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path: root/src/Generating/BioGen.cpp
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// BioGen.cpp

// Implements the various biome generators

#include "Globals.h"
#include "BioGen.h"
#include "inifile/iniFile.h"
#include "../LinearUpscale.h"





////////////////////////////////////////////////////////////////////////////////
// cBiomeGen:

cBiomeGen * cBiomeGen::CreateBiomeGen(cIniFile & a_IniFile, int a_Seed, bool & a_CacheOffByDefault)
{
	AString BiomeGenName = a_IniFile.GetValueSet("Generator", "BiomeGen", "");
	if (BiomeGenName.empty())
	{
		LOGWARN("[Generator] BiomeGen value not set in world.ini, using \"MultiStepMap\".");
		BiomeGenName = "MultiStepMap";
	}
	
	cBiomeGen * res = NULL;
	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)
		{
			LOGWARNING("Unknown BiomeGen \"%s\", using \"MultiStepMap\" instead.", BiomeGenName.c_str());
		}
		res = new cBioGenMultiStepMap(a_Seed);

		/*
		// Performance-testing:
		LOGINFO("Measuring performance of cBioGenMultiStepMap...");
		clock_t BeginTick = clock();
		for (int x = 0; x < 5000; x++)
		{
			cChunkDef::BiomeMap Biomes;
			res->GenBiomes(x * 5, x * 5, Biomes);
		}
		clock_t Duration = clock() - BeginTick;
		LOGINFO("cBioGenMultiStepMap for 5000 chunks took %d ticks (%.02f sec)", Duration, (double)Duration / CLOCKS_PER_SEC);
		//*/
	}
	res->InitializeBiomeGen(a_IniFile);
	
	return res;
}





////////////////////////////////////////////////////////////////////////////////
// cBioGenConstant:

void cBioGenConstant::GenBiomes(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_BiomeMap)
{
	for (size_t i = 0; i < ARRAYCOUNT(a_BiomeMap); i++)
	{
		a_BiomeMap[i] = m_Biome;
	}
}





void cBioGenConstant::InitializeBiomeGen(cIniFile & a_IniFile)
{
	AString Biome = a_IniFile.GetValueSet("Generator", "ConstantBiome", "");
	m_Biome = StringToBiome(Biome);
	if (m_Biome == biInvalidBiome)
	{
		LOGWARN("[Generator]::ConstantBiome value \"%s\" not recognized, using \"Plains\".", Biome.c_str());
		m_Biome = biPlains;
	}
}





////////////////////////////////////////////////////////////////////////////////
// cBioGenCache:

cBioGenCache::cBioGenCache(cBiomeGen * a_BioGenToCache, int a_CacheSize) :
	m_BioGenToCache(a_BioGenToCache),
	m_CacheSize(a_CacheSize),
	m_CacheOrder(new int[a_CacheSize]),
	m_CacheData(new sCacheData[a_CacheSize]),
	m_NumHits(0),
	m_NumMisses(0),
	m_TotalChain(0)
{
	for (int i = 0; i < m_CacheSize; i++)
	{
		m_CacheOrder[i] = i;
		m_CacheData[i].m_ChunkX = 0x7fffffff;
		m_CacheData[i].m_ChunkZ = 0x7fffffff;
	}
}





cBioGenCache::~cBioGenCache()
{
	delete[] m_CacheData;
	m_CacheData = NULL;
	delete[] m_CacheOrder;
	m_CacheOrder = NULL;
}





void cBioGenCache::GenBiomes(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_BiomeMap)
{
	if (((m_NumHits + m_NumMisses) % 1024) == 10)
	{
		LOGD("BioGenCache: %d hits, %d misses, saved %.2f %%", m_NumHits, m_NumMisses, 100.0 * m_NumHits / (m_NumHits + m_NumMisses));
		LOGD("BioGenCache: Avg cache chain length: %.2f", (float)m_TotalChain / m_NumHits);
	}
	
	for (int i = 0; i < m_CacheSize; i++)
	{
		if (
			(m_CacheData[m_CacheOrder[i]].m_ChunkX != a_ChunkX) ||
			(m_CacheData[m_CacheOrder[i]].m_ChunkZ != a_ChunkZ)
		)
		{
			continue;
		}
		// Found it in the cache
		int Idx = m_CacheOrder[i];
		
		// Move to front:
		for (int j = i; j > 0; j--)
		{
			m_CacheOrder[j] = m_CacheOrder[j - 1];
		}
		m_CacheOrder[0] = Idx;
		
		// Use the cached data:
		memcpy(a_BiomeMap, m_CacheData[Idx].m_BiomeMap, sizeof(a_BiomeMap));
		
		m_NumHits++;
		m_TotalChain += i;
		return;
	}  // for i - cache
	
	// Not in the cache:
	m_NumMisses++;
	m_BioGenToCache->GenBiomes(a_ChunkX, a_ChunkZ, a_BiomeMap);
	
	// Insert it as the first item in the MRU order:
	int Idx = m_CacheOrder[m_CacheSize - 1];
	for (int 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_ChunkX = a_ChunkX;
	m_CacheData[Idx].m_ChunkZ = a_ChunkZ;
}





void cBioGenCache::InitializeBiomeGen(cIniFile & a_IniFile)
{
	super::InitializeBiomeGen(a_IniFile);
	m_BioGenToCache->InitializeBiomeGen(a_IniFile);
}




////////////////////////////////////////////////////////////////////////////////
// cBioGenMulticache:

cBioGenMulticache::cBioGenMulticache(cBiomeGen * a_BioGenToCache, int a_CacheSize, int a_CachesLength) :
m_CachesLength(a_CachesLength),
m_InternalCacheLength(a_CachesLength * a_CacheSize)
{
	//m_Caches = new std::vector<cBiomeGen*>;
	m_Caches.reserve(m_InternalCacheLength);
	for (int i = 0; i < m_InternalCacheLength; i++) {
		m_Caches.push_back(new cBioGenCache(a_BioGenToCache, a_CacheSize));
	}
}





cBioGenMulticache::~cBioGenMulticache()
{
	m_Caches.erase(m_Caches.cbegin(), m_Caches.cend());
}





void cBioGenMulticache::GenBiomes(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_BiomeMap)
{
	int cacheIdx = ((unsigned int)a_ChunkX % m_CachesLength) * m_CachesLength 
		+ ((unsigned int)a_ChunkZ % m_CachesLength);

	m_Caches[cacheIdx]->GenBiomes(a_ChunkX, a_ChunkZ, a_BiomeMap);
}





void cBioGenMulticache::InitializeBiomeGen(cIniFile & a_IniFile)
{
	//super::InitializeBiomeGen(a_IniFile);
	for (auto it = m_Caches.begin(); it != m_Caches.end(); it++)
	{
		cBiomeGen * tmp = *it;
		tmp->InitializeBiomeGen(a_IniFile);
	}
}





////////////////////////////////////////////////////////////////////////////////
// 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)
		{
			Count = atol(Split2[1].c_str());
			if (Count <= 0)
			{
				LOGWARNING("Cannot decode biome count: \"%s\"; using 1.", Split2[1].c_str());
				Count = 1;
			}
		}
		EMCSBiome Biome = StringToBiome(Split2[0]);
		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 = (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 = (int)m_Biomes.size();
}





////////////////////////////////////////////////////////////////////////////////
// cBioGenCheckerboard:

void cBioGenCheckerboard::GenBiomes(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_BiomeMap)
{
	for (int z = 0; z < cChunkDef::Width; z++)
	{
		int Base = (cChunkDef::Width * a_ChunkZ + z) / m_BiomeSize;
		for (int x = 0; x < cChunkDef::Width; x++)
		{
			int Add = cChunkDef::Width * a_ChunkX + x;
			int BiomeIdx = (((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(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_BiomeMap)
{
	int BaseZ = cChunkDef::Width * a_ChunkZ;
	int BaseX = cChunkDef::Width * a_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;
			cChunkDef::SetBiome(a_BiomeMap, x, z, m_Biomes[VoronoiCellValue % m_BiomesCount]);
		}  // for x
	}  // for z
}





void cBioGenVoronoi::InitializeBiomeGen(cIniFile & a_IniFile)
{
	super::InitializeBiomeGen(a_IniFile);
	m_Voronoi.SetCellSize(a_IniFile.GetValueSetI("Generator", "VoronoiCellSize", 64));
	InitializeBiomes     (a_IniFile.GetValueSet ("Generator", "VoronoiBiomes",   ""));
}





////////////////////////////////////////////////////////////////////////////////
// cBioGenDistortedVoronoi:

void cBioGenDistortedVoronoi::GenBiomes(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_BiomeMap)
{
	int BaseZ = cChunkDef::Width * a_ChunkZ;
	int BaseX = cChunkDef::Width * a_ChunkX;
	
	// 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]);
	}
	
	LinearUpscale2DArrayInPlace<cChunkDef::Width + 1, cChunkDef::Width + 1, 4, 4>(&DistortX[0][0]);
	LinearUpscale2DArrayInPlace<cChunkDef::Width + 1, cChunkDef::Width + 1, 4, 4>(&DistortZ[0][0]);
	
	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;
			cChunkDef::SetBiome(a_BiomeMap, x, z, m_Biomes[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((float)a_BlockX / m_CellSize, (float)a_BlockZ / m_CellSize, 1000);
	NoiseX += 0.5 * m_Noise.CubicNoise3D(2 *  (float)a_BlockX / m_CellSize, 2 *  (float)a_BlockZ / m_CellSize, 2000);
	NoiseX += 0.08 * m_Noise.CubicNoise3D(16 * (float)a_BlockX / m_CellSize, 16 * (float)a_BlockZ / m_CellSize, 3000);
	double NoiseZ = m_Noise.CubicNoise3D((float)a_BlockX / m_CellSize, (float)a_BlockZ / m_CellSize, 4000);
	NoiseZ += 0.5 * m_Noise.CubicNoise3D(2 *  (float)a_BlockX / m_CellSize, 2 *  (float)a_BlockZ / m_CellSize, 5000);
	NoiseZ += 0.08 * m_Noise.CubicNoise3D(16 * (float)a_BlockX / m_CellSize, 16 * (float)a_BlockZ / m_CellSize, 6000);
	
	a_DistortedX = a_BlockX + (int)(m_CellSize * 0.5 * NoiseX);
	a_DistortedZ = a_BlockZ + (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      = (float)a_IniFile.GetValueSetI("Generator", "MultiStepMapLandBiomeSize",      (int)m_LandBiomesSize);
}





void cBioGenMultiStepMap::GenBiomes(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_BiomeMap)
{
	DecideOceanLandMushroom(a_ChunkX, a_ChunkZ, a_BiomeMap);
	AddRivers(a_ChunkX, a_ChunkZ, a_BiomeMap);
	ApplyTemperatureHumidity(a_ChunkX, a_ChunkZ, a_BiomeMap);
}





void cBioGenMultiStepMap::DecideOceanLandMushroom(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_BiomeMap)
{
	// Distorted Voronoi over 3 biomes, with mushroom having only a special occurence.
	
	// Prepare a distortion lookup table, by distorting a 5x5 area and using that as 1:4 zoom (linear interpolate):
	int BaseZ = cChunkDef::Width * a_ChunkZ;
	int BaseX = cChunkDef::Width * a_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]);
	
	// 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;
			SeedV[xc][zc] = (((m_Noise6.IntNoise3DInt(RealCellX, RealCellX - RealCellZ + 1000, RealCellZ) / 11) % 256) > 90) ? biOcean : (biInvalidBiome);
		}  // for z
	}  // for x
	
	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;
		}
	}
	
	// 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(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_BiomeMap)
{
	for (int z = 0; z < cChunkDef::Width; z++)
	{
		float NoiseCoordZ = (float)(a_ChunkZ * cChunkDef::Width + z) / m_RiverCellSize;
		for (int x = 0; x < cChunkDef::Width; x++)
		{
			if (cChunkDef::GetBiome(a_BiomeMap, x, z) != biInvalidBiome)
			{
				// Biome already set, skip this column
				continue;
			}
			
			float NoiseCoordX = (float)(a_ChunkX * cChunkDef::Width + x) / m_RiverCellSize;
		
			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);
			
			if ((Noise > 0) && (Noise < m_RiverWidthThreshold))
			{
				cChunkDef::SetBiome(a_BiomeMap, x, z, biRiver);
			}
		}  // for x
	}  // for z
}





void cBioGenMultiStepMap::ApplyTemperatureHumidity(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_BiomeMap)
{
	IntMap TemperatureMap;
	IntMap HumidityMap;
	BuildTemperatureHumidityMaps(a_ChunkX, a_ChunkZ, TemperatureMap, HumidityMap);
	
	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(     (float)a_BlockX / a_CellSize,      (float)a_BlockZ / a_CellSize);
	NoiseX += 0.5 * m_Noise2.CubicNoise2D(2 *  (float)a_BlockX / a_CellSize, 2 *  (float)a_BlockZ / a_CellSize);
	NoiseX += 0.1 * m_Noise1.CubicNoise2D(16 * (float)a_BlockX / a_CellSize, 16 * (float)a_BlockZ / a_CellSize);
	double NoiseZ = m_Noise6.CubicNoise2D(     (float)a_BlockX / a_CellSize,      (float)a_BlockZ / a_CellSize);
	NoiseZ += 0.5 * m_Noise5.CubicNoise2D(2 *  (float)a_BlockX / a_CellSize, 2 *  (float)a_BlockZ / a_CellSize);
	NoiseZ += 0.1 * m_Noise4.CubicNoise2D(16 * (float)a_BlockX / a_CellSize, 16 * (float)a_BlockZ / a_CellSize);
	
	a_DistortedX = a_BlockX + (int)(a_CellSize * 0.5 * NoiseX);
	a_DistortedZ = a_BlockZ + (int)(a_CellSize * 0.5 * NoiseZ);
}





void cBioGenMultiStepMap::BuildTemperatureHumidityMaps(int a_ChunkX, int a_ChunkZ, 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 = (float)(a_ChunkZ * cChunkDef::Width + z) / m_LandBiomesSize;
		for (int x = 0; x < 17; x += 8)
		{
			float NoiseCoordX = (float)(a_ChunkX * cChunkDef::Width + x) / m_LandBiomesSize;
		
			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);
	
	// Re-map into integral values in [0 .. 255] range:
	for (size_t idx = 0; idx < ARRAYCOUNT(a_TemperatureMap); idx++)
	{
		a_TemperatureMap[idx] = std::max(0, std::min(255, (int)(128 + TemperatureMap[idx] * 128)));
		a_HumidityMap[idx]    = std::max(0, std::min(255, (int)(128 + HumidityMap[idx]    * 128)));
	}
}





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++)
		{
			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_DistortX(a_Seed + 3000),
	m_DistortZ(a_Seed + 4000),
	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),
	m_Noise6(a_Seed + 5006)
{
}





void cBioGenTwoLevel::GenBiomes(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_BiomeMap)
{
	int BaseZ = cChunkDef::Width * a_ChunkZ;
	int BaseX = cChunkDef::Width * a_ChunkX;
	
	// 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++)
	{
		int BlockX = BaseX + x * 4;
		int BlockZ = BaseZ + z * 4;
		float BlockXF = (float)(16 * BlockX) / 128;
		float BlockZF = (float)(16 * BlockZ) / 128;
		double NoiseX =  m_Noise1.CubicNoise2D(BlockXF / 16, BlockZF / 16);
		NoiseX += 0.5  * m_Noise2.CubicNoise2D(BlockXF / 8,  BlockZF / 8);
		NoiseX += 0.08 * m_Noise3.CubicNoise2D(BlockXF,      BlockZF);
		double NoiseZ  = m_Noise4.CubicNoise2D(BlockXF / 16, BlockZF / 16);
		NoiseZ += 0.5  * m_Noise5.CubicNoise2D(BlockXF / 8,  BlockZF / 8);
		NoiseZ += 0.08 * m_Noise6.CubicNoise2D(BlockXF,      BlockZF);
		
		DistortX[4 * x][4 * z] = BlockX + (int)(64 * NoiseX);
		DistortZ[4 * x][4 * z] = BlockZ + (int)(64 * NoiseZ);
	}
	
	LinearUpscale2DArrayInPlace<cChunkDef::Width + 1, cChunkDef::Width + 1, 4, 4>(&DistortX[0][0]);
	LinearUpscale2DArrayInPlace<cChunkDef::Width + 1, cChunkDef::Width + 1, 4, 4>(&DistortZ[0][0]);
	
	// 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 MinDist1, MinDist2;
			int BiomeGroup = m_VoronoiLarge.GetValueAt(DistortX[x][z], DistortZ[x][z], MinDist1, MinDist2) / 7;
			int BiomeIdx   = m_VoronoiSmall.GetValueAt(DistortX[x][z], DistortZ[x][z], MinDist1, MinDist2) / 11;
			cChunkDef::SetBiome(a_BiomeMap, x, z, SelectBiome(BiomeGroup, BiomeIdx, (MinDist1 < MinDist2 / 4) ? 0 : 1));
		}
	}
}





EMCSBiome cBioGenTwoLevel::SelectBiome(int a_BiomeGroup, int a_BiomeIdx, int a_DistLevel)
{
	// TODO: Move this into settings
	struct BiomeLevels
	{
		EMCSBiome InnerBiome;
		EMCSBiome OuterBiome;
	} ;
	
	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), },
	} ;
	size_t Group = 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)
{
	// TODO: Read these from a file
	m_VoronoiLarge.SetCellSize(1024);
	m_VoronoiSmall.SetCellSize(128);
	m_DistortX.AddOctave(0.01f,   16);
	m_DistortX.AddOctave(0.005f,   8);
	m_DistortX.AddOctave(0.0025f,  4);
	m_DistortZ.AddOctave(0.01f,   16);
	m_DistortZ.AddOctave(0.005f,   8);
	m_DistortZ.AddOctave(0.0025f,  4);
}