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root/radiance/ray/src/common/spec_rgb.c
Revision: 2.24
Committed: Fri May 18 22:48:39 2012 UTC (11 years, 11 months ago) by greg
Content type: text/plain
Branch: MAIN
CVS Tags: rad5R2, rad4R2P2, rad5R0, rad5R1, rad4R2, rad4R2P1
Changes since 2.23: +5 -5 lines
Log Message: 
Even wider acceptance of whacky color primaries

File Contents

# User Rev Content
1 greg 1.1 #ifndef lint
2 greg 2.24 static const char RCSid[] = "$Id: spec_rgb.c,v 2.23 2011/05/20 02:06:38 greg Exp $";
3 greg 1.1 #endif
4     /*
5     * Convert colors and spectral ranges.
6 greg 2.11 * Added von Kries white-balance calculations 10/01 (GW).
7     *
8     * Externals declared in color.h
9     */
10    
11 greg 2.12 #include "copyright.h"
12 greg 1.1
13 greg 2.13 #include <stdio.h>
14     #include <string.h>
15 greg 1.1 #include "color.h"
16 greg 2.11
17     #define CEPS 1e-4 /* color epsilon */
18    
19     #define CEQ(v1,v2) ((v1) <= (v2)+CEPS && (v2) <= (v1)+CEPS)
20 greg 1.1
21 greg 2.11 #define XYEQ(c1,c2) (CEQ((c1)[CIEX],(c2)[CIEX]) && CEQ((c1)[CIEY],(c2)[CIEY]))
22 greg 2.5
23 gwlarson 2.10
24 greg 2.11 RGBPRIMS stdprims = STDPRIMS; /* standard primary chromaticities */
25 greg 2.5
26 greg 2.8 COLOR cblack = BLKCOLOR; /* global black color */
27     COLOR cwhite = WHTCOLOR; /* global white color */
28    
29 greg 2.11 float xyneu[2] = {1./3., 1./3.}; /* neutral xy chromaticities */
30    
31 greg 1.1 /*
32     * The following table contains the CIE tristimulus integrals
33     * for X, Y, and Z. The table is cumulative, so that
34     * each color coordinate integrates to 1.
35     */
36    
37     #define STARTWL 380 /* starting wavelength (nanometers) */
38     #define INCWL 10 /* wavelength increment */
39     #define NINC 40 /* # of values */
40    
41 greg 2.23 static uby8 chroma[3][NINC] = {
42 greg 1.1 { /* X */
43     0, 0, 0, 2, 6, 13, 22, 30, 36, 41,
44     42, 43, 43, 44, 46, 52, 60, 71, 87, 106,
45     128, 153, 178, 200, 219, 233, 243, 249, 252, 254,
46     255, 255, 255, 255, 255, 255, 255, 255, 255, 255
47     }, { /* Y */
48     0, 0, 0, 0, 0, 1, 2, 4, 7, 11,
49     17, 24, 34, 48, 64, 84, 105, 127, 148, 169,
50     188, 205, 220, 232, 240, 246, 250, 253, 254, 255,
51     255, 255, 255, 255, 255, 255, 255, 255, 255, 255
52     }, { /* Z */
53     0, 0, 2, 10, 32, 66, 118, 153, 191, 220,
54     237, 246, 251, 253, 254, 255, 255, 255, 255, 255,
55     255, 255, 255, 255, 255, 255, 255, 255, 255, 255,
56     255, 255, 255, 255, 255, 255, 255, 255, 255, 255
57     }
58     };
59    
60 greg 2.11 COLORMAT xyz2rgbmat = { /* XYZ to RGB (no white balance) */
61 greg 2.3 {(CIE_y_g - CIE_y_b - CIE_x_b*CIE_y_g + CIE_y_b*CIE_x_g)/CIE_C_rD,
62     (CIE_x_b - CIE_x_g - CIE_x_b*CIE_y_g + CIE_x_g*CIE_y_b)/CIE_C_rD,
63     (CIE_x_g*CIE_y_b - CIE_x_b*CIE_y_g)/CIE_C_rD},
64     {(CIE_y_b - CIE_y_r - CIE_y_b*CIE_x_r + CIE_y_r*CIE_x_b)/CIE_C_gD,
65     (CIE_x_r - CIE_x_b - CIE_x_r*CIE_y_b + CIE_x_b*CIE_y_r)/CIE_C_gD,
66     (CIE_x_b*CIE_y_r - CIE_x_r*CIE_y_b)/CIE_C_gD},
67     {(CIE_y_r - CIE_y_g - CIE_y_r*CIE_x_g + CIE_y_g*CIE_x_r)/CIE_C_bD,
68     (CIE_x_g - CIE_x_r - CIE_x_g*CIE_y_r + CIE_x_r*CIE_y_g)/CIE_C_bD,
69     (CIE_x_r*CIE_y_g - CIE_x_g*CIE_y_r)/CIE_C_bD}
70 greg 1.2 };
71 greg 1.1
72 greg 2.11 COLORMAT rgb2xyzmat = { /* RGB to XYZ (no white balance) */
73 greg 2.4 {CIE_x_r*CIE_C_rD/CIE_D,CIE_x_g*CIE_C_gD/CIE_D,CIE_x_b*CIE_C_bD/CIE_D},
74     {CIE_y_r*CIE_C_rD/CIE_D,CIE_y_g*CIE_C_gD/CIE_D,CIE_y_b*CIE_C_bD/CIE_D},
75     {(1.-CIE_x_r-CIE_y_r)*CIE_C_rD/CIE_D,
76     (1.-CIE_x_g-CIE_y_g)*CIE_C_gD/CIE_D,
77     (1.-CIE_x_b-CIE_y_b)*CIE_C_bD/CIE_D}
78     };
79 greg 1.2
80 greg 2.11 COLORMAT vkmat = { /* Sharp primary matrix */
81     { 1.2694, -0.0988, -0.1706},
82     {-0.8364, 1.8006, 0.0357},
83     { 0.0297, -0.0315, 1.0018}
84     };
85    
86     COLORMAT ivkmat = { /* inverse Sharp primary matrix */
87     { 0.8156, 0.0472, 0.1372},
88     { 0.3791, 0.5769, 0.0440},
89     {-0.0123, 0.0167, 0.9955}
90     };
91 greg 1.2
92 greg 2.4
93 greg 2.11 void
94 greg 2.15 spec_rgb( /* compute RGB color from spectral range */
95     COLOR col,
96     int s,
97     int e
98     )
99 greg 1.1 {
100     COLOR ciecolor;
101    
102     spec_cie(ciecolor, s, e);
103     cie_rgb(col, ciecolor);
104     }
105    
106    
107 greg 2.11 void
108 greg 2.15 spec_cie( /* compute a color from a spectral range */
109     COLOR col, /* returned color */
110     int s, /* starting and ending wavelengths */
111     int e
112     )
113 greg 1.1 {
114     register int i, d, r;
115    
116     s -= STARTWL;
117     if (s < 0)
118     s = 0;
119    
120     e -= STARTWL;
121 greg 1.2 if (e <= s) {
122 greg 2.5 col[CIEX] = col[CIEY] = col[CIEZ] = 0.0;
123 greg 1.2 return;
124     }
125 greg 1.1 if (e >= INCWL*(NINC - 1))
126     e = INCWL*(NINC - 1) - 1;
127    
128     d = e / INCWL; /* interpolate values */
129     r = e % INCWL;
130     for (i = 0; i < 3; i++)
131     col[i] = chroma[i][d]*(INCWL - r) + chroma[i][d + 1]*r;
132    
133     d = s / INCWL;
134     r = s % INCWL;
135     for (i = 0; i < 3; i++)
136     col[i] -= chroma[i][d]*(INCWL - r) - chroma[i][d + 1]*r;
137    
138 greg 2.5 col[CIEX] = (col[CIEX] + 0.5) * (1./(256*INCWL));
139     col[CIEY] = (col[CIEY] + 0.5) * (1./(256*INCWL));
140     col[CIEZ] = (col[CIEZ] + 0.5) * (1./(256*INCWL));
141 greg 1.1 }
142    
143    
144 greg 2.11 void
145 greg 2.15 cie_rgb( /* convert CIE color to standard RGB */
146     COLOR rgb,
147     COLOR xyz
148     )
149 greg 2.8 {
150     colortrans(rgb, xyz2rgbmat, xyz);
151     clipgamut(rgb, xyz[CIEY], CGAMUT_LOWER, cblack, cwhite);
152     }
153    
154    
155     int
156 greg 2.15 clipgamut( /* clip to gamut cube */
157     COLOR col,
158     double brt,
159     int gamut,
160     COLOR lower,
161     COLOR upper
162     )
163 greg 2.8 {
164     int rflags = 0;
165     double brtmin, brtmax, v, vv;
166     COLOR cgry;
167     register int i;
168     /* check for no check */
169     if (gamut == 0) return(0);
170     /* check brightness limits */
171     brtmin = 1./3.*(lower[0]+lower[1]+lower[2]);
172     if (gamut & CGAMUT_LOWER && brt < brtmin) {
173     copycolor(col, lower);
174     return(CGAMUT_LOWER);
175     }
176     brtmax = 1./3.*(upper[0]+upper[1]+upper[2]);
177     if (gamut & CGAMUT_UPPER && brt > brtmax) {
178     copycolor(col, upper);
179     return(CGAMUT_UPPER);
180     }
181     /* compute equivalent grey */
182     v = (brt - brtmin)/(brtmax - brtmin);
183     for (i = 0; i < 3; i++)
184     cgry[i] = v*upper[i] + (1.-v)*lower[i];
185     vv = 1.; /* check each limit */
186     for (i = 0; i < 3; i++)
187     if (gamut & CGAMUT_LOWER && col[i] < lower[i]) {
188 greg 2.14 v = (lower[i] - cgry[i])/(col[i] - cgry[i]);
189 greg 2.8 if (v < vv) vv = v;
190     rflags |= CGAMUT_LOWER;
191     } else if (gamut & CGAMUT_UPPER && col[i] > upper[i]) {
192 greg 2.14 v = (upper[i] - cgry[i])/(col[i] - cgry[i]);
193 greg 2.8 if (v < vv) vv = v;
194     rflags |= CGAMUT_UPPER;
195     }
196     if (rflags) /* desaturate to cube face */
197     for (i = 0; i < 3; i++)
198     col[i] = vv*col[i] + (1.-vv)*cgry[i];
199     return(rflags);
200     }
201    
202    
203 greg 2.11 void
204 greg 2.15 colortrans( /* convert c1 by mat and put into c2 */
205     register COLOR c2,
206     register COLORMAT mat,
207     register COLOR c1
208     )
209 greg 1.1 {
210 greg 2.9 COLOR cout;
211    
212     cout[0] = mat[0][0]*c1[0] + mat[0][1]*c1[1] + mat[0][2]*c1[2];
213     cout[1] = mat[1][0]*c1[0] + mat[1][1]*c1[1] + mat[1][2]*c1[2];
214     cout[2] = mat[2][0]*c1[0] + mat[2][1]*c1[1] + mat[2][2]*c1[2];
215    
216     copycolor(c2, cout);
217 greg 2.4 }
218    
219    
220 greg 2.11 void
221 greg 2.15 multcolormat( /* multiply m1 by m2 and put into m3 */
222     COLORMAT m3, /* m3 can be either m1 or m2 w/o harm */
223     COLORMAT m2,
224     COLORMAT m1
225     )
226 greg 2.4 {
227 greg 2.5 COLORMAT mt;
228     register int i, j;
229 greg 2.4
230     for (i = 0; i < 3; i++)
231 greg 2.5 for (j = 0; j < 3; j++)
232     mt[i][j] = m1[i][0]*m2[0][j] +
233     m1[i][1]*m2[1][j] +
234     m1[i][2]*m2[2][j] ;
235     cpcolormat(m3, mt);
236     }
237    
238    
239 greg 2.15 int
240     colorprimsOK( /* are color primaries reasonable? */
241     RGBPRIMS pr
242     )
243     {
244 greg 2.20 int i, j;
245 greg 2.15
246 greg 2.22 for (i = 0; i < 3; i++) {
247 greg 2.24 if ((pr[i][CIEX] <= -2.) | (pr[i][CIEY] <= -2.))
248 greg 2.15 return(0);
249 greg 2.24 if ((pr[i][CIEX] >= 3.) | (pr[i][CIEY] >= 3.))
250 greg 2.17 return(0);
251 greg 2.24 if (pr[i][CIEX] + pr[i][CIEY] <= -2.)
252 greg 2.21 return(0);
253 greg 2.24 if (pr[i][CIEX] + pr[i][CIEY] >= 3.)
254 greg 2.15 return(0);
255     }
256 greg 2.22 if ((pr[3][CIEX] <= 0.) | (pr[3][CIEX] >= 1.) |
257     (pr[3][CIEY] <= 0.) | (pr[3][CIEY] >= 1.))
258     return(0);
259 greg 2.20 for (i = 0; i < 4; i++)
260     for (j = i+1; j < 4; j++)
261     if (CEQ(pr[i][CIEX],pr[j][CIEX]) &&
262     CEQ(pr[i][CIEY],pr[j][CIEY]))
263     return(0);
264 greg 2.15 return(1);
265     }
266    
267    
268    
269     int
270     compxyz2rgbmat( /* compute conversion from CIE to RGB space */
271     COLORMAT mat,
272     register RGBPRIMS pr
273     )
274 greg 2.5 {
275     double C_rD, C_gD, C_bD;
276    
277 greg 2.6 if (pr == stdprims) { /* can use xyz2rgbmat */
278     cpcolormat(mat, xyz2rgbmat);
279 greg 2.16 return(1);
280 greg 2.6 }
281 greg 2.15 if (CEQ(pr[WHT][CIEX],0.) | CEQ(pr[WHT][CIEY],0.))
282     return(0);
283 greg 2.5 C_rD = (1./pr[WHT][CIEY]) *
284     ( pr[WHT][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) -
285     pr[WHT][CIEY]*(pr[GRN][CIEX] - pr[BLU][CIEX]) +
286     pr[GRN][CIEX]*pr[BLU][CIEY] - pr[BLU][CIEX]*pr[GRN][CIEY] ) ;
287 greg 2.15 if (CEQ(C_rD,0.))
288     return(0);
289 greg 2.5 C_gD = (1./pr[WHT][CIEY]) *
290     ( pr[WHT][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) -
291     pr[WHT][CIEY]*(pr[BLU][CIEX] - pr[RED][CIEX]) -
292     pr[RED][CIEX]*pr[BLU][CIEY] + pr[BLU][CIEX]*pr[RED][CIEY] ) ;
293 greg 2.15 if (CEQ(C_gD,0.))
294     return(0);
295 greg 2.5 C_bD = (1./pr[WHT][CIEY]) *
296     ( pr[WHT][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) -
297     pr[WHT][CIEY]*(pr[RED][CIEX] - pr[GRN][CIEX]) +
298     pr[RED][CIEX]*pr[GRN][CIEY] - pr[GRN][CIEX]*pr[RED][CIEY] ) ;
299 greg 2.15 if (CEQ(C_bD,0.))
300     return(0);
301 greg 2.5 mat[0][0] = (pr[GRN][CIEY] - pr[BLU][CIEY] -
302     pr[BLU][CIEX]*pr[GRN][CIEY] +
303     pr[BLU][CIEY]*pr[GRN][CIEX])/C_rD ;
304     mat[0][1] = (pr[BLU][CIEX] - pr[GRN][CIEX] -
305     pr[BLU][CIEX]*pr[GRN][CIEY] +
306     pr[GRN][CIEX]*pr[BLU][CIEY])/C_rD ;
307     mat[0][2] = (pr[GRN][CIEX]*pr[BLU][CIEY] -
308     pr[BLU][CIEX]*pr[GRN][CIEY])/C_rD ;
309     mat[1][0] = (pr[BLU][CIEY] - pr[RED][CIEY] -
310     pr[BLU][CIEY]*pr[RED][CIEX] +
311     pr[RED][CIEY]*pr[BLU][CIEX])/C_gD ;
312     mat[1][1] = (pr[RED][CIEX] - pr[BLU][CIEX] -
313     pr[RED][CIEX]*pr[BLU][CIEY] +
314     pr[BLU][CIEX]*pr[RED][CIEY])/C_gD ;
315     mat[1][2] = (pr[BLU][CIEX]*pr[RED][CIEY] -
316     pr[RED][CIEX]*pr[BLU][CIEY])/C_gD ;
317     mat[2][0] = (pr[RED][CIEY] - pr[GRN][CIEY] -
318     pr[RED][CIEY]*pr[GRN][CIEX] +
319     pr[GRN][CIEY]*pr[RED][CIEX])/C_bD ;
320     mat[2][1] = (pr[GRN][CIEX] - pr[RED][CIEX] -
321     pr[GRN][CIEX]*pr[RED][CIEY] +
322     pr[RED][CIEX]*pr[GRN][CIEY])/C_bD ;
323     mat[2][2] = (pr[RED][CIEX]*pr[GRN][CIEY] -
324     pr[GRN][CIEX]*pr[RED][CIEY])/C_bD ;
325 greg 2.15 return(1);
326 greg 2.5 }
327    
328    
329 greg 2.15 int
330     comprgb2xyzmat( /* compute conversion from RGB to CIE space */
331     COLORMAT mat,
332     register RGBPRIMS pr
333     )
334 greg 2.5 {
335     double C_rD, C_gD, C_bD, D;
336    
337 greg 2.6 if (pr == stdprims) { /* can use rgb2xyzmat */
338     cpcolormat(mat, rgb2xyzmat);
339 greg 2.16 return(1);
340 greg 2.6 }
341 greg 2.15 if (CEQ(pr[WHT][CIEX],0.) | CEQ(pr[WHT][CIEY],0.))
342     return(0);
343 greg 2.5 C_rD = (1./pr[WHT][CIEY]) *
344     ( pr[WHT][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) -
345     pr[WHT][CIEY]*(pr[GRN][CIEX] - pr[BLU][CIEX]) +
346     pr[GRN][CIEX]*pr[BLU][CIEY] - pr[BLU][CIEX]*pr[GRN][CIEY] ) ;
347     C_gD = (1./pr[WHT][CIEY]) *
348     ( pr[WHT][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) -
349     pr[WHT][CIEY]*(pr[BLU][CIEX] - pr[RED][CIEX]) -
350     pr[RED][CIEX]*pr[BLU][CIEY] + pr[BLU][CIEX]*pr[RED][CIEY] ) ;
351     C_bD = (1./pr[WHT][CIEY]) *
352     ( pr[WHT][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) -
353     pr[WHT][CIEY]*(pr[RED][CIEX] - pr[GRN][CIEX]) +
354     pr[RED][CIEX]*pr[GRN][CIEY] - pr[GRN][CIEX]*pr[RED][CIEY] ) ;
355     D = pr[RED][CIEX]*(pr[GRN][CIEY] - pr[BLU][CIEY]) +
356     pr[GRN][CIEX]*(pr[BLU][CIEY] - pr[RED][CIEY]) +
357     pr[BLU][CIEX]*(pr[RED][CIEY] - pr[GRN][CIEY]) ;
358 greg 2.15 if (CEQ(D,0.))
359     return(0);
360 greg 2.5 mat[0][0] = pr[RED][CIEX]*C_rD/D;
361     mat[0][1] = pr[GRN][CIEX]*C_gD/D;
362     mat[0][2] = pr[BLU][CIEX]*C_bD/D;
363     mat[1][0] = pr[RED][CIEY]*C_rD/D;
364     mat[1][1] = pr[GRN][CIEY]*C_gD/D;
365     mat[1][2] = pr[BLU][CIEY]*C_bD/D;
366     mat[2][0] = (1.-pr[RED][CIEX]-pr[RED][CIEY])*C_rD/D;
367     mat[2][1] = (1.-pr[GRN][CIEX]-pr[GRN][CIEY])*C_gD/D;
368     mat[2][2] = (1.-pr[BLU][CIEX]-pr[BLU][CIEY])*C_bD/D;
369 greg 2.15 return(1);
370 greg 2.5 }
371    
372    
373 greg 2.15 int
374     comprgb2rgbmat( /* compute conversion from RGB1 to RGB2 */
375     COLORMAT mat,
376     RGBPRIMS pr1,
377     RGBPRIMS pr2
378     )
379 greg 2.5 {
380     COLORMAT pr1toxyz, xyztopr2;
381    
382 greg 2.6 if (pr1 == pr2) {
383     mat[0][0] = mat[1][1] = mat[2][2] = 1.0;
384     mat[0][1] = mat[0][2] = mat[1][0] =
385     mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
386 greg 2.16 return(1);
387 greg 2.6 }
388 greg 2.15 if (!comprgb2xyzmat(pr1toxyz, pr1))
389     return(0);
390     if (!compxyz2rgbmat(xyztopr2, pr2))
391     return(0);
392 greg 2.5 /* combine transforms */
393     multcolormat(mat, pr1toxyz, xyztopr2);
394 greg 2.15 return(1);
395 greg 2.11 }
396    
397    
398 greg 2.15 int
399     compxyzWBmat( /* CIE von Kries transform from wht1 to wht2 */
400     COLORMAT mat,
401     float wht1[2],
402     float wht2[2]
403     )
404 greg 2.11 {
405     COLOR cw1, cw2;
406     if (XYEQ(wht1,wht2)) {
407     mat[0][0] = mat[1][1] = mat[2][2] = 1.0;
408     mat[0][1] = mat[0][2] = mat[1][0] =
409     mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
410 greg 2.15 return(1);
411 greg 2.11 }
412 greg 2.15 if (CEQ(wht1[CIEX],0.) | CEQ(wht1[CIEY],0.))
413     return(0);
414 greg 2.11 cw1[RED] = wht1[CIEX]/wht1[CIEY];
415     cw1[GRN] = 1.;
416     cw1[BLU] = (1. - wht1[CIEX] - wht1[CIEY])/wht1[CIEY];
417     colortrans(cw1, vkmat, cw1);
418 greg 2.15 if (CEQ(wht2[CIEX],0.) | CEQ(wht2[CIEY],0.))
419     return(0);
420 greg 2.11 cw2[RED] = wht2[CIEX]/wht2[CIEY];
421     cw2[GRN] = 1.;
422     cw2[BLU] = (1. - wht2[CIEX] - wht2[CIEY])/wht2[CIEY];
423     colortrans(cw2, vkmat, cw2);
424 greg 2.15 if (CEQ(cw1[RED],0.) | CEQ(cw1[GRN],0.) | CEQ(cw1[BLU],0.))
425     return(0);
426 greg 2.11 mat[0][0] = cw2[RED]/cw1[RED];
427     mat[1][1] = cw2[GRN]/cw1[GRN];
428     mat[2][2] = cw2[BLU]/cw1[BLU];
429     mat[0][1] = mat[0][2] = mat[1][0] =
430     mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
431     multcolormat(mat, vkmat, mat);
432     multcolormat(mat, mat, ivkmat);
433 greg 2.15 return(1);
434 greg 2.11 }
435    
436    
437 greg 2.15 int
438     compxyz2rgbWBmat( /* von Kries conversion from CIE to RGB space */
439     COLORMAT mat,
440     RGBPRIMS pr
441     )
442 greg 2.11 {
443     COLORMAT wbmat;
444    
445 greg 2.15 if (!compxyz2rgbmat(mat, pr))
446     return(0);
447 greg 2.11 if (XYEQ(pr[WHT],xyneu))
448 greg 2.15 return(1);
449     if (!compxyzWBmat(wbmat, xyneu, pr[WHT]))
450     return(0);
451 greg 2.11 multcolormat(mat, wbmat, mat);
452 greg 2.15 return(1);
453 greg 2.11 }
454    
455 greg 2.15 int
456     comprgb2xyzWBmat( /* von Kries conversion from RGB to CIE space */
457     COLORMAT mat,
458     RGBPRIMS pr
459     )
460 greg 2.11 {
461     COLORMAT wbmat;
462    
463 greg 2.15 if (!comprgb2xyzmat(mat, pr))
464     return(0);
465 greg 2.11 if (XYEQ(pr[WHT],xyneu))
466 greg 2.15 return(1);
467     if (!compxyzWBmat(wbmat, pr[WHT], xyneu))
468     return(0);
469 greg 2.11 multcolormat(mat, mat, wbmat);
470 greg 2.15 return(1);
471 greg 2.11 }
472    
473 greg 2.15 int
474     comprgb2rgbWBmat( /* von Kries conversion from RGB1 to RGB2 */
475     COLORMAT mat,
476     RGBPRIMS pr1,
477     RGBPRIMS pr2
478     )
479 greg 2.11 {
480     COLORMAT pr1toxyz, xyztopr2, wbmat;
481    
482     if (pr1 == pr2) {
483     mat[0][0] = mat[1][1] = mat[2][2] = 1.0;
484     mat[0][1] = mat[0][2] = mat[1][0] =
485     mat[1][2] = mat[2][0] = mat[2][1] = 0.0;
486 greg 2.15 return(1);
487 greg 2.11 }
488 greg 2.15 if (!comprgb2xyzmat(pr1toxyz, pr1))
489     return(0);
490     if (!compxyzWBmat(wbmat, pr1[WHT], pr2[WHT]))
491     return(0);
492     if (!compxyz2rgbmat(xyztopr2, pr2))
493     return(0);
494 greg 2.11 /* combine transforms */
495     multcolormat(mat, pr1toxyz, wbmat);
496     multcolormat(mat, mat, xyztopr2);
497 greg 2.15 return(1);
498 greg 1.1 }