[ViewVC] Diff of: radiance/src/util/glaresrc.c

Comparing src/util/glaresrc.c (file contents):
Revision 1.1 by greg, Mon Mar 18 12:15:40 1991 UTC vs.
Revision 2.5 by schorsch, Fri Jan 2 12:51:54 2004 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		* Gather samples and compute glare sources.
6		*/
7
8		#include "glare.h"
9	+	#include "linregr.h"
10
11		#define vcont(vd,vu) ((vu)-(vd)<=SEPS)
12		#define hcont(s1,s2) ((s1)->r-(s2)->l>=-SEPS&&(s2)->r-(s1)->l>=-SEPS)
#	Line 16 \| Line 14 \| static char SCCSid[] = "$SunId$ LBL";
14		struct source curlist = NULL; / current source list */
15		struct source donelist = NULL; / finished sources */
16
17	<	double threshold; /* glare threshold */
17	>	static struct srcspan * newspan(int l, int r, int v, float *sb);
18	>	static struct srcspan * newspan(int l, int r, int v, float *sb);
19	>	static void addindirect(int h, int v, double br);
20	>	static void addsrcspan(struct srcspan *nss);
21	>	static void mergesource(struct source sp, struct source ap);
22	>	static void close_sources(int v);
23	>	static void close_allsrcs(void);
24	>	static struct srcspan * splitspan(register struct srcspan *sso, double h, double v, double m);
25	>	static struct source * splitsource(struct source *so);
26	>	static void donesource(register struct source *sp);
27	>	static struct source * findbuddy(register struct source s, register struct source l);
28	>	static void absorb(register struct source *s);
29	>	static void freespans(struct source *sp);
30
31
32	<	struct srcspan *
33	<	newspan(l, r, v, sb) /* allocate a new source span */
34	<	int l, r, v;
35	<	float *sb;
32	>	static struct srcspan *
33	>	newspan( /* allocate a new source span */
34	>	int l,
35	>	int r,
36	>	int v,
37	>	float *sb
38	>	)
39		{
40		register struct srcspan *ss;
41		register int i;
#	Line 40 \| Line 53 \| *float sb;**
53		}
54
55
56	<	analyze() /* analyze our scene */
56	>	extern void
57	>	analyze(void) /* analyze our scene */
58		{
59		int h, v;
60		int left;
#	Line 50 \| Line 64 \| *analyze() / analyze our scene /*
64		if (spanbr == NULL)
65		memerr("view span brightness buffer");
66		for (v = vsize; v >= -vsize; v--) {
67	+	close_sources(v);
68	+	#ifndef DEBUG
69	+	if (verbose) {
70	+	fprintf(stderr, "%s: analyzing... %3ld%%\r",
71	+	progname, 100L(vsize-v)/(2vsize));
72	+	fflush(stderr);
73	+	}
74	+	#endif
75		getviewspan(v, spanbr);
76		left = hsize + 1;
77	<	for (h = -hsize; h <= hsize; h++)
77	>	for (h = -hsize; h <= hsize; h++) {
78		if (spanbr[h+hsize] < 0.0) { /* off view */
79		if (left < h) {
80	<	addsrcspan(newspan(left,h-1,v,spanbr));
80	>	addsrcspan(newspan(left,h,v,spanbr));
81		left = hsize + 1;
82		}
83		continue;
84		}
85		if (spanbr[h+hsize] > threshold) { /* in source */
86	<	if (left >= h)
86	>	if (left > h)
87		left = h;
88		} else { /* out of source */
89		if (left < h) {
90	<	addsrcspan(newspan(left,h-1,v,spanbr));
90	>	addsrcspan(newspan(left,h,v,spanbr));
91		left = hsize + 1;
92		}
93	<	addindirect(h, spanbr[h+hsize]);
93	>	addindirect(h, v, spanbr[h+hsize]);
94		}
95	+	}
96		if (left < h)
97	<	addsrcspan(newspan(left,h-1,v,spanbr));
75	<	close_sources(v);
97	>	addsrcspan(newspan(left,h,v,spanbr));
98		}
99	+	free((void *)spanbr);
100		close_allsrcs();
78	–	free((char *)spanbr);
101		}
102
103
104	<	addindirect(h, br) /* add brightness to indirect illuminances */
105	<	int h;
106	<	double br;
104	>	static void
105	>	addindirect( /* add brightness to indirect illuminances */
106	>	int h,
107	>	int v,
108	>	double br
109	>	)
110		{
111		double tanb, d;
112	+	int hl;
113		register int i;
114
115	<	if (h <= -hlim) { /* left region */
116	<	d = (double)(h+hlim)/SAMPDENS;
117	<	if (d <= -1.0+FTINY)
115	>	hl = hlim(v);
116	>	if (h <= -hl) { /* left region */
117	>	d = (double)(-h-hl)/sampdens;
118	>	if (d >= 1.0-FTINY)
119		return;
120		tanb = d/sqrt(1.0-d*d);
121		for (i = 0; i < nglardirs; i++) {
122		d = indirect[i].lcos - tanb*indirect[i].lsin;
123		if (d > 0.0) {
124		indirect[i].sum += d * br;
125	<	indirect[i].n++;
125	>	indirect[i].n += d;
126		}
127		}
128		return;
129		}
130	<	if (h >= hlim) { /* right region */
131	<	d = (double)(h-hlim)/SAMPDENS;
132	<	if (d >= 1.0-FTINY)
130	>	if (h >= hl) { /* right region */
131	>	d = (double)(-h+hl)/sampdens;
132	>	if (d <= -1.0+FTINY)
133		return;
134		tanb = d/sqrt(1.0-d*d);
135		for (i = 0; i < nglardirs; i++) {
136		d = indirect[i].rcos - tanb*indirect[i].rsin;
137		if (d > 0.0) {
138		indirect[i].sum += d * br;
139	<	indirect[i].n++;
139	>	indirect[i].n += d;
140		}
141		}
142		return;
143		}
144		/* central region */
145		for (i = 0; i < nglardirs; i++) {
146	<	d = cos(h_theta(h) - indirect[i].theta);
146	>	d = cos(h_theta(h,v) - indirect[i].theta);
147		if (d > 0.0) {
148		indirect[i].sum += d * br;
149	<	indirect[i].n++;
149	>	indirect[i].n += d;
150		}
151		}
152		}
153
154
155	<	comp_thresh() /* compute glare threshold */
155	>	extern void
156	>	comp_thresh(void) /* compute glare threshold */
157		{
158		int h, v;
159		int nsamps;
#	Line 136 \| Line 164 \| *comp_thresh() / compute glare threshold /*
164		progname);
165		brsum = 0.0;
166		nsamps = 0;
167	<	for (v = vsize; v >= -vsize; v -= TSAMPSTEP)
167	>	for (v = vsize; v >= -vsize; v -= TSAMPSTEP) {
168		for (h = -hsize; h <= hsize; h += TSAMPSTEP) {
169		if ((br = getviewpix(h, v)) < 0.0)
170		continue;
171		brsum += br;
172		nsamps++;
173		}
174	+	}
175		if (nsamps == 0) {
176		fprintf(stderr, "%s: no viewable scene!\n", progname);
177		exit(1);
#	Line 152 \| Line 181 \| *comp_thresh() / compute glare threshold /*
181		fprintf(stderr, "%s: threshold zero!\n", progname);
182		exit(1);
183		}
184	<	if (verbose)
184	>	if (verbose) {
185	>	#ifdef DEBUG
186	>	pict_stats();
187	>	#endif
188		fprintf(stderr,
189		"%s: threshold set to %f cd/m2 from %d samples\n",
190		progname, threshold, nsamps);
191	+	}
192		}
193
194
195	<	addsrcspan(nss) /* add new source span to our list */
196	<	struct srcspan *nss;
195	>	static void
196	>	addsrcspan( /* add new source span to our list */
197	>	struct srcspan *nss
198	>	)
199		{
200		struct source last, cs, *this;
201		register struct srcspan *ss;
167	–	register int res;
202
203		cs = NULL;
204		for (this = curlist; this != NULL; this = this->next) {
#	Line 175 \| Line 209 \| *struct srcspan nss;**
209		if (cs == NULL)
210		cs = this;
211		else {
178	–	mergesource(cs, this);
212		last->next = this->next;
213	<	free((char *)this);
213	>	mergesource(cs, this);
214	>	this = last;
215		}
216		break;
217		}
#	Line 188 \| Line 222 \| *struct srcspan nss;**
222		cs = (struct source *)malloc(sizeof(struct source));
223		if (cs == NULL)
224		memerr("source records");
225	+	cs->dom = 0.0;
226		cs->first = NULL;
227		cs->next = curlist;
228		curlist = cs;
#	Line 197 \| Line 232 \| *struct srcspan nss;**
232		}
233
234
235	<	mergesource(sp, ap) /* merge source ap into source sp */
236	<	struct source sp, ap;
235	>	static void
236	>	mergesource( /* merge source ap into source sp */
237	>	struct source *sp,
238	>	struct source *ap
239	>	)
240		{
241		struct srcspan head;
242		register struct srcspan alp, prev, *tp;
#	Line 218 \| Line 256 \| *struct source sp, ap;*
256		if (prev->next == NULL)
257		prev->next = alp;
258		sp->first = head.next;
259	<	ap->first = NULL;
259	>	if (ap->dom > 0.0 && sp->dom > 0.0) { /* sources are done */
260	>	sp->dir[0] *= sp->dom;
261	>	sp->dir[1] *= sp->dom;
262	>	sp->dir[2] *= sp->dom;
263	>	fvsum(sp->dir, sp->dir, ap->dir, ap->dom);
264	>	normalize(sp->dir);
265	>	sp->brt = (sp->brtsp->dom + ap->brtap->dom)
266	>	/ (sp->dom + ap->dom);
267	>	}
268	>	free((void *)ap);
269		}
270
271
272	<	close_sources(v) /* close sources above v */
273	<	int v;
272	>	static void
273	>	close_sources( /* close sources above v */
274	>	int v
275	>	)
276		{
277		struct source head;
278		register struct source last, this;
#	Line 241 \| Line 290 \| int v;
290		}
291
292
293	<	close_allsrcs() /* done with everything */
293	>	static void
294	>	close_allsrcs(void) /* done with everything */
295		{
296	<	register struct source *this;
296	>	register struct source this, next;
297
298	<	for (this = curlist; this != NULL; this = this->next)
298	>	this = curlist;
299	>	while (this != NULL) {
300	>	next = this->next;
301		donesource(this);
302	+	this = next;
303	+	}
304		curlist = NULL;
305		}
306
307
308	<	donesource(sp) /* finished with this source */
309	<	register struct source *sp;
308	>	static struct srcspan *
309	>	splitspan( /* divide source span at point */
310	>	register struct srcspan *sso,
311	>	double h,
312	>	double v,
313	>	double m
314	>	)
315		{
316	<	FVECT dthis, dright;
316	>	register struct srcspan *ssn;
317	>	double d;
318	>	int hs;
319	>
320	>	d = h - m*(sso->v - v);
321	>	hs = d < 0. ? d-.5 : d+.5;
322	>	if (sso->l >= hs)
323	>	return(NULL);
324	>	if (sso->r <= hs)
325	>	return(sso);
326	>	/* need to split it */
327	>	ssn = (struct srcspan *)malloc(sizeof(struct srcspan));
328	>	if (ssn == NULL)
329	>	memerr("source spans in splitspan");
330	>	ssn->brsum = (double)(hs - sso->l)/(sso->r - sso->l) * sso->brsum;
331	>	sso->brsum -= ssn->brsum;
332	>	ssn->v = sso->v;
333	>	ssn->l = sso->l;
334	>	ssn->r = sso->l = hs;
335	>	return(ssn);
336	>	}
337	>
338	>
339	>	static struct source *
340	>	splitsource( /* divide source in two if it's big and long */
341	>	struct source *so
342	>	)
343	>	{
344	>	LRSUM lr;
345	>	LRLIN fit;
346	>	register struct srcspan ss, ssn;
347	>	struct srcspan ssl, ssnl, head;
348	>	int h;
349	>	double mh, mv;
350	>	struct source *sn;
351	>
352	>	lrclear(&lr);
353	>	for (ss = so->first; ss != NULL; ss = ss->next)
354	>	for (h = ss->l; h < ss->r; h++)
355	>	lrpoint(h, ss->v, &lr);
356	>	if ((double)lr.n/(sampdens*sampdens) < SABIG)
357	>	return(NULL); /* too small */
358	>	if (lrfit(&fit, &lr) < 0)
359	>	return(NULL); /* can't fit a line */
360	>	if (fit.correlation < LCORR && fit.correlation > -LCORR)
361	>	return(NULL);
362	>	if (verbose)
363	>	fprintf(stderr, "%s: splitting large source\n", progname);
364	>	mh = lrxavg(&lr);
365	>	mv = lryavg(&lr);
366	>	sn = (struct source *)malloc(sizeof(struct source));
367	>	if (sn == NULL)
368	>	memerr("source records in splitsource");
369	>	sn->dom = 0.0;
370	>	sn->first = NULL;
371	>	ssnl = NULL;
372	>	head.next = so->first;
373	>	ssl = &head;
374	>	for (ss = so->first; ss != NULL; ssl = ss, ss = ss->next)
375	>	if ((ssn = splitspan(ss, mh, mv, fit.slope)) != NULL) {
376	>	if (ssn == ss) { /* remove from old */
377	>	ssl->next = ss->next;
378	>	ss = ssl;
379	>	}
380	>	if (ssnl == NULL) /* add to new */
381	>	sn->first = ssn;
382	>	else
383	>	ssnl->next = ssn;
384	>	ssn->next = NULL;
385	>	ssnl = ssn;
386	>	}
387	>	so->first = head.next;
388	>	return(sn);
389	>	}
390	>
391	>
392	>	static void
393	>	donesource( /* finished with this source */
394	>	register struct source *sp
395	>	)
396	>	{
397	>	struct source *newsrc;
398		register struct srcspan *ss;
399		int h, n;
400	<	double d;
400	>	double hsum, vsum, d;
401
402	+	while ((newsrc = splitsource(sp)) != NULL) /* split it? */
403	+	donesource(newsrc);
404		sp->dom = 0.0;
405	<	sp->dir[0] = sp->dir[1] = sp->dir[1] = 0.0;
405	>	hsum = vsum = 0.0;
406		sp->brt = 0.0;
407	+	n = 0;
408		for (ss = sp->first; ss != NULL; ss = ss->next) {
409		sp->brt += ss->brsum;
410		n += ss->r - ss->l;
411	<	compdir(dright, ss->r, ss->v);
412	<	for (h = ss->r-1; h >= ss->l; h--) {
413	<	compdir(dthis, h, ss->v);
414	<	d = dist2(dthis, dright);
272	<	fvsum(sp->dir, sp->dir, dthis, d);
411	>	for (h = ss->l; h < ss->r; h++) {
412	>	d = pixsize(h, ss->v);
413	>	hsum += d*h;
414	>	vsum += d*ss->v;
415		sp->dom += d;
274	–	VCOPY(dright, dthis);
416		}
276	–	free((char *)ss);
417		}
418	<	sp->first = NULL;
418	>	freespans(sp);
419	>	if (sp->dom <= FTINY) { /* must be right at edge of image */
420	>	free((void *)sp);
421	>	return;
422	>	}
423		sp->brt /= (double)n;
424	<	sp->dir[0] /= sp->dom;
281	<	sp->dir[1] /= sp->dom;
282	<	sp->dir[2] /= sp->dom;
424	>	compdir(sp->dir, (int)(hsum/sp->dom), (int)(vsum/sp->dom));
425		sp->next = donelist;
426		donelist = sp;
427		if (verbose)
428		fprintf(stderr,
429	<	"%s: found source at (%f,%f,%f), solid angle %f, brightness %f\n",
430	<	progname, sp->dir[0], sp->dir[1], sp->dir[2], sp->brt);
429	>	"%s: source at [%.3f,%.3f,%.3f], dw %.5f, br %.1f (%d samps)\n",
430	>	progname, sp->dir[0], sp->dir[1], sp->dir[2],
431	>	sp->dom, sp->brt, n);
432	>	}
433	>
434	>
435	>	static struct source *
436	>	findbuddy( /* find close enough source to s in l*/
437	>	register struct source *s,
438	>	register struct source *l
439	>	)
440	>	{
441	>	struct source *bestbuddy = NULL;
442	>	double d, r, mindist = MAXBUDDY;
443	>
444	>	r = sqrt(s->dom/PI);
445	>	for ( ; l != NULL; l = l->next) {
446	>	d = sqrt(dist2(l->dir, s->dir)) - sqrt(l->dom/PI) - r;
447	>	if (d < mindist) {
448	>	bestbuddy = l;
449	>	mindist = d;
450	>	}
451	>	}
452	>	return(bestbuddy);
453	>	}
454	>
455	>
456	>	extern void
457	>	absorb_specks(void) /* eliminate too-small sources */
458	>	{
459	>	struct source head, *buddy;
460	>	register struct source last, this;
461	>
462	>	if (verbose)
463	>	fprintf(stderr, "%s: absorbing small sources...\n", progname);
464	>	head.next = donelist;
465	>	last = &head;
466	>	for (this = head.next; this != NULL; this = this->next)
467	>	if (TOOSMALL(this)) {
468	>	last->next = this->next;
469	>	buddy = findbuddy(this, head.next);
470	>	if (buddy != NULL)
471	>	mergesource(buddy, this);
472	>	else
473	>	absorb(this);
474	>	this = last;
475	>	} else
476	>	last = this;
477	>	donelist = head.next;
478	>	}
479	>
480	>
481	>	static void
482	>	absorb( /* absorb a source into indirect */
483	>	register struct source *s
484	>	)
485	>	{
486	>	FVECT dir;
487	>	double d;
488	>	register int i;
489	>
490	>	for (i = 0; i < nglardirs; i++) {
491	>	spinvector(dir, ourview.vdir, ourview.vup, indirect[i].theta);
492	>	d = DOT(dir,s->dir)s->dom(sampdens*sampdens);
493	>	if (d <= 0.0)
494	>	continue;
495	>	indirect[i].sum += d * s->brt;
496	>	indirect[i].n += d;
497	>	}
498	>	freespans(s);
499	>	free((void *)s);
500	>	}
501	>
502	>
503	>	static void
504	>	freespans( /* free spans associated with source */
505	>	struct source *sp
506	>	)
507	>	{
508	>	register struct srcspan *ss;
509	>
510	>	while ((ss = sp->first) != NULL) {
511	>	sp->first = ss->next;
512	>	free((void *)ss);
513	>	}
514		}

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Comparing src/util/glaresrc.c (file contents): Revision 1.1 by greg, Mon Mar 18 12:15:40 1991 UTC vs. Revision 2.5 by schorsch, Fri Jan 2 12:51:54 2004 UTC

Diff Legend

Comparing src/util/glaresrc.c (file contents):
Revision 1.1 by greg, Mon Mar 18 12:15:40 1991 UTC vs.
Revision 2.5 by schorsch, Fri Jan 2 12:51:54 2004 UTC