[ViewVC] Diff of: radiance/ray/src/gen/xform.c

Comparing ray/src/gen/xform.c (file contents):
Revision 1.8 by greg, Thu Oct 5 09:49:04 1989 UTC vs.
Revision 1.17 by greg, Wed Oct 23 15:37:47 1991 UTC

#	Line 1 \| Line 1
1	<	/* Copyright (c) 1986 Regents of the University of California */
1	>	/* Copyright (c) 1991 Regents of the University of California */
2
3		#ifndef lint
4		static char SCCSid[] = "$SunId$ LBL";
#	Line 12 \| Line 12 \| static char SCCSid[] = "$SunId$ LBL";
12		* 11/6/86 Finally added error checking!
13		*/
14
15	<	#include <stdio.h>
15	>	#include "standard.h"
16
17		#include <ctype.h>
18
19	+	#include "object.h"
20
21	<	typedef struct {
21	<	char funame; / function name */
22	<	int (funp)(); / pointer to function */
23	<	} FUN;
21	>	#include "otypes.h"
22
23		int xac; /* global xform argument count */
24		char *xav; / global xform argument pointer */
25		int xfa; /* start of xf arguments */
26
27	<	double totxform[4][4]; /* total transformation matrix */
28	<	double totscale; /* total scale factor */
31	<	int reverse; /* boolean true if scene inverted */
27	>	XF tot; /* total transformation */
28	>	int reverse; /* boolean true if scene mirrored */
29
30	+	int invert = 0; /* boolean true to invert surfaces */
31	+
32		int expand = 0; /* boolean true to expand commands */
33
34	+	char newmod = NULL; / new modifier for surfaces */
35	+
36		char idprefix = NULL; / prefix for object identifiers */
37
38	<	extern int o_source();
38	<	extern int o_sphere();
39	<	extern int o_face();
40	<	extern int o_cone();
41	<	extern int o_cylinder();
42	<	extern int o_ring();
43	<	extern int m_glow();
44	<	extern int m_spot();
45	<	extern int m_dielectric();
46	<	extern int m_interface();
47	<	extern int text();
48	<	extern int alias();
49	<	extern int passargs();
50	<	extern int addxform();
38	>	#define ALIAS NUMOTYPE /* put alias at end of array */
39
40	<	FUN ofun[] = {
53	<	{ "source", o_source },
54	<	{ "sphere", o_sphere },
55	<	{ "bubble", o_sphere },
56	<	{ "polygon", o_face },
57	<	{ "cone", o_cone },
58	<	{ "cup", o_cone },
59	<	{ "cylinder", o_cylinder },
60	<	{ "tube", o_cylinder },
61	<	{ "ring", o_ring },
62	<	{ "instance", addxform },
63	<	{ "alias", alias },
64	<	{ "antimatter", passargs },
65	<	{ "glow", m_glow },
66	<	{ "spotlight", m_spot },
67	<	{ "dielectric", m_dielectric },
68	<	{ "interface", m_interface },
69	<	{ "colortext", text },
70	<	{ "brighttext", text },
71	<	{ "texfunc", addxform },
72	<	{ "texdata", addxform },
73	<	{ "colorfunc", addxform },
74	<	{ "brightfunc", addxform },
75	<	{ "colorpict", addxform },
76	<	{ "colordata", addxform },
77	<	{ "brightdata", addxform },
78	<	{ "mixfunc", addxform },
79	<	{ "mixdata", addxform },
80	<	{ "mixtext", text },
81	<	{ "light", passargs },
82	<	{ "illum", passargs },
83	<	{ "plastic", passargs },
84	<	{ "metal", passargs },
85	<	{ "trans", passargs },
86	<	{ "glass", passargs },
87	<	{ 0 } /* terminator */
88	<	};
40	>	#define NUMTYPES (NUMOTYPE+1) /* total number of object types */
41
42	<	#define issurface(t) ((t)<=9)
42	>	FUN ofun[NUMTYPES] = INIT_OTYPE; /* default types and actions */
43
44	<	typedef struct {
93	<	short nsargs; /* # of string arguments */
94	<	char *sarg; / string arguments */
95	<	short niargs; /* # of integer arguments */
96	<	int iarg; / integer arguments */
97	<	short nfargs; /* # of float arguments */
98	<	double farg; / float arguments */
99	<	} FUNARGS;
44	>	short tinvers[NUMOTYPE]; /* inverse types for surfaces */
45
46	<	#define MAXSTR 512 /* maximum string length */
46	>	extern char malloc(), fgetword();
47
103	–	FUNARGS *getfargs();
104	–	char *malloc();
105	–
48		#define progname (xav[0])
49
50
#	Line 118 \| Line 60 \| *char argv[];**
60		if (!strcmp(argv[a], "-a"))
61		return(doarray(argc, argv, a));
62
63	+	initotypes();
64	+
65		for (a = 1; a < argc; a++) {
66		if (argv[a][0] == '-')
67		switch (argv[a][1]) {
68	+	case 'm':
69	+	if (argv[a][2] \|\| a+1 >= argc)
70	+	break;
71	+	newmod = argv[++a];
72	+	continue;
73		case 'n':
74	+	if (argv[a][2] \|\| a+1 >= argc)
75	+	break;
76		idprefix = argv[++a];
77		continue;
78		case 'e':
79	+	if (argv[a][2])
80	+	break;
81		expand = 1;
82		continue;
83	+	case 'I':
84	+	if (argv[a][2])
85	+	break;
86	+	invert = 1;
87	+	continue;
88		}
89		break;
90		}
#	Line 134 \| Line 92 \| *char argv[];**
92		xav = argv;
93		xfa = a;
94
95	<	totscale = 1.0;
138	<	setident4(totxform);
95	>	a += xf(&tot, argc-a, argv+a);
96
97	<	a += xf(totxform, &totscale, argc-a, argv+a);
97	>	if (reverse = tot.sca < 0.0)
98	>	tot.sca = -tot.sca;
99	>	if (invert)
100	>	reverse = !reverse;
101
102	<	if (reverse = totscale < 0.0)
103	<	totscale = -totscale;
102	>	if (a < argc && argv[a][0] == '-') {
103	>	fprintf(stderr, "%s: command line error at '%s'\n",
104	>	argv[0], argv[a]);
105	>	exit(1);
106	>	}
107
108		xac = a;
109	<
110	<	putchar('#'); /* simple header */
109	>	/* simple header */
110	>	putchar('#');
111		for (a = 0; a < xac; a++)
112		printf(" %s", xav[a]);
113		putchar('\n');
114	<
115	<	if (a == argc)
114	>	/* transform input */
115	>	if (xac == argc)
116		xform("standard input", stdin);
117		else
118	<	for ( ; a < argc; a++) {
118	>	for (a = xac; a < argc; a++) {
119		if ((fp = fopen(argv[a], "r")) == NULL) {
120		fprintf(stderr, "%s: cannot open \"%s\"\n",
121		progname, argv[a]);
#	Line 206 \| Line 169 \| int ac, ai;
169		}
170
171
172	<	xform(name, fin) /* transform stream by totxform */
172	>	xform(name, fin) /* transform stream by tot.xfm */
173		char *name;
174		register FILE *fin;
175		{
#	Line 244 \| Line 207 \| *FILE fin;**
207
208		fgetline(buf, sizeof(buf), fin);
209		if (expand) {
210	<	if ((pin = popen(buf+1, "r")) == NULL) {
211	<	fprintf(stderr, "%s: (%s): cannot execute \"%s\"\n",
212	<	progname, fname, buf);
213	<	exit(1);
210	>	if (xac > 2) {
211	>	if ((pin = popen(buf+1, "r")) == NULL) {
212	>	fprintf(stderr,
213	>	"%s: (%s): cannot execute \"%s\"\n",
214	>	progname, fname, buf);
215	>	exit(1);
216	>	}
217	>	xform(buf, pin);
218	>	pclose(pin);
219	>	} else {
220	>	fflush(stdout);
221	>	system(buf+1);
222		}
252	–	xform(buf, pin);
253	–	pclose(pin);
223		} else {
224	<	printf("\n%s \| %s -e", buf, xav[0]);
225	<	for (i = 1; i < xac; i++)
226	<	printf(" %s", xav[i]);
224	>	printf("\n%s", buf);
225	>	if (xac > 1) {
226	>	printf(" \| %s -e", xav[0]);
227	>	for (i = 1; i < xac; i++)
228	>	printf(" %s", xav[i]);
229	>	}
230		putchar('\n');
231		}
232		}
#	Line 264 \| Line 236 \| *xfobject(fname, fin) / transform an object /*
236		char *fname;
237		FILE *fin;
238		{
239	<	char stmp[MAXSTR];
239	>	extern char *strcpy();
240	>	char typ[16], nam[MAXSTR];
241		int fn;
242	<
243	<	fscanf(fin, "%s", stmp); /* modifier */
244	<	printf("\n%s ", stmp);
245	<	fscanf(fin, "%s", stmp); /* object type */
246	<	if ((fn = otype(stmp)) < 0) {
242	>	/* modifier and type */
243	>	strcpy(typ, "EOF");
244	>	fgetword(nam, sizeof(nam), fin);
245	>	fgetword(typ, sizeof(typ), fin);
246	>	if ((fn = otype(typ)) < 0) {
247		fprintf(stderr, "%s: (%s): unknown object type \"%s\"\n",
248	<	progname, fname, stmp);
248	>	progname, fname, typ);
249		exit(1);
250		}
251	<	printf("%s ", stmp);
252	<	fscanf(fin, "%s", stmp); /* object name */
251	>	if (issurface(fn))
252	>	printf("\n%s %s ", newmod != NULL ? newmod : nam,
253	>	invert ? ofun[tinvers[fn]].funame : typ);
254	>	else
255	>	printf("\n%s %s ", nam, typ);
256	>	/* object name */
257	>	fgetword(nam, sizeof(nam), fin);
258		if (idprefix != NULL && issurface(fn))
259	<	printf("%s.%s\n", idprefix, stmp);
259	>	printf("%s.%s\n", idprefix, nam);
260		else
261	<	printf("%s\n", stmp);
262	<	/* transform arguments */
261	>	printf("%s\n", nam);
262	>	/* transform arguments */
263		if ((*ofun[fn].funp)(fin) < 0) {
264		fprintf(stderr, "%s: (%s): bad %s \"%s\"\n",
265	<	progname, fname, ofun[fn].funame, stmp);
265	>	progname, fname, ofun[fn].funame, nam);
266		exit(1);
267		}
268		}
269
270
271	<	passargs(fin) /* pass on arguments unchanged */
271	>	o_default(fin) /* pass on arguments unchanged */
272		FILE *fin;
273		{
274		register int i;
275	<	register FUNARGS *fa;
275	>	FUNARGS fa;
276
277	<	if ((fa = getfargs(fin)) == NULL)
277	>	if (readfargs(&fa, fin) != 1)
278		return(-1);
279		/* string arguments */
280	<	printf("%d", fa->nsargs);
281	<	for (i = 0; i < fa->nsargs; i++)
282	<	printf(" %s", fa->sarg[i]);
280	>	printf("%d", fa.nsargs);
281	>	for (i = 0; i < fa.nsargs; i++)
282	>	printf(" %s", fa.sarg[i]);
283		printf("\n");
284	+	#ifdef IARGS
285		/* integer arguments */
286	<	printf("%d", fa->niargs);
287	<	for (i = 0; i < fa->niargs; i++)
288	<	printf(" %d", fa->iarg[i]);
286	>	printf("%d", fa.niargs);
287	>	for (i = 0; i < fa.niargs; i++)
288	>	printf(" %d", fa.iarg[i]);
289		printf("\n");
290	+	#else
291	+	printf("0\n");
292	+	#endif
293		/* float arguments */
294	<	printf("%d", fa->nfargs);
295	<	for (i = 0; i < fa->nfargs; i++)
296	<	printf(" %18.12g", fa->farg[i]);
294	>	printf("%d", fa.nfargs);
295	>	for (i = 0; i < fa.nfargs; i++)
296	>	printf(" %18.12g", fa.farg[i]);
297		printf("\n");
298	<	freefargs(fa);
298	>	freefargs(&fa);
299		return(0);
300		}
301
#	Line 322 \| Line 304 \| *addxform(fin) / add xf arguments to strings /*
304		FILE *fin;
305		{
306		register int i;
307	<	register FUNARGS *fa;
307	>	FUNARGS fa;
308
309	<	if ((fa = getfargs(fin)) == NULL)
309	>	if (readfargs(&fa, fin) != 1)
310		return(-1);
311		/* string arguments */
312	<	printf("%d", fa->nsargs + xac-xfa);
313	<	for (i = 0; i < fa->nsargs; i++)
314	<	printf(" %s", fa->sarg[i]);
312	>	printf("%d", fa.nsargs + xac-xfa);
313	>	for (i = 0; i < fa.nsargs; i++)
314	>	printf(" %s", fa.sarg[i]);
315		for (i = xfa; i < xac; i++) /* add xf arguments */
316		printf(" %s", xav[i]);
317		printf("\n");
318	+	#ifdef IARGS
319		/* integer arguments */
320	<	printf("%d", fa->niargs);
321	<	for (i = 0; i < fa->niargs; i++)
322	<	printf(" %d", fa->iarg[i]);
320	>	printf("%d", fa.niargs);
321	>	for (i = 0; i < fa.niargs; i++)
322	>	printf(" %d", fa.iarg[i]);
323		printf("\n");
324	+	#else
325	+	printf("0\n");
326	+	#endif
327		/* float arguments */
328	<	printf("%d", fa->nfargs);
329	<	for (i = 0; i < fa->nfargs; i++)
330	<	printf(" %18.12g", fa->farg[i]);
328	>	printf("%d", fa.nfargs);
329	>	for (i = 0; i < fa.nfargs; i++)
330	>	printf(" %18.12g", fa.farg[i]);
331		printf("\n");
332	<	freefargs(fa);
332	>	freefargs(&fa);
333		return(0);
334		}
335
#	Line 354 \| Line 340 \| *register char ofname;**
340		{
341		register int i;
342
343	<	for (i = 0; ofun[i].funame != NULL; i++)
343	>	for (i = 0; i < NUMTYPES; i++)
344		if (!strcmp(ofun[i].funame, ofname))
345		return(i);
346
#	Line 365 \| Line 351 \| *register char ofname;**
351		alias(fin) /* transfer alias */
352		FILE *fin;
353		{
354	<	char alias[MAXSTR];
354	>	char aliasnm[MAXSTR];
355
356	<	if (fscanf(fin, "%s", alias) != 1)
356	>	if (fgetword(aliasnm, MAXSTR, fin) == NULL)
357		return(-1);
358	<	printf("\t%s\n", alias);
358	>	printf("\t%s\n", aliasnm);
359		return(0);
360		}
361
#	Line 377 \| Line 363 \| *FILE fin;**
363		m_glow(fin) /* transform arguments for proximity light */
364		FILE *fin;
365		{
366	<	register FUNARGS *fa;
366	>	FUNARGS fa;
367
368	<	if ((fa = getfargs(fin)) == NULL)
368	>	if (readfargs(&fa, fin) != 1)
369		return(-1);
370	<	if (fa->nsargs != 0 \|\| fa->niargs != 0 \|\| fa->nfargs != 4)
370	>	if (fa.nsargs != 0 \|\| fa.nfargs != 4)
371		return(-1);
372		printf("0\n0\n4");
373		printf(" %18.12g %18.12g %18.12g",
374	<	fa->farg[0], fa->farg[1], fa->farg[2]);
375	<	printf(" %18.12g\n", fa->farg[3] * totscale);
376	<	freefargs(fa);
374	>	fa.farg[0], fa.farg[1], fa.farg[2]);
375	>	printf(" %18.12g\n", fa.farg[3] * tot.sca);
376	>	freefargs(&fa);
377		return(0);
378		}
379
#	Line 395 \| Line 381 \| *FILE fin;**
381		m_spot(fin) /* transform arguments for spotlight */
382		FILE *fin;
383		{
384	<	double v[3];
385	<	register FUNARGS *fa;
384	>	FVECT v;
385	>	FUNARGS fa;
386
387	<	if ((fa = getfargs(fin)) == NULL)
387	>	if (readfargs(&fa, fin) != 1)
388		return(-1);
389	<	if (fa->nsargs != 0 \|\| fa->niargs != 0 \|\| fa->nfargs != 7)
389	>	if (fa.nsargs != 0 \|\| fa.nfargs != 7)
390		return(-1);
391		printf("0\n0\n7");
392		printf(" %18.12g %18.12g %18.12g %18.12g\n",
393	<	fa->farg[0], fa->farg[1], fa->farg[2], fa->farg[3]);
394	<	multv3(v, fa->farg+4, totxform);
393	>	fa.farg[0], fa.farg[1], fa.farg[2], fa.farg[3]);
394	>	multv3(v, fa.farg+4, tot.xfm);
395		printf("\t%18.12g %18.12g %18.12g\n", v[0], v[1], v[2]);
396	<	freefargs(fa);
396	>	freefargs(&fa);
397		return(0);
398		}
399
#	Line 416 \| Line 402 \| *m_dielectric(fin) / transform arguments for dielectr**
402		FILE *fin;
403		{
404		double pow();
405	<	register FUNARGS *fa;
405	>	FUNARGS fa;
406
407	<	if ((fa = getfargs(fin)) == NULL)
407	>	if (readfargs(&fa, fin) != 1)
408		return(-1);
409	<	if (fa->nsargs != 0 \|\| fa->niargs != 0 \|\| fa->nfargs != 5)
409	>	if (fa.nsargs != 0 \|\| fa.nfargs != 5)
410		return(-1);
411		printf("0\n0\n5");
412		printf(" %18.12g %18.12g %18.12g",
413	<	pow(fa->farg[0], 1.0/totscale),
414	<	pow(fa->farg[1], 1.0/totscale),
415	<	pow(fa->farg[2], 1.0/totscale));
416	<	printf(" %18.12g %18.12g\n", fa->farg[3], fa->farg[4]);
417	<	freefargs(fa);
413	>	pow(fa.farg[0], 1.0/tot.sca),
414	>	pow(fa.farg[1], 1.0/tot.sca),
415	>	pow(fa.farg[2], 1.0/tot.sca));
416	>	printf(" %18.12g %18.12g\n", fa.farg[3], fa.farg[4]);
417	>	freefargs(&fa);
418		return(0);
419		}
420
#	Line 437 \| Line 423 \| *m_interface(fin) / transform arguments for interface**
423		FILE *fin;
424		{
425		double pow();
426	<	register FUNARGS *fa;
426	>	FUNARGS fa;
427
428	<	if ((fa = getfargs(fin)) == NULL)
428	>	if (readfargs(&fa, fin) != 1)
429		return(-1);
430	<	if (fa->nsargs != 0 \|\| fa->niargs != 0 \|\| fa->nfargs != 8)
430	>	if (fa.nsargs != 0 \|\| fa.nfargs != 8)
431		return(-1);
432		printf("0\n0\n8\n");
433		printf("%18.12g %18.12g %18.12g",
434	<	pow(fa->farg[0], 1.0/totscale),
435	<	pow(fa->farg[1], 1.0/totscale),
436	<	pow(fa->farg[2], 1.0/totscale));
437	<	printf(" %18.12g\n", fa->farg[3]);
434	>	pow(fa.farg[0], 1.0/tot.sca),
435	>	pow(fa.farg[1], 1.0/tot.sca),
436	>	pow(fa.farg[2], 1.0/tot.sca));
437	>	printf(" %18.12g\n", fa.farg[3]);
438		printf("%18.12g %18.12g %18.12g",
439	<	pow(fa->farg[4], 1.0/totscale),
440	<	pow(fa->farg[5], 1.0/totscale),
441	<	pow(fa->farg[6], 1.0/totscale));
442	<	printf(" %18.12g\n", fa->farg[7]);
443	<	freefargs(fa);
439	>	pow(fa.farg[4], 1.0/tot.sca),
440	>	pow(fa.farg[5], 1.0/tot.sca),
441	>	pow(fa.farg[6], 1.0/tot.sca));
442	>	printf(" %18.12g\n", fa.farg[7]);
443	>	freefargs(&fa);
444		return(0);
445		}
446
#	Line 463 \| Line 449 \| *text(fin) / transform text arguments /*
449		FILE *fin;
450		{
451		int i;
452	<	double v[3];
453	<	register FUNARGS *fa;
452	>	FVECT v;
453	>	FUNARGS fa;
454
455	<	if ((fa = getfargs(fin)) == NULL)
455	>	if (readfargs(&fa, fin) != 1)
456		return(-1);
457	<	if (fa->niargs != 0 \|\| (fa->nfargs != 9 &&
472	<	fa->nfargs != 11 && fa->nfargs != 15))
457	>	if (fa.nfargs != 9 && fa.nfargs != 11 && fa.nfargs != 15)
458		return(-1);
459		/* string arguments */
460	<	printf("%d", fa->nsargs);
461	<	for (i = 0; i < fa->nsargs; i++)
462	<	printf(" %s", fa->sarg[i]);
463	<	printf("\n0\n%d\n", fa->nfargs);
460	>	printf("%d", fa.nsargs);
461	>	for (i = 0; i < fa.nsargs; i++)
462	>	printf(" %s", fa.sarg[i]);
463	>	printf("\n0\n%d\n", fa.nfargs);
464		/* anchor point */
465	<	multp3(v, fa->farg, totxform);
465	>	multp3(v, fa.farg, tot.xfm);
466		printf(" %18.12g %18.12g %18.12g\n", v[0], v[1], v[2]);
467		/* right vector */
468	<	multv3(v, fa->farg+3, totxform);
468	>	multv3(v, fa.farg+3, tot.xfm);
469		printf(" %18.12g %18.12g %18.12g\n", v[0], v[1], v[2]);
470		/* down vector */
471	<	multv3(v, fa->farg+6, totxform);
471	>	multv3(v, fa.farg+6, tot.xfm);
472		printf(" %18.12g %18.12g %18.12g\n", v[0], v[1], v[2]);
473		/* forground and background */
474	<	if (fa->nfargs == 11)
475	<	printf(" %18.12g %18.12g\n", fa->farg[9], fa->farg[10]);
476	<	else if (fa->nfargs == 15) {
474	>	if (fa.nfargs == 11)
475	>	printf(" %18.12g %18.12g\n", fa.farg[9], fa.farg[10]);
476	>	else if (fa.nfargs == 15) {
477		printf(" %18.12g %18.12g %18.12g\n",
478	<	fa->farg[9], fa->farg[10], fa->farg[11]);
478	>	fa.farg[9], fa.farg[10], fa.farg[11]);
479		printf(" %18.12g %18.12g %18.12g\n",
480	<	fa->farg[12], fa->farg[13], fa->farg[14]);
480	>	fa.farg[12], fa.farg[13], fa.farg[14]);
481		}
482	<	freefargs(fa);
482	>	freefargs(&fa);
483		return(0);
484		}
485
#	Line 502 \| Line 487 \| *FILE fin;**
487		o_source(fin) /* transform source arguments */
488		FILE *fin;
489		{
490	<	double dv[3];
491	<	register FUNARGS *fa;
490	>	FVECT dv;
491	>	FUNARGS fa;
492
493	<	if ((fa = getfargs(fin)) == NULL)
493	>	if (readfargs(&fa, fin) != 1)
494		return(-1);
495	<	if (fa->nsargs != 0 \|\| fa->niargs != 0 \|\| fa->nfargs != 4)
495	>	if (fa.nsargs != 0 \|\| fa.nfargs != 4)
496		return(-1);
497		/* transform direction vector */
498	<	multv3(dv, fa->farg, totxform);
498	>	multv3(dv, fa.farg, tot.xfm);
499		/* output */
500		printf("0\n0\n4");
501		printf(" %18.12g %18.12g %18.12g %18.12g\n",
502	<	dv[0], dv[1], dv[2], fa->farg[3]);
503	<	freefargs(fa);
502	>	dv[0], dv[1], dv[2], fa.farg[3]);
503	>	freefargs(&fa);
504		return(0);
505		}
506
#	Line 523 \| Line 508 \| *FILE fin;**
508		o_sphere(fin) /* transform sphere arguments */
509		FILE *fin;
510		{
511	<	double cent[3], rad;
512	<	register FUNARGS *fa;
511	>	FVECT cent;
512	>	double rad;
513	>	FUNARGS fa;
514
515	<	if ((fa = getfargs(fin)) == NULL)
515	>	if (readfargs(&fa, fin) != 1)
516		return(-1);
517	<	if (fa->nsargs != 0 \|\| fa->niargs != 0 \|\| fa->nfargs != 4)
517	>	if (fa.nsargs != 0 \|\| fa.nfargs != 4)
518		return(-1);
519
520	<	multp3(cent, fa->farg, totxform); /* transform center */
520	>	multp3(cent, fa.farg, tot.xfm); /* transform center */
521
522	<	rad = fa->farg[3] * totscale; /* scale radius */
522	>	rad = fa.farg[3] * tot.sca; /* scale radius */
523
524		printf("0\n0\n4");
525		printf(" %18.12g %18.12g %18.12g %18.12g\n",
526		cent[0], cent[1], cent[2], rad);
527	<	freefargs(fa);
527	>	freefargs(&fa);
528		return(0);
529		}
530
#	Line 546 \| Line 532 \| *FILE fin;**
532		o_face(fin) /* transform face arguments */
533		FILE *fin;
534		{
535	<	double p[3];
535	>	FVECT p;
536		register int i;
537	<	register FUNARGS *fa;
537	>	FUNARGS fa;
538
539	<	if ((fa = getfargs(fin)) == NULL)
539	>	if (readfargs(&fa, fin) != 1)
540		return(-1);
541	<	if (fa->nsargs != 0 \|\| fa->niargs != 0 \|\| fa->nfargs % 3)
541	>	if (fa.nsargs != 0 \|\| fa.nfargs % 3)
542		return(-1);
543
544	<	printf("0\n0\n%d\n", fa->nfargs);
544	>	printf("0\n0\n%d\n", fa.nfargs);
545
546	<	for (i = 0; i < fa->nfargs; i += 3) {
546	>	for (i = 0; i < fa.nfargs; i += 3) {
547		if (reverse)
548	<	multp3(p, fa->farg+(fa->nfargs-i-3), totxform);
548	>	multp3(p, fa.farg+(fa.nfargs-i-3), tot.xfm);
549		else
550	<	multp3(p, fa->farg+i, totxform);
550	>	multp3(p, fa.farg+i, tot.xfm);
551		printf(" %18.12g %18.12g %18.12g\n", p[0], p[1], p[2]);
552		}
553	<	freefargs(fa);
553	>	freefargs(&fa);
554		return(0);
555		}
556
#	Line 572 \| Line 558 \| *FILE fin;**
558		o_cone(fin) /* transform cone and cup arguments */
559		FILE *fin;
560		{
561	<	double p0[3], p1[3], r0, r1;
562	<	register FUNARGS *fa;
561	>	FVECT p0, p1;
562	>	double r0, r1;
563	>	FUNARGS fa;
564
565	<	if ((fa = getfargs(fin)) == NULL)
565	>	if (readfargs(&fa, fin) != 1)
566		return(-1);
567	<	if (fa->nsargs != 0 \|\| fa->niargs != 0 \|\| fa->nfargs != 8)
567	>	if (fa.nsargs != 0 \|\| fa.nfargs != 8)
568		return(-1);
569
570		printf("0\n0\n8\n");
571
572	<	multp3(p0, fa->farg, totxform);
573	<	multp3(p1, fa->farg+3, totxform);
574	<	r0 = fa->farg[6] * totscale;
575	<	r1 = fa->farg[7] * totscale;
572	>	multp3(p0, fa.farg, tot.xfm);
573	>	multp3(p1, fa.farg+3, tot.xfm);
574	>	r0 = fa.farg[6] * tot.sca;
575	>	r1 = fa.farg[7] * tot.sca;
576		printf(" %18.12g %18.12g %18.12g\n", p0[0], p0[1], p0[2]);
577		printf(" %18.12g %18.12g %18.12g\n", p1[0], p1[1], p1[2]);
578		printf(" %18.12g %18.12g\n", r0, r1);
579
580	<	freefargs(fa);
580	>	freefargs(&fa);
581		return(0);
582		}
583
#	Line 598 \| Line 585 \| *FILE fin;**
585		o_cylinder(fin) /* transform cylinder and tube arguments */
586		FILE *fin;
587		{
588	<	double p0[3], p1[3], rad;
589	<	register FUNARGS *fa;
588	>	FVECT p0, p1;
589	>	double rad;
590	>	FUNARGS fa;
591
592	<	if ((fa = getfargs(fin)) == NULL)
592	>	if (readfargs(&fa, fin) != 1)
593		return(-1);
594	<	if (fa->nsargs != 0 \|\| fa->niargs != 0 \|\| fa->nfargs != 7)
594	>	if (fa.nsargs != 0 \|\| fa.nfargs != 7)
595		return(-1);
596
597		printf("0\n0\n7\n");
598
599	<	multp3(p0, fa->farg, totxform);
600	<	multp3(p1, fa->farg+3, totxform);
601	<	rad = fa->farg[6] * totscale;
599	>	multp3(p0, fa.farg, tot.xfm);
600	>	multp3(p1, fa.farg+3, tot.xfm);
601	>	rad = fa.farg[6] * tot.sca;
602		printf(" %18.12g %18.12g %18.12g\n", p0[0], p0[1], p0[2]);
603		printf(" %18.12g %18.12g %18.12g\n", p1[0], p1[1], p1[2]);
604		printf(" %18.12g\n", rad);
605	<	freefargs(fa);
605	>	freefargs(&fa);
606		return(0);
607		}
608
#	Line 622 \| Line 610 \| *FILE fin;**
610		o_ring(fin) /* transform ring arguments */
611		FILE *fin;
612		{
613	<	double p0[3], pd[3], r0, r1;
614	<	register FUNARGS *fa;
613	>	FVECT p0, pd;
614	>	double r0, r1;
615	>	FUNARGS fa;
616
617	<	if ((fa = getfargs(fin)) == NULL)
617	>	if (readfargs(&fa, fin) != 1)
618		return(-1);
619	<	if (fa->nsargs != 0 \|\| fa->niargs != 0 \|\| fa->nfargs != 8)
619	>	if (fa.nsargs != 0 \|\| fa.nfargs != 8)
620		return(-1);
621
622		printf("0\n0\n8\n");
623
624	<	multp3(p0, fa->farg, totxform);
625	<	multv3(pd, fa->farg+3, totxform);
626	<	r0 = fa->farg[6] * totscale;
627	<	r1 = fa->farg[7] * totscale;
624	>	multp3(p0, fa.farg, tot.xfm);
625	>	multv3(pd, fa.farg+3, tot.xfm);
626	>	if (invert) {
627	>	pd[0] = -pd[0];
628	>	pd[1] = -pd[1];
629	>	pd[2] = -pd[2];
630	>	}
631	>	r0 = fa.farg[6] * tot.sca;
632	>	r1 = fa.farg[7] * tot.sca;
633		printf(" %18.12g %18.12g %18.12g\n", p0[0], p0[1], p0[2]);
634		printf(" %18.12g %18.12g %18.12g\n", pd[0], pd[1], pd[2]);
635		printf(" %18.12g %18.12g\n", r0, r1);
636	<	freefargs(fa);
636	>	freefargs(&fa);
637		return(0);
638		}
639
640
641	<	FUNARGS *
648	<	getfargs(fp) /* get function arguments from stream */
649	<	FILE *fp;
641	>	initotypes() /* initialize ofun[] array */
642		{
643	<	char *strcpy();
644	<	char sbuf[MAXSTR];
645	<	int n;
646	<	register FUNARGS *fa;
643	>	extern int o_source();
644	>	extern int o_sphere();
645	>	extern int o_face();
646	>	extern int o_cone();
647	>	extern int o_cylinder();
648	>	extern int o_ring();
649	>	extern int m_glow();
650	>	extern int m_spot();
651	>	extern int m_dielectric();
652	>	extern int m_interface();
653	>	extern int text();
654	>	extern int alias();
655	>	extern int passargs();
656	>	extern int addxform();
657		register int i;
658
659	<	if ((fa = (FUNARGS *)malloc((unsigned)sizeof(FUNARGS))) == NULL)
660	<	goto memerr;
661	<	if (fscanf(fp, "%d", &n) != 1 \|\| n < 0)
662	<	return(NULL);
663	<	if (fa->nsargs = n) {
664	<	fa->sarg = (char *)malloc((unsigned)fa->nsargssizeof(char *));
665	<	if (fa->sarg == NULL)
666	<	goto memerr;
667	<	for (i = 0; i < fa->nsargs; i++) {
668	<	if (fscanf(fp, "%s", sbuf) != 1)
669	<	return(NULL);
670	<	if ((fa->sarg[i] = malloc((unsigned)strlen(sbuf)+1)) == NULL)
671	<	goto memerr;
672	<	strcpy(fa->sarg[i], sbuf);
673	<	}
674	<	} else
675	<	fa->sarg = NULL;
676	<	if (fscanf(fp, "%d", &n) != 1 \|\| n < 0)
677	<	return(NULL);
678	<	if (fa->niargs = n) {
679	<	fa->iarg = (int )malloc((unsigned)fa->niargssizeof(int));
680	<	if (fa->iarg == NULL)
681	<	goto memerr;
682	<	for (i = 0; i < fa->niargs; i++)
683	<	if (fscanf(fp, "%d", &fa->iarg[i]) != 1)
684	<	return(NULL);
685	<	} else
686	<	fa->iarg = NULL;
687	<	if (fscanf(fp, "%d", &n) != 1 \|\| n < 0)
688	<	return(NULL);
689	<	if (fa->nfargs = n) {
690	<	fa->farg = (double )malloc((unsigned)fa->nfargssizeof(double));
691	<	if (fa->farg == NULL)
692	<	goto memerr;
693	<	for (i = 0; i < fa->nfargs; i++)
694	<	if (fscanf(fp, "%lf", &fa->farg[i]) != 1)
695	<	return(NULL);
696	<	} else
695	<	fa->farg = NULL;
696	<	return(fa);
697	<	memerr:
698	<	fprintf(stderr, "%s: out of memory in getfargs\n", progname);
699	<	exit(1);
700	<	}
701	<
702	<
703	<	freefargs(fa) /* free memory associated with fa */
704	<	register FUNARGS *fa;
705	<	{
706	<	register int i;
707	<
708	<	for (i = 0; i < fa->nsargs; i++)
709	<	free(fa->sarg[i]);
710	<	if (fa->nsargs)
711	<	free(fa->sarg);
712	<	if (fa->niargs)
713	<	free(fa->iarg);
714	<	if (fa->nfargs)
715	<	free(fa->farg);
716	<	free(fa);
659	>	if (ofun[OBJ_SOURCE].funp == o_source)
660	>	return; /* done already */
661	>	/* alias is additional */
662	>	ofun[ALIAS].funame = ALIASID;
663	>	ofun[ALIAS].flags = 0;
664	>	/* functions get new transform */
665	>	for (i = 0; i < NUMTYPES; i++)
666	>	if (hasfunc(i))
667	>	ofun[i].funp = addxform;
668	>	/* special cases */
669	>	ofun[OBJ_SOURCE].funp = o_source;
670	>	ofun[OBJ_SPHERE].funp =
671	>	ofun[OBJ_BUBBLE].funp = o_sphere;
672	>	ofun[OBJ_FACE].funp = o_face;
673	>	ofun[OBJ_CONE].funp =
674	>	ofun[OBJ_CUP].funp = o_cone;
675	>	ofun[OBJ_CYLINDER].funp =
676	>	ofun[OBJ_TUBE].funp = o_cylinder;
677	>	ofun[OBJ_RING].funp = o_ring;
678	>	ofun[OBJ_INSTANCE].funp = addxform;
679	>	ofun[MAT_GLOW].funp = m_glow;
680	>	ofun[MAT_SPOT].funp = m_spot;
681	>	ofun[MAT_DIELECTRIC].funp = m_dielectric;
682	>	ofun[MAT_INTERFACE].funp = m_interface;
683	>	ofun[PAT_CTEXT].funp =
684	>	ofun[PAT_BTEXT].funp =
685	>	ofun[MIX_TEXT].funp = text;
686	>	ofun[ALIAS].funp = alias;
687	>	/* surface inverses */
688	>	tinvers[OBJ_SOURCE] = OBJ_SOURCE;
689	>	tinvers[OBJ_CONE] = OBJ_CUP;
690	>	tinvers[OBJ_CUP] = OBJ_CONE;
691	>	tinvers[OBJ_SPHERE] = OBJ_BUBBLE;
692	>	tinvers[OBJ_BUBBLE] = OBJ_SPHERE;
693	>	tinvers[OBJ_RING] = OBJ_RING;
694	>	tinvers[OBJ_CYLINDER] = OBJ_TUBE;
695	>	tinvers[OBJ_TUBE] = OBJ_CYLINDER;
696	>	tinvers[OBJ_INSTANCE] = OBJ_INSTANCE; /* oh, well */
697		}

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Comparing ray/src/gen/xform.c (file contents): Revision 1.8 by greg, Thu Oct 5 09:49:04 1989 UTC vs. Revision 1.17 by greg, Wed Oct 23 15:37:47 1991 UTC

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Comparing ray/src/gen/xform.c (file contents):
Revision 1.8 by greg, Thu Oct 5 09:49:04 1989 UTC vs.
Revision 1.17 by greg, Wed Oct 23 15:37:47 1991 UTC