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

Comparing ray/src/cv/mgflib/context.c (file contents):
Revision 1.8 by greg, Sat Jun 25 11:55:45 1994 UTC vs.
Revision 1.17 by greg, Fri Feb 24 16:50:08 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 */
#	Line 58 \| Line 61 \| register char av;**
61		if (ac == 1) { /* set unnamed color context */
62		c_uncolor = c_dfcolor;
63		c_ccolor = &c_uncolor;
64	+	c_ccname = NULL;
65		return(MG_OK);
66		}
67		lp = lu_find(&clr_tab, av[1]); /* lookup context */
68		if (lp == NULL)
69		return(MG_EMEM);
70	+	c_ccname = lp->key;
71	+	c_ccolor = (C_COLOR *)lp->data;
72		if (ac == 2) { /* reestablish previous context */
73	<	if (lp->data == NULL)
73	>	if (c_ccolor == NULL)
74		return(MG_EUNDEF);
69	–	c_ccolor = (C_COLOR *)lp->data;
75		return(MG_OK);
76		}
77		if (av[2][0] != '=' \|\| av[2][1])
78		return(MG_ETYPE);
79	<	if (lp->key == NULL) { /* create new color context */
79	>	if (c_ccolor == NULL) { /* create new color context */
80		lp->key = (char *)malloc(strlen(av[1])+1);
81		if (lp->key == NULL)
82		return(MG_EMEM);
#	Line 79 \| Line 84 \| register char av;**
84		lp->data = (char *)malloc(sizeof(C_COLOR));
85		if (lp->data == NULL)
86		return(MG_EMEM);
87	+	c_ccname = lp->key;
88	+	c_ccolor = (C_COLOR *)lp->data;
89	+	c_ccolor->clock = 0;
90		}
91	<	c_ccolor = (C_COLOR *)lp->data;
91	>	i = c_ccolor->clock;
92		if (ac == 3) { /* use default template */
93		*c_ccolor = c_dfcolor;
94	<	c_ccolor->name = lp->key;
94	>	c_ccolor->clock = i + 1;
95		return(MG_OK);
96		}
97		lp = lu_find(&clr_tab, av[3]); /* lookup template */
#	Line 92 \| Line 100 \| register char av;**
100		if (lp->data == NULL)
101		return(MG_EUNDEF);
102		c_ccolor = (C_COLOR *)lp->data;
103	<	c_ccolor->name = lp->key;
96	<	c_ccolor->clock = 1;
97	<	if (ac > 4)
98	<	return(MG_EARGC);
103	>	c_ccolor->clock = i + 1;
104		return(MG_OK);
105		case MG_E_CXY: /* assign CIE XY value */
106		if (ac != 3)
#	Line 113 \| Line 118 \| register char av;**
118		case MG_E_CSPEC: /* assign spectral values */
119		if (ac < 5)
120		return(MG_EARGC);
121	<	if (!isint(av[1]) \|\| !isint(av[2]))
121	>	if (!isflt(av[1]) \|\| !isflt(av[2]))
122		return(MG_ETYPE);
123	<	return(setspectrum(c_ccolor, atoi(av[1]), atoi(av[2]),
123	>	return(setspectrum(c_ccolor, atof(av[1]), atof(av[2]),
124		ac-3, av+3));
125		case MG_E_CMIX: /* mix colors */
126		if (ac < 5 \|\| (ac-1)%2)
#	Line 144 \| Line 149 \| register char av;**
149		w, (C_COLOR *)lp->data);
150		wsum += w;
151		}
152	+	c_ccolor->clock++;
153		return(MG_OK);
154		}
155		return(MG_EUNK);
#	Line 155 \| Line 161 \| *c_hmaterial(ac, av) / handle material entity /*
161		int ac;
162		register char **av;
163		{
164	+	int i;
165		register LUENT *lp;
166
167		switch (mg_entity(av[0])) {
#	Line 164 \| Line 171 \| register char av;**
171		if (ac == 1) { /* set unnamed material context */
172		c_unmaterial = c_dfmaterial;
173		c_cmaterial = &c_unmaterial;
174	+	c_cmname = NULL;
175		return(MG_OK);
176		}
177		lp = lu_find(&mat_tab, av[1]); /* lookup context */
178		if (lp == NULL)
179		return(MG_EMEM);
180	+	c_cmname = lp->key;
181	+	c_cmaterial = (C_MATERIAL *)lp->data;
182		if (ac == 2) { /* reestablish previous context */
183	<	if (lp->data == NULL)
183	>	if (c_cmaterial == NULL)
184		return(MG_EUNDEF);
175	–	c_cmaterial = (C_MATERIAL *)lp->data;
185		return(MG_OK);
186		}
187		if (av[2][0] != '=' \|\| av[2][1])
188		return(MG_ETYPE);
189	<	if (lp->key == NULL) { /* create new material context */
189	>	if (c_cmaterial == NULL) { /* create new material */
190		lp->key = (char *)malloc(strlen(av[1])+1);
191		if (lp->key == NULL)
192		return(MG_EMEM);
#	Line 185 \| Line 194 \| register char av;**
194		lp->data = (char *)malloc(sizeof(C_MATERIAL));
195		if (lp->data == NULL)
196		return(MG_EMEM);
197	+	c_cmname = lp->key;
198	+	c_cmaterial = (C_MATERIAL *)lp->data;
199	+	c_cmaterial->clock = 0;
200		}
201	<	c_cmaterial = (C_MATERIAL *)lp->data;
201	>	i = c_cmaterial->clock;
202		if (ac == 3) { /* use default template */
203		*c_cmaterial = c_dfmaterial;
204	<	c_cmaterial->name = lp->key;
204	>	c_cmaterial->clock = i + 1;
205		return(MG_OK);
206		}
207		lp = lu_find(&mat_tab, av[3]); /* lookup template */
#	Line 198 \| Line 210 \| register char av;**
210		if (lp->data == NULL)
211		return(MG_EUNDEF);
212		c_cmaterial = (C_MATERIAL *)lp->data;
213	<	c_cmaterial->name = lp->key;
202	<	c_cmaterial->clock = 1;
203	<	if (ac > 4)
204	<	return(MG_EARGC);
213	>	c_cmaterial->clock = i + 1;
214		return(MG_OK);
215		case MG_E_RD: /* set diffuse reflectance */
216		if (ac != 2)
#	Line 262 \| Line 271 \| register char av;**
271		c_cmaterial->ts_c = *c_ccolor;
272		c_cmaterial->clock++;
273		return(MG_OK);
274	+	case MG_E_SIDES: /* set number of sides */
275	+	if (ac != 2)
276	+	return(MG_EARGC);
277	+	if (!isint(av[1]))
278	+	return(MG_ETYPE);
279	+	i = atoi(av[1]);
280	+	if (i == 1)
281	+	c_cmaterial->sided = 1;
282	+	else if (i == 2)
283	+	c_cmaterial->sided = 0;
284	+	else
285	+	return(MG_EILL);
286	+	c_cmaterial->clock++;
287	+	return(MG_OK);
288		}
289		return(MG_EUNK);
290		}
#	Line 272 \| Line 295 \| *c_hvertex(ac, av) / handle a vertex entity /*
295		int ac;
296		register char **av;
297		{
298	+	int i;
299		register LUENT *lp;
300
301		switch (mg_entity(av[0])) {
#	Line 281 \| Line 305 \| register char av;**
305		if (ac == 1) { /* set unnamed vertex context */
306		c_unvertex = c_dfvertex;
307		c_cvertex = &c_unvertex;
308	+	c_cvname = NULL;
309		return(MG_OK);
310		}
311		lp = lu_find(&vtx_tab, av[1]); /* lookup context */
312		if (lp == NULL)
313		return(MG_EMEM);
314	+	c_cvname = lp->key;
315	+	c_cvertex = (C_VERTEX *)lp->data;
316		if (ac == 2) { /* reestablish previous context */
317	<	if (lp->data == NULL)
317	>	if (c_cvertex == NULL)
318		return(MG_EUNDEF);
292	–	c_cvertex = (C_VERTEX *)lp->data;
319		return(MG_OK);
320		}
321		if (av[2][0] != '=' \|\| av[2][1])
322		return(MG_ETYPE);
323	<	if (lp->key == NULL) { /* create new vertex context */
323	>	if (c_cvertex == NULL) { /* create new vertex context */
324		lp->key = (char *)malloc(strlen(av[1])+1);
325		if (lp->key == NULL)
326		return(MG_EMEM);
#	Line 302 \| Line 328 \| register char av;**
328		lp->data = (char *)malloc(sizeof(C_VERTEX));
329		if (lp->data == NULL)
330		return(MG_EMEM);
331	+	c_cvname = lp->key;
332	+	c_cvertex = (C_VERTEX *)lp->data;
333		}
334	<	c_cvertex = (C_VERTEX *)lp->data;
334	>	i = c_cvertex->clock;
335		if (ac == 3) { /* use default template */
336		*c_cvertex = c_dfvertex;
337	<	c_cvertex->name = lp->key
337	>	c_cvertex->clock = i + 1;
338		return(MG_OK);
339		}
340		lp = lu_find(&vtx_tab, av[3]); /* lookup template */
#	Line 315 \| Line 343 \| register char av;**
343		if (lp->data == NULL)
344		return(MG_EUNDEF);
345		c_cvertex = (C_VERTEX *)lp->data;
346	<	c_cvertex->name = lp->key
319	<	c_cvertex->clock = 1;
320	<	if (ac > 4)
321	<	return(MG_EARGC);
346	>	c_cvertex->clock = i + 1;
347		return(MG_OK);
348		case MG_E_POINT: /* set point */
349		if (ac != 4)
#	Line 351 \| Line 376 \| *c_clearall() / empty context tables /*
376		{
377		c_uncolor = c_dfcolor;
378		c_ccolor = &c_uncolor;
379	+	c_ccname = NULL;
380		lu_done(&clr_tab);
381		c_unmaterial = c_dfmaterial;
382		c_cmaterial = &c_unmaterial;
383	+	c_cmname = NULL;
384		lu_done(&mat_tab);
385		c_unvertex = c_dfvertex;
386		c_cvertex = &c_unvertex;
387	+	c_cvname = NULL;
388		lu_done(&vtx_tab);
389		}
390
391
392	+	C_MATERIAL *
393	+	c_getmaterial(name) /* get a named material */
394	+	char *name;
395	+	{
396	+	register LUENT *lp;
397	+
398	+	if ((lp = lu_find(&mat_tab, name)) == NULL)
399	+	return(NULL);
400	+	return((C_MATERIAL *)lp->data);
401	+	}
402	+
403	+
404		C_VERTEX *
405		c_getvert(name) /* get a named vertex */
406		char *name;
#	Line 405 \| Line 445 \| int fl;
445		double x, y, z;
446		register int i;
447
448	<	if (clr->flags & fl) /* already done */
448	>	fl &= ~clr->flags; /* ignore what's done */
449	>	if (!fl) /* everything's done! */
450		return;
451		if (!(clr->flags & (C_CSXY\|C_CSSPEC))) /* nothing set! */
452		*clr = c_dfcolor;
453	<	else if (fl & C_CSXY) { /* cspec -> cxy */
453	>	if (fl & C_CSXY) { /* cspec -> cxy */
454		x = y = z = 0.;
455		for (i = 0; i < C_CNSS; i++) {
456		x += cie_xf.ssamp[i] * clr->ssamp[i];
457		y += cie_yf.ssamp[i] * clr->ssamp[i];
458		z += cie_zf.ssamp[i] * clr->ssamp[i];
459		}
460	+	x /= (double)cie_xf.ssum;
461	+	y /= (double)cie_yf.ssum;
462	+	z /= (double)cie_zf.ssum;
463		z += x + y;
464		clr->cx = x / z;
465		clr->cy = y / z;
466		clr->flags \|= C_CSXY;
467	<	} else { /* cxy -> cspec */
467	>	} else if (fl & C_CSSPEC) { /* cxy -> cspec */
468		z = (cie_xf.ssum + cie_yf.ssum + cie_zf.ssum) / 3.;
469		x = clr->cx * z / cie_xf.ssum;
470		y = clr->cy * z / cie_yf.ssum;
#	Line 433 \| Line 477 \| int fl;
477		z * cie_zf.ssamp[i] ;
478		clr->flags \|= C_CSSPEC;
479		}
480	+	if (fl & C_CSEFF) { /* compute efficacy */
481	+	if (clr->flags & C_CDSPEC) { /* from spectrum */
482	+	y = 0.;
483	+	for (i = 0; i < C_CNSS; i++)
484	+	y += cie_yf.ssamp[i] * clr->ssamp[i];
485	+	clr->eff = C_CLPWM * y / clr->ssum;
486	+	} else /* clr->flags & C_CDXY / { / from (x,y) */
487	+	clr->eff = clr->cxcie_xf.eff + clr->cycie_yf.eff +
488	+	(1. - clr->cx - clr->cy)*cie_zf.eff;
489	+	}
490	+	clr->flags \|= C_CSEFF;
491	+	}
492		}
493
494
495		static int
496		setspectrum(clr, wlmin, wlmax, ac, av) /* convert a spectrum */
497		register C_COLOR *clr;
498	<	int wlmin, wlmax;
498	>	double wlmin, wlmax;
499		int ac;
500		char **av;
501		{
502		double scale;
503	<	float *va;
504	<	register int i;
505	<	int wl, pos;
503	>	float va[C_CNSS];
504	>	register int i, pos;
505	>	int n, imax;
506	>	int wl;
507		double wl0, wlstep;
508	<
509	<	if (wlmin < C_CMINWL \|\| wlmin >= wlmax \|\| wlmax > C_CMAXWL)
508	>	/* check bounds */
509	>	if (wlmax <= C_CMINWL \| wlmax <= wlmin \| wlmin >= C_CMAXWL)
510		return(MG_EILL);
511	<	if ((va = (float )malloc(acsizeof(float))) == NULL)
512	<	return(MG_EMEM);
511	>	wlstep = (wlmax - wlmin)/(ac-1);
512	>	while (wlmin < C_CMINWL) {
513	>	wlmin += wlstep;
514	>	ac--; av++;
515	>	}
516	>	while (wlmax > C_CMAXWL) {
517	>	wlmax -= wlstep;
518	>	ac--;
519	>	}
520	>	if (ac < 2)
521	>	return(MG_EILL);
522	>	imax = ac; /* box filter if necessary */
523	>	if (wlstep < C_CWLI) {
524	>	wlstep = C_CWLI;
525	>	imax = (wlmax - wlmin)/wlstep;
526	>	}
527		scale = 0.; /* get values and maximum */
528	<	for (i = 0; i < ac; i++) {
529	<	if (!isflt(av[i]))
530	<	return(MG_ETYPE);
531	<	va[i] = atof(av[i]);
528	>	pos = 0;
529	>	for (i = 0; i < imax; i++) {
530	>	va[i] = 0.; n = 0;
531	>	while (pos < (i+.5)*ac/imax) {
532	>	if (!isflt(av[pos]))
533	>	return(MG_ETYPE);
534	>	va[i] += atof(av[pos++]);
535	>	n++;
536	>	}
537	>	if (n > 1)
538	>	va[i] /= (double)n;
539		if (va[i] < 0.)
540		return(MG_EILL);
541		if (va[i] > scale)
#	Line 468 \| Line 546 \| char av;**
546		scale = C_CMAXV / scale;
547		clr->ssum = 0; /* convert to our spacing */
548		wl0 = wlmin;
471	–	wlstep = (double)(wlmax - wlmin)/(ac-1);
549		pos = 0;
550		for (i = 0, wl = C_CMINWL; i < C_CNSS; i++, wl += C_CWLI)
551	<	if (wl < wlmin \|\| wl > wlmax)
551	>	if (wl < wlmin \| wl > wlmax)
552		clr->ssamp[i] = 0;
553		else {
554		while (wl0 + wlstep < wl+FTINY) {
555		wl0 += wlstep;
556		pos++;
557		}
558	<	if (wl+FTINY >= wl0 && wl-FTINY <= wl0)
558	>	if (wl+FTINY >= wl0 & wl-FTINY <= wl0)
559		clr->ssamp[i] = scale*va[pos];
560		else /* interpolate if necessary */
561		clr->ssamp[i] = scale / wlstep *
#	Line 488 \| Line 565 \| char av;**
565		}
566		clr->flags = C_CDSPEC\|C_CSSPEC;
567		clr->clock++;
491	–	free((MEM_PTR)va);
568		return(MG_OK);
569		}
570
#	Line 503 \| Line 579 \| double w1, w2;
579		register int i;
580
581		if ((c1->flags\|c2->flags) & C_CDSPEC) { /* spectral mixing */
582	<	c_ccvt(c1, C_CSSPEC);
583	<	c_ccvt(c2, C_CSSPEC);
584	<	w1 /= (double)c1->ssum;
585	<	w2 /= (double)c2->ssum;
582	>	c_ccvt(c1, C_CSSPEC\|C_CSEFF);
583	>	c_ccvt(c2, C_CSSPEC\|C_CSEFF);
584	>	w1 /= c1->eff*c1->ssum;
585	>	w2 /= c2->eff*c2->ssum;
586		scale = 0.;
587		for (i = 0; i < C_CNSS; i++) {
588		cmix[i] = w1c1->ssamp[i] + w2c2->ssamp[i];
#	Line 526 \| Line 602 \| double w1, w2;
602		cres->cy = (w1 + w2) * scale;
603		cres->flags = C_CDXY\|C_CSXY;
604		}
529	–	cres->clock++; /* record the change */
605		}

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Comparing ray/src/cv/mgflib/context.c (file contents): Revision 1.8 by greg, Sat Jun 25 11:55:45 1994 UTC vs. Revision 1.17 by greg, Fri Feb 24 16:50:08 1995 UTC

Diff Legend

Comparing ray/src/cv/mgflib/context.c (file contents):
Revision 1.8 by greg, Sat Jun 25 11:55:45 1994 UTC vs.
Revision 1.17 by greg, Fri Feb 24 16:50:08 1995 UTC