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

Comparing ray/src/rt/source.c (file contents):
Revision 2.45 by greg, Wed Jun 23 12:58:02 2004 UTC vs.
Revision 2.68 by greg, Mon Jun 11 15:10:49 2018 UTC

#	Line 12 \| Line 12 \| static const char RCSid[] = "$Id$";
12		#include "rtotypes.h"
13		#include "source.h"
14		#include "random.h"
15	+	#include "pmapsrc.h"
16	+	#include "pmapmat.h"
17
16	–	extern double ssampdist; /* scatter sampling distance */
17	–
18		#ifndef MAXSSAMP
19		#define MAXSSAMP 16 /* maximum samples per ray */
20		#endif
#	Line 42 \| Line 42 \| *static int maxcntr = 0; / size of contribution arra**
42		static int cntcmp(const void p1, const void p2);
43
44
45	<	extern OBJREC * /* find an object's actual material */
46	<	findmaterial(register OBJREC *o)
45	>	OBJREC * /* find an object's actual material */
46	>	findmaterial(OBJREC *o)
47		{
48		while (!ismaterial(o->otype)) {
49	–	if (ismixture(o->otype))
50	–	return(NULL); /* reject mixed materials */
49		if (o->otype == MOD_ALIAS && o->oargs.nsargs) {
50		OBJECT aobj;
51		OBJREC *ao;
#	Line 57 \| 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	<	extern void
71	>	void
72		marksources(void) /* find and mark source objects */
73		{
74		int foundsource = 0;
75		int i;
76	<	register OBJREC o, m;
77	<	register int ns;
76	>	OBJREC o, m;
77	>	int ns;
78		/* initialize dispatch table */
79		initstypes();
80		/* find direct sources */
#	Line 84 \| Line 86 \| *marksources(void) / find and mark source objects /*
86		continue;
87		/* find material */
88		m = findmaterial(objptr(o->omod));
89	<	if (m == NULL \|\| !islight(m->otype))
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 :
99		m->otype == MAT_SPOT ? 7 : 3))
100		objerror(m, USER, "bad # arguments");
101
94	–	if (m->otype == MAT_GLOW &&
95	–	o->otype != OBJ_SOURCE &&
96	–	m->oargs.farg[3] <= FTINY)
97	–	continue; /* don't bother */
102		if (m->oargs.farg[0] <= FTINY && m->oargs.farg[1] <= FTINY &&
103		m->oargs.farg[2] <= FTINY)
104		continue; /* don't bother */
105	<
105	>	if (m->otype == MAT_GLOW &&
106	>	o->otype != OBJ_SOURCE &&
107	>	m->oargs.farg[3] <= FTINY) {
108	>	foundsource += (ambounce > 0);
109	>	continue; /* don't track these */
110	>	}
111		if (sfun[o->otype].of == NULL \|\|
112		sfun[o->otype].of->setsrc == NULL)
113		objerror(o, USER, "illegal material");
#	Line 111 \| Line 120 \| *marksources(void) / find and mark source objects /*
120		if (m->otype == MAT_GLOW) {
121		source[ns].sflags \|= SPROX;
122		source[ns].sl.prox = m->oargs.farg[3];
123	<	if (source[ns].sflags & SDISTANT)
123	>	if (source[ns].sflags & SDISTANT) {
124		source[ns].sflags \|= SSKIP;
125	+	foundsource += (ambounce > 0);
126	+	}
127		} else if (m->otype == MAT_SPOT) {
128		source[ns].sflags \|= SSPOT;
129		if ((source[ns].sl.s = makespot(m)) == NULL)
#	Line 124 \| Line 135 \| *marksources(void) / find and mark source objects /*
135		source[ns].sflags \|= SSKIP;
136		}
137		}
138	<	#if SHADCACHE
128	<	source[ns].obscache = NULL;
129	<	#endif
130	<	if (!(source[ns].sflags & SSKIP))
131	<	foundsource++;
138	>	foundsource += !(source[ns].sflags & SSKIP);
139		}
140		if (!foundsource) {
141		error(WARNING, "no light sources found");
142		return;
143		}
144	<	markvirtuals(); /* find and add virtual sources */
144	>	#if SHADCACHE
145	>	for (ns = 0; ns < nsources; ns++) /* initialize obstructor cache */
146	>	initobscache(ns);
147	>	#endif
148	>	/* PMAP: disable virtual sources */
149	>	if (!photonMapping)
150	>	markvirtuals(); /* find and add virtual sources */
151	>
152		/* allocate our contribution arrays */
153		maxcntr = nsources + MAXSPART; /* start with this many */
154		srccnt = (CONTRIB )malloc(maxcntrsizeof(CONTRIB));
#	Line 147 \| Line 161 \| memerr:
161		}
162
163
164	<	extern void
164	>	void
165		freesources(void) /* free all source structures */
166		{
167		if (nsources > 0) {
#	Line 159 \| Line 173 \| *freesources(void) / free all source structures /*
173		source = NULL;
174		nsources = 0;
175		}
176	+	markclip(NULL);
177		if (maxcntr <= 0)
178		return;
179		free((void *)srccnt);
#	Line 169 \| Line 184 \| *freesources(void) / free all source structures /*
184		}
185
186
187	<	extern int
187	>	int
188		srcray( /* send a ray to a source, return domega */
189	<	register RAY sr, / returned source ray */
189	>	RAY sr, / returned source ray */
190		RAY r, / ray which hit object */
191		SRCINDEX si / source sample index */
192		)
193		{
194	<	double d; /* distance to source */
195	<	register SRCREC *srcp;
194	>	double d; /* distance to source */
195	>	SRCREC *srcp;
196
197	<	rayorigin(sr, r, SHADOW, 1.0); /* ignore limits */
197	>	rayorigin(sr, SHADOW, r, NULL); /* ignore limits */
198
199	<	while ((d = nextssamp(sr, si)) != 0.0) {
200	<	sr->rsrc = si->sn; /* remember source */
201	<	srcp = source + si->sn;
202	<	if (srcp->sflags & SDISTANT) {
203	<	if (srcp->sflags & SSPOT && spotout(sr, srcp->sl.s))
204	<	continue;
205	<	return(1); /* sample OK */
206	<	}
199	>	if (r == NULL)
200	>	sr->rmax = 0.0;
201	>
202	>	while ((d = nextssamp(sr, si)) != 0.0) {
203	>	sr->rsrc = si->sn; /* remember source */
204	>	srcp = source + si->sn;
205	>	if (srcp->sflags & SDISTANT) {
206	>	if (srcp->sflags & SSPOT && spotout(sr, srcp->sl.s))
207	>	continue;
208	>	return(1); /* sample OK */
209	>	}
210		/* local source */
211		/* check proximity */
212	<	if (srcp->sflags & SPROX && d > srcp->sl.prox)
195	<	continue;
196	<	/* check angle */
197	<	if (srcp->sflags & SSPOT) {
198	<	if (spotout(sr, srcp->sl.s))
212	>	if (srcp->sflags & SPROX && d > srcp->sl.prox)
213		continue;
214	+	/* check angle */
215	+	if (srcp->sflags & SSPOT) {
216	+	if (spotout(sr, srcp->sl.s))
217	+	continue;
218		/* adjust solid angle */
219	<	si->dom = dd;
220	<	d += srcp->sl.s->flen;
221	<	si->dom /= d*d;
219	>	si->dom = dd;
220	>	d += srcp->sl.s->flen;
221	>	si->dom /= d*d;
222	>	}
223	>	return(1); /* sample OK */
224		}
225	<	return(1); /* sample OK */
206	<	}
207	<	return(0); /* no more samples */
225	>	return(0); /* no more samples */
226		}
227
228
229	<	extern void
229	>	void
230		srcvalue( /* punch ray to source and compute value */
231	<	register RAY *r
231	>	RAY *r
232		)
233		{
234	<	register SRCREC *sp;
234	>	SRCREC *sp;
235
236		sp = &source[r->rsrc];
237		if (sp->sflags & SVIRTUAL) { /* virtual source */
#	Line 250 \| Line 268 \| nomat:
268		}
269
270
271	<	extern int
271	>	static int
272	>	transillum( /* check if material is transparent illum */
273	>	OBJECT obj
274	>	)
275	>	{
276	>	OBJREC *m = findmaterial(objptr(obj));
277	>
278	>	if (m == NULL)
279	>	return(1);
280	>	if (m->otype != MAT_ILLUM)
281	>	return(0);
282	>	return(!m->oargs.nsargs \|\| !strcmp(m->oargs.sarg[0], VOIDID));
283	>	}
284	>
285	>
286	>	int
287		sourcehit( /* check to see if ray hit distant source */
288	<	register RAY *r
288	>	RAY *r
289		)
290		{
291	+	int glowsrc = -1;
292	+	int transrc = -1;
293		int first, last;
294	<	register int i;
294	>	int i;
295
296		if (r->rsrc >= 0) { /* check only one if aimed */
297		first = last = r->rsrc;
298		} else { /* otherwise check all */
299		first = 0; last = nsources-1;
300		}
301	<	for (i = first; i <= last; i++)
302	<	if ((source[i].sflags & (SDISTANT\|SVIRTUAL)) == SDISTANT)
303	<	/*
304	<	* Check to see if ray is within
305	<	* solid angle of source.
306	<	*/
307	<	if (2.0PI (1.0 - DOT(source[i].sloc,r->rdir))
308	<	<= source[i].ss2) {
309	<	r->ro = source[i].so;
310	<	if (!(source[i].sflags & SSKIP))
311	<	break;
312	<	}
313	<
314	<	if (r->ro != NULL) {
315	<	r->robj = objndx(r->ro);
316	<	for (i = 0; i < 3; i++)
317	<	r->ron[i] = -r->rdir[i];
318	<	r->rod = 1.0;
319	<	r->pert[0] = r->pert[1] = r->pert[2] = 0.0;
320	<	r->uv[0] = r->uv[1] = 0.0;
321	<	r->rox = NULL;
322	<	return(1);
301	>	for (i = first; i <= last; i++) {
302	>	if ((source[i].sflags & (SDISTANT\|SVIRTUAL)) != SDISTANT)
303	>	continue;
304	>	/*
305	>	* Check to see if ray is within
306	>	* solid angle of source.
307	>	*/
308	>	if (2.PI(1. - DOT(source[i].sloc,r->rdir)) > source[i].ss2)
309	>	continue;
310	>	/* is it the only possibility? */
311	>	if (first == last) {
312	>	r->ro = source[i].so;
313	>	break;
314	>	}
315	>	/*
316	>	* If it's a glow or transparent illum, just remember it.
317	>	*/
318	>	if (source[i].sflags & SSKIP) {
319	>	if (glowsrc < 0)
320	>	glowsrc = i;
321	>	continue;
322	>	}
323	>	if (transillum(source[i].so->omod)) {
324	>	if (transrc < 0)
325	>	transrc = i;
326	>	continue;
327	>	}
328	>	r->ro = source[i].so; /* otherwise, use first hit */
329	>	break;
330		}
331	<	return(0);
331	>	/*
332	>	* Do we need fallback?
333	>	*/
334	>	if (r->ro == NULL) {
335	>	if (transrc >= 0 && r->crtype & (AMBIENT\|SPECULAR))
336	>	return(0); /* avoid overcounting */
337	>	if (glowsrc >= 0)
338	>	r->ro = source[glowsrc].so;
339	>	else
340	>	return(0); /* nothing usable */
341	>	}
342	>	/*
343	>	* Make assignments.
344	>	*/
345	>	r->robj = objndx(r->ro);
346	>	for (i = 0; i < 3; i++)
347	>	r->ron[i] = -r->rdir[i];
348	>	r->rod = 1.0;
349	>	r->pert[0] = r->pert[1] = r->pert[2] = 0.0;
350	>	r->uv[0] = r->uv[1] = 0.0;
351	>	r->rox = NULL;
352	>	return(1);
353		}
354
355
#	Line 296 \| Line 359 \| *cntcmp( / contribution compare (descending) /*
359		const void *p2
360		)
361		{
362	<	register const CNTPTR sc1 = (const CNTPTR )p1;
363	<	register const CNTPTR sc2 = (const CNTPTR )p2;
362	>	const CNTPTR sc1 = (const CNTPTR )p1;
363	>	const CNTPTR sc2 = (const CNTPTR )p2;
364
365		if (sc1->brt > sc2->brt)
366		return(-1);
#	Line 307 \| Line 370 \| *cntcmp( / contribution compare (descending) /*
370		}
371
372
373	<	extern void
373	>	void
374		direct( /* add direct component */
375		RAY r, / ray that hit surface */
376		srcdirf_t f, / direct component coefficient function */
377		void p / data for f */
378		)
379		{
380	<	register int sn;
381	<	register CONTRIB *scp;
380	>	int sn;
381	>	CONTRIB *scp;
382		SRCINDEX si;
383		int nshadcheck, ncnts;
384		int nhits;
385		double prob, ourthresh, hwt;
386		RAY sr;
387	+
388	+	/* PMAP: Factor in direct photons (primarily for debugging/validation) */
389	+	if (directPhotonMapping) {
390	+	(*f)(r -> rcol, p, r -> ron, PI);
391	+	multDirectPmap(r);
392	+	return;
393	+	}
394	+
395		/* NOTE: srccnt and cntord global so no recursion */
396		if (nsources <= 0)
397		return; /* no sources?! */
#	Line 341 \| Line 412 \| *direct( / add direct component /*
412		scp->sno = sr.rsrc;
413		/* compute coefficient */
414		(*f)(scp->coef, p, sr.rdir, si.dom);
415	<	cntord[sn].brt = bright(scp->coef);
415	>	cntord[sn].brt = intens(scp->coef);
416		if (cntord[sn].brt <= 0.0)
417		continue;
418		#if SHADCACHE
#	Line 352 \| Line 423 \| *direct( / add direct component /*
423		}
424		#endif
425		VCOPY(scp->dir, sr.rdir);
426	+	copycolor(sr.rcoef, scp->coef);
427		/* compute potential */
428		sr.revf = srcvalue;
429		rayvalue(&sr);
430	+	multcolor(sr.rcol, sr.rcoef);
431		copycolor(scp->val, sr.rcol);
432	<	multcolor(scp->val, scp->coef);
360	<	cntord[sn].brt = bright(scp->val);
432	>	cntord[sn].brt = bright(sr.rcol);
433		}
434		/* sort contributions */
435		qsort(cntord, sn, sizeof(CNTPTR), cntcmp);
436		{ /* find last */
437	<	register int l, m;
437	>	int l, m;
438
439		ncnts = l = sn;
440		sn = 0;
#	Line 382 \| Line 454 \| *direct( / add direct component /*
454		/* compute number to check */
455		nshadcheck = pow((double)ncnts, shadcert) + .5;
456		/* modify threshold */
457	<	ourthresh = shadthresh / r->rweight;
457	>	if (ncnts > MINSHADCNT)
458	>	ourthresh = shadthresh / r->rweight;
459	>	else
460	>	ourthresh = 0;
461		/* test for shadows */
462		for (nhits = 0, hwt = 0.0, sn = 0; sn < ncnts;
463		hwt += (double)source[scp->sno].nhits /
#	Line 395 \| Line 470 \| *direct( / add direct component /*
470		break;
471		scp = srccnt + cntord[sn].sndx;
472		/* test for hit */
473	<	rayorigin(&sr, r, SHADOW, 1.0);
473	>	rayorigin(&sr, SHADOW, r, NULL);
474	>	copycolor(sr.rcoef, scp->coef);
475		VCOPY(sr.rdir, scp->dir);
476		sr.rsrc = scp->sno;
477		/* keep statistics */
#	Line 408 \| Line 484 \| *direct( / add direct component /*
484		source[scp->sno].sflags & SFOLLOW )) {
485		/* follow entire path */
486		raycont(&sr);
411	–	rayparticipate(&sr);
487		if (trace != NULL)
488		(trace)(&sr); / trace execution */
489		if (bright(sr.rcol) <= FTINY) {
#	Line 420 \| Line 495 \| *direct( / add direct component /*
495		#endif
496		continue; /* missed! */
497		}
498	+	rayparticipate(&sr);
499	+	multcolor(sr.rcol, sr.rcoef);
500		copycolor(scp->val, sr.rcol);
501	<	multcolor(scp->val, scp->coef);
501	>	} else if (trace != NULL &&
502	>	(source[scp->sno].sflags & (SDISTANT\|SVIRTUAL\|SFOLLOW))
503	>	== (SDISTANT\|SFOLLOW) &&
504	>	sourcehit(&sr) && rayshade(&sr, sr.ro->omod)) {
505	>	(trace)(&sr); / trace execution */
506	>	/* skip call to rayparticipate() & scp->val update */
507		}
508		/* add contribution if hit */
509		addcolor(r->rcol, scp->val);
#	Line 443 \| Line 525 \| *direct( / add direct component /*
525		scp = srccnt + cntord[sn].sndx;
526		prob = hwt * (double)source[scp->sno].nhits /
527		(double)source[scp->sno].ntests;
528	<	if (prob > 1.0)
529	<	prob = 1.0;
448	<	scalecolor(scp->val, prob);
528	>	if (prob < 1.0)
529	>	scalecolor(scp->val, prob);
530		addcolor(r->rcol, scp->val);
531		}
532		}
533
534
535	<	extern void
535	>	void
536		srcscatter( /* compute source scattering into ray */
537	<	register RAY *r
537	>	RAY *r
538		)
539		{
540		int oldsampndx;
#	Line 465 \| Line 546 \| *srcscatter( / compute source scattering into ray /*
546		COLOR cvext;
547		int i, j;
548
549	<	if (r->slights == NULL \|\| r->slights[0] == 0
550	<	\|\| r->gecc >= 1.-FTINY \|\| r->rot >= FHUGE)
549	>	if (r->rot >= FHUGE \|\| r->gecc >= 1.-FTINY)
550	>	return; /* this can never work */
551	>	/* PMAP: do unconditional inscattering for volume photons */
552	>	if (!volumePhotonMapping && (r->slights == NULL \|\| r->slights[0] == 0))
553		return;
554	+
555		if (ssampdist <= FTINY \|\| (nsamps = r->rot/ssampdist + .5) < 1)
556		nsamps = 1;
557		#if MAXSSAMP
#	Line 476 \| Line 560 \| *srcscatter( / compute source scattering into ray /*
560		#endif
561		oldsampndx = samplendx;
562		samplendx = random()&0x7fff; /* randomize */
563	<	for (i = r->slights[0]; i > 0; i--) { /* for each source */
563	>	for (i = volumePhotonMapping ? 1 : r->slights[0]; i > 0; i--) {
564	>	/* for each source OR once if volume photon map enabled */
565		for (j = 0; j < nsamps; j++) { /* for each sample position */
566		samplendx++;
567		t = r->rot * (j+frandom())/nsamps;
#	Line 492 \| Line 577 \| *srcscatter( / compute source scattering into ray /*
577		sr.rorg[0] = r->rorg[0] + r->rdir[0]*t;
578		sr.rorg[1] = r->rorg[1] + r->rdir[1]*t;
579		sr.rorg[2] = r->rorg[2] + r->rdir[2]*t;
580	<	sr.rmax = 0.;
581	<	initsrcindex(&si); /* sample ray to this source */
582	<	si.sn = r->slights[i];
583	<	nopart(&si, &sr);
584	<	if (!srcray(&sr, NULL, &si) \|\|
585	<	sr.rsrc != r->slights[i])
586	<	continue; /* no path */
580	>
581	>	if (!volumePhotonMapping) {
582	>	initsrcindex(&si); /* sample ray to this source */
583	>	si.sn = r->slights[i];
584	>	nopart(&si, &sr);
585	>	if (!srcray(&sr, NULL, &si) \|\|
586	>	sr.rsrc != r->slights[i])
587	>	continue; /* no path */
588		#if SHADCACHE
589	<	if (srcblocked(&sr)) /* check shadow cache */
590	<	continue;
589	>	if (srcblocked(&sr)) /* check shadow cache */
590	>	continue;
591		#endif
592	<	copycolor(sr.cext, r->cext);
593	<	copycolor(sr.albedo, r->albedo);
594	<	sr.gecc = r->gecc;
595	<	sr.slights = r->slights;
596	<	rayvalue(&sr); /* eval. source ray */
597	<	if (bright(sr.rcol) <= FTINY) {
592	>	copycolor(sr.cext, r->cext);
593	>	copycolor(sr.albedo, r->albedo);
594	>	sr.gecc = r->gecc;
595	>	sr.slights = r->slights;
596	>	rayvalue(&sr); /* eval. source ray */
597	>	if (bright(sr.rcol) <= FTINY) {
598		#if SHADCACHE
599	<	srcblocker(&sr); /* add blocker to cache */
599	>	srcblocker(&sr); /* add blocker to cache */
600		#endif
601	<	continue;
602	<	}
603	<	if (r->gecc <= FTINY) /* compute P(theta) */
604	<	d = 1.;
605	<	else {
606	<	d = DOT(r->rdir, sr.rdir);
607	<	d = 1. + r->geccr->gecc - 2.r->gecc*d;
608	<	d = (1. - r->geccr->gecc) / (dsqrt(d));
609	<	}
601	>	continue;
602	>	}
603	>	if (r->gecc <= FTINY) /* compute P(theta) */
604	>	d = 1.;
605	>	else {
606	>	d = DOT(r->rdir, sr.rdir);
607	>	d = 1. + r->geccr->gecc - 2.r->gecc*d;
608	>	d = (1. - r->geccr->gecc) / (dsqrt(d));
609	>	}
610		/* other factors */
611	<	d = si.dom r->rot / (4.PInsamps);
611	>	d = si.dom r->rot / (4.PInsamps);
612	>	scalecolor(sr.rcol, d);
613	>	} else {
614	>	/* PMAP: Add ambient inscattering from
615	>	* volume photons; note we reverse the
616	>	* incident ray direction since we're
617	>	* now in backward raytracing mode! */
618	>	sr.rdir [0] = -r -> rdir [0];
619	>	sr.rdir [1] = -r -> rdir [1];
620	>	sr.rdir [2] = -r -> rdir [2];
621	>	sr.gecc = r -> gecc;
622	>	inscatterVolumePmap(&sr, sr.rcol);
623	>	scalecolor(sr.rcol, r -> rot / nsamps);
624	>	}
625		multcolor(sr.rcol, r->cext);
626		multcolor(sr.rcol, r->albedo);
528	–	scalecolor(sr.rcol, d);
627		multcolor(sr.rcol, cvext);
628		addcolor(r->rcol, sr.rcol); /* add it in */
629		}
#	Line 553 \| Line 651 \| *srcscatter( / compute source scattering into ray /*
651		static int
652		weaksrcmat(OBJECT obj) /* identify material */
653		{
654	<	OBJREC *o = findmaterial(objptr(obj));
654	>	OBJREC *m = findmaterial(objptr(obj));
655
656	<	if (o == NULL) return 0;
657	<	return((o->otype==MAT_ILLUM)\|(o->otype==MAT_GLOW));
656	>	if (m == NULL) return(0);
657	>	return((m->otype==MAT_ILLUM) \| (m->otype==MAT_GLOW));
658		}
659
660		#define illumblock(m, r) (!(source[r->rsrc].sflags&SVIRTUAL) && \
#	Line 592 \| Line 690 \| *weaksrcmat(OBJECT obj) / identify material /*
690		* The same is true for stray specular samples, since the specular
691		* contribution from light sources is calculated separately.
692		*/
693	<
694	<	#define badcomponent(m, r) (r->crtype&(AMBIENT\|SPECULAR) && \
693	>	/* PMAP: Also avoid counting sources via transferred ambient rays (e.g.
694	>	* through glass) when photon mapping is enabled, as these indirect
695	>	* components are already accounted for.
696	>	*/
697	>	#define badcomponent(m, r) (srcRayInPmap(r) \|\| \
698	>	(r->crtype&(AMBIENT\|SPECULAR) && \
699		!(r->crtype&SHADOW \|\| r->rod < 0.0 \|\| \
700	<	/* not 100% correct */ distglow(m, r, r->rot)))
700	>	/* not 100% correct */ distglow(m, r, r->rot))))
701
702		/* passillum *
703		*
#	Line 617 \| Line 719 \| *weaksrcmat(OBJECT obj) / identify material /*
719		distglow(m, r, raydist(r,PRIMARY)))
720
721
722	<	extern int
722	>	int
723		m_light( /* ray hit a light source */
724	<	register OBJREC *m,
725	<	register RAY *r
724	>	OBJREC *m,
725	>	RAY *r
726		)
727		{
728		/* check for over-counting */
729	<	if (badcomponent(m, r))
729	>	if (badcomponent(m, r)) {
730	>	setcolor(r->rcoef, 0.0, 0.0, 0.0);
731		return(1);
732	<	if (wrongsource(m, r))
732	>	}
733	>	if (wrongsource(m, r)) {
734	>	setcolor(r->rcoef, 0.0, 0.0, 0.0);
735		return(1);
736	+	}
737		/* check for passed illum */
738		if (passillum(m, r)) {
739		if (m->oargs.nsargs && strcmp(m->oargs.sarg[0], VOIDID))
#	Line 635 \| Line 741 \| *m_light( / ray hit a light source /*
741		raytrans(r);
742		return(1);
743		}
744	+	/* check for invisibility */
745	+	if (srcignore(m, r)) {
746	+	setcolor(r->rcoef, 0.0, 0.0, 0.0);
747	+	return(1);
748	+	}
749		/* otherwise treat as source */
750		/* check for behind */
751		if (r->rod < 0.0)
641	–	return(1);
642	–	/* check for invisibility */
643	–	if (srcignore(m, r))
752		return(1);
753		/* check for outside spot */
754		if (m->otype==MAT_SPOT && spotout(r, makespot(m)))

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Comparing ray/src/rt/source.c (file contents): Revision 2.45 by greg, Wed Jun 23 12:58:02 2004 UTC vs. Revision 2.68 by greg, Mon Jun 11 15:10:49 2018 UTC

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Comparing ray/src/rt/source.c (file contents):
Revision 2.45 by greg, Wed Jun 23 12:58:02 2004 UTC vs.
Revision 2.68 by greg, Mon Jun 11 15:10:49 2018 UTC