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

Comparing ray/src/rt/ambcomp.c (file contents):
Revision 1.2 by greg, Fri Jun 7 13:43:05 1991 UTC vs.
Revision 2.3 by greg, Wed Mar 4 16:28:25 1992 UTC

#	Line 54 \| Line 54 \| *AMBSAMP d1, d2;*
54		}
55
56
57	–	double
57		divsample(dp, h, r) /* sample a division */
58		register AMBSAMP *dp;
59		AMBHEMI *h;
60		RAY *r;
61		{
62		RAY ar;
63	<	int hlist[4];
63	>	int hlist[3];
64	>	double spt[2];
65		double xd, yd, zd;
66		double b2;
67		double phi;
68		register int i;
69
70	<	if (rayorigin(&ar, r, AMBIENT, 0.5) < 0)
71	<	return(0.0);
70	>	if (rayorigin(&ar, r, AMBIENT, AVGREFL) < 0)
71	>	return(-1);
72		hlist[0] = r->rno;
73		hlist[1] = dp->t;
74		hlist[2] = dp->p;
75	<	hlist[3] = 0;
76	<	zd = sqrt((dp->t+urand(ilhash(hlist,4)+dp->n))/h->nt);
77	<	hlist[3] = 1;
78	<	phi = 2.0PI (dp->p+urand(ilhash(hlist,4)+dp->n))/h->np;
75	>	multisamp(spt, 2, urand(ilhash(hlist,3)+dp->n));
76	>	zd = sqrt((dp->t + spt[0])/h->nt);
77	>	phi = 2.0PI (dp->p + spt[1])/h->np;
78		xd = cos(phi) * zd;
79		yd = sin(phi) * zd;
80		zd = sqrt(1.0 - zd*zd);
#	Line 87 \| Line 86 \| *RAY r;**
86		rayvalue(&ar);
87		ndims--;
88		addcolor(dp->v, ar.rcol);
89	<	if (ar.rot < FHUGE)
90	<	dp->r += 1.0/ar.rot;
89	>	if (ar.rt > FTINY && ar.rt < FHUGE)
90	>	dp->r += 1.0/ar.rt;
91		/* (re)initialize error */
92		if (dp->n++) {
93		b2 = bright(dp->v)/dp->n - bright(ar.rcol);
#	Line 96 \| Line 95 \| *RAY r;**
95		dp->k = b2/(dp->n*dp->n);
96		} else
97		dp->k = 0.0;
98	<	return(ar.rot);
98	>	return(0);
99		}
100
101
102		double
103	<	doambient(acol, r, pg, dg) /* compute ambient component */
103	>	doambient(acol, r, wt, pg, dg) /* compute ambient component */
104		COLOR acol;
105		RAY *r;
106	+	double wt;
107		FVECT pg, dg;
108		{
109		double b, d;
#	Line 117 \| Line 117 \| FVECT pg, dg;
117		/* initialize color */
118		setcolor(acol, 0.0, 0.0, 0.0);
119		/* initialize hemisphere */
120	<	inithemi(&hemi, r);
120	>	inithemi(&hemi, r, wt);
121		ndivs = hemi.nt * hemi.np;
122		if (ndivs == 0)
123		return(0.0);
124		/* set number of super-samples */
125	<	ns = ambssamp * r->rweight + 0.5;
125	>	ns = ambssamp * wt + 0.5;
126		if (ns > 0 \|\| pg != NULL \|\| dg != NULL) {
127		div = (AMBSAMP )malloc(ndivssizeof(AMBSAMP));
128		if (div == NULL)
#	Line 139 \| Line 139 \| FVECT pg, dg;
139		setcolor(dp->v, 0.0, 0.0, 0.0);
140		dp->r = 0.0;
141		dp->n = 0;
142	<	if ((d = divsample(dp, &hemi, r)) == 0.0)
142	>	if (divsample(dp, &hemi, r) < 0)
143		goto oopsy;
144		if (div != NULL)
145		dp++;
#	Line 149 \| Line 149 \| FVECT pg, dg;
149		}
150		}
151		if (ns > 0) { /* perform super-sampling */
152	<	comperrs(div, hemi); /* compute errors */
152	>	comperrs(div, &hemi); /* compute errors */
153		qsort(div, ndivs, sizeof(AMBSAMP), ambcmp); /* sort divs */
154	–	dp = div + ndivs; /* skim excess */
155	–	for (i = ndivs; i > ns; i--) {
156	–	dp--;
157	–	addcolor(acol, dp->v);
158	–	arad += dp->r;
159	–	}
154		/* super-sample */
155		for (i = ns; i > 0; i--) {
156		copystruct(&dnew, div);
157	<	if ((d = divsample(&dnew, &hemi)) == 0.0)
157	>	if (divsample(&dnew, &hemi, r) < 0)
158		goto oopsy;
165	–	if (d < FHUGE)
166	–	arad += 1.0 / d;
159		/* reinsert */
160		dp = div;
161		j = ndivs < i ? ndivs : i;
#	Line 172 \| Line 164 \| FVECT pg, dg;
164		dp++;
165		}
166		copystruct(dp, &dnew);
175	–	/* extract darkest */
176	–	if (i <= ndivs) {
177	–	dp = div + i-1;
178	–	arad += dp->r;
179	–	if (dp->n > 1) {
180	–	b = 1.0/dp->n;
181	–	scalecolor(dp->v, b);
182	–	dp->r *= b;
183	–	dp->n = 1;
184	–	}
185	–	addcolor(acol, dp->v);
186	–	}
167		}
168		if (pg != NULL \|\| dg != NULL) /* restore order */
169		qsort(div, ndivs, sizeof(AMBSAMP), ambnorm);
170		}
171		/* compute returned values */
172	<	if (pg != NULL)
173	<	posgradient(pg, div, &hemi);
174	<	if (dg != NULL)
175	<	dirgradient(dg, div, &hemi);
176	<	if (div != NULL)
172	>	if (div != NULL) {
173	>	for (i = ndivs, dp = div; i-- > 0; dp++) {
174	>	arad += dp->r;
175	>	if (dp->n > 1) {
176	>	b = 1.0/dp->n;
177	>	scalecolor(dp->v, b);
178	>	dp->r *= b;
179	>	dp->n = 1;
180	>	}
181	>	addcolor(acol, dp->v);
182	>	}
183	>	b = bright(acol);
184	>	if (b > FTINY) {
185	>	b = ndivs/b;
186	>	if (pg != NULL) {
187	>	posgradient(pg, div, &hemi);
188	>	for (i = 0; i < 3; i++)
189	>	pg[i] *= b;
190	>	}
191	>	if (dg != NULL) {
192	>	dirgradient(dg, div, &hemi);
193	>	for (i = 0; i < 3; i++)
194	>	dg[i] *= b;
195	>	}
196	>	} else {
197	>	if (pg != NULL)
198	>	for (i = 0; i < 3; i++)
199	>	pg[i] = 0.0;
200	>	if (dg != NULL)
201	>	for (i = 0; i < 3; i++)
202	>	dg[i] = 0.0;
203	>	}
204		free((char *)div);
205	+	}
206		b = 1.0/ndivs;
207		scalecolor(acol, b);
208		if (arad <= FTINY)
209	<	arad = FHUGE;
209	>	arad = maxarad;
210		else
211		arad = (ndivs+ns)/arad;
212	<	if (arad > maxarad)
213	<	arad = maxarad;
214	<	else if (arad < minarad)
212	>	if (pg != NULL) { /* reduce radius if gradient large */
213	>	d = DOT(pg,pg);
214	>	if (daradarad > 1.0)
215	>	arad = 1.0/sqrt(d);
216	>	}
217	>	if (arad < minarad) {
218		arad = minarad;
219	<	arad /= sqrt(r->rweight);
219	>	if (pg != NULL && daradarad > 1.0) { /* cap gradient */
220	>	d = 1.0/arad/sqrt(d);
221	>	for (i = 0; i < 3; i++)
222	>	pg[i] *= d;
223	>	}
224	>	}
225	>	if ((arad /= sqrt(wt)) > maxarad)
226	>	arad = maxarad;
227		return(arad);
228		oopsy:
229		if (div != NULL)
#	Line 214 \| Line 232 \| oopsy:
232		}
233
234
235	<	inithemi(hp, r) /* initialize sampling hemisphere */
235	>	inithemi(hp, r, wt) /* initialize sampling hemisphere */
236		register AMBHEMI *hp;
237		RAY *r;
238	+	double wt;
239		{
240		register int i;
241		/* set number of divisions */
242	<	hp->nt = sqrt(ambdiv * r->rweight * 0.5) + 0.5;
243	<	hp->np = 2 * hp->nt;
242	>	if (wt < (.25*PI)/ambdiv+FTINY) {
243	>	hp->nt = hp->np = 0;
244	>	return; /* zero samples */
245	>	}
246	>	hp->nt = sqrt(ambdiv * wt / PI) + 0.5;
247	>	hp->np = PI * hp->nt + 0.5;
248		/* make axes */
249		VCOPY(hp->uz, r->ron);
250		hp->uy[0] = hp->uy[1] = hp->uy[2] = 0.0;
#	Line 231 \| Line 254 \| *RAY r;**
254		if (i >= 3)
255		error(CONSISTENCY, "bad ray direction in inithemi");
256		hp->uy[i] = 1.0;
257	<	fcross(hp->ux, hp->uz, hp->uy);
257	>	fcross(hp->ux, hp->uy, hp->uz);
258		normalize(hp->ux);
259	<	fcross(hp->uy, hp->ux, hp->uz);
259	>	fcross(hp->uy, hp->uz, hp->ux);
260		}
261
262
#	Line 248 \| Line 271 \| *register AMBHEMI hp;**
271		dp = da;
272		for (i = 0; i < hp->nt; i++)
273		for (j = 0; j < hp->np; j++) {
274	+	#ifdef DEBUG
275	+	if (dp->t != i \|\| dp->p != j)
276	+	error(CONSISTENCY,
277	+	"division order in comperrs");
278	+	#endif
279		b = bright(dp[0].v);
280		if (i > 0) { /* from above */
281		b2 = bright(dp[-hp->np].v) - b;
#	Line 260 \| Line 288 \| *register AMBHEMI hp;**
288		b2 = b2 0.25;
289		dp[0].k += b2;
290		dp[-1].k += b2;
291	<	}
292	<	if (j == hp->np-1) { /* around */
265	<	b2 = bright(dp[-(hp->np-1)].v) - b;
291	>	} else { /* around */
292	>	b2 = bright(dp[hp->np-1].v) - b;
293		b2 = b2 0.25;
294		dp[0].k += b2;
295	<	dp[-(hp->np-1)].k += b2;
295	>	dp[hp->np-1].k += b2;
296		}
297		dp++;
298		}
#	Line 286 \| Line 313 \| *register AMBHEMI hp;**
313		posgradient(gv, da, hp) /* compute position gradient */
314		FVECT gv;
315		AMBSAMP da; / assumes standard ordering */
316	<	AMBHEMI *hp;
316	>	register AMBHEMI *hp;
317		{
318		register int i, j;
319	<	double b, d;
319	>	double nextsine, lastsine, b, d;
320		double mag0, mag1;
321		double phi, cosp, sinp, xd, yd;
322		register AMBSAMP *dp;
#	Line 298 \| Line 325 \| *AMBHEMI hp;**
325		for (j = 0; j < hp->np; j++) {
326		dp = da + j;
327		mag0 = mag1 = 0.0;
328	+	lastsine = 0.0;
329		for (i = 0; i < hp->nt; i++) {
330		#ifdef DEBUG
331		if (dp->t != i \|\| dp->p != j)
#	Line 308 \| Line 336 \| *AMBHEMI hp;**
336		if (i > 0) {
337		d = dp[-hp->np].r;
338		if (dp[0].r > d) d = dp[0].r;
339	<	d *= 1.0 - sqrt((double)i/hp->nt);
339	>	/* sin(t)cos(t)^2 /
340	>	d = lastsine (1.0 - (double)i/hp->nt);
341		mag0 += d*(b - bright(dp[-hp->np].v));
342		}
343	+	nextsine = sqrt((double)(i+1)/hp->nt);
344		if (j > 0) {
345		d = dp[-1].r;
346		if (dp[0].r > d) d = dp[0].r;
347	<	mag1 += d*(b - bright(dp[-1].v));
347	>	mag1 += d * (nextsine - lastsine) *
348	>	(b - bright(dp[-1].v));
349		} else {
350		d = dp[hp->np-1].r;
351		if (dp[0].r > d) d = dp[0].r;
352	<	mag1 += d*(b - bright(dp[hp->np-1].v));
352	>	mag1 += d * (nextsine - lastsine) *
353	>	(b - bright(dp[hp->np-1].v));
354		}
355		dp += hp->np;
356	+	lastsine = nextsine;
357		}
358	<	if (hp->nt > 1) {
326	<	mag0 /= (double)(hp->nt-1);
327	<	mag1 /= (double)hp->nt;
328	<	}
358	>	mag0 = 2.0PI / hp->np;
359		phi = 2.0PI (double)j/hp->np;
360		cosp = cos(phi); sinp = sin(phi);
361		xd += mag0cosp - mag1sinp;
362		yd += mag0sinp + mag1cosp;
363		}
364		for (i = 0; i < 3; i++)
365	<	gv[i] = (xdhp->ux[i] + ydhp->uy[i])/hp->np;
365	>	gv[i] = (xdhp->ux[i] + ydhp->uy[i])/PI;
366		}
367
368
369		dirgradient(gv, da, hp) /* compute direction gradient */
370		FVECT gv;
371		AMBSAMP da; / assumes standard ordering */
372	<	AMBHEMI *hp;
372	>	register AMBHEMI *hp;
373		{
374		register int i, j;
375		double mag;
#	Line 356 \| Line 386 \| *AMBHEMI hp;**
386		error(CONSISTENCY,
387		"division order in dirgradient");
388		#endif
389	<	mag += sqrt((i+.5)/hp->nt)*bright(dp->v);
389	>	/* tan(t) */
390	>	mag += bright(dp->v)/sqrt(hp->nt/(i+.5) - 1.0);
391		dp += hp->np;
392		}
393		phi = 2.0PI (j+.5)/hp->np + PI/2.0;

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Comparing ray/src/rt/ambcomp.c (file contents): Revision 1.2 by greg, Fri Jun 7 13:43:05 1991 UTC vs. Revision 2.3 by greg, Wed Mar 4 16:28:25 1992 UTC

Diff Legend

Comparing ray/src/rt/ambcomp.c (file contents):
Revision 1.2 by greg, Fri Jun 7 13:43:05 1991 UTC vs.
Revision 2.3 by greg, Wed Mar 4 16:28:25 1992 UTC