[ViewVC] Diff of: radiance/ray/src/rt/source.c

Comparing ray/src/rt/source.c (file contents):
Revision 2.39 by greg, Wed Dec 31 02:03:08 2003 UTC vs.
Revision 2.60 by greg, Mon Feb 14 20:13:38 2011 UTC

#	Line 7 \| Line 7 \| static const char RCSid[] = "$Id$";
7		* External symbols declared in source.h
8		*/
9
10	–	#include "copyright.h"
11	–
10		#include "ray.h"
13	–
11		#include "otypes.h"
12	<
16	<	#include "otspecial.h"
17	<
12	>	#include "rtotypes.h"
13		#include "source.h"
19	–
14		#include "random.h"
15
16		extern double ssampdist; /* scatter sampling distance */
#	Line 45 \| Line 39 \| *static CONTRIB srccnt; /* source contributions in d**
39		static CNTPTR cntord; / source ordering in direct() */
40		static int maxcntr = 0; /* size of contribution arrays */
41
42	+	static int cntcmp(const void p1, const void p2);
43
44	<	OBJREC * /* find an object's actual material */
44	>
45	>	extern OBJREC * /* find an object's actual material */
46		findmaterial(register OBJREC *o)
47		{
48		while (!ismaterial(o->otype)) {
53	–	if (ismixture(o->otype))
54	–	return(NULL); /* reject mixed materials */
49		if (o->otype == MOD_ALIAS && o->oargs.nsargs) {
50		OBJECT aobj;
51		OBJREC *ao;
#	Line 61 \| Line 55 \| *findmaterial(register OBJREC o)**
55		ao = objptr(aobj);
56		if (ismaterial(ao->otype))
57		return(ao);
58	+	if (ao->otype == MOD_ALIAS) {
59	+	o = ao;
60	+	continue;
61	+	}
62		}
63		if (o->omod == OVOID)
64		return(NULL);
65		o = objptr(o->omod);
66		}
67	<	return(o);
67	>	return(o); /* mixtures will return NULL */
68		}
69
70
71	<	void
72	<	marksources() /* find and mark source objects */
71	>	extern void
72	>	marksources(void) /* find and mark source objects */
73		{
74		int foundsource = 0;
75		int i;
#	Line 87 \| Line 85 \| *marksources() / find and mark source objects /*
85		if (!issurface(o->otype) \|\| o->omod == OVOID)
86		continue;
87		/* find material */
88	<	m = findmaterial(o);
89	<	if (m == NULL \|\| !islight(m->otype))
88	>	m = findmaterial(objptr(o->omod));
89	>	if (m == NULL)
90	>	continue;
91	>	if (m->otype == MAT_CLIP) {
92	>	markclip(m); /* special case for antimatter */
93	>	continue;
94	>	}
95	>	if (!islight(m->otype))
96		continue; /* not source modifier */
97
98		if (m->oargs.nfargs != (m->otype == MAT_GLOW ? 4 :
#	Line 129 \| Line 133 \| *marksources() / find and mark source objects /*
133		}
134		}
135		#if SHADCACHE
136	<	source[ns].obscache = NULL;
136	>	initobscache(ns);
137		#endif
138		if (!(source[ns].sflags & SSKIP))
139		foundsource++;
#	Line 151 \| Line 155 \| memerr:
155		}
156
157
158	<	void
159	<	freesources() /* free all source structures */
158	>	extern void
159	>	freesources(void) /* free all source structures */
160		{
161		if (nsources > 0) {
162		#if SHADCACHE
#	Line 163 \| Line 167 \| *freesources() / free all source structures /*
167		source = NULL;
168		nsources = 0;
169		}
170	+	markclip(NULL);
171		if (maxcntr <= 0)
172		return;
173		free((void *)srccnt);
#	Line 173 \| Line 178 \| *freesources() / free all source structures /*
178		}
179
180
181	<	int
181	>	extern int
182		srcray( /* send a ray to a source, return domega */
183	<	register RAY sr, / returned source ray */
184	<	RAY r, / ray which hit object */
185	<	SRCINDEX si / source sample index */
183	>	register RAY sr, / returned source ray */
184	>	RAY r, / ray which hit object */
185	>	SRCINDEX si / source sample index */
186		)
187		{
188	<	double d; /* distance to source */
189	<	register SRCREC *srcp;
188	>	double d; /* distance to source */
189	>	register SRCREC *srcp;
190
191	<	rayorigin(sr, r, SHADOW, 1.0); /* ignore limits */
191	>	rayorigin(sr, SHADOW, r, NULL); /* ignore limits */
192
193	<	while ((d = nextssamp(sr, si)) != 0.0) {
194	<	sr->rsrc = si->sn; /* remember source */
195	<	srcp = source + si->sn;
196	<	if (srcp->sflags & SDISTANT) {
197	<	if (srcp->sflags & SSPOT && spotout(sr, srcp->sl.s))
198	<	continue;
199	<	return(1); /* sample OK */
200	<	}
193	>	if (r == NULL)
194	>	sr->rmax = 0.0;
195	>
196	>	while ((d = nextssamp(sr, si)) != 0.0) {
197	>	sr->rsrc = si->sn; /* remember source */
198	>	srcp = source + si->sn;
199	>	if (srcp->sflags & SDISTANT) {
200	>	if (srcp->sflags & SSPOT && spotout(sr, srcp->sl.s))
201	>	continue;
202	>	return(1); /* sample OK */
203	>	}
204		/* local source */
205		/* check proximity */
206	<	if (srcp->sflags & SPROX && d > srcp->sl.prox)
199	<	continue;
200	<	/* check angle */
201	<	if (srcp->sflags & SSPOT) {
202	<	if (spotout(sr, srcp->sl.s))
206	>	if (srcp->sflags & SPROX && d > srcp->sl.prox)
207		continue;
208	+	/* check angle */
209	+	if (srcp->sflags & SSPOT) {
210	+	if (spotout(sr, srcp->sl.s))
211	+	continue;
212		/* adjust solid angle */
213	<	si->dom = dd;
214	<	d += srcp->sl.s->flen;
215	<	si->dom /= d*d;
213	>	si->dom = dd;
214	>	d += srcp->sl.s->flen;
215	>	si->dom /= d*d;
216	>	}
217	>	return(1); /* sample OK */
218		}
219	<	return(1); /* sample OK */
210	<	}
211	<	return(0); /* no more samples */
219	>	return(0); /* no more samples */
220		}
221
222
223	<	void
223	>	extern void
224		srcvalue( /* punch ray to source and compute value */
225	<	register RAY *r
225	>	register RAY *r
226		)
227		{
228		register SRCREC *sp;
#	Line 254 \| Line 262 \| nomat:
262		}
263
264
265	<	int
265	>	static int
266	>	transillum( /* check if material is transparent illum */
267	>	OBJECT obj
268	>	)
269	>	{
270	>	OBJREC *m = findmaterial(objptr(obj));
271	>
272	>	if (m == NULL)
273	>	return(1);
274	>	if (m->otype != MAT_ILLUM)
275	>	return(0);
276	>	return(!m->oargs.nsargs \|\| !strcmp(m->oargs.sarg[0], VOIDID));
277	>	}
278	>
279	>
280	>	extern int
281		sourcehit( /* check to see if ray hit distant source */
282	<	register RAY *r
282	>	register RAY *r
283		)
284		{
285	+	int glowsrc = -1;
286	+	int transrc = -1;
287		int first, last;
288		register int i;
289
#	Line 267 \| Line 292 \| *register RAY r**
292		} else { /* otherwise check all */
293		first = 0; last = nsources-1;
294		}
295	<	for (i = first; i <= last; i++)
296	<	if ((source[i].sflags & (SDISTANT\|SVIRTUAL)) == SDISTANT)
297	<	/*
298	<	* Check to see if ray is within
299	<	* solid angle of source.
300	<	*/
301	<	if (2.0PI (1.0 - DOT(source[i].sloc,r->rdir))
302	<	<= source[i].ss2) {
303	<	r->ro = source[i].so;
304	<	if (!(source[i].sflags & SSKIP))
305	<	break;
306	<	}
307	<
308	<	if (r->ro != NULL) {
309	<	r->robj = objndx(r->ro);
310	<	for (i = 0; i < 3; i++)
311	<	r->ron[i] = -r->rdir[i];
312	<	r->rod = 1.0;
313	<	r->pert[0] = r->pert[1] = r->pert[2] = 0.0;
314	<	r->uv[0] = r->uv[1] = 0.0;
315	<	r->rox = NULL;
316	<	return(1);
295	>	for (i = first; i <= last; i++) {
296	>	if ((source[i].sflags & (SDISTANT\|SVIRTUAL)) != SDISTANT)
297	>	continue;
298	>	/*
299	>	* Check to see if ray is within
300	>	* solid angle of source.
301	>	*/
302	>	if (2.PI(1. - DOT(source[i].sloc,r->rdir)) > source[i].ss2)
303	>	continue;
304	>	/* is it the only possibility? */
305	>	if (first == last) {
306	>	r->ro = source[i].so;
307	>	break;
308	>	}
309	>	/*
310	>	* If it's a glow or transparent illum, just remember it.
311	>	*/
312	>	if (source[i].sflags & SSKIP) {
313	>	if (glowsrc < 0)
314	>	glowsrc = i;
315	>	continue;
316	>	}
317	>	if (transillum(source[i].so->omod)) {
318	>	if (transrc < 0)
319	>	transrc = i;
320	>	continue;
321	>	}
322	>	r->ro = source[i].so; /* otherwise, use first hit */
323	>	break;
324		}
325	<	return(0);
326	<	}
327	<
328	<
329	<	#if SHADCACHE /* preemptive shadow checking */
330	<	#define ABS(x) ((x)>0 ? (x) : -(x))
331	<
332	<	static void /* find closest blockers to source */
333	<	initobscache(SRCREC *srcp)
334	<	{
303	<	int i;
304	<	int cachelen;
305	<
306	<	if (srcp->sflags & SDISTANT)
307	<	cachelen = 4SHADCACHESHADCACHE;
308	<	else if (srcp->sflags & SFLAT)
309	<	cachelen = SHADCACHESHADCACHE3 + (SHADCACHE&1)SHADCACHE4;
310	<	else /* spherical distribution */
311	<	cachelen = SHADCACHESHADCACHE6;
312	<	/* allocate cache */
313	<	DCHECK(srcp->obscache != NULL,
314	<	CONSISTENCY, "initobscache() called twice");
315	<	srcp->obscache = (OBSCACHE *)malloc(sizeof(OBSCACHE) +
316	<	sizeof(OBJECT)*(cachelen-1));
317	<	if (srcp->obscache == NULL)
318	<	error(SYSTEM, "out of memory in initobscache()");
319	<	/* set parameters */
320	<	if (srcp->sflags & SDISTANT) {
321	<	int ax, ax1, ax2;
322	<	RREAL amax = 0;
323	<	for (ax1 = 3; ax1--; )
324	<	if (ABS(srcp->sloc[ax1]) > amax) {
325	<	amax = ABS(srcp->sloc[ax1]);
326	<	ax = ax1;
327	<	}
328	<	srcp->obscache->p.d.ax = ax;
329	<	ax1 = (ax+1)%3;
330	<	ax2 = (ax+2)%3;
331	<	VCOPY(srcp->obscache->p.d.o, thescene.cuorg);
332	<	if (srcp->sloc[ax] > 0)
333	<	srcp->obscache->p.d.o[ax] += thescene.cusize;
334	<	if (srcp->sloc[ax1] < 0)
335	<	srcp->obscache->p.d.o[ax1] += thescene.cusize *
336	<	srcp->sloc[ax1] / ABS(srcp->sloc[ax]);
337	<	if (srcp->sloc[ax2] < 0)
338	<	srcp->obscache->p.d.o[ax2] += thescene.cusize *
339	<	srcp->sloc[ax2] / ABS(srcp->sloc[ax]);
340	<	srcp->obscache->p.d.e1 = (1.-FTINY) / (thescene.cusize*(1. +
341	<	fabs(srcp->sloc[ax1]/srcp->sloc[ax])));
342	<	srcp->obscache->p.d.e2 = (1.-FTINY) / (thescene.cusize*(1. +
343	<	fabs(srcp->sloc[ax2]/srcp->sloc[ax])));
344	<	} else if (srcp->sflags & SFLAT) {
345	<	VCOPY(srcp->obscache->p.f.u, srcp->ss[SU]);
346	<	normalize(srcp->obscache->p.f.u);
347	<	fcross(srcp->obscache->p.f.v,
348	<	srcp->snorm, srcp->obscache->p.f.u);
325	>	/*
326	>	* Do we need fallback?
327	>	*/
328	>	if (r->ro == NULL) {
329	>	if (transrc >= 0 && r->crtype & (AMBIENT\|SPECULAR))
330	>	return(0); /* avoid overcounting */
331	>	if (glowsrc >= 0)
332	>	r->ro = source[glowsrc].so;
333	>	else
334	>	return(0); /* nothing usable */
335		}
336	<	/* XXX Should cast rays from source */
337	<	for (i = cachelen; i--; )
338	<	srcp->obscache->obs[i] = OVOID;
336	>	/*
337	>	* Make assignments.
338	>	*/
339	>	r->robj = objndx(r->ro);
340	>	for (i = 0; i < 3; i++)
341	>	r->ron[i] = -r->rdir[i];
342	>	r->rod = 1.0;
343	>	r->pert[0] = r->pert[1] = r->pert[2] = 0.0;
344	>	r->uv[0] = r->uv[1] = 0.0;
345	>	r->rox = NULL;
346	>	return(1);
347		}
348
349
356	–	static OBJECT * /* return occluder cache entry */
357	–	srcobstructp(register RAY *r)
358	–	{
359	–	static OBJECT noobs;
360	–	SRCREC *srcp;
361	–	int ondx;
362	–
363	–	DCHECK(r->rsrc < 0, CONSISTENCY,
364	–	"srcobstructp() called with unaimed ray");
365	–	noobs = OVOID;
366	–	srcp = &source[r->rsrc];
367	–	if (srcp->obscache == NULL) /* initialize cache */
368	–	initobscache(srcp);
369	–	/* compute cache index */
370	–	if (srcp->sflags & SDISTANT) {
371	–	int ax, ax1, ax2;
372	–	double t;
373	–	ax = srcp->obscache->p.d.ax;
374	–	if ((ax1 = ax+1) >= 3) ax1 -= 3;
375	–	if ((ax2 = ax+2) >= 3) ax2 -= 3;
376	–	t = (srcp->obscache->p.d.o[ax] - r->rorg[ax]) / srcp->sloc[ax];
377	–	if (t <= FTINY)
378	–	return &noobs; /* could happen if ray is outside */
379	–	ondx = 2SHADCACHE(int)(2SHADCACHEsrcp->obscache->p.d.e1 *
380	–	(r->rorg[ax1] + t*srcp->sloc[ax1] -
381	–	srcp->obscache->p.d.o[ax1]));
382	–	ondx += (int)(2SHADCACHEsrcp->obscache->p.d.e2 *
383	–	(r->rorg[ax2] + t*srcp->sloc[ax2] -
384	–	srcp->obscache->p.d.o[ax2]));
385	–	if (ondx < 0 \| ondx >= 4SHADCACHESHADCACHE)
386	–	return &nobs; /* could happen if ray is outside */
387	–	} else if (srcp->sflags & SFLAT) {
388	–	FVECT sd;
389	–	RREAL sd0m, sd1m;
390	–	sd[0] = -DOT(r->rdir, srcp->obscache->p.f.u);
391	–	sd[1] = -DOT(r->rdir, srcp->obscache->p.f.v);
392	–	sd[2] = -DOT(r->rdir, srcp->snorm);
393	–	if (sd[2] < 0)
394	–	return &noobs; /* shouldn't happen */
395	–	sd0m = ABS(sd[0]);
396	–	sd1m = ABS(sd[1]);
397	–	if (sd[2] >= sd0m && sd[2] >= sd1m) {
398	–	ondx = SHADCACHE(int)(SHADCACHE(.5-FTINY) *
399	–	(1. + sd[0]/sd[2]));
400	–	ondx += (int)(SHADCACHE(.5-FTINY)
401	–	(1. + sd[1]/sd[2]));
402	–	} else if (sd0m >= sd1m) {
403	–	ondx = SHADCACHE*SHADCACHE;
404	–	if (sd[0] < 0)
405	–	ondx += ((SHADCACHE+1)>>1)*SHADCACHE;
406	–	ondx += SHADCACHE(int)(SHADCACHE(.5-FTINY) *
407	–	sd[2]/sd0m);
408	–	ondx += (int)(SHADCACHE(.5-FTINY)
409	–	(1. + sd[1]/sd0m));
410	–	} else /* sd1m > sd0m */ {
411	–	ondx = SHADCACHE*SHADCACHE +
412	–	((SHADCACHE+1)>>1)SHADCACHE2;
413	–	if (sd[1] < 0)
414	–	ondx += ((SHADCACHE+1)>>1)*SHADCACHE;
415	–	ondx += SHADCACHE(int)(SHADCACHE(.5-FTINY) *
416	–	sd[2]/sd1m);
417	–	ondx += (int)(SHADCACHE(.5-FTINY)
418	–	(1. + sd[0]/sd1m));
419	–	}
420	–	} else /* spherical distribution */ {
421	–	int ax, ax1, ax2;
422	–	RREAL amax = 0;
423	–	for (ax1 = 3; ax1--; )
424	–	if (ABS(r->rdir[ax1]) > amax) {
425	–	amax = ABS(r->rdir[ax1]);
426	–	ax = ax1;
427	–	}
428	–	if ((ax1 = ax+1) >= 3) ax1 -= 3;
429	–	if ((ax2 = ax+2) >= 3) ax2 -= 3;
430	–	ondx = 2SHADCACHESHADCACHE * ax;
431	–	if (r->rdir[ax] < 0)
432	–	ondx += SHADCACHE*SHADCACHE;
433	–	ondx += SHADCACHE(int)(SHADCACHE(.5-FTINY) *
434	–	(1. + r->rdir[ax1]/amax));
435	–	ondx += (int)(SHADCACHE(.5-FTINY)
436	–	(1. + r->rdir[ax2]/amax));
437	–	}
438	–	/* return cache pointer */
439	–	return(&srcp->obscache->obs[ondx]);
440	–	}
441	–
442	–
443	–	void /* free obstruction cache */
444	–	freeobscache(SRCREC *srcp)
445	–	{
446	–	if (srcp->obscache == NULL)
447	–	return;
448	–	free((void *)srcp->obscache);
449	–	srcp->obscache = NULL;
450	–	}
451	–
452	–
453	–	void /* record a source blocker */
454	–	srcblocker(register RAY *r)
455	–	{
456	–	OBJREC *m;
457	–
458	–	if (r->robj == OVOID \|\| objptr(r->robj) != r->ro \|\|
459	–	isvolume(r->ro->otype))
460	–	return; /* don't record complex blockers */
461	–	m = findmaterial(r->ro);
462	–	if (m == NULL)
463	–	return; /* no material?! */
464	–	if (!(ofun[m->otype].flags & T_OPAQUE))
465	–	return; /* material not a reliable blocker */
466	–
467	–	srcobstructp(r) = r->robj; / else record obstructor */
468	–	}
469	–
470	–
471	–	int /* check ray against cached blocker */
472	–	srcblocked(RAY *r)
473	–	{
474	–	OBJECT obs = *srcobstructp(r);
475	–	OBJREC *op;
476	–
477	–	if (obs == OVOID)
478	–	return(0);
479	–	op = objptr(obs); /* check for intersection */
480	–	return ((*ofun[op->otype].funp)(op, r));
481	–	}
482	–
483	–	#endif
484	–
485	–
350		static int
351		cntcmp( /* contribution compare (descending) */
352	<	const void *p1,
353	<	const void *p2
352	>	const void *p1,
353	>	const void *p2
354		)
355		{
356		register const CNTPTR sc1 = (const CNTPTR )p1;
#	Line 500 \| Line 364 \| *const void p2**
364		}
365
366
367	<	void
367	>	extern void
368		direct( /* add direct component */
369	<	RAY r, / ray that hit surface */
370	<	void (f)(), / direct component coefficient function */
371	<	char p / data for f */
369	>	RAY r, / ray that hit surface */
370	>	srcdirf_t f, / direct component coefficient function */
371	>	void p / data for f */
372		)
373		{
510	–	extern void (*trace)();
374		register int sn;
375		register CONTRIB *scp;
376		SRCINDEX si;
#	Line 535 \| Line 398 \| *char p /* data for f /*
398		scp->sno = sr.rsrc;
399		/* compute coefficient */
400		(*f)(scp->coef, p, sr.rdir, si.dom);
401	<	cntord[sn].brt = bright(scp->coef);
401	>	cntord[sn].brt = intens(scp->coef);
402		if (cntord[sn].brt <= 0.0)
403		continue;
404		#if SHADCACHE
#	Line 546 \| Line 409 \| *char p /* data for f /*
409		}
410		#endif
411		VCOPY(scp->dir, sr.rdir);
412	+	copycolor(sr.rcoef, scp->coef);
413		/* compute potential */
414		sr.revf = srcvalue;
415		rayvalue(&sr);
416	+	multcolor(sr.rcol, sr.rcoef);
417		copycolor(scp->val, sr.rcol);
418	<	multcolor(scp->val, scp->coef);
554	<	cntord[sn].brt = bright(scp->val);
418	>	cntord[sn].brt = bright(sr.rcol);
419		}
420		/* sort contributions */
421		qsort(cntord, sn, sizeof(CNTPTR), cntcmp);
#	Line 589 \| Line 453 \| *char p /* data for f /*
453		break;
454		scp = srccnt + cntord[sn].sndx;
455		/* test for hit */
456	<	rayorigin(&sr, r, SHADOW, 1.0);
456	>	rayorigin(&sr, SHADOW, r, NULL);
457	>	copycolor(sr.rcoef, scp->coef);
458		VCOPY(sr.rdir, scp->dir);
459		sr.rsrc = scp->sno;
460		/* keep statistics */
#	Line 602 \| Line 467 \| *char p /* data for f /*
467		source[scp->sno].sflags & SFOLLOW )) {
468		/* follow entire path */
469		raycont(&sr);
605	–	rayparticipate(&sr);
470		if (trace != NULL)
471		(trace)(&sr); / trace execution */
472		if (bright(sr.rcol) <= FTINY) {
473		#if SHADCACHE
474		if ((scp <= srccnt \|\| scp[-1].sno != scp->sno)
475	<	&& (scp >= srccnt+ncnts \|\|
475	>	&& (scp >= srccnt+ncnts-1 \|\|
476		scp[1].sno != scp->sno))
477		srcblocker(&sr);
478		#endif
479		continue; /* missed! */
480		}
481	+	rayparticipate(&sr);
482	+	multcolor(sr.rcol, sr.rcoef);
483		copycolor(scp->val, sr.rcol);
484	<	multcolor(scp->val, scp->coef);
484	>	} else if (trace != NULL &&
485	>	(source[scp->sno].sflags & (SDISTANT\|SVIRTUAL\|SFOLLOW))
486	>	== (SDISTANT\|SFOLLOW) &&
487	>	sourcehit(&sr) && rayshade(&sr, sr.ro->omod)) {
488	>	(trace)(&sr); / trace execution */
489	>	/* skip call to rayparticipate() & scp->val update */
490		}
491		/* add contribution if hit */
492		addcolor(r->rcol, scp->val);
#	Line 637 \| Line 508 \| *char p /* data for f /*
508		scp = srccnt + cntord[sn].sndx;
509		prob = hwt * (double)source[scp->sno].nhits /
510		(double)source[scp->sno].ntests;
511	<	if (prob > 1.0)
512	<	prob = 1.0;
642	<	scalecolor(scp->val, prob);
511	>	if (prob < 1.0)
512	>	scalecolor(scp->val, prob);
513		addcolor(r->rcol, scp->val);
514		}
515		}
516
517
518	<	void
518	>	extern void
519		srcscatter( /* compute source scattering into ray */
520	<	register RAY *r
520	>	register RAY *r
521		)
522		{
523		int oldsampndx;
#	Line 686 \| Line 556 \| *register RAY r**
556		sr.rorg[0] = r->rorg[0] + r->rdir[0]*t;
557		sr.rorg[1] = r->rorg[1] + r->rdir[1]*t;
558		sr.rorg[2] = r->rorg[2] + r->rdir[2]*t;
689	–	sr.rmax = 0.;
559		initsrcindex(&si); /* sample ray to this source */
560		si.sn = r->slights[i];
561		nopart(&si, &sr);
562		if (!srcray(&sr, NULL, &si) \|\|
563		sr.rsrc != r->slights[i])
564		continue; /* no path */
565	+	#if SHADCACHE
566	+	if (srcblocked(&sr)) /* check shadow cache */
567	+	continue;
568	+	#endif
569		copycolor(sr.cext, r->cext);
570		copycolor(sr.albedo, r->albedo);
571		sr.gecc = r->gecc;
572		sr.slights = r->slights;
573		rayvalue(&sr); /* eval. source ray */
574	<	if (bright(sr.rcol) <= FTINY)
574	>	if (bright(sr.rcol) <= FTINY) {
575	>	#if SHADCACHE
576	>	srcblocker(&sr); /* add blocker to cache */
577	>	#endif
578		continue;
579	+	}
580		if (r->gecc <= FTINY) /* compute P(theta) */
581		d = 1.;
582		else {
#	Line 737 \| Line 614 \| *register RAY r**
614		*/
615
616		static int
617	<	weaksrcmat(int obj) /* identify material */
617	>	weaksrcmat(OBJECT obj) /* identify material */
618		{
619	<	register OBJREC *o = objptr(obj);
619	>	OBJREC *m = findmaterial(objptr(obj));
620
621	<	while (!ismaterial(o->otype)) /* find material */
622	<	o = objptr(o->omod);
746	<	return((o->otype==MAT_ILLUM)\|(o->otype==MAT_GLOW));
621	>	if (m == NULL) return(0);
622	>	return((m->otype==MAT_ILLUM) \| (m->otype==MAT_GLOW));
623		}
624
625		#define illumblock(m, r) (!(source[r->rsrc].sflags&SVIRTUAL) && \
#	Line 804 \| Line 680 \| *weaksrcmat(int obj) / identify material /*
680		distglow(m, r, raydist(r,PRIMARY)))
681
682
683	<	int
683	>	extern int
684		m_light( /* ray hit a light source */
685	<	register OBJREC *m,
686	<	register RAY *r
685	>	register OBJREC *m,
686	>	register RAY *r
687		)
688		{
689		/* check for over-counting */
690	<	if (badcomponent(m, r))
690	>	if (badcomponent(m, r)) {
691	>	setcolor(r->rcoef, 0.0, 0.0, 0.0);
692		return(1);
693	<	if (wrongsource(m, r))
693	>	}
694	>	if (wrongsource(m, r)) {
695	>	setcolor(r->rcoef, 0.0, 0.0, 0.0);
696		return(1);
697	+	}
698		/* check for passed illum */
699		if (passillum(m, r)) {
700		if (m->oargs.nsargs && strcmp(m->oargs.sarg[0], VOIDID))
#	Line 822 \| Line 702 \| *register RAY r**
702		raytrans(r);
703		return(1);
704		}
705	+	/* check for invisibility */
706	+	if (srcignore(m, r)) {
707	+	setcolor(r->rcoef, 0.0, 0.0, 0.0);
708	+	return(1);
709	+	}
710		/* otherwise treat as source */
711		/* check for behind */
712		if (r->rod < 0.0)
828	–	return(1);
829	–	/* check for invisibility */
830	–	if (srcignore(m, r))
713		return(1);
714		/* check for outside spot */
715		if (m->otype==MAT_SPOT && spotout(r, makespot(m)))

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Comparing ray/src/rt/source.c (file contents): Revision 2.39 by greg, Wed Dec 31 02:03:08 2003 UTC vs. Revision 2.60 by greg, Mon Feb 14 20:13:38 2011 UTC

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Comparing ray/src/rt/source.c (file contents):
Revision 2.39 by greg, Wed Dec 31 02:03:08 2003 UTC vs.
Revision 2.60 by greg, Mon Feb 14 20:13:38 2011 UTC