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

Comparing ray/src/common/bsdf.c (file contents):
Revision 2.15 by greg, Fri Feb 18 00:40:25 2011 UTC vs.
Revision 2.27 by greg, Wed Apr 27 23:05:51 2011 UTC

#	Line 45 \| Line 45 \| int SDretainSet = SDretainNone;
45		SDError
46		SDreportEnglish(SDError ec, FILE *fp)
47		{
48	–	if (fp == NULL)
49	–	return ec;
48		if (!ec)
49		return SDEnone;
50	+	if ((ec < SDEnone) \| (ec > SDEunknown)) {
51	+	SDerrorDetail[0] = '\0';
52	+	ec = SDEunknown;
53	+	}
54	+	if (fp == NULL)
55	+	return ec;
56		fputs(SDerrorEnglish[ec], fp);
57		if (SDerrorDetail[0]) {
58		fputs(": ", fp);
#	Line 77 \| Line 81 \| *to_meters( / return factor to convert given unit to**
81
82		/* Load geometric dimensions and description (if any) */
83		static SDError
84	<	SDloadGeometry(SDData *dp, ezxml_t wdb)
84	>	SDloadGeometry(SDData *sd, ezxml_t wdb)
85		{
86		ezxml_t geom;
87		double cfact;
88		const char fmt, mgfstr;
89
90	<	sprintf(SDerrorDetail, "Negative size in \"%s\"", dp->name);
91	<	dp->dim[0] = dp->dim[1] = dp->dim[2] = .0;
90	>	if (wdb == NULL) /* no geometry section? */
91	>	return SDEnone;
92	>	sd->dim[0] = sd->dim[1] = sd->dim[2] = .0;
93		if ((geom = ezxml_child(wdb, "Width")) != NULL)
94	<	dp->dim[0] = atof(ezxml_txt(geom)) *
94	>	sd->dim[0] = atof(ezxml_txt(geom)) *
95		to_meters(ezxml_attr(geom, "unit"));
96		if ((geom = ezxml_child(wdb, "Height")) != NULL)
97	<	dp->dim[1] = atof(ezxml_txt(geom)) *
97	>	sd->dim[1] = atof(ezxml_txt(geom)) *
98		to_meters(ezxml_attr(geom, "unit"));
99		if ((geom = ezxml_child(wdb, "Thickness")) != NULL)
100	<	dp->dim[2] = atof(ezxml_txt(geom)) *
100	>	sd->dim[2] = atof(ezxml_txt(geom)) *
101		to_meters(ezxml_attr(geom, "unit"));
102	<	if ((dp->dim[0] < .0) \| (dp->dim[1] < .0) \| (dp->dim[2] < .0))
102	>	if ((sd->dim[0] < 0) \| (sd->dim[1] < 0) \| (sd->dim[2] < 0)) {
103	>	sprintf(SDerrorDetail, "Negative size in \"%s\"", sd->name);
104		return SDEdata;
105	+	}
106		if ((geom = ezxml_child(wdb, "Geometry")) == NULL \|\|
107		(mgfstr = ezxml_txt(geom)) == NULL)
108		return SDEnone;
#	Line 103 \| Line 110 \| *SDloadGeometry(SDData dp, ezxml_t wdb)**
110		strcasecmp(fmt, "MGF")) {
111		sprintf(SDerrorDetail,
112		"Unrecognized geometry format '%s' in \"%s\"",
113	<	fmt, dp->name);
113	>	fmt, sd->name);
114		return SDEsupport;
115		}
116		cfact = to_meters(ezxml_attr(geom, "unit"));
117	<	dp->mgf = (char *)malloc(strlen(mgfstr)+32);
118	<	if (dp->mgf == NULL) {
117	>	sd->mgf = (char *)malloc(strlen(mgfstr)+32);
118	>	if (sd->mgf == NULL) {
119		strcpy(SDerrorDetail, "Out of memory in SDloadGeometry");
120		return SDEmemory;
121		}
122		if (cfact < 0.99 \|\| cfact > 1.01)
123	<	sprintf(dp->mgf, "xf -s %.5f\n%s\nxf\n", cfact, mgfstr);
123	>	sprintf(sd->mgf, "xf -s %.5f\n%s\nxf\n", cfact, mgfstr);
124		else
125	<	strcpy(dp->mgf, mgfstr);
125	>	strcpy(sd->mgf, mgfstr);
126		return SDEnone;
127		}
128
122	–
129		/* Load a BSDF struct from the given file (free first and keep name) */
130		SDError
131		SDloadFile(SDData sd, const char fname)
132		{
133		SDError lastErr;
134	<	ezxml_t fl;
134	>	ezxml_t fl, wtl;
135
136		if ((sd == NULL) \| (fname == NULL \|\| !*fname))
137		return SDEargument;
#	Line 142 \| Line 148 \| *SDloadFile(SDData sd, const char fname)*
148		ezxml_free(fl);
149		return SDEformat;
150		}
151	+	if (strcmp(ezxml_name(fl), "WindowElement")) {
152	+	sprintf(SDerrorDetail,
153	+	"BSDF \"%s\": top level node not 'WindowElement'",
154	+	sd->name);
155	+	ezxml_free(fl);
156	+	return SDEformat;
157	+	}
158	+	wtl = ezxml_child(ezxml_child(fl, "Optical"), "Layer");
159	+	if (wtl == NULL) {
160	+	sprintf(SDerrorDetail, "BSDF \"%s\": no optical layer'",
161	+	sd->name);
162	+	ezxml_free(fl);
163	+	return SDEformat;
164	+	}
165		/* load geometry if present */
166	<	if ((lastErr = SDloadGeometry(sd, fl)))
166	>	lastErr = SDloadGeometry(sd, ezxml_child(wtl, "Material"));
167	>	if (lastErr)
168		return lastErr;
169		/* try loading variable resolution data */
170	<	lastErr = SDloadTre(sd, fl);
170	>	lastErr = SDloadTre(sd, wtl);
171	>	#if 0
172		/* check our result */
173		switch (lastErr) {
174		case SDEformat:
175		case SDEdata:
176		case SDEsupport: /* possibly we just tried the wrong format */
177	<	lastErr = SDloadMtx(sd, fl);
177	>	lastErr = SDloadMtx(sd, wtl);
178		break;
179		default: /* variable res. OK else serious error */
180		break;
181		}
182	+	#endif
183		/* done with XML file */
184		ezxml_free(fl);
185	<	/* return success or failure */
186	<	return lastErr;
185	>
186	>	if (lastErr) { /* was there a load error? */
187	>	SDfreeBSDF(sd);
188	>	return lastErr;
189	>	}
190	>	/* remove any insignificant components */
191	>	if (sd->rf != NULL && sd->rf->maxHemi <= .001) {
192	>	SDfreeSpectralDF(sd->rf); sd->rf = NULL;
193	>	}
194	>	if (sd->rb != NULL && sd->rb->maxHemi <= .001) {
195	>	SDfreeSpectralDF(sd->rb); sd->rb = NULL;
196	>	}
197	>	if (sd->tf != NULL && sd->tf->maxHemi <= .001) {
198	>	SDfreeSpectralDF(sd->tf); sd->tf = NULL;
199	>	}
200	>	/* return success */
201	>	return SDEnone;
202		}
203
204		/* Allocate new spectral distribution function */
#	Line 219 \| Line 257 \| *SDfreeSpectralDF(SDSpectralDF df)**
257
258		/* Shorten file path to useable BSDF name, removing suffix */
259		void
260	<	SDclipName(char res[SDnameLn], const char *fname)
260	>	SDclipName(char res, const char fname)
261		{
262		const char cp, dot = NULL;
263
#	Line 237 \| Line 275 \| *SDclipName(char res[SDnameLn], const char fname)**
275
276		/* Initialize an unused BSDF struct (simply clears to zeroes) */
277		void
278	<	SDclearBSDF(SDData *sd)
278	>	SDclearBSDF(SDData sd, const char fname)
279		{
280	<	if (sd != NULL)
281	<	memset(sd, 0, sizeof(SDData));
280	>	if (sd == NULL)
281	>	return;
282	>	memset(sd, 0, sizeof(SDData));
283	>	if (fname == NULL)
284	>	return;
285	>	SDclipName(sd->name, fname);
286		}
287
288		/* Free data associated with BSDF struct */
#	Line 266 \| Line 308 \| *SDfreeBSDF(SDData sd)**
308		sd->tf = NULL;
309		}
310		sd->rLambFront.cieY = .0;
311	<	sd->rLambFront.spec.clock = 0;
311	>	sd->rLambFront.spec.flags = 0;
312		sd->rLambBack.cieY = .0;
313	<	sd->rLambBack.spec.clock = 0;
313	>	sd->rLambBack.spec.flags = 0;
314		sd->tLamb.cieY = .0;
315	<	sd->tLamb.spec.clock = 0;
315	>	sd->tLamb.spec.flags = 0;
316		}
317
318		/* Find writeable BSDF by name, or allocate new cache entry if absent */
#	Line 298 \| Line 340 \| *SDgetCache(const char bname)**
340		sdl->next = SDcacheList;
341		SDcacheList = sdl;
342
343	<	sdl->refcnt++;
343	>	sdl->refcnt = 1;
344		return &sdl->bsdf;
345		}
346
#	Line 342 \| Line 384 \| *SDfreeCache(const SDData sd)**
384		for (sdl = SDcacheList; sdl != NULL; sdl = (sdLast=sdl)->next)
385		if (&sdl->bsdf == sd)
386		break;
387	<	if (sdl == NULL \|\| --sdl->refcnt)
387	>	if (sdl == NULL \|\| (sdl->refcnt -= (sdl->refcnt > 0)))
388		return; /* missing or still in use */
389		/* keep unreferenced data? */
390		if (SDisLoaded(sd) && SDretainSet) {
#	Line 365 \| Line 407 \| *SDfreeCache(const SDData sd)**
407
408		/* Sample an individual BSDF component */
409		SDError
410	<	SDsampComponent(SDValue *sv, FVECT outVec, const FVECT inVec,
369	<	double randX, SDComponent *sdc)
410	>	SDsampComponent(SDValue sv, FVECT ioVec, double randX, SDComponent sdc)
411		{
412		float coef[SDmaxCh];
413		SDError ec;
414	+	FVECT inVec;
415		const SDCDst *cd;
416		double d;
417		int n;
418		/* check arguments */
419	<	if ((sv == NULL) \| (outVec == NULL) \| (inVec == NULL) \| (sdc == NULL))
419	>	if ((sv == NULL) \| (ioVec == NULL) \| (sdc == NULL))
420		return SDEargument;
421		/* get cumulative distribution */
422	+	VCOPY(inVec, ioVec);
423		cd = (*sdc->func->getCDist)(inVec, sdc);
424		if (cd == NULL)
425		return SDEmemory;
426		if (cd->cTotal <= 1e-7) { /* anything to sample? */
427		sv->spec = c_dfcolor;
428		sv->cieY = .0;
429	<	memset(outVec, 0, 3*sizeof(double));
429	>	memset(ioVec, 0, 3*sizeof(double));
430		return SDEnone;
431		}
432		sv->cieY = cd->cTotal;
433		/* compute sample direction */
434	<	ec = (*sdc->func->sampCDist)(outVec, randX, cd);
434	>	ec = (*sdc->func->sampCDist)(ioVec, randX, cd);
435		if (ec)
436		return ec;
437		/* get BSDF color */
438	<	n = (*sdc->func->getBSDFs)(coef, outVec, inVec, sdc->dist);
438	>	n = (*sdc->func->getBSDFs)(coef, ioVec, inVec, sdc);
439		if (n <= 0) {
440		strcpy(SDerrorDetail, "BSDF sample value error");
441		return SDEinternal;
#	Line 419 \| Line 462 \| SDmultiSamp(double t[], int n, double randX)
462		bitmask_t ndx, coord[MS_MAXDIM];
463
464		while (n > MS_MAXDIM) /* punt for higher dimensions */
465	<	t[--n] = drand48();
465	>	t[--n] = rand()*(1./(RAND_MAX+.5));
466		nBits = (8*sizeof(bitmask_t) - 1) / n;
467		ndx = randX * (double)((bitmask_t)1 << (nBits*n));
468		/* get coordinate on Hilbert curve */
#	Line 427 \| Line 470 \| SDmultiSamp(double t[], int n, double randX)
470		/* convert back to [0,1) range */
471		scale = 1. / (double)((bitmask_t)1 << nBits);
472		while (n--)
473	<	t[n] = scale * ((double)coord[n] + drand48());
473	>	t[n] = scale * ((double)coord[n] + rand()*(1./(RAND_MAX+.5)));
474		}
475
476		#undef MS_MAXDIM
#	Line 440 \| Line 483 \| SDdiffuseSamp(FVECT outVec, int outFront, double randX
483		SDmultiSamp(outVec, 2, randX);
484		SDsquare2disk(outVec, outVec[0], outVec[1]);
485		outVec[2] = 1. - outVec[0]outVec[0] - outVec[1]outVec[1];
486	<	if (outVec[2] > .0) /* a bit of paranoia */
486	>	if (outVec[2] > 0) /* a bit of paranoia */
487		outVec[2] = sqrt(outVec[2]);
488		if (!outFront) /* going out back? */
489		outVec[2] = -outVec[2];
#	Line 448 \| Line 491 \| SDdiffuseSamp(FVECT outVec, int outFront, double randX
491
492		/* Query projected solid angle coverage for non-diffuse BSDF direction */
493		SDError
494	<	SDsizeBSDF(double projSA, const FVECT vec, int qflags, const SDData sd)
494	>	SDsizeBSDF(double projSA, const FVECT v1, const RREAL v2,
495	>	int qflags, const SDData *sd)
496		{
497	<	SDSpectralDF *rdf;
497	>	SDSpectralDF rdf, tdf;
498		SDError ec;
499		int i;
500		/* check arguments */
501	<	if ((projSA == NULL) \| (vec == NULL) \| (sd == NULL))
501	>	if ((projSA == NULL) \| (v1 == NULL) \| (sd == NULL))
502		return SDEargument;
503		/* initialize extrema */
504	<	switch (qflags & SDqueryMin+SDqueryMax) {
504	>	switch (qflags) {
505		case SDqueryMax:
506		projSA[0] = .0;
507		break;
#	Line 470 \| Line 514 \| *SDsizeBSDF(double projSA, const FVECT vec, int qflags**
514		case 0:
515		return SDEargument;
516		}
517	<	if (vec[2] > .0) /* front surface query? */
517	>	if (v1[2] > 0) /* front surface query? */
518		rdf = sd->rf;
519		else
520		rdf = sd->rb;
521	+	tdf = sd->tf;
522	+	if (v2 != NULL) /* bidirectional? */
523	+	if (v1[2] > 0 ^ v2[2] > 0)
524	+	rdf = NULL;
525	+	else
526	+	tdf = NULL;
527		ec = SDEdata; /* run through components */
528		for (i = (rdf==NULL) ? 0 : rdf->ncomp; i--; ) {
529	<	ec = (*rdf->comp[i].func->queryProjSA)(projSA, vec, qflags,
530	<	rdf->comp[i].dist);
529	>	ec = (*rdf->comp[i].func->queryProjSA)(projSA, v1, v2,
530	>	qflags, &rdf->comp[i]);
531		if (ec)
532		return ec;
533		}
534	<	for (i = (sd->tf==NULL) ? 0 : sd->tf->ncomp; i--; ) {
535	<	ec = (*sd->tf->comp[i].func->queryProjSA)(projSA, vec, qflags,
536	<	sd->tf->comp[i].dist);
534	>	for (i = (tdf==NULL) ? 0 : tdf->ncomp; i--; ) {
535	>	ec = (*tdf->comp[i].func->queryProjSA)(projSA, v1, v2,
536	>	qflags, &tdf->comp[i]);
537		if (ec)
538		return ec;
539		}
540	<	return ec;
540	>	if (ec) { /* all diffuse? */
541	>	projSA[0] = M_PI;
542	>	if (qflags == SDqueryMin+SDqueryMax)
543	>	projSA[1] = M_PI;
544	>	}
545	>	return SDEnone;
546		}
547
548		/* Return BSDF for the given incident and scattered ray vectors */
#	Line 502 \| Line 557 \| *SDevalBSDF(SDValue sv, const FVECT outVec, const FVEC**
557		if ((sv == NULL) \| (outVec == NULL) \| (inVec == NULL) \| (sd == NULL))
558		return SDEargument;
559		/* whose side are we on? */
560	<	inFront = (inVec[2] > .0);
561	<	outFront = (outVec[2] > .0);
560	>	inFront = (inVec[2] > 0);
561	>	outFront = (outVec[2] > 0);
562		/* start with diffuse portion */
563		if (inFront & outFront) {
564		*sv = sd->rLambFront;
#	Line 520 \| Line 575 \| *SDevalBSDF(SDValue sv, const FVECT outVec, const FVEC**
575		i = (sdf != NULL) ? sdf->ncomp : 0;
576		while (i-- > 0) {
577		nch = (*sdf->comp[i].func->getBSDFs)(coef, outVec, inVec,
578	<	sdf->comp[i].dist);
578	>	&sdf->comp[i]);
579		while (nch-- > 0) {
580		c_cmix(&sv->spec, sv->cieY, &sv->spec,
581		coef[nch], &sdf->comp[i].cspec[nch]);
#	Line 544 \| Line 599 \| SDdirectHemi(const FVECT inVec, int sflags, const SDDa
599		if ((inVec == NULL) \| (sd == NULL))
600		return .0;
601		/* gather diffuse components */
602	<	if (inVec[2] > .0) {
602	>	if (inVec[2] > 0) {
603		hsum = sd->rLambFront.cieY;
604		rdf = sd->rf;
605		} else /* !inFront */ {
#	Line 575 \| Line 630 \| SDdirectHemi(const FVECT inVec, int sflags, const SDDa
630
631		/* Sample BSDF direction based on the given random variable */
632		SDError
633	<	SDsampBSDF(SDValue *sv, FVECT outVec, const FVECT inVec,
579	<	double randX, int sflags, const SDData *sd)
633	>	SDsampBSDF(SDValue sv, FVECT ioVec, double randX, int sflags, const SDData sd)
634		{
635		SDError ec;
636	+	FVECT inVec;
637		int inFront;
638		SDSpectralDF *rdf;
639		double rdiff;
#	Line 587 \| Line 642 \| *SDsampBSDF(SDValue sv, FVECT outVec, const FVECT inVe**
642		SDComponent *sdc;
643		const SDCDst **cdarr = NULL;
644		/* check arguments */
645	<	if ((sv == NULL) \| (outVec == NULL) \| (inVec == NULL) \| (sd == NULL) \|
646	<	(randX < .0) \| (randX >= 1.))
645	>	if ((sv == NULL) \| (ioVec == NULL) \| (sd == NULL) \|
646	>	(randX < 0) \| (randX >= 1.))
647		return SDEargument;
648		/* whose side are we on? */
649	<	inFront = (inVec[2] > .0);
649	>	VCOPY(inVec, ioVec);
650	>	inFront = (inVec[2] > 0);
651		/* remember diffuse portions */
652		if (inFront) {
653		*sv = sd->rLambFront;
#	Line 631 \| Line 687 \| *SDsampBSDF(SDValue sv, FVECT outVec, const FVECT inVe**
687		}
688		if (sv->cieY <= 1e-7) { /* anything to sample? */
689		sv->cieY = .0;
690	<	memset(outVec, 0, 3*sizeof(double));
690	>	memset(ioVec, 0, 3*sizeof(double));
691		return SDEnone;
692		}
693		/* scale random variable */
694		randX *= sv->cieY;
695		/* diffuse reflection? */
696		if (randX < rdiff) {
697	<	SDdiffuseSamp(outVec, inFront, randX/rdiff);
697	>	SDdiffuseSamp(ioVec, inFront, randX/rdiff);
698		goto done;
699		}
700		randX -= rdiff;
#	Line 646 \| Line 702 \| *SDsampBSDF(SDValue sv, FVECT outVec, const FVECT inVe**
702		if ((sflags & SDsampDf+SDsampT) == SDsampDf+SDsampT) {
703		if (randX < sd->tLamb.cieY) {
704		sv->spec = sd->tLamb.spec;
705	<	SDdiffuseSamp(outVec, !inFront, randX/sd->tLamb.cieY);
705	>	SDdiffuseSamp(ioVec, !inFront, randX/sd->tLamb.cieY);
706		goto done;
707		}
708		randX -= sd->tLamb.cieY;
#	Line 658 \| Line 714 \| *SDsampBSDF(SDValue sv, FVECT outVec, const FVECT inVe**
714		return SDEinternal;
715		/* compute sample direction */
716		sdc = (i < nr) ? &rdf->comp[i] : &sd->tf->comp[i-nr];
717	<	ec = (*sdc->func->sampCDist)(outVec, randX/cdarr[i]->cTotal, cdarr[i]);
717	>	ec = (*sdc->func->sampCDist)(ioVec, randX/cdarr[i]->cTotal, cdarr[i]);
718		if (ec)
719		return ec;
720		/* compute color */
721	<	j = (*sdc->func->getBSDFs)(coef, outVec, inVec, sdc->dist);
721	>	j = (*sdc->func->getBSDFs)(coef, ioVec, inVec, sdc);
722		if (j <= 0) {
723		sprintf(SDerrorDetail, "BSDF \"%s\" sampling value error",
724		sd->name);
#	Line 689 \| Line 745 \| SDcompXform(RREAL vMtx[3][3], const FVECT sNrm, const
745		if ((vMtx == NULL) \| (sNrm == NULL) \| (uVec == NULL))
746		return SDEargument;
747		VCOPY(vMtx[2], sNrm);
748	<	if (normalize(vMtx[2]) == .0)
748	>	if (normalize(vMtx[2]) == 0)
749		return SDEargument;
750		fcross(vMtx[0], uVec, vMtx[2]);
751	<	if (normalize(vMtx[0]) == .0)
751	>	if (normalize(vMtx[0]) == 0)
752		return SDEargument;
753		fcross(vMtx[1], vMtx[2], vMtx[0]);
754		return SDEnone;
#	Line 712 \| Line 768 \| SDinvXform(RREAL iMtx[3][3], RREAL vMtx[3][3])
768		mTmp[0][1] = vMtx[2][1]vMtx[0][2] - vMtx[2][2]vMtx[0][1];
769		mTmp[0][2] = vMtx[1][2]vMtx[0][1] - vMtx[1][1]vMtx[0][2];
770		d = vMtx[0][0]mTmp[0][0] + vMtx[1][0]mTmp[0][1] + vMtx[2][0]*mTmp[0][2];
771	<	if (d == .0) {
771	>	if (d == 0) {
772		strcpy(SDerrorDetail, "Zero determinant in matrix inversion");
773		return SDEargument;
774		}
#	Line 739 \| Line 795 \| SDmapDir(FVECT resVec, RREAL vMtx[3][3], const FVECT i
795		if (vMtx == NULL) { /* assume they just want to normalize */
796		if (resVec != inpVec)
797		VCOPY(resVec, inpVec);
798	<	return (normalize(resVec) > .0) ? SDEnone : SDEargument;
798	>	return (normalize(resVec) > 0) ? SDEnone : SDEargument;
799		}
800		vTmp[0] = DOT(vMtx[0], inpVec);
801		vTmp[1] = DOT(vMtx[1], inpVec);
802		vTmp[2] = DOT(vMtx[2], inpVec);
803	<	if (normalize(vTmp) == .0)
803	>	if (normalize(vTmp) == 0)
804		return SDEargument;
805		VCOPY(resVec, vTmp);
806		return SDEnone;
#	Line 816 \| Line 872 \| *static int nabases = 3; / current number of defined b**
872		static int
873		fequal(double a, double b)
874		{
875	<	if (b != .0)
875	>	if (b != 0)
876		a = a/b - 1.;
877		return((a <= 1e-6) & (a >= -1e-6));
878		}
#	Line 1077 \| Line 1133 \| *load_bsdf_data( / load BSDF distribution for this wa**
1133		break;
1134		}
1135		if (i < 0) {
1136	<	sprintf(errmsg, "undefined RowAngleBasis '%s'", cbasis);
1136	>	sprintf(errmsg, "undefined RowAngleBasis '%s'", rbasis);
1137		error(WARNING, errmsg);
1138		return;
1139		}
#	Line 1134 \| Line 1190 \| *check_bsdf_data( / check that BSDF data is sane /*
1190		hemi_total = .0;
1191		for (i = dp->ninc; i--; ) {
1192		dom = getBSDF_incohm(dp,i);
1193	<	if (dom <= .0) {
1193	>	if (dom <= 0) {
1194		error(WARNING, "zero/negative incoming solid angle");
1195		continue;
1196		}
#	Line 1157 \| Line 1213 \| *check_bsdf_data( / check that BSDF data is sane /*
1213		hemi_total = .0;
1214		for (o = dp->nout; o--; ) {
1215		dom = getBSDF_outohm(dp,o);
1216	<	if (dom <= .0) {
1216	>	if (dom <= 0) {
1217		error(WARNING, "zero/negative outgoing solid angle");
1218		continue;
1219		}
#	Line 1181 \| Line 1237 \| *check_bsdf_data( / check that BSDF data is sane /*
1237		hemi_total = .0;
1238		for (o = dp->nout; o--; ) {
1239		double f = BSDF_value(dp,i,o);
1240	<	if (f >= .0)
1240	>	if (f >= 0)
1241		hemi_total += f*omega_oarr[o];
1242		else {
1243		nneg += (f < -FTINY);

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Comparing ray/src/common/bsdf.c (file contents): Revision 2.15 by greg, Fri Feb 18 00:40:25 2011 UTC vs. Revision 2.27 by greg, Wed Apr 27 23:05:51 2011 UTC

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Comparing ray/src/common/bsdf.c (file contents):
Revision 2.15 by greg, Fri Feb 18 00:40:25 2011 UTC vs.
Revision 2.27 by greg, Wed Apr 27 23:05:51 2011 UTC