[ViewVC] Diff of: radiance/src/cv/mgf2rad.c

Comparing src/cv/mgf2rad.c (file contents):
Revision 2.18 by greg, Thu May 11 20:17:56 1995 UTC vs.
Revision 2.31 by greg, Mon Oct 3 18:16:45 2016 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1995 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		* Convert MGF (Materials and Geometry Format) to Radiance
6		*/
7
8		#include <stdio.h>
9	+	#include <stdlib.h>
10		#include <math.h>
11		#include <string.h>
12	<	#include "mgflib/parser.h"
12	>
13	>	#include "platform.h"
14	>	#include "mgf_parser.h"
15		#include "color.h"
16		#include "tmesh.h"
17
#	Line 23 \| Line 23 \| *double glowdist = FHUGE; / glow test distance /*
23
24		double emult = 1.; /* emitter multiplier */
25
26	<	FILE matfp = stdout; / material output file */
26	>	FILE matfp; / material output file */
27
28	–	int r_comment(), r_cone(), r_cyl(), r_face(), r_ies(), r_ring(), r_sph();
29	–	char material(), object(), *addarg();
28
29	+	extern int r_comment(int ac, char **av);
30	+	extern int r_cone(int ac, char **av);
31	+	extern int r_cyl(int ac, char **av);
32	+	extern int r_sph(int ac, char **av);
33	+	extern int r_ring(int ac, char **av);
34	+	extern int r_face(int ac, char **av);
35	+	extern int r_ies(int ac, char **av);
36	+	extern void putsided(char *mname);
37	+	extern char * material(void);
38	+	extern char * object(void);
39	+	extern char * addarg(char op, char arg);
40	+	extern void do_tri(char mat, C_VERTEX cv1, C_VERTEX cv2, C_VERTEX cv3, int iv);
41	+	extern void cvtcolor(COLOR radrgb, register C_COLOR *ciec, double intensity);
42
43	<	main(argc, argv) /* convert files to stdout */
44	<	int argc;
45	<	char *argv[];
43	>
44	>	int
45	>	main(
46	>	int argc,
47	>	char *argv[]
48	>	)
49		{
50	<	int i, rv;
50	>	int i;
51	>
52	>	matfp = stdout;
53	>	/* print out parser version */
54	>	printf("## Translated from MGF Version %d.%d\n", MG_VMAJOR, MG_VMINOR);
55		/* initialize dispatch table */
56		mg_ehand[MG_E_COMMENT] = r_comment; /* we pass comments */
57		mg_ehand[MG_E_COLOR] = c_hcolor; /* they get color */
#	Line 92 \| Line 110 \| *char argv[];**
110		}
111		putchar('\n');
112		if (i == argc) { /* convert stdin */
113	<	if ((rv = mg_load(NULL)) != MG_OK)
113	>	if (mg_load(NULL) != MG_OK)
114		exit(1);
115		if (mg_nunknown)
116		printf("## %s: %u unknown entities\n",
#	Line 101 \| Line 119 \| *char argv[];**
119		for ( ; i < argc; i++) {
120		printf("## %s %s ##############################\n",
121		argv[0], argv[i]);
122	<	if ((rv = mg_load(argv[i])) != MG_OK)
122	>	if (mg_load(argv[i]) != MG_OK)
123		exit(1);
124		if (mg_nunknown) {
125		printf("## %s %s: %u unknown entities\n",
#	Line 118 \| Line 136 \| userr:
136
137
138		int
139	<	r_comment(ac, av) /* repeat a comment verbatim */
140	<	register int ac;
141	<	register char **av;
139	>	r_comment( /* repeat a comment verbatim */
140	>	register int ac,
141	>	register char **av
142	>	)
143		{
144		putchar('#'); /* use Radiance comment character */
145		while (--ac) { /* pass through verbatim */
#	Line 133 \| Line 152 \| register char av;**
152
153
154		int
155	<	r_cone(ac, av) /* put out a cone */
156	<	int ac;
157	<	char **av;
155	>	r_cone( /* put out a cone */
156	>	int ac,
157	>	char **av
158	>	)
159		{
160		static int ncones;
161		char *mat;
#	Line 161 \| Line 181 \| char av;**
181		if (r2 == 0.)
182		return(MG_EILL);
183		inv = r2 < 0.;
184	<	} else if (r2 != 0. && inv ^ r2 < 0.)
184	>	} else if (r2 != 0. && inv ^ (r2 < 0.))
185		return(MG_EILL);
186		if (inv) {
187		r1 = -r1;
#	Line 181 \| Line 201 \| char av;**
201
202
203		int
204	<	r_cyl(ac, av) /* put out a cylinder */
205	<	int ac;
206	<	char **av;
204	>	r_cyl( /* put out a cylinder */
205	>	int ac,
206	>	char **av
207	>	)
208		{
209		static int ncyls;
210		char *mat;
#	Line 219 \| Line 240 \| char av;**
240
241
242		int
243	<	r_sph(ac, av) /* put out a sphere */
244	<	int ac;
245	<	char **av;
243	>	r_sph( /* put out a sphere */
244	>	int ac,
245	>	char **av
246	>	)
247		{
248		static int nsphs;
249		char *mat;
#	Line 252 \| Line 274 \| char av;**
274
275
276		int
277	<	r_ring(ac, av) /* put out a ring */
278	<	int ac;
279	<	char **av;
277	>	r_ring( /* put out a ring */
278	>	int ac,
279	>	char **av
280	>	)
281		{
282		static int nrings;
283		char *mat;
#	Line 274 \| Line 297 \| char av;**
297		xf_rotvect(norm, cv->n); /* rotate normal */
298		r1 = xf_scale(atof(av[2])); /* scale radii */
299		r2 = xf_scale(atof(av[3]));
300	<	if (r1 < 0. \| r2 <= r1)
300	>	if ((r1 < 0.) \| (r2 <= r1))
301		return(MG_EILL);
302		if ((mat = material()) == NULL) /* get material */
303		return(MG_EBADMAT);
#	Line 289 \| Line 312 \| char av;**
312
313
314		int
315	<	r_face(ac, av) /* convert a face */
316	<	int ac;
317	<	char **av;
315	>	r_face( /* convert a face */
316	>	int ac,
317	>	char **av
318	>	)
319		{
320		static int nfaces;
321	+	int myi = invert;
322		char *mat;
323		register int i;
324		register C_VERTEX *cv;
325		FVECT v;
326	<	int rv;
326	>
327		/* check argument count and type */
328		if (ac < 4)
329		return(MG_EARGC);
330		if ((mat = material()) == NULL) /* get material */
331		return(MG_EBADMAT);
332		if (ac <= 5) { /* check for smoothing */
333	+	C_VERTEX *cva[5];
334		for (i = 1; i < ac; i++) {
335	<	if ((cv = c_getvert(av[i])) == NULL)
335	>	if ((cva[i-1] = c_getvert(av[i])) == NULL)
336		return(MG_EUNDEF);
337	<	if (is0vect(cv->n))
337	>	if (is0vect(cva[i-1]->n))
338		break;
339		}
340	<	if (i == ac) { /* break into triangles */
341	<	do_tri(mat, av[1], av[2], av[3]);
340	>	if (i < ac)
341	>	i = ISFLAT;
342	>	else
343	>	i = flat_tri(cva[0]->p, cva[1]->p, cva[2]->p,
344	>	cva[0]->n, cva[1]->n, cva[2]->n);
345	>	if (i == DEGEN)
346	>	return(MG_OK); /* degenerate (error?) */
347	>	if (i == RVBENT) {
348	>	myi = !myi;
349	>	i = ISBENT;
350	>	} else if (i == RVFLAT) {
351	>	myi = !myi;
352	>	i = ISFLAT;
353	>	}
354	>	if (i == ISBENT) { /* smoothed triangles */
355	>	do_tri(mat, cva[0], cva[1], cva[2], myi);
356		if (ac == 5)
357	<	do_tri(mat, av[3], av[4], av[1]);
357	>	do_tri(mat, cva[2], cva[3], cva[0], myi);
358		return(MG_OK);
359		}
360		}
#	Line 322 \| Line 362 \| char av;**
362		printf("\n%s polygon %sf%d\n", mat, object(), ++nfaces);
363		printf("0\n0\n%d\n", 3*(ac-1));
364		for (i = 1; i < ac; i++) { /* get, transform, print each vertex */
365	<	if ((cv = c_getvert(av[invert ? ac-i : i])) == NULL)
365	>	if ((cv = c_getvert(av[myi ? ac-i : i])) == NULL)
366		return(MG_EUNDEF);
367		xf_xfmpoint(v, cv->p);
368		putv(v);
#	Line 332 \| Line 372 \| char av;**
372
373
374		int
375	<	r_ies(ac, av) /* convert an IES luminaire file */
376	<	int ac;
377	<	char **av;
375	>	r_ies( /* convert an IES luminaire file */
376	>	int ac,
377	>	char **av
378	>	)
379		{
380		int xa0 = 2;
381		char combuf[128];
#	Line 346 \| Line 387 \| char av;**
387		if (ac < 2)
388		return(MG_EARGC);
389		/* construct output file name */
390	<	if ((op = strrchr(av[1], '/')) == NULL)
390	>	if ((op = strrchr(av[1], '/')) != NULL)
391	>	op++;
392	>	else
393		op = av[1];
394		(void)strcpy(fname, op);
395		if ((op = strrchr(fname, '.')) == NULL)
#	Line 394 \| Line 437 \| char av;**
437		}
438
439
440	<	do_tri(mat, vn1, vn2, vn3) /* put out smoothed triangle */
441	<	char mat, vn1, vn2, vn3;
440	>	void
441	>	do_tri( /* put out smoothed triangle */
442	>	char *mat,
443	>	C_VERTEX *cv1,
444	>	C_VERTEX *cv2,
445	>	C_VERTEX *cv3,
446	>	int iv
447	>	)
448		{
449		static int ntris;
450		BARYCCM bvecs;
451	<	FLOAT bcoor[3][3];
452	<	C_VERTEX cv1, cv2, *cv3;
451	>	RREAL bcoor[3][3];
452	>	C_VERTEX *cvt;
453		FVECT v1, v2, v3;
454		FVECT n1, n2, n3;
455		register int i;
456	<	/* the following is repeat code, so assume it's OK */
457	<	cv2 = c_getvert(vn2);
458	<	if (invert) {
459	<	cv3 = c_getvert(vn1);
460	<	cv1 = c_getvert(vn3);
412	<	} else {
413	<	cv1 = c_getvert(vn1);
414	<	cv3 = c_getvert(vn3);
456	>
457	>	if (iv) { /* swap vertex order if inverted */
458	>	cvt = cv1;
459	>	cv1 = cv3;
460	>	cv3 = cvt;
461		}
462		xf_xfmpoint(v1, cv1->p);
463		xf_xfmpoint(v2, cv2->p);
#	Line 439 \| Line 485 \| *char mat, vn1, vn2, vn3;*
485		}
486
487
488	+	void
489	+	putsided(char mname) / print out mixfunc for sided material */
490	+	{
491	+	fprintf(matfp, "\nvoid mixfunc %s\n", mname);
492	+	fprintf(matfp, "4 %s void if(Rdot,1,0) .\n0\n0\n", mname);
493	+	}
494	+
495	+
496		char *
497	<	material() /* get (and print) current material */
497	>	material(void) /* get (and print) current material */
498		{
499		char *mname = "mat";
500		COLOR radrgb, c2;
501		double d;
448	–	register int i;
502
503		if (c_cmname != NULL)
504		mname = c_cmname;
#	Line 471 \| Line 524 \| *material() / get (and print) current material /*
524		}
525		d = c_cmaterial->rd + c_cmaterial->td +
526		c_cmaterial->rs + c_cmaterial->ts;
527	<	if (d < 0. \| d > 1.)
527	>	if ((d < 0.) \| (d > 1.))
528		return(NULL);
529		/* check for glass/dielectric */
530		if (c_cmaterial->nr > 1.1 &&
#	Line 502 \| Line 555 \| *material() / get (and print) current material /*
555		}
556		/* check for trans */
557		if (c_cmaterial->td > .01 \|\| c_cmaterial->ts > .01) {
558	<	double ts, a5, a6;
506	<
507	<	if (c_cmaterial->sided) {
508	<	ts = sqrt(c_cmaterial->ts); /* approximate */
509	<	a5 = .5;
510	<	} else {
511	<	ts = c_cmaterial->ts;
512	<	a5 = 1.;
513	<	}
558	>	double a5, a6;
559		/* average colors */
560	<	d = c_cmaterial->rd + c_cmaterial->td + ts;
560	>	d = c_cmaterial->rd + c_cmaterial->td + c_cmaterial->ts;
561		cvtcolor(radrgb, &c_cmaterial->rd_c, c_cmaterial->rd/d);
562		cvtcolor(c2, &c_cmaterial->td_c, c_cmaterial->td/d);
563		addcolor(radrgb, c2);
564	<	cvtcolor(c2, &c_cmaterial->ts_c, ts/d);
564	>	cvtcolor(c2, &c_cmaterial->ts_c, c_cmaterial->ts/d);
565		addcolor(radrgb, c2);
566	<	if (c_cmaterial->rs + ts > .0001)
566	>	if (c_cmaterial->rs + c_cmaterial->ts > .0001)
567		a5 = (c_cmaterial->rs*c_cmaterial->rs_a +
568	<	tsa5c_cmaterial->ts_a) /
569	<	(c_cmaterial->rs + ts);
570	<	a6 = (c_cmaterial->td + ts) /
571	<	(c_cmaterial->rd + c_cmaterial->td + ts);
568	>	c_cmaterial->ts*c_cmaterial->ts_a) /
569	>	(c_cmaterial->rs + c_cmaterial->ts);
570	>	a6 = (c_cmaterial->td + c_cmaterial->ts) /
571	>	(c_cmaterial->rd + c_cmaterial->td + c_cmaterial->ts);
572		if (a6 < .999)
573		d = c_cmaterial->rd/(1. - c_cmaterial->rs)/(1. - a6);
574		else
575	<	d = c_cmaterial->td + ts;
575	>	d = c_cmaterial->td + c_cmaterial->ts;
576		scalecolor(radrgb, d);
577		fprintf(matfp, "\nvoid trans %s\n0\n0\n", mname);
578		fprintf(matfp, "7 %f %f %f\n", colval(radrgb,RED),
579		colval(radrgb,GRN), colval(radrgb,BLU));
580		fprintf(matfp, "\t%f %f %f %f\n", c_cmaterial->rs, a5, a6,
581	<	ts/(ts + c_cmaterial->td));
581	>	c_cmaterial->ts/(c_cmaterial->ts + c_cmaterial->td));
582	>	if (c_cmaterial->sided)
583	>	putsided(mname);
584		return(mname);
585		}
586		/* check for plastic */
587	<	if (c_cmaterial->rs < .1 && (c_cmaterial->rs < .01 \|\|
587	>	if (c_cmaterial->rs < .08 && (c_cmaterial->rs < .1*c_cmaterial->rd \|\|
588		c_isgrey(&c_cmaterial->rs_c))) {
589		cvtcolor(radrgb, &c_cmaterial->rd_c,
590		c_cmaterial->rd/(1.-c_cmaterial->rs));
#	Line 545 \| Line 592 \| *material() / get (and print) current material /*
592		fprintf(matfp, "5 %f %f %f %f %f\n", colval(radrgb,RED),
593		colval(radrgb,GRN), colval(radrgb,BLU),
594		c_cmaterial->rs, c_cmaterial->rs_a);
595	+	if (c_cmaterial->sided)
596	+	putsided(mname);
597		return(mname);
598		}
599		/* else it's metal */
#	Line 557 \| Line 606 \| *material() / get (and print) current material /*
606		colval(radrgb,GRN), colval(radrgb,BLU),
607		c_cmaterial->rs/(c_cmaterial->rd + c_cmaterial->rs),
608		c_cmaterial->rs_a);
609	+	if (c_cmaterial->sided)
610	+	putsided(mname);
611		return(mname);
612		}
613
614
615	<	cvtcolor(radrgb, ciec, intensity) /* convert a CIE XYZ color to RGB */
616	<	COLOR radrgb;
617	<	register C_COLOR *ciec;
618	<	double intensity;
615	>	void
616	>	cvtcolor( /* convert a CIE XYZ color to RGB */
617	>	COLOR radrgb,
618	>	register C_COLOR *ciec,
619	>	double intensity
620	>	)
621		{
622		static COLOR ciexyz;
623
#	Line 577 \| Line 630 \| double intensity;
630
631
632		char *
633	<	object() /* return current object name */
633	>	object(void) /* return current object name */
634		{
635		static char objbuf[64];
636		register int i;
#	Line 599 \| Line 652 \| *object() / return current object name /*
652
653
654		char *
655	<	addarg(op, arg) /* add argument and advance pointer */
656	<	register char op, arg;
655	>	addarg( /* add argument and advance pointer */
656	>	register char *op,
657	>	register char *arg
658	>	)
659		{
660		*op = ' ';
661	<	while (++op = arg++)
661	>	while ( (++op = arg++) )
662		;
663		return(op);
664		}

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Comparing src/cv/mgf2rad.c (file contents): Revision 2.18 by greg, Thu May 11 20:17:56 1995 UTC vs. Revision 2.31 by greg, Mon Oct 3 18:16:45 2016 UTC

Diff Legend

Comparing src/cv/mgf2rad.c (file contents):
Revision 2.18 by greg, Thu May 11 20:17:56 1995 UTC vs.
Revision 2.31 by greg, Mon Oct 3 18:16:45 2016 UTC