedicatedServerBool(settings, L"trust-players", app.GetGameHostOption(eGameHostOption_TrustPlayers) > 0) ? 1 : 0); + app.SetGameHostOption(eGameHostOption_FireSpreads, GetDedicatedServerBool(settings, L"fire-spreads", app.GetGameHostOption(eGameHostOption_FireSpreads) > 0) ? 1 : 0); + app.SetGameHostOption(eGameHostOption_TNT, GetDedicatedServerBool(settings, L"tnt", app.GetGameHostOption(eGameHostOption_TNT) > 0) ? 1 : 0); + + app.DebugPrintf("\n*** SERVER SETTINGS ***\n"); + app.DebugPrintf("ServerSettings: host-friends-only is %s\n",(app.GetGameHostOption(eGameHostOption_FriendsOfFriends)>0)?"on":"off"); + app.DebugPrintf("ServerSettings: game-type is %s\n",(app.GetGameHostOption(eGameHostOption_GameType)==0)?"Survival Mode":"Creative Mode"); + app.DebugPrintf("ServerSettings: pvp is %s\n",(app.GetGameHostOption(eGameHostOption_PvP)>0)?"on":"off"); + app.DebugPrintf("ServerSettings: fire spreads is %s\n",(app.GetGameHostOption(eGameHostOption_FireSpreads)>0)?"on":"off"); + app.DebugPrintf("ServerSettings: tnt explodes is %s\n",(app.GetGameHostOption(eGameHostOption_TNT)>0)?"on":"off"); + app.DebugPrintf("\n"); + + this->setSaveOnExit(true); + + // TODO 4J Stu - Init a load of settings based on data passed as params + //settings->setBooleanAndSave( L"host-friends-only", (app.GetGameHostOption(eGameHostOption_FriendsOfFriends)>0) ); + + // 4J - Unused + //localIp = settings->getString(L"server-ip", L""); + //onlineMode = settings->getBoolean(L"online-mode", true); + //motd = settings->getString(L"motd", L"A Minecraft Server"); + //motd.replace('�', '$'); + + setAnimals(GetDedicatedServerBool(settings, L"spawn-animals", true)); + setNpcsEnabled(GetDedicatedServerBool(settings, L"spawn-npcs", true)); + setPvpAllowed(app.GetGameHostOption( eGameHostOption_PvP )>0?true:false); + + // 4J Stu - We should never have hacked clients flying when they shouldn't be like the PC version, so enable flying always + // Fix for #46612 - TU5: Code: Multiplayer: A client can be banned for flying when accidentaly being blown by dynamite + setFlightAllowed(GetDedicatedServerBool(settings, L"allow-flight", true)); + + // 4J Stu - Enabling flight to stop it kicking us when we use it +#ifdef _DEBUG_MENUS_ENABLED + setFlightAllowed(true); +#endif + +#if 1 + connection = new ServerConnection(this); + Socket::Initialise(connection); // 4J - added +#else + // 4J - removed + InetAddress localAddress = null; + if (localIp.length() > 0) localAddress = InetAddress.getByName(localIp); + port = settings.getInt("server-port", DEFAULT_MINECRAFT_PORT); + + logger.info("Starting Minecraft server on " + (localIp.length() == 0 ? "*" : localIp) + ":" + port); + try { + connection = new ServerConnection(this, localAddress, port); + } catch (IOException e) { + logger.warning("**** FAILED TO BIND TO PORT!"); + logger.log(Level.WARNING, "The exception was: " + e.toString()); + logger.warning("Perhaps a server is already running on that port?"); + return false; + } + + if (!onlineMode) { + logger.warning("**** SERVER IS RUNNING IN OFFLINE/INSECURE MODE!"); + logger.warning("The server will make no attempt to authenticate usernames. Beware."); + logger.warning("While this makes the game possible to play without internet access, it also opens up the ability for hackers to connect with any username they choose."); + logger.warning("To change this, set \"online-mode\" to \"true\" in the server.settings file."); + } +#endif + setPlayers(new PlayerList(this)); +#ifdef _WINDOWS64 + { + int maxP = getPlayerList()->getMaxPlayers(); + WinsockNetLayer::UpdateAdvertiseMaxPlayers((BYTE)(maxP > 255 ? 255 : maxP)); + } +#endif + + // 4J-JEV: Need to wait for levelGenerationOptions to load. + while ( app.getLevelGenerationOptions() != nullptr && !app.getLevelGenerationOptions()->hasLoadedData() ) + Sleep(1); + + if ( app.getLevelGenerationOptions() != nullptr && !app.getLevelGenerationOptions()->ready() ) + { + // TODO: Stop loading, add error message. + } + + int64_t levelNanoTime = System::nanoTime(); + + wstring levelName = (initData && !initData->levelName.empty()) ? initData->levelName : GetDedicatedServerString(settings, L"level-name", L"world"); + wstring levelTypeString; + + bool gameRuleUseFlatWorld = false; + if(app.getLevelGenerationOptions() != nullptr) + { + gameRuleUseFlatWorld = app.getLevelGenerationOptions()->getuseFlatWorld(); + } + if(gameRuleUseFlatWorld || app.GetGameHostOption(eGameHostOption_LevelType)>0) + { + levelTypeString = GetDedicatedServerString(settings, L"level-type", L"flat"); + } + else + { + levelTypeString = GetDedicatedServerString(settings, L"level-type",L"default"); + } + + LevelType *pLevelType = LevelType::getLevelType(levelTypeString); + if (pLevelType == nullptr) + { + pLevelType = LevelType::lvl_normal; + } + + + if( findSeed ) + { +#ifdef __PSVITA__ + seed = BiomeSource::findSeed(pLevelType, &running); +#else + seed = BiomeSource::findSeed(pLevelType); +#endif + } + + setMaxBuildHeight(GetDedicatedServerInt(settings, L"max-build-height", Level::maxBuildHeight)); + setMaxBuildHeight(((getMaxBuildHeight() + 8) / 16) * 16); + setMaxBuildHeight(Mth::clamp(getMaxBuildHeight(), 64, Level::maxBuildHeight)); + //settings->setProperty(L"max-build-height", maxBuildHeight); + + this->commandDispatcher = new CommandDispatcher(this); + +#if 0 + wstring levelSeedString = settings->getString(L"level-seed", L""); + int64_t levelSeed = (new Random())->nextLong(); + if (levelSeedString.length() > 0) + { + long newSeed = _fromString(levelSeedString); + if (newSeed != 0) { + levelSeed = newSeed; + } + } +#endif + __int64 levelStartTime = System::currentRealTimeMillis(); + Logger::Info("Preparing Level"); //todo: level names + m_bLoaded = loadLevel(new McRegionLevelStorageSource(File(L".")), levelName, seed, pLevelType, initData); + + Logger::Info(("Level Loaded In: " + std::to_string((System::currentRealTimeMillis() - levelStartTime) / 1000.0) + "s").c_str()); + // logger.info("Done (" + (System.nanoTime() - levelNanoTime) + "ns)! For help, type \"help\" or \"?\""); + + // 4J delete passed in save data now - this is only required for the tutorial which is loaded by passing data directly in rather than using the storage manager + if( initData->saveData ) + { + delete initData->saveData->data; + initData->saveData->data = 0; + initData->saveData->fileSize = 0; + } + + g_NetworkManager.ServerReady(); // 4J added + return m_bLoaded; + +} + +// 4J - added - extra thread to post processing on separate thread during level creation +int MinecraftServer::runPostUpdate(void* lpParam) +{ + + MinecraftServer *server = static_cast(lpParam); + Entity::useSmallIds(); // This thread can end up spawning entities as resources + IntCache::CreateNewThreadStorage(); + AABB::CreateNewThreadStorage(); + Vec3::CreateNewThreadStorage(); + Compression::UseDefaultThreadStorage(); + Level::enableLightingCache(); + Tile::CreateNewThreadStorage(); + + // Update lights for both levels until we are signalled to terminate + do + { + EnterCriticalSection(&server->m_postProcessCS); + if( server->m_postProcessRequests.size() ) + { + MinecraftServer::postProcessRequest request = server->m_postProcessRequests.back(); + server->m_postProcessRequests.pop_back(); + LeaveCriticalSection(&server->m_postProcessCS); + static int count = 0; + PIXBeginNamedEvent(0,"Post processing %d ", (count++)%8); + request.chunkSource->postProcess(request.chunkSource, request.x, request.z ); + PIXEndNamedEvent(); + } + else + { + LeaveCriticalSection(&server->m_postProcessCS); + } + Sleep(1); + } while (!server->m_postUpdateTerminate); + //#ifndef __PS3__ + // One final pass through updates to make sure we're done + EnterCriticalSection(&server->m_postProcessCS); + int maxRequests = server->m_postProcessRequests.size(); + while(server->m_postProcessRequests.size() ) + { + MinecraftServer::postProcessRequest request = server->m_postProcessRequests.back(); + server->m_postProcessRequests.pop_back(); + LeaveCriticalSection(&server->m_postProcessCS); + request.chunkSource->postProcess(request.chunkSource, request.x, request.z ); +#ifdef __PS3__ +#ifndef _CONTENT_PACKAGE + if((server->m_postProcessRequests.size() % 10) == 0) + printf("processing request %00d\n", server->m_postProcessRequests.size()); +#endif + Sleep(1); +#endif + EnterCriticalSection(&server->m_postProcessCS); + } + LeaveCriticalSection(&server->m_postProcessCS); + //#endif //__PS3__ + Tile::ReleaseThreadStorage(); + IntCache::ReleaseThreadStorage(); + AABB::ReleaseThreadStorage(); + Vec3::ReleaseThreadStorage(); + Level::destroyLightingCache(); + + return 0; +} + +void MinecraftServer::addPostProcessRequest(ChunkSource *chunkSource, int x, int z) +{ + EnterCriticalSection(&m_postProcessCS); + m_postProcessRequests.push_back(MinecraftServer::postProcessRequest(x,z,chunkSource)); + LeaveCriticalSection(&m_postProcessCS); +} + +void MinecraftServer::postProcessTerminate(ProgressRenderer *mcprogress) +{ + DWORD status = 0; + + EnterCriticalSection(&server->m_postProcessCS); + size_t postProcessItemCount = server->m_postProcessRequests.size(); + LeaveCriticalSection(&server->m_postProcessCS); + + do + { + status = m_postUpdateThread->WaitForCompletion(50); + if( status == WAIT_TIMEOUT ) + { + EnterCriticalSection(&server->m_postProcessCS); + size_t postProcessItemRemaining = server->m_postProcessRequests.size(); + LeaveCriticalSection(&server->m_postProcessCS); + + CompressedTileStorage::tick(); + SparseLightStorage::tick(); + SparseDataStorage::tick(); + } + } while ( status == WAIT_TIMEOUT ); + delete m_postUpdateThread; + m_postUpdateThread = nullptr; + DeleteCriticalSection(&m_postProcessCS); +} + +bool MinecraftServer::loadLevel(LevelStorageSource *storageSource, const wstring& name, int64_t levelSeed, LevelType *pLevelType, NetworkGameInitData *initData) +{ + // 4J - TODO - do with new save stuff + // if (storageSource->requiresConversion(name)) + // { + // assert(false); + // } + ProgressRenderer *mcprogress = Minecraft::GetInstance()->progressRenderer; + + // 4J TODO - free levels here if there are already some? + levels = ServerLevelArray(3); + + int gameTypeId = GetDedicatedServerInt(settings, L"gamemode", app.GetGameHostOption(eGameHostOption_GameType));//LevelSettings::GAMETYPE_SURVIVAL); + GameType *gameType = LevelSettings::validateGameType(gameTypeId); + app.DebugPrintf("Default game type: %d\n" , gameTypeId); + + LevelSettings *levelSettings = new LevelSettings(levelSeed, gameType, app.GetGameHostOption(eGameHostOption_Structures)>0?true:false, isHardcore(), true, pLevelType, initData->xzSize, initData->hellScale); + if( app.GetGameHostOption(eGameHostOption_BonusChest ) ) levelSettings->enableStartingBonusItems(); + + // 4J - temp - load existing level + shared_ptr storage = nullptr; + bool levelChunksNeedConverted = false; + if( initData->saveData != nullptr ) + { + // We are loading a file from disk with the data passed in + +#ifdef SPLIT_SAVES + ConsoleSaveFileOriginal oldFormatSave( initData->saveData->saveName, initData->saveData->data, initData->saveData->fileSize, false, initData->savePlatform ); + ConsoleSaveFile* pSave = new ConsoleSaveFileSplit( &oldFormatSave ); + + //ConsoleSaveFile* pSave = new ConsoleSaveFileSplit( initData->saveData->saveName, initData->saveData->data, initData->saveData->fileSize, false, initData->savePlatform ); +#else + ConsoleSaveFile* pSave = new ConsoleSaveFileOriginal( initData->saveData->saveName, initData->saveData->data, initData->saveData->fileSize, false, initData->savePlatform ); +#endif + if(pSave->isSaveEndianDifferent()) + levelChunksNeedConverted = true; + pSave->ConvertToLocalPlatform(); // check if we need to convert this file from PS3->PS4 + + storage = std::make_shared(pSave, File(L"."), name, true); + } + else + { + // We are loading a save from the storage manager +#ifdef SPLIT_SAVES + bool bLevelGenBaseSave = false; + LevelGenerationOptions *levelGen = app.getLevelGenerationOptions(); + if( levelGen != nullptr && levelGen->requiresBaseSave()) + { + DWORD fileSize = 0; + LPVOID pvSaveData = levelGen->getBaseSaveData(fileSize); + if(pvSaveData && fileSize != 0) bLevelGenBaseSave = true; + } + ConsoleSaveFileSplit *newFormatSave = nullptr; + if(bLevelGenBaseSave) + { + ConsoleSaveFileOriginal oldFormatSave( L"" ); + newFormatSave = new ConsoleSaveFileSplit( &oldFormatSave ); + } + else + { + newFormatSave = new ConsoleSaveFileSplit( L"" ); + } + + storage = shared_ptr(new McRegionLevelStorage(newFormatSave, File(L"."), name, true)); +#else + ConsoleSaveFileOriginal* pSave = new ConsoleSaveFileOriginal(L""); + + pSave->ConvertToLocalPlatform(); + storage = std::make_shared(pSave, File(L"."), name, true); + +#endif + } + + // McRegionLevelStorage *storage = new McRegionLevelStorage(new ConsoleSaveFile( L"" ), L"", L"", 0); // original + // McRegionLevelStorage *storage = new McRegionLevelStorage(File(L"."), name, true); // TODO + for (unsigned int i = 0; i < levels.length; i++) + { + if( s_bServerHalted || !g_NetworkManager.IsInSession() ) + { + return false; + } + + // String levelName = name; + // if (i == 1) levelName += "_nether"; + int dimension = 0; + if (i == 1) dimension = -1; + if (i == 2) dimension = 1; + if (i == 0) + { + levels[i] = new ServerLevel(this, storage, name, dimension, levelSettings); + if(app.getLevelGenerationOptions() != nullptr) + { + LevelGenerationOptions *mapOptions = app.getLevelGenerationOptions(); + Pos *spawnPos = mapOptions->getSpawnPos(); + if( spawnPos != nullptr ) + { + levels[i]->setSpawnPos( spawnPos ); + } + + levels[i]->getLevelData()->setHasBeenInCreative(mapOptions->isFromDLC()); + } + } + else levels[i] = new DerivedServerLevel(this, storage, name, dimension, levelSettings, levels[0]); + // levels[i]->addListener(new ServerLevelListener(this, levels[i])); // 4J - have moved this to the ServerLevel ctor so that it is set up in time for the first chunk to load, which might actually happen there + + // 4J Stu - We set the levels difficulty based on the minecraft options + //levels[i]->difficulty = settings->getBoolean(L"spawn-monsters", true) ? Difficulty::EASY : Difficulty::PEACEFUL; + Minecraft *pMinecraft = Minecraft::GetInstance(); + m_lastSentDifficulty = pMinecraft->options->difficulty; + levels[i]->difficulty = app.GetGameHostOption(eGameHostOption_Difficulty); //pMinecraft->options->difficulty; + app.DebugPrintf("MinecraftServer::loadLevel - Difficulty = %d\n",levels[i]->difficulty); + +#if DEBUG_SERVER_DONT_SPAWN_MOBS + levels[i]->setSpawnSettings(false, false); +#else + levels[i]->setSpawnSettings(GetDedicatedServerBool(settings, L"spawn-monsters", true), animals); +#endif + levels[i]->getLevelData()->setGameType(gameType); + + if(app.getLevelGenerationOptions() != nullptr) + { + LevelGenerationOptions *mapOptions = app.getLevelGenerationOptions(); + levels[i]->getLevelData()->setHasBeenInCreative(mapOptions->getLevelHasBeenInCreative() ); + } + + players->setLevel(levels); + } + + app.SetGameHostOption( eGameHostOption_HasBeenInCreative, gameType == GameType::CREATIVE || levels[0]->getHasBeenInCreative() ); + app.SetGameHostOption( eGameHostOption_Structures, levels[0]->isGenerateMapFeatures() ); + + if( s_bServerHalted || !g_NetworkManager.IsInSession() ) return false; + + // 4J - Make a new thread to do post processing + InitializeCriticalSection(&m_postProcessCS); + + // 4J-PB - fix for 108310 - TCR #001 BAS Game Stability: TU12: Code: Compliance: Crash after creating world on "journey" seed. + // Stack gets very deep with some sand tower falling, so increased the stacj to 256K from 128k on other platforms (was already set to that on PS3 and Orbis) + + m_postUpdateThread = new C4JThread(runPostUpdate, this, "Post processing", 256*1024); + + m_postUpdateTerminate = false; + m_postUpdateThread->SetProcessor(CPU_CORE_POST_PROCESSING); + m_postUpdateThread->SetPriority(THREAD_PRIORITY_ABOVE_NORMAL); + m_postUpdateThread->Run(); + + int64_t startTime = System::currentTimeMillis(); + + // 4J Stu - Added this to temporarily make starting games on vita faster +#ifdef __PSVITA__ + int r = 48; +#else + int r = 196; +#endif + + // 4J JEV: load gameRules. + ConsoleSavePath filepath(GAME_RULE_SAVENAME); + ConsoleSaveFile *csf = getLevel(0)->getLevelStorage()->getSaveFile(); + if( csf->doesFileExist(filepath) ) + { + DWORD numberOfBytesRead; + byteArray ba_gameRules; + + FileEntry *fe = csf->createFile(filepath); + + ba_gameRules.length = fe->getFileSize(); + ba_gameRules.data = new BYTE[ ba_gameRules.length ]; + + csf->setFilePointer(fe,0,nullptr,FILE_BEGIN); + csf->readFile(fe, ba_gameRules.data, ba_gameRules.length, &numberOfBytesRead); + assert(numberOfBytesRead == ba_gameRules.length); + + app.m_gameRules.loadGameRules(ba_gameRules.data, ba_gameRules.length); + csf->closeHandle(fe); + } + + int64_t lastTime = System::currentTimeMillis(); +#ifdef _LARGE_WORLDS + if(app.GetGameNewWorldSize() > levels[0]->getLevelData()->getXZSizeOld()) + { + if(!app.GetGameNewWorldSizeUseMoat()) // check the moat settings to see if we should be overwriting the edge tiles + { + overwriteBordersForNewWorldSize(levels[0]); + } + // we're always overwriting hell edges + int oldHellSize = levels[0]->getLevelData()->getXZHellSizeOld(); + overwriteHellBordersForNewWorldSize(levels[1], oldHellSize); + } +#endif + + // 4J Stu - This loop is changed in 1.0.1 to only process the first level (ie the overworld), but I think we still want to do them all + int i = 0; + for (int i = 0; i < levels.length ; i++) + { + // logger.info("Preparing start region for level " + i); + if (i == 0 || GetDedicatedServerBool(settings, L"allow-nether", true)) + { + ServerLevel *level = levels[i]; + if(levelChunksNeedConverted) + { + // storage->getSaveFile()->convertLevelChunks(level) + } + +#if 0 + int64_t lastStorageTickTime = System::currentTimeMillis(); + + // Test code to enable full creation of levels at start up + int halfsidelen = ( i == 0 ) ? 27 : 9; + for( int x = -halfsidelen; x < halfsidelen; x++ ) + { + for( int z = -halfsidelen; z < halfsidelen; z++ ) + { + int total = halfsidelen * halfsidelen * 4; + int pos = z + halfsidelen + ( ( x + halfsidelen ) * 2 * halfsidelen ); + mcprogress->progressStagePercentage((pos) * 100 / total); + level->cache->create(x,z, true); // 4J - added parameter to disable postprocessing here + + if( System::currentTimeMillis() - lastStorageTickTime > 50 ) + { + CompressedTileStorage::tick(); + SparseLightStorage::tick(); + SparseDataStorage::tick(); + lastStorageTickTime = System::currentTimeMillis(); + } + } + } +#else + int64_t lastStorageTickTime = System::currentTimeMillis(); + Pos *spawnPos = level->getSharedSpawnPos(); + + int twoRPlusOne = r*2 + 1; + int total = twoRPlusOne * twoRPlusOne; + for (int x = -r; x <= r && running; x += 16) + { + for (int z = -r; z <= r && running; z += 16) + { + if( s_bServerHalted || !g_NetworkManager.IsInSession() ) + { + delete spawnPos; + m_postUpdateTerminate = true; + postProcessTerminate(mcprogress); + return false; + } + // printf(">>>%d %d %d\n",i,x,z); + // int64_t now = System::currentTimeMillis(); + // if (now < lastTime) lastTime = now; + // if (now > lastTime + 1000) + { + int pos = (x + r) * twoRPlusOne + (z + 1); + // setProgress(L"Preparing spawn area", (pos) * 100 / total); + // lastTime = now; + } + static int count = 0; + PIXBeginNamedEvent(0,"Creating %d ", (count++)%8); + level->cache->create((spawnPos->x + x) >> 4, (spawnPos->z + z) >> 4, true); // 4J - added parameter to disable postprocessing here + PIXEndNamedEvent(); + // while (level->updateLights() && running) + // ; + if( System::currentTimeMillis() - lastStorageTickTime > 50 ) + { + CompressedTileStorage::tick(); + SparseLightStorage::tick(); + SparseDataStorage::tick(); + lastStorageTickTime = System::currentTimeMillis(); + } + } + } + + // 4J - removed this as now doing the recheckGaps call when each chunk is post-processed, so can happen on things outside of the spawn area too +#if 0 + // 4J - added this code to propagate lighting properly in the spawn area before we go sharing it with the local client or across the network + for (int x = -r; x <= r && running; x += 16) + { + for (int z = -r; z <= r && running; z += 16) + { + PIXBeginNamedEvent(0,"Lighting gaps for %d %d",x,z); + level->getChunkAt(spawnPos->x + x, spawnPos->z + z)->recheckGaps(true); + PIXEndNamedEvent(); + } + } +#endif + + delete spawnPos; +#endif + } + } + // printf("Main thread complete at %dms\n",System::currentTimeMillis() - startTime); + + // Wait for post processing, then lighting threads, to end (post-processing may make more lighting changes) + m_postUpdateTerminate = true; + + postProcessTerminate(mcprogress); + + + // stronghold position? + if(levels[0]->dimension->id==0) + { + + app.DebugPrintf("===================================\n"); + + if(!levels[0]->getLevelData()->getHasStronghold()) + { + int x,z; + if(app.GetTerrainFeaturePosition(eTerrainFeature_Stronghold,&x,&z)) + { + levels[0]->getLevelData()->setXStronghold(x); + levels[0]->getLevelData()->setZStronghold(z); + levels[0]->getLevelData()->setHasStronghold(); + + app.DebugPrintf("=== FOUND stronghold in terrain features list\n"); + + } + else + { + // can't find the stronghold position in the terrain feature list. Do we have to run a post-process? + app.DebugPrintf("=== Can't find stronghold in terrain features list\n"); + } + } + else + { + app.DebugPrintf("=== Leveldata has stronghold position\n"); + } + app.DebugPrintf("===================================\n"); + } + + // printf("Post processing complete at %dms\n",System::currentTimeMillis() - startTime); + + // printf("Lighting complete at %dms\n",System::currentTimeMillis() - startTime); + + if( s_bServerHalted || !g_NetworkManager.IsInSession() ) return false; + + if( levels[1]->isNew ) + { + levels[1]->save(true, nullptr); + } + + if( s_bServerHalted || !g_NetworkManager.IsInSession() ) return false; + + if( levels[2]->isNew ) + { + levels[2]->save(true, nullptr); + } + + if( s_bServerHalted || !g_NetworkManager.IsInSession() ) return false; + + // 4J - added - immediately save newly created level, like single player game + // 4J Stu - We also want to immediately save the tutorial + if ( levels[0]->isNew ) + saveGameRules(); + + if( levels[0]->isNew ) + { + levels[0]->save(true, nullptr); + } + + if( s_bServerHalted || !g_NetworkManager.IsInSession() ) return false; + + if( levels[0]->isNew || levels[1]->isNew || levels[2]->isNew ) + { +#ifndef _WINDOWS64 + // On Windows64 we skip the automatic initial save so that choosing + // "Exit without saving" on a new world does not leave an orphaned save folder. + levels[0]->saveToDisc(mcprogress, false); +#endif + } + + if( s_bServerHalted || !g_NetworkManager.IsInSession() ) return false; + + /* + * int r = 24; for (int x = -r; x <= r; x++) { + * setProgress("Preparing spawn area", (x + r) * 100 / (r + r + 1)); for (int z + * = -r; z <= r; z++) { if (!running) return; level.cache.create((level.xSpawn + * >> 4) + x, (level.zSpawn >> 4) + z); while (running && level.updateLights()) + * ; } } + */ + endProgress(); + + return true; +} + +#ifdef _LARGE_WORLDS +void MinecraftServer::overwriteBordersForNewWorldSize(ServerLevel* level) +{ + // recreate the chunks round the border (2 chunks or 32 blocks deep), deleting any player data from them + app.DebugPrintf("Expanding level size\n"); + int oldSize = level->getLevelData()->getXZSizeOld(); + // top + int minVal = -oldSize/2; + int maxVal = (oldSize/2)-1; + for(int xVal = minVal; xVal <= maxVal; xVal++) + { + int zVal = minVal; + level->cache->overwriteLevelChunkFromSource(xVal, zVal); + level->cache->overwriteLevelChunkFromSource(xVal, zVal+1); + } + // bottom + for(int xVal = minVal; xVal <= maxVal; xVal++) + { + int zVal = maxVal; + level->cache->overwriteLevelChunkFromSource(xVal, zVal); + level->cache->overwriteLevelChunkFromSource(xVal, zVal-1); + } + // left + for(int zVal = minVal; zVal <= maxVal; zVal++) + { + int xVal = minVal; + level->cache->overwriteLevelChunkFromSource(xVal, zVal); + level->cache->overwriteLevelChunkFromSource(xVal+1, zVal); + } + // right + for(int zVal = minVal; zVal <= maxVal; zVal++) + { + int xVal = maxVal; + level->cache->overwriteLevelChunkFromSource(xVal, zVal); + level->cache->overwriteLevelChunkFromSource(xVal-1, zVal); + } +} + +void MinecraftServer::overwriteHellBordersForNewWorldSize(ServerLevel* level, int oldHellSize) +{ + // recreate the chunks round the border (1 chunk or 16 blocks deep), deleting any player data from them + app.DebugPrintf("Expanding level size\n"); + // top + int minVal = -oldHellSize/2; + int maxVal = (oldHellSize/2)-1; + for(int xVal = minVal; xVal <= maxVal; xVal++) + { + int zVal = minVal; + level->cache->overwriteHellLevelChunkFromSource(xVal, zVal, minVal, maxVal); + } + // bottom + for(int xVal = minVal; xVal <= maxVal; xVal++) + { + int zVal = maxVal; + level->cache->overwriteHellLevelChunkFromSource(xVal, zVal, minVal, maxVal); + } + // left + for(int zVal = minVal; zVal <= maxVal; zVal++) + { + int xVal = minVal; + level->cache->overwriteHellLevelChunkFromSource(xVal, zVal, minVal, maxVal); + } + // right + for(int zVal = minVal; zVal <= maxVal; zVal++) + { + int xVal = maxVal; + level->cache->overwriteHellLevelChunkFromSource(xVal, zVal, minVal, maxVal); + } +} + +#endif + +void MinecraftServer::setProgress(const wstring& status, int progress) +{ + progressStatus = status; + this->progress = progress; + // logger.info(status + ": " + progress + "%"); +} + +void MinecraftServer::endProgress() +{ + progressStatus = L""; + this->progress = 0; +} + +void MinecraftServer::saveAllChunks() +{ + // logger.info("Saving chunks"); + for (unsigned int i = 0; i < levels.length; i++) + { + // 4J Stu - Due to the way save mounting is handled on XboxOne, we can actually save after the player has signed out. +#ifndef _XBOX_ONE + if( m_bPrimaryPlayerSignedOut ) break; +#endif + // 4J Stu - Save the levels in reverse order so we don't overwrite the level.dat + // with the data from the nethers leveldata. + // Fix for #7418 - Functional: Gameplay: Saving after sleeping in a bed will place player at nighttime when restarting. + ServerLevel *level = levels[levels.length - 1 - i]; + if( level ) // 4J - added check as level can be nullptr if we end up in stopServer really early on due to network failure + { + level->save(true, nullptr); + + // Only close the level storage when we have saved the last level, otherwise we need to recreate the region files + // when saving the next levels + if( i == (levels.length - 1)) + { + level->closeLevelStorage(); + } + } + } +} + +// 4J-JEV: Added +void MinecraftServer::saveGameRules() +{ +#ifndef _CONTENT_PACKAGE + if(app.DebugSettingsOn() && app.GetGameSettingsDebugMask(ProfileManager.GetPrimaryPad())&(1L<getLevelStorage()->getSaveFile(); + FileEntry *fe = csf->createFile(ConsoleSavePath(GAME_RULE_SAVENAME)); + csf->setFilePointer(fe, 0, nullptr, FILE_BEGIN); + DWORD length; + csf->writeFile(fe, ba.data, ba.length, &length ); + + delete [] ba.data; + + csf->closeHandle(fe); + } + } +} + +void MinecraftServer::Suspend() +{ + PIXBeginNamedEvent(0,"Suspending server"); + m_suspending = true; + // Get the frequency of the timer + LARGE_INTEGER qwTicksPerSec, qwTime, qwNewTime, qwDeltaTime; + float fElapsedTime = 0.0f; + QueryPerformanceFrequency( &qwTicksPerSec ); + float fSecsPerTick = 1.0f / static_cast(qwTicksPerSec.QuadPart); + // Save the start time + QueryPerformanceCounter( &qwTime ); + if(m_bLoaded && ProfileManager.IsFullVersion() && (!StorageManager.GetSaveDisabled())) + { + if (players != nullptr) + { + players->saveAll(nullptr); + } + for (unsigned int j = 0; j < levels.length; j++) + { + if( s_bServerHalted ) break; + // 4J Stu - Save the levels in reverse order so we don't overwrite the level.dat + // with the data from the nethers leveldata. + // Fix for #7418 - Functional: Gameplay: Saving after sleeping in a bed will place player at nighttime when restarting. + ServerLevel *level = levels[levels.length - 1 - j]; + level->Suspend(); + } + if( !s_bServerHalted ) + { + saveGameRules(); + levels[0]->saveToDisc(nullptr, true); + } + } + QueryPerformanceCounter( &qwNewTime ); + + qwDeltaTime.QuadPart = qwNewTime.QuadPart - qwTime.QuadPart; + fElapsedTime = fSecsPerTick * static_cast(qwDeltaTime.QuadPart); + + // 4J-JEV: Flush stats and call PlayerSessionExit. + for (int iPad = 0; iPad < XUSER_MAX_COUNT; iPad++) + { + if (ProfileManager.IsSignedIn(iPad)) + { + TelemetryManager->RecordPlayerSessionExit(iPad, DisconnectPacket::eDisconnect_Quitting); + } + } + + m_suspending = false; + app.DebugPrintf("Suspend server: Elapsed time %f\n", fElapsedTime); + PIXEndNamedEvent(); +} + +bool MinecraftServer::IsSuspending() +{ + return m_suspending; +} + +void MinecraftServer::stopServer(bool didInit) +{ + + // 4J-PB - need to halt the rendering of the data, since we're about to remove it +#ifdef __PS3__ + if( ShutdownManager::ShouldRun(ShutdownManager::eServerThread ) ) // This thread will take itself out if we are shutting down +#endif + { + Minecraft::GetInstance()->gameRenderer->DisableUpdateThread(); + } + + connection->stop(); + + //app.DebugPrintf("Stopping server\n"); + // logger.info("Stopping server"); + // 4J-PB - If the primary player has signed out, then don't attempt to save anything + + // also need to check for a profile switch here - primary player signs out, and another player signs in before dismissing the dash +#ifdef _DURANGO + // On Durango check if the primary user is signed in OR mid-sign-out + if(ProfileManager.GetUser(0, true) != nullptr) +#else + if((m_bPrimaryPlayerSignedOut==false) && ProfileManager.IsSignedIn(ProfileManager.GetPrimaryPad())) +#endif + { +#if defined(_XBOX_ONE) || defined(__ORBIS__) + // Always save on exit! Except if saves are disabled. + if(!saveOnExitAnswered()) m_saveOnExit = true; +#endif + // if trial version or saving is disabled, then don't save anything. Also don't save anything if we didn't actually get through the server initialisation. + if(m_saveOnExit && ProfileManager.IsFullVersion() && (!StorageManager.GetSaveDisabled()) && didInit) + { + if (players != nullptr) + { + players->saveAll(nullptr, true); + } + // 4J Stu - Save the levels in reverse order so we don't overwrite the level.dat + // with the data from the nethers leveldata. + // Fix for #7418 - Functional: Gameplay: Saving after sleeping in a bed will place player at nighttime when restarting. + //for (unsigned int i = levels.length - 1; i >= 0; i--) + //{ + // ServerLevel *level = levels[i]; + // if (level != nullptr) + // { + saveAllChunks(); + // } + //} + + saveGameRules(); + app.m_gameRules.unloadCurrentGameRules(); + if( levels[0] != nullptr ) // This can be null if stopServer happens very quickly due to network error + { + levels[0]->saveToDisc(nullptr, false); + } + } + } + // reset the primary player signout flag + m_bPrimaryPlayerSignedOut=false; + s_bServerHalted = false; + + // On Durango/Orbis, we need to wait for all the asynchronous saving processes to complete before destroying the levels, as that will ultimately delete + // the directory level storage & therefore the ConsoleSaveSplit instance, which needs to be around until all the sub files have completed saving. +#if defined(_DURANGO) || defined(__ORBIS__) || defined(__PSVITA__) + while(StorageManager.GetSaveState() != C4JStorage::ESaveGame_Idle ) + { + Sleep(10); + } +#endif + + // 4J-PB remove the server levels + unsigned int iServerLevelC=levels.length; + for (unsigned int i = 0; i < iServerLevelC; i++) + { + if(levels[i]!=nullptr) + { + delete levels[i]; + levels[i] = nullptr; + } + } + +#if defined(__PS3__) || defined(__ORBIS__) + // Clear the update flags as it's possible they could be out of sync, causing a crash when starting a new world after the first new level ticks + // Fix for PS3 #1538 - [IN GAME] If the user 'Exit without saving' from inside the Nether or The End, the title can hang when loading back into the save. +#endif + + delete connection; + connection = nullptr; + delete players; + players = nullptr; + delete settings; + settings = nullptr; + delete commandDispatcher; + commandDispatcher = nullptr; + + g_NetworkManager.ServerStopped(); +} + +void MinecraftServer::halt() +{ + running = false; +} + +void MinecraftServer::setMaxBuildHeight(int maxBuildHeight) +{ + this->maxBuildHeight = maxBuildHeight; +} + +int MinecraftServer::getMaxBuildHeight() +{ + return maxBuildHeight; +} + +PlayerList *MinecraftServer::getPlayers() +{ + return players; +} + +void MinecraftServer::setPlayers(PlayerList *players) +{ + this->players = players; +} + +ServerConnection *MinecraftServer::getConnection() +{ + return connection; +} + +bool MinecraftServer::isAnimals() +{ + return animals; +} + +void MinecraftServer::setAnimals(bool animals) +{ + this->animals = animals; +} + +bool MinecraftServer::isNpcsEnabled() +{ + return npcs; +} + +void MinecraftServer::setNpcsEnabled(bool npcs) +{ + this->npcs = npcs; +} + +bool MinecraftServer::isPvpAllowed() +{ + return pvp; +} + +void MinecraftServer::setPvpAllowed(bool pvp) +{ + this->pvp = pvp; +} + +bool MinecraftServer::isFlightAllowed() +{ + return allowFlight; +} + +void MinecraftServer::setFlightAllowed(bool allowFlight) +{ + this->allowFlight = allowFlight; +} + +bool MinecraftServer::isCommandBlockEnabled() +{ + return false; //settings.getBoolean("enable-command-block", false); +} + +bool MinecraftServer::isNetherEnabled() +{ + return true; //settings.getBoolean("allow-nether", true); +} + +bool MinecraftServer::isHardcore() +{ + return false; +} + +CommandDispatcher *MinecraftServer::getCommandDispatcher() +{ + return commandDispatcher; +} + +Pos *MinecraftServer::getCommandSenderWorldPosition() +{ + return new Pos(0, 0, 0); +} + +Level *MinecraftServer::getCommandSenderWorld() +{ + return levels[0]; +} + +int MinecraftServer::getSpawnProtectionRadius() +{ + return 16; +} + +bool MinecraftServer::isUnderSpawnProtection(Level *level, int x, int y, int z, shared_ptr player) +{ + if (level->dimension->id != 0) return false; + //if (getPlayers()->getOps()->empty()) return false; + if (getPlayers()->isOp(player->getName())) return false; + if (getSpawnProtectionRadius() <= 0) return false; + + Pos *spawnPos = level->getSharedSpawnPos(); + int xd = Mth::abs(x - spawnPos->x); + int zd = Mth::abs(z - spawnPos->z); + int dist = max(xd, zd); + + return dist <= getSpawnProtectionRadius(); +} + +void MinecraftServer::setForceGameType(bool forceGameType) +{ + this->forceGameType = forceGameType; +} + +bool MinecraftServer::getForceGameType() +{ + return forceGameType; +} + +int64_t MinecraftServer::getCurrentTimeMillis() +{ + return System::currentTimeMillis(); +} + +int MinecraftServer::getPlayerIdleTimeout() +{ + return playerIdleTimeout; +} + +void MinecraftServer::setPlayerIdleTimeout(int playerIdleTimeout) +{ + this->playerIdleTimeout = playerIdleTimeout; +} + +extern int c0a, c0b, c1a, c1b, c1c, c2a, c2b; +void MinecraftServer::run(int64_t seed, void *lpParameter) +{ + NetworkGameInitData *initData = nullptr; + DWORD initSettings = 0; + bool findSeed = false; + if(lpParameter != nullptr) + { + initData = static_cast(lpParameter); + initSettings = app.GetGameHostOption(eGameHostOption_All); + findSeed = initData->findSeed; + m_texturePackId = initData->texturePackId; + } + // try { // 4J - removed try/catch/finally + bool didInit = false; + if (initServer(seed, initData, initSettings,findSeed)) + { + didInit = true; + ServerLevel *levelNormalDimension = levels[0]; + // 4J-PB - Set the Stronghold position in the leveldata if there isn't one in there + Minecraft *pMinecraft = Minecraft::GetInstance(); + LevelData *pLevelData=levelNormalDimension->getLevelData(); + + if(pLevelData && pLevelData->getHasStronghold()==false) + { + int x,z; + if(app.GetTerrainFeaturePosition(eTerrainFeature_Stronghold,&x,&z)) + { + pLevelData->setXStronghold(x); + pLevelData->setZStronghold(z); + pLevelData->setHasStronghold(); + } + } + + int64_t lastTime = getCurrentTimeMillis(); + int64_t unprocessedTime = 0; + while (running && !s_bServerHalted) + { + int64_t now = getCurrentTimeMillis(); + + // 4J Stu - When we pause the server, we don't want to count that as time passed + // 4J Stu - TU-1 hotifx - Remove this line. We want to make sure that we tick connections at the proper rate when paused + //Fix for #13191 - The host of a game can get a message informing them that the connection to the server has been lost + //if(m_isServerPaused) lastTime = now; + + int64_t passedTime = now - lastTime; + if (passedTime > MS_PER_TICK * 40) + { + // logger.warning("Can't keep up! Did the system time change, or is the server overloaded?"); + passedTime = MS_PER_TICK * 40; + } + if (passedTime < 0) + { + // logger.warning("Time ran backwards! Did the system time change?"); + passedTime = 0; + } + unprocessedTime += passedTime; + lastTime = now; + + // 4J Added ability to pause the server + if( !m_isServerPaused ) + { + bool didTick = false; + if (levels[0]->allPlayersAreSleeping()) + { + tick(); + unprocessedTime = 0; + } + else + { + // int tickcount = 0; + // int64_t beforeall = System::currentTimeMillis(); + while (unprocessedTime > MS_PER_TICK) + { + unprocessedTime -= MS_PER_TICK; + chunkPacketManagement_PreTick(); +// int64_t before = System::currentTimeMillis(); + tick(); +// int64_t after = System::currentTimeMillis(); +// PIXReportCounter(L"Server time",(float)(after-before)); + + chunkPacketManagement_PostTick(); + } +// int64_t afterall = System::currentTimeMillis(); +// PIXReportCounter(L"Server time all",(float)(afterall-beforeall)); +// PIXReportCounter(L"Server ticks",(float)tickcount); + } + } + else + { + // 4J Stu - TU1-hotfix + //Fix for #13191 - The host of a game can get a message informing them that the connection to the server has been lost + // The connections should tick at the same frequency even when paused + while (unprocessedTime > MS_PER_TICK) + { + unprocessedTime -= MS_PER_TICK; + // Keep ticking the connections to stop them timing out + connection->tick(); + } + } + if(MinecraftServer::setTimeAtEndOfTick) + { + MinecraftServer::setTimeAtEndOfTick = false; + for (unsigned int i = 0; i < levels.length; i++) + { + // if (i == 0 || settings->getBoolean(L"allow-nether", true)) // 4J removed - we always have nether + { + ServerLevel *level = levels[i]; + level->setGameTime( MinecraftServer::setTime ); + } + } + } + if(MinecraftServer::setTimeOfDayAtEndOfTick) + { + MinecraftServer::setTimeOfDayAtEndOfTick = false; + for (unsigned int i = 0; i < levels.length; i++) + { + if (i == 0 || GetDedicatedServerBool(settings, L"allow-nether", true)) + { + ServerLevel *level = levels[i]; + level->setDayTime( MinecraftServer::setTimeOfDay ); + } + } + } + + // Process delayed actions + eXuiServerAction eAction; + LPVOID param; + for(int i=0;isaveAll(nullptr); + } + + for (unsigned int j = 0; j < levels.length; j++) + { + if( s_bServerHalted ) break; + // 4J Stu - Save the levels in reverse order so we don't overwrite the level.dat + // with the data from the nethers leveldata. + // Fix for #7418 - Functional: Gameplay: Saving after sleeping in a bed will place player at nighttime when restarting. + ServerLevel *level = levels[levels.length - 1 - j]; + PIXBeginNamedEvent(0, "Saving level %d",levels.length - 1 - j); + level->save(false, nullptr, true); + PIXEndNamedEvent(); + } + if( !s_bServerHalted ) + { + PIXBeginNamedEvent(0,"Saving game rules"); + saveGameRules(); + PIXEndNamedEvent(); + + PIXBeginNamedEvent(0,"Save to disc"); + levels[0]->saveToDisc(Minecraft::GetInstance()->progressRenderer, true); + PIXEndNamedEvent(); + } + PIXEndNamedEvent(); + + QueryPerformanceCounter( &qwNewTime ); + qwDeltaTime.QuadPart = qwNewTime.QuadPart - qwTime.QuadPart; + fElapsedTime = fSecsPerTick * ((FLOAT)(qwDeltaTime.QuadPart)); + app.DebugPrintf("Autosave: Elapsed time %f\n", fElapsedTime); + } + break; +#endif + case eXuiServerAction_SaveGame: + app.EnterSaveNotificationSection(); + if (players != nullptr) + { + players->saveAll(nullptr); + } + + players->broadcastAll(std::make_shared(20)); + + for (unsigned int j = 0; j < levels.length; j++) + { + if( s_bServerHalted ) break; + // 4J Stu - Save the levels in reverse order so we don't overwrite the level.dat + // with the data from the nethers leveldata. + // Fix for #7418 - Functional: Gameplay: Saving after sleeping in a bed will place player at nighttime when restarting. + ServerLevel *level = levels[levels.length - 1 - j]; + level->save(true, nullptr, (eAction==eXuiServerAction_AutoSaveGame)); + + players->broadcastAll(std::make_shared(33 + (j * 33))); + } + if( !s_bServerHalted ) + { + saveGameRules(); + + levels[0]->saveToDisc(nullptr, (eAction==eXuiServerAction_AutoSaveGame)); + } + app.LeaveSaveNotificationSection(); + break; + case eXuiServerAction_StopServer: + HaltServer(); + break; + case eXuiServerAction_SpawnMob: + { + shared_ptr player = players->players.at(0); + eINSTANCEOF factory = static_cast((size_t)param); + shared_ptr mob = dynamic_pointer_cast(EntityIO::newByEnumType(factory,player->level )); + mob->moveTo(player->x+1, player->y, player->z+1, player->level->random->nextFloat() * 360, 0); + mob->setDespawnProtected(); // 4J added, default to being protected against despawning (has to be done after initial position is set) + player->level->addEntity(mob); + } + break; + case eXuiServerAction_PauseServer: + m_isServerPaused = ( (size_t) param == TRUE ); + if( m_isServerPaused ) + { + m_serverPausedEvent->Set(); + } + break; + case eXuiServerAction_ToggleRain: + { + bool isRaining = levels[0]->getLevelData()->isRaining(); + levels[0]->getLevelData()->setRaining(!isRaining); + levels[0]->getLevelData()->setRainTime(levels[0]->random->nextInt(Level::TICKS_PER_DAY * 7) + Level::TICKS_PER_DAY / 2); + } + break; + case eXuiServerAction_ToggleThunder: + { + bool isThundering = levels[0]->getLevelData()->isThundering(); + levels[0]->getLevelData()->setThundering(!isThundering); + levels[0]->getLevelData()->setThunderTime(levels[0]->random->nextInt(Level::TICKS_PER_DAY * 7) + Level::TICKS_PER_DAY / 2); + } + break; + case eXuiServerAction_ServerSettingChanged_Gamertags: + players->broadcastAll(std::make_shared(ServerSettingsChangedPacket::HOST_OPTIONS, app.GetGameHostOption(eGameHostOption_Gamertags))); + break; + case eXuiServerAction_ServerSettingChanged_BedrockFog: + players->broadcastAll(std::make_shared(ServerSettingsChangedPacket::HOST_IN_GAME_SETTINGS, app.GetGameHostOption(eGameHostOption_All))); + break; + + case eXuiServerAction_ServerSettingChanged_Difficulty: + players->broadcastAll(std::make_shared(ServerSettingsChangedPacket::HOST_DIFFICULTY, Minecraft::GetInstance()->options->difficulty)); + break; + case eXuiServerAction_ExportSchematic: +#ifndef _CONTENT_PACKAGE + app.EnterSaveNotificationSection(); + + //players->broadcastAll( shared_ptr( new UpdateProgressPacket(20) ) ); + + if( !s_bServerHalted ) + { + ConsoleSchematicFile::XboxSchematicInitParam *initData = static_cast(param); +#ifdef _XBOX + File targetFileDir(File::pathRoot + File::pathSeparator + L"Schematics"); +#else + File targetFileDir(L"Schematics"); +#endif + if(!targetFileDir.exists()) targetFileDir.mkdir(); + + wchar_t filename[128]; + swprintf(filename,128,L"%ls%dx%dx%d.sch",initData->name,(initData->endX - initData->startX + 1), (initData->endY - initData->startY + 1), (initData->endZ - initData->startZ + 1)); + + File dataFile = File( targetFileDir, wstring(filename) ); + if(dataFile.exists()) dataFile._delete(); + FileOutputStream fos = FileOutputStream(dataFile); + DataOutputStream dos = DataOutputStream(&fos); + ConsoleSchematicFile::generateSchematicFile(&dos, levels[0], initData->startX, initData->startY, initData->startZ, initData->endX, initData->endY, initData->endZ, initData->bSaveMobs, initData->compressionType); + dos.close(); + + delete initData; + } + app.LeaveSaveNotificationSection(); +#endif + break; + case eXuiServerAction_SetCameraLocation: +#ifndef _CONTENT_PACKAGE + { + + + // Doesn't work + //player->setYHeadRot(pos->m_yRot); + //player->absMoveTo(pos->m_camX, pos->m_camY, pos->m_camZ, pos->m_yRot, pos->m_elev); + } +#endif + break; + } + + app.SetXuiServerAction(i,eXuiServerAction_Idle); + } + + Sleep(1); + } + } + //else + //{ + // while (running) + // { + // handleConsoleInputs(); + // Sleep(10); + // } + //} +#if 0 +} catch (Throwable t) { + t.printStackTrace(); + logger.log(Level.SEVERE, "Unexpected exception", t); + while (running) { + handleConsoleInputs(); + try { + Thread.sleep(10); + } catch (InterruptedException e1) { + e1.printStackTrace(); + } + } +} finally { + try { + stopServer(); + stopped = true; + } catch (Throwable t) { + t.printStackTrace(); + } finally { + System::exit(0); + } +} +#endif + + // 4J Stu - Stop the server when the loops complete, as the finally would do + stopServer(didInit); + stopped = true; +} + +void MinecraftServer::broadcastStartSavingPacket() +{ + players->broadcastAll(std::make_shared(GameEventPacket::START_SAVING, 0));; +} + +void MinecraftServer::broadcastStopSavingPacket() +{ + if( !s_bServerHalted ) + { + players->broadcastAll(std::make_shared(GameEventPacket::STOP_SAVING, 0));; + } +} + +void MinecraftServer::tick() +{ + vector toRemove; + for ( auto& it : ironTimers ) + { + int t = it.second; + if (t > 0) + { + ironTimers[it.first] = t - 1; + } + else + { + toRemove.push_back(it.first); + } + } + for (const auto& i : toRemove) + { + ironTimers.erase(i); + } + + AABB::resetPool(); + Vec3::resetPool(); + + tickCount++; + + // 4J We need to update client difficulty levels based on the servers + Minecraft *pMinecraft = Minecraft::GetInstance(); + // 4J-PB - sending this on the host changing the difficulty in the menus + // we readd this cause its dedicated hosting and theres no menus + if(m_lastSentDifficulty != pMinecraft->options->difficulty) + { + m_lastSentDifficulty = pMinecraft->options->difficulty; + players->broadcastAll( shared_ptr( new ServerSettingsChangedPacket( ServerSettingsChangedPacket::HOST_DIFFICULTY, pMinecraft->options->difficulty) ) ); + } + + for (unsigned int i = 0; i < levels.length; i++) + { + // if (i == 0 || settings->getBoolean(L"allow-nether", true)) // 4J removed - we always have nether + { + ServerLevel *level = levels[i]; + + // 4J Stu - We set the levels difficulty based on the minecraft options + level->difficulty = app.GetGameHostOption(eGameHostOption_Difficulty); //pMinecraft->options->difficulty; + +#if DEBUG_SERVER_DONT_SPAWN_MOBS + level->setSpawnSettings(false, false); +#else + level->setSpawnSettings(level->difficulty > 0 && !Minecraft::GetInstance()->isTutorial(), animals); +#endif + + if (tickCount % 20 == 0) + { + players->broadcastAll(std::make_shared(level->getGameTime(), level->getDayTime(), level->getGameRules()->getBoolean(GameRules::RULE_DAYLIGHT)), level->dimension->id); + } + // #ifndef __PS3__ + static int64_t stc = 0; + int64_t st0 = System::currentTimeMillis(); + PIXBeginNamedEvent(0,"Level tick %d",i); + static_cast(level)->tick(); + int64_t st1 = System::currentTimeMillis(); + PIXEndNamedEvent(); + PIXBeginNamedEvent(0,"Update lights %d",i); + + int64_t st2 = System::currentTimeMillis(); + PIXEndNamedEvent(); + PIXBeginNamedEvent(0,"Entity tick %d",i); + // 4J added to stop ticking entities in levels when players are not in those levels. + // Note: now changed so that we also tick if there are entities to be removed, as this also happens as a result of calling tickEntities. If we don't do this, then the + // entities get removed at the first point that there is a player count in the level - this has been causing a problem when going from normal dimension -> nether -> normal, + // as the player is getting flagged as to be removed (from the normal dimension) when going to the nether, but Actually gets removed only when it returns + if( ( players->getPlayerCount(level) > 0) || ( level->hasEntitiesToRemove() ) ) + { +#ifdef __PSVITA__ + // AP - the PlayerList->viewDistance initially starts out at 3 to make starting a level speedy + // the problem with this is that spawned monsters are always generated on the edge of the known map + // which means they wont process (unless they are surrounded by 2 visible chunks). This means + // they wont checkDespawn so they are NEVER removed which results in monsters not spawning. + // This bit of hack will modify the view distance once the level is up and running. + int newViewDistance = 5; + level->getServer()->getPlayers()->setViewDistance(newViewDistance); + level->getTracker()->updateMaxRange(); + level->getChunkMap()->setRadius(level->getServer()->getPlayers()->getViewDistance()); +#endif + level->tickEntities(); + } + PIXEndNamedEvent(); + + PIXBeginNamedEvent(0,"Entity tracker tick"); + level->getTracker()->tick(); + PIXEndNamedEvent(); + + int64_t st3 = System::currentTimeMillis(); + // printf(">>>>>>>>>>>>>>>>>>>>>> Tick %d %d %d : %d\n", st1 - st0, st2 - st1, st3 - st2, st0 - stc ); + stc = st0; + // #endif// __PS3__ + } + } + Entity::tickExtraWandering(); // 4J added + + // Process player disconnect/kick queue BEFORE ticking connections. + // PendingConnection::handleLogin rejects duplicate XUIDs, so the old + // player must be removed from PlayerList before a reconnecting client's + // LoginPacket is processed. + PIXBeginNamedEvent(0,"Players tick"); + players->tick(); + PIXEndNamedEvent(); + PIXBeginNamedEvent(0,"Connection tick"); + connection->tick(); + PIXEndNamedEvent(); + + // 4J - removed +#if 0 + for (size_t i = 0; i < tickables.size(); i++) { + tickables.get(i)-tick(); + } +#endif + + // try { // 4J - removed try/catch + handleConsoleInputs(); + // } catch (Exception e) { + // logger.log(Level.WARNING, "Unexpected exception while parsing console command", e); + // } +} + +void MinecraftServer::handleConsoleInput(const wstring& msg, ConsoleInputSource *source) +{ + EnterCriticalSection(&m_consoleInputCS); + consoleInput.push_back(new ConsoleInput(msg, source)); + LeaveCriticalSection(&m_consoleInputCS); +} + +void MinecraftServer::handleConsoleInputs() +{ + vector pendingInputs; + EnterCriticalSection(&m_consoleInputCS); + pendingInputs.swap(consoleInput); + LeaveCriticalSection(&m_consoleInputCS); + + for (size_t i = 0; i < pendingInputs.size(); ++i) + { + ConsoleInput *input = pendingInputs[i]; + ExecuteConsoleCommand(this, input->msg); + delete input; + } +} + +void MinecraftServer::main(int64_t seed, void *lpParameter) +{ +#if __PS3__ + ShutdownManager::HasStarted(ShutdownManager::eServerThread ); +#endif + server = new MinecraftServer(); + server->run(seed, lpParameter); + delete server; + server = nullptr; +} + +void MinecraftServer::HaltServer(bool bPrimaryPlayerSignedOut) +{ + s_bServerHalted = true; + if( server != nullptr ) + { + m_bPrimaryPlayerSignedOut=bPrimaryPlayerSignedOut; + server->halt(); + } +} + +File *MinecraftServer::getFile(const wstring& name) +{ + return new File(name); +} + +void MinecraftServer::info(const wstring& string) +{ + PrintConsoleLine(L"[INFO] ", string); +} + +void MinecraftServer::warn(const wstring& string) +{ + PrintConsoleLine(L"[WARN] ", string); +} + +wstring MinecraftServer::getConsoleName() +{ + return L"CONSOLE"; +} + +ServerLevel *MinecraftServer::getLevel(int dimension) +{ + if (dimension == -1) return levels[1]; + else if (dimension == 1) return levels[2]; + else return levels[0]; +} + +// 4J added +void MinecraftServer::setLevel(int dimension, ServerLevel *level) +{ + if (dimension == -1) levels[1] = level; + else if (dimension == 1) levels[2] = level; + else levels[0] = level; +} + +#if defined _ACK_CHUNK_SEND_THROTTLING +bool MinecraftServer::chunkPacketManagement_CanSendTo(INetworkPlayer *player) +{ + if( s_hasSentEnoughPackets ) return false; + if( player == nullptr ) return false; + + for( size_t i = 0; i < s_sentTo.size(); i++ ) + { + if( s_sentTo[i]->IsSameSystem(player) ) + { + return false; + } + } + +#if defined(__PS3__) || defined(__ORBIS__) || defined(__PSVITA__) + return ( player->GetOutstandingAckCount() < 3 ); +#else + return ( player->GetOutstandingAckCount() < 2 ); +#endif +} + +void MinecraftServer::chunkPacketManagement_DidSendTo(INetworkPlayer *player) +{ + int64_t currentTime = System::currentTimeMillis(); + + if( ( currentTime - s_tickStartTime ) >= MAX_TICK_TIME_FOR_PACKET_SENDS ) + { + s_hasSentEnoughPackets = true; +// app.DebugPrintf("Sending, setting enough packet flag: %dms\n",currentTime - s_tickStartTime); + } + else + { +// app.DebugPrintf("Sending, more time: %dms\n",currentTime - s_tickStartTime); + } + + player->SentChunkPacket(); + + s_sentTo.push_back(player); +} + +void MinecraftServer::chunkPacketManagement_PreTick() +{ +// app.DebugPrintf("*************************************************************************************************************************************************************************\n"); + s_hasSentEnoughPackets = false; + s_tickStartTime = System::currentTimeMillis(); + s_sentTo.clear(); + + vector< shared_ptr > *players = connection->getPlayers(); + + if( players->size() ) + { + vector< shared_ptr > playersOrig = *players; + players->clear(); + + do + { + int longestTime = 0; + auto playerConnectionBest = playersOrig.begin(); + for( auto it = playersOrig.begin(); it != playersOrig.end(); it++) + { + int thisTime = 0; + INetworkPlayer *np = (*it)->getNetworkPlayer(); + if( np ) + { + thisTime = np->GetTimeSinceLastChunkPacket_ms(); + } + + if( thisTime > longestTime ) + { + playerConnectionBest = it; + longestTime = thisTime; + } + } + players->push_back(*playerConnectionBest); + playersOrig.erase(playerConnectionBest); + } while ( playersOrig.size() > 0 ); + } +} + +void MinecraftServer::chunkPacketManagement_PostTick() +{ +} + +#else +// 4J Added - round-robin chunk sends by player index. Compare vs the player at the current queue index, +// not GetSessionIndex() (smallId), so reused smallIds after many connect/disconnects still get chunk sends. +bool MinecraftServer::chunkPacketManagement_CanSendTo(INetworkPlayer *player) +{ + if( player == nullptr ) return false; + + return true; + + int time = GetTickCount(); + DWORD currentPlayerCount = g_NetworkManager.GetPlayerCount(); + if( currentPlayerCount == 0 ) return false; + int index = s_slowQueuePlayerIndex % (int)currentPlayerCount; + INetworkPlayer *queuePlayer = g_NetworkManager.GetPlayerByIndex( index ); + if( queuePlayer != NULL && (player == queuePlayer || player->IsSameSystem(queuePlayer)) && (time - s_slowQueueLastTime) > MINECRAFT_SERVER_SLOW_QUEUE_DELAY ) + { + return true; + } + + return false; +} + +void MinecraftServer::chunkPacketManagement_DidSendTo(INetworkPlayer *player) +{ + s_slowQueuePacketSent = true; +} + +void MinecraftServer::chunkPacketManagement_PreTick() +{ +} + +void MinecraftServer::chunkPacketManagement_PostTick() +{ + // 4J Ensure that the slow queue owner keeps cycling if it's not been used in a while + int time = GetTickCount(); + if( ( s_slowQueuePacketSent ) || ( (time - s_slowQueueLastTime) > ( 2 * MINECRAFT_SERVER_SLOW_QUEUE_DELAY ) ) ) + { +// app.DebugPrintf("Considering cycling: (%d) %d - %d -> %d > %d\n",s_slowQueuePacketSent, time, s_slowQueueLastTime, (time - s_slowQueueLastTime), (2*MINECRAFT_SERVER_SLOW_QUEUE_DELAY)); + MinecraftServer::cycleSlowQueueIndex(); + s_slowQueuePacketSent = false; + s_slowQueueLastTime = time; + } +// else +// { +// app.DebugPrintf("Not considering cycling: %d - %d -> %d > %d\n",time, s_slowQueueLastTime, (time - s_slowQueueLastTime), (2*MINECRAFT_SERVER_SLOW_QUEUE_DELAY)); +// } +} + +void MinecraftServer::cycleSlowQueueIndex() +{ + if( !g_NetworkManager.IsInSession() ) return; + + int startingIndex = s_slowQueuePlayerIndex; + INetworkPlayer *currentPlayer = nullptr; + DWORD currentPlayerCount = 0; + do + { + currentPlayerCount = g_NetworkManager.GetPlayerCount(); + if( startingIndex >= currentPlayerCount ) startingIndex = 0; + ++s_slowQueuePlayerIndex; + + if( currentPlayerCount > 0 ) + { + s_slowQueuePlayerIndex %= currentPlayerCount; + // Fix for #9530 - NETWORKING: Attempting to fill a multiplayer game beyond capacity results in a softlock for the last players to join. + // The QNet session might be ending while we do this, so do a few more checks that the player is real + currentPlayer = g_NetworkManager.GetPlayerByIndex( s_slowQueuePlayerIndex ); + } + else + { + s_slowQueuePlayerIndex = 0; + } + } while ( g_NetworkManager.IsInSession() && + currentPlayerCount > 0 && + s_slowQueuePlayerIndex != startingIndex && + currentPlayer != nullptr && + currentPlayer->IsLocal() + ); +// app.DebugPrintf("Cycled slow queue index to %d\n", s_slowQueuePlayerIndex); +} +#endif + +// 4J added - sets up a vector of flags to indicate which entities (with small Ids) have been removed from the level, but are still haven't constructed a network packet +// to tell a remote client about it. These small Ids shouldn't be re-used. Most of the time this method shouldn't actually do anything, in which case it will return false +// and nothing is set up. +bool MinecraftServer::flagEntitiesToBeRemoved(unsigned int *flags) +{ + bool removedFound = false; + for( unsigned int i = 0; i < levels.length; i++ ) + { + ServerLevel *level = levels[i]; + if( level ) + { + level->flagEntitiesToBeRemoved( flags, &removedFound ); + } + } + return removedFound; +} diff --git a/Minecraft.Client/MinecraftServer.h b/Minecraft.Client/MinecraftServer.h new file mode 100644 index 0000000..3f88328 --- /dev/null +++ b/Minecraft.Client/MinecraftServer.h @@ -0,0 +1,281 @@ +#pragma once +#include "ConsoleInputSource.h" +#include "..\Minecraft.World\ArrayWithLength.h" +#include "..\Minecraft.World\SharedConstants.h" +#include "..\Minecraft.World\C4JThread.h" + +class ServerConnection; +class Settings; +class PlayerList; +class EntityTracker; +class ConsoleInput; +class ConsoleCommands; +class LevelStorageSource; +class ChunkSource; +class INetworkPlayer; +class LevelRuleset; +class LevelType; +class ProgressRenderer; +class CommandDispatcher; + +#if defined(_WINDOWS64) +#define MINECRAFT_SERVER_SLOW_QUEUE_DELAY 0 // Removed slow queue because at large player counts, chunks stopped appearing +#else +#define MINECRAFT_SERVER_SLOW_QUEUE_DELAY 250 +#endif + +#if defined _XBOX_ONE || defined _XBOX || defined __ORBIS__ || defined __PS3__ || defined __PSVITA__ +#define _ACK_CHUNK_SEND_THROTTLING +#endif + +typedef struct _LoadSaveDataThreadParam +{ + LPVOID data; + int64_t fileSize; + const wstring saveName; + _LoadSaveDataThreadParam(LPVOID data, int64_t filesize, const wstring &saveName) : data( data ), fileSize( filesize ), saveName( saveName ) {} +} LoadSaveDataThreadParam; + +typedef struct _NetworkGameInitData +{ + int64_t seed; + LoadSaveDataThreadParam *saveData; + DWORD settings; + LevelGenerationOptions *levelGen; + DWORD texturePackId; + bool findSeed; + unsigned int xzSize; + unsigned char hellScale; + ESavePlatform savePlatform; + wstring levelName; + + _NetworkGameInitData() + { + seed = 0; + saveData = nullptr; + settings = 0; + levelGen = nullptr; + texturePackId = 0; + findSeed = false; + xzSize = LEVEL_LEGACY_WIDTH; + hellScale = HELL_LEVEL_LEGACY_SCALE; + savePlatform = SAVE_FILE_PLATFORM_LOCAL; + } +} NetworkGameInitData; + +using namespace std; + +// 4J Stu - 1.0.1 updates the server to implement the ServerInterface class, but I don't think we will use any of the functions that defines so not implementing here +class MinecraftServer : public ConsoleInputSource +{ +public: + static const int TICK_STATS_SPAN = SharedConstants::TICKS_PER_SECOND * 5; + +// static Logger logger = Logger.getLogger("Minecraft"); + static unordered_map ironTimers; + +private: + static const int DEFAULT_MINECRAFT_PORT = 25565; + static const int MS_PER_TICK = 1000 / SharedConstants::TICKS_PER_SECOND; + + // 4J Stu - Added 1.0.1, Not needed + //wstring localIp; + //int port; +public: + ServerConnection *connection; + Settings *settings; + ServerLevelArray levels; + +private: + PlayerList *players; + + // 4J Stu - Added 1.0.1, Not needed + //long[] tickTimes = new long[TICK_STATS_SPAN]; + //long[][] levelTickTimes; +private: + ConsoleCommands *commands; + bool running; + bool m_bLoaded; +public: + bool stopped; + int tickCount; + +public: + wstring progressStatus; + int progress; +private: +// vector tickables = new ArrayList(); // 4J - removed + CommandDispatcher *commandDispatcher; + vector consoleInput; // 4J - was synchronizedList - TODO - investigate + CRITICAL_SECTION m_consoleInputCS; +public: + bool onlineMode; + bool animals; + bool npcs; + bool pvp; + bool allowFlight; + wstring motd; + int maxBuildHeight; + int playerIdleTimeout; + bool forceGameType; + +private: + // 4J Added + int m_lastSentDifficulty; + +public: + // 4J Stu - This value should be incremented every time the list of players with friends-only UGC settings changes + // It is sent with PreLoginPacket and compared when it comes back in the LoginPacket + DWORD m_ugcPlayersVersion; + + // This value is used to store the texture pack id for the currently loaded world + DWORD m_texturePackId; + +public: + MinecraftServer(); + ~MinecraftServer(); +private: + // 4J Added - LoadSaveDataThreadParam + bool initServer(int64_t seed, NetworkGameInitData *initData, DWORD initSettings, bool findSeed); + void postProcessTerminate(ProgressRenderer *mcprogress); + bool loadLevel(LevelStorageSource *storageSource, const wstring& name, int64_t levelSeed, LevelType *pLevelType, NetworkGameInitData *initData); + void setProgress(const wstring& status, int progress); + void endProgress(); + void saveAllChunks(); + void saveGameRules(); + void stopServer(bool didInit); +#ifdef _LARGE_WORLDS + void overwriteBordersForNewWorldSize(ServerLevel* level); + void overwriteHellBordersForNewWorldSize(ServerLevel* level, int oldHellSize); + +#endif +public: + void setMaxBuildHeight(int maxBuildHeight); + int getMaxBuildHeight(); + PlayerList *getPlayers(); + void setPlayers(PlayerList *players); + ServerConnection *getConnection(); + bool isAnimals(); + void setAnimals(bool animals); + bool isNpcsEnabled(); + void setNpcsEnabled(bool npcs); + bool isPvpAllowed(); + void setPvpAllowed(bool pvp); + bool isFlightAllowed(); + void setFlightAllowed(bool allowFlight); + bool isCommandBlockEnabled(); + bool isNetherEnabled(); + bool isHardcore(); + int getOperatorUserPermissionLevel(); + CommandDispatcher *getCommandDispatcher(); + Pos *getCommandSenderWorldPosition(); + Level *getCommandSenderWorld(); + int getSpawnProtectionRadius(); + bool isUnderSpawnProtection(Level *level, int x, int y, int z, shared_ptr player); + void setForceGameType(bool forceGameType); + bool getForceGameType(); + static int64_t getCurrentTimeMillis(); + int getPlayerIdleTimeout(); + void setPlayerIdleTimeout(int playerIdleTimeout); + +public: + void halt(); + void run(int64_t seed, void *lpParameter); + + void broadcastStartSavingPacket(); + void broadcastStopSavingPacket(); + +private: + void tick(); +public: + void handleConsoleInput(const wstring& msg, ConsoleInputSource *source); + void handleConsoleInputs(); +// void addTickable(Tickable tickable); // 4J removed + static void main(int64_t seed, void *lpParameter); + static void HaltServer(bool bPrimaryPlayerSignedOut=false); + + File *getFile(const wstring& name); + void info(const wstring& string); + void warn(const wstring& string); + wstring getConsoleName(); + ServerLevel *getLevel(int dimension); + void setLevel(int dimension, ServerLevel *level); // 4J added + static MinecraftServer *getInstance() { return server; } // 4J added + static bool serverHalted() { return s_bServerHalted; } + static bool saveOnExitAnswered() { return s_bSaveOnExitAnswered; } + static void resetFlags() { s_bServerHalted = false; s_bSaveOnExitAnswered = false; } + + bool flagEntitiesToBeRemoved(unsigned int *flags); // 4J added +private: + //4J Added + static MinecraftServer *server; + + static bool setTimeOfDayAtEndOfTick; + static int64_t setTimeOfDay; + static bool setTimeAtEndOfTick; + static int64_t setTime; + + static bool m_bPrimaryPlayerSignedOut; // 4J-PB added to tell the stopserver not to save the game - another player may have signed in in their place, so ProfileManager.IsSignedIn isn't enough + static bool s_bServerHalted; // 4J Stu Added so that we can halt the server even before it's been created properly + static bool s_bSaveOnExitAnswered; // 4J Stu Added so that we only ask this question once when we exit + + // 4J - added so that we can have a separate thread for post processing chunks on level creation + static int runPostUpdate(void* lpParam); + C4JThread* m_postUpdateThread; + bool m_postUpdateTerminate; + class postProcessRequest + { + public: + int x, z; + ChunkSource *chunkSource; + postProcessRequest(int x, int z, ChunkSource *chunkSource) : x(x), z(z), chunkSource(chunkSource) {} + }; + vector m_postProcessRequests; + CRITICAL_SECTION m_postProcessCS; +public: + void addPostProcessRequest(ChunkSource *chunkSource, int x, int z); + + static PlayerList *getPlayerList() { if( server != nullptr) return server->players; else return nullptr; } + static void SetTimeOfDay(int64_t time) { setTimeOfDayAtEndOfTick = true; setTimeOfDay = time; } + static void SetTime(int64_t time) { setTimeAtEndOfTick = true; setTime = time; } + + C4JThread::Event* m_serverPausedEvent; +private: + // 4J Added + bool m_isServerPaused; + + // 4J Added - A static that stores the QNet index of the player that is next allowed to send a packet in the slow queue +#ifdef _ACK_CHUNK_SEND_THROTTLING + static bool s_hasSentEnoughPackets; + static int64_t s_tickStartTime; + static vector s_sentTo; + static const int MAX_TICK_TIME_FOR_PACKET_SENDS = 35; +#else + static int s_slowQueuePlayerIndex; + static int s_slowQueueLastTime; + static bool s_slowQueuePacketSent; +#endif + + bool IsServerPaused() { return m_isServerPaused; } + +private: + // 4J Added + bool m_saveOnExit; + bool m_suspending; + +public: + static bool chunkPacketManagement_CanSendTo(INetworkPlayer *player); + static void chunkPacketManagement_DidSendTo(INetworkPlayer *player); +#ifndef _ACK_CHUNK_SEND_THROTTLING + static void cycleSlowQueueIndex(); +#endif + + void chunkPacketManagement_PreTick(); + void chunkPacketManagement_PostTick(); + + void setSaveOnExit(bool save) { m_saveOnExit = save; s_bSaveOnExitAnswered = true; } + void Suspend(); + bool IsSuspending(); + + // 4J Stu - A load of functions were all added in 1.0.1 in the ServerInterface, but I don't think we need any of them +}; diff --git a/Minecraft.Client/Minimap.cpp b/Minecraft.Client/Minimap.cpp new file mode 100644 index 0000000..4f6ccd6 --- /dev/null +++ b/Minecraft.Client/Minimap.cpp @@ -0,0 +1,256 @@ +#include "stdafx.h" +#include "Minecraft.h" +#include "Minimap.h" +#include "Font.h" +#include "Options.h" +#include "Textures.h" +#include "Tesselator.h" +#include "..\Minecraft.World\net.minecraft.world.level.saveddata.h" +#include "..\Minecraft.World\net.minecraft.world.level.material.h" + +#ifdef __ORBIS__ +short Minimap::LUT[256]; // 4J added +#else +int Minimap::LUT[256]; // 4J added +#endif +bool Minimap::genLUT = true; // 4J added + +Minimap::Minimap(Font *font, Options *options, Textures *textures, bool optimised) +{ +#ifdef __PS3__ + // we're using the RSX now to upload textures to vram, so we need the main ram textures allocated from io space + this->pixels = intArray((int*)RenderManager.allocIOMem(w*h*sizeof(int)), 16*16); + +#elif defined __ORBIS__ + this->pixels = shortArray(w*h); +#else + this->pixels = intArray(w*h); +#endif + this->options = options; + this->font = font; + BufferedImage *img = new BufferedImage(w, h, BufferedImage::TYPE_INT_ARGB); +#ifdef __ORBIS__ + mapTexture = textures->getTexture(img, C4JRender::TEXTURE_FORMAT_RxGyBzAw5551, false ); // 4J - make sure we aren't mipmapping as we never set the data for mipmaps +#else + mapTexture = textures->getTexture(img, C4JRender::TEXTURE_FORMAT_RxGyBzAw, false ); // 4J - make sure we aren't mipmapping as we never set the data for mipmaps +#endif + delete img; + for (int i = 0; i < w * h; i++) + { + pixels[i] = 0x00000000; + } + + // 4J added - generate the colour mapping that we'll be needing as a LUT to minimise processing we actually need to do during normal rendering + if( genLUT ) + { + reloadColours(); + } + renderCount = 0; // 4J added + m_optimised = optimised; +} + +void Minimap::reloadColours() +{ + ColourTable *colourTable = Minecraft::GetInstance()->getColourTable(); + // 4J note that this code has been extracted pretty much as it was in Minimap::render, although with some byte order changes + for( int i = 0; i < (14 * 4); i++ ) // 14 material colours currently, 4 brightnesses of each + { + if (i / 4 == 0) + { + // 4J - changed byte order to save having to reorder later +#ifdef __ORBIS__ + LUT[i] = 0; +#else + LUT[i] = (((i + i / w) & 1) * 8 + 16); +#endif + //pixels[i] = (((i + i / w) & 1) * 8 + 16) << 24; + } + else + { + int color = colourTable->getColor( MaterialColor::colors[i / 4]->col ); + int brightness = i & 3; + + int br = 220; + if (brightness == 2) br = 255; + if (brightness == 0) br = 180; + + int r = ((color >> 16) & 0xff) * br / 255; + int g = ((color >> 8) & 0xff) * br / 255; + int b = ((color) & 0xff) * br / 255; + + // 4J - changed byte order to save having to reorder later +#if ( defined _DURANGO || defined _WIN64 || __PSVITA__ ) + LUT[i] = 255 << 24 | b << 16 | g << 8 | r; +#elif defined _XBOX + LUT[i] = 255 << 24 | r << 16 | g << 8 | b; +#elif defined __ORBIS__ + r >>= 3; g >>= 3; b >>= 3; + LUT[i] = 1 << 15 | ( r << 10 ) | ( g << 5 ) | b; +#else + LUT[i] = r << 24 | g << 16 | b << 8 | 255; +#endif + + //pixels[i] = (255) << 24 | r << 16 | g << 8 | b; + } + + } + genLUT = false; +} + +// 4J added entityId +void Minimap::render(shared_ptr player, Textures *textures, shared_ptr data, int entityId) +{ + // 4J - only update every 8 renders, as an optimisation + // We don't want to use this for ItemFrame renders of maps, as then we can't have different maps together + if( !m_optimised || ( renderCount & 7 ) == 0 ) + { + for (int i = 0; i < w * h; i++) + { + int val = data->colors[i]; + // 4J - moved the code that used to run here into a LUT that is generated once in the ctor above + pixels[i] = LUT[val]; + } + } + renderCount++; + + // 4J - changed - have changed texture generation here to put the bytes in the right order already, so we don't have to do any copying round etc. in the texture replacement itself + textures->replaceTextureDirect(pixels, w, h, mapTexture); + + int x = 0; + int y = 0; + Tesselator *t = Tesselator::getInstance(); + + float vo = 0; + + glBindTexture(GL_TEXTURE_2D, mapTexture); + glEnable(GL_BLEND); + glBlendFunc(GL_ONE, GL_ONE_MINUS_SRC_ALPHA); + glDisable(GL_ALPHA_TEST); + t->begin(); + // 4J - moved to -0.02 to stop z fighting ( was -0.01) + // AP - Vita still has issues so push it a bit more + float Offset = -0.02f; +#ifdef __PSVITA__ + Offset = -0.03f; +#endif + t->vertexUV((float)(x + 0 + vo), (float)( y + h - vo), (float)( Offset), static_cast(0), static_cast(1)); + t->vertexUV((float)(x + w - vo), (float)( y + h - vo), (float)( Offset), static_cast(1), static_cast(1)); + t->vertexUV((float)(x + w - vo), (float)( y + 0 + vo), (float)( Offset), static_cast(1), static_cast(0)); + t->vertexUV((float)(x + 0 + vo), (float)( y + 0 + vo), (float)( Offset), static_cast(0), static_cast(0)); + t->end(); + glEnable(GL_ALPHA_TEST); + glDisable(GL_BLEND); + + + textures->bind(textures->loadTexture(TN_MISC_MAPICONS));//L"/misc/mapicons.png")); + +#ifdef _LARGE_WORLDS + vector m_edgeIcons; +#endif + + // 4J-PB - stack the map icons + float fIconZ=-0.04f;// 4J - moved to -0.04 (was -0.02) to stop z fighting + for( MapItemSavedData::MapDecoration *dec : data->decorations ) + { + if(!dec->visible) continue; + + char imgIndex = dec->img; + +#ifdef _LARGE_WORLDS + // For edge icons, use a different texture + if(imgIndex >= 16) + { + m_edgeIcons.push_back(dec); + continue; + } +#endif + + // 4J Stu - For item frame renders, the player is nullptr. We do not want to show player icons on the frames. + if(player == nullptr && (imgIndex != 12)) continue; + else if (player != nullptr && imgIndex == 12) continue; + else if( imgIndex == 12 && dec->entityId != entityId) continue; + + glPushMatrix(); + glTranslatef(x + dec->x / 2.0f + w / 2, y + dec->y / 2.0f + h / 2, fIconZ); + glRotatef(dec->rot * 360 / 16.0f, 0, 0, 1); + glScalef(4, 4, 3); + glTranslatef(-1.0f / 8.0f, +1.0f / 8.0f, 0); + + float u0 = (imgIndex % 4 + 0) / 4.0f; + float v0 = (imgIndex / 4 + 0) / 4.0f; + float u1 = (imgIndex % 4 + 1) / 4.0f; + float v1 = (imgIndex / 4 + 1) / 4.0f; + + t->begin(); + t->vertexUV(static_cast(-1), static_cast(+1), static_cast(0), (float)( u0), (float)( v0)); + t->vertexUV(static_cast(+1), static_cast(+1), static_cast(0), (float)( u1), (float)( v0)); + t->vertexUV(static_cast(+1), static_cast(-1), static_cast(0), (float)( u1), (float)( v1)); + t->vertexUV(static_cast(-1), static_cast(-1), static_cast(0), (float)( u0), (float)( v1)); + t->end(); + glPopMatrix(); + fIconZ-=0.01f; + } + +#ifdef _LARGE_WORLDS + // For players on the edge of the world + textures->bind(textures->loadTexture(TN_MISC_ADDITIONALMAPICONS)); + + fIconZ=-0.04f;// 4J - moved to -0.04 (was -0.02) to stop z fighting + for( MapItemSavedData::MapDecoration *dec : m_edgeIcons ) + { + char imgIndex = dec->img; + imgIndex -= 16; + + // 4J Stu - For item frame renders, the player is nullptr. We do not want to show player icons on the frames. + if(player == nullptr && (imgIndex != 12)) continue; + else if (player != nullptr && imgIndex == 12) continue; + else if( imgIndex == 12 && dec->entityId != entityId) continue; + + glPushMatrix(); + glTranslatef(x + dec->x / 2.0f + w / 2, y + dec->y / 2.0f + h / 2, fIconZ); + glRotatef(dec->rot * 360 / 16.0f, 0, 0, 1); + glScalef(4, 4, 3); + glTranslatef(-1.0f / 8.0f, +1.0f / 8.0f, 0); + + float u0 = (imgIndex % 4 + 0) / 4.0f; + float v0 = (imgIndex / 4 + 0) / 4.0f; + float u1 = (imgIndex % 4 + 1) / 4.0f; + float v1 = (imgIndex / 4 + 1) / 4.0f; + + t->begin(); + t->vertexUV(static_cast(-1), static_cast(+1), static_cast(0), (float)( u0), (float)( v0)); + t->vertexUV(static_cast(+1), static_cast(+1), static_cast(0), (float)( u1), (float)( v0)); + t->vertexUV(static_cast(+1), static_cast(-1), static_cast(0), (float)( u1), (float)( v1)); + t->vertexUV(static_cast(-1), static_cast(-1), static_cast(0), (float)( u0), (float)( v1)); + t->end(); + glPopMatrix(); + fIconZ-=0.01f; + } +#endif + + glPushMatrix(); +// glRotatef(0, 1, 0, 0); + glTranslatef(0, 0, -0.06f); + glScalef(1, 1, 1); +// 4J Stu - Don't render the text name, except in debug +//#if 1 +//#ifdef _DEBUG +// font->draw(data->id, x, y, 0xff000000); +//#else + // 4J Stu - TU-1 hotfix + // DCR: Render the players current position here instead + if(player != nullptr) + { + wchar_t playerPosText[32]; + ZeroMemory(&playerPosText, sizeof(wchar_t) * 32); + int posx = floor(player->x); + int posy = floor(player->y); + int posz = floor(player->z); + swprintf(playerPosText, 32, L"X: %d, Y: %d, Z: %d", posx, posy, posz); + + font->draw(playerPosText, x, y, Minecraft::GetInstance()->getColourTable()->getColour(eMinecraftColour_Map_Text)); + } +//#endif + glPopMatrix(); + +} diff --git a/Minecraft.Client/Minimap.h b/Minecraft.Client/Minimap.h new file mode 100644 index 0000000..758d8a8 --- /dev/null +++ b/Minecraft.Client/Minimap.h @@ -0,0 +1,35 @@ +#pragma once +#include "..\Minecraft.World\MapItem.h" +class Options; +class Font; +class Textures; +class Player; +class MapItemSavedData; + +class Minimap +{ +private: + static const int w = MapItem::IMAGE_WIDTH; + static const int h = MapItem::IMAGE_HEIGHT; +#ifdef __ORBIS__ + static short LUT[256]; // 4J added +#else + static int LUT[256]; // 4J added +#endif + static bool genLUT; // 4J added + int renderCount; // 4J added + bool m_optimised; // 4J Added +#ifdef __ORBIS__ + shortArray pixels; +#else + intArray pixels; +#endif + int mapTexture; + Options *options; + Font *font; + +public: + Minimap(Font *font, Options *options, Textures *textures, bool optimised = true); // 4J Added optimised param + static void reloadColours(); + void render(shared_ptr player, Textures *textures, shared_ptr data, int entityId); // 4J added entityId param +}; diff --git a/Minecraft.Client/MobSkinMemTextureProcessor.cpp b/Minecraft.Client/MobSkinMemTextureProcessor.cpp new file mode 100644 index 0000000..c841c3f --- /dev/null +++ b/Minecraft.Client/MobSkinMemTextureProcessor.cpp @@ -0,0 +1,72 @@ +#include "stdafx.h" +#include "MobSkinMemTextureProcessor.h" + +BufferedImage *MobSkinMemTextureProcessor::process(BufferedImage *in) +{ + if (in == nullptr) return nullptr; + + width = 64; + height = 32; + + BufferedImage *out = new BufferedImage(width, height, BufferedImage::TYPE_INT_ARGB); + Graphics *g = out->getGraphics(); + g->drawImage(in, 0, 0, nullptr); + g->dispose(); + + pixels = out->getData(); + + setNoAlpha(0, 0, 32, 16); + setForceAlpha(32, 0, 64, 32); + setNoAlpha(0, 16, 64, 32); + bool hasAlpha = false; + for (int x = 32; x < 64; x++) + for (int y = 0; y < 16; y++) + { + int pix = pixels[x + y * 64]; + if (((pix >> 24) & 0xff) < 128) hasAlpha = true; + } + + // 4J-PB - looks like the code below is wrong, and really should be looping from 0 to <32 + if (!hasAlpha) + { + for (int x = 32; x < 64; x++) + for (int y = 0; y < 16; y++) + { + int pix = pixels[x + y * 64]; + if (((pix >> 24) & 0xff) < 128) hasAlpha = true; + } + } + + return out; +} + +void MobSkinMemTextureProcessor::setForceAlpha(int x0, int y0, int x1, int y1) +{ + if (hasAlpha(x0, y0, x1, y1)) return; + + for (int x = x0; x < x1; x++) + for (int y = y0; y < y1; y++) + { + pixels[x + y * width] &= 0x00ffffff; + } +} + +void MobSkinMemTextureProcessor::setNoAlpha(int x0, int y0, int x1, int y1) +{ + for (int x = x0; x < x1; x++) + for (int y = y0; y < y1; y++) + { + pixels[x + y * width] |= 0xff000000; + } +} + +bool MobSkinMemTextureProcessor::hasAlpha(int x0, int y0, int x1, int y1) +{ + for (int x = x0; x < x1; x++) + for (int y = y0; y < y1; y++) + { + int pix = pixels[x + y * width]; + if (((pix >> 24) & 0xff) < 128) return true; + } + return false; +} \ No newline at end of file diff --git a/Minecraft.Client/MobSkinMemTextureProcessor.h b/Minecraft.Client/MobSkinMemTextureProcessor.h new file mode 100644 index 0000000..a28f80a --- /dev/null +++ b/Minecraft.Client/MobSkinMemTextureProcessor.h @@ -0,0 +1,16 @@ +#pragma once +#include "MemTextureProcessor.h" + +class MobSkinMemTextureProcessor : public MemTextureProcessor +{ +private: + int *pixels; + int width, height; +public: + virtual BufferedImage *process(BufferedImage *in); + +private: + void setForceAlpha(int x0, int y0, int x1, int y1); + void setNoAlpha(int x0, int y0, int x1, int y1); + bool hasAlpha(int x0, int y0, int x1, int y1); +}; \ No newline at end of file diff --git a/Minecraft.Client/MobSkinTextureProcessor.cpp b/Minecraft.Client/MobSkinTextureProcessor.cpp new file mode 100644 index 0000000..37d2ab4 --- /dev/null +++ b/Minecraft.Client/MobSkinTextureProcessor.cpp @@ -0,0 +1,71 @@ +#include "stdafx.h" +#include "MobSkinTextureProcessor.h" + +BufferedImage *MobSkinTextureProcessor::process(BufferedImage *in) +{ + if (in == nullptr) return nullptr; + + width = 64; + height = 32; + + BufferedImage *out = new BufferedImage(width, height, BufferedImage::TYPE_INT_ARGB); + Graphics *g = out->getGraphics(); + g->drawImage(in, 0, 0, nullptr); + g->dispose(); + + pixels = out->getData(); + + setNoAlpha(0, 0, 32, 16); + setForceAlpha(32, 0, 64, 32); + setNoAlpha(0, 16, 64, 32); + bool hasAlpha = false; + for (int x = 32; x < 64; x++) + for (int y = 0; y < 16; y++) + { + int pix = pixels[x + y * 64]; + if (((pix >> 24) & 0xff) < 128) hasAlpha = true; + } + + if (!hasAlpha) + { + for (int x = 32; x < 64; x++) + for (int y = 0; y < 16; y++) + { + int pix = pixels[x + y * 64]; + if (((pix >> 24) & 0xff) < 128) hasAlpha = true; + } + } + + return out; +} + +void MobSkinTextureProcessor::setForceAlpha(int x0, int y0, int x1, int y1) +{ + if (hasAlpha(x0, y0, x1, y1)) return; + + for (int x = x0; x < x1; x++) + for (int y = y0; y < y1; y++) + { + pixels[x + y * width] &= 0x00ffffff; + } +} + +void MobSkinTextureProcessor::setNoAlpha(int x0, int y0, int x1, int y1) +{ + for (int x = x0; x < x1; x++) + for (int y = y0; y < y1; y++) + { + pixels[x + y * width] |= 0xff000000; + } +} + +bool MobSkinTextureProcessor::hasAlpha(int x0, int y0, int x1, int y1) +{ + for (int x = x0; x < x1; x++) + for (int y = y0; y < y1; y++) + { + int pix = pixels[x + y * width]; + if (((pix >> 24) & 0xff) < 128) return true; + } + return false; +} \ No newline at end of file diff --git a/Minecraft.Client/MobSkinTextureProcessor.h b/Minecraft.Client/MobSkinTextureProcessor.h new file mode 100644 index 0000000..ee51a8a --- /dev/null +++ b/Minecraft.Client/MobSkinTextureProcessor.h @@ -0,0 +1,16 @@ +#pragma once +#include "HttpTextureProcessor.h" + +class MobSkinTextureProcessor : public HttpTextureProcessor +{ +private: + int *pixels; + int width, height; +public: + virtual BufferedImage *process(BufferedImage *in); + +private: + void setForceAlpha(int x0, int y0, int x1, int y1); + void setNoAlpha(int x0, int y0, int x1, int y1); + bool hasAlpha(int x0, int y0, int x1, int y1); +}; \ No newline at end of file diff --git a/Minecraft.Client/MultiPlayerChunkCache.cpp b/Minecraft.Client/MultiPlayerChunkCache.cpp new file mode 100644 index 0000000..62361ce --- /dev/null +++ b/Minecraft.Client/MultiPlayerChunkCache.cpp @@ -0,0 +1,312 @@ +#include "stdafx.h" +#include "MultiPlayerChunkCache.h" +#include "ServerChunkCache.h" +#include "..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\Arrays.h" +#include "..\Minecraft.World\StringHelpers.h" +#include "MinecraftServer.h" +#include "ServerLevel.h" +#include "..\Minecraft.World\Tile.h" +#include "..\Minecraft.World\WaterLevelChunk.h" + +MultiPlayerChunkCache::MultiPlayerChunkCache(Level *level) +{ + XZSIZE = level->dimension->getXZSize(); // 4J Added + XZOFFSET = XZSIZE/2; // 4J Added + m_XZSize = XZSIZE; + hasData = new bool[XZSIZE * XZSIZE]; + memset(hasData, 0, sizeof(bool) * XZSIZE * XZSIZE); + + emptyChunk = new EmptyLevelChunk(level, byteArray(16 * 16 * Level::maxBuildHeight), 0, 0); + + // For normal world dimension, create a chunk that can be used to create the illusion of infinite water at the edge of the world + if( level->dimension->id == 0 ) + { + byteArray bytes = byteArray(16 * 16 * 128); + + // Superflat.... make grass, not water... + if(level->getLevelData()->getGenerator() == LevelType::lvl_flat) + { + for( int x = 0; x < 16; x++ ) + for( int y = 0; y < 128; y++ ) + for( int z = 0; z < 16; z++ ) + { + unsigned char tileId = 0; + if( y == 3 ) tileId = Tile::grass_Id; + else if( y <= 2 ) tileId = Tile::dirt_Id; + + bytes[x << 11 | z << 7 | y] = tileId; + } + } + else + { + for( int x = 0; x < 16; x++ ) + for( int y = 0; y < 128; y++ ) + for( int z = 0; z < 16; z++ ) + { + unsigned char tileId = 0; + if( y <= ( level->getSeaLevel() - 10 ) ) tileId = Tile::stone_Id; + else if( y < level->getSeaLevel() ) tileId = Tile::calmWater_Id; + + bytes[x << 11 | z << 7 | y] = tileId; + } + } + + waterChunk = new WaterLevelChunk(level, bytes, 0, 0); + + delete[] bytes.data; + + if(level->getLevelData()->getGenerator() == LevelType::lvl_flat) + { + for( int x = 0; x < 16; x++ ) + for( int y = 0; y < 128; y++ ) + for( int z = 0; z < 16; z++ ) + { + if( y >= 3 ) + { + static_cast(waterChunk)->setLevelChunkBrightness(LightLayer::Sky,x,y,z,15); + } + } + } + else + { + for( int x = 0; x < 16; x++ ) + for( int y = 0; y < 128; y++ ) + for( int z = 0; z < 16; z++ ) + { + if( y >= ( level->getSeaLevel() - 1 ) ) + { + static_cast(waterChunk)->setLevelChunkBrightness(LightLayer::Sky,x,y,z,15); + } + else + { + static_cast(waterChunk)->setLevelChunkBrightness(LightLayer::Sky,x,y,z,2); + } + } + } + } + else + { + waterChunk = nullptr; + } + + this->level = level; + + this->cache = new LevelChunk *[XZSIZE * XZSIZE]; + memset(this->cache, 0, XZSIZE * XZSIZE * sizeof(LevelChunk *)); + InitializeCriticalSectionAndSpinCount(&m_csLoadCreate,4000); +} + +MultiPlayerChunkCache::~MultiPlayerChunkCache() +{ + delete emptyChunk; + delete waterChunk; + delete cache; + delete hasData; + + for (auto& it : loadedChunkList) + { + if ( it ) + delete it; + } + + DeleteCriticalSection(&m_csLoadCreate); +} + + +bool MultiPlayerChunkCache::hasChunk(int x, int z) +{ + // This cache always claims to have chunks, although it might actually just return empty data if it doesn't have anything + return true; +} + +// 4J added - find out if we actually really do have a chunk in our cache +bool MultiPlayerChunkCache::reallyHasChunk(int x, int z) +{ + int ix = x + XZOFFSET; + int iz = z + XZOFFSET; + // Check we're in range of the stored level - if we aren't, then consider that we do have that chunk as we'll be able to use the water chunk there + if( ( ix < 0 ) || ( ix >= XZSIZE ) ) return true; + if( ( iz < 0 ) || ( iz >= XZSIZE ) ) return true; + int idx = ix * XZSIZE + iz; + + LevelChunk *chunk = cache[idx]; + if( chunk == nullptr ) + { + return false; + } + return hasData[idx]; +} + +void MultiPlayerChunkCache::drop(int x, int z) +{ + // 4J Stu - We do want to drop any entities in the chunks, especially for the case when a player is dead as they will + // not get the RemoveEntity packet if an entity is removed. + LevelChunk *chunk = getChunk(x, z); + if (!chunk->isEmpty()) + { + // Added parameter here specifies that we don't want to delete tile entities, as they won't get recreated unless they've got update packets + // The tile entities are in general only created on the client by virtue of the chunk rebuild + chunk->unload(false); + + // 4J - We just want to clear out the entities in the chunk, but everything else should be valid + chunk->loaded = true; + } +} + +LevelChunk *MultiPlayerChunkCache::create(int x, int z) +{ + int ix = x + XZOFFSET; + int iz = z + XZOFFSET; + // Check we're in range of the stored level + if( ( ix < 0 ) || ( ix >= XZSIZE ) ) return ( waterChunk ? waterChunk : emptyChunk ); + if( ( iz < 0 ) || ( iz >= XZSIZE ) ) return ( waterChunk ? waterChunk : emptyChunk ); + int idx = ix * XZSIZE + iz; + LevelChunk *chunk = cache[idx]; + LevelChunk *lastChunk = chunk; + + if( chunk == nullptr ) + { + EnterCriticalSection(&m_csLoadCreate); + + //LevelChunk *chunk; + if( g_NetworkManager.IsHost() ) // force here to disable sharing of data + { + // 4J-JEV: We are about to use shared data, abort if the server is stopped and the data is deleted. + if (MinecraftServer::getInstance()->serverHalted()) return nullptr; + + // If we're the host, then don't create the chunk, share data from the server's copy +#ifdef _LARGE_WORLDS + LevelChunk *serverChunk = MinecraftServer::getInstance()->getLevel(level->dimension->id)->cache->getChunkLoadedOrUnloaded(x,z); +#else + LevelChunk *serverChunk = MinecraftServer::getInstance()->getLevel(level->dimension->id)->cache->getChunk(x,z); +#endif + chunk = new LevelChunk(level, x, z, serverChunk); + // Let renderer know that this chunk has been created - it might have made render data from the EmptyChunk if it got to a chunk before the server sent it + level->setTilesDirty( x * 16 , 0 , z * 16 , x * 16 + 15, 127, z * 16 + 15); + hasData[idx] = true; + } + else + { + // Passing an empty array into the LevelChunk ctor, which it now detects and sets up the chunk as compressed & empty + byteArray bytes; + + chunk = new LevelChunk(level, bytes, x, z); + + // 4J - changed to use new methods for lighting + chunk->setSkyLightDataAllBright(); + // Arrays::fill(chunk->skyLight->data, (byte) 255); + } + + chunk->loaded = true; + + LeaveCriticalSection(&m_csLoadCreate); + +#if ( defined _WIN64 || defined __LP64__ ) + if( InterlockedCompareExchangeRelease64((LONG64 *)&cache[idx],(LONG64)chunk,(LONG64)lastChunk) == (LONG64)lastChunk ) +#else + if( InterlockedCompareExchangeRelease((LONG *)&cache[idx],(LONG)chunk,(LONG)lastChunk) == (LONG)lastChunk ) +#endif // _DURANGO + { + // If we're sharing with the server, we'll need to calculate our heightmap now, which isn't shared. If we aren't sharing with the server, + // then this will be calculated when the chunk data arrives. + if( g_NetworkManager.IsHost() ) + { + chunk->recalcHeightmapOnly(); + } + + // Successfully updated the cache + EnterCriticalSection(&m_csLoadCreate); + loadedChunkList.push_back(chunk); + LeaveCriticalSection(&m_csLoadCreate); + } + else + { + // Something else must have updated the cache. Return that chunk and discard this one. This really shouldn't be happening + // in multiplayer + delete chunk; + return cache[idx]; + } + + } + else + { + chunk->load(); + } + + return chunk; +} + +LevelChunk *MultiPlayerChunkCache::getChunk(int x, int z) +{ + int ix = x + XZOFFSET; + int iz = z + XZOFFSET; + // Check we're in range of the stored level + if( ( ix < 0 ) || ( ix >= XZSIZE ) ) return ( waterChunk ? waterChunk : emptyChunk ); + if( ( iz < 0 ) || ( iz >= XZSIZE ) ) return ( waterChunk ? waterChunk : emptyChunk ); + int idx = ix * XZSIZE + iz; + + LevelChunk *chunk = cache[idx]; + if( chunk == nullptr ) + { + return emptyChunk; + } + else + { + return chunk; + } +} + +bool MultiPlayerChunkCache::save(bool force, ProgressListener *progressListener) +{ + return true; +} + +bool MultiPlayerChunkCache::tick() +{ + return false; +} + +bool MultiPlayerChunkCache::shouldSave() +{ + return false; +} + +void MultiPlayerChunkCache::postProcess(ChunkSource *parent, int x, int z) +{ +} + +vector *MultiPlayerChunkCache::getMobsAt(MobCategory *mobCategory, int x, int y, int z) +{ + return nullptr; +} + +TilePos *MultiPlayerChunkCache::findNearestMapFeature(Level *level, const wstring &featureName, int x, int y, int z) +{ + return nullptr; +} + +void MultiPlayerChunkCache::recreateLogicStructuresForChunk(int chunkX, int chunkZ) +{ +} + +wstring MultiPlayerChunkCache::gatherStats() +{ + EnterCriticalSection(&m_csLoadCreate); + int size = static_cast(loadedChunkList.size()); + LeaveCriticalSection(&m_csLoadCreate); + return L"MultiplayerChunkCache: " + std::to_wstring(size); + +} + +void MultiPlayerChunkCache::dataReceived(int x, int z) +{ + int ix = x + XZOFFSET; + int iz = z + XZOFFSET; + // Check we're in range of the stored level + if( ( ix < 0 ) || ( ix >= XZSIZE ) ) return; + if( ( iz < 0 ) || ( iz >= XZSIZE ) ) return; + int idx = ix * XZSIZE + iz; + hasData[idx] = true; +} \ No newline at end of file diff --git a/Minecraft.Client/MultiPlayerChunkCache.h b/Minecraft.Client/MultiPlayerChunkCache.h new file mode 100644 index 0000000..c180f85 --- /dev/null +++ b/Minecraft.Client/MultiPlayerChunkCache.h @@ -0,0 +1,48 @@ +#pragma once +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "..\Minecraft.World\RandomLevelSource.h" + +using namespace std; +class ServerChunkCache; + +// 4J - various alterations here to make this thread safe, and operate as a fixed sized cache +class MultiPlayerChunkCache : public ChunkSource +{ + friend class LevelRenderer; +private: + LevelChunk *emptyChunk; + LevelChunk *waterChunk; + + vector loadedChunkList; + + LevelChunk **cache; + // 4J - added for multithreaded support + CRITICAL_SECTION m_csLoadCreate; + // 4J - size of cache is defined by size of one side - must be even + int XZSIZE; + int XZOFFSET; + bool *hasData; + + Level *level; + +public: + MultiPlayerChunkCache(Level *level); + ~MultiPlayerChunkCache(); + virtual bool hasChunk(int x, int z); + virtual bool reallyHasChunk(int x, int z); + virtual void drop(int x, int z); + virtual LevelChunk *create(int x, int z); + virtual LevelChunk *getChunk(int x, int z); + virtual bool save(bool force, ProgressListener *progressListener); + virtual bool tick(); + virtual bool shouldSave(); + virtual void postProcess(ChunkSource *parent, int x, int z); + virtual wstring gatherStats(); + virtual vector *getMobsAt(MobCategory *mobCategory, int x, int y, int z); + virtual TilePos *findNearestMapFeature(Level *level, const wstring &featureName, int x, int y, int z); + virtual void recreateLogicStructuresForChunk(int chunkX, int chunkZ); + virtual void dataReceived(int x, int z); // 4J added + + virtual LevelChunk **getCache() { return cache; } // 4J added +}; \ No newline at end of file diff --git a/Minecraft.Client/MultiPlayerGameMode.cpp b/Minecraft.Client/MultiPlayerGameMode.cpp new file mode 100644 index 0000000..66fc22a --- /dev/null +++ b/Minecraft.Client/MultiPlayerGameMode.cpp @@ -0,0 +1,526 @@ +#include "stdafx.h" +#include "MultiPlayerGameMode.h" +#include "CreativeMode.h" +#include "MultiPlayerLocalPlayer.h" +#include "MultiPlayerLevel.h" +#include "Minecraft.h" +#include "ClientConnection.h" +#include "LevelRenderer.h" +#include "Common\Network\GameNetworkManager.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\net.minecraft.world.inventory.h" +#include "..\Minecraft.World\net.minecraft.h" + +MultiPlayerGameMode::MultiPlayerGameMode(Minecraft *minecraft, ClientConnection *connection) +{ + // 4J - added initialisers + xDestroyBlock = -1; + yDestroyBlock = -1; + zDestroyBlock = -1; + destroyingItem = nullptr; + destroyProgress = 0; + destroyTicks = 0; + destroyDelay = 0; + isDestroying = false; + carriedItem = 0; + localPlayerMode = GameType::SURVIVAL; + this->minecraft = minecraft; + this->connection = connection; +} + +void MultiPlayerGameMode::creativeDestroyBlock(Minecraft *minecraft, MultiPlayerGameMode *gameMode, int x, int y, int z, int face) +{ + if (!minecraft->level->extinguishFire(minecraft->player, x, y, z, face)) + { + gameMode->destroyBlock(x, y, z, face); + } +} + +void MultiPlayerGameMode::adjustPlayer(shared_ptr player) +{ + localPlayerMode->updatePlayerAbilities(&player->abilities); +} + +bool MultiPlayerGameMode::isCutScene() +{ + return false; +} + +void MultiPlayerGameMode::setLocalMode(GameType *mode) +{ + localPlayerMode = mode; + localPlayerMode->updatePlayerAbilities(&minecraft->player->abilities); +} + +void MultiPlayerGameMode::initPlayer(shared_ptr player) +{ + player->yRot = -180; +} + +bool MultiPlayerGameMode::canHurtPlayer() +{ + return localPlayerMode->isSurvival(); +} + +bool MultiPlayerGameMode::destroyBlock(int x, int y, int z, int face) +{ + if (localPlayerMode->isAdventureRestricted()) { + if (!minecraft->player->mayDestroyBlockAt(x, y, z)) { + return false; + } + } + + if (localPlayerMode->isCreative()) + { + if (minecraft->player->getCarriedItem() != nullptr && dynamic_cast(minecraft->player->getCarriedItem()->getItem()) != nullptr) + { + return false; + } + } + + Level *level = minecraft->level; + Tile *oldTile = Tile::tiles[level->getTile(x, y, z)]; + + if (oldTile == nullptr) return false; + + level->levelEvent(LevelEvent::PARTICLES_DESTROY_BLOCK, x, y, z, oldTile->id + (level->getData(x, y, z) << Tile::TILE_NUM_SHIFT)); + + int data = level->getData(x, y, z); + bool changed = level->removeTile(x, y, z); + if (changed) + { + oldTile->destroy(level, x, y, z, data); + } + yDestroyBlock = -1; + + if (!localPlayerMode->isCreative()) + { + shared_ptr item = minecraft->player->getSelectedItem(); + if (item != nullptr) + { + item->mineBlock(level, oldTile->id, x, y, z, minecraft->player); + if (item->count == 0) + { + minecraft->player->removeSelectedItem(); + } + } + } + + return changed; +} + +void MultiPlayerGameMode::startDestroyBlock(int x, int y, int z, int face) +{ + if(!minecraft->player->isAllowedToMine()) return; + + if (localPlayerMode->isAdventureRestricted()) + { + if (!minecraft->player->mayDestroyBlockAt(x, y, z)) + { + return; + } + } + + if (localPlayerMode->isCreative()) + { + // Skip if we just broke a block — prevents double-break on single clicks + if (destroyDelay > 0) return; + + connection->send(std::make_shared(PlayerActionPacket::START_DESTROY_BLOCK, x, y, z, face)); + creativeDestroyBlock(minecraft, this, x, y, z, face); + destroyDelay = 5; + } + else if (!isDestroying || !sameDestroyTarget(x, y, z)) + { + if (isDestroying) + { + connection->send(std::make_shared(PlayerActionPacket::ABORT_DESTROY_BLOCK, xDestroyBlock, yDestroyBlock, zDestroyBlock, face)); + } + connection->send(std::make_shared(PlayerActionPacket::START_DESTROY_BLOCK, x, y, z, face)); + int t = minecraft->level->getTile(x, y, z); + if (t > 0 && destroyProgress == 0) Tile::tiles[t]->attack(minecraft->level, x, y, z, minecraft->player); + if (t > 0 && + (Tile::tiles[t]->getDestroyProgress(minecraft->player, minecraft->player->level, x, y, z) >= 1 + // ||(app.DebugSettingsOn() && app.GetGameSettingsDebugMask(ProfileManager.GetPrimaryPad())&(1L<player->getCarriedItem(); + destroyProgress = 0; + destroyTicks = 0; + minecraft->level->destroyTileProgress(minecraft->player->entityId, xDestroyBlock, yDestroyBlock, zDestroyBlock, static_cast(destroyProgress * 10) - 1); + } + } + +} + +void MultiPlayerGameMode::stopDestroyBlock() +{ + if (isDestroying) + { + connection->send(std::make_shared(PlayerActionPacket::ABORT_DESTROY_BLOCK, xDestroyBlock, yDestroyBlock, zDestroyBlock, -1)); + } + + isDestroying = false; + destroyProgress = 0; + destroyDelay = 0; + minecraft->level->destroyTileProgress(minecraft->player->entityId, xDestroyBlock, yDestroyBlock, zDestroyBlock, -1); +} + +void MultiPlayerGameMode::continueDestroyBlock(int x, int y, int z, int face) +{ + if(!minecraft->player->isAllowedToMine()) return; + ensureHasSentCarriedItem(); +// connection.send(new PlayerActionPacket(PlayerActionPacket.CONTINUE_DESTROY_BLOCK, x, y, z, face)); + + if (destroyDelay > 0) + { + destroyDelay--; + return; + } + + if (localPlayerMode->isCreative()) + { + destroyDelay = 5; + connection->send(std::make_shared(PlayerActionPacket::START_DESTROY_BLOCK, x, y, z, face)); + creativeDestroyBlock(minecraft, this, x, y, z, face); + return; + } + + if (sameDestroyTarget(x, y, z)) + { + int t = minecraft->level->getTile(x, y, z); + if (t == 0) + { + isDestroying = false; + return; + } + Tile *tile = Tile::tiles[t]; + + destroyProgress += tile->getDestroyProgress(minecraft->player, minecraft->player->level, x, y, z); + + if (destroyTicks % 4 == 0) + { + if (tile != nullptr) + { + int iStepSound=tile->soundType->getStepSound(); + + minecraft->soundEngine->play(iStepSound, x + 0.5f, y + 0.5f, z + 0.5f, (tile->soundType->getVolume() + 1) / 8, tile->soundType->getPitch() * 0.5f); + } + } + + destroyTicks++; + + if (destroyProgress >= 1) + { + isDestroying = false; + connection->send(std::make_shared(PlayerActionPacket::STOP_DESTROY_BLOCK, x, y, z, face)); + destroyBlock(x, y, z, face); + destroyProgress = 0; + destroyTicks = 0; + destroyDelay = 5; + } + + minecraft->level->destroyTileProgress(minecraft->player->entityId, xDestroyBlock, yDestroyBlock, zDestroyBlock, static_cast(destroyProgress * 10) - 1); + } + else + { + startDestroyBlock(x, y, z, face); + } + +} + +float MultiPlayerGameMode::getPickRange() +{ + if (localPlayerMode->isCreative()) + { + return 5.0f; + } + return 4.5f; +} + +void MultiPlayerGameMode::tick() +{ + ensureHasSentCarriedItem(); + //minecraft->soundEngine->playMusicTick(); +} + +bool MultiPlayerGameMode::sameDestroyTarget(int x, int y, int z) +{ + shared_ptr selected = minecraft->player->getCarriedItem(); + bool sameItems = destroyingItem == nullptr && selected == nullptr; + if (destroyingItem != nullptr && selected != nullptr) + { + sameItems = + selected->id == destroyingItem->id && + ItemInstance::tagMatches(selected, destroyingItem) && + (selected->isDamageableItem() || selected->getAuxValue() == destroyingItem->getAuxValue()); + } + return x == xDestroyBlock && y == yDestroyBlock && z == zDestroyBlock && sameItems; +} + +void MultiPlayerGameMode::ensureHasSentCarriedItem() +{ + int newItem = minecraft->player->inventory->selected; + if (newItem != carriedItem) + { + carriedItem = newItem; + connection->send(std::make_shared(carriedItem)); + } +} + +bool MultiPlayerGameMode::useItemOn(shared_ptr player, Level *level, shared_ptr item, int x, int y, int z, int face, Vec3 *hit, bool bTestUseOnly, bool *pbUsedItem) +{ + if( pbUsedItem ) *pbUsedItem = false; // Did we actually use the held item? + + // 4J-PB - Adding a test only version to allow tooltips to be displayed + if(!bTestUseOnly) + { + ensureHasSentCarriedItem(); + } + float clickX = static_cast(hit->x) - x; + float clickY = static_cast(hit->y) - y; + float clickZ = static_cast(hit->z) - z; + bool didSomething = false; + + if (!player->isSneaking() || player->getCarriedItem() == nullptr) + { + int t = level->getTile(x, y, z); + if (t > 0 && player->isAllowedToUse(Tile::tiles[t])) + { + if(bTestUseOnly) + { + switch(t) + { + case Tile::jukebox_Id: + case Tile::bed_Id: // special case for a bed + if (Tile::tiles[t]->TestUse(level, x, y, z, player )) + { + return true; + } + else if (t==Tile::bed_Id) // 4J-JEV: You can still use items on record players (ie. set fire to them). + { + // bed is too far away, or something + return false; + } + break; + default: + if (Tile::tiles[t]->TestUse()) return true; + break; + } + } + else + { + if (Tile::tiles[t]->use(level, x, y, z, player, face, clickX, clickY, clickZ)) didSomething = true; + } + } + } + + if (!didSomething && item != nullptr && dynamic_cast(item->getItem())) + { + TileItem *tile = dynamic_cast(item->getItem()); + if (!tile->mayPlace(level, x, y, z, face, player, item)) return false; + } + + // 4J Stu - In Java we send the use packet before the above check for item being nullptr + // so the following never gets executed but the packet still gets sent (for opening chests etc) + if(item != nullptr) + { + if(!didSomething && player->isAllowedToUse(item)) + { + if (localPlayerMode->isCreative()) + { + int aux = item->getAuxValue(); + int count = item->count; + didSomething = item->useOn(player, level, x, y, z, face, clickX, clickY, clickZ, bTestUseOnly); + item->setAuxValue(aux); + item->count = count; + } + else + { + didSomething = item->useOn(player, level, x, y, z, face, clickX, clickY, clickZ, bTestUseOnly); + } + if( didSomething ) + { + if( pbUsedItem ) *pbUsedItem = true; + } + } + } + else + { + int t = level->getTile(x, y, z); + // 4J - Bit of a hack, however seems preferable to any larger changes which would have more chance of causing unwanted side effects. + // If we aren't going to be actually performing the use method locally, then call this method with its "soundOnly" parameter set to true. + // This is an addition from the java version, and as its name suggests, doesn't actually perform the use locally but just makes any sounds that + // are meant to be directly caused by this. If we don't do this, then the sounds never happen as the tile's use method is only called on the + // server, and that won't allow any sounds that are directly made, or broadcast back level events to us that would make the sound, since we are + // the source of the event. + // --------------------------------------------------------------------------------- + // Only call soundOnly version if we didn't already call the tile's use method above + if( !didSomething && ( t > 0 ) && ( !bTestUseOnly ) && player->isAllowedToUse(Tile::tiles[t]) ) + { + Tile::tiles[t]->use(level, x, y, z, player, face, clickX, clickY, clickZ, true); + } + } + + // 4J Stu - Do the action before we send the packet, so that our predicted count is sent in the packet and the server + // doesn't think it has to update us + // Fix for #7904 - Gameplay: Players can dupe torches by throwing them repeatedly into water. + if(!bTestUseOnly) + { + connection->send(std::make_shared(x, y, z, face, player->inventory->getSelected(), clickX, clickY, clickZ)); + } + return didSomething; +} + +bool MultiPlayerGameMode::useItem(shared_ptr player, Level *level, shared_ptr item, bool bTestUseOnly) +{ + if(!player->isAllowedToUse(item)) return false; + + // 4J-PB - Adding a test only version to allow tooltips to be displayed + if(!bTestUseOnly) + { + ensureHasSentCarriedItem(); + } + + // 4J Stu - Do the action before we send the packet, so that our predicted count is sent in the packet and the server + // doesn't think it has to update us, or can update us if we are wrong + // Fix for #13120 - Using a bucket of water or lava in the spawn area (centre of the map) causes the inventory to get out of sync + bool result = false; + + // 4J-PB added for tooltips to test use only + if(bTestUseOnly) + { + result = item->TestUse(item, level, player); + } + else + { + int oldCount = item->count; + shared_ptr itemInstance = item->use(level, player); + if ((itemInstance != nullptr && itemInstance != item) || (itemInstance != nullptr && itemInstance->count != oldCount)) + { + player->inventory->items[player->inventory->selected] = itemInstance; + if (itemInstance->count == 0) + { + player->inventory->items[player->inventory->selected] = nullptr; + } + result = true; + } + } + + if(!bTestUseOnly) + { + connection->send(std::make_shared(-1, -1, -1, 255, player->inventory->getSelected(), 0, 0, 0)); + } + return result; +} + +shared_ptr MultiPlayerGameMode::createPlayer(Level *level) +{ + return std::make_shared(minecraft, level, minecraft->user, connection); +} + +void MultiPlayerGameMode::attack(shared_ptr player, shared_ptr entity) +{ + ensureHasSentCarriedItem(); + connection->send(std::make_shared(player->entityId, entity->entityId, InteractPacket::ATTACK)); + player->attack(entity); +} + +bool MultiPlayerGameMode::interact(shared_ptr player, shared_ptr entity) +{ + ensureHasSentCarriedItem(); + connection->send(std::make_shared(player->entityId, entity->entityId, InteractPacket::INTERACT)); + return player->interact(entity); +} + +shared_ptr MultiPlayerGameMode::handleInventoryMouseClick(int containerId, int slotNum, int buttonNum, bool quickKeyHeld, shared_ptr player) +{ + short changeUid = player->containerMenu->backup(player->inventory); + + shared_ptr clicked = player->containerMenu->clicked(slotNum, buttonNum, quickKeyHeld?AbstractContainerMenu::CLICK_QUICK_MOVE:AbstractContainerMenu::CLICK_PICKUP, player); + connection->send(std::make_shared(containerId, slotNum, buttonNum, quickKeyHeld, clicked, changeUid)); + + return clicked; +} + +void MultiPlayerGameMode::handleInventoryButtonClick(int containerId, int buttonId) +{ + connection->send(std::make_shared(containerId, buttonId)); +} + +void MultiPlayerGameMode::handleCreativeModeItemAdd(shared_ptr clicked, int slot) +{ + if (localPlayerMode->isCreative()) + { + connection->send(std::make_shared(slot, clicked)); + } +} + +void MultiPlayerGameMode::handleCreativeModeItemDrop(shared_ptr clicked) +{ + if (localPlayerMode->isCreative() && clicked != nullptr) + { + connection->send(std::make_shared(-1, clicked)); + } +} + +void MultiPlayerGameMode::releaseUsingItem(shared_ptr player) +{ + ensureHasSentCarriedItem(); + connection->send(std::make_shared(PlayerActionPacket::RELEASE_USE_ITEM, 0, 0, 0, 255)); + player->releaseUsingItem(); +} + +bool MultiPlayerGameMode::hasExperience() +{ + return localPlayerMode->isSurvival(); +} + +bool MultiPlayerGameMode::hasMissTime() +{ + return !localPlayerMode->isCreative(); +} + +bool MultiPlayerGameMode::hasInfiniteItems() +{ + return localPlayerMode->isCreative(); +} + +bool MultiPlayerGameMode::hasFarPickRange() +{ + return localPlayerMode->isCreative(); +} + +// Returns true when the inventory is opened from the server-side. Currently +// only happens when the player is riding a horse. +bool MultiPlayerGameMode::isServerControlledInventory() +{ + return minecraft->player->isRiding() && minecraft->player->riding->instanceof(eTYPE_HORSE); +} + +bool MultiPlayerGameMode::handleCraftItem(int recipe, shared_ptr player) +{ + short changeUid = player->containerMenu->backup(player->inventory); + + connection->send(std::make_shared(recipe, changeUid)); + + return true; +} + +void MultiPlayerGameMode::handleDebugOptions(unsigned int uiVal, shared_ptr player) +{ + player->SetDebugOptions(uiVal); + connection->send(std::make_shared(uiVal)); +} diff --git a/Minecraft.Client/MultiPlayerGameMode.h b/Minecraft.Client/MultiPlayerGameMode.h new file mode 100644 index 0000000..fb21bb6 --- /dev/null +++ b/Minecraft.Client/MultiPlayerGameMode.h @@ -0,0 +1,69 @@ +#pragma once +#include "GameMode.h" +class ClientConnection; +class GameType; +class Vec3; + +class MultiPlayerGameMode +{ +private: + int xDestroyBlock; + int yDestroyBlock; + int zDestroyBlock; + shared_ptr destroyingItem; + float destroyProgress; + int destroyTicks; // 4J was float but doesn't seem to need to be + int destroyDelay; + bool isDestroying; + GameType *localPlayerMode; + ClientConnection *connection; + +protected: + Minecraft *minecraft; + +public: + MultiPlayerGameMode(Minecraft *minecraft, ClientConnection *connection); + static void creativeDestroyBlock(Minecraft *minecraft, MultiPlayerGameMode *gameMode, int x, int y, int z, int face); + void adjustPlayer(shared_ptr player); + bool isCutScene(); + void setLocalMode(GameType *mode); + virtual void initPlayer(shared_ptr player); + virtual bool canHurtPlayer(); + virtual bool destroyBlock(int x, int y, int z, int face); + virtual void startDestroyBlock(int x, int y, int z, int face); + virtual void stopDestroyBlock(); + virtual void continueDestroyBlock(int x, int y, int z, int face); + virtual float getPickRange(); + virtual void tick(); +private: + int carriedItem; + +private: + bool sameDestroyTarget(int x, int y, int z); + void ensureHasSentCarriedItem(); +public: + virtual bool useItemOn(shared_ptr player, Level *level, shared_ptr item, int x, int y, int z, int face, Vec3 *hit, bool bTestUseOnly=false, bool *pbUsedItem=nullptr); + virtual bool useItem(shared_ptr player, Level *level, shared_ptr item, bool bTestUseOnly=false); + virtual shared_ptr createPlayer(Level *level); + virtual void attack(shared_ptr player, shared_ptr entity); + virtual bool interact(shared_ptr player, shared_ptr entity); + virtual shared_ptr handleInventoryMouseClick(int containerId, int slotNum, int buttonNum, bool quickKeyHeld, shared_ptr player); + virtual void handleInventoryButtonClick(int containerId, int buttonId); + virtual void handleCreativeModeItemAdd(shared_ptr clicked, int slot); + virtual void handleCreativeModeItemDrop(shared_ptr clicked); + virtual void releaseUsingItem(shared_ptr player); + virtual bool hasExperience(); + virtual bool hasMissTime(); + virtual bool hasInfiniteItems(); + virtual bool hasFarPickRange(); + virtual bool isServerControlledInventory(); + + // 4J Stu - Added so we can send packets for this in the network game + virtual bool handleCraftItem(int recipe, shared_ptr player); + virtual void handleDebugOptions(unsigned int uiVal, shared_ptr player); + + // 4J Stu - Added for tutorial checks + virtual bool isInputAllowed(int mapping) { return true; } + virtual bool isTutorial() { return false; } + virtual Tutorial *getTutorial() { return nullptr; } +}; \ No newline at end of file diff --git a/Minecraft.Client/MultiPlayerLevel.cpp b/Minecraft.Client/MultiPlayerLevel.cpp new file mode 100644 index 0000000..4aede44 --- /dev/null +++ b/Minecraft.Client/MultiPlayerLevel.cpp @@ -0,0 +1,962 @@ +#include "stdafx.h" +#include "MultiPlayerLevel.h" +#include "MultiPlayerLocalPlayer.h" +#include "ClientConnection.h" +#include "MultiPlayerChunkCache.h" +#include "..\Minecraft.World\net.minecraft.world.level.storage.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\Pos.h" +#include "MinecraftServer.h" +#include "ServerLevel.h" +#include "Minecraft.h" +#include "FireworksParticles.h" +#include "..\Minecraft.World\PrimedTnt.h" +#include "..\Minecraft.World\Tile.h" +#include "..\Minecraft.World\TileEntity.h" +#include "..\Minecraft.World\JavaMath.h" + +MultiPlayerLevel::ResetInfo::ResetInfo(int x, int y, int z, int tile, int data) +{ + this->x = x; + this->y = y; + this->z = z; + ticks = TICKS_BEFORE_RESET; + this->tile = tile; + this->data = data; +} + +MultiPlayerLevel::MultiPlayerLevel(ClientConnection *connection, LevelSettings *levelSettings, int dimension, int difficulty) + : Level(std::make_shared(), L"MpServer", Dimension::getNew(dimension), levelSettings, false) +{ + minecraft = Minecraft::GetInstance(); + + // 4J - this this used to be called in parent ctor via a virtual fn + chunkSource = createChunkSource(); + // 4J - optimisation - keep direct reference of underlying cache here + chunkSourceCache = chunkSource->getCache(); + chunkSourceXZSize = chunkSource->m_XZSize; + + // This also used to be called in parent ctor, but can't be called until chunkSource is created. Call now if required. + if (!levelData->isInitialized()) + { + initializeLevel(levelSettings); + levelData->setInitialized(true); + } + + if(connection !=nullptr) + { + this->connections.push_back( connection ); + } + this->difficulty = difficulty; + // Fix for #62566 - TU7: Content: Gameplay: Compass needle stops pointing towards the original spawn point, once the player has entered the Nether. + // 4J Stu - We should never be setting a specific spawn position for a multiplayer, this should only be set by receiving a packet from the server + // (which happens when a player logs in) + //setSpawnPos(new Pos(8, 64, 8)); + // The base ctor already has made some storage, so need to delete that + if( this->savedDataStorage ) delete savedDataStorage; + if(connection !=nullptr) + { + savedDataStorage = connection->savedDataStorage; + } + unshareCheckX = 0; + unshareCheckZ = 0; + compressCheckX = 0; + compressCheckZ = 0; + + // 4J Added, as there are some times when we don't want to add tile updates to the updatesToReset vector + m_bEnableResetChanges = true; +} + +MultiPlayerLevel::~MultiPlayerLevel() +{ + // Don't let the base class delete this, it comes from the connection for multiplayerlevels, and we'll delete there + this->savedDataStorage = nullptr; +} + +void MultiPlayerLevel::unshareChunkAt(int x, int z) +{ + if( g_NetworkManager.IsHost() ) + { + Level::getChunkAt(x,z)->stopSharingTilesAndData(); + } +} + +void MultiPlayerLevel::shareChunkAt(int x, int z) +{ + if( g_NetworkManager.IsHost() ) + { + Level::getChunkAt(x,z)->startSharingTilesAndData(); + } +} + + +void MultiPlayerLevel::tick() +{ + PIXBeginNamedEvent(0,"Sky color changing"); + setGameTime(getGameTime() + 1); + if (getGameRules()->getBoolean(GameRules::RULE_DAYLIGHT)) + { + // 4J: Debug setting added to keep it at day time +#ifndef _FINAL_BUILD + bool freezeTime = app.DebugSettingsOn() && app.GetGameSettingsDebugMask(ProfileManager.GetPrimaryPad())&(1L<getSkyDarken(1); + if (newDark != skyDarken) + { + skyDarken = newDark; + for (unsigned int i = 0; i < listeners.size(); i++) + { + listeners[i]->skyColorChanged(); + } + }*/ + PIXEndNamedEvent(); + + PIXBeginNamedEvent(0,"Entity re-entry"); + EnterCriticalSection(&m_entitiesCS); + for (int i = 0; i < 10 && !reEntries.empty(); i++) + { + shared_ptr e = *(reEntries.begin()); + + if (find(entities.begin(), entities.end(), e) == entities.end() ) addEntity(e); + } + LeaveCriticalSection(&m_entitiesCS); + PIXEndNamedEvent(); + + PIXBeginNamedEvent(0,"Connection ticking"); + // 4J HEG - Copy the connections vector to prevent crash when moving to Nether + vector connectionsTemp = connections; + for (auto connection : connectionsTemp ) + { + if ( connection ) + connection->tick(); + } + PIXEndNamedEvent(); + + PIXBeginNamedEvent(0,"Updating resets"); + unsigned int lastIndexToRemove = 0; + bool eraseElements = false; + for (unsigned int i = 0; i < updatesToReset.size(); i++) + { + ResetInfo& r = updatesToReset[i]; + if (--r.ticks == 0) + { + Level::setTileAndData(r.x, r.y, r.z, r.tile, r.data, Tile::UPDATE_ALL); + Level::sendTileUpdated(r.x, r.y, r.z); + + //updatesToReset.erase(updatesToReset.begin()+i); + eraseElements = true; + lastIndexToRemove = 0; + + i--; + } + } + // 4J Stu - As elements in the updatesToReset vector are inserted with a fixed initial lifetime, the elements at the front should always be the oldest + // Therefore we can always remove from the first element + if(eraseElements) + { + updatesToReset.erase(updatesToReset.begin(), updatesToReset.begin()+lastIndexToRemove); + } + PIXEndNamedEvent(); + + chunkCache->tick(); + tickTiles(); + + // 4J - added this section. Each tick we'll check a different block, and force it to share data if it has been + // more than 2 minutes since we last wanted to unshare it. This shouldn't really ever happen, and is added + // here as a safe guard against accumulated memory leaks should a lot of chunks become unshared over time. + + int ls = dimension->getXZSize(); + if( g_NetworkManager.IsHost() ) + { + if( Level::reallyHasChunk(unshareCheckX - ( ls / 2), unshareCheckZ - ( ls / 2 ) ) ) + { + LevelChunk *lc = Level::getChunk(unshareCheckX - ( ls / 2), unshareCheckZ - ( ls / 2 )); + if( g_NetworkManager.IsHost() ) + { + lc->startSharingTilesAndData(1000 * 60 * 2); + } + } + + unshareCheckX++; + if( unshareCheckX >= ls ) + { + unshareCheckX = 0; + unshareCheckZ++; + if( unshareCheckZ >= ls ) + { + unshareCheckZ = 0; + } + } + } + + // 4J added - also similar thing tosee if we can compress the lighting in any of these chunks. This is slightly different + // as it does try to make sure that at least one chunk has something done to it. + + // At most loop round at least one row the chunks, so we should be able to at least find a non-empty chunk to do something with in 2.7 seconds of ticks, and process the whole thing in about 2.4 minutes. + for( int i = 0; i < ls; i++ ) + { + compressCheckX++; + if( compressCheckX >= ls ) + { + compressCheckX = 0; + compressCheckZ++; + if( compressCheckZ >= ls ) + { + compressCheckZ = 0; + } + } + + if( Level::reallyHasChunk(compressCheckX - ( ls / 2), compressCheckZ - ( ls / 2 ) ) ) + { + LevelChunk *lc = Level::getChunk(compressCheckX - ( ls / 2), compressCheckZ - ( ls / 2 )); + lc->compressLighting(); + lc->compressBlocks(); + lc->compressData(); + break; + } + } + +#ifdef LIGHT_COMPRESSION_STATS + static int updateTick = 0; + + if( ( updateTick % 60 ) == 0 ) + { + unsigned int totalBLu = 0; + unsigned int totalBLl = 0; + unsigned int totalSLu = 0; + unsigned int totalSLl = 0; + unsigned int totalChunks = 0; + + for( int lcs_x = 0; lcs_x < ls; lcs_x++ ) + for( int lcs_z = 0; lcs_z < ls; lcs_z++ ) + { + if( Level::reallyHasChunk(lcs_x - ( ls / 2), lcs_z - ( ls / 2 ) ) ) + { + LevelChunk *lc = Level::getChunk(lcs_x - ( ls / 2), lcs_z - ( ls / 2 )); + totalChunks++; + totalBLu += lc->getBlockLightPlanesUpper(); + totalBLl += lc->getBlockLightPlanesLower(); + totalSLu += lc->getSkyLightPlanesUpper(); + totalSLl += lc->getSkyLightPlanesLower(); + } + } + if( totalChunks ) + { + MEMORYSTATUS memStat; + GlobalMemoryStatus(&memStat); + + unsigned int totalBL = totalBLu + totalBLl; + unsigned int totalSL = totalSLu + totalSLl; + printf("%d: %d chunks, %d BL (%d + %d), %d SL (%d + %d ) (out of %d) - total %d %% (%dMB mem free)\n", + dimension->id, totalChunks, totalBL, totalBLu, totalBLl, totalSL, totalSLu, totalSLl, totalChunks * 256, ( 100 * (totalBL + totalSL) ) / ( totalChunks * 256 * 2),memStat.dwAvailPhys/(1024*1024) ); + } + } + updateTick++; + +#endif + +#ifdef DATA_COMPRESSION_STATS + static int updateTick = 0; + + if( ( updateTick % 60 ) == 0 ) + { + unsigned int totalData = 0; + unsigned int totalChunks = 0; + + for( int lcs_x = 0; lcs_x < ls; lcs_x++ ) + for( int lcs_z = 0; lcs_z < ls; lcs_z++ ) + { + if( Level::reallyHasChunk(lcs_x - ( ls / 2), lcs_z - ( ls / 2 ) ) ) + { + LevelChunk *lc = Level::getChunk(lcs_x - ( ls / 2), lcs_z - ( ls / 2 )); + totalChunks++; + totalData += lc->getDataPlanes(); + } + } + if( totalChunks ) + { + MEMORYSTATUS memStat; + GlobalMemoryStatus(&memStat); + + printf("%d: %d chunks, %d data (out of %d) - total %d %% (%dMB mem free)\n", + dimension->id, totalChunks, totalData, totalChunks * 128, ( 100 * totalData)/ ( totalChunks * 128),memStat.dwAvailPhys/(1024*1024) ); + } + } + updateTick++; + +#endif + +#ifdef BLOCK_COMPRESSION_STATS + static int updateTick = 0; + + if( ( updateTick % 60 ) == 0 ) + { + unsigned int total = 0; + unsigned int totalChunks = 0; + unsigned int total0 = 0, total1 = 0, total2 = 0, total4 = 0, total8 = 0; + + printf("*****************************************************************************************************************************************\n"); + printf("TODO: Report upper chunk data as well\n"); + for( int lcs_x = 0; lcs_x < ls; lcs_x++ ) + for( int lcs_z = 0; lcs_z < ls; lcs_z++ ) + { + if( Level::reallyHasChunk(lcs_x - ( ls / 2), lcs_z - ( ls / 2 ) ) ) + { + LevelChunk *lc = Level::getChunk(lcs_x - ( ls / 2), lcs_z - ( ls / 2 )); + totalChunks++; + int i0, i1, i2, i4, i8; + int thisSize = lc->getBlocksAllocatedSize(&i0, &i1, &i2, &i4, &i8); + total0 += i0; + total1 += i1; + total2 += i2; + total4 += i4; + total8 += i8; + printf("%d ",thisSize); + thisSize = ( thisSize + 0xfff ) & 0xfffff000; // round to 4096k blocks for actual memory consumption + total += thisSize; + } + } + printf("\n*****************************************************************************************************************************************\n"); + if( totalChunks ) + { + printf("%d (0) %d (1) %d (2) %d (4) %d (8)\n",total0/totalChunks,total1/totalChunks,total2/totalChunks,total4/totalChunks,total8/totalChunks); + MEMORYSTATUS memStat; + GlobalMemoryStatus(&memStat); + + printf("%d: %d chunks, %d KB (out of %dKB) : %d %% (%dMB mem free)\n", + dimension->id, totalChunks, total/1024, totalChunks * 32, ( ( total / 1024 ) * 100 ) / ( totalChunks * 32),memStat.dwAvailPhys/(1024*1024) ); + } + } + updateTick++; +#endif + + // super.tick(); + +} + +void MultiPlayerLevel::clearResetRegion(int x0, int y0, int z0, int x1, int y1, int z1) +{ + for (unsigned int i = 0; i < updatesToReset.size(); i++) + { + ResetInfo& r = updatesToReset[i]; + if (r.x >= x0 && r.y >= y0 && r.z >= z0 && r.x <= x1 && r.y <= y1 && r.z <= z1) + { + updatesToReset.erase(updatesToReset.begin()+i); + i--; + } + } +} + +ChunkSource *MultiPlayerLevel::createChunkSource() +{ + chunkCache = new MultiPlayerChunkCache(this); + + return chunkCache; +} + +void MultiPlayerLevel::validateSpawn() +{ + // Fix for #62566 - TU7: Content: Gameplay: Compass needle stops pointing towards the original spawn point, once the player has entered the Nether. + // 4J Stu - We should never be setting a specific spawn position for a multiplayer, this should only be set by receiving a packet from the server + // (which happens when a player logs in) + //setSpawnPos(new Pos(8, 64, 8)); +} + +void MultiPlayerLevel::tickTiles() +{ + chunksToPoll.clear(); // 4J - added or else we don't reset this set at all in a multiplayer level... think current java now resets in buildAndPrepareChunksToPoll rather than the calling functions + + PIXBeginNamedEvent(0,"Ticking tiles (multiplayer)"); + PIXBeginNamedEvent(0,"buildAndPrepareChunksToPoll"); + Level::tickTiles(); + PIXEndNamedEvent(); + + PIXBeginNamedEvent(0,"Ticking client side tiles"); +#ifdef __PSVITA__ + // AP - see CustomSet.h for and explanation + for( int i = 0;i < chunksToPoll.end();i += 1 ) + { + ChunkPos cp = chunksToPoll.get(i); +#else + for (ChunkPos cp : chunksToPoll) + { +#endif + int xo = cp.x * 16; + int zo = cp.z * 16; + + LevelChunk *lc = getChunk(cp.x, cp.z); + + tickClientSideTiles(xo, zo, lc); + } + PIXEndNamedEvent(); + PIXEndNamedEvent(); +} + +void MultiPlayerLevel::setChunkVisible(int x, int z, bool visible) +{ + if (visible) + { + chunkCache->create(x, z); + } + else + { + chunkCache->drop(x, z); + } + if (!visible) + { + setTilesDirty(x * 16, 0, z * 16, x * 16 + 15, Level::maxBuildHeight, z * 16 + 15); + } + +} + +bool MultiPlayerLevel::addEntity(shared_ptr e) +{ + bool ok = Level::addEntity(e); + forced.insert(e); + + if (!ok) + { + reEntries.insert(e); + } + + return ok; +} + +void MultiPlayerLevel::removeEntity(shared_ptr e) +{ + // 4J Stu - Add this remove from the reEntries collection to stop us continually removing and re-adding things, + // in particular the MultiPlayerLocalPlayer when they die + auto it = reEntries.find(e); + if (it!=reEntries.end()) + { + reEntries.erase(it); + } + + Level::removeEntity(e); + forced.erase(e); +} + +void MultiPlayerLevel::entityAdded(shared_ptr e) +{ + Level::entityAdded(e); + auto it = reEntries.find(e); + if (it!=reEntries.end()) + { + reEntries.erase(it); + } +} + +void MultiPlayerLevel::entityRemoved(shared_ptr e) +{ + Level::entityRemoved(e); + auto it = forced.find(e); + if (it!=forced.end()) + { + reEntries.insert(e); + } +} + +void MultiPlayerLevel::putEntity(int id, shared_ptr e) +{ + shared_ptr old = getEntity(id); + if (old != nullptr) + { + removeEntity(old); + } + + forced.insert(e); + e->entityId = id; + if (!addEntity(e)) + { + reEntries.insert(e); + } + entitiesById[id] = e; +} + +shared_ptr MultiPlayerLevel::getEntity(int id) +{ + auto it = entitiesById.find(id); + if( it == entitiesById.end() ) return nullptr; + return it->second; +} + +shared_ptr MultiPlayerLevel::removeEntity(int id) +{ + shared_ptr e; + auto it = entitiesById.find(id); + if( it != entitiesById.end() ) + { + e = it->second; + entitiesById.erase(it); + forced.erase(e); + removeEntity(e); + } + else + { + } + return e; +} + +// 4J Added to remove the entities from the forced list +// This gets called when a chunk is unloaded, but we only do half an unload to remove entities slightly differently +void MultiPlayerLevel::removeEntities(vector > *list) +{ + if ( list ) + { + for (auto& e : *list ) + { + auto reIt = reEntries.find(e); + if (reIt!=reEntries.end()) + { + reEntries.erase(reIt); + } + + forced.erase(e); + } + Level::removeEntities(list); + } +} + +bool MultiPlayerLevel::setData(int x, int y, int z, int data, int updateFlags, bool forceUpdate/*=false*/) // 4J added forceUpdate) +{ + // First check if this isn't going to do anything, because if it isn't then the next stage (of unsharing data) is really quite + // expensive so far better to early out here + int d = getData(x, y, z); + + if( ( d == data ) ) + { + // If we early-out, its important that we still do a checkLight here (which would otherwise have happened as part of Level::setTileAndDataNoUpdate) + // This is because since we are potentially sharing tile/data but not lighting data, it is possible that the server might tell a client + // of a lighting update that doesn't need actioned on the client just because the chunk's data was being shared with the server when it was set. However, + // the lighting data will potentially now be out of sync on the client. + checkLight(x,y,z); + return false; + } + // 4J - added - if this is the host, then stop sharing block data with the server at this point + unshareChunkAt(x,z); + + if (Level::setData(x, y, z, data, updateFlags, forceUpdate)) + { + //if(m_bEnableResetChanges) updatesToReset.push_back(ResetInfo(x, y, z, t, d)); + return true; + } + // Didn't actually need to stop sharing + shareChunkAt(x,z); + return false; +} + +bool MultiPlayerLevel::setTileAndData(int x, int y, int z, int tile, int data, int updateFlags) +{ + // First check if this isn't going to do anything, because if it isn't then the next stage (of unsharing data) is really quite + // expensive so far better to early out here + int t = getTile(x, y, z); + int d = getData(x, y, z); + + if( ( t == tile ) && ( d == data ) ) + { + // If we early-out, its important that we still do a checkLight here (which would otherwise have happened as part of Level::setTileAndDataNoUpdate) + // This is because since we are potentially sharing tile/data but not lighting data, it is possible that the server might tell a client + // of a lighting update that doesn't need actioned on the client just because the chunk's data was being shared with the server when it was set. However, + // the lighting data will potentially now be out of sync on the client. + checkLight(x,y,z); + return false; + } + // 4J - added - if this is the host, then stop sharing block data with the server at this point + unshareChunkAt(x,z); + + if (Level::setTileAndData(x, y, z, tile, data, updateFlags)) + { + //if(m_bEnableResetChanges) updatesToReset.push_back(ResetInfo(x, y, z, t, d)); + return true; + } + // Didn't actually need to stop sharing + shareChunkAt(x,z); + return false; +} + + +bool MultiPlayerLevel::doSetTileAndData(int x, int y, int z, int tile, int data) +{ + clearResetRegion(x, y, z, x, y, z); + + // 4J - Don't bother setting this to dirty if it isn't going to visually change - we get a lot of + // water changing from static to dynamic for instance. Note that this is only called from a client connection, + // and so the thing being notified of any update through tileUpdated is the renderer + int prevTile = getTile(x, y, z); + bool visuallyImportant = (!( ( ( prevTile == Tile::water_Id ) && ( tile == Tile::calmWater_Id ) ) || + ( ( prevTile == Tile::calmWater_Id ) && ( tile == Tile::water_Id ) ) || + ( ( prevTile == Tile::lava_Id ) && ( tile == Tile::calmLava_Id ) ) || + ( ( prevTile == Tile::calmLava_Id ) && ( tile == Tile::calmLava_Id ) ) || + ( ( prevTile == Tile::calmLava_Id ) && ( tile == Tile::lava_Id ) ) ) ); + // If we're the host, need to tell the renderer for updates even if they don't change things as the host + // might have been sharing data and so set it already, but the renderer won't know to update + if( (Level::setTileAndData(x, y, z, tile, data, Tile::UPDATE_ALL) || g_NetworkManager.IsHost() ) ) + { + if( g_NetworkManager.IsHost() && visuallyImportant ) + { + // 4J Stu - This got removed from the tileUpdated function in TU14. Adding it back here as we need it + // to handle the cases where the chunk data is shared so the normal paths never call this + sendTileUpdated(x,y,z); + + tileUpdated(x, y, z, tile); + } + return true; + } + return false; +} + +void MultiPlayerLevel::disconnect(bool sendDisconnect /*= true*/) +{ + if( sendDisconnect ) + { + for (auto& it : connections ) + { + if ( it ) + it->sendAndDisconnect(std::make_shared(DisconnectPacket::eDisconnect_Quitting)); + } + } + else + { + for (auto& it : connections ) + { + if ( it ) + it->close(); + } + } +} + +Tickable *MultiPlayerLevel::makeSoundUpdater(shared_ptr minecart) +{ + return nullptr; //new MinecartSoundUpdater(minecraft->soundEngine, minecart, minecraft->player); +} + +void MultiPlayerLevel::tickWeather() +{ + if (dimension->hasCeiling) return; + + oRainLevel = rainLevel; + if (levelData->isRaining()) + { + rainLevel += 0.01; + } + else + { + rainLevel -= 0.01; + } + if (rainLevel < 0) rainLevel = 0; + if (rainLevel > 1) rainLevel = 1; + + oThunderLevel = thunderLevel; + if (levelData->isThundering()) + { + thunderLevel += 0.01; + } + else + { + thunderLevel -= 0.01; + } + if (thunderLevel < 0) thunderLevel = 0; + if (thunderLevel > 1) thunderLevel = 1; + +} + +void MultiPlayerLevel::animateTick(int xt, int yt, int zt) +{ + // Get 8x8x8 chunk (ie not like the renderer or game chunks... maybe we need another word here...) that the player is in + // We then want to add a 3x3 region of chunks into a set that we'll be ticking over. Set is stored as unsigned ints which encode + // this chunk position + int cx = xt >> 3; + int cy = yt >> 3; + int cz = zt >> 3; + + for( int xx = -1; xx <= 1; xx++ ) + for( int yy = -1; yy <= 1; yy++ ) + for( int zz = -1; zz <= 1; zz++ ) + { + if( ( cy + yy ) < 0 ) continue; + if( ( cy + yy ) > 15 ) continue; + // Note - LEVEL_MAX_WIDTH is in game (16) tile chunks, and so our level goes from -LEVEL_MAX_WIDTH to LEVEL_MAX_WIDTH of our half-sized chunks + if( ( cx + xx ) >= LEVEL_MAX_WIDTH ) continue; + if( ( cx + xx ) < -LEVEL_MAX_WIDTH ) continue; + if( ( cz + zz ) >= LEVEL_MAX_WIDTH ) continue; + if( ( cz + zz ) < -LEVEL_MAX_WIDTH ) continue; + chunksToAnimate.insert( ( ( ( cx + xx ) & 0xff ) << 16 ) | ( ( ( cy + yy ) & 0xff ) << 8 ) | ( ( ( cz + zz ) & 0xff ) ) ); + } +} + +// 4J - the game used to tick 1000 tiles in a random region +/- 16 units round the player. We've got a 3x3 region of 8x8x8 chunks round each +// player. So the original game was ticking 1000 things in a 32x32x32 region ie had about a 1 in 32 chance of updating any one tile per tick. +// We're not dealing with quite such a big region round each player (24x24x24) but potentially we've got 4 players. Ultimately, we could end +// up ticking anywhere between 432 and 1728 tiles depending on how many players we've got, which seems like a good tradeoff from the original. +void MultiPlayerLevel::animateTickDoWork() +{ + const int ticksPerChunk = 16; // This ought to give us roughly the same 1000/32768 chance of a tile being animated as the original + + // Horrible hack to communicate with the level renderer, which is just attached as a listener to this level. This let's the particle + // rendering know to use this level (rather than try to work it out from the current player), and to not bother distance clipping particles + // which would again be based on the current player. + Minecraft::GetInstance()->animateTickLevel = this; + + MemSect(31); + Random *animateRandom = new Random(); + MemSect(0); + + for( int i = 0; i < ticksPerChunk; i++ ) + { + for(int packed : chunksToAnimate) + { + int cx = ( packed << 8 ) >> 24; + int cy = ( packed << 16 ) >> 24; + int cz = ( packed << 24 ) >> 24; + cx <<= 3; + cy <<= 3; + cz <<= 3; + int x = cx + random->nextInt(8); + int y = cy + random->nextInt(8); + int z = cz + random->nextInt(8); + int t = getTile(x, y, z); + if (random->nextInt(8) > y && t == 0 && dimension->hasBedrockFog()) // 4J - test for bedrock fog brought forward from 1.2.3 + { + addParticle(eParticleType_depthsuspend, x + random->nextFloat(), y + random->nextFloat(), z + random->nextFloat(), 0, 0, 0); + } + else if (t > 0) + { + Tile::tiles[t]->animateTick(this, x, y, z, animateRandom); + } + } + } + + Minecraft::GetInstance()->animateTickLevel = nullptr; + delete animateRandom; + + chunksToAnimate.clear(); + +} + +void MultiPlayerLevel::playSound(shared_ptr entity, int iSound, float volume, float pitch) +{ + playLocalSound(entity->x, entity->y - entity->heightOffset, entity->z, iSound, volume, pitch); +} + +void MultiPlayerLevel::playLocalSound(double x, double y, double z, int iSound, float volume, float pitch, bool distanceDelay/*= false */, float fClipSoundDist) +{ + //float dd = 16; + if (volume > 1) fClipSoundDist *= volume; + + // 4J - find min distance to any players rather than just the current one + float minDistSq = FLT_MAX; + for( int i = 0; i < XUSER_MAX_COUNT; i++ ) + { + if( minecraft->localplayers[i] ) + { + float distSq = minecraft->localplayers[i]->distanceToSqr(x, y, z ); + if( distSq < minDistSq ) + { + minDistSq = distSq; + } + } + } + + if (minDistSq < fClipSoundDist * fClipSoundDist) + { + if (distanceDelay && minDistSq > 10 * 10) + { + // exhaggerate sound speed effect by making speed of sound ~= + // 40 m/s instead of 300 m/s + double delayInSeconds = sqrt(minDistSq) / 40.0; + minecraft->soundEngine->schedule(iSound, static_cast(x), static_cast(y), static_cast(z), volume, pitch, static_cast(Math::round(delayInSeconds * SharedConstants::TICKS_PER_SECOND))); + } + else + { + minecraft->soundEngine->play(iSound, static_cast(x), static_cast(y), static_cast(z), volume, pitch); + } + } +} + +void MultiPlayerLevel::createFireworks(double x, double y, double z, double xd, double yd, double zd, CompoundTag *infoTag) +{ + minecraft->particleEngine->add(std::make_shared(this, x, y, z, xd, yd, zd, minecraft->particleEngine, infoTag)); +} + +void MultiPlayerLevel::setScoreboard(Scoreboard *scoreboard) +{ + this->scoreboard = scoreboard; +} + +void MultiPlayerLevel::setDayTime(int64_t newTime) +{ + // 4J: We send daylight cycle rule with host options so don't need this + /*if (newTime < 0) + { + newTime = -newTime; + getGameRules()->set(GameRules::RULE_DAYLIGHT, L"false"); + } + else + { + getGameRules()->set(GameRules::RULE_DAYLIGHT, L"true"); + }*/ + + Level::setDayTime(newTime); +} + +void MultiPlayerLevel::removeAllPendingEntityRemovals() +{ + //entities.removeAll(entitiesToRemove); + + EnterCriticalSection(&m_entitiesCS); + for (auto it = entities.begin(); it != entities.end();) + { + bool found = false; + for(auto & it2 : entitiesToRemove) + { + if( (*it) == it2 ) + { + found = true; + break; + } + } + if( found ) + { + it = entities.erase(it); + } + else + { + it++; + } + } + LeaveCriticalSection(&m_entitiesCS); + + for (auto& e : entitiesToRemove) + { + if ( e ) + { + int xc = e->xChunk; + int zc = e->zChunk; + if (e->inChunk && hasChunk(xc, zc)) + { + getChunk(xc, zc)->removeEntity(e); + } + } + } + + // 4J Stu - Is there a reason do this in a separate loop? Thats what the Java does... + for (auto& it : entitiesToRemove) + { + if ( it ) + entityRemoved(it); + } + entitiesToRemove.clear(); + + //for (int i = 0; i < entities.size(); i++) + EnterCriticalSection(&m_entitiesCS); + auto it = entities.begin(); + while( it != entities.end() ) + { + shared_ptr e = *it;//entities.at(i); + + if (e->riding != nullptr) + { + if (e->riding->removed || e->riding->rider.lock() != e) + { + e->riding->rider = weak_ptr(); + e->riding = nullptr; + } + else + { + ++it; + continue; + } + } + + if (e->removed) + { + int xc = e->xChunk; + int zc = e->zChunk; + if (e->inChunk && hasChunk(xc, zc)) + { + getChunk(xc, zc)->removeEntity(e); + } + //entities.remove(i--); + + it = entities.erase( it ); + entityRemoved(e); + } + else + { + it++; + } + } + LeaveCriticalSection(&m_entitiesCS); +} + +void MultiPlayerLevel::removeClientConnection(ClientConnection *c, bool sendDisconnect) +{ + if( sendDisconnect ) + { + c->sendAndDisconnect(std::make_shared(DisconnectPacket::eDisconnect_Quitting)); + } + + auto it = find(connections.begin(), connections.end(), c); + if( it != connections.end() ) + { + connections.erase( it ); + } +} + +void MultiPlayerLevel::tickAllConnections() +{ + PIXBeginNamedEvent(0,"Connection ticking"); + for (auto& it : connections ) + { + if ( it ) + it->tick(); + } + PIXEndNamedEvent(); +} + +void MultiPlayerLevel::dataReceivedForChunk(int x, int z) +{ + chunkCache->dataReceived(x, z); +} + +// 4J added - removes all tile entities in the given region from both level & levelchunks +void MultiPlayerLevel::removeUnusedTileEntitiesInRegion(int x0, int y0, int z0, int x1, int y1, int z1) +{ + EnterCriticalSection(&m_tileEntityListCS); + + for (unsigned int i = 0; i < tileEntityList.size();) + { + bool removed = false; + shared_ptr te = tileEntityList[i]; + if (te->x >= x0 && te->y >= y0 && te->z >= z0 && te->x < x1 && te->y < y1 && te->z < z1) + { + LevelChunk *lc = getChunk(te->x >> 4, te->z >> 4); + if (lc != nullptr) + { + // Only remove tile entities where this is no longer a tile entity + int tileId = lc->getTile(te->x & 15, te->y, te->z & 15 ); + if( Tile::tiles[tileId] == nullptr || !Tile::tiles[tileId]->isEntityTile()) + { + tileEntityList[i] = tileEntityList.back(); + tileEntityList.pop_back(); + + // 4J Stu - Chests can create new tile entities when being removed, so disable this + m_bDisableAddNewTileEntities = true; + lc->removeTileEntity(te->x & 15, te->y, te->z & 15); + m_bDisableAddNewTileEntities = false; + removed = true; + } + } + } + if( !removed ) i++; + } + + LeaveCriticalSection(&m_tileEntityListCS); +} + diff --git a/Minecraft.Client/MultiPlayerLevel.h b/Minecraft.Client/MultiPlayerLevel.h new file mode 100644 index 0000000..b7f1640 --- /dev/null +++ b/Minecraft.Client/MultiPlayerLevel.h @@ -0,0 +1,108 @@ +#pragma once +using namespace std; +#include "..\Minecraft.World\HashExtension.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.entity.h" +#include "..\Minecraft.World\JavaIntHash.h" + +class ClientConnection; +class MultiPlayerChunkCache; + +using namespace std; + +class MultiPlayerLevel : public Level +{ + friend class ClientConnection; +private: + static const int TICKS_BEFORE_RESET = 20 * 4; + + class ResetInfo + { + public: + int x, y, z, ticks, tile, data; + ResetInfo(int x, int y, int z, int tile, int data); + }; + + vector updatesToReset; // 4J - was linked list but vector seems more appropriate + bool m_bEnableResetChanges; // 4J Added +public: + void unshareChunkAt(int x, int z); // 4J - added + void shareChunkAt(int x, int z); // 4J - added + + void enableResetChanges(bool enable) { m_bEnableResetChanges = enable; } // 4J Added +private: + int unshareCheckX; // 4J - added + int unshareCheckZ; // 4J - added + int compressCheckX; // 4J - added + int compressCheckZ; // 4J - added + vector connections; // 4J Stu - Made this a vector as we can have more than one local connection + MultiPlayerChunkCache *chunkCache; + Minecraft *minecraft; + Scoreboard *scoreboard; + +public: + MultiPlayerLevel(ClientConnection *connection, LevelSettings *levelSettings, int dimension, int difficulty); + virtual ~MultiPlayerLevel(); + virtual void tick() ; + + void clearResetRegion(int x0, int y0, int z0, int x1, int y1, int z1); +protected: + ChunkSource *createChunkSource(); // 4J - was virtual, but was called from parent ctor +public: + virtual void validateSpawn(); +protected: + virtual void tickTiles(); +public: + void setChunkVisible(int x, int z, bool visible); + +private: + unordered_map, IntKeyHash2, IntKeyEq> entitiesById; // 4J - was IntHashMap + unordered_set > forced; + unordered_set > reEntries; + +public: + virtual bool addEntity(shared_ptr e); + virtual void removeEntity(shared_ptr e); +protected: + virtual void entityAdded(shared_ptr e); + virtual void entityRemoved(shared_ptr e); +public: + void putEntity(int id, shared_ptr e); + shared_ptr getEntity(int id); + shared_ptr removeEntity(int id); + virtual void removeEntities(vector > *list); // 4J Added override + virtual bool setData(int x, int y, int z, int data, int updateFlags, bool forceUpdate =false ); + virtual bool setTileAndData(int x, int y, int z, int tile, int data, int updateFlags); + bool doSetTileAndData(int x, int y, int z, int tile, int data); + virtual void disconnect(bool sendDisconnect = true); + void animateTick(int xt, int yt, int zt); +protected: + virtual Tickable *makeSoundUpdater(shared_ptr minecart); + virtual void tickWeather(); + + static const int ANIMATE_TICK_MAX_PARTICLES = 500; + +public: + void animateTickDoWork(); // 4J added + unordered_set chunksToAnimate; // 4J added + +public: + void removeAllPendingEntityRemovals(); + + virtual void playSound(shared_ptr entity, int iSound, float volume, float pitch); + + virtual void playLocalSound(double x, double y, double z, int iSound, float volume, float pitch, bool distanceDelay = false, float fClipSoundDist = 16.0f); + + virtual void createFireworks(double x, double y, double z, double xd, double yd, double zd, CompoundTag *infoTag); + virtual void setScoreboard(Scoreboard *scoreboard); + virtual void setDayTime(int64_t newTime); + + // 4J Stu - Added so we can have multiple local connections + void addClientConnection(ClientConnection *c) { connections.push_back( c ); } + void removeClientConnection(ClientConnection *c, bool sendDisconnect); + + void tickAllConnections(); + + void dataReceivedForChunk(int x, int z); // 4J added + void removeUnusedTileEntitiesInRegion(int x0, int y0, int z0, int x1, int y1, int z1); // 4J added +}; diff --git a/Minecraft.Client/MultiPlayerLocalPlayer.cpp b/Minecraft.Client/MultiPlayerLocalPlayer.cpp new file mode 100644 index 0000000..c16a798 --- /dev/null +++ b/Minecraft.Client/MultiPlayerLocalPlayer.cpp @@ -0,0 +1,475 @@ +#include "stdafx.h" +//#include "..\Minecraft.World\JavaMath.h" +#include "MultiplayerLocalPlayer.h" +#include "ClientConnection.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.network.h" +#include "..\Minecraft.World\Mth.h" +#include "..\Minecraft.World\AABB.h" +#include "..\Minecraft.World\net.minecraft.stats.h" +#include "..\Minecraft.World\net.minecraft.world.inventory.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\net.minecraft.world.effect.h" +#include "..\Minecraft.World\LevelData.h" +#include "..\Minecraft.World\net.minecraft.world.entity.item.h" +#include "Input.h" +#include "LevelRenderer.h" + +// 4J added for testing +#ifdef STRESS_TEST_MOVE +volatile bool stressTestEnabled = true; +#endif + +MultiplayerLocalPlayer::MultiplayerLocalPlayer(Minecraft *minecraft, Level *level, User *user, ClientConnection *connection) : LocalPlayer(minecraft, level, user, level->dimension->id) +{ + // 4J - added initialisers + flashOnSetHealth = false; + xLast = yLast1 = yLast2 = zLast = 0; + yRotLast = xRotLast = 0; + lastOnGround = false; + lastSneaked = false; + lastIdle = false; + lastSprinting = false; + positionReminder = 0; + + this->connection = connection; +} + +bool MultiplayerLocalPlayer::hurt(DamageSource *source, float dmg) +{ + return false; +} + +void MultiplayerLocalPlayer::heal(float heal) +{ +} + +void MultiplayerLocalPlayer::tick() +{ + // 4J Added + // 4J-PB - changing this to a game host option ot hide gamertags + //bool bIsisPrimaryHost=g_NetworkManager.IsHost() && (ProfileManager.GetPrimaryPad()==m_iPad); + + /*if((app.GetGameSettings(m_iPad,eGameSetting_PlayerVisibleInMap)!=0) != m_bShownOnMaps) + { + m_bShownOnMaps = (app.GetGameSettings(m_iPad,eGameSetting_PlayerVisibleInMap)!=0); + if (m_bShownOnMaps) connection->send( shared_ptr( new PlayerCommandPacket(shared_from_this(), PlayerCommandPacket::SHOW_ON_MAPS) ) ); + else connection->send( shared_ptr( new PlayerCommandPacket(shared_from_this(), PlayerCommandPacket::HIDE_ON_MAPS) ) ); + }*/ + + if (!level->hasChunkAt(Mth::floor(x), 0, Mth::floor(z))) return; + + double tempX = x, tempY = y, tempZ = z; + + LocalPlayer::tick(); + + // 4J added for testing +#ifdef STRESS_TEST_MOVE + if(stressTestEnabled) + { + StressTestMove(&tempX,&tempY,&tempZ); + } +#endif + + //if( !minecraft->localgameModes[m_iPad]->isTutorial() || minecraft->localgameModes[m_iPad]->getTutorial()->canMoveToPosition(tempX, tempY, tempZ, x, y, z) ) + if(minecraft->localgameModes[m_iPad]->getTutorial()->canMoveToPosition(tempX, tempY, tempZ, x, y, z)) + { + if (isRiding()) + { + connection->send(std::make_shared(yRot, xRot, onGround, abilities.flying)); + connection->send(std::make_shared(xxa, yya, input->jumping, input->sneaking)); + } + else + { + sendPosition(); + } + } + else + { + //app.Debugprintf("Cannot move to position (%f, %f, %f), falling back to (%f, %f, %f)\n", x, y, z, tempX, y, tempZ); + this->setPos(tempX, y, tempZ); + } +} + +void MultiplayerLocalPlayer::sendPosition() +{ + bool sprinting = isSprinting(); + if (sprinting != lastSprinting) + { + if (sprinting) connection->send(std::make_shared(shared_from_this(), PlayerCommandPacket::START_SPRINTING)); + else connection->send(std::make_shared(shared_from_this(), PlayerCommandPacket::STOP_SPRINTING)); + + lastSprinting = sprinting; + } + + bool sneaking = isSneaking(); + if (sneaking != lastSneaked) + { + if (sneaking) connection->send(std::make_shared(shared_from_this(), PlayerCommandPacket::START_SNEAKING)); + else connection->send(std::make_shared(shared_from_this(), PlayerCommandPacket::STOP_SNEAKING)); + + lastSneaked = sneaking; + } + + bool idle = isIdle(); + if (idle != lastIdle) + { + if (idle) connection->send(std::make_shared(shared_from_this(), PlayerCommandPacket::START_IDLEANIM)); + else connection->send(std::make_shared(shared_from_this(), PlayerCommandPacket::STOP_IDLEANIM)); + + lastIdle = idle; + } + + double xdd = x - xLast; + double ydd1 = bb->y0 - yLast1; + double zdd = z - zLast; + + double rydd = yRot - yRotLast; + double rxdd = xRot - xRotLast; + + bool move = (xdd * xdd + ydd1 * ydd1 + zdd * zdd) > 0.03 * 0.03 || positionReminder >= POSITION_REMINDER_INTERVAL; + bool rot = rydd != 0 || rxdd != 0; + if (riding != nullptr) + { + connection->send(std::make_shared(xd, -999, -999, zd, yRot, xRot, onGround, abilities.flying)); + move = false; + } + else + { + if (move && rot) + { + connection->send(std::make_shared(x, bb->y0, y, z, yRot, xRot, onGround, abilities.flying)); + } + else if (move) + { + connection->send(std::make_shared(x, bb->y0, y, z, onGround, abilities.flying)); + } + else if (rot) + { + connection->send(std::make_shared(yRot, xRot, onGround, abilities.flying)); + } + else + { + connection->send(std::make_shared(onGround, abilities.flying)); + } + } + + positionReminder++; + lastOnGround = onGround; + + if (move) + { + xLast = x; + yLast1 = bb->y0; + yLast2 = y; + zLast = z; + positionReminder = 0; + } + if (rot) + { + yRotLast = yRot; + xRotLast = xRot; + } + +} + +shared_ptr MultiplayerLocalPlayer::drop() +{ + connection->send(std::make_shared(PlayerActionPacket::DROP_ITEM, 0, 0, 0, 0)); + return nullptr; +} + +void MultiplayerLocalPlayer::reallyDrop(shared_ptr itemEntity) +{ +} + +void MultiplayerLocalPlayer::chat(const wstring& message) +{ + connection->send(std::make_shared(message)); +} + +void MultiplayerLocalPlayer::swing() +{ + LocalPlayer::swing(); + connection->send(std::make_shared(shared_from_this(), AnimatePacket::SWING)); + +} + +void MultiplayerLocalPlayer::respawn() +{ + connection->send(std::make_shared(ClientCommandPacket::PERFORM_RESPAWN)); +} + + +void MultiplayerLocalPlayer::actuallyHurt(DamageSource *source, float dmg) +{ + if (isInvulnerable()) return; + setHealth(getHealth() - dmg); +} + +// 4J Added override to capture event for tutorial messages +void MultiplayerLocalPlayer::completeUsingItem() +{ + Minecraft *pMinecraft = Minecraft::GetInstance(); + if(useItem != nullptr && pMinecraft->localgameModes[m_iPad] != nullptr ) + { + TutorialMode *gameMode = static_cast(pMinecraft->localgameModes[m_iPad]); + Tutorial *tutorial = gameMode->getTutorial(); + tutorial->completeUsingItem(useItem); + } + Player::completeUsingItem(); +} + +void MultiplayerLocalPlayer::onEffectAdded(MobEffectInstance *effect) +{ + Minecraft *pMinecraft = Minecraft::GetInstance(); + if(pMinecraft->localgameModes[m_iPad] != nullptr ) + { + TutorialMode *gameMode = static_cast(pMinecraft->localgameModes[m_iPad]); + Tutorial *tutorial = gameMode->getTutorial(); + tutorial->onEffectChanged(MobEffect::effects[effect->getId()]); + } + Player::onEffectAdded(effect); +} + + +void MultiplayerLocalPlayer::onEffectUpdated(MobEffectInstance *effect, bool doRefreshAttributes) +{ + Minecraft *pMinecraft = Minecraft::GetInstance(); + if(pMinecraft->localgameModes[m_iPad] != nullptr ) + { + TutorialMode *gameMode = static_cast(pMinecraft->localgameModes[m_iPad]); + Tutorial *tutorial = gameMode->getTutorial(); + tutorial->onEffectChanged(MobEffect::effects[effect->getId()]); + } + Player::onEffectUpdated(effect, doRefreshAttributes); +} + + +void MultiplayerLocalPlayer::onEffectRemoved(MobEffectInstance *effect) +{ + Minecraft *pMinecraft = Minecraft::GetInstance(); + if(pMinecraft->localgameModes[m_iPad] != nullptr ) + { + TutorialMode *gameMode = static_cast(pMinecraft->localgameModes[m_iPad]); + Tutorial *tutorial = gameMode->getTutorial(); + tutorial->onEffectChanged(MobEffect::effects[effect->getId()],true); + } + Player::onEffectRemoved(effect); +} + +void MultiplayerLocalPlayer::closeContainer() +{ + connection->send(std::make_shared(containerMenu->containerId)); + clientSideCloseContainer(); +} + +// close the container without sending a packet to the server +void MultiplayerLocalPlayer::clientSideCloseContainer() +{ + inventory->setCarried(nullptr); + LocalPlayer::closeContainer(); +} + +void MultiplayerLocalPlayer::hurtTo(float newHealth, ETelemetryChallenges damageSource) +{ + if (flashOnSetHealth) + { + LocalPlayer::hurtTo(newHealth, damageSource); + } + else + { + setHealth(newHealth); + flashOnSetHealth = true; + } +} + +void MultiplayerLocalPlayer::awardStat(Stat *stat, byteArray param) +{ + if (stat == nullptr) + { + delete [] param.data; + return; + } + + if (stat->awardLocallyOnly) + { + LocalPlayer::awardStat(stat, param); + } + else + { + delete [] param.data; + return; + } +} + +void MultiplayerLocalPlayer::awardStatFromServer(Stat *stat, byteArray param) +{ + if ( stat != nullptr && !stat->awardLocallyOnly ) + { + LocalPlayer::awardStat(stat, param); + } + else delete [] param.data; +} + +void MultiplayerLocalPlayer::onUpdateAbilities() +{ + connection->send(std::make_shared(&abilities)); +} + +bool MultiplayerLocalPlayer::isLocalPlayer() +{ + return true; +} + +void MultiplayerLocalPlayer::sendRidingJump() +{ + connection->send(std::make_shared(shared_from_this(), PlayerCommandPacket::RIDING_JUMP, static_cast(getJumpRidingScale() * 100.0f))); +} + +void MultiplayerLocalPlayer::sendOpenInventory() +{ + connection->send(std::make_shared(shared_from_this(), PlayerCommandPacket::OPEN_INVENTORY)); +} + +void MultiplayerLocalPlayer::ride(shared_ptr e) +{ + bool wasRiding = riding != nullptr; + LocalPlayer::ride(e); + bool isRiding = riding != nullptr; + + // 4J Added + if(wasRiding && !isRiding) + { + setSneaking(false); + input->sneaking = false; + } + + if( isRiding ) + { + ETelemetryChallenges eventType = eTelemetryChallenges_Unknown; + if( this->riding != nullptr ) + { + switch(riding->GetType()) + { + case eTYPE_BOAT: + eventType = eTelemetryInGame_Ride_Boat; + break; + case eTYPE_MINECART: + eventType = eTelemetryInGame_Ride_Minecart; + break; + case eTYPE_PIG: + eventType = eTelemetryInGame_Ride_Pig; + break; + }; + } + TelemetryManager->RecordEnemyKilledOrOvercome(GetXboxPad(), 0, y, 0, 0, 0, 0, eventType); + } + + updateRichPresence(); + + Minecraft *pMinecraft = Minecraft::GetInstance(); + + +} + +void MultiplayerLocalPlayer::StopSleeping() +{ + connection->send(std::make_shared(shared_from_this(), PlayerCommandPacket::STOP_SLEEPING)); +} + +// 4J Added +void MultiplayerLocalPlayer::setAndBroadcastCustomSkin(DWORD skinId) +{ + DWORD oldSkinIndex = getCustomSkin(); + LocalPlayer::setCustomSkin(skinId); +#ifndef _CONTENT_PACKAGE + wprintf(L"Skin for local player %ls has changed to %ls (%d)\n", name.c_str(), customTextureUrl.c_str(), getPlayerDefaultSkin() ); +#endif + if(getCustomSkin() != oldSkinIndex) connection->send(std::make_shared(shared_from_this(), app.GetPlayerSkinName(GetXboxPad()))); +} + +void MultiplayerLocalPlayer::setAndBroadcastCustomCape(DWORD capeId) +{ + DWORD oldCapeIndex = getCustomCape(); + LocalPlayer::setCustomCape(capeId); +#ifndef _CONTENT_PACKAGE + wprintf(L"Cape for local player %ls has changed to %ls\n", name.c_str(), customTextureUrl2.c_str()); +#endif + if(getCustomCape() != oldCapeIndex) connection->send(std::make_shared(shared_from_this(), TextureChangePacket::e_TextureChange_Cape, app.GetPlayerCapeName(GetXboxPad()))); +} + +// 4J added for testing. This moves the player in a repeated sequence of 2 modes: +// Mode 0 - teleports to random location in the world, and waits for the number of chunks that are fully loaded/created to have setting for 2 seconds before changing to mode 1 +// Mode 1 - picks a random direction to move in for 200 ticks (~10 seconds), repeating for a total of 2000 ticks, before cycling back to mode 0 +// Whilst carrying out this movement pattern, this calls checkAllPresentChunks which checks the integrity of all currently loaded/created chunks round the player. +#ifdef STRESS_TEST_MOVE +void MultiplayerLocalPlayer::StressTestMove(double *tempX, double *tempY, double *tempZ) +{ + static volatile int64_t lastChangeTime = 0; + static volatile int64_t lastTeleportTime = 0; + static int lastCount = 0; + static int stressTestCount = 0; + const int dirChangeTickCount = 200; + + int64_t currentTime = System::currentTimeMillis(); + + bool faultFound = false; + int count = Minecraft::GetInstance()->levelRenderer->checkAllPresentChunks(&faultFound); + +/* + if( faultFound ) + { + app.DebugPrintf("Fault found\n"); + stressTestEnabled = false; + } + */ + if( count != lastCount ) + { + lastChangeTime = currentTime; + lastCount = count; + } + + static float angle = 30.0; + static float dx = cos(30.0); + static float dz = sin(30.0); + +#if 0 + if( ( stressTestCount % dirChangeTickCount) == 0 ) + { + int angledeg = rand() % 360; + angle = (((double)angledeg) / 360.0 ) * ( 2.0 * 3.141592654 ); + dx = cos(angle); + dz = sin(angle); + } +#endif + + float nx = x + ( dx * 1.2 ); + float nz = z + ( dz * 1.2 ); + float ny = y; + if( ny < 140.0f ) ny += 0.5f; + if( nx > 2539.0 ) + { + nx = 2539.0; + dx = -dx; + } + if( nz > 2539.0 ) + { + nz = 2539.0; + dz = -dz; + } + if( nx < -2550.0 ) + { + nx = -2550.0; + dx = -dx; + } + + if( nz < -2550.0 ) + { + nz = -2550.0; + dz = -dz; + } + absMoveTo(nx,ny,nz,yRot,xRot); + stressTestCount++; +} +#endif \ No newline at end of file diff --git a/Minecraft.Client/MultiPlayerLocalPlayer.h b/Minecraft.Client/MultiPlayerLocalPlayer.h new file mode 100644 index 0000000..e660a96 --- /dev/null +++ b/Minecraft.Client/MultiPlayerLocalPlayer.h @@ -0,0 +1,87 @@ +#pragma once +#include "LocalPlayer.h" +#include "..\Minecraft.World\SharedConstants.h" + +class ClientConnection; +class Minecraft; +class Level; + +//#define STRESS_TEST_MOVE + +class MultiplayerLocalPlayer : public LocalPlayer +{ +private: + static const int POSITION_REMINDER_INTERVAL = SharedConstants::TICKS_PER_SECOND; +public: + ClientConnection *connection; +private: + bool flashOnSetHealth; +public: + MultiplayerLocalPlayer(Minecraft *minecraft, Level *level, User *user, ClientConnection *connection); +private: + double xLast, yLast1, yLast2, zLast; + float yRotLast, xRotLast; +public: + virtual bool hurt(DamageSource *source, float dmg); + virtual void heal(float heal); + virtual void tick(); +private: + bool lastOnGround; + bool lastSneaked; + bool lastIdle; + bool lastSprinting; + int positionReminder; +public: + void sendPosition(); + + using Player::drop; + virtual shared_ptr drop(); +protected: + virtual void reallyDrop(shared_ptr itemEntity); +public: + virtual void chat(const wstring& message); + virtual void swing(); + virtual void respawn(); +protected: + virtual void actuallyHurt(DamageSource *source, float dmg); + + // 4J Added override to capture event for tutorial messages + virtual void completeUsingItem(); + + // 4J Added overrides to capture events for tutorial + virtual void onEffectAdded(MobEffectInstance *effect); + virtual void onEffectUpdated(MobEffectInstance *effect, bool doRefreshAttributes); + virtual void onEffectRemoved(MobEffectInstance *effect); +public: + virtual void closeContainer(); + void clientSideCloseContainer(); + virtual void hurtTo(float newHealth, ETelemetryChallenges damageSource); + virtual void awardStat(Stat *stat, byteArray param); + void awardStatFromServer(Stat *stat, byteArray param); + void onUpdateAbilities(); + bool isLocalPlayer(); + +protected: + virtual void sendRidingJump(); + +public: + virtual void sendOpenInventory(); + + // 4J - send the custom skin texture data if there is one + //void CustomSkin(PBYTE pbData, DWORD dwBytes); + + // 4J Overriding this so we can flag an event for the tutorial + virtual void ride(shared_ptr e); + + // 4J - added for the Stop Sleeping + virtual void StopSleeping(); + + // 4J Added + virtual void setAndBroadcastCustomSkin(DWORD skinId); + virtual void setAndBroadcastCustomCape(DWORD capeId); + + // 4J added for testing +#ifdef STRESS_TEST_MOVE + void StressTestMove(double *tempX, double *tempY, double *tempZ); +#endif +}; diff --git a/Minecraft.Client/NetherPortalParticle.cpp b/Minecraft.Client/NetherPortalParticle.cpp new file mode 100644 index 0000000..9dcdd4c --- /dev/null +++ b/Minecraft.Client/NetherPortalParticle.cpp @@ -0,0 +1,99 @@ +#include "stdafx.h" +#include "NetherPortalParticle.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\Random.h" +#include "Minecraft.h" + +// 4J Stu - This class was originally "PortalParticle" but I have split the two uses of the particle +// Only the nether portal uses this particle + +NetherPortalParticle::NetherPortalParticle(Level *level, double x, double y, double z, double xd, double yd, double zd) : Particle(level, x, y, z, xd, yd, zd) +{ + this->xd = xd; + this->yd = yd; + this->zd = zd; + this->xStart = this->x = x; + this->yStart = this->y = y; + this->zStart = this->z = z; + + float br = random->nextFloat()*0.6f+0.4f; + oSize = size = random->nextFloat()*0.2f+0.5f; + //rCol = gCol = bCol = 1.0f*br; + //gCol *= 0.3f; + //rCol *= 0.9f; + + // Default colour (0.9f, 0.3f, 1.0f) + // 0xE64DFF + + unsigned int colour = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_NetherPortal ); + int r = (colour>>16)&0xFF; + int g = (colour>>8)&0xFF; + int b = colour&0xFF; + rCol = (r/255.0f)*br; + gCol = (g/255.0f)*br; + bCol = (b/255.0f)*br; + + lifetime = static_cast(Math::random() * 10) + 40; + noPhysics = true; + setMiscTex(static_cast(Math::random() * 8)); +} + +void NetherPortalParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float s = (age + a) / static_cast(lifetime); + s = 1-s; + s = s*s; + s = 1-s; + size = oSize * (s); + Particle::render(t, a, xa, ya, za, xa2, za2); +} + +// 4J - brought forward from 1.8.2 +int NetherPortalParticle::getLightColor(float a) +{ + int br = Particle::getLightColor(a); + + float pos = age/static_cast(lifetime); + pos = pos*pos; + pos = pos*pos; + + int br1 = (br) & 0xff; + int br2 = (br >> 16) & 0xff; + br2 += static_cast(pos * 15 * 16); + if (br2 > 15 * 16) br2 = 15 * 16; + return br1 | br2 << 16; +} + +float NetherPortalParticle::getBrightness(float a) +{ + float br = Particle::getBrightness(a); + float pos = age/static_cast(lifetime); + pos = pos*pos; + pos = pos*pos; + return br*(1-pos)+pos; +} + +void NetherPortalParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + float pos = age/static_cast(lifetime); + float a = pos; + pos = -pos+pos*pos*2; +// pos = pos*pos; +// pos = pos*pos; + pos = 1-pos; + + x = xStart+xd*pos; + y = yStart+yd*pos+(1-a); + z = zStart+zd*pos; + + +// spd+=0.002/lifetime*age; + + if (age++ >= lifetime) remove(); + +// move(xd*spd, yd*spd, zd*spd); +} diff --git a/Minecraft.Client/NetherPortalParticle.h b/Minecraft.Client/NetherPortalParticle.h new file mode 100644 index 0000000..85aa8c6 --- /dev/null +++ b/Minecraft.Client/NetherPortalParticle.h @@ -0,0 +1,21 @@ +#pragma once +#include "Particle.h" + +// 4J Stu - This class was originally "PortalParticle" but I have split the two uses of the particle +// Only the nether portal uses this particle + +class NetherPortalParticle : public Particle +{ +public: + virtual eINSTANCEOF GetType() { return eType_NETHERPORTALPARTICLE; } +private: + float oSize; + double xStart, yStart, zStart; + +public: + NetherPortalParticle(Level *level, double x, double y, double z, double xd, double yd, double zd); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual int getLightColor(float a); // 4J - brought forward from 1.8.2 + virtual float getBrightness(float a); + virtual void tick(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Network Implementation Notes.txt b/Minecraft.Client/Network Implementation Notes.txt new file mode 100644 index 0000000..e482952 --- /dev/null +++ b/Minecraft.Client/Network Implementation Notes.txt @@ -0,0 +1,45 @@ +NETWORK CODE IMPLEMENTATION NOTES +--------------------------------- + +The networking classes are organised as follows: + + Game \ + ^ | + | | + +-----------------------------+-----------------------------+ | + | | | + v v | +Game Network Manager <--------------------------------> Network Player Interface |- platform independent layers + ^ ^ | + | | | + v | | +Platform Network Manager Interface | | + ^ | / + | | + v v \ +Platform Network Manager Implementation(1) <------> Network Player Implementation (3) | + ^ ^ |_ platform specific layers + | | | + v v | +Platform specific network code(2) Platform specific player code (4) / + + +In general the game should only communicate with the GameNetworkManager and NetworkPlayerInterface APIs, which provide a platform independent +interface for networking functionality. The GameNetworkManager may in general have code which is aware of the game itself, but it shouldn't have +any platform-specific networking code. It communicates with a platform specific implementation of a PlatformNetworkManagerInterface to achieve this. + +The platform specific layers shouldn't contain any general game code, as this is much better placed in the platform independent layers to avoid +duplicating effort. + +Platform specific files for each platform for the numbered classes in the previous diagram are currently: + + + Xbox 360 Sony Other + +(1) PlatformNetworkManagerXbox PlatformNetworkManagerSony PlatformNetworkManagerStub +(2) Provided by QNET SQRNetworkManager Qnet stub* +(3) NetworkPlayerXbox NetworkPlayerSony NetworkPlayerXbox +(4) Provided by QNET SQRNetworkPlayer Qnet stub* + + *temporarily provided by extra64.h + diff --git a/Minecraft.Client/NoteParticle.cpp b/Minecraft.Client/NoteParticle.cpp new file mode 100644 index 0000000..6d2a31c --- /dev/null +++ b/Minecraft.Client/NoteParticle.cpp @@ -0,0 +1,87 @@ +#include "stdafx.h" +#include "..\Minecraft.World\Mth.h" +#include "NoteParticle.h" + +void NoteParticle::init(Level *level, double x, double y, double z, double xa, double ya, double za, float scale) +{ + xd *= 0.01f; + yd *= 0.01f; + zd *= 0.01f; + yd += 0.2; + + /* + unsigned int cMin = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_NoteMin ); + unsigned int cMax = Minecraft::GetInstance()->getColourTable()->getColor( eMinecraftColour_Particle_NoteMax ); + double rMin = ( (cMin>>16)&0xFF )/255.0f, gMin = ( (cMin>>8)&0xFF )/255.0, bMin = ( cMin&0xFF )/255.0; + double rMax = ( (cMax>>16)&0xFF )/255.0f, gMax = ( (cMax>>8)&0xFF )/255.0, bMax = ( cMax&0xFF )/255.0; + + rCol = Mth::sin(((float) xa + 0.0f / 3) * PI * 2) * (rMax - rMin) + rMin; + gCol = Mth::sin(((float) xa + 1.0f / 3) * PI * 2) * (gMax - gMin) + gMin; + bCol = Mth::sin(((float) xa + 2.0f / 3) * PI * 2) * (bMax - bMin) + bMin; + */ + + // 4J-JEV: Added, + // There are 24 valid colours for this particle input through the 'xa' field (0.0-1.0). + int note = static_cast(floor(0.5 + (xa * 24.0))) + static_cast(eMinecraftColour_Particle_Note_00); + unsigned int col = Minecraft::GetInstance()->getColourTable()->getColor( static_cast(note) ); + + rCol = ( (col>>16)&0xFF )/255.0; + gCol = ( (col>>8)&0xFF )/255.0; + bCol = ( col&0xFF )/255.0; + + size *= 0.75f; + size *= scale; + oSize = size; + + lifetime = 6; + noPhysics = false; + + + setMiscTex(16 * 4); +} + +NoteParticle::NoteParticle(Level *level, double x, double y, double z, double xa, double ya, double za) : Particle(level, x, y, z, 0, 0, 0) +{ + init(level, x, y, z, xa, ya, za, 2); +} + +NoteParticle::NoteParticle(Level *level, double x, double y, double z, double xa, double ya, double za, float scale) : Particle(level, x, y, z, 0, 0, 0) +{ + init(level, x, y, z, xa, ya, za, scale); +} + +void NoteParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float l = ((age + a) / lifetime) * 32; + if (l < 0) l = 0; + if (l > 1) l = 1; + + size = oSize * l; + Particle::render(t, a, xa, ya, za, xa2, za2); +} + +void NoteParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + if (age++ >= lifetime) remove(); + + move(xd, yd, zd); + if (y == yo) + { + xd *= 1.1; + zd *= 1.1; + } + xd *= 0.66f; + yd *= 0.66f; + zd *= 0.66f; + + if (onGround) + { + xd *= 0.7f; + zd *= 0.7f; + } + +} diff --git a/Minecraft.Client/NoteParticle.h b/Minecraft.Client/NoteParticle.h new file mode 100644 index 0000000..b53910b --- /dev/null +++ b/Minecraft.Client/NoteParticle.h @@ -0,0 +1,16 @@ +#pragma once +#include "Particle.h" + +class NoteParticle : public Particle +{ +public: + virtual eINSTANCEOF GetType() { return eType_NOTEPARTICLE; } +private: + void init(Level *level, double x, double y, double z, double xa, double ya, double za, float scale); // 4J - added +public: + NoteParticle(Level *level, double x, double y, double z, double xa, double ya, double za); + float oSize; + NoteParticle(Level *level, double x, double y, double z, double xa, double ya, double za, float scale); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual void tick(); +}; diff --git a/Minecraft.Client/OPCommand.h b/Minecraft.Client/OPCommand.h new file mode 100644 index 0000000..6985443 --- /dev/null +++ b/Minecraft.Client/OPCommand.h @@ -0,0 +1,32 @@ +#pragma once +#include "GenericCommand.h" +#include "MinecraftServer.h" +#include "Common/Consoles_App.h" +#include "Common/App_enums.h" +#include "Windows64/Windows64_App.h" +#include "PlayerList.h" +#include "../Minecraft.Server/Utils/Logger.h" + +class OPCommand : public GenericCommand { +public: + OPCommand(const wchar_t* _name, const wchar_t* _description) : GenericCommand(_name, _description) {}; + + void Execute(CommandSenderType senderType, std::vector& args, std::shared_ptr player) override { + if (senderType == CommandSenderType::PlayerSender) { + player->sendMessage(L"This Command Must Be Ran From Console"); + return; + } + + std::shared_ptr foundPlayer = MinecraftServer::getInstance()->getPlayers()->getPlayer(args[0]); + + if (!foundPlayer) { + Logger::Info("Unable To Find Player By That Name"); + return; + } + + if (CommandDispatcher::ChangeOperatorState(foundPlayer->getOnlineXuid(), true)) { + foundPlayer->sendMessage(L"You Are Now Operator"); + Logger::Info("Successfully Made Player Operator"); + } + } +}; \ No newline at end of file diff --git a/Minecraft.Client/OffsettedRenderList.cpp b/Minecraft.Client/OffsettedRenderList.cpp new file mode 100644 index 0000000..0a93fa9 --- /dev/null +++ b/Minecraft.Client/OffsettedRenderList.cpp @@ -0,0 +1,65 @@ +#include "stdafx.h" +#include "..\Minecraft.World\IntBuffer.h" +#include "OffsettedRenderList.h" + +// 4J added +OffsettedRenderList::OffsettedRenderList() +{ + x = y = z = 0; + xOff = yOff = zOff = 0; + lists = MemoryTracker::createIntBuffer(1024 * 64); + inited = false; + rendered = false; +} + +void OffsettedRenderList::init(int x, int y, int z, double xOff, double yOff, double zOff) +{ + inited = true; + lists->clear(); + this->x = x; + this->y = y; + this->z = z; + + this->xOff = static_cast(xOff); + this->yOff = static_cast(yOff); + this->zOff = static_cast(zOff); +} + +bool OffsettedRenderList::isAt(int x, int y, int z) +{ + if (!inited) return false; + return x == this->x && y == this->y && z == this->z; +} + +void OffsettedRenderList::add(int list) +{ + // 4J - added - chunkList::getList returns -1 when chunks aren't visible, we really don't want to end up sending that to glCallLists + if( list >= 0 ) + { + lists->put(list); + } + if (lists->remaining() == 0) render(); +} + +void OffsettedRenderList::render() +{ + if (!inited) return; + if (!rendered) + { + lists->flip(); + rendered = true; + } + if (lists->remaining() > 0) + { + glPushMatrix(); + glTranslatef(x - xOff, y - yOff, z - zOff); + glCallLists(lists); + glPopMatrix(); + } +} + +void OffsettedRenderList::clear() +{ + inited = false; + rendered = false; +} \ No newline at end of file diff --git a/Minecraft.Client/OffsettedRenderList.h b/Minecraft.Client/OffsettedRenderList.h new file mode 100644 index 0000000..c989da3 --- /dev/null +++ b/Minecraft.Client/OffsettedRenderList.h @@ -0,0 +1,21 @@ +#pragma once + +class IntBuffer; + +class OffsettedRenderList +{ +private: + int x, y, z; + float xOff, yOff, zOff; + IntBuffer *lists; + bool inited; + bool rendered ; + +public: + OffsettedRenderList(); // 4J added + void init(int x, int y, int z, double xOff, double yOff, double zOff); + bool isAt(int x, int y, int z); + void add(int list); + void render(); + void clear(); +}; \ No newline at end of file diff --git a/Minecraft.Client/Options.cpp b/Minecraft.Client/Options.cpp new file mode 100644 index 0000000..ebe1295 --- /dev/null +++ b/Minecraft.Client/Options.cpp @@ -0,0 +1,530 @@ +#include "stdafx.h" +#include "Options.h" +#include "KeyMapping.h" +#include "LevelRenderer.h" +#include "Textures.h" +#include "..\Minecraft.World\net.minecraft.locale.h" +#include "..\Minecraft.World\Language.h" +#include "..\Minecraft.World\File.h" +#include "..\Minecraft.World\BufferedReader.h" +#include "..\Minecraft.World\DataInputStream.h" +#include "..\Minecraft.World\InputStreamReader.h" +#include "..\Minecraft.World\FileInputStream.h" +#include "..\Minecraft.World\FileOutputStream.h" +#include "..\Minecraft.World\DataOutputStream.h" +#include "..\Minecraft.World\StringHelpers.h" + +// 4J - the Option sub-class used to be an java enumerated type, trying to emulate that functionality here +const Options::Option Options::Option::options[17] = +{ + Options::Option(L"options.music", true, false), + Options::Option(L"options.sound", true, false), + Options::Option(L"options.invertMouse", false, true), + Options::Option(L"options.sensitivity", true, false), + Options::Option(L"options.renderDistance", false, false), + Options::Option(L"options.viewBobbing", false, true), + Options::Option(L"options.anaglyph", false, true), + Options::Option(L"options.advancedOpengl", false, true), + Options::Option(L"options.framerateLimit", false, false), + Options::Option(L"options.difficulty", false, false), + Options::Option(L"options.graphics", false, false), + Options::Option(L"options.ao", false, true), + Options::Option(L"options.guiScale", false, false), + Options::Option(L"options.fov", true, false), + Options::Option(L"options.gamma", true, false), + Options::Option(L"options.renderClouds",false, true), + Options::Option(L"options.particles", false, false), +}; + +const Options::Option *Options::Option::MUSIC = &Options::Option::options[0]; +const Options::Option *Options::Option::SOUND = &Options::Option::options[1]; +const Options::Option *Options::Option::INVERT_MOUSE = &Options::Option::options[2]; +const Options::Option *Options::Option::SENSITIVITY = &Options::Option::options[3]; +const Options::Option *Options::Option::RENDER_DISTANCE = &Options::Option::options[4]; +const Options::Option *Options::Option::VIEW_BOBBING = &Options::Option::options[5]; +const Options::Option *Options::Option::ANAGLYPH = &Options::Option::options[6]; +const Options::Option *Options::Option::ADVANCED_OPENGL = &Options::Option::options[7]; +const Options::Option *Options::Option::FRAMERATE_LIMIT = &Options::Option::options[8]; +const Options::Option *Options::Option::DIFFICULTY = &Options::Option::options[9]; +const Options::Option *Options::Option::GRAPHICS = &Options::Option::options[10]; +const Options::Option *Options::Option::AMBIENT_OCCLUSION = &Options::Option::options[11]; +const Options::Option *Options::Option::GUI_SCALE = &Options::Option::options[12]; +const Options::Option *Options::Option::FOV = &Options::Option::options[13]; +const Options::Option *Options::Option::GAMMA = &Options::Option::options[14]; +const Options::Option *Options::Option::RENDER_CLOUDS = &Options::Option::options[15]; +const Options::Option *Options::Option::PARTICLES = &Options::Option::options[16]; + + +const Options::Option *Options::Option::getItem(int id) +{ + return &options[id]; +} + +Options::Option::Option(const wstring& captionId, bool hasProgress, bool isBoolean) : _isProgress(hasProgress), _isBoolean(isBoolean), captionId(captionId) +{ +} + +bool Options::Option::isProgress() const +{ + return _isProgress; +} + +bool Options::Option::isBoolean() const +{ + return _isBoolean; +} + +int Options::Option::getId() const +{ + return static_cast(this - options); +} + +wstring Options::Option::getCaptionId() const +{ + return captionId; +} + +const wstring Options::RENDER_DISTANCE_NAMES[] = +{ + L"options.renderDistance.far", L"options.renderDistance.normal", L"options.renderDistance.short", L"options.renderDistance.tiny" +}; +const wstring Options::DIFFICULTY_NAMES[] = +{ + L"options.difficulty.peaceful", L"options.difficulty.easy", L"options.difficulty.normal", L"options.difficulty.hard" +}; +const wstring Options::GUI_SCALE[] = +{ + L"options.guiScale.auto", L"options.guiScale.small", L"options.guiScale.normal", L"options.guiScale.large" +}; +const wstring Options::FRAMERATE_LIMITS[] = +{ + L"performance.max", L"performance.balanced", L"performance.powersaver" +}; + +const wstring Options::PARTICLES[] = { + L"options.particles.all", L"options.particles.decreased", L"options.particles.minimal" +}; + +// 4J added +void Options::init() +{ + music = 1; + sound = 1; + sensitivity = 0.5f; + invertYMouse = false; + viewDistance = 0; + bobView = true; + anaglyph3d = false; + advancedOpengl = false; + framerateLimit = 0; + fancyGraphics = true; + ambientOcclusion = true; + renderClouds = true; + skin = L"Default"; + + keyUp = new KeyMapping(L"key.forward", Keyboard::KEY_W); + keyLeft = new KeyMapping(L"key.left", Keyboard::KEY_A); + keyDown = new KeyMapping(L"key.back", Keyboard::KEY_S); + keyRight = new KeyMapping(L"key.right", Keyboard::KEY_D); + keyJump = new KeyMapping(L"key.jump", Keyboard::KEY_SPACE); + keyBuild = new KeyMapping(L"key.inventory", Keyboard::KEY_E); + keyDrop = new KeyMapping(L"key.drop", Keyboard::KEY_Q); + keyChat = new KeyMapping(L"key.chat", Keyboard::KEY_T); + keySneak = new KeyMapping(L"key.sneak", Keyboard::KEY_LSHIFT); + keyAttack = new KeyMapping(L"key.attack", -100 + 0); + keyUse = new KeyMapping(L"key.use", -100 + 1); + keyPlayerList = new KeyMapping(L"key.playerlist", Keyboard::KEY_TAB); + keyPickItem = new KeyMapping(L"key.pickItem", -100 + 2); + keyToggleFog = new KeyMapping(L"key.fog", Keyboard::KEY_F); + + keyMappings[0] = keyAttack; + keyMappings[1] = keyUse; + keyMappings[2] = keyUp; + keyMappings[3] = keyLeft; + keyMappings[4] = keyDown; + keyMappings[5] = keyRight; + keyMappings[6] = keyJump; + keyMappings[7] = keySneak; + keyMappings[8] = keyDrop; + keyMappings[9] = keyBuild; + keyMappings[10] = keyChat; + keyMappings[11] = keyPlayerList; + keyMappings[12] = keyPickItem; + keyMappings[13] = keyToggleFog; + + minecraft = nullptr; + //optionsFile = nullptr; + + difficulty = 2; + hideGui = false; + thirdPersonView = false; + renderDebug = false; + lastMpIp = L""; + + isFlying = false; + smoothCamera = false; + fixedCamera = false; + flySpeed = 1; + cameraSpeed = 1; + guiScale = 0; + particles = 0; + fov = 0; + gamma = 0; +} + +Options::Options(Minecraft *minecraft, File workingDirectory) +{ + init(); + this->minecraft = minecraft; + optionsFile = File(workingDirectory, L"options.txt"); +} + +Options::Options() +{ + init(); +} + +wstring Options::getKeyDescription(int i) +{ + Language *language = Language::getInstance(); + return language->getElement(keyMappings[i]->name); +} + +wstring Options::getKeyMessage(int i) +{ + int key = keyMappings[i]->key; + if (key < 0) { + return I18n::get(L"key.mouseButton", key + 101); + } else { + return Keyboard::getKeyName(keyMappings[i]->key); + } +} + +void Options::setKey(int i, int key) +{ + keyMappings[i]->key = key; + save(); +} + +void Options::set(const Options::Option *item, float fVal) +{ + if (item == Option::MUSIC) + { + music = fVal; +#ifdef _XBOX + minecraft->soundEngine->updateMusicVolume(fVal*2.0f); +#else + minecraft->soundEngine->updateMusicVolume(fVal); +#endif + } + if (item == Option::SOUND) + { + sound = fVal; +#ifdef _XBOX + minecraft->soundEngine->updateSoundEffectVolume(fVal*2.0f); +#else + minecraft->soundEngine->updateSoundEffectVolume(fVal); +#endif + } + if (item == Option::SENSITIVITY) + { + sensitivity = fVal; + } + if (item == Option::FOV) + { + fov = fVal; + } + if (item == Option::GAMMA) + { + gamma = fVal; + } + if (item == Option::RENDER_DISTANCE) + { + viewDistance = fVal; + } +} + +void Options::toggle(const Options::Option *option, int dir) +{ + if (option == Option::INVERT_MOUSE) invertYMouse = !invertYMouse; + if (option == Option::RENDER_DISTANCE) viewDistance = (viewDistance + dir) & 3; + if (option == Option::GUI_SCALE) guiScale = (guiScale + dir) & 3; + if (option == Option::PARTICLES) particles = (particles + dir) % 3; + + // 4J-PB - changing + //if (option == Option::VIEW_BOBBING) bobView = !bobView; + if (option == Option::VIEW_BOBBING) ((dir==0)?bobView=false: bobView=true); + if (option == Option::RENDER_CLOUDS) renderClouds = !renderClouds; + if (option == Option::ADVANCED_OPENGL) + { + advancedOpengl = !advancedOpengl; + minecraft->levelRenderer->allChanged(); + } + if (option == Option::ANAGLYPH) + { + anaglyph3d = !anaglyph3d; + minecraft->textures->reloadAll(); + } + if (option == Option::FRAMERATE_LIMIT) framerateLimit = (framerateLimit + dir + 3) % 3; + + // 4J-PB - Change for Xbox + //if (option == Option::DIFFICULTY) difficulty = (difficulty + dir) & 3; + if (option == Option::DIFFICULTY) difficulty = (dir) & 3; + + app.DebugPrintf("Option::DIFFICULTY = %d",difficulty); + + if (option == Option::GRAPHICS) + { + fancyGraphics = !fancyGraphics; + minecraft->levelRenderer->allChanged(); + } + if (option == Option::AMBIENT_OCCLUSION) + { + ambientOcclusion = !ambientOcclusion; + minecraft->levelRenderer->allChanged(); + } + + // 4J-PB - don't do the file save on the xbox + // save(); + +} + +float Options::getProgressValue(const Options::Option *item) +{ + if (item == Option::FOV) return fov; + if (item == Option::GAMMA) return gamma; + if (item == Option::MUSIC) return music; + if (item == Option::SOUND) return sound; + if (item == Option::SENSITIVITY) return sensitivity; + if (item == Option::RENDER_DISTANCE) return viewDistance; + return 0; +} + +bool Options::getBooleanValue(const Options::Option *item) +{ + // 4J - was a switch statement which we can't do with our Option:: pointer types + if( item == Option::INVERT_MOUSE) return invertYMouse; + if( item == Option::VIEW_BOBBING) return bobView; + if( item == Option::ANAGLYPH) return anaglyph3d; + if( item == Option::ADVANCED_OPENGL) return advancedOpengl; + if( item == Option::AMBIENT_OCCLUSION) return ambientOcclusion; + if( item == Option::RENDER_CLOUDS) return renderClouds; + return false; +} + +wstring Options::getMessage(const Options::Option *item) +{ + // 4J TODO, should these wstrings append rather than add? + + Language *language = Language::getInstance(); + wstring caption = language->getElement(item->getCaptionId()) + L": "; + + if (item->isProgress()) + { + float progressValue = getProgressValue(item); + + if (item == Option::SENSITIVITY) + { + if (progressValue == 0) + { + return caption + language->getElement(L"options.sensitivity.min"); + } + if (progressValue == 1) + { + return caption + language->getElement(L"options.sensitivity.max"); + } + return caption + std::to_wstring(static_cast(progressValue * 200)) + L"%"; + } else if (item == Option::FOV) + { + if (progressValue == 0) + { + return caption + language->getElement(L"options.fov.min"); + } + if (progressValue == 1) + { + return caption + language->getElement(L"options.fov.max"); + } + return caption + std::to_wstring(static_cast(70.0f + progressValue * 40.0f)); + } else if (item == Option::GAMMA) + { + if (progressValue == 0) + { + return caption + language->getElement(L"options.gamma.min"); + } + if (progressValue == 1) + { + return caption + language->getElement(L"options.gamma.max"); + } + return caption + L"+" + std::to_wstring( static_cast(progressValue * 100.0f)) + L"%"; + } + else + { + if (progressValue == 0) + { + return caption + language->getElement(L"options.off"); + } + return caption + std::to_wstring(static_cast(progressValue * 100.0f)) + L"%"; + } + } else if (item->isBoolean()) + { + + bool booleanValue = getBooleanValue(item); + if (booleanValue) + { + return caption + language->getElement(L"options.on"); + } + return caption + language->getElement(L"options.off"); + } + else if (item == Option::RENDER_DISTANCE) + { + return caption + language->getElement(RENDER_DISTANCE_NAMES[viewDistance]); + } + else if (item == Option::DIFFICULTY) + { + return caption + language->getElement(DIFFICULTY_NAMES[difficulty]); + } + else if (item == Option::GUI_SCALE) + { + return caption + language->getElement(GUI_SCALE[guiScale]); + } + else if (item == Option::PARTICLES) + { + return caption + language->getElement(PARTICLES[particles]); + } + else if (item == Option::FRAMERATE_LIMIT) + { + return caption + I18n::get(FRAMERATE_LIMITS[framerateLimit]); + } + else if (item == Option::GRAPHICS) + { + if (fancyGraphics) + { + return caption + language->getElement(L"options.graphics.fancy"); + } + return caption + language->getElement(L"options.graphics.fast"); + } + + return caption; + +} + +void Options::load() +{ + // 4J - removed try/catch +// try { + if (!optionsFile.exists()) return; + // 4J - was new BufferedReader(new FileReader(optionsFile)); + BufferedReader *br = new BufferedReader(new InputStreamReader( new FileInputStream( optionsFile ) ) ); + + wstring line = L""; + while ((line = br->readLine()) != L"") // 4J - was check against nullptr - do we need to distinguish between empty lines and a fail here? + { + // 4J - removed try/catch +// try { + wstring cmds[2]; + size_t splitpos = line.find(L":"); + if( splitpos == wstring::npos ) + { + cmds[0] = line; + cmds[1] = L""; + } + else + { + cmds[0] = line.substr(0,splitpos); + cmds[1] = line.substr(splitpos,line.length()-splitpos); + } + + if (cmds[0] == L"music") music = readFloat(cmds[1]); + if (cmds[0] == L"sound") sound = readFloat(cmds[1]); + if (cmds[0] == L"mouseSensitivity") sensitivity = readFloat(cmds[1]); + if (cmds[0] == L"fov") fov = readFloat(cmds[1]); + if (cmds[0] == L"gamma") gamma = readFloat(cmds[1]); + if (cmds[0] == L"invertYMouse") invertYMouse = cmds[1]==L"true"; + if (cmds[0] == L"viewDistance") viewDistance = _fromString(cmds[1]); + if (cmds[0] == L"guiScale") guiScale =_fromString(cmds[1]); + if (cmds[0] == L"particles") particles = _fromString(cmds[1]); + if (cmds[0] == L"bobView") bobView = cmds[1]==L"true"; + if (cmds[0] == L"anaglyph3d") anaglyph3d = cmds[1]==L"true"; + if (cmds[0] == L"advancedOpengl") advancedOpengl = cmds[1]==L"true"; + if (cmds[0] == L"fpsLimit") framerateLimit = _fromString(cmds[1]); + if (cmds[0] == L"difficulty") difficulty = _fromString(cmds[1]); + if (cmds[0] == L"fancyGraphics") fancyGraphics = cmds[1]==L"true"; + if (cmds[0] == L"ao") ambientOcclusion = cmds[1]==L"true"; + if (cmds[0] == L"clouds") renderClouds = cmds[1]==L"true"; + if (cmds[0] == L"skin") skin = cmds[1]; + if (cmds[0] == L"lastServer") lastMpIp = cmds[1]; + + for (int i = 0; i < keyMappings_length; i++) + { + if (cmds[0] == (L"key_" + keyMappings[i]->name)) + { + keyMappings[i]->key = _fromString(cmds[1]); + } + } +// } catch (Exception e) { +// System.out.println("Skipping bad option: " + line); +// } + } + //KeyMapping.resetMapping(); // 4J Not implemented + br->close(); +// } catch (Exception e) { +// System.out.println("Failed to load options"); +// e.printStackTrace(); +// } + +} + +float Options::readFloat(wstring string) +{ + if (string == L"true") return 1; + if (string == L"false") return 0; + return _fromString(string); +} + +void Options::save() +{ + // 4J - try/catch removed +// try { + + // 4J - original used a PrintWriter & FileWriter, but seems a bit much implementing these just to do this + FileOutputStream fos = FileOutputStream(optionsFile); + DataOutputStream dos = DataOutputStream(&fos); +// PrintWriter pw = new PrintWriter(new FileWriter(optionsFile)); + + dos.writeChars(L"music:" + std::to_wstring(music) + L"\n"); + dos.writeChars(L"sound:" + std::to_wstring(sound) + L"\n"); + dos.writeChars(L"invertYMouse:" + wstring(invertYMouse ? L"true" : L"false") + L"\n"); + dos.writeChars(L"mouseSensitivity:" + std::to_wstring(sensitivity)); + dos.writeChars(L"fov:" + std::to_wstring(fov)); + dos.writeChars(L"gamma:" + std::to_wstring(gamma)); + dos.writeChars(L"viewDistance:" + std::to_wstring(viewDistance)); + dos.writeChars(L"guiScale:" + std::to_wstring(guiScale)); + dos.writeChars(L"particles:" + std::to_wstring(particles)); + dos.writeChars(L"bobView:" + wstring(bobView ? L"true" : L"false")); + dos.writeChars(L"anaglyph3d:" + wstring(anaglyph3d ? L"true" : L"false")); + dos.writeChars(L"advancedOpengl:" + wstring(advancedOpengl ? L"true" : L"false")); + dos.writeChars(L"fpsLimit:" + std::to_wstring(framerateLimit)); + dos.writeChars(L"difficulty:" + std::to_wstring(difficulty)); + dos.writeChars(L"fancyGraphics:" + wstring(fancyGraphics ? L"true" : L"false")); + dos.writeChars(ambientOcclusion ? L"ao:true" : L"ao:false"); + dos.writeChars(renderClouds ? L"clouds:true" : L"clouds:false"); + dos.writeChars(L"skin:" + skin); + dos.writeChars(L"lastServer:" + lastMpIp); + + for (int i = 0; i < keyMappings_length; i++) + { + dos.writeChars(L"key_" + keyMappings[i]->name + L":" + std::to_wstring(keyMappings[i]->key)); + } + + dos.close(); +// } catch (Exception e) { +// System.out.println("Failed to save options"); +// e.printStackTrace(); +// } + +} + +bool Options::isCloudsOn() +{ + return viewDistance < 2 && renderClouds; +} diff --git a/Minecraft.Client/Options.h b/Minecraft.Client/Options.h new file mode 100644 index 0000000..8be61ac --- /dev/null +++ b/Minecraft.Client/Options.h @@ -0,0 +1,132 @@ +#pragma once +using namespace std; +class Minecraft; +class KeyMapping; +#include "..\Minecraft.World\File.h" + +class Options +{ +public: + static const int AO_OFF = 0; + static const int AO_MIN = 1; + static const int AO_MAX = 2; + + // 4J - this used to be an enum + class Option + { + public: + static const Option options[17]; + static const Option *MUSIC; + static const Option *SOUND; + static const Option *INVERT_MOUSE; + static const Option *SENSITIVITY; + static const Option *RENDER_DISTANCE; + static const Option *VIEW_BOBBING; + static const Option *ANAGLYPH; + static const Option *ADVANCED_OPENGL; + static const Option *FRAMERATE_LIMIT; + static const Option *DIFFICULTY; + static const Option *GRAPHICS; + static const Option *AMBIENT_OCCLUSION; + static const Option *GUI_SCALE; + static const Option *FOV; + static const Option *GAMMA; + static const Option *RENDER_CLOUDS; + static const Option *PARTICLES; + + private: + const bool _isProgress; + const bool _isBoolean; + const wstring captionId; + + public: + static const Option *getItem(int id); + + Option(const wstring& captionId, bool hasProgress, bool isBoolean); + bool isProgress() const; + bool isBoolean() const; + int getId() const; + wstring getCaptionId() const; + }; + +private: + static const wstring RENDER_DISTANCE_NAMES[]; + static const wstring DIFFICULTY_NAMES[]; + static const wstring GUI_SCALE[]; + static const wstring FRAMERATE_LIMITS[]; + static const wstring PARTICLES[]; + +public: + float music; + float sound; + float sensitivity; + bool invertYMouse; + int viewDistance; + bool bobView; + bool anaglyph3d; + bool advancedOpengl; + int framerateLimit; + bool fancyGraphics; + bool ambientOcclusion; + bool renderClouds; + wstring skin; + + KeyMapping *keyUp; + KeyMapping *keyLeft; + KeyMapping *keyDown; + KeyMapping *keyRight; + KeyMapping *keyJump; + KeyMapping *keyBuild; + KeyMapping *keyDrop; + KeyMapping *keyChat; + KeyMapping *keySneak; + KeyMapping *keyAttack; + KeyMapping *keyUse; + KeyMapping *keyPlayerList; + KeyMapping *keyPickItem; + KeyMapping *keyToggleFog; + + static const int keyMappings_length = 14; + KeyMapping *keyMappings[keyMappings_length]; + +protected: + Minecraft *minecraft; +private: + File optionsFile; + +public: + int difficulty; + bool hideGui; + bool thirdPersonView; + bool renderDebug; + wstring lastMpIp; + + bool isFlying; + bool smoothCamera; + bool fixedCamera; + float flySpeed; + float cameraSpeed; + int guiScale; + int particles; // 0 is all, 1 is decreased and 2 is minimal + float fov; + float gamma; + + void init(); // 4J added + Options(Minecraft *minecraft, File workingDirectory); + Options(); + wstring getKeyDescription(int i); + wstring getKeyMessage(int i); + void setKey(int i, int key); + void set(const Options::Option *item, float value); + void toggle(const Options::Option *option, int dir); + float getProgressValue(const Options::Option *item); + bool getBooleanValue(const Options::Option *item); + wstring getMessage(const Options::Option *item); + void load(); +private: + float readFloat(wstring string); +public: + void save(); + + bool isCloudsOn(); +}; diff --git a/Minecraft.Client/Particle.cpp b/Minecraft.Client/Particle.cpp new file mode 100644 index 0000000..643dc66 --- /dev/null +++ b/Minecraft.Client/Particle.cpp @@ -0,0 +1,255 @@ +#include "stdafx.h" +#include "Particle.h" +#include "Tesselator.h" +#include "..\Minecraft.World\Random.h" +#include "..\Minecraft.World\Mth.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\net.minecraft.world.h" + +/* + protected int tex; + protected float gravity; + */ + +double Particle::xOff = 0; +double Particle::yOff = 0; +double Particle::zOff = 0; + +void Particle::_init(Level *level, double x, double y, double z) +{ + // 4J - added these initialisers + alpha = 1.0f; + tex = nullptr; + gravity = 0.0f; + + setSize(0.2f, 0.2f); + heightOffset = bbHeight / 2.0f; + setPos(x, y, z); + xo = xOld = x; + yo = yOld = y; + zo = zOld = z; + rCol = gCol = bCol = 1.0f; + + uo = random->nextFloat() * 3; + vo = random->nextFloat() * 3; + + size = (random->nextFloat() * 0.5f + 0.5f) * 2; + + lifetime = static_cast(4 / (random->nextFloat() * 0.9f + 0.1f)); + age = 0; + + texX = 0; + texY = 0; +} + +Particle::Particle(Level *level, double x, double y, double z) : Entity(level, false) +{ + _init(level,x,y,z); +} + +Particle::Particle(Level *level, double x, double y, double z, double xa, double ya, double za) : Entity(level, false) +{ + _init(level,x,y,z); + + xd = xa + static_cast(Math::random() * 2 - 1) * 0.4f; + yd = ya + static_cast(Math::random() * 2 - 1) * 0.4f; + zd = za + static_cast(Math::random() * 2 - 1) * 0.4f; + float speed = static_cast(Math::random() + Math::random() + 1) * 0.15f; + + float dd = (float) (Mth::sqrt(xd * xd + yd * yd + zd * zd)); + xd = xd / dd * speed * 0.4f; + yd = yd / dd * speed * 0.4f + 0.1f; + zd = zd / dd * speed * 0.4f;} + +shared_ptr Particle::setPower(float power) +{ + xd *= power; + yd = (yd - 0.1f) * power + 0.1f; + zd *= power; + return dynamic_pointer_cast( shared_from_this() ); +} + +shared_ptr Particle::scale(float scale) +{ + setSize(0.2f * scale, 0.2f * scale); + size *= scale; + return dynamic_pointer_cast( shared_from_this() ); +} + +void Particle::setColor(float r, float g, float b) +{ + this->rCol = r; + this->gCol = g; + this->bCol = b; +} + +void Particle::setAlpha(float alpha) +{ + // 4J - brought forward from Java 1.8 + if (this->alpha == 1.0f && alpha < 1.0f) + { + Minecraft::GetInstance()->particleEngine->markTranslucent(dynamic_pointer_cast(shared_from_this())); + } + else if (this->alpha < 1.0f && alpha == 1.0f) + { + Minecraft::GetInstance()->particleEngine->markOpaque(dynamic_pointer_cast(shared_from_this())); + } + this->alpha = alpha; +} + +float Particle::getRedCol() +{ + return rCol; +} + +float Particle::getGreenCol() +{ + return gCol; +} + +float Particle::getBlueCol() +{ + return bCol; +} + +float Particle::getAlpha() +{ + return alpha; +} + +bool Particle::makeStepSound() +{ + return false; +} + +void Particle::defineSynchedData() +{ +} + +void Particle::tick() +{ + xo = x; + yo = y; + zo = z; + + if (age++ >= lifetime) remove(); + + yd -= 0.04 * gravity; + move(xd, yd, zd); + xd *= 0.98f; + yd *= 0.98f; + zd *= 0.98f; + + if (onGround) + { + xd *= 0.7f; + zd *= 0.7f; + } + +} + +void Particle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float u0 = texX / 16.0f; + float u1 = u0 + 0.999f / 16.0f; + float v0 = texY / 16.0f; + float v1 = v0 + 0.999f / 16.0f; + float r = 0.1f * size; + + if (tex != nullptr) + { + u0 = tex->getU0(); + u1 = tex->getU1(); + v0 = tex->getV0(); + v1 = tex->getV1(); + } + + float x = static_cast(xo + (this->x - xo) * a - xOff); + float y = static_cast(yo + (this->y - yo) * a - yOff); + float z = static_cast(zo + (this->z - zo) * a - zOff); + + float br = 1.0f; // 4J - change brought forward from 1.8.2 + if( !SharedConstants::TEXTURE_LIGHTING ) + { + br = getBrightness(a); + } + +#ifdef __PSVITA__ + // AP - this will set up the 4 vertices in half the time. + t->tileParticleQuad((float)(x - xa * r - xa2 * r), (float)( y - ya * r), (float)( z - za * r - za2 * r), (float)( u1), (float)( v1), + (float)(x - xa * r + xa2 * r), (float)( y + ya * r), (float)( z - za * r + za2 * r), (float)( u1), (float)( v0), + (float)(x + xa * r + xa2 * r), (float)( y + ya * r), (float)( z + za * r + za2 * r), (float)( u0), (float)( v0), + (float)(x + xa * r - xa2 * r), (float)( y - ya * r), (float)( z + za * r - za2 * r), (float)( u0), (float)( v1), + rCol * br, gCol * br, bCol * br, alpha); +#else + t->color(rCol * br, gCol * br, bCol * br, alpha); + + t->vertexUV((float)(x - xa * r - xa2 * r), (float)( y - ya * r), (float)( z - za * r - za2 * r), (float)( u1), (float)( v1)); + t->vertexUV((float)(x - xa * r + xa2 * r), (float)( y + ya * r), (float)( z - za * r + za2 * r), (float)( u1), (float)( v0)); + t->vertexUV((float)(x + xa * r + xa2 * r), (float)( y + ya * r), (float)( z + za * r + za2 * r), (float)( u0), (float)( v0)); + t->vertexUV((float)(x + xa * r - xa2 * r), (float)( y - ya * r), (float)( z + za * r - za2 * r), (float)( u0), (float)( v1)); +#endif +} + +int Particle::getParticleTexture() +{ + return ParticleEngine::MISC_TEXTURE; +} + +void Particle::addAdditonalSaveData(CompoundTag *entityTag) +{ +} + +void Particle::readAdditionalSaveData(CompoundTag *tag) +{ +} + +void Particle::setTex(Textures *textures, Icon *icon) +{ + if (getParticleTexture() == ParticleEngine::TERRAIN_TEXTURE) + { + tex = icon; + } + else if (getParticleTexture() == ParticleEngine::ITEM_TEXTURE) + { + tex = icon; + } + else + { +#ifndef _CONTENT_PACKAGE + printf("Invalid call to Particle.setTex, use coordinate methods\n"); + __debugbreak(); +#endif + //throw new RuntimeException("Invalid call to Particle.setTex, use coordinate methods"); + } +} + +void Particle::setMiscTex(int slotIndex) +{ + if (getParticleTexture() != ParticleEngine::MISC_TEXTURE && getParticleTexture() != ParticleEngine::DRAGON_BREATH_TEXTURE) + { +#ifndef _CONTENT_PACKAGE + printf("Invalid call to Particle.setMixTex\n"); + __debugbreak(); + //throw new RuntimeException("Invalid call to Particle.setMiscTex"); +#endif + } + texX = slotIndex % 16; + texY = slotIndex / 16; +} + +void Particle::setNextMiscAnimTex() +{ + texX++; +} + +bool Particle::isAttackable() +{ + return false; +} + +//@Override +wstring Particle::toString() +{ + return L"A particle"; //getClass()->getSimpleName() + ", Pos (" + x + "," + y + "," + z + "), RGBA (" + rCol + "," + gCol + "," + bCol + "," + alpha + "), Age " + age; +} \ No newline at end of file diff --git a/Minecraft.Client/Particle.h b/Minecraft.Client/Particle.h new file mode 100644 index 0000000..d9b0ba3 --- /dev/null +++ b/Minecraft.Client/Particle.h @@ -0,0 +1,53 @@ +#pragma once +using namespace std; + +#include "..\Minecraft.World\Entity.h" +#include "..\Minecraft.World\ParticleTypes.h" +#include "ParticleEngine.h" +class Tesselator; +class CompoundTag; +class Icon; + +class Particle : public Entity +{ +protected: + int texX, texY; + float uo, vo; + int age; + int lifetime; + float size; + float gravity; + float rCol, gCol, bCol; + float alpha; + Icon *tex; +public: + static double xOff, yOff, zOff; +private: + void _init(Level *level, double x, double y, double z); +protected: + Particle(Level *level, double x, double y, double z); +public: + Particle(Level *level, double x, double y, double z, double xa, double ya, double za); + virtual shared_ptr setPower(float power); + virtual shared_ptr scale(float scale); + void setColor(float r, float g, float b); + void setAlpha(float alpha); + float getRedCol(); + float getGreenCol(); + float getBlueCol(); + float getAlpha(); +protected: + virtual bool makeStepSound(); + virtual void defineSynchedData(); +public: + virtual void tick(); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual int getParticleTexture(); + virtual void addAdditonalSaveData(CompoundTag *entityTag); + virtual void readAdditionalSaveData(CompoundTag *tag); + virtual void setTex(Textures *textures, Icon *icon); + virtual void setMiscTex(int slotIndex); + virtual void setNextMiscAnimTex(); + virtual bool isAttackable(); + virtual wstring toString(); +}; \ No newline at end of file diff --git a/Minecraft.Client/ParticleEngine.cpp b/Minecraft.Client/ParticleEngine.cpp new file mode 100644 index 0000000..f8a8ec2 --- /dev/null +++ b/Minecraft.Client/ParticleEngine.cpp @@ -0,0 +1,286 @@ +#include "stdafx.h" +#include "ParticleEngine.h" +#include "Particle.h" +#include "Textures.h" +#include "TextureAtlas.h" +#include "Tesselator.h" +#include "TerrainParticle.h" +#include "ResourceLocation.h" +#include "Camera.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\StringHelpers.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" + +ResourceLocation ParticleEngine::PARTICLES_LOCATION = ResourceLocation(TN_PARTICLES); + +ParticleEngine::ParticleEngine(Level *level, Textures *textures) +{ +// if (level != nullptr) // 4J - removed - we want level to be initialised to *something* + { + this->level = level; + } + this->textures = textures; + + this->random = new Random(); +} + +ParticleEngine::~ParticleEngine() +{ + delete random; +} + +void ParticleEngine::add(shared_ptr p) +{ + int t = p->getParticleTexture(); + int l = p->level->dimension->id == 0 ? 0 : ( p->level->dimension->id == -1 ? 1 : 2); + int maxParticles; + switch(p->GetType()) + { + case eTYPE_DRAGONBREATHPARTICLE: + maxParticles = MAX_DRAGON_BREATH_PARTICLES; + break; + case eType_FIREWORKSSPARKPARTICLE: + maxParticles = MAX_FIREWORK_SPARK_PARTICLES; + break; + default: + maxParticles = MAX_PARTICLES_PER_LAYER; + break; + } + int list = p->getAlpha() != 1.0f ? TRANSLUCENT_LIST : OPAQUE_LIST; // 4J - Brought forward from Java 1.8 + + if( particles[l][t][list].size() >= maxParticles) + { + particles[l][t][list].pop_front(); + } + particles[l][t][list].push_back(p); +} + +void ParticleEngine::tick() +{ + for( int l = 0; l < 3; l++ ) + { + for (int tt = 0; tt < TEXTURE_COUNT; tt++) + { + for( int list = 0; list < LIST_COUNT; list++ ) // 4J - Brought forward from Java 1.8 + { + for (unsigned int i = 0; i < particles[l][tt][list].size(); i++) + { + shared_ptr p = particles[l][tt][list][i]; + p->tick(); + if (p->removed) + { + particles[l][tt][list][i] = particles[l][tt][list].back(); + particles[l][tt][list].pop_back(); + i--; + } + } + } + } + } +} + +void ParticleEngine::render(shared_ptr player, float a, int list) +{ + if (player == nullptr) + { + return; + } + + // 4J - change brought forward from 1.2.3 + float xa = Camera::xa; + float za = Camera::za; + + float xa2 = Camera::xa2; + float za2 = Camera::za2; + float ya = Camera::ya; + + Particle::xOff = (player->xOld + (player->x - player->xOld) * a); + Particle::yOff = (player->yOld + (player->y - player->yOld) * a); + Particle::zOff = (player->zOld + (player->z - player->zOld) * a); + int l = level->dimension->id == 0 ? 0 : ( level->dimension->id == -1 ? 1 : 2 ); + + glEnable(GL_BLEND); + glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA); + glAlphaFunc(GL_GREATER, 1.0f / 255.0f); + + for (int tt = 0; tt < TEXTURE_COUNT; tt++) + { + if(tt == ENTITY_PARTICLE_TEXTURE) continue; + + if (!particles[l][tt][list].empty()) + { + switch (list) + { + case TRANSLUCENT_LIST: + glDepthMask(false); + break; + case OPAQUE_LIST: + glDepthMask(true); + break; + } + + MemSect(31); + if (tt == MISC_TEXTURE || tt == DRAGON_BREATH_TEXTURE) textures->bindTexture(&PARTICLES_LOCATION); + if (tt == TERRAIN_TEXTURE) textures->bindTexture(&TextureAtlas::LOCATION_BLOCKS); + if (tt == ITEM_TEXTURE) textures->bindTexture(&TextureAtlas::LOCATION_ITEMS); + MemSect(0); + Tesselator *t = Tesselator::getInstance(); + glColor4f(1.0f, 1.0f, 1.0f, 1); + + t->begin(); + for (unsigned int i = 0; i < particles[l][tt][list].size(); i++) + { + if(t->hasMaxVertices()) + { + t->end(); + t->begin(); + } + shared_ptr p = particles[l][tt][list][i]; + + if (SharedConstants::TEXTURE_LIGHTING) // 4J - change brought forward from 1.8.2 + { + t->tex2(p->getLightColor(a)); + } + p->render(t, a, xa, ya, za, xa2, za2); + } + t->end(); + } + } + + glDisable(GL_BLEND); + glDepthMask(true); + glAlphaFunc(GL_GREATER, .1f); +} + +void ParticleEngine::renderLit(shared_ptr player, float a, int list) +{ + // 4J - added. We call this before ParticleEngine::render in the general render per player, so if we + // don't set this here then the offsets will be from the previous player - a single frame lag for the + // java game, or totally incorrect placement of things for split screen. + Particle::xOff = (player->xOld + (player->x - player->xOld) * a); + Particle::yOff = (player->yOld + (player->y - player->yOld) * a); + Particle::zOff = (player->zOld + (player->z - player->zOld) * a); + + float RAD = PI / 180; + float xa = (float) Mth::cos(player->yRot * RAD); + float za = (float) Mth::sin(player->yRot * RAD); + + float xa2 = -za * (float) Mth::sin(player->xRot * RAD); + float za2 = xa * (float) Mth::sin(player->xRot * RAD); + float ya = (float) Mth::cos(player->xRot * RAD); + + int l = level->dimension->id == 0 ? 0 : ( level->dimension->id == -1 ? 1 : 2 ); + int tt = ENTITY_PARTICLE_TEXTURE; + + if( !particles[l][tt][list].empty() ) + { + Tesselator *t = Tesselator::getInstance(); + for (unsigned int i = 0; i < particles[l][tt][list].size(); i++) + { + shared_ptr p = particles[l][tt][list][i]; + + if (SharedConstants::TEXTURE_LIGHTING) // 4J - change brought forward from 1.8.2 + { + t->tex2(p->getLightColor(a)); + } + p->render(t, a, xa, ya, za, xa2, za2); + } + } +} + +void ParticleEngine::setLevel(Level *level) +{ + this->level = level; + // 4J - we've now got a set of particle vectors for each dimension, and only clearing them when its game over & the level is set to nullptr + if( level == nullptr ) + { + for( int l = 0; l < 3; l++ ) + { + for (int tt = 0; tt < TEXTURE_COUNT; tt++) + { + for( int list = 0; list < LIST_COUNT; list++ ) + { + particles[l][tt][list].clear(); + } + } + } + } +} + +void ParticleEngine::destroy(int x, int y, int z, int tid, int data) +{ + if (tid == 0) return; + + Tile *tile = Tile::tiles[tid]; + int SD = 4; + for (int xx = 0; xx < SD; xx++) + for (int yy = 0; yy < SD; yy++) + for (int zz = 0; zz < SD; zz++) + { + double xp = x + (xx + 0.5) / SD; + double yp = y + (yy + 0.5) / SD; + double zp = z + (zz + 0.5) / SD; + int face = random->nextInt(6); + add((std::make_shared(level, xp, yp, zp, xp - x - 0.5f, yp - y - 0.5f, zp - z - 0.5f, tile, face, data, textures))->init(x, y, z, data)); + } +} + +void ParticleEngine::crack(int x, int y, int z, int face) +{ + int tid = level->getTile(x, y, z); + if (tid == 0) return; + Tile *tile = Tile::tiles[tid]; + float r = 0.10f; + double xp = x + random->nextDouble() * ((tile->getShapeX1() - tile->getShapeX0()) - r * 2) + r + tile->getShapeX0(); + double yp = y + random->nextDouble() * ((tile->getShapeY1() - tile->getShapeY0()) - r * 2) + r + tile->getShapeY0(); + double zp = z + random->nextDouble() * ((tile->getShapeZ1() - tile->getShapeZ0()) - r * 2) + r + tile->getShapeZ0(); + if (face == 0) yp = y + tile->getShapeY0() - r; + if (face == 1) yp = y + tile->getShapeY1() + r; + if (face == 2) zp = z + tile->getShapeZ0() - r; + if (face == 3) zp = z + tile->getShapeZ1() + r; + if (face == 4) xp = x + tile->getShapeX0() - r; + if (face == 5) xp = x + tile->getShapeX1() + r; + add((std::make_shared(level, xp, yp, zp, 0, 0, 0, tile, face, level->getData(x, y, z), textures))->init(x, y, z, level->getData(x, y, z))->setPower(0.2f)->scale(0.6f)); + +} + +void ParticleEngine::markTranslucent(shared_ptr particle) +{ + moveParticleInList(particle, OPAQUE_LIST, TRANSLUCENT_LIST); +} + +void ParticleEngine::markOpaque(shared_ptr particle) +{ + moveParticleInList(particle, TRANSLUCENT_LIST, OPAQUE_LIST); +} + +void ParticleEngine::moveParticleInList(shared_ptr particle, int source, int destination) +{ + int l = particle->level->dimension->id == 0 ? 0 : ( particle->level->dimension->id == -1 ? 1 : 2); + for (int tt = 0; tt < TEXTURE_COUNT; tt++) + { + auto it = find(particles[l][tt][source].begin(), particles[l][tt][source].end(), particle); + if(it != particles[l][tt][source].end() ) + { + (*it) = particles[l][tt][source].back(); + particles[l][tt][source].pop_back(); + particles[l][tt][destination].push_back(particle); + } + } +} + +wstring ParticleEngine::countParticles() +{ + int l = level->dimension->id == 0 ? 0 : (level->dimension->id == -1 ? 1 : 2 ); + int total = 0; + for( int tt = 0; tt < TEXTURE_COUNT; tt++ ) + { + for( int list = 0; list < LIST_COUNT; list++ ) + { + total += particles[l][tt][list].size(); + } + } + return std::to_wstring(total); +} diff --git a/Minecraft.Client/ParticleEngine.h b/Minecraft.Client/ParticleEngine.h new file mode 100644 index 0000000..2a9aa05 --- /dev/null +++ b/Minecraft.Client/ParticleEngine.h @@ -0,0 +1,56 @@ +#pragma once +using namespace std; + +class Particle; +class Level; +class Textures; +class Entity; +class Random; +using namespace std; + +class ParticleEngine +{ +private: + static ResourceLocation PARTICLES_LOCATION; + static const int MAX_PARTICLES_PER_LAYER = 200; // 4J - reduced from 4000 + static const int MAX_DRAGON_BREATH_PARTICLES = 1000; + static const int MAX_FIREWORK_SPARK_PARTICLES = 2000; + +public: + static const int MISC_TEXTURE = 0; + static const int TERRAIN_TEXTURE = 1; + static const int ITEM_TEXTURE = 2; + static const int ENTITY_PARTICLE_TEXTURE = 3; + static const int DRAGON_BREATH_TEXTURE = 4; // 4J Added + static const int TEXTURE_COUNT = 5; + + // Brought forward from Java 1.8 + static const int TRANSLUCENT_LIST = 0; + static const int OPAQUE_LIST = 1; + static const int LIST_COUNT = 2; + +protected: + Level *level; +private: + deque > particles[3][TEXTURE_COUNT][LIST_COUNT]; // 4J made three arrays to cope with simultaneous two dimensions + Textures *textures; + Random *random; + +public: + ParticleEngine(Level *level, Textures *textures); + ~ParticleEngine(); + void add(shared_ptr p); + void tick(); + void render(shared_ptr player, float a, int list); + void renderLit(shared_ptr player, float a, int list); + void setLevel(Level *level); + void destroy(int x, int y, int z, int tid, int data); + void crack(int x, int y, int z, int face); + + // 4J - Brought forward from Java 1.8 + void markTranslucent(shared_ptr particle); + void markOpaque(shared_ptr particle); + void moveParticleInList(shared_ptr particle, int source, int destination); + + wstring countParticles(); +}; \ No newline at end of file diff --git a/Minecraft.Client/PendingConnection.cpp b/Minecraft.Client/PendingConnection.cpp new file mode 100644 index 0000000..6d5497f --- /dev/null +++ b/Minecraft.Client/PendingConnection.cpp @@ -0,0 +1,328 @@ +#include "stdafx.h" +#include "PendingConnection.h" +#include "PlayerConnection.h" +#include "ServerConnection.h" +#include "ServerPlayer.h" +#include "ServerPlayerGameMode.h" +#include "ServerLevel.h" +#include "PlayerList.h" +#include "MinecraftServer.h" +#include "..\Minecraft.World\net.minecraft.network.h" +#include "..\Minecraft.World\pos.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\net.minecraft.world.level.storage.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\SharedConstants.h" +#include "Settings.h" +// #ifdef __PS3__ +// #include "PS3\Network\NetworkPlayerSony.h" +// #endif + +Random *PendingConnection::random = new Random(); + +#ifdef _WINDOWS64 +bool g_bRejectDuplicateNames = true; +#endif + +PendingConnection::PendingConnection(MinecraftServer *server, Socket *socket, const wstring& id) +{ + // 4J - added initialisers + done = false; + _tick = 0; + name = L""; + acceptedLogin = nullptr; + loginKey = L""; + + this->server = server; + connection = new Connection(socket, id, this); + connection->fakeLag = FAKE_LAG; +} + +PendingConnection::~PendingConnection() +{ + delete connection; +} + +void PendingConnection::tick() +{ + if (acceptedLogin != nullptr) + { + this->handleAcceptedLogin(acceptedLogin); + acceptedLogin = nullptr; + } + if (_tick++ == MAX_TICKS_BEFORE_LOGIN) + { + disconnect(DisconnectPacket::eDisconnect_LoginTooLong); + } + else + { + connection->tick(); + } +} + +void PendingConnection::disconnect(DisconnectPacket::eDisconnectReason reason) +{ + // try { // 4J - removed try/catch + // logger.info("Disconnecting " + getName() + ": " + reason); + app.DebugPrintf("Pending connection disconnect: %d\n", reason ); + connection->send(std::make_shared(reason)); + connection->sendAndQuit(); + done = true; + // } catch (Exception e) { + // e.printStackTrace(); + // } +} + +void PendingConnection::handlePreLogin(shared_ptr packet) +{ + if (packet->m_netcodeVersion != MINECRAFT_NET_VERSION) + { + app.DebugPrintf("Netcode version is %d not equal to %d\n", packet->m_netcodeVersion, MINECRAFT_NET_VERSION); + if (packet->m_netcodeVersion > MINECRAFT_NET_VERSION) + { + disconnect(DisconnectPacket::eDisconnect_OutdatedServer); + } + else + { + disconnect(DisconnectPacket::eDisconnect_OutdatedClient); + } + return; + } + // printf("Server: handlePreLogin\n"); + name = packet->loginKey; // 4J Stu - Change from the login packet as we know better on client end during the pre-login packet + sendPreLoginResponse(); +} + +void PendingConnection::sendPreLoginResponse() +{ + // 4J Stu - Calculate the players with UGC privileges set + PlayerUID *ugcXuids = new PlayerUID[MINECRAFT_NET_MAX_PLAYERS]; + DWORD ugcXuidCount = 0; + DWORD hostIndex = 0; + BYTE ugcFriendsOnlyBits = 0; + char szUniqueMapName[14]; + + StorageManager.GetSaveUniqueFilename(szUniqueMapName); + + PlayerList *playerList = MinecraftServer::getInstance()->getPlayers(); + for(auto& player : playerList->players) + { + // If the offline Xuid is invalid but the online one is not then that's guest which we should ignore + // If the online Xuid is invalid but the offline one is not then we are definitely an offline game so dont care about UGC + + // PADDY - this is failing when a local player with chat restrictions joins an online game + + if( player != nullptr && player->connection->m_offlineXUID != INVALID_XUID && player->connection->m_onlineXUID != INVALID_XUID ) + { + if( player->connection->m_friendsOnlyUGC ) + { + ugcFriendsOnlyBits |= (1<connection->m_onlineXUID; + + if( player->connection->getNetworkPlayer() != nullptr && player->connection->getNetworkPlayer()->IsHost() ) hostIndex = ugcXuidCount; + + ++ugcXuidCount; + } + } + +#if 0 + if (false)// server->onlineMode) // 4J - removed + { + loginKey = L"TOIMPLEMENT"; // 4J - todo Long.toHexString(random.nextLong()); + connection->send( shared_ptr( new PreLoginPacket(loginKey, ugcXuids, ugcXuidCount, ugcFriendsOnlyBits, server->m_ugcPlayersVersion, szUniqueMapName,app.GetGameHostOption(eGameHostOption_All),hostIndex) ) ); + } + else +#endif + { + DWORD cappedCount = (ugcXuidCount > 255u) ? 255u : ugcXuidCount; + BYTE cappedHostIndex = (hostIndex >= 255u) ? 254 : static_cast(hostIndex); + connection->send(std::make_shared(L"-", ugcXuids, cappedCount, ugcFriendsOnlyBits, server->m_ugcPlayersVersion, szUniqueMapName, app.GetGameHostOption(eGameHostOption_All), cappedHostIndex, server->m_texturePackId)); + } +} + +void PendingConnection::handleLogin(shared_ptr packet) +{ + // printf("Server: handleLogin\n"); + //name = packet->userName; + if (packet->clientVersion != SharedConstants::NETWORK_PROTOCOL_VERSION) + { + app.DebugPrintf("Client version is %d not equal to %d\n", packet->clientVersion, SharedConstants::NETWORK_PROTOCOL_VERSION); + if (packet->clientVersion > SharedConstants::NETWORK_PROTOCOL_VERSION) + { + disconnect(DisconnectPacket::eDisconnect_OutdatedServer); + } + else + { + disconnect(DisconnectPacket::eDisconnect_OutdatedClient); + } + return; + } + + //if (true)// 4J removed !server->onlineMode) + bool sentDisconnect = false; + + // Use the same Xuid choice as handleAcceptedLogin (offline first, online fallback). + // + PlayerUID loginXuid = packet->m_offlineXuid; + if (loginXuid == INVALID_XUID) loginXuid = packet->m_onlineXuid; + + bool duplicateXuid = false; + if (loginXuid != INVALID_XUID && server->getPlayers()->getPlayer(loginXuid) != nullptr) + { + duplicateXuid = true; + } + else if (packet->m_onlineXuid != INVALID_XUID && + packet->m_onlineXuid != loginXuid && + server->getPlayers()->getPlayer(packet->m_onlineXuid) != nullptr) + { + duplicateXuid = true; + } + + if( sentDisconnect ) + { + // Do nothing + } + else if( server->getPlayers()->isXuidBanned( packet->m_onlineXuid ) ) + { + disconnect(DisconnectPacket::eDisconnect_Banned); + } + else if (duplicateXuid) + { + // Reject the incoming connection — a player with this UID is already + // on the server. Allowing duplicates causes invisible players and + // other undefined behaviour. + app.DebugPrintf("LOGIN: Rejecting duplicate xuid for name: %ls\n", name.c_str()); + disconnect(DisconnectPacket::eDisconnect_Banned); + } +#ifdef _WINDOWS64 + else if (g_bRejectDuplicateNames) + { + bool nameTaken = false; + vector >& pl = server->getPlayers()->players; + for (const auto& i : pl) + { + if (i != nullptr && i->name == name) + { + nameTaken = true; + break; + } + } + if (nameTaken) + { + app.DebugPrintf("Rejecting duplicate name: %ls\n", name.c_str()); + disconnect(DisconnectPacket::eDisconnect_Banned); + } + else + { + handleAcceptedLogin(packet); + } + } +#endif + else + { + handleAcceptedLogin(packet); + } + //else + { + //4J - removed +#if 0 + new Thread() { + public void run() { + try { + String key = loginKey; + URL url = new URL("http://www.minecraft.net/game/checkserver.jsp?user=" + URLEncoder.encode(packet.userName, "UTF-8") + "&serverId=" + URLEncoder.encode(key, "UTF-8")); + BufferedReader br = new BufferedReader(new InputStreamReader(url.openStream())); + String msg = br.readLine(); + br.close(); + if (msg.equals("YES")) { + acceptedLogin = packet; + } else { + disconnect("Failed to verify username!"); + } + } catch (Exception e) { + disconnect("Failed to verify username! [internal error " + e + "]"); + e.printStackTrace(); + } + } + }.start(); +#endif + } + +} + +void PendingConnection::handleAcceptedLogin(shared_ptr packet) +{ + if(packet->m_ugcPlayersVersion != server->m_ugcPlayersVersion) + { + // Send the pre-login packet again with the new list of players + sendPreLoginResponse(); + return; + } + + // Guests use the online xuid, everyone else uses the offline one + PlayerUID playerXuid = packet->m_offlineXuid; + if(playerXuid == INVALID_XUID) playerXuid = packet->m_onlineXuid; + + shared_ptr playerEntity = server->getPlayers()->getPlayerForLogin(this, name, playerXuid,packet->m_onlineXuid); + if (playerEntity != nullptr) + { + server->getPlayers()->placeNewPlayer(connection, playerEntity, packet); + connection = nullptr; // We've moved responsibility for this over to the new PlayerConnection, nullptr so we don't delete our reference to it here in our dtor + } + done = true; + +} + +void PendingConnection::onDisconnect(DisconnectPacket::eDisconnectReason reason, void *reasonObjects) +{ + // logger.info(getName() + " lost connection"); + done = true; +} + +void PendingConnection::handleGetInfo(shared_ptr packet) +{ + //try { + //String message = server->motd + "�" + server->players->getPlayerCount() + "�" + server->players->getMaxPlayers(); + //connection->send(new DisconnectPacket(message)); + connection->send(std::make_shared(DisconnectPacket::eDisconnect_ServerFull)); + connection->sendAndQuit(); + server->connection->removeSpamProtection(connection->getSocket()); + done = true; + //} catch (Exception e) { + // e.printStackTrace(); + //} +} + +void PendingConnection::handleKeepAlive(shared_ptr packet) +{ + // Ignore +} + +void PendingConnection::onUnhandledPacket(shared_ptr packet) +{ + disconnect(DisconnectPacket::eDisconnect_UnexpectedPacket); +} + +void PendingConnection::send(shared_ptr packet) +{ + connection->send(packet); +} + +wstring PendingConnection::getName() +{ + return L"Unimplemented"; + // if (name != null) return name + " [" + connection.getRemoteAddress().toString() + "]"; + // return connection.getRemoteAddress().toString(); +} + +bool PendingConnection::isServerPacketListener() +{ + return true; +} + +bool PendingConnection::isDisconnected() +{ + return done; +} \ No newline at end of file diff --git a/Minecraft.Client/PendingConnection.h b/Minecraft.Client/PendingConnection.h new file mode 100644 index 0000000..e8a493b --- /dev/null +++ b/Minecraft.Client/PendingConnection.h @@ -0,0 +1,49 @@ +#pragma once +#include "..\Minecraft.World\PacketListener.h" +class MinecraftServer; +class Socket; +class LoginPacket; +class Connection; +class Random; +using namespace std; + +class PendingConnection : public PacketListener +{ +private: + static const int FAKE_LAG = 0; + static const int MAX_TICKS_BEFORE_LOGIN = 20 * 30; + + // public static Logger logger = Logger.getLogger("Minecraft"); + static Random *random; + +public: + Connection *connection; +public: + bool done; +private: + MinecraftServer *server; + int _tick; + wstring name; + shared_ptr acceptedLogin; + wstring loginKey; + +public: + PendingConnection(MinecraftServer *server, Socket *socket, const wstring& id); + ~PendingConnection(); + void tick(); + void disconnect(DisconnectPacket::eDisconnectReason reason); + virtual void handlePreLogin(shared_ptr packet); + virtual void handleLogin(shared_ptr packet); + virtual void handleAcceptedLogin(shared_ptr packet); + virtual void onDisconnect(DisconnectPacket::eDisconnectReason reason, void *reasonObjects); + virtual void handleGetInfo(shared_ptr packet); + virtual void handleKeepAlive(shared_ptr packet); + virtual void onUnhandledPacket(shared_ptr packet); + void send(shared_ptr packet); + wstring getName(); + virtual bool isServerPacketListener(); + virtual bool isDisconnected(); + +private: + void sendPreLoginResponse(); +}; \ No newline at end of file diff --git a/Minecraft.Client/PlayerChunkMap.cpp b/Minecraft.Client/PlayerChunkMap.cpp new file mode 100644 index 0000000..bcc3f6b --- /dev/null +++ b/Minecraft.Client/PlayerChunkMap.cpp @@ -0,0 +1,811 @@ +#include "stdafx.h" +#include "PlayerChunkMap.h" +#include "PlayerConnection.h" +#include "ServerLevel.h" +#include "ServerChunkCache.h" +#include "ServerPlayer.h" +#include "MinecraftServer.h" +#include "..\Minecraft.World\net.minecraft.network.packet.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.chunk.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\ArrayWithLength.h" +#include "..\Minecraft.World\System.h" +#include "PlayerList.h" +#include + +PlayerChunkMap::PlayerChunk::PlayerChunk(int x, int z, PlayerChunkMap *pcm) : pos(x,z) +{ + // 4J - added initialisers + changes = 0; + changedTiles = shortArray(MAX_CHANGES_BEFORE_RESEND); + xChangeMin = xChangeMax = 0; + yChangeMin = yChangeMax = 0; + zChangeMin = zChangeMax = 0; + parent = pcm; // 4J added + ticksToNextRegionUpdate = 0; // 4J added + prioritised = false; // 4J added + firstInhabitedTime = 0; + + parent->getLevel()->cache->create(x, z); +} + +PlayerChunkMap::PlayerChunk::~PlayerChunk() +{ + delete changedTiles.data; +} + +// 4J added - construct an an array of flags that indicate which entities are still waiting to have network packets sent out to say that they have been removed +// If there aren't any entities to be flagged, this function does nothing. If there *are* entities to be added, uses the removedFound as an input to +// determine if the flag array has already been initialised at all - if it has been, then just adds flags to it; if it hasn't, then memsets the output +// flag array and adds to it for this ServerPlayer. +void PlayerChunkMap::flagEntitiesToBeRemoved(unsigned int *flags, bool *flagToBeRemoved) +{ + for(auto& serverPlayer : players) + { + if ( serverPlayer ) + serverPlayer->flagEntitiesToBeRemoved(flags, flagToBeRemoved); + } +} + +void PlayerChunkMap::PlayerChunk::add(shared_ptr player, bool sendPacket /*= true*/) +{ + //app.DebugPrintf("--- Adding player to chunk x=%d\tz=%d\n",x, z); + if (find(players.begin(),players.end(),player) != players.end()) + { + // 4J-PB - At the start of the game, lots of chunks are added, and we can then move into an area that is outside the diameter of our starting area, + // but is inside the area loaded at the start. + app.DebugPrintf("--- Adding player to chunk x=%d\t z=%d, but they are already in there!\n",pos.x, pos.z); + return; + + //assert(false); +// 4J - was throw new IllegalStateException("Failed to add player. " + player + " already is in chunk " + x + ", " + z); + } + + player->seenChunks.insert(pos); + + // 4J Added the sendPacket check. See PlayerChunkMap::add for the usage + if( sendPacket ) player->connection->send(std::make_shared(pos.x, pos.z, true)); + + if (players.empty()) + { + firstInhabitedTime = parent->level->getGameTime(); + } + + players.push_back(player); + + player->chunksToSend.push_back(pos); + +#ifdef _LARGE_WORLDS + parent->getLevel()->cache->dontDrop(pos.x, pos.z); // 4J Added; +#endif +} + +void PlayerChunkMap::PlayerChunk::remove(shared_ptr player) +{ + PlayerChunkMap::PlayerChunk *toDelete = nullptr; + + //app.DebugPrintf("--- PlayerChunkMap::PlayerChunk::remove x=%d\tz=%d\n",x,z); + auto it = find(players.begin(), players.end(), player); + if ( it == players.end()) + { + app.DebugPrintf("--- INFO - Removing player from chunk x=%d\t z=%d, but they are not in that chunk!\n",pos.x, pos.z); + + return; + } + + players.erase(it); + if (players.size() == 0) + { + { + LevelChunk *chunk = parent->level->getChunk(pos.x, pos.z); + updateInhabitedTime(chunk); + auto it = find(parent->knownChunks.begin(), parent->knownChunks.end(), this); + if(it != parent->knownChunks.end()) parent->knownChunks.erase(it); + } + int64_t id = (pos.x + 0x7fffffffLL) | ((pos.z + 0x7fffffffLL) << 32); + auto it = parent->chunks.find(id); + if( it != parent->chunks.end() ) + { + toDelete = it->second; // Don't delete until the end of the function, as this might be this instance + parent->chunks.erase(it); + } + if (changes > 0) + { + auto it = find(parent->changedChunks.begin(), parent->changedChunks.end(), this); + parent->changedChunks.erase(it); + } + parent->getLevel()->cache->drop(pos.x, pos.z); + } + + player->chunksToSend.remove(pos); + // 4J - I don't think there's any point sending these anymore, as we don't need to unload chunks with fixed sized maps + // 4J - We do need to send these to unload entities in chunks when players are dead. If we do not and the entity is removed + // while they are dead, that entity will remain in the clients world + if (player->connection != nullptr && player->seenChunks.find(pos) != player->seenChunks.end()) + { + INetworkPlayer *thisNetPlayer = player->connection->getNetworkPlayer(); + bool noOtherPlayersFound = true; + + if( thisNetPlayer != nullptr ) + { + for (auto& currPlayer : players ) + { + if ( currPlayer ) + { + INetworkPlayer *currNetPlayer = currPlayer->connection->getNetworkPlayer(); + if( currNetPlayer != nullptr && currNetPlayer->IsSameSystem( thisNetPlayer ) && currPlayer->seenChunks.find(pos) != currPlayer->seenChunks.end() ) + { + noOtherPlayersFound = false; + break; + } + } + } + if(noOtherPlayersFound) + { + //wprintf(L"Sending ChunkVisiblity packet false for chunk (%d,%d) to player %ls\n", x, z, player->name.c_str() ); + player->connection->send(std::make_shared(pos.x, pos.z, false)); + } + } + else + { + //app.DebugPrintf("PlayerChunkMap::PlayerChunk::remove - QNetPlayer is nullptr\n"); + } + } + + delete toDelete; +} + +void PlayerChunkMap::PlayerChunk::updateInhabitedTime() +{ + updateInhabitedTime(parent->level->getChunk(pos.x, pos.z)); +} + +void PlayerChunkMap::PlayerChunk::updateInhabitedTime(LevelChunk *chunk) +{ + chunk->inhabitedTime += parent->level->getGameTime() - firstInhabitedTime; + + firstInhabitedTime = parent->level->getGameTime(); +} + +void PlayerChunkMap::PlayerChunk::tileChanged(int x, int y, int z) +{ + if (changes == 0) + { + parent->changedChunks.push_back(this); + xChangeMin = xChangeMax = x; + yChangeMin = yChangeMax = y; + zChangeMin = zChangeMax = z; + } + if (xChangeMin > x) xChangeMin = x; + if (xChangeMax < x) xChangeMax = x; + + if (yChangeMin > y) yChangeMin = y; + if (yChangeMax < y) yChangeMax = y; + + if (zChangeMin > z) zChangeMin = z; + if (zChangeMax < z) zChangeMax = z; + + if (changes < MAX_CHANGES_BEFORE_RESEND) + { + short id = static_cast((x << 12) | (z << 8) | (y)); + + for (int i = 0; i < changes; i++) + { + if (changedTiles[i] == id) return; + } + + changedTiles[changes++] = id; + } +} + +// 4J added - make sure that any tile updates for the chunk at this location get prioritised for sending +void PlayerChunkMap::PlayerChunk::prioritiseTileChanges() +{ + prioritised = true; +} + +// One system id per machine so we send at most once per system. Local = 256, remote = GetSmallId(). +static int getSystemIdForSentTo(INetworkPlayer* np) +{ + if (np == nullptr) return -1; + return np->IsLocal() ? 256 : (int)np->GetSmallId(); +} + +void PlayerChunkMap::PlayerChunk::broadcast(shared_ptr packet) +{ + std::unordered_set sentToSystemIds; // O(1) "already sent to this system" check instead of O(N) scan + for (unsigned int i = 0; i < players.size(); i++) + { + shared_ptr player = players[i]; + INetworkPlayer* thisPlayer = player->connection->getNetworkPlayer(); + if (thisPlayer == nullptr) continue; + int sysId = getSystemIdForSentTo(thisPlayer); + if (sysId >= 0 && sentToSystemIds.find(sysId) != sentToSystemIds.end()) + continue; + + int flagIndex = ServerPlayer::getFlagIndexForChunk(pos, parent->dimension); + if (player->seenChunks.find(pos) != player->seenChunks.end() && (player->connection->isLocal() || g_NetworkManager.SystemFlagGet(thisPlayer, flagIndex))) + { + player->connection->send(packet); + if (sysId >= 0) sentToSystemIds.insert(sysId); + } + } + // Also send to other server players who have this chunk (may not be in this chunk's players list) + if (!((packet->getId() == 51) || (packet->getId() == 52) || (packet->getId() == 53))) + return; + + const vector >& allPlayers = parent->level->getServer()->getPlayers()->players; + for (size_t i = 0; i < allPlayers.size(); i++) + { + shared_ptr player = allPlayers[i]; + if (player->connection == nullptr || player->connection->isLocal()) continue; + + INetworkPlayer* thisPlayer = player->connection->getNetworkPlayer(); + if (thisPlayer == nullptr) continue; + int sysId = getSystemIdForSentTo(thisPlayer); + if (sysId >= 0 && sentToSystemIds.find(sysId) != sentToSystemIds.end()) + continue; + + const int flagIndex = ServerPlayer::getFlagIndexForChunk(pos, parent->dimension); + if (!g_NetworkManager.SystemFlagGet(thisPlayer, flagIndex)) continue; + + player->connection->send(packet); + if (sysId >= 0) sentToSystemIds.insert(sysId); + } +} + +bool PlayerChunkMap::PlayerChunk::broadcastChanges(bool allowRegionUpdate) +{ + bool didRegionUpdate = false; + ServerLevel *level = parent->getLevel(); + if( ticksToNextRegionUpdate > 0 ) ticksToNextRegionUpdate--; + if (changes == 0) + { + prioritised = false; + return false; + } + if (changes == 1) + { + int x = pos.x * 16 + xChangeMin; + int y = yChangeMin; + int z = pos.z * 16 + zChangeMin; + broadcast(std::make_shared(x, y, z, level)); + if (level->isEntityTile(x, y, z)) + { + broadcast(level->getTileEntity(x, y, z)); + } + } + else if (changes == MAX_CHANGES_BEFORE_RESEND) + { + // 4J added, to allow limiting of region update packets created + if( !prioritised ) + { + if( !allowRegionUpdate || ( ticksToNextRegionUpdate > 0 ) ) + { + return false; + } + } + + yChangeMin = yChangeMin / 2 * 2; + yChangeMax = (yChangeMax / 2 + 1) * 2; + int xp = xChangeMin + pos.x * 16; + int yp = yChangeMin; + int zp = zChangeMin + pos.z * 16; + int xs = xChangeMax - xChangeMin + 1; + int ys = yChangeMax - yChangeMin + 2; + int zs = zChangeMax - zChangeMin + 1; + + // Fix for buf #95007 : TCR #001 BAS Game Stability: TU12: Code: Compliance: More than 192 dropped items causes game to freeze or crash. + // Block region update packets can only encode ys in a range of 1 - 256 + if( ys > 256 ) ys = 256; + + broadcast(std::make_shared(xp, yp, zp, xs, ys, zs, level)); + vector > *tes = level->getTileEntitiesInRegion(xp, yp, zp, xp + xs, yp + ys, zp + zs); + for (unsigned int i = 0; i < tes->size(); i++) + { + broadcast(tes->at(i)); + } + delete tes; + ticksToNextRegionUpdate = MIN_TICKS_BETWEEN_REGION_UPDATE; + didRegionUpdate = true; + } + else + { + // 4J As we only get here if changes is less than MAX_CHANGES_BEFORE_RESEND (10) we only need to send a byte value in the packet + broadcast(std::make_shared(pos.x, pos.z, changedTiles, static_cast(changes), level)); + for (int i = 0; i < changes; i++) + { + int x = pos.x * 16 + ((changedTiles[i] >> 12) & 15); + int y = ((changedTiles[i]) & 255); + int z = pos.z * 16 + ((changedTiles[i] >> 8) & 15); + + if (level->isEntityTile(x, y, z)) + { +// System.out.println("Sending!"); + broadcast(level->getTileEntity(x, y, z)); + } + } + } + changes = 0; + prioritised = false; + return didRegionUpdate; +} + +void PlayerChunkMap::PlayerChunk::broadcast(shared_ptr te) +{ + if (te != nullptr) + { + shared_ptr p = te->getUpdatePacket(); + if (p != nullptr) + { + broadcast(p); + } + } +} + +PlayerChunkMap::PlayerChunkMap(ServerLevel *level, int dimension, int radius) +{ + assert(radius <= MAX_VIEW_DISTANCE); + assert(radius >= MIN_VIEW_DISTANCE); + this->radius = radius; + this->level = level; + this->dimension = dimension; + lastInhabitedUpdate = 0; +} + +PlayerChunkMap::~PlayerChunkMap() +{ + for(auto& chunk : chunks) + { + delete chunk.second; + } +} + +ServerLevel *PlayerChunkMap::getLevel() +{ + return level; +} + +void PlayerChunkMap::tick() +{ + int64_t time = level->getGameTime(); + + if (time - lastInhabitedUpdate > Level::TICKS_PER_DAY / 3) + { + lastInhabitedUpdate = time; + + for (size_t i = 0; i < knownChunks.size(); i++) + { + PlayerChunk *chunk = knownChunks.at(i); + + // 4J Stu - Going to let our changeChunks handler below deal with this + //chunk.broadcastChanges(); + + chunk->updateInhabitedTime(); + } + } + + // 4J - some changes here so that we only send one region update per tick. The chunks themselves also + // limit their resend rate to once every MIN_TICKS_BETWEEN_REGION_UPDATE ticks + bool regionUpdateSent = false; + for (unsigned int i = 0; i < changedChunks.size();) + { + regionUpdateSent |= changedChunks[i]->broadcastChanges(!regionUpdateSent); + // Changes will be 0 if the chunk actually sent something, in which case we can delete it from this array + if( changedChunks[i]->changes == 0 ) + { + changedChunks[i] = changedChunks.back(); + changedChunks.pop_back(); + } + else + { + // Limiting of some kind means we didn't send this chunk so move onto the next + i++; + } + } + + for( unsigned int i = 0; i < players.size(); i++ ) + { + tickAddRequests(players[i]); + } + + // 4J Stu - Added 1.1 but not relevant to us as we never no 0 players anyway, and don't think we should be dropping stuff + //if (players.isEmpty()) { + // ServerLevel level = server.getLevel(this.dimension); + // Dimension dimension = level.dimension; + // if (!dimension.mayRespawn()) { + // level.cache.dropAll(); + // } + //} +} + +bool PlayerChunkMap::hasChunk(int x, int z) +{ + int64_t id = (x + 0x7fffffffLL) | ((z + 0x7fffffffLL) << 32); + return chunks.find(id) != chunks.end(); +} + +PlayerChunkMap::PlayerChunk *PlayerChunkMap::getChunk(int x, int z, bool create) +{ + int64_t id = (x + 0x7fffffffLL) | ((z + 0x7fffffffLL) << 32); + auto it = chunks.find(id); + + PlayerChunk *chunk = nullptr; + if( it != chunks.end() ) + { + chunk = it->second; + } + else if ( create) + { + chunk = new PlayerChunk(x, z, this); + chunks[id] = chunk; + knownChunks.push_back(chunk); + } + + return chunk; +} + +// 4J - added. If a chunk exists, add a player to it straight away. If it doesn't exist, +// queue a request for it to be created. +void PlayerChunkMap::getChunkAndAddPlayer(int x, int z, shared_ptr player) +{ + int64_t id = (x + 0x7fffffffLL) | ((z + 0x7fffffffLL) << 32); + auto it = chunks.find(id); + + if( it != chunks.end() ) + { + it->second->add(player); + } + else + { + addRequests.push_back(PlayerChunkAddRequest(x,z,player)); + } +} + +// 4J - added. If the chunk and player are in the queue to be added, remove from there. Otherwise +// attempt to remove from main chunk map. +void PlayerChunkMap::getChunkAndRemovePlayer(int x, int z, shared_ptr player) +{ + for (auto it = addRequests.begin(); it != addRequests.end(); it++) + { + if( ( it->x == x ) && + ( it->z == z ) && + ( it->player == player ) ) + { + addRequests.erase(it); + return; + } + } + int64_t id = (x + 0x7fffffffLL) | ((z + 0x7fffffffLL) << 32); + auto it = chunks.find(id); + + if( it != chunks.end() ) + { + it->second->remove(player); + } +} + +// 4J - added - actually create & add player to a playerchunk, if there is one queued for this player. +void PlayerChunkMap::tickAddRequests(shared_ptr player) +{ + if( addRequests.size() ) + { + // Find the nearest chunk request to the player + int px = static_cast(player->x); + int pz = static_cast(player->z); + int minDistSq = -1; + + auto itNearest = addRequests.end(); + for (auto it = addRequests.begin(); it != addRequests.end(); it++) + { + if( it->player == player ) + { + int xm = ( it->x * 16 ) + 8; + int zm = ( it->z * 16 ) + 8; + int distSq = (xm - px) * (xm - px) + + (zm - pz) * (zm - pz); + if( ( minDistSq == -1 ) || ( distSq < minDistSq ) ) + { + minDistSq = distSq; + itNearest = it; + } + } + } + + // If we found one at all, then do this one + if( itNearest != addRequests.end() ) + { + getChunk(itNearest->x, itNearest->z, true)->add(itNearest->player); + addRequests.erase(itNearest); + } + } +} + +void PlayerChunkMap::broadcastTileUpdate(shared_ptr packet, int x, int y, int z) +{ + int xc = x >> 4; + int zc = z >> 4; + PlayerChunk *chunk = getChunk(xc, zc, false); + if (chunk != nullptr) + { + chunk->broadcast(packet); + } +} + +void PlayerChunkMap::tileChanged(int x, int y, int z) +{ + int xc = x >> 4; + int zc = z >> 4; + PlayerChunk *chunk = getChunk(xc, zc, false); + if (chunk != nullptr) + { + chunk->tileChanged(x & 15, y, z & 15); + } +} + +bool PlayerChunkMap::isTrackingTile(int x, int y, int z) +{ + int xc = x >> 4; + int zc = z >> 4; + PlayerChunk *chunk = getChunk(xc, zc, false); + if( chunk ) return true; + return false; +} + +// 4J added - make sure that any tile updates for the chunk at this location get prioritised for sending +void PlayerChunkMap::prioritiseTileChanges(int x, int y, int z) +{ + int xc = x >> 4; + int zc = z >> 4; + PlayerChunk *chunk = getChunk(xc, zc, false); + if (chunk != nullptr) + { + chunk->prioritiseTileChanges(); + } +} + +void PlayerChunkMap::add(shared_ptr player) +{ + static int direction[4][2] = { { 1, 0 }, { 0, 1 }, { -1, 0 }, {0, -1} }; + + int xc = static_cast(player->x) >> 4; + int zc = static_cast(player->z) >> 4; + + player->lastMoveX = player->x; + player->lastMoveZ = player->z; + +// for (int x = xc - radius; x <= xc + radius; x++) +// for (int z = zc - radius; z <= zc + radius; z++) { +// getChunk(x, z, true).add(player); +// } + + // CraftBukkit start + int facing = 0; + int size = radius; + int dx = 0; + int dz = 0; + + // Origin + getChunk(xc, zc, true)->add(player, false); + + // 4J Added so we send an area packet rather than one visibility packet per chunk + int minX, maxX, minZ, maxZ; + minX = maxX = xc; + minZ = maxZ = zc; + + // 4J - added so that we don't fully create/send every chunk at this stage. Particularly since moving on to large worlds, where + // we can be adding 1024 chunks here of which a large % might need to be fully created, this can take a long time. Instead use + // the getChunkAndAddPlayer for anything but the central region of chunks, which adds them to a queue of chunks which are added + // one per tick per player. + const int maxLegSizeToAddNow = 14; + + // All but the last leg + for (int legSize = 1; legSize <= size * 2; legSize++) + { + for (int leg = 0; leg < 2; leg++) + { + int *dir = direction[facing++ % 4]; + + for (int k = 0; k < legSize; k++) + { + dx += dir[0]; + dz += dir[1]; + + int targetX, targetZ; + targetX = xc + dx; + targetZ = zc + dz; + + if( ( legSize < maxLegSizeToAddNow ) || + ( ( legSize == maxLegSizeToAddNow ) && ( ( leg == 0 ) || ( k < ( legSize - 1 ) ) ) ) ) + { + if( targetX > maxX ) maxX = targetX; + if( targetX < minX ) minX = targetX; + if( targetZ > maxZ ) maxZ = targetZ; + if( targetZ < minZ ) minZ = targetZ; + + getChunk(targetX, targetZ, true)->add(player, false); + } + else + { + getChunkAndAddPlayer(targetX, targetZ, player); + } + } + } + } + + // Final leg + facing %= 4; + for (int k = 0; k < size * 2; k++) + { + dx += direction[facing][0]; + dz += direction[facing][1]; + + int targetX, targetZ; + targetX = xc + dx; + targetZ = zc + dz; + if( ( size * 2 ) <= maxLegSizeToAddNow ) + { + if( targetX > maxX ) maxX = targetX; + if( targetX < minX ) minX = targetX; + if( targetZ > maxZ ) maxZ = targetZ; + if( targetZ < minZ ) minZ = targetZ; + + getChunk(targetX, targetZ, true)->add(player, false); + } + else + { + getChunkAndAddPlayer(targetX, targetZ, player); + } + } + // CraftBukkit end + + player->connection->send(std::make_shared(minX, maxX, minZ, maxZ)); + +#ifdef _LARGE_WORLDS + getLevel()->cache->dontDrop(xc,zc); +#endif + + players.push_back(player); + +} + +void PlayerChunkMap::remove(shared_ptr player) +{ + int xc = static_cast(player->lastMoveX) >> 4; + int zc = static_cast(player->lastMoveZ) >> 4; + + for (int x = xc - radius; x <= xc + radius; x++) + for (int z = zc - radius; z <= zc + radius; z++) + { + PlayerChunk *playerChunk = getChunk(x, z, false); + if (playerChunk != nullptr) playerChunk->remove(player); + } + + auto it = find(players.begin(), players.end(), player); + if( players.size() > 0 && it != players.end() ) + players.erase(find(players.begin(),players.end(),player)); + + // 4J - added - also remove any queued requests to be added to playerchunks here + for (auto it = addRequests.begin(); it != addRequests.end();) + { + if( it->player == player ) + { + it = addRequests.erase(it); + } + else + { + ++it; + } + } + +} + +bool PlayerChunkMap::chunkInRange(int x, int z, int xc, int zc) +{ + // If the distance between x and xc + int xd = x - xc; + int zd = z - zc; + if (xd < -radius || xd > radius) return false; + if (zd < -radius || zd > radius) return false; + return true; +} + +// 4J - have changed this so that we queue requests to add the player to chunks if they +// need to be created, so that we aren't creating potentially 20 chunks per player per tick +void PlayerChunkMap::move(shared_ptr player) +{ + int xc = static_cast(player->x) >> 4; + int zc = static_cast(player->z) >> 4; + + double _xd = player->lastMoveX - player->x; + double _zd = player->lastMoveZ - player->z; + double dist = _xd * _xd + _zd * _zd; + if (dist < 8 * 8) return; + + int last_xc = static_cast(player->lastMoveX) >> 4; + int last_zc = static_cast(player->lastMoveZ) >> 4; + + int xd = xc - last_xc; + int zd = zc - last_zc; + if (xd == 0 && zd == 0) return; + + for (int x = xc - radius; x <= xc + radius; x++) + for (int z = zc - radius; z <= zc + radius; z++) + { + if (!chunkInRange(x, z, last_xc, last_zc)) + { + // 4J - changed from separate getChunk & add so we can wrap these operations up and queue + getChunkAndAddPlayer(x, z, player); + } + + if (!chunkInRange(x - xd, z - zd, xc, zc)) + { + // 4J - changed from separate getChunk & remove so we can wrap these operations up and queue + getChunkAndRemovePlayer(x - xd, z - zd, player); + } + } + + player->lastMoveX = player->x; + player->lastMoveZ = player->z; +} + +int PlayerChunkMap::getMaxRange() +{ + return radius * 16 - 16; +} + +bool PlayerChunkMap::isPlayerIn(shared_ptr player, int xChunk, int zChunk) +{ + PlayerChunk *chunk = getChunk(xChunk, zChunk, false); + + if(chunk == nullptr) + { + return false; + } + else + { + auto it1 = find(chunk->players.begin(), chunk->players.end(), player); + auto it2 = find(player->chunksToSend.begin(), player->chunksToSend.end(), chunk->pos); + return it1 != chunk->players.end() && it2 == player->chunksToSend.end(); + } + + //return chunk == nullptr ? false : chunk->players->contains(player) && !player->chunksToSend->contains(chunk->pos); +} + +int PlayerChunkMap::convertChunkRangeToBlock(int radius) +{ + return radius * 16 - 16; +} + +// AP added for Vita so the range can be increased once the level starts +void PlayerChunkMap::setRadius(int newRadius) +{ + if( radius != newRadius ) + { + PlayerList* players = level->getServer()->getPlayerList(); + for( size_t i = 0;i < players->players.size();i += 1 ) + { + shared_ptr player = players->players[i]; + if( player->level == level ) + { + int xc = static_cast(player->x) >> 4; + int zc = static_cast(player->z) >> 4; + + for (int x = xc - newRadius; x <= xc + newRadius; x++) + for (int z = zc - newRadius; z <= zc + newRadius; z++) + { + // check if this chunk is outside the old radius area + if ( x < xc - radius || x > xc + radius || z < zc - radius || z > zc + radius ) + { + getChunkAndAddPlayer(x, z, player); + } + } + } + } + + assert(radius <= MAX_VIEW_DISTANCE); + assert(radius >= MIN_VIEW_DISTANCE); + this->radius = newRadius; + } +} \ No newline at end of file diff --git a/Minecraft.Client/PlayerChunkMap.h b/Minecraft.Client/PlayerChunkMap.h new file mode 100644 index 0000000..b19f176 --- /dev/null +++ b/Minecraft.Client/PlayerChunkMap.h @@ -0,0 +1,114 @@ +#pragma once +#include "..\Minecraft.World\JavaIntHash.h" +#include "..\Minecraft.World\ChunkPos.h" +class ServerPlayer; +class ServerLevel; +class MinecraftServer; +class Packet; +class TileEntity; +using namespace std; + +class PlayerChunkMap +{ +public: +#ifdef _LARGE_WORLDS + static const int MAX_VIEW_DISTANCE = 30; +#else + static const int MAX_VIEW_DISTANCE = 15; +#endif + static const int MIN_VIEW_DISTANCE = 3; + static const int MAX_CHANGES_BEFORE_RESEND = 10; + static const int MIN_TICKS_BETWEEN_REGION_UPDATE = 10; + + // 4J - added + class PlayerChunkAddRequest + { + public: + int x,z; + shared_ptr player; + PlayerChunkAddRequest(int x, int z, shared_ptr player ) : x(x), z(z), player(player) {} + }; + + class PlayerChunk + { + friend class PlayerChunkMap; + private: + PlayerChunkMap *parent; // 4J added + vector > players; + //int x, z; + ChunkPos pos; + + shortArray changedTiles; + int changes; + int xChangeMin, xChangeMax; + int yChangeMin, yChangeMax; + int zChangeMin, zChangeMax; + int ticksToNextRegionUpdate; // 4J added + bool prioritised; // 4J added + int64_t firstInhabitedTime; + + public: + PlayerChunk(int x, int z, PlayerChunkMap *pcm); + ~PlayerChunk(); + + // 4J Added sendPacket param so we can aggregate the initial send into one much smaller packet + void add(shared_ptr player, bool sendPacket = true); + void remove(shared_ptr player); + void updateInhabitedTime(); + + private: + void updateInhabitedTime(LevelChunk *chunk); + + public: + void tileChanged(int x, int y, int z); + void prioritiseTileChanges(); // 4J added + void broadcast(shared_ptr packet); + bool broadcastChanges(bool allowRegionUpdate); // 4J - added parm + + private: + void broadcast(shared_ptr te); + }; + +public: + vector > players; + void flagEntitiesToBeRemoved(unsigned int *flags, bool *removedFound); // 4J added +private: + unordered_map chunks; // 4J - was LongHashMap + vector changedChunks; + vector knownChunks; + vector addRequests; // 4J added + void tickAddRequests(shared_ptr player); // 4J added + + ServerLevel *level; + int radius; + int dimension; + int64_t lastInhabitedUpdate; + +public: + PlayerChunkMap(ServerLevel *level, int dimension, int radius); + ~PlayerChunkMap(); + ServerLevel *getLevel(); + void tick(); + bool hasChunk(int x, int z); +private: + PlayerChunk *getChunk(int x, int z, bool create); + void getChunkAndAddPlayer(int x, int z, shared_ptr player); // 4J added + void getChunkAndRemovePlayer(int x, int z, shared_ptr player); // 4J added +public: + void broadcastTileUpdate(shared_ptr packet, int x, int y, int z); + void tileChanged(int x, int y, int z); + bool isTrackingTile(int x, int y, int z); // 4J added + void prioritiseTileChanges(int x, int y, int z); // 4J added + void add(shared_ptr player); + void remove(shared_ptr player); +private: + bool chunkInRange(int x, int z, int xc, int zc); +public: + void move(shared_ptr player); + int getMaxRange(); + bool isPlayerIn(shared_ptr player, int xChunk, int zChunk); + static int convertChunkRangeToBlock(int radius); + + // AP added for Vita + void setRadius(int newRadius); +}; diff --git a/Minecraft.Client/PlayerCloudParticle.cpp b/Minecraft.Client/PlayerCloudParticle.cpp new file mode 100644 index 0000000..476803a --- /dev/null +++ b/Minecraft.Client/PlayerCloudParticle.cpp @@ -0,0 +1,68 @@ +#include "stdafx.h" +#include "PlayerCloudParticle.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" +#include "..\Minecraft.World\net.minecraft.world.phys.h" + +PlayerCloudParticle::PlayerCloudParticle(Level *level, double x, double y, double z, double xa, double ya, double za) : Particle(level,x,y,z,0,0,0) +{ + float scale = 2.5f; + xd *= 0.1f; + yd *= 0.1f; + zd *= 0.1f; + xd += xa; + yd += ya; + zd += za; + + rCol = gCol = bCol = 1 - static_cast(Math::random() * 0.3f); + size *= 0.75f; + size *= scale; + oSize = size; + + lifetime = static_cast(8 / (Math::random() * 0.8 + 0.3)); + lifetime *= scale; + noPhysics = false; +} + +void PlayerCloudParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float l = ((age + a) / lifetime) * 32; + if (l < 0) l = 0; + if (l > 1) l = 1; + + size = oSize * l; + Particle::render(t, a, xa, ya, za, xa2, za2); +} + +void PlayerCloudParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + if (age++ >= lifetime) remove(); + + setMiscTex(7 - age * 8 / lifetime); + + move(xd, yd, zd); + xd *= 0.96f; + yd *= 0.96f; + zd *= 0.96f; + shared_ptr p = level->getNearestPlayer(shared_from_this(), 2); + if (p != nullptr) + { + if (y > p->bb->y0) + { + y+=(p->bb->y0-y)*0.2; + yd += (p->yd-yd)*0.2; + setPos(x, y, z); + } + } + + if (onGround) + { + xd *= 0.7f; + zd *= 0.7f; + } +} \ No newline at end of file diff --git a/Minecraft.Client/PlayerCloudParticle.h b/Minecraft.Client/PlayerCloudParticle.h new file mode 100644 index 0000000..4100201 --- /dev/null +++ b/Minecraft.Client/PlayerCloudParticle.h @@ -0,0 +1,15 @@ +#pragma once + +#include "Particle.h" + +class PlayerCloudParticle : public Particle +{ +private: + float oSize; + +public: + virtual eINSTANCEOF GetType() { return eType_PLAYERCLOUDPARTICLEPARTICLE; } + PlayerCloudParticle(Level *level, double x, double y, double z, double xa, double ya, double za); + void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + void tick(); +}; \ No newline at end of file diff --git a/Minecraft.Client/PlayerConnection.cpp b/Minecraft.Client/PlayerConnection.cpp new file mode 100644 index 0000000..8e40a39 --- /dev/null +++ b/Minecraft.Client/PlayerConnection.cpp @@ -0,0 +1,1784 @@ +#include "stdafx.h" +#include "PlayerConnection.h" +#include "ServerPlayer.h" +#include "ServerLevel.h" +#include "ServerPlayerGameMode.h" +#include "PlayerList.h" +#include "MinecraftServer.h" +#include "..\Minecraft.World\net.minecraft.network.h" +#include "..\Minecraft.World\net.minecraft.world.entity.item.h" +#include "..\Minecraft.World\net.minecraft.world.level.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\net.minecraft.world.item.trading.h" +#include "..\Minecraft.World\net.minecraft.world.inventory.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.entity.h" +#include "..\Minecraft.World\net.minecraft.world.level.saveddata.h" +#include "..\Minecraft.World\net.minecraft.world.entity.animal.h" +#include "..\Minecraft.World\net.minecraft.network.h" +#include "..\Minecraft.World\net.minecraft.world.food.h" +#include "..\Minecraft.World\AABB.h" +#include "..\Minecraft.World\Pos.h" +#include "..\Minecraft.World\SharedConstants.h" +#include "..\Minecraft.World\ChatPacket.h" +#include "..\Minecraft.World\StringHelpers.h" +#include "..\Minecraft.World\Socket.h" +#include "..\Minecraft.World\Achievements.h" +#include "..\Minecraft.World\net.minecraft.h" +#include "EntityTracker.h" +#include "ServerConnection.h" +#include "..\Minecraft.World\GenericStats.h" +#include "..\Minecraft.World\JavaMath.h" + +// 4J Added +#include "..\Minecraft.World\net.minecraft.world.item.crafting.h" +#include "Options.h" + +#include "CommandDispatcher.h" + +Random PlayerConnection::random; + +PlayerConnection::PlayerConnection(MinecraftServer *server, Connection *connection, shared_ptr player) +{ + // 4J - added initialisers + done = false; + tickCount = 0; + aboveGroundTickCount = 0; + xLastOk = yLastOk = zLastOk = 0; + synched = true; + didTick = false; + lastKeepAliveId = 0; + lastKeepAliveTime = 0; + lastKeepAliveTick = 0; + chatSpamTickCount = 0; + dropSpamTickCount = 0; + + this->server = server; + this->connection = connection; + connection->setListener(this); + this->player = player; + // player->connection = this; // 4J - moved out as we can't assign in a ctor + InitializeCriticalSection(&done_cs); + + m_bCloseOnTick = false; + m_bWasKicked = false; + + m_friendsOnlyUGC = false; + m_offlineXUID = INVALID_XUID; + m_onlineXUID = INVALID_XUID; + m_bHasClientTickedOnce = false; + + setShowOnMaps(app.GetGameHostOption(eGameHostOption_Gamertags)!=0?true:false); +} + +PlayerConnection::~PlayerConnection() +{ + delete connection; + DeleteCriticalSection(&done_cs); +} + +void PlayerConnection::tick() +{ + if( done ) return; + + if( m_bCloseOnTick ) + { + disconnect( DisconnectPacket::eDisconnect_Closed ); + return; + } + + didTick = false; + tickCount++; + connection->tick(); + if(done) return; + + if ((tickCount - lastKeepAliveTick) > 20 * 1) + { + lastKeepAliveTick = tickCount; + lastKeepAliveTime = System::nanoTime() / 1000000; + lastKeepAliveId = random.nextInt(); + send(std::make_shared(lastKeepAliveId)); + } + + if (chatSpamTickCount > 0) + { + chatSpamTickCount--; + } + if (dropSpamTickCount > 0) + { + dropSpamTickCount--; + } +} + +void PlayerConnection::disconnect(DisconnectPacket::eDisconnectReason reason) +{ + EnterCriticalSection(&done_cs); + if( done ) + { + LeaveCriticalSection(&done_cs); + return; + } + + app.DebugPrintf("PlayerConnection disconect reason: %d\n", reason ); + player->disconnect(); + + // 4J Stu - Need to remove the player from the receiving list before their socket is NULLed so that we can find another player on their system + server->getPlayers()->removePlayerFromReceiving( player ); + send(std::make_shared(reason)); + connection->sendAndQuit(); + // 4J-PB - removed, since it needs to be localised in the language the client is in + //server->players->broadcastAll( shared_ptr( new ChatPacket(L"�e" + player->name + L" left the game.") ) ); + if(getWasKicked()) + { + server->getPlayers()->broadcastAll(std::make_shared(player->name, ChatPacket::e_ChatPlayerKickedFromGame)); + } + else + { + server->getPlayers()->broadcastAll(std::make_shared(player->name, ChatPacket::e_ChatPlayerLeftGame)); + } + + server->getPlayers()->remove(player); + done = true; + LeaveCriticalSection(&done_cs); +} + +void PlayerConnection::handlePlayerInput(shared_ptr packet) +{ + player->setPlayerInput(packet->getXxa(), packet->getYya(), packet->isJumping(), packet->isSneaking()); +} + +void PlayerConnection::handleMovePlayer(shared_ptr packet) +{ + ServerLevel *level = server->getLevel(player->dimension); + + didTick = true; + if(synched) m_bHasClientTickedOnce = true; + + if (player->wonGame) return; + + if (!synched) + { + double yDiff = packet->y - yLastOk; + if (packet->x == xLastOk && yDiff * yDiff < 0.01 && packet->z == zLastOk) + { + synched = true; + } + } + + if (synched) + { + if (player->riding != nullptr) + { + + float yRotT = player->yRot; + float xRotT = player->xRot; + player->riding->positionRider(); + double xt = player->x; + double yt = player->y; + double zt = player->z; + + if (packet->hasRot) + { + yRotT = packet->yRot; + xRotT = packet->xRot; + } + + player->onGround = packet->onGround; + + player->doTick(false); + player->ySlideOffset = 0; + player->absMoveTo(xt, yt, zt, yRotT, xRotT); + if (player->riding != nullptr) player->riding->positionRider(); + server->getPlayers()->move(player); + + // player may have been kicked off the mount during the tick, so + // only copy valid coordinates if the player still is "synched" + if (synched) { + xLastOk = player->x; + yLastOk = player->y; + zLastOk = player->z; + } + static_cast(level)->tick(player); + + return; + } + + if (player->isSleeping()) + { + player->doTick(false); + player->absMoveTo(xLastOk, yLastOk, zLastOk, player->yRot, player->xRot); + static_cast(level)->tick(player); + return; + } + + double startY = player->y; + xLastOk = player->x; + yLastOk = player->y; + zLastOk = player->z; + + + double xt = player->x; + double yt = player->y; + double zt = player->z; + + float yRotT = player->yRot; + float xRotT = player->xRot; + + if (packet->hasPos && packet->y == -999 && packet->yView == -999) + { + packet->hasPos = false; + } + + if (packet->hasPos) + { + xt = packet->x; + yt = packet->y; + zt = packet->z; + double yd = packet->yView - packet->y; + if (!player->isSleeping() && (yd > 1.65 || yd < 0.1)) + { + disconnect(DisconnectPacket::eDisconnect_IllegalStance); + // logger.warning(player->name + " had an illegal stance: " + yd); + return; + } + if (abs(packet->x) > 32000000 || abs(packet->z) > 32000000) + { + disconnect(DisconnectPacket::eDisconnect_IllegalPosition); + return; + } + } + if (packet->hasRot) + { + yRotT = packet->yRot; + xRotT = packet->xRot; + } + + // 4J Stu Added to stop server player y pos being different than client when flying + if(player->abilities.mayfly || player->isAllowedToFly() ) + { + player->abilities.flying = packet->isFlying; + } + else player->abilities.flying = false; + + player->doTick(false); + player->ySlideOffset = 0; + player->absMoveTo(xLastOk, yLastOk, zLastOk, yRotT, xRotT); + + if (!synched) return; + + double xDist = xt - player->x; + double yDist = yt - player->y; + double zDist = zt - player->z; + + double dist = xDist * xDist + yDist * yDist + zDist * zDist; + + // 4J-PB - removing this one for now + /*if (dist > 100.0f) + { + // logger.warning(player->name + " moved too quickly!"); + disconnect(DisconnectPacket::eDisconnect_MovedTooQuickly); + // System.out.println("Moved too quickly at " + xt + ", " + yt + ", " + zt); + // teleport(player->x, player->y, player->z, player->yRot, player->xRot); + return; + } + */ + + float r = 1 / 16.0f; + bool oldOk = level->getCubes(player, player->bb->copy()->shrink(r, r, r))->empty(); + + if (player->onGround && !packet->onGround && yDist > 0) + { + // assume the player made a jump + player->causeFoodExhaustion(FoodConstants::EXHAUSTION_JUMP); + } + + player->move(xDist, yDist, zDist); + + // 4J Stu - It is possible that we are no longer synched (eg By moving into an End Portal), so we should stop any further movement based on this packet + // Fix for #87764 - Code: Gameplay: Host cannot move and experiences End World Chunks flickering, while in Splitscreen Mode + // and Fix for #87788 - Code: Gameplay: Client cannot move and experiences End World Chunks flickering, while in Splitscreen Mode + if (!synched) return; + + player->onGround = packet->onGround; + // Since server players don't call travel we check food exhaustion + // here + player->checkMovementStatistiscs(xDist, yDist, zDist); + + double oyDist = yDist; + + xDist = xt - player->x; + yDist = yt - player->y; + + // 4J-PB - line below will always be true! + if (yDist > -0.5 || yDist < 0.5) + { + yDist = 0; + } + zDist = zt - player->z; + dist = xDist * xDist + yDist * yDist + zDist * zDist; + bool fail = false; + if (dist > 0.25 * 0.25 && !player->isSleeping() && !player->gameMode->isCreative() && !player->isAllowedToFly()) + { + fail = true; + // logger.warning(player->name + " moved wrongly!"); + // System.out.println("Got position " + xt + ", " + yt + ", " + zt); + // System.out.println("Expected " + player->x + ", " + player->y + ", " + player->z); +#ifndef _CONTENT_PACKAGE + wprintf(L"%ls moved wrongly!\n",player->name.c_str()); + app.DebugPrintf("Got position %f, %f, %f\n", xt,yt,zt); + app.DebugPrintf("Expected %f, %f, %f\n", player->x, player->y, player->z); +#endif + } + player->absMoveTo(xt, yt, zt, yRotT, xRotT); + + bool newOk = level->getCubes(player, player->bb->copy()->shrink(r, r, r))->empty(); + if (oldOk && (fail || !newOk) && !player->isSleeping()) + { + teleport(xLastOk, yLastOk, zLastOk, yRotT, xRotT); + return; + } + AABB *testBox = player->bb->copy()->grow(r, r, r)->expand(0, -0.55, 0); + // && server.level.getCubes(player, testBox).size() == 0 + if (!server->isFlightAllowed() && !player->gameMode->isCreative() && !level->containsAnyBlocks(testBox) && !player->isAllowedToFly() ) + { + if (oyDist >= (-0.5f / 16.0f)) + { + aboveGroundTickCount++; + if (aboveGroundTickCount > 80) + { + // logger.warning(player->name + " was kicked for floating too long!"); +#ifndef _CONTENT_PACKAGE + wprintf(L"%ls was kicked for floating too long!\n", player->name.c_str()); +#endif + disconnect(DisconnectPacket::eDisconnect_NoFlying); + return; + } + } + } + else + { + aboveGroundTickCount = 0; + } + + player->onGround = packet->onGround; + server->getPlayers()->move(player); + player->doCheckFallDamage(player->y - startY, packet->onGround); + } + else if ((tickCount % SharedConstants::TICKS_PER_SECOND) == 0) + { + teleport(xLastOk, yLastOk, zLastOk, player->yRot, player->xRot); + } +} + +void PlayerConnection::teleport(double x, double y, double z, float yRot, float xRot, bool sendPacket /*= true*/) +{ + synched = false; + xLastOk = x; + yLastOk = y; + zLastOk = z; + player->absMoveTo(x, y, z, yRot, xRot); + // 4J - note that 1.62 is added to the height here as the client connection that receives this will presume it represents y + heightOffset at that end + // This is different to the way that height is sent back to the server, where it represents the bottom of the player bounding volume + if(sendPacket) player->connection->send(std::make_shared(x, y + 1.62f, y, z, yRot, xRot, false, false)); +} + +void PlayerConnection::handlePlayerAction(shared_ptr packet) +{ + ServerLevel *level = server->getLevel(player->dimension); + player->resetLastActionTime(); + + if (packet->action == PlayerActionPacket::DROP_ITEM) + { + player->drop(false); + return; + } + else if (packet->action == PlayerActionPacket::DROP_ALL_ITEMS) + { + player->drop(true); + return; + } + else if (packet->action == PlayerActionPacket::RELEASE_USE_ITEM) + { + player->releaseUsingItem(); + return; + } + + bool shouldVerifyLocation = false; + if (packet->action == PlayerActionPacket::START_DESTROY_BLOCK) shouldVerifyLocation = true; + if (packet->action == PlayerActionPacket::ABORT_DESTROY_BLOCK) shouldVerifyLocation = true; + if (packet->action == PlayerActionPacket::STOP_DESTROY_BLOCK) shouldVerifyLocation = true; + + int x = packet->x; + int y = packet->y; + int z = packet->z; + if (shouldVerifyLocation) + { + double xDist = player->x - (x + 0.5); + // there is a mismatch between the player's camera and the player's + // position, so add 1.5 blocks + double yDist = player->y - (y + 0.5) + 1.5; + double zDist = player->z - (z + 0.5); + double dist = xDist * xDist + yDist * yDist + zDist * zDist; + if (dist > 6 * 6) + { + return; + } + if (y >= server->getMaxBuildHeight()) + { + return; + } + } + + if (packet->action == PlayerActionPacket::START_DESTROY_BLOCK) + { + if (true) player->gameMode->startDestroyBlock(x, y, z, packet->face); // 4J - condition was !server->isUnderSpawnProtection(level, x, y, z, player) (from Java 1.6.4) but putting back to old behaviour + else player->connection->send(std::make_shared(x, y, z, level)); + + } + else if (packet->action == PlayerActionPacket::STOP_DESTROY_BLOCK) + { + player->gameMode->stopDestroyBlock(x, y, z); + server->getPlayers()->prioritiseTileChanges(x, y, z, level->dimension->id); // 4J added - make sure that the update packets for this get prioritised over other general world updates + if (level->getTile(x, y, z) != 0) player->connection->send(std::make_shared(x, y, z, level)); + } + else if (packet->action == PlayerActionPacket::ABORT_DESTROY_BLOCK) + { + player->gameMode->abortDestroyBlock(x, y, z); + if (level->getTile(x, y, z) != 0) player->connection->send(std::make_shared(x, y, z, level)); + } +} + +void PlayerConnection::handleUseItem(shared_ptr packet) +{ + ServerLevel *level = server->getLevel(player->dimension); + shared_ptr item = player->inventory->getSelected(); + bool informClient = false; + int x = packet->getX(); + int y = packet->getY(); + int z = packet->getZ(); + int face = packet->getFace(); + player->resetLastActionTime(); + + // 4J Stu - We don't have ops, so just use the levels setting + bool canEditSpawn = level->canEditSpawn; // = level->dimension->id != 0 || server->players->isOp(player->name); + if (packet->getFace() == 255) + { + if (item == nullptr) return; + player->gameMode->useItem(player, level, item); + } + else if ((packet->getY() < server->getMaxBuildHeight() - 1) || (packet->getFace() != Facing::UP && packet->getY() < server->getMaxBuildHeight())) + { + if (synched && player->distanceToSqr(x + 0.5, y + 0.5, z + 0.5) < 8 * 8) + { + if (true) // 4J - condition was !server->isUnderSpawnProtection(level, x, y, z, player) (from java 1.6.4) but putting back to old behaviour + { + player->gameMode->useItemOn(player, level, item, x, y, z, face, packet->getClickX(), packet->getClickY(), packet->getClickZ()); + } + } + + informClient = true; + } + else + { + //player->connection->send(shared_ptr(new ChatPacket("\u00A77Height limit for building is " + server->maxBuildHeight))); + informClient = true; + } + + if (informClient) + { + + player->connection->send(std::make_shared(x, y, z, level)); + + if (face == 0) y--; + if (face == 1) y++; + if (face == 2) z--; + if (face == 3) z++; + if (face == 4) x--; + if (face == 5) x++; + + // 4J - Fixes an issue where pistons briefly disappear when retracting. The pistons themselves shouldn't have their change from being pistonBase_Id to pistonMovingPiece_Id + // directly sent to the client, as this will happen on the client as a result of it actioning (via a tile event) the retraction of the piston locally. However, by putting a switch + // beside a piston and then performing an action on the side of it facing a piston, the following line of code will send a TileUpdatePacket containing the change to pistonMovingPiece_Id + // to the client, and this packet is received before the piston retract action happens - when the piston retract then occurs, it doesn't work properly because the piston tile + // isn't what it is expecting. + if( level->getTile(x,y,z) != Tile::pistonMovingPiece_Id ) + { + player->connection->send(std::make_shared(x, y, z, level)); + } + + } + + item = player->inventory->getSelected(); + + bool forceClientUpdate = false; + if(item != nullptr && packet->getItem() == nullptr) + { + forceClientUpdate = true; + } + if (item != nullptr && item->count == 0) + { + player->inventory->items[player->inventory->selected] = nullptr; + item = nullptr; + } + + if (item == nullptr || item->getUseDuration() == 0) + { + player->ignoreSlotUpdateHack = true; + player->inventory->items[player->inventory->selected] = ItemInstance::clone(player->inventory->items[player->inventory->selected]); + Slot *s = player->containerMenu->getSlotFor(player->inventory, player->inventory->selected); + player->containerMenu->broadcastChanges(); + player->ignoreSlotUpdateHack = false; + + if (forceClientUpdate || !ItemInstance::matches(player->inventory->getSelected(), packet->getItem())) + { + send(std::make_shared(player->containerMenu->containerId, s->index, player->inventory->getSelected())); + } + } +} + +void PlayerConnection::onDisconnect(DisconnectPacket::eDisconnectReason reason, void *reasonObjects) +{ + EnterCriticalSection(&done_cs); + if( done ) return; + // logger.info(player.name + " lost connection: " + reason); + // 4J-PB - removed, since it needs to be localised in the language the client is in + //server->players->broadcastAll( shared_ptr( new ChatPacket(L"�e" + player->name + L" left the game.") ) ); + if(getWasKicked()) + { + server->getPlayers()->broadcastAll(std::make_shared(player->name, ChatPacket::e_ChatPlayerKickedFromGame)); + } + else + { + server->getPlayers()->broadcastAll(std::make_shared(player->name, ChatPacket::e_ChatPlayerLeftGame)); + } + server->getPlayers()->remove(player); + done = true; + LeaveCriticalSection(&done_cs); +} + +void PlayerConnection::onUnhandledPacket(shared_ptr packet) +{ + // logger.warning(getClass() + " wasn't prepared to deal with a " + packet.getClass()); + disconnect(DisconnectPacket::eDisconnect_UnexpectedPacket); +} + +void PlayerConnection::send(shared_ptr packet) +{ + if( connection->getSocket() != nullptr ) + { + if( !server->getPlayers()->canReceiveAllPackets( player ) ) + { + // Check if we are allowed to send this packet type + if( !Packet::canSendToAnyClient(packet) ) + { + //wprintf(L"Not the systems primary player, so not sending them a packet : %ls / %d\n", player->name.c_str(), packet->getId() ); + return; + } + } + connection->send(packet); + } +} + +// 4J Added +void PlayerConnection::queueSend(shared_ptr packet) +{ + if( connection->getSocket() != nullptr ) + { + if( !server->getPlayers()->canReceiveAllPackets( player ) ) + { + // Check if we are allowed to send this packet type + if( !Packet::canSendToAnyClient(packet) ) + { + //wprintf(L"Not the systems primary player, so not queueing them a packet : %ls\n", connection->getSocket()->getPlayer()->GetGamertag() ); + return; + } + } + connection->queueSend(packet); + } +} + +void PlayerConnection::handleSetCarriedItem(shared_ptr packet) +{ + if (packet->slot < 0 || packet->slot >= Inventory::getSelectionSize()) + { + // logger.warning(player.name + " tried to set an invalid carried item"); + return; + } + player->inventory->selected = packet->slot; + player->resetLastActionTime(); +} + +void PlayerConnection::handleChat(shared_ptr packet) +{ + if (packet->m_stringArgs.empty()) return; + wstring message = trimString(packet->m_stringArgs[0]); + if (message.length() > SharedConstants::maxChatLength) + { + disconnect(DisconnectPacket::eDisconnect_None); // or a specific reason + return; + } + + // Optional: validate characters (acceptableLetters) + if (message.length() > 0 && message[0] == L'/') + { + CommandDispatcher::OnPlayerCommand(this->getPlayer(), message); + return; + } + wstring formatted = L"<" + player->name + L"> " + message; + server->getPlayers()->broadcastAll(shared_ptr(new ChatPacket(formatted))); + chatSpamTickCount += SharedConstants::TICKS_PER_SECOND; + if (chatSpamTickCount > SharedConstants::TICKS_PER_SECOND * 10) + { + disconnect(DisconnectPacket::eDisconnect_None); // spam + } +} + +void PlayerConnection::handleCommand(const wstring& message) +{ + // 4J - TODO +#if 0 + server.getCommandDispatcher().performCommand(player, message); +#endif +} + +void PlayerConnection::handleAnimate(shared_ptr packet) +{ + player->resetLastActionTime(); + if (packet->action == AnimatePacket::SWING) + { + player->swing(); + } +} + +void PlayerConnection::handlePlayerCommand(shared_ptr packet) +{ + player->resetLastActionTime(); + if (packet->action == PlayerCommandPacket::START_SNEAKING) + { + player->setSneaking(true); + } + else if (packet->action == PlayerCommandPacket::STOP_SNEAKING) + { + player->setSneaking(false); + } + else if (packet->action == PlayerCommandPacket::START_SPRINTING) + { + player->setSprinting(true); + } + else if (packet->action == PlayerCommandPacket::STOP_SPRINTING) + { + player->setSprinting(false); + } + else if (packet->action == PlayerCommandPacket::STOP_SLEEPING) + { + player->stopSleepInBed(false, true, true); + synched = false; + } + else if (packet->action == PlayerCommandPacket::RIDING_JUMP) + { + // currently only supported by horses... + if ( (player->riding != nullptr) && player->riding->GetType() == eTYPE_HORSE) + { + dynamic_pointer_cast(player->riding)->onPlayerJump(packet->data); + } + } + else if (packet->action == PlayerCommandPacket::OPEN_INVENTORY) + { + // also only supported by horses... + if ( (player->riding != nullptr) && player->riding->instanceof(eTYPE_HORSE) ) + { + dynamic_pointer_cast(player->riding)->openInventory(player); + } + } + else if (packet->action == PlayerCommandPacket::START_IDLEANIM) + { + player->setIsIdle(true); + } + else if (packet->action == PlayerCommandPacket::STOP_IDLEANIM) + { + player->setIsIdle(false); + } +} + +void PlayerConnection::setShowOnMaps(bool bVal) +{ + player->setShowOnMaps(bVal); +} + +void PlayerConnection::handleDisconnect(shared_ptr packet) +{ + // 4J Stu - Need to remove the player from the receiving list before their socket is NULLed so that we can find another player on their system + server->getPlayers()->removePlayerFromReceiving( player ); + connection->close(DisconnectPacket::eDisconnect_Quitting); +} + +int PlayerConnection::countDelayedPackets() +{ + return connection->countDelayedPackets(); +} + +void PlayerConnection::info(const wstring& string) +{ + // 4J-PB - removed, since it needs to be localised in the language the client is in + //send( shared_ptr( new ChatPacket(L"�7" + string) ) ); +} + +void PlayerConnection::warn(const wstring& string) +{ + // 4J-PB - removed, since it needs to be localised in the language the client is in + //send( shared_ptr( new ChatPacket(L"�9" + string) ) ); +} + +wstring PlayerConnection::getConsoleName() +{ + return player->getName(); +} + +void PlayerConnection::handleInteract(shared_ptr packet) +{ + ServerLevel *level = server->getLevel(player->dimension); + shared_ptr target = level->getEntity(packet->target); + player->resetLastActionTime(); + + // Fix for #8218 - Gameplay: Attacking zombies from a different level often results in no hits being registered + // 4J Stu - If the client says that we hit something, then agree with it. The canSee can fail here as it checks + // a ray from head->head, but we may actually be looking at a different part of the entity that can be seen + // even though the ray is blocked. + if (target != nullptr) // && player->canSee(target) && player->distanceToSqr(target) < 6 * 6) + { + //boole canSee = player->canSee(target); + //double maxDist = 6 * 6; + //if (!canSee) + //{ + // maxDist = 3 * 3; + //} + + //if (player->distanceToSqr(target) < maxDist) + //{ + if (packet->action == InteractPacket::INTERACT) + { + player->interact(target); + } + else if (packet->action == InteractPacket::ATTACK) + { + if ((target->GetType() == eTYPE_ITEMENTITY) || (target->GetType() == eTYPE_EXPERIENCEORB) || (target->GetType() == eTYPE_ARROW) || target == player) + { + //disconnect("Attempting to attack an invalid entity"); + //server.warn("Player " + player.getName() + " tried to attack an invalid entity"); + return; + } + player->attack(target); + } + //} + } + +} + +bool PlayerConnection::canHandleAsyncPackets() +{ + return true; +} + +void PlayerConnection::handleTexture(shared_ptr packet) +{ + // Both PlayerConnection and ClientConnection should handle this mostly the same way + + if(packet->dwBytes==0) + { + // Request for texture +#ifndef _CONTENT_PACKAGE + wprintf(L"Server received request for custom texture %ls\n",packet->textureName.c_str()); +#endif + PBYTE pbData=nullptr; + DWORD dwBytes=0; + app.GetMemFileDetails(packet->textureName,&pbData,&dwBytes); + + if(dwBytes!=0) + { + send(std::make_shared(packet->textureName, pbData, dwBytes)); + } + else + { + m_texturesRequested.push_back( packet->textureName ); + } + } + else + { + // Response with texture data +#ifndef _CONTENT_PACKAGE + wprintf(L"Server received custom texture %ls\n",packet->textureName.c_str()); +#endif + app.AddMemoryTextureFile(packet->textureName,packet->pbData,packet->dwBytes); + server->connection->handleTextureReceived(packet->textureName); + } +} + +void PlayerConnection::handleTextureAndGeometry(shared_ptr packet) +{ + // Both PlayerConnection and ClientConnection should handle this mostly the same way + + if(packet->dwTextureBytes==0) + { + // Request for texture and geometry +#ifndef _CONTENT_PACKAGE + wprintf(L"Server received request for custom texture %ls\n",packet->textureName.c_str()); +#endif + PBYTE pbData=nullptr; + DWORD dwTextureBytes=0; + app.GetMemFileDetails(packet->textureName,&pbData,&dwTextureBytes); + DLCSkinFile *pDLCSkinFile = app.m_dlcManager.getSkinFile(packet->textureName); + + if(dwTextureBytes!=0) + { + + if(pDLCSkinFile) + { + if(pDLCSkinFile->getAdditionalBoxesCount()!=0) + { + send(std::make_shared(packet->textureName, pbData, dwTextureBytes, pDLCSkinFile)); + } + else + { + send(std::make_shared(packet->textureName, pbData, dwTextureBytes)); + } + } + else + { + // we don't have the dlc skin, so retrieve the data from the app store + vector *pvSkinBoxes = app.GetAdditionalSkinBoxes(packet->dwSkinID); + unsigned int uiAnimOverrideBitmask= app.GetAnimOverrideBitmask(packet->dwSkinID); + + send(std::make_shared(packet->textureName, pbData, dwTextureBytes, pvSkinBoxes, uiAnimOverrideBitmask)); + } + } + else + { + m_texturesRequested.push_back( packet->textureName ); + } + } + else + { + // Response with texture and geometry data +#ifndef _CONTENT_PACKAGE + wprintf(L"Server received custom texture %ls and geometry\n",packet->textureName.c_str()); +#endif + app.AddMemoryTextureFile(packet->textureName,packet->pbData,packet->dwTextureBytes); + + // add the geometry to the app list + if(packet->dwBoxC!=0) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Adding skin boxes for skin id %X, box count %d\n",packet->dwSkinID,packet->dwBoxC); +#endif + app.SetAdditionalSkinBoxes(packet->dwSkinID,packet->BoxDataA,packet->dwBoxC); + } + // Add the anim override + app.SetAnimOverrideBitmask(packet->dwSkinID,packet->uiAnimOverrideBitmask); + + player->setCustomSkin(packet->dwSkinID); + + server->connection->handleTextureAndGeometryReceived(packet->textureName); + } +} + +void PlayerConnection::handleTextureReceived(const wstring &textureName) +{ + // This sends the server received texture out to any other players waiting for the data + auto it = find(m_texturesRequested.begin(), m_texturesRequested.end(), textureName); + if( it != m_texturesRequested.end() ) + { + PBYTE pbData=nullptr; + DWORD dwBytes=0; + app.GetMemFileDetails(textureName,&pbData,&dwBytes); + + if(dwBytes!=0) + { + send(std::make_shared(textureName, pbData, dwBytes)); + m_texturesRequested.erase(it); + } + } +} + +void PlayerConnection::handleTextureAndGeometryReceived(const wstring &textureName) +{ + // This sends the server received texture out to any other players waiting for the data + auto it = find(m_texturesRequested.begin(), m_texturesRequested.end(), textureName); + if( it != m_texturesRequested.end() ) + { + PBYTE pbData=nullptr; + DWORD dwTextureBytes=0; + app.GetMemFileDetails(textureName,&pbData,&dwTextureBytes); + DLCSkinFile *pDLCSkinFile=app.m_dlcManager.getSkinFile(textureName); + + if(dwTextureBytes!=0) + { + if(pDLCSkinFile && (pDLCSkinFile->getAdditionalBoxesCount()!=0)) + { + send(std::make_shared(textureName, pbData, dwTextureBytes, pDLCSkinFile)); + } + else + { + // get the data from the app + DWORD dwSkinID = app.getSkinIdFromPath(textureName); + vector *pvSkinBoxes = app.GetAdditionalSkinBoxes(dwSkinID); + unsigned int uiAnimOverrideBitmask= app.GetAnimOverrideBitmask(dwSkinID); + + send(std::make_shared(textureName, pbData, dwTextureBytes, pvSkinBoxes, uiAnimOverrideBitmask)); + } + m_texturesRequested.erase(it); + } + } +} + +void PlayerConnection::handleTextureChange(shared_ptr packet) +{ + switch(packet->action) + { + case TextureChangePacket::e_TextureChange_Skin: + player->setCustomSkin( app.getSkinIdFromPath( packet->path ) ); +#ifndef _CONTENT_PACKAGE + wprintf(L"Skin for server player %ls has changed to %ls (%d)\n", player->name.c_str(), player->customTextureUrl.c_str(), player->getPlayerDefaultSkin() ); +#endif + break; + case TextureChangePacket::e_TextureChange_Cape: + player->setCustomCape( Player::getCapeIdFromPath( packet->path ) ); + //player->customTextureUrl2 = packet->path; +#ifndef _CONTENT_PACKAGE + wprintf(L"Cape for server player %ls has changed to %ls\n", player->name.c_str(), player->customTextureUrl2.c_str() ); +#endif + break; + } + if(!packet->path.empty() && packet->path.substr(0,3).compare(L"def") != 0 && !app.IsFileInMemoryTextures(packet->path)) + { + if (server->connection->addPendingTextureRequest(packet->path)) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Sending texture packet to get custom skin %ls from player %ls\n", packet->path.c_str(), player->name.c_str()); +#endif + send(std::make_shared( + packet->path, + nullptr, + static_cast(0) + )); + + } + } + else if(!packet->path.empty() && app.IsFileInMemoryTextures(packet->path)) + { + // Update the ref count on the memory texture data + app.AddMemoryTextureFile(packet->path,nullptr,0); + } + server->getPlayers()->broadcastAll(std::make_shared(player, packet->action, packet->path), player->dimension ); +} + +void PlayerConnection::handleTextureAndGeometryChange(shared_ptr packet) +{ + + player->setCustomSkin( app.getSkinIdFromPath( packet->path ) ); +#ifndef _CONTENT_PACKAGE + wprintf(L"PlayerConnection::handleTextureAndGeometryChange - Skin for server player %ls has changed to %ls (%d)\n", player->name.c_str(), player->customTextureUrl.c_str(), player->getPlayerDefaultSkin() ); +#endif + + + if(!packet->path.empty() && packet->path.substr(0,3).compare(L"def") != 0 && !app.IsFileInMemoryTextures(packet->path)) + { + if( server->connection->addPendingTextureRequest(packet->path)) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Sending texture packet to get custom skin %ls from player %ls\n",packet->path.c_str(), player->name.c_str()); +#endif + send(std::make_shared( + packet->path, + nullptr, + static_cast(0))); + } + } + else if(!packet->path.empty() && app.IsFileInMemoryTextures(packet->path)) + { + // Update the ref count on the memory texture data + app.AddMemoryTextureFile(packet->path,nullptr,0); + + player->setCustomSkin(packet->dwSkinID); + + // If we already have the texture, then we already have the model parts too + //app.SetAdditionalSkinBoxes(packet->dwSkinID,) + //DebugBreak(); + } + server->getPlayers()->broadcastAll(std::make_shared(player, packet->path), player->dimension ); +} + +void PlayerConnection::handleServerSettingsChanged(shared_ptr packet) +{ + if(packet->action==ServerSettingsChangedPacket::HOST_IN_GAME_SETTINGS) + { + // Need to check that this player has permission to change each individual setting? + + INetworkPlayer *networkPlayer = getNetworkPlayer(); + if( (networkPlayer != nullptr && networkPlayer->IsHost()) || player->isModerator()) + { + app.SetGameHostOption(eGameHostOption_FireSpreads, app.GetGameHostOption(packet->data,eGameHostOption_FireSpreads)); + app.SetGameHostOption(eGameHostOption_TNT, app.GetGameHostOption(packet->data,eGameHostOption_TNT)); + app.SetGameHostOption(eGameHostOption_MobGriefing, app.GetGameHostOption(packet->data, eGameHostOption_MobGriefing)); + app.SetGameHostOption(eGameHostOption_KeepInventory, app.GetGameHostOption(packet->data, eGameHostOption_KeepInventory)); + app.SetGameHostOption(eGameHostOption_DoMobSpawning, app.GetGameHostOption(packet->data, eGameHostOption_DoMobSpawning)); + app.SetGameHostOption(eGameHostOption_DoMobLoot, app.GetGameHostOption(packet->data, eGameHostOption_DoMobLoot)); + app.SetGameHostOption(eGameHostOption_DoTileDrops, app.GetGameHostOption(packet->data, eGameHostOption_DoTileDrops)); + app.SetGameHostOption(eGameHostOption_DoDaylightCycle, app.GetGameHostOption(packet->data, eGameHostOption_DoDaylightCycle)); + app.SetGameHostOption(eGameHostOption_NaturalRegeneration, app.GetGameHostOption(packet->data, eGameHostOption_NaturalRegeneration)); + + server->getPlayers()->broadcastAll(std::make_shared(ServerSettingsChangedPacket::HOST_IN_GAME_SETTINGS, app.GetGameHostOption(eGameHostOption_All))); + + // Update the QoS data + g_NetworkManager.UpdateAndSetGameSessionData(); + } + } +} + +void PlayerConnection::handleKickPlayer(shared_ptr packet) +{ + INetworkPlayer *networkPlayer = getNetworkPlayer(); + if( (networkPlayer != nullptr && networkPlayer->IsHost()) || player->isModerator()) + { + server->getPlayers()->kickPlayerByShortId(packet->m_networkSmallId); + } +} + +void PlayerConnection::handleGameCommand(shared_ptr packet) { } + +void PlayerConnection::handleClientCommand(shared_ptr packet) +{ + player->resetLastActionTime(); + if (packet->action == ClientCommandPacket::PERFORM_RESPAWN) + { + if (player->wonGame) + { + player = server->getPlayers()->respawn(player, player->m_enteredEndExitPortal?0:player->dimension, true); + } + //else if (player.getLevel().getLevelData().isHardcore()) + //{ + // if (server.isSingleplayer() && player.name.equals(server.getSingleplayerName())) + // { + // player.connection.disconnect("You have died. Game over, man, it's game over!"); + // server.selfDestruct(); + // } + // else + // { + // BanEntry ban = new BanEntry(player.name); + // ban.setReason("Death in Hardcore"); + + // server.getPlayers().getBans().add(ban); + // player.connection.disconnect("You have died. Game over, man, it's game over!"); + // } + //} + else + { + if (player->getHealth() > 0) return; + player = server->getPlayers()->respawn(player, 0, false); + } + } +} + +void PlayerConnection::handleRespawn(shared_ptr packet) +{ +} + +void PlayerConnection::handleContainerClose(shared_ptr packet) +{ + player->doCloseContainer(); +} + +#ifndef _CONTENT_PACKAGE +void PlayerConnection::handleContainerSetSlot(shared_ptr packet) +{ + if(player->gameMode->isSurvival()){ // Still allow creative players to change slots manually with packets(?) -- might want this different. + server->warn(L"Player " + player->getName() + L" just tried to set a slot in a container in survival mode"); + return; + } + if (packet->containerId == AbstractContainerMenu::CONTAINER_ID_CARRIED ) + { + player->inventory->setCarried(packet->item); + } + else + { + if (packet->containerId == AbstractContainerMenu::CONTAINER_ID_INVENTORY && packet->slot >= 36 && packet->slot < 36 + 9) + { + shared_ptr lastItem = player->inventoryMenu->getSlot(packet->slot)->getItem(); + if (packet->item != nullptr) + { + if (lastItem == nullptr || lastItem->count < packet->item->count) + { + packet->item->popTime = Inventory::POP_TIME_DURATION; + } + } + player->inventoryMenu->setItem(packet->slot, packet->item); + player->ignoreSlotUpdateHack = true; + player->containerMenu->broadcastChanges(); + player->broadcastCarriedItem(); + player->ignoreSlotUpdateHack = false; + } + else if (packet->containerId == player->containerMenu->containerId) + { + player->containerMenu->setItem(packet->slot, packet->item); + player->ignoreSlotUpdateHack = true; + player->containerMenu->broadcastChanges(); + player->broadcastCarriedItem(); + player->ignoreSlotUpdateHack = false; + } + } +} +#endif + +void PlayerConnection::handleContainerClick(shared_ptr packet) +{ + player->resetLastActionTime(); + if (player->containerMenu->containerId == packet->containerId && player->containerMenu->isSynched(player)) + { + shared_ptr clicked = player->containerMenu->clicked(packet->slotNum, packet->buttonNum, packet->clickType, player); + + if (ItemInstance::matches(packet->item, clicked)) + { + // Yep, you sure did click what you claimed to click! + player->connection->send(std::make_shared(packet->containerId, packet->uid, true)); + player->ignoreSlotUpdateHack = true; + player->containerMenu->broadcastChanges(); + player->broadcastCarriedItem(); + player->ignoreSlotUpdateHack = false; + } + else + { + // No, you clicked the wrong thing! + expectedAcks[player->containerMenu->containerId] = packet->uid; + player->connection->send(std::make_shared(packet->containerId, packet->uid, false)); + player->containerMenu->setSynched(player, false); + + vector > items; + for (unsigned int i = 0; i < player->containerMenu->slots.size(); i++) + { + items.push_back(player->containerMenu->slots.at(i)->getItem()); + } + player->refreshContainer(player->containerMenu, &items); + + // player.containerMenu.broadcastChanges(); + } + } + +} + +void PlayerConnection::handleContainerButtonClick(shared_ptr packet) +{ + player->resetLastActionTime(); + if (player->containerMenu->containerId == packet->containerId && player->containerMenu->isSynched(player)) + { + player->containerMenu->clickMenuButton(player, packet->buttonId); + player->containerMenu->broadcastChanges(); + } +} + +void PlayerConnection::handleSetCreativeModeSlot(shared_ptr packet) +{ + if (player->gameMode->isCreative()) + { + bool drop = packet->slotNum < 0; + shared_ptr item = packet->item; + + if(item != nullptr && item->id == Item::map_Id) + { + int mapScale = 3; +#ifdef _LARGE_WORLDS + int scale = MapItemSavedData::MAP_SIZE * 2 * (1 << mapScale); + int centreXC = static_cast(Math::round(player->x / scale) * scale); + int centreZC = static_cast(Math::round(player->z / scale) * scale); +#else + // 4J-PB - for Xbox maps, we'll centre them on the origin of the world, since we can fit the whole world in our map + int centreXC = 0; + int centreZC = 0; +#endif + item->setAuxValue( player->level->getAuxValueForMap(player->getXuid(), player->dimension, centreXC, centreZC, mapScale) ); + + shared_ptr data = MapItem::getSavedData(item->getAuxValue(), player->level); + // 4J Stu - We only have one map per player per dimension, so don't reset the one that they have + // when a new one is created + wchar_t buf[64]; + swprintf(buf,64,L"map_%d", item->getAuxValue()); + std::wstring id = wstring(buf); + if( data == nullptr ) + { + data = std::make_shared(id); + } + player->level->setSavedData(id, (shared_ptr ) data); + + data->scale = mapScale; + // 4J-PB - for Xbox maps, we'll centre them on the origin of the world, since we can fit the whole world in our map + data->x = centreXC; + data->z = centreZC; + data->dimension = static_cast(player->level->dimension->id); + data->setDirty(); + } + + bool validSlot = (packet->slotNum >= InventoryMenu::CRAFT_SLOT_START && packet->slotNum < (InventoryMenu::USE_ROW_SLOT_START + Inventory::getSelectionSize())); + bool validItem = item == nullptr || (item->id < Item::items.length && item->id >= 0 && Item::items[item->id] != nullptr); + bool validData = item == nullptr || (item->getAuxValue() >= 0 && item->count > 0 && item->count <= 64); + + if (validSlot && validItem && validData) + { + if (item == nullptr) + { + player->inventoryMenu->setItem(packet->slotNum, nullptr); + } + else + { + player->inventoryMenu->setItem(packet->slotNum, item ); + } + player->inventoryMenu->setSynched(player, true); + // player.slotChanged(player.inventoryMenu, packet.slotNum, player.inventoryMenu.getSlot(packet.slotNum).getItem()); + } + else if (drop && validItem && validData) + { + if (dropSpamTickCount < SharedConstants::TICKS_PER_SECOND * 10) + { + dropSpamTickCount += SharedConstants::TICKS_PER_SECOND; + // drop item + shared_ptr dropped = player->drop(item); + if (dropped != nullptr) + { + dropped->setShortLifeTime(); + } + } + } + + if( item != nullptr && item->id == Item::map_Id ) + { + // 4J Stu - Maps need to have their aux value update, so the client should always be assumed to be wrong + // This is how the Java works, as the client also incorrectly predicts the auxvalue of the mapItem + vector > items; + for (unsigned int i = 0; i < player->inventoryMenu->slots.size(); i++) + { + items.push_back(player->inventoryMenu->slots.at(i)->getItem()); + } + player->refreshContainer(player->inventoryMenu, &items); + } + } +} + +void PlayerConnection::handleContainerAck(shared_ptr packet) +{ + auto it = expectedAcks.find(player->containerMenu->containerId); + + if (it != expectedAcks.end() && packet->uid == it->second && player->containerMenu->containerId == packet->containerId && !player->containerMenu->isSynched(player)) + { + player->containerMenu->setSynched(player, true); + } +} + +void PlayerConnection::handleSignUpdate(shared_ptr packet) +{ + player->resetLastActionTime(); + app.DebugPrintf("PlayerConnection::handleSignUpdate\n"); + + ServerLevel *level = server->getLevel(player->dimension); + if (level->hasChunkAt(packet->x, packet->y, packet->z)) + { + shared_ptr te = level->getTileEntity(packet->x, packet->y, packet->z); + + if (dynamic_pointer_cast(te) != nullptr) + { + shared_ptr ste = dynamic_pointer_cast(te); + if (!ste->isEditable() || ste->getPlayerWhoMayEdit() != player) + { + server->warn(L"Player " + player->getName() + L" just tried to change non-editable sign"); + return; + } + } + + // 4J-JEV: Changed to allow characters to display as a []. + if (dynamic_pointer_cast(te) != nullptr) + { + int x = packet->x; + int y = packet->y; + int z = packet->z; + shared_ptr ste = dynamic_pointer_cast(te); + for (int i = 0; i < 4; i++) + { + wstring lineText = packet->lines[i].substr(0,15); + ste->SetMessage( i, lineText ); + } + ste->SetVerified(false); + ste->setChanged(); + level->sendTileUpdated(x, y, z); + } + } + +} + +void PlayerConnection::handleKeepAlive(shared_ptr packet) +{ + if (packet->id == lastKeepAliveId) + { + int time = static_cast(System::nanoTime() / 1000000 - lastKeepAliveTime); + player->latency = (player->latency * 3 + time) / 4; + } +} + +void PlayerConnection::handlePlayerInfo(shared_ptr packet) +{ + // Need to check that this player has permission to change each individual setting? + + INetworkPlayer *networkPlayer = getNetworkPlayer(); + if( (networkPlayer != nullptr && networkPlayer->IsHost()) || player->isModerator() ) + { + shared_ptr serverPlayer; + // Find the player being edited + for(auto& checkingPlayer : server->getPlayers()->players) + { + if(checkingPlayer->connection->getNetworkPlayer() != nullptr && checkingPlayer->connection->getNetworkPlayer()->GetSmallId() == packet->m_networkSmallId) + { + serverPlayer = checkingPlayer; + break; + } + } + + if(serverPlayer != nullptr) + { + unsigned int origPrivs = serverPlayer->getAllPlayerGamePrivileges(); + + bool trustPlayers = app.GetGameHostOption(eGameHostOption_TrustPlayers) != 0; + bool cheats = app.GetGameHostOption(eGameHostOption_CheatsEnabled) != 0; + if(serverPlayer == player) + { + GameType *gameType = Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CreativeMode) ? GameType::CREATIVE : GameType::SURVIVAL; + gameType = LevelSettings::validateGameType(gameType->getId()); + if (serverPlayer->gameMode->getGameModeForPlayer() != gameType) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Setting %ls to game mode %d\n", serverPlayer->name.c_str(), gameType->getId()); +#endif + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CreativeMode,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CreativeMode) ); + serverPlayer->gameMode->setGameModeForPlayer(gameType); + serverPlayer->connection->send(std::make_shared(GameEventPacket::CHANGE_GAME_MODE, gameType->getId())); + } + else + { +#ifndef _CONTENT_PACKAGE + wprintf(L"%ls already has game mode %d\n", serverPlayer->name.c_str(), gameType); +#endif + } + if(cheats) + { + // Editing self + bool canBeInvisible = Player::getPlayerGamePrivilege(origPrivs, Player::ePlayerGamePrivilege_CanToggleInvisible) != 0; + if(canBeInvisible)serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_Invisible,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_Invisible) ); + if(canBeInvisible)serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_Invulnerable,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_Invulnerable) ); + + bool inCreativeMode = Player::getPlayerGamePrivilege(origPrivs,Player::ePlayerGamePrivilege_CreativeMode) != 0; + if(!inCreativeMode) + { + bool canFly = Player::getPlayerGamePrivilege(origPrivs,Player::ePlayerGamePrivilege_CanToggleFly); + bool canChangeHunger = Player::getPlayerGamePrivilege(origPrivs,Player::ePlayerGamePrivilege_CanToggleClassicHunger); + + if(canFly)serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CanFly,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CanFly) ); + if(canChangeHunger)serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_ClassicHunger,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_ClassicHunger) ); + } + } + } + else + { + // Editing someone else + if(!trustPlayers && !serverPlayer->connection->getNetworkPlayer()->IsHost()) + { + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CannotMine,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CannotMine) ); + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CannotBuild,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CannotBuild) ); + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CannotAttackPlayers,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CannotAttackPlayers) ); + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CannotAttackAnimals,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CannotAttackAnimals) ); + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CanUseDoorsAndSwitches,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CanUseDoorsAndSwitches) ); + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CanUseContainers,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CanUseContainers) ); + } + + if(networkPlayer->IsHost()) + { + if(cheats) + { + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CanToggleInvisible,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CanToggleInvisible) ); + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CanToggleFly,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CanToggleFly) ); + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CanToggleClassicHunger,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CanToggleClassicHunger) ); + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CanTeleport,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_CanTeleport) ); + } + serverPlayer->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_Op,Player::getPlayerGamePrivilege(packet->m_playerPrivileges,Player::ePlayerGamePrivilege_Op) ); + } + } + + server->getPlayers()->broadcastAll(std::make_shared(serverPlayer)); + } + } +} + +bool PlayerConnection::isServerPacketListener() +{ + return true; +} + +void PlayerConnection::handlePlayerAbilities(shared_ptr playerAbilitiesPacket) +{ + player->abilities.flying = playerAbilitiesPacket->isFlying() && player->abilities.mayfly; +} + +//void handleChatAutoComplete(ChatAutoCompletePacket packet) { +// StringBuilder result = new StringBuilder(); + +// for (String candidate : server.getAutoCompletions(player, packet.getMessage())) { +// if (result.length() > 0) result.append("\0"); + +// result.append(candidate); +// } + +// player.connection.send(new ChatAutoCompletePacket(result.toString())); +//} + +//void handleClientInformation(shared_ptr packet) +//{ +// player->updateOptions(packet); +//} + +void PlayerConnection::handleCustomPayload(shared_ptr customPayloadPacket) +{ +#if 0 + if (CustomPayloadPacket.CUSTOM_BOOK_PACKET.equals(customPayloadPacket.identifier)) + { + ByteArrayInputStream bais(customPayloadPacket->data); + DataInputStream input(&bais); + shared_ptr sentItem = Packet::readItem(input); + + if (!WritingBookItem.makeSureTagIsValid(sentItem.getTag())) + { + throw new IOException("Invalid book tag!"); + } + + // make sure the sent item is the currently carried item + ItemInstance carried = player.inventory.getSelected(); + if (sentItem != null && sentItem.id == Item.writingBook.id && sentItem.id == carried.id) + { + carried.addTagElement(WrittenBookItem.TAG_PAGES, sentItem.getTag().getList(WrittenBookItem.TAG_PAGES)); + } + } + else if (CustomPayloadPacket.CUSTOM_BOOK_SIGN_PACKET.equals(customPayloadPacket.identifier)) + { + DataInputStream input = new DataInputStream(new ByteArrayInputStream(customPayloadPacket.data)); + ItemInstance sentItem = Packet.readItem(input); + + if (!WrittenBookItem.makeSureTagIsValid(sentItem.getTag())) + { + throw new IOException("Invalid book tag!"); + } + + // make sure the sent item is the currently carried item + ItemInstance carried = player.inventory.getSelected(); + if (sentItem != null && sentItem.id == Item.writtenBook.id && carried.id == Item.writingBook.id) + { + carried.addTagElement(WrittenBookItem.TAG_AUTHOR, new StringTag(WrittenBookItem.TAG_AUTHOR, player.getName())); + carried.addTagElement(WrittenBookItem.TAG_TITLE, new StringTag(WrittenBookItem.TAG_TITLE, sentItem.getTag().getString(WrittenBookItem.TAG_TITLE))); + carried.addTagElement(WrittenBookItem.TAG_PAGES, sentItem.getTag().getList(WrittenBookItem.TAG_PAGES)); + carried.id = Item.writtenBook.id; + } + } + else +#endif + if (CustomPayloadPacket::TRADER_SELECTION_PACKET.compare(customPayloadPacket->identifier) == 0) + { + ByteArrayInputStream bais(customPayloadPacket->data); + DataInputStream input(&bais); + int selection = input.readInt(); + + AbstractContainerMenu *menu = player->containerMenu; + if (dynamic_cast(menu)) + { + static_cast(menu)->setSelectionHint(selection); + } + } + else if (CustomPayloadPacket::SET_ADVENTURE_COMMAND_PACKET.compare(customPayloadPacket->identifier) == 0) + { + if (!server->isCommandBlockEnabled()) + { + app.DebugPrintf("Command blocks not enabled"); + //player->sendMessage(ChatMessageComponent.forTranslation("advMode.notEnabled")); + } + else + { + //player.sendMessage(ChatMessageComponent.forTranslation("advMode.notAllowed")); + } + } + else if (CustomPayloadPacket::SET_BEACON_PACKET.compare(customPayloadPacket->identifier) == 0) + { + if ( dynamic_cast( player->containerMenu) != nullptr) + { + ByteArrayInputStream bais(customPayloadPacket->data); + DataInputStream input(&bais); + int primary = input.readInt(); + int secondary = input.readInt(); + + BeaconMenu *beaconMenu = static_cast(player->containerMenu); + Slot *slot = beaconMenu->getSlot(0); + if (slot->hasItem()) + { + slot->remove(1); + shared_ptr beacon = beaconMenu->getBeacon(); + beacon->setPrimaryPower(primary); + beacon->setSecondaryPower(secondary); + beacon->setChanged(); + } + } + } + else if (CustomPayloadPacket::SET_ITEM_NAME_PACKET.compare(customPayloadPacket->identifier) == 0) + { + AnvilMenu *menu = dynamic_cast( player->containerMenu); + if (menu) + { + if (customPayloadPacket->data.data == nullptr || customPayloadPacket->data.length < 1) + { + menu->setItemName(L""); + } + else + { + ByteArrayInputStream bais(customPayloadPacket->data); + DataInputStream dis(&bais); + wstring name = dis.readUTF(); + if (name.length() <= 30) + { + menu->setItemName(name); + } + } + } + } +} + +bool PlayerConnection::isDisconnected() +{ + return done; +} + +// 4J Added + +void PlayerConnection::handleDebugOptions(shared_ptr packet) +{ + //Player player = dynamic_pointer_cast( player->shared_from_this() ); + player->SetDebugOptions(packet->m_uiVal); +} + +void PlayerConnection::handleCraftItem(shared_ptr packet) +{ + int iRecipe = packet->recipe; + + if(iRecipe == -1) + return; + + int recipeCount = (int)Recipes::getInstance()->getRecipies()->size(); + if(iRecipe < 0 || iRecipe >= recipeCount) + return; + + Recipy::INGREDIENTS_REQUIRED *pRecipeIngredientsRequired=Recipes::getInstance()->getRecipeIngredientsArray(); + shared_ptr pTempItemInst=pRecipeIngredientsRequired[iRecipe].pRecipy->assemble(nullptr); + + if(app.DebugSettingsOn() && (player->GetDebugOptions()&(1L<onCraftedBy(player->level, dynamic_pointer_cast( player->shared_from_this() ), pTempItemInst->count ); + if(player->inventory->add(pTempItemInst)==false ) + { + // no room in inventory, so throw it down + player->drop(pTempItemInst); + } + } + else if (pTempItemInst->id == Item::fireworksCharge_Id || pTempItemInst->id == Item::fireworks_Id) + { + CraftingMenu *menu = static_cast(player->containerMenu); + player->openFireworks(menu->getX(), menu->getY(), menu->getZ() ); + } + else + { + + + Recipy::INGREDIENTS_REQUIRED &req = pRecipeIngredientsRequired[iRecipe]; + if (req.iType == RECIPE_TYPE_3x3 && dynamic_cast(player->containerMenu) == nullptr) + { + server->warn(L"Player " + player->getName() + L" tried to craft a 3x3 recipe without a crafting bench"); + return; + } + for (int i = 0; i < req.iIngC; i++){ + int need = req.iIngValA[i]; + int have = player->inventory->countResource(req.iIngIDA[i], req.iIngAuxValA[i]); + if (have < need){ + server->warn(L"Player " + player->getName() + L" just tried to craft item " + to_wstring(pTempItemInst->id) + L" with insufficient ingredients"); + return; + } + } + + pTempItemInst->onCraftedBy(player->level, dynamic_pointer_cast( player->shared_from_this() ), pTempItemInst->count ); + + // and remove those resources from your inventory + for(int i=0;i ingItemInst = nullptr; + // do we need to remove a specific aux value? + if(pRecipeIngredientsRequired[iRecipe].iIngAuxValA[i]!=Recipes::ANY_AUX_VALUE) + { + ingItemInst = player->inventory->getResourceItem( pRecipeIngredientsRequired[iRecipe].iIngIDA[i],pRecipeIngredientsRequired[iRecipe].iIngAuxValA[i] ); + player->inventory->removeResource(pRecipeIngredientsRequired[iRecipe].iIngIDA[i],pRecipeIngredientsRequired[iRecipe].iIngAuxValA[i]); + } + else + { + ingItemInst = player->inventory->getResourceItem( pRecipeIngredientsRequired[iRecipe].iIngIDA[i] ); + player->inventory->removeResource(pRecipeIngredientsRequired[iRecipe].iIngIDA[i]); + } + + // 4J Stu - Fix for #13097 - Bug: Milk Buckets are removed when crafting Cake + if (ingItemInst != nullptr) + { + if (ingItemInst->getItem()->hasCraftingRemainingItem()) + { + // replace item with remaining result + player->inventory->add(std::make_shared(ingItemInst->getItem()->getCraftingRemainingItem())); + } + + } + } + } + + // 4J Stu - Fix for #13119 - We should add the item after we remove the ingredients + if(player->inventory->add(pTempItemInst)==false ) + { + // no room in inventory, so throw it down + player->drop(pTempItemInst); + } + + if( pTempItemInst->id == Item::map_Id ) + { + // 4J Stu - Maps need to have their aux value update, so the client should always be assumed to be wrong + // This is how the Java works, as the client also incorrectly predicts the auxvalue of the mapItem + vector > items; + for (unsigned int i = 0; i < player->containerMenu->slots.size(); i++) + { + items.push_back(player->containerMenu->slots.at(i)->getItem()); + } + player->refreshContainer(player->containerMenu, &items); + } + else + { + // Do same hack as PlayerConnection::handleContainerClick does - do our broadcast of changes just now, but with a hack so it just thinks it has sent + // things but hasn't really. This will stop the client getting a message back confirming the current inventory items, which might then arrive + // after another local change has been made on the client and be stale. + player->ignoreSlotUpdateHack = true; + player->containerMenu->broadcastChanges(); + player->broadcastCarriedItem(); + player->ignoreSlotUpdateHack = false; + } + } + + // handle achievements + switch(pTempItemInst->id ) + { + case Tile::workBench_Id: player->awardStat(GenericStats::buildWorkbench(), GenericStats::param_buildWorkbench()); break; + case Item::pickAxe_wood_Id: player->awardStat(GenericStats::buildPickaxe(), GenericStats::param_buildPickaxe()); break; + case Tile::furnace_Id: player->awardStat(GenericStats::buildFurnace(), GenericStats::param_buildFurnace()); break; + case Item::hoe_wood_Id: player->awardStat(GenericStats::buildHoe(), GenericStats::param_buildHoe()); break; + case Item::bread_Id: player->awardStat(GenericStats::makeBread(), GenericStats::param_makeBread()); break; + case Item::cake_Id: player->awardStat(GenericStats::bakeCake(), GenericStats::param_bakeCake()); break; + case Item::pickAxe_stone_Id: player->awardStat(GenericStats::buildBetterPickaxe(), GenericStats::param_buildBetterPickaxe()); break; + case Item::sword_wood_Id: player->awardStat(GenericStats::buildSword(), GenericStats::param_buildSword()); break; + case Tile::dispenser_Id: player->awardStat(GenericStats::dispenseWithThis(), GenericStats::param_dispenseWithThis()); break; + case Tile::enchantTable_Id: player->awardStat(GenericStats::enchantments(), GenericStats::param_enchantments()); break; + case Tile::bookshelf_Id: player->awardStat(GenericStats::bookcase(), GenericStats::param_bookcase()); break; + } + //} + // ELSE The server thinks the client was wrong... +} + + +void PlayerConnection::handleTradeItem(shared_ptr packet) +{ + if (player->containerMenu->containerId == packet->containerId) + { + MerchantMenu *menu = static_cast(player->containerMenu); + + MerchantRecipeList *offers = menu->getMerchant()->getOffers(player); + + if(offers) + { + int selectedShopItem = packet->offer; + if( selectedShopItem < offers->size() ) + { + MerchantRecipe *activeRecipe = offers->at(selectedShopItem); + if(!activeRecipe->isDeprecated()) + { + // Do we have the ingredients? + shared_ptr buyAItem = activeRecipe->getBuyAItem(); + shared_ptr buyBItem = activeRecipe->getBuyBItem(); + + int buyAMatches = player->inventory->countMatches(buyAItem); + int buyBMatches = player->inventory->countMatches(buyBItem); + if( (buyAItem != nullptr && buyAMatches >= buyAItem->count) && (buyBItem == nullptr || buyBMatches >= buyBItem->count) ) + { + menu->getMerchant()->notifyTrade(activeRecipe); + + // Remove the items we are purchasing with + player->inventory->removeResources(buyAItem); + player->inventory->removeResources(buyBItem); + + // Add the item we have purchased + shared_ptr result = activeRecipe->getSellItem()->copy(); + + // 4J JEV - Award itemsBought stat. + player->awardStat( + GenericStats::itemsBought(result->getItem()->id), + GenericStats::param_itemsBought( + result->getItem()->id, + result->getAuxValue(), + result->GetCount() + ) + ); + + if (!player->inventory->add(result)) + { + player->drop(result); + } + } + } + } + } + } +} + +INetworkPlayer *PlayerConnection::getNetworkPlayer() +{ + if( connection != nullptr && connection->getSocket() != nullptr) return connection->getSocket()->getPlayer(); + else return nullptr; +} + +bool PlayerConnection::isLocal() +{ + if( connection->getSocket() == nullptr ) + { + return false; + } + else + { + bool isLocal = connection->getSocket()->isLocal(); + return connection->getSocket()->isLocal(); + } +} + +bool PlayerConnection::isGuest() +{ + if( connection->getSocket() == nullptr ) + { + return false; + } + else + { + INetworkPlayer *networkPlayer = connection->getSocket()->getPlayer(); + bool isGuest = false; + if(networkPlayer != nullptr) + { + isGuest = networkPlayer->IsGuest() == TRUE; + } + return isGuest; + } +} diff --git a/Minecraft.Client/PlayerConnection.h b/Minecraft.Client/PlayerConnection.h new file mode 100644 index 0000000..ff6093a --- /dev/null +++ b/Minecraft.Client/PlayerConnection.h @@ -0,0 +1,139 @@ +#include "ConsoleInputSource.h" +#include "..\Minecraft.World\PacketListener.h" +#include "..\Minecraft.World\JavaIntHash.h" + +class MinecraftServer; +class Connection; +class ServerPlayer; +class INetworkPlayer; + +using namespace std; + +class PlayerConnection : public PacketListener, public ConsoleInputSource +{ +// public static Logger logger = Logger.getLogger("Minecraft"); + +public: + Connection *connection; + bool done; + CRITICAL_SECTION done_cs; + + // 4J Stu - Added this so that we can manage UGC privileges + PlayerUID m_offlineXUID, m_onlineXUID; + bool m_friendsOnlyUGC; + +private: + MinecraftServer *server; + shared_ptr player; + int tickCount; + int aboveGroundTickCount; + + bool didTick; + int lastKeepAliveId; + int64_t lastKeepAliveTime; + static Random random; + int64_t lastKeepAliveTick; + int chatSpamTickCount; + int dropSpamTickCount; + + bool m_bHasClientTickedOnce; + +public: + PlayerConnection(MinecraftServer *server, Connection *connection, shared_ptr player); + ~PlayerConnection(); + void tick(); + void disconnect(DisconnectPacket::eDisconnectReason reason); + +private: + double xLastOk, yLastOk, zLastOk; + bool synched; + +public: + virtual void handlePlayerInput(shared_ptr packet); + virtual void handleMovePlayer(shared_ptr packet); + void teleport(double x, double y, double z, float yRot, float xRot, bool sendPacket = true); // 4J Added sendPacket param + virtual void handlePlayerAction(shared_ptr packet); + virtual void handleUseItem(shared_ptr packet); + virtual void onDisconnect(DisconnectPacket::eDisconnectReason reason, void *reasonObjects); + virtual void onUnhandledPacket(shared_ptr packet); + void send(shared_ptr packet); + void queueSend(shared_ptr packet); // 4J Added + virtual void handleSetCarriedItem(shared_ptr packet); + virtual void handleChat(shared_ptr packet); +private: + void handleCommand(const wstring& message); +public: + virtual void handleAnimate(shared_ptr packet); + virtual void handlePlayerCommand(shared_ptr packet); + virtual void handleDisconnect(shared_ptr packet); + int countDelayedPackets(); + virtual void info(const wstring& string); + virtual void warn(const wstring& string); + virtual wstring getConsoleName(); + virtual void handleInteract(shared_ptr packet); + bool canHandleAsyncPackets(); + virtual void handleClientCommand(shared_ptr packet); + virtual void handleRespawn(shared_ptr packet); + virtual void handleContainerClose(shared_ptr packet); + +private: + unordered_map expectedAcks; + +public: + // 4J Stu - Handlers only valid in debug mode +#ifndef _CONTENT_PACKAGE + virtual void handleContainerSetSlot(shared_ptr packet); +#endif + virtual void handleContainerClick(shared_ptr packet); + virtual void handleContainerButtonClick(shared_ptr packet); + virtual void handleSetCreativeModeSlot(shared_ptr packet); + virtual void handleContainerAck(shared_ptr packet); + virtual void handleSignUpdate(shared_ptr packet); + virtual void handleKeepAlive(shared_ptr packet); + virtual void handlePlayerInfo(shared_ptr packet); // 4J Added + virtual bool isServerPacketListener(); + virtual void handlePlayerAbilities(shared_ptr playerAbilitiesPacket); + virtual void handleCustomPayload(shared_ptr customPayloadPacket); + virtual bool isDisconnected(); + + // 4J Added + virtual void handleCraftItem(shared_ptr packet); + virtual void handleTradeItem(shared_ptr packet); + virtual void handleDebugOptions(shared_ptr packet); + virtual void handleTexture(shared_ptr packet); + virtual void handleTextureAndGeometry(shared_ptr packet); + virtual void handleTextureChange(shared_ptr packet); + virtual void handleTextureAndGeometryChange(shared_ptr packet); + virtual void handleServerSettingsChanged(shared_ptr packet); + virtual void handleKickPlayer(shared_ptr packet); + virtual void handleGameCommand(shared_ptr packet); + + INetworkPlayer *getNetworkPlayer(); + bool isLocal(); + bool isGuest(); + + // 4J Added as we need to set this from outside sometimes + void setPlayer(shared_ptr player) { this->player = player; } + shared_ptr getPlayer() { return player; } + + // 4J Added to signal a disconnect from another thread + void closeOnTick() { m_bCloseOnTick = true; } + + // 4J Added so that we can send on textures that get received after this connection requested them + void handleTextureReceived(const wstring &textureName); + void handleTextureAndGeometryReceived(const wstring &textureName); + + void setShowOnMaps(bool bVal); + + void setWasKicked() { m_bWasKicked = true; } + bool getWasKicked() { return m_bWasKicked; } + + // 4J Added + bool hasClientTickedOnce() { return m_bHasClientTickedOnce; } + +private: + bool m_bCloseOnTick; + vector m_texturesRequested; + + bool m_bWasKicked; +}; \ No newline at end of file diff --git a/Minecraft.Client/PlayerInfo.h b/Minecraft.Client/PlayerInfo.h new file mode 100644 index 0000000..427c78d --- /dev/null +++ b/Minecraft.Client/PlayerInfo.h @@ -0,0 +1,15 @@ +#pragma once +using namespace std; + +class PlayerInfo +{ +public: + wstring name; + int latency; + + PlayerInfo(const wstring &name) + { + this->name = name; + latency = 0; + } +}; \ No newline at end of file diff --git a/Minecraft.Client/PlayerList.cpp b/Minecraft.Client/PlayerList.cpp new file mode 100644 index 0000000..6d6a354 --- /dev/null +++ b/Minecraft.Client/PlayerList.cpp @@ -0,0 +1,1735 @@ +#include "stdafx.h" +#include "PlayerList.h" + +#include +#include "PlayerChunkMap.h" +#include "MinecraftServer.h" +#include "Settings.h" +#include "ServerLevel.h" +#include "ServerChunkCache.h" +#include "ServerPlayer.h" +#include "ServerPlayerGameMode.h" +#include "ServerConnection.h" +#include "PendingConnection.h" +#include "PlayerConnection.h" +#include "EntityTracker.h" +#include "..\Minecraft.World\net.minecraft.world.level.storage.h" +#include "..\Minecraft.World\net.minecraft.world.level.dimension.h" +#include "..\Minecraft.World\ArrayWithLength.h" +#include "..\Minecraft.World\net.minecraft.network.packet.h" +#include "..\Minecraft.World\net.minecraft.network.h" +#include "Windows64\Windows64_Xuid.h" +#ifdef _WINDOWS64 +#include "Windows64\Network\WinsockNetLayer.h" +#endif +#include "..\Minecraft.World\Pos.h" +#include "..\Minecraft.World\ProgressListener.h" +#include "..\Minecraft.World\HellRandomLevelSource.h" +#include "..\Minecraft.World\net.minecraft.world.phys.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\net.minecraft.world.level.storage.h" +#include "..\Minecraft.World\net.minecraft.world.level.saveddata.h" +#include "..\Minecraft.World\JavaMath.h" +#include "..\Minecraft.World\EntityIO.h" +#if defined(_XBOX) || defined(_WINDOWS64) +#include "Xbox\Network\NetworkPlayerXbox.h" +#elif defined(__PS3__) || defined(__ORBIS__) +#include "Common\Network\Sony\NetworkPlayerSony.h" +#endif +#include + +// 4J - this class is fairly substantially altered as there didn't seem any point in porting code for banning, whitelisting, ops etc. + +PlayerList::PlayerList(MinecraftServer *server) +{ + playerIo = nullptr; + + this->server = server; + + sendAllPlayerInfoIn = 0; + overrideGameMode = nullptr; + allowCheatsForAllPlayers = false; + +#ifdef __PSVITA__ + viewDistance = 3; +#elif defined _LARGE_WORLDS + viewDistance = 16; +#else + viewDistance = 10; +#endif + + //int viewDistance = server->settings->getInt(L"view-distance", 10); + + int rawMax = server->settings->getInt(L"max-players", 8); + maxPlayers = static_cast(Mth::clamp(rawMax, 1, MINECRAFT_NET_MAX_PLAYERS)); + doWhiteList = false; + InitializeCriticalSection(&m_kickPlayersCS); + InitializeCriticalSection(&m_banPlayersCS); + InitializeCriticalSection(&m_closePlayersCS); +} + +PlayerList::~PlayerList() +{ + for (auto& player : players) + { + player->connection = nullptr; // Must remove reference to connection, or else there is a circular dependency + delete player->gameMode; // Gamemode also needs deleted as it references back to this player + player->gameMode = nullptr; + } + + DeleteCriticalSection(&m_kickPlayersCS); + DeleteCriticalSection(&m_banPlayersCS); + DeleteCriticalSection(&m_closePlayersCS); +} + +bool PlayerList::placeNewPlayer(Connection *connection, shared_ptr player, shared_ptr packet) +{ + CompoundTag *playerTag = load(player); + + bool newPlayer = playerTag == nullptr; + + player->setLevel(server->getLevel(player->dimension)); + player->gameMode->setLevel(static_cast(player->level)); + + // Make sure these privileges are always turned off for the host player + INetworkPlayer *networkPlayer = connection->getSocket()->getPlayer(); + if(networkPlayer != nullptr && networkPlayer->IsHost()) + { + player->enableAllPlayerPrivileges(true); + player->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_HOST,1); + } + +#if defined(__PS3__) || defined(__ORBIS__) + // PS3 networking library doesn't automatically assign PlayerUIDs to the network players for anything remote, so need to tell it what to set from the data in this packet now + if( !g_NetworkManager.IsLocalGame() ) + { + if( networkPlayer != nullptr ) + { + ((NetworkPlayerSony *)networkPlayer)->SetUID( packet->m_onlineXuid ); + } + } +#endif +#ifdef _WINDOWS64 + if (networkPlayer != nullptr) + { + NetworkPlayerXbox* nxp = static_cast(networkPlayer); + IQNetPlayer* qnp = nxp->GetQNetPlayer(); + if (qnp != nullptr) + { + if (!networkPlayer->IsLocal()) + { + wcsncpy_s(qnp->m_gamertag, 32, player->name.c_str(), _TRUNCATE); + } + qnp->m_resolvedXuid = player->getXuid(); + } + } +#endif + // 4J Stu - TU-1 hotfix + // Fix for #13150 - When a player loads/joins a game after saving/leaving in the nether, sometimes they are spawned on top of the nether and cannot mine down + validatePlayerSpawnPosition(player); + + // logger.info(getName() + " logged in with entity id " + playerEntity.entityId + " at (" + playerEntity.x + ", " + playerEntity.y + ", " + playerEntity.z + ")"); + + ServerLevel *level = server->getLevel(player->dimension); + + DWORD playerIndex = (DWORD)MINECRAFT_NET_MAX_PLAYERS; + { + bool usedIndexes[MINECRAFT_NET_MAX_PLAYERS]; + ZeroMemory( &usedIndexes, MINECRAFT_NET_MAX_PLAYERS * sizeof(bool) ); + for (auto& p : players ) + { + usedIndexes[p->getPlayerIndex()] = true; + } + for(unsigned int i = 0; i < MINECRAFT_NET_MAX_PLAYERS; ++i) + { + if(!usedIndexes[i]) + { + playerIndex = i; + break; + } + } + } + if (playerIndex >= static_cast(MINECRAFT_NET_MAX_PLAYERS)) + { + connection->send(std::make_shared(DisconnectPacket::eDisconnect_ServerFull)); + connection->sendAndQuit(); + return false; + } + player->setPlayerIndex( playerIndex ); + player->setCustomSkin( packet->m_playerSkinId ); + player->setCustomCape( packet->m_playerCapeId ); + + // 4J-JEV: Moved this here so we can send player-model texture and geometry data. + shared_ptr playerConnection = std::make_shared(server, connection, player); + //player->connection = playerConnection; // Used to be assigned in PlayerConnection ctor but moved out so we can use shared_ptr + + if(newPlayer) + { + int mapScale = 3; +#ifdef _LARGE_WORLDS + int scale = MapItemSavedData::MAP_SIZE * 2 * (1 << mapScale); + int centreXC = static_cast(Math::round(player->x / scale) * scale); + int centreZC = static_cast(Math::round(player->z / scale) * scale); +#else + // 4J-PB - for Xbox maps, we'll centre them on the origin of the world, since we can fit the whole world in our map + int centreXC = 0; + int centreZC = 0; +#endif + // 4J Added - Give every player a map the first time they join a server + // DrPerky Changed - Give the player an empty map on join + player->inventory->setItem( 9, std::make_shared(Item::emptyMap_Id, 1, level->getAuxValueForMap(player->getXuid(), 0, centreXC, centreZC, mapScale))); + if(app.getGameRuleDefinitions() != nullptr) + { + app.getGameRuleDefinitions()->postProcessPlayer(player); + } + } + + if(!player->customTextureUrl.empty() && player->customTextureUrl.substr(0,3).compare(L"def") != 0 && !app.IsFileInMemoryTextures(player->customTextureUrl)) + { + if (server->getConnection()->addPendingTextureRequest(player->customTextureUrl)) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Sending texture packet to get custom skin %ls from player %ls\n", player->customTextureUrl.c_str(), player->name.c_str()); +#endif + playerConnection->send(std::make_shared( + player->customTextureUrl, + nullptr, + static_cast(0))); + + } + } + else if(!player->customTextureUrl.empty() && app.IsFileInMemoryTextures(player->customTextureUrl)) + { + // Update the ref count on the memory texture data + app.AddMemoryTextureFile(player->customTextureUrl,nullptr,0); + } + + if(!player->customTextureUrl2.empty() && player->customTextureUrl2.substr(0,3).compare(L"def") != 0 && !app.IsFileInMemoryTextures(player->customTextureUrl2)) + { + if( server->getConnection()->addPendingTextureRequest(player->customTextureUrl2)) + { +#ifndef _CONTENT_PACKAGE + wprintf(L"Sending texture packet to get custom skin %ls from player %ls\n",player->customTextureUrl2.c_str(), player->name.c_str()); +#endif + playerConnection->send(std::make_shared( + player->customTextureUrl, + nullptr, + static_cast(0) + )); + } + } + else if(!player->customTextureUrl2.empty() && app.IsFileInMemoryTextures(player->customTextureUrl2)) + { + // Update the ref count on the memory texture data + app.AddMemoryTextureFile(player->customTextureUrl2,nullptr,0); + } + + player->setIsGuest( packet->m_isGuest ); + + Pos *spawnPos = level->getSharedSpawnPos(); + + updatePlayerGameMode(player, nullptr, level); + + // Update the privileges with the correct game mode + GameType *gameType = Player::getPlayerGamePrivilege(player->getAllPlayerGamePrivileges(),Player::ePlayerGamePrivilege_CreativeMode) ? GameType::CREATIVE : GameType::SURVIVAL; + gameType = LevelSettings::validateGameType(gameType->getId()); + if (player->gameMode->getGameModeForPlayer() != gameType) + { + player->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_CreativeMode,player->gameMode->getGameModeForPlayer()->getId() ); + } + + //shared_ptr playerConnection = shared_ptr(new PlayerConnection(server, connection, player)); + player->connection = playerConnection; // Used to be assigned in PlayerConnection ctor but moved out so we can use shared_ptr + + // 4J Added to store UGC settings + playerConnection->m_friendsOnlyUGC = packet->m_friendsOnlyUGC; + playerConnection->m_offlineXUID = packet->m_offlineXuid; + playerConnection->m_onlineXUID = packet->m_onlineXuid; + + // This player is now added to the list, so incrementing this value invalidates all previous PreLogin packets + if(packet->m_friendsOnlyUGC) ++server->m_ugcPlayersVersion; + + addPlayerToReceiving( player ); + + int maxPlayersForPacket = getMaxPlayers() > 255 ? 255 : getMaxPlayers(); + + BYTE newSmallId = 0; + Socket *sock = connection->getSocket(); + INetworkPlayer *np = sock ? sock->getPlayer() : nullptr; + if (np) newSmallId = np->GetSmallId(); + app.DebugPrintf("RECONNECT: placeNewPlayer smallId=%d entityId=%d dim=%d\n", + newSmallId, player->entityId, level->dimension->id); + + playerConnection->send(std::make_shared(L"", player->entityId, level->getLevelData()->getGenerator(), + level->getSeed(), + player->gameMode->getGameModeForPlayer()->getId(), + static_cast(level->dimension->id), static_cast(level->getMaxBuildHeight()), + static_cast(maxPlayersForPacket), + level->difficulty, + TelemetryManager->GetMultiplayerInstanceID(), + static_cast(playerIndex), level->useNewSeaLevel(), + player->getAllPlayerGamePrivileges(), + level->getLevelData()->getXZSize(), + level->getLevelData()->getHellScale())); + playerConnection->send(std::make_shared(spawnPos->x, spawnPos->y, spawnPos->z)); + playerConnection->send(std::make_shared(&player->abilities)); + playerConnection->send(std::make_shared(player->inventory->selected)); + delete spawnPos; + + updateEntireScoreboard(reinterpret_cast(level->getScoreboard()), player); + + sendLevelInfo(player, level); + + // 4J-PB - removed, since it needs to be localised in the language the client is in + //server->players->broadcastAll( shared_ptr( new ChatPacket(L"�e" + playerEntity->name + L" joined the game.") ) ); + broadcastAll(std::make_shared(player->name, ChatPacket::e_ChatPlayerJoinedGame)); + + MemSect(14); + add(player); + MemSect(0); + + player->doTick(true, true, false); // 4J - added - force sending of the nearest chunk before the player is teleported, so we have somewhere to arrive on... + playerConnection->teleport(player->x, player->y, player->z, player->yRot, player->xRot); + + server->getConnection()->addPlayerConnection(playerConnection); + playerConnection->send(std::make_shared(level->getGameTime(), level->getDayTime(), level->getGameRules()->getBoolean(GameRules::RULE_DAYLIGHT))); + + auto activeEffects = player->getActiveEffects(); + for(MobEffectInstance *effect : *player->getActiveEffects()) + { + playerConnection->send(std::make_shared(player->entityId, effect)); + } + + player->initMenu(); + + if (playerTag != nullptr && playerTag->contains(Entity::RIDING_TAG)) + { + // this player has been saved with a mount tag + shared_ptr mount = EntityIO::loadStatic(playerTag->getCompound(Entity::RIDING_TAG), level); + if (mount != nullptr) + { + mount->forcedLoading = true; + level->addEntity(mount); + player->ride(mount); + mount->forcedLoading = false; + } + } + + // If we are joining at the same time as someone in the end on this system is travelling through the win portal, + // then we should set our wonGame flag to true so that respawning works when the EndPoem is closed + INetworkPlayer *thisPlayer = player->connection->getNetworkPlayer(); + if( thisPlayer ) + { + for(auto& servPlayer : players) + { + INetworkPlayer* checkPlayer = servPlayer->connection->getNetworkPlayer(); + if(thisPlayer != checkPlayer && checkPlayer && thisPlayer->IsSameSystem( checkPlayer ) && servPlayer->wonGame ) + { + player->wonGame = true; + break; + } + } + } + return true; +} + +void PlayerList::updateEntireScoreboard(ServerScoreboard *scoreboard, shared_ptr player) +{ + //unordered_set objectives; + + //for (PlayerTeam team : scoreboard->getPlayerTeams()) + //{ + // player->connection->send( shared_ptr(new SetPlayerTeamPacket(team, SetPlayerTeamPacket::METHOD_ADD))); + //} + + //for (int slot = 0; slot < Scoreboard::DISPLAY_SLOTS; slot++) + //{ + // Objective objective = scoreboard->getDisplayObjective(slot); + + // if (objective != nullptr && !objectives->contains(objective)) + // { + // vector > *packets = scoreboard->getStartTrackingPackets(objective); + + // for (Packet packet : packets) + // { + // player->connection->send(packet); + // } + + // objectives->add(objective); + // } + //} +} + +void PlayerList::setLevel(ServerLevelArray levels) +{ + playerIo = levels[0]->getLevelStorage()->getPlayerIO(); +} + +void PlayerList::changeDimension(shared_ptr player, ServerLevel *from) +{ + ServerLevel *to = player->getLevel(); + + if (from != nullptr) from->getChunkMap()->remove(player); + to->getChunkMap()->add(player); + + to->cache->create(static_cast(player->x) >> 4, static_cast(player->z) >> 4); +} + +int PlayerList::getMaxRange() +{ + return PlayerChunkMap::convertChunkRangeToBlock(getViewDistance()); +} + +CompoundTag *PlayerList::load(shared_ptr player) +{ + return playerIo->load(player); +} + +void PlayerList::save(shared_ptr player) +{ + playerIo->save(player); +} + +// 4J Stu - TU-1 hotifx +// Add this function to take some of the code from the PlayerList::add function with the fixes +// for checking spawn area, especially in the nether. These needed to be done in a different order from before +// Fix for #13150 - When a player loads/joins a game after saving/leaving in the nether, sometimes they are spawned on top of the nether and cannot mine down +void PlayerList::validatePlayerSpawnPosition(shared_ptr player) +{ + // 4J Stu - Some adjustments to make sure the current players position is correct + // Make sure that the player is on the ground, and in the centre x/z of the current column + app.DebugPrintf("Original pos is %f, %f, %f in dimension %d\n", player->x, player->y, player->z, player->dimension); + + bool spawnForced = player->isRespawnForced(); + + double targetX = 0; + if(player->x < 0) targetX = Mth::ceil(player->x) - 0.5; + else targetX = Mth::floor(player->x) + 0.5; + + double targetY = floor(player->y); + + double targetZ = 0; + if(player->z < 0) targetZ = Mth::ceil(player->z) - 0.5; + else targetZ = Mth::floor(player->z) + 0.5; + + player->setPos(targetX, targetY, targetZ); + + app.DebugPrintf("New pos is %f, %f, %f in dimension %d\n", player->x, player->y, player->z, player->dimension); + + ServerLevel *level = server->getLevel(player->dimension); + while (level->getCubes(player, player->bb)->size() != 0) + { + player->setPos(player->x, player->y + 1, player->z); + } + app.DebugPrintf("Final pos is %f, %f, %f in dimension %d\n", player->x, player->y, player->z, player->dimension); + + // 4J Stu - If we are in the nether and the above while loop has put us above the nether then we have a problem + // Finding a valid, safe spawn point is potentially computationally expensive (may have to hunt through a large part + // of the nether) so move the player to their spawn position in the overworld so that they do not lose their inventory + // 4J Stu - We also use this mechanism to force a spawn point in the overworld for players who were in the save when the reset nether option was applied + if(level->dimension->id == -1 && player->y > 125) + { + app.DebugPrintf("Player in the nether tried to spawn at y = %f, moving to overworld\n", player->y); + player->setLevel(server->getLevel(0)); + player->gameMode->setLevel(server->getLevel(0)); + player->dimension = 0; + + level = server->getLevel(player->dimension); + + Pos *levelSpawn = level->getSharedSpawnPos(); + player->setPos(levelSpawn->x, levelSpawn->y, levelSpawn->z); + delete levelSpawn; + + Pos *bedPosition = player->getRespawnPosition(); + if (bedPosition != nullptr) + { + Pos *respawnPosition = Player::checkBedValidRespawnPosition(server->getLevel(player->dimension), bedPosition, spawnForced); + if (respawnPosition != nullptr) + { + player->moveTo(respawnPosition->x + 0.5f, respawnPosition->y + 0.1f, respawnPosition->z + 0.5f, 0, 0); + player->setRespawnPosition(bedPosition, spawnForced); + } + delete bedPosition; + } + while (level->getCubes(player, player->bb)->size() != 0) + { + player->setPos(player->x, player->y + 1, player->z); + } + + app.DebugPrintf("Updated pos is %f, %f, %f in dimension %d\n", player->x, player->y, player->z, player->dimension); + } +} + +void PlayerList::add(shared_ptr player) +{ + //broadcastAll(shared_ptr( new PlayerInfoPacket(player->name, true, 1000) ) ); + if( player->connection->getNetworkPlayer() ) + { + broadcastAll(std::make_shared(player)); + } + + players.push_back(player); + + // 4J Added + addPlayerToReceiving(player); + + // Ensure the area the player is spawning in is loaded! + ServerLevel *level = server->getLevel(player->dimension); + + // 4J Stu - TU-1 hotfix + // Fix for #13150 - When a player loads/joins a game after saving/leaving in the nether, sometimes they are spawned on top of the nether and cannot mine down + // Some code from here has been moved to the above validatePlayerSpawnPosition function + + // 4J Stu - Swapped these lines about so that we get the chunk visiblity packet way ahead of all the add tracked entity packets + // Fix for #9169 - ART : Sign text is replaced with the words �Awaiting approval�. + changeDimension(player, nullptr); + level->addEntity(player); + + for (size_t i = 0; i < players.size(); i++) + { + shared_ptr op = players.at(i); + //player->connection->send(shared_ptr( new PlayerInfoPacket(op->name, true, op->latency) ) ); + if( op->connection->getNetworkPlayer() ) + { + player->connection->send(std::make_shared(op)); + } + } + + if(level->isAtLeastOnePlayerSleeping()) + { + shared_ptr firstSleepingPlayer = nullptr; + for (unsigned int i = 0; i < players.size(); i++) + { + shared_ptr thisPlayer = players[i]; + if(thisPlayer->isSleeping()) + { + if(firstSleepingPlayer == nullptr) firstSleepingPlayer = thisPlayer; + thisPlayer->connection->send(std::make_shared(thisPlayer->name, ChatPacket::e_ChatBedMeSleep)); + } + } + player->connection->send(std::make_shared(firstSleepingPlayer->name, ChatPacket::e_ChatBedPlayerSleep)); + } +} + +void PlayerList::move(shared_ptr player) +{ + player->getLevel()->getChunkMap()->move(player); +} + +void PlayerList::remove(shared_ptr player) +{ + save(player); + //4J Stu - We don't want to save the map data for guests, so when we are sure that the player is gone delete the map + if(player->isGuest()) playerIo->deleteMapFilesForPlayer(player); + ServerLevel *level = player->getLevel(); +if (player->riding != nullptr) + { + level->removeEntityImmediately(player->riding); + app.DebugPrintf("removing player mount"); + } + level->getTracker()->removeEntity(player); + level->removeEntity(player); + level->getChunkMap()->remove(player); + auto it = find(players.begin(), players.end(), player); + if( it != players.end() ) + { + players.erase(it); + } + //broadcastAll(shared_ptr( new PlayerInfoPacket(player->name, false, 9999) ) ); + + removePlayerFromReceiving(player); + player->connection = nullptr; // Must remove reference to connection, or else there is a circular dependency + delete player->gameMode; // Gamemode also needs deleted as it references back to this player + player->gameMode = nullptr; + + // 4J Stu - Save all the players currently in the game, which will also free up unused map id slots if required, and remove old players + saveAll(nullptr,false); +} + +shared_ptr PlayerList::getPlayerForLogin(PendingConnection *pendingConnection, const wstring& userName, PlayerUID xuid, PlayerUID onlineXuid) +{ + if (players.size() >= (unsigned int)maxPlayers) + { + pendingConnection->disconnect(DisconnectPacket::eDisconnect_ServerFull); + return shared_ptr(); + } + shared_ptr player = std::make_shared(server, server->getLevel(0), userName, new ServerPlayerGameMode(server->getLevel(0))); + player->gameMode->player = player; // 4J added as had to remove this assignment from ServerPlayer ctor + player->setXuid( xuid ); // 4J Added + player->setOnlineXuid( onlineXuid ); // 4J Added +#ifdef _WINDOWS64 + { + // Use packet-supplied identity from LoginPacket. + // Do not recompute from name here: mixed-version clients must stay compatible. + INetworkPlayer* np = pendingConnection->connection->getSocket()->getPlayer(); + if (np != nullptr) + { + player->setOnlineXuid(np->GetUID()); + + // Backward compatibility: when Minecraft.Client is hosting, keep the first + // host player on the legacy embedded host XUID (base + 0). + // This preserves pre-migration host playerdata in existing worlds. + if (np->IsHost()) + { + player->setXuid(Win64Xuid::GetLegacyEmbeddedHostXuid()); + } + } + } +#endif + // Work out the base server player settings + INetworkPlayer *networkPlayer = pendingConnection->connection->getSocket()->getPlayer(); + if(networkPlayer != nullptr && !networkPlayer->IsHost()) + { + player->enableAllPlayerPrivileges( app.GetGameHostOption(eGameHostOption_TrustPlayers)>0 ); + } + + // 4J Added + LevelRuleset *serverRuleDefs = app.getGameRuleDefinitions(); + if(serverRuleDefs != nullptr) + { + player->gameMode->setGameRules( GameRuleDefinition::generateNewGameRulesInstance(GameRulesInstance::eGameRulesInstanceType_ServerPlayer, serverRuleDefs, pendingConnection->connection) ); + } + + return player; +} + +shared_ptr PlayerList::respawn(shared_ptr serverPlayer, int targetDimension, bool keepAllPlayerData) +{ + // How we handle the entity tracker depends on whether we are the primary player currently, and whether there will be any player in the same system in the same dimension once we finish respawning. + bool isPrimary = canReceiveAllPackets(serverPlayer); // Is this the primary player in its current dimension? + int oldDimension = serverPlayer->dimension; + bool isEmptying = ( targetDimension != oldDimension); // We're not emptying this dimension on this machine if this player is going back into the same dimension + + // Also consider if there is another player on this machine which is in the same dimension and can take over as primary player + if( isEmptying ) + { + INetworkPlayer *thisPlayer = serverPlayer->connection->getNetworkPlayer(); + + for( unsigned int i = 0; i < players.size(); i++ ) + { + shared_ptr ep = players[i]; + if( ep == serverPlayer ) continue; + if( ep->dimension != oldDimension ) continue; + + INetworkPlayer * otherPlayer = ep->connection->getNetworkPlayer(); + if( otherPlayer != nullptr && thisPlayer->IsSameSystem(otherPlayer) ) + { + // There's another player here in the same dimension - we're not the last one out + isEmptying = false; + } + } + } + + // Now we know where we stand, the actions to take are as follows: + // (1) if this isn't the primary player, then we just need to remove it from the entity tracker + // (2) if this Is the primary player then: + // (a) if isEmptying is true, then remove the player from the tracker, and send "remove entity" packets for anything seen (this is the original behaviour of the code) + // (b) if isEmptying is false, then we'll be transferring control of entity tracking to another player + + if( isPrimary ) + { + if( isEmptying ) + { + app.DebugPrintf("Emptying this dimension\n"); + serverPlayer->getLevel()->getTracker()->clear(serverPlayer); + } + else + { + app.DebugPrintf("Transferring... storing flags\n"); + serverPlayer->getLevel()->getTracker()->removeEntity(serverPlayer); + } + } + else + { + app.DebugPrintf("Not primary player\n"); + serverPlayer->getLevel()->getTracker()->removeEntity(serverPlayer); + } + + serverPlayer->getLevel()->getChunkMap()->remove(serverPlayer); + auto it = find(players.begin(), players.end(), serverPlayer); + if( it != players.end() ) + { + players.erase(it); + } + server->getLevel(serverPlayer->dimension)->removeEntityImmediately(serverPlayer); + + Pos *bedPosition = serverPlayer->getRespawnPosition(); + bool spawnForced = serverPlayer->isRespawnForced(); + + removePlayerFromReceiving(serverPlayer); + serverPlayer->dimension = targetDimension; + + EDefaultSkins skin = serverPlayer->getPlayerDefaultSkin(); + DWORD playerIndex = serverPlayer->getPlayerIndex(); + + PlayerUID playerXuid = serverPlayer->getXuid(); + PlayerUID playerOnlineXuid = serverPlayer->getOnlineXuid(); + + shared_ptr player = std::make_shared(server, server->getLevel(serverPlayer->dimension), serverPlayer->getName(), new ServerPlayerGameMode(server->getLevel(serverPlayer->dimension))); + player->connection = serverPlayer->connection; + player->restoreFrom(serverPlayer, keepAllPlayerData); + if (keepAllPlayerData) + { + // Fix for #81759 - TU9: Content: Gameplay: Entering The End Exit Portal replaces the Player's currently held item with the first one from the Quickbar + player->inventory->selected = serverPlayer->inventory->selected; + } + player->gameMode->player = player; // 4J added as had to remove this assignment from ServerPlayer ctor + player->setXuid( playerXuid ); // 4J Added + player->setOnlineXuid( playerOnlineXuid ); // 4J Added + + // 4J Stu - Don't reuse the id. If we do, then the player can be re-added after being removed, but the add packet gets sent before the remove packet + //player->entityId = serverPlayer->entityId; + + player->setPlayerDefaultSkin( skin ); + player->setIsGuest( serverPlayer->isGuest() ); + player->setPlayerIndex( playerIndex ); + player->setCustomSkin( serverPlayer->getCustomSkin() ); + player->setCustomCape( serverPlayer->getCustomCape() ); + player->setPlayerGamePrivilege(Player::ePlayerGamePrivilege_All, serverPlayer->getAllPlayerGamePrivileges()); + player->gameMode->setGameRules( serverPlayer->gameMode->getGameRules() ); + player->dimension = targetDimension; + + // 4J Stu - Added this as we need to know earlier if the player is the player for this connection so that + // we can work out if they are the primary for the system and can receive all packets + player->connection->setPlayer( player ); + + addPlayerToReceiving(player); + + ServerLevel *level = server->getLevel(serverPlayer->dimension); + + // reset the player's game mode (first pick from old, then copy level if + // necessary) + updatePlayerGameMode(player, serverPlayer, level); + + if(serverPlayer->wonGame && targetDimension == oldDimension && serverPlayer->getHealth() > 0) + { + // If the player is still alive and respawning to the same dimension, they are just being added back from someone else viewing the Win screen + player->moveTo(serverPlayer->x, serverPlayer->y, serverPlayer->z, serverPlayer->yRot, serverPlayer->xRot); + if(bedPosition != nullptr) + { + player->setRespawnPosition(bedPosition, spawnForced); + delete bedPosition; + } + // Fix for #81759 - TU9: Content: Gameplay: Entering The End Exit Portal replaces the Player's currently held item with the first one from the Quickbar + player->inventory->selected = serverPlayer->inventory->selected; + } + else if (bedPosition != nullptr) + { + Pos *respawnPosition = Player::checkBedValidRespawnPosition(server->getLevel(serverPlayer->dimension), bedPosition, spawnForced); + if (respawnPosition != nullptr) + { + player->moveTo(respawnPosition->x + 0.5f, respawnPosition->y + 0.1f, respawnPosition->z + 0.5f, 0, 0); + player->setRespawnPosition(bedPosition, spawnForced); + } + else + { + player->connection->send(std::make_shared(GameEventPacket::NO_RESPAWN_BED_AVAILABLE, 0)); + } + delete bedPosition; + } + + // Ensure the area the player is spawning in is loaded! + level->cache->create(static_cast(player->x) >> 4, static_cast(player->z) >> 4); + + while (!level->getCubes(player, player->bb)->empty()) + { + player->setPos(player->x, player->y + 1, player->z); + } + + player->connection->send( std::make_shared( static_cast(player->dimension), player->level->getSeed(), player->level->getMaxBuildHeight(), + player->gameMode->getGameModeForPlayer(), level->difficulty, level->getLevelData()->getGenerator(), + player->level->useNewSeaLevel(), player->entityId, level->getLevelData()->getXZSize(), level->getLevelData()->getHellScale() ) ); + player->connection->teleport(player->x, player->y, player->z, player->yRot, player->xRot); + player->connection->send( std::make_shared( player->experienceProgress, player->totalExperience, player->experienceLevel) ); + + if(keepAllPlayerData) + { + vector *activeEffects = player->getActiveEffects(); + for(MobEffectInstance *effect : *activeEffects) + { + player->connection->send(std::make_shared( player->entityId, effect ) ); + } + delete activeEffects; + player->getEntityData()->markDirty(Mob::DATA_EFFECT_COLOR_ID); + } + + sendLevelInfo(player, level); + + level->getChunkMap()->add(player); + level->addEntity(player); + players.push_back(player); + + player->initMenu(); + player->setHealth(player->getHealth()); + + // 4J-JEV - Dying before this point in the tutorial is pretty annoying, + // making sure to remove health/hunger and give you back your meat. + if( Minecraft::GetInstance()->isTutorial() + && (!Minecraft::GetInstance()->gameMode->getTutorial()->isStateCompleted(e_Tutorial_State_Food_Bar)) ) + { + app.getGameRuleDefinitions()->postProcessPlayer(player); + } + + if( oldDimension == 1 && player->dimension != 1 ) + { + player->displayClientMessage(IDS_PLAYER_LEFT_END); + } + + return player; + +} + +void PlayerList::toggleDimension(shared_ptr player, int targetDimension) +{ + int lastDimension = player->dimension; + // How we handle the entity tracker depends on whether we are the primary player currently, and whether there will be any player in the same system in the same dimension once we finish respawning. + bool isPrimary = canReceiveAllPackets(player); // Is this the primary player in its current dimension? + bool isEmptying = true; + + // Also consider if there is another player on this machine which is in the same dimension and can take over as primary player + INetworkPlayer *thisPlayer = player->connection->getNetworkPlayer(); + + for( unsigned int i = 0; i < players.size(); i++ ) + { + shared_ptr ep = players[i]; + if( ep == player ) continue; + if( ep->dimension != lastDimension ) continue; + + INetworkPlayer * otherPlayer = ep->connection->getNetworkPlayer(); + if( otherPlayer != nullptr && thisPlayer->IsSameSystem(otherPlayer) ) + { + // There's another player here in the same dimension - we're not the last one out + isEmptying = false; + } + } + + + // Now we know where we stand, the actions to take are as follows: + // (1) if this isn't the primary player, then we just need to remove it from the entity tracker + // (2) if this Is the primary player then: + // (a) if isEmptying is true, then remove the player from the tracker, and send "remove entity" packets for anything seen (this is the original behaviour of the code) + // (b) if isEmptying is false, then we'll be transferring control of entity tracking to another player + + if( isPrimary ) + { + if( isEmptying ) + { + app.DebugPrintf("Toggle... Emptying this dimension\n"); + player->getLevel()->getTracker()->clear(player); + } + else + { + app.DebugPrintf("Toggle... transferring\n"); + player->getLevel()->getTracker()->removeEntity(player); + } + } + else + { + app.DebugPrintf("Toggle... Not primary player\n"); + player->getLevel()->getTracker()->removeEntity(player); + } + + ServerLevel *oldLevel = server->getLevel(player->dimension); + + // 4J Stu - Do this much earlier so we don't end up unloading chunks in the wrong dimension + player->getLevel()->getChunkMap()->remove(player); + + if(player->dimension != 1 && targetDimension == 1) + { + player->displayClientMessage(IDS_PLAYER_ENTERED_END); + } + else if( player->dimension == 1 ) + { + player->displayClientMessage(IDS_PLAYER_LEFT_END); + } + + player->dimension = targetDimension; + + ServerLevel *newLevel = server->getLevel(player->dimension); + + // 4J Stu - Fix for #46423 - TU5: Art: Code: No burning animation visible after entering The Nether while burning + player->clearFire(); // Stop burning if travelling through a portal + + // 4J Stu Added so that we remove entities from the correct level, after the respawn packet we will be in the wrong level + player->flushEntitiesToRemove(); + + player->connection->send(std::make_shared(static_cast(player->dimension), newLevel->getSeed(), newLevel->getMaxBuildHeight(), + player->gameMode->getGameModeForPlayer(), newLevel->difficulty, newLevel->getLevelData()->getGenerator(), + newLevel->useNewSeaLevel(), player->entityId, newLevel->getLevelData()->getXZSize(), newLevel->getLevelData()->getHellScale())); + + oldLevel->removeEntityImmediately(player); + player->removed = false; + + repositionAcrossDimension(player, lastDimension, oldLevel, newLevel); + changeDimension(player, oldLevel); + + player->gameMode->setLevel(newLevel); + + // Resend the teleport if we haven't yet sent the chunk they will land on + if( !g_NetworkManager.SystemFlagGet(player->connection->getNetworkPlayer(),ServerPlayer::getFlagIndexForChunk( ChunkPos(player->xChunk,player->zChunk), player->level->dimension->id ) ) ) + { + player->connection->teleport(player->x, player->y, player->z, player->yRot, player->xRot, false); + // Force sending of the current chunk + player->doTick(true, true, true); + } + + player->connection->teleport(player->x, player->y, player->z, player->yRot, player->xRot); + + // 4J Stu - Fix for #64683 - Customer Encountered: TU7: Content: Gameplay: Potion effects are removed after using the Nether Portal + vector *activeEffects = player->getActiveEffects(); + for(MobEffectInstance *effect : *activeEffects) + { + player->connection->send(std::make_shared( player->entityId, effect ) ); + } + delete activeEffects; + player->getEntityData()->markDirty(Mob::DATA_EFFECT_COLOR_ID); + + sendLevelInfo(player, newLevel); + sendAllPlayerInfo(player); +} + +void PlayerList::repositionAcrossDimension(shared_ptr entity, int lastDimension, ServerLevel *oldLevel, ServerLevel *newLevel) +{ + double xt = entity->x; + double zt = entity->z; + double xOriginal = entity->x; + double yOriginal = entity->y; + double zOriginal = entity->z; + float yRotOriginal = entity->yRot; + double scale = newLevel->getLevelData()->getHellScale(); // 4J Scale was 8 but this is all we can fit in + if (entity->dimension == -1) + { + xt /= scale; + zt /= scale; + entity->moveTo(xt, entity->y, zt, entity->yRot, entity->xRot); + if (entity->isAlive()) + { + oldLevel->tick(entity, false); + } + } + else if (entity->dimension == 0) + { + xt *= scale; + zt *= scale; + entity->moveTo(xt, entity->y, zt, entity->yRot, entity->xRot); + if (entity->isAlive()) + { + oldLevel->tick(entity, false); + } + } + else + { + Pos *p; + + if (lastDimension == 1) + { + // Coming from the end + p = newLevel->getSharedSpawnPos(); + } + else + { + // Going to the end + p = newLevel->getDimensionSpecificSpawn(); + } + + xt = p->x; + entity->y = p->y; + zt = p->z; + delete p; + entity->moveTo(xt, entity->y, zt, 90, 0); + if (entity->isAlive()) + { + oldLevel->tick(entity, false); + } + } + + if(entity->GetType() == eTYPE_SERVERPLAYER) + { + shared_ptr player = dynamic_pointer_cast(entity); + removePlayerFromReceiving(player, false, lastDimension); + addPlayerToReceiving(player); + } + + if (lastDimension != 1) + { + xt = static_cast(Mth::clamp(static_cast(xt), -Level::MAX_LEVEL_SIZE + 128, Level::MAX_LEVEL_SIZE - 128)); + zt = static_cast(Mth::clamp(static_cast(zt), -Level::MAX_LEVEL_SIZE + 128, Level::MAX_LEVEL_SIZE - 128)); + if (entity->isAlive()) + { + newLevel->addEntity(entity); + entity->moveTo(xt, entity->y, zt, entity->yRot, entity->xRot); + newLevel->tick(entity, false); + newLevel->cache->autoCreate = true; + newLevel->getPortalForcer()->force(entity, xOriginal, yOriginal, zOriginal, yRotOriginal); + newLevel->cache->autoCreate = false; + } + } + + entity->setLevel(newLevel); +} + +void PlayerList::tick() +{ + // 4J - brought changes to how often this is sent forward from 1.2.3 + if (++sendAllPlayerInfoIn > SEND_PLAYER_INFO_INTERVAL) + { + sendAllPlayerInfoIn = 0; + } + + if (sendAllPlayerInfoIn < players.size()) + { + shared_ptr op = players[sendAllPlayerInfoIn]; + //broadcastAll(shared_ptr( new PlayerInfoPacket(op->name, true, op->latency) ) ); + if( op->connection->getNetworkPlayer() ) + { + broadcastAll(std::make_shared(op)); + } + } + + EnterCriticalSection(&m_closePlayersCS); + while(!m_smallIdsToClose.empty()) + { + BYTE smallId = m_smallIdsToClose.front(); + m_smallIdsToClose.pop_front(); + + shared_ptr player = nullptr; + + for(unsigned int i = 0; i < players.size(); i++) + { + shared_ptr p = players.at(i); + // 4J Stu - May be being a bit overprotective with all the nullptr checks, but adding late in TU7 so want to be safe + if (p != nullptr && p->connection != nullptr && p->connection->connection != nullptr && p->connection->connection->getSocket() != nullptr && p->connection->connection->getSocket()->getSmallId() == smallId ) + { + player = p; + break; + } + } + + if (player != nullptr) + { + player->connection->disconnect( DisconnectPacket::eDisconnect_Closed ); + } + +#ifdef _WINDOWS64 + // The old Connection's read/write threads are now dead (disconnect waits + // for them). Safe to recycle the smallId — no stale write thread can + // resolve getPlayer() to a new connection that reuses this slot. + WinsockNetLayer::PushFreeSmallId(smallId); + WinsockNetLayer::ClearSocketForSmallId(smallId); +#endif + } + LeaveCriticalSection(&m_closePlayersCS); + + EnterCriticalSection(&m_banPlayersCS); + while (!m_smallIdsToBan.empty()) { + BYTE smallId = m_smallIdsToBan.front(); + m_smallIdsToBan.pop_front(); + INetworkPlayer* selectedPlayer = g_NetworkManager.GetPlayerBySmallId(smallId); + if (selectedPlayer != nullptr) + { + if (selectedPlayer->IsLocal() != TRUE) + { + PlayerUID xuid = selectedPlayer->GetUID(); + shared_ptr player = nullptr; + + for (unsigned int i = 0; i < players.size(); i++) + { + shared_ptr p = players.at(i); + PlayerUID playersXuid = p->getOnlineXuid(); + if (p != nullptr && ProfileManager.AreXUIDSEqual(playersXuid, xuid)) + { + player = p; + break; + } + } + + if (player != nullptr) + { + m_bannedXuids.push_back(player->getOnlineXuid()); + player->enableAllPlayerPrivileges(false); + player->connection->setWasKicked(); + player->connection->send(std::make_shared(DisconnectPacket::eDisconnect_Banned)); + } + } + } + } + LeaveCriticalSection(&m_banPlayersCS); + + + EnterCriticalSection(&m_kickPlayersCS); + while(!m_smallIdsToKick.empty()) + { + BYTE smallId = m_smallIdsToKick.front(); + m_smallIdsToKick.pop_front(); + INetworkPlayer *selectedPlayer = g_NetworkManager.GetPlayerBySmallId(smallId); + if( selectedPlayer != nullptr ) + { + if( selectedPlayer->IsLocal() != TRUE ) + { + PlayerUID xuid = selectedPlayer->GetUID(); + shared_ptr player = nullptr; + + for(unsigned int i = 0; i < players.size(); i++) + { + shared_ptr p = players.at(i); + PlayerUID playersXuid = p->getOnlineXuid(); + if (p != nullptr && ProfileManager.AreXUIDSEqual(playersXuid, xuid ) ) + { + player = p; + break; + } + } + + if (player != nullptr) + { + // 4J Stu - If we have kicked a player, make sure that they have no privileges if they later try to join the world when trust players is off + player->enableAllPlayerPrivileges( false ); + player->connection->setWasKicked(); + player->connection->send(std::make_shared(DisconnectPacket::eDisconnect_Kicked)); + } + } + } + } + LeaveCriticalSection(&m_kickPlayersCS); + + // Check our receiving players, and if they are dead see if we can replace them + for(unsigned int dim = 0; dim < 2; ++dim) + { + for(unsigned int i = 0; i < receiveAllPlayers[dim].size(); ++i) + { + shared_ptr currentPlayer = receiveAllPlayers[dim][i]; + if(currentPlayer->removed) + { + shared_ptr newPlayer = findAlivePlayerOnSystem(currentPlayer); + if(newPlayer != nullptr) + { + receiveAllPlayers[dim][i] = newPlayer; + app.DebugPrintf("Replacing primary player %ls with %ls in dimension %d\n", currentPlayer->name.c_str(), newPlayer->name.c_str(), dim); + } + } + } + } +} + +bool PlayerList::isTrackingTile(int x, int y, int z, int dimension) +{ + return server->getLevel(dimension)->getChunkMap()->isTrackingTile(x, y, z); +} + +// 4J added - make sure that any tile updates for the chunk at this location get prioritised for sending +void PlayerList::prioritiseTileChanges(int x, int y, int z, int dimension) +{ + server->getLevel(dimension)->getChunkMap()->prioritiseTileChanges(x, y, z); +} + +void PlayerList::broadcastAll(shared_ptr packet) +{ + for (unsigned int i = 0; i < players.size(); i++) + { + shared_ptr player = players[i]; + player->connection->send(packet); + } +} + +void PlayerList::broadcastAll(shared_ptr packet, int dimension) +{ + for (unsigned int i = 0; i < players.size(); i++) + { + shared_ptr player = players[i]; + if (player->dimension == dimension) player->connection->send(packet); + } +} + +wstring PlayerList::getPlayerNames() +{ + wstring msg; + for (unsigned int i = 0; i < players.size(); i++) + { + if (i > 0) msg += L", "; + msg += players[i]->name; + } + return msg; +} + +bool PlayerList::isWhiteListed(const wstring& name) +{ + return true; +} + +bool PlayerList::isOp(const wstring& name) +{ + return false; +} + +bool PlayerList::isOp(shared_ptr player) +{ + bool cheatsEnabled = app.GetGameHostOption(eGameHostOption_CheatsEnabled); +#ifdef _DEBUG_MENUS_ENABLED + cheatsEnabled = cheatsEnabled || app.GetUseDPadForDebug(); +#endif + INetworkPlayer *networkPlayer = player->connection->getNetworkPlayer(); + bool isOp = cheatsEnabled && (player->isModerator() || (networkPlayer != nullptr && networkPlayer->IsHost())); + return isOp; +} + +shared_ptr PlayerList::getPlayer(const wstring& name) +{ + for (unsigned int i = 0; i < players.size(); i++) + { + shared_ptr p = players[i]; + if (p->name == name) // 4J - used to be case insensitive (using equalsIgnoreCase) - imagine we'll be shifting to XUIDs anyway + { + return p; + } + } + return nullptr; +} + +// 4J Added +shared_ptr PlayerList::getPlayer(PlayerUID uid) +{ + for (unsigned int i = 0; i < players.size(); i++) + { + shared_ptr p = players[i]; + if (p->getXuid() == uid || p->getOnlineXuid() == uid) // 4J - used to be case insensitive (using equalsIgnoreCase) - imagine we'll be shifting to XUIDs anyway + { + return p; + } + } + return nullptr; +} + +shared_ptr PlayerList::getNearestPlayer(Pos *position, int range) +{ + if (players.empty()) return nullptr; + if (position == nullptr) return players.at(0); + shared_ptr current = nullptr; + double dist = -1; + int rangeSqr = range * range; + + for (size_t i = 0; i < players.size(); i++) + { + shared_ptr next = players.at(i); + double newDist = position->distSqr(next->getCommandSenderWorldPosition()); + + if ((dist == -1 || newDist < dist) && (range <= 0 || newDist <= rangeSqr)) + { + dist = newDist; + current = next; + } + } + + return current; +} + +vector *PlayerList::getPlayers(Pos *position, int rangeMin, int rangeMax, int count, int mode, int levelMin, int levelMax, unordered_map *scoreRequirements, const wstring &playerName, const wstring &teamName, Level *level) +{ + app.DebugPrintf("getPlayers NOT IMPLEMENTED!"); + return nullptr; + + /*if (players.empty()) return nullptr; + vector > result = new vector >(); + bool reverse = count < 0; + bool playerNameNot = !playerName.empty() && playerName.startsWith("!"); + bool teamNameNot = !teamName.empty() && teamName.startsWith("!"); + int rangeMinSqr = rangeMin * rangeMin; + int rangeMaxSqr = rangeMax * rangeMax; + count = Mth.abs(count); + + if (playerNameNot) playerName = playerName.substring(1); + if (teamNameNot) teamName = teamName.substring(1); + + for (size_t i = 0; i < players.size(); i++) { + ServerPlayer player = players.get(i); + + if (level != null && player.level != level) continue; + if (playerName != null) { + if (playerNameNot == playerName.equalsIgnoreCase(player.getAName())) continue; + } + if (teamName != null) { + Team team = player.getTeam(); + String actualName = team == null ? "" : team.getName(); + if (teamNameNot == teamName.equalsIgnoreCase(actualName)) continue; + } + + if (position != null && (rangeMin > 0 || rangeMax > 0)) { + float distance = position.distSqr(player.getCommandSenderWorldPosition()); + if (rangeMin > 0 && distance < rangeMinSqr) continue; + if (rangeMax > 0 && distance > rangeMaxSqr) continue; + } + + if (!meetsScoreRequirements(player, scoreRequirements)) continue; + + if (mode != GameType.NOT_SET.getId() && mode != player.gameMode.getGameModeForPlayer().getId()) continue; + if (levelMin > 0 && player.experienceLevel < levelMin) continue; + if (player.experienceLevel > levelMax) continue; + + result.add(player); + } + + if (position != null) Collections.sort(result, new PlayerDistanceComparator(position)); + if (reverse) Collections.reverse(result); + if (count > 0) result = result.subList(0, Math.min(count, result.size())); + + return result;*/ +} + +bool PlayerList::meetsScoreRequirements(shared_ptr player, unordered_map scoreRequirements) +{ + app.DebugPrintf("meetsScoreRequirements NOT IMPLEMENTED!"); + return false; + + //if (scoreRequirements == null || scoreRequirements.size() == 0) return true; + + //for (Map.Entry requirement : scoreRequirements.entrySet()) { + // String name = requirement.getKey(); + // boolean min = false; + + // if (name.endsWith("_min") && name.length() > 4) { + // min = true; + // name = name.substring(0, name.length() - 4); + // } + + // Scoreboard scoreboard = player.getScoreboard(); + // Objective objective = scoreboard.getObjective(name); + // if (objective == null) return false; + // Score score = player.getScoreboard().getPlayerScore(player.getAName(), objective); + // int value = score.getScore(); + + // if (value < requirement.getValue() && min) { + // return false; + // } else if (value > requirement.getValue() && !min) { + // return false; + // } + //} + + //return true; +} + +void PlayerList::sendMessage(const wstring& name, const wstring& message) +{ + shared_ptr player = getPlayer(name); + if (player != nullptr) + { + player->connection->send(std::make_shared(message)); + } +} + +void PlayerList::broadcast(double x, double y, double z, double range, int dimension, shared_ptr packet) +{ + broadcast(nullptr, x, y, z, range, dimension, packet); +} + +void PlayerList::broadcast(shared_ptr except, double x, double y, double z, double range, int dimension, shared_ptr packet) +{ + // 4J - altered so that we don't send to the same machine more than once. Add the source player to the machines we have "sent" to as it doesn't need to go to that + // machine either + vector< shared_ptr > sentTo; + if( except != nullptr ) + { + sentTo.push_back(dynamic_pointer_cast(except)); + } + + for (unsigned int i = 0; i < players.size(); i++) + { + shared_ptr p = players[i]; + if (p == except) continue; + if (p->dimension != dimension) continue; + + // 4J - don't send to the same machine more than once + bool dontSend = false; + if( sentTo.size() ) + { + INetworkPlayer *thisPlayer = p->connection->getNetworkPlayer(); + if( thisPlayer == nullptr ) + { + dontSend = true; + } + else + { + for(unsigned int j = 0; j < sentTo.size(); j++ ) + { + shared_ptr player2 = sentTo[j]; + INetworkPlayer *otherPlayer = player2->connection->getNetworkPlayer(); + if( otherPlayer != nullptr && thisPlayer->IsSameSystem(otherPlayer) ) + { + dontSend = true; + } + } + } + } + if( dontSend ) + { + continue; + } + + + double xd = x - p->x; + double yd = y - p->y; + double zd = z - p->z; + if (xd * xd + yd * yd + zd * zd < range * range) + { +#if 0 // _DEBUG + shared_ptr SoundPacket= dynamic_pointer_cast(packet); + + if(SoundPacket) + { + + app.DebugPrintf("---broadcast - eSoundType_[%d] ",SoundPacket->getSound()); + OutputDebugStringW(ConsoleSoundEngine::wchSoundNames[SoundPacket->getSound()]); + app.DebugPrintf("\n"); + } +#endif + p->connection->send(packet); + sentTo.push_back( p ); + } + } + +} + +void PlayerList::saveAll(ProgressListener *progressListener, bool bDeleteGuestMaps /*= false*/) +{ + if(progressListener != nullptr) progressListener->progressStart(IDS_PROGRESS_SAVING_PLAYERS); + // 4J - playerIo can be nullptr if we have have to exit a game really early on due to network failure + if(playerIo) + { + playerIo->saveAllCachedData(); + for (unsigned int i = 0; i < players.size(); i++) + { + playerIo->save(players[i]); + + //4J Stu - We don't want to save the map data for guests, so when we are sure that the player is gone delete the map + if(bDeleteGuestMaps && players[i]->isGuest()) playerIo->deleteMapFilesForPlayer(players[i]); + + if(progressListener != nullptr) progressListener->progressStagePercentage((i * 100)/ static_cast(players.size())); + } + playerIo->clearOldPlayerFiles(); + playerIo->saveMapIdLookup(); + } +} + +void PlayerList::whiteList(const wstring& playerName) +{ +} + +void PlayerList::blackList(const wstring& playerName) +{ +} + +void PlayerList::reloadWhitelist() +{ +} + +void PlayerList::sendLevelInfo(shared_ptr player, ServerLevel *level) +{ + player->connection->send(std::make_shared(level->getGameTime(), level->getDayTime(), level->getGameRules()->getBoolean(GameRules::RULE_DAYLIGHT))); + if (level->isRaining()) + { + player->connection->send(std::make_shared(GameEventPacket::START_RAINING, 0)); + } + else + { + // 4J Stu - Fix for #44836 - Customer Encountered: Out of Sync Weather [A-10] + // If it was raining when the player left the level, and is now not raining we need to make sure that state is updated + player->connection->send(std::make_shared(GameEventPacket::STOP_RAINING, 0)); + } + + // send the stronghold position if there is one + if((level->dimension->id==0) && level->getLevelData()->getHasStronghold()) + { + player->connection->send(std::make_shared(XZPacket::STRONGHOLD, level->getLevelData()->getXStronghold(), level->getLevelData()->getZStronghold())); + } +} + +void PlayerList::sendAllPlayerInfo(shared_ptr player) +{ + player->refreshContainer(player->inventoryMenu); + player->resetSentInfo(); + player->connection->send(std::make_shared(player->inventory->selected)); +} + +int PlayerList::getPlayerCount() +{ + return static_cast(players.size()); +} + +int PlayerList::getPlayerCount(ServerLevel *level) +{ + int count = 0; + + for(auto& player : players) + { + if( player->level == level ) ++count; + } + + return count; +} + +int PlayerList::getMaxPlayers() +{ + return maxPlayers; +} + +MinecraftServer *PlayerList::getServer() +{ + return server; +} + +int PlayerList::getViewDistance() +{ + return viewDistance; +} + +void PlayerList::setOverrideGameMode(GameType *gameMode) +{ + overrideGameMode = gameMode; +} + +void PlayerList::updatePlayerGameMode(shared_ptr newPlayer, shared_ptr oldPlayer, Level *level) +{ + + // reset the player's game mode (first pick from old, then copy level if + // necessary) + if (oldPlayer != nullptr) + { + newPlayer->gameMode->setGameModeForPlayer(oldPlayer->gameMode->getGameModeForPlayer()); + } + else if (overrideGameMode != nullptr) + { + newPlayer->gameMode->setGameModeForPlayer(overrideGameMode); + } + newPlayer->gameMode->updateGameMode(level->getLevelData()->getGameType()); +} + +void PlayerList::setAllowCheatsForAllPlayers(bool allowCommands) +{ + this->allowCheatsForAllPlayers = allowCommands; +} + +shared_ptr PlayerList::findAlivePlayerOnSystem(shared_ptr player) +{ + int dimIndex, playerDim; + dimIndex = playerDim = player->dimension; + if( dimIndex == -1 ) dimIndex = 1; + else if( dimIndex == 1) dimIndex = 2; + + INetworkPlayer *thisPlayer = player->connection->getNetworkPlayer(); + if( thisPlayer ) + { + for(auto& newPlayer : players) + { + INetworkPlayer *otherPlayer = newPlayer->connection->getNetworkPlayer(); + + if( !newPlayer->removed && + newPlayer != player && + newPlayer->dimension == playerDim && + otherPlayer && + otherPlayer->IsSameSystem( thisPlayer ) + ) + { + return newPlayer; + } + } + } + + return nullptr; +} + +void PlayerList::removePlayerFromReceiving(shared_ptr player, bool usePlayerDimension /*= true*/, int dimension /*= 0*/) +{ + int dimIndex, playerDim; + dimIndex = playerDim = usePlayerDimension ? player->dimension : dimension; + if( dimIndex == -1 ) dimIndex = 1; + else if( dimIndex == 1) dimIndex = 2; + +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("Requesting remove player %ls as primary in dimension %d\n", player->name.c_str(), dimIndex); +#endif + bool playerRemoved = false; + + auto it = find(receiveAllPlayers[dimIndex].begin(), receiveAllPlayers[dimIndex].end(), player); + if( it != receiveAllPlayers[dimIndex].end() ) + { +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("Remove: Removing player %ls as primary in dimension %d\n", player->name.c_str(), dimIndex); +#endif + receiveAllPlayers[dimIndex].erase(it); + playerRemoved = true; + } + + INetworkPlayer *thisPlayer = player->connection->getNetworkPlayer(); + if( thisPlayer && playerRemoved ) + { + for(auto& newPlayer : players) + { + INetworkPlayer *otherPlayer = newPlayer->connection->getNetworkPlayer(); + + if( newPlayer != player && + newPlayer->dimension == playerDim && + otherPlayer && + otherPlayer->IsSameSystem( thisPlayer ) + ) + { +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("Remove: Adding player %ls as primary in dimension %d\n", newPlayer->name.c_str(), dimIndex); +#endif + receiveAllPlayers[dimIndex].push_back( newPlayer ); + break; + } + } + } + else if( thisPlayer == nullptr ) + { +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("Remove: Qnet player for %ls was nullptr so re-checking all players\n", player->name.c_str() ); +#endif + // 4J Stu - Something went wrong, or possibly the QNet player left before we got here. + // Re-check all active players and make sure they have someone on their system to receive all packets + for(auto& newPlayer : players) + { + INetworkPlayer *checkingPlayer = newPlayer->connection->getNetworkPlayer(); + + if( checkingPlayer ) + { + int newPlayerDim = 0; + if( newPlayer->dimension == -1 ) newPlayerDim = 1; + else if( newPlayer->dimension == 1) newPlayerDim = 2; + bool foundPrimary = false; + for(auto& primaryPlayer : receiveAllPlayers[newPlayerDim]) + { + INetworkPlayer *primPlayer = primaryPlayer->connection->getNetworkPlayer(); + if(primPlayer != nullptr && checkingPlayer->IsSameSystem( primPlayer ) ) + { + foundPrimary = true; + break; + } + } + if(!foundPrimary) + { +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("Remove: Adding player %ls as primary in dimension %d\n", newPlayer->name.c_str(), newPlayerDim); +#endif + receiveAllPlayers[newPlayerDim].push_back( newPlayer ); + } + } + } + } +} + +void PlayerList::addPlayerToReceiving(shared_ptr player) +{ + int playerDim = 0; + if( player->dimension == -1 ) playerDim = 1; + else if( player->dimension == 1) playerDim = 2; + +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("Requesting add player %ls as primary in dimension %d\n", player->name.c_str(), playerDim); +#endif + + bool shouldAddPlayer = true; + + INetworkPlayer *thisPlayer = player->connection->getNetworkPlayer(); + + if( thisPlayer == nullptr ) + { +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("Add: Qnet player for player %ls is nullptr so not adding them\n", player->name.c_str() ); +#endif + shouldAddPlayer = false; + } + else + { + for(auto& oldPlayer : receiveAllPlayers[playerDim]) + { + INetworkPlayer *checkingPlayer = oldPlayer->connection->getNetworkPlayer(); + if(checkingPlayer != nullptr && checkingPlayer->IsSameSystem( thisPlayer ) ) + { + shouldAddPlayer = false; + break; + } + } + } + + if( shouldAddPlayer ) + { +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("Add: Adding player %ls as primary in dimension %d\n", player->name.c_str(), playerDim); +#endif + receiveAllPlayers[playerDim].push_back( player ); + } +} + +bool PlayerList::canReceiveAllPackets(shared_ptr player) +{ + int playerDim = 0; + if( player->dimension == -1 ) playerDim = 1; + else if( player->dimension == 1) playerDim = 2; + for(const auto& newPlayer : receiveAllPlayers[playerDim]) + { + if(newPlayer == player) + { + return true; + } + } + return false; +} + +void PlayerList::kickPlayerByShortId(BYTE networkSmallId) +{ + EnterCriticalSection(&m_kickPlayersCS); + m_smallIdsToKick.push_back(networkSmallId); + LeaveCriticalSection(&m_kickPlayersCS); +} + +void PlayerList::banPlayerByShortId(BYTE networkSmallId) +{ + EnterCriticalSection(&m_banPlayersCS); + m_smallIdsToBan.push_back(networkSmallId); + LeaveCriticalSection(&m_banPlayersCS); +} + +void PlayerList::closePlayerConnectionBySmallId(BYTE networkSmallId) +{ + EnterCriticalSection(&m_closePlayersCS); + m_smallIdsToClose.push_back(networkSmallId); + LeaveCriticalSection(&m_closePlayersCS); +} + +void PlayerList::queueSmallIdForRecycle(BYTE smallId) +{ + EnterCriticalSection(&m_closePlayersCS); + m_smallIdsToClose.push_back(smallId); + LeaveCriticalSection(&m_closePlayersCS); +} + +void PlayerList::setBannedXUIDList(std::vector& newList) { + m_bannedXuids = std::move(newList); +} + +std::vector PlayerList::getBannedXUIDList() { + return m_bannedXuids; +} + +bool PlayerList::isXuidBanned(PlayerUID xuid) +{ + if( xuid == INVALID_XUID ) return false; + + bool banned = false; + + for(PlayerUID it : m_bannedXuids) + { + if( ProfileManager.AreXUIDSEqual( xuid, it ) ) + { + banned = true; + break; + } + } + + return banned; +} + +// AP added for Vita so the range can be increased once the level starts +void PlayerList::setViewDistance(int newViewDistance) +{ + viewDistance = newViewDistance; +} diff --git a/Minecraft.Client/PlayerList.h b/Minecraft.Client/PlayerList.h new file mode 100644 index 0000000..d725011 --- /dev/null +++ b/Minecraft.Client/PlayerList.h @@ -0,0 +1,147 @@ +#pragma once +#include +#include "..\Minecraft.World\ArrayWithLength.h" + +class ServerPlayer; +class PlayerChunkMap; +class MinecraftServer; +class PlayerIO; +class PendingConnection; +class Packet; +class ServerLevel; +class TileEntity; +class ProgressListener; +class GameType; +class LoginPacket; +class ServerScoreboard; + +using namespace std; + +class PlayerList +{ +private: + static const int SEND_PLAYER_INFO_INTERVAL = 20 * 10; // 4J - brought forward from 1.2.3 +// public static Logger logger = Logger.getLogger("Minecraft"); +public: + vector > players; + +private: + MinecraftServer *server; + unsigned int maxPlayers; + + // 4J Added + vector m_bannedXuids; + + deque m_smallIdsToBan; + CRITICAL_SECTION m_banPlayersCS; + + deque m_smallIdsToKick; + CRITICAL_SECTION m_kickPlayersCS; + deque m_smallIdsToClose; + CRITICAL_SECTION m_closePlayersCS; +/* 4J - removed + Set bans = new HashSet(); + Set ipBans = new HashSet(); + Set ops = new HashSet(); + Set whitelist = new HashSet(); + File banFile, ipBanFile, opFile, whiteListFile; + */ + PlayerIO *playerIo; + bool doWhiteList; + + GameType *overrideGameMode; + bool allowCheatsForAllPlayers; + int viewDistance; + + int sendAllPlayerInfoIn; + + // 4J Added to maintain which players in which dimensions can receive all packet types + vector > receiveAllPlayers[3]; +private: + shared_ptr findAlivePlayerOnSystem(shared_ptr currentPlayer); + +public: + void removePlayerFromReceiving(shared_ptr player, bool usePlayerDimension = true, int dimension = 0); + void addPlayerToReceiving(shared_ptr player); + bool canReceiveAllPackets(shared_ptr player); + +public: + PlayerList(MinecraftServer *server); + ~PlayerList(); + bool placeNewPlayer(Connection *connection, shared_ptr player, shared_ptr packet); + +protected: + void updateEntireScoreboard(ServerScoreboard *scoreboard, shared_ptr player); + +public: + void setLevel(ServerLevelArray levels); + void changeDimension(shared_ptr player, ServerLevel *from); + int getMaxRange(); + CompoundTag *load(shared_ptr player); +protected: + void save(shared_ptr player); +public: + void validatePlayerSpawnPosition(shared_ptr player); // 4J Added + void add(shared_ptr player); + void move(shared_ptr player); + void remove(shared_ptr player); + shared_ptr getPlayerForLogin(PendingConnection *pendingConnection, const wstring& userName, PlayerUID xuid, PlayerUID OnlineXuid); + shared_ptr respawn(shared_ptr serverPlayer, int targetDimension, bool keepAllPlayerData); + void toggleDimension(shared_ptr player, int targetDimension); + void repositionAcrossDimension(shared_ptr entity, int lastDimension, ServerLevel *oldLevel, ServerLevel *newLevel); + void tick(); + bool isTrackingTile(int x, int y, int z, int dimension); // 4J added + void prioritiseTileChanges(int x, int y, int z, int dimension); // 4J added + void broadcastAll(shared_ptr packet); + void broadcastAll(shared_ptr packet, int dimension); + + wstring getPlayerNames(); + +public: + bool isWhiteListed(const wstring& name); + bool isOp(const wstring& name); + bool isOp(shared_ptr player); // 4J Added + shared_ptr getPlayer(const wstring& name); + shared_ptr getPlayer(PlayerUID uid); + shared_ptr getNearestPlayer(Pos *position, int range); + vector *getPlayers(Pos *position, int rangeMin, int rangeMax, int count, int mode, int levelMin, int levelMax, unordered_map *scoreRequirements, const wstring &playerName, const wstring &teamName, Level *level); + +private: + bool meetsScoreRequirements(shared_ptr player, unordered_map scoreRequirements); + +public: + void sendMessage(const wstring& name, const wstring& message); + void broadcast(double x, double y, double z, double range, int dimension, shared_ptr packet); + void broadcast(shared_ptr except, double x, double y, double z, double range, int dimension, shared_ptr packet); + // 4J Added ProgressListener *progressListener param and bDeleteGuestMaps param + void saveAll(ProgressListener *progressListener, bool bDeleteGuestMaps = false); + void whiteList(const wstring& playerName); + void blackList(const wstring& playerName); +// Set getWhiteList(); / 4J removed + void reloadWhitelist(); + void sendLevelInfo(shared_ptr player, ServerLevel *level); + void sendAllPlayerInfo(shared_ptr player); + int getPlayerCount(); + int getPlayerCount(ServerLevel *level); // 4J Added + int getMaxPlayers(); + MinecraftServer *getServer(); + int getViewDistance(); + void setOverrideGameMode(GameType *gameMode); + +private: + void updatePlayerGameMode(shared_ptr newPlayer, shared_ptr oldPlayer, Level *level); + +public: + void setAllowCheatsForAllPlayers(bool allowCommands); + + // 4J Added + void kickPlayerByShortId(BYTE networkSmallId); + void banPlayerByShortId(BYTE networkSmallId); + void closePlayerConnectionBySmallId(BYTE networkSmallId); + void queueSmallIdForRecycle(BYTE smallId); + void setBannedXUIDList(std::vector& newList); + std::vector getBannedXUIDList(); + bool isXuidBanned(PlayerUID xuid); + // AP added for Vita so the range can be increased once the level starts + void setViewDistance(int newViewDistance); +}; diff --git a/Minecraft.Client/Polygon.cpp b/Minecraft.Client/Polygon.cpp new file mode 100644 index 0000000..05cf9b0 --- /dev/null +++ b/Minecraft.Client/Polygon.cpp @@ -0,0 +1,80 @@ +#include "stdafx.h" +#include "Polygon.h" + +// 4J added for common init code +void _Polygon::_init(VertexArray vertices) +{ + vertexCount = 0; + _flipNormal = false; + + this->vertices = vertices; + vertexCount = vertices.length; +} + +_Polygon::_Polygon(VertexArray vertices) +{ + _init(vertices); +} + +_Polygon::_Polygon(VertexArray vertices, int u0, int v0, int u1, int v1, float xTexSize, float yTexSize) +{ + _init(vertices); + + // 4J - added - don't assume that u1 > u0, v1 > v0 + float us = ( u1 > u0 ) ? ( 0.1f / xTexSize ) : ( -0.1f / xTexSize ); + float vs = ( v1 > v0 ) ? ( 0.1f / yTexSize ) : ( -0.1f / yTexSize ); + + vertices[0] = vertices[0]->remap(u1 / xTexSize - us, v0 / yTexSize + vs); + vertices[1] = vertices[1]->remap(u0 / xTexSize + us, v0 / yTexSize + vs); + vertices[2] = vertices[2]->remap(u0 / xTexSize + us, v1 / yTexSize - vs); + vertices[3] = vertices[3]->remap(u1 / xTexSize - us, v1 / yTexSize - vs); +} + +_Polygon::_Polygon(VertexArray vertices, float u0, float v0, float u1, float v1) +{ + _init(vertices); + + vertices[0] = vertices[0]->remap(u1, v0); + vertices[1] = vertices[1]->remap(u0, v0); + vertices[2] = vertices[2]->remap(u0, v1); + vertices[3] = vertices[3]->remap(u1, v1); +} + +void _Polygon::mirror() +{ + VertexArray newVertices = VertexArray(vertices.length); + for (unsigned int i = 0; i < vertices.length; i++) + newVertices[i] = vertices[vertices.length - i - 1]; + delete [] vertices.data; + vertices = newVertices; +} + +void _Polygon::render(Tesselator *t, float scale) +{ + Vec3 *v0 = vertices[1]->pos->vectorTo(vertices[0]->pos); + Vec3 *v1 = vertices[1]->pos->vectorTo(vertices[2]->pos); + Vec3 *n = v1->cross(v0)->normalize(); + + t->begin(); + if (_flipNormal) + { + t->normal(-static_cast(n->x), -static_cast(n->y), -static_cast(n->z)); + } + else + { + t->normal(static_cast(n->x), static_cast(n->y), static_cast(n->z)); + } + + for (int i = 0; i < 4; i++) + { + Vertex *v = vertices[i]; + t->vertexUV(static_cast(v->pos->x * scale), static_cast(v->pos->y * scale), static_cast(v->pos->z * scale), (float)( v->u), (float)( v->v)); + } + t->end(); +} + +_Polygon *_Polygon::flipNormal() +{ + _flipNormal = true; + return this; +} \ No newline at end of file diff --git a/Minecraft.Client/Polygon.h b/Minecraft.Client/Polygon.h new file mode 100644 index 0000000..24cb221 --- /dev/null +++ b/Minecraft.Client/Polygon.h @@ -0,0 +1,22 @@ +#pragma once +#include "Vertex.h" +#include "Tesselator.h" +#include "..\Minecraft.World\ArrayWithLength.h" + +class _Polygon +{ +public: + VertexArray vertices; + int vertexCount; +private: + bool _flipNormal; + +public: + void _init(VertexArray vertices); // 4J added for common init code + _Polygon(VertexArray vertices); + _Polygon(VertexArray vertices, int u0, int v0, int u1, int v1, float xTexSize, float yTexSize); + _Polygon(VertexArray vertices, float u0, float v0, float u1, float v1); + void mirror(); + void render(Tesselator *t, float scale); + _Polygon *flipNormal(); +}; diff --git a/Minecraft.Client/PreStitchedTextureMap.cpp b/Minecraft.Client/PreStitchedTextureMap.cpp new file mode 100644 index 0000000..1ebc035 --- /dev/null +++ b/Minecraft.Client/PreStitchedTextureMap.cpp @@ -0,0 +1,988 @@ +#include "stdafx.h" +#include "..\Minecraft.World\net.minecraft.world.h" +#include "..\Minecraft.World\net.minecraft.world.level.tile.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\ByteBuffer.h" +#include "Minecraft.h" +#include "LevelRenderer.h" +#include "Stitcher.h" +#include "StitchSlot.h" +#include "StitchedTexture.h" +#include "Texture.h" +#include "TextureHolder.h" +#include "TextureManager.h" +#include "TexturePack.h" +#include "TexturePackRepository.h" +#include "PreStitchedTextureMap.h" +#include "SimpleIcon.h" +#include "CompassTexture.h" +#include "ClockTexture.h" + +const wstring PreStitchedTextureMap::NAME_MISSING_TEXTURE = L"missingno"; + +PreStitchedTextureMap::PreStitchedTextureMap(int type, const wstring &name, const wstring &path, BufferedImage *missingTexture, bool mipmap) : iconType(type), name(name), path(path), extension(L".png") +{ + this->missingTexture = missingTexture; + + // 4J Initialisers + missingPosition = nullptr; + stitchResult = nullptr; + + m_mipMap = mipmap; + missingPosition = static_cast(new SimpleIcon(NAME_MISSING_TEXTURE, NAME_MISSING_TEXTURE, 0, 0, 1, 1)); +} + +void PreStitchedTextureMap::stitch() +{ + // Animated StitchedTextures store a vector of textures for each frame of the animation. Free any pre-existing ones here. + for(StitchedTexture *animatedStitchedTexture : animatedTextures) + { + animatedStitchedTexture->freeFrameTextures(); + } + + loadUVs(); + + if (iconType == Icon::TYPE_TERRAIN) + { + //for (Tile tile : Tile.tiles) + for(unsigned int i = 0; i < Tile::TILE_NUM_COUNT; ++i) + { + if (Tile::tiles[i] != nullptr) + { + Tile::tiles[i]->registerIcons(this); + } + } + + Minecraft::GetInstance()->levelRenderer->registerTextures(this); + } + + //for (Item item : Item.items) + for(unsigned int i = 0; i < Item::ITEM_NUM_COUNT; ++i) + { + Item *item = Item::items[i]; + if (item != nullptr && item->getIconType() == iconType) + { + item->registerIcons(this); + } + } + + // Collection bucket for multiple frames per texture + unordered_map * > textures; // = new HashMap>(); + + Stitcher *stitcher = TextureManager::getInstance()->createStitcher(name); + + animatedTextures.clear(); + + // Create the final image + wstring filename = name + extension; + + TexturePack *texturePack = Minecraft::GetInstance()->skins->getSelected(); + //try { + int mode = Texture::TM_DYNAMIC; + int clamp = Texture::WM_WRAP; // 4J Stu - Don't clamp as it causes issues with how we signal non-mipmmapped textures to the pixel shader //Texture::WM_CLAMP; + int minFilter = Texture::TFLT_NEAREST; + int magFilter = Texture::TFLT_NEAREST; + + MemSect(32); + wstring drive = L""; + + // 4J-PB - need to check for BD patched files +#ifdef __PS3__ + const char *pchName=wstringtofilename(filename); + if(app.GetBootedFromDiscPatch() && app.IsFileInPatchList(pchName)) + { + if(texturePack->hasFile(L"res/" + filename,false)) + { + drive = texturePack->getPath(true,pchName); + } + else + { + drive = Minecraft::GetInstance()->skins->getDefault()->getPath(true,pchName); + texturePack = Minecraft::GetInstance()->skins->getDefault(); + } + } + else +#endif + if(texturePack->hasFile(L"res/" + filename,false)) + { + drive = texturePack->getPath(true); + } + else + { + drive = Minecraft::GetInstance()->skins->getDefault()->getPath(true); + texturePack = Minecraft::GetInstance()->skins->getDefault(); + } + + //BufferedImage *image = new BufferedImage(texturePack->getResource(L"/" + filename),false,true,drive); //ImageIO::read(texturePack->getResource(L"/" + filename)); + BufferedImage *image = texturePack->getImageResource(filename, false, true, drive); + MemSect(0); + int height = image->getHeight(); + int width = image->getWidth(); + + if(stitchResult != nullptr) + { + TextureManager::getInstance()->unregisterTexture(name, stitchResult); + delete stitchResult; + } + stitchResult = TextureManager::getInstance()->createTexture(name, Texture::TM_DYNAMIC, width, height, Texture::TFMT_RGBA, m_mipMap); + stitchResult->transferFromImage(image); + delete image; + TextureManager::getInstance()->registerName(name, stitchResult); + //stitchResult = stitcher->constructTexture(m_mipMap); + + for(auto & it : texturesByName) + { + auto *preStitched = static_cast(it.second); + + int x = preStitched->getU0() * stitchResult->getWidth(); + int y = preStitched->getV0() * stitchResult->getHeight(); + int width = (preStitched->getU1() * stitchResult->getWidth()) - x; + int height = (preStitched->getV1() * stitchResult->getHeight()) - y; + + preStitched->init(stitchResult, nullptr, x, y, width, height, false); + } + + MemSect(52); + for(auto& it : texturesByName) + { + auto *preStitched = static_cast(it.second); + + makeTextureAnimated(texturePack, preStitched); + } + MemSect(0); + //missingPosition = (StitchedTexture *)texturesByName.find(NAME_MISSING_TEXTURE)->second; + + stitchResult->writeAsPNG(L"debug.stitched_" + name + L".png"); + stitchResult->updateOnGPU(); + + +#ifdef __PSVITA__ + // AP - alpha cut out is expensive on vita so we mark which icons actually require it + DWORD *data = (DWORD*) this->getStitchedTexture()->getData()->getBuffer(); + int Width = this->getStitchedTexture()->getWidth(); + int Height = this->getStitchedTexture()->getHeight(); + for( auto it = texturesByName.begin(); it != texturesByName.end(); ++it) + { + StitchedTexture *preStitched = (StitchedTexture *)it->second; + + bool Found = false; + int u0 = preStitched->getU0() * Width; + int u1 = preStitched->getU1() * Width; + int v0 = preStitched->getV0() * Height; + int v1 = preStitched->getV1() * Height; + + // check all the texels for this icon. If ANY are transparent we mark it as 'cut out' + for( int v = v0;v < v1; v+= 1 ) + { + for( int u = u0;u < u1; u+= 1 ) + { + // is this texel alpha value < 0.1 + if( (data[v * Width + u] & 0xff000000) < 0x20000000 ) + { + // this texel is transparent. Mark the icon as such and bail + preStitched->setFlags(Icon::IS_ALPHA_CUT_OUT); + Found = true; + break; + } + } + + if( Found ) + { + // move onto the next icon + break; + } + } + } +#endif +} + +void PreStitchedTextureMap::makeTextureAnimated(TexturePack *texturePack, StitchedTexture *tex) +{ + if(!tex->hasOwnData()) + { + animatedTextures.push_back(tex); + return; + } + + wstring textureFileName = tex->m_fileName; + + wstring animString = texturePack->getAnimationString(textureFileName, path, true); + + if(!animString.empty()) + { + wstring filename = path + textureFileName + extension; + + // TODO: [EB] Put the frames into a proper object, not this inside out hack + vector *frames = TextureManager::getInstance()->createTextures(filename, m_mipMap); + if (frames == nullptr || frames->empty()) + { + return; // Couldn't load a texture, skip it + } + + Texture *first = frames->at(0); + +#ifndef _CONTENT_PACKAGE + if(first->getWidth() != tex->getWidth() || first->getHeight() != tex->getHeight()) + { + app.DebugPrintf("%ls - first w - %d, h - %d, tex w - %d, h - %d\n",textureFileName.c_str(),first->getWidth(),tex->getWidth(),first->getHeight(),tex->getHeight()); + //__debugbreak(); + } +#endif + + tex->init(stitchResult, frames, tex->getX(), tex->getY(), first->getWidth(), first->getHeight(), false); + + if (frames->size() > 1) + { + animatedTextures.push_back(tex); + + tex->loadAnimationFrames(animString); + } + } +} + +StitchedTexture *PreStitchedTextureMap::getTexture(const wstring &name) +{ +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("Not implemented!\n"); + __debugbreak(); +#endif + return nullptr; +#if 0 + StitchedTexture *result = texturesByName.find(name)->second; + if (result == nullptr) result = missingPosition; + return result; +#endif +} + +void PreStitchedTextureMap::cycleAnimationFrames() +{ + for(StitchedTexture* texture : animatedTextures) + { + texture->cycleFrames(); + } +} + +Texture *PreStitchedTextureMap::getStitchedTexture() +{ + return stitchResult; +} + +// 4J Stu - register is a reserved keyword in C++ +Icon *PreStitchedTextureMap::registerIcon(const wstring &name) +{ + Icon *result = nullptr; + if (name.empty()) + { + app.DebugPrintf("Don't register nullptr\n"); +#ifndef _CONTENT_PACKAGE + __debugbreak(); +#endif + result = missingPosition; + //new RuntimeException("Don't register null!").printStackTrace(); + } + + auto it = texturesByName.find(name); + if(it != texturesByName.end()) result = it->second; + + if (result == nullptr) + { +#ifndef _CONTENT_PACKAGE + app.DebugPrintf("Could not find uv data for icon %ls\n", name.c_str() ); + __debugbreak(); +#endif + result = missingPosition; + } + + return result; +} + +int PreStitchedTextureMap::getIconType() +{ + return iconType; +} + +Icon *PreStitchedTextureMap::getMissingIcon() +{ + return missingPosition; +} + +#define ADD_ICON(row, column, name) (texturesByName[name] = new SimpleIcon(name,name,horizRatio*column,vertRatio*row,horizRatio*(column+1),vertRatio*(row+1))); +#define ADD_ICON_WITH_NAME(row, column, name, filename) (texturesByName[name] = new SimpleIcon(name,filename,horizRatio*column,vertRatio*row,horizRatio*(column+1),vertRatio*(row+1))); +#define ADD_ICON_SIZE(row, column, name, height, width) (texturesByName[name] = new SimpleIcon(name,name,horizRatio*column,vertRatio*row,horizRatio*(column+width),vertRatio*(row+height))); + +void PreStitchedTextureMap::loadUVs() +{ + if(!texturesByName.empty()) + { + // 4J Stu - We only need to populate this once at the moment as we have hardcoded positions for each texture + // If we ever load that dynamically, be aware that the Icon objects could currently be being used by the + // GameRenderer::runUpdate thread + return; + } + + for(auto& it : texturesByName) + { + delete it.second; + } + texturesByName.clear(); + + if(iconType != Icon::TYPE_TERRAIN) + { + float horizRatio = 1.0f/16.0f; + float vertRatio = 1.0f/16.0f; + + ADD_ICON(0, 0, L"helmetCloth") + ADD_ICON(0, 1, L"helmetChain") + ADD_ICON(0, 2, L"helmetIron") + ADD_ICON(0, 3, L"helmetDiamond") + ADD_ICON(0, 4, L"helmetGold") + ADD_ICON(0, 5, L"flintAndSteel") + ADD_ICON(0, 6, L"flint") + ADD_ICON(0, 7, L"coal") + ADD_ICON(0, 8, L"string") + ADD_ICON(0, 9, L"seeds") + ADD_ICON(0, 10, L"apple") + ADD_ICON(0, 11, L"appleGold") + ADD_ICON(0, 12, L"egg") + ADD_ICON(0, 13, L"sugar") + ADD_ICON(0, 14, L"snowball") + ADD_ICON(0, 15, L"slot_empty_helmet") + + ADD_ICON(1, 0, L"chestplateCloth") + ADD_ICON(1, 1, L"chestplateChain") + ADD_ICON(1, 2, L"chestplateIron") + ADD_ICON(1, 3, L"chestplateDiamond") + ADD_ICON(1, 4, L"chestplateGold") + ADD_ICON(1, 5, L"bow") + ADD_ICON(1, 6, L"brick") + ADD_ICON(1, 7, L"ingotIron") + ADD_ICON(1, 8, L"feather") + ADD_ICON(1, 9, L"wheat") + ADD_ICON(1, 10, L"painting") + ADD_ICON(1, 11, L"reeds") + ADD_ICON(1, 12, L"bone") + ADD_ICON(1, 13, L"cake") + ADD_ICON(1, 14, L"slimeball") + ADD_ICON(1, 15, L"slot_empty_chestplate") + + ADD_ICON(2, 0, L"leggingsCloth") + ADD_ICON(2, 1, L"leggingsChain") + ADD_ICON(2, 2, L"leggingsIron") + ADD_ICON(2, 3, L"leggingsDiamond") + ADD_ICON(2, 4, L"leggingsGold") + ADD_ICON(2, 5, L"arrow") + ADD_ICON(2, 6, L"quiver") + ADD_ICON(2, 7, L"ingotGold") + ADD_ICON(2, 8, L"sulphur") + ADD_ICON(2, 9, L"bread") + ADD_ICON(2, 10, L"sign") + ADD_ICON(2, 11, L"doorWood") + ADD_ICON(2, 12, L"doorIron") + ADD_ICON(2, 13, L"bed") + ADD_ICON(2, 14, L"fireball") + ADD_ICON(2, 15, L"slot_empty_leggings") + + ADD_ICON(3, 0, L"bootsCloth") + ADD_ICON(3, 1, L"bootsChain") + ADD_ICON(3, 2, L"bootsIron") + ADD_ICON(3, 3, L"bootsDiamond") + ADD_ICON(3, 4, L"bootsGold") + ADD_ICON(3, 5, L"stick") + ADD_ICON(3, 6, L"compass") + ADD_ICON(3, 7, L"diamond") + ADD_ICON(3, 8, L"redstone") + ADD_ICON(3, 9, L"clay") + ADD_ICON(3, 10, L"paper") + ADD_ICON(3, 11, L"book") + ADD_ICON(3, 12, L"map") + ADD_ICON(3, 13, L"seeds_pumpkin") + ADD_ICON(3, 14, L"seeds_melon") + ADD_ICON(3, 15, L"slot_empty_boots") + + ADD_ICON(4, 0, L"swordWood") + ADD_ICON(4, 1, L"swordStone") + ADD_ICON(4, 2, L"swordIron") + ADD_ICON(4, 3, L"swordDiamond") + ADD_ICON(4, 4, L"swordGold") + ADD_ICON(4, 5, L"fishingRod_uncast") + ADD_ICON(4, 6, L"clock") + ADD_ICON(4, 7, L"bowl") + ADD_ICON(4, 8, L"mushroomStew") + ADD_ICON(4, 9, L"yellowDust") + ADD_ICON(4, 10, L"bucket") + ADD_ICON(4, 11, L"bucketWater") + ADD_ICON(4, 12, L"bucketLava") + ADD_ICON(4, 13, L"milk") + ADD_ICON(4, 14, L"dyePowder_black") + ADD_ICON(4, 15, L"dyePowder_gray") + + ADD_ICON(5, 0, L"shovelWood") + ADD_ICON(5, 1, L"shovelStone") + ADD_ICON(5, 2, L"shovelIron") + ADD_ICON(5, 3, L"shovelDiamond") + ADD_ICON(5, 4, L"shovelGold") + ADD_ICON(5, 5, L"fishingRod_cast") + ADD_ICON(5, 6, L"diode") + ADD_ICON(5, 7, L"porkchopRaw") + ADD_ICON(5, 8, L"porkchopCooked") + ADD_ICON(5, 9, L"fishRaw") + ADD_ICON(5, 10, L"fishCooked") + ADD_ICON(5, 11, L"rottenFlesh") + ADD_ICON(5, 12, L"cookie") + ADD_ICON(5, 13, L"shears") + ADD_ICON(5, 14, L"dyePowder_red") + ADD_ICON(5, 15, L"dyePowder_pink") + + ADD_ICON(6, 0, L"pickaxeWood") + ADD_ICON(6, 1, L"pickaxeStone") + ADD_ICON(6, 2, L"pickaxeIron") + ADD_ICON(6, 3, L"pickaxeDiamond") + ADD_ICON(6, 4, L"pickaxeGold") + ADD_ICON(6, 5, L"bow_pull_0") + ADD_ICON(6, 6, L"carrotOnAStick") + ADD_ICON(6, 7, L"leather") + ADD_ICON(6, 8, L"saddle") + ADD_ICON(6, 9, L"beefRaw") + ADD_ICON(6, 10, L"beefCooked") + ADD_ICON(6, 11, L"enderPearl") + ADD_ICON(6, 12, L"blazeRod") + ADD_ICON(6, 13, L"melon") + ADD_ICON(6, 14, L"dyePowder_green") + ADD_ICON(6, 15, L"dyePowder_lime") + + ADD_ICON(7, 0, L"hatchetWood") + ADD_ICON(7, 1, L"hatchetStone") + ADD_ICON(7, 2, L"hatchetIron") + ADD_ICON(7, 3, L"hatchetDiamond") + ADD_ICON(7, 4, L"hatchetGold") + ADD_ICON(7, 5, L"bow_pull_1") + ADD_ICON(7, 6, L"potatoBaked") + ADD_ICON(7, 7, L"potato") + ADD_ICON(7, 8, L"carrots") + ADD_ICON(7, 9, L"chickenRaw") + ADD_ICON(7, 10, L"chickenCooked") + ADD_ICON(7, 11, L"ghastTear") + ADD_ICON(7, 12, L"goldNugget") + ADD_ICON(7, 13, L"netherStalkSeeds") + ADD_ICON(7, 14, L"dyePowder_brown") + ADD_ICON(7, 15, L"dyePowder_yellow") + + ADD_ICON(8, 0, L"hoeWood") + ADD_ICON(8, 1, L"hoeStone") + ADD_ICON(8, 2, L"hoeIron") + ADD_ICON(8, 3, L"hoeDiamond") + ADD_ICON(8, 4, L"hoeGold") + ADD_ICON(8, 5, L"bow_pull_2") + ADD_ICON(8, 6, L"potatoPoisonous") + ADD_ICON(8, 7, L"minecart") + ADD_ICON(8, 8, L"boat") + ADD_ICON(8, 9, L"speckledMelon") + ADD_ICON(8, 10, L"fermentedSpiderEye") + ADD_ICON(8, 11, L"spiderEye") + ADD_ICON(8, 12, L"potion") + ADD_ICON(8, 12, L"glassBottle") // Same as potion + ADD_ICON(8, 13, L"potion_contents") + ADD_ICON(8, 14, L"dyePowder_blue") + ADD_ICON(8, 15, L"dyePowder_light_blue") + + ADD_ICON(9, 0, L"helmetCloth_overlay") + //ADD_ICON(9, 1, L"unused") + ADD_ICON(9, 2, L"iron_horse_armor") + ADD_ICON(9, 3, L"diamond_horse_armor") + ADD_ICON(9, 4, L"gold_horse_armor") + ADD_ICON(9, 5, L"comparator") + ADD_ICON(9, 6, L"carrotGolden") + ADD_ICON(9, 7, L"minecart_chest") + ADD_ICON(9, 8, L"pumpkinPie") + ADD_ICON(9, 9, L"monsterPlacer") + ADD_ICON(9, 10, L"potion_splash") + ADD_ICON(9, 11, L"eyeOfEnder") + ADD_ICON(9, 12, L"cauldron") + ADD_ICON(9, 13, L"blazePowder") + ADD_ICON(9, 14, L"dyePowder_purple") + ADD_ICON(9, 15, L"dyePowder_magenta") + + ADD_ICON(10, 0, L"chestplateCloth_overlay") + //ADD_ICON(10, 1, L"unused") + //ADD_ICON(10, 2, L"unused") + ADD_ICON(10, 3, L"name_tag") + ADD_ICON(10, 4, L"lead") + ADD_ICON(10, 5, L"netherbrick") + //ADD_ICON(10, 6, L"unused") + ADD_ICON(10, 7, L"minecart_furnace") + ADD_ICON(10, 8, L"charcoal") + ADD_ICON(10, 9, L"monsterPlacer_overlay") + ADD_ICON(10, 10, L"ruby") + ADD_ICON(10, 11, L"expBottle") + ADD_ICON(10, 12, L"brewingStand") + ADD_ICON(10, 13, L"magmaCream") + ADD_ICON(10, 14, L"dyePowder_cyan") + ADD_ICON(10, 15, L"dyePowder_orange") + + ADD_ICON(11, 0, L"leggingsCloth_overlay") + //ADD_ICON(11, 1, L"unused") + //ADD_ICON(11, 2, L"unused") + //ADD_ICON(11, 3, L"unused") + //ADD_ICON(11, 4, L"unused") + //ADD_ICON(11, 5, L"unused") + //ADD_ICON(11, 6, L"unused") + ADD_ICON(11, 7, L"minecart_hopper") + ADD_ICON(11, 8, L"hopper") + ADD_ICON(11, 9, L"nether_star") + ADD_ICON(11, 10, L"emerald") + ADD_ICON(11, 11, L"writingBook") + ADD_ICON(11, 12, L"writtenBook") + ADD_ICON(11, 13, L"flowerPot") + ADD_ICON(11, 14, L"dyePowder_silver") + ADD_ICON(11, 15, L"dyePowder_white") + + ADD_ICON(12, 0, L"bootsCloth_overlay") + //ADD_ICON(12, 1, L"unused") + //ADD_ICON(12, 2, L"unused") + //ADD_ICON(12, 3, L"unused") + //ADD_ICON(12, 4, L"unused") + //ADD_ICON(12, 5, L"unused") + //ADD_ICON(12, 6, L"unused") + ADD_ICON(12, 7, L"minecart_tnt") + //ADD_ICON(12, 8, L"unused") + ADD_ICON(12, 9, L"fireworks") + ADD_ICON(12, 10, L"fireworks_charge") + ADD_ICON(12, 11, L"fireworks_charge_overlay") + ADD_ICON(12, 12, L"netherquartz") + ADD_ICON(12, 13, L"map_empty") + ADD_ICON(12, 14, L"frame") + ADD_ICON(12, 15, L"enchantedBook") + + ADD_ICON(14, 0, L"skull_skeleton") + ADD_ICON(14, 1, L"skull_wither") + ADD_ICON(14, 2, L"skull_zombie") + ADD_ICON(14, 3, L"skull_char") + ADD_ICON(14, 4, L"skull_creeper") + //ADD_ICON(14, 5, L"unused") + //ADD_ICON(14, 6, L"unused") + ADD_ICON_WITH_NAME(14, 7, L"compassP0", L"compass") // 4J Added + ADD_ICON_WITH_NAME(14, 8, L"compassP1", L"compass") // 4J Added + ADD_ICON_WITH_NAME(14, 9, L"compassP2", L"compass") // 4J Added + ADD_ICON_WITH_NAME(14, 10, L"compassP3", L"compass") // 4J Added + ADD_ICON_WITH_NAME(14, 11, L"clockP0", L"clock") // 4J Added + ADD_ICON_WITH_NAME(14, 12, L"clockP1", L"clock") // 4J Added + ADD_ICON_WITH_NAME(14, 13, L"clockP2", L"clock") // 4J Added + ADD_ICON_WITH_NAME(14, 14, L"clockP3", L"clock") // 4J Added + ADD_ICON(14, 15, L"dragonFireball") + + ADD_ICON(15, 0, L"record_13") + ADD_ICON(15, 1, L"record_cat") + ADD_ICON(15, 2, L"record_blocks") + ADD_ICON(15, 3, L"record_chirp") + ADD_ICON(15, 4, L"record_far") + ADD_ICON(15, 5, L"record_mall") + ADD_ICON(15, 6, L"record_mellohi") + ADD_ICON(15, 7, L"record_stal") + ADD_ICON(15, 8, L"record_strad") + ADD_ICON(15, 9, L"record_ward") + ADD_ICON(15, 10, L"record_11") + ADD_ICON(15, 11, L"record_where are we now") + + // Special cases + ClockTexture *dataClock = new ClockTexture(); + Icon *oldClock = texturesByName[L"clock"]; + dataClock->initUVs(oldClock->getU0(), oldClock->getV0(), oldClock->getU1(), oldClock->getV1() ); + delete oldClock; + texturesByName[L"clock"] = dataClock; + + ClockTexture *clock = new ClockTexture(0, dataClock); + oldClock = texturesByName[L"clockP0"]; + clock->initUVs(oldClock->getU0(), oldClock->getV0(), oldClock->getU1(), oldClock->getV1() ); + delete oldClock; + texturesByName[L"clockP0"] = clock; + + clock = new ClockTexture(1, dataClock); + oldClock = texturesByName[L"clockP1"]; + clock->initUVs(oldClock->getU0(), oldClock->getV0(), oldClock->getU1(), oldClock->getV1() ); + delete oldClock; + texturesByName[L"clockP1"] = clock; + + clock = new ClockTexture(2, dataClock); + oldClock = texturesByName[L"clockP2"]; + clock->initUVs(oldClock->getU0(), oldClock->getV0(), oldClock->getU1(), oldClock->getV1() ); + delete oldClock; + texturesByName[L"clockP2"] = clock; + + clock = new ClockTexture(3, dataClock); + oldClock = texturesByName[L"clockP3"]; + clock->initUVs(oldClock->getU0(), oldClock->getV0(), oldClock->getU1(), oldClock->getV1() ); + delete oldClock; + texturesByName[L"clockP3"] = clock; + + CompassTexture *dataCompass = new CompassTexture(); + Icon *oldCompass = texturesByName[L"compass"]; + dataCompass->initUVs(oldCompass->getU0(), oldCompass->getV0(), oldCompass->getU1(), oldCompass->getV1() ); + delete oldCompass; + texturesByName[L"compass"] = dataCompass; + + CompassTexture *compass = new CompassTexture(0, dataCompass); + oldCompass = texturesByName[L"compassP0"]; + compass->initUVs(oldCompass->getU0(), oldCompass->getV0(), oldCompass->getU1(), oldCompass->getV1() ); + delete oldCompass; + texturesByName[L"compassP0"] = compass; + + compass = new CompassTexture(1, dataCompass); + oldCompass = texturesByName[L"compassP1"]; + compass->initUVs(oldCompass->getU0(), oldCompass->getV0(), oldCompass->getU1(), oldCompass->getV1() ); + delete oldCompass; + texturesByName[L"compassP1"] = compass; + + compass = new CompassTexture(2, dataCompass); + oldCompass = texturesByName[L"compassP2"]; + compass->initUVs(oldCompass->getU0(), oldCompass->getV0(), oldCompass->getU1(), oldCompass->getV1() ); + delete oldCompass; + texturesByName[L"compassP2"] = compass; + + compass = new CompassTexture(3, dataCompass); + oldCompass = texturesByName[L"compassP3"]; + compass->initUVs(oldCompass->getU0(), oldCompass->getV0(), oldCompass->getU1(), oldCompass->getV1() ); + delete oldCompass; + texturesByName[L"compassP3"] = compass; + } + else + { + float horizRatio = 1.0f/16.0f; + float vertRatio = 1.0f/32.0f; + + ADD_ICON(0, 0, L"grass_top") + texturesByName[L"grass_top"]->setFlags(Icon::IS_GRASS_TOP); // 4J added for faster determination of texture type in tesselation + ADD_ICON(0, 1, L"stone") + ADD_ICON(0, 2, L"dirt") + ADD_ICON(0, 3, L"grass_side") + texturesByName[L"grass_side"]->setFlags(Icon::IS_GRASS_SIDE); // 4J added for faster determination of texture type in tesselation + ADD_ICON(0, 4, L"planks_oak") + ADD_ICON(0, 5, L"stoneslab_side") + ADD_ICON(0, 6, L"stoneslab_top") + ADD_ICON(0, 7, L"brick") + ADD_ICON(0, 8, L"tnt_side") + ADD_ICON(0, 9, L"tnt_top") + ADD_ICON(0, 10, L"tnt_bottom") + ADD_ICON(0, 11, L"web") + ADD_ICON(0, 12, L"flower_rose") + ADD_ICON(0, 13, L"flower_dandelion") + ADD_ICON(0, 14, L"portal") + ADD_ICON(0, 15, L"sapling") + + ADD_ICON(1, 0, L"cobblestone"); + ADD_ICON(1, 1, L"bedrock"); + ADD_ICON(1, 2, L"sand"); + ADD_ICON(1, 3, L"gravel"); + ADD_ICON(1, 4, L"log_oak"); + ADD_ICON(1, 5, L"log_oak_top"); + ADD_ICON(1, 6, L"iron_block"); + ADD_ICON(1, 7, L"gold_block"); + ADD_ICON(1, 8, L"diamond_block"); + ADD_ICON(1, 9, L"emerald_block"); + ADD_ICON(1, 10, L"redstone_block"); + ADD_ICON(1, 11, L"dropper_front_horizontal"); + ADD_ICON(1, 12, L"mushroom_red"); + ADD_ICON(1, 13, L"mushroom_brown"); + ADD_ICON(1, 14, L"sapling_jungle"); + ADD_ICON(1, 15, L"fire_0"); + + ADD_ICON(2, 0, L"gold_ore"); + ADD_ICON(2, 1, L"iron_ore"); + ADD_ICON(2, 2, L"coal_ore"); + ADD_ICON(2, 3, L"bookshelf"); + ADD_ICON(2, 4, L"cobblestone_mossy"); + ADD_ICON(2, 5, L"obsidian"); + ADD_ICON(2, 6, L"grass_side_overlay"); + ADD_ICON(2, 7, L"tallgrass"); + ADD_ICON(2, 8, L"dispenser_front_vertical"); + ADD_ICON(2, 9, L"beacon"); + ADD_ICON(2, 10, L"dropper_front_vertical"); + ADD_ICON(2, 11, L"workbench_top"); + ADD_ICON(2, 12, L"furnace_front"); + ADD_ICON(2, 13, L"furnace_side"); + ADD_ICON(2, 14, L"dispenser_front"); + ADD_ICON(2, 15, L"fire_1"); + + ADD_ICON(3, 0, L"sponge"); + ADD_ICON(3, 1, L"glass"); + ADD_ICON(3, 2, L"diamond_ore"); + ADD_ICON(3, 3, L"redstone_ore"); + ADD_ICON(3, 4, L"leaves"); + ADD_ICON(3, 5, L"leaves_opaque"); + ADD_ICON(3, 6, L"stonebrick"); + ADD_ICON(3, 7, L"deadbush"); + ADD_ICON(3, 8, L"fern"); + ADD_ICON(3, 9, L"daylight_detector_top"); + ADD_ICON(3, 10, L"daylight_detector_side"); + ADD_ICON(3, 11, L"workbench_side"); + ADD_ICON(3, 12, L"workbench_front"); + ADD_ICON(3, 13, L"furnace_front_lit"); + ADD_ICON(3, 14, L"furnace_top"); + ADD_ICON(3, 15, L"sapling_spruce"); + + ADD_ICON(4, 0, L"wool_colored_white"); + ADD_ICON(4, 1, L"mob_spawner"); + ADD_ICON(4, 2, L"snow"); + ADD_ICON(4, 3, L"ice"); + ADD_ICON(4, 4, L"snow_side"); + ADD_ICON(4, 5, L"cactus_top"); + ADD_ICON(4, 6, L"cactus_side"); + ADD_ICON(4, 7, L"cactus_bottom"); + ADD_ICON(4, 8, L"clay"); + ADD_ICON(4, 9, L"reeds"); + ADD_ICON(4, 10, L"jukebox_side"); + ADD_ICON(4, 11, L"jukebox_top"); + ADD_ICON(4, 12, L"waterlily"); + ADD_ICON(4, 13, L"mycel_side"); + ADD_ICON(4, 14, L"mycel_top"); + ADD_ICON(4, 15, L"sapling_birch"); + + ADD_ICON(5, 0, L"torch_on"); + ADD_ICON(5, 1, L"door_wood_upper"); + ADD_ICON(5, 2, L"door_iron_upper"); + ADD_ICON(5, 3, L"ladder"); + ADD_ICON(5, 4, L"trapdoor"); + ADD_ICON(5, 5, L"iron_bars"); + ADD_ICON(5, 6, L"farmland_wet"); + ADD_ICON(5, 7, L"farmland_dry"); + ADD_ICON(5, 8, L"crops_0"); + ADD_ICON(5, 9, L"crops_1"); + ADD_ICON(5, 10, L"crops_2"); + ADD_ICON(5, 11, L"crops_3"); + ADD_ICON(5, 12, L"crops_4"); + ADD_ICON(5, 13, L"crops_5"); + ADD_ICON(5, 14, L"crops_6"); + ADD_ICON(5, 15, L"crops_7"); + + ADD_ICON(6, 0, L"lever"); + ADD_ICON(6, 1, L"door_wood_lower"); + ADD_ICON(6, 2, L"door_iron_lower"); + ADD_ICON(6, 3, L"redstone_torch_on"); + ADD_ICON(6, 4, L"stonebrick_mossy"); + ADD_ICON(6, 5, L"stonebrick_cracked"); + ADD_ICON(6, 6, L"pumpkin_top"); + ADD_ICON(6, 7, L"netherrack"); + ADD_ICON(6, 8, L"soul_sand"); + ADD_ICON(6, 9, L"glowstone"); + ADD_ICON(6, 10, L"piston_top_sticky"); + ADD_ICON(6, 11, L"piston_top"); + ADD_ICON(6, 12, L"piston_side"); + ADD_ICON(6, 13, L"piston_bottom"); + ADD_ICON(6, 14, L"piston_inner_top"); + ADD_ICON(6, 15, L"stem_straight"); + + ADD_ICON(7, 0, L"rail_normal_turned"); + ADD_ICON(7, 1, L"wool_colored_black"); + ADD_ICON(7, 2, L"wool_colored_gray"); + ADD_ICON(7, 3, L"redstone_torch_off"); + ADD_ICON(7, 4, L"log_spruce"); + ADD_ICON(7, 5, L"log_birch"); + ADD_ICON(7, 6, L"pumpkin_side"); + ADD_ICON(7, 7, L"pumpkin_face_off"); + ADD_ICON(7, 8, L"pumpkin_face_on"); + ADD_ICON(7, 9, L"cake_top"); + ADD_ICON(7, 10, L"cake_side"); + ADD_ICON(7, 11, L"cake_inner"); + ADD_ICON(7, 12, L"cake_bottom"); + ADD_ICON(7, 13, L"mushroom_block_skin_red"); + ADD_ICON(7, 14, L"mushroom_block_skin_brown"); + ADD_ICON(7, 15, L"stem_bent"); + + ADD_ICON(8, 0, L"rail_normal"); + ADD_ICON(8, 1, L"wool_colored_red"); + ADD_ICON(8, 2, L"wool_colored_pink"); + ADD_ICON(8, 3, L"repeater_off"); + ADD_ICON(8, 4, L"leaves_spruce"); + ADD_ICON(8, 5, L"leaves_spruce_opaque"); + ADD_ICON(8, 6, L"bed_feet_top"); + ADD_ICON(8, 7, L"bed_head_top"); + ADD_ICON(8, 8, L"melon_side"); + ADD_ICON(8, 9, L"melon_top"); + ADD_ICON(8, 10, L"cauldron_top"); + ADD_ICON(8, 11, L"cauldron_inner"); + //ADD_ICON(8, 12, L"unused"); + ADD_ICON(8, 13, L"mushroom_block_skin_stem"); + ADD_ICON(8, 14, L"mushroom_block_inside"); + ADD_ICON(8, 15, L"vine"); + + ADD_ICON(9, 0, L"lapis_block"); + ADD_ICON(9, 1, L"wool_colored_green"); + ADD_ICON(9, 2, L"wool_colored_lime"); + ADD_ICON(9, 3, L"repeater_on"); + ADD_ICON(9, 4, L"glass_pane_top"); + ADD_ICON(9, 5, L"bed_feet_end"); + ADD_ICON(9, 6, L"bed_feet_side"); + ADD_ICON(9, 7, L"bed_head_side"); + ADD_ICON(9, 8, L"bed_head_end"); + ADD_ICON(9, 9, L"log_jungle"); + ADD_ICON(9, 10, L"cauldron_side"); + ADD_ICON(9, 11, L"cauldron_bottom"); + ADD_ICON(9, 12, L"brewing_stand_base"); + ADD_ICON(9, 13, L"brewing_stand"); + ADD_ICON(9, 14, L"endframe_top"); + ADD_ICON(9, 15, L"endframe_side"); + + ADD_ICON(10, 0, L"lapis_ore"); + ADD_ICON(10, 1, L"wool_colored_brown"); + ADD_ICON(10, 2, L"wool_colored_yellow"); + ADD_ICON(10, 3, L"rail_golden"); + ADD_ICON(10, 4, L"redstone_dust_cross"); + ADD_ICON(10, 5, L"redstone_dust_line"); + ADD_ICON(10, 6, L"enchantment_top"); + ADD_ICON(10, 7, L"dragon_egg"); + ADD_ICON(10, 8, L"cocoa_2"); + ADD_ICON(10, 9, L"cocoa_1"); + ADD_ICON(10, 10, L"cocoa_0"); + ADD_ICON(10, 11, L"emerald_ore"); + ADD_ICON(10, 12, L"trip_wire_source"); + ADD_ICON(10, 13, L"trip_wire"); + ADD_ICON(10, 14, L"endframe_eye"); + ADD_ICON(10, 15, L"end_stone"); + + ADD_ICON(11, 0, L"sandstone_top"); + ADD_ICON(11, 1, L"wool_colored_blue"); + ADD_ICON(11, 2, L"wool_colored_light_blue"); + ADD_ICON(11, 3, L"rail_golden_powered"); + ADD_ICON(11, 4, L"redstone_dust_cross_overlay"); + ADD_ICON(11, 5, L"redstone_dust_line_overlay"); + ADD_ICON(11, 6, L"enchantment_side"); + ADD_ICON(11, 7, L"enchantment_bottom"); + ADD_ICON(11, 8, L"command_block"); + ADD_ICON(11, 9, L"itemframe_back"); + ADD_ICON(11, 10, L"flower_pot"); + ADD_ICON(11, 11, L"comparator_off"); + ADD_ICON(11, 12, L"comparator_on"); + ADD_ICON(11, 13, L"rail_activator"); + ADD_ICON(11, 14, L"rail_activator_powered"); + ADD_ICON(11, 15, L"quartz_ore"); + + ADD_ICON(12, 0, L"sandstone_side"); + ADD_ICON(12, 1, L"wool_colored_purple"); + ADD_ICON(12, 2, L"wool_colored_magenta"); + ADD_ICON(12, 3, L"detectorRail"); + ADD_ICON(12, 4, L"leaves_jungle"); + ADD_ICON(12, 5, L"leaves_jungle_opaque"); + ADD_ICON(12, 6, L"planks_spruce"); + ADD_ICON(12, 7, L"planks_jungle"); + ADD_ICON(12, 8, L"carrots_stage_0"); + ADD_ICON(12, 9, L"carrots_stage_1"); + ADD_ICON(12, 10, L"carrots_stage_2"); + ADD_ICON(12, 11, L"carrots_stage_3"); + //ADD_ICON(12, 12, L"unused"); + ADD_ICON(12, 13, L"water"); + ADD_ICON_SIZE(12,14,L"water_flow",2,2); + + ADD_ICON(13, 0, L"sandstone_bottom"); + ADD_ICON(13, 1, L"wool_colored_cyan"); + ADD_ICON(13, 2, L"wool_colored_orange"); + ADD_ICON(13, 3, L"redstoneLight"); + ADD_ICON(13, 4, L"redstoneLight_lit"); + ADD_ICON(13, 5, L"stonebrick_carved"); + ADD_ICON(13, 6, L"planks_birch"); + ADD_ICON(13, 7, L"anvil_base"); + ADD_ICON(13, 8, L"anvil_top_damaged_1"); + ADD_ICON(13, 9, L"quartz_block_chiseled_top"); + ADD_ICON(13, 10, L"quartz_block_lines_top"); + ADD_ICON(13, 11, L"quartz_block_top"); + ADD_ICON(13, 12, L"hopper_outside"); + ADD_ICON(13, 13, L"detectorRail_on"); + + ADD_ICON(14, 0, L"nether_brick"); + ADD_ICON(14, 1, L"wool_colored_silver"); + ADD_ICON(14, 2, L"nether_wart_stage_0"); + ADD_ICON(14, 3, L"nether_wart_stage_1"); + ADD_ICON(14, 4, L"nether_wart_stage_2"); + ADD_ICON(14, 5, L"sandstone_carved"); + ADD_ICON(14, 6, L"sandstone_smooth"); + ADD_ICON(14, 7, L"anvil_top"); + ADD_ICON(14, 8, L"anvil_top_damaged_2"); + ADD_ICON(14, 9, L"quartz_block_chiseled"); + ADD_ICON(14, 10, L"quartz_block_lines"); + ADD_ICON(14, 11, L"quartz_block_side"); + ADD_ICON(14, 12, L"hopper_inside"); + ADD_ICON(14, 13, L"lava"); + ADD_ICON_SIZE(14,14,L"lava_flow",2,2); + + ADD_ICON(15, 0, L"destroy_0"); + ADD_ICON(15, 1, L"destroy_1"); + ADD_ICON(15, 2, L"destroy_2"); + ADD_ICON(15, 3, L"destroy_3"); + ADD_ICON(15, 4, L"destroy_4"); + ADD_ICON(15, 5, L"destroy_5"); + ADD_ICON(15, 6, L"destroy_6"); + ADD_ICON(15, 7, L"destroy_7"); + ADD_ICON(15, 8, L"destroy_8"); + ADD_ICON(15, 9, L"destroy_9"); + ADD_ICON(15, 10, L"hay_block_side"); + ADD_ICON(15, 11, L"quartz_block_bottom"); + ADD_ICON(15, 12, L"hopper_top"); + ADD_ICON(15, 13, L"hay_block_top"); + + ADD_ICON(16, 0, L"coal_block"); + ADD_ICON(16, 1, L"hardened_clay"); + ADD_ICON(16, 2, L"noteblock"); + //ADD_ICON(16, 3, L"unused"); + //ADD_ICON(16, 4, L"unused"); + //ADD_ICON(16, 5, L"unused"); + //ADD_ICON(16, 6, L"unused"); + //ADD_ICON(16, 7, L"unused"); + //ADD_ICON(16, 8, L"unused"); + ADD_ICON(16, 9, L"potatoes_stage_0"); + ADD_ICON(16, 10, L"potatoes_stage_1"); + ADD_ICON(16, 11, L"potatoes_stage_2"); + ADD_ICON(16, 12, L"potatoes_stage_3"); + ADD_ICON(16, 13, L"log_spruce_top"); + ADD_ICON(16, 14, L"log_jungle_top"); + ADD_ICON(16, 15, L"log_birch_top"); + + ADD_ICON(17, 0, L"hardened_clay_stained_black"); + ADD_ICON(17, 1, L"hardened_clay_stained_blue"); + ADD_ICON(17, 2, L"hardened_clay_stained_brown"); + ADD_ICON(17, 3, L"hardened_clay_stained_cyan"); + ADD_ICON(17, 4, L"hardened_clay_stained_gray"); + ADD_ICON(17, 5, L"hardened_clay_stained_green"); + ADD_ICON(17, 6, L"hardened_clay_stained_light_blue"); + ADD_ICON(17, 7, L"hardened_clay_stained_lime"); + ADD_ICON(17, 8, L"hardened_clay_stained_magenta"); + ADD_ICON(17, 9, L"hardened_clay_stained_orange"); + ADD_ICON(17, 10, L"hardened_clay_stained_pink"); + ADD_ICON(17, 11, L"hardened_clay_stained_purple"); + ADD_ICON(17, 12, L"hardened_clay_stained_red"); + ADD_ICON(17, 13, L"hardened_clay_stained_silver"); + ADD_ICON(17, 14, L"hardened_clay_stained_white"); + ADD_ICON(17, 15, L"hardened_clay_stained_yellow"); + + ADD_ICON(18, 0, L"glass_black"); + ADD_ICON(18, 1, L"glass_blue"); + ADD_ICON(18, 2, L"glass_brown"); + ADD_ICON(18, 3, L"glass_cyan"); + ADD_ICON(18, 4, L"glass_gray"); + ADD_ICON(18, 5, L"glass_green"); + ADD_ICON(18, 6, L"glass_light_blue"); + ADD_ICON(18, 7, L"glass_lime"); + ADD_ICON(18, 8, L"glass_magenta"); + ADD_ICON(18, 9, L"glass_orange"); + ADD_ICON(18, 10, L"glass_pink"); + ADD_ICON(18, 11, L"glass_purple"); + ADD_ICON(18, 12, L"glass_red"); + ADD_ICON(18, 13, L"glass_silver"); + ADD_ICON(18, 14, L"glass_white"); + ADD_ICON(18, 15, L"glass_yellow"); + + ADD_ICON(19, 0, L"glass_pane_top_black"); + ADD_ICON(19, 1, L"glass_pane_top_blue"); + ADD_ICON(19, 2, L"glass_pane_top_brown"); + ADD_ICON(19, 3, L"glass_pane_top_cyan"); + ADD_ICON(19, 4, L"glass_pane_top_gray"); + ADD_ICON(19, 5, L"glass_pane_top_green"); + ADD_ICON(19, 6, L"glass_pane_top_light_blue"); + ADD_ICON(19, 7, L"glass_pane_top_lime"); + ADD_ICON(19, 8, L"glass_pane_top_magenta"); + ADD_ICON(19, 9, L"glass_pane_top_orange"); + ADD_ICON(19, 10, L"glass_pane_top_pink"); + ADD_ICON(19, 11, L"glass_pane_top_purple"); + ADD_ICON(19, 12, L"glass_pane_top_red"); + ADD_ICON(19, 13, L"glass_pane_top_silver"); + ADD_ICON(19, 14, L"glass_pane_top_white"); + ADD_ICON(19, 15, L"glass_pane_top_yellow"); + } +} diff --git a/Minecraft.Client/PreStitchedTextureMap.h b/Minecraft.Client/PreStitchedTextureMap.h new file mode 100644 index 0000000..882a7ea --- /dev/null +++ b/Minecraft.Client/PreStitchedTextureMap.h @@ -0,0 +1,54 @@ +#pragma once +using namespace std; + +#include "..\Minecraft.World\IconRegister.h" + +class Icon; +class StitchedTexture; +class Texture; +class BufferedImage; + +// 4J Added this class to stop having to do texture stitching at runtime +class PreStitchedTextureMap : public IconRegister +{ +public: + static const wstring NAME_MISSING_TEXTURE; + +private: + const int iconType; + + const wstring name; + const wstring path; + const wstring extension; + + bool m_mipMap; + + typedef unordered_map stringIconMap; + stringIconMap texturesByName; // = new HashMap(); + BufferedImage *missingTexture; // = new BufferedImage(64, 64, BufferedImage.TYPE_INT_ARGB); + StitchedTexture *missingPosition; + Texture *stitchResult; + vector animatedTextures; // = new ArrayList(); + + void loadUVs(); +public: + PreStitchedTextureMap(int type, const wstring &name, const wstring &path, BufferedImage *missingTexture, bool mipMap = false); + + void stitch(); + +private: + void makeTextureAnimated(TexturePack *texturePack, StitchedTexture *tex); + +public: + StitchedTexture *getTexture(const wstring &name); + void cycleAnimationFrames(); + Texture *getStitchedTexture(); + + // 4J Stu - register is a reserved keyword in C++ + Icon *registerIcon(const wstring &name); + + int getIconType(); + Icon *getMissingIcon(); + + int getFlags() const; +}; \ No newline at end of file diff --git a/Minecraft.Client/ReadMe.txt b/Minecraft.Client/ReadMe.txt new file mode 100644 index 0000000..f5f0faa --- /dev/null +++ b/Minecraft.Client/ReadMe.txt @@ -0,0 +1,27 @@ +======================================================================== + Xbox 360 APPLICATION : Minecraft.Client Project Overview +======================================================================== + +AppWizard has created this Minecraft.Client application for you. + +This file contains a summary of what you will find in each of the files that +make up your Minecraft.Client application. + +Minecraft.Client.vcxproj + This is the main project file for VC++ projects generated using an Application Wizard. + It contains information about the version of Visual C++ that generated the file, and + information about the platforms, configurations, and project features selected with the + Application Wizard. + +Minecraft.Client.cpp + This is the main application source file. + + + +///////////////////////////////////////////////////////////////////////////// +Other notes: + +AppWizard uses "TODO:" comments to indicate parts of the source code you +should add to or customize. + +///////////////////////////////////////////////////////////////////////////// diff --git a/Minecraft.Client/Rect2i.cpp b/Minecraft.Client/Rect2i.cpp new file mode 100644 index 0000000..7cd208a --- /dev/null +++ b/Minecraft.Client/Rect2i.cpp @@ -0,0 +1,76 @@ +#include "stdafx.h" +#include "Rect2i.h" + +Rect2i::Rect2i(int x, int y, int width, int height) +{ + xPos = x; + yPos = y; + this->width = width; + this->height = height; +} + +Rect2i *Rect2i::intersect(const Rect2i *other) +{ + int x0 = xPos; + int y0 = yPos; + int x1 = xPos + width; + int y1 = yPos + height; + + int x2 = other->getX(); + int y2 = other->getY(); + int x3 = x2 + other->getWidth(); + int y3 = y2 + other->getHeight(); + + xPos = max(x0, x2); + yPos = max(y0, y2); + width = max(0, min(x1, x3) - xPos); + height = max(0, min(y1, y3) - yPos); + + return this; +} + +int Rect2i::getX() const +{ + return xPos; +} + +int Rect2i::getY() const +{ + return yPos; +} + +void Rect2i::setX(int x) +{ + xPos = x; +} + +void Rect2i::setY(int y) +{ + yPos = y; +} + +int Rect2i::getWidth() const +{ + return width; +} + +int Rect2i::getHeight() const +{ + return height; +} + +void Rect2i::setWidth(int width) +{ + this->width = width; +} + +void Rect2i::setHeight(int height) +{ + this->height = height; +} + +void Rect2i::setPosition(int x, int y) +{ + xPos = x; + yPos = y; +} \ No newline at end of file diff --git a/Minecraft.Client/Rect2i.h b/Minecraft.Client/Rect2i.h new file mode 100644 index 0000000..cb9471a --- /dev/null +++ b/Minecraft.Client/Rect2i.h @@ -0,0 +1,24 @@ +#pragma once + +class Rect2i +{ +private: + int xPos; + int yPos; + int width; + int height; + +public: + Rect2i(int x, int y, int width, int height); + + Rect2i *intersect(const Rect2i *other); + int getX() const; + int getY() const; + void setX(int x); + void setY(int y); + int getWidth() const; + int getHeight() const; + void setWidth(int width); + void setHeight(int height); + void setPosition(int x, int y); +}; \ No newline at end of file diff --git a/Minecraft.Client/RedDustParticle.cpp b/Minecraft.Client/RedDustParticle.cpp new file mode 100644 index 0000000..69eb225 --- /dev/null +++ b/Minecraft.Client/RedDustParticle.cpp @@ -0,0 +1,75 @@ +#include "stdafx.h" +#include "..\Minecraft.World\JavaMath.h" +#include "RedDustParticle.h" + +void RedDustParticle::init(Level *level, double x, double y, double z, float scale, float rCol, float gCol, float bCol) +{ + xd *= 0.1f; + yd *= 0.1f; + zd *= 0.1f; + + // 4J Stu - If they are all 0 then this particle has been created differently + // If just red is 0 it could be because we have made redstone a completely different colour (eg blue) + if (rCol == 0 && gCol == 0 && bCol == 0) + { + rCol = 1; + } + float brr = static_cast(Math::random()) * 0.4f + 0.6f; + this->rCol = (static_cast(Math::random() * 0.2f) + 0.8f) * rCol * brr; + this->gCol = (static_cast(Math::random() * 0.2f) + 0.8f) * gCol * brr; + this->bCol = (static_cast(Math::random() * 0.2f) + 0.8f) * bCol * brr; + size *= 0.75f; + size *= scale; + oSize = size; + + lifetime = static_cast(8 / (Math::random() * 0.8 + 0.2)); + lifetime = static_cast(lifetime * scale); + noPhysics = false; +} + +RedDustParticle::RedDustParticle(Level *level, double x, double y, double z, float rCol, float gCol, float bCol) : Particle(level, x, y, z, 0, 0, 0) +{ + init(level, x, y, z, 1, rCol, gCol, bCol); +} + +RedDustParticle::RedDustParticle(Level *level, double x, double y, double z, float scale, float rCol, float gCol, float bCol) : Particle(level, x, y, z, 0, 0, 0) +{ + init(level, x, y, z, scale, rCol, gCol, bCol); +} + +void RedDustParticle::render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2) +{ + float l = ((age + a) / lifetime) * 32; + if (l < 0) l = 0; + if (l > 1) l = 1; + + size = oSize * l; + Particle::render(t, a, xa, ya, za, xa2, za2); +} + +void RedDustParticle::tick() +{ + xo = x; + yo = y; + zo = z; + + if (age++ >= lifetime) remove(); + + setMiscTex(7 - age * 8 / lifetime); + + move(xd, yd, zd); + if (y == yo) + { + xd *= 1.1; + zd *= 1.1; + } + xd *= 0.96f; + yd *= 0.96f; + zd *= 0.96f; + + if (onGround) + { + xd *= 0.7f; + zd *= 0.7f; + } +} diff --git a/Minecraft.Client/RedDustParticle.h b/Minecraft.Client/RedDustParticle.h new file mode 100644 index 0000000..b1903b6 --- /dev/null +++ b/Minecraft.Client/RedDustParticle.h @@ -0,0 +1,17 @@ +#pragma once +#include "Particle.h" + +class RedDustParticle : public Particle +{ +public: + virtual eINSTANCEOF GetType() { return eType_REDDUSTPARTICLE; } +private: + void init(Level *level, double x, double y, double z, float scale, float rCol, float gCol, float bCol); // 4J - added +public: + RedDustParticle(Level *level, double x, double y, double z, float rCol, float gCol, float bCol); + float oSize; + + RedDustParticle(Level *level, double x, double y, double z, float scale, float rCol, float gCol, float bCol); + virtual void render(Tesselator *t, float a, float xa, float ya, float za, float xa2, float za2); + virtual void tick(); +}; \ No newline at end of file diff --git a/Minecraft.Client/RemotePlayer.cpp b/Minecraft.Client/RemotePlayer.cpp new file mode 100644 index 0000000..dcfd699 --- /dev/null +++ b/Minecraft.Client/RemotePlayer.cpp @@ -0,0 +1,151 @@ +#include "stdafx.h" +#include "RemotePlayer.h" +#include "..\Minecraft.World\net.minecraft.world.item.h" +#include "..\Minecraft.World\Mth.h" + +RemotePlayer::RemotePlayer(Level *level, const wstring& name) : Player(level, name) +{ + // 4J - added initialisers + hasStartedUsingItem = false; + lSteps = 0; + lx = ly = lz = lyr = lxr = 0.0; + fallTime = 0.0f; + + app.DebugPrintf("Created RemotePlayer with name %ls\n", name.c_str() ); + + heightOffset = 0; + footSize = 0; + + noPhysics = true; + + bedOffsetY = 4 / 16.0f; + + viewScale = 10; +} + +void RemotePlayer::setDefaultHeadHeight() +{ + heightOffset = 0; +} + +bool RemotePlayer::hurt(DamageSource *source, float dmg) +{ + return true; +} + +void RemotePlayer::lerpTo(double x, double y, double z, float yRot, float xRot, int steps) +{ +// heightOffset = 0; + lx = x; + ly = y; + lz = z; + lyr = yRot; + lxr = xRot; + + lSteps = steps; +} + +void RemotePlayer::tick() +{ + bedOffsetY = 0 / 16.0f; + Player::tick(); + + walkAnimSpeedO = walkAnimSpeed; + double xxd = x - xo; + double zzd = z - zo; + float wst = Mth::sqrt(xxd * xxd + zzd * zzd) * 4; + if (wst > 1) wst = 1; + walkAnimSpeed += (wst - walkAnimSpeed) * 0.4f; + walkAnimPos += walkAnimSpeed; + + if (!hasStartedUsingItem && isUsingItemFlag() && inventory->items[inventory->selected] != nullptr) + { + shared_ptr item = inventory->items[inventory->selected]; + startUsingItem(inventory->items[inventory->selected], Item::items[item->id]->getUseDuration(item)); + hasStartedUsingItem = true; + } + else if (hasStartedUsingItem && !isUsingItemFlag()) + { + stopUsingItem(); + hasStartedUsingItem = false; + } + + // if (eatItem != null) { + // if (eatItemTickCount <= 25 && eatItemTickCount % 4 == 0) { + // spawnEatParticles(eatItem, 5); + // } + // eatItemTickCount--; + // if (eatItemTickCount <= 0) { + // spawnEatParticles(eatItem, 16); + // swing(); + // eatItem = null; + // } + // } +} + +float RemotePlayer::getShadowHeightOffs() +{ + return 0; +} + +void RemotePlayer::aiStep() +{ + Player::serverAiStep(); + if (lSteps > 0) + { + double xt = x + (lx - x) / lSteps; + double yt = y + (ly - y) / lSteps; + double zt = z + (lz - z) / lSteps; + + double yrd = lyr - yRot; + while (yrd < -180) + yrd += 360; + while (yrd >= 180) + yrd -= 360; + + yRot += static_cast((yrd) / lSteps); + xRot += static_cast((lxr - xRot) / lSteps); + + lSteps--; + setPos(xt, yt, zt); + setRot(yRot, xRot); + } + oBob = bob; + + float tBob = (float) Mth::sqrt(xd * xd + zd * zd); + float tTilt = static_cast(atan(-yd * 0.2f)) * 15.0f; + if (tBob > 0.1f) tBob = 0.1f; + if (!onGround || getHealth() <= 0) tBob = 0; + if (onGround || getHealth() <= 0) tTilt = 0; + bob += (tBob - bob) * 0.4f; + tilt += (tTilt - tilt) * 0.8f; + +} + +// 4J Stu - Brought forward change from 1.3 to fix #64688 - Customer Encountered: TU7: Content: Art: Aura of enchanted item is not displayed for other players in online game +void RemotePlayer::setEquippedSlot(int slot, shared_ptr item) +{ + if (slot == 0) + { + inventory->items[inventory->selected] = item; + } + else + { + inventory->armor[slot - 1] = item; + } +} + +void RemotePlayer::animateRespawn() +{ +// Player.animateRespawn(this, level); +} + +float RemotePlayer::getHeadHeight() +{ + return 1.82f; +} + +Pos RemotePlayer::getCommandSenderWorldPosition() +{ + return new Pos(floor(x + .5), floor(y + .5), floor(z + .5)); +} \ No newline at end of file diff --git a/Minecraft.Client/RemotePlayer.h b/Minecraft.Client/RemotePlayer.h new file mode 100644 index 0000000..cbd053a --- /dev/null +++ b/Minecraft.Client/RemotePlayer.h @@ -0,0 +1,36 @@ +#pragma once +#include "..\Minecraft.World\SmoothFloat.h" +#include "..\Minecraft.World\net.minecraft.world.entity.player.h" + +class Input; + +class RemotePlayer : public Player +{ +public: + eINSTANCEOF GetType() { return eTYPE_REMOTEPLAYER; } + +private: + bool hasStartedUsingItem; +public: + Input *input; + RemotePlayer(Level *level, const wstring& name); +protected: + virtual void setDefaultHeadHeight(); +public: + virtual bool hurt(DamageSource *source, float dmg); +private: + int lSteps; + double lx, ly, lz, lyr, lxr; + +public: + virtual void lerpTo(double x, double y, double z, float yRot, float xRot, int steps); + float fallTime; + + virtual void tick(); + virtual float getShadowHeightOffs(); + virtual void aiStep(); + virtual void setEquippedSlot(int slot, shared_ptr item);// 4J Stu - Brought forward change from 1.3 to fix #64688 - Customer Encountered: TU7: Content: Art: Aura of enchanted item is not displayed for other players in online game + virtual void animateRespawn(); + virtual float getHeadHeight(); + virtual Pos getCommandSenderWorldPosition(); +}; \ No newline at end of file diff --git a/Minecraft.Client/ResourceLocation.h b/Minecraft.Client/ResourceLocation.h new file mode 100644 index 0000000..1274b25 --- /dev/null +++ b/Minecraft.Client/ResourceLocation.h @@ -0,0 +1,71 @@ +#pragma once +#include "Textures.h" + +typedef arrayWithLength<_TEXTURE_NAME> textureNameArray; +class ResourceLocation +{ +private: + textureNameArray m_texture; + wstring m_path; + bool m_preloaded; + +public: + ResourceLocation() + { + m_preloaded = false; + m_path = L""; + } + + ResourceLocation(_TEXTURE_NAME texture) + { + m_texture = textureNameArray(1); + m_texture[0] = texture; + m_preloaded = true; + } + + ResourceLocation(wstring path) + { + m_path = path; + m_preloaded = false; + } + + ResourceLocation(intArray textures) + { + m_texture = textureNameArray(textures.length); + for(unsigned int i = 0; i < textures.length; ++i) + { + m_texture[i] = static_cast<_TEXTURE_NAME>(textures[i]); + } + m_preloaded = true; + } + + ~ResourceLocation() + { + delete m_texture.data; + } + + _TEXTURE_NAME getTexture() + { + return m_texture[0]; + } + + _TEXTURE_NAME getTexture(int idx) + { + return m_texture[idx]; + } + + int getTextureCount() + { + return m_texture.length; + } + + wstring getPath() + { + return m_path; + } + + bool isPreloaded() + { + return m_preloaded; + } +}; \ No newline at end of file diff --git a/Minecraft.Client/SaveCommand.h b/Minecraft.Client/SaveCommand.h new file mode 100644 index 0000000..e25b2ce --- /dev/null +++ b/Minecraft.Client/SaveCommand.h @@ -0,0 +1,24 @@ +#pragma once +#include "GenericCommand.h" +#include "MinecraftServer.h" +#include "Common/Consoles_App.h" +#include "Common/App_enums.h" +#include "Windows64/Windows64_App.h" +#include "PlayerList.h" +#include "../Minecraft.Server/Utils/Logger.h" + +class SaveCommand : public GenericCommand { +public: + SaveCommand(const wchar_t* _name, const wchar_t* _description) : GenericCommand(_name, _description) {}; + + void Execute(CommandSenderType senderType, std::vector& args, std::shared_ptr player) override { + if (senderType == CommandSenderType::PlayerSender) { + if (!CommandDispatcher::IsPlayerOperator(player->getOnlineXuid())) { + player->sendMessage(CommandDispatcher::NoPermissionMessage); + return; + } + } + + app.SetXuiServerAction(1, eXuiServerAction_SaveGame); + } +}; \ No newline at end of file diff --git a/Minecraft.Client/ScrolledSelectionList.cpp b/Minecraft.Client/ScrolledSelectionList.cpp new file mode 100644 index 0000000..b1cd72a --- /dev/null +++ b/Minecraft.Client/ScrolledSelectionList.cpp @@ -0,0 +1,345 @@ +#include "stdafx.h" +#include "ScrolledSelectionList.h" +#include "Tesselator.h" +#include "Textures.h" +#include "..\Minecraft.World\System.h" + +ScrolledSelectionList::ScrolledSelectionList(Minecraft *minecraft, int width, int height, int y0, int y1, int itemHeight) +{ + this->minecraft = minecraft; + this->width = width; + this->height = height; + this->y0 = y0; + this->y1 = y1; + this->itemHeight = itemHeight; + this->x0 = 0; + this->x1 = width; + + + // 4J Stu - Smoe default initialisers + upId = 0; + downId = 0; + + yDrag = 0.0f; + yDragScale = 0.0f; + yo = 0.0f; + + lastSelection = 0; + lastSelectionTime = 0; + + renderSelection = false; + _renderHeader = false; + headerHeight = 0; + //End +} + +void ScrolledSelectionList::setRenderSelection(bool renderSelection) +{ + this->renderSelection = renderSelection; +} + +void ScrolledSelectionList::setRenderHeader(bool renderHeader, int headerHeight) +{ + this->_renderHeader = renderHeader; + this->headerHeight = headerHeight; + + if (!_renderHeader) + { + this->headerHeight = 0; + } +} + +int ScrolledSelectionList::getMaxPosition() +{ + return getNumberOfItems() * itemHeight + headerHeight; +} + +void ScrolledSelectionList::renderHeader(int x, int y, Tesselator *t) +{ +} + +void ScrolledSelectionList::clickedHeader(int headerMouseX, int headerMouseY) +{ +} + +void ScrolledSelectionList::renderDecorations(int mouseX, int mouseY) +{ +} + + int ScrolledSelectionList::getItemAtPosition(int x, int y) +{ + int x0 = width / 2 - (92 + 16 + 2); + int x1 = width / 2 + (92 + 16 + 2); + + int clickSlotPos = (y - y0 - headerHeight + static_cast(yo) - 4); + int slot = clickSlotPos / itemHeight; + if (x >= x0 && x <= x1 && slot >= 0 && clickSlotPos >= 0 && slot < getNumberOfItems()) + { + return slot; + } + return -1; +} + +void ScrolledSelectionList::init(vector