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

Comparing ray/src/common/bsdf_m.c (file contents):
Revision 3.5 by greg, Sat Feb 19 23:42:09 2011 UTC vs.
Revision 3.18 by greg, Thu Jul 7 15:25:09 2011 UTC

#	Line 11 \| Line 11 \| static const char RCSid[] = "$Id$";
11		*
12		*/
13
14	+	#define _USE_MATH_DEFINES
15		#include "rtio.h"
16		#include <stdlib.h>
17		#include <math.h>
#	Line 81 \| Line 82 \| *static int nabases = 3; / current number of defined b**
82		static int
83		fequal(double a, double b)
84		{
85	<	if (b != .0)
85	>	if (b != 0)
86		a = a/b - 1.;
87		return (a <= 1e-6) & (a >= -1e-6);
88		}
89
90	<	/* returns the name of the given tag */
90	<	#ifdef ezxml_name
91	<	#undef ezxml_name
92	<	static char *
93	<	ezxml_name(ezxml_t xml)
94	<	{
95	<	if (xml == NULL)
96	<	return NULL;
97	<	return xml->name;
98	<	}
99	<	#endif
100	<
101	<	/* returns the given tag's character content or empty string if none */
90	>	/* Returns the given tag's character content or empty string if none */
91		#ifdef ezxml_txt
92		#undef ezxml_txt
93		static char *
#	Line 157 \| Line 146 \| SDnewMatrix(int ni, int no)
146		/* Free a BSDF matrix */
147		#define SDfreeMatrix free
148
149	<	/* get vector for this angle basis index */
149	>	/* get vector for this angle basis index (front exiting) */
150		static int
151	<	ab_getvec(FVECT v, int ndx, double randX, void *p)
151	>	fo_getvec(FVECT v, double ndxr, void *p)
152		{
153	<	ANGLE_BASIS ab = (ANGLE_BASIS )p;
153	>	ANGLE_BASIS ab = (ANGLE_BASIS )p;
154	>	int ndx = (int)ndxr;
155	>	double randX = ndxr - ndx;
156		double rx[2];
157		int li;
158		double pol, azi, d;
159
160	<	if ((ndx < 0) \| (ndx >= ab->nangles))
160	>	if ((ndxr < 0) \| (ndx >= ab->nangles))
161		return RC_FAIL;
162		for (li = 0; ndx >= ab->lat[li].nphis; li++)
163		ndx -= ab->lat[li].nphis;
#	Line 181 \| Line 172 \| *ab_getvec(FVECT v, int ndx, double randX, void p)**
172		return RC_GOOD;
173		}
174
175	<	/* get index corresponding to the given vector */
175	>	/* get index corresponding to the given vector (front exiting) */
176		static int
177	<	ab_getndx(const FVECT v, void *p)
177	>	fo_getndx(const FVECT v, void *p)
178		{
179	<	ANGLE_BASIS ab = (ANGLE_BASIS )p;
179	>	ANGLE_BASIS ab = (ANGLE_BASIS )p;
180		int li, ndx;
181	<	double pol, azi, d;
181	>	double pol, azi;
182
183		if (v == NULL)
184		return -1;
185	<	if ((v[2] < .0) \| (v[2] > 1.0))
185	>	if ((v[2] < 0) \| (v[2] > 1.))
186		return -1;
187		pol = 180.0/M_PI*acos(v[2]);
188		azi = 180.0/M_PI*atan2(v[1], v[0]);
#	Line 210 \| Line 201 \| *ab_getndx(const FVECT v, void p)**
201		/* compute square of real value */
202		static double sq(double x) { return x*x; }
203
204	<	/* get projected solid angle for this angle basis index */
204	>	/* get projected solid angle for this angle basis index (universal) */
205		static double
206	<	ab_getohm(int ndx, void *p)
206	>	io_getohm(int ndx, void *p)
207		{
208		static int last_li = -1;
209		static double last_ohm;
#	Line 235 \| Line 226 \| *ab_getohm(int ndx, void p)**
226		(double)ab->lat[li].nphis;
227		}
228
229	<	/* get reverse vector for this angle basis index */
229	>	/* get vector for this angle basis index (back incident) */
230		static int
231	<	ab_getvecR(FVECT v, int ndx, double randX, void *p)
231	>	bi_getvec(FVECT v, double ndxr, void *p)
232		{
233	<	int na = ((ANGLE_BASIS )p).nangles;
243	<
244	<	if (!ab_getvec(v, ndx, randX, p))
233	>	if (!fo_getvec(v, ndxr, p))
234		return RC_FAIL;
235
236		v[0] = -v[0];
#	Line 251 \| Line 240 \| *ab_getvecR(FVECT v, int ndx, double randX, void p)**
240		return RC_GOOD;
241		}
242
243	<	/* get index corresponding to the reverse vector */
243	>	/* get index corresponding to the vector (back incident) */
244		static int
245	<	ab_getndxR(const FVECT v, void *p)
245	>	bi_getndx(const FVECT v, void *p)
246		{
247		FVECT v2;
248
#	Line 261 \| Line 250 \| *ab_getndxR(const FVECT v, void p)**
250		v2[1] = -v[1];
251		v2[2] = -v[2];
252
253	<	return ab_getndx(v2, p);
253	>	return fo_getndx(v2, p);
254		}
255
256	+	/* get vector for this angle basis index (back exiting) */
257	+	static int
258	+	bo_getvec(FVECT v, double ndxr, void *p)
259	+	{
260	+	if (!fo_getvec(v, ndxr, p))
261	+	return RC_FAIL;
262	+
263	+	v[2] = -v[2];
264	+
265	+	return RC_GOOD;
266	+	}
267	+
268	+	/* get index corresponding to the vector (back exiting) */
269	+	static int
270	+	bo_getndx(const FVECT v, void *p)
271	+	{
272	+	FVECT v2;
273	+
274	+	v2[0] = v[0];
275	+	v2[1] = v[1];
276	+	v2[2] = -v[2];
277	+
278	+	return fo_getndx(v2, p);
279	+	}
280	+
281	+	/* get vector for this angle basis index (front incident) */
282	+	static int
283	+	fi_getvec(FVECT v, double ndxr, void *p)
284	+	{
285	+	if (!fo_getvec(v, ndxr, p))
286	+	return RC_FAIL;
287	+
288	+	v[0] = -v[0];
289	+	v[1] = -v[1];
290	+
291	+	return RC_GOOD;
292	+	}
293	+
294	+	/* get index corresponding to the vector (front incident) */
295	+	static int
296	+	fi_getndx(const FVECT v, void *p)
297	+	{
298	+	FVECT v2;
299	+
300	+	v2[0] = -v[0];
301	+	v2[1] = -v[1];
302	+	v2[2] = v[2];
303	+
304	+	return fo_getndx(v2, p);
305	+	}
306	+
307		/* load custom BSDF angle basis */
308		static int
309		load_angle_basis(ezxml_t wab)
#	Line 301 \| Line 341 \| load_angle_basis(ezxml_t wab)
341		"ThetaBounds"), "LowerTheta"))),
342		abase_list[nabases].lat[i].tmin)) {
343		sprintf(SDerrorDetail, "Theta values disagree in '%s'",
344	<	abname);
344	>	abname);
345		return RC_DATERR;
346		}
347		abase_list[nabases].nangles +=
#	Line 311 \| Line 351 \| load_angle_basis(ezxml_t wab)
351		(abase_list[nabases].lat[i].nphis == 1 &&
352		abase_list[nabases].lat[i].tmin > FTINY)) {
353		sprintf(SDerrorDetail, "Illegal phi count in '%s'",
354	<	abname);
354	>	abname);
355		return RC_DATERR;
356		}
357		}
#	Line 362 \| Line 402 \| *load_bsdf_data(SDData sd, ezxml_t wdb, int rowinc)**
402		SDSpectralDF *df;
403		SDMat *dp;
404		char *sdata;
405	+	int tfront;
406		int inbi, outbi;
407		int i;
408		/* allocate BSDF component */
409		sdata = ezxml_txt(ezxml_child(wdb, "WavelengthDataDirection"));
410	<	if (!strcasecmp(sdata, "Transmission Front")) {
410	>	if (!sdata)
411	>	return RC_FAIL;
412	>	/*
413	>	* Remember that front and back are reversed from WINDOW 6 orientations
414	>	* Favor their "Front" (incoming light) since that's more often valid
415	>	*/
416	>	tfront = !strcasecmp(sdata, "Transmission Back");
417	>	if (!strcasecmp(sdata, "Transmission Front") \|\|
418	>	tfront & (sd->tf == NULL)) {
419		if (sd->tf != NULL)
420		SDfreeSpectralDF(sd->tf);
421		if ((sd->tf = SDnewSpectralDF(1)) == NULL)
422		return RC_MEMERR;
423		df = sd->tf;
424		} else if (!strcasecmp(sdata, "Reflection Front")) {
425	<	if (sd->rf != NULL)
377	<	SDfreeSpectralDF(sd->rf);
378	<	if ((sd->rf = SDnewSpectralDF(1)) == NULL)
379	<	return RC_MEMERR;
380	<	df = sd->rf;
381	<	} else if (!strcasecmp(sdata, "Reflection Back")) {
382	<	if (sd->rb != NULL)
425	>	if (sd->rb != NULL) /* note back-front reversal */
426		SDfreeSpectralDF(sd->rb);
427		if ((sd->rb = SDnewSpectralDF(1)) == NULL)
428		return RC_MEMERR;
429		df = sd->rb;
430	+	} else if (!strcasecmp(sdata, "Reflection Back")) {
431	+	if (sd->rf != NULL) /* note front-back reversal */
432	+	SDfreeSpectralDF(sd->rf);
433	+	if ((sd->rf = SDnewSpectralDF(1)) == NULL)
434	+	return RC_MEMERR;
435	+	df = sd->rf;
436		} else
437		return RC_FAIL;
438		/* XXX should also check "ScatteringDataType" for consistency? */
#	Line 421 \| Line 470 \| *load_bsdf_data(SDData sd, ezxml_t wdb, int rowinc)**
470		dp->ib_priv = &abase_list[inbi];
471		dp->ob_priv = &abase_list[outbi];
472		if (df == sd->tf) {
473	<	dp->ib_vec = &ab_getvecR;
474	<	dp->ib_ndx = &ab_getndxR;
475	<	dp->ob_vec = &ab_getvec;
476	<	dp->ob_ndx = &ab_getndx;
473	>	if (tfront) {
474	>	dp->ib_vec = &fi_getvec;
475	>	dp->ib_ndx = &fi_getndx;
476	>	dp->ob_vec = &bo_getvec;
477	>	dp->ob_ndx = &bo_getndx;
478	>	} else {
479	>	dp->ib_vec = &bi_getvec;
480	>	dp->ib_ndx = &bi_getndx;
481	>	dp->ob_vec = &fo_getvec;
482	>	dp->ob_ndx = &fo_getndx;
483	>	}
484		} else if (df == sd->rf) {
485	<	dp->ib_vec = &ab_getvec;
486	<	dp->ib_ndx = &ab_getndx;
487	<	dp->ob_vec = &ab_getvec;
488	<	dp->ob_ndx = &ab_getndx;
485	>	dp->ib_vec = &fi_getvec;
486	>	dp->ib_ndx = &fi_getndx;
487	>	dp->ob_vec = &fo_getvec;
488	>	dp->ob_ndx = &fo_getndx;
489		} else /* df == sd->rb */ {
490	<	dp->ib_vec = &ab_getvecR;
491	<	dp->ib_ndx = &ab_getndxR;
492	<	dp->ob_vec = &ab_getvecR;
493	<	dp->ob_ndx = &ab_getndxR;
490	>	dp->ib_vec = &bi_getvec;
491	>	dp->ib_ndx = &bi_getndx;
492	>	dp->ob_vec = &bo_getvec;
493	>	dp->ob_ndx = &bo_getndx;
494		}
495	<	dp->ib_ohm = &ab_getohm;
496	<	dp->ob_ohm = &ab_getohm;
495	>	dp->ib_ohm = &io_getohm;
496	>	dp->ob_ohm = &io_getohm;
497		df->comp[0].cspec[0] = c_dfcolor; /* XXX monochrome for now */
498		df->comp[0].dist = dp;
499		df->comp[0].func = &SDhandleMtx;
500		/* read BSDF data */
501	<	sdata = ezxml_txt(ezxml_child(wdb,"ScatteringData"));
501	>	sdata = ezxml_txt(ezxml_child(wdb, "ScatteringData"));
502		if (!sdata \|\| !*sdata) {
503		sprintf(SDerrorDetail, "Missing BSDF ScatteringData in '%s'",
504		sd->name);
#	Line 456 \| Line 512 \| *load_bsdf_data(SDData sd, ezxml_t wdb, int rowinc)**
512		sd->name);
513		return RC_FORMERR;
514		}
515	<	while (sdnext && isspace(sdnext))
515	>	while (isspace(*sdnext))
516		sdnext++;
517		if (*sdnext == ',') sdnext++;
518		if (rowinc) {
519		int r = i/dp->nout;
520	<	int c = i - c*dp->nout;
520	>	int c = i - r*dp->nout;
521		mBSDF_value(dp,r,c) = atof(sdata);
522		} else
523		dp->bsdf[i] = atof(sdata);
#	Line 481 \| Line 537 \| *subtract_min(SDMat sm)**
537		for (i = n; --i; )
538		if (sm->bsdf[i] < minv)
539		minv = sm->bsdf[i];
540	+
541	+	if (minv <= FTINY)
542	+	return .0;
543	+
544		for (i = n; i--; )
545		sm->bsdf[i] -= minv;
546
#	Line 506 \| Line 566 \| *extract_diffuse(SDValue dv, SDSpectralDF df)*
566		c_cmix(&dv->spec, dv->cieY, &dv->spec, ymin, &df->comp[n].cspec[0]);
567		dv->cieY += ymin;
568		}
569	<	df->maxHemi -= dv->cieY; /* adjust minimum hemispherical */
569	>	df->maxHemi -= dv->cieY; /* adjust maximum hemispherical */
570		/* make sure everything is set */
571		c_ccvt(&dv->spec, C_CSXY+C_CSSPEC);
572		}
#	Line 515 \| Line 575 \| *extract_diffuse(SDValue dv, SDSpectralDF df)*
575		SDError
576		SDloadMtx(SDData *sd, ezxml_t wtl)
577		{
578	<	ezxml_t wld, wdb;
579	<	int rowIn;
580	<	struct BSDF_data *dp;
581	<	char *txt;
582	<	int rval;
523	<
578	>	ezxml_t wld, wdb;
579	>	int rowIn;
580	>	char *txt;
581	>	int rval;
582	>	/* basic checks and data ordering */
583		txt = ezxml_txt(ezxml_child(ezxml_child(wtl,
584		"DataDefinition"), "IncidentDataStructure"));
585		if (txt == NULL \|\| !*txt) {
#	Line 539 \| Line 598 \| *SDloadMtx(SDData sd, ezxml_t wtl)**
598		sd->name);
599		return SDEsupport;
600		}
601	<	/* get angle basis */
602	<	rval = load_angle_basis(ezxml_child(ezxml_child(wtl,
603	<	"DataDefinition"), "AngleBasis"));
604	<	if (rval < 0)
605	<	return convert_errcode(rval);
606	<	/* load BSDF components */
601	>	/* get angle bases */
602	>	for (wld = ezxml_child(ezxml_child(wtl, "DataDefinition"), "AngleBasis");
603	>	wld != NULL; wld = wld->next) {
604	>	rval = load_angle_basis(wld);
605	>	if (rval < 0)
606	>	return convert_errcode(rval);
607	>	}
608	>	/* load BSDF components */
609		for (wld = ezxml_child(wtl, "WavelengthData");
610		wld != NULL; wld = wld->next) {
611		if (strcasecmp(ezxml_txt(ezxml_child(wld,"Wavelength")),
#	Line 555 \| Line 616 \| *SDloadMtx(SDData sd, ezxml_t wtl)**
616		if ((rval = load_bsdf_data(sd, wdb, rowIn)) < 0)
617		return convert_errcode(rval);
618		}
619	<	/* separate diffuse components */
619	>	/* separate diffuse components */
620		extract_diffuse(&sd->rLambFront, sd->rf);
621		extract_diffuse(&sd->rLambBack, sd->rb);
622		extract_diffuse(&sd->tLamb, sd->tf);
623	<	/* return success */
623	>	/* return success */
624		return SDEnone;
625		}
626
627		/* Get Matrix BSDF value */
628		static int
629		SDgetMtxBSDF(float coef[SDmaxCh], const FVECT outVec,
630	<	const FVECT inVec, const void *dist)
630	>	const FVECT inVec, SDComponent *sdc)
631		{
632	<	const SDMat dp = (const SDMat )dist;
632	>	const SDMat *dp;
633		int i_ndx, o_ndx;
634	+	/* check arguments */
635	+	if ((coef == NULL) \| (outVec == NULL) \| (inVec == NULL) \| (sdc == NULL)
636	+	\|\| (dp = (SDMat *)sdc->dist) == NULL)
637	+	return 0;
638		/* get angle indices */
639		i_ndx = mBSDF_incndx(dp, inVec);
640		o_ndx = mBSDF_outndx(dp, outVec);
641		/* try reciprocity if necessary */
642	<	if ((i_ndx < 0) & (o_ndx < 0)) {
642	>	if ((i_ndx < 0) & (o_ndx < 0) && dp->ninc == dp->nout) {
643		i_ndx = mBSDF_incndx(dp, outVec);
644		o_ndx = mBSDF_outndx(dp, inVec);
645		}
#	Line 584 \| Line 649 \| SDgetMtxBSDF(float coef[SDmaxCh], const FVECT outVec,
649		return 1; /* XXX monochrome for now */
650		}
651
652	<	/* Query solid angle for vector */
652	>	/* Query solid angle for vector(s) */
653		static SDError
654	<	SDqueryMtxProjSA(double psa, const FVECT vec, int qflags, const void dist)
654	>	SDqueryMtxProjSA(double psa, const FVECT v1, const RREAL v2,
655	>	int qflags, SDComponent *sdc)
656		{
657	<	const SDMat dp = (const SDMat )dist;
657	>	const SDMat *dp;
658		double inc_psa, out_psa;
659		/* check arguments */
660	<	if ((psa == NULL) \| (vec == NULL) \| (dp == NULL))
660	>	if ((psa == NULL) \| (v1 == NULL) \| (sdc == NULL) \|\|
661	>	(dp = (SDMat *)sdc->dist) == NULL)
662		return SDEargument;
663	+	if (v2 == NULL)
664	+	v2 = v1;
665		/* get projected solid angles */
666	<	inc_psa = mBSDF_incohm(dp, mBSDF_incndx(dp, vec));
667	<	out_psa = mBSDF_outohm(dp, mBSDF_outndx(dp, vec));
666	>	out_psa = mBSDF_outohm(dp, mBSDF_outndx(dp, v1));
667	>	inc_psa = mBSDF_incohm(dp, mBSDF_incndx(dp, v2));
668	>	if ((v1 != v2) & (out_psa <= 0) & (inc_psa <= 0)) {
669	>	inc_psa = mBSDF_outohm(dp, mBSDF_outndx(dp, v2));
670	>	out_psa = mBSDF_incohm(dp, mBSDF_incndx(dp, v1));
671	>	}
672
673		switch (qflags) { /* record based on flag settings */
601	–	case SDqueryVal:
602	–	psa[0] = .0;
603	–	/* fall through */
674		case SDqueryMax:
675		if (inc_psa > psa[0])
676		psa[0] = inc_psa;
#	Line 608 \| Line 678 \| *SDqueryMtxProjSA(double psa, const FVECT vec, int qfl**
678		psa[0] = out_psa;
679		break;
680		case SDqueryMin+SDqueryMax:
681	<	if (inc_psa > psa[0])
681	>	if (inc_psa > psa[1])
682		psa[1] = inc_psa;
683	<	if (out_psa > psa[0])
683	>	if (out_psa > psa[1])
684		psa[1] = out_psa;
685		/* fall through */
686	+	case SDqueryVal:
687	+	if (qflags == SDqueryVal)
688	+	psa[0] = M_PI;
689	+	/* fall through */
690		case SDqueryMin:
691	<	if ((inc_psa > .0) & (inc_psa < psa[0]))
691	>	if ((inc_psa > 0) & (inc_psa < psa[0]))
692		psa[0] = inc_psa;
693	<	if ((out_psa > .0) & (out_psa < psa[0]))
693	>	if ((out_psa > 0) & (out_psa < psa[0]))
694		psa[0] = out_psa;
695		break;
696		}
697		/* make sure it's legal */
698	<	return (psa[0] <= .0) ? SDEinternal : SDEnone;
698	>	return (psa[0] <= 0) ? SDEinternal : SDEnone;
699		}
700
701		/* Compute new cumulative distribution from BSDF */
#	Line 659 \| Line 733 \| *make_cdist(SDMatCDst cd, const FVECT inVec, SDMat dp*
733		static const SDCDst *
734		SDgetMtxCDist(const FVECT inVec, SDComponent *sdc)
735		{
736	<	SDMat dp = (SDMat )sdc->dist;
736	>	SDMat *dp;
737		int reverse;
738		SDMatCDst myCD;
739		SDMatCDst cd, cdlast;
740		/* check arguments */
741	<	if ((inVec == NULL) \| (dp == NULL))
741	>	if ((inVec == NULL) \| (sdc == NULL) \|\|
742	>	(dp = (SDMat *)sdc->dist) == NULL)
743		return NULL;
744		memset(&myCD, 0, sizeof(myCD));
745		myCD.indx = mBSDF_incndx(dp, inVec);
#	Line 673 \| Line 748 \| *SDgetMtxCDist(const FVECT inVec, SDComponent sdc)**
748		myCD.ob_vec = dp->ob_vec;
749		myCD.calen = dp->nout;
750		reverse = 0;
751	<	} else { /* try reciprocity */
751	>	} else if (dp->ninc == dp->nout) { /* try reciprocity */
752		myCD.indx = mBSDF_outndx(dp, inVec);
753		if (myCD.indx < 0)
754		return NULL;
#	Line 683 \| Line 758 \| *SDgetMtxCDist(const FVECT inVec, SDComponent sdc)**
758		reverse = 1;
759		}
760		cdlast = NULL; /* check for it in cache list */
761	<	for (cd = (SDMatCDst *)sdc->cdList;
762	<	cd != NULL; cd = (SDMatCDst *)cd->next) {
761	>	for (cd = (SDMatCDst *)sdc->cdList; cd != NULL;
762	>	cdlast = cd, cd = (SDMatCDst *)cd->next)
763		if (cd->indx == myCD.indx && (cd->calen == myCD.calen) &
764		(cd->ob_priv == myCD.ob_priv) &
765		(cd->ob_vec == myCD.ob_vec))
766		break;
692	–	cdlast = cd;
693	–	}
767		if (cd == NULL) { /* need to allocate new entry */
768		cd = (SDMatCDst *)malloc(sizeof(SDMatCDst) +
769	<	myCD.calen*sizeof(myCD.carr[0]));
769	>	sizeof(myCD.carr[0])*myCD.calen);
770		if (cd == NULL)
771		return NULL;
772		cd = myCD; / compute cumulative distribution */
#	Line 713 \| Line 786 \| *SDgetMtxCDist(const FVECT inVec, SDComponent sdc)**
786
787		/* Sample cumulative distribution */
788		static SDError
789	<	SDsampMtxCDist(FVECT outVec, double randX, const SDCDst *cdp)
789	>	SDsampMtxCDist(FVECT ioVec, double randX, const SDCDst *cdp)
790		{
791		const unsigned maxval = ~0;
792		const SDMatCDst mcd = (const SDMatCDst )cdp;
793		const unsigned target = randX*maxval;
794		int i, iupper, ilower;
795		/* check arguments */
796	<	if ((outVec == NULL) \| (mcd == NULL))
796	>	if ((ioVec == NULL) \| (mcd == NULL))
797		return SDEargument;
798		/* binary search to find index */
799		ilower = 0; iupper = mcd->calen;
800		while ((i = (iupper + ilower) >> 1) != ilower)
801	<	if ((long)target >= (long)mcd->carr[i])
801	>	if (target >= mcd->carr[i])
802		ilower = i;
803		else
804		iupper = i;
#	Line 733 \| Line 806 \| SDsampMtxCDist(FVECT outVec, double randX, const SDCDs
806		randX = (randX*maxval - mcd->carr[ilower]) /
807		(double)(mcd->carr[iupper] - mcd->carr[ilower]);
808		/* convert index to vector */
809	<	if ((*mcd->ob_vec)(outVec, i, randX, mcd->ob_priv))
809	>	if ((*mcd->ob_vec)(ioVec, i+randX, mcd->ob_priv))
810		return SDEnone;
811	<	strcpy(SDerrorDetail, "BSDF sampling fault");
811	>	strcpy(SDerrorDetail, "Matrix BSDF sampling fault");
812		return SDEinternal;
813		}
814

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Comparing ray/src/common/bsdf_m.c (file contents): Revision 3.5 by greg, Sat Feb 19 23:42:09 2011 UTC vs. Revision 3.18 by greg, Thu Jul 7 15:25:09 2011 UTC

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Comparing ray/src/common/bsdf_m.c (file contents):
Revision 3.5 by greg, Sat Feb 19 23:42:09 2011 UTC vs.
Revision 3.18 by greg, Thu Jul 7 15:25:09 2011 UTC