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MinecraftCommunityEdition-c…/Minecraft.World/AetherLevelSource.cpp
Bonnie afb8090812 reimplement aether stuff from personal repo
2026-03-03 11:12:53 -06:00

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#include "stdafx.h"
#include "net.minecraft.world.level.h"
#include "net.minecraft.world.level.biome.h"
#include "net.minecraft.world.level.levelgen.h"
#include "net.minecraft.world.level.levelgen.feature.h"
#include "net.minecraft.world.level.levelgen.synth.h"
#include "net.minecraft.world.level.tile.h"
#include "net.minecraft.world.level.storage.h"
#include "AetherLevelSource.h"
AetherLevelSource::AetherLevelSource(Level *level, __int64 seed)
{
m_XZSize = level->getLevelData()->getXZSize();
this->level = level;
random = new Random(seed);
pprandom = new Random(seed);
lperlinNoise1 = new PerlinNoise(random, 16);
lperlinNoise2 = new PerlinNoise(random, 16);
perlinNoise1 = new PerlinNoise(random, 8);
scaleNoise = new PerlinNoise(random, 10);
depthNoise = new PerlinNoise(random, 16);
// Island mask noise — creates scattered island clusters across the world
islandNoise = new PerlinNoise(random, 4);
// Carving noise — cuts irregular shapes into islands
carvingNoise = new PerlinNoise(random, 6);
}
AetherLevelSource::~AetherLevelSource()
{
delete random;
delete pprandom;
delete lperlinNoise1;
delete lperlinNoise2;
delete perlinNoise1;
delete scaleNoise;
delete depthNoise;
delete islandNoise;
delete carvingNoise;
}
void AetherLevelSource::prepareHeights(int xOffs, int zOffs, byteArray blocks, BiomeArray biomes)
{
doubleArray buffer;
int xChunks = 16 / CHUNK_WIDTH;
int xSize = xChunks + 1;
int ySize = Level::genDepth / CHUNK_HEIGHT + 1;
int zSize = xChunks + 1;
buffer = getHeights(buffer, xOffs * xChunks, 0, zOffs * xChunks, xSize, ySize, zSize);
for (int xc = 0; xc < xChunks; xc++)
{
for (int zc = 0; zc < xChunks; zc++)
{
for (int yc = 0; yc < Level::genDepth / CHUNK_HEIGHT; yc++)
{
double yStep = 1 / (double) CHUNK_HEIGHT;
double s0 = buffer[((xc + 0) * zSize + (zc + 0)) * ySize + (yc + 0)];
double s1 = buffer[((xc + 0) * zSize + (zc + 1)) * ySize + (yc + 0)];
double s2 = buffer[((xc + 1) * zSize + (zc + 0)) * ySize + (yc + 0)];
double s3 = buffer[((xc + 1) * zSize + (zc + 1)) * ySize + (yc + 0)];
double s0a = (buffer[((xc + 0) * zSize + (zc + 0)) * ySize + (yc + 1)] - s0) * yStep;
double s1a = (buffer[((xc + 0) * zSize + (zc + 1)) * ySize + (yc + 1)] - s1) * yStep;
double s2a = (buffer[((xc + 1) * zSize + (zc + 0)) * ySize + (yc + 1)] - s2) * yStep;
double s3a = (buffer[((xc + 1) * zSize + (zc + 1)) * ySize + (yc + 1)] - s3) * yStep;
for (int y = 0; y < CHUNK_HEIGHT; y++)
{
double xStep = 1 / (double) CHUNK_WIDTH;
double _s0 = s0;
double _s1 = s1;
double _s0a = (s2 - s0) * xStep;
double _s1a = (s3 - s1) * xStep;
for (int x = 0; x < CHUNK_WIDTH; x++)
{
int offs = (x + xc * CHUNK_WIDTH) << Level::genDepthBitsPlusFour | (0 + zc * CHUNK_WIDTH) << Level::genDepthBits | (yc * CHUNK_HEIGHT + y);
int step = 1 << Level::genDepthBits;
double zStep = 1 / (double) CHUNK_WIDTH;
double val = _s0;
double vala = (_s1 - _s0) * zStep;
for (int z = 0; z < CHUNK_WIDTH; z++)
{
int tileId = 0;
if (val > 0)
{
tileId = Tile::holystone_Id;
}
blocks[offs] = (byte) tileId;
offs += step;
val += vala;
}
_s0 += _s0a;
_s1 += _s1a;
}
s0 += s0a;
s1 += s1a;
s2 += s2a;
s3 += s3a;
}
}
}
}
delete [] buffer.data;
}
void AetherLevelSource::buildSurfaces(int xOffs, int zOffs, byteArray blocks, BiomeArray biomes)
{
for (int x = 0; x < 16; x++)
{
for (int z = 0; z < 16; z++)
{
int run = -1;
int runDepth = 3;
byte top = (byte) Tile::aetherGrass_Id;
byte mid = (byte) Tile::aetherDirt_Id;
byte base = (byte) Tile::holystone_Id;
for (int y = Level::genDepthMinusOne; y >= 0; y--)
{
int offs = (z * 16 + x) * Level::genDepth + y;
int old = blocks[offs];
if (old == 0)
{
run = -1;
}
else if (old == Tile::holystone_Id)
{
if (run == -1)
{
if (runDepth <= 0)
{
top = 0;
mid = base;
}
run = runDepth;
// Top-most block: aether grass
blocks[offs] = top;
}
else if (run > 0)
{
run--;
// Underneath the top: aether dirt
blocks[offs] = mid;
}
// When run reaches 0, the block stays as holystone
}
}
}
}
}
LevelChunk *AetherLevelSource::create(int x, int z)
{
return getChunk(x, z);
}
LevelChunk *AetherLevelSource::getChunk(int xOffs, int zOffs)
{
random->setSeed(xOffs * 341873128712l + zOffs * 132897987541l);
BiomeArray biomes;
unsigned int blocksSize = Level::genDepth * 16 * 16;
byte *tileData = (byte *)XPhysicalAlloc(blocksSize, MAXULONG_PTR, 4096, PAGE_READWRITE);
XMemSet128(tileData, 0, blocksSize);
byteArray blocks = byteArray(tileData, blocksSize);
level->getBiomeSource()->getBiomeBlock(biomes, xOffs * 16, zOffs * 16, 16, 16, true);
prepareHeights(xOffs, zOffs, blocks, biomes);
buildSurfaces(xOffs, zOffs, blocks, biomes);
LevelChunk *levelChunk = new LevelChunk(level, blocks, xOffs, zOffs);
XPhysicalFree(tileData);
// 4J - recalcHeightmap moved to lightChunk() so it runs after the chunk is in the cache.
// Without this, lightGaps() fails because the chunk isn't findable via hasChunk yet.
delete biomes.data;
return levelChunk;
}
doubleArray AetherLevelSource::getHeights(doubleArray buffer, int x, int y, int z, int xSize, int ySize, int zSize)
{
if (buffer.data == NULL)
{
buffer = doubleArray(xSize * ySize * zSize);
}
double s = 1 * 684.412;
double hs = 1 * 684.412;
doubleArray pnr, ar, br, sr, dr;
sr = scaleNoise->getRegion(sr, x, z, xSize, zSize, 1.121, 1.121, 0.5);
dr = depthNoise->getRegion(dr, x, z, xSize, zSize, 200.0, 200.0, 0.5);
s *= 2;
pnr = perlinNoise1->getRegion(pnr, x, y, z, xSize, ySize, zSize, s / 80.0, hs / 160.0, s / 80.0);
ar = lperlinNoise1->getRegion(ar, x, y, z, xSize, ySize, zSize, s, hs, s);
br = lperlinNoise2->getRegion(br, x, y, z, xSize, ySize, zSize, s, hs, s);
// Island noise — creates scattered island clusters
doubleArray inr;
inr = islandNoise->getRegion(inr, x, z, xSize, zSize, 0.35, 0.35, 0.5);
// Carving noise — cuts irregular shapes and hollows into islands
doubleArray cnr;
cnr = carvingNoise->getRegion(cnr, x, y, z, xSize, ySize, zSize, s / 30.0, hs / 30.0, s / 30.0);
// World bounds for edge fade (in noise column units)
float worldHalf = (float)m_XZSize;
int p = 0;
int pp = 0;
for (int xx = 0; xx < xSize; xx++)
{
for (int zz = 0; zz < zSize; zz++)
{
double scale = ((sr[pp] + 256.0) / 512);
if (scale > 1) scale = 1;
double depth = (dr[pp] / 8000.0);
if (depth < 0) depth = -depth * 0.3;
depth = depth * 3.0 - 2.0;
// Island formation — higher threshold creates distinct scattered islands
float islandVal = (float)inr[pp];
float doffs = islandVal * 100.0f - 60.0f;
// Edge fade scaled to actual world size
float xd = (float)(xx + x);
float zd = (float)(zz + z);
float edgeDist = sqrt(xd * xd + zd * zd);
float fadeStart = worldHalf * 0.85f;
float edgeFade;
if (edgeDist < fadeStart)
edgeFade = 80.0f;
else
edgeFade = 80.0f - ((edgeDist - fadeStart) / (worldHalf - fadeStart)) * 180.0f;
if (edgeFade < -100) edgeFade = -100;
// Islands only appear where both noise and edge conditions allow
if (edgeFade < doffs) doffs = edgeFade;
if (doffs < -100) doffs = -100;
if (doffs > 80) doffs = 80;
// Use depth noise to shift terrain center — creates shelf-like elevation steps
if (depth > 2) depth = 2;
if (depth < -2) depth = -2;
double depthShift = depth * 1.5;
if (scale < 0) scale = 0;
scale = (scale) + 0.5;
pp++;
double yCenter = ySize / 2.0 + depthShift;
for (int yy = 0; yy < ySize; yy++)
{
double val = 0;
double yOffs = (yy - yCenter) * 8 / scale;
if (yOffs < 0) yOffs *= -1;
double bb = ar[p] / 512;
double cc = br[p] / 512;
double v = (pnr[p] / 10 + 1) / 2;
if (v < 0) val = bb;
else if (v > 1) val = cc;
else val = bb + (cc - bb) * v;
val -= 8;
val += doffs;
// Carving — cut irregular shapes and hollows into solid areas
double carve = cnr[p] / 384.0;
if (val > 0 && carve < -6.0)
{
val += (carve + 6.0) * 2.0;
}
// Slide down at the top of the world
int r = 2;
if (yy > ySize / 2 - r)
{
double slide = (yy - (ySize / 2 - r)) / (64.0f);
if (slide < 0) slide = 0;
if (slide > 1) slide = 1;
val = val * (1 - slide) + -3000 * slide;
}
// Slide down at the bottom of the world
r = 8;
if (yy < r)
{
double slide = (r - yy) / (r - 1.0f);
val = val * (1 - slide) + -30 * slide;
}
buffer[p] = val;
p++;
}
}
}
delete [] pnr.data;
delete [] ar.data;
delete [] br.data;
delete [] sr.data;
delete [] dr.data;
delete [] inr.data;
delete [] cnr.data;
return buffer;
}
bool AetherLevelSource::hasChunk(int x, int y)
{
return true;
}
// 4J - recalcHeightmap split out from getChunk so that it runs after the chunk is added to the cache.
// This is required for skylight to be calculated correctly — lightGaps() needs the chunk to pass hasChunk().
void AetherLevelSource::lightChunk(LevelChunk *lc)
{
lc->recalcHeightmap();
}
void AetherLevelSource::postProcess(ChunkSource *parent, int xt, int zt)
{
HeavyTile::instaFall = true;
int xo = xt * 16;
int zo = zt * 16;
pprandom->setSeed(level->getSeed());
__int64 xScale = pprandom->nextLong() / 2 * 2 + 1;
__int64 zScale = pprandom->nextLong() / 2 * 2 + 1;
pprandom->setSeed(((xt * xScale) + (zt * zScale)) ^ level->getSeed());
Biome *biome = level->getBiome(xo + 16, zo + 16);
biome->decorate(level, pprandom, xo, zo);
HeavyTile::instaFall = false;
app.processSchematics(parent->getChunk(xt, zt));
}
bool AetherLevelSource::save(bool force, ProgressListener *progressListener)
{
return true;
}
bool AetherLevelSource::tick()
{
return false;
}
bool AetherLevelSource::shouldSave()
{
return true;
}
wstring AetherLevelSource::gatherStats()
{
return L"AetherLevelSource";
}
vector<Biome::MobSpawnerData *> *AetherLevelSource::getMobsAt(MobCategory *mobCategory, int x, int y, int z)
{
Biome *biome = level->getBiome(x, z);
if (biome == NULL)
{
return NULL;
}
return biome->getMobs(mobCategory);
}
TilePos *AetherLevelSource::findNearestMapFeature(Level *level, const wstring& featureName, int x, int y, int z)
{
return NULL;
}
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