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// Nosie3DGenerator.cpp
// Generates terrain using 3D noise, rather than composing. Is a test.
# include "Globals.h"
# include "Noise3DGenerator.h"
# include "../OSSupport/File.h"
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# include "../IniFile.h"
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# include "../LinearInterpolation.h"
# include "../LinearUpscale.h"
/*
// Perform an automatic test of upscaling upon program start (use breakpoints to debug):
class Test
{
public :
Test ( void )
{
DoTest1 ( ) ;
DoTest2 ( ) ;
}
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void DoTest1 ( void )
{
float In [ 3 * 3 * 3 ] ;
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for ( size_t i = 0 ; i < ARRAYCOUNT ( In ) ; i + + )
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{
In [ i ] = ( float ) ( i % 5 ) ;
}
Debug3DNoise ( In , 3 , 3 , 3 , " Upscale3D in " ) ;
float Out [ 17 * 33 * 35 ] ;
LinearUpscale3DArray ( In , 3 , 3 , 3 , Out , 8 , 16 , 17 ) ;
Debug3DNoise ( Out , 17 , 33 , 35 , " Upscale3D test " ) ;
}
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void DoTest2 ( void )
{
float In [ 3 * 3 ] ;
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for ( size_t i = 0 ; i < ARRAYCOUNT ( In ) ; i + + )
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{
In [ i ] = ( float ) ( i % 5 ) ;
}
Debug2DNoise ( In , 3 , 3 , " Upscale2D in " ) ;
float Out [ 17 * 33 ] ;
LinearUpscale2DArray ( In , 3 , 3 , Out , 8 , 16 ) ;
Debug2DNoise ( Out , 17 , 33 , " Upscale2D test " ) ;
}
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} gTest ;
//*/
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#if 0
// Perform speed test of the cInterpolNoise class
static class cInterpolNoiseSpeedTest
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{
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public :
cInterpolNoiseSpeedTest ( void )
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{
TestSpeed2D ( ) ;
TestSpeed3D ( ) ;
printf ( " InterpolNoise speed comparison finished. \n " ) ;
}
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/** Compare the speed of the 3D InterpolNoise vs 3D CubicNoise. */
void TestSpeed3D ( void )
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{
printf ( " Evaluating 3D noise performance... \n " ) ;
static const int SIZE_X = 128 ;
static const int SIZE_Y = 128 ;
static const int SIZE_Z = 128 ;
static const NOISE_DATATYPE MUL = 80 ;
std : : unique_ptr < NOISE_DATATYPE [ ] > arr ( new NOISE_DATATYPE [ SIZE_X * SIZE_Y * SIZE_Z ] ) ;
cTimer timer ;
// Test the cInterpolNoise:
cInterpolNoise < Interp5Deg > interpNoise ( 1 ) ;
long long start = timer . GetNowTime ( ) ;
for ( int i = 0 ; i < 30 ; i + + )
{
interpNoise . Generate3D ( arr . get ( ) , SIZE_X , SIZE_Y , SIZE_Z , MUL * i , MUL * i + MUL , 0 , MUL , 0 , MUL ) ;
}
long long end = timer . GetNowTime ( ) ;
printf ( " InterpolNoise took %.02f sec \n " , static_cast < float > ( end - start ) / 1000 ) ;
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// Test the cCubicNoise:
cCubicNoise cubicNoise ( 1 ) ;
start = timer . GetNowTime ( ) ;
for ( int i = 0 ; i < 30 ; i + + )
{
cubicNoise . Generate3D ( arr . get ( ) , SIZE_X , SIZE_Y , SIZE_Z , MUL * i , MUL * i + MUL , 0 , MUL , 0 , MUL ) ;
}
end = timer . GetNowTime ( ) ;
printf ( " CubicNoise took %.02f sec \n " , static_cast < float > ( end - start ) / 1000 ) ;
printf ( " 3D noise performance comparison finished. \n " ) ;
}
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/** Compare the speed of the 2D InterpolNoise vs 2D CubicNoise. */
void TestSpeed2D ( void )
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{
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printf ( " Evaluating 2D noise performance... \n " ) ;
static const int SIZE_X = 128 ;
static const int SIZE_Y = 128 ;
static const NOISE_DATATYPE MUL = 80 ;
std : : unique_ptr < NOISE_DATATYPE [ ] > arr ( new NOISE_DATATYPE [ SIZE_X * SIZE_Y ] ) ;
cTimer timer ;
// Test the cInterpolNoise:
cInterpolNoise < Interp5Deg > interpNoise ( 1 ) ;
long long start = timer . GetNowTime ( ) ;
for ( int i = 0 ; i < 500 ; i + + )
{
interpNoise . Generate2D ( arr . get ( ) , SIZE_X , SIZE_Y , MUL * i , MUL * i + MUL , 0 , MUL ) ;
}
long long end = timer . GetNowTime ( ) ;
printf ( " InterpolNoise took %.02f sec \n " , static_cast < float > ( end - start ) / 1000 ) ;
// Test the cCubicNoise:
cCubicNoise cubicNoise ( 1 ) ;
start = timer . GetNowTime ( ) ;
for ( int i = 0 ; i < 500 ; i + + )
{
cubicNoise . Generate2D ( arr . get ( ) , SIZE_X , SIZE_Y , MUL * i , MUL * i + MUL , 0 , MUL ) ;
}
end = timer . GetNowTime ( ) ;
printf ( " CubicNoise took %.02f sec \n " , static_cast < float > ( end - start ) / 1000 ) ;
printf ( " 2D noise performance comparison finished. \n " ) ;
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}
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} g_InterpolNoiseSpeedTest ;
# endif
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////////////////////////////////////////////////////////////////////////////////
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// cNoise3DGenerator:
cNoise3DGenerator : : cNoise3DGenerator ( cChunkGenerator & a_ChunkGenerator ) :
super ( a_ChunkGenerator ) ,
m_Perlin ( 1000 ) ,
m_Cubic ( 1000 )
{
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m_Perlin . AddOctave ( 1 , 1 ) ;
m_Perlin . AddOctave ( 2 , 0.5 ) ;
m_Perlin . AddOctave ( 4 , 0.25 ) ;
m_Perlin . AddOctave ( 8 , 0.125 ) ;
m_Perlin . AddOctave ( 16 , 0.0625 ) ;
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m_Cubic . AddOctave ( 1 , 1 ) ;
m_Cubic . AddOctave ( 2 , 0.5 ) ;
m_Cubic . AddOctave ( 4 , 0.25 ) ;
m_Cubic . AddOctave ( 8 , 0.125 ) ;
m_Cubic . AddOctave ( 16 , 0.0625 ) ;
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}
cNoise3DGenerator : : ~ cNoise3DGenerator ( )
{
// Nothing needed yet
}
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void cNoise3DGenerator : : Initialize ( cIniFile & a_IniFile )
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{
// Params:
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m_SeaLevel = a_IniFile . GetValueSetI ( " Generator " , " SeaLevel " , 62 ) ;
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m_HeightAmplification = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DHeightAmplification " , 0.1 ) ) ;
m_MidPoint = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DMidPoint " , 68 ) ) ;
m_FrequencyX = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DFrequencyX " , 8 ) ) ;
m_FrequencyY = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DFrequencyY " , 8 ) ) ;
m_FrequencyZ = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DFrequencyZ " , 8 ) ) ;
m_AirThreshold = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DAirThreshold " , 0.5 ) ) ;
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}
void cNoise3DGenerator : : GenerateBiomes ( int a_ChunkX , int a_ChunkZ , cChunkDef : : BiomeMap & a_BiomeMap )
{
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for ( size_t i = 0 ; i < ARRAYCOUNT ( a_BiomeMap ) ; i + + )
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{
a_BiomeMap [ i ] = biExtremeHills ;
}
}
void cNoise3DGenerator : : DoGenerate ( int a_ChunkX , int a_ChunkZ , cChunkDesc & a_ChunkDesc )
{
NOISE_DATATYPE Noise [ 17 * 257 * 17 ] ;
GenerateNoiseArray ( a_ChunkX , a_ChunkZ , Noise ) ;
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// Output noise into chunk:
for ( int z = 0 ; z < cChunkDef : : Width ; z + + )
{
for ( int y = 0 ; y < cChunkDef : : Height ; y + + )
{
int idx = z * 17 * 257 + y * 17 ;
for ( int x = 0 ; x < cChunkDef : : Width ; x + + )
{
NOISE_DATATYPE n = Noise [ idx + + ] ;
BLOCKTYPE BlockType ;
if ( n > m_AirThreshold )
{
BlockType = ( y > m_SeaLevel ) ? E_BLOCK_AIR : E_BLOCK_STATIONARY_WATER ;
}
else
{
BlockType = E_BLOCK_STONE ;
}
a_ChunkDesc . SetBlockType ( x , y , z , BlockType ) ;
}
}
}
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a_ChunkDesc . UpdateHeightmap ( ) ;
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ComposeTerrain ( a_ChunkDesc ) ;
}
void cNoise3DGenerator : : GenerateNoiseArray ( int a_ChunkX , int a_ChunkZ , NOISE_DATATYPE * a_OutNoise )
{
NOISE_DATATYPE NoiseO [ DIM_X * DIM_Y * DIM_Z ] ; // Output for the Perlin noise
NOISE_DATATYPE NoiseW [ DIM_X * DIM_Y * DIM_Z ] ; // Workspace that the noise calculation can use and trash
// Our noise array has different layout, XZY, instead of regular chunk's XYZ, that's why the coords are "renamed"
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NOISE_DATATYPE StartX = static_cast < NOISE_DATATYPE > ( a_ChunkX * cChunkDef : : Width ) / m_FrequencyX ;
NOISE_DATATYPE EndX = static_cast < NOISE_DATATYPE > ( ( a_ChunkX + 1 ) * cChunkDef : : Width ) / m_FrequencyX ;
NOISE_DATATYPE StartZ = static_cast < NOISE_DATATYPE > ( a_ChunkZ * cChunkDef : : Width ) / m_FrequencyZ ;
NOISE_DATATYPE EndZ = static_cast < NOISE_DATATYPE > ( ( a_ChunkZ + 1 ) * cChunkDef : : Width ) / m_FrequencyZ ;
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NOISE_DATATYPE StartY = 0 ;
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NOISE_DATATYPE EndY = static_cast < NOISE_DATATYPE > ( 256 ) / m_FrequencyY ;
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m_Perlin . Generate3D ( NoiseO , DIM_X , DIM_Y , DIM_Z , StartX , EndX , StartY , EndY , StartZ , EndZ , NoiseW ) ;
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// DEBUG: Debug3DNoise(NoiseO, DIM_X, DIM_Y, DIM_Z, Printf("Chunk_%d_%d_orig", a_ChunkX, a_ChunkZ));
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// Precalculate a "height" array:
NOISE_DATATYPE Height [ DIM_X * DIM_Z ] ; // Output for the cubic noise heightmap ("source")
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m_Cubic . Generate2D ( Height , DIM_X , DIM_Z , StartX / 5 , EndX / 5 , StartZ / 5 , EndZ / 5 ) ;
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for ( size_t i = 0 ; i < ARRAYCOUNT ( Height ) ; i + + )
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{
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Height [ i ] = Height [ i ] * m_HeightAmplification ;
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}
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// Modify the noise by height data:
for ( int y = 0 ; y < DIM_Y ; y + + )
{
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NOISE_DATATYPE AddHeight = ( y * UPSCALE_Y - m_MidPoint ) / 30 ;
// AddHeight *= AddHeight * AddHeight;
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for ( int z = 0 ; z < DIM_Z ; z + + )
{
NOISE_DATATYPE * CurRow = & ( NoiseO [ y * DIM_X + z * DIM_X * DIM_Y ] ) ;
for ( int x = 0 ; x < DIM_X ; x + + )
{
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CurRow [ x ] + = AddHeight + Height [ x + DIM_X * z ] ;
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}
}
}
// DEBUG: Debug3DNoise(NoiseO, DIM_X, DIM_Y, DIM_Z, Printf("Chunk_%d_%d_hei", a_ChunkX, a_ChunkZ));
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// Upscale the Perlin noise into full-blown chunk dimensions:
LinearUpscale3DArray (
NoiseO , DIM_X , DIM_Y , DIM_Z ,
a_OutNoise , UPSCALE_X , UPSCALE_Y , UPSCALE_Z
) ;
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// DEBUG: Debug3DNoise(a_OutNoise, 17, 257, 17, Printf("Chunk_%d_%d_lerp", a_ChunkX, a_ChunkZ));
}
void cNoise3DGenerator : : ComposeTerrain ( cChunkDesc & a_ChunkDesc )
{
// Make basic terrain composition:
for ( int z = 0 ; z < cChunkDef : : Width ; z + + )
{
for ( int x = 0 ; x < cChunkDef : : Width ; x + + )
{
int LastAir = a_ChunkDesc . GetHeight ( x , z ) + 1 ;
bool HasHadWater = false ;
for ( int y = LastAir - 1 ; y > 0 ; y - - )
{
switch ( a_ChunkDesc . GetBlockType ( x , y , z ) )
{
case E_BLOCK_AIR :
{
LastAir = y ;
break ;
}
case E_BLOCK_STONE :
{
if ( LastAir - y > 3 )
{
break ;
}
if ( HasHadWater )
{
a_ChunkDesc . SetBlockType ( x , y , z , E_BLOCK_SAND ) ;
}
else
{
a_ChunkDesc . SetBlockType ( x , y , z , ( LastAir = = y + 1 ) ? E_BLOCK_GRASS : E_BLOCK_DIRT ) ;
}
break ;
}
case E_BLOCK_STATIONARY_WATER :
{
LastAir = y ;
HasHadWater = true ;
break ;
}
} // switch (GetBlockType())
} // for y
a_ChunkDesc . SetBlockType ( x , 0 , z , E_BLOCK_BEDROCK ) ;
} // for x
} // for z
}
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////////////////////////////////////////////////////////////////////////////////
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// cNoise3DComposable:
cNoise3DComposable : : cNoise3DComposable ( int a_Seed ) :
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m_ChoiceNoise ( a_Seed ) ,
m_DensityNoiseA ( a_Seed + 1 ) ,
m_DensityNoiseB ( a_Seed + 2 ) ,
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m_BaseNoise ( a_Seed + 3 ) ,
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m_HeightAmplification ( 0.0 ) ,
m_MidPoint ( 0.0 ) ,
m_FrequencyX ( 0.0 ) ,
m_FrequencyY ( 0.0 ) ,
m_FrequencyZ ( 0.0 ) ,
m_BaseFrequencyX ( 0.0 ) ,
m_BaseFrequencyZ ( 0.0 ) ,
m_ChoiceFrequencyX ( 0.0 ) ,
m_ChoiceFrequencyY ( 0.0 ) ,
m_ChoiceFrequencyZ ( 0.0 ) ,
m_AirThreshold ( 0.0 ) ,
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m_LastChunkX ( 0x7fffffff ) , // Use dummy coords that won't ever be used by real chunks
m_LastChunkZ ( 0x7fffffff )
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{
}
void cNoise3DComposable : : Initialize ( cIniFile & a_IniFile )
{
// Params:
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// The defaults generate extreme hills terrain
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m_HeightAmplification = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DHeightAmplification " , 0.045 ) ) ;
m_MidPoint = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DMidPoint " , 75 ) ) ;
m_FrequencyX = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DFrequencyX " , 40 ) ) ;
m_FrequencyY = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DFrequencyY " , 40 ) ) ;
m_FrequencyZ = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DFrequencyZ " , 40 ) ) ;
m_BaseFrequencyX = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DBaseFrequencyX " , 40 ) ) ;
m_BaseFrequencyZ = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DBaseFrequencyZ " , 40 ) ) ;
m_ChoiceFrequencyX = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DChoiceFrequencyX " , 40 ) ) ;
m_ChoiceFrequencyY = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DChoiceFrequencyY " , 80 ) ) ;
m_ChoiceFrequencyZ = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DChoiceFrequencyZ " , 40 ) ) ;
m_AirThreshold = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DAirThreshold " , 0 ) ) ;
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int NumChoiceOctaves = a_IniFile . GetValueSetI ( " Generator " , " Noise3DNumChoiceOctaves " , 4 ) ;
int NumDensityOctaves = a_IniFile . GetValueSetI ( " Generator " , " Noise3DNumDensityOctaves " , 6 ) ;
int NumBaseOctaves = a_IniFile . GetValueSetI ( " Generator " , " Noise3DNumBaseOctaves " , 6 ) ;
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NOISE_DATATYPE BaseNoiseAmplitude = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " Noise3DBaseAmplitude " , 1 ) ) ;
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// Add octaves for the choice noise:
NOISE_DATATYPE wavlen = 1 , ampl = 0.5 ;
for ( int i = 0 ; i < NumChoiceOctaves ; i + + )
{
m_ChoiceNoise . AddOctave ( wavlen , ampl ) ;
wavlen = wavlen * 2 ;
ampl = ampl / 2 ;
}
// Add octaves for the density noises:
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wavlen = 1 ; ampl = 1 ;
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for ( int i = 0 ; i < NumDensityOctaves ; i + + )
{
m_DensityNoiseA . AddOctave ( wavlen , ampl ) ;
m_DensityNoiseB . AddOctave ( wavlen , ampl ) ;
wavlen = wavlen * 2 ;
ampl = ampl / 2 ;
}
// Add octaves for the base noise:
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wavlen = 1 ; ampl = BaseNoiseAmplitude ;
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for ( int i = 0 ; i < NumBaseOctaves ; i + + )
{
m_BaseNoise . AddOctave ( wavlen , ampl ) ;
wavlen = wavlen * 2 ;
ampl = ampl / 2 ;
}
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}
void cNoise3DComposable : : GenerateNoiseArrayIfNeeded ( int a_ChunkX , int a_ChunkZ )
{
if ( ( a_ChunkX = = m_LastChunkX ) & & ( a_ChunkZ = = m_LastChunkZ ) )
{
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// The noise for this chunk is already generated in m_NoiseArray
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return ;
}
m_LastChunkX = a_ChunkX ;
m_LastChunkZ = a_ChunkZ ;
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// Generate all the noises:
NOISE_DATATYPE ChoiceNoise [ 5 * 5 * 33 ] ;
NOISE_DATATYPE Workspace [ 5 * 5 * 33 ] ;
NOISE_DATATYPE DensityNoiseA [ 5 * 5 * 33 ] ;
NOISE_DATATYPE DensityNoiseB [ 5 * 5 * 33 ] ;
NOISE_DATATYPE BaseNoise [ 5 * 5 ] ;
NOISE_DATATYPE BlockX = static_cast < NOISE_DATATYPE > ( a_ChunkX * cChunkDef : : Width ) ;
NOISE_DATATYPE BlockZ = static_cast < NOISE_DATATYPE > ( a_ChunkZ * cChunkDef : : Width ) ;
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// Note that we have to swap the X and Y coords, because noise generator uses [x + SizeX * y + SizeX * SizeY * z] ordering and we want "BlockY" to be "x":
m_ChoiceNoise . Generate3D ( ChoiceNoise , 33 , 5 , 5 , 0 , 257 / m_ChoiceFrequencyY , BlockX / m_ChoiceFrequencyX , ( BlockX + 17 ) / m_ChoiceFrequencyX , BlockZ / m_ChoiceFrequencyZ , ( BlockZ + 17 ) / m_ChoiceFrequencyZ , Workspace ) ;
m_DensityNoiseA . Generate3D ( DensityNoiseA , 33 , 5 , 5 , 0 , 257 / m_FrequencyY , BlockX / m_FrequencyX , ( BlockX + 17 ) / m_FrequencyX , BlockZ / m_FrequencyZ , ( BlockZ + 17 ) / m_FrequencyZ , Workspace ) ;
m_DensityNoiseB . Generate3D ( DensityNoiseB , 33 , 5 , 5 , 0 , 257 / m_FrequencyY , BlockX / m_FrequencyX , ( BlockX + 17 ) / m_FrequencyX , BlockZ / m_FrequencyZ , ( BlockZ + 17 ) / m_FrequencyZ , Workspace ) ;
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m_BaseNoise . Generate2D ( BaseNoise , 5 , 5 , BlockX / m_BaseFrequencyX , ( BlockX + 17 ) / m_BaseFrequencyX , BlockZ / m_FrequencyZ , ( BlockZ + 17 ) / m_FrequencyZ , Workspace ) ;
// Calculate the final noise based on the partial noises:
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for ( int z = 0 ; z < 5 ; z + + )
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{
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for ( int x = 0 ; x < 5 ; x + + )
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{
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NOISE_DATATYPE curBaseNoise = BaseNoise [ x + 5 * z ] ;
for ( int y = 0 ; y < 33 ; y + + )
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{
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NOISE_DATATYPE AddHeight = ( static_cast < NOISE_DATATYPE > ( y * 8 ) - m_MidPoint ) * m_HeightAmplification ;
// If "underground", make the terrain smoother by forcing the vertical linear gradient into steeper slope:
if ( AddHeight < 0 )
{
AddHeight * = 4 ;
}
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// If too high, cut off any terrain:
if ( y > 28 )
{
AddHeight = AddHeight + static_cast < NOISE_DATATYPE > ( y - 28 ) / 4 ;
}
// Decide between the two density noises:
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int idx = 33 * x + 33 * 5 * z + y ;
Workspace [ idx ] = ClampedLerp ( DensityNoiseA [ idx ] , DensityNoiseB [ idx ] , 8 * ( ChoiceNoise [ idx ] + 0.5f ) ) + AddHeight + curBaseNoise ;
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}
}
}
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LinearUpscale3DArray < NOISE_DATATYPE > ( Workspace , 33 , 5 , 5 , m_NoiseArray , 8 , 4 , 4 ) ;
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}
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void cNoise3DComposable : : GenShape ( int a_ChunkX , int a_ChunkZ , cChunkDesc : : Shape & a_Shape )
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{
GenerateNoiseArrayIfNeeded ( a_ChunkX , a_ChunkZ ) ;
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// Translate the noise array into Shape:
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for ( int z = 0 ; z < cChunkDef : : Width ; z + + )
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{
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for ( int x = 0 ; x < cChunkDef : : Width ; x + + )
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{
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for ( int y = 0 ; y < cChunkDef : : Height ; y + + )
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{
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a_Shape [ y + x * 256 + z * 256 * 16 ] = ( m_NoiseArray [ y + 257 * x + 257 * 17 * z ] > m_AirThreshold ) ? 0 : 1 ;
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}
} // for x
} // for z
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}
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////////////////////////////////////////////////////////////////////////////////
// cBiomalNoise3DComposable:
cBiomalNoise3DComposable : : cBiomalNoise3DComposable ( int a_Seed , cBiomeGenPtr a_BiomeGen ) :
m_ChoiceNoise ( a_Seed ) ,
m_DensityNoiseA ( a_Seed + 1 ) ,
m_DensityNoiseB ( a_Seed + 2 ) ,
m_BaseNoise ( a_Seed + 3 ) ,
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m_BiomeGen ( a_BiomeGen ) ,
m_LastChunkX ( 0x7fffffff ) , // Set impossible coords for the chunk so that it's always considered stale
m_LastChunkZ ( 0x7fffffff )
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{
// Generate the weight distribution for summing up neighboring biomes:
m_WeightSum = 0 ;
for ( int z = 0 ; z < = AVERAGING_SIZE * 2 ; z + + )
{
for ( int x = 0 ; x < = AVERAGING_SIZE * 2 ; x + + )
{
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m_Weight [ z ] [ x ] = static_cast < NOISE_DATATYPE > ( ( AVERAGING_SIZE - std : : abs ( AVERAGING_SIZE - x ) ) + ( AVERAGING_SIZE - std : : abs ( AVERAGING_SIZE - z ) ) ) ;
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m_WeightSum + = m_Weight [ z ] [ x ] ;
}
}
}
void cBiomalNoise3DComposable : : Initialize ( cIniFile & a_IniFile )
{
// Params:
// The defaults generate extreme hills terrain
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m_SeaLevel = a_IniFile . GetValueSetI ( " Generator " , " SeaLevel " , 62 ) ;
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m_FrequencyX = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " BiomalNoise3DFrequencyX " , 40 ) ) ;
m_FrequencyY = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " BiomalNoise3DFrequencyY " , 40 ) ) ;
m_FrequencyZ = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " BiomalNoise3DFrequencyZ " , 40 ) ) ;
m_BaseFrequencyX = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " BiomalNoise3DBaseFrequencyX " , 40 ) ) ;
m_BaseFrequencyZ = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " BiomalNoise3DBaseFrequencyZ " , 40 ) ) ;
m_ChoiceFrequencyX = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " BiomalNoise3DChoiceFrequencyX " , 40 ) ) ;
m_ChoiceFrequencyY = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " BiomalNoise3DChoiceFrequencyY " , 80 ) ) ;
m_ChoiceFrequencyZ = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " BiomalNoise3DChoiceFrequencyZ " , 40 ) ) ;
m_AirThreshold = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " BiomalNoise3DAirThreshold " , 0 ) ) ;
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int NumChoiceOctaves = a_IniFile . GetValueSetI ( " Generator " , " BiomalNoise3DNumChoiceOctaves " , 4 ) ;
int NumDensityOctaves = a_IniFile . GetValueSetI ( " Generator " , " BiomalNoise3DNumDensityOctaves " , 6 ) ;
int NumBaseOctaves = a_IniFile . GetValueSetI ( " Generator " , " BiomalNoise3DNumBaseOctaves " , 6 ) ;
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NOISE_DATATYPE BaseNoiseAmplitude = static_cast < NOISE_DATATYPE > ( a_IniFile . GetValueSetF ( " Generator " , " BiomalNoise3DBaseAmplitude " , 1 ) ) ;
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// Add octaves for the choice noise:
NOISE_DATATYPE wavlen = 1 , ampl = 0.5 ;
for ( int i = 0 ; i < NumChoiceOctaves ; i + + )
{
m_ChoiceNoise . AddOctave ( wavlen , ampl ) ;
wavlen = wavlen * 2 ;
ampl = ampl / 2 ;
}
// Add octaves for the density noises:
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wavlen = 1 ; ampl = 1 ;
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for ( int i = 0 ; i < NumDensityOctaves ; i + + )
{
m_DensityNoiseA . AddOctave ( wavlen , ampl ) ;
m_DensityNoiseB . AddOctave ( wavlen , ampl ) ;
wavlen = wavlen * 2 ;
ampl = ampl / 2 ;
}
// Add octaves for the base noise:
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wavlen = 1 ; ampl = BaseNoiseAmplitude ;
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for ( int i = 0 ; i < NumBaseOctaves ; i + + )
{
m_BaseNoise . AddOctave ( wavlen , ampl ) ;
wavlen = wavlen * 2 ;
ampl = ampl / 2 ;
}
}
void cBiomalNoise3DComposable : : GenerateNoiseArrayIfNeeded ( int a_ChunkX , int a_ChunkZ )
{
if ( ( a_ChunkX = = m_LastChunkX ) & & ( a_ChunkZ = = m_LastChunkZ ) )
{
// The noise for this chunk is already generated in m_NoiseArray
return ;
}
m_LastChunkX = a_ChunkX ;
m_LastChunkZ = a_ChunkZ ;
// Calculate the parameters for the biomes:
ChunkParam MidPoint ;
ChunkParam HeightAmp ;
CalcBiomeParamArrays ( a_ChunkX , a_ChunkZ , HeightAmp , MidPoint ) ;
// Generate all the noises:
NOISE_DATATYPE ChoiceNoise [ 5 * 5 * 33 ] ;
NOISE_DATATYPE Workspace [ 5 * 5 * 33 ] ;
NOISE_DATATYPE DensityNoiseA [ 5 * 5 * 33 ] ;
NOISE_DATATYPE DensityNoiseB [ 5 * 5 * 33 ] ;
NOISE_DATATYPE BaseNoise [ 5 * 5 ] ;
NOISE_DATATYPE BlockX = static_cast < NOISE_DATATYPE > ( a_ChunkX * cChunkDef : : Width ) ;
NOISE_DATATYPE BlockZ = static_cast < NOISE_DATATYPE > ( a_ChunkZ * cChunkDef : : Width ) ;
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// Note that we have to swap the X and Y coords, because noise generator uses [x + SizeX * y + SizeX * SizeY * z] ordering and we want "BlockY" to be "x":
m_ChoiceNoise . Generate3D ( ChoiceNoise , 33 , 5 , 5 , 0 , 257 / m_ChoiceFrequencyY , BlockX / m_ChoiceFrequencyX , ( BlockX + 17 ) / m_ChoiceFrequencyX , BlockZ / m_ChoiceFrequencyZ , ( BlockZ + 17 ) / m_ChoiceFrequencyZ , Workspace ) ;
m_DensityNoiseA . Generate3D ( DensityNoiseA , 33 , 5 , 5 , 0 , 257 / m_FrequencyY , BlockX / m_FrequencyX , ( BlockX + 17 ) / m_FrequencyX , BlockZ / m_FrequencyZ , ( BlockZ + 17 ) / m_FrequencyZ , Workspace ) ;
m_DensityNoiseB . Generate3D ( DensityNoiseB , 33 , 5 , 5 , 0 , 257 / m_FrequencyY , BlockX / m_FrequencyX , ( BlockX + 17 ) / m_FrequencyX , BlockZ / m_FrequencyZ , ( BlockZ + 17 ) / m_FrequencyZ , Workspace ) ;
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m_BaseNoise . Generate2D ( BaseNoise , 5 , 5 , BlockX / m_BaseFrequencyX , ( BlockX + 17 ) / m_BaseFrequencyX , BlockZ / m_FrequencyZ , ( BlockZ + 17 ) / m_FrequencyZ , Workspace ) ;
// Calculate the final noise based on the partial noises:
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for ( int z = 0 ; z < 5 ; z + + )
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{
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for ( int x = 0 ; x < 5 ; x + + )
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{
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NOISE_DATATYPE curMidPoint = MidPoint [ x + 5 * z ] ;
NOISE_DATATYPE curHeightAmp = HeightAmp [ x + 5 * z ] ;
NOISE_DATATYPE curBaseNoise = BaseNoise [ x + 5 * z ] ;
for ( int y = 0 ; y < 33 ; y + + )
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{
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NOISE_DATATYPE AddHeight = ( static_cast < NOISE_DATATYPE > ( y * 8 ) - curMidPoint ) * curHeightAmp ;
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// If "underground", make the terrain smoother by forcing the vertical linear gradient into steeper slope:
if ( AddHeight < 0 )
{
AddHeight * = 4 ;
}
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// If too high, cut off any terrain:
if ( y > 28 )
{
AddHeight = AddHeight + static_cast < NOISE_DATATYPE > ( y - 28 ) / 4 ;
}
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// Decide between the two density noises:
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int idx = 33 * x + y + 33 * 5 * z ;
Workspace [ idx ] = ClampedLerp ( DensityNoiseA [ idx ] , DensityNoiseB [ idx ] , 8 * ( ChoiceNoise [ idx ] + 0.5f ) ) + AddHeight + curBaseNoise ;
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}
}
}
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LinearUpscale3DArray < NOISE_DATATYPE > ( Workspace , 33 , 5 , 5 , m_NoiseArray , 8 , 4 , 4 ) ;
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}
void cBiomalNoise3DComposable : : CalcBiomeParamArrays ( int a_ChunkX , int a_ChunkZ , ChunkParam & a_HeightAmp , ChunkParam & a_MidPoint )
{
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// Generate the 3 * 3 chunks of biomes around this chunk:
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cChunkDef : : BiomeMap neighborBiomes [ 3 * 3 ] ;
for ( int z = 0 ; z < 3 ; z + + )
{
for ( int x = 0 ; x < 3 ; x + + )
{
m_BiomeGen - > GenBiomes ( a_ChunkX + x - 1 , a_ChunkZ + z - 1 , neighborBiomes [ x + 3 * z ] ) ;
}
}
// Sum up the biome values:
for ( int z = 0 ; z < 5 ; z + + )
{
for ( int x = 0 ; x < 5 ; x + + )
{
NOISE_DATATYPE totalHeightAmp = 0 ;
NOISE_DATATYPE totalMidPoint = 0 ;
// Add up the biomes around this point:
for ( int relz = 0 ; relz < = AVERAGING_SIZE * 2 ; + + relz )
{
int colz = 16 + z * 4 + relz - AVERAGING_SIZE ; // Biome Z coord relative to the neighborBiomes start
int neicellz = colz / 16 ; // Chunk Z coord relative to the neighborBiomes start
int neirelz = colz % 16 ; // Biome Z coord relative to cz in neighborBiomes
for ( int relx = 0 ; relx < = AVERAGING_SIZE * 2 ; + + relx )
{
int colx = 16 + x * 4 + relx - AVERAGING_SIZE ; // Biome X coord relative to the neighborBiomes start
int neicellx = colx / 16 ; // Chunk X coord relative to the neighborBiomes start
int neirelx = colx % 16 ; // Biome X coord relative to cz in neighborBiomes
EMCSBiome biome = cChunkDef : : GetBiome ( neighborBiomes [ neicellx + neicellz * 3 ] , neirelx , neirelz ) ;
NOISE_DATATYPE heightAmp , midPoint ;
GetBiomeParams ( biome , heightAmp , midPoint ) ;
totalHeightAmp + = heightAmp * m_Weight [ relz ] [ relx ] ;
totalMidPoint + = midPoint * m_Weight [ relz ] [ relx ] ;
} // for relx
} // for relz
a_HeightAmp [ x + 5 * z ] = totalHeightAmp / m_WeightSum ;
a_MidPoint [ x + 5 * z ] = totalMidPoint / m_WeightSum ;
} // for x
} // for z
}
void cBiomalNoise3DComposable : : GetBiomeParams ( EMCSBiome a_Biome , NOISE_DATATYPE & a_HeightAmp , NOISE_DATATYPE & a_MidPoint )
{
switch ( a_Biome )
{
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case biBeach : a_HeightAmp = 0.2f ; a_MidPoint = 60 ; break ;
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case biBirchForest : a_HeightAmp = 0.1f ; a_MidPoint = 64 ; break ;
case biBirchForestHills : a_HeightAmp = 0.075f ; a_MidPoint = 68 ; break ;
case biBirchForestHillsM : a_HeightAmp = 0.075f ; a_MidPoint = 68 ; break ;
case biBirchForestM : a_HeightAmp = 0.1f ; a_MidPoint = 64 ; break ;
case biColdBeach : a_HeightAmp = 0.3f ; a_MidPoint = 62 ; break ;
case biColdTaiga : a_HeightAmp = 0.1f ; a_MidPoint = 64 ; break ;
case biColdTaigaM : a_HeightAmp = 0.1f ; a_MidPoint = 64 ; break ;
case biColdTaigaHills : a_HeightAmp = 0.075f ; a_MidPoint = 68 ; break ;
case biDesertHills : a_HeightAmp = 0.075f ; a_MidPoint = 68 ; break ;
case biDeepOcean : a_HeightAmp = 0.17f ; a_MidPoint = 35 ; break ;
case biDesert : a_HeightAmp = 0.29f ; a_MidPoint = 62 ; break ;
case biDesertM : a_HeightAmp = 0.29f ; a_MidPoint = 62 ; break ;
case biEnd : a_HeightAmp = 0.15f ; a_MidPoint = 64 ; break ;
case biExtremeHills : a_HeightAmp = 0.045f ; a_MidPoint = 75 ; break ;
case biExtremeHillsEdge : a_HeightAmp = 0.1f ; a_MidPoint = 70 ; break ;
case biExtremeHillsM : a_HeightAmp = 0.045f ; a_MidPoint = 75 ; break ;
case biExtremeHillsPlus : a_HeightAmp = 0.04f ; a_MidPoint = 80 ; break ;
case biExtremeHillsPlusM : a_HeightAmp = 0.04f ; a_MidPoint = 80 ; break ;
case biFlowerForest : a_HeightAmp = 0.1f ; a_MidPoint = 64 ; break ;
case biForest : a_HeightAmp = 0.1f ; a_MidPoint = 64 ; break ;
case biForestHills : a_HeightAmp = 0.075f ; a_MidPoint = 68 ; break ;
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case biFrozenRiver : a_HeightAmp = 0.4f ; a_MidPoint = 54 ; break ;
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case biFrozenOcean : a_HeightAmp = 0.12f ; a_MidPoint = 45 ; break ;
case biIceMountains : a_HeightAmp = 0.075f ; a_MidPoint = 68 ; break ;
case biIcePlains : a_HeightAmp = 0.3f ; a_MidPoint = 62 ; break ;
case biIcePlainsSpikes : a_HeightAmp = 0.3f ; a_MidPoint = 62 ; break ;
case biJungle : a_HeightAmp = 0.1f ; a_MidPoint = 63 ; break ;
case biJungleEdge : a_HeightAmp = 0.15f ; a_MidPoint = 62 ; break ;
case biJungleEdgeM : a_HeightAmp = 0.15f ; a_MidPoint = 62 ; break ;
case biJungleHills : a_HeightAmp = 0.075f ; a_MidPoint = 68 ; break ;
case biJungleM : a_HeightAmp = 0.1f ; a_MidPoint = 63 ; break ;
case biMegaSpruceTaiga : a_HeightAmp = 0.09f ; a_MidPoint = 64 ; break ;
case biMegaSpruceTaigaHills : a_HeightAmp = 0.075f ; a_MidPoint = 68 ; break ;
case biMegaTaiga : a_HeightAmp = 0.1f ; a_MidPoint = 64 ; break ;
case biMegaTaigaHills : a_HeightAmp = 0.075f ; a_MidPoint = 68 ; break ;
case biMesa : a_HeightAmp = 0.09f ; a_MidPoint = 61 ; break ;
case biMesaBryce : a_HeightAmp = 0.15f ; a_MidPoint = 61 ; break ;
case biMesaPlateau : a_HeightAmp = 0.25f ; a_MidPoint = 86 ; break ;
case biMesaPlateauF : a_HeightAmp = 0.25f ; a_MidPoint = 96 ; break ;
case biMesaPlateauFM : a_HeightAmp = 0.25f ; a_MidPoint = 96 ; break ;
case biMesaPlateauM : a_HeightAmp = 0.25f ; a_MidPoint = 86 ; break ;
case biMushroomShore : a_HeightAmp = 0.075f ; a_MidPoint = 60 ; break ;
case biMushroomIsland : a_HeightAmp = 0.06f ; a_MidPoint = 80 ; break ;
case biNether : a_HeightAmp = 0.01f ; a_MidPoint = 64 ; break ;
case biOcean : a_HeightAmp = 0.12f ; a_MidPoint = 45 ; break ;
case biPlains : a_HeightAmp = 0.3f ; a_MidPoint = 62 ; break ;
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case biRiver : a_HeightAmp = 0.4f ; a_MidPoint = 54 ; break ;
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case biRoofedForest : a_HeightAmp = 0.1f ; a_MidPoint = 64 ; break ;
case biRoofedForestM : a_HeightAmp = 0.1f ; a_MidPoint = 64 ; break ;
case biSavanna : a_HeightAmp = 0.3f ; a_MidPoint = 62 ; break ;
case biSavannaM : a_HeightAmp = 0.3f ; a_MidPoint = 62 ; break ;
case biSavannaPlateau : a_HeightAmp = 0.3f ; a_MidPoint = 85 ; break ;
case biSavannaPlateauM : a_HeightAmp = 0.012f ; a_MidPoint = 105 ; break ;
case biStoneBeach : a_HeightAmp = 0.075f ; a_MidPoint = 60 ; break ;
case biSunflowerPlains : a_HeightAmp = 0.3f ; a_MidPoint = 62 ; break ;
case biSwampland : a_HeightAmp = 0.25f ; a_MidPoint = 59 ; break ;
case biSwamplandM : a_HeightAmp = 0.11f ; a_MidPoint = 59 ; break ;
case biTaiga : a_HeightAmp = 0.1f ; a_MidPoint = 64 ; break ;
case biTaigaM : a_HeightAmp = 0.1f ; a_MidPoint = 70 ; break ;
case biTaigaHills : a_HeightAmp = 0.075f ; a_MidPoint = 68 ; break ;
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case biInvalidBiome :
case biNumBiomes :
case biVariant :
case biNumVariantBiomes :
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{
// Make a crazy terrain so that it stands out
a_HeightAmp = 0.001f ;
a_MidPoint = 90 ;
break ;
}
}
}
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void cBiomalNoise3DComposable : : GenShape ( int a_ChunkX , int a_ChunkZ , cChunkDesc : : Shape & a_Shape )
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{
GenerateNoiseArrayIfNeeded ( a_ChunkX , a_ChunkZ ) ;
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// Translate the noise array into Shape:
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for ( int z = 0 ; z < cChunkDef : : Width ; z + + )
{
for ( int x = 0 ; x < cChunkDef : : Width ; x + + )
{
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for ( int y = 0 ; y < cChunkDef : : Height ; y + + )
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{
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a_Shape [ y + x * 256 + z * 256 * 16 ] = ( m_NoiseArray [ y + 257 * x + 257 * 17 * z ] > m_AirThreshold ) ? 0 : 1 ;
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}
} // for x
} // for z
}
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