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cuberite-2a/src/Generating/BioGen.cpp

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// BioGen.cpp
// Implements the various biome generators
#include "Globals.h"
#include "BioGen.h"
#include <iostream>
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#include "IntGen.h"
#include "ProtIntGen.h"
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#include "../IniFile.h"
#include "../LinearUpscale.h"
////////////////////////////////////////////////////////////////////////////////
// cBioGenConstant:
void cBioGenConstant::GenBiomes(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_BiomeMap)
{
UNUSED(a_ChunkCoords);
for (size_t i = 0; i < ARRAYCOUNT(a_BiomeMap); i++)
{
a_BiomeMap[i] = m_Biome;
}
}
void cBioGenConstant::InitializeBiomeGen(cIniFile & a_IniFile)
{
AString defaultBiome;
switch (StringToDimension(a_IniFile.GetValue("General", "Dimension", "Overworld")))
{
case dimOverworld: defaultBiome = "Plains"; break;
case dimNether: defaultBiome = "Nether"; break;
case dimEnd: defaultBiome = "End"; break;
case dimNotSet: defaultBiome = "Swampland"; break;
}
AString Biome = a_IniFile.GetValueSet("Generator", "ConstantBiome", defaultBiome);
m_Biome = StringToBiome(Biome);
if (m_Biome == biInvalidBiome)
{
LOGWARN("[Generator]::ConstantBiome value \"%s\" not recognized, using \"Plains\".", Biome.c_str());
m_Biome = biPlains;
}
}
////////////////////////////////////////////////////////////////////////////////
// cBioGenCache:
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cBioGenCache::cBioGenCache(cBiomeGenPtr a_BioGenToCache, size_t a_CacheSize) :
m_BioGenToCache(a_BioGenToCache),
m_CacheSize(a_CacheSize),
m_NumHits(0),
m_NumMisses(0),
m_TotalChain(0)
{
m_CacheData.resize(m_CacheSize);
m_CacheOrder.resize(m_CacheSize);
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for (size_t i = 0; i < m_CacheSize; i++)
{
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m_CacheOrder[i] = i;
}
}
void cBioGenCache::GenBiomes(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_BiomeMap)
{
if (((m_NumHits + m_NumMisses) % 1024) == 10)
{
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// LOGD("BioGenCache: %u hits, %u misses, saved %.2f %%", static_cast<unsigned>(m_NumHits), static_cast<unsigned>(m_NumMisses), 100.0 * m_NumHits / (m_NumHits + m_NumMisses));
// LOGD("BioGenCache: Avg cache chain length: %.2f", static_cast<double>(m_TotalChain) / m_NumHits);
}
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for (size_t i = 0; i < m_CacheSize; i++)
{
if (m_CacheData[m_CacheOrder[i]].m_Coords != a_ChunkCoords)
{
continue;
}
// Found it in the cache
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size_t Idx = m_CacheOrder[i];
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// Move to front:
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for (size_t j = i; j > 0; j--)
{
m_CacheOrder[j] = m_CacheOrder[j - 1];
}
m_CacheOrder[0] = Idx;
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// Use the cached data:
memcpy(a_BiomeMap, m_CacheData[Idx].m_BiomeMap, sizeof(a_BiomeMap));
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m_NumHits++;
m_TotalChain += i;
return;
} // for i - cache
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// Not in the cache:
m_NumMisses++;
m_BioGenToCache->GenBiomes(a_ChunkCoords, a_BiomeMap);
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// Insert it as the first item in the MRU order:
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size_t Idx = m_CacheOrder[m_CacheSize - 1];
for (size_t i = m_CacheSize - 1; i > 0; i--)
{
m_CacheOrder[i] = m_CacheOrder[i - 1];
} // for i - m_CacheOrder[]
m_CacheOrder[0] = Idx;
memcpy(m_CacheData[Idx].m_BiomeMap, a_BiomeMap, sizeof(a_BiomeMap));
m_CacheData[Idx].m_Coords = a_ChunkCoords;
}
void cBioGenCache::InitializeBiomeGen(cIniFile & a_IniFile)
{
super::InitializeBiomeGen(a_IniFile);
m_BioGenToCache->InitializeBiomeGen(a_IniFile);
}
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////////////////////////////////////////////////////////////////////////////////
// cBioGenMulticache:
cBioGenMulticache::cBioGenMulticache(cBiomeGenPtr a_BioGenToCache, size_t a_SubCacheSize, size_t a_NumSubCaches) :
m_NumSubCaches(a_NumSubCaches)
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{
m_Caches.reserve(a_NumSubCaches);
for (size_t i = 0; i < a_NumSubCaches; i++)
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{
m_Caches.push_back(cBiomeGenPtr(new cBioGenCache(a_BioGenToCache, a_SubCacheSize)));
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}
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}
void cBioGenMulticache::GenBiomes(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_BiomeMap)
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{
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const size_t coefficient = 3;
const size_t cacheIdx = (static_cast<size_t>(a_ChunkCoords.m_ChunkX) + coefficient * static_cast<size_t>(a_ChunkCoords.m_ChunkZ)) % m_NumSubCaches;
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m_Caches[cacheIdx]->GenBiomes(a_ChunkCoords, a_BiomeMap);
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}
void cBioGenMulticache::InitializeBiomeGen(cIniFile & a_IniFile)
{
for (auto itr : m_Caches)
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{
itr->InitializeBiomeGen(a_IniFile);
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}
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}
////////////////////////////////////////////////////////////////////////////////
// cBiomeGenList:
void cBiomeGenList::InitializeBiomes(const AString & a_Biomes)
{
AStringVector Split = StringSplitAndTrim(a_Biomes, ",");
// Convert each string in the list into biome:
for (AStringVector::const_iterator itr = Split.begin(); itr != Split.end(); ++itr)
{
AStringVector Split2 = StringSplit(*itr, ":");
if (Split2.size() < 1)
{
continue;
}
int Count = 1;
if (Split2.size() >= 2)
{
if (!StringToInteger(Split2[1], Count))
{
LOGWARNING("Cannot decode biome count: \"%s\"; using 1.", Split2[1].c_str());
Count = 1;
}
}
EMCSBiome Biome = StringToBiome(Split2[0]);
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if (Biome != biInvalidBiome)
{
for (int i = 0; i < Count; i++)
{
m_Biomes.push_back(Biome);
}
}
else
{
LOGWARNING("Cannot decode biome name: \"%s\"; skipping", Split2[0].c_str());
}
} // for itr - Split[]
if (!m_Biomes.empty())
{
m_BiomesCount = static_cast<int>(m_Biomes.size());
return;
}
// There were no biomes, add default biomes:
static EMCSBiome Biomes[] =
{
biOcean,
biPlains,
biDesert,
biExtremeHills,
biForest,
biTaiga,
biSwampland,
biRiver,
biFrozenOcean,
biFrozenRiver,
biIcePlains,
biIceMountains,
biMushroomIsland,
biMushroomShore,
biBeach,
biDesertHills,
biForestHills,
biTaigaHills,
biExtremeHillsEdge,
biJungle,
biJungleHills,
} ;
m_Biomes.reserve(ARRAYCOUNT(Biomes));
for (size_t i = 0; i < ARRAYCOUNT(Biomes); i++)
{
m_Biomes.push_back(Biomes[i]);
}
m_BiomesCount = static_cast<int>(m_Biomes.size());
}
////////////////////////////////////////////////////////////////////////////////
// cBioGenCheckerboard:
void cBioGenCheckerboard::GenBiomes(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_BiomeMap)
{
for (int z = 0; z < cChunkDef::Width; z++)
{
int Base = (cChunkDef::Width * a_ChunkCoords.m_ChunkZ + z) / m_BiomeSize;
for (int x = 0; x < cChunkDef::Width; x++)
{
int Add = cChunkDef::Width * a_ChunkCoords.m_ChunkX + x;
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size_t BiomeIdx = static_cast<size_t>((((Base + Add / m_BiomeSize) % m_BiomesCount) + m_BiomesCount) % m_BiomesCount); // Need to add and modulo twice because of negative numbers
a_BiomeMap[x + cChunkDef::Width * z] = m_Biomes[BiomeIdx];
}
}
}
void cBioGenCheckerboard::InitializeBiomeGen(cIniFile & a_IniFile)
{
super::InitializeBiomeGen(a_IniFile);
AString Biomes = a_IniFile.GetValueSet ("Generator", "CheckerBoardBiomes", "");
m_BiomeSize = a_IniFile.GetValueSetI("Generator", "CheckerboardBiomeSize", 64);
m_BiomeSize = (m_BiomeSize < 8) ? 8 : m_BiomeSize;
InitializeBiomes(Biomes);
}
////////////////////////////////////////////////////////////////////////////////
// cBioGenVoronoi :
void cBioGenVoronoi::GenBiomes(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_BiomeMap)
{
int BaseZ = cChunkDef::Width * a_ChunkCoords.m_ChunkZ;
int BaseX = cChunkDef::Width * a_ChunkCoords.m_ChunkX;
for (int z = 0; z < cChunkDef::Width; z++)
{
int AbsoluteZ = BaseZ + z;
for (int x = 0; x < cChunkDef::Width; x++)
{
int VoronoiCellValue = m_Voronoi.GetValueAt(BaseX + x, AbsoluteZ) / 8;
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cChunkDef::SetBiome(a_BiomeMap, x, z, m_Biomes[static_cast<size_t>(VoronoiCellValue % m_BiomesCount)]);
} // for x
} // for z
}
void cBioGenVoronoi::InitializeBiomeGen(cIniFile & a_IniFile)
{
super::InitializeBiomeGen(a_IniFile);
int CellSize = a_IniFile.GetValueSetI("Generator", "VoronoiCellSize", 128);
int JitterSize = a_IniFile.GetValueSetI("Generator", "VoronoiJitterSize", CellSize);
int OddRowOffset = a_IniFile.GetValueSetI("Generator", "VoronoiOddRowOffset", 0);
m_Voronoi.SetCellSize(CellSize);
m_Voronoi.SetJitterSize(JitterSize);
m_Voronoi.SetOddRowOffset(OddRowOffset);
InitializeBiomes(a_IniFile.GetValueSet ("Generator", "VoronoiBiomes", ""));
}
////////////////////////////////////////////////////////////////////////////////
// cBioGenDistortedVoronoi:
void cBioGenDistortedVoronoi::GenBiomes(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_BiomeMap)
{
int BaseZ = cChunkDef::Width * a_ChunkCoords.m_ChunkZ;
int BaseX = cChunkDef::Width * a_ChunkCoords.m_ChunkX;
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// Distortions for linear interpolation:
int DistortX[cChunkDef::Width + 1][cChunkDef::Width + 1];
int DistortZ[cChunkDef::Width + 1][cChunkDef::Width + 1];
for (int x = 0; x <= 4; x++) for (int z = 0; z <= 4; z++)
{
Distort(BaseX + x * 4, BaseZ + z * 4, DistortX[4 * x][4 * z], DistortZ[4 * x][4 * z]);
}
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LinearUpscale2DArrayInPlace<cChunkDef::Width + 1, cChunkDef::Width + 1, 4, 4>(&DistortX[0][0]);
LinearUpscale2DArrayInPlace<cChunkDef::Width + 1, cChunkDef::Width + 1, 4, 4>(&DistortZ[0][0]);
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for (int z = 0; z < cChunkDef::Width; z++)
{
for (int x = 0; x < cChunkDef::Width; x++)
{
int VoronoiCellValue = m_Voronoi.GetValueAt(DistortX[x][z], DistortZ[x][z]) / 8;
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cChunkDef::SetBiome(a_BiomeMap, x, z, m_Biomes[static_cast<size_t>(VoronoiCellValue % m_BiomesCount)]);
} // for x
} // for z
}
void cBioGenDistortedVoronoi::InitializeBiomeGen(cIniFile & a_IniFile)
{
super::InitializeBiomeGen(a_IniFile);
m_CellSize = a_IniFile.GetValueSetI("Generator", "DistortedVoronoiCellSize", 96);
m_Voronoi.SetCellSize(m_CellSize);
InitializeBiomes(a_IniFile.GetValueSet("Generator", "DistortedVoronoiBiomes", ""));
}
void cBioGenDistortedVoronoi::Distort(int a_BlockX, int a_BlockZ, int & a_DistortedX, int & a_DistortedZ)
{
double NoiseX = m_Noise.CubicNoise3D(static_cast<float>(a_BlockX / m_CellSize), static_cast<float>(a_BlockZ / m_CellSize), 1000);
NoiseX += 0.5 * m_Noise.CubicNoise3D(2 * static_cast<float>(a_BlockX / m_CellSize), 2 * static_cast<float>(a_BlockZ / m_CellSize), 2000);
NoiseX += 0.08 * m_Noise.CubicNoise3D(16 * static_cast<float>(a_BlockX / m_CellSize), 16 * static_cast<float>(a_BlockZ / m_CellSize), 3000);
double NoiseZ = m_Noise.CubicNoise3D(static_cast<float>(a_BlockX / m_CellSize), static_cast<float>(a_BlockZ / m_CellSize), 4000);
NoiseZ += 0.5 * m_Noise.CubicNoise3D(2 * static_cast<float>(a_BlockX / m_CellSize), 2 * static_cast<float>(a_BlockZ / m_CellSize), 5000);
NoiseZ += 0.08 * m_Noise.CubicNoise3D(16 * static_cast<float>(a_BlockX / m_CellSize), 16 * static_cast<float>(a_BlockZ / m_CellSize), 6000);
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a_DistortedX = a_BlockX + static_cast<int>(m_CellSize * 0.5 * NoiseX);
a_DistortedZ = a_BlockZ + static_cast<int>(m_CellSize * 0.5 * NoiseZ);
}
////////////////////////////////////////////////////////////////////////////////
// cBioGenMultiStepMap :
cBioGenMultiStepMap::cBioGenMultiStepMap(int a_Seed) :
m_Noise1(a_Seed + 1000),
m_Noise2(a_Seed + 2000),
m_Noise3(a_Seed + 3000),
m_Noise4(a_Seed + 4000),
m_Noise5(a_Seed + 5000),
m_Noise6(a_Seed + 6000),
m_Seed(a_Seed),
m_OceanCellSize(384),
m_MushroomIslandSize(64),
m_RiverCellSize(384),
m_RiverWidthThreshold(0.125),
m_LandBiomesSize(1024)
{
}
void cBioGenMultiStepMap::InitializeBiomeGen(cIniFile & a_IniFile)
{
m_OceanCellSize = a_IniFile.GetValueSetI("Generator", "MultiStepMapOceanCellSize", m_OceanCellSize);
m_MushroomIslandSize = a_IniFile.GetValueSetI("Generator", "MultiStepMapMushroomIslandSize", m_MushroomIslandSize);
m_RiverCellSize = a_IniFile.GetValueSetI("Generator", "MultiStepMapRiverCellSize", m_RiverCellSize);
m_RiverWidthThreshold = a_IniFile.GetValueSetF("Generator", "MultiStepMapRiverWidth", m_RiverWidthThreshold);
m_LandBiomesSize = static_cast<float>(a_IniFile.GetValueSetI("Generator", "MultiStepMapLandBiomeSize", static_cast<int>(m_LandBiomesSize)));
}
void cBioGenMultiStepMap::GenBiomes(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_BiomeMap)
{
DecideOceanLandMushroom(a_ChunkCoords, a_BiomeMap);
AddRivers(a_ChunkCoords, a_BiomeMap);
ApplyTemperatureHumidity(a_ChunkCoords, a_BiomeMap);
}
void cBioGenMultiStepMap::DecideOceanLandMushroom(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_BiomeMap)
{
// Distorted Voronoi over 3 biomes, with mushroom having only a special occurence.
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// Prepare a distortion lookup table, by distorting a 5x5 area and using that as 1:4 zoom (linear interpolate):
int BaseZ = cChunkDef::Width * a_ChunkCoords.m_ChunkZ;
int BaseX = cChunkDef::Width * a_ChunkCoords.m_ChunkX;
int DistortX[cChunkDef::Width + 1][cChunkDef::Width + 1];
int DistortZ[cChunkDef::Width + 1][cChunkDef::Width + 1];
int DistortSize = m_OceanCellSize / 2;
for (int x = 0; x <= 4; x++) for (int z = 0; z <= 4; z++)
{
Distort(BaseX + x * 4, BaseZ + z * 4, DistortX[4 * x][4 * z], DistortZ[4 * x][4 * z], DistortSize);
}
LinearUpscale2DArrayInPlace<cChunkDef::Width + 1, cChunkDef::Width + 1, 4, 4>(&DistortX[0][0]);
LinearUpscale2DArrayInPlace<cChunkDef::Width + 1, cChunkDef::Width + 1, 4, 4>(&DistortZ[0][0]);
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// Prepare a 9x9 area of neighboring cell seeds
// (assuming that 7x7 cell area is larger than a chunk being generated)
const int NEIGHBORHOOD_SIZE = 4; // How many seeds in each direction to check
int CellX = BaseX / m_OceanCellSize;
int CellZ = BaseZ / m_OceanCellSize;
int SeedX[2 * NEIGHBORHOOD_SIZE + 1][2 * NEIGHBORHOOD_SIZE + 1];
int SeedZ[2 * NEIGHBORHOOD_SIZE + 1][2 * NEIGHBORHOOD_SIZE + 1];
EMCSBiome SeedV[2 * NEIGHBORHOOD_SIZE + 1][2 * NEIGHBORHOOD_SIZE + 1];
for (int xc = 0; xc < 2 * NEIGHBORHOOD_SIZE + 1; xc++)
{
int RealCellX = xc + CellX - NEIGHBORHOOD_SIZE;
int CellBlockX = RealCellX * m_OceanCellSize;
for (int zc = 0; zc < 2 * NEIGHBORHOOD_SIZE + 1; zc++)
{
int RealCellZ = zc + CellZ - NEIGHBORHOOD_SIZE;
int CellBlockZ = RealCellZ * m_OceanCellSize;
int OffsetX = (m_Noise2.IntNoise3DInt(RealCellX, 16 * RealCellX + 32 * RealCellZ, RealCellZ) / 8) % m_OceanCellSize;
int OffsetZ = (m_Noise4.IntNoise3DInt(RealCellX, 32 * RealCellX - 16 * RealCellZ, RealCellZ) / 8) % m_OceanCellSize;
SeedX[xc][zc] = CellBlockX + OffsetX;
SeedZ[xc][zc] = CellBlockZ + OffsetZ;
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SeedV[xc][zc] = (((m_Noise6.IntNoise3DInt(RealCellX, RealCellX - RealCellZ + 1000, RealCellZ) / 11) % 256) > 90) ? biOcean : (biInvalidBiome);
} // for z
} // for x
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for (int xc = 1; xc < 2 * NEIGHBORHOOD_SIZE; xc++) for (int zc = 1; zc < 2 * NEIGHBORHOOD_SIZE; zc++)
{
if (
(SeedV[xc ][zc] == biOcean) &&
(SeedV[xc - 1][zc] == biOcean) &&
(SeedV[xc + 1][zc] == biOcean) &&
(SeedV[xc ][zc - 1] == biOcean) &&
(SeedV[xc ][zc + 1] == biOcean) &&
(SeedV[xc - 1][zc - 1] == biOcean) &&
(SeedV[xc + 1][zc - 1] == biOcean) &&
(SeedV[xc - 1][zc + 1] == biOcean) &&
(SeedV[xc + 1][zc + 1] == biOcean)
)
{
SeedV[xc][zc] = biMushroomIsland;
}
}
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// For each column find the nearest distorted cell and use its value as the biome:
int MushroomOceanThreshold = m_OceanCellSize * m_OceanCellSize * m_MushroomIslandSize / 1024;
int MushroomShoreThreshold = m_OceanCellSize * m_OceanCellSize * m_MushroomIslandSize / 2048;
for (int z = 0; z < cChunkDef::Width; z++)
{
for (int x = 0; x < cChunkDef::Width; x++)
{
int AbsoluteZ = DistortZ[x][z];
int AbsoluteX = DistortX[x][z];
int MinDist = m_OceanCellSize * m_OceanCellSize * 16; // There has to be a cell closer than this
EMCSBiome Biome = biPlains;
// Find the nearest cell seed:
for (int xs = 1; xs < 2 * NEIGHBORHOOD_SIZE; xs++) for (int zs = 1; zs < 2 * NEIGHBORHOOD_SIZE; zs++)
{
int Dist = (SeedX[xs][zs] - AbsoluteX) * (SeedX[xs][zs] - AbsoluteX) + (SeedZ[xs][zs] - AbsoluteZ) * (SeedZ[xs][zs] - AbsoluteZ);
if (Dist >= MinDist)
{
continue;
}
MinDist = Dist;
Biome = SeedV[xs][zs];
// Shrink mushroom biome and add a shore:
if (Biome == biMushroomIsland)
{
if (Dist > MushroomOceanThreshold)
{
Biome = biOcean;
}
else if (Dist > MushroomShoreThreshold)
{
Biome = biMushroomShore;
}
}
} // for zs, xs
cChunkDef::SetBiome(a_BiomeMap, x, z, Biome);
} // for x
} // for z
}
void cBioGenMultiStepMap::AddRivers(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_BiomeMap)
{
for (int z = 0; z < cChunkDef::Width; z++)
{
float NoiseCoordZ = static_cast<float>(a_ChunkCoords.m_ChunkZ * cChunkDef::Width + z) / m_RiverCellSize;
for (int x = 0; x < cChunkDef::Width; x++)
{
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if (cChunkDef::GetBiome(a_BiomeMap, x, z) != biInvalidBiome)
{
// Biome already set, skip this column
continue;
}
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float NoiseCoordX = static_cast<float>(a_ChunkCoords.m_ChunkX * cChunkDef::Width + x) / m_RiverCellSize;
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double Noise = m_Noise1.CubicNoise2D( NoiseCoordX, NoiseCoordZ);
Noise += 0.5 * m_Noise3.CubicNoise2D(2 * NoiseCoordX, 2 * NoiseCoordZ);
Noise += 0.1 * m_Noise5.CubicNoise2D(8 * NoiseCoordX, 8 * NoiseCoordZ);
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if ((Noise > 0) && (Noise < m_RiverWidthThreshold))
{
cChunkDef::SetBiome(a_BiomeMap, x, z, biRiver);
}
} // for x
} // for z
}
void cBioGenMultiStepMap::ApplyTemperatureHumidity(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_BiomeMap)
{
IntMap TemperatureMap;
IntMap HumidityMap;
BuildTemperatureHumidityMaps(a_ChunkCoords, TemperatureMap, HumidityMap);
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FreezeWaterBiomes(a_BiomeMap, TemperatureMap);
DecideLandBiomes(a_BiomeMap, TemperatureMap, HumidityMap);
}
void cBioGenMultiStepMap::Distort(int a_BlockX, int a_BlockZ, int & a_DistortedX, int & a_DistortedZ, int a_CellSize)
{
double NoiseX = m_Noise3.CubicNoise2D( static_cast<float>(a_BlockX / a_CellSize), static_cast<float>(a_BlockZ / a_CellSize));
NoiseX += 0.5 * m_Noise2.CubicNoise2D(2 * static_cast<float>(a_BlockX / a_CellSize), 2 * static_cast<float>(a_BlockZ / a_CellSize));
NoiseX += 0.1 * m_Noise1.CubicNoise2D(16 * static_cast<float>(a_BlockX / a_CellSize), 16 * static_cast<float>(a_BlockZ / a_CellSize));
double NoiseZ = m_Noise6.CubicNoise2D( static_cast<float>(a_BlockX / a_CellSize), static_cast<float>(a_BlockZ / a_CellSize));
NoiseZ += 0.5 * m_Noise5.CubicNoise2D(2 * static_cast<float>(a_BlockX / a_CellSize), 2 * static_cast<float>(a_BlockZ / a_CellSize));
NoiseZ += 0.1 * m_Noise4.CubicNoise2D(16 * static_cast<float>(a_BlockX / a_CellSize), 16 * static_cast<float>(a_BlockZ / a_CellSize));
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a_DistortedX = a_BlockX + static_cast<int>(a_CellSize * 0.5 * NoiseX);
a_DistortedZ = a_BlockZ + static_cast<int>(a_CellSize * 0.5 * NoiseZ);
}
void cBioGenMultiStepMap::BuildTemperatureHumidityMaps(cChunkCoords a_ChunkCoords, IntMap & a_TemperatureMap, IntMap & a_HumidityMap)
{
// Linear interpolation over 8x8 blocks; use double for better precision:
DblMap TemperatureMap;
DblMap HumidityMap;
for (int z = 0; z < 17; z += 8)
{
float NoiseCoordZ = static_cast<float>(a_ChunkCoords.m_ChunkZ * cChunkDef::Width + z) / m_LandBiomesSize;
for (int x = 0; x < 17; x += 8)
{
float NoiseCoordX = static_cast<float>(a_ChunkCoords.m_ChunkX * cChunkDef::Width + x) / m_LandBiomesSize;
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double NoiseT = m_Noise1.CubicNoise2D( NoiseCoordX, NoiseCoordZ);
NoiseT += 0.5 * m_Noise2.CubicNoise2D(2 * NoiseCoordX, 2 * NoiseCoordZ);
NoiseT += 0.1 * m_Noise3.CubicNoise2D(8 * NoiseCoordX, 8 * NoiseCoordZ);
TemperatureMap[x + 17 * z] = NoiseT;
double NoiseH = m_Noise4.CubicNoise2D( NoiseCoordX, NoiseCoordZ);
NoiseH += 0.5 * m_Noise5.CubicNoise2D(2 * NoiseCoordX, 2 * NoiseCoordZ);
NoiseH += 0.1 * m_Noise6.CubicNoise2D(8 * NoiseCoordX, 8 * NoiseCoordZ);
HumidityMap[x + 17 * z] = NoiseH;
} // for x
} // for z
LinearUpscale2DArrayInPlace<17, 17, 8, 8>(TemperatureMap);
LinearUpscale2DArrayInPlace<17, 17, 8, 8>(HumidityMap);
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// Re-map into integral values in [0 .. 255] range:
for (size_t idx = 0; idx < ARRAYCOUNT(a_TemperatureMap); idx++)
{
a_TemperatureMap[idx] = Clamp(static_cast<int>(128 + TemperatureMap[idx] * 128), 0, 255);
a_HumidityMap[idx] = Clamp(static_cast<int>(128 + HumidityMap[idx] * 128), 0, 255);
}
}
void cBioGenMultiStepMap::DecideLandBiomes(cChunkDef::BiomeMap & a_BiomeMap, const IntMap & a_TemperatureMap, const IntMap & a_HumidityMap)
{
static const EMCSBiome BiomeMap[] =
{
// 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
/* 0 */ biTundra, biTundra, biTundra, biTundra, biPlains, biPlains, biPlains, biPlains, biPlains, biPlains, biDesert, biDesert, biDesert, biDesert, biDesert, biDesert,
/* 1 */ biTundra, biTundra, biTundra, biTundra, biPlains, biPlains, biPlains, biPlains, biPlains, biPlains, biDesert, biDesert, biDesert, biDesert, biDesert, biDesert,
/* 2 */ biTundra, biTundra, biTundra, biTundra, biPlains, biExtremeHills, biPlains, biPlains, biPlains, biPlains, biDesert, biDesert, biDesertHills, biDesertHills, biDesert, biDesert,
/* 3 */ biTundra, biTundra, biTundra, biTundra, biExtremeHills, biExtremeHills, biPlains, biPlains, biPlains, biPlains, biDesert, biDesert, biDesertHills, biDesertHills, biDesert, biDesert,
/* 4 */ biTundra, biTundra, biIceMountains, biIceMountains, biExtremeHills, biExtremeHills, biPlains, biPlains, biPlains, biPlains, biForestHills, biForestHills, biExtremeHills, biExtremeHills, biDesertHills, biDesert,
/* 5 */ biTundra, biTundra, biIceMountains, biIceMountains, biExtremeHills, biExtremeHills, biPlains, biPlains, biPlains, biPlains, biForestHills, biForestHills, biExtremeHills, biExtremeHills, biDesertHills, biDesert,
/* 6 */ biTundra, biTundra, biIceMountains, biIceMountains, biForestHills, biForestHills, biForest, biForest, biForest, biForest, biForest, biForestHills, biExtremeHills, biExtremeHills, biPlains, biPlains,
/* 7 */ biTundra, biTundra, biIceMountains, biIceMountains, biForestHills, biForestHills, biForest, biForest, biForest, biForest, biForest, biForestHills, biExtremeHills, biExtremeHills, biPlains, biPlains,
/* 8 */ biTundra, biTundra, biTaiga, biTaiga, biForest, biForest, biForest, biForest, biForest, biForest, biForest, biForestHills, biExtremeHills, biExtremeHills, biPlains, biPlains,
/* 9 */ biTundra, biTundra, biTaiga, biTaiga, biForest, biForest, biForest, biForest, biForest, biForest, biForest, biForestHills, biExtremeHills, biExtremeHills, biPlains, biPlains,
/* 10 */ biTaiga, biTaiga, biTaiga, biIceMountains, biForestHills, biForestHills, biForest, biForest, biForest, biForest, biJungle, biJungle, biSwampland, biSwampland, biSwampland, biSwampland,
/* 11 */ biTaiga, biTaiga, biIceMountains, biIceMountains, biExtremeHills, biForestHills, biForest, biForest, biForest, biForest, biJungle, biJungle, biSwampland, biSwampland, biSwampland, biSwampland,
/* 12 */ biTaiga, biTaiga, biIceMountains, biIceMountains, biExtremeHills, biJungleHills, biJungle, biJungle, biJungle, biJungle, biJungle, biJungle, biSwampland, biSwampland, biSwampland, biSwampland,
/* 13 */ biTaiga, biTaiga, biTaiga, biIceMountains, biJungleHills, biJungleHills, biJungle, biJungle, biJungle, biJungle, biJungle, biJungle, biSwampland, biSwampland, biSwampland, biSwampland,
/* 14 */ biTaiga, biTaiga, biTaiga, biTaiga, biJungle, biJungle, biJungle, biJungle, biJungle, biJungle, biJungle, biJungle, biSwampland, biSwampland, biSwampland, biSwampland,
/* 15 */ biTaiga, biTaiga, biTaiga, biTaiga, biJungle, biJungle, biJungle, biJungle, biJungle, biJungle, biJungle, biJungle, biSwampland, biSwampland, biSwampland, biSwampland,
} ;
for (int z = 0; z < cChunkDef::Width; z++)
{
int idxZ = 17 * z;
for (int x = 0; x < cChunkDef::Width; x++)
{
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if (cChunkDef::GetBiome(a_BiomeMap, x, z) != biInvalidBiome)
{
// Already set before
continue;
}
int idx = idxZ + x;
int Temperature = a_TemperatureMap[idx] / 16; // -> [0..15] range
int Humidity = a_HumidityMap[idx] / 16; // -> [0..15] range
cChunkDef::SetBiome(a_BiomeMap, x, z, BiomeMap[Temperature + 16 * Humidity]);
} // for x
} // for z
}
void cBioGenMultiStepMap::FreezeWaterBiomes(cChunkDef::BiomeMap & a_BiomeMap, const IntMap & a_TemperatureMap)
{
int idx = 0;
for (int z = 0; z < cChunkDef::Width; z++)
{
for (int x = 0; x < cChunkDef::Width; x++, idx++)
{
if (a_TemperatureMap[idx] > 4 * 16)
{
// Not frozen
continue;
}
switch (cChunkDef::GetBiome(a_BiomeMap, x, z))
{
case biRiver: cChunkDef::SetBiome(a_BiomeMap, x, z, biFrozenRiver); break;
case biOcean: cChunkDef::SetBiome(a_BiomeMap, x, z, biFrozenOcean); break;
default: break;
}
} // for x
idx += 1;
} // for z
}
////////////////////////////////////////////////////////////////////////////////
// cBioGenTwoLevel:
cBioGenTwoLevel::cBioGenTwoLevel(int a_Seed) :
m_VoronoiLarge(a_Seed + 1000),
m_VoronoiSmall(a_Seed + 2000),
m_Noise1(a_Seed + 5001),
m_Noise2(a_Seed + 5002),
m_Noise3(a_Seed + 5003),
m_Noise4(a_Seed + 5004),
m_Noise5(a_Seed + 5005),
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m_Noise6(a_Seed + 5006),
m_FreqX1(0.0),
m_AmpX1(0.0),
m_FreqX2(0.0),
m_AmpX2(0.0),
m_FreqX3(0.0),
m_AmpX3(0.0),
m_FreqZ1(0.0),
m_AmpZ1(0.0),
m_FreqZ2(0.0),
m_AmpZ2(0.0),
m_FreqZ3(0.0),
m_AmpZ3(0.0)
{
}
void cBioGenTwoLevel::GenBiomes(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_BiomeMap)
{
int BaseZ = cChunkDef::Width * a_ChunkCoords.m_ChunkZ;
int BaseX = cChunkDef::Width * a_ChunkCoords.m_ChunkX;
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// Distortions for linear interpolation:
int DistortX[cChunkDef::Width + 1][cChunkDef::Width + 1];
int DistortZ[cChunkDef::Width + 1][cChunkDef::Width + 1];
for (int x = 0; x <= 4; x++) for (int z = 0; z <= 4; z++)
{
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float BlockX = static_cast<float>(BaseX + x * 4);
float BlockZ = static_cast<float>(BaseZ + z * 4);
double NoiseX = m_AmpX1 * m_Noise1.CubicNoise2D(BlockX * m_FreqX1, BlockZ * m_FreqX1);
NoiseX += m_AmpX2 * m_Noise2.CubicNoise2D(BlockX * m_FreqX2, BlockZ * m_FreqX2);
NoiseX += m_AmpX3 * m_Noise3.CubicNoise2D(BlockX * m_FreqX3, BlockZ * m_FreqX3);
double NoiseZ = m_AmpZ1 * m_Noise4.CubicNoise2D(BlockX * m_FreqZ1, BlockZ * m_FreqZ1);
NoiseZ += m_AmpZ2 * m_Noise5.CubicNoise2D(BlockX * m_FreqZ2, BlockZ * m_FreqZ2);
NoiseZ += m_AmpZ3 * m_Noise6.CubicNoise2D(BlockX * m_FreqZ3, BlockZ * m_FreqZ3);
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DistortX[4 * x][4 * z] = static_cast<int>(BlockX + NoiseX);
DistortZ[4 * x][4 * z] = static_cast<int>(BlockZ + NoiseZ);
}
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LinearUpscale2DArrayInPlace<cChunkDef::Width + 1, cChunkDef::Width + 1, 4, 4>(&DistortX[0][0]);
LinearUpscale2DArrayInPlace<cChunkDef::Width + 1, cChunkDef::Width + 1, 4, 4>(&DistortZ[0][0]);
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// Apply distortion to each block coord, then query the voronoi maps for biome group and biome index and choose biome based on that:
for (int z = 0; z < cChunkDef::Width; z++)
{
for (int x = 0; x < cChunkDef::Width; x++)
{
int SeedX, SeedZ, MinDist2;
int BiomeGroup = m_VoronoiLarge.GetValueAt(DistortX[x][z], DistortZ[x][z], SeedX, SeedZ, MinDist2) / 7;
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size_t BiomeIdx = static_cast<size_t>(m_VoronoiSmall.GetValueAt(DistortX[x][z], DistortZ[x][z], SeedX, SeedZ, MinDist2) / 11);
int MinDist1 = (DistortX[x][z] - SeedX) * (DistortX[x][z] - SeedX) + (DistortZ[x][z] - SeedZ) * (DistortZ[x][z] - SeedZ);
cChunkDef::SetBiome(a_BiomeMap, x, z, SelectBiome(BiomeGroup, BiomeIdx, (MinDist1 < MinDist2 / 4) ? 1 : 0));
}
}
}
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EMCSBiome cBioGenTwoLevel::SelectBiome(int a_BiomeGroup, size_t a_BiomeIdx, int a_DistLevel)
{
// TODO: Move this into settings
struct BiomeLevels
{
EMCSBiome InnerBiome;
EMCSBiome OuterBiome;
} ;
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static BiomeLevels bgOcean[] =
{
{ biOcean, biOcean, },
{ biOcean, biOcean, },
{ biOcean, biOcean, },
{ biOcean, biOcean, },
{ biOcean, biDeepOcean, },
{ biOcean, biDeepOcean, },
{ biDeepOcean, biDeepOcean, },
{ biDeepOcean, biDeepOcean, },
{ biDeepOcean, biDeepOcean, },
{ biDeepOcean, biDeepOcean, },
{ biMushroomIsland, biMushroomShore, }
} ;
static BiomeLevels bgFrozen[] =
{
{ biIcePlains, biIcePlains, },
{ biIceMountains, biIceMountains, },
{ biFrozenOcean, biFrozenRiver, },
{ biColdTaiga, biColdTaiga, },
{ biColdTaigaHills, biColdTaigaHills, },
{ biColdTaigaM, biColdTaigaM, },
{ biIcePlainsSpikes, biIcePlainsSpikes, },
{ biExtremeHills, biExtremeHillsEdge, },
{ biExtremeHillsPlus, biExtremeHillsEdge, },
{ biExtremeHillsPlusM, biExtremeHillsPlusM, },
} ;
static BiomeLevels bgTemperate[] =
{
{ biBirchForestHills, biBirchForest, },
{ biBirchForest, biBirchForest, },
{ biBirchForestHillsM, biBirchForestM, },
{ biBirchForestM, biBirchForestM, },
{ biForest, biForestHills, },
{ biFlowerForest, biFlowerForest, },
{ biRoofedForest, biForest, },
{ biRoofedForest, biRoofedForest, },
{ biRoofedForestM, biForest, },
{ biPlains, biPlains, },
{ biSunflowerPlains, biSunflowerPlains, },
{ biSwampland, biSwampland, },
{ biSwamplandM, biSwamplandM, },
} ;
static BiomeLevels bgWarm[] =
{
{ biDesertHills, biDesert, },
{ biDesert, biDesert, },
{ biDesertM, biDesertM, },
{ biSavannaPlateau, biSavanna, },
{ biSavanna, biSavanna, },
{ biSavannaM, biSavannaM, },
} ;
static BiomeLevels bgMesa[] =
{
{ biMesaPlateau, biMesa, },
{ biMesaPlateauF, biMesa, },
{ biMesaPlateauFM, biMesa, },
{ biMesaPlateauM, biMesa, },
{ biMesaBryce, biMesaBryce, },
{ biSavanna, biSavanna, },
{ biSavannaPlateau, biSavanna, },
} ;
static BiomeLevels bgConifers[] =
{
{ biTaiga, biTaiga, },
{ biTaigaM, biTaigaM, },
{ biMegaTaiga, biMegaTaiga, },
{ biMegaSpruceTaiga, biMegaSpruceTaiga, },
{ biMegaSpruceTaigaHills, biMegaSpruceTaiga, }
} ;
static BiomeLevels bgDenseTrees[] =
{
{ biJungleHills, biJungle, },
{ biJungle, biJungleEdge, },
{ biJungleM, biJungleEdgeM, },
} ;
static struct
{
BiomeLevels * Biomes;
size_t Count;
} BiomeGroups[] =
{
{ bgOcean, ARRAYCOUNT(bgOcean), },
{ bgOcean, ARRAYCOUNT(bgOcean), },
{ bgFrozen, ARRAYCOUNT(bgFrozen), },
{ bgFrozen, ARRAYCOUNT(bgFrozen), },
{ bgTemperate, ARRAYCOUNT(bgTemperate), },
{ bgTemperate, ARRAYCOUNT(bgTemperate), },
{ bgConifers, ARRAYCOUNT(bgConifers), },
{ bgConifers, ARRAYCOUNT(bgConifers), },
{ bgWarm, ARRAYCOUNT(bgWarm), },
{ bgWarm, ARRAYCOUNT(bgWarm), },
{ bgMesa, ARRAYCOUNT(bgMesa), },
{ bgDenseTrees, ARRAYCOUNT(bgDenseTrees), },
} ;
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size_t Group = static_cast<size_t>(a_BiomeGroup) % ARRAYCOUNT(BiomeGroups);
size_t Index = a_BiomeIdx % BiomeGroups[Group].Count;
return (a_DistLevel > 0) ? BiomeGroups[Group].Biomes[Index].InnerBiome : BiomeGroups[Group].Biomes[Index].OuterBiome;
}
void cBioGenTwoLevel::InitializeBiomeGen(cIniFile & a_IniFile)
{
m_VoronoiLarge.SetCellSize(a_IniFile.GetValueSetI("Generator", "TwoLevelLargeCellSize", 1024));
m_VoronoiSmall.SetCellSize(a_IniFile.GetValueSetI("Generator", "TwoLevelSmallCellSize", 128));
m_FreqX1 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortXOctave1Freq", 0.01));
m_AmpX1 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortXOctave1Amp", 80));
m_FreqX2 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortXOctave2Freq", 0.05));
m_AmpX2 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortXOctave2Amp", 20));
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m_FreqX3 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortXOctave3Freq", 0.1));
m_AmpX3 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortXOctave3Amp", 8));
m_FreqZ1 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortZOctave1Freq", 0.01));
m_AmpZ1 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortZOctave1Amp", 80));
m_FreqZ2 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortZOctave2Freq", 0.05));
m_AmpZ2 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortZOctave2Amp", 20));
m_FreqZ3 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortZOctave3Freq", 0.1));
m_AmpZ3 = static_cast<float>(a_IniFile.GetValueSetF("Generator", "TwoLevelDistortZOctave3Amp", 8));
}
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////////////////////////////////////////////////////////////////////////////////
// cBioGenGrown:
class cBioGenGrown:
public cBiomeGen
{
public:
cBioGenGrown(int a_Seed)
{
auto FinalRivers =
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std::make_shared<cIntGenChoice<2, 7>>(a_Seed + 12)
| MakeIntGen<cIntGenZoom <10>>(a_Seed + 11)
| MakeIntGen<cIntGenSmooth<8>>(a_Seed + 6)
| MakeIntGen<cIntGenSmooth<6>>(a_Seed + 5)
| MakeIntGen<cIntGenZoom <8>>(a_Seed + 10)
| MakeIntGen<cIntGenSmooth<6>>(a_Seed + 5)
| MakeIntGen<cIntGenZoom <8>>(a_Seed + 9)
| MakeIntGen<cIntGenSmooth<6>>(a_Seed + 5)
| MakeIntGen<cIntGenZoom <8>>(a_Seed + 8)
| MakeIntGen<cIntGenSmooth<6>>(a_Seed + 5)
| MakeIntGen<cIntGenZoom <9>>(a_Seed + 4)
| MakeIntGen<cIntGenRiver <7>>(a_Seed + 3)
| MakeIntGen<cIntGenZoom <10>>(a_Seed + 2)
| MakeIntGen<cIntGenSmooth<8>>(a_Seed + 1);
auto alteration =
std::make_shared<cIntGenZoom <8>>(a_Seed,
std::make_shared<cIntGenLandOcean<6>>(a_Seed, 20
));
auto alteration2 =
std::make_shared<cIntGenZoom <8>>(a_Seed + 1,
std::make_shared<cIntGenZoom <6>>(a_Seed + 2,
std::make_shared<cIntGenZoom <5>>(a_Seed + 1,
std::make_shared<cIntGenZoom <4>>(a_Seed + 2,
std::make_shared<cIntGenLandOcean<4>>(a_Seed + 1, 10
)))));
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auto FinalBiomes =
std::make_shared<cIntGenSmooth <8>> (a_Seed + 1,
std::make_shared<cIntGenZoom <10>>(a_Seed + 15,
std::make_shared<cIntGenSmooth <7>> (a_Seed + 1,
std::make_shared<cIntGenZoom <9>> (a_Seed + 16,
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std::make_shared<cIntGenBeaches <6>> (
std::make_shared<cIntGenZoom <8>> (a_Seed + 1,
std::make_shared<cIntGenAddIslands <6>> (a_Seed + 2004, 10,
std::make_shared<cIntGenAddToOcean <6>> (a_Seed + 10, 500, biDeepOcean,
std::make_shared<cIntGenReplaceRandomly<8>> (a_Seed + 1, biPlains, biSunflowerPlains, 20,
std::make_shared<cIntGenMBiomes <8>> (a_Seed + 5, alteration2,
std::make_shared<cIntGenAlternateBiomes<8>> (a_Seed + 1, alteration,
std::make_shared<cIntGenBiomeEdges <8>> (a_Seed + 3,
std::make_shared<cIntGenZoom <10>>(a_Seed + 2,
std::make_shared<cIntGenZoom <7>> (a_Seed + 4,
std::make_shared<cIntGenReplaceRandomly<5>> (a_Seed + 99, biIcePlains, biIcePlainsSpikes, 50,
std::make_shared<cIntGenZoom <5>> (a_Seed + 8,
std::make_shared<cIntGenAddToOcean <4>> (a_Seed + 10, 300, biDeepOcean,
std::make_shared<cIntGenAddToOcean <6>> (a_Seed + 9, 8, biMushroomIsland,
std::make_shared<cIntGenBiomes <8>> (a_Seed + 3000,
std::make_shared<cIntGenAddIslands <8>> (a_Seed + 2000, 200,
std::make_shared<cIntGenZoom <8>> (a_Seed + 5,
std::make_shared<cIntGenRareBiomeGroups<6>> (a_Seed + 5, 50,
std::make_shared<cIntGenBiomeGroupEdges<6>> (
std::make_shared<cIntGenAddIslands <8>> (a_Seed + 2000, 200,
std::make_shared<cIntGenZoom <8>> (a_Seed + 7,
std::make_shared<cIntGenSetRandomly <6>> (a_Seed + 8, 50, bgOcean,
std::make_shared<cIntGenReplaceRandomly<6>> (a_Seed + 101, bgIce, bgTemperate, 150,
std::make_shared<cIntGenAddIslands <6>> (a_Seed + 2000, 200,
std::make_shared<cIntGenSetRandomly <6>> (a_Seed + 9, 50, bgOcean,
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std::make_shared<cIntGenLandOcean <5>> (a_Seed + 100, 30)
| MakeIntGen<cIntGenZoom <6>> (a_Seed + 10)
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)))))))))))))))))))))))))))));
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m_Gen =
std::make_shared<cIntGenSmooth <16>>(a_Seed,
std::make_shared<cIntGenZoom <18>>(a_Seed,
std::make_shared<cIntGenSmooth <11>>(a_Seed,
std::make_shared<cIntGenZoom <13>>(a_Seed,
std::make_shared<cIntGenMixRivers<8>> (
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FinalBiomes, FinalRivers
)))));
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}
virtual void GenBiomes(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_Biomes) override
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{
cIntGen<16, 16>::Values vals;
m_Gen->GetInts(a_ChunkCoords.m_ChunkX * cChunkDef::Width, a_ChunkCoords.m_ChunkZ * cChunkDef::Width, vals);
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for (int z = 0; z < cChunkDef::Width; z++)
{
for (int x = 0; x < cChunkDef::Width; x++)
{
cChunkDef::SetBiome(a_Biomes, x, z, static_cast<EMCSBiome>(vals[x + cChunkDef::Width * z]));
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}
}
}
protected:
std::shared_ptr<cIntGen<16, 16>> m_Gen;
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};
////////////////////////////////////////////////////////////////////////////////
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// cBioGenProtGrown:
class cBioGenProtGrown:
public cBiomeGen
{
public:
cBioGenProtGrown(int a_Seed)
{
auto FinalRivers =
std::make_shared<cProtIntGenSmooth>(a_Seed + 1,
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std::make_shared<cProtIntGenZoom >(a_Seed + 2,
std::make_shared<cProtIntGenRiver >(a_Seed + 3,
std::make_shared<cProtIntGenZoom >(a_Seed + 4,
std::make_shared<cProtIntGenSmooth>(a_Seed + 5,
std::make_shared<cProtIntGenZoom >(a_Seed + 8,
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std::make_shared<cProtIntGenSmooth>(a_Seed + 5,
std::make_shared<cProtIntGenZoom >(a_Seed + 9,
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std::make_shared<cProtIntGenSmooth>(a_Seed + 5,
std::make_shared<cProtIntGenZoom >(a_Seed + 10,
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std::make_shared<cProtIntGenSmooth>(a_Seed + 5,
std::make_shared<cProtIntGenSmooth>(a_Seed + 6,
std::make_shared<cProtIntGenZoom >(a_Seed + 11,
std::make_shared<cProtIntGenChoice>(a_Seed + 12, 2
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))))))))))))));
auto alteration =
std::make_shared<cProtIntGenZoom >(a_Seed,
std::make_shared<cProtIntGenLandOcean>(a_Seed, 20
));
auto alteration2 =
std::make_shared<cProtIntGenZoom >(a_Seed + 1,
std::make_shared<cProtIntGenZoom >(a_Seed + 2,
std::make_shared<cProtIntGenZoom >(a_Seed + 1,
std::make_shared<cProtIntGenZoom >(a_Seed + 2,
std::make_shared<cProtIntGenLandOcean>(a_Seed + 1, 10
)))));
auto FinalBiomes =
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std::make_shared<cProtIntGenSmooth >(a_Seed + 1,
std::make_shared<cProtIntGenZoom >(a_Seed + 15,
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std::make_shared<cProtIntGenSmooth >(a_Seed + 1,
std::make_shared<cProtIntGenZoom >(a_Seed + 16,
std::make_shared<cProtIntGenBeaches >(
std::make_shared<cProtIntGenZoom >(a_Seed + 1,
std::make_shared<cProtIntGenAddIslands >(a_Seed + 2004, 10,
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std::make_shared<cProtIntGenAddToOcean >(a_Seed + 10, 500, biDeepOcean,
std::make_shared<cProtIntGenReplaceRandomly>(a_Seed + 1, biPlains, biSunflowerPlains, 20,
std::make_shared<cProtIntGenMBiomes >(a_Seed + 5, alteration2,
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std::make_shared<cProtIntGenAlternateBiomes>(a_Seed + 1, alteration,
std::make_shared<cProtIntGenBiomeEdges >(a_Seed + 3,
std::make_shared<cProtIntGenZoom >(a_Seed + 2,
std::make_shared<cProtIntGenZoom >(a_Seed + 4,
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std::make_shared<cProtIntGenReplaceRandomly>(a_Seed + 99, biIcePlains, biIcePlainsSpikes, 50,
std::make_shared<cProtIntGenZoom >(a_Seed + 8,
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std::make_shared<cProtIntGenAddToOcean >(a_Seed + 10, 300, biDeepOcean,
std::make_shared<cProtIntGenAddToOcean >(a_Seed + 9, 8, biMushroomIsland,
std::make_shared<cProtIntGenBiomes >(a_Seed + 3000,
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std::make_shared<cProtIntGenAddIslands >(a_Seed + 2000, 200,
std::make_shared<cProtIntGenZoom >(a_Seed + 5,
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std::make_shared<cProtIntGenRareBiomeGroups>(a_Seed + 5, 50,
std::make_shared<cProtIntGenBiomeGroupEdges>(
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std::make_shared<cProtIntGenAddIslands >(a_Seed + 2000, 200,
std::make_shared<cProtIntGenZoom >(a_Seed + 7,
std::make_shared<cProtIntGenSetRandomly >(a_Seed + 8, 50, bgOcean,
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std::make_shared<cProtIntGenReplaceRandomly>(a_Seed + 101, bgIce, bgTemperate, 150,
std::make_shared<cProtIntGenAddIslands >(a_Seed + 2000, 200,
std::make_shared<cProtIntGenSetRandomly >(a_Seed + 9, 50, bgOcean,
std::make_shared<cProtIntGenZoom >(a_Seed + 10,
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std::make_shared<cProtIntGenLandOcean >(a_Seed + 100, 30
)))))))))))))))))))))))))))))));
m_Gen =
std::make_shared<cProtIntGenSmooth >(a_Seed,
std::make_shared<cProtIntGenZoom >(a_Seed,
std::make_shared<cProtIntGenSmooth >(a_Seed,
std::make_shared<cProtIntGenZoom >(a_Seed,
std::make_shared<cProtIntGenMixRivers>(
FinalBiomes, FinalRivers
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)))));
}
virtual void GenBiomes(cChunkCoords a_ChunkCoords, cChunkDef::BiomeMap & a_Biomes) override
{
int vals[16 * 16];
m_Gen->GetInts(a_ChunkCoords.m_ChunkX * cChunkDef::Width, a_ChunkCoords.m_ChunkZ * cChunkDef::Width, 16, 16, vals);
for (int z = 0; z < cChunkDef::Width; z++)
{
for (int x = 0; x < cChunkDef::Width; x++)
{
cChunkDef::SetBiome(a_Biomes, x, z, static_cast<EMCSBiome>(vals[x + cChunkDef::Width * z]));
}
}
}
protected:
std::shared_ptr<cProtIntGen> m_Gen;
};
////////////////////////////////////////////////////////////////////////////////
// cBiomeGen:
cBiomeGenPtr cBiomeGen::CreateBiomeGen(cIniFile & a_IniFile, int a_Seed, bool & a_CacheOffByDefault)
{
AString BiomeGenName = a_IniFile.GetValue("Generator", "BiomeGen");
if (BiomeGenName.empty())
{
LOGWARN("[Generator] BiomeGen value not set in world.ini, using \"Grown\".");
BiomeGenName = "Grown";
}
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cBiomeGen * res = nullptr;
a_CacheOffByDefault = false;
if (NoCaseCompare(BiomeGenName, "constant") == 0)
{
res = new cBioGenConstant;
a_CacheOffByDefault = true; // we're generating faster than a cache would retrieve data :)
}
else if (NoCaseCompare(BiomeGenName, "checkerboard") == 0)
{
res = new cBioGenCheckerboard;
a_CacheOffByDefault = true; // we're (probably) generating faster than a cache would retrieve data
}
else if (NoCaseCompare(BiomeGenName, "voronoi") == 0)
{
res = new cBioGenVoronoi(a_Seed);
}
else if (NoCaseCompare(BiomeGenName, "distortedvoronoi") == 0)
{
res = new cBioGenDistortedVoronoi(a_Seed);
}
else if (NoCaseCompare(BiomeGenName, "twolevel") == 0)
{
res = new cBioGenTwoLevel(a_Seed);
}
else if (NoCaseCompare(BiomeGenName, "multistepmap") == 0)
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{
res = new cBioGenMultiStepMap(a_Seed);
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}
else if (NoCaseCompare(BiomeGenName, "grownprot") == 0)
{
res = new cBioGenProtGrown(a_Seed);
}
else
{
if (NoCaseCompare(BiomeGenName, "grown") != 0)
{
LOGWARNING("Unknown BiomeGen \"%s\", using \"Grown\" instead.", BiomeGenName.c_str());
}
res = new cBioGenGrown(a_Seed);
}
res->InitializeBiomeGen(a_IniFile);
return cBiomeGenPtr(res);
}
////////////////////////////////////////////////////////////////////////////////
// Performance tests:
// Change to 1 to enable the perf test:
#if 0
class cBioGenPerfTest
{
public:
cBioGenPerfTest()
{
std::cout << "BioGen performance tests commencing, please wait..." << std::endl;
TestGen("MultiStepMap", std::make_unique<cBioGenMultiStepMap>(1).get());
TestGen("Grown", std::make_unique<cBioGenGrown>(1).get());
TestGen("GrownProt", std::make_unique<cBioGenProtGrown>(1).get());
std::cout << "BioGen performance tests complete." << std::endl;
}
protected:
void TestGen(const AString && a_GenName, cBiomeGen * a_BioGen)
{
// Initialize the default settings for the generator:
cIniFile iniFile;
a_BioGen->InitializeBiomeGen(iniFile);
// Generate the biomes:
auto start = std::chrono::system_clock::now();
for (int z = 0; z < 100; z++)
{
for (int x = 0; x < 100; x++)
{
cChunkDef::BiomeMap biomes;
a_BioGen->GenBiomes(x, z, biomes);
} // for x
} // for z
auto dur = std::chrono::system_clock::now() - start;
double milliseconds = static_cast<double>((std::chrono::duration_cast<std::chrono::milliseconds>(dur)).count());
std::cout << a_GenName << ": " << 1000.0 * 100.0 * 100.0 / milliseconds << " chunks per second" << std::endl;
}
} g_BioGenPerfTest;
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#endif