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

Comparing ray/src/rt/rtrace.c (file contents):
Revision 2.51 by greg, Sun Feb 5 22:22:20 2006 UTC vs.
Revision 2.73 by greg, Tue Nov 13 19:58:33 2018 UTC

#	Line 28 \| Line 28 \| static const char RCSid[] = "$Id$";
28		#include "ambient.h"
29		#include "source.h"
30		#include "otypes.h"
31	+	#include "otspecial.h"
32		#include "resolu.h"
33		#include "random.h"
34
35	<	CUBE thescene; /* our scene */
36	<	OBJECT nsceneobjs; /* number of objects in our scene */
35	>	extern int inform; /* input format */
36	>	extern int outform; /* output format */
37	>	extern char outvals; / output values */
38
39	<	int dimlist[MAXDIM]; /* sampling dimensions */
40	<	int ndims = 0; /* number of sampling dimensions */
39	<	int samplendx = 0; /* index for this sample */
39	>	extern int imm_irrad; /* compute immediate irradiance? */
40	>	extern int lim_dist; /* limit distance? */
41
42	<	int imm_irrad = 0; /* compute immediate irradiance? */
43	<	int lim_dist = 0; /* limit distance? */
42	>	extern char tralist[]; / list of modifers to trace (or no) */
43	>	extern int traincl; /* include == 1, exclude == 0 */
44
45	<	int inform = 'a'; /* input format */
46	<	int outform = 'a'; /* output format */
46	<	char outvals = "v"; / output specification */
45	>	extern int hresolu; /* horizontal resolution */
46	>	extern int vresolu; /* vertical resolution */
47
48	<	int do_irrad = 0; /* compute irradiance? */
48	>	static int castonly = 0;
49
50	–	int rand_samp = 0; /* pure Monte Carlo sampling? */
51	–
52	–	void (trace)() = NULL; / trace call */
53	–
54	–	char tralist[128]; / list of modifers to trace (or no) */
55	–	int traincl = -1; /* include == 1, exclude == 0 */
50		#ifndef MAXTSET
51	<	#define MAXTSET 1024 /* maximum number in trace set */
51	>	#define MAXTSET 8191 /* maximum number in trace set */
52		#endif
53		OBJECT traset[MAXTSET+1]={0}; /* trace include/exclude set */
54
61	–	int hresolu = 0; /* horizontal (scan) size */
62	–	int vresolu = 0; /* vertical resolution */
63	–
64	–	double dstrsrc = 0.0; /* square source distribution */
65	–	double shadthresh = .03; /* shadow threshold */
66	–	double shadcert = .75; /* shadow certainty */
67	–	int directrelay = 2; /* number of source relays */
68	–	int vspretest = 512; /* virtual source pretest density */
69	–	int directvis = 1; /* sources visible? */
70	–	double srcsizerat = .2; /* maximum ratio source size/dist. */
71	–
72	–	COLOR cextinction = BLKCOLOR; /* global extinction coefficient */
73	–	COLOR salbedo = BLKCOLOR; /* global scattering albedo */
74	–	double seccg = 0.; /* global scattering eccentricity */
75	–	double ssampdist = 0.; /* scatter sampling distance */
76	–
77	–	double specthresh = .15; /* specular sampling threshold */
78	–	double specjitter = 1.; /* specular sampling jitter */
79	–
80	–	int backvis = 1; /* back face visibility */
81	–
82	–	int maxdepth = -10; /* maximum recursion depth */
83	–	double minweight = 2e-3; /* minimum ray weight */
84	–
85	–	char ambfile = NULL; / ambient file name */
86	–	COLOR ambval = BLKCOLOR; /* ambient value */
87	–	int ambvwt = 0; /* initial weight for ambient value */
88	–	double ambacc = 0.15; /* ambient accuracy */
89	–	int ambres = 256; /* ambient resolution */
90	–	int ambdiv = 1024; /* ambient divisions */
91	–	int ambssamp = 512; /* ambient super-samples */
92	–	int ambounce = 0; /* ambient bounces */
93	–	char amblist[AMBLLEN]; / ambient include/exclude list */
94	–	int ambincl = -1; /* include == 1, exclude == 0 */
95	–
96	–	static int castonly = 0;
97	–
55		static RAY thisray; /* for our convenience */
56
57	<	typedef void putf_t(double v);
57	>	typedef void putf_t(RREAL *v, int n);
58		static putf_t puta, putd, putf;
59
60		typedef void oputf_t(RAY *r);
61		static oputf_t oputo, oputd, oputv, oputV, oputl, oputL, oputc, oputp,
62	<	oputn, oputN, oputs, oputw, oputW, oputm, oputM, oputtilde;
62	>	oputr, oputR, oputx, oputX, oputn, oputN, oputs,
63	>	oputw, oputW, oputm, oputM, oputtilde;
64
65		static void setoutput(char *vs);
66	<	static void tranotify(OBJECT obj);
66	>	extern void tranotify(OBJECT obj);
67		static void bogusray(void);
68	<	static void rad(FVECT org, FVECT dir, double dmax);
69	<	static void irrad(FVECT org, FVECT dir);
70	<	static void printvals(RAY *r);
71	<	static int getvec(FVECT vec, int fmt, FILE *fp);
72	<	static void tabin(RAY *r);
73	<	static void ourtrace(RAY *r);
68	>	static void raycast(RAY *r);
69	>	static void rayirrad(RAY *r);
70	>	static void rtcompute(FVECT org, FVECT dir, double dmax);
71	>	static int printvals(RAY *r);
72	>	static int getvec(FVECT vec, int fmt, FILE *fp);
73	>	static void tabin(RAY *r);
74	>	static void ourtrace(RAY *r);
75
76	<	static oputf_t ray_out[16], every_out[16];
76	>	static oputf_t ray_out[32], every_out[32];
77		static putf_t *putreal;
78
120	–	void (*addobjnotify[])() = {ambnotify, tranotify, NULL};
79
122	–
80		void
81		quit( /* quit program */
82		int code
83		)
84		{
85	<	#ifndef NON_POSIX /* XXX we don't clean up elsewhere? */
86	<	headclean(); /* delete header file */
87	<	pfclean(); /* clean up persist files */
85	>	if (ray_pnprocs > 0) /* close children if any */
86	>	ray_pclose(0);
87	>	#ifndef NON_POSIX
88	>	else if (!ray_pnprocs) {
89	>	headclean(); /* delete header file */
90	>	pfclean(); /* clean up persist files */
91	>	}
92		#endif
93		exit(code);
94		}
95
96
97	<	extern char *
97	>	char *
98		formstr( /* return format identifier */
99		int f
100		)
#	Line 150 \| Line 111 \| *formstr( / return format identifier /*
111
112		extern void
113		rtrace( /* trace rays from file */
114	<	char *fname
114	>	char *fname,
115	>	int nproc
116		)
117		{
118		unsigned long vcount = (hresolu > 1) ? (unsigned long)hresolu*vresolu
119	<	: vresolu;
120	<	long nextflush = hresolu;
119	>	: (unsigned long)vresolu;
120	>	long nextflush = (vresolu > 0) & (hresolu > 1) ? 0 : hresolu;
121		FILE *fp;
122		double d;
123		FVECT orig, direc;
#	Line 170 \| Line 132 \| *rtrace( / trace rays from file /*
132		SET_FILE_BINARY(fp);
133		/* set up output */
134		setoutput(outvals);
135	+	if (imm_irrad)
136	+	castonly = 0;
137	+	else if (castonly)
138	+	nproc = 1; /* don't bother multiprocessing */
139		switch (outform) {
140		case 'a': putreal = puta; break;
141		case 'f': putreal = putf; break;
#	Line 181 \| Line 147 \| *rtrace( / trace rays from file /*
147		default:
148		error(CONSISTENCY, "botched output format");
149		}
150	+	if (nproc > 1) { /* start multiprocessing */
151	+	ray_popen(nproc);
152	+	ray_fifo_out = printvals;
153	+	}
154		if (hresolu > 0) {
155		if (vresolu > 0)
156		fprtresolu(hresolu, vresolu, stdout);
#	Line 192 \| Line 162 \| *rtrace( / trace rays from file /*
162
163		d = normalize(direc);
164		if (d == 0.0) { /* zero ==> flush */
195	–	bogusray();
165		if (--nextflush <= 0 \|\| !vcount) {
166	+	if (nproc > 1 && ray_fifo_flush() < 0)
167	+	error(USER, "child(ren) died");
168	+	bogusray();
169		fflush(stdout);
170	<	nextflush = hresolu;
171	<	}
172	<	} else {
173	<	samplendx = rand_samp ? random() : samplendx+1;
174	<	/* compute and print */
175	<	if (imm_irrad)
204	<	irrad(orig, direc);
205	<	else
206	<	rad(orig, direc, lim_dist ? d : 0.0);
170	>	nextflush = (vresolu > 0) & (hresolu > 1) ? 0 :
171	>	hresolu;
172	>	} else
173	>	bogusray();
174	>	} else { /* compute and print */
175	>	rtcompute(orig, direc, lim_dist ? d : 0.0);
176		/* flush if time */
177		if (!--nextflush) {
178	+	if (nproc > 1 && ray_fifo_flush() < 0)
179	+	error(USER, "child(ren) died");
180		fflush(stdout);
181		nextflush = hresolu;
182		}
#	Line 215 \| Line 186 \| *rtrace( / trace rays from file /*
186		if (vcount && !--vcount) /* check for end */
187		break;
188		}
189	+	if (nproc > 1) { /* clean up children */
190	+	if (ray_fifo_flush() < 0)
191	+	error(USER, "unable to complete processing");
192	+	ray_pclose(0);
193	+	}
194		if (fflush(stdout) < 0)
195		error(SYSTEM, "write error");
196		if (vcount)
#	Line 236 \| Line 212 \| *trace_sources(void) / trace rays to light sources,**
212
213		static void
214		setoutput( /* set up output tables */
215	<	register char *vs
215	>	char *vs
216		)
217		{
218	<	register oputf_t **table = ray_out;
218	>	oputf_t **table = ray_out;
219
220		castonly = 1;
221		while (*vs)
#	Line 261 \| Line 237 \| *setoutput( / set up output tables /*
237		case 'd': /* direction */
238		*table++ = oputd;
239		break;
240	+	case 'r': /* reflected contrib. */
241	+	*table++ = oputr;
242	+	castonly = 0;
243	+	break;
244	+	case 'R': /* reflected distance */
245	+	*table++ = oputR;
246	+	castonly = 0;
247	+	break;
248	+	case 'x': /* xmit contrib. */
249	+	*table++ = oputx;
250	+	castonly = 0;
251	+	break;
252	+	case 'X': /* xmit distance */
253	+	*table++ = oputX;
254	+	castonly = 0;
255	+	break;
256		case 'v': /* value */
257		*table++ = oputv;
258		castonly = 0;
259		break;
260		case 'V': /* contribution */
261		*table++ = oputV;
262	+	castonly = 0;
263		if (ambounce > 0 && (ambacc > FTINY \|\| ambssamp > 0))
264		error(WARNING,
265		"-otV accuracy depends on -aa 0 -as 0");
#	Line 299 \| Line 292 \| *setoutput( / set up output tables /*
292		break;
293		case 'W': /* coefficient */
294		*table++ = oputW;
295	+	castonly = 0;
296		if (ambounce > 0 && (ambacc > FTINY \|\| ambssamp > 0))
297		error(WARNING,
298		"-otW accuracy depends on -aa 0 -as 0");
#	Line 329 \| Line 323 \| *bogusray(void) / print out empty record /*
323
324
325		static void
326	<	rad( /* compute and print ray value(s) */
327	<	FVECT org,
334	<	FVECT dir,
335	<	double dmax
326	>	raycast( /* compute first ray intersection only */
327	>	RAY *r
328		)
329		{
330	<	VCOPY(thisray.rorg, org);
331	<	VCOPY(thisray.rdir, dir);
332	<	thisray.rmax = dmax;
333	<	rayorigin(&thisray, PRIMARY, NULL, NULL);
334	<	if (castonly) {
335	<	if (!localhit(&thisray, &thescene)) {
336	<	if (thisray.ro == &Aftplane) { /* clipped */
345	<	thisray.ro = NULL;
346	<	thisray.rot = FHUGE;
347	<	} else
348	<	sourcehit(&thisray);
349	<	}
350	<	} else
351	<	rayvalue(&thisray);
352	<	printvals(&thisray);
330	>	if (!localhit(r, &thescene)) {
331	>	if (r->ro == &Aftplane) { /* clipped */
332	>	r->ro = NULL;
333	>	r->rot = FHUGE;
334	>	} else
335	>	sourcehit(r);
336	>	}
337		}
338
339
340		static void
341	<	irrad( /* compute immediate irradiance value */
342	<	FVECT org,
359	<	FVECT dir
341	>	rayirrad( /* compute irradiance rather than radiance */
342	>	RAY *r
343		)
344		{
345	<	register int i;
345	>	void (old_revf)(RAY ) = r->revf;
346
347	<	for (i = 0; i < 3; i++) {
348	<	thisray.rorg[i] = org[i] + dir[i];
349	<	thisray.rdir[i] = -dir[i];
350	<	}
351	<	thisray.rmax = 0.0;
347	>	r->rot = 1e-5; /* pretend we hit surface */
348	>	VSUM(r->rop, r->rorg, r->rdir, r->rot);
349	>	r->ron[0] = -r->rdir[0];
350	>	r->ron[1] = -r->rdir[1];
351	>	r->ron[2] = -r->rdir[2];
352	>	r->rod = 1.0;
353	>	/* compute result */
354	>	r->revf = raytrace;
355	>	(*ofun[Lamb.otype].funp)(&Lamb, r);
356	>	r->revf = old_revf;
357	>	}
358	>
359	>
360	>	static void
361	>	rtcompute( /* compute and print ray value(s) */
362	>	FVECT org,
363	>	FVECT dir,
364	>	double dmax
365	>	)
366	>	{
367	>	/* set up ray */
368		rayorigin(&thisray, PRIMARY, NULL, NULL);
369	<	/* pretend we hit surface */
370	<	thisray.rot = 1.0-1e-4;
371	<	thisray.rod = 1.0;
372	<	VCOPY(thisray.ron, dir);
373	<	for (i = 0; i < 3; i++) /* fudge factor */
374	<	thisray.rop[i] = org[i] + 1e-4*dir[i];
375	<	/* compute and print */
376	<	(*ofun[Lamb.otype].funp)(&Lamb, &thisray);
369	>	if (imm_irrad) {
370	>	VSUM(thisray.rorg, org, dir, 1.1e-4);
371	>	thisray.rdir[0] = -dir[0];
372	>	thisray.rdir[1] = -dir[1];
373	>	thisray.rdir[2] = -dir[2];
374	>	thisray.rmax = 0.0;
375	>	thisray.revf = rayirrad;
376	>	} else {
377	>	VCOPY(thisray.rorg, org);
378	>	VCOPY(thisray.rdir, dir);
379	>	thisray.rmax = dmax;
380	>	if (castonly)
381	>	thisray.revf = raycast;
382	>	}
383	>	if (ray_pnprocs > 1) { /* multiprocessing FIFO? */
384	>	if (ray_fifo_in(&thisray) < 0)
385	>	error(USER, "lost children");
386	>	return;
387	>	}
388	>	samplendx++; /* else do it ourselves */
389	>	rayvalue(&thisray);
390		printvals(&thisray);
391		}
392
393
394	<	static void
394	>	static int
395		printvals( /* print requested ray values */
396		RAY *r
397		)
398		{
399	<	register oputf_t **tp;
399	>	oputf_t **tp;
400
401		if (ray_out[0] == NULL)
402	<	return;
402	>	return(0);
403		for (tp = ray_out; *tp != NULL; tp++)
404		(**tp)(r);
405		if (outform == 'a')
406		putchar('\n');
407	+	return(1);
408		}
409
410
411		static int
412		getvec( /* get a vector from fp */
413	<	register FVECT vec,
413	>	FVECT vec,
414		int fmt,
415		FILE *fp
416		)
#	Line 405 \| Line 418 \| *getvec( / get a vector from fp /*
418		static float vf[3];
419		static double vd[3];
420		char buf[32];
421	<	register int i;
421	>	int i;
422
423		switch (fmt) {
424		case 'a': /* ascii */
#	Line 417 \| Line 430 \| *getvec( / get a vector from fp /*
430		}
431		break;
432		case 'f': /* binary float */
433	<	if (fread((char *)vf, sizeof(float), 3, fp) != 3)
433	>	if (getbinary(vf, sizeof(float), 3, fp) != 3)
434		return(-1);
435	<	vec[0] = vf[0]; vec[1] = vf[1]; vec[2] = vf[2];
435	>	VCOPY(vec, vf);
436		break;
437		case 'd': /* binary double */
438	<	if (fread((char *)vd, sizeof(double), 3, fp) != 3)
438	>	if (getbinary(vd, sizeof(double), 3, fp) != 3)
439		return(-1);
440	<	vec[0] = vd[0]; vec[1] = vd[1]; vec[2] = vd[2];
440	>	VCOPY(vec, vd);
441		break;
442		default:
443		error(CONSISTENCY, "botched input format");
#	Line 433 \| Line 446 \| *getvec( / get a vector from fp /*
446		}
447
448
449	<	static void
449	>	void
450		tranotify( /* record new modifier */
451		OBJECT obj
452		)
453		{
454		static int hitlimit = 0;
455	<	register OBJREC *o = objptr(obj);
456	<	register char **tralp;
455	>	OBJREC *o = objptr(obj);
456	>	char **tralp;
457
458		if (obj == OVOID) { /* starting over */
459		traset[0] = 0;
#	Line 467 \| Line 480 \| *ourtrace( / print ray values /*
480		RAY *r
481		)
482		{
483	<	register oputf_t **tp;
483	>	oputf_t **tp;
484
485		if (every_out[0] == NULL)
486		return;
#	Line 501 \| Line 514 \| *oputo( / print origin /*
514		RAY *r
515		)
516		{
517	<	(*putreal)(r->rorg[0]);
505	<	(*putreal)(r->rorg[1]);
506	<	(*putreal)(r->rorg[2]);
517	>	(*putreal)(r->rorg, 3);
518		}
519
520
#	Line 512 \| Line 523 \| *oputd( / print direction /*
523		RAY *r
524		)
525		{
526	<	(*putreal)(r->rdir[0]);
516	<	(*putreal)(r->rdir[1]);
517	<	(*putreal)(r->rdir[2]);
526	>	(*putreal)(r->rdir, 3);
527		}
528
529
530		static void
531	+	oputr( /* print mirrored contribution */
532	+	RAY *r
533	+	)
534	+	{
535	+	RREAL cval[3];
536	+
537	+	cval[0] = colval(r->mcol,RED);
538	+	cval[1] = colval(r->mcol,GRN);
539	+	cval[2] = colval(r->mcol,BLU);
540	+	(*putreal)(cval, 3);
541	+	}
542	+
543	+
544	+
545	+	static void
546	+	oputR( /* print mirrored distance */
547	+	RAY *r
548	+	)
549	+	{
550	+	(*putreal)(&r->rmt, 1);
551	+	}
552	+
553	+
554	+	static void
555	+	oputx( /* print unmirrored contribution */
556	+	RAY *r
557	+	)
558	+	{
559	+	RREAL cval[3];
560	+
561	+	cval[0] = colval(r->rcol,RED) - colval(r->mcol,RED);
562	+	cval[1] = colval(r->rcol,GRN) - colval(r->mcol,GRN);
563	+	cval[2] = colval(r->rcol,BLU) - colval(r->mcol,BLU);
564	+	(*putreal)(cval, 3);
565	+	}
566	+
567	+
568	+	static void
569	+	oputX( /* print unmirrored distance */
570	+	RAY *r
571	+	)
572	+	{
573	+	(*putreal)(&r->rxt, 1);
574	+	}
575	+
576	+
577	+	static void
578		oputv( /* print value */
579		RAY *r
580		)
581		{
582	+	RREAL cval[3];
583	+
584		if (outform == 'c') {
585		COLR cout;
586		setcolr(cout, colval(r->rcol,RED),
587		colval(r->rcol,GRN),
588		colval(r->rcol,BLU));
589	<	fwrite((char *)cout, sizeof(cout), 1, stdout);
589	>	putbinary(cout, sizeof(cout), 1, stdout);
590		return;
591		}
592	<	(*putreal)(colval(r->rcol,RED));
593	<	(*putreal)(colval(r->rcol,GRN));
594	<	(*putreal)(colval(r->rcol,BLU));
592	>	cval[0] = colval(r->rcol,RED);
593	>	cval[1] = colval(r->rcol,GRN);
594	>	cval[2] = colval(r->rcol,BLU);
595	>	(*putreal)(cval, 3);
596		}
597
598
#	Line 542 \| Line 601 \| *oputV( / print value contribution /*
601		RAY *r
602		)
603		{
604	<	double contr[3];
604	>	RREAL contr[3];
605
606		raycontrib(contr, r, PRIMARY);
607		multcolor(contr, r->rcol);
608	<	(*putreal)(contr[RED]);
550	<	(*putreal)(contr[GRN]);
551	<	(*putreal)(contr[BLU]);
608	>	(*putreal)(contr, 3);
609		}
610
611
#	Line 557 \| Line 614 \| *oputl( / print effective distance /*
614		RAY *r
615		)
616		{
617	<	(*putreal)(r->rt);
617	>	RREAL d = raydistance(r);
618	>
619	>	(*putreal)(&d, 1);
620		}
621
622
#	Line 566 \| Line 625 \| *oputL( / print single ray length /*
625		RAY *r
626		)
627		{
628	<	(*putreal)(r->rot);
628	>	(*putreal)(&r->rot, 1);
629		}
630
631
#	Line 575 \| Line 634 \| *oputc( / print local coordinates /*
634		RAY *r
635		)
636		{
637	<	(*putreal)(r->uv[0]);
579	<	(*putreal)(r->uv[1]);
637	>	(*putreal)(r->uv, 2);
638		}
639
640
641	+	static RREAL vdummy[3] = {0.0, 0.0, 0.0};
642	+
643	+
644		static void
645		oputp( /* print point */
646		RAY *r
647		)
648		{
649	<	if (r->rot < FHUGE) {
650	<	(*putreal)(r->rop[0]);
651	<	(*putreal)(r->rop[1]);
652	<	(*putreal)(r->rop[2]);
592	<	} else {
593	<	(*putreal)(0.0);
594	<	(*putreal)(0.0);
595	<	(*putreal)(0.0);
596	<	}
649	>	if (r->rot < FHUGE)
650	>	(*putreal)(r->rop, 3);
651	>	else
652	>	(*putreal)(vdummy, 3);
653		}
654
655
#	Line 602 \| Line 658 \| *oputN( / print unperturbed normal /*
658		RAY *r
659		)
660		{
661	<	if (r->rot < FHUGE) {
662	<	(*putreal)(r->ron[0]);
663	<	(*putreal)(r->ron[1]);
664	<	(*putreal)(r->ron[2]);
609	<	} else {
610	<	(*putreal)(0.0);
611	<	(*putreal)(0.0);
612	<	(*putreal)(0.0);
613	<	}
661	>	if (r->rot < FHUGE)
662	>	(*putreal)(r->ron, 3);
663	>	else
664	>	(*putreal)(vdummy, 3);
665		}
666
667
#	Line 622 \| Line 673 \| *oputn( / print perturbed normal /*
673		FVECT pnorm;
674
675		if (r->rot >= FHUGE) {
676	<	(*putreal)(0.0);
626	<	(*putreal)(0.0);
627	<	(*putreal)(0.0);
676	>	(*putreal)(vdummy, 3);
677		return;
678		}
679		raynormal(pnorm, r);
680	<	(*putreal)(pnorm[0]);
632	<	(*putreal)(pnorm[1]);
633	<	(*putreal)(pnorm[2]);
680	>	(*putreal)(pnorm, 3);
681		}
682
683
#	Line 652 \| Line 699 \| *oputw( / print weight /*
699		RAY *r
700		)
701		{
702	<	(*putreal)(r->rweight);
702	>	RREAL rwt = r->rweight;
703	>
704	>	(*putreal)(&rwt, 1);
705		}
706
707
#	Line 661 \| Line 710 \| *oputW( / print coefficient /*
710		RAY *r
711		)
712		{
713	<	double contr[3];
713	>	RREAL contr[3];
714	>	/* shadow ray not on source? */
715	>	if (r->rsrc >= 0 && source[r->rsrc].so != r->ro)
716	>	setcolor(contr, 0.0, 0.0, 0.0);
717	>	else
718	>	raycontrib(contr, r, PRIMARY);
719
720	<	raycontrib(contr, r, PRIMARY);
667	<	(*putreal)(contr[RED]);
668	<	(*putreal)(contr[GRN]);
669	<	(*putreal)(contr[BLU]);
720	>	(*putreal)(contr, 3);
721		}
722
723
#	Line 714 \| Line 765 \| *oputtilde( / output tilde (spacer) /*
765
766
767		static void
768	<	puta( /* print ascii value */
769	<	double v
768	>	puta( /* print ascii value(s) */
769	>	RREAL *v, int n
770		)
771		{
772	<	printf("%e\t", v);
772	>	if (n == 3) {
773	>	printf("%e\t%e\t%e\t", v[0], v[1], v[2]);
774	>	return;
775	>	}
776	>	while (n--)
777	>	printf("%e\t", *v++);
778		}
779
780
781		static void
782	<	putd(v) /* print binary double */
727	<	double v;
782	>	putd(RREAL v, int n) / print binary double(s) */
783		{
784	<	fwrite((char *)&v, sizeof(v), 1, stdout);
784	>	#ifdef SMLFLT
785	>	double da[3];
786	>	int i;
787	>
788	>	if (n > 3)
789	>	error(INTERNAL, "code error in putd()");
790	>	for (i = n; i--; )
791	>	da[i] = v[i];
792	>	putbinary(da, sizeof(double), n, stdout);
793	>	#else
794	>	putbinary(v, sizeof(RREAL), n, stdout);
795	>	#endif
796		}
797
798
799		static void
800	<	putf(v) /* print binary float */
735	<	double v;
800	>	putf(RREAL v, int n) / print binary float(s) */
801		{
802	<	float f = v;
802	>	#ifndef SMLFLT
803	>	float fa[3];
804	>	int i;
805
806	<	fwrite((char *)&f, sizeof(f), 1, stdout);
806	>	if (n > 3)
807	>	error(INTERNAL, "code error in putf()");
808	>	for (i = n; i--; )
809	>	fa[i] = v[i];
810	>	putbinary(fa, sizeof(float), n, stdout);
811	>	#else
812	>	putbinary(v, sizeof(RREAL), n, stdout);
813	>	#endif
814		}

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Comparing ray/src/rt/rtrace.c (file contents): Revision 2.51 by greg, Sun Feb 5 22:22:20 2006 UTC vs. Revision 2.73 by greg, Tue Nov 13 19:58:33 2018 UTC

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Comparing ray/src/rt/rtrace.c (file contents):
Revision 2.51 by greg, Sun Feb 5 22:22:20 2006 UTC vs.
Revision 2.73 by greg, Tue Nov 13 19:58:33 2018 UTC