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cuberite-2a/Tools/BiomeVisualiser/BiomeRenderer.cpp
madmaxoft@gmail.com 209ad87026 BiomeVisualiser: Moved into the Tools folder
git-svn-id: http://mc-server.googlecode.com/svn/trunk@1655 0a769ca7-a7f5-676a-18bf-c427514a06d6
2013-07-06 19:43:13 +00:00

148 lines
3.1 KiB
C++

// BiomeRenderer.cpp
// Implements the cBiomeRenderer class representing the rendering engine
#include "Globals.h"
#include "BiomeRenderer.h"
#include "Pixmap.h"
#include "Timer.h"
cBiomeRenderer::cBiomeRenderer(void) :
m_OriginX(160),
m_OriginY(160),
m_Zoom(1)
{
}
void cBiomeRenderer::SetSource(cBiomeSource * a_Source)
{
m_Cache.SetSource(a_Source);
}
bool cBiomeRenderer::Render(cPixmap & a_Pixmap)
{
cTimer Timer("cBiomeRenderer::Render");
int Wid = a_Pixmap.GetWidth();
int Hei = a_Pixmap.GetHeight();
// Hint the approximate view area to the biome source so that it can adjust its caches:
int MinBlockX = ( - m_OriginX) / m_Zoom;
int MaxBlockX = (Wid - m_OriginX) / m_Zoom;
int MinBlockZ = ( - m_OriginY) / m_Zoom;
int MaxBlockZ = (Hei - m_OriginY) / m_Zoom;
m_Cache.HintViewArea(MinBlockX / 16 - 1, MaxBlockX / 16 + 1, MinBlockZ / 16 - 1, MaxBlockZ / 16 + 1);
// Hold one current chunk of biome data:
int CurChunkX = -10000;
int CurChunkZ = -10000;
cChunkDef::BiomeMap CurBiomes;
bool res = false;
for (int y = 0; y < Hei; y++)
{
int BlockZ = (y - m_OriginY) / m_Zoom;
int ChunkZ = (BlockZ >= 0) ? (BlockZ / 16) : ((BlockZ + 1) / 16 - 1);
int RelZ = BlockZ - ChunkZ * 16;
for (int x = 0; x < Wid; x++)
{
int BlockX = (x - m_OriginX) / m_Zoom;
int ChunkX = (BlockX >= 0) ? (BlockX / 16) : ((BlockX + 1) / 16 - 1);
int RelX = BlockX - ChunkX * 16;
if ((ChunkZ != CurChunkZ) || (ChunkX != CurChunkX))
{
CurChunkX = ChunkX;
CurChunkZ = ChunkZ;
switch (m_Cache.GetBiome(CurChunkX, CurChunkZ, CurBiomes))
{
case cBiomeSource::baLater:
{
res = true;
// fallthrough:
}
case cBiomeSource::baNever:
{
for (int i = 0; i < ARRAYCOUNT(CurBiomes); i++)
{
CurBiomes[i] = (EMCSBiome)-1;
}
break;
}
} // switch (Biome availability)
}
EMCSBiome Biome = cChunkDef::GetBiome(CurBiomes, RelX, RelZ);
a_Pixmap.SetPixel(x, y, GetBiomeColor(Biome));
} // for x
} // for y
return res;
}
int cBiomeRenderer::GetBiomeColor(EMCSBiome a_Biome)
{
if ((a_Biome < 0) || (a_Biome > biMaxBiome))
{
return 0xcfcfcf; // LtGray for unknown biomes
}
static int BiomeColor[] =
{
// RGB:
0x0000ff, /* Ocean */
0x00cf3f, /* Plains */
0xffff00, /* Desert */
0x7f7f7f, /* Extreme Hills */
0x00cf00, /* Forest */
0x007f3f, /* Taiga */
0x3f7f00, /* Swampland */
0x003fff, /* River */
0x7f0000, /* Hell */
0x007fff, /* Sky */
0x3f3fff, /* Frozen Ocean */
0x3f3fff, /* Frozen River */
0x7fffcf, /* Ice Plains */
0x3fcf7f, /* Ice Mountains */
0xcf00cf, /* Mushroom Island */
0x7f00ff, /* Mushroom Island Shore */
0xffff3f, /* Beach */
0xcfcf00, /* Desert Hills */
0x00cf3f, /* Forest Hills */
0x006f1f, /* Taiga Hills */
0x7f8f7f, /* Extreme Hills Edge */
0x004f00, /* Jungle */
0x003f00, /* Jungle Hills */
} ;
return BiomeColor[a_Biome];
}
void cBiomeRenderer::MoveViewBy(int a_OffsX, int a_OffsY)
{
m_OriginX += a_OffsX;
m_OriginY += a_OffsY;
}