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

Comparing ray/src/rt/normal.c (file contents):
Revision 2.29 by greg, Fri Sep 15 15:47:30 1995 UTC vs.
Revision 2.46 by greg, Thu Aug 28 03:22:16 2003 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1992 Regents of the University of California */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ LBL";
2	>	static const char RCSid[] = "$Id$";
3		#endif
6	–
4		/*
5		* normal.c - shading function for normal materials.
6		*
#	Line 14 \| Line 11 \| static char SCCSid[] = "$SunId$ LBL";
11		* Later changes described in delta comments.
12		*/
13
14	+	#include "copyright.h"
15	+
16		#include "ray.h"
17
18	+	#include "ambient.h"
19	+
20		#include "otypes.h"
21
22		#include "random.h"
23
24	<	extern double specthresh; /* specular sampling threshold */
25	<	extern double specjitter; /* specular sampling jitter */
24	>	#ifndef MAXITER
25	>	#define MAXITER 10 /* maximum # specular ray attempts */
26	>	#endif
27	>	/* estimate of Fresnel function */
28	>	#define FRESNE(ci) (exp(-5.85*(ci)) - 0.00287989916)
29
30	<	extern int backvis; /* back faces visible? */
30	>	static void gaussamp();
31
28	–	static gaussamp();
29	–
32		/*
33		* This routine implements the isotropic Gaussian
34		* model described by Ward in Siggraph `92 article.
#	Line 65 \| Line 67 \| typedef struct {
67		} NORMDAT; /* normal material data */
68
69
70	+	static void
71		dirnorm(cval, np, ldir, omega) /* compute source contribution */
72		COLOR cval; /* returned coefficient */
73		register NORMDAT np; / material data */
#	Line 72 \| Line 75 \| *FVECT ldir; / light source direction /*
75		double omega; /* light source size */
76		{
77		double ldot;
78	+	double ldiff;
79		double dtmp, d2;
80		FVECT vtmp;
81		COLOR ctmp;
#	Line 83 \| Line 87 \| *double omega; / light source size /*
87		if (ldot < 0.0 ? np->trans <= FTINY : np->trans >= 1.0-FTINY)
88		return; /* wrong side */
89
90	<	if (ldot > FTINY && np->rdiff > FTINY) {
90	>	/* Fresnel estimate */
91	>	ldiff = np->rdiff;
92	>	if (np->specfl & SP_PURE && (np->rspec > FTINY) & (ldiff > FTINY))
93	>	ldiff *= 1. - FRESNE(fabs(ldot));
94	>
95	>	if (ldot > FTINY && ldiff > FTINY) {
96		/*
97		* Compute and add diffuse reflected component to returned
98		* color. The diffuse reflected component will always be
99		* modified by the color of the material.
100		*/
101		copycolor(ctmp, np->mcolor);
102	<	dtmp = ldot * omega * np->rdiff / PI;
102	>	dtmp = ldot * omega * ldiff / PI;
103		scalecolor(ctmp, dtmp);
104		addcolor(cval, ctmp);
105		}
#	Line 150 \| Line 159 \| *double omega; / light source size /*
159		}
160
161
162	+	int
163		m_normal(m, r) /* color a ray that hit something normal */
164		register OBJREC *m;
165		register RAY *r;
166		{
167		NORMDAT nd;
168	+	double fest;
169		double transtest, transdist;
170		double mirtest, mirdist;
171		int hastexture;
#	Line 173 \| Line 184 \| *register RAY r;**
184		raytrans(r);
185		return(1);
186		}
187	+	raytexture(r, m->omod);
188		flipsurface(r); /* reorient if backvis */
189	<	}
189	>	} else
190	>	raytexture(r, m->omod);
191		nd.mp = m;
192		nd.rp = r;
193		/* get material color */
#	Line 186 \| Line 199 \| *register RAY r;**
199		nd.alpha2 = m->oargs.farg[4];
200		if ((nd.alpha2 *= nd.alpha2) <= FTINY)
201		nd.specfl \|= SP_PURE;
202	<	if (r->ro != NULL && isflat(r->ro->otype))
203	<	nd.specfl \|= SP_FLAT;
191	<	/* get modifiers */
192	<	raytexture(r, m->omod);
193	<	if (hastexture = DOT(r->pert,r->pert) > FTINY*FTINY)
202	>
203	>	if ( (hastexture = (DOT(r->pert,r->pert) > FTINY*FTINY)) ) {
204		nd.pdot = raynormal(nd.pnorm, r); /* perturb normal */
205	<	else {
205	>	} else {
206		VCOPY(nd.pnorm, r->ron);
207		nd.pdot = r->rod;
208		}
209	+	if (r->ro != NULL && isflat(r->ro->otype))
210	+	nd.specfl \|= SP_FLAT;
211		if (nd.pdot < .001)
212		nd.pdot = .001; /* non-zero for dirnorm() */
213		multcolor(nd.mcolor, r->pcol); /* modify material color */
214		mirtest = transtest = 0;
215		mirdist = transdist = r->rot;
216	<	/* get specular component */
217	<	if ((nd.rspec = m->oargs.farg[3]) > FTINY) {
218	<	nd.specfl \|= SP_REFL;
219	<	/* compute specular color */
220	<	if (m->otype == MAT_METAL)
221	<	copycolor(nd.scolor, nd.mcolor);
222	<	else
211	<	setcolor(nd.scolor, 1.0, 1.0, 1.0);
212	<	scalecolor(nd.scolor, nd.rspec);
213	<	/* check threshold */
214	<	if (!(nd.specfl & SP_PURE) && specthresh >= nd.rspec-FTINY)
215	<	nd.specfl \|= SP_RBLT;
216	<	/* compute reflected ray */
217	<	for (i = 0; i < 3; i++)
218	<	nd.vrefl[i] = r->rdir[i] + 2.nd.pdotnd.pnorm[i];
219	<	/* penetration? */
220	<	if (hastexture && DOT(nd.vrefl, r->ron) <= FTINY)
221	<	for (i = 0; i < 3; i++) /* safety measure */
222	<	nd.vrefl[i] = r->rdir[i] + 2.r->rodr->ron[i];
223	<
224	<	if (!(r->crtype & SHADOW) && nd.specfl & SP_PURE) {
225	<	RAY lr;
226	<	if (rayorigin(&lr, r, REFLECTED, nd.rspec) == 0) {
227	<	VCOPY(lr.rdir, nd.vrefl);
228	<	rayvalue(&lr);
229	<	multcolor(lr.rcol, nd.scolor);
230	<	addcolor(r->rcol, lr.rcol);
231	<	if (!hastexture && nd.specfl & SP_FLAT) {
232	<	mirtest = 2.*bright(lr.rcol);
233	<	mirdist = r->rot + lr.rt;
234	<	}
235	<	}
236	<	}
237	<	}
216	>	nd.rspec = m->oargs.farg[3];
217	>	/* compute Fresnel approx. */
218	>	if (nd.specfl & SP_PURE && nd.rspec > FTINY) {
219	>	fest = FRESNE(r->rod);
220	>	nd.rspec += fest*(1. - nd.rspec);
221	>	} else
222	>	fest = 0.;
223		/* compute transmission */
224		if (m->otype == MAT_TRANS) {
225		nd.trans = m->oargs.farg[5]*(1.0 - nd.rspec);
#	Line 261 \| Line 246 \| *register RAY r;**
246		} else
247		nd.tdiff = nd.tspec = nd.trans = 0.0;
248		/* transmitted ray */
249	<	if ((nd.specfl&(SP_TRAN\|SP_PURE)) == (SP_TRAN\|SP_PURE)) {
249	>	if ((nd.specfl&(SP_TRAN\|SP_PURE\|SP_TBLT)) == (SP_TRAN\|SP_PURE)) {
250		RAY lr;
251		if (rayorigin(&lr, r, TRANS, nd.tspec) == 0) {
252		VCOPY(lr.rdir, nd.prdir);
#	Line 279 \| Line 264 \| *register RAY r;**
264		r->rt = transdist;
265		return(1);
266		}
267	+	/* get specular reflection */
268	+	if (nd.rspec > FTINY) {
269	+	nd.specfl \|= SP_REFL;
270	+	/* compute specular color */
271	+	if (m->otype != MAT_METAL) {
272	+	setcolor(nd.scolor, nd.rspec, nd.rspec, nd.rspec);
273	+	} else if (fest > FTINY) {
274	+	d = nd.rspec*(1. - fest);
275	+	for (i = 0; i < 3; i++)
276	+	nd.scolor[i] = fest + nd.mcolor[i]*d;
277	+	} else {
278	+	copycolor(nd.scolor, nd.mcolor);
279	+	scalecolor(nd.scolor, nd.rspec);
280	+	}
281	+	/* check threshold */
282	+	if (!(nd.specfl & SP_PURE) && specthresh >= nd.rspec-FTINY)
283	+	nd.specfl \|= SP_RBLT;
284	+	/* compute reflected ray */
285	+	for (i = 0; i < 3; i++)
286	+	nd.vrefl[i] = r->rdir[i] + 2.nd.pdotnd.pnorm[i];
287	+	/* penetration? */
288	+	if (hastexture && DOT(nd.vrefl, r->ron) <= FTINY)
289	+	for (i = 0; i < 3; i++) /* safety measure */
290	+	nd.vrefl[i] = r->rdir[i] + 2.r->rodr->ron[i];
291	+	}
292	+	/* reflected ray */
293	+	if ((nd.specfl&(SP_REFL\|SP_PURE\|SP_RBLT)) == (SP_REFL\|SP_PURE)) {
294	+	RAY lr;
295	+	if (rayorigin(&lr, r, REFLECTED, nd.rspec) == 0) {
296	+	VCOPY(lr.rdir, nd.vrefl);
297	+	rayvalue(&lr);
298	+	multcolor(lr.rcol, nd.scolor);
299	+	addcolor(r->rcol, lr.rcol);
300	+	if (!hastexture && nd.specfl & SP_FLAT) {
301	+	mirtest = 2.*bright(lr.rcol);
302	+	mirdist = r->rot + lr.rt;
303	+	}
304	+	}
305	+	}
306		/* diffuse reflection */
307		nd.rdiff = 1.0 - nd.trans - nd.rspec;
308
309		if (nd.specfl & SP_PURE && nd.rdiff <= FTINY && nd.tdiff <= FTINY)
310		return(1); /* 100% pure specular */
311
312	<	if (nd.specfl & (SP_REFL\|SP_TRAN) && !(nd.specfl & SP_PURE))
313	<	gaussamp(r, &nd);
312	>	if (!(nd.specfl & SP_PURE))
313	>	gaussamp(r, &nd); /* checks BLT flags /
314
315		if (nd.rdiff > FTINY) { /* ambient from this side */
316	<	ambient(ctmp, r);
316	>	ambient(ctmp, r, hastexture?nd.pnorm:r->ron);
317		if (nd.specfl & SP_RBLT)
318		scalecolor(ctmp, 1.0-nd.trans);
319		else
#	Line 299 \| Line 323 \| *register RAY r;**
323		}
324		if (nd.tdiff > FTINY) { /* ambient from other side */
325		flipsurface(r);
326	<	ambient(ctmp, r);
326	>	if (hastexture) {
327	>	FVECT bnorm;
328	>	bnorm[0] = -nd.pnorm[0];
329	>	bnorm[1] = -nd.pnorm[1];
330	>	bnorm[2] = -nd.pnorm[2];
331	>	ambient(ctmp, r, bnorm);
332	>	} else
333	>	ambient(ctmp, r, r->ron);
334		if (nd.specfl & SP_TBLT)
335		scalecolor(ctmp, nd.trans);
336		else
#	Line 321 \| Line 352 \| *register RAY r;**
352		}
353
354
355	<	static
355	>	static void
356		gaussamp(r, np) /* sample gaussian specular */
357		RAY *r;
358		register NORMDAT *np;
#	Line 330 \| Line 361 \| *register NORMDAT np;**
361		FVECT u, v, h;
362		double rv[2];
363		double d, sinp, cosp;
364	+	int niter;
365		register int i;
366		/* quick test */
367		if ((np->specfl & (SP_REFL\|SP_RBLT)) != SP_REFL &&
#	Line 348 \| Line 380 \| *register NORMDAT np;**
380		if ((np->specfl & (SP_REFL\|SP_RBLT)) == SP_REFL &&
381		rayorigin(&sr, r, SPECULAR, np->rspec) == 0) {
382		dimlist[ndims++] = (int)np->mp;
383	<	d = urand(ilhash(dimlist,ndims)+samplendx);
384	<	multisamp(rv, 2, d);
385	<	d = 2.0PI rv[0];
386	<	cosp = cos(d);
387	<	sinp = sin(d);
388	<	rv[1] = 1.0 - specjitter*rv[1];
389	<	if (rv[1] <= FTINY)
390	<	d = 1.0;
391	<	else
392	<	d = sqrt( np->alpha2 * -log(rv[1]) );
393	<	for (i = 0; i < 3; i++)
394	<	h[i] = np->pnorm[i] + d(cospu[i] + sinp*v[i]);
395	<	d = -2.0 * DOT(h, r->rdir) / (1.0 + d*d);
396	<	for (i = 0; i < 3; i++)
397	<	sr.rdir[i] = r->rdir[i] + d*h[i];
398	<	if (DOT(sr.rdir, r->ron) <= FTINY)
399	<	VCOPY(sr.rdir, np->vrefl); /* jitter no good */
400	<	rayvalue(&sr);
401	<	multcolor(sr.rcol, np->scolor);
402	<	addcolor(r->rcol, sr.rcol);
383	>	for (niter = 0; niter < MAXITER; niter++) {
384	>	if (niter)
385	>	d = frandom();
386	>	else
387	>	d = urand(ilhash(dimlist,ndims)+samplendx);
388	>	multisamp(rv, 2, d);
389	>	d = 2.0PI rv[0];
390	>	cosp = tcos(d);
391	>	sinp = tsin(d);
392	>	rv[1] = 1.0 - specjitter*rv[1];
393	>	if (rv[1] <= FTINY)
394	>	d = 1.0;
395	>	else
396	>	d = sqrt( np->alpha2 * -log(rv[1]) );
397	>	for (i = 0; i < 3; i++)
398	>	h[i] = np->pnorm[i] + d(cospu[i] + sinp*v[i]);
399	>	d = -2.0 * DOT(h, r->rdir) / (1.0 + d*d);
400	>	for (i = 0; i < 3; i++)
401	>	sr.rdir[i] = r->rdir[i] + d*h[i];
402	>	if (DOT(sr.rdir, r->ron) > FTINY) {
403	>	rayvalue(&sr);
404	>	multcolor(sr.rcol, np->scolor);
405	>	addcolor(r->rcol, sr.rcol);
406	>	break;
407	>	}
408	>	}
409		ndims--;
410		}
411		/* compute transmission */
412		if ((np->specfl & (SP_TRAN\|SP_TBLT)) == SP_TRAN &&
413		rayorigin(&sr, r, SPECULAR, np->tspec) == 0) {
414		dimlist[ndims++] = (int)np->mp;
415	<	d = urand(ilhash(dimlist,ndims)+1823+samplendx);
416	<	multisamp(rv, 2, d);
417	<	d = 2.0PI rv[0];
418	<	cosp = cos(d);
419	<	sinp = sin(d);
420	<	rv[1] = 1.0 - specjitter*rv[1];
421	<	if (rv[1] <= FTINY)
422	<	d = 1.0;
423	<	else
424	<	d = sqrt( -log(rv[1]) * np->alpha2 );
425	<	for (i = 0; i < 3; i++)
426	<	sr.rdir[i] = np->prdir[i] + d(cospu[i] + sinp*v[i]);
427	<	if (DOT(sr.rdir, r->ron) < -FTINY)
428	<	normalize(sr.rdir); /* OK, normalize */
429	<	else
430	<	VCOPY(sr.rdir, np->prdir); /* else no jitter */
431	<	rayvalue(&sr);
432	<	scalecolor(sr.rcol, np->tspec);
433	<	multcolor(sr.rcol, np->mcolor); /* modified by color */
434	<	addcolor(r->rcol, sr.rcol);
415	>	for (niter = 0; niter < MAXITER; niter++) {
416	>	if (niter)
417	>	d = frandom();
418	>	else
419	>	d = urand(ilhash(dimlist,ndims)+1823+samplendx);
420	>	multisamp(rv, 2, d);
421	>	d = 2.0PI rv[0];
422	>	cosp = tcos(d);
423	>	sinp = tsin(d);
424	>	rv[1] = 1.0 - specjitter*rv[1];
425	>	if (rv[1] <= FTINY)
426	>	d = 1.0;
427	>	else
428	>	d = sqrt( np->alpha2 * -log(rv[1]) );
429	>	for (i = 0; i < 3; i++)
430	>	sr.rdir[i] = np->prdir[i] + d(cospu[i] + sinp*v[i]);
431	>	if (DOT(sr.rdir, r->ron) < -FTINY) {
432	>	normalize(sr.rdir); /* OK, normalize */
433	>	rayvalue(&sr);
434	>	scalecolor(sr.rcol, np->tspec);
435	>	multcolor(sr.rcol, np->mcolor); /* modified */
436	>	addcolor(r->rcol, sr.rcol);
437	>	break;
438	>	}
439	>	}
440		ndims--;
441		}
442		}

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing ray/src/rt/normal.c (file contents): Revision 2.29 by greg, Fri Sep 15 15:47:30 1995 UTC vs. Revision 2.46 by greg, Thu Aug 28 03:22:16 2003 UTC

Diff Legend

Comparing ray/src/rt/normal.c (file contents):
Revision 2.29 by greg, Fri Sep 15 15:47:30 1995 UTC vs.
Revision 2.46 by greg, Thu Aug 28 03:22:16 2003 UTC