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

Comparing ray/src/rt/m_brdf.c (file contents):
Revision 2.6 by greg, Thu May 27 15:28:01 1993 UTC vs.
Revision 2.41 by greg, Fri Apr 5 01:10:26 2024 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1991 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		* Shading for materials with arbitrary BRDF's
6		*/
7
8	<	#include "ray.h"
8	>	#include "copyright.h"
9
10	+	#include "ray.h"
11	+	#include "ambient.h"
12		#include "data.h"
13	<
13	>	#include "source.h"
14		#include "otypes.h"
15	<
15	>	#include "rtotypes.h"
16		#include "func.h"
17	+	#include "pmapmat.h"
18
19		/*
20		* Arguments to this material include the color and specularity.
21		* String arguments include the reflection function and files.
22		* The BRDF is currently used just for the specular component to light
23		* sources. Reflectance values or data coordinates are functions
24	<	* of the direction to the light source.
24	>	* of the direction to the light source. (Data modification functions
25	>	* are passed the source direction as args 2-4.)
26		* We orient the surface towards the incoming ray, so a single
27		* surface can be used to represent an infinitely thin object.
28		*
#	Line 38 \| Line 39 \| static char SCCSid[] = "$SunId$ LBL";
39		* Arguments for MAT_TFUNC are:
40		* 2+ func funcfile transform
41		* 0
42	<	* 4+ red grn blu rspec trans tspec A7 ..
42	>	* 6+ red grn blu rspec trans tspec A7 ..
43		*
44		* Arguments for MAT_TDATA are:
45		* 4+ func datafile funcfile v0 .. transform
46		* 0
47	<	* 4+ red grn blu rspec trans tspec A7 ..
47	>	* 6+ red grn blu rspec trans tspec A7 ..
48		*
49		* Arguments for the more general MAT_BRTDF are:
50		* 10+ rrefl grefl brefl
#	Line 66 \| Line 67 \| typedef struct {
67		OBJREC mp; / material pointer */
68		RAY pr; / intersected ray */
69		DATARRAY dp; / data array for PDATA, MDATA or TDATA */
70	<	COLOR mcolor; /* material (or pattern) color */
71	<	COLOR rdiff; /* diffuse reflection */
72	<	COLOR tdiff; /* diffuse transmission */
70	>	SCOLOR mcolor; /* material (or pattern) color */
71	>	SCOLOR rdiff; /* diffuse reflection */
72	>	SCOLOR tdiff; /* diffuse transmission */
73		double rspec; /* specular reflectance (1 for BRDTF) */
74		double trans; /* transmissivity (.5 for BRDTF) */
75		double tspec; /* specular transmittance (1 for BRDTF) */
#	Line 77 \| Line 78 \| typedef struct {
78		} BRDFDAT; /* BRDF material data */
79
80
81	<	dirbrdf(cval, np, ldir, omega) /* compute source contribution */
82	<	COLOR cval; /* returned coefficient */
83	<	register BRDFDAT np; / material data */
84	<	FVECT ldir; /* light source direction */
85	<	double omega; /* light source size */
81	>	static int setbrdfunc(BRDFDAT *np);
82	>
83	>
84	>	static void
85	>	dirbrdf( /* compute source contribution */
86	>	SCOLOR scval, /* returned coefficient */
87	>	void nnp, / material data */
88	>	FVECT ldir, /* light source direction */
89	>	double omega /* light source size */
90	>	)
91		{
92	+	BRDFDAT *np = nnp;
93		double ldot;
94		double dtmp;
95	+	SCOLOR sctmp;
96		COLOR ctmp;
97		FVECT ldx;
98	<	double lddx[3], pt[MAXDIM];
99	<	register char **sa;
100	<	register int i;
98	>	static double vldx[5], pt[MAXDDIM];
99	>	char **sa;
100	>	int i;
101	>	#define lddx (vldx+1)
102
103	<	setcolor(cval, 0.0, 0.0, 0.0);
103	>	scolorblack(scval);
104
105		ldot = DOT(np->pnorm, ldir);
106
#	Line 107 \| Line 116 \| *double omega; / light source size /*
116		* color. The diffuse reflected component will always be
117		* modified by the color of the material.
118		*/
119	<	copycolor(ctmp, np->rdiff);
119	>	copyscolor(sctmp, np->rdiff);
120		dtmp = ldot * omega / PI;
121	<	scalecolor(ctmp, dtmp);
122	<	addcolor(cval, ctmp);
121	>	scalescolor(sctmp, dtmp);
122	>	saddscolor(scval, sctmp);
123		} else {
124		/*
125		* Diffuse transmitted component.
126		*/
127	<	copycolor(ctmp, np->tdiff);
127	>	copyscolor(sctmp, np->tdiff);
128		dtmp = -ldot * omega / PI;
129	<	scalecolor(ctmp, dtmp);
130	<	addcolor(cval, ctmp);
129	>	scalescolor(sctmp, dtmp);
130	>	saddscolor(scval, sctmp);
131		}
132	<	if (ldot > 0.0 ? np->rspec <= FTINY : np->tspec <= FTINY)
133	<	return; /* no specular component */
132	>	if ((ldot > 0.0 ? np->rspec <= FTINY : np->tspec <= FTINY) \|\|
133	>	ambRayInPmap(np->pr))
134	>	return; /* diffuse only */
135		/* set up function */
136		setbrdfunc(np);
137		sa = np->mp->oargs.sarg;
#	Line 130 \| Line 140 \| *double omega; / light source size /*
140		multv3(ldx, ldir, funcxf.xfm);
141		for (i = 0; i < 3; i++)
142		lddx[i] = ldx[i]/funcxf.sca;
143	+	lddx[3] = omega;
144		/* compute BRTDF */
145		if (np->mp->otype == MAT_BRTDF) {
146	<	if (sa[6][0] == '0') /* special case */
146	>	if (sa[6][0] == '0' && !sa[6][1]) /* special case */
147		colval(ctmp,RED) = 0.0;
148		else
149	<	colval(ctmp,RED) = funvalue(sa[6], 3, lddx);
150	<	if (!strcmp(sa[7],sa[6]))
149	>	colval(ctmp,RED) = funvalue(sa[6], 4, lddx);
150	>	if (sa[7][0] == '0' && !sa[7][1])
151	>	colval(ctmp,GRN) = 0.0;
152	>	else if (!strcmp(sa[7],sa[6]))
153		colval(ctmp,GRN) = colval(ctmp,RED);
154		else
155	<	colval(ctmp,GRN) = funvalue(sa[7], 3, lddx);
156	<	if (!strcmp(sa[8],sa[6]))
155	>	colval(ctmp,GRN) = funvalue(sa[7], 4, lddx);
156	>	if (sa[8][0] == '0' && !sa[8][1])
157	>	colval(ctmp,BLU) = 0.0;
158	>	else if (!strcmp(sa[8],sa[6]))
159		colval(ctmp,BLU) = colval(ctmp,RED);
160		else if (!strcmp(sa[8],sa[7]))
161		colval(ctmp,BLU) = colval(ctmp,GRN);
162		else
163	<	colval(ctmp,BLU) = funvalue(sa[8], 3, lddx);
163	>	colval(ctmp,BLU) = funvalue(sa[8], 4, lddx);
164		dtmp = bright(ctmp);
165		} else if (np->dp == NULL) {
166	<	dtmp = funvalue(sa[0], 3, lddx);
166	>	dtmp = funvalue(sa[0], 4, lddx);
167		setcolor(ctmp, dtmp, dtmp, dtmp);
168		} else {
169		for (i = 0; i < np->dp->nd; i++)
170	<	pt[i] = funvalue(sa[3+i], 3, lddx);
171	<	dtmp = datavalue(np->dp, pt);
172	<	dtmp = funvalue(sa[0], 1, &dtmp);
170	>	pt[i] = funvalue(sa[3+i], 4, lddx);
171	>	vldx[0] = datavalue(np->dp, pt);
172	>	dtmp = funvalue(sa[0], 5, vldx);
173		setcolor(ctmp, dtmp, dtmp, dtmp);
174		}
175	<	if (errno) {
175	>	if ((errno == EDOM) \| (errno == ERANGE)) {
176		objerror(np->mp, WARNING, "compute error");
177		return;
178		}
179		if (dtmp <= FTINY)
180		return;
181	+	setscolor(sctmp, colval(ctmp,RED), colval(ctmp,GRN), colval(ctmp,BLU));
182		if (ldot > 0.0) {
183		/*
184		* Compute reflected non-diffuse component.
185		*/
186	<	if (np->mp->otype == MAT_MFUNC \| np->mp->otype == MAT_MDATA)
187	<	multcolor(ctmp, np->mcolor);
186	>	if ((np->mp->otype == MAT_MFUNC) \| (np->mp->otype == MAT_MDATA))
187	>	smultscolor(sctmp, np->mcolor);
188		dtmp = ldot * omega * np->rspec;
189	<	scalecolor(ctmp, dtmp);
190	<	addcolor(cval, ctmp);
189	>	scalescolor(sctmp, dtmp);
190	>	saddscolor(scval, sctmp);
191		} else {
192		/*
193		* Compute transmitted non-diffuse component.
194		*/
195	<	if (np->mp->otype == MAT_TFUNC \| np->mp->otype == MAT_TDATA)
196	<	multcolor(ctmp, np->mcolor);
195	>	if ((np->mp->otype == MAT_TFUNC) \| (np->mp->otype == MAT_TDATA))
196	>	smultscolor(sctmp, np->mcolor);
197		dtmp = -ldot * omega * np->tspec;
198	<	scalecolor(ctmp, dtmp);
199	<	addcolor(cval, ctmp);
198	>	scalescolor(sctmp, dtmp);
199	>	saddscolor(scval, sctmp);
200		}
201	+	#undef lddx
202		}
203
204
205	<	m_brdf(m, r) /* color a ray which hit a BRDTF material */
206	<	register OBJREC *m;
207	<	register RAY *r;
205	>	int
206	>	m_brdf( /* color a ray that hit a BRDTfunc material */
207	>	OBJREC *m,
208	>	RAY *r
209	>	)
210		{
211	+	int hitfront = 1;
212		BRDFDAT nd;
213		RAY sr;
194	–	double transtest, transdist;
214		int hasrefl, hastrans;
215	<	COLOR ctmp;
216	<	double dtmp;
217	<	register MFUNC *mf;
218	<	register int i;
215	>	int hastexture;
216	>	SCOLOR sctmp;
217	>	FVECT vtmp;
218	>	double d;
219	>	MFUNC *mf;
220	>	int i;
221		/* check arguments */
222	<	if (m->oargs.nsargs < 10 \| m->oargs.nfargs < 9)
222	>	if ((m->oargs.nsargs < 10) \| (m->oargs.nfargs < 9))
223		objerror(m, USER, "bad # arguments");
224		nd.mp = m;
225		nd.pr = r;
#	Line 207 \| Line 228 \| *register RAY r;**
228		nd.trans = 0.5;
229		/* diffuse reflectance */
230		if (r->rod > 0.0)
231	<	setcolor(nd.rdiff, m->oargs.farg[0],
231	>	setscolor(nd.rdiff, m->oargs.farg[0],
232		m->oargs.farg[1],
233		m->oargs.farg[2]);
234		else
235	<	setcolor(nd.rdiff, m->oargs.farg[3],
235	>	setscolor(nd.rdiff, m->oargs.farg[3],
236		m->oargs.farg[4],
237		m->oargs.farg[5]);
238		/* diffuse transmittance */
239	<	setcolor(nd.tdiff, m->oargs.farg[6],
239	>	setscolor(nd.tdiff, m->oargs.farg[6],
240		m->oargs.farg[7],
241		m->oargs.farg[8]);
242	<	/* get modifiers */
242	>	/* get modifiers */
243		raytexture(r, m->omod);
244	<	nd.pdot = raynormal(nd.pnorm, r); /* perturb normal */
244	>	hastexture = (DOT(r->pert,r->pert) > FTINY*FTINY);
245	>	if (hastexture) { /* perturb normal */
246	>	nd.pdot = raynormal(nd.pnorm, r);
247	>	} else {
248	>	VCOPY(nd.pnorm, r->ron);
249	>	nd.pdot = r->rod;
250	>	}
251		if (r->rod < 0.0) { /* orient perturbed values */
252		nd.pdot = -nd.pdot;
253		for (i = 0; i < 3; i++) {
254		nd.pnorm[i] = -nd.pnorm[i];
255		r->pert[i] = -r->pert[i];
256		}
257	+	hitfront = 0;
258		}
259	<	copycolor(nd.mcolor, r->pcol); /* get pattern color */
260	<	multcolor(nd.rdiff, nd.mcolor); /* modify diffuse values */
261	<	multcolor(nd.tdiff, nd.mcolor);
262	<	hasrefl = bright(nd.rdiff) > FTINY;
263	<	hastrans = bright(nd.tdiff) > FTINY;
259	>	copyscolor(nd.mcolor, r->pcol); /* get pattern color */
260	>	smultscolor(nd.rdiff, nd.mcolor); /* modify diffuse values */
261	>	smultscolor(nd.tdiff, nd.mcolor);
262	>	hasrefl = (sintens(nd.rdiff) > FTINY);
263	>	hastrans = (sintens(nd.tdiff) > FTINY);
264		/* load cal file */
265		nd.dp = NULL;
266		mf = getfunc(m, 9, 0x3f, 0);
267		/* compute transmitted ray */
268		setbrdfunc(&nd);
241	–	transtest = 0;
269		errno = 0;
270	<	setcolor(ctmp, evalue(mf->ep[3]),
270	>	setscolor(sctmp, evalue(mf->ep[3]),
271		evalue(mf->ep[4]),
272		evalue(mf->ep[5]));
273	<	if (errno)
273	>	if ((errno == EDOM) \| (errno == ERANGE))
274		objerror(m, WARNING, "compute error");
275	<	else if (rayorigin(&sr, r, TRANS, bright(ctmp)) == 0) {
276	<	if (!(r->crtype & SHADOW) &&
277	<	DOT(r->pert,r->pert) > FTINY*FTINY) {
278	<	for (i = 0; i < 3; i++) /* perturb direction */
252	<	sr.rdir[i] = r->rdir[i] - .75*r->pert[i];
275	>	else if (rayorigin(&sr, TRANS, r, sctmp) == 0) {
276	>	if (hastexture && !(r->crtype & (SHADOW\|AMBIENT))) {
277	>	/* perturb direction */
278	>	VSUB(sr.rdir, r->rdir, r->pert);
279		if (normalize(sr.rdir) == 0.0) {
280		objerror(m, WARNING, "illegal perturbation");
281		VCOPY(sr.rdir, r->rdir);
282		}
283		} else {
284		VCOPY(sr.rdir, r->rdir);
259	–	transtest = 2;
285		}
286		rayvalue(&sr);
287	<	multcolor(sr.rcol, ctmp);
288	<	addcolor(r->rcol, sr.rcol);
289	<	transtest *= bright(sr.rcol);
290	<	transdist = r->rot + sr.rt;
287	>	smultscolor(sr.rcol, sr.rcoef);
288	>	saddscolor(r->rcol, sr.rcol);
289	>	if ((!hastexture \|\| r->crtype & (SHADOW\|AMBIENT)) &&
290	>	nd.tspec > pbright(nd.tdiff) + pbright(nd.rdiff))
291	>	r->rxt = r->rot + raydistance(&sr);
292		}
293		if (r->crtype & SHADOW) /* the rest is shadow */
294	<	return;
294	>	return(1);
295	>
296		/* compute reflected ray */
297		setbrdfunc(&nd);
298		errno = 0;
299	<	setcolor(ctmp, evalue(mf->ep[0]),
299	>	setscolor(sctmp, evalue(mf->ep[0]),
300		evalue(mf->ep[1]),
301		evalue(mf->ep[2]));
302	<	if (errno)
302	>	if ((errno == EDOM) \| (errno == ERANGE))
303		objerror(m, WARNING, "compute error");
304	<	else if (rayorigin(&sr, r, REFLECTED, bright(ctmp)) == 0) {
305	<	for (i = 0; i < 3; i++)
306	<	sr.rdir[i] = r->rdir[i] + 2.0nd.pdotnd.pnorm[i];
304	>	else if (rayorigin(&sr, REFLECTED, r, sctmp) == 0) {
305	>	VSUM(sr.rdir, r->rdir, nd.pnorm, 2.*nd.pdot);
306	>	checknorm(sr.rdir);
307		rayvalue(&sr);
308	<	multcolor(sr.rcol, ctmp);
309	<	addcolor(r->rcol, sr.rcol);
308	>	smultscolor(sr.rcol, sr.rcoef);
309	>	copyscolor(r->mcol, sr.rcol);
310	>	saddscolor(r->rcol, sr.rcol);
311	>	r->rmt = r->rot;
312	>	if (r->ro != NULL && isflat(r->ro->otype) &&
313	>	!hastexture \| (r->crtype & AMBIENT))
314	>	r->rmt += raydistance(&sr);
315		}
316		/* compute ambient */
317		if (hasrefl) {
318	<	if (nd.pdot < 0.0)
319	<	flipsurface(r);
320	<	ambient(ctmp, r);
289	<	multcolor(ctmp, nd.rdiff);
290	<	addcolor(r->rcol, ctmp); /* add to returned color */
291	<	if (nd.pdot < 0.0)
292	<	flipsurface(r);
318	>	copyscolor(sctmp, nd.rdiff);
319	>	multambient(sctmp, r, nd.pnorm);
320	>	saddscolor(r->rcol, sctmp); /* add to returned color */
321		}
322		if (hastrans) { /* from other side */
323	<	if (nd.pdot > 0.0)
324	<	flipsurface(r);
325	<	ambient(ctmp, r);
326	<	multcolor(ctmp, nd.tdiff);
327	<	addcolor(r->rcol, ctmp);
328	<	if (nd.pdot > 0.0)
301	<	flipsurface(r);
323	>	vtmp[0] = -nd.pnorm[0];
324	>	vtmp[1] = -nd.pnorm[1];
325	>	vtmp[2] = -nd.pnorm[2];
326	>	copyscolor(sctmp, nd.tdiff);
327	>	multambient(sctmp, r, vtmp);
328	>	saddscolor(r->rcol, sctmp);
329		}
330		if (hasrefl \| hastrans \|\| m->oargs.sarg[6][0] != '0')
331		direct(r, dirbrdf, &nd); /* add direct component */
332	<	/* check distance */
333	<	if (transtest > bright(r->rcol))
307	<	r->rt = transdist;
332	>
333	>	return(1);
334		}
335
336
337
338	<	m_brdf2(m, r) /* color a ray which hit a BRDF material */
339	<	register OBJREC *m;
340	<	register RAY *r;
338	>	int
339	>	m_brdf2( /* color a ray that hit a BRDF material */
340	>	OBJREC *m,
341	>	RAY *r
342	>	)
343		{
344		BRDFDAT nd;
345	<	COLOR ctmp;
345	>	SCOLOR sctmp;
346	>	FVECT vtmp;
347		double dtmp;
348		/* always a shadow */
349		if (r->crtype & SHADOW)
350	<	return;
350	>	return(1);
351		/* check arguments */
352	<	if (m->oargs.nsargs < (hasdata(m->otype)?4:2) \| m->oargs.nfargs <
353	<	(m->otype==MAT_TFUNC\|m->otype==MAT_TDATA?6:4))
352	>	if ((m->oargs.nsargs < (hasdata(m->otype)?4:2)) \| (m->oargs.nfargs <
353	>	((m->otype==MAT_TFUNC)\|(m->otype==MAT_TDATA)?6:4)))
354		objerror(m, USER, "bad # arguments");
355	+	/* check for back side */
356	+	if (r->rod < 0.0) {
357	+	if (!backvis) {
358	+	raytrans(r);
359	+	return(1);
360	+	}
361	+	raytexture(r, m->omod);
362	+	flipsurface(r); /* reorient if backvis */
363	+	} else
364	+	raytexture(r, m->omod);
365	+
366		nd.mp = m;
367		nd.pr = r;
368		/* get material color */
369	<	setcolor(nd.mcolor, m->oargs.farg[0],
369	>	setscolor(nd.mcolor, m->oargs.farg[0],
370		m->oargs.farg[1],
371		m->oargs.farg[2]);
372		/* get specular component */
373		nd.rspec = m->oargs.farg[3];
374		/* compute transmittance */
375	<	if (m->otype == MAT_TFUNC \| m->otype == MAT_TDATA) {
375	>	if ((m->otype == MAT_TFUNC) \| (m->otype == MAT_TDATA)) {
376		nd.trans = m->oargs.farg[4]*(1.0 - nd.rspec);
377		nd.tspec = nd.trans * m->oargs.farg[5];
378		dtmp = nd.trans - nd.tspec;
379	<	setcolor(nd.tdiff, dtmp, dtmp, dtmp);
379	>	setscolor(nd.tdiff, dtmp, dtmp, dtmp);
380		} else {
381		nd.tspec = nd.trans = 0.0;
382	<	setcolor(nd.tdiff, 0.0, 0.0, 0.0);
382	>	scolorblack(nd.tdiff);
383		}
384		/* compute reflectance */
385		dtmp = 1.0 - nd.trans - nd.rspec;
386	<	setcolor(nd.rdiff, dtmp, dtmp, dtmp);
347	<	/* fix orientation */
348	<	if (r->rod < 0.0)
349	<	flipsurface(r);
350	<	/* get modifiers */
351	<	raytexture(r, m->omod);
386	>	setscolor(nd.rdiff, dtmp, dtmp, dtmp);
387		nd.pdot = raynormal(nd.pnorm, r); /* perturb normal */
388	<	multcolor(nd.mcolor, r->pcol); /* modify material color */
389	<	multcolor(nd.rdiff, nd.mcolor);
390	<	multcolor(nd.tdiff, nd.mcolor);
388	>	smultscolor(nd.mcolor, r->pcol); /* modify material color */
389	>	smultscolor(nd.rdiff, nd.mcolor);
390	>	smultscolor(nd.tdiff, nd.mcolor);
391		/* load auxiliary files */
392		if (hasdata(m->otype)) {
393		nd.dp = getdata(m->oargs.sarg[1]);
#	Line 363 \| Line 398 \| *register RAY r;**
398		}
399		/* compute ambient */
400		if (nd.trans < 1.0-FTINY) {
401	<	ambient(ctmp, r);
402	<	scalecolor(ctmp, 1.0-nd.trans);
403	<	multcolor(ctmp, nd.mcolor); /* modified by material color */
404	<	addcolor(r->rcol, ctmp); /* add to returned color */
401	>	copyscolor(sctmp, nd.mcolor); /* modified by material color */
402	>	scalescolor(sctmp, 1.0-nd.trans);
403	>	multambient(sctmp, r, nd.pnorm);
404	>	saddscolor(r->rcol, sctmp); /* add to returned color */
405		}
406	<	if (nd.trans > FTINY) { /* from other side */
407	<	flipsurface(r);
408	<	ambient(ctmp, r);
409	<	scalecolor(ctmp, nd.trans);
410	<	multcolor(ctmp, nd.mcolor);
411	<	addcolor(r->rcol, ctmp);
412	<	flipsurface(r);
406	>	if (nd.trans > FTINY) { /* from other side */
407	>	vtmp[0] = -nd.pnorm[0];
408	>	vtmp[1] = -nd.pnorm[1];
409	>	vtmp[2] = -nd.pnorm[2];
410	>	copyscolor(sctmp, nd.mcolor);
411	>	scalescolor(sctmp, nd.trans);
412	>	multambient(sctmp, r, vtmp);
413	>	saddscolor(r->rcol, sctmp);
414		}
415		/* add direct component */
416		direct(r, dirbrdf, &nd);
417	+
418	+	return(1);
419		}
420
421
422	<	setbrdfunc(np) /* set up brdf function and variables */
423	<	register BRDFDAT *np;
422	>	static int
423	>	setbrdfunc( /* set up brdf function and variables */
424	>	BRDFDAT *np
425	>	)
426		{
427		FVECT vec;
428	+	COLOR ctmp;
429
430		if (setfunc(np->mp, np->pr) == 0)
431		return(0); /* it's OK, setfunc says we're done */
432		/* else (re)assign special variables */
433		multv3(vec, np->pnorm, funcxf.xfm);
434	<	varset("NxP", '=', vec[0]/funcxf.sca);
435	<	varset("NyP", '=', vec[1]/funcxf.sca);
436	<	varset("NzP", '=', vec[2]/funcxf.sca);
437	<	varset("RdotP", '=', np->pdot <= -1.0 ? -1.0 :
434	>	varset("NxP`", '=', vec[0]/funcxf.sca);
435	>	varset("NyP`", '=', vec[1]/funcxf.sca);
436	>	varset("NzP`", '=', vec[2]/funcxf.sca);
437	>	varset("RdotP`", '=', np->pdot <= -1.0 ? -1.0 :
438		np->pdot >= 1.0 ? 1.0 : np->pdot);
439	<	varset("CrP", '=', colval(np->mcolor,RED));
440	<	varset("CgP", '=', colval(np->mcolor,GRN));
441	<	varset("CbP", '=', colval(np->mcolor,BLU));
439	>	scolor_color(ctmp, np->mcolor); /* should use scolor_rgb()? */
440	>	varset("CrP", '=', colval(ctmp,RED));
441	>	varset("CgP", '=', colval(ctmp,GRN));
442	>	varset("CbP", '=', colval(ctmp,BLU));
443		return(1);
444		}

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Comparing ray/src/rt/m_brdf.c (file contents): Revision 2.6 by greg, Thu May 27 15:28:01 1993 UTC vs. Revision 2.41 by greg, Fri Apr 5 01:10:26 2024 UTC

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Comparing ray/src/rt/m_brdf.c (file contents):
Revision 2.6 by greg, Thu May 27 15:28:01 1993 UTC vs.
Revision 2.41 by greg, Fri Apr 5 01:10:26 2024 UTC