4 files changed, 2977 insertions, 0 deletions

diff --git a/src/Generating/BioGen.cpp b/src/Generating/BioGen.cpp
index 203faff56..0f2b0a73d 100644
--- a/src/Generating/BioGen.cpp
+++ b/src/Generating/BioGen.cpp
@@ -5,6 +5,8 @@
 
 #include "Globals.h"
 #include "BioGen.h"
+#include "IntGen.h"
+#include "ProtIntGen.h"
 #include "../IniFile.h"
 #include "../LinearUpscale.h"
 
@@ -917,6 +919,214 @@ void cBioGenTwoLevel::InitializeBiomeGen(cIniFile & a_IniFile)
 
 
 ////////////////////////////////////////////////////////////////////////////////
+// cBioGenGrown:
+
+class cBioGenGrown:
+	public cBiomeGen
+{
+public:
+	cBioGenGrown(int a_Seed)
+	{
+		auto FinalRivers =
+			std::make_shared<cIntGenSmooth<8>>   (a_Seed + 1,
+			std::make_shared<cIntGenZoom  <10>>  (a_Seed + 2,
+			std::make_shared<cIntGenRiver <7>>   (a_Seed + 3,
+			std::make_shared<cIntGenZoom  <9>>   (a_Seed + 4,
+			std::make_shared<cIntGenSmooth<6>>   (a_Seed + 5,
+			std::make_shared<cIntGenZoom  <8>>   (a_Seed + 8,
+			std::make_shared<cIntGenSmooth<6>>   (a_Seed + 5,
+			std::make_shared<cIntGenZoom  <8>>   (a_Seed + 9,
+			std::make_shared<cIntGenSmooth<6>>   (a_Seed + 5,
+			std::make_shared<cIntGenZoom  <8>>   (a_Seed + 10,
+			std::make_shared<cIntGenSmooth<6>>   (a_Seed + 5,
+			std::make_shared<cIntGenSmooth<8>>   (a_Seed + 6,
+			std::make_shared<cIntGenZoom  <10>>  (a_Seed + 11,
+			std::make_shared<cIntGenChoice<2, 7>>(a_Seed + 12
+		))))))))))))));
+
+		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
+		)))));
+
+		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,
+			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,
+			std::make_shared<cIntGenZoom           <6>> (a_Seed + 10,
+			std::make_shared<cIntGenLandOcean      <5>> (a_Seed + 100, 30
+		)))))))))))))))))))))))))))))));
+
+		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>> (
+			FinalBiomes, FinalRivers
+		)))));
+	}
+
+	virtual void GenBiomes(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_Biomes) override
+	{
+		cIntGen<16, 16>::Values vals;
+		m_Gen->GetInts(a_ChunkX * cChunkDef::Width, a_ChunkZ * cChunkDef::Width, vals);
+		for (int z = 0; z < cChunkDef::Width; z++)
+		{
+			for (int x = 0; x < cChunkDef::Width; x++)
+			{
+				cChunkDef::SetBiome(a_Biomes, x, z, (EMCSBiome)vals[x + cChunkDef::Width * z]);
+			}
+		}
+	}
+
+protected:
+	std::shared_ptr<cIntGen<16, 16>> m_Gen;
+};
+
+
+
+
+
+////////////////////////////////////////////////////////////////////////////////
+// cBioGenGrown:
+
+class cBioGenProtGrown:
+	public cBiomeGen
+{
+public:
+	cBioGenProtGrown(int a_Seed)
+	{
+		auto FinalRivers =
+			std::make_shared<cProtIntGenSmooth>(a_Seed + 1,
+			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,
+			std::make_shared<cProtIntGenSmooth>(a_Seed + 5,
+			std::make_shared<cProtIntGenZoom  >(a_Seed + 9,
+			std::make_shared<cProtIntGenSmooth>(a_Seed + 5,
+			std::make_shared<cProtIntGenZoom  >(a_Seed + 10,
+			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
+		))))))))))))));
+
+		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 =
+			std::make_shared<cProtIntGenSmooth         >(a_Seed + 1,
+			std::make_shared<cProtIntGenZoom           >(a_Seed + 15,
+			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,
+			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,
+			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,
+			std::make_shared<cProtIntGenReplaceRandomly>(a_Seed + 99, biIcePlains, biIcePlainsSpikes, 50,
+			std::make_shared<cProtIntGenZoom           >(a_Seed + 8,
+			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,
+			std::make_shared<cProtIntGenAddIslands     >(a_Seed + 2000, 200,
+			std::make_shared<cProtIntGenZoom           >(a_Seed + 5,
+			std::make_shared<cProtIntGenRareBiomeGroups>(a_Seed + 5, 50,
+			std::make_shared<cProtIntGenBiomeGroupEdges>(
+			std::make_shared<cProtIntGenAddIslands     >(a_Seed + 2000, 200,
+			std::make_shared<cProtIntGenZoom           >(a_Seed + 7,
+			std::make_shared<cProtIntGenSetRandomly    >(a_Seed + 8, 50, bgOcean,
+			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,
+			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
+		)))));
+	}
+
+	virtual void GenBiomes(int a_ChunkX, int a_ChunkZ, cChunkDef::BiomeMap & a_Biomes) override
+	{
+		int vals[16 * 16];
+		m_Gen->GetInts(a_ChunkX * cChunkDef::Width, a_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, (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)
@@ -952,6 +1162,14 @@ cBiomeGenPtr cBiomeGen::CreateBiomeGen(cIniFile & a_IniFile, int a_Seed, bool &
 	{
 		res = new cBioGenTwoLevel(a_Seed);
 	}
+	else if (NoCaseCompare(BiomeGenName, "grown") == 0)
+	{
+		res = new cBioGenGrown(a_Seed);
+	}
+	else if (NoCaseCompare(BiomeGenName, "grownprot") == 0)
+	{
+		res = new cBioGenProtGrown(a_Seed);
+	}
 	else
 	{
 		if (NoCaseCompare(BiomeGenName, "multistepmap") != 0)
diff --git a/src/Generating/CMakeLists.txt b/src/Generating/CMakeLists.txt
index cd3d5a9f3..1a26bd0d5 100644
--- a/src/Generating/CMakeLists.txt
+++ b/src/Generating/CMakeLists.txt
@@ -46,6 +46,7 @@ SET (HDRS
 	FinishGen.h
 	GridStructGen.h
 	HeiGen.h
+	IntGen.h
 	MineShafts.h
 	NetherFortGen.h
 	Noise3DGenerator.h
@@ -53,6 +54,7 @@ SET (HDRS
 	PieceGenerator.h
 	Prefab.h
 	PrefabPiecePool.h
+	ProtIntGen.h
 	RainbowRoadsGen.h
 	Ravines.h
 	RoughRavines.h
diff --git a/src/Generating/IntGen.h b/src/Generating/IntGen.h
new file mode 100644
index 000000000..b25e378c0
--- /dev/null
+++ b/src/Generating/IntGen.h
@@ -0,0 +1,1406 @@
+
+// IntGen.h
+
+// Declares the cIntGen class and descendants for generating and filtering various 2D arrays of ints
+
+/*
+The integers generated may be interpreted in several ways:
+- land/see designators
+	- 0 = ocean
+	- >0 = land
+- biome group
+	- 0 = ocean
+	- 1 = desert biomes
+	- 2 = temperate biomes
+	- 3 = mountains (hills and forests)
+	- 4 = ice biomes
+- biome group with "bgfRare" flag (for generating rare biomes for the group)
+- biome IDs
+The interpretation depends on the generator used and on the position in the chain.
+
+The generators can be chained together - one produces data that another one consumes.
+Some of such chain connections require changing the data dimensions between the two, which is handled automatically
+by using templates.
+*/
+
+
+
+
+
+#pragma once
+
+#include "../BiomeDef.h"
+
+
+
+
+
+/** Constants representing the biome group designators. */
+const int bgOcean        = 0;
+const int bgDesert       = 1;
+const int bgTemperate    = 2;
+const int bgMountains    = 3;
+const int bgIce          = 4;
+const int bgLandOceanMax = 4;  // Maximum biome group value generated in the landOcean generator
+const int bgfRare        = 1024;  // Flag added to values to generate rare biomes for the group
+
+
+
+
+
+/** Interface that all the generator classes provide. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGen
+{
+public:
+	/** Force a virtual destructor in all descendants.
+	Descendants contain virtual functions and are referred to via pointer-to-base, so they need a virtual destructor. */
+	virtual ~cIntGen() {}
+
+	/** Holds the array of values generated by this class (descendant). */
+	typedef int Values[SizeX * SizeZ];
+
+	/** Generates the array of templated size into a_Values, based on given min coords. */
+	virtual void GetInts(int a_MinX, int a_MinZ, Values & a_Values) = 0;
+};
+
+
+
+
+
+/** Provides additional cNoise member and its helper functions. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenWithNoise :
+	public cIntGen<SizeX, SizeZ>
+{
+	typedef cIntGen<SizeX, SizeZ> super;
+
+public:
+	cIntGenWithNoise(int a_Seed) :
+		m_Noise(a_Seed)
+	{
+	}
+
+protected:
+	cNoise m_Noise;
+
+	/** Chooses one of a_Val1 or a_Val2, based on m_Noise and the coordinates for querying the noise. */
+	int ChooseRandomOne(int a_RndX, int a_RndZ, int a_Val1, int a_Val2)
+	{
+		int rnd = m_Noise.IntNoise2DInt(a_RndX, a_RndZ) / 7;
+		return ((rnd & 1) == 0) ? a_Val1 : a_Val2;
+	}
+
+	/** Chooses one of a_ValN, based on m_Noise and the coordinates for querying the noise. */
+	int ChooseRandomOne(int a_RndX, int a_RndZ, int a_Val1, int a_Val2, int a_Val3, int a_Val4)
+	{
+		int rnd = m_Noise.IntNoise2DInt(a_RndX, a_RndZ) / 7;
+		switch (rnd % 4)
+		{
+			case 0:  return a_Val1;
+			case 1:  return a_Val2;
+			case 2:  return a_Val3;
+			default: return a_Val4;
+		}
+	}
+};
+
+
+
+
+
+
+/** Generates a 2D array of random integers in the specified range [0 .. Range). */
+template <int Range, int SizeX, int SizeZ = SizeX>
+class cIntGenChoice :
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+
+public:
+	cIntGenChoice(int a_Seed) :
+		super(a_Seed)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		for (int z = 0; z < SizeZ; z++)
+		{
+			int BaseZ = a_MinZ + z;
+			for (int x = 0; x < SizeX; x++)
+			{
+				a_Values[x + SizeX * z] = (super::m_Noise.IntNoise2DInt(a_MinX + x, BaseZ) / 7) % Range;
+			}
+		}  // for z
+	}
+};
+
+
+
+
+
+
+/** Decides between the ocean and landmass biomes.
+Has a threshold (in percent) of how much land, the larger the threshold, the more land.
+Generates 0 for ocean, biome group ID for landmass. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenLandOcean :
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+
+public:
+	cIntGenLandOcean(int a_Seed, int a_Threshold) :
+		super(a_Seed),
+		m_Threshold(a_Threshold)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		for (int z = 0; z < SizeZ; z++)
+		{
+			int BaseZ = a_MinZ + z;
+			for (int x = 0; x < SizeX; x++)
+			{
+				int rnd = (super::m_Noise.IntNoise2DInt(a_MinX + x, BaseZ) / 7);
+				a_Values[x + SizeX * z] = ((rnd % 100) < m_Threshold) ? ((rnd / 101) % bgLandOceanMax + 1) : 0;
+			}
+		}
+
+		// If the centerpoint of the world is within the area, set it to bgTemperate, always:
+		if ((a_MinX <= 0) && (a_MinZ <= 0) && (a_MinX + SizeX > 0) && (a_MinZ + SizeZ > 0))
+		{
+			a_Values[-a_MinX - a_MinZ * SizeX] = bgTemperate;
+		}
+	}
+
+protected:
+	int m_Threshold;
+};
+
+
+
+
+
+/** Zooms the underlying value array to twice the size. Uses random-neighbor for the pixels in-between.
+This means that the zoome out image is randomly distorted. Applying zoom several times provides all
+the distortion that the generators need. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenZoom :
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+
+protected:
+	static const int m_LowerSizeX = (SizeX / 2) + 2;
+	static const int m_LowerSizeZ = (SizeZ / 2) + 2;
+
+public:
+	typedef std::shared_ptr<cIntGen<m_LowerSizeX, m_LowerSizeZ>> Underlying;
+
+
+	cIntGenZoom(int a_Seed, Underlying a_UnderlyingGen) :
+		super(a_Seed),
+		m_UnderlyingGen(a_UnderlyingGen)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Generate the underlying data with half the resolution:
+		int lowerMinX = a_MinX >> 1;
+		int lowerMinZ = a_MinZ >> 1;
+		int lowerData[m_LowerSizeX * m_LowerSizeZ];
+		m_UnderlyingGen->GetInts(lowerMinX, lowerMinZ, lowerData);
+		const int lowStepX = (m_LowerSizeX - 1) * 2;
+		const int lowStepZ = (m_LowerSizeZ - 1) * 2;
+		int cache[lowStepX * lowStepZ];
+
+		// Discreet-interpolate the values into twice the size:
+		for (int z = 0; z < m_LowerSizeZ - 1; ++z)
+		{
+			int idx = (z * 2) * lowStepX;
+			int PrevZ0 = lowerData[z * m_LowerSizeX];
+			int PrevZ1 = lowerData[(z + 1) * m_LowerSizeX];
+
+			for (int x = 0; x < m_LowerSizeX - 1; ++x)
+			{
+				int ValX1Z0 = lowerData[x + 1 + z * m_LowerSizeX];
+				int ValX1Z1 = lowerData[x + 1 + (z + 1) * m_LowerSizeX];
+				int RndX = (x + lowerMinX) * 2;
+				int RndZ = (z + lowerMinZ) * 2;
+				cache[idx] = PrevZ0;
+				cache[idx + lowStepX] = super::ChooseRandomOne(RndX, RndZ + 1, PrevZ0, PrevZ1);
+				cache[idx + 1]        = super::ChooseRandomOne(RndX, RndZ - 1, PrevZ0, ValX1Z0);
+				cache[idx + 1 + lowStepX] = super::ChooseRandomOne(RndX, RndZ, PrevZ0, ValX1Z0, PrevZ1, ValX1Z1);
+				idx += 2;
+				PrevZ0 = ValX1Z0;
+				PrevZ1 = ValX1Z1;
+			}
+		}
+
+		// Copy from Cache into a_Values; take into account the even/odd offsets in a_Min:
+		for (int z = 0; z < SizeZ; ++z)
+		{
+			memcpy(a_Values + z * SizeX, cache + (z + (a_MinZ & 1)) * lowStepX + (a_MinX & 1), SizeX * sizeof(int));
+		}
+	}
+
+protected:
+	Underlying m_UnderlyingGen;
+};
+
+
+
+
+
+/** Smoothes out some artifacts generated by the zooming - mostly single-pixel values.
+Compares each pixel to its neighbors and if the neighbors are equal, changes the pixel to their value. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenSmooth :
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+	static const int m_LowerSizeX = SizeX + 2;
+	static const int m_LowerSizeZ = SizeZ + 2;
+
+public:
+	typedef std::shared_ptr<cIntGen<m_LowerSizeX, m_LowerSizeZ>> Underlying;
+
+
+	cIntGenSmooth(int a_Seed, Underlying a_Underlying) :
+		super(a_Seed),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Generate the underlying values:
+		int lowerData[m_LowerSizeX * m_LowerSizeZ];
+		m_Underlying->GetInts(a_MinX - 1, a_MinZ - 1, lowerData);
+
+		// Smooth - for each square check if the surroundings are the same, if so, expand them diagonally.
+		// Also get rid of single-pixel irregularities (A-B-A):
+		for (int z = 0; z < SizeZ; z++)
+		{
+			int NoiseZ = a_MinZ + z;
+			for (int x = 0; x < SizeX; x++)
+			{
+				int val   = lowerData[x + 1 + (z + 1) * m_LowerSizeX];
+				int above = lowerData[x + 1 +  z      * m_LowerSizeX];
+				int below = lowerData[x + 1 + (z + 2) * m_LowerSizeX];
+				int left  = lowerData[x     + (z + 1) * m_LowerSizeX];
+				int right = lowerData[x + 2 + (z + 1) * m_LowerSizeX];
+
+				if ((left == right) && (above == below))
+				{
+					if (((super::m_Noise.IntNoise2DInt(a_MinX + x, NoiseZ) / 7) % 2) == 0)
+					{
+						val = left;
+					}
+					else
+					{
+						val = above;
+					}
+				}
+				else
+				{
+					if (left == right)
+					{
+						val = left;
+					}
+
+					if (above == below)
+					{
+						val = above;
+					}
+				}
+
+				a_Values[x + z * SizeX] = val;
+			}
+		}
+	}
+
+protected:
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Converts land biomes at the edge of an ocean into the respective beach biome. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenBeaches :
+	public cIntGen<SizeX, SizeZ>
+{
+	typedef cIntGen<SizeX, SizeZ> super;
+	static const int m_UnderlyingSizeX = SizeX + 2;
+	static const int m_UnderlyingSizeZ = SizeZ + 2;
+
+public:
+	typedef std::shared_ptr<cIntGen<m_UnderlyingSizeX, m_UnderlyingSizeZ>> Underlying;
+
+
+	cIntGenBeaches(Underlying a_Underlying) :
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Map for biome -> its beach:
+		static const int ToBeach[] =
+		{
+			/* biOcean            */ biOcean,
+			/* biPlains           */ biBeach,
+			/* biDesert           */ biBeach,
+			/* biExtremeHills     */ biStoneBeach,
+			/* biForest           */ biBeach,
+			/* biTaiga            */ biColdBeach,
+			/* biSwampland        */ biSwampland,
+			/* biRiver            */ biRiver,
+			/* biNether           */ biNether,
+			/* biEnd              */ biEnd,
+			/* biFrozenOcean      */ biColdBeach,
+			/* biFrozenRiver      */ biColdBeach,
+			/* biIcePlains        */ biColdBeach,
+			/* biIceMountains     */ biColdBeach,
+			/* biMushroomIsland   */ biMushroomShore,
+			/* biMushroomShore    */ biMushroomShore,
+			/* biBeach            */ biBeach,
+			/* biDesertHills      */ biBeach,
+			/* biForestHills      */ biBeach,
+			/* biTaigaHills       */ biColdBeach,
+			/* biExtremeHillsEdge */ biStoneBeach,
+			/* biJungle           */ biBeach,
+			/* biJungleHills      */ biBeach,
+			/* biJungleEdge       */ biBeach,
+			/* biDeepOcean        */ biOcean,
+			/* biStoneBeach       */ biStoneBeach,
+			/* biColdBeach        */ biColdBeach,
+			/* biBirchForest      */ biBeach,
+			/* biBirchForestHills */ biBeach,
+			/* biRoofedForest     */ biBeach,
+			/* biColdTaiga        */ biColdBeach,
+			/* biColdTaigaHills   */ biColdBeach,
+			/* biMegaTaiga        */ biStoneBeach,
+			/* biMegaTaigaHills   */ biStoneBeach,
+			/* biExtremeHillsPlus */ biStoneBeach,
+			/* biSavanna          */ biBeach,
+			/* biSavannaPlateau   */ biBeach,
+			/* biMesa             */ biMesa,
+			/* biMesaPlateauF     */ biMesa,
+			/* biMesaPlateau      */ biMesa,
+		};
+
+		// Generate the underlying values:
+		int lowerValues[m_UnderlyingSizeX * m_UnderlyingSizeZ];
+		m_Underlying->GetInts(a_MinX - 1, a_MinZ - 1, lowerValues);
+
+		// Add beaches between ocean and biomes:
+		for (int z = 0; z < SizeZ; z++)
+		{
+			for (int x = 0; x < SizeX; x++)
+			{
+				int val   = lowerValues[x + 1 + (z + 1) * m_UnderlyingSizeX];
+				int above = lowerValues[x + 1 + z       * m_UnderlyingSizeX];
+				int below = lowerValues[x + 1 + (z + 2) * m_UnderlyingSizeX];
+				int left  = lowerValues[x     + (z + 1) * m_UnderlyingSizeX];
+				int right = lowerValues[x + 2 + (z + 1) * m_UnderlyingSizeX];
+				if (!IsBiomeOcean(val))
+				{
+					if (IsBiomeOcean(above) || IsBiomeOcean(below) || IsBiomeOcean(left) || IsBiomeOcean(right))
+					{
+						// First convert the value to a regular biome (drop the M flag), then modulo by our biome count:
+						val = ToBeach[(val % 128) % ARRAYCOUNT(ToBeach)];
+					}
+				}
+				a_Values[x + z * SizeX] = val;
+			}
+		}
+	}
+
+protected:
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Generates the underlying numbers and then randomly changes some ocean group pixels into random land
+biome group pixels, based on the predefined chance. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenAddIslands :
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+
+public:
+	typedef std::shared_ptr<cIntGen<SizeX, SizeZ>> Underlying;
+
+
+	cIntGenAddIslands(int a_Seed, int a_Chance, Underlying a_Underlying) :
+		super(a_Seed),
+		m_Chance(a_Chance),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_Values);
+		for (int z = 0; z < SizeZ; z++)
+		{
+			for (int x = 0; x < SizeX; x++)
+			{
+				if (a_Values[x + z * SizeX] == bgOcean)
+				{
+					int rnd = super::m_Noise.IntNoise2DInt(a_MinX + x, a_MinZ + z) / 7;
+					if (rnd % 1000 < m_Chance)
+					{
+						a_Values[x + z * SizeX] = (rnd / 1003) % bgLandOceanMax;
+					}
+				}
+			}  // for x
+		}  // for z
+	}
+
+protected:
+	/** Chance, in permille, of an island being generated in ocean. */
+	int m_Chance;
+
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** A filter that adds an edge biome group between two biome groups that need an edge between them. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenBiomeGroupEdges :
+	public cIntGen<SizeX, SizeZ>
+{
+	typedef cIntGen<SizeX, SizeZ> super;
+
+	static const int m_UnderlyingSizeX = SizeX + 2;
+	static const int m_UnderlyingSizeZ = SizeZ + 2;
+
+public:
+
+	typedef std::shared_ptr<cIntGen<m_UnderlyingSizeX, m_UnderlyingSizeZ>> Underlying;
+
+	cIntGenBiomeGroupEdges(Underlying a_Underlying) :
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values)
+	{
+		// Generate the underlying biome groups:
+		int lowerValues[m_UnderlyingSizeX * m_UnderlyingSizeZ];
+		m_Underlying->GetInts(a_MinX, a_MinZ, lowerValues);
+
+		// Change the biomes on incompatible edges into an edge biome:
+		for (int z = 0; z < SizeZ; z++)
+		{
+			for (int x = 0; x < SizeX; x++)
+			{
+				int val   = lowerValues[x + 1 + (z + 1) * m_UnderlyingSizeX];
+				int above = lowerValues[x + 1 + z       * m_UnderlyingSizeX];
+				int below = lowerValues[x + 1 + (z + 2) * m_UnderlyingSizeX];
+				int left  = lowerValues[x     + (z + 1) * m_UnderlyingSizeX];
+				int right = lowerValues[x + 2 + (z + 1) * m_UnderlyingSizeX];
+				switch (val)
+				{
+					// Desert should neighbor only oceans, desert and temperates; change to temperate when another:
+					case bgDesert:
+					{
+						if (
+							!isDesertCompatible(above) ||
+							!isDesertCompatible(below) ||
+							!isDesertCompatible(left) ||
+							!isDesertCompatible(right)
+						)
+						{
+							val = bgTemperate;
+						}
+						break;
+					}  // case bgDesert
+
+					// Ice should not neighbor deserts; change to temperate:
+					case bgIce:
+					{
+						if (
+							(above == bgDesert) ||
+							(below == bgDesert) ||
+							(left  == bgDesert) ||
+							(right == bgDesert)
+						)
+						{
+							val = bgTemperate;
+						}
+						break;
+					}  // case bgIce
+				}
+				a_Values[x + z * SizeX] = val;
+			}  // for x
+		}  // for z
+	}
+
+protected:
+	Underlying m_Underlying;
+
+
+	inline bool isDesertCompatible(int a_BiomeGroup)
+	{
+		switch (a_BiomeGroup)
+		{
+			case bgOcean:
+			case bgDesert:
+			case bgTemperate:
+			{
+				return true;
+			}
+			default:
+			{
+				return false;
+			}
+		}
+	}
+};
+
+
+
+
+
+/** Turns biome group indices into real biomes.
+For each pixel, takes its biome group and chooses a random biome from that group; replaces the value with
+that biome. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenBiomes :
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+
+public:
+	typedef std::shared_ptr<cIntGen<SizeX, SizeZ>> Underlying;
+
+
+	cIntGenBiomes(int a_Seed, Underlying a_Underlying) :
+		super(a_Seed),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Define the per-biome-group biomes:
+		static const int oceanBiomes[] =
+		{
+			biOcean,  // biDeepOcean,
+		};
+
+		// Same as oceanBiomes, there are no rare oceanic biomes (mushroom islands are handled separately)
+		static const int rareOceanBiomes[] =
+		{
+			biOcean,
+		};
+
+		static const int desertBiomes[] =
+		{
+			biDesert, biDesert, biDesert, biDesert, biDesert, biDesert, biSavanna, biSavanna, biPlains,
+		};
+
+		static const int rareDesertBiomes[] =
+		{
+			biMesaPlateau, biMesaPlateauF,
+		};
+
+		static const int temperateBiomes[] =
+		{
+			biForest, biForest, biRoofedForest, biExtremeHills, biPlains, biBirchForest, biSwampland,
+		};
+
+		static const int rareTemperateBiomes[] =
+		{
+			biJungle,  // Jungle is not strictly temperate, but let's piggyback it here
+		};
+
+		static const int mountainBiomes[] =
+		{
+			biExtremeHills, biForest, biTaiga, biPlains,
+		};
+
+		static const int rareMountainBiomes[] =
+		{
+			biMegaTaiga,
+		};
+
+		static const int iceBiomes[] =
+		{
+			biIcePlains, biIcePlains, biIcePlains, biIcePlains, biColdTaiga,
+		};
+
+		// Same as iceBiomes, there's no rare ice biome
+		static const int rareIceBiomes[] =
+		{
+			biIcePlains, biIcePlains, biIcePlains, biIcePlains, biColdTaiga,
+		};
+
+		static const cBiomesInGroups biomesInGroups[] =
+		{
+			/* bgOcean */     { static_cast<int>(ARRAYCOUNT(oceanBiomes)),     oceanBiomes},
+			/* bgDesert */    { static_cast<int>(ARRAYCOUNT(desertBiomes)),    desertBiomes},
+			/* bgTemperate */ { static_cast<int>(ARRAYCOUNT(temperateBiomes)), temperateBiomes},
+			/* bgMountains */ { static_cast<int>(ARRAYCOUNT(mountainBiomes)),  mountainBiomes},
+			/* bgIce */       { static_cast<int>(ARRAYCOUNT(iceBiomes)),       iceBiomes},
+		};
+
+		static const cBiomesInGroups rareBiomesInGroups[] =
+		{
+			/* bgOcean */     { static_cast<int>(ARRAYCOUNT(rareOceanBiomes)),     rareOceanBiomes},
+			/* bgDesert */    { static_cast<int>(ARRAYCOUNT(rareDesertBiomes)),    rareDesertBiomes},
+			/* bgTemperate */ { static_cast<int>(ARRAYCOUNT(rareTemperateBiomes)), rareTemperateBiomes},
+			/* bgMountains */ { static_cast<int>(ARRAYCOUNT(rareMountainBiomes)),  rareMountainBiomes},
+			/* bgIce */       { static_cast<int>(ARRAYCOUNT(rareIceBiomes)),       rareIceBiomes},
+		};
+
+		// Generate the underlying values, representing biome groups:
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_Values);
+
+		// Overwrite each biome group with a random biome from that group:
+		for (int z = 0; z < SizeZ; z++)
+		{
+			int IdxZ = z * SizeX;
+			for (int x = 0; x < SizeX; x++)
+			{
+				int val = a_Values[x + IdxZ];
+				const cBiomesInGroups & Biomes = (val > bgfRare) ?
+					rareBiomesInGroups[(val & (bgfRare - 1)) % ARRAYCOUNT(rareBiomesInGroups)] :
+					biomesInGroups[val % ARRAYCOUNT(biomesInGroups)];
+				int rnd = (super::m_Noise.IntNoise2DInt(x + a_MinX, z + a_MinZ) / 7);
+				a_Values[x + IdxZ] = Biomes.Biomes[rnd % Biomes.Count];
+			}
+		}
+	}
+
+protected:
+
+	struct cBiomesInGroups
+	{
+		const int Count;
+		const int * Biomes;
+	};
+
+
+	/** The underlying int generator */
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Randomly replaces pixels of one value to another value, using the given chance. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenReplaceRandomly :
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+
+public:
+	typedef std::shared_ptr<cIntGen<SizeX, SizeZ>> Underlying;
+
+
+	cIntGenReplaceRandomly(int a_From, int a_To, int a_Chance, int a_Seed, Underlying a_Underlying) :
+		super(a_Seed),
+		m_From(a_From),
+		m_To(a_To),
+		m_Chance(a_Chance),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Generate the underlying values:
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_Values);
+
+		// Replace some of the values:
+		for (int z = 0; z < SizeZ; z++)
+		{
+			int idxZ = z * SizeX;
+			for (int x = 0; x < SizeX; x++)
+			{
+				int idx = x + idxZ;
+				if (a_Values[idx] == m_From)
+				{
+					int rnd = super::m_Noise.IntNoise2DInt(x + a_MinX, z + a_MinZ) / 7;
+					if (rnd % 1000 < m_Chance)
+					{
+						a_Values[idx] = m_To;
+					}
+				}
+			}
+		}  // for z
+	}
+
+
+protected:
+	/** The original value to be replaced. */
+	int m_From;
+
+	/** The destination value to which to replace. */
+	int m_To;
+
+	/** Chance, in permille, of replacing the value. */
+	int m_Chance;
+
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Mixer that joins together finalized biomes and rivers.
+It first checks for oceans, if there is an ocean in the Biomes, it keeps the ocean.
+If there's no ocean, it checks Rivers for a river, if there is a river, it uses the Biomes to select either
+regular river or frozen river, based on the biome. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenMixRivers:
+	public cIntGen<SizeX, SizeZ>
+{
+	typedef cIntGen<SizeX, SizeZ> super;
+
+public:
+	typedef std::shared_ptr<cIntGen<SizeX, SizeZ>> Underlying;
+
+
+	cIntGenMixRivers(Underlying a_Biomes, Underlying a_Rivers):
+		m_Biomes(a_Biomes),
+		m_Rivers(a_Rivers)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Generate the underlying data:
+		m_Biomes->GetInts(a_MinX, a_MinZ, a_Values);
+		typename super::Values riverData;
+		m_Rivers->GetInts(a_MinX, a_MinZ, riverData);
+
+		// Mix the values:
+		for (int z = 0; z < SizeZ; z++)
+		{
+			int idxZ = z * SizeX;
+			for (int x = 0; x < SizeX; x++)
+			{
+				int idx = x + idxZ;
+				if (IsBiomeOcean(a_Values[idx]))
+				{
+					// Oceans are kept without any changes
+					continue;
+				}
+				if (riverData[idx] != biRiver)
+				{
+					// There's no river, keep the current value
+					continue;
+				}
+
+				// There's a river, change the output to a river or a frozen river, based on the original biome:
+				if (IsBiomeVeryCold((EMCSBiome)a_Values[idx]))
+				{
+					a_Values[idx] = biFrozenRiver;
+				}
+				else
+				{
+					a_Values[idx] = biRiver;
+				}
+			}  // for x
+		}  // for z
+	}
+
+protected:
+	Underlying m_Biomes;
+	Underlying m_Rivers;
+};
+
+
+
+
+
+/** Generates a river based on the underlying data.
+This is basically an edge detector over the underlying data. The rivers are the edges where the underlying data
+changes from one pixel to its neighbor. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenRiver:
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+	static const int UnderlyingSizeX = SizeX + 2;
+	static const int UnderlyingSizeZ = SizeZ + 2;
+
+public:
+	typedef std::shared_ptr<cIntGen<UnderlyingSizeX, UnderlyingSizeZ>> Underlying;
+
+
+	cIntGenRiver(int a_Seed, Underlying a_Underlying):
+		super(a_Seed),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Generate the underlying data:
+		int Cache[UnderlyingSizeX * UnderlyingSizeZ];
+		m_Underlying->GetInts(a_MinX - 1, a_MinZ - 1, Cache);
+
+		// Detect the edges:
+		for (int z = 0; z < SizeZ; z++)
+		{
+			for (int x = 0; x < SizeX; x++)
+			{
+				int Above = Cache[x + 1 + z * UnderlyingSizeX];
+				int Below = Cache[x + 1 + (z + 2) * UnderlyingSizeX];
+				int Left  = Cache[x +     (z + 1) * UnderlyingSizeX];
+				int Right = Cache[x + 2 + (z + 1) * UnderlyingSizeX];
+				int val   = Cache[x + 1 + (z + 1) * UnderlyingSizeX];
+
+				if ((val == Above) && (val == Below) && (val == Left) && (val == Right))
+				{
+					val = 0;
+				}
+				else
+				{
+					val = biRiver;
+				}
+				a_Values[x + z * SizeX] = val;
+			}  // for x
+		}  // for z
+	}
+
+protected:
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Turns some of the oceans into the specified biome. Used for mushroom and deep ocean.
+The biome is only placed if at least 3 of its neighbors are ocean and only with the specified chance. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenAddToOcean:
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+	static const int UnderlyingSizeX = SizeX + 2;
+	static const int UnderlyingSizeZ = SizeZ + 2;
+
+public:
+	typedef std::shared_ptr<cIntGen<UnderlyingSizeX, UnderlyingSizeZ>> Underlying;
+
+
+	cIntGenAddToOcean(int a_Seed, int a_Chance, int a_ToValue, Underlying a_Underlying):
+		super(a_Seed),
+		m_Chance(a_Chance),
+		m_ToValue(a_ToValue),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Generate the underlying data:
+		int Cache[UnderlyingSizeX * UnderlyingSizeZ];
+		m_Underlying->GetInts(a_MinX - 1, a_MinZ - 1, Cache);
+
+		// Add the mushroom islands:
+		for (int z = 0; z < SizeZ; z++)
+		{
+			for (int x = 0; x < SizeX; x++)
+			{
+				int val = Cache[x + 1 + (z + 1) * UnderlyingSizeX];
+				if (!IsBiomeOcean(val))
+				{
+					a_Values[x + z * SizeX] = val;
+					continue;
+				}
+
+				// Count the ocean neighbors:
+				int Above = Cache[x + 1 + z * UnderlyingSizeX];
+				int Below = Cache[x + 1 + (z + 2) * UnderlyingSizeX];
+				int Left  = Cache[x +     (z + 1) * UnderlyingSizeX];
+				int Right = Cache[x + 2 + (z + 1) * UnderlyingSizeX];
+				int NumOceanNeighbors = 0;
+				if (IsBiomeOcean(Above))
+				{
+					NumOceanNeighbors += 1;
+				}
+				if (IsBiomeOcean(Below))
+				{
+					NumOceanNeighbors += 1;
+				}
+				if (IsBiomeOcean(Left))
+				{
+					NumOceanNeighbors += 1;
+				}
+				if (IsBiomeOcean(Right))
+				{
+					NumOceanNeighbors += 1;
+				}
+
+				// If at least 3 ocean neighbors and the chance is right, change:
+				if (
+					(NumOceanNeighbors >= 3) &&
+					((super::m_Noise.IntNoise2DInt(x + a_MinX, z + a_MinZ) / 7) % 1000 < m_Chance)
+				)
+				{
+					a_Values[x + z * SizeX] = m_ToValue;
+				}
+				else
+				{
+					a_Values[x + z * SizeX] = val;
+				}
+			}  // for x
+		}  // for z
+	}
+
+protected:
+	/** Chance, in permille, of changing the biome. */
+	int m_Chance;
+
+	/** The value to change the ocean into. */
+	int m_ToValue;
+
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Changes random pixels of the underlying data to the specified value. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenSetRandomly :
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+
+public:
+	typedef std::shared_ptr<cIntGen<SizeX, SizeZ>> Underlying;
+
+	cIntGenSetRandomly(int a_Seed, int a_Chance, int a_ToValue, Underlying a_Underlying) :
+		super(a_Seed),
+		m_Chance(a_Chance),
+		m_ToValue(a_ToValue),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Generate the underlying data:
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_Values);
+
+		// Change random pixels to bgOcean:
+		for (int z = 0; z < SizeZ; z++)
+		{
+			for (int x = 0; x < SizeX; x++)
+			{
+				int rnd = super::m_Noise.IntNoise2DInt(x + a_MinX, z + a_MinZ) / 7;
+				if (rnd % 1000 < m_Chance)
+				{
+					a_Values[x + z * SizeX] = m_ToValue;
+				}
+			}
+		}
+	}
+
+protected:
+	/** Chance, in permille, of changing each pixel. */
+	int m_Chance;
+
+	/** The value to which to set the pixel. */
+	int m_ToValue;
+
+	Underlying m_Underlying;
+};
+
+
+
+
+
+
+/** Adds a "rare" flag to random biome groups, based on the given chance. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenRareBiomeGroups:
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+
+public:
+	typedef std::shared_ptr<cIntGen<SizeX, SizeZ>> Underlying;
+
+
+	cIntGenRareBiomeGroups(int a_Seed, int a_Chance, Underlying a_Underlying):
+		super(a_Seed),
+		m_Chance(a_Chance),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Generate the underlying data:
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_Values);
+
+		// Change some of the biome groups into rare biome groups:
+		for (int z = 0; z < SizeZ; z++)
+		{
+			for (int x = 0; x < SizeX; x++)
+			{
+				int rnd = super::m_Noise.IntNoise2DInt(x + a_MinX, z + a_MinZ) / 7;
+				if (rnd % 1000 < m_Chance)
+				{
+					int idx = x + SizeX * z;
+					a_Values[idx] = a_Values[idx] | bgfRare;
+				}
+			}
+		}
+	}
+
+protected:
+	/** Chance, in permille, of changing each pixel into the rare biome group. */
+	int m_Chance;
+
+	/** The underlying generator. */
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Changes biomes in the parent data into an alternate versions (usually "hill" variants), in such places
+that have their alterations set. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenAlternateBiomes:
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+
+public:
+	typedef std::shared_ptr<cIntGen<SizeX, SizeZ>> Underlying;
+
+
+	cIntGenAlternateBiomes(int a_Seed, Underlying a_Alterations, Underlying a_BaseBiomes):
+		super(a_Seed),
+		m_Alterations(a_Alterations),
+		m_BaseBiomes(a_BaseBiomes)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Generate the base biomes and the alterations:
+		m_BaseBiomes->GetInts(a_MinX, a_MinZ, a_Values);
+		typename super::Values alterations;
+		m_Alterations->GetInts(a_MinX, a_MinZ, alterations);
+
+		// Change the biomes into their alternate versions:
+		for (int idx = 0; idx < SizeX * SizeZ; ++idx)
+		{
+			if (alterations[idx] == 0)
+			{
+				// No change
+				continue;
+			}
+
+			// Change to alternate biomes:
+			int val = a_Values[idx];
+			switch (val)
+			{
+				case biBirchForest:   val = biBirchForestHills; break;
+				case biDesert:        val = biDesertHills;      break;
+				case biExtremeHills:  val = biExtremeHillsPlus; break;
+				case biForest:        val = biForestHills;      break;
+				case biIcePlains:     val = biIceMountains;     break;
+				case biJungle:        val = biJungleHills;      break;
+				case biMegaTaiga:     val = biMegaTaigaHills;   break;
+				case biMesaPlateau:   val = biMesa;             break;
+				case biMesaPlateauF:  val = biMesa;             break;
+				case biMesaPlateauM:  val = biMesa;             break;
+				case biMesaPlateauFM: val = biMesa;             break;
+				case biPlains:        val = biForest;           break;
+				case biRoofedForest:  val = biPlains;           break;
+				case biSavanna:       val = biSavannaPlateau;   break;
+				case biTaiga:         val = biTaigaHills;       break;
+			}
+			a_Values[idx] = val;
+		}  // for idx - a_Values[]
+	}
+
+protected:
+	Underlying m_Alterations;
+	Underlying m_BaseBiomes;
+};
+
+
+
+
+
+/** Adds an edge between two specifically incompatible biomes, such as mesa and forest. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenBiomeEdges:
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+	static const int m_LowerSizeX = SizeX + 2;
+	static const int m_LowerSizeZ = SizeZ + 2;
+
+public:
+	typedef std::shared_ptr<cIntGen<m_LowerSizeX, m_LowerSizeZ>> Underlying;
+
+
+	cIntGenBiomeEdges(int a_Seed, Underlying a_Underlying):
+		super(a_Seed),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Generate the underlying biomes:
+		typename Underlying::element_type::Values lowerValues;
+		m_Underlying->GetInts(a_MinX - 1, a_MinZ - 1, lowerValues);
+
+		// Convert incompatible edges into neutral biomes:
+		for (int z = 0; z < SizeZ; z++)
+		{
+			for (int x = 0; x < SizeX; x++)
+			{
+				int biome = lowerValues[x + 1 + (z + 1) * m_LowerSizeX];
+				int above = lowerValues[x + 1 + z *       m_LowerSizeX];
+				int below = lowerValues[x + 1 + (z + 2) * m_LowerSizeX];
+				int left  = lowerValues[x +     (z + 1) * m_LowerSizeX];
+				int right = lowerValues[x + 2 + (z + 1) * m_LowerSizeX];
+
+				switch (biome)
+				{
+					case biDesert:
+					case biDesertM:
+					case biDesertHills:
+					{
+						if (
+							IsBiomeVeryCold(static_cast<EMCSBiome>(above)) ||
+							IsBiomeVeryCold(static_cast<EMCSBiome>(below)) ||
+							IsBiomeVeryCold(static_cast<EMCSBiome>(left))  ||
+							IsBiomeVeryCold(static_cast<EMCSBiome>(right))
+						)
+						{
+							biome = biPlains;
+						}
+						break;
+					}  // case biDesert
+
+					case biMesaPlateau:
+					case biMesaPlateauF:
+					case biMesaPlateauFM:
+					case biMesaPlateauM:
+					{
+						if (
+							!isMesaCompatible(above) ||
+							!isMesaCompatible(below) ||
+							!isMesaCompatible(left)  ||
+							!isMesaCompatible(right)
+						)
+						{
+							biome = biDesert;
+						}
+						break;
+					}  // Mesa biomes
+
+					case biJungle:
+					case biJungleM:
+					{
+						if (
+							!isJungleCompatible(above) ||
+							!isJungleCompatible(below) ||
+							!isJungleCompatible(left)  ||
+							!isJungleCompatible(right)
+						)
+						{
+							biome = (biome == biJungle) ? biJungleEdge : biJungleEdgeM;
+						}
+						break;
+					}  // Jungle biomes
+
+					case biSwampland:
+					case biSwamplandM:
+					{
+						if (
+							IsBiomeNoDownfall(static_cast<EMCSBiome>(above)) ||
+							IsBiomeNoDownfall(static_cast<EMCSBiome>(below)) ||
+							IsBiomeNoDownfall(static_cast<EMCSBiome>(left))  ||
+							IsBiomeNoDownfall(static_cast<EMCSBiome>(right))
+						)
+						{
+							biome = biPlains;
+						}
+						break;
+					}  // Swampland biomes
+				}  // switch (biome)
+
+				a_Values[x + z * SizeX] = biome;
+			}  // for x
+		}  // for z
+	}
+
+
+protected:
+	Underlying m_Underlying;
+
+
+	bool isMesaCompatible(int a_Biome)
+	{
+		switch (a_Biome)
+		{
+			case biDesert:
+			case biMesa:
+			case biMesaBryce:
+			case biMesaPlateau:
+			case biMesaPlateauF:
+			case biMesaPlateauFM:
+			case biMesaPlateauM:
+			case biOcean:
+			case biDeepOcean:
+			{
+				return true;
+			}
+			default:
+			{
+				return false;
+			}
+		}
+	}
+
+
+	bool isJungleCompatible(int a_Biome)
+	{
+		switch (a_Biome)
+		{
+			case biJungle:
+			case biJungleM:
+			case biJungleEdge:
+			case biJungleEdgeM:
+			case biJungleHills:
+			{
+				return true;
+			}
+			default:
+			{
+				return false;
+			}
+		}
+	}
+};
+
+
+
+
+
+/** Changes biomes in the parent data into their alternate versions ("M" variants), in such places that
+have their alterations set. */
+template <int SizeX, int SizeZ = SizeX>
+class cIntGenMBiomes:
+	public cIntGenWithNoise<SizeX, SizeZ>
+{
+	typedef cIntGenWithNoise<SizeX, SizeZ> super;
+
+public:
+	typedef std::shared_ptr<cIntGen<SizeX, SizeZ>> Underlying;
+
+
+	cIntGenMBiomes(int a_Seed, Underlying a_Alteration, Underlying a_Underlying):
+		super(a_Seed),
+		m_Underlying(a_Underlying),
+		m_Alteration(a_Alteration)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, typename super::Values & a_Values) override
+	{
+		// Generate the underlying biomes and the alterations:
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_Values);
+		typename super::Values alterations;
+		m_Alteration->GetInts(a_MinX, a_MinZ, alterations);
+
+		// Wherever alterations are nonzero, change into alternate biome, if available:
+		for (int idx = 0; idx < SizeX * SizeZ; ++idx)
+		{
+			if (alterations[idx] == 0)
+			{
+				continue;
+			}
+
+			// Ice spikes biome was removed from here, because it was generated way too often
+			switch (a_Values[idx])
+			{
+				case biPlains:               a_Values[idx] = biSunflowerPlains;      break;
+				case biDesert:               a_Values[idx] = biDesertM;              break;
+				case biExtremeHills:         a_Values[idx] = biExtremeHillsM;        break;
+				case biForest:               a_Values[idx] = biFlowerForest;         break;
+				case biTaiga:                a_Values[idx] = biTaigaM;               break;
+				case biSwampland:            a_Values[idx] = biSwamplandM;           break;
+				case biJungle:               a_Values[idx] = biJungleM;              break;
+				case biJungleEdge:           a_Values[idx] = biJungleEdgeM;          break;
+				case biBirchForest:          a_Values[idx] = biBirchForestM;         break;
+				case biBirchForestHills:     a_Values[idx] = biBirchForestHillsM;    break;
+				case biRoofedForest:         a_Values[idx] = biRoofedForestM;        break;
+				case biColdTaiga:            a_Values[idx] = biColdTaigaM;           break;
+				case biMegaSpruceTaiga:      a_Values[idx] = biMegaSpruceTaiga;      break;
+				case biMegaSpruceTaigaHills: a_Values[idx] = biMegaSpruceTaigaHills; break;
+				case biExtremeHillsPlus:     a_Values[idx] = biExtremeHillsPlusM;    break;
+				case biSavanna:              a_Values[idx] = biSavannaM;             break;
+				case biSavannaPlateau:       a_Values[idx] = biSavannaPlateauM;      break;
+				case biMesa:                 a_Values[idx] = biMesaBryce;            break;
+				case biMesaPlateauF:         a_Values[idx] = biMesaPlateauFM;        break;
+				case biMesaPlateau:          a_Values[idx] = biMesaBryce;            break;
+			}
+		}  // for idx - a_Values[] / alterations[]
+	}
+
+protected:
+	Underlying m_Underlying;
+	Underlying m_Alteration;
+};
+
+
+
+
diff --git a/src/Generating/ProtIntGen.h b/src/Generating/ProtIntGen.h
new file mode 100644
index 000000000..73ed27096
--- /dev/null
+++ b/src/Generating/ProtIntGen.h
@@ -0,0 +1,1351 @@
+
+// ProtIntGen.h
+
+// Declares the prototyping integer generators - cProtIntGen class and its descendants
+
+/*
+These classes generate 2D arrays of integers that have various interpretations. The main purpose of these
+classes is to provide fast prototyping for cIntGen classes - unlike cIntGen classes, these are not
+template-based and so they take care of the underlying sizes automatically. This makes them easier to chain
+and re-chain, since the size parameters don't need to be adjusted after each such case. Their performance is,
+however, slightly worse, which is why we use cIntGen classes in the final generator.
+
+Because there is no SizeX / SizeZ template param, the generators would have to either alloc memory for each
+underlying generator's values, or use a maximum-size buffer. We chose the latter, to avoid memory allocation
+overhead; this however means that there's (an arbitrary) limit to the size of the generated data.
+*/
+
+
+
+
+
+#pragma once
+
+// We need the biome group constants defined there:
+#include "IntGen.h"
+
+
+
+
+
+/** Interface that all the generator classes provide. */
+class cProtIntGen
+{
+protected:
+	/** Maximum size of the generated area.
+	Adjust the constant if you need larger areas, these are just so that we can use fixed-size buffers. */
+	static const int m_BufferSize = 900;
+
+public:
+
+	/** Type of the generic interface used for storing links to the underlying generators. */
+	typedef std::shared_ptr<cProtIntGen> Underlying;
+
+
+	/** Force a virtual destructor in all descendants.
+	Descendants contain virtual functions and are referred to via pointer-to-base, so they need a virtual destructor. */
+	virtual ~cProtIntGen() {}
+
+	/** Generates the array of specified size into a_Values, based on given min coords. */
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) = 0;
+};
+
+
+
+
+
+/** Provides additional cNoise member and its helper functions. */
+class cProtIntGenWithNoise :
+	public cProtIntGen
+{
+	typedef cProtIntGen super;
+
+public:
+	cProtIntGenWithNoise(int a_Seed) :
+		m_Noise(a_Seed)
+	{
+	}
+
+protected:
+	cNoise m_Noise;
+
+	/** Chooses one of a_Val1 or a_Val2, based on m_Noise and the coordinates for querying the noise. */
+	int chooseRandomOne(int a_RndX, int a_RndZ, int a_Val1, int a_Val2)
+	{
+		int rnd = m_Noise.IntNoise2DInt(a_RndX, a_RndZ) / 7;
+		return ((rnd & 1) == 0) ? a_Val1 : a_Val2;
+	}
+
+	/** Chooses one of a_ValN, based on m_Noise and the coordinates for querying the noise. */
+	int chooseRandomOne(int a_RndX, int a_RndZ, int a_Val1, int a_Val2, int a_Val3, int a_Val4)
+	{
+		int rnd = m_Noise.IntNoise2DInt(a_RndX, a_RndZ) / 7;
+		switch (rnd % 4)
+		{
+			case 0:  return a_Val1;
+			case 1:  return a_Val2;
+			case 2:  return a_Val3;
+			default: return a_Val4;
+		}
+	}
+};
+
+
+
+
+
+
+/** Generates a 2D array of random integers in the specified range [0 .. Range). */
+class cProtIntGenChoice :
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenChoice(int a_Seed, int a_Range) :
+		super(a_Seed),
+		m_Range(a_Range)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			int BaseZ = a_MinZ + z;
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				a_Values[x + a_SizeX * z] = (super::m_Noise.IntNoise2DInt(a_MinX + x, BaseZ) / 7) % m_Range;
+			}
+		}  // for z
+	}
+
+protected:
+	int m_Range;
+};
+
+
+
+
+
+
+/** Decides between the ocean and landmass biomes.
+Has a threshold (in percent) of how much land, the larger the threshold, the more land.
+Generates 0 for ocean, biome group ID for landmass. */
+class cProtIntGenLandOcean :
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenLandOcean(int a_Seed, int a_Threshold) :
+		super(a_Seed),
+		m_Threshold(a_Threshold)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			int BaseZ = a_MinZ + z;
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int rnd = (super::m_Noise.IntNoise2DInt(a_MinX + x, BaseZ) / 7);
+				a_Values[x + a_SizeX * z] = ((rnd % 100) < m_Threshold) ? ((rnd / 101) % bgLandOceanMax + 1) : 0;
+			}
+		}
+
+		// If the centerpoint of the world is within the area, set it to bgTemperate, always:
+		if ((a_MinX <= 0) && (a_MinZ <= 0) && (a_MinX + a_SizeX > 0) && (a_MinZ + a_SizeZ > 0))
+		{
+			a_Values[-a_MinX - a_MinZ * a_SizeX] = bgTemperate;
+		}
+	}
+
+protected:
+	int m_Threshold;
+};
+
+
+
+
+
+/** Zooms the underlying value array to twice the size. Uses random-neighbor for the pixels in-between.
+This means that the zoome out image is randomly distorted. Applying zoom several times provides all
+the distortion that the generators need. */
+class cProtIntGenZoom :
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenZoom(int a_Seed, Underlying a_UnderlyingGen) :
+		super(a_Seed),
+		m_UnderlyingGen(a_UnderlyingGen)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Get the coords for the lower generator:
+		int lowerMinX = a_MinX >> 1;
+		int lowerMinZ = a_MinZ >> 1;
+		int lowerSizeX = a_SizeX / 2 + 2;
+		int lowerSizeZ = a_SizeZ / 2 + 2;
+		ASSERT(lowerSizeX * lowerSizeZ <= m_BufferSize);
+		ASSERT(lowerSizeX > 0);
+		ASSERT(lowerSizeZ > 0);
+
+		// Generate the underlying data with half the resolution:
+		int lowerData[m_BufferSize];
+		m_UnderlyingGen->GetInts(lowerMinX, lowerMinZ, lowerSizeX, lowerSizeZ, lowerData);
+		const int lowStepX = (lowerSizeX - 1) * 2;
+		int cache[m_BufferSize];
+
+		// Discreet-interpolate the values into twice the size:
+		for (int z = 0; z < lowerSizeZ - 1; ++z)
+		{
+			int idx = (z * 2) * lowStepX;
+			int PrevZ0 = lowerData[z * lowerSizeX];
+			int PrevZ1 = lowerData[(z + 1) * lowerSizeX];
+
+			for (int x = 0; x < lowerSizeX - 1; ++x)
+			{
+				int ValX1Z0 = lowerData[x + 1 + z * lowerSizeX];
+				int ValX1Z1 = lowerData[x + 1 + (z + 1) * lowerSizeX];
+				int RndX = (x + lowerMinX) * 2;
+				int RndZ = (z + lowerMinZ) * 2;
+				cache[idx] = PrevZ0;
+				cache[idx + lowStepX] = super::chooseRandomOne(RndX, RndZ + 1, PrevZ0, PrevZ1);
+				cache[idx + 1]        = super::chooseRandomOne(RndX, RndZ - 1, PrevZ0, ValX1Z0);
+				cache[idx + 1 + lowStepX] = super::chooseRandomOne(RndX, RndZ, PrevZ0, ValX1Z0, PrevZ1, ValX1Z1);
+				idx += 2;
+				PrevZ0 = ValX1Z0;
+				PrevZ1 = ValX1Z1;
+			}
+		}
+
+		// Copy from Cache into a_Values; take into account the even/odd offsets in a_Min:
+		for (int z = 0; z < a_SizeZ; ++z)
+		{
+			memcpy(a_Values + z * a_SizeX, cache + (z + (a_MinZ & 1)) * lowStepX + (a_MinX & 1), a_SizeX * sizeof(int));
+		}
+	}
+
+protected:
+	Underlying m_UnderlyingGen;
+};
+
+
+
+
+
+/** Smoothes out some artifacts generated by the zooming - mostly single-pixel values.
+Compares each pixel to its neighbors and if the neighbors are equal, changes the pixel to their value. */
+class cProtIntGenSmooth :
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenSmooth(int a_Seed, Underlying a_Underlying) :
+		super(a_Seed),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Generate the underlying values:
+		int lowerSizeX = a_SizeX + 2;
+		int lowerSizeZ = a_SizeZ + 2;
+		ASSERT(lowerSizeX * lowerSizeZ <= m_BufferSize);
+		int lowerData[m_BufferSize];
+		m_Underlying->GetInts(a_MinX - 1, a_MinZ - 1, lowerSizeX, lowerSizeZ, lowerData);
+
+		// Smooth - for each square check if the surroundings are the same, if so, expand them diagonally.
+		// Also get rid of single-pixel irregularities (A-B-A):
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			int NoiseZ = a_MinZ + z;
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int val   = lowerData[x + 1 + (z + 1) * lowerSizeX];
+				int above = lowerData[x + 1 +  z      * lowerSizeX];
+				int below = lowerData[x + 1 + (z + 2) * lowerSizeX];
+				int left  = lowerData[x     + (z + 1) * lowerSizeX];
+				int right = lowerData[x + 2 + (z + 1) * lowerSizeX];
+
+				if ((left == right) && (above == below))
+				{
+					if (((super::m_Noise.IntNoise2DInt(a_MinX + x, NoiseZ) / 7) % 2) == 0)
+					{
+						val = left;
+					}
+					else
+					{
+						val = above;
+					}
+				}
+				else
+				{
+					if (left == right)
+					{
+						val = left;
+					}
+
+					if (above == below)
+					{
+						val = above;
+					}
+				}
+
+				a_Values[x + z * a_SizeX] = val;
+			}
+		}
+	}
+
+protected:
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Converts land biomes at the edge of an ocean into the respective beach biome. */
+class cProtIntGenBeaches :
+	public cProtIntGen
+{
+	typedef cProtIntGen super;
+
+public:
+	cProtIntGenBeaches(Underlying a_Underlying) :
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Map for biome -> its beach:
+		static const int ToBeach[] =
+		{
+			/* biOcean            */ biOcean,
+			/* biPlains           */ biBeach,
+			/* biDesert           */ biBeach,
+			/* biExtremeHills     */ biStoneBeach,
+			/* biForest           */ biBeach,
+			/* biTaiga            */ biColdBeach,
+			/* biSwampland        */ biSwampland,
+			/* biRiver            */ biRiver,
+			/* biNether           */ biNether,
+			/* biEnd              */ biEnd,
+			/* biFrozenOcean      */ biColdBeach,
+			/* biFrozenRiver      */ biColdBeach,
+			/* biIcePlains        */ biColdBeach,
+			/* biIceMountains     */ biColdBeach,
+			/* biMushroomIsland   */ biMushroomShore,
+			/* biMushroomShore    */ biMushroomShore,
+			/* biBeach            */ biBeach,
+			/* biDesertHills      */ biBeach,
+			/* biForestHills      */ biBeach,
+			/* biTaigaHills       */ biColdBeach,
+			/* biExtremeHillsEdge */ biStoneBeach,
+			/* biJungle           */ biBeach,
+			/* biJungleHills      */ biBeach,
+			/* biJungleEdge       */ biBeach,
+			/* biDeepOcean        */ biOcean,
+			/* biStoneBeach       */ biStoneBeach,
+			/* biColdBeach        */ biColdBeach,
+			/* biBirchForest      */ biBeach,
+			/* biBirchForestHills */ biBeach,
+			/* biRoofedForest     */ biBeach,
+			/* biColdTaiga        */ biColdBeach,
+			/* biColdTaigaHills   */ biColdBeach,
+			/* biMegaTaiga        */ biStoneBeach,
+			/* biMegaTaigaHills   */ biStoneBeach,
+			/* biExtremeHillsPlus */ biStoneBeach,
+			/* biSavanna          */ biBeach,
+			/* biSavannaPlateau   */ biBeach,
+			/* biMesa             */ biMesa,
+			/* biMesaPlateauF     */ biMesa,
+			/* biMesaPlateau      */ biMesa,
+		};
+
+		// Generate the underlying values:
+		int lowerSizeX = a_SizeX + 2;
+		int lowerSizeZ = a_SizeZ + 2;
+		ASSERT(lowerSizeX * lowerSizeZ <= m_BufferSize);
+		int lowerValues[m_BufferSize];
+		m_Underlying->GetInts(a_MinX - 1, a_MinZ - 1, lowerSizeX, lowerSizeZ, lowerValues);
+
+		// Add beaches between ocean and biomes:
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int val   = lowerValues[x + 1 + (z + 1) * lowerSizeX];
+				int above = lowerValues[x + 1 + z       * lowerSizeX];
+				int below = lowerValues[x + 1 + (z + 2) * lowerSizeX];
+				int left  = lowerValues[x     + (z + 1) * lowerSizeX];
+				int right = lowerValues[x + 2 + (z + 1) * lowerSizeX];
+				if (!IsBiomeOcean(val))
+				{
+					if (IsBiomeOcean(above) || IsBiomeOcean(below) || IsBiomeOcean(left) || IsBiomeOcean(right))
+					{
+						// First convert the value to a regular biome (drop the M flag), then modulo by our biome count:
+						val = ToBeach[(val % 128) % ARRAYCOUNT(ToBeach)];
+					}
+				}
+				a_Values[x + z * a_SizeX] = val;
+			}
+		}
+	}
+
+protected:
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Generates the underlying numbers and then randomly changes some ocean group pixels into random land
+biome group pixels, based on the predefined chance. */
+class cProtIntGenAddIslands :
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	typedef std::shared_ptr<cProtIntGen> Underlying;
+
+
+	cProtIntGenAddIslands(int a_Seed, int a_Chance, Underlying a_Underlying) :
+		super(a_Seed),
+		m_Chance(a_Chance),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_SizeX, a_SizeZ, a_Values);
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				if (a_Values[x + z * a_SizeX] == bgOcean)
+				{
+					int rnd = super::m_Noise.IntNoise2DInt(a_MinX + x, a_MinZ + z) / 7;
+					if (rnd % 1000 < m_Chance)
+					{
+						a_Values[x + z * a_SizeX] = (rnd / 1003) % bgLandOceanMax;
+					}
+				}
+			}
+		}
+	}
+
+protected:
+	/** Chance of each ocean pixel being converted, in permille. */
+	int m_Chance;
+
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** A filter that adds an edge biome group between two biome groups that need an edge between them. */
+class cProtIntGenBiomeGroupEdges :
+	public cProtIntGen
+{
+	typedef cProtIntGen super;
+
+public:
+	cProtIntGenBiomeGroupEdges(Underlying a_Underlying) :
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values)
+	{
+		// Generate the underlying biome groups:
+		int lowerSizeX = a_SizeX + 2;
+		int lowerSizeZ = a_SizeZ + 2;
+		ASSERT(lowerSizeX * lowerSizeZ <= m_BufferSize);
+		int lowerValues[m_BufferSize];
+		m_Underlying->GetInts(a_MinX, a_MinZ, lowerSizeX, lowerSizeZ, lowerValues);
+
+		// Change the biomes on incompatible edges into an edge biome:
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int val   = lowerValues[x + 1 + (z + 1) * lowerSizeX];
+				int Above = lowerValues[x + 1 + z       * lowerSizeX];
+				int Below = lowerValues[x + 1 + (z + 2) * lowerSizeX];
+				int Left  = lowerValues[x     + (z + 1) * lowerSizeX];
+				int Right = lowerValues[x + 2 + (z + 1) * lowerSizeX];
+				switch (val)
+				{
+					// Desert should neighbor only oceans, desert and temperates; change to temperate when another:
+					case bgDesert:
+					{
+						if (
+							!isDesertCompatible(Above) ||
+							!isDesertCompatible(Below) ||
+							!isDesertCompatible(Left) ||
+							!isDesertCompatible(Right)
+						)
+						{
+							val = bgTemperate;
+						}
+						break;
+					}  // case bgDesert
+
+					// Ice should not neighbor deserts; change to temperate:
+					case bgIce:
+					{
+						if (
+							(Above == bgDesert) ||
+							(Below == bgDesert) ||
+							(Left  == bgDesert) ||
+							(Right == bgDesert)
+						)
+						{
+							val = bgTemperate;
+						}
+						break;
+					}  // case bgIce
+				}
+				a_Values[x + z * a_SizeX] = val;
+			}  // for x
+		}  // for z
+	}
+
+protected:
+	Underlying m_Underlying;
+
+
+	inline bool isDesertCompatible(int a_BiomeGroup)
+	{
+		switch (a_BiomeGroup)
+		{
+			case bgOcean:
+			case bgDesert:
+			case bgTemperate:
+			{
+				return true;
+			}
+			default:
+			{
+				return false;
+			}
+		}
+	}
+};
+
+
+
+
+
+/** Turns biome group indices into real biomes.
+For each pixel, takes its biome group and chooses a random biome from that group; replaces the value with
+that biome. */
+class cProtIntGenBiomes :
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenBiomes(int a_Seed, Underlying a_Underlying) :
+		super(a_Seed),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Define the per-biome-group biomes:
+		static const int oceanBiomes[] =
+		{
+			biOcean,  // biDeepOcean,
+		};
+
+		// Same as oceanBiomes, there are no rare oceanic biomes (mushroom islands are handled separately)
+		static const int rareOceanBiomes[] =
+		{
+			biOcean,
+		};
+
+		static const int desertBiomes[] =
+		{
+			biDesert, biDesert, biDesert, biDesert, biDesert, biDesert, biSavanna, biSavanna, biPlains,
+		};
+
+		static const int rareDesertBiomes[] =
+		{
+			biMesaPlateau, biMesaPlateauF,
+		};
+
+		static const int temperateBiomes[] =
+		{
+			biForest, biForest, biRoofedForest, biExtremeHills, biPlains, biBirchForest, biSwampland,
+		};
+
+		static const int rareTemperateBiomes[] =
+		{
+			biJungle,  // Jungle is not strictly temperate, but let's piggyback it here
+		};
+
+		static const int mountainBiomes[] =
+		{
+			biExtremeHills, biForest, biTaiga, biPlains,
+		};
+
+		static const int rareMountainBiomes[] =
+		{
+			biMegaTaiga,
+		};
+
+		static const int iceBiomes[] =
+		{
+			biIcePlains, biIcePlains, biIcePlains, biIcePlains, biColdTaiga,
+		};
+
+		// Same as iceBiomes, there's no rare ice biome
+		static const int rareIceBiomes[] =
+		{
+			biIcePlains, biIcePlains, biIcePlains, biIcePlains, biColdTaiga,
+		};
+
+		static const cBiomesInGroups biomesInGroups[] =
+		{
+			/* bgOcean */     { static_cast<int>(ARRAYCOUNT(oceanBiomes)),     oceanBiomes},
+			/* bgDesert */    { static_cast<int>(ARRAYCOUNT(desertBiomes)),    desertBiomes},
+			/* bgTemperate */ { static_cast<int>(ARRAYCOUNT(temperateBiomes)), temperateBiomes},
+			/* bgMountains */ { static_cast<int>(ARRAYCOUNT(mountainBiomes)),  mountainBiomes},
+			/* bgIce */       { static_cast<int>(ARRAYCOUNT(iceBiomes)),       iceBiomes},
+		};
+
+		static const cBiomesInGroups rareBiomesInGroups[] =
+		{
+			/* bgOcean */     { static_cast<int>(ARRAYCOUNT(rareOceanBiomes)),     rareOceanBiomes},
+			/* bgDesert */    { static_cast<int>(ARRAYCOUNT(rareDesertBiomes)),    rareDesertBiomes},
+			/* bgTemperate */ { static_cast<int>(ARRAYCOUNT(rareTemperateBiomes)), rareTemperateBiomes},
+			/* bgMountains */ { static_cast<int>(ARRAYCOUNT(rareMountainBiomes)),  rareMountainBiomes},
+			/* bgIce */       { static_cast<int>(ARRAYCOUNT(rareIceBiomes)),       rareIceBiomes},
+		};
+
+		// Generate the underlying values, representing biome groups:
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_SizeX, a_SizeZ, a_Values);
+
+		// Overwrite each biome group with a random biome from that group:
+		// Take care of the bgfRare flag
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			int IdxZ = z * a_SizeX;
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int val = a_Values[x + IdxZ];
+				const cBiomesInGroups & Biomes = (val > bgfRare) ?
+					rareBiomesInGroups[(val & (bgfRare - 1)) % ARRAYCOUNT(rareBiomesInGroups)] :
+					biomesInGroups[val % ARRAYCOUNT(biomesInGroups)];
+				int rnd = (super::m_Noise.IntNoise2DInt(x + a_MinX, z + a_MinZ) / 7);
+				a_Values[x + IdxZ] = Biomes.Biomes[rnd % Biomes.Count];
+			}
+		}
+	}
+
+protected:
+
+	struct cBiomesInGroups
+	{
+		const int Count;
+		const int * Biomes;
+	};
+
+
+	/** The underlying int generator */
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Randomly replaces pixels of one value to another value, using the given chance. */
+class cProtIntGenReplaceRandomly :
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	typedef std::shared_ptr<cProtIntGen> Underlying;
+
+
+	cProtIntGenReplaceRandomly(int a_Seed, int a_From, int a_To, int a_Chance, Underlying a_Underlying) :
+		super(a_Seed),
+		m_From(a_From),
+		m_To(a_To),
+		m_Chance(a_Chance),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Generate the underlying values:
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_SizeX, a_SizeZ, a_Values);
+
+		// Replace some of the values:
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			int idxZ = z * a_SizeX;
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int idx = x + idxZ;
+				if (a_Values[idx] == m_From)
+				{
+					int rnd = super::m_Noise.IntNoise2DInt(x + a_MinX, z + a_MinZ) / 7;
+					if (rnd % 1000 < m_Chance)
+					{
+						a_Values[idx] = m_To;
+					}
+				}
+			}
+		}  // for z
+	}
+
+
+protected:
+	/** The original value to be replaced. */
+	int m_From;
+
+	/** The destination value to which to replace. */
+	int m_To;
+
+	/** Chance, in permille, of replacing the value. */
+	int m_Chance;
+
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Mixer that joins together finalized biomes and rivers.
+It first checks for oceans, if there is an ocean in the Biomes, it keeps the ocean.
+If there's no ocean, it checks Rivers for a river, if there is a river, it uses the Biomes to select either
+regular river or frozen river, based on the biome. */
+class cProtIntGenMixRivers:
+	public cProtIntGen
+{
+	typedef cProtIntGen super;
+
+public:
+	cProtIntGenMixRivers(Underlying a_Biomes, Underlying a_Rivers):
+		m_Biomes(a_Biomes),
+		m_Rivers(a_Rivers)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Generate the underlying data:
+		ASSERT(a_SizeX * a_SizeZ <= m_BufferSize);
+		m_Biomes->GetInts(a_MinX, a_MinZ, a_SizeX, a_SizeZ, a_Values);
+		int riverData[m_BufferSize];
+		m_Rivers->GetInts(a_MinX, a_MinZ, a_SizeX, a_SizeZ, riverData);
+
+		// Mix the values:
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			int idxZ = z * a_SizeX;
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int idx = x + idxZ;
+				if (IsBiomeOcean(a_Values[idx]))
+				{
+					// Oceans are kept without any changes
+					continue;
+				}
+				if (riverData[idx] != biRiver)
+				{
+					// There's no river, keep the current value
+					continue;
+				}
+
+				// There's a river, change the output to a river or a frozen river, based on the original biome:
+				if (IsBiomeVeryCold((EMCSBiome)a_Values[idx]))
+				{
+					a_Values[idx] = biFrozenRiver;
+				}
+				else
+				{
+					a_Values[idx] = biRiver;
+				}
+			}  // for x
+		}  // for z
+	}
+
+protected:
+	Underlying m_Biomes;
+	Underlying m_Rivers;
+};
+
+
+
+
+
+/** Generates a river based on the underlying data.
+This is basically an edge detector over the underlying data. The rivers are the edges where the underlying
+data changes from one pixel to its neighbor. */
+class cProtIntGenRiver:
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenRiver(int a_Seed, Underlying a_Underlying):
+		super(a_Seed),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Generate the underlying data:
+		int lowerSizeX = a_SizeX + 2;
+		int lowerSizeZ = a_SizeZ + 2;
+		ASSERT(lowerSizeX * lowerSizeZ <= m_BufferSize);
+		int lowerValues[m_BufferSize];
+		m_Underlying->GetInts(a_MinX - 1, a_MinZ - 1, lowerSizeX, lowerSizeZ, lowerValues);
+
+		// Detect the edges:
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int Above = lowerValues[x + 1 + z       * lowerSizeX];
+				int Below = lowerValues[x + 1 + (z + 2) * lowerSizeX];
+				int Left  = lowerValues[x +     (z + 1) * lowerSizeX];
+				int Right = lowerValues[x + 2 + (z + 1) * lowerSizeX];
+				int val   = lowerValues[x + 1 + (z + 1) * lowerSizeX];
+
+				if ((val == Above) && (val == Below) && (val == Left) && (val == Right))
+				{
+					val = 0;
+				}
+				else
+				{
+					val = biRiver;
+				}
+				a_Values[x + z * a_SizeX] = val;
+			}  // for x
+		}  // for z
+	}
+
+protected:
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Turns some of the oceans into the specified biome. Used for mushroom and deep ocean.
+The biome is only placed if at least 3 of its neighbors are ocean and only with the specified chance. */
+class cProtIntGenAddToOcean:
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenAddToOcean(int a_Seed, int a_Chance, int a_ToValue, Underlying a_Underlying):
+		super(a_Seed),
+		m_Chance(a_Chance),
+		m_ToValue(a_ToValue),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Generate the underlying data:
+		int lowerSizeX = a_SizeX + 2;
+		int lowerSizeZ = a_SizeZ + 2;
+		ASSERT(lowerSizeX * lowerSizeZ <= m_BufferSize);
+		int lowerValues[m_BufferSize];
+		m_Underlying->GetInts(a_MinX - 1, a_MinZ - 1, lowerSizeX, lowerSizeZ, lowerValues);
+
+		// Add the mushroom islands:
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int val = lowerValues[x + 1 + (z + 1) * lowerSizeX];
+				if (!IsBiomeOcean(val))
+				{
+					a_Values[x + z * a_SizeX] = val;
+					continue;
+				}
+
+				// Count the ocean neighbors:
+				int Above = lowerValues[x + 1 + z       * lowerSizeX];
+				int Below = lowerValues[x + 1 + (z + 2) * lowerSizeX];
+				int Left  = lowerValues[x +     (z + 1) * lowerSizeX];
+				int Right = lowerValues[x + 2 + (z + 1) * lowerSizeX];
+				int NumOceanNeighbors = 0;
+				if (IsBiomeOcean(Above))
+				{
+					NumOceanNeighbors += 1;
+				}
+				if (IsBiomeOcean(Below))
+				{
+					NumOceanNeighbors += 1;
+				}
+				if (IsBiomeOcean(Left))
+				{
+					NumOceanNeighbors += 1;
+				}
+				if (IsBiomeOcean(Right))
+				{
+					NumOceanNeighbors += 1;
+				}
+
+				// If at least 3 ocean neighbors and the chance is right, change:
+				if (
+					(NumOceanNeighbors >= 3) &&
+					((super::m_Noise.IntNoise2DInt(x + a_MinX, z + a_MinZ) / 7) % 1000 < m_Chance)
+				)
+				{
+					a_Values[x + z * a_SizeX] = m_ToValue;
+				}
+				else
+				{
+					a_Values[x + z * a_SizeX] = val;
+				}
+			}  // for x
+		}  // for z
+	}
+
+protected:
+	/** Chance, in permille, of changing the biome. */
+	int m_Chance;
+
+	/** The value to change the ocean into. */
+	int m_ToValue;
+
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Changes random pixels of the underlying data to the specified value. */
+class cProtIntGenSetRandomly :
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenSetRandomly(int a_Seed, int a_Chance, int a_ToValue, Underlying a_Underlying) :
+		super(a_Seed),
+		m_Chance(a_Chance),
+		m_ToValue(a_ToValue),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Generate the underlying data:
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_SizeX, a_SizeZ, a_Values);
+
+		// Change random pixels to bgOcean:
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int rnd = super::m_Noise.IntNoise2DInt(x + a_MinX, z + a_MinZ) / 7;
+				if (rnd % 1000 < m_Chance)
+				{
+					a_Values[x + z * a_SizeX] = m_ToValue;
+				}
+			}
+		}
+	}
+
+protected:
+	/** Chance, in permille, of changing each pixel. */
+	int m_Chance;
+
+	/** The value to which to set the pixel. */
+	int m_ToValue;
+
+	Underlying m_Underlying;
+};
+
+
+
+
+
+
+/** Adds a "rare" flag to random biome groups, based on the given chance. */
+class cProtIntGenRareBiomeGroups:
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenRareBiomeGroups(int a_Seed, int a_Chance, Underlying a_Underlying):
+		super(a_Seed),
+		m_Chance(a_Chance),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Generate the underlying data:
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_SizeX, a_SizeZ, a_Values);
+
+		// Change some of the biome groups into rare biome groups:
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int rnd = super::m_Noise.IntNoise2DInt(x + a_MinX, z + a_MinZ) / 7;
+				if (rnd % 1000 < m_Chance)
+				{
+					int idx = x + a_SizeX * z;
+					a_Values[idx] = a_Values[idx] | bgfRare;
+				}
+			}
+		}
+	}
+
+protected:
+	/** Chance, in permille, of changing each pixel into the rare biome group. */
+	int m_Chance;
+
+	/** The underlying generator. */
+	Underlying m_Underlying;
+};
+
+
+
+
+
+/** Changes biomes in the parent data into an alternate versions (usually "hill" variants), in such places
+that have their alterations set. */
+class cProtIntGenAlternateBiomes:
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenAlternateBiomes(int a_Seed, Underlying a_Alterations, Underlying a_BaseBiomes):
+		super(a_Seed),
+		m_Alterations(a_Alterations),
+		m_BaseBiomes(a_BaseBiomes)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Generate the base biomes and the alterations:
+		m_BaseBiomes->GetInts(a_MinX, a_MinZ, a_SizeX, a_SizeZ, a_Values);
+		int alterations[m_BufferSize];
+		m_Alterations->GetInts(a_MinX, a_MinZ, a_SizeX, a_SizeZ, alterations);
+
+		// Change the biomes into their alternate versions:
+		int len = a_SizeX * a_SizeZ;
+		for (int idx = 0; idx < len; ++idx)
+		{
+			if (alterations[idx] == 0)
+			{
+				// No change
+				continue;
+			}
+
+			// Change to alternate biomes:
+			int val = a_Values[idx];
+			switch (val)
+			{
+				case biBirchForest:   val = biBirchForestHills; break;
+				case biDesert:        val = biDesertHills;      break;
+				case biExtremeHills:  val = biExtremeHillsPlus; break;
+				case biForest:        val = biForestHills;      break;
+				case biIcePlains:     val = biIceMountains;     break;
+				case biJungle:        val = biJungleHills;      break;
+				case biMegaTaiga:     val = biMegaTaigaHills;   break;
+				case biMesaPlateau:   val = biMesa;             break;
+				case biMesaPlateauF:  val = biMesa;             break;
+				case biMesaPlateauM:  val = biMesa;             break;
+				case biMesaPlateauFM: val = biMesa;             break;
+				case biPlains:        val = biForest;           break;
+				case biRoofedForest:  val = biPlains;           break;
+				case biSavanna:       val = biSavannaPlateau;   break;
+				case biTaiga:         val = biTaigaHills;       break;
+			}
+			a_Values[idx] = val;
+		}  // for idx - a_Values[]
+	}
+
+protected:
+	Underlying m_Alterations;
+	Underlying m_BaseBiomes;
+};
+
+
+
+
+
+/** Adds an edge between two specifically incompatible biomes, such as mesa and forest. */
+class cProtIntGenBiomeEdges:
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenBiomeEdges(int a_Seed, Underlying a_Underlying):
+		super(a_Seed),
+		m_Underlying(a_Underlying)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Generate the underlying biomes:
+		int lowerSizeX = a_SizeX + 2;
+		int lowerSizeZ = a_SizeZ + 2;
+		ASSERT(lowerSizeX * lowerSizeZ <= m_BufferSize);
+		int lowerValues[m_BufferSize];
+		m_Underlying->GetInts(a_MinX - 1, a_MinZ - 1, lowerSizeX, lowerSizeZ, lowerValues);
+
+		// Convert incompatible edges into neutral biomes:
+		for (int z = 0; z < a_SizeZ; z++)
+		{
+			for (int x = 0; x < a_SizeX; x++)
+			{
+				int biome = lowerValues[x + 1 + (z + 1) * lowerSizeX];
+				int above = lowerValues[x + 1 + z *       lowerSizeX];
+				int below = lowerValues[x + 1 + (z + 2) * lowerSizeX];
+				int left  = lowerValues[x +     (z + 1) * lowerSizeX];
+				int right = lowerValues[x + 2 + (z + 1) * lowerSizeX];
+
+				switch (biome)
+				{
+					case biDesert:
+					case biDesertM:
+					case biDesertHills:
+					{
+						if (
+							IsBiomeVeryCold(static_cast<EMCSBiome>(above)) ||
+							IsBiomeVeryCold(static_cast<EMCSBiome>(below)) ||
+							IsBiomeVeryCold(static_cast<EMCSBiome>(left))  ||
+							IsBiomeVeryCold(static_cast<EMCSBiome>(right))
+						)
+						{
+							biome = biPlains;
+						}
+						break;
+					}  // case biDesert
+
+					case biMesaPlateau:
+					case biMesaPlateauF:
+					case biMesaPlateauFM:
+					case biMesaPlateauM:
+					{
+						if (
+							!isMesaCompatible(above) ||
+							!isMesaCompatible(below) ||
+							!isMesaCompatible(left)  ||
+							!isMesaCompatible(right)
+						)
+						{
+							biome = biDesert;
+						}
+						break;
+					}  // Mesa biomes
+
+					case biJungle:
+					case biJungleM:
+					{
+						if (
+							!isJungleCompatible(above) ||
+							!isJungleCompatible(below) ||
+							!isJungleCompatible(left)  ||
+							!isJungleCompatible(right)
+						)
+						{
+							biome = (biome == biJungle) ? biJungleEdge : biJungleEdgeM;
+						}
+						break;
+					}  // Jungle biomes
+
+					case biSwampland:
+					case biSwamplandM:
+					{
+						if (
+							IsBiomeNoDownfall(static_cast<EMCSBiome>(above)) ||
+							IsBiomeNoDownfall(static_cast<EMCSBiome>(below)) ||
+							IsBiomeNoDownfall(static_cast<EMCSBiome>(left))  ||
+							IsBiomeNoDownfall(static_cast<EMCSBiome>(right))
+						)
+						{
+							biome = biPlains;
+						}
+						break;
+					}  // Swampland biomes
+				}  // switch (biome)
+
+				a_Values[x + z * a_SizeX] = biome;
+			}  // for x
+		}  // for z
+	}
+
+
+protected:
+	Underlying m_Underlying;
+
+
+	bool isMesaCompatible(int a_Biome)
+	{
+		switch (a_Biome)
+		{
+			case biDesert:
+			case biMesa:
+			case biMesaBryce:
+			case biMesaPlateau:
+			case biMesaPlateauF:
+			case biMesaPlateauFM:
+			case biMesaPlateauM:
+			case biOcean:
+			case biDeepOcean:
+			{
+				return true;
+			}
+			default:
+			{
+				return false;
+			}
+		}
+	}
+
+
+	bool isJungleCompatible(int a_Biome)
+	{
+		switch (a_Biome)
+		{
+			case biJungle:
+			case biJungleM:
+			case biJungleEdge:
+			case biJungleEdgeM:
+			case biJungleHills:
+			{
+				return true;
+			}
+			default:
+			{
+				return false;
+			}
+		}
+	}
+};
+
+
+
+
+
+/** Changes biomes in the parent data into their alternate versions ("M" variants), in such places that
+have their alterations set. */
+class cProtIntGenMBiomes:
+	public cProtIntGenWithNoise
+{
+	typedef cProtIntGenWithNoise super;
+
+public:
+	cProtIntGenMBiomes(int a_Seed, Underlying a_Alteration, Underlying a_Underlying):
+		super(a_Seed),
+		m_Underlying(a_Underlying),
+		m_Alteration(a_Alteration)
+	{
+	}
+
+
+	virtual void GetInts(int a_MinX, int a_MinZ, int a_SizeX, int a_SizeZ, int * a_Values) override
+	{
+		// Generate the underlying biomes and the alterations:
+		m_Underlying->GetInts(a_MinX, a_MinZ, a_SizeX, a_SizeZ, a_Values);
+		int alterations[m_BufferSize];
+		m_Alteration->GetInts(a_MinX, a_MinZ, a_SizeX, a_SizeZ, alterations);
+
+		// Wherever alterations are nonzero, change into alternate biome, if available:
+		int len = a_SizeX * a_SizeZ;
+		for (int idx = 0; idx < len; ++idx)
+		{
+			if (alterations[idx] == 0)
+			{
+				continue;
+			}
+
+			// Ice spikes biome was removed from here, because it was generated way too often
+			switch (a_Values[idx])
+			{
+				case biPlains:               a_Values[idx] = biSunflowerPlains;      break;
+				case biDesert:               a_Values[idx] = biDesertM;              break;
+				case biExtremeHills:         a_Values[idx] = biExtremeHillsM;        break;
+				case biForest:               a_Values[idx] = biFlowerForest;         break;
+				case biTaiga:                a_Values[idx] = biTaigaM;               break;
+				case biSwampland:            a_Values[idx] = biSwamplandM;           break;
+				case biJungle:               a_Values[idx] = biJungleM;              break;
+				case biJungleEdge:           a_Values[idx] = biJungleEdgeM;          break;
+				case biBirchForest:          a_Values[idx] = biBirchForestM;         break;
+				case biBirchForestHills:     a_Values[idx] = biBirchForestHillsM;    break;
+				case biRoofedForest:         a_Values[idx] = biRoofedForestM;        break;
+				case biColdTaiga:            a_Values[idx] = biColdTaigaM;           break;
+				case biMegaSpruceTaiga:      a_Values[idx] = biMegaSpruceTaiga;      break;
+				case biMegaSpruceTaigaHills: a_Values[idx] = biMegaSpruceTaigaHills; break;
+				case biExtremeHillsPlus:     a_Values[idx] = biExtremeHillsPlusM;    break;
+				case biSavanna:              a_Values[idx] = biSavannaM;             break;
+				case biSavannaPlateau:       a_Values[idx] = biSavannaPlateauM;      break;
+				case biMesa:                 a_Values[idx] = biMesaBryce;            break;
+				case biMesaPlateauF:         a_Values[idx] = biMesaPlateauFM;        break;
+				case biMesaPlateau:          a_Values[idx] = biMesaBryce;            break;
+			}
+		}  // for idx - a_Values[] / alterations[]
+	}
+
+protected:
+	Underlying m_Underlying;
+	Underlying m_Alteration;
+};
+
+
+
+