[ViewVC] Diff of: radiance/ray/src/cv/mgflib/context.c

Comparing ray/src/cv/mgflib/context.c (file contents):
Revision 1.4 by greg, Fri Jun 24 09:32:49 1994 UTC vs.
Revision 1.21 by greg, Thu Apr 13 12:11:26 1995 UTC

#	Line 26 \| Line 26 \| static C_VERTEX c_unvertex = C_DEFVERTEX;
26
27		/* the current contexts */
28		C_COLOR *c_ccolor = &c_uncolor;
29	+	char *c_ccname = NULL;
30		C_MATERIAL *c_cmaterial = &c_unmaterial;
31	+	char *c_cmname = NULL;
32		C_VERTEX *c_cvertex = &c_unvertex;
33	+	char *c_cvname = NULL;
34
35		static LUTAB clr_tab = LU_SINIT(free,free); /* color lookup table */
36		static LUTAB mat_tab = LU_SINIT(free,free); /* material lookup table */
37		static LUTAB vtx_tab = LU_SINIT(free,free); /* vertex lookup table */
38
39	+	/* CIE 1931 Standard Observer curves */
40	+	static C_COLOR cie_xf = { 1, C_CDSPEC\|C_CSSPEC\|C_CSXY\|C_CSEFF,
41	+	{14,42,143,435,1344,2839,3483,3362,2908,1954,956,
42	+	320,49,93,633,1655,2904,4334,5945,7621,9163,10263,
43	+	10622,10026,8544,6424,4479,2835,1649,874,468,227,
44	+	114,58,29,14,7,3,2,1,0}, 106836L, .467, .368, 362.230
45	+	};
46	+	static C_COLOR cie_yf = { 1, C_CDSPEC\|C_CSSPEC\|C_CSXY\|C_CSEFF,
47	+	{0,1,4,12,40,116,230,380,600,910,1390,2080,3230,
48	+	5030,7100,8620,9540,9950,9950,9520,8700,7570,6310,
49	+	5030,3810,2650,1750,1070,610,320,170,82,41,21,10,
50	+	5,2,1,1,0,0}, 106856L, .398, .542, 493.525
51	+	};
52	+	static C_COLOR cie_zf = { 1, C_CDSPEC\|C_CSSPEC\|C_CSXY\|C_CSEFF,
53	+	{65,201,679,2074,6456,13856,17471,17721,16692,
54	+	12876,8130,4652,2720,1582,782,422,203,87,39,21,17,
55	+	11,8,3,2,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
56	+	106770L, .147, .077, 54.363
57	+	};
58	+	/* Derived CIE 1931 Primaries (imaginary) */
59	+	static C_COLOR cie_xp = { 1, C_CDSPEC\|C_CSSPEC\|C_CSXY,
60	+	{-174,-198,-195,-197,-202,-213,-235,-272,-333,
61	+	-444,-688,-1232,-2393,-4497,-6876,-6758,-5256,
62	+	-3100,-815,1320,3200,4782,5998,6861,7408,7754,
63	+	7980,8120,8199,8240,8271,8292,8309,8283,8469,
64	+	8336,8336,8336,8336,8336,8336},
65	+	127424L, 1., .0,
66	+	};
67	+	static C_COLOR cie_yp = { 1, C_CDSPEC\|C_CSSPEC\|C_CSXY,
68	+	{-451,-431,-431,-430,-427,-417,-399,-366,-312,
69	+	-204,57,691,2142,4990,8810,9871,9122,7321,5145,
70	+	3023,1123,-473,-1704,-2572,-3127,-3474,-3704,
71	+	-3846,-3927,-3968,-3999,-4021,-4038,-4012,-4201,
72	+	-4066,-4066,-4066,-4066,-4066,-4066},
73	+	-23035L, .0, 1.,
74	+	};
75	+	static C_COLOR cie_zp = { 1, C_CDSPEC\|C_CSSPEC\|C_CSXY,
76	+	{4051,4054,4052,4053,4054,4056,4059,4064,4071,
77	+	4074,4056,3967,3677,2933,1492,313,-440,-795,
78	+	-904,-918,-898,-884,-869,-863,-855,-855,-851,
79	+	-848,-847,-846,-846,-846,-845,-846,-843,-845,
80	+	-845,-845,-845,-845,-845},
81	+	36057L, .0, .0,
82	+	};
83
84	+	static int setspectrum();
85	+	static int setbbtemp();
86	+	static void mixcolors();
87	+
88	+
89		int
90		c_hcolor(ac, av) /* handle color entity */
91		int ac;
92		register char **av;
93		{
94	+	double w, wsum;
95	+	register int i;
96		register LUENT *lp;
97
98		switch (mg_entity(av[0])) {
#	Line 48 \| Line 102 \| register char av;**
102		if (ac == 1) { /* set unnamed color context */
103		c_uncolor = c_dfcolor;
104		c_ccolor = &c_uncolor;
105	+	c_ccname = NULL;
106		return(MG_OK);
107		}
108		lp = lu_find(&clr_tab, av[1]); /* lookup context */
109		if (lp == NULL)
110		return(MG_EMEM);
111	+	c_ccname = lp->key;
112	+	c_ccolor = (C_COLOR *)lp->data;
113		if (ac == 2) { /* reestablish previous context */
114	<	if (lp->data == NULL)
114	>	if (c_ccolor == NULL)
115		return(MG_EUNDEF);
59	–	c_ccolor = (C_COLOR *)lp->data;
116		return(MG_OK);
117		}
118		if (av[2][0] != '=' \|\| av[2][1])
119		return(MG_ETYPE);
120	<	if (lp->key == NULL) { /* create new color context */
120	>	if (c_ccolor == NULL) { /* create new color context */
121		lp->key = (char *)malloc(strlen(av[1])+1);
122		if (lp->key == NULL)
123		return(MG_EMEM);
#	Line 69 \| Line 125 \| register char av;**
125		lp->data = (char *)malloc(sizeof(C_COLOR));
126		if (lp->data == NULL)
127		return(MG_EMEM);
128	+	c_ccname = lp->key;
129	+	c_ccolor = (C_COLOR *)lp->data;
130	+	c_ccolor->clock = 0;
131		}
132	<	c_ccolor = (C_COLOR *)lp->data;
132	>	i = c_ccolor->clock;
133		if (ac == 3) { /* use default template */
134		*c_ccolor = c_dfcolor;
135	+	c_ccolor->clock = i + 1;
136		return(MG_OK);
137		}
138		lp = lu_find(&clr_tab, av[3]); /* lookup template */
#	Line 81 \| Line 141 \| register char av;**
141		if (lp->data == NULL)
142		return(MG_EUNDEF);
143		c_ccolor = (C_COLOR *)lp->data;
144	<	if (ac > 4)
85	<	return(MG_EARGC);
144	>	c_ccolor->clock = i + 1;
145		return(MG_OK);
146		case MG_E_CXY: /* assign CIE XY value */
147		if (ac != 3)
148		return(MG_EARGC);
149	<	if (!isflt(av[1]) \|\| !isflt(av[2]))
149	>	if (!isflt(av[1]) \| !isflt(av[2]))
150		return(MG_ETYPE);
151		c_ccolor->cx = atof(av[1]);
152		c_ccolor->cy = atof(av[2]);
153	+	c_ccolor->flags = C_CDXY\|C_CSXY;
154		if (c_ccolor->cx < 0. \| c_ccolor->cy < 0. \|
155		c_ccolor->cx + c_ccolor->cy > 1.)
156		return(MG_EILL);
157	+	c_ccolor->clock++;
158		return(MG_OK);
159	+	case MG_E_CSPEC: /* assign spectral values */
160	+	if (ac < 5)
161	+	return(MG_EARGC);
162	+	if (!isflt(av[1]) \| !isflt(av[2]))
163	+	return(MG_ETYPE);
164	+	return(setspectrum(c_ccolor, atof(av[1]), atof(av[2]),
165	+	ac-3, av+3));
166	+	case MG_E_CCT: /* assign black body spectrum */
167	+	if (ac != 2)
168	+	return(MG_EARGC);
169	+	if (!isflt(av[1]))
170	+	return(MG_ETYPE);
171	+	return(setbbtemp(c_ccolor, atof(av[1])));
172	+	case MG_E_CMIX: /* mix colors */
173	+	if (ac < 5 \|\| (ac-1)%2)
174	+	return(MG_EARGC);
175	+	if (!isflt(av[1]))
176	+	return(MG_ETYPE);
177	+	wsum = atof(av[1]);
178	+	if (wsum < 0.)
179	+	return(MG_EILL);
180	+	if ((lp = lu_find(&clr_tab, av[2])) == NULL)
181	+	return(MG_EMEM);
182	+	if (lp->data == NULL)
183	+	return(MG_EUNDEF);
184	+	c_ccolor = (C_COLOR *)lp->data;
185	+	for (i = 3; i < ac; i += 2) {
186	+	if (!isflt(av[i]))
187	+	return(MG_ETYPE);
188	+	w = atof(av[i]);
189	+	if (w < 0.)
190	+	return(MG_EILL);
191	+	if ((lp = lu_find(&clr_tab, av[i+1])) == NULL)
192	+	return(MG_EMEM);
193	+	if (lp->data == NULL)
194	+	return(MG_EUNDEF);
195	+	mixcolors(c_ccolor, wsum, c_ccolor,
196	+	w, (C_COLOR *)lp->data);
197	+	wsum += w;
198	+	}
199	+	c_ccolor->clock++;
200	+	return(MG_OK);
201		}
202		return(MG_EUNK);
203		}
#	Line 105 \| Line 208 \| *c_hmaterial(ac, av) / handle material entity /*
208		int ac;
209		register char **av;
210		{
211	+	int i;
212		register LUENT *lp;
213
214		switch (mg_entity(av[0])) {
#	Line 114 \| Line 218 \| register char av;**
218		if (ac == 1) { /* set unnamed material context */
219		c_unmaterial = c_dfmaterial;
220		c_cmaterial = &c_unmaterial;
221	+	c_cmname = NULL;
222		return(MG_OK);
223		}
224		lp = lu_find(&mat_tab, av[1]); /* lookup context */
225		if (lp == NULL)
226		return(MG_EMEM);
227	+	c_cmname = lp->key;
228	+	c_cmaterial = (C_MATERIAL *)lp->data;
229		if (ac == 2) { /* reestablish previous context */
230	<	if (lp->data == NULL)
230	>	if (c_cmaterial == NULL)
231		return(MG_EUNDEF);
125	–	c_cmaterial = (C_MATERIAL *)lp->data;
232		return(MG_OK);
233		}
234		if (av[2][0] != '=' \|\| av[2][1])
235		return(MG_ETYPE);
236	<	if (lp->key == NULL) { /* create new material context */
236	>	if (c_cmaterial == NULL) { /* create new material */
237		lp->key = (char *)malloc(strlen(av[1])+1);
238		if (lp->key == NULL)
239		return(MG_EMEM);
#	Line 135 \| Line 241 \| register char av;**
241		lp->data = (char *)malloc(sizeof(C_MATERIAL));
242		if (lp->data == NULL)
243		return(MG_EMEM);
244	+	c_cmname = lp->key;
245	+	c_cmaterial = (C_MATERIAL *)lp->data;
246	+	c_cmaterial->clock = 0;
247		}
248	<	c_cmaterial = (C_MATERIAL *)lp->data;
248	>	i = c_cmaterial->clock;
249		if (ac == 3) { /* use default template */
250		*c_cmaterial = c_dfmaterial;
251	<	c_cmaterial->name = lp->key;
251	>	c_cmaterial->clock = i + 1;
252		return(MG_OK);
253		}
254		lp = lu_find(&mat_tab, av[3]); /* lookup template */
#	Line 148 \| Line 257 \| register char av;**
257		if (lp->data == NULL)
258		return(MG_EUNDEF);
259		c_cmaterial = (C_MATERIAL *)lp->data;
260	<	c_cmaterial->name = lp->key;
261	<	c_cmaterial->clock = 1;
262	<	if (ac > 4)
260	>	c_cmaterial->clock = i + 1;
261	>	return(MG_OK);
262	>	case MG_E_IR: /* set index of refraction */
263	>	if (ac != 3)
264		return(MG_EARGC);
265	+	if (!isflt(av[1]) \| !isflt(av[2]))
266	+	return(MG_ETYPE);
267	+	c_cmaterial->nr = atof(av[1]);
268	+	c_cmaterial->ni = atof(av[2]);
269	+	if (c_cmaterial->nr <= FTINY)
270	+	return(MG_EILL);
271	+	c_cmaterial->clock++;
272		return(MG_OK);
273		case MG_E_RD: /* set diffuse reflectance */
274		if (ac != 2)
#	Line 184 \| Line 301 \| register char av;**
301		if (c_cmaterial->td < 0. \| c_cmaterial->td > 1.)
302		return(MG_EILL);
303		c_cmaterial->td_c = *c_ccolor;
304	+	c_cmaterial->clock++;
305		return(MG_OK);
306		case MG_E_RS: /* set specular reflectance */
307		if (ac != 3)
308		return(MG_EARGC);
309	<	if (!isflt(av[1]) \|\| !isflt(av[2]))
309	>	if (!isflt(av[1]) \| !isflt(av[2]))
310		return(MG_ETYPE);
311		c_cmaterial->rs = atof(av[1]);
312		c_cmaterial->rs_a = atof(av[2]);
#	Line 201 \| Line 319 \| register char av;**
319		case MG_E_TS: /* set specular transmittance */
320		if (ac != 3)
321		return(MG_EARGC);
322	<	if (!isflt(av[1]) \|\| !isflt(av[2]))
322	>	if (!isflt(av[1]) \| !isflt(av[2]))
323		return(MG_ETYPE);
324		c_cmaterial->ts = atof(av[1]);
325		c_cmaterial->ts_a = atof(av[2]);
#	Line 211 \| Line 329 \| register char av;**
329		c_cmaterial->ts_c = *c_ccolor;
330		c_cmaterial->clock++;
331		return(MG_OK);
332	+	case MG_E_SIDES: /* set number of sides */
333	+	if (ac != 2)
334	+	return(MG_EARGC);
335	+	if (!isint(av[1]))
336	+	return(MG_ETYPE);
337	+	i = atoi(av[1]);
338	+	if (i == 1)
339	+	c_cmaterial->sided = 1;
340	+	else if (i == 2)
341	+	c_cmaterial->sided = 0;
342	+	else
343	+	return(MG_EILL);
344	+	c_cmaterial->clock++;
345	+	return(MG_OK);
346		}
347		return(MG_EUNK);
348		}
#	Line 221 \| Line 353 \| *c_hvertex(ac, av) / handle a vertex entity /*
353		int ac;
354		register char **av;
355		{
356	+	int i;
357		register LUENT *lp;
358
359		switch (mg_entity(av[0])) {
#	Line 230 \| Line 363 \| register char av;**
363		if (ac == 1) { /* set unnamed vertex context */
364		c_unvertex = c_dfvertex;
365		c_cvertex = &c_unvertex;
366	+	c_cvname = NULL;
367		return(MG_OK);
368		}
369		lp = lu_find(&vtx_tab, av[1]); /* lookup context */
370		if (lp == NULL)
371		return(MG_EMEM);
372	+	c_cvname = lp->key;
373	+	c_cvertex = (C_VERTEX *)lp->data;
374		if (ac == 2) { /* reestablish previous context */
375	<	if (lp->data == NULL)
375	>	if (c_cvertex == NULL)
376		return(MG_EUNDEF);
241	–	c_cvertex = (C_VERTEX *)lp->data;
377		return(MG_OK);
378		}
379		if (av[2][0] != '=' \|\| av[2][1])
380		return(MG_ETYPE);
381	<	if (lp->key == NULL) { /* create new vertex context */
381	>	if (c_cvertex == NULL) { /* create new vertex context */
382		lp->key = (char *)malloc(strlen(av[1])+1);
383		if (lp->key == NULL)
384		return(MG_EMEM);
#	Line 251 \| Line 386 \| register char av;**
386		lp->data = (char *)malloc(sizeof(C_VERTEX));
387		if (lp->data == NULL)
388		return(MG_EMEM);
389	+	c_cvname = lp->key;
390	+	c_cvertex = (C_VERTEX *)lp->data;
391		}
392	<	c_cvertex = (C_VERTEX *)lp->data;
392	>	i = c_cvertex->clock;
393		if (ac == 3) { /* use default template */
394		*c_cvertex = c_dfvertex;
395	+	c_cvertex->clock = i + 1;
396		return(MG_OK);
397		}
398		lp = lu_find(&vtx_tab, av[3]); /* lookup template */
#	Line 263 \| Line 401 \| register char av;**
401		if (lp->data == NULL)
402		return(MG_EUNDEF);
403		c_cvertex = (C_VERTEX *)lp->data;
404	<	if (ac > 4)
267	<	return(MG_EARGC);
404	>	c_cvertex->clock = i + 1;
405		return(MG_OK);
406		case MG_E_POINT: /* set point */
407		if (ac != 4)
408		return(MG_EARGC);
409	<	if (!isflt(av[1]) \|\| !isflt(av[2]) \|\| !isflt(av[3]))
409	>	if (!isflt(av[1]) \| !isflt(av[2]) \| !isflt(av[3]))
410		return(MG_ETYPE);
411		c_cvertex->p[0] = atof(av[1]);
412		c_cvertex->p[1] = atof(av[2]);
413		c_cvertex->p[2] = atof(av[3]);
414	+	c_cvertex->clock++;
415		return(MG_OK);
416		case MG_E_NORMAL: /* set normal */
417		if (ac != 4)
418		return(MG_EARGC);
419	<	if (!isflt(av[1]) \|\| !isflt(av[2]) \|\| !isflt(av[3]))
419	>	if (!isflt(av[1]) \| !isflt(av[2]) \| !isflt(av[3]))
420		return(MG_ETYPE);
421		c_cvertex->n[0] = atof(av[1]);
422		c_cvertex->n[1] = atof(av[2]);
423		c_cvertex->n[2] = atof(av[3]);
424		(void)normalize(c_cvertex->n);
425	+	c_cvertex->clock++;
426		return(MG_OK);
427		}
428		return(MG_EUNK);
#	Line 295 \| Line 434 \| *c_clearall() / empty context tables /*
434		{
435		c_uncolor = c_dfcolor;
436		c_ccolor = &c_uncolor;
437	+	c_ccname = NULL;
438		lu_done(&clr_tab);
439		c_unmaterial = c_dfmaterial;
440		c_cmaterial = &c_unmaterial;
441	+	c_cmname = NULL;
442		lu_done(&mat_tab);
443		c_unvertex = c_dfvertex;
444		c_cvertex = &c_unvertex;
445	+	c_cvname = NULL;
446		lu_done(&vtx_tab);
447		}
448
449
450	+	C_MATERIAL *
451	+	c_getmaterial(name) /* get a named material */
452	+	char *name;
453	+	{
454	+	register LUENT *lp;
455	+
456	+	if ((lp = lu_find(&mat_tab, name)) == NULL)
457	+	return(NULL);
458	+	return((C_MATERIAL *)lp->data);
459	+	}
460	+
461	+
462		C_VERTEX *
463		c_getvert(name) /* get a named vertex */
464		char *name;
#	Line 315 \| Line 469 \| *char name;**
469		return(NULL);
470		return((C_VERTEX *)lp->data);
471		}
472	+
473	+
474	+	C_COLOR *
475	+	c_getcolor(name) /* get a named color */
476	+	char *name;
477	+	{
478	+	register LUENT *lp;
479	+
480	+	if ((lp = lu_find(&clr_tab, name)) == NULL)
481	+	return(NULL);
482	+	return((C_COLOR *)lp->data);
483	+	}
484	+
485	+
486	+	int
487	+	c_isgrey(clr) /* check if color is grey */
488	+	register C_COLOR *clr;
489	+	{
490	+	if (!(clr->flags & (C_CSXY\|C_CSSPEC)))
491	+	return(1); /* no settings == grey */
492	+	c_ccvt(clr, C_CSXY);
493	+	return(clr->cx >= .323 && clr->cx <= .343 &&
494	+	clr->cy >= .323 && clr->cy <= .343);
495	+	}
496	+
497	+
498	+	void
499	+	c_ccvt(clr, fl) /* convert color representations */
500	+	register C_COLOR *clr;
501	+	int fl;
502	+	{
503	+	double x, y, z;
504	+	register int i;
505	+
506	+	fl &= ~clr->flags; /* ignore what's done */
507	+	if (!fl) /* everything's done! */
508	+	return;
509	+	if (!(clr->flags & (C_CSXY\|C_CSSPEC))) /* nothing set! */
510	+	*clr = c_dfcolor;
511	+	if (fl & C_CSXY) { /* cspec -> cxy */
512	+	x = y = z = 0.;
513	+	for (i = 0; i < C_CNSS; i++) {
514	+	x += cie_xf.ssamp[i] * clr->ssamp[i];
515	+	y += cie_yf.ssamp[i] * clr->ssamp[i];
516	+	z += cie_zf.ssamp[i] * clr->ssamp[i];
517	+	}
518	+	x /= (double)cie_xf.ssum;
519	+	y /= (double)cie_yf.ssum;
520	+	z /= (double)cie_zf.ssum;
521	+	z += x + y;
522	+	clr->cx = x / z;
523	+	clr->cy = y / z;
524	+	clr->flags \|= C_CSXY;
525	+	} else if (fl & C_CSSPEC) { /* cxy -> cspec */
526	+	x = clr->cx;
527	+	y = clr->cy;
528	+	z = 1. - x - y;
529	+	clr->ssum = 0;
530	+	for (i = 0; i < C_CNSS; i++) {
531	+	clr->ssamp[i] = xcie_xp.ssamp[i] + ycie_yp.ssamp[i]
532	+	+ z*cie_zp.ssamp[i] + .5;
533	+	if (clr->ssamp[i] < 0) /* out of gamut! */
534	+	clr->ssamp[i] = 0;
535	+	else
536	+	clr->ssum += clr->ssamp[i];
537	+	}
538	+	clr->flags \|= C_CSSPEC;
539	+	}
540	+	if (fl & C_CSEFF) { /* compute efficacy */
541	+	if (clr->flags & C_CSSPEC) { /* from spectrum */
542	+	y = 0.;
543	+	for (i = 0; i < C_CNSS; i++)
544	+	y += cie_yf.ssamp[i] * clr->ssamp[i];
545	+	clr->eff = C_CLPWM * y / clr->ssum;
546	+	} else /* clr->flags & C_CSXY / { / from (x,y) */
547	+	clr->eff = clr->cxcie_xf.eff + clr->cycie_yf.eff +
548	+	(1. - clr->cx - clr->cy)*cie_zf.eff;
549	+	}
550	+	clr->flags \|= C_CSEFF;
551	+	}
552	+	}
553	+
554	+
555	+	static int
556	+	setspectrum(clr, wlmin, wlmax, ac, av) /* convert a spectrum */
557	+	register C_COLOR *clr;
558	+	double wlmin, wlmax;
559	+	int ac;
560	+	char **av;
561	+	{
562	+	double scale;
563	+	float va[C_CNSS];
564	+	register int i, pos;
565	+	int n, imax;
566	+	int wl;
567	+	double wl0, wlstep;
568	+	double boxpos, boxstep;
569	+	/* check bounds */
570	+	if (wlmax <= C_CMINWL \| wlmax <= wlmin \| wlmin >= C_CMAXWL)
571	+	return(MG_EILL);
572	+	wlstep = (wlmax - wlmin)/(ac-1);
573	+	while (wlmin < C_CMINWL) {
574	+	wlmin += wlstep;
575	+	ac--; av++;
576	+	}
577	+	while (wlmax > C_CMAXWL) {
578	+	wlmax -= wlstep;
579	+	ac--;
580	+	}
581	+	imax = ac; /* box filter if necessary */
582	+	boxpos = 0;
583	+	boxstep = 1;
584	+	if (wlstep < C_CWLI) {
585	+	imax = (wlmax - wlmin)/C_CWLI + (1-FTINY);
586	+	boxpos = (wlmin - C_CMINWL)/C_CWLI;
587	+	boxstep = wlstep/C_CWLI;
588	+	wlstep = C_CWLI;
589	+	}
590	+	scale = 0.; /* get values and maximum */
591	+	pos = 0;
592	+	for (i = 0; i < imax; i++) {
593	+	va[i] = 0.; n = 0;
594	+	while (boxpos < i+.5 && pos < ac) {
595	+	if (!isflt(av[pos]))
596	+	return(MG_ETYPE);
597	+	va[i] += atof(av[pos++]);
598	+	n++;
599	+	boxpos += boxstep;
600	+	}
601	+	if (n > 1)
602	+	va[i] /= (double)n;
603	+	if (va[i] < 0.)
604	+	return(MG_EILL);
605	+	if (va[i] > scale)
606	+	scale = va[i];
607	+	}
608	+	if (scale <= FTINY)
609	+	return(MG_EILL);
610	+	scale = C_CMAXV / scale;
611	+	clr->ssum = 0; /* convert to our spacing */
612	+	wl0 = wlmin;
613	+	pos = 0;
614	+	for (i = 0, wl = C_CMINWL; i < C_CNSS; i++, wl += C_CWLI)
615	+	if (wl < wlmin \| wl > wlmax)
616	+	clr->ssamp[i] = 0;
617	+	else {
618	+	while (wl0 + wlstep < wl+FTINY) {
619	+	wl0 += wlstep;
620	+	pos++;
621	+	}
622	+	if (wl+FTINY >= wl0 & wl-FTINY <= wl0)
623	+	clr->ssamp[i] = scale*va[pos] + .5;
624	+	else /* interpolate if necessary */
625	+	clr->ssamp[i] = .5 + scale / wlstep *
626	+	( va[pos]*(wl0+wlstep - wl) +
627	+	va[pos+1]*(wl - wl0) );
628	+	clr->ssum += clr->ssamp[i];
629	+	}
630	+	clr->flags = C_CDSPEC\|C_CSSPEC;
631	+	clr->clock++;
632	+	return(MG_OK);
633	+	}
634	+
635	+
636	+	static void
637	+	mixcolors(cres, w1, c1, w2, c2) /* mix two colors according to weights given */
638	+	register C_COLOR cres, c1, *c2;
639	+	double w1, w2;
640	+	{
641	+	double scale;
642	+	float cmix[C_CNSS];
643	+	register int i;
644	+
645	+	if ((c1->flags\|c2->flags) & C_CDSPEC) { /* spectral mixing */
646	+	c_ccvt(c1, C_CSSPEC\|C_CSEFF);
647	+	c_ccvt(c2, C_CSSPEC\|C_CSEFF);
648	+	w1 /= c1->eff*c1->ssum;
649	+	w2 /= c2->eff*c2->ssum;
650	+	scale = 0.;
651	+	for (i = 0; i < C_CNSS; i++) {
652	+	cmix[i] = w1c1->ssamp[i] + w2c2->ssamp[i];
653	+	if (cmix[i] > scale)
654	+	scale = cmix[i];
655	+	}
656	+	scale = C_CMAXV / scale;
657	+	cres->ssum = 0;
658	+	for (i = 0; i < C_CNSS; i++)
659	+	cres->ssum += cres->ssamp[i] = scale*cmix[i] + .5;
660	+	cres->flags = C_CDSPEC\|C_CSSPEC;
661	+	} else { /* CIE xy mixing */
662	+	c_ccvt(c1, C_CSXY);
663	+	c_ccvt(c2, C_CSXY);
664	+	scale = 1. / (w1/c1->cy + w2/c2->cy);
665	+	cres->cx = (c1->cxw1/c1->cy + c2->cxw2/c2->cy) * scale;
666	+	cres->cy = (w1 + w2) * scale;
667	+	cres->flags = C_CDXY\|C_CSXY;
668	+	}
669	+	}
670	+
671	+
672	+	#define C1 3.741832e-16 /* W-m^2 */
673	+	#define C2 1.4388e-2 /* m-K */
674	+
675	+	#define bbsp(l,t) (C1/((l)(l)(l)(l)(l)(exp(C2/((t)(l)))-1.)))
676	+	#define bblm(t) (C2/5./(t))
677	+
678	+	static int
679	+	setbbtemp(clr, tk) /* set black body spectrum */
680	+	register C_COLOR *clr;
681	+	double tk;
682	+	{
683	+	double sf, wl;
684	+	register int i;
685	+
686	+	if (tk < 1000)
687	+	return(MG_EILL);
688	+	wl = bblm(tk); /* scalefactor based on peak */
689	+	if (wl < C_CMINWL*1e-9)
690	+	wl = C_CMINWL*1e-9;
691	+	else if (wl > C_CMAXWL*1e-9)
692	+	wl = C_CMAXWL*1e-9;
693	+	sf = C_CMAXV/bbsp(wl,tk);
694	+	clr->ssum = 0;
695	+	for (i = 0; i < C_CNSS; i++) {
696	+	wl = (C_CMINWL + iC_CWLI)1e-9;
697	+	clr->ssum += clr->ssamp[i] = sf*bbsp(wl,tk) + .5;
698	+	}
699	+	clr->flags = C_CDSPEC\|C_CSSPEC;
700	+	clr->clock++;
701	+	return(MG_OK);
702	+	}
703	+
704	+	#undef C1
705	+	#undef C2
706	+	#undef bbsp
707	+	#undef bblm

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Comparing ray/src/cv/mgflib/context.c (file contents): Revision 1.4 by greg, Fri Jun 24 09:32:49 1994 UTC vs. Revision 1.21 by greg, Thu Apr 13 12:11:26 1995 UTC

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Comparing ray/src/cv/mgflib/context.c (file contents):
Revision 1.4 by greg, Fri Jun 24 09:32:49 1994 UTC vs.
Revision 1.21 by greg, Thu Apr 13 12:11:26 1995 UTC