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

Comparing ray/src/rt/virtuals.c (file contents):
Revision 1.8 by greg, Tue Jun 25 08:52:04 1991 UTC vs.
Revision 1.31 by greg, Fri Nov 8 16:34:27 1991 UTC

#	Line 19 \| Line 19 \| static char SCCSid[] = "$SunId$ LBL";
19
20		#include "random.h"
21
22	+	#define MINSAMPLES 16 /* minimum number of pretest samples */
23	+	#define STESTMAX 32 /* maximum seeks per sample */
24
25	+
26		double getdisk();
27
28		static OBJECT vobject; / virtual source objects */
#	Line 38 \| Line 41 \| *markvirtuals() / find and mark virtual sources /*
41		o = objptr(i);
42		if (!issurface(o->otype) \|\| o->omod == OVOID)
43		continue;
44	<	if (!isvlight(objptr(o->omod)->otype))
44	>	if (!isvlight(vsmaterial(o)->otype))
45		continue;
46		if (sfun[o->otype].of == NULL \|\|
47	<	sfun[o->otype].of->getpleq == NULL)
48	<	objerror(o, USER, "illegal material");
47	>	sfun[o->otype].of->getpleq == NULL) {
48	>	objerror(o,WARNING,"secondary sources not supported");
49	>	continue;
50	>	}
51		if (nvobjects == 0)
52		vobject = (OBJECT *)malloc(sizeof(OBJECT));
53		else
#	Line 96 \| Line 101 \| int n;
101		if (o == source[sn].so) /* objects cannot project themselves */
102		return;
103		/* get virtual source material */
104	<	vsmat = sfun[objptr(o->omod)->otype].mf;
104	>	vsmat = sfun[vsmaterial(o)->otype].mf;
105		/* project virtual sources */
106		for (i = 0; i < vsmat->nproj; i++)
107		if ((*vsmat->vproj)(proj, o, &source[sn], i))
108		if ((ns = makevsrc(o, sn, proj)) >= 0) {
109	+	source[ns].sa.sv.pn = i;
110		#ifdef DEBUG
111		virtverb(ns, stderr);
112		#endif
#	Line 109 \| Line 115 \| int n;
115		}
116
117
118	+	OBJREC *
119	+	vsmaterial(o) /* get virtual source material pointer */
120	+	OBJREC *o;
121	+	{
122	+	register int i;
123	+	register OBJREC *m;
124	+
125	+	i = o->omod;
126	+	m = objptr(i);
127	+	if (m->otype != MAT_ILLUM \|\| m->oargs.nsargs < 1 \|\|
128	+	!strcmp(m->oargs.sarg[0], VOIDID) \|\|
129	+	(i = modifier(m->oargs.sarg[0])) < 0)
130	+	return(m); /* direct modifier */
131	+	return(objptr(i)); /* illum alternate */
132	+	}
133	+
134	+
135		int
136		makevsrc(op, sn, pm) /* make virtual source if reasonable */
137		OBJREC *op;
138		register int sn;
139		MAT4 pm;
140		{
141	<	FVECT nsloc, nsnorm, ocent;
142	<	double maxrad2;
141	>	FVECT nsloc, nsnorm, ocent, v;
142	>	double maxrad2, d;
143		int nsflags;
121	–	double d1;
144		SPOT theirspot, ourspot;
145		register int i;
146
#	Line 132 \| Line 154 \| MAT4 pm;
154		if (source[sn].sflags & SPROX)
155		return(-1); /* should never get here! */
156		multv3(nsloc, source[sn].sloc, pm);
157	+	normalize(nsloc);
158		VCOPY(ourspot.aim, ocent);
159		ourspot.siz = PI*maxrad2;
160		ourspot.flen = 0.;
161		if (source[sn].sflags & SSPOT) {
139	–	copystruct(&theirspot, source[sn].sl.s);
162		multp3(theirspot.aim, source[sn].sl.s->aim, pm);
163	+	/* adjust for source size */
164	+	d = sqrt(dist2(ourspot.aim, theirspot.aim));
165	+	d = sqrt(source[sn].sl.s->siz/PI) + d*source[sn].srad;
166	+	theirspot.siz = PIdd;
167	+	ourspot.flen = theirspot.flen = source[sn].sl.s->flen;
168	+	d = ourspot.siz;
169		if (!commonbeam(&ourspot, &theirspot, nsloc))
170	<	return(-1); /* no overlap */
170	>	return(-1); /* no overlap */
171	>	if (ourspot.siz < d-FTINY) { /* it shrunk */
172	>	d = beamdisk(v, op, &ourspot, nsloc);
173	>	if (d <= FTINY)
174	>	return(-1);
175	>	if (d < maxrad2) {
176	>	maxrad2 = d;
177	>	VCOPY(ocent, v);
178	>	}
179	>	}
180		}
181		} else { /* local source */
182		multp3(nsloc, source[sn].sloc, pm);
183		for (i = 0; i < 3; i++)
184		ourspot.aim[i] = ocent[i] - nsloc[i];
185	<	if ((d1 = normalize(ourspot.aim)) == 0.)
185	>	if ((d = normalize(ourspot.aim)) == 0.)
186		return(-1); /* at source!! */
187	<	if (source[sn].sflags & SPROX && d1 > source[sn].sl.prox)
187	>	if (source[sn].sflags & SPROX && d > source[sn].sl.prox)
188		return(-1); /* too far away */
152	–	ourspot.siz = 2.PI(1. - d1/sqrt(d1*d1+maxrad2));
189		ourspot.flen = 0.;
190	+	/* adjust for source size */
191	+	d = (sqrt(maxrad2) + source[sn].srad) / d;
192	+	if (d < 1.-FTINY)
193	+	ourspot.siz = 2.PI(1. - sqrt(1.-d*d));
194	+	else
195	+	nsflags &= ~SSPOT;
196		if (source[sn].sflags & SSPOT) {
197		copystruct(&theirspot, source[sn].sl.s);
198		multv3(theirspot.aim, source[sn].sl.s->aim, pm);
199	<	if (!commonspot(&ourspot, &theirspot, nsloc))
200	<	return(-1); /* no overlap */
201	<	ourspot.flen = theirspot.flen;
199	>	normalize(theirspot.aim);
200	>	if (nsflags & SSPOT) {
201	>	ourspot.flen = theirspot.flen;
202	>	d = ourspot.siz;
203	>	if (!commonspot(&ourspot, &theirspot, nsloc))
204	>	return(-1); /* no overlap */
205	>	} else {
206	>	nsflags \|= SSPOT;
207	>	copystruct(&ourspot, &theirspot);
208	>	d = 2.*ourspot.siz;
209	>	}
210	>	if (ourspot.siz < d-FTINY) { /* it shrunk */
211	>	d = spotdisk(v, op, &ourspot, nsloc);
212	>	if (d <= FTINY)
213	>	return(-1);
214	>	if (d < maxrad2) {
215	>	maxrad2 = d;
216	>	VCOPY(ocent, v);
217	>	}
218	>	}
219		}
220		if (source[sn].sflags & SFLAT) { /* behind source? */
221		multv3(nsnorm, source[sn].snorm, pm);
222	<	if (checkspot(&ourspot, nsnorm) < 0)
222	>	normalize(nsnorm);
223	>	if (nsflags & SSPOT && !checkspot(&ourspot, nsnorm))
224		return(-1);
225		}
226		}
#	Line 173 \| Line 233 \| MAT4 pm;
233		goto memerr;
234		source[i].sflags = nsflags;
235		VCOPY(source[i].sloc, nsloc);
236	+	multv3(source[i].ss[SU], source[sn].ss[SU], pm);
237	+	multv3(source[i].ss[SV], source[sn].ss[SV], pm);
238		if (nsflags & SFLAT)
239		VCOPY(source[i].snorm, nsnorm);
240	<	source[i].ss = source[sn].ss; source[i].ss2 = source[sn].ss2;
241	<	if ((source[i].sl.s = (SPOT *)malloc(sizeof(SPOT))) == NULL)
242	<	goto memerr;
243	<	copystruct(source[i].sl.s, &ourspot);
240	>	else
241	>	multv3(source[i].ss[SW], source[sn].ss[SW], pm);
242	>	source[i].srad = source[sn].srad;
243	>	source[i].ss2 = source[sn].ss2;
244	>	if (nsflags & SSPOT) {
245	>	if ((source[i].sl.s = (SPOT *)malloc(sizeof(SPOT))) == NULL)
246	>	goto memerr;
247	>	copystruct(source[i].sl.s, &ourspot);
248	>	}
249		if (nsflags & SPROX)
250		source[i].sl.prox = source[sn].sl.prox;
251	<	source[i].sa.svnext = sn;
251	>	source[i].sa.sv.sn = sn;
252		source[i].so = op;
253		return(i);
254		memerr:
#	Line 198 \| Line 265 \| register int sn;
265		double rad2, roffs, offs, d, rd, rdoto;
266		FVECT rnrm, nrm;
267		/* first, use object getdisk function */
268	<	rad2 = (*sfun[op->otype].of->getdisk)(oc, op);
268	>	rad2 = getmaxdisk(oc, op);
269		if (!(source[sn].sflags & SVIRTUAL))
270		return(rad2); /* all done for normal source */
271		/* check for correct side of relay surface */
272	<	roffs = (*sfun[source[sn].so->otype].of->getpleq)(rnrm, source[sn].so);
272	>	roffs = getplaneq(rnrm, source[sn].so);
273		rd = DOT(rnrm, source[sn].sloc); /* source projection */
274		if (!(source[sn].sflags & SDISTANT))
275		rd -= roffs;
#	Line 210 \| Line 277 \| register int sn;
277		if ((d > 0.) ^ (rd > 0.))
278		return(rad2); /* OK if opposite sides */
279		if (d*d >= rad2)
280	<	return(.0); /* no relay is possible */
280	>	return(0.); /* no relay is possible */
281		/* we need a closer look */
282	<	offs = (*sfun[op->otype].of->getpleq)(nrm, op);
282	>	offs = getplaneq(nrm, op);
283		rdoto = DOT(rnrm, nrm);
284		if (dd >= rad2(1.-rdoto*rdoto))
285		return(0.); /* disk entirely on projection side */
#	Line 232 \| Line 299 \| *register int sn; / target source number /*
299		RAY sr;
300		FVECT onorm;
301		FVECT offsdir;
302	+	SRCINDEX si;
303		double or, d;
304		int infront;
305	<	int ssn;
306	<	int nok, nhit;
305	>	int stestlim, ssn;
306	>	int nhit, nok;
307		register int i, n;
308		/* return if pretesting disabled */
309		if (vspretest <= 0)
310		return(f);
311		/* get surface normal */
312	<	(*sfun[o->otype].of->getpleq)(onorm, o);
312	>	getplaneq(onorm, o);
313		/* set number of rays to sample */
314		if (source[sn].sflags & SDISTANT) {
315	<	n = (2./3.PIPI)or2/(thescene.cusizethescene.cusize)*
316	<	vspretest + .5;
315	>	/* 32. == heuristic constant */
316	>	n = 32.or2/(thescene.cusizethescene.cusize)*vspretest + .5;
317		infront = DOT(onorm, source[sn].sloc) > 0.;
318		} else {
251	–	n = or2/dist2(oc,source[sn].sloc)*vspretest + .5;
319		for (i = 0; i < 3; i++)
320		offsdir[i] = source[sn].sloc[i] - oc[i];
321	+	d = DOT(offsdir,offsdir);
322	+	if (d <= FTINY)
323	+	n = 2.PI vspretest + .5;
324	+	else
325	+	n = 2.PI (1.-sqrt(1./(1.+or2/d)))*vspretest + .5;
326		infront = DOT(onorm, offsdir) > 0.;
327		}
328	<	if (n < 1) n = 1;
328	>	if (n < MINSAMPLES) n = MINSAMPLES;
329	>	#ifdef DEBUG
330	>	fprintf(stderr, "pretesting source %d in object %s with %d rays\n",
331	>	sn, o->oname, n);
332	>	#endif
333		/* sample */
334		or = sqrt(or2);
335	<	ssn = 7*n;
335	>	stestlim = n*STESTMAX;
336	>	ssn = 0;
337		nhit = nok = 0;
338		while (n-- > 0) {
339		/* get sample point */
340		do {
341	<	if (--ssn < 0)
341	>	if (ssn >= stestlim) {
342	>	#ifdef DEBUG
343	>	fprintf(stderr, "\ttoo hard to hit\n");
344	>	#endif
345		return(f); /* too small a target! */
346	+	}
347	+	multisamp(offsdir, 3, urand(sn*931+5827+ssn));
348		for (i = 0; i < 3; i++)
349	<	offsdir[i] = or*(1. -
350	<	2.urand(931i+5827+ssn));
349	>	offsdir[i] = or(1. - 2.offsdir[i]);
350	>	ssn++;
351		for (i = 0; i < 3; i++)
352		sr.rorg[i] = oc[i] + offsdir[i];
353		d = DOT(offsdir,onorm);
#	Line 282 \| Line 364 \| *register int sn; / target source number /*
364		rayorigin(&sr, NULL, PRIMARY, 1.0);
365		} while (!(*ofun[o->otype].funp)(o, &sr));
366		/* check against source */
367	+	initsrcindex(&si);
368	+	si.sn = sn;
369	+	nopart(&si, &sr);
370		samplendx++;
371	<	if (srcray(&sr, NULL, sn) == 0.0)
371	>	if (!srcray(&sr, NULL, &si) \|\| sr.rsrc != sn)
372		continue;
373		sr.revf = srcvalue;
374		rayvalue(&sr);
#	Line 291 \| Line 376 \| *register int sn; / target source number /*
376		continue;
377		nok++;
378		/* check against obstructions */
379	<	srcray(&sr, NULL, sn);
379	>	rayclear(&sr);
380	>	sr.revf = raytrace;
381		rayvalue(&sr);
382	<	if (bright(sr.rcol) <= FTINY)
383	<	continue;
384	<	nhit++;
382	>	if (bright(sr.rcol) > FTINY)
383	>	nhit++;
384	>	if (nhit > 0 && nhit < nok) {
385	>	#ifdef DEBUG
386	>	fprintf(stderr, "\tpartially occluded\n");
387	>	#endif
388	>	return(f); /* need to shadow test */
389	>	}
390		}
391	<	/* interpret results */
392	<	if (nhit == 0)
391	>	if (nhit == 0) {
392	>	#ifdef DEBUG
393	>	fprintf(stderr, "\t0%% hit rate\n");
394	>	#endif
395		return(f \| SSKIP); /* 0% hit rate: totally occluded */
396	<	if (nhit == nok)
397	<	return(f & ~SFOLLOW); /* 100% hit rate: no occlusion */
398	<	return(f); /* no comment */
396	>	}
397	>	#ifdef DEBUG
398	>	fprintf(stderr, "\t100%% hit rate\n");
399	>	#endif
400	>	return(f & ~SFOLLOW); /* 100% hit rate: no occlusion */
401		}
402
403
#	Line 320 \| Line 415 \| *FILE fp;**
415		fprintf(fp, "\tat (%f,%f,%f)\n",
416		source[sn].sloc[0], source[sn].sloc[1], source[sn].sloc[2]);
417		fprintf(fp, "\tlinked to source %d (%s)\n",
418	<	source[sn].sa.svnext, source[source[sn].sa.svnext].so->oname);
418	>	source[sn].sa.sv.sn, source[source[sn].sa.sv.sn].so->oname);
419		if (source[sn].sflags & SFOLLOW)
420		fprintf(fp, "\talways followed\n");
421		else

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Comparing ray/src/rt/virtuals.c (file contents): Revision 1.8 by greg, Tue Jun 25 08:52:04 1991 UTC vs. Revision 1.31 by greg, Fri Nov 8 16:34:27 1991 UTC

Diff Legend

Comparing ray/src/rt/virtuals.c (file contents):
Revision 1.8 by greg, Tue Jun 25 08:52:04 1991 UTC vs.
Revision 1.31 by greg, Fri Nov 8 16:34:27 1991 UTC