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#include "copyright.h" |
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#include "color.h" |
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#include <stdio.h> |
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#include <string.h> |
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#include "color.h" |
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#define CEPS 1e-4 /* color epsilon */ |
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void |
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spec_rgb(col, s, e) /* compute RGB color from spectral range */ |
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COLOR col; |
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int s, e; |
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spec_rgb( /* compute RGB color from spectral range */ |
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COLOR col, |
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int s, |
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int e |
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) |
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{ |
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COLOR ciecolor; |
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void |
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spec_cie(col, s, e) /* compute a color from a spectral range */ |
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COLOR col; /* returned color */ |
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int s, e; /* starting and ending wavelengths */ |
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spec_cie( /* compute a color from a spectral range */ |
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COLOR col, /* returned color */ |
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int s, /* starting and ending wavelengths */ |
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int e |
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) |
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{ |
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register int i, d, r; |
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void |
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cie_rgb(rgb, xyz) /* convert CIE color to standard RGB */ |
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COLOR rgb; |
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COLOR xyz; |
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cie_rgb( /* convert CIE color to standard RGB */ |
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COLOR rgb, |
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COLOR xyz |
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) |
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{ |
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colortrans(rgb, xyz2rgbmat, xyz); |
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clipgamut(rgb, xyz[CIEY], CGAMUT_LOWER, cblack, cwhite); |
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int |
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clipgamut(col, brt, gamut, lower, upper) /* clip to gamut cube */ |
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COLOR col; |
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double brt; |
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int gamut; |
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COLOR lower, upper; |
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clipgamut( /* clip to gamut cube */ |
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COLOR col, |
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double brt, |
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int gamut, |
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COLOR lower, |
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COLOR upper |
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) |
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{ |
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int rflags = 0; |
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double brtmin, brtmax, v, vv; |
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vv = 1.; /* check each limit */ |
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for (i = 0; i < 3; i++) |
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if (gamut & CGAMUT_LOWER && col[i] < lower[i]) { |
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v = (lower[i]+CEPS - cgry[i])/(col[i] - cgry[i]); |
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v = (lower[i] - cgry[i])/(col[i] - cgry[i]); |
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if (v < vv) vv = v; |
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rflags |= CGAMUT_LOWER; |
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} else if (gamut & CGAMUT_UPPER && col[i] > upper[i]) { |
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v = (upper[i]-CEPS - cgry[i])/(col[i] - cgry[i]); |
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v = (upper[i] - cgry[i])/(col[i] - cgry[i]); |
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if (v < vv) vv = v; |
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rflags |= CGAMUT_UPPER; |
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} |
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void |
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colortrans(c2, mat, c1) /* convert c1 by mat and put into c2 */ |
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register COLOR c2; |
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register COLORMAT mat; |
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register COLOR c1; |
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colortrans( /* convert c1 by mat and put into c2 */ |
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register COLOR c2, |
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register COLORMAT mat, |
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register COLOR c1 |
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) |
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{ |
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COLOR cout; |
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void |
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multcolormat(m3, m2, m1) /* multiply m1 by m2 and put into m3 */ |
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COLORMAT m3; /* m3 can be either m1 or m2 w/o harm */ |
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COLORMAT m2, m1; |
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multcolormat( /* multiply m1 by m2 and put into m3 */ |
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COLORMAT m3, /* m3 can be either m1 or m2 w/o harm */ |
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COLORMAT m2, |
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COLORMAT m1 |
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) |
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{ |
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COLORMAT mt; |
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register int i, j; |
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} |
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void |
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compxyz2rgbmat(mat, pr) /* compute conversion from CIE to RGB space */ |
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COLORMAT mat; |
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register RGBPRIMS pr; |
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int |
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colorprimsOK( /* are color primaries reasonable? */ |
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RGBPRIMS pr |
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) |
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{ |
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int i; |
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|
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for (i = 0; i < 4; i++) { |
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if ((pr[i][CIEX] <= -.5) | (pr[i][CIEY] <= -.5)) |
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return(0); |
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if ((pr[i][CIEX] >= 1.5) | (pr[i][CIEY] >= 1.5)) |
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return(0); |
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if (pr[i][CIEX] + pr[i][CIEY] >= 1.5) |
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return(0); |
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} |
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return(1); |
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} |
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|
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|
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|
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int |
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compxyz2rgbmat( /* compute conversion from CIE to RGB space */ |
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COLORMAT mat, |
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register RGBPRIMS pr |
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) |
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{ |
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double C_rD, C_gD, C_bD; |
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if (pr == stdprims) { /* can use xyz2rgbmat */ |
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cpcolormat(mat, xyz2rgbmat); |
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return; |
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return(1); |
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} |
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if (CEQ(pr[WHT][CIEX],0.) | CEQ(pr[WHT][CIEY],0.)) |
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return(0); |
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C_rD = (1./pr[WHT][CIEY]) * |
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( pr[WHT][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) - |
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pr[WHT][CIEY]*(pr[GRN][CIEX] - pr[BLU][CIEX]) + |
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pr[GRN][CIEX]*pr[BLU][CIEY] - pr[BLU][CIEX]*pr[GRN][CIEY] ) ; |
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if (CEQ(C_rD,0.)) |
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return(0); |
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C_gD = (1./pr[WHT][CIEY]) * |
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( pr[WHT][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) - |
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pr[WHT][CIEY]*(pr[BLU][CIEX] - pr[RED][CIEX]) - |
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pr[RED][CIEX]*pr[BLU][CIEY] + pr[BLU][CIEX]*pr[RED][CIEY] ) ; |
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if (CEQ(C_gD,0.)) |
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return(0); |
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C_bD = (1./pr[WHT][CIEY]) * |
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( pr[WHT][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) - |
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pr[WHT][CIEY]*(pr[RED][CIEX] - pr[GRN][CIEX]) + |
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pr[RED][CIEX]*pr[GRN][CIEY] - pr[GRN][CIEX]*pr[RED][CIEY] ) ; |
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|
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if (CEQ(C_bD,0.)) |
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return(0); |
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mat[0][0] = (pr[GRN][CIEY] - pr[BLU][CIEY] - |
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pr[BLU][CIEX]*pr[GRN][CIEY] + |
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pr[BLU][CIEY]*pr[GRN][CIEX])/C_rD ; |
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pr[RED][CIEX]*pr[GRN][CIEY])/C_bD ; |
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mat[2][2] = (pr[RED][CIEX]*pr[GRN][CIEY] - |
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pr[GRN][CIEX]*pr[RED][CIEY])/C_bD ; |
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return(1); |
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} |
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void |
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comprgb2xyzmat(mat, pr) /* compute conversion from RGB to CIE space */ |
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COLORMAT mat; |
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register RGBPRIMS pr; |
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int |
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comprgb2xyzmat( /* compute conversion from RGB to CIE space */ |
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COLORMAT mat, |
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register RGBPRIMS pr |
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) |
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{ |
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double C_rD, C_gD, C_bD, D; |
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if (pr == stdprims) { /* can use rgb2xyzmat */ |
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cpcolormat(mat, rgb2xyzmat); |
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return; |
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return(1); |
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} |
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if (CEQ(pr[WHT][CIEX],0.) | CEQ(pr[WHT][CIEY],0.)) |
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return(0); |
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C_rD = (1./pr[WHT][CIEY]) * |
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( pr[WHT][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) - |
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pr[WHT][CIEY]*(pr[GRN][CIEX] - pr[BLU][CIEX]) + |
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D = pr[RED][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) + |
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pr[GRN][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) + |
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pr[BLU][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) ; |
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if (CEQ(D,0.)) |
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return(0); |
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mat[0][0] = pr[RED][CIEX]*C_rD/D; |
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mat[0][1] = pr[GRN][CIEX]*C_gD/D; |
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mat[0][2] = pr[BLU][CIEX]*C_bD/D; |
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mat[2][0] = (1.-pr[RED][CIEX]-pr[RED][CIEY])*C_rD/D; |
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mat[2][1] = (1.-pr[GRN][CIEX]-pr[GRN][CIEY])*C_gD/D; |
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mat[2][2] = (1.-pr[BLU][CIEX]-pr[BLU][CIEY])*C_bD/D; |
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return(1); |
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} |
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void |
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comprgb2rgbmat(mat, pr1, pr2) /* compute conversion from RGB1 to RGB2 */ |
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COLORMAT mat; |
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RGBPRIMS pr1, pr2; |
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int |
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comprgb2rgbmat( /* compute conversion from RGB1 to RGB2 */ |
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COLORMAT mat, |
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RGBPRIMS pr1, |
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RGBPRIMS pr2 |
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) |
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{ |
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COLORMAT pr1toxyz, xyztopr2; |
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mat[0][0] = mat[1][1] = mat[2][2] = 1.0; |
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mat[0][1] = mat[0][2] = mat[1][0] = |
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mat[1][2] = mat[2][0] = mat[2][1] = 0.0; |
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return; |
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> |
return(1); |
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} |
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< |
comprgb2xyzmat(pr1toxyz, pr1); |
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< |
compxyz2rgbmat(xyztopr2, pr2); |
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> |
if (!comprgb2xyzmat(pr1toxyz, pr1)) |
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> |
return(0); |
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> |
if (!compxyz2rgbmat(xyztopr2, pr2)) |
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> |
return(0); |
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/* combine transforms */ |
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multcolormat(mat, pr1toxyz, xyztopr2); |
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return(1); |
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} |
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void |
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< |
compxyzWBmat(mat, wht1, wht2) /* CIE von Kries transform from wht1 to wht2 */ |
390 |
< |
COLORMAT mat; |
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< |
float wht1[2], wht2[2]; |
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> |
int |
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compxyzWBmat( /* CIE von Kries transform from wht1 to wht2 */ |
390 |
> |
COLORMAT mat, |
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> |
float wht1[2], |
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> |
float wht2[2] |
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) |
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{ |
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COLOR cw1, cw2; |
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if (XYEQ(wht1,wht2)) { |
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mat[0][0] = mat[1][1] = mat[2][2] = 1.0; |
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mat[0][1] = mat[0][2] = mat[1][0] = |
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mat[1][2] = mat[2][0] = mat[2][1] = 0.0; |
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< |
return; |
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> |
return(1); |
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} |
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if (CEQ(wht1[CIEX],0.) | CEQ(wht1[CIEY],0.)) |
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return(0); |
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cw1[RED] = wht1[CIEX]/wht1[CIEY]; |
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cw1[GRN] = 1.; |
406 |
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cw1[BLU] = (1. - wht1[CIEX] - wht1[CIEY])/wht1[CIEY]; |
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colortrans(cw1, vkmat, cw1); |
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if (CEQ(wht2[CIEX],0.) | CEQ(wht2[CIEY],0.)) |
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return(0); |
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cw2[RED] = wht2[CIEX]/wht2[CIEY]; |
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cw2[GRN] = 1.; |
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cw2[BLU] = (1. - wht2[CIEX] - wht2[CIEY])/wht2[CIEY]; |
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colortrans(cw2, vkmat, cw2); |
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if (CEQ(cw1[RED],0.) | CEQ(cw1[GRN],0.) | CEQ(cw1[BLU],0.)) |
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return(0); |
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mat[0][0] = cw2[RED]/cw1[RED]; |
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mat[1][1] = cw2[GRN]/cw1[GRN]; |
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mat[2][2] = cw2[BLU]/cw1[BLU]; |
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mat[1][2] = mat[2][0] = mat[2][1] = 0.0; |
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multcolormat(mat, vkmat, mat); |
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multcolormat(mat, mat, ivkmat); |
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return(1); |
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} |
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void |
428 |
< |
compxyz2rgbWBmat(mat, pr) /* von Kries conversion from CIE to RGB space */ |
429 |
< |
COLORMAT mat; |
430 |
< |
RGBPRIMS pr; |
427 |
> |
int |
428 |
> |
compxyz2rgbWBmat( /* von Kries conversion from CIE to RGB space */ |
429 |
> |
COLORMAT mat, |
430 |
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RGBPRIMS pr |
431 |
> |
) |
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{ |
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COLORMAT wbmat; |
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|
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< |
compxyz2rgbmat(mat, pr); |
435 |
> |
if (!compxyz2rgbmat(mat, pr)) |
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> |
return(0); |
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if (XYEQ(pr[WHT],xyneu)) |
438 |
< |
return; |
439 |
< |
compxyzWBmat(wbmat, xyneu, pr[WHT]); |
438 |
> |
return(1); |
439 |
> |
if (!compxyzWBmat(wbmat, xyneu, pr[WHT])) |
440 |
> |
return(0); |
441 |
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multcolormat(mat, wbmat, mat); |
442 |
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return(1); |
443 |
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} |
444 |
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|
445 |
< |
void |
446 |
< |
comprgb2xyzWBmat(mat, pr) /* von Kries conversion from RGB to CIE space */ |
447 |
< |
COLORMAT mat; |
448 |
< |
RGBPRIMS pr; |
445 |
> |
int |
446 |
> |
comprgb2xyzWBmat( /* von Kries conversion from RGB to CIE space */ |
447 |
> |
COLORMAT mat, |
448 |
> |
RGBPRIMS pr |
449 |
> |
) |
450 |
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{ |
451 |
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COLORMAT wbmat; |
452 |
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|
453 |
< |
comprgb2xyzmat(mat, pr); |
453 |
> |
if (!comprgb2xyzmat(mat, pr)) |
454 |
> |
return(0); |
455 |
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if (XYEQ(pr[WHT],xyneu)) |
456 |
< |
return; |
457 |
< |
compxyzWBmat(wbmat, pr[WHT], xyneu); |
456 |
> |
return(1); |
457 |
> |
if (!compxyzWBmat(wbmat, pr[WHT], xyneu)) |
458 |
> |
return(0); |
459 |
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multcolormat(mat, mat, wbmat); |
460 |
+ |
return(1); |
461 |
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} |
462 |
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|
463 |
< |
void |
464 |
< |
comprgb2rgbWBmat(mat, pr1, pr2) /* von Kries conversion from RGB1 to RGB2 */ |
465 |
< |
COLORMAT mat; |
466 |
< |
RGBPRIMS pr1, pr2; |
463 |
> |
int |
464 |
> |
comprgb2rgbWBmat( /* von Kries conversion from RGB1 to RGB2 */ |
465 |
> |
COLORMAT mat, |
466 |
> |
RGBPRIMS pr1, |
467 |
> |
RGBPRIMS pr2 |
468 |
> |
) |
469 |
|
{ |
470 |
|
COLORMAT pr1toxyz, xyztopr2, wbmat; |
471 |
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|
473 |
|
mat[0][0] = mat[1][1] = mat[2][2] = 1.0; |
474 |
|
mat[0][1] = mat[0][2] = mat[1][0] = |
475 |
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mat[1][2] = mat[2][0] = mat[2][1] = 0.0; |
476 |
< |
return; |
476 |
> |
return(1); |
477 |
|
} |
478 |
< |
comprgb2xyzmat(pr1toxyz, pr1); |
479 |
< |
compxyzWBmat(wbmat, pr1[WHT], pr2[WHT]); |
480 |
< |
compxyz2rgbmat(xyztopr2, pr2); |
478 |
> |
if (!comprgb2xyzmat(pr1toxyz, pr1)) |
479 |
> |
return(0); |
480 |
> |
if (!compxyzWBmat(wbmat, pr1[WHT], pr2[WHT])) |
481 |
> |
return(0); |
482 |
> |
if (!compxyz2rgbmat(xyztopr2, pr2)) |
483 |
> |
return(0); |
484 |
|
/* combine transforms */ |
485 |
|
multcolormat(mat, pr1toxyz, wbmat); |
486 |
|
multcolormat(mat, mat, xyztopr2); |
487 |
+ |
return(1); |
488 |
|
} |