[ViewVC] Diff of: radiance/ray/src/common/bsdf.c

Comparing ray/src/common/bsdf.c (file contents):
Revision 2.39 by greg, Mon Mar 5 00:17:06 2012 UTC vs.
Revision 2.42 by greg, Sun Sep 2 15:33:15 2012 UTC

#	Line 38 \| Line 38 \| *const char SDerrorEnglish[] = {**
38		/* Additional information on last error (ASCII English) */
39		char SDerrorDetail[256];
40
41	+	/* Empty distribution for getCDist() calls that fail for some reason */
42	+	const SDCDst SDemptyCD;
43	+
44		/* Cache of loaded BSDFs */
45		struct SDCache_s *SDcacheList = NULL;
46
#	Line 94 \| Line 97 \| *SDloadGeometry(SDData sd, ezxml_t wdb)**
97		return SDEnone;
98		if ((geom = ezxml_child(wdb, "Name")) != NULL) {
99		strncpy(sd->matn, ezxml_txt(geom), SDnameLn);
100	<	sd->matn[SDnameLn-1] = '\0';
100	>	if (sd->matn[SDnameLn-1])
101	>	strcpy(sd->matn+(SDnameLn-4), "...");
102		}
103		if ((geom = ezxml_child(wdb, "Manufacturer")) != NULL) {
104		strncpy(sd->makr, ezxml_txt(geom), SDnameLn);
105	<	sd->makr[SDnameLn-1] = '\0';
105	>	if (sd->makr[SDnameLn-1])
106	>	strcpy(sd->makr+(SDnameLn-4), "...");
107		}
108		sd->dim[0] = sd->dim[1] = sd->dim[2] = .0;
109		SDerrorDetail[0] = '\0';
#	Line 211 \| Line 216 \| *SDloadFile(SDData sd, const char fname)*
216		if (sd->tf != NULL && sd->tf->maxHemi <= .001) {
217		SDfreeSpectralDF(sd->tf); sd->tf = NULL;
218		}
219	+	if (sd->tb != NULL && sd->tb->maxHemi <= .001) {
220	+	SDfreeSpectralDF(sd->tb); sd->tb = NULL;
221	+	}
222		/* return success */
223		return SDEnone;
224		}
#	Line 345 \| Line 353 \| *SDfreeBSDF(SDData sd)**
353		SDfreeSpectralDF(sd->tf);
354		sd->tf = NULL;
355		}
356	+	if (sd->tb != NULL) {
357	+	SDfreeSpectralDF(sd->tb);
358	+	sd->tb = NULL;
359	+	}
360		sd->rLambFront.cieY = .0;
361		sd->rLambFront.spec.flags = 0;
362		sd->rLambBack.cieY = .0;
#	Line 432 \| Line 444 \| *SDfreeCache(const SDData sd)**
444		SDfreeCumulativeCache(sd->rf);
445		SDfreeCumulativeCache(sd->rb);
446		SDfreeCumulativeCache(sd->tf);
447	+	SDfreeCumulativeCache(sd->tb);
448		return;
449		}
450		/* remove from list and free */
#	Line 498 \| Line 511 \| SDmultiSamp(double t[], int n, double randX)
511		unsigned nBits;
512		double scale;
513		bitmask_t ndx, coord[MS_MAXDIM];
514	<
514	>
515	>	if (n <= 0) /* check corner cases */
516	>	return;
517	>	if (randX < 0) randX = 0;
518	>	else if (randX >= 1.) randX = 0.999999999999999;
519	>	if (n == 1) {
520	>	t[0] = randX;
521	>	return;
522	>	}
523		while (n > MS_MAXDIM) /* punt for higher dimensions */
524		t[--n] = rand()*(1./(RAND_MAX+.5));
525		nBits = (8*sizeof(bitmask_t) - 1) / n;
#	Line 552 \| Line 573 \| *SDsizeBSDF(double projSA, const FVECT v1, const RREAL**
573		case 0:
574		return SDEargument;
575		}
576	<	if (v1[2] > 0) /* front surface query? */
576	>	if (v1[2] > 0) { /* front surface query? */
577		rdf = sd->rf;
578	<	else
578	>	tdf = (sd->tf != NULL) ? sd->tf : sd->tb;
579	>	} else {
580		rdf = sd->rb;
581	<	tdf = sd->tf;
581	>	tdf = (sd->tb != NULL) ? sd->tb : sd->tf;
582	>	}
583		if (v2 != NULL) /* bidirectional? */
584		if (v1[2] > 0 ^ v2[2] > 0)
585		rdf = NULL;
#	Line 604 \| Line 627 \| *SDevalBSDF(SDValue sv, const FVECT outVec, const FVEC**
627		} else if (!(inFront \| outFront)) {
628		*sv = sd->rLambBack;
629		sdf = sd->rb;
630	<	} else /* inFront ^ outFront */ {
630	>	} else if (inFront) {
631		*sv = sd->tLamb;
632	<	sdf = sd->tf;
632	>	sdf = (sd->tf != NULL) ? sd->tf : sd->tb;
633	>	} else /* inBack */ {
634	>	*sv = sd->tLamb;
635	>	sdf = (sd->tb != NULL) ? sd->tb : sd->tf;
636		}
637		sv->cieY *= 1./M_PI;
638		/* add non-diffuse components */
#	Line 630 \| Line 656 \| double
656		SDdirectHemi(const FVECT inVec, int sflags, const SDData *sd)
657		{
658		double hsum;
659	<	SDSpectralDF *rdf;
659	>	SDSpectralDF rdf, tdf;
660		const SDCDst *cd;
661		int i;
662		/* check arguments */
#	Line 640 \| Line 666 \| SDdirectHemi(const FVECT inVec, int sflags, const SDDa
666		if (inVec[2] > 0) {
667		hsum = sd->rLambFront.cieY;
668		rdf = sd->rf;
669	+	tdf = (sd->tf != NULL) ? sd->tf : sd->tb;
670		} else /* !inFront */ {
671		hsum = sd->rLambBack.cieY;
672		rdf = sd->rb;
673	+	tdf = (sd->tb != NULL) ? sd->tb : sd->tf;
674		}
675		if ((sflags & SDsampDf+SDsampR) != SDsampDf+SDsampR)
676		hsum = .0;
677		if ((sflags & SDsampDf+SDsampT) == SDsampDf+SDsampT)
678		hsum += sd->tLamb.cieY;
679		/* gather non-diffuse components */
680	<	i = ((sflags & SDsampSp+SDsampR) == SDsampSp+SDsampR &&
681	<	rdf != NULL) ? rdf->ncomp : 0;
680	>	i = (((sflags & SDsampSp+SDsampR) == SDsampSp+SDsampR) &
681	>	(rdf != NULL)) ? rdf->ncomp : 0;
682		while (i-- > 0) { /* non-diffuse reflection */
683		cd = (*rdf->comp[i].func->getCDist)(inVec, &rdf->comp[i]);
684		if (cd != NULL)
685		hsum += cd->cTotal;
686		}
687	<	i = ((sflags & SDsampSp+SDsampT) == SDsampSp+SDsampT &&
688	<	sd->tf != NULL) ? sd->tf->ncomp : 0;
687	>	i = (((sflags & SDsampSp+SDsampT) == SDsampSp+SDsampT) &
688	>	(tdf != NULL)) ? tdf->ncomp : 0;
689		while (i-- > 0) { /* non-diffuse transmission */
690	<	cd = (*sd->tf->comp[i].func->getCDist)(inVec, &sd->tf->comp[i]);
690	>	cd = (*tdf->comp[i].func->getCDist)(inVec, &tdf->comp[i]);
691		if (cd != NULL)
692		hsum += cd->cTotal;
693		}
#	Line 673 \| Line 701 \| *SDsampBSDF(SDValue sv, FVECT ioVec, double randX, int**
701		SDError ec;
702		FVECT inVec;
703		int inFront;
704	<	SDSpectralDF *rdf;
704	>	SDSpectralDF rdf, tdf;
705		double rdiff;
706		float coef[SDmaxCh];
707		int i, j, n, nr;
#	Line 690 \| Line 718 \| *SDsampBSDF(SDValue sv, FVECT ioVec, double randX, int**
718		if (inFront) {
719		*sv = sd->rLambFront;
720		rdf = sd->rf;
721	+	tdf = (sd->tf != NULL) ? sd->tf : sd->tb;
722		} else /* !inFront */ {
723		*sv = sd->rLambBack;
724		rdf = sd->rb;
725	+	tdf = (sd->tb != NULL) ? sd->tb : sd->tf;
726		}
727		if ((sflags & SDsampDf+SDsampR) != SDsampDf+SDsampR)
728		sv->cieY = .0;
#	Line 700 \| Line 730 \| *SDsampBSDF(SDValue sv, FVECT ioVec, double randX, int**
730		if ((sflags & SDsampDf+SDsampT) == SDsampDf+SDsampT)
731		sv->cieY += sd->tLamb.cieY;
732		/* gather non-diffuse components */
733	<	i = nr = ((sflags & SDsampSp+SDsampR) == SDsampSp+SDsampR &&
734	<	rdf != NULL) ? rdf->ncomp : 0;
735	<	j = ((sflags & SDsampSp+SDsampT) == SDsampSp+SDsampT &&
736	<	sd->tf != NULL) ? sd->tf->ncomp : 0;
733	>	i = nr = (((sflags & SDsampSp+SDsampR) == SDsampSp+SDsampR) &
734	>	(rdf != NULL)) ? rdf->ncomp : 0;
735	>	j = (((sflags & SDsampSp+SDsampT) == SDsampSp+SDsampT) &
736	>	(tdf != NULL)) ? tdf->ncomp : 0;
737		n = i + j;
738		if (n > 0 && (cdarr = (const SDCDst *)malloc(nsizeof(SDCDst *))) == NULL)
739		return SDEmemory;
740		while (j-- > 0) { /* non-diffuse transmission */
741	<	cdarr[i+j] = (*sd->tf->comp[j].func->getCDist)(inVec, &sd->tf->comp[j]);
741	>	cdarr[i+j] = (*tdf->comp[j].func->getCDist)(inVec, &tdf->comp[j]);
742		if (cdarr[i+j] == NULL) {
743		free(cdarr);
744		return SDEmemory;
#	Line 751 \| Line 781 \| *SDsampBSDF(SDValue sv, FVECT ioVec, double randX, int**
781		if (i >= n)
782		return SDEinternal;
783		/* compute sample direction */
784	<	sdc = (i < nr) ? &rdf->comp[i] : &sd->tf->comp[i-nr];
784	>	sdc = (i < nr) ? &rdf->comp[i] : &tdf->comp[i-nr];
785		ec = (*sdc->func->sampCDist)(ioVec, randX/cdarr[i]->cTotal, cdarr[i]);
786		if (ec)
787		return ec;
#	Line 1427 \| Line 1457 \| *r_BSDF_incvec( / compute random input vector at give**
1457		if (!getBSDF_incvec(v, b, i))
1458		return(0);
1459		rad = sqrt(getBSDF_incohm(b, i) / PI);
1460	<	multisamp(pert, 3, rv);
1460	>	SDmultiSamp(pert, 3, rv);
1461		for (j = 0; j < 3; j++)
1462		v[j] += rad(2.pert[j] - 1.);
1463		if (xm != NULL)
#	Line 1452 \| Line 1482 \| *r_BSDF_outvec( / compute random output vector at giv**
1482		if (!getBSDF_outvec(v, b, o))
1483		return(0);
1484		rad = sqrt(getBSDF_outohm(b, o) / PI);
1485	<	multisamp(pert, 3, rv);
1485	>	SDmultiSamp(pert, 3, rv);
1486		for (j = 0; j < 3; j++)
1487		v[j] += rad(2.pert[j] - 1.);
1488		if (xm != NULL)

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing ray/src/common/bsdf.c (file contents): Revision 2.39 by greg, Mon Mar 5 00:17:06 2012 UTC vs. Revision 2.42 by greg, Sun Sep 2 15:33:15 2012 UTC

Diff Legend

Comparing ray/src/common/bsdf.c (file contents):
Revision 2.39 by greg, Mon Mar 5 00:17:06 2012 UTC vs.
Revision 2.42 by greg, Sun Sep 2 15:33:15 2012 UTC