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

Comparing ray/src/rt/srcsupp.c (file contents):
Revision 2.12 by greg, Wed Dec 31 01:50:02 2003 UTC vs.
Revision 2.25 by greg, Wed Aug 7 18:33:33 2024 UTC

#	Line 19 \| Line 19 \| static const char RCSid[] = "$Id$";
19
20		#include "face.h"
21
22	<	#define SRCINC 8 /* realloc increment for array */
22	>	#define SRCINC 32 /* realloc increment for array */
23
24		SRCREC source = NULL; / our list of sources */
25		int nsources = 0; /* the number of sources */
#	Line 28 \| Line 28 \| *SRCFUNC sfun[NUMOTYPE]; / source dispatch table /*
28
29
30		void
31	<	initstypes() /* initialize source dispatch table */
31	>	initstypes(void) /* initialize source dispatch table */
32		{
33		extern VSMATERIAL mirror_vs, direct1_vs, direct2_vs;
34		static SOBJECT fsobj = {fsetsrc, flatpart, fgetplaneq, fgetmaxdisk};
#	Line 49 \| Line 49 \| *initstypes() / initialize source dispatch table /*
49
50
51		int
52	<	newsource() /* allocate new source in our array */
52	>	newsource(void) /* allocate new source in our array */
53		{
54		if (nsources == 0)
55		source = (SRCREC )malloc(SRCINCsizeof(SRCREC));
#	Line 60 \| Line 60 \| *newsource() / allocate new source in our array /*
60		return(-1);
61		source[nsources].sflags = 0;
62		source[nsources].nhits = 1;
63	<	source[nsources].ntests = 2; /* initial hit probability = 1/2 */
63	>	source[nsources].ntests = 2; /* initial hit probability = 50% */
64		#if SHADCACHE
65		source[nsources].obscache = NULL;
66		#endif
#	Line 69 \| Line 69 \| *newsource() / allocate new source in our array /*
69
70
71		void
72	<	setflatss(src) /* set sampling for a flat source */
73	<	register SRCREC *src;
72	>	setflatss( /* set sampling for a flat source */
73	>	SRCREC *src
74	>	)
75		{
76		double mult;
77	<	register int i;
77	>	int i;
78
79	<	src->ss[SV][0] = src->ss[SV][1] = src->ss[SV][2] = 0.0;
79	>	getperpendicular(src->ss[SU], src->snorm, rand_samp);
80	>	mult = .5 * sqrt( src->ss2 );
81		for (i = 0; i < 3; i++)
80	–	if (src->snorm[i] < 0.6 && src->snorm[i] > -0.6)
81	–	break;
82	–	src->ss[SV][i] = 1.0;
83	–	fcross(src->ss[SU], src->ss[SV], src->snorm);
84	–	mult = .5 * sqrt( src->ss2 / DOT(src->ss[SU],src->ss[SU]) );
85	–	for (i = 0; i < 3; i++)
82		src->ss[SU][i] *= mult;
83		fcross(src->ss[SV], src->snorm, src->ss[SU]);
84		}
85
86
87		void
88	<	fsetsrc(src, so) /* set a face as a source */
89	<	register SRCREC *src;
90	<	OBJREC *so;
88	>	fsetsrc( /* set a face as a source */
89	>	SRCREC *src,
90	>	OBJREC *so
91	>	)
92		{
93	<	register FACE *f;
94	<	register int i, j;
93	>	FACE *f;
94	>	int i, j;
95		double d;
96
97		src->sa.success = 2AIMREQT-1; / bitch on second failure */
98		src->so = so;
99		/* get the face */
100		f = getface(so);
101	+	if (f->area == 0.)
102	+	objerror(so, USER, "zero source area");
103		/* find the center */
104		for (j = 0; j < 3; j++) {
105		src->sloc[j] = 0.0;
#	Line 109 \| Line 108 \| *OBJREC so;**
108		src->sloc[j] /= (double)f->nv;
109		}
110		if (!inface(src->sloc, f))
111	<	objerror(so, USER, "cannot hit center");
111	>	objerror(so, USER, "cannot hit source center");
112		src->sflags \|= SFLAT;
113		VCOPY(src->snorm, f->norm);
114		src->ss2 = f->area;
#	Line 122 \| Line 121 \| *OBJREC so;**
121		}
122		src->srad = sqrt(src->srad);
123		/* compute size vectors */
124	<	if (f->nv == 4) /* parallelogram case */
124	>	if (f->nv == 4) { /* parallelogram case */
125		for (j = 0; j < 3; j++) {
126		src->ss[SU][j] = .5*(VERTEX(f,1)[j]-VERTEX(f,0)[j]);
127		src->ss[SV][j] = .5*(VERTEX(f,3)[j]-VERTEX(f,0)[j]);
128		}
129	<	else
130	<	setflatss(src);
129	>	} else if (f->nv == 3) { /* triangle case */
130	>	int near0 = 2;
131	>	double dmin = dist2line(src->sloc, VERTEX(f,2), VERTEX(f,0));
132	>	for (i = 0; i < 2; i++) {
133	>	double d2 = dist2line(src->sloc, VERTEX(f,i), VERTEX(f,i+1));
134	>	if (d2 >= dmin)
135	>	continue;
136	>	near0 = i;
137	>	dmin = d2; /* radius = min distance */
138	>	}
139	>	if (dmin < .08*f->area)
140	>	objerror(so, WARNING, "triangular source with poor aspect");
141	>	i = (near0 + 1) % 3;
142	>	for (j = 0; j < 3; j++)
143	>	src->ss[SU][j] = VERTEX(f,i)[j] - VERTEX(f,near0)[j];
144	>	normalize(src->ss[SU]);
145	>	dmin = sqrt(dmin);
146	>	for (j = 0; j < 3; j++)
147	>	src->ss[SU][j] *= dmin;
148	>	fcross(src->ss[SV], f->norm, src->ss[SU]);
149	>	} else
150	>	setflatss(src); /* hope for convex! */
151		}
152
153
154		void
155	<	ssetsrc(src, so) /* set a source as a source */
156	<	register SRCREC *src;
157	<	register OBJREC *so;
155	>	ssetsrc( /* set a source as a source */
156	>	SRCREC *src,
157	>	OBJREC *so
158	>	)
159		{
160		double theta;
161
#	Line 143 \| Line 163 \| *register OBJREC so;**
163		src->so = so;
164		if (so->oargs.nfargs != 4)
165		objerror(so, USER, "bad arguments");
166	<	src->sflags \|= SDISTANT;
166	>	src->sflags \|= (SDISTANT\|SCIR);
167		VCOPY(src->sloc, so->oargs.farg);
168		if (normalize(src->sloc) == 0.0)
169		objerror(so, USER, "zero direction");
#	Line 160 \| Line 180 \| *register OBJREC so;**
180
181
182		void
183	<	sphsetsrc(src, so) /* set a sphere as a source */
184	<	register SRCREC *src;
185	<	register OBJREC *so;
183	>	sphsetsrc( /* set a sphere as a source */
184	>	SRCREC *src,
185	>	OBJREC *so
186	>	)
187		{
188	<	register int i;
188	>	int i;
189
190		src->sa.success = 2AIMREQT-1; / bitch on second failure */
191		src->so = so;
192		if (so->oargs.nfargs != 4)
193		objerror(so, USER, "bad # arguments");
194		if (so->oargs.farg[3] <= FTINY)
195	<	objerror(so, USER, "illegal radius");
195	>	objerror(so, USER, "illegal source radius");
196	>	src->sflags \|= SCIR;
197		VCOPY(src->sloc, so->oargs.farg);
198		src->srad = so->oargs.farg[3];
199		src->ss2 = PI * src->srad * src->srad;
200	+	memset(src->ss, 0, sizeof(src->ss));
201		for (i = 0; i < 3; i++)
202	<	src->ss[SU][i] = src->ss[SV][i] = src->ss[SW][i] = 0.0;
180	<	for (i = 0; i < 3; i++)
181	<	src->ss[i][i] = .7236 * so->oargs.farg[3];
202	>	src->ss[i][i] = 0.7236 * so->oargs.farg[3];
203		}
204
205
206		void
207	<	rsetsrc(src, so) /* set a ring (disk) as a source */
208	<	register SRCREC *src;
209	<	OBJREC *so;
207	>	rsetsrc( /* set a ring (disk) as a source */
208	>	SRCREC *src,
209	>	OBJREC *so
210	>	)
211		{
212	<	register CONE *co;
212	>	CONE *co;
213
214		src->sa.success = 2AIMREQT-1; / bitch on second failure */
215		src->so = so;
216		/* get the ring */
217		co = getcone(so, 0);
218	+	if (co == NULL)
219	+	objerror(so, USER, "illegal source");
220	+	if (CO_R1(co) <= FTINY)
221	+	objerror(so, USER, "illegal source radius");
222		VCOPY(src->sloc, CO_P0(co));
223		if (CO_R0(co) > 0.0)
224	<	objerror(so, USER, "cannot hit center");
225	<	src->sflags \|= SFLAT;
224	>	objerror(so, USER, "cannot hit source center");
225	>	src->sflags \|= (SFLAT\|SCIR);
226		VCOPY(src->snorm, co->ad);
227		src->srad = CO_R1(co);
228		src->ss2 = PI * src->srad * src->srad;
#	Line 205 \| Line 231 \| *OBJREC so;**
231
232
233		void
234	<	cylsetsrc(src, so) /* set a cylinder as a source */
235	<	register SRCREC *src;
236	<	OBJREC *so;
234	>	cylsetsrc( /* set a cylinder as a source */
235	>	SRCREC *src,
236	>	OBJREC *so
237	>	)
238		{
239	<	register CONE *co;
240	<	register int i;
239	>	CONE *co;
240	>	int i;
241
242		src->sa.success = 4AIMREQT-1; / bitch on fourth failure */
243		src->so = so;
244		/* get the cylinder */
245		co = getcone(so, 0);
246	+	if (co == NULL)
247	+	objerror(so, USER, "illegal source");
248	+	if (CO_R0(co) <= FTINY)
249	+	objerror(so, USER, "illegal source radius");
250		if (CO_R0(co) > .2co->al) / heuristic constraint */
251		objerror(so, WARNING, "source aspect too small");
252		src->sflags \|= SCYL;
#	Line 226 \| Line 257 \| *OBJREC so;**
257		/* set sampling vectors */
258		for (i = 0; i < 3; i++)
259		src->ss[SU][i] = .5 * co->al * co->ad[i];
260	<	src->ss[SV][0] = src->ss[SV][1] = src->ss[SV][2] = 0.0;
260	>	getperpendicular(src->ss[SW], co->ad, rand_samp);
261		for (i = 0; i < 3; i++)
231	–	if (co->ad[i] < 0.6 && co->ad[i] > -0.6)
232	–	break;
233	–	src->ss[SV][i] = 1.0;
234	–	fcross(src->ss[SW], src->ss[SV], co->ad);
235	–	normalize(src->ss[SW]);
236	–	for (i = 0; i < 3; i++)
262		src->ss[SW][i] = .8559 CO_R0(co);
263		fcross(src->ss[SV], src->ss[SW], co->ad);
264		}
265
266
267		SPOT *
268	<	makespot(m) /* make a spotlight */
269	<	register OBJREC *m;
268	>	makespot( /* make a spotlight */
269	>	OBJREC *m
270	>	)
271		{
272	<	register SPOT *ns;
272	>	SPOT *ns;
273
274		if ((ns = (SPOT *)m->os) != NULL)
275		return(ns);
276		if ((ns = (SPOT *)malloc(sizeof(SPOT))) == NULL)
277		return(NULL);
278	+	if (m->oargs.farg[3] <= FTINY)
279	+	objerror(m, USER, "zero angle");
280		ns->siz = 2.0PI (1.0 - cos(PI/180.0/2.0 * m->oargs.farg[3]));
281		VCOPY(ns->aim, m->oargs.farg+4);
282		if ((ns->flen = normalize(ns->aim)) == 0.0)
#	Line 259 \| Line 287 \| *register OBJREC m;**
287
288
289		int
290	<	spotout(r, s) /* check if we're outside spot region */
291	<	register RAY *r;
292	<	register SPOT *s;
290	>	spotout( /* check if we're outside spot region */
291	>	RAY *r,
292	>	SPOT *s
293	>	)
294		{
295		double d;
296		FVECT vd;
#	Line 289 \| Line 318 \| *register SPOT s;**
318
319
320		double
321	<	fgetmaxdisk(ocent, op) /* get center and squared radius of face */
322	<	FVECT ocent;
323	<	OBJREC *op;
321	>	fgetmaxdisk( /* get center and squared radius of face */
322	>	FVECT ocent,
323	>	OBJREC *op
324	>	)
325		{
326		double maxrad2;
327		double d;
328	<	register int i, j;
329	<	register FACE *f;
328	>	int i, j;
329	>	FACE *f;
330
331		f = getface(op);
332		if (f->area == 0.)
#	Line 321 \| Line 351 \| *OBJREC op;**
351
352
353		double
354	<	rgetmaxdisk(ocent, op) /* get center and squared radius of ring */
355	<	FVECT ocent;
356	<	OBJREC *op;
354	>	rgetmaxdisk( /* get center and squared radius of ring */
355	>	FVECT ocent,
356	>	OBJREC *op
357	>	)
358		{
359	<	register CONE *co;
359	>	CONE *co;
360
361		co = getcone(op, 0);
362	+	if (co == NULL)
363	+	return(0.);
364		VCOPY(ocent, CO_P0(co));
365		return(CO_R1(co)*CO_R1(co));
366		}
367
368
369		double
370	<	fgetplaneq(nvec, op) /* get plane equation for face */
371	<	FVECT nvec;
372	<	OBJREC *op;
370	>	fgetplaneq( /* get plane equation for face */
371	>	FVECT nvec,
372	>	OBJREC *op
373	>	)
374		{
375	<	register FACE *fo;
375	>	FACE *fo;
376
377		fo = getface(op);
378		VCOPY(nvec, fo->norm);
#	Line 347 \| Line 381 \| *OBJREC op;**
381
382
383		double
384	<	rgetplaneq(nvec, op) /* get plane equation for ring */
385	<	FVECT nvec;
386	<	OBJREC *op;
384	>	rgetplaneq( /* get plane equation for ring */
385	>	FVECT nvec,
386	>	OBJREC *op
387	>	)
388		{
389	<	register CONE *co;
389	>	CONE *co;
390
391		co = getcone(op, 0);
392	+	if (co == NULL) {
393	+	memset(nvec, 0, sizeof(FVECT));
394	+	return(0.);
395	+	}
396		VCOPY(nvec, co->ad);
397		return(DOT(nvec, CO_P0(co)));
398		}
399
400
401		int
402	<	commonspot(sp1, sp2, org) /* set sp1 to intersection of sp1 and sp2 */
403	<	register SPOT sp1, sp2;
404	<	FVECT org;
402	>	commonspot( /* set sp1 to intersection of sp1 and sp2 */
403	>	SPOT *sp1,
404	>	SPOT *sp2,
405	>	FVECT org
406	>	)
407		{
408		FVECT cent;
409		double rad2, cos1, cos2;
#	Line 384 \| Line 425 \| FVECT org;
425
426
427		int
428	<	commonbeam(sp1, sp2, dir) /* set sp1 to intersection of sp1 and sp2 */
429	<	register SPOT sp1, sp2;
430	<	FVECT dir;
428	>	commonbeam( /* set sp1 to intersection of sp1 and sp2 */
429	>	SPOT *sp1,
430	>	SPOT *sp2,
431	>	FVECT dir
432	>	)
433		{
434		FVECT cent, c1, c2;
435		double rad2, d;
393	–	register int i;
436		/* move centers to common plane */
437		d = DOT(sp1->aim, dir);
438	<	for (i = 0; i < 3; i++)
397	<	c1[i] = sp1->aim[i] - d*dir[i];
438	>	VSUM(c1, sp1->aim, dir, -d);
439		d = DOT(sp2->aim, dir);
440	<	for (i = 0; i < 3; i++)
400	<	c2[i] = sp2->aim[i] - d*dir[i];
440	>	VSUM(c2, sp2->aim, dir, -d);
441		/* compute overlap */
442		rad2 = intercircle(cent, c1, c2, sp1->siz/PI, sp2->siz/PI);
443		if (rad2 <= FTINY)
#	Line 409 \| Line 449 \| FVECT dir;
449
450
451		int
452	<	checkspot(sp, nrm) /* check spotlight for behind source */
453	<	register SPOT sp; / spotlight */
454	<	FVECT nrm; /* source surface normal */
452	>	checkspot( /* check spotlight for behind source */
453	>	SPOT sp, / spotlight */
454	>	FVECT nrm /* source surface normal */
455	>	)
456		{
457		double d, d1;
458
#	Line 425 \| Line 466 \| *FVECT nrm; / source surface normal /*
466
467
468		double
469	<	spotdisk(oc, op, sp, pos) /* intersect spot with object op */
470	<	FVECT oc;
471	<	OBJREC *op;
472	<	register SPOT *sp;
473	<	FVECT pos;
469	>	spotdisk( /* intersect spot with object op */
470	>	FVECT oc,
471	>	OBJREC *op,
472	>	SPOT *sp,
473	>	FVECT pos
474	>	)
475		{
476		FVECT onorm;
477		double offs, d, dist;
436	–	register int i;
478
479		offs = getplaneq(onorm, op);
480		d = -DOT(onorm, sp->aim);
#	Line 442 \| Line 483 \| FVECT pos;
483		dist = (DOT(pos, onorm) - offs)/d;
484		if (dist < 0.)
485		return(0.);
486	<	for (i = 0; i < 3; i++)
446	<	oc[i] = pos[i] + dist*sp->aim[i];
486	>	VSUM(oc, pos, sp->aim, dist);
487		return(sp->sizdistdist/PI/(d*d));
488		}
489
490
491		double
492	<	beamdisk(oc, op, sp, dir) /* intersect beam with object op */
493	<	FVECT oc;
494	<	OBJREC *op;
495	<	register SPOT *sp;
496	<	FVECT dir;
492	>	beamdisk( /* intersect beam with object op */
493	>	FVECT oc,
494	>	OBJREC *op,
495	>	SPOT *sp,
496	>	FVECT dir
497	>	)
498		{
499		FVECT onorm;
500		double offs, d, dist;
460	–	register int i;
501
502		offs = getplaneq(onorm, op);
503		d = -DOT(onorm, dir);
504		if (d >= -FTINY && d <= FTINY)
505		return(0.);
506		dist = (DOT(sp->aim, onorm) - offs)/d;
507	<	for (i = 0; i < 3; i++)
468	<	oc[i] = sp->aim[i] + dist*dir[i];
507	>	VSUM(oc, sp->aim, dir, dist);
508		return(sp->siz/PI/(d*d));
509		}
510
511
512		double
513	<	intercircle(cc, c1, c2, r1s, r2s) /* intersect two circles */
514	<	FVECT cc; /* midpoint (return value) */
515	<	FVECT c1, c2; /* circle centers */
516	<	double r1s, r2s; /* radii squared */
513	>	intercircle( /* intersect two circles */
514	>	FVECT cc, /* midpoint (return value) */
515	>	FVECT c1, /* circle centers */
516	>	FVECT c2,
517	>	double r1s, /* radii squared */
518	>	double r2s
519	>	)
520		{
521		double a2, d2, l;
522		FVECT disp;
481	–	register int i;
523
524	<	for (i = 0; i < 3; i++)
484	<	disp[i] = c2[i] - c1[i];
524	>	VSUB(disp, c2, c1);
525		d2 = DOT(disp,disp);
526		/* circle within overlap? */
527		if (r1s < r2s) {
#	Line 501 \| Line 541 \| *double r1s, r2s; / radii squared /*
541		return(0.);
542		/* overlap, compute center */
543		l = sqrt((r1s - a2)/d2);
544	<	for (i = 0; i < 3; i++)
505	<	cc[i] = c1[i] + l*disp[i];
544	>	VSUM(cc, c1, disp, l);
545		return(a2);
546		}

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Comparing ray/src/rt/srcsupp.c (file contents): Revision 2.12 by greg, Wed Dec 31 01:50:02 2003 UTC vs. Revision 2.25 by greg, Wed Aug 7 18:33:33 2024 UTC

Diff Legend

Comparing ray/src/rt/srcsupp.c (file contents):
Revision 2.12 by greg, Wed Dec 31 01:50:02 2003 UTC vs.
Revision 2.25 by greg, Wed Aug 7 18:33:33 2024 UTC