[ViewVC] Diff of: radiance/ray/src/rt/m

Comparing ray/src/rt/m_bsdf.c (file contents):
Revision 2.70 by greg, Wed Mar 9 00:27:25 2022 UTC vs.
Revision 2.74 by greg, Wed Sep 18 19:52:35 2024 UTC

#	Line 86 \| Line 86 \| typedef struct {
86		RREAL toloc[3][3]; /* world to local BSDF coords */
87		RREAL fromloc[3][3]; /* local BSDF coords to world */
88		double thick; /* surface thickness */
89	<	COLOR cthru; /* "through" component for MAT_ABSDF */
90	<	COLOR cthru_surr; /* surround for "through" component */
89	>	SCOLOR cthru; /* "through" component for MAT_ABSDF */
90	>	SCOLOR cthru_surr; /* surround for "through" component */
91		SDData sd; / loaded BSDF data */
92	<	COLOR rdiff; /* diffuse reflection */
93	<	COLOR runsamp; /* BSDF hemispherical reflection */
94	<	COLOR tdiff; /* diffuse transmission */
95	<	COLOR tunsamp; /* BSDF hemispherical transmission */
92	>	SCOLOR rdiff; /* diffuse reflection */
93	>	SCOLOR runsamp; /* BSDF hemispherical reflection */
94	>	SCOLOR tdiff; /* diffuse transmission */
95	>	SCOLOR tunsamp; /* BSDF hemispherical transmission */
96		} BSDFDAT; /* BSDF material data */
97
98	<	#define cvt_sdcolor(cv, svp) ccy2rgb(&(svp)->spec, (svp)->cieY, cv)
98	>	#define cvt_sdcolor(scv, svp) ccy2scolor(&(svp)->spec, (svp)->cieY, scv)
99
100		typedef struct {
101		double vy; /* brightness (for sorting) */
102		FVECT tdir; /* through sample direction (normalized) */
103	<	COLOR vcol; /* BTDF color */
103	>	SCOLOR vcol; /* BTDF color */
104		} PEAKSAMP; /* BTDF peak sample */
105
106		/* Comparison function to put near-peak values in descending order */
#	Line 135 \| Line 135 \| *compute_through(BSDFDAT ndp)**
135		FVECT pdir;
136		double tomega, srchrad;
137		double tomsum, tomsurr;
138	<	COLOR vpeak, vsurr, btdiff;
138	>	SCOLOR vpeak, vsurr, btdiff;
139		double vypeak;
140		int i, ns;
141		SDError ec;
#	Line 147 \| Line 147 \| *compute_through(BSDFDAT ndp)**
147
148		if (dfp == NULL)
149		return; /* no specular transmission */
150	<	if (bright(ndp->pr->pcol) <= FTINY)
150	>	if (sintens(ndp->pr->pcol) <= FTINY)
151		return; /* pattern is black, here */
152		srchrad = sqrt(dfp->minProjSA); /* else evaluate peak */
153		for (i = 0; i < NDIR2CHECK; i++) {
#	Line 165 \| Line 165 \| *compute_through(BSDFDAT ndp)**
165		qsort(psamp, NDIR2CHECK, sizeof(PEAKSAMP), cmp_psamp);
166		if (psamp[0].vy <= FTINY)
167		return; /* zero BTDF here */
168	<	setcolor(vpeak, 0, 0, 0);
169	<	setcolor(vsurr, 0, 0, 0);
168	>	scolorblack(vpeak);
169	>	scolorblack(vsurr);
170		vypeak = tomsum = tomsurr = 0; /* combine top unique values */
171		ns = 0;
172		for (i = 0; i < NDIR2CHECK; i++) {
#	Line 178 \| Line 178 \| *compute_through(BSDFDAT ndp)**
178		if (ec)
179		goto baderror;
180
181	<	scalecolor(psamp[i].vcol, tomega);
181	>	scalescolor(psamp[i].vcol, tomega);
182		/* not part of peak? */
183		if (tomega > 1.5*dfp->minProjSA \|\|
184		vypeak > 8.psamp[i].vyns) {
185		if (!i) return; /* abort */
186	<	addcolor(vsurr, psamp[i].vcol);
186	>	saddscolor(vsurr, psamp[i].vcol);
187		tomsurr += tomega;
188		continue;
189		}
190	<	addcolor(vpeak, psamp[i].vcol);
190	>	saddscolor(vpeak, psamp[i].vcol);
191		tomsum += tomega;
192		vypeak += psamp[i].vy;
193		++ns;
194		}
195		if (tomsurr < 0.2tomsum) / insufficient surround? */
196		return;
197	<	scalecolor(vsurr, 1./tomsurr); /* surround is avg. BTDF */
197	>	scalescolor(vsurr, 1./tomsurr); /* surround is avg. BTDF */
198		if (ndp->vray[2] > 0) /* get diffuse BTDF */
199		cvt_sdcolor(btdiff, &ndp->sd->tLambFront);
200		else
201		cvt_sdcolor(btdiff, &ndp->sd->tLambBack);
202	<	scalecolor(btdiff, (1./PI));
203	<	for (i = 3; i--; ) { /* remove diffuse contrib. */
204	<	if ((colval(vpeak,i) -= tomsum*colval(btdiff,i)) < 0)
205	<	colval(vpeak,i) = 0;
206	<	if ((colval(vsurr,i) -= colval(btdiff,i)) < 0)
207	<	colval(vsurr,i) = 0;
202	>	scalescolor(btdiff, (1./PI));
203	>	for (i = NCSAMP; i--; ) { /* remove diffuse contrib. */
204	>	if ((vpeak[i] -= tomsum*btdiff[i]) < 0)
205	>	vpeak[i] = 0;
206	>	if ((vsurr[i] -= btdiff[i]) < 0)
207	>	vsurr[i] = 0;
208		}
209	<	if (bright(vpeak) < .0005) /* < 0.05% specular? */
209	>	if (pbright(vpeak) < .0005) /* < 0.05% specular? */
210		return;
211	<	multcolor(vsurr, ndp->pr->pcol); /* modify by color */
212	<	multcolor(vpeak, ndp->pr->pcol);
213	<	copycolor(ndp->cthru, vpeak);
214	<	copycolor(ndp->cthru_surr, vsurr);
211	>	smultscolor(vsurr, ndp->pr->pcol); /* modify by pattern */
212	>	smultscolor(vpeak, ndp->pr->pcol);
213	>	copyscolor(ndp->cthru_surr, vsurr);
214	>	copyscolor(ndp->cthru, vpeak);
215		return;
216		baderror:
217		objerror(ndp->mp, USER, transSDError(ec));
#	Line 234 \| Line 234 \| *bsdf_jitter(FVECT vres, BSDFDAT ndp, double sr_psa)**
234
235		/* Get BSDF specular for direct component, returning true if OK to proceed */
236		static int
237	<	direct_specular_OK(COLOR cval, FVECT ldir, double omega, BSDFDAT *ndp)
237	>	direct_specular_OK(SCOLOR scval, FVECT ldir, double omega, BSDFDAT *ndp)
238		{
239		int nsamp = 1;
240		int scnt = 0;
241	<	FVECT vsrc, vjit;
241	>	FVECT vsrc;
242		double tomega, tomega2;
243	<	double sf, tsr, sd[2];
244	<	COLOR csmp, cdiff;
243	>	double tsr, sd[2];
244	>	SCOLOR csmp, cdiff;
245		double diffY;
246		SDValue sv;
247		SDError ec;
248		int i;
249		/* in case we fail */
250	<	setcolor(cval, 0, 0, 0);
250	>	scolorblack(scval);
251		/* transform source direction */
252		if (SDmapDir(vsrc, ndp->toloc, ldir) != SDEnone)
253		return(0);
254		/* check indirect over-counting */
255	<	if ((vsrc[2] > 0) ^ (ndp->vray[2] > 0) && bright(ndp->cthru) > FTINY) {
255	>	if ((vsrc[2] > 0) ^ (ndp->vray[2] > 0) && sintens(ndp->cthru) > FTINY) {
256		double dx = vsrc[0] + ndp->vray[0];
257		double dy = vsrc[1] + ndp->vray[1];
258		SDSpectralDF *dfp = (ndp->pr->rod > 0) ?
#	Line 262 \| Line 262 \| direct_specular_OK(COLOR cval, FVECT ldir, double omeg
262		tomega = omega*fabs(vsrc[2]);
263		if (dxdx + dydy <= (2.54./PI)(tomega + dfp->minProjSA +
264		2.sqrt(tomegadfp->minProjSA))) {
265	<	if (bright(ndp->cthru_surr) <= FTINY)
265	>	if (sintens(ndp->cthru_surr) <= FTINY)
266		return(0);
267	<	copycolor(cval, ndp->cthru_surr);
267	>	copyscolor(scval, ndp->cthru_surr);
268		return(1); /* return non-zero surround BTDF */
269		}
270		}
#	Line 296 \| Line 296 \| direct_specular_OK(COLOR cval, FVECT ldir, double omeg
296		cvt_sdcolor(cdiff, &sv);
297		} else {
298		diffY = 0;
299	<	setcolor(cdiff, 0, 0, 0);
299	>	scolorblack(cdiff);
300		}
301		ec = SDsizeBSDF(&tomega, ndp->vray, vsrc, SDqueryMin, ndp->sd);
302		if (ec)
#	Line 306 \| Line 306 \| direct_specular_OK(COLOR cval, FVECT ldir, double omeg
306		nsamp = 4.specjitterndp->pr->rweight + .5;
307		nsamp += !nsamp;
308		}
309	<	/* jitter to fuzz BSDF cells */
310	<	for (i = nsamp; i--; ) {
309	>	for (i = nsamp; i--; ) { /* jitter to fuzz BSDF cells */
310	>	FVECT vjit;
311		bsdf_jitter(vjit, ndp, tsr);
312		/* compute BSDF */
313		ec = SDevalBSDF(&sv, vjit, vsrc, ndp->sd);
314		if (ec)
315		goto baderror;
316	<	if (sv.cieY - diffY <= FTINY)
317	<	continue; /* no specular part */
316	>	if (sv.cieY - diffY <= FTINY) {
317	>	++scnt; /* still counts as 0 contribution */
318	>	continue;
319	>	}
320		/* check for variable resolution */
321		ec = SDsizeBSDF(&tomega2, vjit, vsrc, SDqueryMin, ndp->sd);
322		if (ec)
#	Line 322 \| Line 324 \| direct_specular_OK(COLOR cval, FVECT ldir, double omeg
324		if (tomega2 < .12*tomega)
325		continue; /* not safe to include */
326		cvt_sdcolor(csmp, &sv);
327	<	addcolor(cval, csmp);
327	>	saddscolor(scval, csmp);
328		++scnt;
329		}
330		if (!scnt) /* no valid specular samples? */
331		return(0);
332
333	<	sf = 1./scnt; /* weighted average BSDF */
332	<	scalecolor(cval, sf);
333	>	scalescolor(scval, 1./scnt); /* weighted average BSDF */
334		/* subtract diffuse contribution */
335	<	for (i = 3*(diffY > FTINY); i--; )
336	<	if ((colval(cval,i) -= colval(cdiff,i)) < 0)
337	<	colval(cval,i) = 0;
335	>	for (i = NCSAMP*(diffY > FTINY); i--; )
336	>	if ((scval[i] -= cdiff[i]) < 0)
337	>	scval[i] = 0;
338		return(1);
339		baderror:
340		objerror(ndp->mp, USER, transSDError(ec));
#	Line 343 \| Line 344 \| baderror:
344		/* Compute source contribution for BSDF (reflected & transmitted) */
345		static void
346		dir_bsdf(
347	<	COLOR cval, /* returned coefficient */
347	>	SCOLOR scval, /* returned coefficient */
348		void nnp, / material data */
349		FVECT ldir, /* light source direction */
350		double omega /* light source size */
#	Line 352 \| Line 353 \| dir_bsdf(
353		BSDFDAT np = (BSDFDAT )nnp;
354		double ldot;
355		double dtmp;
356	<	COLOR ctmp;
356	>	SCOLOR sctmp;
357
358	<	setcolor(cval, 0, 0, 0);
358	>	scolorblack(scval);
359
360		ldot = DOT(np->pnorm, ldir);
361		if ((-FTINY <= ldot) & (ldot <= FTINY))
362		return;
363
364	<	if (ldot > 0 && bright(np->rdiff) > FTINY) {
364	>	if (ldot > 0 && sintens(np->rdiff) > FTINY) {
365		/*
366		* Compute diffuse reflected component
367		*/
368	<	copycolor(ctmp, np->rdiff);
368	>	copyscolor(sctmp, np->rdiff);
369		dtmp = ldot * omega * (1./PI);
370	<	scalecolor(ctmp, dtmp);
371	<	addcolor(cval, ctmp);
370	>	scalescolor(sctmp, dtmp);
371	>	saddscolor(scval, sctmp);
372		}
373	<	if (ldot < 0 && bright(np->tdiff) > FTINY) {
373	>	if (ldot < 0 && sintens(np->tdiff) > FTINY) {
374		/*
375		* Compute diffuse transmission
376		*/
377	<	copycolor(ctmp, np->tdiff);
377	>	copyscolor(sctmp, np->tdiff);
378		dtmp = -ldot * omega * (1./PI);
379	<	scalecolor(ctmp, dtmp);
380	<	addcolor(cval, ctmp);
379	>	scalescolor(sctmp, dtmp);
380	>	saddscolor(scval, sctmp);
381		}
382		if (ambRayInPmap(np->pr))
383		return; /* specular already in photon map */
384		/*
385		* Compute specular scattering coefficient using BSDF
386		*/
387	<	if (!direct_specular_OK(ctmp, ldir, omega, np))
387	>	if (!direct_specular_OK(sctmp, ldir, omega, np))
388		return;
389		if (ldot < 0) { /* pattern for specular transmission */
390	<	multcolor(ctmp, np->pr->pcol);
390	>	smultscolor(sctmp, np->pr->pcol);
391		dtmp = -ldot * omega;
392		} else
393		dtmp = ldot * omega;
394	<	scalecolor(ctmp, dtmp);
395	<	addcolor(cval, ctmp);
394	>	scalescolor(sctmp, dtmp);
395	>	saddscolor(scval, sctmp);
396		}
397
398		/* Compute source contribution for BSDF (reflected only) */
399		static void
400		dir_brdf(
401	<	COLOR cval, /* returned coefficient */
401	>	SCOLOR scval, /* returned coefficient */
402		void nnp, / material data */
403		FVECT ldir, /* light source direction */
404		double omega /* light source size */
#	Line 406 \| Line 407 \| dir_brdf(
407		BSDFDAT np = (BSDFDAT )nnp;
408		double ldot;
409		double dtmp;
410	<	COLOR ctmp, ctmp1, ctmp2;
410	>	SCOLOR sctmp;
411
412	<	setcolor(cval, 0, 0, 0);
412	>	scolorblack(scval);
413
414		ldot = DOT(np->pnorm, ldir);
415
416		if (ldot <= FTINY)
417		return;
418
419	<	if (bright(np->rdiff) > FTINY) {
419	>	if (sintens(np->rdiff) > FTINY) {
420		/*
421		* Compute diffuse reflected component
422		*/
423	<	copycolor(ctmp, np->rdiff);
423	>	copyscolor(sctmp, np->rdiff);
424		dtmp = ldot * omega * (1./PI);
425	<	scalecolor(ctmp, dtmp);
426	<	addcolor(cval, ctmp);
425	>	scalescolor(sctmp, dtmp);
426	>	saddscolor(scval, sctmp);
427		}
428		if (ambRayInPmap(np->pr))
429		return; /* specular already in photon map */
430		/*
431		* Compute specular reflection coefficient using BSDF
432		*/
433	<	if (!direct_specular_OK(ctmp, ldir, omega, np))
433	>	if (!direct_specular_OK(sctmp, ldir, omega, np))
434		return;
435		dtmp = ldot * omega;
436	<	scalecolor(ctmp, dtmp);
437	<	addcolor(cval, ctmp);
436	>	scalescolor(sctmp, dtmp);
437	>	saddscolor(scval, sctmp);
438		}
439
440		/* Compute source contribution for BSDF (transmitted only) */
441		static void
442		dir_btdf(
443	<	COLOR cval, /* returned coefficient */
443	>	SCOLOR scval, /* returned coefficient */
444		void nnp, / material data */
445		FVECT ldir, /* light source direction */
446		double omega /* light source size */
#	Line 448 \| Line 449 \| dir_btdf(
449		BSDFDAT np = (BSDFDAT )nnp;
450		double ldot;
451		double dtmp;
452	<	COLOR ctmp;
452	>	SCOLOR sctmp;
453
454	<	setcolor(cval, 0, 0, 0);
454	>	scolorblack(scval);
455
456		ldot = DOT(np->pnorm, ldir);
457
458		if (ldot >= -FTINY)
459		return;
460
461	<	if (bright(np->tdiff) > FTINY) {
461	>	if (sintens(np->tdiff) > FTINY) {
462		/*
463		* Compute diffuse transmission
464		*/
465	<	copycolor(ctmp, np->tdiff);
465	>	copyscolor(sctmp, np->tdiff);
466		dtmp = -ldot * omega * (1./PI);
467	<	scalecolor(ctmp, dtmp);
468	<	addcolor(cval, ctmp);
467	>	scalescolor(sctmp, dtmp);
468	>	saddscolor(scval, sctmp);
469		}
470		if (ambRayInPmap(np->pr))
471		return; /* specular already in photon map */
472		/*
473		* Compute specular scattering coefficient using BSDF
474		*/
475	<	if (!direct_specular_OK(ctmp, ldir, omega, np))
475	>	if (!direct_specular_OK(sctmp, ldir, omega, np))
476		return;
477		/* full pattern on transmission */
478	<	multcolor(ctmp, np->pr->pcol);
478	>	smultscolor(sctmp, np->pr->pcol);
479		dtmp = -ldot * omega;
480	<	scalecolor(ctmp, dtmp);
481	<	addcolor(cval, ctmp);
480	>	scalescolor(sctmp, dtmp);
481	>	saddscolor(scval, sctmp);
482		}
483
484		/* Sample separate BSDF component */
#	Line 486 \| Line 487 \| *sample_sdcomp(BSDFDAT ndp, SDComponent dcp, int xmit*
487		{
488		const int hasthru = (xmit &&
489		!(ndp->pr->crtype & (SPECULAR\|AMBIENT))
490	<	&& bright(ndp->cthru) > FTINY);
490	>	&& sintens(ndp->cthru) > FTINY);
491		int nstarget = 1;
492		int nsent = 0;
493		int n;
#	Line 531 \| Line 532 \| *sample_sdcomp(BSDFDAT ndp, SDComponent dcp, int xmit*
532		bsv.cieY /= (double)nstarget;
533		cvt_sdcolor(sr.rcoef, &bsv); /* use sample color */
534		if (xmit) /* apply pattern on transmit */
535	<	multcolor(sr.rcoef, ndp->pr->pcol);
536	<	if (rayorigin(&sr, SPECULAR, ndp->pr, sr.rcoef) < 0) {
535	>	smultscolor(sr.rcoef, ndp->pr->pcol);
536	>	if (rayorigin(&sr, xmit ? TSPECULAR : RSPECULAR, ndp->pr, sr.rcoef) < 0) {
537		if (!n & (nstarget > 1)) {
538		n = nstarget; /* avoid infinitue loop */
539	<	nstarget = nstarget*sr.rweight/minweight;
539	>	nstarget = nstarget*sr.rweight/(minweight + 1e-20);
540		if (n == nstarget) break;
541		n = -1; /* moved target */
542		}
#	Line 544 \| Line 545 \| *sample_sdcomp(BSDFDAT ndp, SDComponent dcp, int xmit*
545		if (xmit && ndp->thick != 0) /* need to offset origin? */
546		VSUM(sr.rorg, sr.rorg, ndp->pr->ron, -ndp->thick);
547		rayvalue(&sr); /* send & evaluate sample */
548	<	multcolor(sr.rcol, sr.rcoef);
549	<	addcolor(ndp->pr->rcol, sr.rcol);
548	>	smultscolor(sr.rcol, sr.rcoef);
549	>	saddscolor(ndp->pr->rcol, sr.rcol);
550		++nsent;
551		}
552		return(nsent);
#	Line 557 \| Line 558 \| *sample_sdf(BSDFDAT ndp, int sflags)**
558		{
559		int hasthru = (sflags == SDsampSpT &&
560		!(ndp->pr->crtype & (SPECULAR\|AMBIENT))
561	<	&& bright(ndp->cthru) > FTINY);
561	>	&& sintens(ndp->cthru) > FTINY);
562		int n, ntotal = 0;
563		double b = 0;
564		SDSpectralDF *dfp;
#	Line 576 \| Line 577 \| *sample_sdf(BSDFDAT ndp, int sflags)**
577		else
578		dfp = ndp->sd->rb;
579		}
580	<	setcolor(unsc, 0, 0, 0);
580	>	scolorblack(unsc);
581		if (dfp == NULL) /* no specular component? */
582		return(0);
583
#	Line 585 \| Line 586 \| *sample_sdf(BSDFDAT ndp, int sflags)**
586		if (rayorigin(&tr, TRANS, ndp->pr, ndp->cthru) == 0) {
587		VCOPY(tr.rdir, ndp->pr->rdir);
588		rayvalue(&tr);
589	<	multcolor(tr.rcol, tr.rcoef);
590	<	addcolor(ndp->pr->rcol, tr.rcol);
589	>	smultscolor(tr.rcol, tr.rcoef);
590	>	saddscolor(ndp->pr->rcol, tr.rcol);
591		ndp->pr->rxt = ndp->pr->rot + raydistance(&tr);
592		++ntotal;
593	<	b = bright(ndp->cthru);
593	>	b = pbright(ndp->cthru);
594		} else
595		hasthru = 0;
596		}
#	Line 599 \| Line 600 \| *sample_sdf(BSDFDAT ndp, int sflags)**
600		FVECT vjit;
601		bsdf_jitter(vjit, ndp, ndp->sr_vpsa[1]);
602		b = SDdirectHemi(vjit, sflags, ndp->sd) - b;
603	<	if (b < 0) b = 0;
603	>	b *= (b > 0);
604		}
605		if (b <= specthresh+FTINY) { /* below sampling threshold? */
606		if (b > FTINY) { /* XXX no color from BSDF */
607		if (sflags == SDsampSpT) {
608	<	copycolor(unsc, ndp->pr->pcol);
609	<	scalecolor(unsc, b);
608	>	copyscolor(unsc, ndp->pr->pcol);
609	>	scalescolor(unsc, b);
610		} else /* no pattern on reflection */
611	<	setcolor(unsc, b, b, b);
611	>	setscolor(unsc, b, b, b);
612		}
613		return(ntotal);
614		}
#	Line 627 \| Line 628 \| *m_bsdf(OBJREC m, RAY r)*
628		{
629		int hasthick = (m->otype == MAT_BSDF);
630		int hitfront;
631	<	COLOR ctmp;
631	>	SCOLOR sctmp;
632		SDError ec;
633		FVECT upvec, vtmp;
634		MFUNC *mf;
#	Line 675 \| Line 676 \| *m_bsdf(OBJREC m, RAY r)*
676		if (hitfront) {
677		cvt_sdcolor(nd.rdiff, &nd.sd->rLambFront);
678		if (m->oargs.nfargs >= 3) {
679	<	setcolor(ctmp, m->oargs.farg[0],
679	>	setscolor(sctmp, m->oargs.farg[0],
680		m->oargs.farg[1],
681		m->oargs.farg[2]);
682	<	addcolor(nd.rdiff, ctmp);
682	>	saddscolor(nd.rdiff, sctmp);
683		}
684		cvt_sdcolor(nd.tdiff, &nd.sd->tLambFront);
685		} else {
686		cvt_sdcolor(nd.rdiff, &nd.sd->rLambBack);
687		if (m->oargs.nfargs >= 6) {
688	<	setcolor(ctmp, m->oargs.farg[3],
688	>	setscolor(sctmp, m->oargs.farg[3],
689		m->oargs.farg[4],
690		m->oargs.farg[5]);
691	<	addcolor(nd.rdiff, ctmp);
691	>	saddscolor(nd.rdiff, sctmp);
692		}
693		cvt_sdcolor(nd.tdiff, &nd.sd->tLambBack);
694		}
695		if (m->oargs.nfargs >= 9) { /* add diffuse transmittance? */
696	<	setcolor(ctmp, m->oargs.farg[6],
696	>	setscolor(sctmp, m->oargs.farg[6],
697		m->oargs.farg[7],
698		m->oargs.farg[8]);
699	<	addcolor(nd.tdiff, ctmp);
699	>	saddscolor(nd.tdiff, sctmp);
700		}
701		/* get modifiers */
702		raytexture(r, m->omod);
703		/* modify diffuse values */
704	<	multcolor(nd.rdiff, r->pcol);
705	<	multcolor(nd.tdiff, r->pcol);
704	>	smultscolor(nd.rdiff, r->pcol);
705	>	smultscolor(nd.tdiff, r->pcol);
706		/* get up vector */
707		upvec[0] = evalue(mf->ep[hasthick+0]);
708		upvec[1] = evalue(mf->ep[hasthick+1]);
#	Line 729 \| Line 730 \| *m_bsdf(OBJREC m, RAY r)*
730		SDfreeCache(nd.sd);
731		return(1);
732		}
733	<	setcolor(nd.cthru, 0, 0, 0); /* consider through component */
734	<	setcolor(nd.cthru_surr, 0, 0, 0);
733	>	scolorblack(nd.cthru); /* consider through component */
734	>	scolorblack(nd.cthru_surr);
735		if (m->otype == MAT_ABSDF) {
736		compute_through(&nd);
737		if (r->crtype & SHADOW) {
#	Line 740 \| Line 741 \| *m_bsdf(OBJREC m, RAY r)*
741		return(1); /* no through component */
742		VCOPY(tr.rdir, r->rdir);
743		rayvalue(&tr); /* transmit with scaling */
744	<	multcolor(tr.rcol, tr.rcoef);
745	<	copycolor(r->rcol, tr.rcol);
744	>	smultscolor(tr.rcol, tr.rcoef);
745	>	copyscolor(r->rcol, tr.rcol);
746		return(1); /* we're done */
747		}
748		}
#	Line 764 \| Line 765 \| *m_bsdf(OBJREC m, RAY r)*
765		/* sample transmission */
766		sample_sdf(&nd, SDsampSpT);
767		/* compute indirect diffuse */
768	<	copycolor(ctmp, nd.rdiff);
769	<	addcolor(ctmp, nd.runsamp);
770	<	if (bright(ctmp) > FTINY) { /* ambient from reflection */
771	<	if (!hitfront)
772	<	flipsurface(r);
772	<	multambient(ctmp, r, nd.pnorm);
773	<	addcolor(r->rcol, ctmp);
774	<	if (!hitfront)
775	<	flipsurface(r);
768	>	copyscolor(sctmp, nd.rdiff);
769	>	saddscolor(sctmp, nd.runsamp);
770	>	if (sintens(sctmp) > FTINY) { /* ambient from reflection */
771	>	multambient(sctmp, r, nd.pnorm);
772	>	saddscolor(r->rcol, sctmp);
773		}
774	<	copycolor(ctmp, nd.tdiff);
775	<	addcolor(ctmp, nd.tunsamp);
776	<	if (bright(ctmp) > FTINY) { /* ambient from other side */
774	>	copyscolor(sctmp, nd.tdiff);
775	>	saddscolor(sctmp, nd.tunsamp);
776	>	if (sintens(sctmp) > FTINY) { /* ambient from other side */
777		FVECT bnorm;
781	–	if (hitfront)
782	–	flipsurface(r);
778		bnorm[0] = -nd.pnorm[0];
779		bnorm[1] = -nd.pnorm[1];
780		bnorm[2] = -nd.pnorm[2];
781		if (nd.thick != 0) { /* proxy with offset? */
782		VCOPY(vtmp, r->rop);
783		VSUM(r->rop, vtmp, r->ron, nd.thick);
784	<	multambient(ctmp, r, bnorm);
784	>	multambient(sctmp, r, bnorm);
785		VCOPY(r->rop, vtmp);
786		} else
787	<	multambient(ctmp, r, bnorm);
788	<	addcolor(r->rcol, ctmp);
794	<	if (hitfront)
795	<	flipsurface(r);
787	>	multambient(sctmp, r, bnorm);
788	>	saddscolor(r->rcol, sctmp);
789		}
790		/* add direct component */
791	<	if ((bright(nd.tdiff) <= FTINY) & (nd.sd->tf == NULL) &
792	<	(nd.sd->tb == NULL)) {
791	>	if ((nd.sd->tf == NULL) & (nd.sd->tb == NULL) &&
792	>	sintens(nd.tdiff) <= FTINY) {
793		direct(r, dir_brdf, &nd); /* reflection only */
794		} else if (nd.thick == 0) {
795		direct(r, dir_bsdf, &nd); /* thin surface scattering */

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Comparing ray/src/rt/m_bsdf.c (file contents): Revision 2.70 by greg, Wed Mar 9 00:27:25 2022 UTC vs. Revision 2.74 by greg, Wed Sep 18 19:52:35 2024 UTC

Diff Legend

Comparing ray/src/rt/m_bsdf.c (file contents):
Revision 2.70 by greg, Wed Mar 9 00:27:25 2022 UTC vs.
Revision 2.74 by greg, Wed Sep 18 19:52:35 2024 UTC