#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.structure.h" #include "net.minecraft.world.level.levelgen.synth.h" #include "net.minecraft.world.level.tile.h" #include "net.minecraft.world.level.storage.h" #include "CustomLevelSource.h" const double CustomLevelSource::SNOW_SCALE = 0.3; const double CustomLevelSource::SNOW_CUTOFF = 0.5; CustomLevelSource::CustomLevelSource(Level *level, __int64 seed, bool generateStructures) : generateStructures( generateStructures ) { #ifdef _OVERRIDE_HEIGHTMAP m_XZSize = level->getLevelData()->getXZSize(); m_heightmapOverride = byteArray( (m_XZSize*16) * (m_XZSize*16) ); #ifdef _UNICODE wstring path = L"GAME:\\GameRules\\heightmap.bin"; #else string path = "GAME:\\GameRules\\heightmap.bin"; #endif HANDLE file = CreateFile(path.c_str(), GENERIC_READ, 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); if( file == INVALID_HANDLE_VALUE ) { app.FatalLoadError(); DWORD error = GetLastError(); assert(false); } else { DWORD bytesRead,dwFileSize = GetFileSize(file,NULL); if(dwFileSize > m_heightmapOverride.length) { app.DebugPrintf("Heightmap binary is too large!!\n"); __debugbreak(); } BOOL bSuccess = ReadFile(file,m_heightmapOverride.data,dwFileSize,&bytesRead,NULL); if(bSuccess==FALSE) { app.FatalLoadError(); } CloseHandle(file); } m_waterheightOverride = byteArray( (m_XZSize*16) * (m_XZSize*16) ); #ifdef _UNICODE wstring waterHeightPath = L"GAME:\\GameRules\\waterheight.bin"; #else string waterHeightPath = "GAME:\\GameRules\\waterheight.bin"; #endif file = CreateFile(waterHeightPath.c_str(), GENERIC_READ, 0, NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL); if( file == INVALID_HANDLE_VALUE ) { DWORD error = GetLastError(); //assert(false); memset(m_waterheightOverride.data, level->seaLevel, m_waterheightOverride.length); } else { DWORD bytesRead,dwFileSize = GetFileSize(file,NULL); if(dwFileSize > m_waterheightOverride.length) { app.DebugPrintf("waterheight binary is too large!!\n"); __debugbreak(); } BOOL bSuccess = ReadFile(file,m_waterheightOverride.data,dwFileSize,&bytesRead,NULL); if(bSuccess==FALSE) { app.FatalLoadError(); } CloseHandle(file); } caveFeature = new LargeCaveFeature(); strongholdFeature = new StrongholdFeature(); villageFeature = new VillageFeature(0,m_XZSize); mineShaftFeature = new MineShaftFeature(); canyonFeature = new CanyonFeature(); this->level = level; random = new Random(seed); pprandom = new Random(seed); // 4J - added, so that we can have a separate random for doing post-processing in parallel with creation perlinNoise3 = new PerlinNoise(random, 4); #endif } CustomLevelSource::~CustomLevelSource() { #ifdef _OVERRIDE_HEIGHTMAP delete caveFeature; delete strongholdFeature; delete villageFeature; delete mineShaftFeature; delete canyonFeature; this->level = level; delete random; delete perlinNoise3; #endif } void CustomLevelSource::prepareHeights(int xOffs, int zOffs, byteArray blocks) { #ifdef _OVERRIDE_HEIGHTMAP int xChunks = 16 / CHUNK_WIDTH; int yChunks = Level::maxBuildHeight / CHUNK_HEIGHT; int waterHeight = level->seaLevel; int xSize = xChunks + 1; int ySize = Level::maxBuildHeight / CHUNK_HEIGHT + 1; int zSize = xChunks + 1; int xMapStart = xOffs + m_XZSize/2; int zMapStart = zOffs + m_XZSize/2; for (int xc = 0; xc < xChunks; xc++) { for (int zc = 0; zc < xChunks; zc++) { for (int yc = 0; yc < yChunks; yc++) { for (int y = 0; y < CHUNK_HEIGHT; y++) { for (int x = 0; x < CHUNK_WIDTH; x++) { for (int z = 0; z < CHUNK_WIDTH; z++) { int mapIndex = (zMapStart * 16 + z + ( zc * CHUNK_WIDTH )) * (m_XZSize * 16) + (xMapStart * 16 + x + ( xc * CHUNK_WIDTH )); int mapHeight = m_heightmapOverride[mapIndex]; waterHeight = m_waterheightOverride[mapIndex]; //app.DebugPrintf("MapHeight = %d, y = %d\n", mapHeight, yc * CHUNK_HEIGHT + y); /////////////////////////////////////////////////////////////////// // 4J - add this chunk of code to make land "fall-off" at the edges of // a finite world - size of that world is currently hard-coded in here const int worldSize = m_XZSize * 16; const int falloffStart = 32; // chunks away from edge were we start doing fall-off const float falloffMax = 128.0f; // max value we need to get to falloff by the edge of the map int xxx = ( ( xOffs * 16 ) + x + ( xc * CHUNK_WIDTH ) ); int zzz = ( ( zOffs * 16 ) + z + ( zc * CHUNK_WIDTH ) ); // Get distance to edges of world in x int xxx0 = xxx + ( worldSize / 2 ); if( xxx0 < 0 ) xxx0 = 0; int xxx1 = ( ( worldSize / 2 ) - 1 ) - xxx; if( xxx1 < 0 ) xxx1 = 0; // Get distance to edges of world in z int zzz0 = zzz + ( worldSize / 2 ); if( zzz0 < 0 ) zzz0 = 0; int zzz1 = ( ( worldSize / 2 ) - 1 ) - zzz; if( zzz1 < 0 ) zzz1 = 0; // Get min distance to any edge int emin = xxx0; if (xxx1 < emin ) emin = xxx1; if (zzz0 < emin ) emin = zzz0; if (zzz1 < emin ) emin = zzz1; float comp = 0.0f; // Calculate how much we want the world to fall away, if we're in the defined region to do so if( emin < falloffStart ) { int falloff = falloffStart - emin; comp = ((float)falloff / (float)falloffStart ) * falloffMax; } // 4J - end of extra code /////////////////////////////////////////////////////////////////// int tileId = 0; // 4J - this comparison used to just be with 0.0f but is now varied by block above if (yc * CHUNK_HEIGHT + y < mapHeight) { tileId = (byte) Tile::rock_Id; } else if (yc * CHUNK_HEIGHT + y < waterHeight) { tileId = (byte) Tile::calmWater_Id; } // 4J - more extra code to make sure that the column at the edge of the world is just water & rock, to match the infinite sea that // continues on after the edge of the world. if( emin == 0 ) { // This matches code in MultiPlayerChunkCache that makes the geometry which continues at the edge of the world if( yc * CHUNK_HEIGHT + y <= ( level->getSeaLevel() - 10 ) ) tileId = Tile::rock_Id; else if( yc * CHUNK_HEIGHT + y < level->getSeaLevel() ) tileId = Tile::calmWater_Id; } int indexY = (yc * CHUNK_HEIGHT + y); int offsAdjustment = 0; if(indexY >= Level::COMPRESSED_CHUNK_SECTION_HEIGHT) { indexY -= Level::COMPRESSED_CHUNK_SECTION_HEIGHT; offsAdjustment = Level::COMPRESSED_CHUNK_SECTION_TILES; } int offs = ( (x + xc * CHUNK_WIDTH) << Level::genDepthBitsPlusFour | (z + zc * CHUNK_WIDTH) << Level::genDepthBits | indexY) + offsAdjustment; blocks[offs] = tileId; } } } } } } #endif } void CustomLevelSource::buildSurfaces(int xOffs, int zOffs, byteArray blocks, BiomeArray biomes) { #ifdef _OVERRIDE_HEIGHTMAP int waterHeight = level->seaLevel; int xMapStart = xOffs + m_XZSize/2; int zMapStart = zOffs + m_XZSize/2; double s = 1 / 32.0; doubleArray depthBuffer(16*16); // 4J - used to be declared with class level scope but moved here for thread safety depthBuffer = perlinNoise3->getRegion(depthBuffer, xOffs * 16, zOffs * 16, 0, 16, 16, 1, s * 2, s * 2, s * 2); for (int x = 0; x < 16; x++) { for (int z = 0; z < 16; z++) { int mapIndex = (zMapStart * 16 + z) * (m_XZSize * 16) + (xMapStart * 16 + x); waterHeight = m_waterheightOverride[mapIndex]; Biome *b = biomes[z + x * 16]; float temp = b->getTemperature(); int runDepth = (int) (depthBuffer[x + z * 16] / 3 + 3 + random->nextDouble() * 0.25); int run = -1; byte top = b->topMaterial; byte material = b->material; LevelGenerationOptions *lgo = app.getLevelGenerationOptions(); if(lgo != NULL) { lgo->getBiomeOverride(b->id,material,top); } for (int y = Level::maxBuildHeight - 1; y >= 0; y--) { int indexY = y; int offsAdjustment = 0; if(indexY >= Level::COMPRESSED_CHUNK_SECTION_HEIGHT) { indexY -= Level::COMPRESSED_CHUNK_SECTION_HEIGHT; offsAdjustment = Level::COMPRESSED_CHUNK_SECTION_TILES; } int offs = (x << Level::genDepthBitsPlusFour | z << Level::genDepthBits | indexY) + offsAdjustment; if (y <= 1 + random->nextInt(2)) // 4J - changed to make the bedrock not have bits you can get stuck in // if (y <= 0 + random->nextInt(5)) { blocks[offs] = (byte) Tile::unbreakable_Id; } else { int old = blocks[offs]; if (old == 0) { run = -1; } else if (old == Tile::rock_Id) { if (run == -1) { if (runDepth <= 0) { top = 0; material = (byte) Tile::rock_Id; } else if (y >= waterHeight - 4 && y <= waterHeight + 1) { top = b->topMaterial; material = b->material; if(lgo != NULL) { lgo->getBiomeOverride(b->id,material,top); } } if (y < waterHeight && top == 0) { if (temp < 0.15f) top = (byte) Tile::ice_Id; else top = (byte) Tile::calmWater_Id; } run = runDepth; if (y >= waterHeight - 1) blocks[offs] = top; else blocks[offs] = material; } else if (run > 0) { run--; blocks[offs] = material; // place a few sandstone blocks beneath sand // runs if (run == 0 && material == Tile::sand_Id) { run = random->nextInt(4); material = (byte) Tile::sandStone_Id; } } } } } } } delete [] depthBuffer.data; #endif } LevelChunk *CustomLevelSource::create(int x, int z) { #ifdef _OVERRIDE_HEIGHTMAP return getChunk(x,z); #else return NULL; #endif } LevelChunk *CustomLevelSource::getChunk(int xOffs, int zOffs) { #ifdef _OVERRIDE_HEIGHTMAP random->setSeed(xOffs * 341873128712l + zOffs * 132897987541l); // 4J - now allocating this with a physical alloc & bypassing general memory management so that it will get cleanly freed int blocksSize = Level::maxBuildHeight * 16 * 16; byte *tileData = (byte *)XPhysicalAlloc(blocksSize, MAXULONG_PTR, 4096, PAGE_READWRITE); XMemSet128(tileData,0,blocksSize); byteArray blocks = byteArray(tileData,blocksSize); // byteArray blocks = byteArray(16 * level->depth * 16); // LevelChunk *levelChunk = new LevelChunk(level, blocks, xOffs, zOffs); // 4J - moved to below prepareHeights(xOffs, zOffs, blocks); // 4J - Some changes made here to how biomes, temperatures and downfalls are passed around for thread safety BiomeArray biomes; level->getBiomeSource()->getBiomeBlock(biomes, xOffs * 16, zOffs * 16, 16, 16, true); buildSurfaces(xOffs, zOffs, blocks, biomes); delete [] biomes.data; caveFeature->apply(this, level, xOffs, zOffs, blocks); // 4J Stu Design Change - 1.8 gen goes stronghold, mineshaft, village, canyon // this changed in 1.2 to canyon, mineshaft, village, stronghold // This change makes sense as it stops canyons running through other structures canyonFeature->apply(this, level, xOffs, zOffs, blocks); if (generateStructures) { mineShaftFeature->apply(this, level, xOffs, zOffs, blocks); villageFeature->apply(this, level, xOffs, zOffs, blocks); strongholdFeature->apply(this, level, xOffs, zOffs, blocks); } // canyonFeature.apply(this, level, xOffs, zOffs, blocks); // townFeature.apply(this, level, xOffs, zOffs, blocks); // addCaves(xOffs, zOffs, blocks); // addTowns(xOffs, zOffs, blocks); // levelChunk->recalcHeightmap(); // 4J - removed & moved into its own method // 4J - this now creates compressed block data from the blocks array passed in, so moved it until after the blocks are actually finalised. We also // now need to free the passed in blocks as the LevelChunk doesn't use the passed in allocation anymore. LevelChunk *levelChunk = new LevelChunk(level, blocks, xOffs, zOffs); XPhysicalFree(tileData); return levelChunk; #else return NULL; #endif } // 4J - removed & moved into its own method from getChunk, so we can call recalcHeightmap after the chunk is added into the cache. Without // doing this, then loads of the lightgaps() calls will fail to add any lights, because adding a light checks if the cache has this chunk in. // lightgaps also does light 1 block into the neighbouring chunks, and maybe that is somehow enough to get lighting to propagate round the world, // but this just doesn't seem right - this isn't a new fault in the 360 version, have checked that java does the same. void CustomLevelSource::lightChunk(LevelChunk *lc) { #ifdef _OVERRIDE_HEIGHTMAP lc->recalcHeightmap(); #endif } bool CustomLevelSource::hasChunk(int x, int y) { return true; } void CustomLevelSource::calcWaterDepths(ChunkSource *parent, int xt, int zt) { #ifdef _OVERRIDE_HEIGHTMAP int xo = xt * 16; int zo = zt * 16; for (int x = 0; x < 16; x++) { int y = level->getSeaLevel(); for (int z = 0; z < 16; z++) { int xp = xo + x + 7; int zp = zo + z + 7; int h = level->getHeightmap(xp, zp); if (h <= 0) { if (level->getHeightmap(xp - 1, zp) > 0 || level->getHeightmap(xp + 1, zp) > 0 || level->getHeightmap(xp, zp - 1) > 0 || level->getHeightmap(xp, zp + 1) > 0) { bool hadWater = false; if (hadWater || (level->getTile(xp - 1, y, zp) == Tile::calmWater_Id && level->getData(xp - 1, y, zp) < 7)) hadWater = true; if (hadWater || (level->getTile(xp + 1, y, zp) == Tile::calmWater_Id && level->getData(xp + 1, y, zp) < 7)) hadWater = true; if (hadWater || (level->getTile(xp, y, zp - 1) == Tile::calmWater_Id && level->getData(xp, y, zp - 1) < 7)) hadWater = true; if (hadWater || (level->getTile(xp, y, zp + 1) == Tile::calmWater_Id && level->getData(xp, y, zp + 1) < 7)) hadWater = true; if (hadWater) { for (int x2 = -5; x2 <= 5; x2++) { for (int z2 = -5; z2 <= 5; z2++) { int d = (x2 > 0 ? x2 : -x2) + (z2 > 0 ? z2 : -z2); if (d <= 5) { d = 6 - d; if (level->getTile(xp + x2, y, zp + z2) == Tile::calmWater_Id) { int od = level->getData(xp + x2, y, zp + z2); if (od < 7 && od < d) { level->setData(xp + x2, y, zp + z2, d); } } } } } if (hadWater) { level->setTileAndDataNoUpdate(xp, y, zp, Tile::calmWater_Id, 7); for (int y2 = 0; y2 < y; y2++) { level->setTileAndDataNoUpdate(xp, y2, zp, Tile::calmWater_Id, 8); } } } } } } } #endif } // 4J - changed this to used pprandom rather than random, so that we can run it concurrently with getChunk void CustomLevelSource::postProcess(ChunkSource *parent, int xt, int zt) { #ifdef _OVERRIDE_HEIGHTMAP HeavyTile::instaFall = true; int xo = xt * 16; int zo = zt * 16; Biome *biome = level->getBiome(xo + 16, zo + 16); if (CustomLevelSource::FLOATING_ISLANDS) { calcWaterDepths(parent, xt, zt); } 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()); bool hasVillage = false; PIXBeginNamedEvent(0,"Structure postprocessing"); if (generateStructures) { mineShaftFeature->postProcess(level, pprandom, xt, zt); hasVillage = villageFeature->postProcess(level, pprandom, xt, zt); strongholdFeature->postProcess(level, pprandom, xt, zt); } PIXEndNamedEvent(); #if 0 PIXBeginNamedEvent(0,"Lakes"); if (!hasVillage && pprandom->nextInt(4) == 0) { int x = xo + pprandom->nextInt(16) + 8; int y = pprandom->nextInt(Level::maxBuildHeight); int z = zo + pprandom->nextInt(16) + 8; LakeFeature *calmWater = new LakeFeature(Tile::calmWater_Id); calmWater->place(level, pprandom, x, y, z); delete calmWater; } PIXEndNamedEvent(); PIXBeginNamedEvent(0,"Lava"); if (!hasVillage && pprandom->nextInt(8) == 0) { int x = xo + pprandom->nextInt(16) + 8; int y = pprandom->nextInt(pprandom->nextInt(Level::maxBuildHeight - 8) + 8); int z = zo + pprandom->nextInt(16) + 8; if (y < level->seaLevel || pprandom->nextInt(10) == 0) { LakeFeature *calmLava = new LakeFeature(Tile::calmLava_Id); calmLava->place(level, pprandom, x, y, z); delete calmLava; } } PIXEndNamedEvent(); #endif PIXBeginNamedEvent(0,"Monster rooms"); for (int i = 0; i < 8; i++) { int x = xo + pprandom->nextInt(16) + 8; int y = pprandom->nextInt(Level::maxBuildHeight); int z = zo + pprandom->nextInt(16) + 8; MonsterRoomFeature *mrf = new MonsterRoomFeature(); if (mrf->place(level, pprandom, x, y, z)) { } delete mrf; } PIXEndNamedEvent(); PIXBeginNamedEvent(0,"Biome decorate"); biome->decorate(level, pprandom, xo, zo); PIXEndNamedEvent(); app.processSchematics(parent->getChunk(xt,zt)); MobSpawner::postProcessSpawnMobs(level, biome, xo + 8, zo + 8, 16, 16, pprandom); // 4J - brought forward from 1.2.3 to get snow back in taiga biomes xo += 8; zo += 8; for (int x = 0; x < 16; x++) { for (int z = 0; z < 16; z++) { int y = level->getTopRainBlock(xo + x, zo + z); if (level->shouldFreezeIgnoreNeighbors(x + xo, y - 1, z + zo)) { level->setTileNoUpdate(x + xo, y - 1, z + zo, Tile::ice_Id); // 4J - changed from setTile, otherwise we end up creating a *lot* of dynamic water tiles as these ice tiles are set } if (level->shouldSnow(x + xo, y, z + zo)) { level->setTile(x + xo, y, z + zo, Tile::topSnow_Id); } } } HeavyTile::instaFall = false; #endif } bool CustomLevelSource::save(bool force, ProgressListener *progressListener) { return true; } bool CustomLevelSource::tick() { return false; } bool CustomLevelSource::shouldSave() { return true; } wstring CustomLevelSource::gatherStats() { return L"CustomLevelSource"; } vector *CustomLevelSource::getMobsAt(MobCategory *mobCategory, int x, int y, int z) { #ifdef _OVERRIDE_HEIGHTMAP Biome *biome = level->getBiome(x, z); if (biome == NULL) { return NULL; } return biome->getMobs(mobCategory); #else return NULL; #endif } TilePos *CustomLevelSource::findNearestMapFeature(Level *level, const wstring& featureName, int x, int y, int z) { #ifdef _OVERRIDE_HEIGHTMAP if (LargeFeature::STRONGHOLD == featureName && strongholdFeature != NULL) { return strongholdFeature->getNearestGeneratedFeature(level, x, y, z); } #endif return NULL; }