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

Comparing ray/src/rt/m_bsdf.c (file contents):
Revision 2.53 by greg, Thu Aug 2 22:44:35 2018 UTC vs.
Revision 2.62 by greg, Sat Mar 27 17:50:18 2021 UTC

#	Line 87 \| Line 87 \| typedef struct {
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 */
91		SDData sd; / loaded BSDF data */
92		COLOR rdiff; /* diffuse reflection */
93		COLOR runsamp; /* BSDF hemispherical reflection */
#	Line 96 \| Line 97 \| typedef struct {
97
98		#define cvt_sdcolor(cv, svp) ccy2rgb(&(svp)->spec, (svp)->cieY, cv)
99
100	+	typedef struct {
101	+	double vy; /* brightness (for sorting) */
102	+	FVECT tdir; /* through sample direction (normalized) */
103	+	COLOR vcol; /* BTDF color */
104	+	} PEAKSAMP; /* BTDF peak sample */
105	+
106	+	/* Comparison function to put near-peak values in descending order */
107	+	static int
108	+	cmp_psamp(const void p1, const void p2)
109	+	{
110	+	double diff = ((const PEAKSAMP )p1).vy - ((const PEAKSAMP )p2).vy;
111	+	if (diff > 0) return(-1);
112	+	if (diff < 0) return(1);
113	+	return(0);
114	+	}
115	+
116		/* Compute "through" component color for MAT_ABSDF */
117		static void
118		compute_through(BSDFDAT *ndp)
119		{
120	<	#define NDIR2CHECK 13
120	>	#define NDIR2CHECK 29
121		static const float dir2check[NDIR2CHECK][2] = {
122	<	{0, 0},
123	<	{-0.8, 0},
124	<	{0, 0.8},
125	<	{0, -0.8},
126	<	{0.8, 0},
127	<	{-0.8, 0.8},
128	<	{-0.8, -0.8},
129	<	{0.8, 0.8},
130	<	{0.8, -0.8},
131	<	{-1.6, 0},
115	<	{0, 1.6},
116	<	{0, -1.6},
117	<	{1.6, 0},
122	>	{0, 0}, {-0.6, 0}, {0, 0.6},
123	>	{0, -0.6}, {0.6, 0}, {-0.6, 0.6},
124	>	{-0.6, -0.6}, {0.6, 0.6}, {0.6, -0.6},
125	>	{-1.2, 0}, {0, 1.2}, {0, -1.2},
126	>	{1.2, 0}, {-1.2, 1.2}, {-1.2, -1.2},
127	>	{1.2, 1.2}, {1.2, -1.2}, {-1.8, 0},
128	>	{0, 1.8}, {0, -1.8}, {1.8, 0},
129	>	{-1.8, 1.8}, {-1.8, -1.8}, {1.8, 1.8},
130	>	{1.8, -1.8}, {-2.4, 0}, {0, 2.4},
131	>	{0, -2.4}, {2.4, 0},
132		};
133		const double peak_over = 1.5;
134	+	PEAKSAMP psamp[NDIR2CHECK];
135		SDSpectralDF *dfp;
136		FVECT pdir;
137		double tomega, srchrad;
138	<	COLOR vpeak, vsum;
139	<	int i;
138	>	double tomsum, tomsurr;
139	>	COLOR vpeak, vsurr;
140	>	double vypeak;
141	>	int i, ns;
142		SDError ec;
143
144		if (ndp->pr->rod > 0)
#	Line 133 \| Line 150 \| *compute_through(BSDFDAT ndp)**
150		return; /* no specular transmission */
151		if (bright(ndp->pr->pcol) <= FTINY)
152		return; /* pattern is black, here */
153	<	srchrad = sqrt(dfp->minProjSA); /* else search for peak */
137	<	setcolor(vpeak, 0, 0, 0);
138	<	setcolor(vsum, 0, 0, 0);
139	<	pdir[2] = 0.0;
153	>	srchrad = sqrt(dfp->minProjSA); /* else evaluate peak */
154		for (i = 0; i < NDIR2CHECK; i++) {
141	–	FVECT tdir;
155		SDValue sv;
156	<	COLOR vcol;
157	<	tdir[0] = -ndp->vray[0] + dir2check[i][0]*srchrad;
158	<	tdir[1] = -ndp->vray[1] + dir2check[i][1]*srchrad;
159	<	tdir[2] = -ndp->vray[2];
160	<	normalize(tdir);
148	<	ec = SDevalBSDF(&sv, tdir, ndp->vray, ndp->sd);
156	>	psamp[i].tdir[0] = -ndp->vray[0] + dir2check[i][0]*srchrad;
157	>	psamp[i].tdir[1] = -ndp->vray[1] + dir2check[i][1]*srchrad;
158	>	psamp[i].tdir[2] = -ndp->vray[2];
159	>	normalize(psamp[i].tdir);
160	>	ec = SDevalBSDF(&sv, psamp[i].tdir, ndp->vray, ndp->sd);
161		if (ec)
162		goto baderror;
163	<	cvt_sdcolor(vcol, &sv);
164	<	addcolor(vsum, vcol);
165	<	if (sv.cieY > bright(vpeak)) {
166	<	copycolor(vpeak, vcol);
167	<	VCOPY(pdir, tdir);
163	>	cvt_sdcolor(psamp[i].vcol, &sv);
164	>	psamp[i].vy = sv.cieY;
165	>	}
166	>	qsort(psamp, NDIR2CHECK, sizeof(PEAKSAMP), cmp_psamp);
167	>	if (psamp[0].vy <= FTINY)
168	>	return; /* zero area */
169	>	setcolor(vpeak, 0, 0, 0);
170	>	setcolor(vsurr, 0, 0, 0);
171	>	vypeak = tomsum = tomsurr = 0; /* combine top unique values */
172	>	ns = 0;
173	>	for (i = 0; i < NDIR2CHECK; i++) {
174	>	if (i && psamp[i].vy == psamp[i-1].vy)
175	>	continue; /* assume duplicate sample */
176	>
177	>	ec = SDsizeBSDF(&tomega, psamp[i].tdir, ndp->vray,
178	>	SDqueryMin, ndp->sd);
179	>	if (ec)
180	>	goto baderror;
181	>	/* not really a peak? */
182	>	if (tomega > 1.5*dfp->minProjSA \|\|
183	>	vypeak > 8.psamp[i].vyns) {
184	>	if (!i) return; /* abort */
185	>	scalecolor(psamp[i].vcol, tomega);
186	>	addcolor(vsurr, psamp[i].vcol);
187	>	tomsurr += tomega;
188	>	continue;
189		}
190	+	scalecolor(psamp[i].vcol, tomega);
191	+	addcolor(vpeak, psamp[i].vcol);
192	+	tomsum += tomega;
193	+	vypeak += psamp[i].vy;
194	+	++ns;
195		}
196	<	if (pdir[2] == 0.0)
197	<	return; /* zero neighborhood */
198	<	ec = SDsizeBSDF(&tomega, pdir, ndp->vray, SDqueryMin, ndp->sd);
199	<	if (ec)
162	<	goto baderror;
163	<	if (tomega > 1.5*dfp->minProjSA)
164	<	return; /* not really a peak? */
165	<	tomega /= fabs(pdir[2]); /* remove cosine factor */
166	<	if ((bright(vpeak) - ndp->sd->tLamb.cieY(1./PI))tomega <= .001)
196	>	if (vypeaktomsurr < peak_overbright(vsurr)*ns)
197	>	return; /* peak not peaky enough */
198	>	if ((vypeak/ns - (ndp->vray[2] > 0 ? ndp->sd->tLambFront.cieY
199	>	: ndp->sd->tLambBack.cieY)(1./PI))tomsum <= .001)
200		return; /* < 0.1% transmission */
201	<	for (i = 3; i--; ) /* remove peak from average */
169	<	colval(vsum,i) -= colval(vpeak,i);
170	<	if (peak_overbright(vsum) >= (NDIR2CHECK-1)bright(vpeak))
171	<	return; /* not peaky enough */
172	<	copycolor(ndp->cthru, vpeak); /* else use it */
173	<	scalecolor(ndp->cthru, tomega);
201	>	copycolor(ndp->cthru, vpeak); /* already scaled by omega */
202		multcolor(ndp->cthru, ndp->pr->pcol); /* modify by pattern */
203	+	if (tomsurr > FTINY) { /* surround contribution? */
204	+	scalecolor(vsurr, 1./tomsurr); /* this one is avg. BTDF */
205	+	copycolor(ndp->cthru_surr, vsurr);
206	+	multcolor(ndp->cthru_surr, ndp->pr->pcol);
207	+	}
208		return;
209		baderror:
210		objerror(ndp->mp, USER, transSDError(ec));
#	Line 223 \| Line 256 \| direct_specular_OK(COLOR cval, FVECT ldir, double omeg
256		return(0); /* all diffuse */
257		sv = ndp->sd->rLambBack;
258		break;
259	<	default:
259	>	case 1:
260		if ((ndp->sd->tf == NULL) & (ndp->sd->tb == NULL))
261		return(0); /* all diffuse */
262	<	sv = ndp->sd->tLamb;
262	>	sv = ndp->sd->tLambFront;
263		break;
264	+	case 2:
265	+	if ((ndp->sd->tf == NULL) & (ndp->sd->tb == NULL))
266	+	return(0); /* all diffuse */
267	+	sv = ndp->sd->tLambBack;
268	+	break;
269		}
270		if (sv.cieY > FTINY) {
271		diffY = sv.cieY *= 1./PI;
#	Line 247 \| Line 285 \| direct_specular_OK(COLOR cval, FVECT ldir, double omeg
285		((ndp->sd->tb != NULL) ? ndp->sd->tb : ndp->sd->tf) ;
286
287		if (dxdx + dydy <= (2.54./PI)(omega + dfp->minProjSA +
288	<	2.sqrt(omegadfp->minProjSA)))
289	<	return(0);
288	>	2.sqrt(omegadfp->minProjSA))) {
289	>	if (bright(ndp->cthru_surr) <= FTINY)
290	>	return(0);
291	>	copycolor(cval, ndp->cthru_surr);
292	>	return(1); /* return non-zero surround BTDF */
293	>	}
294		}
295		ec = SDsizeBSDF(&tomega, ndp->vray, vsrc, SDqueryMin, ndp->sd);
296		if (ec)
#	Line 286 \| Line 328 \| direct_specular_OK(COLOR cval, FVECT ldir, double omeg
328		if (tomega2 < .12*tomega)
329		continue; /* not safe to include */
330		cvt_sdcolor(csmp, &sv);
331	<
332	<	if (sf < 2.5tsr) { / weight by Y for small sources */
331	>	#if 0
332	>	if (sf < 2.5tsr) { / weight by BSDF for small sources */
333		scalecolor(csmp, sv.cieY);
334		wtot += sv.cieY;
335		} else
336	<	wtot += 1.;
336	>	#endif
337	>	wtot += 1.;
338		addcolor(cval, csmp);
339		}
340		if (wtot <= FTINY) /* no valid specular samples? */
#	Line 556 \| Line 599 \| *sample_sdf(BSDFDAT ndp, int sflags)**
599		rayvalue(&tr);
600		multcolor(tr.rcol, tr.rcoef);
601		addcolor(ndp->pr->rcol, tr.rcol);
602	+	ndp->pr->rxt = ndp->pr->rot + raydistance(&tr);
603		++ntotal;
604		b = bright(ndp->cthru);
605		} else
#	Line 635 \| Line 679 \| *m_bsdf(OBJREC m, RAY r)*
679		/* get BSDF data */
680		nd.sd = loadBSDF(m->oargs.sarg[hasthick]);
681		/* early shadow check #2 */
682	<	if (r->crtype & SHADOW && (nd.sd->tf == NULL) & (nd.sd->tb == NULL))
682	>	if (r->crtype & SHADOW && (nd.sd->tf == NULL) & (nd.sd->tb == NULL)) {
683	>	SDfreeCache(nd.sd);
684		return(1);
685	+	}
686		/* diffuse reflectance */
687		if (hitfront) {
688		cvt_sdcolor(nd.rdiff, &nd.sd->rLambFront);
#	Line 656 \| Line 702 \| *m_bsdf(OBJREC m, RAY r)*
702		}
703		}
704		/* diffuse transmittance */
705	<	cvt_sdcolor(nd.tdiff, &nd.sd->tLamb);
705	>	cvt_sdcolor(nd.tdiff, hitfront ? &nd.sd->tLambFront : &nd.sd->tLambBack);
706		if (m->oargs.nfargs >= 9) {
707		setcolor(ctmp, m->oargs.farg[6],
708		m->oargs.farg[7],
#	Line 692 \| Line 738 \| *m_bsdf(OBJREC m, RAY r)*
738		}
739		if (ec) {
740		objerror(m, WARNING, "Illegal orientation vector");
741	+	SDfreeCache(nd.sd);
742		return(1);
743		}
744		setcolor(nd.cthru, 0, 0, 0); /* consider through component */
745	+	setcolor(nd.cthru_surr, 0, 0, 0);
746		if (m->otype == MAT_ABSDF) {
747		compute_through(&nd);
748		if (r->crtype & SHADOW) {
749		RAY tr; /* attempt to pass shadow ray */
750	+	SDfreeCache(nd.sd);
751		if (rayorigin(&tr, TRANS, r, nd.cthru) < 0)
752		return(1); /* no through component */
753		VCOPY(tr.rdir, r->rdir);

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Comparing ray/src/rt/m_bsdf.c (file contents): Revision 2.53 by greg, Thu Aug 2 22:44:35 2018 UTC vs. Revision 2.62 by greg, Sat Mar 27 17:50:18 2021 UTC

Diff Legend

Comparing ray/src/rt/m_bsdf.c (file contents):
Revision 2.53 by greg, Thu Aug 2 22:44:35 2018 UTC vs.
Revision 2.62 by greg, Sat Mar 27 17:50:18 2021 UTC