[ViewVC] Diff of: radiance/ray/src/rt/dielectric.c

Comparing ray/src/rt/dielectric.c (file contents):
Revision 2.18 by schorsch, Tue Mar 30 16:13:01 2004 UTC vs.
Revision 2.23 by greg, Wed Aug 7 05:10:09 2013 UTC

#	Line 74 \| Line 74 \| *m_dielectric( / color a ray which hit a dielectric in**
74		COLOR ctrans;
75		COLOR talb;
76		int hastexture;
77	+	double transdist=0, transtest=0;
78	+	double mirdist=0, mirtest=0;
79	+	int flatsurface;
80		double refl, trans;
81		FVECT dnorm;
82		double d1, d2;
#	Line 91 \| Line 94 \| *m_dielectric( / color a ray which hit a dielectric in**
94		VCOPY(dnorm, r->ron);
95		cos1 = r->rod;
96		}
97	+	flatsurface = !hastexture && r->ro != NULL && isflat(r->ro->otype);
98	+
99		/* index of refraction */
100		if (m->otype == MAT_DIELECTRIC)
101		nratio = m->oargs.farg[3] + m->oargs.farg[4]/MLAMBDA;
#	Line 159 \| Line 164 \| *m_dielectric( / color a ray which hit a dielectric in**
164
165		trans = nrationratio; /* solid angle ratio */
166
167	<	if (rayorigin(&p, r, REFRACTED, trans) == 0) {
167	>	setcolor(p.rcoef, trans, trans, trans);
168
169	+	if (rayorigin(&p, REFRACTED, r, p.rcoef) == 0) {
170	+
171		/* compute refracted ray */
172		d1 = nratio*cos1 - cos2;
173		for (i = 0; i < 3; i++)
#	Line 173 \| Line 180 \| *m_dielectric( / color a ray which hit a dielectric in**
180		p.rdir[i] = nratio*r->rdir[i] +
181		d1*r->ron[i];
182		normalize(p.rdir); /* not exact */
183	<	}
183	>	} else
184	>	checknorm(p.rdir);
185		#ifdef DISPERSE
186		if (m->otype != MAT_DIELECTRIC
187		\|\| r->rod > 0.0
#	Line 187 \| Line 195 \| *m_dielectric( / color a ray which hit a dielectric in**
195		copycolor(p.cext, ctrans);
196		copycolor(p.albedo, talb);
197		rayvalue(&p);
198	<	scalecolor(p.rcol, trans);
198	>	multcolor(p.rcol, p.rcoef);
199		addcolor(r->rcol, p.rcol);
200	<	if (nratio >= 1.0-FTINY && nratio <= 1.0+FTINY)
201	<	r->rt = r->rot + p.rt;
200	>	/* virtual distance */
201	>	if (flatsurface \|\|
202	>	(1.-FTINY <= nratio &&
203	>	nratio <= 1.+FTINY)) {
204	>	transtest = 2*bright(p.rcol);
205	>	transdist = r->rot + p.rt;
206	>	}
207		}
208		}
209		}
210	<
210	>	setcolor(p.rcoef, refl, refl, refl);
211	>
212		if (!(r->crtype & SHADOW) &&
213	<	rayorigin(&p, r, REFLECTED, refl) == 0) {
213	>	rayorigin(&p, REFLECTED, r, p.rcoef) == 0) {
214
215		/* compute reflected ray */
216	<	for (i = 0; i < 3; i++)
203	<	p.rdir[i] = r->rdir[i] + 2.0cos1dnorm[i];
216	>	VSUM(p.rdir, r->rdir, dnorm, 2.*cos1);
217		/* accidental penetration? */
218		if (hastexture && DOT(p.rdir,r->ron)*hastexture <= FTINY)
219	<	for (i = 0; i < 3; i++) /* ignore texture */
220	<	p.rdir[i] = r->rdir[i] + 2.0r->rodr->ron[i];
208	<
219	>	VSUM(p.rdir, r->rdir, r->ron, 2.*r->rod);
220	>	checknorm(p.rdir);
221		rayvalue(&p); /* reflected ray value */
222
223	<	scalecolor(p.rcol, refl); /* color contribution */
223	>	multcolor(p.rcol, p.rcoef); /* color contribution */
224		addcolor(r->rcol, p.rcol);
225	+	/* virtual distance */
226	+	if (flatsurface) {
227	+	mirtest = 2*bright(p.rcol);
228	+	mirdist = r->rot + p.rt;
229	+	}
230		}
231	+	/* check distance to return */
232	+	d1 = bright(r->rcol);
233	+	if (transtest > d1)
234	+	r->rt = transdist;
235	+	else if (mirtest > d1)
236	+	r->rt = mirdist;
237		/* rayvalue() computes absorption */
238		return(1);
239		}
#	Line 228 \| Line 251 \| *disperse( / check light sources for dispersion /*
251		COLOR abt
252		)
253		{
254	<	RAY sray, *entray;
254	>	RAY sray;
255	>	const RAY *entray;
256		FVECT v1, v2, n1, n2;
257		FVECT dv, v2Xdv;
258		double v2Xdvv2Xdv;
#	Line 283 \| Line 307 \| *disperse( / check light sources for dispersion /*
307		VCOPY(n2, r->ron);
308
309		/* first order dispersion approx. */
310	<	dtmp1 = DOT(n1, v1);
311	<	dtmp2 = DOT(n2, v2);
310	>	dtmp1 = 1./DOT(n1, v1);
311	>	dtmp2 = 1./DOT(n2, v2);
312		for (i = 0; i < 3; i++)
313	<	dv[i] = v1[i] + v2[i] - n1[i]/dtmp1 - n2[i]/dtmp2;
313	>	dv[i] = v1[i] + v2[i] - n1[i]dtmp1 - n2[i]dtmp2;
314
315		if (DOT(dv, dv) <= FTINY) /* null effect */
316		return(0);
#	Line 329 \| Line 353 \| *disperse( / check light sources for dispersion /*
353		dtmp1 = sqrt(si.dom / v2Xdvv2Xdv / PI);
354
355		/* compute first ray */
356	<	for (i = 0; i < 3; i++)
333	<	vtmp2[i] = sray.rdir[i] + dtmp1*vtmp1[i];
356	>	VSUM(vtmp2, sray.rdir, vtmp1, dtmp1);
357
358		l1 = lambda(m, v2, dv, vtmp2); /* first lambda */
359		if (l1 < 0)
360		continue;
361		/* compute second ray */
362	<	for (i = 0; i < 3; i++)
340	<	vtmp2[i] = sray.rdir[i] - dtmp1*vtmp1[i];
362	>	VSUM(vtmp2, sray.rdir, vtmp1, -dtmp1);
363
364		l2 = lambda(m, v2, dv, vtmp2); /* second lambda */
365		if (l2 < 0)
#	Line 370 \| Line 392 \| *lambda( / compute lambda for material /*
392
393		fcross(lrXdv, lr, dv);
394		for (i = 0; i < 3; i++)
395	<	if (lrXdv[i] > FTINY \|\| lrXdv[i] < -FTINY)
395	>	if ((lrXdv[i] > FTINY) \| (lrXdv[i] < -FTINY))
396		break;
397		if (i >= 3)
398		return(-1);

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Comparing ray/src/rt/dielectric.c (file contents): Revision 2.18 by schorsch, Tue Mar 30 16:13:01 2004 UTC vs. Revision 2.23 by greg, Wed Aug 7 05:10:09 2013 UTC

Diff Legend

Comparing ray/src/rt/dielectric.c (file contents):
Revision 2.18 by schorsch, Tue Mar 30 16:13:01 2004 UTC vs.
Revision 2.23 by greg, Wed Aug 7 05:10:09 2013 UTC