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

Comparing ray/src/rt/ambcomp.c (file contents):
Revision 2.92 by greg, Fri Apr 5 01:10:26 2024 UTC vs.
Revision 2.100 by greg, Mon Apr 28 19:30:01 2025 UTC

#	Line 24 \| Line 24 \| static const char RCSid[] = "$Id$";
24		#ifndef MINADIV
25		#define MINADIV 7 /* minimum # divisions in each dimension */
26		#endif
27	+	#ifndef MINSDIST
28	+	#define MINSDIST 0.25 /* def. min. spacing = 1/4th division */
29	+	#endif
30
31		typedef struct {
32		FVECT p; /* intersection point */
#	Line 62 \| Line 65 \| *ambcollision( / proposed direciton collides? /*
65		{
66		double cos_thresh;
67		int ii, jj;
68	<	/* min. spacing = 1/4th division */
69	<	cos_thresh = (PI/4.)/(double)hp->ns;
68	>
69	>	cos_thresh = (PI*MINSDIST)/(double)hp->ns;
70		cos_thresh = 1. - .5cos_threshcos_thresh;
71		/* check existing neighbors */
72		for (ii = i-1; ii <= i+1; ii++) {
#	Line 89 \| Line 92 \| *ambcollision( / proposed direciton collides? /*
92		}
93
94
95	+	#define XLOTSIZ 251 /* size of used car lot */
96	+	#define CFIRST 0 /* first corner */
97	+	#define COTHER (CFIRST+4) /* non-corner sample */
98	+	#define CMAXTARGET (int)(XLOTSIZ*MINSDIST/(1-MINSDIST))
99	+	#define CXCOPY(d,s) (excharr[d][0]=excharr[s][0], excharr[d][1]=excharr[s][1])
100	+
101		static int
102	+	psample_class(double ss[2]) /* classify patch sample */
103	+	{
104	+	if (ss[0] < MINSDIST) {
105	+	if (ss[1] < MINSDIST)
106	+	return(CFIRST);
107	+	if (ss[1] > 1.-MINSDIST)
108	+	return(CFIRST+2);
109	+	} else if (ss[0] > 1.-MINSDIST) {
110	+	if (ss[1] < MINSDIST)
111	+	return(CFIRST+1);
112	+	if (ss[1] > 1.-MINSDIST)
113	+	return(CFIRST+3);
114	+	}
115	+	return(COTHER); /* not in a corner */
116	+	}
117	+
118	+	static void
119	+	trade_patchsamp(double ss[2]) /* trade in problem patch position */
120	+	{
121	+	static float excharr[XLOTSIZ][2];
122	+	static short gterm[COTHER+1];
123	+	double srep[2];
124	+	int sclass, rclass;
125	+	int x;
126	+	/* reset on corner overload */
127	+	if (gterm[COTHER-1] >= (CMAXTARGET+XLOTSIZ)/2)
128	+	memset(gterm, 0, sizeof(gterm));
129	+	/* (re-)initialize? */
130	+	while (gterm[COTHER] < XLOTSIZ) {
131	+	excharr[gterm[COTHER]][0] = frandom();
132	+	excharr[gterm[COTHER]][1] = frandom();
133	+	++gterm[COTHER];
134	+	} /* get trade-in candidate... */
135	+	sclass = psample_class(ss); /* submitted corner or not? */
136	+	switch (sclass) {
137	+	case COTHER: /* trade mid-edge with corner/any */
138	+	x = irandom( gterm[COTHER-1] > CMAXTARGET
139	+	? gterm[COTHER-1] : XLOTSIZ );
140	+	break;
141	+	case CFIRST: /* kick out of first corner */
142	+	x = gterm[CFIRST] + irandom(XLOTSIZ - gterm[CFIRST]);
143	+	break;
144	+	default: /* kick out of 2nd-4th corner */
145	+	x = irandom(XLOTSIZ - (gterm[sclass] - gterm[sclass-1]));
146	+	x += (x >= gterm[sclass-1])*(gterm[sclass] - gterm[sclass-1]);
147	+	break;
148	+	}
149	+	srep[0] = excharr[x][0]; /* save selected replacement (result) */
150	+	srep[1] = excharr[x][1];
151	+	/* identify replacement class */
152	+	for (rclass = CFIRST; rclass < COTHER; rclass++)
153	+	if (x < gterm[rclass])
154	+	break; /* repark to keep classes grouped */
155	+	while (rclass > sclass) { /* replacement group after submitted? */
156	+	CXCOPY(x, gterm[rclass-1]);
157	+	x = gterm[--rclass]++;
158	+	}
159	+	while (rclass < sclass) { /* replacement group before submitted? */
160	+	--gterm[rclass];
161	+	CXCOPY(x, gterm[rclass]);
162	+	x = gterm[rclass++];
163	+	}
164	+	excharr[x][0] = ss[0]; /* complete the trade-in */
165	+	excharr[x][1] = ss[1];
166	+	ss[0] = srep[0];
167	+	ss[1] = srep[1];
168	+	}
169	+
170	+	#undef CXCOPY
171	+	#undef XLOTSIZ
172	+	#undef COTHER
173	+	#undef CFIRST
174	+
175	+
176	+	static int
177		ambsample( /* initial ambient division sample */
178		AMBHEMI *hp,
179		int i,
#	Line 100 \| Line 184 \| *ambsample( / initial ambient division sample /*
184		AMBSAMP *ap = &ambsam(hp,i,j);
185		RAY ar;
186		int hlist[3], ii;
187	+	double ss[2];
188		RREAL spt[2];
189		double zd;
190		/* generate hemispherical sample */
#	Line 115 \| Line 200 \| *ambsample( / initial ambient division sample /*
200		scalescolor(ar.rcoef, 1./AVGREFL);
201		}
202		hlist[0] = hp->rp->rno;
203	<	hlist[1] = j;
204	<	hlist[2] = i;
205	<	multisamp(spt, 2, urand(ilhash(hlist,3)+n));
206	<	resample:
207	<	square2disk(spt, (j+spt[1])/hp->ns, (i+spt[0])/hp->ns);
203	>	hlist[1] = AI(hp,i,j);
204	>	hlist[2] = samplendx;
205	>	multisamp(ss, 2, urand(ilhash(hlist,3)+n));
206	>	patch_redo:
207	>	square2disk(spt, (j+ss[1])/hp->ns, (i+ss[0])/hp->ns);
208		zd = sqrt(1. - spt[0]spt[0] - spt[1]spt[1]);
209		for (ii = 3; ii--; )
210		ar.rdir[ii] = spt[0]*hp->ux[ii] +
#	Line 127 \| Line 212 \| resample:
212		zd*hp->onrm[ii];
213		checknorm(ar.rdir);
214		/* avoid coincident samples */
215	<	if (!n && ambcollision(hp, i, j, ar.rdir)) {
216	<	spt[0] = frandom(); spt[1] = frandom();
217	<	goto resample; /* reject this sample */
215	>	if (!n & (hp->ns >= 4) && ambcollision(hp, i, j, ar.rdir)) {
216	>	trade_patchsamp(ss);
217	>	goto patch_redo;
218		}
219		dimlist[ndims++] = AI(hp,i,j) + 90171;
220		rayvalue(&ar); /* evaluate ray */
#	Line 162 \| Line 247 \| resample:
247		static float *
248		getambdiffs(AMBHEMI *hp)
249		{
250	<	const double normf = 1./bright(hp->acoef);
251	<	float earr = (float )calloc(hp->ns*hp->ns, sizeof(float));
250	>	const double normf = 1./(pbright(hp->acoef) + FTINY);
251	>	float earr = (float )calloc(2hp->nshp->ns, sizeof(float));
252		float *ep;
253		AMBSAMP *ap;
254		double b, b1, d2;
#	Line 172 \| Line 257 \| *getambdiffs(AMBHEMI hp)**
257		if (earr == NULL) /* out of memory? */
258		return(NULL);
259		/* sum squared neighbor diffs */
260	<	for (ap = hp->sa, ep = earr, i = 0; i < hp->ns; i++)
260	>	ap = hp->sa;
261	>	ep = earr + hp->nshp->ns; / original estimates to scratch */
262	>	for (i = 0; i < hp->ns; i++)
263		for (j = 0; j < hp->ns; j++, ap++, ep++) {
264		b = pbright(ap[0].v);
265		if (i) { /* from above */
#	Line 198 \| Line 285 \| *getambdiffs(AMBHEMI hp)**
285		ep[-hp->ns-1] += d2;
286		}
287		/* correct for number of neighbors */
288	<	earr[0] *= 8./3.;
289	<	earr[hp->ns-1] *= 8./3.;
290	<	earr[(hp->ns-1)hp->ns] = 8./3.;
291	<	earr[(hp->ns-1)hp->ns + hp->ns-1] = 8./3.;
288	>	ep = earr + hp->ns*hp->ns;
289	>	ep[0] *= 6./3.;
290	>	ep[hp->ns-1] *= 6./3.;
291	>	ep[(hp->ns-1)hp->ns] = 6./3.;
292	>	ep[(hp->ns-1)hp->ns + hp->ns-1] = 6./3.;
293		for (i = 1; i < hp->ns-1; i++) {
294	<	earr[ihp->ns] = 8./5.;
295	<	earr[ihp->ns + hp->ns-1] = 8./5.;
294	>	ep[ihp->ns] = 6./5.;
295	>	ep[ihp->ns + hp->ns-1] = 6./5.;
296		}
297		for (j = 1; j < hp->ns-1; j++) {
298	<	earr[j] *= 8./5.;
299	<	earr[(hp->ns-1)hp->ns + j] = 8./5.;
298	>	ep[j] *= 6./5.;
299	>	ep[(hp->ns-1)hp->ns + j] = 6./5.;
300		}
301	+	/* blur final map to reduce bias */
302	+	for (i = 0; i < hp->ns-1; i++) {
303	+	float *ep2;
304	+	ep = earr + i*hp->ns;
305	+	ep2 = ep + hp->ns*hp->ns;
306	+	for (j = 0; j < hp->ns-1; j++, ep++, ep2++) {
307	+	ep[0] += .5ep2[0] + .125(ep2[1] + ep2[hp->ns]);
308	+	ep[1] += .125*ep2[0];
309	+	ep[hp->ns] += .125*ep2[0];
310	+	}
311	+	}
312		return(earr);
313		}
314
#	Line 261 \| Line 360 \| *samp_hemi( / sample indirect hemisphere /*
360		/* set number of divisions */
361		if (backside) wt = -wt;
362		if (ambacc <= FTINY &&
363	<	wt > (d = 0.8r->rweight/(ambdiv*minweight)))
363	>	wt > (d = 0.8r->rweight/(ambdiv*minweight + 1e-20)))
364		wt = d; /* avoid ray termination */
365		n = sqrt(ambdiv * wt) + 0.5;
366		i = 1 + (MINADIV-1)*(ambacc > FTINY);
#	Line 310 \| Line 409 \| *samp_hemi( / sample indirect hemisphere /*
409		if (hp->sampOK <= MINADIV*MINADIV)
410		return(hp); /* don't bother super-sampling */
411		n = ambssamp*wt + 0.5;
412	<	if (n > 8) { /* perform super-sampling? */
412	>	if (n >= 4hp->ns) { / perform super-sampling? */
413		ambsupersamp(hp, n);
414		copyscolor(rcol, hp->acol);
415		}

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Comparing ray/src/rt/ambcomp.c (file contents): Revision 2.92 by greg, Fri Apr 5 01:10:26 2024 UTC vs. Revision 2.100 by greg, Mon Apr 28 19:30:01 2025 UTC

Diff Legend

Comparing ray/src/rt/ambcomp.c (file contents):
Revision 2.92 by greg, Fri Apr 5 01:10:26 2024 UTC vs.
Revision 2.100 by greg, Mon Apr 28 19:30:01 2025 UTC