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

Comparing ray/src/rt/m_bsdf.c (file contents):
Revision 2.24 by greg, Thu Jul 4 15:14:45 2013 UTC vs.
Revision 2.33 by greg, Sun Feb 19 17:22:18 2017 UTC

#	Line 13 \| Line 13 \| static const char RCSid[] = "$Id$";
13		#include "func.h"
14		#include "bsdf.h"
15		#include "random.h"
16	+	#include "pmapmat.h"
17
18		/*
19		* Arguments to this material include optional diffuse colors.
#	Line 72 \| Line 73 \| typedef struct {
73		RREAL fromloc[3][3]; /* local BSDF coords to world */
74		double thick; /* surface thickness */
75		SDData sd; / loaded BSDF data */
76	<	COLOR runsamp; /* BSDF hemispherical reflection */
77	<	COLOR rdiff; /* added diffuse reflection */
77	<	COLOR tunsamp; /* BSDF hemispherical transmission */
78	<	COLOR tdiff; /* added diffuse transmission */
76	>	COLOR rdiff; /* diffuse reflection */
77	>	COLOR tdiff; /* diffuse transmission */
78		} BSDFDAT; /* BSDF material data */
79
80		#define cvt_sdcolor(cv, svp) ccy2rgb(&(svp)->spec, (svp)->cieY, cv)
#	Line 94 \| Line 93 \| *bsdf_jitter(FVECT vres, BSDFDAT ndp, double sr_psa)**
93		normalize(vres);
94		}
95
96	<	/* Evaluate BSDF for direct component, returning true if OK to proceed */
96	>	/* Get BSDF specular for direct component, returning true if OK to proceed */
97		static int
98	<	direct_bsdf_OK(COLOR cval, FVECT ldir, double omega, BSDFDAT *ndp)
98	>	direct_specular_OK(COLOR cval, FVECT ldir, double omega, BSDFDAT *ndp)
99		{
100		int nsamp, ok = 0;
101		FVECT vsrc, vsmp, vjit;
102		double tomega;
103		double sf, tsr, sd[2];
104	<	COLOR csmp;
104	>	COLOR csmp, cdiff;
105	>	double diffY;
106		SDValue sv;
107		SDError ec;
108		int i;
109		/* transform source direction */
110		if (SDmapDir(vsrc, ndp->toloc, ldir) != SDEnone)
111		return(0);
112	+	/* will discount diffuse portion */
113	+	switch ((vsrc[2] > 0)<<1 \| (ndp->vray[2] > 0)) {
114	+	case 3:
115	+	if (ndp->sd->rf == NULL)
116	+	return(0); /* all diffuse */
117	+	sv = ndp->sd->rLambFront;
118	+	break;
119	+	case 0:
120	+	if (ndp->sd->rb == NULL)
121	+	return(0); /* all diffuse */
122	+	sv = ndp->sd->rLambBack;
123	+	break;
124	+	default:
125	+	if ((ndp->sd->tf == NULL) & (ndp->sd->tb == NULL))
126	+	return(0); /* all diffuse */
127	+	sv = ndp->sd->tLamb;
128	+	break;
129	+	}
130	+	if (sv.cieY > FTINY) {
131	+	diffY = sv.cieY *= 1./PI;
132	+	cvt_sdcolor(cdiff, &sv);
133	+	} else {
134	+	diffY = .0;
135	+	setcolor(cdiff, .0, .0, .0);
136	+	}
137		/* assign number of samples */
138		ec = SDsizeBSDF(&tomega, ndp->vray, vsrc, SDqueryMin, ndp->sd);
139		if (ec)
140		goto baderror;
141		/* check indirect over-counting */
142		if (ndp->thick != 0 && ndp->pr->crtype & (SPECULAR\|AMBIENT)
143	<	&& vsrc[2] > 0 ^ ndp->vray[2] > 0) {
143	>	&& (vsrc[2] > 0) ^ (ndp->vray[2] > 0)) {
144		double dx = vsrc[0] + ndp->vray[0];
145		double dy = vsrc[1] + ndp->vray[1];
146		if (dxdx + dydy <= omega+tomega)
#	Line 148 \| Line 173 \| direct_bsdf_OK(COLOR cval, FVECT ldir, double omega, B
173		ec = SDevalBSDF(&sv, vjit, vsmp, ndp->sd);
174		if (ec)
175		goto baderror;
176	<	if (sv.cieY <= FTINY) /* worth using? */
177	<	continue;
176	>	if (sv.cieY - diffY <= FTINY) {
177	>	addcolor(cval, cdiff);
178	>	continue; /* no specular part */
179	>	}
180		cvt_sdcolor(csmp, &sv);
181	<	addcolor(cval, csmp); /* average it in */
181	>	addcolor(cval, csmp); /* else average it in */
182		++ok;
183		}
184	+	if (!ok) {
185	+	setcolor(cval, .0, .0, .0);
186	+	return(0); /* no valid specular samples */
187	+	}
188		sf = 1./(double)nsamp;
189		scalecolor(cval, sf);
190	<	return(ok);
190	>	/* subtract diffuse contribution */
191	>	for (i = 3*(diffY > FTINY); i--; )
192	>	if ((colval(cval,i) -= colval(cdiff,i)) < .0)
193	>	colval(cval,i) = .0;
194	>	return(1);
195		baderror:
196		objerror(ndp->mp, USER, transSDError(ec));
197		return(0); /* gratis return */
#	Line 200 \| Line 235 \| dir_bsdf(
235		scalecolor(ctmp, dtmp);
236		addcolor(cval, ctmp);
237		}
238	+	if (ambRayInPmap(np->pr))
239	+	return; /* specular already in photon map */
240		/*
241	<	* Compute scattering coefficient using BSDF.
241	>	* Compute specular scattering coefficient using BSDF.
242		*/
243	<	if (!direct_bsdf_OK(ctmp, ldir, omega, np))
243	>	if (!direct_specular_OK(ctmp, ldir, omega, np))
244		return;
245	<	if (ldot > 0) { /* pattern only diffuse reflection */
209	<	COLOR ctmp1, ctmp2;
210	<	dtmp = (np->pr->rod > 0) ? np->sd->rLambFront.cieY
211	<	: np->sd->rLambBack.cieY;
212	<	/* diffuse fraction */
213	<	dtmp /= PI * bright(ctmp);
214	<	copycolor(ctmp2, np->pr->pcol);
215	<	scalecolor(ctmp2, dtmp);
216	<	setcolor(ctmp1, 1.-dtmp, 1.-dtmp, 1.-dtmp);
217	<	addcolor(ctmp1, ctmp2);
218	<	multcolor(ctmp, ctmp1); /* apply derated pattern */
219	<	dtmp = ldot * omega;
220	<	} else { /* full pattern on transmission */
245	>	if (ldot < 0) { /* pattern for specular transmission */
246		multcolor(ctmp, np->pr->pcol);
247		dtmp = -ldot * omega;
248	<	}
248	>	} else
249	>	dtmp = ldot * omega;
250		scalecolor(ctmp, dtmp);
251		addcolor(cval, ctmp);
252		}
#	Line 255 \| Line 281 \| dir_brdf(
281		scalecolor(ctmp, dtmp);
282		addcolor(cval, ctmp);
283		}
284	+	if (ambRayInPmap(np->pr))
285	+	return; /* specular already in photon map */
286		/*
287	<	* Compute reflection coefficient using BSDF.
287	>	* Compute specular reflection coefficient using BSDF.
288		*/
289	<	if (!direct_bsdf_OK(ctmp, ldir, omega, np))
289	>	if (!direct_specular_OK(ctmp, ldir, omega, np))
290		return;
263	–	/* pattern only diffuse reflection */
264	–	dtmp = (np->pr->rod > 0) ? np->sd->rLambFront.cieY
265	–	: np->sd->rLambBack.cieY;
266	–	dtmp /= PI * bright(ctmp); /* diffuse fraction */
267	–	copycolor(ctmp2, np->pr->pcol);
268	–	scalecolor(ctmp2, dtmp);
269	–	setcolor(ctmp1, 1.-dtmp, 1.-dtmp, 1.-dtmp);
270	–	addcolor(ctmp1, ctmp2);
271	–	multcolor(ctmp, ctmp1); /* apply derated pattern */
291		dtmp = ldot * omega;
292		scalecolor(ctmp, dtmp);
293		addcolor(cval, ctmp);
#	Line 304 \| Line 323 \| dir_btdf(
323		scalecolor(ctmp, dtmp);
324		addcolor(cval, ctmp);
325		}
326	+	if (ambRayInPmap(np->pr))
327	+	return; /* specular already in photon map */
328		/*
329	<	* Compute scattering coefficient using BSDF.
329	>	* Compute specular scattering coefficient using BSDF.
330		*/
331	<	if (!direct_bsdf_OK(ctmp, ldir, omega, np))
331	>	if (!direct_specular_OK(ctmp, ldir, omega, np))
332		return;
333		/* full pattern on transmission */
334		multcolor(ctmp, np->pr->pcol);
#	Line 363 \| Line 384 \| *sample_sdcomp(BSDFDAT ndp, SDComponent dcp, int usep*
384		continue; /* Russian roulette victim */
385		}
386		/* need to offset origin? */
387	<	if (ndp->thick != 0 && ndp->pr->rod > 0 ^ vsmp[2] > 0)
387	>	if (ndp->thick != 0 && (ndp->pr->rod > 0) ^ (vsmp[2] > 0))
388		VSUM(sr.rorg, sr.rorg, ndp->pr->ron, -ndp->thick);
389		rayvalue(&sr); /* send & evaluate sample */
390		multcolor(sr.rcol, sr.rcoef);
#	Line 381 \| Line 402 \| *sample_sdf(BSDFDAT ndp, int sflags)**
402		COLORV *unsc;
403
404		if (sflags == SDsampSpT) {
405	<	unsc = ndp->tunsamp;
405	>	unsc = ndp->tdiff;
406		if (ndp->pr->rod > 0)
407		dfp = (ndp->sd->tf != NULL) ? ndp->sd->tf : ndp->sd->tb;
408		else
409		dfp = (ndp->sd->tb != NULL) ? ndp->sd->tb : ndp->sd->tf;
389	–	cvt_sdcolor(unsc, &ndp->sd->tLamb);
410		} else /* sflags == SDsampSpR */ {
411	<	unsc = ndp->runsamp;
412	<	if (ndp->pr->rod > 0) {
411	>	unsc = ndp->rdiff;
412	>	if (ndp->pr->rod > 0)
413		dfp = ndp->sd->rf;
414	<	cvt_sdcolor(unsc, &ndp->sd->rLambFront);
395	<	} else {
414	>	else
415		dfp = ndp->sd->rb;
397	–	cvt_sdcolor(unsc, &ndp->sd->rLambBack);
398	–	}
416		}
400	–	multcolor(unsc, ndp->pr->pcol);
417		if (dfp == NULL) /* no specular component? */
418		return(0);
419		/* below sampling threshold? */
#	Line 446 \| Line 462 \| *m_bsdf(OBJREC m, RAY r)*
462		hitfront = (r->rod > 0);
463		/* load cal file */
464		mf = getfunc(m, 5, 0x1d, 1);
465	+	setfunc(m, r);
466		/* get thickness */
467		nd.thick = evalue(mf->ep[0]);
468		if ((-FTINY <= nd.thick) & (nd.thick <= FTINY))
#	Line 456 \| Line 473 \| *m_bsdf(OBJREC m, RAY r)*
473		raytrans(r); /* pass-through */
474		return(1); /* or shadow */
475		}
476	+	/* check backface visibility */
477	+	if (!hitfront & !backvis) {
478	+	raytrans(r);
479	+	return(1);
480	+	}
481		/* check other rays to pass */
482		if (nd.thick != 0 && (!(r->crtype & (SPECULAR\|AMBIENT)) \|\|
483	<	nd.thick > 0 ^ hitfront)) {
483	>	(nd.thick > 0) ^ hitfront)) {
484		raytrans(r); /* hide our proxy */
485		return(1);
486		}
487	+	nd.mp = m;
488	+	nd.pr = r;
489		/* get BSDF data */
490		nd.sd = loadBSDF(m->oargs.sarg[1]);
491		/* diffuse reflectance */
492		if (hitfront) {
493	<	if (m->oargs.nfargs < 3)
494	<	setcolor(nd.rdiff, .0, .0, .0);
495	<	else
472	<	setcolor(nd.rdiff, m->oargs.farg[0],
493	>	cvt_sdcolor(nd.rdiff, &nd.sd->rLambFront);
494	>	if (m->oargs.nfargs >= 3) {
495	>	setcolor(ctmp, m->oargs.farg[0],
496		m->oargs.farg[1],
497		m->oargs.farg[2]);
498	+	addcolor(nd.rdiff, ctmp);
499	+	}
500		} else {
501	<	if (m->oargs.nfargs < 6) { /* check invisible backside */
502	<	if (!backvis && (nd.sd->rb == NULL) &
503	<	(nd.sd->tb == NULL)) {
479	<	SDfreeCache(nd.sd);
480	<	raytrans(r);
481	<	return(1);
482	<	}
483	<	setcolor(nd.rdiff, .0, .0, .0);
484	<	} else
485	<	setcolor(nd.rdiff, m->oargs.farg[3],
501	>	cvt_sdcolor(nd.rdiff, &nd.sd->rLambBack);
502	>	if (m->oargs.nfargs >= 6) {
503	>	setcolor(ctmp, m->oargs.farg[3],
504		m->oargs.farg[4],
505		m->oargs.farg[5]);
506	+	addcolor(nd.rdiff, ctmp);
507	+	}
508		}
509		/* diffuse transmittance */
510	<	if (m->oargs.nfargs < 9)
511	<	setcolor(nd.tdiff, .0, .0, .0);
512	<	else
493	<	setcolor(nd.tdiff, m->oargs.farg[6],
510	>	cvt_sdcolor(nd.tdiff, &nd.sd->tLamb);
511	>	if (m->oargs.nfargs >= 9) {
512	>	setcolor(ctmp, m->oargs.farg[6],
513		m->oargs.farg[7],
514		m->oargs.farg[8]);
515	<	nd.mp = m;
516	<	nd.pr = r;
515	>	addcolor(nd.tdiff, ctmp);
516	>	}
517		/* get modifiers */
518		raytexture(r, m->omod);
519		/* modify diffuse values */
#	Line 545 \| Line 564 \| *m_bsdf(OBJREC m, RAY r)*
564		/* sample transmission */
565		sample_sdf(&nd, SDsampSpT);
566		/* compute indirect diffuse */
567	<	copycolor(ctmp, nd.rdiff);
549	<	addcolor(ctmp, nd.runsamp);
550	<	if (bright(ctmp) > FTINY) { /* ambient from reflection */
567	>	if (bright(nd.rdiff) > FTINY) { /* ambient from reflection */
568		if (!hitfront)
569		flipsurface(r);
570	+	copycolor(ctmp, nd.rdiff);
571		multambient(ctmp, r, nd.pnorm);
572		addcolor(r->rcol, ctmp);
573		if (!hitfront)
574		flipsurface(r);
575		}
576	<	copycolor(ctmp, nd.tdiff);
559	<	addcolor(ctmp, nd.tunsamp);
560	<	if (bright(ctmp) > FTINY) { /* ambient from other side */
576	>	if (bright(nd.tdiff) > FTINY) { /* ambient from other side */
577		FVECT bnorm;
578		if (hitfront)
579		flipsurface(r);
580		bnorm[0] = -nd.pnorm[0];
581		bnorm[1] = -nd.pnorm[1];
582		bnorm[2] = -nd.pnorm[2];
583	+	copycolor(ctmp, nd.tdiff);
584		if (nd.thick != 0) { /* proxy with offset? */
585		VCOPY(vtmp, r->rop);
586		VSUM(r->rop, vtmp, r->ron, nd.thick);

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Comparing ray/src/rt/m_bsdf.c (file contents): Revision 2.24 by greg, Thu Jul 4 15:14:45 2013 UTC vs. Revision 2.33 by greg, Sun Feb 19 17:22:18 2017 UTC

Diff Legend

Comparing ray/src/rt/m_bsdf.c (file contents):
Revision 2.24 by greg, Thu Jul 4 15:14:45 2013 UTC vs.
Revision 2.33 by greg, Sun Feb 19 17:22:18 2017 UTC