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cuberite-2a/source/Trees.cpp

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// Trees.cpp
// Implements helper functions used for generating trees
#include "Globals.h"
#include "Trees.h"
#include "BlockID.h"
#ifndef min
#define min(a,b) (((a) < (b)) ? (a) : (b))
#endif
typedef struct
{
int x, z;
} sCoords;
typedef struct
{
int x, z;
NIBBLETYPE Meta;
} sMetaCoords;
static const sCoords Corners[] =
{
{-1, -1},
{-1, 1},
{1, -1},
{1, 1},
} ;
static const sCoords BigO1[] =
{
{0, -1},
{-1, 0}, {1, 0},
{0, 1},
} ;
static const sCoords BigO2[] =
{
{-1, -2}, {0, -2}, {1, -2},
{-2, -1}, {-1, -1}, {0, -1}, {1, -1}, {2, -1},
{-2, 0}, {-1, 0}, {1, 0}, {2, 0},
{-2, 1}, {-1, 1}, {0, 1}, {1, 1}, {2, 1},
{-1, 2}, {0, 2}, {1, 2},
} ;
static const sCoords BigO3[] =
{
{-2, -3}, {-1, -3}, {0, -3}, {1, -3}, {2, -3},
{-3, -2}, {-2, -2}, {-1, -2}, {0, -2}, {1, -2}, {2, -2}, {3, -2},
{-3, -1}, {-2, -1}, {-1, -1}, {0, -1}, {1, -1}, {2, -1}, {3, -1},
{-3, 0}, {-2, 0}, {-1, 0}, {1, 0}, {2, 0}, {3, 0},
{-3, 1}, {-2, 1}, {-1, 1}, {0, 1}, {1, 1}, {2, 1}, {3, 1},
{-3, 2}, {-2, 2}, {-1, 2}, {0, 2}, {1, 2}, {2, 2}, {3, 2},
{-2, 3}, {-1, 3}, {0, 3}, {1, 3}, {2, 3},
} ;
typedef struct
{
const sCoords * Coords;
size_t Count;
} sCoordsArr;
static const sCoordsArr BigOs[] =
{
{BigO1, ARRAYCOUNT(BigO1)},
{BigO2, ARRAYCOUNT(BigO2)},
{BigO3, ARRAYCOUNT(BigO3)},
} ;
/// Pushes a specified layer of blocks of the same type around (x, h, z) into a_Blocks
inline void PushCoordBlocks(int a_BlockX, int a_Height, int a_BlockZ, sSetBlockVector & a_Blocks, const sCoords * a_Coords, size_t a_NumCoords, BLOCKTYPE a_BlockType, NIBBLETYPE a_Meta)
{
for (size_t i = 0; i < a_NumCoords; i++)
{
a_Blocks.push_back(sSetBlock(a_BlockX + a_Coords[i].x, a_Height, a_BlockZ + a_Coords[i].z, a_BlockType, a_Meta));
}
}
inline void PushCornerBlocks(int a_BlockX, int a_Height, int a_BlockZ, int a_Seq, cNoise & a_Noise, int a_Chance, sSetBlockVector & a_Blocks, int a_CornersDist, BLOCKTYPE a_BlockType, NIBBLETYPE a_Meta)
{
for (size_t i = 0; i < ARRAYCOUNT(Corners); i++)
{
int x = a_BlockX + Corners[i].x;
int z = a_BlockZ + Corners[i].z;
if (a_Noise.IntNoise3DInt(x + 64 * a_Seq, a_Height, z + 64 * a_Seq) <= a_Chance)
{
a_Blocks.push_back(sSetBlock(x, a_Height, z, a_BlockType, a_Meta));
}
} // for i - Corners[]
}
inline void PushSomeColumns(int a_BlockX, int a_Height, int a_BlockZ, int a_ColumnHeight, int a_Seq, cNoise & a_Noise, int a_Chance, sSetBlockVector & a_Blocks, const sMetaCoords * a_Coords, size_t a_NumCoords, BLOCKTYPE a_BlockType)
{
for (size_t i = 0; i < a_NumCoords; i++)
{
int x = a_BlockX + a_Coords[i].x;
int z = a_BlockZ + a_Coords[i].z;
if (a_Noise.IntNoise3DInt(x + 64 * a_Seq, a_Height + i, z + 64 * a_Seq) <= a_Chance)
{
for (int j = 0; j < a_ColumnHeight; j++)
{
a_Blocks.push_back(sSetBlock(x, a_Height - j, z, a_BlockType, a_Coords[i].Meta));
}
}
} // for i - a_Coords[]
}
void GetTreeImageByBiome(int a_BlockX, int a_BlockY, int a_BlockZ, cNoise & a_Noise, int a_Seq, EMCSBiome a_Biome, sSetBlockVector & a_Blocks)
{
switch (a_Biome)
{
case biPlains:
case biExtremeHills:
case biExtremeHillsEdge:
case biForest:
case biMushroomIsland:
case biMushroomShore:
case biForestHills:
{
// Apple or birch trees:
if (a_Noise.IntNoise3DInt(a_BlockX, a_BlockY + 16 * a_Seq, a_BlockZ + 16 * a_Seq) < 0x5fffffff)
{
GetAppleTreeImage(a_BlockX, a_BlockY, a_BlockZ, a_Noise, a_Seq, a_Blocks);
}
else
{
GetBirchTreeImage(a_BlockX, a_BlockY, a_BlockZ, a_Noise, a_Seq, a_Blocks);
}
break;
}
case biTaiga:
case biIcePlains:
case biIceMountains:
case biTaigaHills:
{
// Conifers
GetConiferTreeImage(a_BlockX, a_BlockY, a_BlockZ, a_Noise, a_Seq, a_Blocks);
break;
}
case biSwampland:
{
// Swamp trees:
GetSwampTreeImage(a_BlockX, a_BlockY, a_BlockZ, a_Noise, a_Seq, a_Blocks);
break;
}
case biJungle:
case biJungleHills:
{
// Apple bushes, jungle trees
if (a_Noise.IntNoise3DInt(a_BlockX, a_BlockY + 16 * a_Seq, a_BlockZ + 16 * a_Seq) < 0x5fffffff)
{
GetAppleBushImage(a_BlockX, a_BlockY, a_BlockZ, a_Noise, a_Seq, a_Blocks);
}
else
{
GetJungleTreeImage(a_BlockX, a_BlockY, a_BlockZ, a_Noise, a_Seq, a_Blocks);
}
}
}
}
void GetAppleTreeImage(int a_BlockX, int a_BlockY, int a_BlockZ, cNoise & a_Noise, int a_Seq, sSetBlockVector & a_Blocks)
{
if (a_Noise.IntNoise3DInt(a_BlockX + 32 * a_Seq, a_BlockY + 32 * a_Seq, a_BlockZ) < 0x60000000)
{
GetSmallAppleTreeImage(a_BlockX, a_BlockY, a_BlockZ, a_Noise, a_Seq, a_Blocks);
}
else
{
GetLargeAppleTreeImage(a_BlockX, a_BlockY, a_BlockZ, a_Noise, a_Seq, a_Blocks);
}
}
void GetSmallAppleTreeImage(int a_BlockX, int a_BlockY, int a_BlockZ, cNoise & a_Noise, int a_Seq, sSetBlockVector & a_Blocks)
{
/* Small apple tree has:
- a top plus (no log)
- optional BigO1 + random corners (log)
- 2 layers of BigO2 + random corners (log)
- 1 to 3 blocks of trunk
*/
int Random = a_Noise.IntNoise3DInt(a_BlockX + 64 * a_Seq, a_BlockY, a_BlockZ) >> 3;
// Pre-alloc so that we don't realloc too often later:
a_Blocks.reserve(ARRAYCOUNT(BigO2) * 2 + ARRAYCOUNT(BigO1) + ARRAYCOUNT(Corners) * 3 + 3 + 5);
int Heights[] = {1, 2, 2, 3} ;
int Height = 1 + Heights[Random & 3];
Random >>= 2;
// Trunk:
for (int i = 0; i < Height; i++)
{
a_Blocks.push_back(sSetBlock(a_BlockX, a_BlockY + i, a_BlockZ, E_BLOCK_LOG, E_META_LOG_APPLE));
}
int Hei = a_BlockY + Height;
// 2 BigO2 + corners layers:
for (int i = 0; i < 2; i++)
{
PushCoordBlocks (a_BlockX, Hei, a_BlockZ, a_Blocks, BigO2, ARRAYCOUNT(BigO2), E_BLOCK_LEAVES, E_META_LEAVES_APPLE);
PushCornerBlocks(a_BlockX, Hei, a_BlockZ, a_Seq, a_Noise, 0x5000000 - i * 0x10000000, a_Blocks, 2, E_BLOCK_LEAVES, E_META_LEAVES_APPLE);
a_Blocks.push_back(sSetBlock(a_BlockX, Hei, a_BlockZ, E_BLOCK_LOG, E_META_LOG_APPLE));
Hei++;
} // for i - 2*
// Optional BigO1 + corners layer:
if ((Random & 1) == 0)
{
PushCoordBlocks (a_BlockX, Hei, a_BlockZ, a_Blocks, BigO1, ARRAYCOUNT(BigO1), E_BLOCK_LEAVES, E_META_LEAVES_APPLE);
PushCornerBlocks(a_BlockX, Hei, a_BlockZ, a_Seq, a_Noise, 0x6000000, a_Blocks, 1, E_BLOCK_LEAVES, E_META_LEAVES_APPLE);
a_Blocks.push_back(sSetBlock(a_BlockX, Hei, a_BlockZ, E_BLOCK_LOG, E_META_LOG_APPLE));
Hei++;
}
// Top plus:
PushCoordBlocks(a_BlockX, Hei, a_BlockZ, a_Blocks, BigO1, ARRAYCOUNT(BigO1), E_BLOCK_LEAVES, E_META_LEAVES_APPLE);
a_Blocks.push_back(sSetBlock(a_BlockX, Hei, a_BlockZ, E_BLOCK_LEAVES, E_META_LEAVES_APPLE));
}
void GetLargeAppleTreeImage(int a_BlockX, int a_BlockY, int a_BlockZ, cNoise & a_Noise, int a_Seq, sSetBlockVector & a_Blocks)
{
// TODO
}
void GetBirchTreeImage(int a_BlockX, int a_BlockY, int a_BlockZ, cNoise & a_Noise, int a_Seq, sSetBlockVector & a_Blocks)
{
int Height = 5 + (a_Noise.IntNoise3DInt(a_BlockX + 64 * a_Seq, a_BlockY, a_BlockZ) % 3);
// Prealloc, so that we don't realloc too often later:
a_Blocks.reserve(Height + 80);
// The entire trunk, out of logs:
for (int i = Height - 1; i >= 0; --i)
{
a_Blocks.push_back(sSetBlock(a_BlockX, a_BlockY + i, a_BlockZ, E_BLOCK_LOG, E_META_LOG_BIRCH));
}
int h = a_BlockY + Height;
// Top layer - just the Plus:
PushCoordBlocks(a_BlockX, h, a_BlockZ, a_Blocks, BigO1, ARRAYCOUNT(BigO1), E_BLOCK_LEAVES, E_META_LEAVES_BIRCH);
a_Blocks.push_back(sSetBlock(a_BlockX, h, a_BlockZ, E_BLOCK_LEAVES, E_META_LEAVES_BIRCH)); // There's no log at this layer
h--;
// Second layer - log, Plus and maybe Corners:
PushCoordBlocks (a_BlockX, h, a_BlockZ, a_Blocks, BigO1, ARRAYCOUNT(BigO1), E_BLOCK_LEAVES, E_META_LEAVES_BIRCH);
PushCornerBlocks(a_BlockX, h, a_BlockZ, a_Seq, a_Noise, 0x5fffffff, a_Blocks, 1, E_BLOCK_LEAVES, E_META_LEAVES_BIRCH);
h--;
// Third and fourth layers - BigO2 and maybe 2*Corners:
for (int Row = 0; Row < 2; Row++)
{
PushCoordBlocks (a_BlockX, h, a_BlockZ, a_Blocks, BigO2, ARRAYCOUNT(BigO2), E_BLOCK_LEAVES, E_META_LEAVES_BIRCH);
PushCornerBlocks(a_BlockX, h, a_BlockZ, a_Seq, a_Noise, 0x3fffffff + Row * 0x10000000, a_Blocks, 2, E_BLOCK_LEAVES, E_META_LEAVES_BIRCH);
h--;
} // for Row - 2*
}
void GetConiferTreeImage(int a_BlockX, int a_BlockY, int a_BlockZ, cNoise & a_Noise, int a_Seq, sSetBlockVector & a_Blocks)
{
// Half chance for a spruce, half for a pine:
if (a_Noise.IntNoise3DInt(a_BlockX + 64 * a_Seq, a_BlockY, a_BlockZ + 32 * a_Seq) < 0x40000000)
{
GetSpruceTreeImage(a_BlockX, a_BlockY, a_BlockZ, a_Noise, a_Seq, a_Blocks);
}
else
{
GetPineTreeImage(a_BlockX, a_BlockY, a_BlockZ, a_Noise, a_Seq, a_Blocks);
}
}
void GetSpruceTreeImage(int a_BlockX, int a_BlockY, int a_BlockZ, cNoise & a_Noise, int a_Seq, sSetBlockVector & a_Blocks)
{
// Spruces have a top section with layer sizes of (0, 1, 0) or only (1, 0),
// then 1 - 3 sections of ascending sizes (1, 2) [most often], (1, 3) or (1, 2, 3)
// and an optional bottom section of size 1, followed by 1 - 3 clear trunk blocks
// We'll use bits from this number as partial random numbers; but the noise function has mod8 irregularities
// (each of the mod8 remainders has a very different chance of occurrence) - that's why we divide by 8
int MyRandom = a_Noise.IntNoise3DInt(a_BlockX + 32 * a_Seq, a_BlockY + 32 * a_Seq, a_BlockZ) / 8;
// Prealloc, so that we don't realloc too often later:
a_Blocks.reserve(180);
// Clear trunk blocks:
static const int sHeights[] = {1, 2, 2, 3};
int Height = sHeights[MyRandom & 3];
MyRandom >>= 2;
for (int i = 0; i < Height; i++)
{
a_Blocks.push_back(sSetBlock(a_BlockX, a_BlockY + i, a_BlockZ, E_BLOCK_LOG, E_META_LOG_CONIFER));
}
Height += a_BlockY;
// Optional size-1 bottom leaves layer:
if ((MyRandom & 1) == 0)
{
PushCoordBlocks(a_BlockX, Height, a_BlockZ, a_Blocks, BigO1, ARRAYCOUNT(BigO1), E_BLOCK_LEAVES, E_META_LEAVES_CONIFER);
a_Blocks.push_back(sSetBlock(a_BlockX, Height, a_BlockZ, E_BLOCK_LOG, E_META_LOG_CONIFER));
Height++;
}
MyRandom >>= 1;
// 1 to 3 sections of leaves layers:
static const int sNumSections[] = {1, 2, 2, 3};
int NumSections = sNumSections[MyRandom & 3];
MyRandom >>= 2;
for (int i = 0; i < NumSections; i++)
{
switch (MyRandom & 3) // SectionType; (1, 2) twice as often as the other two
{
case 0:
case 1:
{
PushCoordBlocks(a_BlockX, Height, a_BlockZ, a_Blocks, BigO2, ARRAYCOUNT(BigO2), E_BLOCK_LEAVES, E_META_LEAVES_CONIFER);
PushCoordBlocks(a_BlockX, Height + 1, a_BlockZ, a_Blocks, BigO1, ARRAYCOUNT(BigO1), E_BLOCK_LEAVES, E_META_LEAVES_CONIFER);
a_Blocks.push_back(sSetBlock(a_BlockX, Height, a_BlockZ, E_BLOCK_LOG, E_META_LOG_CONIFER));
a_Blocks.push_back(sSetBlock(a_BlockX, Height + 1, a_BlockZ, E_BLOCK_LOG, E_META_LOG_CONIFER));
Height += 2;
break;
}
case 2:
{
PushCoordBlocks(a_BlockX, Height, a_BlockZ, a_Blocks, BigO3, ARRAYCOUNT(BigO3), E_BLOCK_LEAVES, E_META_LEAVES_CONIFER);
PushCoordBlocks(a_BlockX, Height + 1, a_BlockZ, a_Blocks, BigO1, ARRAYCOUNT(BigO1), E_BLOCK_LEAVES, E_META_LEAVES_CONIFER);
a_Blocks.push_back(sSetBlock(a_BlockX, Height, a_BlockZ, E_BLOCK_LOG, E_META_LOG_CONIFER));
a_Blocks.push_back(sSetBlock(a_BlockX, Height + 1, a_BlockZ, E_BLOCK_LOG, E_META_LOG_CONIFER));
Height += 2;
break;
}
case 3:
{
PushCoordBlocks(a_BlockX, Height, a_BlockZ, a_Blocks, BigO3, ARRAYCOUNT(BigO3), E_BLOCK_LEAVES, E_META_LEAVES_CONIFER);
PushCoordBlocks(a_BlockX, Height + 1, a_BlockZ, a_Blocks, BigO2, ARRAYCOUNT(BigO2), E_BLOCK_LEAVES, E_META_LEAVES_CONIFER);
PushCoordBlocks(a_BlockX, Height + 2, a_BlockZ, a_Blocks, BigO1, ARRAYCOUNT(BigO1), E_BLOCK_LEAVES, E_META_LEAVES_CONIFER);
a_Blocks.push_back(sSetBlock(a_BlockX, Height, a_BlockZ, E_BLOCK_LOG, E_META_LOG_CONIFER));
a_Blocks.push_back(sSetBlock(a_BlockX, Height + 1, a_BlockZ, E_BLOCK_LOG, E_META_LOG_CONIFER));
a_Blocks.push_back(sSetBlock(a_BlockX, Height + 2, a_BlockZ, E_BLOCK_LOG, E_META_LOG_CONIFER));
Height += 3;
break;
}
} // switch (SectionType)
MyRandom >>= 2;
} // for i - Sections
if ((MyRandom & 1) == 0)
{
// (0, 1, 0) top:
a_Blocks.push_back(sSetBlock(a_BlockX, Height, a_BlockZ, E_BLOCK_LOG, E_META_LOG_CONIFER));
PushCoordBlocks (a_BlockX, Height + 1, a_BlockZ, a_Blocks, BigO1, ARRAYCOUNT(BigO1), E_BLOCK_LEAVES, E_META_LEAVES_CONIFER);
a_Blocks.push_back(sSetBlock(a_BlockX, Height + 1, a_BlockZ, E_BLOCK_LEAVES, E_META_LEAVES_CONIFER));
a_Blocks.push_back(sSetBlock(a_BlockX, Height + 2, a_BlockZ, E_BLOCK_LEAVES, E_META_LEAVES_CONIFER));
}
else
{
// (1, 0) top:
a_Blocks.push_back(sSetBlock(a_BlockX, Height, a_BlockZ, E_BLOCK_LEAVES, E_META_LEAVES_CONIFER));
PushCoordBlocks (a_BlockX, Height + 1, a_BlockZ, a_Blocks, BigO1, ARRAYCOUNT(BigO1), E_BLOCK_LEAVES, E_META_LEAVES_CONIFER);
a_Blocks.push_back(sSetBlock(a_BlockX, Height + 1, a_BlockZ, E_BLOCK_LEAVES, E_META_LEAVES_CONIFER));
}
}
void GetPineTreeImage(int a_BlockX, int a_BlockY, int a_BlockZ, cNoise & a_Noise, int a_Seq, sSetBlockVector & a_Blocks)
{
// Tall, little leaves on top. The top leaves are arranged in a shape of two cones joined by their bases.
// There can be one or two layers representing the cone bases (SameSizeMax)
int MyRandom = a_Noise.IntNoise3DInt(a_BlockX + 32 * a_Seq, a_BlockY, a_BlockZ + 32 * a_Seq) / 8;
int TrunkHeight = 8 + (MyRandom % 3);
int SameSizeMax = ((MyRandom & 8) == 0) ? 1 : 0;
MyRandom >>= 3;
int NumLeavesLayers = 2 + (MyRandom % 3); // Number of layers that have leaves in them
if (NumLeavesLayers == 2)
{
SameSizeMax = 0;
}
// Pre-allocate the vector:
a_Blocks.reserve(TrunkHeight + NumLeavesLayers * 25);
// The entire trunk, out of logs:
for (int i = TrunkHeight; i >= 0; --i)
{
a_Blocks.push_back(sSetBlock(a_BlockX, a_BlockY + i, a_BlockZ, E_BLOCK_LOG, E_META_LOG_CONIFER));
}
int h = a_BlockY + TrunkHeight + 2;
// Top layer - just a single leaves block:
a_Blocks.push_back(sSetBlock(a_BlockX, h, a_BlockZ, E_BLOCK_LEAVES, E_META_LEAVES_CONIFER));
h--;
// One more layer is above the trunk, push the central leaves:
a_Blocks.push_back(sSetBlock(a_BlockX, h, a_BlockZ, E_BLOCK_LEAVES, E_META_LEAVES_CONIFER));
// Layers expanding in size, then collapsing again:
// LOGD("Generating %d layers of pine leaves, SameSizeMax = %d", NumLeavesLayers, SameSizeMax);
for (int i = 0; i < NumLeavesLayers; ++i)
{
int LayerSize = min(i, NumLeavesLayers - i + SameSizeMax - 1);
// LOGD("LayerSize %d: %d", i, LayerSize);
if (LayerSize < 0)
{
break;
}
ASSERT(LayerSize < ARRAYCOUNT(BigOs));
PushCoordBlocks(a_BlockX, h, a_BlockZ, a_Blocks, BigOs[LayerSize].Coords, BigOs[LayerSize].Count, E_BLOCK_LEAVES, E_META_LEAVES_CONIFER);
h--;
}
}
void GetSwampTreeImage(int a_BlockX, int a_BlockY, int a_BlockZ, cNoise & a_Noise, int a_Seq, sSetBlockVector & a_Blocks)
{
// Vines are around the BigO3, but not in the corners; need proper meta for direction
static const sMetaCoords Vines[] =
{
{-2, -4, 1}, {-1, -4, 1}, {0, -4, 1}, {1, -4, 1}, {2, -4, 1}, // North face
{-2, 4, 4}, {-1, 4, 4}, {0, 4, 4}, {1, 4, 4}, {2, 4, 4}, // South face
{4, -2, 2}, {4, -1, 2}, {4, 0, 2}, {4, 1, 2}, {4, 2, 2}, // East face
{-4, -2, 8}, {-4, -1, 8}, {-4, 0, 8}, {-4, 1, 8}, {-4, 2, 8}, // West face
} ;
int Height = 3 + (a_Noise.IntNoise3DInt(a_BlockX + 32 * a_Seq, a_BlockY, a_BlockZ + 32 * a_Seq) / 8) % 3;
a_Blocks.reserve(2 * ARRAYCOUNT(BigO2) + 2 * ARRAYCOUNT(BigO3) + Height * ARRAYCOUNT(Vines) + 20);
for (int i = 0; i < Height; i++)
{
a_Blocks.push_back(sSetBlock(a_BlockX, a_BlockY + i, a_BlockZ, E_BLOCK_LOG, E_META_LOG_APPLE));
}
int hei = a_BlockY + Height - 2;
// Put vines around the lowermost leaves layer:
PushSomeColumns(a_BlockX, hei, a_BlockZ, Height, a_Seq, a_Noise, 0x3fffffff, a_Blocks, Vines, ARRAYCOUNT(Vines), E_BLOCK_VINES);
// The lower two leaves layers are BigO3 with log in the middle and possibly corners:
for (int i = 0; i < 2; i++)
{
PushCoordBlocks(a_BlockX, hei, a_BlockZ, a_Blocks, BigO3, ARRAYCOUNT(BigO3), E_BLOCK_LEAVES, E_META_LEAVES_APPLE);
PushCornerBlocks(a_BlockX, hei, a_BlockZ, a_Seq, a_Noise, 0x5fffffff, a_Blocks, 3, E_BLOCK_LEAVES, E_META_LEAVES_APPLE);
hei++;
} // for i - 2*
// The upper two leaves layers are BigO2 with leaves in the middle and possibly corners:
for (int i = 0; i < 2; i++)
{
PushCoordBlocks(a_BlockX, hei, a_BlockZ, a_Blocks, BigO2, ARRAYCOUNT(BigO2), E_BLOCK_LEAVES, E_META_LEAVES_APPLE);
PushCornerBlocks(a_BlockX, hei, a_BlockZ, a_Seq, a_Noise, 0x5fffffff, a_Blocks, 3, E_BLOCK_LEAVES, E_META_LEAVES_APPLE);
a_Blocks.push_back(sSetBlock(a_BlockX, hei, a_BlockZ, E_BLOCK_LEAVES, E_META_LEAVES_APPLE));
hei++;
} // for i - 2*
}
void GetAppleBushImage(int a_BlockX, int a_BlockY, int a_BlockZ, cNoise & a_Noise, int a_Seq, sSetBlockVector & a_Blocks)
{
a_Blocks.reserve(3 + ARRAYCOUNT(BigO2) + ARRAYCOUNT(BigO1));
int hei = a_BlockY;
a_Blocks.push_back(sSetBlock(a_BlockX, hei, a_BlockZ, E_BLOCK_LOG, E_META_LOG_JUNGLE));
PushCoordBlocks(a_BlockX, hei, a_BlockZ, a_Blocks, BigO2, ARRAYCOUNT(BigO2), E_BLOCK_LEAVES, E_META_LEAVES_APPLE);
hei++;
a_Blocks.push_back(sSetBlock(a_BlockX, hei, a_BlockZ, E_BLOCK_LEAVES, E_META_LEAVES_APPLE));
PushCoordBlocks(a_BlockX, hei, a_BlockZ, a_Blocks, BigO1, ARRAYCOUNT(BigO1), E_BLOCK_LEAVES, E_META_LEAVES_APPLE);
hei++;
a_Blocks.push_back(sSetBlock(a_BlockX, hei, a_BlockZ, E_BLOCK_LEAVES, E_META_LEAVES_APPLE));
}
void GetJungleTreeImage(int a_BlockX, int a_BlockY, int a_BlockZ, cNoise & a_Noise, int a_Seq, sSetBlockVector & a_Blocks)
{
// TODO
}