[ViewVC] Diff of: radiance/ray/src/cv/mgflib/parser.c

Comparing ray/src/cv/mgflib/parser.c (file contents):
Revision 1.5 by greg, Fri Jun 24 09:40:29 1994 UTC vs.
Revision 1.27 by greg, Fri Feb 28 20:11:29 2003 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1994 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		* Parse an MGF file, converting or discarding unsupported entities
6		*/
7
8		#include <stdio.h>
9	+	#include <stdlib.h>
10		#include <math.h>
11		#include <ctype.h>
12		#include <string.h>
#	Line 27 \| Line 25 \| char mg_ename[MG_NENTITIES][MG_MAXELEN] = MG_NAMELIST;
25
26		int (*mg_ehand[MG_NENTITIES])();
27
28	+	/* Handler routine for unknown entities */
29	+
30	+	int (*mg_uhand)() = mg_defuhand;
31	+
32	+	unsigned mg_nunknown; /* count of unknown entities */
33	+
34		/* error messages */
35
36		char *mg_err[MG_NERRS] = MG_ERRLIST;
#	Line 53 \| Line 57 \| *int mg_nqcdivs = MG_NQCD; / number of divisions per q**
57
58		/* temporary settings for testing */
59		#define e_ies e_any_toss
56	–	#define e_cmix e_any_toss
57	–	#define e_cspec e_any_toss
60		/* alternate handler routines */
61
62		static int e_any_toss(), /* discard unneeded entity */
63		e_ies(), /* IES luminaire file */
64	<	e_include(), /* include file */
63	<	e_sph(), /* sphere */
64	>	e_cct(), /* color temperature */
65		e_cmix(), /* color mixtures */
66		e_cspec(); /* color spectra */
66	–	e_cyl(), /* cylinder */
67	–	e_cone(), /* cone */
68	–	e_prism(), /* prism */
69	–	e_ring(), /* ring */
70	–	e_torus(); /* torus */
67
68		/* alternate handler support functions */
69
#	Line 90 \| Line 86 \| *mg_init() / initialize alternate entity handlers /*
86		mg_ehand[MG_E_INCLUDE] = e_include;
87		if (mg_ehand[MG_E_SPH] == NULL) {
88		mg_ehand[MG_E_SPH] = e_sph;
89	<	ineed \|= 1<<MG_E_POINT\|1<<MG_E_VERTEX;
89	>	ineed \|= 1L<<MG_E_POINT\|1L<<MG_E_VERTEX;
90		} else
91	<	uneed \|= 1<<MG_E_POINT\|1<<MG_E_VERTEX\|1<<MG_E_XF;
91	>	uneed \|= 1L<<MG_E_POINT\|1L<<MG_E_VERTEX\|1L<<MG_E_XF;
92		if (mg_ehand[MG_E_CYL] == NULL) {
93		mg_ehand[MG_E_CYL] = e_cyl;
94	<	ineed \|= 1<<MG_E_POINT\|1<<MG_E_VERTEX;
94	>	ineed \|= 1L<<MG_E_POINT\|1L<<MG_E_VERTEX;
95		} else
96	<	uneed \|= 1<<MG_E_POINT\|1<<MG_E_VERTEX\|1<<MG_E_XF;
96	>	uneed \|= 1L<<MG_E_POINT\|1L<<MG_E_VERTEX\|1L<<MG_E_XF;
97		if (mg_ehand[MG_E_CONE] == NULL) {
98		mg_ehand[MG_E_CONE] = e_cone;
99	<	ineed \|= 1<<MG_E_POINT\|1<<MG_E_VERTEX;
99	>	ineed \|= 1L<<MG_E_POINT\|1L<<MG_E_VERTEX;
100		} else
101	<	uneed \|= 1<<MG_E_POINT\|1<<MG_E_VERTEX\|1<<MG_E_XF;
101	>	uneed \|= 1L<<MG_E_POINT\|1L<<MG_E_VERTEX\|1L<<MG_E_XF;
102		if (mg_ehand[MG_E_RING] == NULL) {
103		mg_ehand[MG_E_RING] = e_ring;
104	<	ineed \|= 1<<MG_E_POINT\|1<<MG_E_NORMAL\|1<<MG_E_VERTEX;
104	>	ineed \|= 1L<<MG_E_POINT\|1L<<MG_E_NORMAL\|1L<<MG_E_VERTEX;
105		} else
106	<	uneed \|= 1<<MG_E_POINT\|1<<MG_E_NORMAL\|1<<MG_E_VERTEX\|1<<MG_E_XF;
106	>	uneed \|= 1L<<MG_E_POINT\|1L<<MG_E_NORMAL\|1L<<MG_E_VERTEX\|1L<<MG_E_XF;
107		if (mg_ehand[MG_E_PRISM] == NULL) {
108		mg_ehand[MG_E_PRISM] = e_prism;
109	<	ineed \|= 1<<MG_E_POINT\|1<<MG_E_VERTEX;
109	>	ineed \|= 1L<<MG_E_POINT\|1L<<MG_E_VERTEX;
110		} else
111	<	uneed \|= 1<<MG_E_POINT\|1<<MG_E_VERTEX\|1<<MG_E_XF;
111	>	uneed \|= 1L<<MG_E_POINT\|1L<<MG_E_VERTEX\|1L<<MG_E_XF;
112		if (mg_ehand[MG_E_TORUS] == NULL) {
113		mg_ehand[MG_E_TORUS] = e_torus;
114	<	ineed \|= 1<<MG_E_POINT\|1<<MG_E_NORMAL\|1<<MG_E_VERTEX;
114	>	ineed \|= 1L<<MG_E_POINT\|1L<<MG_E_NORMAL\|1L<<MG_E_VERTEX;
115		} else
116	<	uneed \|= 1<<MG_E_POINT\|1<<MG_E_NORMAL\|1<<MG_E_VERTEX\|1<<MG_E_XF;
116	>	uneed \|= 1L<<MG_E_POINT\|1L<<MG_E_NORMAL\|1L<<MG_E_VERTEX\|1L<<MG_E_XF;
117	>	if (mg_ehand[MG_E_FACE] == NULL)
118	>	mg_ehand[MG_E_FACE] = mg_ehand[MG_E_FACEH];
119	>	else if (mg_ehand[MG_E_FACEH] == NULL)
120	>	mg_ehand[MG_E_FACEH] = e_faceh;
121		if (mg_ehand[MG_E_COLOR] != NULL) {
122	<	if (mg_ehand[MG_E_CMIX] == NULL)
122	>	if (mg_ehand[MG_E_CMIX] == NULL) {
123		mg_ehand[MG_E_CMIX] = e_cmix;
124	<	if (mg_ehand[MG_E_CSPEC] == NULL)
124	>	ineed \|= 1L<<MG_E_COLOR\|1L<<MG_E_CXY\|1L<<MG_E_CSPEC\|1L<<MG_E_CMIX\|1L<<MG_E_CCT;
125	>	}
126	>	if (mg_ehand[MG_E_CSPEC] == NULL) {
127		mg_ehand[MG_E_CSPEC] = e_cspec;
128	+	ineed \|= 1L<<MG_E_COLOR\|1L<<MG_E_CXY\|1L<<MG_E_CSPEC\|1L<<MG_E_CMIX\|1L<<MG_E_CCT;
129	+	}
130	+	if (mg_ehand[MG_E_CCT] == NULL) {
131	+	mg_ehand[MG_E_CCT] = e_cct;
132	+	ineed \|= 1L<<MG_E_COLOR\|1L<<MG_E_CXY\|1L<<MG_E_CSPEC\|1L<<MG_E_CMIX\|1L<<MG_E_CCT;
133	+	}
134		}
135		/* check for consistency */
136		if (mg_ehand[MG_E_FACE] != NULL)
137	<	uneed \|= 1<<MG_E_POINT\|1<<MG_E_VERTEX\|1<<MG_E_XF;
138	<	if (mg_ehand[MG_E_CXY] != NULL)
139	<	uneed \|= 1<<MG_E_COLOR;
137	>	uneed \|= 1L<<MG_E_POINT\|1L<<MG_E_VERTEX\|1L<<MG_E_XF;
138	>	if (mg_ehand[MG_E_CXY] != NULL \|\| mg_ehand[MG_E_CSPEC] != NULL \|\|
139	>	mg_ehand[MG_E_CMIX] != NULL)
140	>	uneed \|= 1L<<MG_E_COLOR;
141		if (mg_ehand[MG_E_RD] != NULL \|\| mg_ehand[MG_E_TD] != NULL \|\|
142	+	mg_ehand[MG_E_IR] != NULL \|\|
143		mg_ehand[MG_E_ED] != NULL \|\|
144		mg_ehand[MG_E_RS] != NULL \|\|
145	<	mg_ehand[MG_E_TS] != NULL)
146	<	uneed \|= 1<<MG_E_MATERIAL;
145	>	mg_ehand[MG_E_TS] != NULL \|\|
146	>	mg_ehand[MG_E_SIDES] != NULL)
147	>	uneed \|= 1L<<MG_E_MATERIAL;
148		for (i = 0; i < MG_NENTITIES; i++)
149	<	if (uneed & 1<<i && mg_ehand[i] == NULL) {
149	>	if (uneed & 1L<<i && mg_ehand[i] == NULL) {
150		fprintf(stderr, "Missing support for \"%s\" entity\n",
151		mg_ename[i]);
152		exit(1);
153		}
154		/* add support as needed */
155	<	if (ineed & 1<<MG_E_VERTEX && mg_ehand[MG_E_VERTEX] != c_hvertex)
155	>	if (ineed & 1L<<MG_E_VERTEX && mg_ehand[MG_E_VERTEX] != c_hvertex)
156		e_supp[MG_E_VERTEX] = c_hvertex;
157	<	if (ineed & 1<<MG_E_POINT && mg_ehand[MG_E_POINT] != c_hvertex)
157	>	if (ineed & 1L<<MG_E_POINT && mg_ehand[MG_E_POINT] != c_hvertex)
158		e_supp[MG_E_POINT] = c_hvertex;
159	<	if (ineed & 1<<MG_E_NORMAL && mg_ehand[MG_E_NORMAL] != c_hvertex)
159	>	if (ineed & 1L<<MG_E_NORMAL && mg_ehand[MG_E_NORMAL] != c_hvertex)
160		e_supp[MG_E_NORMAL] = c_hvertex;
161	+	if (ineed & 1L<<MG_E_COLOR && mg_ehand[MG_E_COLOR] != c_hcolor)
162	+	e_supp[MG_E_COLOR] = c_hcolor;
163	+	if (ineed & 1L<<MG_E_CXY && mg_ehand[MG_E_CXY] != c_hcolor)
164	+	e_supp[MG_E_CXY] = c_hcolor;
165	+	if (ineed & 1L<<MG_E_CSPEC && mg_ehand[MG_E_CSPEC] != c_hcolor)
166	+	e_supp[MG_E_CSPEC] = c_hcolor;
167	+	if (ineed & 1L<<MG_E_CMIX && mg_ehand[MG_E_CMIX] != c_hcolor)
168	+	e_supp[MG_E_CMIX] = c_hcolor;
169	+	if (ineed & 1L<<MG_E_CCT && mg_ehand[MG_E_CCT] != c_hcolor)
170	+	e_supp[MG_E_CCT] = c_hcolor;
171		/* discard remaining entities */
172		for (i = 0; i < MG_NENTITIES; i++)
173		if (mg_ehand[i] == NULL)
#	Line 154 \| Line 175 \| *mg_init() / initialize alternate entity handlers /*
175		}
176
177
157	–
178		int
179		mg_entity(name) /* get entity number from its name */
180		char *name;
181		{
182	<	static LUTAB ent_tab; /* entity lookup table */
182	>	static LUTAB ent_tab = LU_SINIT(NULL,NULL); /* lookup table */
183		register char *cp;
184
185		if (!ent_tab.tsiz) { /* initialize hash table */
#	Line 176 \| Line 196 \| *char name;**
196		}
197
198
199	<	static int
200	<	handle_it(en, ac, av) /* pass entity to appropriate handler */
199	>	int
200	>	mg_handle(en, ac, av) /* pass entity to appropriate handler */
201		register int en;
202		int ac;
203		char **av;
204		{
205		int rv;
206
207	<	if (en < 0 && (en = mg_entity(av[0])) < 0)
207	>	if (en < 0 && (en = mg_entity(av[0])) < 0) { /* unknown entity */
208	>	if (mg_uhand != NULL)
209	>	return((*mg_uhand)(ac, av));
210		return(MG_EUNK);
211	<	if (e_supp[en] != NULL) {
211	>	}
212	>	if (e_supp[en] != NULL) { /* support handler */
213		if ((rv = (*e_supp[en])(ac, av)) != MG_OK)
214		return(rv);
215		}
216	<	return((*mg_ehand[en])(ac, av));
216	>	return((mg_ehand[en])(ac, av)); / assigned handler */
217		}
218
219
#	Line 199 \| Line 222 \| *mg_open(ctx, fn) / open new input file /*
222		register MG_FCTXT *ctx;
223		char *fn;
224		{
225	<	int olen;
225	>	static int nfids;
226		register char *cp;
227
228	+	ctx->fid = ++nfids;
229		ctx->lineno = 0;
230		if (fn == NULL) {
231	<	ctx->fname = "<stdin>";
231	>	strcpy(ctx->fname, "<stdin>");
232		ctx->fp = stdin;
233		ctx->prev = mg_file;
234		mg_file = ctx;
235		return(MG_OK);
236		}
237		/* get name relative to this context */
238	<	if (mg_file != NULL &&
239	<	(cp = strrchr(mg_file->fname, '/')) != NULL)
216	<	olen = cp - mg_file->fname + 1;
217	<	else
218	<	olen = 0;
219	<	ctx->fname = (char *)malloc(olen+strlen(fn)+1);
220	<	if (ctx->fname == NULL)
221	<	return(MG_EMEM);
222	<	if (olen)
238	>	if (fn[0] != '/' && mg_file != NULL &&
239	>	(cp = strrchr(mg_file->fname, '/')) != NULL) {
240		strcpy(ctx->fname, mg_file->fname);
241	<	strcpy(ctx->fname+olen, fn);
241	>	strcpy(ctx->fname+(cp-mg_file->fname+1), fn);
242	>	} else
243	>	strcpy(ctx->fname, fn);
244		ctx->fp = fopen(ctx->fname, "r");
245	<	if (ctx->fp == NULL) {
227	<	free((MEM_PTR)ctx->fname);
245	>	if (ctx->fp == NULL)
246		return(MG_ENOFILE);
229	–	}
247		ctx->prev = mg_file; /* establish new context */
248		mg_file = ctx;
249		return(MG_OK);
#	Line 239 \| Line 256 \| *mg_close() / close input file /*
256		register MG_FCTXT *ctx = mg_file;
257
258		mg_file = ctx->prev; /* restore enclosing context */
259	<	if (ctx->fp == stdin)
260	<	return; /* don't close standard input */
244	<	fclose(ctx->fp);
245	<	free((MEM_PTR)ctx->fname);
259	>	if (ctx->fp != stdin) /* close file if it's a file */
260	>	fclose(ctx->fp);
261		}
262
263
264	+	void
265	+	mg_fgetpos(pos) /* get current position in input file */
266	+	register MG_FPOS *pos;
267	+	{
268	+	pos->fid = mg_file->fid;
269	+	pos->lineno = mg_file->lineno;
270	+	pos->offset = ftell(mg_file->fp);
271	+	}
272	+
273	+
274		int
275	<	mg_rewind() /* rewind input file */
275	>	mg_fgoto(pos) /* reposition input file pointer */
276	>	register MG_FPOS *pos;
277		{
278	<	if (mg_file->lineno == 0)
278	>	if (pos->fid != mg_file->fid)
279	>	return(MG_ESEEK);
280	>	if (pos->lineno == mg_file->lineno)
281		return(MG_OK);
282		if (mg_file->fp == stdin)
283		return(MG_ESEEK); /* cannot seek on standard input */
284	<	if (fseek(mg_file->fp, 0L, 0) == EOF)
284	>	if (fseek(mg_file->fp, pos->offset, 0) == EOF)
285		return(MG_ESEEK);
286	<	mg_file->lineno = 0;
286	>	mg_file->lineno = pos->lineno;
287		return(MG_OK);
288		}
289
#	Line 269 \| Line 297 \| *mg_read() / read next line from file /*
297		if (fgets(mg_file->inpline+len,
298		MG_MAXLINE-len, mg_file->fp) == NULL)
299		return(len);
272	–	mg_file->lineno++;
300		len += strlen(mg_file->inpline+len);
301	<	if (len > 1 && mg_file->inpline[len-2] == '\\')
302	<	mg_file->inpline[--len-1] = ' ';
303	<	} while (mg_file->inpline[len]);
301	>	if (len >= MG_MAXLINE-1)
302	>	return(len);
303	>	mg_file->lineno++;
304	>	} while (len > 1 && mg_file->inpline[len-2] == '\\');
305
306		return(len);
307		}
#	Line 284 \| Line 312 \| *mg_parse() / parse current input line /*
312		{
313		char abuf[MG_MAXLINE];
314		char *argv[MG_MAXARGC];
315	<	int en;
316	<	register char cp, *ap;
317	<
318	<	strcpy(cp=abuf, mg_file->inpline);
319	<	ap = argv; /* break into words */
315	>	register char cp, cp2, **ap;
316	>	/* copy line, removing escape chars */
317	>	cp = abuf; cp2 = mg_file->inpline;
318	>	while ((cp++ = cp2++))
319	>	if (cp2[0] == '\n' && cp2[-1] == '\\')
320	>	cp--;
321	>	cp = abuf; ap = argv; /* break into words */
322		for ( ; ; ) {
323		while (isspace(*cp))
324		*cp++ = '\0';
#	Line 304 \| Line 334 \| *mg_parse() / parse current input line /*
334		return(MG_OK); /* no words in line */
335		*ap = NULL;
336		/* else handle it */
337	<	return(handle_it(-1, ap-argv, argv));
337	>	return(mg_handle(-1, ap-argv, argv));
338		}
339
340
#	Line 314 \| Line 344 \| *char fn;**
344		{
345		MG_FCTXT cntxt;
346		int rval;
347	+	register int nbr;
348
349		if ((rval = mg_open(&cntxt, fn)) != MG_OK) {
350		fprintf(stderr, "%s: %s\n", fn, mg_err[rval]);
351		return(rval);
352		}
353	<	while (mg_read()) /* parse each line */
353	>	while ((nbr = mg_read()) > 0) { /* parse each line */
354	>	if (nbr >= MG_MAXLINE-1) {
355	>	fprintf(stderr, "%s: %d: %s\n", cntxt.fname,
356	>	cntxt.lineno, mg_err[rval=MG_ELINE]);
357	>	break;
358	>	}
359		if ((rval = mg_parse()) != MG_OK) {
360		fprintf(stderr, "%s: %d: %s:\n%s", cntxt.fname,
361		cntxt.lineno, mg_err[rval],
362		cntxt.inpline);
363		break;
364		}
365	+	}
366		mg_close();
367		return(rval);
368		}
369
370
371	<	void
372	<	mg_clear() /* clear parser history */
371	>	int
372	>	mg_defuhand(ac, av) /* default handler for unknown entities */
373	>	int ac;
374	>	char **av;
375		{
376	<	c_clearall(); /* clear context tables */
377	<	mg_file = NULL; /* reset our context */
376	>	if (mg_nunknown++ == 0) /* report first incident */
377	>	fprintf(stderr, "%s: %d: %s: %s\n", mg_file->fname,
378	>	mg_file->lineno, mg_err[MG_EUNK], av[0]);
379	>	return(MG_OK);
380		}
381
382
383	<	int
384	<	mg_iterate(ac, av, f) /* iterate on statement */
344	<	int ac;
345	<	register char **av;
346	<	int (*f)();
383	>	void
384	>	mg_clear() /* clear parser history */
385		{
386	<	int niter, rval;
387	<	register int i, j;
388	<	char *argv[MG_MAXARGC];
351	<	char cntbuf[10];
352	<	/* build partial transformation */
353	<	for (i = 0; i < ac; i++) {
354	<	if (av[i][0] == '-' && av[i][1] == 'a' && av[i][2] == '\0')
355	<	break;
356	<	argv[i+1] = av[i];
357	<	}
358	<	argv[i+1] = NULL;
359	<	if (i) { /* handle transformation */
360	<	argv[0] = mg_ename[MG_E_XF];
361	<	if ((rval = handle_it(MG_E_XF, i+1, argv)) != MG_OK)
362	<	return(rval);
363	<	}
364	<	if (i < ac) { /* run array */
365	<	if (i+1 >= ac \|\| !isint(av[i+1]))
366	<	return(MG_ETYPE);
367	<	niter = atoi(av[i+1]);
368	<	argv[0] = mg_ename[MG_E_OBJECT];
369	<	argv[1] = cntbuf;
370	<	for (j = 2; j+i < ac; j++)
371	<	argv[j] = av[j+i];
372	<	argv[j] = NULL;
373	<	for (j = 0; j < niter; j++) {
374	<	sprintf(cntbuf, "%d", j);
375	<	if ((rval = handle_it(MG_E_OBJECT, 2, argv)) != MG_OK)
376	<	return(rval);
377	<	argv[0] = "-i";
378	<	if ((rval = mg_iterate(ac-i, argv, f)) != MG_OK)
379	<	return(rval);
380	<	argv[0] = mg_ename[MG_E_OBJECT];
381	<	if ((rval = handle_it(MG_E_OBJECT, 1, argv)) != MG_OK)
382	<	return(rval);
383	<	}
384	<	} else if ((rval = (f)()) != MG_OK) / else do this instance */
385	<	return(rval);
386	<	if (i) { /* reset the transform */
387	<	argv[0] = mg_ename[MG_E_XF];
388	<	argv[1] = NULL;
389	<	(void)handle_it(MG_E_XF, 1, argv);
390	<	}
391	<	return(MG_OK);
386	>	c_clearall(); /* clear context tables */
387	>	while (mg_file != NULL) /* reset our file context */
388	>	mg_close();
389		}
390
391
#	Line 406 \| Line 403 \| char av;**
403		}
404
405
406	<	static int
410	<	reload_file() /* reload current MGF file */
411	<	{
412	<	register int rval;
413	<
414	<	if ((rval = mg_rewind()) != MG_OK)
415	<	return(rval);
416	<	while (mg_read())
417	<	if ((rval = mg_parse()) != MG_OK)
418	<	return(rval);
419	<	return(MG_OK);
420	<	}
421	<
422	<
423	<	static int
406	>	int
407		e_include(ac, av) /* include file */
408		int ac;
409		char **av;
410		{
411	+	char *xfarg[MG_MAXARGC];
412		MG_FCTXT ictx;
413	<	int rv;
413	>	XF_SPEC *xf_orig = xf_context;
414	>	register int rv;
415
416		if (ac < 2)
417		return(MG_EARGC);
418		if ((rv = mg_open(&ictx, av[1])) != MG_OK)
419		return(rv);
420	<	if ((rv = mg_iterate(ac-2, av+2, reload_file)) != MG_OK) {
421	<	fprintf(stderr, "%s: %d: %s:\n%s", ictx.fname,
422	<	ictx.lineno, mg_err[rv], ictx.inpline);
423	<	mg_close();
424	<	return(MG_EINCL);
420	>	if (ac > 2) {
421	>	register int i;
422	>
423	>	xfarg[0] = mg_ename[MG_E_XF];
424	>	for (i = 1; i < ac-1; i++)
425	>	xfarg[i] = av[i+1];
426	>	xfarg[ac-1] = NULL;
427	>	if ((rv = mg_handle(MG_E_XF, ac-1, xfarg)) != MG_OK) {
428	>	mg_close();
429	>	return(rv);
430	>	}
431		}
432	+	do {
433	+	while ((rv = mg_read()) > 0) {
434	+	if (rv >= MG_MAXLINE-1) {
435	+	fprintf(stderr, "%s: %d: %s\n", ictx.fname,
436	+	ictx.lineno, mg_err[MG_ELINE]);
437	+	mg_close();
438	+	return(MG_EINCL);
439	+	}
440	+	if ((rv = mg_parse()) != MG_OK) {
441	+	fprintf(stderr, "%s: %d: %s:\n%s", ictx.fname,
442	+	ictx.lineno, mg_err[rv],
443	+	ictx.inpline);
444	+	mg_close();
445	+	return(MG_EINCL);
446	+	}
447	+	}
448	+	if (ac > 2)
449	+	if ((rv = mg_handle(MG_E_XF, 1, xfarg)) != MG_OK) {
450	+	mg_close();
451	+	return(rv);
452	+	}
453	+	} while (xf_context != xf_orig);
454		mg_close();
455		return(MG_OK);
456		}
457
458
459	+	int
460	+	e_faceh(ac, av) /* replace face+holes with single contour */
461	+	int ac;
462	+	char **av;
463	+	{
464	+	char *newav[MG_MAXARGC];
465	+	int lastp = 0;
466	+	register int i, j;
467	+
468	+	newav[0] = mg_ename[MG_E_FACE];
469	+	for (i = 1; i < ac; i++)
470	+	if (av[i][0] == '-') {
471	+	if (i < 4)
472	+	return(MG_EARGC);
473	+	if (i >= ac-1)
474	+	break;
475	+	if (!lastp)
476	+	lastp = i-1;
477	+	for (j = i+1; j < ac-1 && av[j+1][0] != '-'; j++)
478	+	;
479	+	if (j - i < 3)
480	+	return(MG_EARGC);
481	+	newav[i] = av[j]; /* connect hole loop */
482	+	} else
483	+	newav[i] = av[i]; /* hole or perimeter vertex */
484	+	if (lastp)
485	+	newav[i++] = av[lastp]; /* finish seam to outside */
486	+	newav[i] = NULL;
487	+	return(mg_handle(MG_E_FACE, i, newav));
488	+	}
489	+
490	+
491		static void
492		make_axes(u, v, w) /* compute u and v given w (normalized) */
493		FVECT u, v, w;
#	Line 460 \| Line 505 \| FVECT u, v, w;
505		}
506
507
508	<	static int
508	>	int
509		e_sph(ac, av) /* expand a sphere into cones */
510		int ac;
511		char **av;
#	Line 485 \| Line 530 \| char av;**
530		rad = atof(av[2]);
531		/* initialize */
532		warpconends = 1;
533	<	if ((rval = handle_it(MG_E_VERTEX, 3, v2ent)) != MG_OK)
533	>	if ((rval = mg_handle(MG_E_VERTEX, 3, v2ent)) != MG_OK)
534		return(rval);
535		sprintf(p2x, FLTFMT, cv->p[0]);
536		sprintf(p2y, FLTFMT, cv->p[1]);
537		sprintf(p2z, FLTFMT, cv->p[2]+rad);
538	<	if ((rval = handle_it(MG_E_POINT, 4, p2ent)) != MG_OK)
538	>	if ((rval = mg_handle(MG_E_POINT, 4, p2ent)) != MG_OK)
539		return(rval);
540		r2[0] = '0'; r2[1] = '\0';
541		for (i = 1; i <= 2*mg_nqcdivs; i++) {
542		theta = i*(PI/2)/mg_nqcdivs;
543	<	if ((rval = handle_it(MG_E_VERTEX, 4, v1ent)) != MG_OK)
543	>	if ((rval = mg_handle(MG_E_VERTEX, 4, v1ent)) != MG_OK)
544		return(rval);
545		sprintf(p2z, FLTFMT, cv->p[2]+rad*cos(theta));
546	<	if ((rval = handle_it(MG_E_VERTEX, 2, v2ent)) != MG_OK)
546	>	if ((rval = mg_handle(MG_E_VERTEX, 2, v2ent)) != MG_OK)
547		return(rval);
548	<	if ((rval = handle_it(MG_E_POINT, 4, p2ent)) != MG_OK)
548	>	if ((rval = mg_handle(MG_E_POINT, 4, p2ent)) != MG_OK)
549		return(rval);
550		strcpy(r1, r2);
551		sprintf(r2, FLTFMT, rad*sin(theta));
552	<	if ((rval = handle_it(MG_E_CONE, 5, conent)) != MG_OK)
552	>	if ((rval = mg_handle(MG_E_CONE, 5, conent)) != MG_OK)
553		return(rval);
554		}
555		warpconends = 0;
#	Line 512 \| Line 557 \| char av;**
557		}
558
559
560	<	static int
560	>	int
561		e_torus(ac, av) /* expand a torus into cones */
562		int ac;
563		char **av;
#	Line 559 \| Line 604 \| char av;**
604		for (j = 0; j < 3; j++)
605		sprintf(p2[j], FLTFMT, cv->p[j] +
606		.5sgn(maxrad-minrad)*cv->n[j]);
607	<	if ((rval = handle_it(MG_E_VERTEX, 4, v2ent)) != MG_OK)
607	>	if ((rval = mg_handle(MG_E_VERTEX, 4, v2ent)) != MG_OK)
608		return(rval);
609	<	if ((rval = handle_it(MG_E_POINT, 4, p2ent)) != MG_OK)
609	>	if ((rval = mg_handle(MG_E_POINT, 4, p2ent)) != MG_OK)
610		return(rval);
611		sprintf(r2, FLTFMT, avgrad=.5*(minrad+maxrad));
612		/* run outer section */
613		for (i = 1; i <= 2*mg_nqcdivs; i++) {
614		theta = i*(PI/2)/mg_nqcdivs;
615	<	if ((rval = handle_it(MG_E_VERTEX, 4, v1ent)) != MG_OK)
615	>	if ((rval = mg_handle(MG_E_VERTEX, 4, v1ent)) != MG_OK)
616		return(rval);
617		for (j = 0; j < 3; j++)
618		sprintf(p2[j], FLTFMT, cv->p[j] +
619		.5sgn(maxrad-minrad)cos(theta)cv->n[j]);
620	<	if ((rval = handle_it(MG_E_VERTEX, 2, v2ent)) != MG_OK)
620	>	if ((rval = mg_handle(MG_E_VERTEX, 2, v2ent)) != MG_OK)
621		return(rval);
622	<	if ((rval = handle_it(MG_E_POINT, 4, p2ent)) != MG_OK)
622	>	if ((rval = mg_handle(MG_E_POINT, 4, p2ent)) != MG_OK)
623		return(rval);
624		strcpy(r1, r2);
625		sprintf(r2, FLTFMT, avgrad + .5(maxrad-minrad)sin(theta));
626	<	if ((rval = handle_it(MG_E_CONE, 5, conent)) != MG_OK)
626	>	if ((rval = mg_handle(MG_E_CONE, 5, conent)) != MG_OK)
627		return(rval);
628		}
629		/* run inner section */
#	Line 588 \| Line 633 \| char av;**
633		for (j = 0; j < 3; j++)
634		sprintf(p2[j], FLTFMT, cv->p[j] +
635		.5sgn(maxrad-minrad)cos(theta)cv->n[j]);
636	<	if ((rval = handle_it(MG_E_VERTEX, 4, v1ent)) != MG_OK)
636	>	if ((rval = mg_handle(MG_E_VERTEX, 4, v1ent)) != MG_OK)
637		return(rval);
638	<	if ((rval = handle_it(MG_E_VERTEX, 2, v2ent)) != MG_OK)
638	>	if ((rval = mg_handle(MG_E_VERTEX, 2, v2ent)) != MG_OK)
639		return(rval);
640	<	if ((rval = handle_it(MG_E_POINT, 4, p2ent)) != MG_OK)
640	>	if ((rval = mg_handle(MG_E_POINT, 4, p2ent)) != MG_OK)
641		return(rval);
642		strcpy(r1, r2);
643		sprintf(r2, FLTFMT, -avgrad - .5(maxrad-minrad)sin(theta));
644	<	if ((rval = handle_it(MG_E_CONE, 5, conent)) != MG_OK)
644	>	if ((rval = mg_handle(MG_E_CONE, 5, conent)) != MG_OK)
645		return(rval);
646		}
647		warpconends = 0;
#	Line 604 \| Line 649 \| char av;**
649		}
650
651
652	<	static int
652	>	int
653		e_cyl(ac, av) /* replace a cylinder with equivalent cone */
654		int ac;
655		char **av;
#	Line 617 \| Line 662 \| char av;**
662		avnew[2] = av[2];
663		avnew[3] = av[3];
664		avnew[4] = av[2];
665	<	return(handle_it(MG_E_CONE, 5, avnew));
665	>	return(mg_handle(MG_E_CONE, 5, avnew));
666		}
667
668
669	<	static int
669	>	int
670		e_ring(ac, av) /* turn a ring into polygons */
671		int ac;
672		char **av;
#	Line 659 \| Line 704 \| char av;**
704		make_axes(u, v, cv->n);
705		for (j = 0; j < 3; j++)
706		sprintf(p3[j], FLTFMT, cv->p[j] + maxrad*u[j]);
707	<	if ((rv = handle_it(MG_E_VERTEX, 3, v3ent)) != MG_OK)
707	>	if ((rv = mg_handle(MG_E_VERTEX, 3, v3ent)) != MG_OK)
708		return(rv);
709	<	if ((rv = handle_it(MG_E_POINT, 4, p3ent)) != MG_OK)
709	>	if ((rv = mg_handle(MG_E_POINT, 4, p3ent)) != MG_OK)
710		return(rv);
711		if (minrad == 0.) { /* closed */
712		v1ent[3] = av[1];
713	<	if ((rv = handle_it(MG_E_VERTEX, 4, v1ent)) != MG_OK)
713	>	if ((rv = mg_handle(MG_E_VERTEX, 4, v1ent)) != MG_OK)
714		return(rv);
715	<	if ((rv = handle_it(MG_E_NORMAL, 4, nzent)) != MG_OK)
715	>	if ((rv = mg_handle(MG_E_NORMAL, 4, nzent)) != MG_OK)
716		return(rv);
717		for (i = 1; i <= 4*mg_nqcdivs; i++) {
718		theta = i*(PI/2)/mg_nqcdivs;
719	<	if ((rv = handle_it(MG_E_VERTEX, 4, v2ent)) != MG_OK)
719	>	if ((rv = mg_handle(MG_E_VERTEX, 4, v2ent)) != MG_OK)
720		return(rv);
721		for (j = 0; j < 3; j++)
722		sprintf(p3[j], FLTFMT, cv->p[j] +
723		maxradu[j]cos(theta) +
724		maxradv[j]sin(theta));
725	<	if ((rv = handle_it(MG_E_VERTEX, 2, v3ent)) != MG_OK)
725	>	if ((rv = mg_handle(MG_E_VERTEX, 2, v3ent)) != MG_OK)
726		return(rv);
727	<	if ((rv = handle_it(MG_E_POINT, 4, p3ent)) != MG_OK)
727	>	if ((rv = mg_handle(MG_E_POINT, 4, p3ent)) != MG_OK)
728		return(rv);
729	<	if ((rv = handle_it(MG_E_FACE, 4, fent)) != MG_OK)
729	>	if ((rv = mg_handle(MG_E_FACE, 4, fent)) != MG_OK)
730		return(rv);
731		}
732		} else { /* open */
733	<	if ((rv = handle_it(MG_E_VERTEX, 3, v4ent)) != MG_OK)
733	>	if ((rv = mg_handle(MG_E_VERTEX, 3, v4ent)) != MG_OK)
734		return(rv);
735		for (j = 0; j < 3; j++)
736		sprintf(p4[j], FLTFMT, cv->p[j] + minrad*u[j]);
737	<	if ((rv = handle_it(MG_E_POINT, 4, p4ent)) != MG_OK)
737	>	if ((rv = mg_handle(MG_E_POINT, 4, p4ent)) != MG_OK)
738		return(rv);
739		v1ent[3] = "_rv4";
740		for (i = 1; i <= 4*mg_nqcdivs; i++) {
741		theta = i*(PI/2)/mg_nqcdivs;
742	<	if ((rv = handle_it(MG_E_VERTEX, 4, v1ent)) != MG_OK)
742	>	if ((rv = mg_handle(MG_E_VERTEX, 4, v1ent)) != MG_OK)
743		return(rv);
744	<	if ((rv = handle_it(MG_E_VERTEX, 4, v2ent)) != MG_OK)
744	>	if ((rv = mg_handle(MG_E_VERTEX, 4, v2ent)) != MG_OK)
745		return(rv);
746		for (j = 0; j < 3; j++) {
747		d = u[j]cos(theta) + v[j]sin(theta);
748		sprintf(p3[j], FLTFMT, cv->p[j] + maxrad*d);
749		sprintf(p4[j], FLTFMT, cv->p[j] + minrad*d);
750		}
751	<	if ((rv = handle_it(MG_E_VERTEX, 2, v3ent)) != MG_OK)
751	>	if ((rv = mg_handle(MG_E_VERTEX, 2, v3ent)) != MG_OK)
752		return(rv);
753	<	if ((rv = handle_it(MG_E_POINT, 4, p3ent)) != MG_OK)
753	>	if ((rv = mg_handle(MG_E_POINT, 4, p3ent)) != MG_OK)
754		return(rv);
755	<	if ((rv = handle_it(MG_E_VERTEX, 2, v4ent)) != MG_OK)
755	>	if ((rv = mg_handle(MG_E_VERTEX, 2, v4ent)) != MG_OK)
756		return(rv);
757	<	if ((rv = handle_it(MG_E_POINT, 4, p4ent)) != MG_OK)
757	>	if ((rv = mg_handle(MG_E_POINT, 4, p4ent)) != MG_OK)
758		return(rv);
759	<	if ((rv = handle_it(MG_E_FACE, 5, fent)) != MG_OK)
759	>	if ((rv = mg_handle(MG_E_FACE, 5, fent)) != MG_OK)
760		return(rv);
761		}
762		}
#	Line 719 \| Line 764 \| char av;**
764		}
765
766
767	<	static int
767	>	int
768		e_cone(ac, av) /* turn a cone into polygons */
769		int ac;
770		char **av;
#	Line 734 \| Line 779 \| char av;**
779		static char *p4ent[5] = {mg_ename[MG_E_POINT],p4[0],p4[1],p4[2]};
780		static char *n4ent[5] = {mg_ename[MG_E_NORMAL],n4[0],n4[1],n4[2]};
781		static char *fent[6] = {mg_ename[MG_E_FACE],"_cv1","_cv2","_cv3","_cv4"};
782	+	char *v1n;
783		register C_VERTEX cv1, cv2;
784		register int i, j;
785		FVECT u, v, w;
#	Line 749 \| Line 795 \| char av;**
795		if ((cv1 = c_getvert(av[1])) == NULL \|\|
796		(cv2 = c_getvert(av[3])) == NULL)
797		return(MG_EUNDEF);
798	+	v1n = av[1];
799		if (!isflt(av[2]) \|\| !isflt(av[4]))
800		return(MG_ETYPE);
801		rad1 = atof(av[2]);
#	Line 759 \| Line 806 \| char av;**
806		if (rad2 == 0.)
807		return(MG_EILL);
808		} else if (rad2 != 0.) {
809	<	if (rad1 < 0. ^ rad2 < 0.)
809	>	if ((rad1 < 0.) ^ (rad2 < 0.))
810		return(MG_EILL);
811		} else { /* swap */
812		C_VERTEX *cv;
#	Line 767 \| Line 814 \| char av;**
814		cv = cv1;
815		cv1 = cv2;
816		cv2 = cv;
817	+	v1n = av[3];
818		d = rad1;
819		rad1 = rad2;
820		rad2 = d;
#	Line 793 \| Line 841 \| char av;**
841		else
842		sprintf(n3[j], FLTFMT, u[j] + w[j]*n2off);
843		}
844	<	if ((rv = handle_it(MG_E_VERTEX, 3, v3ent)) != MG_OK)
844	>	if ((rv = mg_handle(MG_E_VERTEX, 3, v3ent)) != MG_OK)
845		return(rv);
846	<	if ((rv = handle_it(MG_E_POINT, 4, p3ent)) != MG_OK)
846	>	if ((rv = mg_handle(MG_E_POINT, 4, p3ent)) != MG_OK)
847		return(rv);
848	<	if ((rv = handle_it(MG_E_NORMAL, 4, n3ent)) != MG_OK)
848	>	if ((rv = mg_handle(MG_E_NORMAL, 4, n3ent)) != MG_OK)
849		return(rv);
850		if (rad1 == 0.) { /* triangles */
851	<	v1ent[3] = av[1];
852	<	if ((rv = handle_it(MG_E_VERTEX, 4, v1ent)) != MG_OK)
851	>	v1ent[3] = v1n;
852	>	if ((rv = mg_handle(MG_E_VERTEX, 4, v1ent)) != MG_OK)
853		return(rv);
854		for (j = 0; j < 3; j++)
855		sprintf(n4[j], FLTFMT, w[j]);
856	<	if ((rv = handle_it(MG_E_NORMAL, 4, n4ent)) != MG_OK)
856	>	if ((rv = mg_handle(MG_E_NORMAL, 4, n4ent)) != MG_OK)
857		return(rv);
858		for (i = 1; i <= 4*mg_nqcdivs; i++) {
859		theta = sgni(PI/2)/mg_nqcdivs;
860	<	if ((rv = handle_it(MG_E_VERTEX, 4, v2ent)) != MG_OK)
860	>	if ((rv = mg_handle(MG_E_VERTEX, 4, v2ent)) != MG_OK)
861		return(rv);
862		for (j = 0; j < 3; j++) {
863		d = u[j]cos(theta) + v[j]sin(theta);
#	Line 817 \| Line 865 \| char av;**
865		if (n2off > -FHUGE)
866		sprintf(n3[j], FLTFMT, d + w[j]*n2off);
867		}
868	<	if ((rv = handle_it(MG_E_VERTEX, 2, v3ent)) != MG_OK)
868	>	if ((rv = mg_handle(MG_E_VERTEX, 2, v3ent)) != MG_OK)
869		return(rv);
870	<	if ((rv = handle_it(MG_E_POINT, 4, p3ent)) != MG_OK)
870	>	if ((rv = mg_handle(MG_E_POINT, 4, p3ent)) != MG_OK)
871		return(rv);
872		if (n2off > -FHUGE &&
873	<	(rv = handle_it(MG_E_NORMAL, 4, n3ent)) != MG_OK)
873	>	(rv = mg_handle(MG_E_NORMAL, 4, n3ent)) != MG_OK)
874		return(rv);
875	<	if ((rv = handle_it(MG_E_FACE, 4, fent)) != MG_OK)
875	>	if ((rv = mg_handle(MG_E_FACE, 4, fent)) != MG_OK)
876		return(rv);
877		}
878		} else { /* quads */
#	Line 843 \| Line 891 \| char av;**
891		else
892		sprintf(n4[j], FLTFMT, u[j] + w[j]*n1off);
893		}
894	<	if ((rv = handle_it(MG_E_VERTEX, 3, v4ent)) != MG_OK)
894	>	if ((rv = mg_handle(MG_E_VERTEX, 3, v4ent)) != MG_OK)
895		return(rv);
896	<	if ((rv = handle_it(MG_E_POINT, 4, p4ent)) != MG_OK)
896	>	if ((rv = mg_handle(MG_E_POINT, 4, p4ent)) != MG_OK)
897		return(rv);
898	<	if ((rv = handle_it(MG_E_NORMAL, 4, n4ent)) != MG_OK)
898	>	if ((rv = mg_handle(MG_E_NORMAL, 4, n4ent)) != MG_OK)
899		return(rv);
900		for (i = 1; i <= 4*mg_nqcdivs; i++) {
901		theta = sgni(PI/2)/mg_nqcdivs;
902	<	if ((rv = handle_it(MG_E_VERTEX, 4, v1ent)) != MG_OK)
902	>	if ((rv = mg_handle(MG_E_VERTEX, 4, v1ent)) != MG_OK)
903		return(rv);
904	<	if ((rv = handle_it(MG_E_VERTEX, 4, v2ent)) != MG_OK)
904	>	if ((rv = mg_handle(MG_E_VERTEX, 4, v2ent)) != MG_OK)
905		return(rv);
906		for (j = 0; j < 3; j++) {
907		d = u[j]cos(theta) + v[j]sin(theta);
#	Line 864 \| Line 912 \| char av;**
912		if (n1off < FHUGE)
913		sprintf(n4[j], FLTFMT, d + w[j]*n1off);
914		}
915	<	if ((rv = handle_it(MG_E_VERTEX, 2, v3ent)) != MG_OK)
915	>	if ((rv = mg_handle(MG_E_VERTEX, 2, v3ent)) != MG_OK)
916		return(rv);
917	<	if ((rv = handle_it(MG_E_POINT, 4, p3ent)) != MG_OK)
917	>	if ((rv = mg_handle(MG_E_POINT, 4, p3ent)) != MG_OK)
918		return(rv);
919		if (n2off > -FHUGE &&
920	<	(rv = handle_it(MG_E_NORMAL, 4, n3ent)) != MG_OK)
920	>	(rv = mg_handle(MG_E_NORMAL, 4, n3ent)) != MG_OK)
921		return(rv);
922	<	if ((rv = handle_it(MG_E_VERTEX, 2, v4ent)) != MG_OK)
922	>	if ((rv = mg_handle(MG_E_VERTEX, 2, v4ent)) != MG_OK)
923		return(rv);
924	<	if ((rv = handle_it(MG_E_POINT, 4, p4ent)) != MG_OK)
924	>	if ((rv = mg_handle(MG_E_POINT, 4, p4ent)) != MG_OK)
925		return(rv);
926		if (n1off < FHUGE &&
927	<	(rv = handle_it(MG_E_NORMAL, 4, n4ent)) != MG_OK)
927	>	(rv = mg_handle(MG_E_NORMAL, 4, n4ent)) != MG_OK)
928		return(rv);
929	<	if ((rv = handle_it(MG_E_FACE, 5, fent)) != MG_OK)
929	>	if ((rv = mg_handle(MG_E_FACE, 5, fent)) != MG_OK)
930		return(rv);
931		}
932		}
#	Line 886 \| Line 934 \| char av;**
934		}
935
936
937	<	static int
937	>	int
938		e_prism(ac, av) /* turn a prism into polygons */
939		int ac;
940		char **av;
941		{
942		static char p[3][24];
943	<	static char *vent[4] = {mg_ename[MG_E_VERTEX],NULL,"="};
943	>	static char *vent[5] = {mg_ename[MG_E_VERTEX],NULL,"="};
944		static char *pent[5] = {mg_ename[MG_E_POINT],p[0],p[1],p[2]};
945	+	static char *znorm[5] = {mg_ename[MG_E_NORMAL],"0","0","0"};
946		char *newav[MG_MAXARGC], nvn[MG_MAXARGC-1][8];
947		double length;
948	+	int hasnorm;
949		FVECT v1, v2, v3, norm;
950		register C_VERTEX *cv;
951		C_VERTEX *cv0;
952		int rv;
953		register int i, j;
954	<
954	>	/* check arguments */
955		if (ac < 5)
956		return(MG_EARGC);
957		if (!isflt(av[ac-1]))
#	Line 909 \| Line 959 \| char av;**
959		length = atof(av[ac-1]);
960		if (length <= FTINY && length >= -FTINY)
961		return(MG_EILL);
962	<	/* do bottom face */
963	<	newav[0] = mg_ename[MG_E_FACE];
914	<	for (i = 1; i < ac-1; i++)
915	<	newav[i] = av[i];
916	<	newav[i] = NULL;
917	<	if ((rv = handle_it(MG_E_FACE, i, newav)) != MG_OK)
918	<	return(rv);
919	<	/* compute face normal */
920	<	if ((cv0 = c_getvert(av[2])) == NULL)
962	>	/* compute face normal */
963	>	if ((cv0 = c_getvert(av[1])) == NULL)
964		return(MG_EUNDEF);
965	+	hasnorm = 0;
966		norm[0] = norm[1] = norm[2] = 0.;
967		v1[0] = v1[1] = v1[2] = 0.;
968		for (i = 2; i < ac-1; i++) {
969		if ((cv = c_getvert(av[i])) == NULL)
970		return(MG_EUNDEF);
971	+	hasnorm += !is0vect(cv->n);
972		v2[0] = cv->p[0] - cv0->p[0];
973		v2[1] = cv->p[1] - cv0->p[1];
974		v2[2] = cv->p[2] - cv0->p[2];
#	Line 935 \| Line 980 \| char av;**
980		}
981		if (normalize(norm) == 0.)
982		return(MG_EILL);
983	<	/* create moved vertices */
983	>	/* create moved vertices */
984		for (i = 1; i < ac-1; i++) {
985		sprintf(nvn[i-1], "_pv%d", i);
986		vent[1] = nvn[i-1];
987	<	if ((rv = handle_it(MG_E_VERTEX, 3, vent)) != MG_OK)
987	>	vent[3] = av[i];
988	>	if ((rv = mg_handle(MG_E_VERTEX, 4, vent)) != MG_OK)
989		return(rv);
990		cv = c_getvert(av[i]); /* checked above */
991		for (j = 0; j < 3; j++)
992		sprintf(p[j], FLTFMT, cv->p[j] - length*norm[j]);
993	<	if ((rv = handle_it(MG_E_POINT, 4, pent)) != MG_OK)
993	>	if ((rv = mg_handle(MG_E_POINT, 4, pent)) != MG_OK)
994		return(rv);
949	–	newav[ac-1-i] = nvn[i-1]; /* reverse */
995		}
996	<	/* do top face */
997	<	if ((rv = handle_it(MG_E_FACE, ac-1, newav)) != MG_OK)
953	<	return(rv);
996	>	/* make faces */
997	>	newav[0] = mg_ename[MG_E_FACE];
998		/* do the side faces */
999		newav[5] = NULL;
1000		newav[3] = av[ac-2];
#	Line 958 \| Line 1002 \| char av;**
1002		for (i = 1; i < ac-1; i++) {
1003		newav[1] = nvn[i-1];
1004		newav[2] = av[i];
1005	<	if ((rv = handle_it(MG_E_FACE, 5, newav)) != MG_OK)
1005	>	if ((rv = mg_handle(MG_E_FACE, 5, newav)) != MG_OK)
1006		return(rv);
1007		newav[3] = newav[2];
1008		newav[4] = newav[1];
1009		}
1010	+	/* do top face */
1011	+	for (i = 1; i < ac-1; i++) {
1012	+	if (hasnorm) { /* zero normals */
1013	+	vent[1] = nvn[i-1];
1014	+	if ((rv = mg_handle(MG_E_VERTEX, 2, vent)) != MG_OK)
1015	+	return(rv);
1016	+	if ((rv = mg_handle(MG_E_NORMAL, 4, znorm)) != MG_OK)
1017	+	return(rv);
1018	+	}
1019	+	newav[ac-1-i] = nvn[i-1]; /* reverse */
1020	+	}
1021	+	if ((rv = mg_handle(MG_E_FACE, ac-1, newav)) != MG_OK)
1022	+	return(rv);
1023	+	/* do bottom face */
1024	+	if (hasnorm)
1025	+	for (i = 1; i < ac-1; i++) {
1026	+	vent[1] = nvn[i-1];
1027	+	vent[3] = av[i];
1028	+	if ((rv = mg_handle(MG_E_VERTEX, 4, vent)) != MG_OK)
1029	+	return(rv);
1030	+	if ((rv = mg_handle(MG_E_NORMAL, 4, znorm)) != MG_OK)
1031	+	return(rv);
1032	+	newav[i] = nvn[i-1];
1033	+	}
1034	+	else
1035	+	for (i = 1; i < ac-1; i++)
1036	+	newav[i] = av[i];
1037	+	newav[i] = NULL;
1038	+	if ((rv = mg_handle(MG_E_FACE, i, newav)) != MG_OK)
1039	+	return(rv);
1040	+	return(MG_OK);
1041	+	}
1042	+
1043	+
1044	+	static int
1045	+	put_cxy() /* put out current xy chromaticities */
1046	+	{
1047	+	static char xbuf[24], ybuf[24];
1048	+	static char *ccom[4] = {mg_ename[MG_E_CXY], xbuf, ybuf};
1049	+
1050	+	sprintf(xbuf, "%.4f", c_ccolor->cx);
1051	+	sprintf(ybuf, "%.4f", c_ccolor->cy);
1052	+	return(mg_handle(MG_E_CXY, 3, ccom));
1053	+	}
1054	+
1055	+
1056	+	static int
1057	+	put_cspec() /* put out current color spectrum */
1058	+	{
1059	+	char wl[2][6], vbuf[C_CNSS][24];
1060	+	char *newav[C_CNSS+4];
1061	+	double sf;
1062	+	register int i;
1063	+
1064	+	if (mg_ehand[MG_E_CSPEC] != c_hcolor) {
1065	+	sprintf(wl[0], "%d", C_CMINWL);
1066	+	sprintf(wl[1], "%d", C_CMAXWL);
1067	+	newav[0] = mg_ename[MG_E_CSPEC];
1068	+	newav[1] = wl[0];
1069	+	newav[2] = wl[1];
1070	+	sf = (double)C_CNSS / c_ccolor->ssum;
1071	+	for (i = 0; i < C_CNSS; i++) {
1072	+	sprintf(vbuf[i], "%.4f", sf*c_ccolor->ssamp[i]);
1073	+	newav[i+3] = vbuf[i];
1074	+	}
1075	+	newav[C_CNSS+3] = NULL;
1076	+	if ((i = mg_handle(MG_E_CSPEC, C_CNSS+3, newav)) != MG_OK)
1077	+	return(i);
1078	+	}
1079	+	return(MG_OK);
1080	+	}
1081	+
1082	+
1083	+	static int
1084	+	e_cspec(ac, av) /* handle spectral color */
1085	+	int ac;
1086	+	char **av;
1087	+	{
1088	+	/* convert to xy chromaticity */
1089	+	c_ccvt(c_ccolor, C_CSXY);
1090	+	/* if it's really their handler, use it */
1091	+	if (mg_ehand[MG_E_CXY] != c_hcolor)
1092	+	return(put_cxy());
1093	+	return(MG_OK);
1094	+	}
1095	+
1096	+
1097	+	static int
1098	+	e_cmix(ac, av) /* handle mixing of colors */
1099	+	int ac;
1100	+	char **av;
1101	+	{
1102	+	/*
1103	+	* Contorted logic works as follows:
1104	+	* 1. the colors are already mixed in c_hcolor() support function
1105	+	* 2. if we would handle a spectral result, make sure it's not
1106	+	* 3. if c_hcolor() would handle a spectral result, don't bother
1107	+	* 4. otherwise, make cspec entity and pass it to their handler
1108	+	* 5. if we have only xy results, handle it as c_spec() would
1109	+	*/
1110	+	if (mg_ehand[MG_E_CSPEC] == e_cspec)
1111	+	c_ccvt(c_ccolor, C_CSXY);
1112	+	else if (c_ccolor->flags & C_CDSPEC)
1113	+	return(put_cspec());
1114	+	if (mg_ehand[MG_E_CXY] != c_hcolor)
1115	+	return(put_cxy());
1116	+	return(MG_OK);
1117	+	}
1118	+
1119	+
1120	+	static int
1121	+	e_cct(ac, av) /* handle color temperature */
1122	+	int ac;
1123	+	char **av;
1124	+	{
1125	+	/*
1126	+	* Logic is similar to e_cmix here. Support handler has already
1127	+	* converted temperature to spectral color. Put it out as such
1128	+	* if they support it, otherwise convert to xy chromaticity and
1129	+	* put it out if they handle it.
1130	+	*/
1131	+	if (mg_ehand[MG_E_CSPEC] != e_cspec)
1132	+	return(put_cspec());
1133	+	c_ccvt(c_ccolor, C_CSXY);
1134	+	if (mg_ehand[MG_E_CXY] != c_hcolor)
1135	+	return(put_cxy());
1136		return(MG_OK);
1137		}

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Comparing ray/src/cv/mgflib/parser.c (file contents): Revision 1.5 by greg, Fri Jun 24 09:40:29 1994 UTC vs. Revision 1.27 by greg, Fri Feb 28 20:11:29 2003 UTC

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Comparing ray/src/cv/mgflib/parser.c (file contents):
Revision 1.5 by greg, Fri Jun 24 09:40:29 1994 UTC vs.
Revision 1.27 by greg, Fri Feb 28 20:11:29 2003 UTC