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

Comparing ray/src/rt/ambcomp.c (file contents):
Revision 2.50 by greg, Wed May 7 16:02:26 2014 UTC vs.
Revision 2.54 by greg, Fri May 9 04:55:19 2014 UTC

#	Line 105 \| Line 105 \| vdb_edge(int db1, int db2)
105		case VDB_xY: return(db2==VDB_x ? VDB_y : VDB_X);
106		case VDB_Xy: return(db2==VDB_y ? VDB_x : VDB_Y);
107		}
108	<	error(INTERNAL, "forbidden diagonal in vdb_edge()");
108	>	error(CONSISTENCY, "forbidden diagonal in vdb_edge()");
109		return(-1);
110		}
111
#	Line 225 \| Line 225 \| *ambsample( / initial ambient division sample /*
225		static float *
226		getambdiffs(AMBHEMI *hp)
227		{
228	<	float earr = (float )calloc(hp->ns*hp->ns, sizeof(float));
228	>	float earr = (float )malloc(sizeof(float)hp->nshp->ns);
229		float *ep;
230		AMBSAMP *ap;
231		double b, d2;
#	Line 236 \| Line 236 \| *getambdiffs(AMBHEMI hp)**
236		/* compute squared neighbor diffs */
237		for (ap = hp->sa, ep = earr, i = 0; i < hp->ns; i++)
238		for (j = 0; j < hp->ns; j++, ap++, ep++) {
239	+	ep[0] = FTINY;
240		b = bright(ap[0].v);
241		if (i) { /* from above */
242		d2 = b - bright(ap[-hp->ns].v);
#	Line 272 \| Line 273 \| static void
273		ambsupersamp(double acol[3], AMBHEMI *hp, int cnt)
274		{
275		float *earr = getambdiffs(hp);
276	<	double e2sum = 0.0;
276	>	double e2rem = 0;
277		AMBSAMP *ap;
278		RAY ar;
279		double asum[3];
#	Line 281 \| Line 282 \| *ambsupersamp(double acol[3], AMBHEMI hp, int cnt)**
282
283		if (earr == NULL) /* just skip calc. if no memory */
284		return;
285	<	/* add up estimated variances */
285	>	/* accumulate estimated variances */
286		for (ep = earr + hp->ns*hp->ns; ep-- > earr; )
287	<	e2sum += *ep;
287	>	e2rem += *ep;
288		ep = earr; /* perform super-sampling */
289		for (ap = hp->sa, i = 0; i < hp->ns; i++)
290		for (j = 0; j < hp->ns; j++, ap++) {
291	<	int nss = ep/e2sumcnt + frandom();
291	>	int nss = ep/e2remcnt + frandom();
292		asum[0] = asum[1] = asum[2] = 0.0;
293		for (n = 1; n <= nss; n++) {
294		if (!getambsamp(&ar, hp, i, j, n)) {
#	Line 297 \| Line 298 \| *ambsupersamp(double acol[3], AMBHEMI hp, int cnt)**
298		addcolor(asum, ar.rcol);
299		}
300		if (nss) { /* update returned ambient value */
301	<	const double ssf = 1./(nss + 1);
301	>	const double ssf = 1./(nss + 1.);
302		for (n = 3; n--; )
303		acol[n] += ssf*asum[n] +
304		(ssf - 1.)*colval(ap->v,n);
305		}
306	<	e2sum -= ep++; / update remainders */
306	>	e2rem -= ep++; / update remainders */
307		cnt -= nss;
308		}
309		free(earr);
#	Line 537 \| Line 538 \| add2gradient(FVECT grad, FVECT egrad1, FVECT egrad2, F
538
539
540		/* Compute anisotropic radii and eigenvector directions */
541	<	static int
541	>	static void
542		eigenvectors(FVECT uv[2], float ra[2], FVECT hessian[3])
543		{
544		double hess2[2][2];
#	Line 559 \| Line 560 \| eigenvectors(FVECT uv[2], float ra[2], FVECT hessian[3
560		if (i == 1) /* double-root (circle) */
561		evalue[1] = evalue[0];
562		if (!i \|\| ((evalue[0] = fabs(evalue[0])) <= FTINY*FTINY) \|
563	<	((evalue[1] = fabs(evalue[1])) <= FTINY*FTINY) )
564	<	error(INTERNAL, "bad eigenvalue calculation");
565	<
563	>	((evalue[1] = fabs(evalue[1])) <= FTINY*FTINY) ) {
564	>	ra[0] = ra[1] = maxarad;
565	>	return;
566	>	}
567		if (evalue[0] > evalue[1]) {
568		ra[0] = sqrt(sqrt(4.0/evalue[0]));
569		ra[1] = sqrt(sqrt(4.0/evalue[1]));
#	Line 725 \| Line 727 \| *ambcorral(AMBHEMI hp, FVECT uv[2], const double r0, c**
727		const double max_d = 1.0/(minarad*ambacc + 0.001);
728		const double ang_res = 0.5*PI/(hp->ns-1);
729		const double ang_step = ang_res/((int)(16/PI*ang_res) + (1+FTINY));
730	+	double avg_d = 0;
731		uint32 flgs = 0;
732		int i, j;
733	<	/* circle around perimeter */
733	>	/* don't bother for a few samples */
734	>	if (hp->ns < 12)
735	>	return(0);
736	>	/* check distances overhead */
737	>	for (i = hp->ns*3/4; i-- > hp->ns>>2; )
738	>	for (j = hp->ns*3/4; j-- > hp->ns>>2; )
739	>	avg_d += ambsam(hp,i,j).d;
740	>	avg_d = 4.0/(hp->nshp->ns);
741	>	if (avg_dr0 >= 1.0) / ceiling too low for corral? */
742	>	return(0);
743	>	if (avg_d >= max_d) /* insurance */
744	>	return(0);
745	>	/* else circle around perimeter */
746		for (i = 0; i < hp->ns; i++)
747		for (j = 0; j < hp->ns; j += !i\|(i==hp->ns-1) ? 1 : hp->ns-1) {
748		AMBSAMP *ap = &ambsam(hp,i,j);
#	Line 815 \| Line 830 \| *doambient( / compute ambient component /*
830		K = 1.0;
831		pg = NULL;
832		dg = NULL;
833	+	crlp = NULL;
834		}
835		ap = hp->sa; /* relative Y channel from here on... */
836		for (i = hp->ns*hp->ns; i--; ap++)
#	Line 850 \| Line 866 \| *doambient( / compute ambient component /*
866		if (ra[0] > maxarad)
867		ra[0] = maxarad;
868		}
869	<	if (crlp != NULL) /* flag encroached directions */
869	>	/* flag encroached directions */
870	>	if ((wt >= 0.5-FTINY) & (crlp != NULL))
871		crlp = ambcorral(hp, uv, ra[0]ambacc, ra[1]*ambacc);
872		if (pg != NULL) { /* cap gradient if necessary */
873		d = pg[0]pg[0]ra[0]ra[0] + pg[1]pg[1]ra[1]ra[1];

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Comparing ray/src/rt/ambcomp.c (file contents): Revision 2.50 by greg, Wed May 7 16:02:26 2014 UTC vs. Revision 2.54 by greg, Fri May 9 04:55:19 2014 UTC

Diff Legend

Comparing ray/src/rt/ambcomp.c (file contents):
Revision 2.50 by greg, Wed May 7 16:02:26 2014 UTC vs.
Revision 2.54 by greg, Fri May 9 04:55:19 2014 UTC