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

Comparing ray/src/rt/virtuals.c (file contents):
Revision 1.5 by greg, Thu Jun 20 17:08:39 1991 UTC vs.
Revision 2.20 by greg, Fri Sep 14 13:34:02 2012 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1991 Regents of the University of California */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ LBL";
2	>	static const char RCSid[] = "$Id$";
3		#endif
6	–
4		/*
5		* Routines for simulating virtual light sources
6		* Thus far, we only support planar mirrors.
7	+	*
8	+	* External symbols declared in source.h
9		*/
10
11	+	#include "copyright.h"
12	+
13		#include "ray.h"
14
15		#include "otypes.h"
16
17		#include "source.h"
18
19	+	#include "random.h"
20
21	<	double intercircle();
21	>	#define MINSAMPLES 16 /* minimum number of pretest samples */
22	>	#define STESTMAX 32 /* maximum seeks per sample */
23
24	+	#define FEQ(a,b) ((a)-(b)+FTINY >= 0 && (b)-(a)+FTINY >= 0)
25	+
26	+
27		static OBJECT vobject; / virtual source objects */
28		static int nvobjects = 0; /* number of virtual source objects */
29
30
31	<	markvirtuals() /* find and mark virtual sources */
31	>	static int
32	>	isident4(MAT4 m)
33		{
34	<	register OBJREC *o;
35	<	register int i;
34	>	int i, j;
35	>
36	>	for (i = 4; i--; )
37	>	for (j = 4; j--; )
38	>	if (!FEQ(m[i][j], i==j))
39	>	return(0);
40	>	return(1);
41	>	}
42	>
43	>
44	>	void
45	>	markvirtuals(void) /* find and mark virtual sources */
46	>	{
47	>	OBJREC *o;
48	>	int i;
49		/* check number of direct relays */
50		if (directrelay <= 0)
51		return;
52		/* find virtual source objects */
53	<	for (i = 0; i < nobjects; i++) {
53	>	for (i = 0; i < nsceneobjs; i++) {
54		o = objptr(i);
55		if (!issurface(o->otype) \|\| o->omod == OVOID)
56		continue;
57	<	if (!isvlight(objptr(o->omod)->otype))
57	>	if (!isvlight(vsmaterial(o)->otype))
58		continue;
59		if (sfun[o->otype].of == NULL \|\|
60	<	sfun[o->otype].of->getpleq == NULL)
61	<	objerror(o, USER, "illegal material");
60	>	sfun[o->otype].of->getpleq == NULL) {
61	>	objerror(o,WARNING,"secondary sources not supported");
62	>	continue;
63	>	}
64		if (nvobjects == 0)
65		vobject = (OBJECT *)malloc(sizeof(OBJECT));
66		else
67	<	vobject = (OBJECT )realloc((char )vobject,
67	>	vobject = (OBJECT )realloc((void )vobject,
68		(unsigned)(nvobjects+1)*sizeof(OBJECT));
69		if (vobject == NULL)
70		error(SYSTEM, "out of memory in addvirtuals");
#	Line 55 \| Line 77 \| *markvirtuals() / find and mark virtual sources /*
77		#endif
78		/* append virtual sources */
79		for (i = nsources; i-- > 0; )
80	<	if (!(source[i].sflags & SSKIP))
59	<	addvirtuals(i, directrelay);
80	>	addvirtuals(i, directrelay);
81		/* done with our object list */
82	<	free((char *)vobject);
82	>	free((void *)vobject);
83		nvobjects = 0;
84		}
85
86
87	<	addvirtuals(sn, nr) /* add virtuals associated with source */
88	<	int sn;
89	<	int nr;
87	>	void
88	>	addvirtuals( /* add virtuals associated with source */
89	>	int sn,
90	>	int nr
91	>	)
92		{
93	<	register int i;
93	>	int i;
94		/* check relay limit first */
95		if (nr <= 0)
96		return;
97	+	if (source[sn].sflags & SSKIP)
98	+	return;
99		/* check each virtual object for projection */
100		for (i = 0; i < nvobjects; i++)
101		/* vproject() calls us recursively */
#	Line 78 \| Line 103 \| int nr;
103		}
104
105
106	<	vproject(o, sn, n) /* create projected source(s) if they exist */
107	<	OBJREC *o;
108	<	int sn;
109	<	int n;
106	>	void
107	>	vproject( /* create projected source(s) if they exist */
108	>	OBJREC *o,
109	>	int sn,
110	>	int n
111	>	)
112		{
113	<	register int i;
114	<	register VSMATERIAL *vsmat;
113	>	int i;
114	>	VSMATERIAL *vsmat;
115		MAT4 proj;
116		int ns;
117
118		if (o == source[sn].so) /* objects cannot project themselves */
119		return;
120		/* get virtual source material */
121	<	vsmat = sfun[objptr(o->omod)->otype].mf;
121	>	vsmat = sfun[vsmaterial(o)->otype].mf;
122		/* project virtual sources */
123		for (i = 0; i < vsmat->nproj; i++)
124		if ((*vsmat->vproj)(proj, o, &source[sn], i))
125		if ((ns = makevsrc(o, sn, proj)) >= 0) {
126	+	source[ns].sa.sv.pn = i;
127		#ifdef DEBUG
128	<	virtverb(&source[ns], stderr);
128	>	virtverb(ns, stderr);
129		#endif
130		addvirtuals(ns, n);
131		}
132		}
133
134
135	+	OBJREC *
136	+	vsmaterial( /* get virtual source material pointer */
137	+	OBJREC *o
138	+	)
139	+	{
140	+	int i;
141	+	OBJREC *m;
142	+
143	+	i = o->omod;
144	+	m = findmaterial(objptr(i));
145	+	if (m == NULL)
146	+	return(objptr(i));
147	+	if (m->otype != MAT_ILLUM \|\| m->oargs.nsargs < 1 \|\|
148	+	!strcmp(m->oargs.sarg[0], VOIDID) \|\|
149	+	(i = lastmod(objndx(m), m->oargs.sarg[0])) == OVOID)
150	+	return(m); /* direct modifier */
151	+	return(objptr(i)); /* illum alternate */
152	+	}
153	+
154	+
155		int
156	<	makevsrc(op, sn, pm) /* make virtual source if reasonable */
157	<	OBJREC *op;
158	<	register int sn;
159	<	MAT4 pm;
156	>	makevsrc( /* make virtual source if reasonable */
157	>	OBJREC *op,
158	>	int sn,
159	>	MAT4 pm
160	>	)
161		{
162	<	register int nsn;
163	<	FVECT nsloc, ocent, nsnorm;
162	>	FVECT nsloc, nsnorm, ocent, v;
163	>	double maxrad2, d;
164		int nsflags;
116	–	double maxrad2;
117	–	double d1;
165		SPOT theirspot, ourspot;
166	<	register int i;
167	<
168	<	nsflags = (source[sn].sflags\|(SVIRTUAL\|SFOLLOW)) & ~SSPOT;
166	>	int i;
167	>	/* check for no-op */
168	>	if (isident4(pm))
169	>	return(0);
170	>	nsflags = source[sn].sflags \| (SVIRTUAL\|SSPOT\|SFOLLOW);
171		/* get object center and max. radius */
172	<	if (sfun[op->otype].of->getdisk != NULL) {
173	<	maxrad2 = (*sfun[op->otype].of->getdisk)(ocent, op);
174	<	if (maxrad2 <= FTINY) /* too small? */
126	<	return(-1);
127	<	nsflags \|= SSPOT;
128	<	}
172	>	maxrad2 = getdisk(ocent, op, sn);
173	>	if (maxrad2 <= FTINY) /* too small? */
174	>	return(-1);
175		/* get location and spot */
176		if (source[sn].sflags & SDISTANT) { /* distant source */
177		if (source[sn].sflags & SPROX)
178		return(-1); /* should never get here! */
179		multv3(nsloc, source[sn].sloc, pm);
180	<	if (nsflags & SSPOT) {
181	<	VCOPY(ourspot.aim, ocent);
182	<	ourspot.siz = PI*maxrad2;
183	<	ourspot.flen = 0.;
138	<	}
180	>	normalize(nsloc);
181	>	VCOPY(ourspot.aim, ocent);
182	>	ourspot.siz = PI*maxrad2;
183	>	ourspot.flen = -1.;
184		if (source[sn].sflags & SSPOT) {
140	–	copystruct(&theirspot, source[sn].sl.s);
185		multp3(theirspot.aim, source[sn].sl.s->aim, pm);
186	<	if (nsflags & SSPOT &&
187	<	!commonbeam(&ourspot, &theirspot, nsloc))
188	<	return(-1); /* no overlap */
186	>	/* adjust for source size */
187	>	d = sqrt(dist2(ourspot.aim, theirspot.aim));
188	>	d = sqrt(source[sn].sl.s->siz/PI) + d*source[sn].srad;
189	>	theirspot.siz = PIdd;
190	>	ourspot.flen = theirspot.flen = source[sn].sl.s->flen;
191	>	d = ourspot.siz;
192	>	if (!commonbeam(&ourspot, &theirspot, nsloc))
193	>	return(-1); /* no overlap */
194	>	if (ourspot.siz < d-FTINY) { /* it shrunk */
195	>	d = beamdisk(v, op, &ourspot, nsloc);
196	>	if (d <= FTINY)
197	>	return(-1);
198	>	if (d < maxrad2) {
199	>	maxrad2 = d;
200	>	VCOPY(ocent, v);
201	>	}
202	>	}
203		}
204		} else { /* local source */
205		multp3(nsloc, source[sn].sloc, pm);
206	<	if (nsflags & SSPOT) {
207	<	for (i = 0; i < 3; i++)
208	<	ourspot.aim[i] = ocent[i] - nsloc[i];
209	<	if ((d1 = normalize(ourspot.aim)) == 0.)
210	<	return(-1); /* at source!! */
211	<	if (source[sn].sflags & SPROX &&
212	<	d1 > source[sn].sl.prox)
213	<	return(-1); /* too far away */
214	<	ourspot.siz = 2.PI(1. - d1/sqrt(d1*d1+maxrad2));
215	<	ourspot.flen = 0.;
216	<	} else if (source[sn].sflags & SPROX) {
217	<	FVECT norm;
218	<	double offs;
161	<	/* use distance from plane */
162	<	offs = (*sfun[op->otype].of->getpleq)(norm, op);
163	<	d1 = DOT(norm, nsloc) - offs;
164	<	if (d1 < 0.) d1 = -d1;
165	<	if (d1 > source[sn].sl.prox)
166	<	return(-1); /* too far away */
167	<	}
206	>	for (i = 0; i < 3; i++)
207	>	ourspot.aim[i] = ocent[i] - nsloc[i];
208	>	if ((d = normalize(ourspot.aim)) == 0.)
209	>	return(-1); /* at source!! */
210	>	if (source[sn].sflags & SPROX && d > source[sn].sl.prox)
211	>	return(-1); /* too far away */
212	>	ourspot.flen = 0.;
213	>	/* adjust for source size */
214	>	d = (sqrt(maxrad2) + source[sn].srad) / d;
215	>	if (d < 1.-FTINY)
216	>	ourspot.siz = 2.PI(1. - sqrt(1.-d*d));
217	>	else
218	>	nsflags &= ~SSPOT;
219		if (source[sn].sflags & SSPOT) {
220	<	copystruct(&theirspot, source[sn].sl.s);
220	>	theirspot = *(source[sn].sl.s);
221		multv3(theirspot.aim, source[sn].sl.s->aim, pm);
222	+	normalize(theirspot.aim);
223		if (nsflags & SSPOT) {
224	+	ourspot.flen = theirspot.flen;
225	+	d = ourspot.siz;
226		if (!commonspot(&ourspot, &theirspot, nsloc))
227		return(-1); /* no overlap */
228	<	ourspot.flen = theirspot.flen;
228	>	} else {
229	>	nsflags \|= SSPOT;
230	>	ourspot = theirspot;
231	>	d = 2.*ourspot.siz;
232		}
233	+	if (ourspot.siz < d-FTINY) { /* it shrunk */
234	+	d = spotdisk(v, op, &ourspot, nsloc);
235	+	if (d <= FTINY)
236	+	return(-1);
237	+	if (d < maxrad2) {
238	+	maxrad2 = d;
239	+	VCOPY(ocent, v);
240	+	}
241	+	}
242		}
243		if (source[sn].sflags & SFLAT) { /* behind source? */
244		multv3(nsnorm, source[sn].snorm, pm);
245	<	if (nsflags & SSPOT && checkspot(&ourspot, nsnorm) < 0)
245	>	normalize(nsnorm);
246	>	if (nsflags & SSPOT && !checkspot(&ourspot, nsnorm))
247		return(-1);
248		}
249		}
250	<	/* everything is OK, make source */
251	<	if ((nsn = newsource()) < 0)
250	>	/* pretest visibility */
251	>	nsflags = vstestvis(nsflags, op, ocent, maxrad2, sn);
252	>	if (nsflags & SSKIP)
253	>	return(-1); /* obstructed */
254	>	/* it all checks out, so make it */
255	>	if ((i = newsource()) < 0)
256		goto memerr;
257	<	source[nsn].sflags = nsflags;
258	<	VCOPY(source[nsn].sloc, nsloc);
257	>	source[i].sflags = nsflags;
258	>	VCOPY(source[i].sloc, nsloc);
259	>	multv3(source[i].ss[SU], source[sn].ss[SU], pm);
260	>	multv3(source[i].ss[SV], source[sn].ss[SV], pm);
261		if (nsflags & SFLAT)
262	<	VCOPY(source[nsn].snorm, nsnorm);
263	<	source[nsn].ss = source[sn].ss; source[nsn].ss2 = source[sn].ss2;
264	<	if ((nsflags \| source[sn].sflags) & SSPOT) {
265	<	if ((source[nsn].sl.s = (SPOT *)malloc(sizeof(SPOT))) == NULL)
262	>	VCOPY(source[i].snorm, nsnorm);
263	>	else
264	>	multv3(source[i].ss[SW], source[sn].ss[SW], pm);
265	>	source[i].srad = source[sn].srad;
266	>	source[i].ss2 = source[sn].ss2;
267	>	if (nsflags & SSPOT) {
268	>	if ((source[i].sl.s = (SPOT *)malloc(sizeof(SPOT))) == NULL)
269		goto memerr;
270	<	if (nsflags & SSPOT)
195	<	copystruct(source[nsn].sl.s, &ourspot);
196	<	else
197	<	copystruct(source[nsn].sl.s, &theirspot);
198	<	source[nsn].sflags \|= SSPOT;
270	>	*(source[i].sl.s) = ourspot;
271		}
272		if (nsflags & SPROX)
273	<	source[nsn].sl.prox = source[sn].sl.prox;
274	<	source[nsn].sa.svnext = sn;
275	<	source[nsn].so = op;
276	<	return(nsn);
273	>	source[i].sl.prox = source[sn].sl.prox;
274	>	source[i].sa.sv.sn = sn;
275	>	source[i].so = op;
276	>	return(i);
277		memerr:
278		error(SYSTEM, "out of memory in makevsrc");
279	+	return -1; /* pro forma return */
280		}
281
282
283	<	commonspot(sp1, sp2, org) /* set sp1 to intersection of sp1 and sp2 */
284	<	register SPOT sp1, sp2;
285	<	FVECT org;
283	>	double
284	>	getdisk( /* get visible object disk */
285	>	FVECT oc,
286	>	OBJREC *op,
287	>	int sn
288	>	)
289		{
290	<	FVECT cent;
291	<	double rad2, cos1, cos2;
292	<
293	<	cos1 = 1. - sp1->siz/(2.*PI);
294	<	cos2 = 1. - sp2->siz/(2.*PI);
295	<	if (sp2->siz >= 2.PI-FTINY) / BIG, just check overlap */
296	<	return(DOT(sp1->aim,sp2->aim) >= cos1*cos2 -
297	<	sqrt((1.-cos1cos1)(1.-cos2*cos2)));
298	<	/* compute and check disks */
299	<	rad2 = intercircle(cent, sp1->aim, sp2->aim,
300	<	1./(cos1cos1) - 1., 1./(cos2cos2) - 1.);
301	<	if (rad2 <= FTINY \|\| normalize(cent) == 0.)
302	<	return(0);
303	<	VCOPY(sp1->aim, cent);
304	<	sp1->siz = 2.PI(1. - 1./sqrt(1.+rad2));
305	<	return(1);
290	>	double rad2, roffs, offs, d, rd, rdoto;
291	>	FVECT rnrm, nrm;
292	>	/* first, use object getdisk function */
293	>	rad2 = getmaxdisk(oc, op);
294	>	if (!(source[sn].sflags & SVIRTUAL))
295	>	return(rad2); /* all done for normal source */
296	>	/* check for correct side of relay surface */
297	>	roffs = getplaneq(rnrm, source[sn].so);
298	>	rd = DOT(rnrm, source[sn].sloc); /* source projection */
299	>	if (!(source[sn].sflags & SDISTANT))
300	>	rd -= roffs;
301	>	d = DOT(rnrm, oc) - roffs; /* disk distance to relay plane */
302	>	if ((d > 0.) ^ (rd > 0.))
303	>	return(rad2); /* OK if opposite sides */
304	>	if (d*d >= rad2)
305	>	return(0.); /* no relay is possible */
306	>	/* we need a closer look */
307	>	offs = getplaneq(nrm, op);
308	>	rdoto = DOT(rnrm, nrm);
309	>	if (dd >= rad2(1.-rdoto*rdoto))
310	>	return(0.); /* disk entirely on projection side */
311	>	/* should shrink disk but I'm lazy */
312	>	return(rad2);
313		}
314
315
316	<	commonbeam(sp1, sp2, dir) /* set sp1 to intersection of sp1 and sp2 */
317	<	register SPOT sp1, sp2;
318	<	FVECT dir;
316	>	int
317	>	vstestvis( /* pretest source visibility */
318	>	int f, /* virtual source flags */
319	>	OBJREC o, / relay object */
320	>	FVECT oc, /* relay object center */
321	>	double or2, /* relay object radius squared */
322	>	int sn /* target source number */
323	>	)
324		{
325	<	FVECT cent, c1, c2;
326	<	double rad2, d;
327	<	register int i;
328	<	/* move centers to common plane */
329	<	d = DOT(sp1->aim, dir);
330	<	for (i = 0; i < 3; i++)
331	<	c1[i] = sp1->aim[i] - d*dir[i];
332	<	d = DOT(sp2->aim, dir);
333	<	for (i = 0; i < 3; i++)
334	<	c2[i] = sp2->aim[i] - d*dir[i];
335	<	/* compute overlap */
336	<	rad2 = intercircle(cent, c1, c2, sp1->siz/PI, sp2->siz/PI);
337	<	if (rad2 <= FTINY)
338	<	return(0);
339	<	VCOPY(sp1->aim, cent);
340	<	sp1->siz = PI*rad2;
341	<	return(1);
254	<	}
255	<
256	<
257	<	checkspot(sp, nrm) /* check spotlight for behind source */
258	<	register SPOT *sp;
259	<	FVECT nrm;
260	<	{
261	<	double d, d1;
262	<
263	<	d = DOT(sp->aim, nrm);
264	<	if (d > FTINY) /* center in front? */
265	<	return(0);
266	<	/* else check horizon */
267	<	d1 = 1. - sp->siz/(2.*PI);
268	<	return(1.-FTINY-dd > d1d1);
269	<	}
270	<
271	<
272	<	double
273	<	intercircle(cc, c1, c2, r1s, r2s) /* intersect two circles */
274	<	FVECT cc; /* midpoint (return value) */
275	<	FVECT c1, c2; /* circle centers */
276	<	double r1s, r2s; /* radii squared */
277	<	{
278	<	double a2, d2, l;
279	<	FVECT disp;
280	<	register int i;
281	<
282	<	for (i = 0; i < 3; i++)
283	<	disp[i] = c2[i] - c1[i];
284	<	d2 = DOT(disp,disp);
285	<	/* circle within overlap? */
286	<	if (r1s < r2s) {
287	<	if (r2s >= r1s + d2) {
288	<	VCOPY(cc, c1);
289	<	return(r1s);
290	<	}
325	>	RAY sr;
326	>	FVECT onorm;
327	>	FVECT offsdir;
328	>	SRCINDEX si;
329	>	double or, d, d1;
330	>	int stestlim, ssn;
331	>	int nhit, nok;
332	>	int i, n;
333	>	/* return if pretesting disabled */
334	>	if (vspretest <= 0)
335	>	return(f);
336	>	/* get surface normal */
337	>	getplaneq(onorm, o);
338	>	/* set number of rays to sample */
339	>	if (source[sn].sflags & SDISTANT) {
340	>	/* 32. == heuristic constant */
341	>	n = 32.or2/(thescene.cusizethescene.cusize)*vspretest + .5;
342		} else {
343	<	if (r1s >= r2s + d2) {
344	<	VCOPY(cc, c2);
345	<	return(r2s);
343	>	for (i = 0; i < 3; i++)
344	>	offsdir[i] = source[sn].sloc[i] - oc[i];
345	>	d = DOT(offsdir,offsdir);
346	>	if (d <= FTINY)
347	>	n = 2.PI vspretest + .5;
348	>	else
349	>	n = 2.PI (1.-sqrt(1./(1.+or2/d)))*vspretest + .5;
350	>	}
351	>	if (n < MINSAMPLES) n = MINSAMPLES;
352	>	#ifdef DEBUG
353	>	fprintf(stderr, "pretesting source %d in object %s with %d rays\n",
354	>	sn, o->oname, n);
355	>	#endif
356	>	/* sample */
357	>	or = sqrt(or2);
358	>	stestlim = n*STESTMAX;
359	>	ssn = 0;
360	>	nhit = nok = 0;
361	>	initsrcindex(&si);
362	>	while (n-- > 0) {
363	>	/* get sample point */
364	>	do {
365	>	if (ssn >= stestlim) {
366	>	#ifdef DEBUG
367	>	fprintf(stderr, "\ttoo hard to hit\n");
368	>	#endif
369	>	return(f); /* too small a target! */
370	>	}
371	>	multisamp(offsdir, 3, urand(sn*931+5827+ssn));
372	>	for (i = 0; i < 3; i++)
373	>	offsdir[i] = or(1. - 2.offsdir[i]);
374	>	ssn++;
375	>	d = 1. - DOT(offsdir, onorm);
376	>	for (i = 0; i < 3; i++) {
377	>	sr.rorg[i] = oc[i] + offsdir[i] + d*onorm[i];
378	>	sr.rdir[i] = -onorm[i];
379	>	}
380	>	rayorigin(&sr, PRIMARY, NULL, NULL);
381	>	} while (!(*ofun[o->otype].funp)(o, &sr));
382	>	/* check against source */
383	>	VCOPY(sr.rorg, sr.rop); /* starting from intersection */
384	>	samplendx++;
385	>	if (si.sp >= si.np-1 \|\|
386	>	!srcray(&sr, NULL, &si) \|\| sr.rsrc != sn) {
387	>	si.sn = sn-1; /* reset index to our source */
388	>	si.np = 0;
389	>	if (!srcray(&sr, NULL, &si) \|\| sr.rsrc != sn)
390	>	continue; /* can't get there from here */
391		}
392	+	sr.revf = srcvalue;
393	+	rayvalue(&sr); /* check sample validity */
394	+	if ((d = bright(sr.rcol)) <= FTINY)
395	+	continue;
396	+	nok++; /* got sample; check obstructions */
397	+	rayclear(&sr);
398	+	sr.revf = raytrace;
399	+	rayvalue(&sr);
400	+	if ((d1 = bright(sr.rcol)) > FTINY) {
401	+	if (d - d1 > FTINY) {
402	+	#ifdef DEBUG
403	+	fprintf(stderr, "\tpartially shadowed\n");
404	+	#endif
405	+	return(f); /* intervening transmitter */
406	+	}
407	+	nhit++;
408	+	}
409	+	if (nhit > 0 && nhit < nok) {
410	+	#ifdef DEBUG
411	+	fprintf(stderr, "\tpartially occluded\n");
412	+	#endif
413	+	return(f); /* need to shadow test */
414	+	}
415		}
416	<	a2 = .25(2.(r1s+r2s) - d2 - (r2s-r1s)*(r2s-r1s)/d2);
417	<	/* no overlap? */
418	<	if (a2 <= 0.)
419	<	return(0.);
420	<	/* overlap, compute center */
421	<	l = sqrt((r1s - a2)/d2);
422	<	for (i = 0; i < 3; i++)
423	<	cc[i] = c1[i] + l*disp[i];
424	<	return(a2);
416	>	if (nhit == 0) {
417	>	#ifdef DEBUG
418	>	fprintf(stderr, "\t0%% hit rate\n");
419	>	#endif
420	>	return(f \| SSKIP); /* 0% hit rate: totally occluded */
421	>	}
422	>	#ifdef DEBUG
423	>	fprintf(stderr, "\t100%% hit rate\n");
424	>	#endif
425	>	return(f & ~SFOLLOW); /* 100% hit rate: no occlusion */
426		}
427	+
428
308	–
429		#ifdef DEBUG
430	<	virtverb(vs, fp) /* print verbose description of virtual source */
431	<	register SRCREC *vs;
432	<	FILE *fp;
430	>	void
431	>	virtverb( /* print verbose description of virtual source */
432	>	int sn,
433	>	FILE *fp
434	>	)
435		{
314	–	register int i;
315	–
436		fprintf(fp, "%s virtual source %d in %s %s\n",
437	<	vs->sflags & SDISTANT ? "distant" : "local",
438	<	vs-source, ofun[vs->so->otype].funame, vs->so->oname);
437	>	source[sn].sflags & SDISTANT ? "distant" : "local",
438	>	sn, ofun[source[sn].so->otype].funame,
439	>	source[sn].so->oname);
440		fprintf(fp, "\tat (%f,%f,%f)\n",
441	<	vs->sloc[0], vs->sloc[1], vs->sloc[2]);
441	>	source[sn].sloc[0], source[sn].sloc[1], source[sn].sloc[2]);
442		fprintf(fp, "\tlinked to source %d (%s)\n",
443	<	vs->sa.svnext, source[vs->sa.svnext].so->oname);
444	<	if (vs->sflags & SFOLLOW)
443	>	source[sn].sa.sv.sn, source[source[sn].sa.sv.sn].so->oname);
444	>	if (source[sn].sflags & SFOLLOW)
445		fprintf(fp, "\talways followed\n");
446		else
447		fprintf(fp, "\tnever followed\n");
448	<	if (!(vs->sflags & SSPOT))
448	>	if (!(source[sn].sflags & SSPOT))
449		return;
450		fprintf(fp, "\twith spot aim (%f,%f,%f) and size %f\n",
451	<	vs->sl.s->aim[0], vs->sl.s->aim[1], vs->sl.s->aim[2],
452	<	vs->sl.s->siz);
451	>	source[sn].sl.s->aim[0], source[sn].sl.s->aim[1],
452	>	source[sn].sl.s->aim[2], source[sn].sl.s->siz);
453		}
454		#endif

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Comparing ray/src/rt/virtuals.c (file contents): Revision 1.5 by greg, Thu Jun 20 17:08:39 1991 UTC vs. Revision 2.20 by greg, Fri Sep 14 13:34:02 2012 UTC

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Comparing ray/src/rt/virtuals.c (file contents):
Revision 1.5 by greg, Thu Jun 20 17:08:39 1991 UTC vs.
Revision 2.20 by greg, Fri Sep 14 13:34:02 2012 UTC