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

Comparing ray/src/rt/ambient.c (file contents):
Revision 1.8 by greg, Fri Jan 12 11:30:59 1990 UTC vs.
Revision 2.4 by greg, Fri Apr 10 16:14:34 1992 UTC

#	Line 1 \| Line 1
1	<	/* Copyright (c) 1986 Regents of the University of California */
1	>	/* Copyright (c) 1991 Regents of the University of California */
2
3		#ifndef lint
4		static char SCCSid[] = "$SunId$ LBL";
#	Line 19 \| Line 19 \| static char SCCSid[] = "$SunId$ LBL";
19
20		#include "otypes.h"
21
22	+	#include "ambient.h"
23	+
24		#include "random.h"
25
26		#define OCTSCALE 0.5 /* ceil((valid rad.)/(cube size)) */
27
26	–	extern CUBE thescene; /* contains space boundaries */
27	–
28	–	extern COLOR ambval; /* global ambient component */
29	–	extern double ambacc; /* ambient accuracy */
30	–	extern int ambres; /* ambient resolution */
31	–	extern int ambdiv; /* number of divisions for calculation */
32	–	extern int ambssamp; /* number of super-samples */
33	–	extern int ambounce; /* number of ambient bounces */
34	–	extern char amblist[]; / ambient include/exclude list */
35	–	extern int ambincl; /* include == 1, exclude == 0 */
36	–
37	–	OBJECT ambset[256]={0}; /* ambient include/exclude set */
38	–
39	–	double maxarad; /* maximum ambient radius */
40	–	double minarad; /* minimum ambient radius */
41	–
42	–	typedef struct ambval {
43	–	FVECT pos; /* position in space */
44	–	FVECT dir; /* normal direction */
45	–	int lvl; /* recursion level of parent ray */
46	–	float weight; /* weight of parent ray */
47	–	COLOR val; /* computed ambient value */
48	–	float rad; /* validity radius */
49	–	struct ambval next; / next in list */
50	–	} AMBVAL; /* ambient value */
51	–
28		typedef struct ambtree {
29		AMBVAL alist; / ambient value list */
30		struct ambtree kid; / 8 child nodes */
31		} AMBTREE; /* ambient octree */
32
33	<	typedef struct {
58	<	float k; /* error contribution per sample */
59	<	COLOR v; /* ray sum */
60	<	int n; /* number of samples */
61	<	short t, p; /* theta, phi indices */
62	<	} AMBSAMP; /* ambient sample */
33	>	extern CUBE thescene; /* contains space boundaries */
34
35	+	#define MAXASET 511 /* maximum number of elements in ambient set */
36	+	OBJECT ambset[MAXASET+1]={0}; /* ambient include/exclude set */
37	+
38	+	double maxarad; /* maximum ambient radius */
39	+	double minarad; /* minimum ambient radius */
40	+
41		static AMBTREE atrunk; /* our ambient trunk node */
42
43		static FILE ambfp = NULL; / ambient file pointer */
#	Line 69 \| Line 46 \| *static FILE ambfp = NULL; /* ambient file pointer /*
46
47		#define newambtree() (AMBTREE *)calloc(8, sizeof(AMBTREE))
48
72	–	double sumambient(), doambient(), makeambient();
49
50	+	setambres(ar) /* set ambient resolution */
51	+	int ar;
52	+	{
53	+	/* set min & max radii */
54	+	if (ar <= 0) {
55	+	minarad = 0.0;
56	+	maxarad = thescene.cusize / 2.0;
57	+	} else {
58	+	minarad = thescene.cusize / ar;
59	+	maxarad = 16.0 * minarad; /* heuristic */
60	+	if (maxarad > thescene.cusize / 2.0)
61	+	maxarad = thescene.cusize / 2.0;
62	+	}
63	+	if (maxarad <= FTINY)
64	+	maxarad = .001;
65	+	}
66
67	+
68		setambient(afile) /* initialize calculation */
69		char *afile;
70		{
71		long ftell();
79	–	OBJECT obj;
72		AMBVAL amb;
73	<
74	<	maxarad = thescene.cusize / 2.0; /* maximum radius */
75	<	/* minimum radius */
84	<	minarad = ambres > 0 ? thescene.cusize/ambres : 0.0;
85	<
86	<	/* open ambient file */
73	>	/* init ambient limits */
74	>	setambres(ambres);
75	>	/* open ambient file */
76		if (afile != NULL)
77		if ((ambfp = fopen(afile, "r+")) != NULL) {
78	<	while (fread(&amb, sizeof(AMBVAL), 1, ambfp) == 1)
78	>	while (fread((char *)&amb,sizeof(AMBVAL),1,ambfp) == 1)
79		avinsert(&amb, &atrunk, thescene.cuorg,
80		thescene.cusize);
81		/* align */
#	Line 102 \| Line 91 \| *char afile;**
91		ambnotify(obj) /* record new modifier */
92		OBJECT obj;
93		{
94	+	static int hitlimit = 0;
95		register OBJREC *o = objptr(obj);
96		register char **amblp;
97
98	<	if (!ismodifier(o->otype))
98	>	if (hitlimit \|\| !ismodifier(o->otype))
99		return;
100		for (amblp = amblist; *amblp != NULL; amblp++)
101		if (!strcmp(o->oname, *amblp)) {
102	+	if (ambset[0] >= MAXASET) {
103	+	error(WARNING, "too many modifiers in ambient list");
104	+	hitlimit++;
105	+	return; /* should this be fatal? */
106	+	}
107		insertelem(ambset, obj);
108		return;
109		}
#	Line 120 \| Line 115 \| COLOR acol;
115		register RAY *r;
116		{
117		static int rdepth = 0; /* ambient recursion */
118	<	double wsum;
118	>	double d;
119
125	–	rdepth++; /* increment level */
126	–
120		if (ambdiv <= 0) /* no ambient calculation */
121		goto dumbamb;
122		/* check number of bounces */
123	<	if (rdepth > ambounce)
123	>	if (rdepth >= ambounce)
124		goto dumbamb;
125		/* check ambient list */
126		if (ambincl != -1 && r->ro != NULL &&
#	Line 135 \| Line 128 \| *register RAY r;**
128		goto dumbamb;
129
130		if (ambacc <= FTINY) { /* no ambient storage */
131	<	if (doambient(acol, r) == 0.0)
131	>	rdepth++;
132	>	d = doambient(acol, r, r->rweight, NULL, NULL);
133	>	rdepth--;
134	>	if (d == 0.0)
135		goto dumbamb;
136	<	goto done;
136	>	return;
137		}
138		/* get ambient value */
139		setcolor(acol, 0.0, 0.0, 0.0);
140	<	wsum = sumambient(acol, r, &atrunk, thescene.cuorg, thescene.cusize);
141	<	if (wsum > FTINY)
142	<	scalecolor(acol, 1.0/wsum);
143	<	else if (makeambient(acol, r) == 0.0)
144	<	goto dumbamb;
145	<	goto done;
146	<
140	>	d = sumambient(acol, r, rdepth,
141	>	&atrunk, thescene.cuorg, thescene.cusize);
142	>	if (d > FTINY)
143	>	scalecolor(acol, 1.0/d);
144	>	else {
145	>	d = makeambient(acol, r, rdepth++);
146	>	rdepth--;
147	>	}
148	>	if (d > FTINY)
149	>	return;
150		dumbamb: /* return global value */
151		copycolor(acol, ambval);
153	–	done: /* must finish here! */
154	–	rdepth--;
152		}
153
154
155		double
156	<	sumambient(acol, r, at, c0, s) /* get interpolated ambient value */
156	>	sumambient(acol, r, al, at, c0, s) /* get interpolated ambient value */
157		COLOR acol;
158		register RAY *r;
159	+	int al;
160		AMBTREE *at;
161		FVECT c0;
162		double s;
#	Line 174 \| Line 172 \| double s;
172		wsum = 0.0;
173		for (av = at->alist; av != NULL; av = av->next) {
174		/*
175	<	* Ray strength test.
175	>	* Ambient level test.
176		*/
177	<	if (av->lvl > r->rlvl \|\| av->weight < r->rweight-FTINY)
177	>	if (av->lvl > al \|\| av->weight < r->rweight-FTINY)
178		continue;
179		/*
180		* Ambient radius test.
#	Line 203 \| Line 201 \| double s;
201		for (j = 0; j < 3; j++)
202		d += (r->rop[j] - av->pos[j]) *
203		(av->dir[j] + r->ron[j]);
204	<	if (d < -minarad)
204	>	if (d0.5 < -minaradambacc-.001)
205		continue;
206		/*
207		* Jittering final test reduces image artifacts.
208		*/
209		wt = sqrt(e1) + sqrt(e2);
210	<	wt = .9 + .2frandom();
210	>	wt = .9 + .2urand(9015+samplendx);
211		if (wt > ambacc)
212		continue;
213		if (wt <= 1e-3)
#	Line 217 \| Line 215 \| double s;
215		else
216		wt = 1.0 / wt;
217		wsum += wt;
218	<	copycolor(ct, av->val);
218	>	extambient(ct, av, r->rop, r->ron);
219		scalecolor(ct, wt);
220		addcolor(acol, ct);
221		}
#	Line 236 \| Line 234 \| double s;
234		break;
235		}
236		if (j == 3)
237	<	wsum += sumambient(acol, r, at->kid+i, ck0, s);
237	>	wsum += sumambient(acol, r, al, at->kid+i, ck0, s);
238		}
239		return(wsum);
240		}
241
242
243		double
244	<	makeambient(acol, r) /* make a new ambient value */
244	>	makeambient(acol, r, al) /* make a new ambient value */
245		COLOR acol;
246		register RAY *r;
247	+	int al;
248		{
249		AMBVAL amb;
250	<
251	<	amb.rad = doambient(acol, r); /* compute ambient */
250	>	FVECT gp, gd;
251	>	/* compute weight */
252	>	amb.weight = pow(AVGREFL, (double)al);
253	>	if (r->rweight < 0.2amb.weight) / heuristic */
254	>	amb.weight = r->rweight;
255	>	/* compute ambient */
256	>	amb.rad = doambient(acol, r, amb.weight, gp, gd);
257		if (amb.rad == 0.0)
258		return(0.0);
259		/* store it */
260		VCOPY(amb.pos, r->rop);
261		VCOPY(amb.dir, r->ron);
262	<	amb.lvl = r->rlvl;
259	<	amb.weight = r->rweight;
262	>	amb.lvl = al;
263		copycolor(amb.val, acol);
264	+	VCOPY(amb.gpos, gp);
265	+	VCOPY(amb.gdir, gd);
266		/* insert into tree */
267		avinsert(&amb, &atrunk, thescene.cuorg, thescene.cusize);
268		avsave(&amb); /* write to file */
#	Line 265 \| Line 270 \| *register RAY r;**
270		}
271
272
273	<	double
274	<	doambient(acol, r) /* compute ambient component */
275	<	COLOR acol;
276	<	register RAY *r;
273	>	extambient(cr, ap, pv, nv) /* extrapolate value at pv, nv */
274	>	COLOR cr;
275	>	register AMBVAL *ap;
276	>	FVECT pv, nv;
277		{
278	<	extern int ambcmp();
279	<	extern double sin(), cos(), sqrt();
280	<	double phi, xd, yd, zd;
276	<	double b, b2;
277	<	register AMBSAMP *div;
278	<	AMBSAMP dnew;
279	<	RAY ar;
280	<	FVECT ux, uy;
281	<	double arad;
282	<	int ndivs, nt, np, ns, ne, i, j;
283	<	register int k;
278	>	FVECT v1, v2;
279	>	register int i;
280	>	double d;
281
282	<	setcolor(acol, 0.0, 0.0, 0.0);
283	<	/* set number of divisions */
284	<	nt = sqrt(ambdiv * r->rweight * 0.5) + 0.5;
285	<	np = 2 * nt;
286	<	ndivs = nt * np;
287	<	/* check first */
288	<	if (ndivs == 0 \|\| rayorigin(&ar, r, AMBIENT, 0.5) < 0)
289	<	return(0.0);
290	<	/* set number of super-samples */
291	<	ns = ambssamp * r->rweight + 0.5;
292	<	if (ns > 0) {
296	<	div = (AMBSAMP )malloc(ndivssizeof(AMBSAMP));
297	<	if (div == NULL)
298	<	error(SYSTEM, "out of memory in doambient");
282	>	d = 1.0; /* zeroeth order */
283	>	/* gradient due to translation */
284	>	for (i = 0; i < 3; i++)
285	>	d += ap->gpos[i]*(pv[i]-ap->pos[i]);
286	>	/* gradient due to rotation */
287	>	VCOPY(v1, ap->dir);
288	>	fcross(v2, v1, nv);
289	>	d += DOT(ap->gdir, v2);
290	>	if (d <= 0.0) {
291	>	setcolor(cr, 0.0, 0.0, 0.0);
292	>	return;
293		}
294	<	/* make axes */
295	<	uy[0] = uy[1] = uy[2] = 0.0;
302	<	for (k = 0; k < 3; k++)
303	<	if (r->ron[k] < 0.6 && r->ron[k] > -0.6)
304	<	break;
305	<	uy[k] = 1.0;
306	<	fcross(ux, r->ron, uy);
307	<	normalize(ux);
308	<	fcross(uy, ux, r->ron);
309	<	/* sample divisions */
310	<	arad = 0.0;
311	<	ne = 0;
312	<	for (i = 0; i < nt; i++)
313	<	for (j = 0; j < np; j++) {
314	<	rayorigin(&ar, r, AMBIENT, 0.5); /* pretested */
315	<	zd = sqrt((i+frandom())/nt);
316	<	phi = 2.0PI (j+frandom())/np;
317	<	xd = cos(phi) * zd;
318	<	yd = sin(phi) * zd;
319	<	zd = sqrt(1.0 - zd*zd);
320	<	for (k = 0; k < 3; k++)
321	<	ar.rdir[k] = xdux[k]+yduy[k]+zd*r->ron[k];
322	<	rayvalue(&ar);
323	<	if (ar.rot < FHUGE)
324	<	arad += 1.0 / ar.rot;
325	<	if (ns > 0) { /* save division */
326	<	div[ne].k = 0.0;
327	<	copycolor(div[ne].v, ar.rcol);
328	<	div[ne].n = 0;
329	<	div[ne].t = i; div[ne].p = j;
330	<	/* sum errors */
331	<	b = bright(ar.rcol);
332	<	if (i > 0) { /* from above */
333	<	b2 = bright(div[ne-np].v) - b;
334	<	b2 = b2 0.25;
335	<	div[ne].k += b2;
336	<	div[ne].n++;
337	<	div[ne-np].k += b2;
338	<	div[ne-np].n++;
339	<	}
340	<	if (j > 0) { /* from behind */
341	<	b2 = bright(div[ne-1].v) - b;
342	<	b2 = b2 0.25;
343	<	div[ne].k += b2;
344	<	div[ne].n++;
345	<	div[ne-1].k += b2;
346	<	div[ne-1].n++;
347	<	}
348	<	if (j == np-1) { /* around */
349	<	b2 = bright(div[ne-(np-1)].v) - b;
350	<	b2 = b2 0.25;
351	<	div[ne].k += b2;
352	<	div[ne].n++;
353	<	div[ne-(np-1)].k += b2;
354	<	div[ne-(np-1)].n++;
355	<	}
356	<	ne++;
357	<	} else
358	<	addcolor(acol, ar.rcol);
359	<	}
360	<	for (k = 0; k < ne; k++) { /* compute errors */
361	<	if (div[k].n > 1)
362	<	div[k].k /= div[k].n;
363	<	div[k].n = 1;
364	<	}
365	<	/* sort the divisions */
366	<	qsort(div, ne, sizeof(AMBSAMP), ambcmp);
367	<	/* skim excess */
368	<	while (ne > ns) {
369	<	ne--;
370	<	addcolor(acol, div[ne].v);
371	<	}
372	<	/* super-sample */
373	<	for (i = ns; i > 0; i--) {
374	<	rayorigin(&ar, r, AMBIENT, 0.5); /* pretested */
375	<	zd = sqrt((div[0].t+frandom())/nt);
376	<	phi = 2.0PI (div[0].p+frandom())/np;
377	<	xd = cos(phi) * zd;
378	<	yd = sin(phi) * zd;
379	<	zd = sqrt(1.0 - zd*zd);
380	<	for (k = 0; k < 3; k++)
381	<	ar.rdir[k] = xdux[k]+yduy[k]+zd*r->ron[k];
382	<	rayvalue(&ar);
383	<	if (ar.rot < FHUGE)
384	<	arad += 1.0 / ar.rot;
385	<	/* recompute error */
386	<	copycolor(dnew.v, div[0].v);
387	<	addcolor(dnew.v, ar.rcol);
388	<	dnew.n = div[0].n + 1;
389	<	dnew.t = div[0].t; dnew.p = div[0].p;
390	<	b2 = bright(dnew.v)/dnew.n - bright(ar.rcol);
391	<	b2 = b2b2 + div[0].k(div[0].n*div[0].n);
392	<	dnew.k = b2/(dnew.n*dnew.n);
393	<	/* reinsert */
394	<	for (k = 0; k < ne-1 && dnew.k < div[k+1].k; k++)
395	<	bcopy(&div[k+1], &div[k], sizeof(AMBSAMP));
396	<	bcopy(&dnew, &div[k], sizeof(AMBSAMP));
397	<
398	<	if (ne >= i) { /* extract darkest division */
399	<	ne--;
400	<	if (div[ne].n > 1)
401	<	scalecolor(div[ne].v, 1.0/div[ne].n);
402	<	addcolor(acol, div[ne].v);
403	<	}
404	<	}
405	<	scalecolor(acol, 1.0/ndivs);
406	<	if (arad <= FTINY)
407	<	arad = FHUGE;
408	<	else
409	<	arad = (ndivs+ns) / arad / sqrt(r->rweight);
410	<	if (arad > maxarad)
411	<	arad = maxarad;
412	<	else if (arad < minarad)
413	<	arad = minarad;
414	<	if (ns > 0)
415	<	free((char *)div);
416	<	return(arad);
294	>	copycolor(cr, ap->val);
295	>	scalecolor(cr, d);
296		}
297
298
420	–	static int
421	–	ambcmp(d1, d2) /* decreasing order */
422	–	AMBSAMP d1, d2;
423	–	{
424	–	if (d1->k < d2->k)
425	–	return(1);
426	–	if (d1->k > d2->k)
427	–	return(-1);
428	–	return(0);
429	–	}
430	–
431	–
299		static
300		avsave(av) /* save an ambient value */
301		AMBVAL *av;
#	Line 438 \| Line 305 \| *AMBVAL av;**
305		#endif
306		if (ambfp == NULL)
307		return;
308	<	if (fwrite(av, sizeof(AMBVAL), 1, ambfp) != 1)
308	>	if (fwrite((char *)av, sizeof(AMBVAL), 1, ambfp) != 1)
309		goto writerr;
310		#ifdef AMBFLUSH
311		if (++nunflshed >= AMBFLUSH) {
#	Line 467 \| Line 334 \| double s;
334
335		if ((av = newambval()) == NULL)
336		goto memerr;
337	<	bcopy(aval, av, sizeof(AMBVAL));
337	>	copystruct(av, aval);
338		VCOPY(ck0, c0);
339		while (s(OCTSCALE/2) > av->radambacc) {
340		if (at->kid == NULL)

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Comparing ray/src/rt/ambient.c (file contents): Revision 1.8 by greg, Fri Jan 12 11:30:59 1990 UTC vs. Revision 2.4 by greg, Fri Apr 10 16:14:34 1992 UTC

Diff Legend

Comparing ray/src/rt/ambient.c (file contents):
Revision 1.8 by greg, Fri Jan 12 11:30:59 1990 UTC vs.
Revision 2.4 by greg, Fri Apr 10 16:14:34 1992 UTC