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

Comparing ray/src/rt/raytrace.c (file contents):
Revision 2.33 by gwlarson, Tue Sep 15 09:52:39 1998 UTC vs.
Revision 2.56 by greg, Mon Aug 22 21:54:41 2005 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1998 Silicon Graphics, Inc. */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ SGI";
2	>	static const char RCSid[] = "$Id$";
3		#endif
6	–
4		/*
5		* raytrace.c - routines for tracing and shading rays.
6		*
7	<	* 8/7/85
7	>	* External symbols declared in ray.h
8		*/
9
10	<	#include "ray.h"
10	>	#include "copyright.h"
11
12	<	#include "octree.h"
13	<
12	>	#include "ray.h"
13	>	#include "source.h"
14		#include "otypes.h"
18	–
15		#include "otspecial.h"
16	+	#include "random.h"
17
18		#define MAXCSET ((MAXSET+1)2-1) / maximum check set size */
19
23	–	extern CUBE thescene; /* our scene */
24	–	extern int maxdepth; /* maximum recursion depth */
25	–	extern double minweight; /* minimum ray weight */
26	–	extern int do_irrad; /* compute irradiance? */
27	–	extern COLOR ambval; /* ambient value */
28	–
29	–	extern COLOR cextinction; /* global extinction coefficient */
30	–	extern COLOR salbedo; /* global scattering albedo */
31	–	extern double seccg; /* global scattering eccentricity */
32	–	extern double ssampdist; /* scatter sampling distance */
33	–
20		unsigned long raynum = 0; /* next unique ray number */
21		unsigned long nrays = 0; /* number of calls to localhit */
22
23	<	static FLOAT Lambfa[5] = {PI, PI, PI, 0.0, 0.0};
23	>	static RREAL Lambfa[5] = {PI, PI, PI, 0.0, 0.0};
24		OBJREC Lamb = {
25		OVOID, MAT_PLASTIC, "Lambertian",
26		{0, 5, NULL, Lambfa}, NULL,
#	Line 42 \| Line 28 \| OBJREC Lamb = {
28
29		OBJREC Aftplane; /* aft clipping plane object */
30
45	–	static int raymove(), checkset(), checkhit();
46	–
47	–	#ifndef MAXLOOP
48	–	#define MAXLOOP 0 /* modifier loop detection */
49	–	#endif
50	–
31		#define RAYHIT (-1) /* return value for intercepted ray */
32
33	+	static int raymove(FVECT pos, OBJECT cxs, int dirf, RAY r, CUBE *cu);
34	+	static int checkhit(RAY r, CUBE cu, OBJECT *cxs);
35	+	static void checkset(OBJECT os, OBJECT cs);
36
54	–	rayorigin(r, ro, rt, rw) /* start new ray from old one */
55	–	register RAY r, ro;
56	–	int rt;
57	–	double rw;
58	–	{
59	–	double re;
37
38	+	extern int
39	+	rayorigin( /* start new ray from old one */
40	+	RAY *r,
41	+	int rt,
42	+	const RAY *ro,
43	+	const COLOR rc
44	+	)
45	+	{
46	+	double rw, re;
47	+	/* assign coefficient/weight */
48	+	if (rc == NULL) {
49	+	rw = 1.0;
50	+	setcolor(r->rcoef, 1., 1., 1.);
51	+	} else {
52	+	rw = intens(rc);
53	+	if (rc != r->rcoef)
54	+	copycolor(r->rcoef, rc);
55	+	}
56		if ((r->parent = ro) == NULL) { /* primary ray */
57		r->rlvl = 0;
58		r->rweight = rw;
#	Line 70 \| Line 65 \| double rw;
65		r->gecc = seccg;
66		r->slights = NULL;
67		} else { /* spawned ray */
68	+	if (ro->rot >= FHUGE) {
69	+	memset(r, 0, sizeof(RAY));
70	+	return(-1); /* illegal continuation */
71	+	}
72		r->rlvl = ro->rlvl;
73		if (rt & RAYREFL) {
74		r->rlvl++;
#	Line 89 \| Line 88 \| double rw;
88		r->crtype = ro->crtype \| (r->rtype = rt);
89		VCOPY(r->rorg, ro->rop);
90		r->rweight = ro->rweight * rw;
91	<	/* estimate absorption */
91	>	/* estimate extinction */
92		re = colval(ro->cext,RED) < colval(ro->cext,GRN) ?
93		colval(ro->cext,RED) : colval(ro->cext,GRN);
94		if (colval(ro->cext,BLU) < re) re = colval(ro->cext,BLU);
95	<	if (re > 0.)
96	<	r->rweight = exp(-rero->rot);
95	>	re *= ro->rot;
96	>	if (re > 0.1)
97	>	if (re > 92.)
98	>	r->rweight = 0.0;
99	>	else
100	>	r->rweight *= exp(-re);
101		}
102		rayclear(r);
103	<	return(r->rlvl <= maxdepth && r->rweight >= minweight ? 0 : -1);
103	>	if (r->rweight <= 0.0) /* check for expiration */
104	>	return(-1);
105	>	if (r->crtype & SHADOW) /* shadow commitment */
106	>	return(0);
107	>	if (maxdepth <= 0 && rc != NULL) { /* Russian roulette */
108	>	if (minweight <= 0.0)
109	>	error(USER, "zero ray weight in Russian roulette");
110	>	if (maxdepth < 0 && r->rlvl > -maxdepth)
111	>	return(-1); /* upper reflection limit */
112	>	if (r->rweight >= minweight)
113	>	return(0);
114	>	if (frandom() > r->rweight/minweight)
115	>	return(-1);
116	>	rw = minweight/r->rweight; /* promote survivor */
117	>	scalecolor(r->rcoef, rw);
118	>	r->rweight = minweight;
119	>	return(0);
120	>	}
121	>	return(r->rlvl <= abs(maxdepth) && r->rweight >= minweight ? 0 : -1);
122		}
123
124
125	<	rayclear(r) /* clear a ray for (re)evaluation */
126	<	register RAY *r;
125	>	extern void
126	>	rayclear( /* clear a ray for (re)evaluation */
127	>	register RAY *r
128	>	)
129		{
130		r->rno = raynum++;
131		r->newcset = r->clipset;
132	+	r->hitf = rayhit;
133		r->robj = OVOID;
134		r->ro = NULL;
135	+	r->rox = NULL;
136		r->rt = r->rot = FHUGE;
137		r->pert[0] = r->pert[1] = r->pert[2] = 0.0;
138	+	r->uv[0] = r->uv[1] = 0.0;
139		setcolor(r->pcol, 1.0, 1.0, 1.0);
140		setcolor(r->rcol, 0.0, 0.0, 0.0);
141		}
142
143
144	<	raytrace(r) /* trace a ray and compute its value */
145	<	RAY *r;
144	>	extern void
145	>	raytrace( /* trace a ray and compute its value */
146	>	RAY *r
147	>	)
148		{
121	–	extern int (*trace)();
122	–
149		if (localhit(r, &thescene))
150		raycont(r); /* hit local surface, evaluate */
151		else if (r->ro == &Aftplane) {
#	Line 128 \| Line 154 \| *RAY r;**
154		} else if (sourcehit(r))
155		rayshade(r, r->ro->omod); /* distant source */
156
131	–	rayparticipate(r); /* for participating medium */
132	–
157		if (trace != NULL)
158		(trace)(r); / trace execution */
159	+
160	+	rayparticipate(r); /* for participating medium */
161		}
162
163
164	<	raycont(r) /* check for clipped object and continue */
165	<	register RAY *r;
164	>	extern void
165	>	raycont( /* check for clipped object and continue */
166	>	register RAY *r
167	>	)
168		{
169		if ((r->clipset != NULL && inset(r->clipset, r->ro->omod)) \|\|
170		!rayshade(r, r->ro->omod))
#	Line 144 \| Line 172 \| *register RAY r;**
172		}
173
174
175	<	raytrans(r) /* transmit ray as is */
176	<	register RAY *r;
175	>	extern void
176	>	raytrans( /* transmit ray as is */
177	>	register RAY *r
178	>	)
179		{
180		RAY tr;
181
182	<	if (rayorigin(&tr, r, TRANS, 1.0) == 0) {
182	>	if (rayorigin(&tr, TRANS, r, NULL) == 0) {
183		VCOPY(tr.rdir, r->rdir);
184		rayvalue(&tr);
185		copycolor(r->rcol, tr.rcol);
#	Line 158 \| Line 188 \| *register RAY r;**
188		}
189
190
191	<	rayshade(r, mod) /* shade ray r with material mod */
192	<	register RAY *r;
193	<	int mod;
191	>	extern int
192	>	rayshade( /* shade ray r with material mod */
193	>	register RAY *r,
194	>	int mod
195	>	)
196		{
165	–	int gotmat;
197		register OBJREC *m;
198	<	#if MAXLOOP
168	<	static int depth = 0;
169	<	/* check for infinite loop */
170	<	if (depth++ >= MAXLOOP)
171	<	objerror(r->ro, USER, "possible modifier loop");
172	<	#endif
198	>
199		r->rt = r->rot; /* set effective ray length */
200	<	for (gotmat = 0; !gotmat && mod != OVOID; mod = m->omod) {
200	>	for ( ; mod != OVOID; mod = m->omod) {
201		m = objptr(mod);
202		/****** unnecessary test since modifier() is always called
203		if (!ismodifier(m->otype)) {
#	Line 180 \| Line 206 \| int mod;
206		}
207		******/
208		/* hack for irradiance calculation */
209	<	if (do_irrad && !(r->crtype & ~(PRIMARY\|TRANS))) {
209	>	if (do_irrad && !(r->crtype & ~(PRIMARY\|TRANS)) &&
210	>	m->otype != MAT_CLIP &&
211	>	(ofun[m->otype].flags & (T_M\|T_X))) {
212		if (irr_ignore(m->otype)) {
185	–	#if MAXLOOP
186	–	depth--;
187	–	#endif
213		raytrans(r);
214		return(1);
215		}
216		if (!islight(m->otype))
217		m = &Lamb;
218		}
219	<	/* materials call raytexture */
220	<	gotmat = (*ofun[m->otype].funp)(m, r);
219	>	if ((*ofun[m->otype].funp)(m, r))
220	>	return(1); /* materials call raytexture() */
221		}
222	<	#if MAXLOOP
198	<	depth--;
199	<	#endif
200	<	return(gotmat);
222	>	return(0); /* no material! */
223		}
224
225
226	<	rayparticipate(r) /* compute ray medium participation */
227	<	register RAY *r;
226	>	extern void
227	>	rayparticipate( /* compute ray medium participation */
228	>	register RAY *r
229	>	)
230		{
231		COLOR ce, ca;
232		double re, ge, be;
#	Line 217 \| Line 241 \| *register RAY r;**
241		ge *= 1. - colval(r->albedo,GRN);
242		be *= 1. - colval(r->albedo,BLU);
243		}
244	<	setcolor(ce, re<=0. ? 1. : re>92. ? 0. : exp(-re),
245	<	ge<=0. ? 1. : ge>92. ? 0. : exp(-ge),
246	<	be<=0. ? 1. : be>92. ? 0. : exp(-be));
247	<	multcolor(r->rcol, ce); /* path absorption */
244	>	setcolor(ce, re<=FTINY ? 1. : re>92. ? 0. : exp(-re),
245	>	ge<=FTINY ? 1. : ge>92. ? 0. : exp(-ge),
246	>	be<=FTINY ? 1. : be>92. ? 0. : exp(-be));
247	>	multcolor(r->rcol, ce); /* path extinction */
248		if (r->crtype & SHADOW \|\| intens(r->albedo) <= FTINY)
249		return; /* no scattering */
250		setcolor(ca,
#	Line 232 \| Line 256 \| *register RAY r;**
256		}
257
258
259	<	raytexture(r, mod) /* get material modifiers */
260	<	RAY *r;
261	<	int mod;
259	>	extern void
260	>	raytexture( /* get material modifiers */
261	>	RAY *r,
262	>	OBJECT mod
263	>	)
264		{
265		register OBJREC *m;
240	–	#if MAXLOOP
241	–	static int depth = 0;
242	–	/* check for infinite loop */
243	–	if (depth++ >= MAXLOOP)
244	–	objerror(r->ro, USER, "modifier loop");
245	–	#endif
266		/* execute textures and patterns */
267		for ( ; mod != OVOID; mod = m->omod) {
268		m = objptr(mod);
#	Line 258 \| Line 278 \| int mod;
278		objerror(r->ro, USER, errmsg);
279		}
280		}
261	–	#if MAXLOOP
262	–	depth--; /* end here */
263	–	#endif
281		}
282
283
284	<	raymixture(r, fore, back, coef) /* mix modifiers */
285	<	register RAY *r;
286	<	OBJECT fore, back;
287	<	double coef;
284	>	extern int
285	>	raymixture( /* mix modifiers */
286	>	register RAY *r,
287	>	OBJECT fore,
288	>	OBJECT back,
289	>	double coef
290	>	)
291		{
292		RAY fr, br;
293		int foremat, backmat;
#	Line 280 \| Line 300 \| double coef;
300		/* compute foreground and background */
301		foremat = backmat = 0;
302		/* foreground */
303	<	copystruct(&fr, r);
304	<	if (coef > FTINY)
303	>	fr = *r;
304	>	if (coef > FTINY) {
305	>	scalecolor(fr.rcoef, coef);
306		foremat = rayshade(&fr, fore);
307	+	}
308		/* background */
309	<	copystruct(&br, r);
310	<	if (coef < 1.0-FTINY)
309	>	br = *r;
310	>	if (coef < 1.0-FTINY) {
311	>	scalecolor(br.rcoef, 1.0-coef);
312		backmat = rayshade(&br, back);
313	+	}
314		/* check for transparency */
315	<	if (backmat ^ foremat)
315	>	if (backmat ^ foremat) {
316		if (backmat && coef > FTINY)
317		raytrans(&fr);
318		else if (foremat && coef < 1.0-FTINY)
319		raytrans(&br);
320	+	}
321		/* mix perturbations */
322		for (i = 0; i < 3; i++)
323		r->pert[i] = coeffr.pert[i] + (1.0-coef)br.pert[i];
#	Line 314 \| Line 339 \| double coef;
339		}
340
341
342	<	double
343	<	raydist(r, flags) /* compute (cumulative) ray distance */
344	<	register RAY *r;
345	<	register int flags;
342	>	extern double
343	>	raydist( /* compute (cumulative) ray distance */
344	>	register const RAY *r,
345	>	register int flags
346	>	)
347		{
348		double sum = 0.0;
349
#	Line 329 \| Line 355 \| register int flags;
355		}
356
357
358	<	double
359	<	raynormal(norm, r) /* compute perturbed normal for ray */
360	<	FVECT norm;
361	<	register RAY *r;
358	>	extern void
359	>	raycontrib( /* compute (cumulative) ray contribution */
360	>	double rc[3],
361	>	const RAY *r,
362	>	int flags
363	>	)
364		{
365	+	double eext[3];
366	+	int i;
367	+
368	+	eext[0] = eext[1] = eext[2] = 0.;
369	+	rc[0] = rc[1] = rc[2] = 1.;
370	+
371	+	while (r != NULL && r->crtype&flags) {
372	+	for (i = 3; i--; ) {
373	+	rc[i] *= colval(r->rcoef,i);
374	+	eext[i] += r->rot * colval(r->cext,i);
375	+	}
376	+	r = r->parent;
377	+	}
378	+	for (i = 3; i--; )
379	+	rc[i] *= (eext[i] <= FTINY) ? 1. :
380	+	(eext[i] > 92.) ? 0. : exp(-eext[i]);
381	+	}
382	+
383	+
384	+	extern double
385	+	raynormal( /* compute perturbed normal for ray */
386	+	FVECT norm,
387	+	register RAY *r
388	+	)
389	+	{
390		double newdot;
391		register int i;
392
#	Line 364 \| Line 417 \| *register RAY r;**
417		}
418
419
420	<	newrayxf(r) /* get new tranformation matrix for ray */
421	<	RAY *r;
420	>	extern void
421	>	newrayxf( /* get new tranformation matrix for ray */
422	>	RAY *r
423	>	)
424		{
425		static struct xfn {
426		struct xfn *next;
427		FULLXF xf;
428		} xfseed = { &xfseed }, *xflast = &xfseed;
429		register struct xfn *xp;
430	<	register RAY *rp;
430	>	register const RAY *rp;
431
432		/*
433		* Search for transform in circular list that
#	Line 383 \| Line 438 \| *RAY r;**
438		if (rp->rox == &xp->xf) { /* xp in use */
439		xp = xp->next; /* move to next */
440		if (xp == xflast) { /* need new one */
441	<	xp = (struct xfn *)bmalloc(sizeof(struct xfn));
441	>	xp = (struct xfn *)malloc(sizeof(struct xfn));
442		if (xp == NULL)
443		error(SYSTEM,
444		"out of memory in newrayxf");
#	Line 400 \| Line 455 \| *RAY r;**
455		}
456
457
458	<	flipsurface(r) /* reverse surface orientation */
459	<	register RAY *r;
458	>	extern void
459	>	flipsurface( /* reverse surface orientation */
460	>	register RAY *r
461	>	)
462		{
463		r->rod = -r->rod;
464		r->ron[0] = -r->ron[0];
#	Line 413 \| Line 470 \| *register RAY r;**
470		}
471
472
473	<	localhit(r, scene) /* check for hit in the octree */
474	<	register RAY *r;
475	<	register CUBE *scene;
473	>	extern void
474	>	rayhit( /* standard ray hit test */
475	>	OBJECT *oset,
476	>	RAY *r
477	>	)
478		{
479	+	OBJREC *o;
480	+	int i;
481	+
482	+	for (i = oset[0]; i > 0; i--) {
483	+	o = objptr(oset[i]);
484	+	if ((*ofun[o->otype].funp)(o, r))
485	+	r->robj = oset[i];
486	+	}
487	+	}
488	+
489	+
490	+	extern int
491	+	localhit( /* check for hit in the octree */
492	+	register RAY *r,
493	+	register CUBE *scene
494	+	)
495	+	{
496		OBJECT cxset[MAXCSET+1]; /* set of checked objects */
497		FVECT curpos; /* current cube position */
498		int sflags; /* sign flags */
#	Line 470 \| Line 546 \| *register CUBE scene;**
546		}
547		cxset[0] = 0;
548		raymove(curpos, cxset, sflags, r, scene);
549	<	return(r->ro != NULL & r->ro != &Aftplane);
549	>	return((r->ro != NULL) & (r->ro != &Aftplane));
550		}
551
552
553		static int
554	<	raymove(pos, cxs, dirf, r, cu) /* check for hit as we move */
555	<	FVECT pos; /* current position, modified herein */
556	<	OBJECT cxs; / checked objects, modified by checkhit */
557	<	int dirf; /* direction indicators to speed tests */
558	<	register RAY *r;
559	<	register CUBE *cu;
554	>	raymove( /* check for hit as we move */
555	>	FVECT pos, /* current position, modified herein */
556	>	OBJECT cxs, / checked objects, modified by checkhit */
557	>	int dirf, /* direction indicators to speed tests */
558	>	register RAY *r,
559	>	register CUBE *cu
560	>	)
561		{
562		int ax;
563		double dt, t;
#	Line 560 \| Line 637 \| *register CUBE cu;**
637		}
638
639
640	<	static
641	<	checkhit(r, cu, cxs) /* check for hit in full cube */
642	<	register RAY *r;
643	<	CUBE *cu;
644	<	OBJECT *cxs;
640	>	static int
641	>	checkhit( /* check for hit in full cube */
642	>	register RAY *r,
643	>	CUBE *cu,
644	>	OBJECT *cxs
645	>	)
646		{
647		OBJECT oset[MAXSET+1];
570	–	register OBJREC *o;
571	–	register int i;
648
649		objset(oset, cu->cutree);
650	<	checkset(oset, cxs); /* eliminate double-checking */
651	<	for (i = oset[0]; i > 0; i--) {
652	<	o = objptr(oset[i]);
653	<	if ((*ofun[o->otype].funp)(o, r))
654	<	r->robj = oset[i];
579	<	}
580	<	if (r->ro == NULL)
650	>	checkset(oset, cxs); /* avoid double-checking */
651	>
652	>	(r->hitf)(oset, r); / test for hit in set */
653	>
654	>	if (r->robj == OVOID)
655		return(0); /* no scores yet */
656
657		return(incube(cu, r->rop)); /* hit OK if in current cube */
658		}
659
660
661	<	static
662	<	checkset(os, cs) /* modify checked set and set to check */
663	<	register OBJECT os; / os' = os - cs */
664	<	register OBJECT cs; / cs' = cs + os */
661	>	static void
662	>	checkset( /* modify checked set and set to check */
663	>	register OBJECT os, / os' = os - cs */
664	>	register OBJECT cs / cs' = cs + os */
665	>	)
666		{
667		OBJECT cset[MAXCSET+MAXSET+1];
668		register int i, j;

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Comparing ray/src/rt/raytrace.c (file contents): Revision 2.33 by gwlarson, Tue Sep 15 09:52:39 1998 UTC vs. Revision 2.56 by greg, Mon Aug 22 21:54:41 2005 UTC

Diff Legend

Comparing ray/src/rt/raytrace.c (file contents):
Revision 2.33 by gwlarson, Tue Sep 15 09:52:39 1998 UTC vs.
Revision 2.56 by greg, Mon Aug 22 21:54:41 2005 UTC