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454 lines
15 KiB
C
454 lines
15 KiB
C
/******************************************************************************
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Plush Version 1.2
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mat.c
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Material Control
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Copyright (c) 1996-2000, Justin Frankel
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******************************************************************************/
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#include "plush.h"
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static void _plGenerateSinglePalette(pl_Mat *);
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static void _plGeneratePhongPalette(pl_Mat *);
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static void _plGenerateTextureEnvPalette(pl_Mat *);
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static void _plGenerateTexturePalette(pl_Mat *, pl_Texture *);
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static void _plGeneratePhongTexturePalette(pl_Mat *, pl_Texture *);
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static void _plGeneratePhongTransparentPalette(pl_Mat *m);
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static void _plGenerateTransparentPalette(pl_Mat *);
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static void _plSetMaterialPutFace(pl_Mat *m);
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static void _plMatSetupTransparent(pl_Mat *m, pl_uChar *pal);
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pl_Mat *plMatCreate() {
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pl_Mat *m;
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m = (pl_Mat *) malloc(sizeof(pl_Mat));
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if (!m) return 0;
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memset(m,0,sizeof(pl_Mat));
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m->EnvScaling = 1.0f;
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m->TexScaling = 1.0f;
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m->Ambient[0] = m->Ambient[1] = m->Ambient[2] = 0;
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m->Diffuse[0] = m->Diffuse[1] = m->Diffuse[2] = 128;
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m->Specular[0] = m->Specular[1] = m->Specular[2] = 128;
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m->Shininess = 4;
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m->NumGradients = 32;
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m->FadeDist = 1000.0;
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m->zBufferable = 1;
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return m;
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}
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void plMatDelete(pl_Mat *m) {
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if (m) {
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if (m->_ReMapTable) free(m->_ReMapTable);
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if (m->_RequestedColors) free(m->_RequestedColors);
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if (m->_AddTable) free(m->_AddTable);
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free(m);
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}
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}
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void plMatInit(pl_Mat *m) {
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if (m->Shininess < 1) m->Shininess = 1;
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m->_ft = ((m->Environment ? PL_FILL_ENVIRONMENT : 0) |
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(m->Texture ? PL_FILL_TEXTURE : 0));
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m->_st = m->ShadeType;
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if (m->Transparent) m->_ft = PL_FILL_TRANSPARENT;
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if (m->_ft == (PL_FILL_TEXTURE|PL_FILL_ENVIRONMENT))
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m->_st = PL_SHADE_NONE;
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if (m->_ft == PL_FILL_SOLID) {
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if (m->_st == PL_SHADE_NONE) _plGenerateSinglePalette(m);
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else _plGeneratePhongPalette(m);
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} else if (m->_ft == PL_FILL_TEXTURE) {
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if (m->_st == PL_SHADE_NONE)
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_plGenerateTexturePalette(m,m->Texture);
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else _plGeneratePhongTexturePalette(m,m->Texture);
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} else if (m->_ft == PL_FILL_ENVIRONMENT) {
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if (m->_st == PL_SHADE_NONE)
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_plGenerateTexturePalette(m,m->Environment);
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else _plGeneratePhongTexturePalette(m,m->Environment);
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} else if (m->_ft == (PL_FILL_ENVIRONMENT|PL_FILL_TEXTURE))
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_plGenerateTextureEnvPalette(m);
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else if (m->_ft == PL_FILL_TRANSPARENT) {
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if (m->_st == PL_SHADE_NONE) _plGenerateTransparentPalette(m);
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else _plGeneratePhongTransparentPalette(m);
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}
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_plSetMaterialPutFace(m);
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}
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static void _plMatSetupTransparent(pl_Mat *m, pl_uChar *pal) {
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pl_uInt x, intensity;
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if (m->Transparent)
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{
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if (m->_AddTable) free(m->_AddTable);
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m->_AddTable = (pl_uInt16 *) malloc(256*sizeof(pl_uInt16));
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for (x = 0; x < 256; x ++) {
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intensity = *pal++;
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intensity += *pal++;
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intensity += *pal++;
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m->_AddTable[x] = ((intensity*(m->_ColorsUsed-m->_tsfact))/768);
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}
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}
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}
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void plMatMapToPal(pl_Mat *m, pl_uChar *pal, pl_sInt pstart, pl_sInt pend) {
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pl_sInt32 j, r, g, b, bestdiff, r2, g2, b2;
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pl_sInt bestpos,k;
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pl_uInt32 i;
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pl_uChar *p;
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if (!m->_RequestedColors) plMatInit(m);
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if (!m->_RequestedColors) return;
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if (m->_ReMapTable) free(m->_ReMapTable);
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m->_ReMapTable = (pl_uChar *) malloc(m->_ColorsUsed);
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for (i = 0; i < m->_ColorsUsed; i ++) {
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bestdiff = 1000000000;
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bestpos = pstart;
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r = m->_RequestedColors[i*3];
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g = m->_RequestedColors[i*3+1];
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b = m->_RequestedColors[i*3+2];
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p = pal + pstart*3;
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for (k = pstart; k <= (pl_sInt)pend; k ++) {
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r2 = p[0] - r;
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g2 = p[1] - g;
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b2 = p[2] - b;
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p += 3;
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j = r2*r2+g2*g2+b2*b2;
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if (j < bestdiff) {
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bestdiff = j;
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bestpos = k;
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}
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}
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m->_ReMapTable[i] = bestpos;
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}
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_plMatSetupTransparent(m,pal);
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}
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static void _plGenerateSinglePalette(pl_Mat *m) {
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m->_ColorsUsed = 1;
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if (m->_RequestedColors) free(m->_RequestedColors);
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m->_RequestedColors = (pl_uChar *) malloc(3);
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m->_RequestedColors[0] = plMin(plMax(m->Ambient[0],0),255);
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m->_RequestedColors[1] = plMin(plMax(m->Ambient[1],0),255);
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m->_RequestedColors[2] = plMin(plMax(m->Ambient[2],0),255);
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}
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static void _plGeneratePhongPalette(pl_Mat *m) {
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pl_uInt i = m->NumGradients, x;
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pl_sInt c;
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pl_uChar *pal;
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double a, da, ca, cb;
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m->_ColorsUsed = m->NumGradients;
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if (m->_RequestedColors) free(m->_RequestedColors);
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pal = m->_RequestedColors = (pl_uChar *) malloc(m->_ColorsUsed*3);
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a = PL_PI/2.0;
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if (m->NumGradients > 1) da = -PL_PI/((m->NumGradients-1)<<1);
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else da=0.0;
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do {
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if (m->NumGradients == 1) ca = 1;
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else {
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ca = cos((double) a);
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a += da;
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}
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cb = pow((double) ca, (double) m->Shininess);
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for (x = 0; x < 3; x ++) {
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c = (pl_sInt) ((cb*m->Specular[x])+(ca*m->Diffuse[x])+m->Ambient[x]);
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*(pal++) = plMax(0,plMin(c,255));
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}
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} while (--i);
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}
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static void _plGenerateTextureEnvPalette(pl_Mat *m) {
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pl_sInt c;
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pl_uInt whichlevel,whichindex;
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pl_uChar *texpal, *envpal, *pal;
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m->_ColorsUsed = m->Texture->NumColors*m->Environment->NumColors;
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if (m->_RequestedColors) free(m->_RequestedColors);
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pal = m->_RequestedColors = (pl_uChar *) malloc(m->_ColorsUsed*3);
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envpal = m->Environment->PaletteData;
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if (m->_AddTable) free(m->_AddTable);
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m->_AddTable = (pl_uInt16 *) malloc(m->Environment->NumColors*sizeof(pl_uInt16));
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for (whichlevel = 0; whichlevel < m->Environment->NumColors; whichlevel++) {
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texpal = m->Texture->PaletteData;
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switch (m->TexEnvMode)
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{
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case PL_TEXENV_MUL: // multiply
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for (whichindex = 0; whichindex < m->Texture->NumColors; whichindex++) {
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*pal++ = (pl_uChar) (((pl_sInt) (*texpal++) * (pl_sInt) envpal[0])>>8);
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*pal++ = (pl_uChar) (((pl_sInt) (*texpal++) * (pl_sInt) envpal[1])>>8);
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*pal++ = (pl_uChar) (((pl_sInt) (*texpal++) * (pl_sInt) envpal[2])>>8);
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}
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break;
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case PL_TEXENV_AVG: // average
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for (whichindex = 0; whichindex < m->Texture->NumColors; whichindex++) {
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*pal++ = (pl_uChar) (((pl_sInt) (*texpal++) + (pl_sInt) envpal[0])>>1);
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*pal++ = (pl_uChar) (((pl_sInt) (*texpal++) + (pl_sInt) envpal[1])>>1);
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*pal++ = (pl_uChar) (((pl_sInt) (*texpal++) + (pl_sInt) envpal[2])>>1);
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}
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break;
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case PL_TEXENV_TEXMINUSENV: // tex-env
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for (whichindex = 0; whichindex < m->Texture->NumColors; whichindex++) {
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c = (pl_sInt) (*texpal++) - (pl_sInt) envpal[0]; *pal++ = plMax(0,plMin(255,c));
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c = (pl_sInt) (*texpal++) - (pl_sInt) envpal[1]; *pal++ = plMax(0,plMin(255,c));
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c = (pl_sInt) (*texpal++) - (pl_sInt) envpal[2]; *pal++ = plMax(0,plMin(255,c));
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}
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break;
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case PL_TEXENV_ENVMINUSTEX: // env-tex
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for (whichindex = 0; whichindex < m->Texture->NumColors; whichindex++) {
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c = -(pl_sInt) (*texpal++) - (pl_sInt) envpal[0]; *pal++ = plMax(0,plMin(255,c));
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c = -(pl_sInt) (*texpal++) - (pl_sInt) envpal[1]; *pal++ = plMax(0,plMin(255,c));
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c = -(pl_sInt) (*texpal++) - (pl_sInt) envpal[2]; *pal++ = plMax(0,plMin(255,c));
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}
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break;
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case PL_TEXENV_MIN:
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for (whichindex = 0; whichindex < m->Texture->NumColors; whichindex++) {
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*pal++ = plMin(texpal[0],envpal[0]);
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*pal++ = plMin(texpal[1],envpal[1]);
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*pal++ = plMin(texpal[2],envpal[2]);
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texpal+=3;
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}
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break;
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case PL_TEXENV_MAX:
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break;
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for (whichindex = 0; whichindex < m->Texture->NumColors; whichindex++) {
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*pal++ = plMax(texpal[0],envpal[0]);
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*pal++ = plMax(texpal[1],envpal[1]);
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*pal++ = plMax(texpal[2],envpal[2]);
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texpal+=3;
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}
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default: // add
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for (whichindex = 0; whichindex < m->Texture->NumColors; whichindex++) {
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c = (pl_sInt) (*texpal++) + (pl_sInt) envpal[0]; *pal++ = plMax(0,plMin(255,c));
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c = (pl_sInt) (*texpal++) + (pl_sInt) envpal[1]; *pal++ = plMax(0,plMin(255,c));
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c = (pl_sInt) (*texpal++) + (pl_sInt) envpal[2]; *pal++ = plMax(0,plMin(255,c));
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}
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break;
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}
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envpal += 3;
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m->_AddTable[whichlevel] = whichlevel*m->Texture->NumColors;
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}
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}
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static void _plGenerateTexturePalette(pl_Mat *m, pl_Texture *t) {
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pl_uChar *ppal, *pal;
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pl_sInt c, i, x;
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m->_ColorsUsed = t->NumColors;
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if (m->_RequestedColors) free(m->_RequestedColors);
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pal = m->_RequestedColors = (pl_uChar *) malloc(m->_ColorsUsed*3);
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ppal = t->PaletteData;
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i = t->NumColors;
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do {
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for (x = 0; x < 3; x ++) {
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c = m->Ambient[x] + *ppal++;
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*(pal++) = plMax(0,plMin(c,255));
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}
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} while (--i);
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}
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static void _plGeneratePhongTexturePalette(pl_Mat *m, pl_Texture *t) {
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double a, ca, da, cb;
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pl_uInt16 *addtable;
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pl_uChar *ppal, *pal;
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pl_sInt c, i, i2, x;
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pl_uInt num_shades;
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if (t->NumColors) num_shades = (m->NumGradients / t->NumColors);
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else num_shades=1;
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if (!num_shades) num_shades = 1;
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m->_ColorsUsed = num_shades*t->NumColors;
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if (m->_RequestedColors) free(m->_RequestedColors);
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pal = m->_RequestedColors = (pl_uChar *) malloc(m->_ColorsUsed*3);
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a = PL_PI/2.0;
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if (num_shades>1) da = (-PL_PI/2.0)/(num_shades-1);
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else da=0.0;
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i2 = num_shades;
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do {
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ppal = t->PaletteData;
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ca = cos((double) a);
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a += da;
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cb = pow(ca, (double) m->Shininess);
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i = t->NumColors;
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do {
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for (x = 0; x < 3; x ++) {
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c = (pl_sInt) ((cb*m->Specular[x])+(ca*m->Diffuse[x])+m->Ambient[x] + *ppal++);
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*(pal++) = plMax(0,plMin(c,255));
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}
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} while (--i);
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} while (--i2);
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ca = 0;
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if (m->_AddTable) free(m->_AddTable);
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m->_AddTable = (pl_uInt16 *) malloc(256*sizeof(pl_uInt16));
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addtable = m->_AddTable;
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i = 256;
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do {
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a = sin(ca) * num_shades;
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ca += PL_PI/512.0;
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*addtable++ = ((pl_sInt) a)*t->NumColors;
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} while (--i);
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}
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static void _plGeneratePhongTransparentPalette(pl_Mat *m) {
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m->_tsfact = (pl_sInt) (m->NumGradients*(1.0/(1+m->Transparent)));
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_plGeneratePhongPalette(m);
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}
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static void _plGenerateTransparentPalette(pl_Mat *m) {
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m->_tsfact = 0;
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_plGeneratePhongPalette(m);
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}
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static void _plSetMaterialPutFace(pl_Mat *m) {
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m->_PutFace = 0;
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switch (m->_ft) {
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case PL_FILL_TRANSPARENT: switch(m->_st) {
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case PL_SHADE_NONE: case PL_SHADE_FLAT:
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case PL_SHADE_FLAT_DISTANCE: case PL_SHADE_FLAT_DISTANCE|PL_SHADE_FLAT:
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m->_PutFace = plPF_TransF;
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break;
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case PL_SHADE_GOURAUD: case PL_SHADE_GOURAUD_DISTANCE:
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case PL_SHADE_GOURAUD|PL_SHADE_GOURAUD_DISTANCE:
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m->_PutFace = plPF_TransG;
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break;
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}
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break;
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case PL_FILL_SOLID: switch(m->_st) {
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case PL_SHADE_NONE: case PL_SHADE_FLAT:
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case PL_SHADE_FLAT_DISTANCE: case PL_SHADE_FLAT_DISTANCE|PL_SHADE_FLAT:
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m->_PutFace = plPF_SolidF;
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break;
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case PL_SHADE_GOURAUD: case PL_SHADE_GOURAUD_DISTANCE:
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case PL_SHADE_GOURAUD|PL_SHADE_GOURAUD_DISTANCE:
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m->_PutFace = plPF_SolidG;
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break;
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}
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break;
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case PL_FILL_ENVIRONMENT:
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case PL_FILL_TEXTURE:
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if (m->PerspectiveCorrect) switch (m->_st) {
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case PL_SHADE_NONE: case PL_SHADE_FLAT:
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case PL_SHADE_FLAT_DISTANCE: case PL_SHADE_FLAT_DISTANCE|PL_SHADE_FLAT:
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m->_PutFace = plPF_PTexF;
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break;
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case PL_SHADE_GOURAUD: case PL_SHADE_GOURAUD_DISTANCE:
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case PL_SHADE_GOURAUD|PL_SHADE_GOURAUD_DISTANCE:
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m->_PutFace = plPF_PTexG;
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break;
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}
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else switch (m->_st) {
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case PL_SHADE_NONE: case PL_SHADE_FLAT:
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case PL_SHADE_FLAT_DISTANCE: case PL_SHADE_FLAT_DISTANCE|PL_SHADE_FLAT:
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m->_PutFace = plPF_TexF;
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break;
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case PL_SHADE_GOURAUD: case PL_SHADE_GOURAUD_DISTANCE:
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case PL_SHADE_GOURAUD|PL_SHADE_GOURAUD_DISTANCE:
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m->_PutFace = plPF_TexG;
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break;
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}
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break;
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case PL_FILL_TEXTURE|PL_FILL_ENVIRONMENT:
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m->_PutFace = plPF_TexEnv;
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break;
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}
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}
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typedef struct __ct {
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pl_uChar r,g,b;
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pl_Bool visited;
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struct __ct *next;
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} _ct;
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static int mdist(_ct *a, _ct *b) {
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return ((a->r-b->r)*(a->r-b->r)+(a->g-b->g)*(a->g-b->g)+(a->b-b->b)*(a->b-b->b));
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}
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void plMatMakeOptPal(pl_uChar *p, pl_sInt pstart,
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pl_sInt pend, pl_Mat **materials, pl_sInt nmats) {
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pl_uChar *allColors = 0;
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pl_sInt numColors = 0, nc, x;
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pl_sInt len = pend + 1 - pstart;
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pl_sInt32 current, newnext, bestdist, thisdist;
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_ct *colorBlock, *best, *cp;
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for (x = 0; x < nmats; x ++) {
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if (materials[x]) {
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if (!materials[x]->_RequestedColors) plMatInit(materials[x]);
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if (materials[x]->_RequestedColors) numColors+=materials[x]->_ColorsUsed;
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}
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}
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if (!numColors) return;
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allColors=(pl_uChar*)malloc(numColors*3);
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numColors=0;
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for (x = 0; x < nmats; x ++) {
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if (materials[x]) {
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if (materials[x]->_RequestedColors)
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memcpy(allColors + (numColors*3), materials[x]->_RequestedColors,
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materials[x]->_ColorsUsed*3);
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numColors += materials[x]->_ColorsUsed;
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}
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}
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if (numColors <= len) {
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memcpy(p+pstart*3,allColors,numColors*3);
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free(allColors);
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return;
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}
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colorBlock = (_ct *) malloc(sizeof(_ct)*numColors);
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for (x = 0; x < numColors; x++) {
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colorBlock[x].r = allColors[x*3];
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colorBlock[x].g = allColors[x*3+1];
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colorBlock[x].b = allColors[x*3+2];
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colorBlock[x].visited = 0;
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colorBlock[x].next = 0;
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}
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free(allColors);
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/* Build a list, starting at color 0 */
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current = 0;
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nc = numColors;
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do {
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newnext = -1;
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bestdist = 300000000;
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colorBlock[current].visited = 1;
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for (x = 0; x < nc; x ++) {
|
|
if (!colorBlock[x].visited) {
|
|
thisdist = mdist(colorBlock + x, colorBlock + current);
|
|
if (thisdist < 5) { colorBlock[x].visited = 1; numColors--; }
|
|
else if (thisdist < bestdist) { bestdist = thisdist; newnext = x; }
|
|
}
|
|
}
|
|
if (newnext != -1) {
|
|
colorBlock[current].next = colorBlock + newnext;
|
|
current = newnext;
|
|
}
|
|
} while (newnext != -1);
|
|
colorBlock[current].next = 0; /* terminate the list */
|
|
|
|
/* we now have a linked list starting at colorBlock, which is each one and
|
|
it's closest neighbor */
|
|
|
|
while (numColors > len) {
|
|
bestdist = mdist(colorBlock,colorBlock->next);
|
|
for (best = cp = colorBlock; cp->next; cp = cp->next) {
|
|
if (bestdist > (thisdist = mdist(cp,cp->next))) {
|
|
best = cp;
|
|
bestdist = thisdist;
|
|
}
|
|
}
|
|
best->r = ((int) best->r + (int) best->next->r)>>1;
|
|
best->g = ((int) best->g + (int) best->next->g)>>1;
|
|
best->b = ((int) best->b + (int) best->next->b)>>1;
|
|
best->next = best->next->next;
|
|
numColors--;
|
|
}
|
|
x = pstart*3;
|
|
for (cp = colorBlock; cp; cp = cp->next) {
|
|
p[x++] = cp->r;
|
|
p[x++] = cp->g;
|
|
p[x++] = cp->b;
|
|
}
|
|
free(colorBlock);
|
|
}
|