[ViewVC] Diff of: radiance/ray/src/common/caldefn.c

Comparing ray/src/common/caldefn.c (file contents):
Revision 1.13 by greg, Thu Aug 8 11:22:06 1991 UTC vs.
Revision 2.30 by greg, Sat Mar 12 15:50:13 2022 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1991 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		* Store variable definitions.
6		*
#	Line 22 \| Line 19 \| static char SCCSid[] = "$SunId$ LBL";
19		* 4/23/91 Added ':' assignment for constant expressions
20		*
21		* 8/7/91 Added optional context path to append to variable names
22	+	*
23	+	* 5/17/2001 Fixed clock counter wrapping behavior
24	+	*
25	+	* 2/19/03 Eliminated conditional compiles in favor of esupport extern.
26		*/
27
28	<	#include <stdio.h>
28	>	#include "copyright.h"
29
30		#include <ctype.h>
31
32	+	#include "rterror.h"
33	+	#include "rtio.h"
34	+	#include "rtmisc.h"
35		#include "calcomp.h"
36
37	<	#ifndef NHASH
38	<	#define NHASH 521 /* hash size (a prime!) */
37	>	#ifndef NHASH
38	>	#define NHASH 521 /* hash size (a prime!) */
39		#endif
40
41	<	#define newnode() (EPNODE *)ecalloc(1, sizeof(EPNODE))
41	>	#define hash(s) (shash(s)%NHASH)
42
43	<	extern char ecalloc(), savestr(), *strcpy();
43	>	#define newnode() (EPNODE *)ecalloc(1, sizeof(EPNODE))
44
45	<	static double dvalue();
45	>	static double dvalue(char name, EPNODE d);
46
47	<	long eclock = -1; /* value storage timer */
47	>	#define MAXCLOCK (1L<<31) /* clock wrap value */
48
49	<	static char context[MAXWORD]; /* current context path */
49	>	unsigned long eclock = 0; /* value storage timer */
50
51	+	#define MAXCNTX 1023 /* maximum context length */
52	+
53	+	static char context[MAXCNTX+1]; /* current context path */
54	+
55		static VARDEF hashtbl[NHASH]; / definition list */
56		static int htndx; /* index for */
57		static VARDEF htpos; / ...dfirst() and */
50	–	#ifdef OUTCHAN
58		static EPNODE ochpos; / ...dnext */
59		static EPNODE *outchan;
53	–	#endif
60
61	<	#ifdef FUNCTION
62	<	EPNODE *curfunc;
57	<	#define dname(ep) ((ep)->v.kid->type == SYM ? \
61	>	EPNODE *curfunc = NULL;
62	>	#define dname(ep) ((ep)->v.kid->type == SYM ? \
63		(ep)->v.kid->v.name : \
64		(ep)->v.kid->v.kid->v.name)
60	–	#else
61	–	#define dname(ep) ((ep)->v.kid->v.name)
62	–	#endif
65
66
67	<	fcompile(fname) /* get definitions from a file */
68	<	char *fname;
67	>	void
68	>	fcompile( /* get definitions from a file */
69	>	char *fname
70	>	)
71		{
72		FILE *fp;
73
#	Line 82 \| Line 86 \| *char fname;**
86		}
87
88
89	<	scompile(str, fn, ln) /* get definitions from a string */
90	<	char *str;
91	<	char *fn;
92	<	int ln;
89	>	void
90	>	scompile( /* get definitions from a string */
91	>	char *str,
92	>	char *fn,
93	>	int ln
94	>	)
95		{
96		initstr(str, fn, ln);
97		while (nextc != EOF)
#	Line 94 \| Line 100 \| int ln;
100
101
102		double
103	<	varvalue(vname) /* return a variable's value */
104	<	char *vname;
103	>	varvalue( /* return a variable's value */
104	>	char *vname
105	>	)
106		{
107		return(dvalue(vname, dlookup(vname)));
108		}
109
110
111		double
112	<	evariable(ep) /* evaluate a variable */
113	<	EPNODE *ep;
112	>	evariable( /* evaluate a variable */
113	>	EPNODE *ep
114	>	)
115		{
116	<	register VARDEF *dp = ep->v.ln;
116	>	VARDEF *dp = ep->v.ln;
117
118		return(dvalue(dp->name, dp->def));
119		}
120
121
122	<	varset(vname, assign, val) /* set a variable's value */
123	<	char *vname;
124	<	int assign;
125	<	double val;
122	>	void
123	>	varset( /* set a variable's value */
124	>	char *vname,
125	>	int assign,
126	>	double val
127	>	)
128		{
129		char *qname;
130	<	register EPNODE ep1, ep2;
130	>	EPNODE ep1, ep2;
131		/* get qualified name */
132		qname = qualname(vname, 0);
133		/* check for quick set */
134	<	if ((ep1 = dlookup(qname)) != NULL && ep1->v.kid->type == SYM) {
134	>	if ((ep1 = dlookup(qname)) != NULL && ep1->v.kid->type == SYM &&
135	>	(ep1->type == ':') <= (assign == ':')) {
136		ep2 = ep1->v.kid->sibling;
137		if (ep2->type == NUM) {
138		ep2->v.num = val;
#	Line 129 \| Line 140 \| double val;
140		return;
141		}
142		}
143	+	if (ep1 != NULL && esupport&E_REDEFW) {
144	+	wputs(qname);
145	+	if (ep1->type == ':')
146	+	wputs(": reset constant expression\n");
147	+	else
148	+	wputs(": reset expression\n");
149	+	}
150		/* hand build definition */
151		ep1 = newnode();
152		ep1->type = assign;
#	Line 140 \| Line 158 \| double val;
158		ep2->type = NUM;
159		ep2->v.num = val;
160		addekid(ep1, ep2);
161	<	dremove(qname);
161	>	if (assign == ':')
162	>	dremove(qname);
163	>	else
164	>	dclear(qname);
165		dpush(qname, ep1);
166		}
167
168
169	<	dclear(name) /* delete variable definitions of name */
170	<	char *name;
169	>	void
170	>	dclear( /* delete variable definitions of name */
171	>	char *name
172	>	)
173		{
174	<	register EPNODE *ep;
174	>	EPNODE *ep;
175
176		while ((ep = dpop(name)) != NULL) {
177		if (ep->type == ':') {
#	Line 160 \| Line 183 \| *char name;**
183		}
184
185
186	<	dremove(name) /* delete all definitions of name */
187	<	char *name;
186	>	void
187	>	dremove( /* delete all definitions of name */
188	>	char *name
189	>	)
190		{
191	<	register EPNODE *ep;
191	>	EPNODE *ep;
192
193		while ((ep = dpop(name)) != NULL)
194		epfree(ep);
195		}
196
197
198	<	vardefined(name) /* return non-zero if variable defined */
199	<	char *name;
198	>	int
199	>	vardefined( /* return '=' or ':' if variable/constant defined */
200	>	char *name
201	>	)
202		{
203	<	register EPNODE *dp;
203	>	EPNODE *dp;
204
205	<	return((dp = dlookup(name)) != NULL && dp->v.kid->type == SYM);
205	>	if ((dp = dlookup(name)) == NULL \|\| dp->v.kid->type != SYM)
206	>	return(0);
207	>	return(dp->type);
208		}
209
210
211		char *
212	<	setcontext(ctx) /* set a new context path */
213	<	register char *ctx;
212	>	setcontext( /* set a new context path */
213	>	char *ctx
214	>	)
215		{
216	<	register char *cpp;
216	>	char *cpp;
217
218		if (ctx == NULL)
219		return(context); /* just asking */
220	+	while (*ctx == CNTXMARK)
221	+	ctx++; /* skip past marks */
222		if (!*ctx) {
223	<	context[0] = '\0'; /* clear context */
223	>	context[0] = '\0'; /* empty means clear context */
224		return(context);
225		}
226	<	cpp = context; /* else copy it (carefully!) */
227	<	if (*ctx != CNTXMARK)
228	<	cpp++ = CNTXMARK; / make sure there's a mark */
229	<	do {
230	<	if (cpp >= context+MAXWORD-1) {
199	<	*cpp = '\0';
200	<	wputs(context);
201	<	wputs(": context path too long\n");
202	<	return(NULL);
203	<	}
226	>	cpp = context; /* start context with mark */
227	>	*cpp++ = CNTXMARK;
228	>	do { /* carefully copy new context */
229	>	if (cpp >= context+MAXCNTX)
230	>	break; /* just copy what we can */
231		if (isid(*ctx))
232		cpp++ = ctx++;
233		else {
234		*cpp++ = '_'; ctx++;
235		}
236		} while (*ctx);
237	+	while (cpp[-1] == CNTXMARK) /* cannot end in context mark */
238	+	cpp--;
239		*cpp = '\0';
240		return(context);
241		}
242
243
244		char *
245	<	qualname(nam, lvl) /* get qualified name */
246	<	register char *nam;
247	<	int lvl;
245	>	pushcontext( /* push on another context */
246	>	char *ctx
247	>	)
248		{
249	<	static char nambuf[MAXWORD];
250	<	register char cp = nambuf, cpp = context;
251	<	/* check for repeat call */
252	<	if (nam == nambuf)
253	<	return(lvl > 0 ? NULL : nambuf);
249	>	char oldcontext[MAXCNTX+1];
250	>	int n;
251	>
252	>	strcpy(oldcontext, context); /* save old context */
253	>	setcontext(ctx); /* set new context */
254	>	n = strlen(context); /* tack on old */
255	>	if (n+strlen(oldcontext) > MAXCNTX) {
256	>	strncpy(context+n, oldcontext, MAXCNTX-n);
257	>	context[MAXCNTX] = '\0';
258	>	} else
259	>	strcpy(context+n, oldcontext);
260	>	return(context);
261	>	}
262	>
263	>
264	>	char *
265	>	popcontext(void) /* pop off top context */
266	>	{
267	>	char cp1, cp2;
268	>
269	>	if (!context[0]) /* nothing left to pop */
270	>	return(context);
271	>	cp2 = context; /* find mark */
272	>	while (++cp2 && cp2 != CNTXMARK)
273	>	;
274	>	cp1 = context; /* copy tail to front */
275	>	while ( (cp1++ = cp2++) )
276	>	;
277	>	return(context);
278	>	}
279	>
280	>
281	>	char *
282	>	qualname( /* get qualified name */
283	>	char *nam,
284	>	int lvl
285	>	)
286	>	{
287	>	static char nambuf[RMAXWORD+1];
288	>	char cp = nambuf, cpp;
289	>	/* check for explicit local */
290	>	if (*nam == CNTXMARK)
291	>	if (lvl > 0) /* only action is to refuse search */
292	>	return(NULL);
293	>	else
294	>	nam++;
295	>	else if (nam == nambuf) /* check for repeat call */
296	>	return(lvl > 0 ? NULL : nam);
297		/* copy name to static buffer */
298		while (*nam) {
299	<	if (cp >= nambuf+MAXWORD-1)
299	>	if (cp >= nambuf+RMAXWORD)
300		goto toolong;
301	<	if ((cp++ = nam++) == CNTXMARK)
230	<	cpp = NULL; /* flag a qualified name */
301	>	cp++ = nam++;
302		}
303	<	if (cpp == NULL) {
303	>	/* check for explicit global */
304	>	if (cp > nambuf && cp[-1] == CNTXMARK) {
305		if (lvl > 0)
306	<	return(NULL); /* no higher level */
307	<	if (cp[-1] == CNTXMARK) {
308	<	cp--; cpp = context; /* current context explicitly */
309	<	} else
310	<	cpp = ""; /* else fully qualified */
311	<	} else /* else skip the requested levels */
312	<	while (lvl-- > 0) {
313	<	if (!*cpp)
314	<	return(NULL); /* return NULL if past global level */
315	<	while (++cpp && cpp != CNTXMARK)
316	<	;
245	<	}
306	>	return(NULL);
307	>	*--cp = '\0';
308	>	return(nambuf); /* already qualified */
309	>	}
310	>	cpp = context; /* else skip the requested levels */
311	>	while (lvl-- > 0) {
312	>	if (!*cpp)
313	>	return(NULL); /* return NULL if past global level */
314	>	while (++cpp && cpp != CNTXMARK)
315	>	;
316	>	}
317		while (cpp) { / copy context to static buffer */
318	<	if (cp >= nambuf+MAXWORD-1)
318	>	if (cp >= nambuf+RMAXWORD)
319		goto toolong;
320		cp++ = cpp++;
321		}
251	–	*cp = '\0';
252	–	return(nambuf); /* return qualified name */
322		toolong:
323		*cp = '\0';
324	<	wputs(nambuf);
256	<	wputs(": name too long\n");
257	<	return(NULL);
324	>	return(nambuf); /* return qualified name */
325		}
326
327
328	<	#ifdef OUTCHAN
329	<	chanout(cs) /* set output channels */
330	<	int (*cs)();
328	>	int
329	>	incontext( /* is qualified name in current context? */
330	>	char *qn
331	>	)
332		{
333	<	register EPNODE *ep;
333	>	if (!context[0]) /* global context accepts all */
334	>	return(1);
335	>	while (qn && qn != CNTXMARK) /* find context mark */
336	>	qn++;
337	>	return(!strcmp(qn, context));
338	>	}
339
340	+
341	+	void
342	+	chanout( /* set output channels */
343	+	void (*cs)(int n, double v)
344	+	)
345	+	{
346	+	EPNODE *ep;
347	+
348		for (ep = outchan; ep != NULL; ep = ep->sibling)
349		(*cs)(ep->v.kid->v.chan, evalue(ep->v.kid->sibling));
350
351		}
271	–	#endif
352
353
354	<	dcleanup(lvl) /* clear definitions (0->vars,1->output,2->consts) */
355	<	int lvl;
354	>	void
355	>	dcleanup( /* clear definitions (0->vars,1->output,2->consts) */
356	>	int lvl
357	>	)
358		{
359	<	register int i;
360	<	register VARDEF *vp;
361	<	register EPNODE *ep;
362	<
359	>	int i;
360	>	VARDEF *vp;
361	>	EPNODE *ep;
362	>	/* if context is global, clear all */
363		for (i = 0; i < NHASH; i++)
364		for (vp = hashtbl[i]; vp != NULL; vp = vp->next)
365	<	if (lvl >= 2)
366	<	dremove(vp->name);
367	<	else
368	<	dclear(vp->name);
369	<	#ifdef OUTCHAN
365	>	if (incontext(vp->name)) {
366	>	if (lvl >= 2)
367	>	dremove(vp->name);
368	>	else
369	>	dclear(vp->name);
370	>	}
371		if (lvl >= 1) {
372		for (ep = outchan; ep != NULL; ep = ep->sibling)
373		epfree(ep);
374		outchan = NULL;
375		}
293	–	#endif
376		}
377
378
379		EPNODE *
380	<	dlookup(name) /* look up a definition */
381	<	char *name;
380	>	dlookup( /* look up a definition */
381	>	char *name
382	>	)
383		{
384	<	register VARDEF *vp;
384	>	VARDEF *vp;
385
386		if ((vp = varlookup(name)) == NULL)
387	<	return(NULL);
387	>	return(NULL);
388		return(vp->def);
389		}
390
391
392		VARDEF *
393	<	varlookup(name) /* look up a variable */
394	<	char *name;
393	>	varlookup( /* look up a variable */
394	>	char *name
395	>	)
396		{
397	<	int lvl = 0;
398	<	register char *qname;
399	<	register VARDEF *vp;
400	<	/* find most qualified match */
397	>	int lvl = 0;
398	>	char *qname;
399	>	VARDEF *vp;
400	>	/* find most qualified match */
401		while ((qname = qualname(name, lvl++)) != NULL)
402		for (vp = hashtbl[hash(qname)]; vp != NULL; vp = vp->next)
403		if (!strcmp(vp->name, qname))
#	Line 323 \| Line 407 \| *char name;**
407
408
409		VARDEF *
410	<	varinsert(name) /* get a link to a variable */
411	<	char *name;
410	>	varinsert( /* get a link to a variable */
411	>	char *name
412	>	)
413		{
414	<	register VARDEF *vp;
415	<	int hv;
414	>	VARDEF *vp;
415	>	int hv;
416
417		if ((vp = varlookup(name)) != NULL) {
418		vp->nlinks++;
419		return(vp);
420		}
336	–	name = qualname(name, 0); /* use fully qualified name */
337	–	hv = hash(name);
421		vp = (VARDEF *)emalloc(sizeof(VARDEF));
422	+	vp->lib = liblookup(name);
423	+	if (vp->lib == NULL) /* if name not in library */
424	+	name = qualname(name, 0); /* use fully qualified version */
425	+	hv = hash(name);
426		vp->name = savestr(name);
427		vp->nlinks = 1;
428		vp->def = NULL;
342	–	vp->lib = NULL;
429		vp->next = hashtbl[hv];
430		hashtbl[hv] = vp;
431		return(vp);
432		}
433
434
435	<	varfree(ln) /* release link to variable */
436	<	register VARDEF *ln;
435	>	void
436	>	libupdate( /* update library links */
437	>	char *fn
438	>	)
439		{
440	<	register VARDEF *vp;
441	<	int hv;
440	>	int i;
441	>	VARDEF *vp;
442	>	/* if fn is NULL then relink all */
443	>	for (i = 0; i < NHASH; i++)
444	>	for (vp = hashtbl[i]; vp != NULL; vp = vp->next)
445	>	if (vp->lib != NULL \|\| fn == NULL \|\| !strcmp(fn, vp->name))
446	>	vp->lib = liblookup(vp->name);
447	>	}
448
449	+
450	+	void
451	+	varfree( /* release link to variable */
452	+	VARDEF *ln
453	+	)
454	+	{
455	+	VARDEF *vp;
456	+	int hv;
457	+
458		if (--ln->nlinks > 0)
459	<	return; /* still active */
459	>	return; /* still active */
460
461		hv = hash(ln->name);
462		vp = hashtbl[hv];
463		if (vp == ln)
464	<	hashtbl[hv] = vp->next;
464	>	hashtbl[hv] = vp->next;
465		else {
466	<	while (vp->next != ln) /* must be in list */
467	<	vp = vp->next;
468	<	vp->next = ln->next;
466	>	while (vp->next != ln) /* must be in list */
467	>	vp = vp->next;
468	>	vp->next = ln->next;
469		}
470		freestr(ln->name);
471		efree((char *)ln);
#	Line 370 \| Line 473 \| *register VARDEF ln;**
473
474
475		EPNODE *
476	<	dfirst() /* return pointer to first definition */
476	>	dfirst(void) /* return pointer to first definition */
477		{
478		htndx = 0;
479		htpos = NULL;
377	–	#ifdef OUTCHAN
480		ochpos = outchan;
379	–	#endif
481		return(dnext());
482		}
483
484
485		EPNODE *
486	<	dnext() /* return pointer to next definition */
486	>	dnext(void) /* return pointer to next definition */
487		{
488	<	register EPNODE *ep;
488	>	EPNODE *ep;
489	>	char *nm;
490
491		while (htndx < NHASH) {
492	<	if (htpos == NULL)
493	<	htpos = hashtbl[htndx++];
494	<	while (htpos != NULL) {
495	<	ep = htpos->def;
496	<	htpos = htpos->next;
497	<	if (ep != NULL)
498	<	return(ep);
499	<	}
492	>	if (htpos == NULL)
493	>	htpos = hashtbl[htndx++];
494	>	while (htpos != NULL) {
495	>	ep = htpos->def;
496	>	nm = htpos->name;
497	>	htpos = htpos->next;
498	>	if (ep != NULL && incontext(nm))
499	>	return(ep);
500	>	}
501		}
399	–	#ifdef OUTCHAN
502		if ((ep = ochpos) != NULL)
503	<	ochpos = ep->sibling;
503	>	ochpos = ep->sibling;
504		return(ep);
403	–	#else
404	–	return(NULL);
405	–	#endif
505		}
506
507
508		EPNODE *
509	<	dpop(name) /* pop a definition */
510	<	char *name;
509	>	dpop( /* pop a definition */
510	>	char *name
511	>	)
512		{
513	<	register VARDEF *vp;
514	<	register EPNODE *dp;
513	>	VARDEF *vp;
514	>	EPNODE *dp;
515
516		if ((vp = varlookup(name)) == NULL \|\| vp->def == NULL)
517	<	return(NULL);
517	>	return(NULL);
518		dp = vp->def;
519		vp->def = dp->sibling;
520		varfree(vp);
#	Line 422 \| Line 522 \| *char name;**
522		}
523
524
525	<	dpush(nm, ep) /* push on a definition */
526	<	char *nm;
527	<	register EPNODE *ep;
525	>	void
526	>	dpush( /* push on a definition */
527	>	char *nm,
528	>	EPNODE *ep
529	>	)
530		{
531	<	register VARDEF *vp;
531	>	VARDEF *vp;
532
533		vp = varinsert(nm);
534		ep->sibling = vp->def;
#	Line 434 \| Line 536 \| *register EPNODE ep;**
536		}
537
538
539	<	#ifdef OUTCHAN
540	<	addchan(sp) /* add an output channel assignment */
541	<	EPNODE *sp;
539	>	void
540	>	addchan( /* add an output channel assignment */
541	>	EPNODE *sp
542	>	)
543		{
544	<	int ch = sp->v.kid->v.chan;
545	<	register EPNODE ep, epl;
544	>	int ch = sp->v.kid->v.chan;
545	>	EPNODE ep, epl;
546
547		for (epl = NULL, ep = outchan; ep != NULL; epl = ep, ep = ep->sibling)
548		if (ep->v.kid->v.chan >= ch) {
#	Line 462 \| Line 565 \| *EPNODE sp;**
565		sp->sibling = NULL;
566
567		}
465	–	#endif
568
569
570	<	getstatement() /* get next statement */
570	>	void
571	>	getstatement(void) /* get next statement */
572		{
573	<	register EPNODE *ep;
573	>	EPNODE *ep;
574		char *qname;
575	<	EPNODE *lastdef;
575	>	VARDEF *vdef;
576
577		if (nextc == ';') { /* empty statement */
578		scan();
579		return;
580		}
581	<	#ifdef OUTCHAN
582	<	if (nextc == '$') { /* channel assignment */
581	>	if (esupport&E_OUTCHAN &&
582	>	nextc == '$') { /* channel assignment */
583		ep = getchan();
584		addchan(ep);
585	<	} else
483	<	#endif
484	<	{ /* ordinary definition */
585	>	} else { /* ordinary definition */
586		ep = getdefn();
587		qname = qualname(dname(ep), 0);
588	<	#ifdef REDEFW
589	<	if ((lastdef = dlookup(qname)) != NULL) {
590	<	wputs(qname);
591	<	if (lastdef->type == ':')
592	<	wputs(": redefined constant expression\n");
593	<	else
594	<	wputs(": redefined\n");
588	>	if (esupport&E_REDEFW && (vdef = varlookup(qname)) != NULL) {
589	>	if (vdef->def != NULL && epcmp(ep, vdef->def)) {
590	>	wputs(qname);
591	>	if (vdef->def->type == ':')
592	>	wputs(": redefined constant expression\n");
593	>	else
594	>	wputs(": redefined\n");
595	>	} else if (ep->v.kid->type == FUNC && vdef->lib != NULL) {
596	>	wputs(qname);
597	>	wputs(": definition hides library function\n");
598	>	}
599		}
495	–	#ifdef FUNCTION
496	–	else if (ep->v.kid->type == FUNC && liblookup(qname) != NULL) {
497	–	wputs(qname);
498	–	wputs(": definition hides library function\n");
499	–	}
500	–	#endif
501	–	#endif
600		if (ep->type == ':')
601		dremove(qname);
602		else
#	Line 514 \| Line 612 \| *getstatement() / get next statement /*
612
613
614		EPNODE *
615	<	getdefn() /* A -> SYM = E1 */
616	<	/* SYM : E1 */
617	<	/* FUNC(SYM,..) = E1 */
618	<	/* FUNC(SYM,..) : E1 */
615	>	getdefn(void)
616	>	/* A -> SYM = E1 */
617	>	/* SYM : E1 */
618	>	/* FUNC(SYM,..) = E1 */
619	>	/* FUNC(SYM,..) : E1 */
620		{
621	<	register EPNODE ep1, ep2;
621	>	EPNODE ep1, ep2;
622
623	<	if (!isalpha(nextc))
623	>	if (!isalpha(nextc) && nextc != CNTXMARK)
624		syntax("illegal variable name");
625
626		ep1 = newnode();
627		ep1->type = SYM;
628		ep1->v.name = savestr(getname());
629
630	<	#ifdef FUNCTION
532	<	if (nextc == '(') {
630	>	if (esupport&E_FUNCTION && nextc == '(') {
631		ep2 = newnode();
632		ep2->type = FUNC;
633		addekid(ep2, ep1);
#	Line 537 \| Line 635 \| *getdefn() / A -> SYM = E1 /*
635		do {
636		scan();
637		if (!isalpha(nextc))
638	<	syntax("illegal variable name");
638	>	syntax("illegal parameter name");
639		ep2 = newnode();
640		ep2->type = SYM;
641		ep2->v.name = savestr(getname());
642	+	if (strchr(ep2->v.name, CNTXMARK) != NULL)
643	+	syntax("illegal parameter name");
644		addekid(ep1, ep2);
645		} while (nextc == ',');
646		if (nextc != ')')
647		syntax("')' expected");
648		scan();
649		curfunc = ep1;
650	<	} else
551	<	curfunc = NULL;
552	<	#endif
650	>	}
651
652		if (nextc != '=' && nextc != ':')
653		syntax("'=' or ':' expected");
#	Line 560 \| Line 658 \| *getdefn() / A -> SYM = E1 /*
658		addekid(ep2, ep1);
659		addekid(ep2, getE1());
660
661	<	if (
564	<	#ifdef FUNCTION
565	<	ep1->type == SYM &&
566	<	#endif
567	<	ep1->sibling->type != NUM) {
661	>	if (ep1->type == SYM && ep1->sibling->type != NUM) {
662		ep1 = newnode();
663	<	ep1->type = TICK;
664	<	ep1->v.tick = -1;
663	>	ep1->type = CLKT;
664	>	ep1->v.tick = 0;
665		addekid(ep2, ep1);
666		ep1 = newnode();
667		ep1->type = NUM;
668		addekid(ep2, ep1);
669		}
670	+	curfunc = NULL;
671
672		return(ep2);
673		}
674
675
581	–	#ifdef OUTCHAN
676		EPNODE *
677	<	getchan() /* A -> $N = E1 */
677	>	getchan(void) /* A -> $N = E1 */
678		{
679	<	register EPNODE ep1, ep2;
679	>	EPNODE ep1, ep2;
680
681		if (nextc != '$')
682		syntax("missing '$'");
#	Line 603 \| Line 697 \| *getchan() / A -> $N = E1 /*
697
698		return(ep2);
699		}
606	–	#endif
700
701
702
#	Line 612 \| Line 705 \| *getchan() / A -> $N = E1 /*
705		*/
706
707
708	<	static double
709	<	dvalue(name, d) /* evaluate a variable */
617	<	char *name;
618	<	EPNODE *d;
708	>	static double /* evaluate a variable */
709	>	dvalue(char name, EPNODE d)
710		{
711	<	register EPNODE ep1, ep2;
711	>	EPNODE ep1, ep2;
712
713		if (d == NULL \|\| d->v.kid->type != SYM) {
714		eputs(name);
#	Line 627 \| Line 718 \| *EPNODE d;**
718		ep1 = d->v.kid->sibling; /* get expression */
719		if (ep1->type == NUM)
720		return(ep1->v.num); /* return if number */
721	+	if (esupport&E_RCONST && d->type == ':') {
722	+	wputs(name);
723	+	wputs(": assigned non-constant value\n");
724	+	}
725		ep2 = ep1->sibling; /* check time */
726	<	if (ep2->v.tick < 0 \|\| ep2->v.tick < eclock) {
727	<	ep2->v.tick = d->type == ':' ? 1L<<30 : eclock;
726	>	if (eclock >= MAXCLOCK)
727	>	eclock = 1; /* wrap clock counter */
728	>	if (ep2->v.tick < MAXCLOCK &&
729	>	(ep2->v.tick == 0) \| (ep2->v.tick != eclock)) {
730	>	ep2->v.tick = d->type == ':' ? MAXCLOCK : eclock;
731		ep2 = ep2->sibling;
732		ep2->v.num = evalue(ep1); /* needs new value */
733		} else
734		ep2 = ep2->sibling; /* else reuse old value */
735
736		return(ep2->v.num);
639	–	}
640	–
641	–
642	–	static int
643	–	hash(s) /* hash a string */
644	–	register char *s;
645	–	{
646	–	register int rval = 0;
647	–
648	–	while (*s)
649	–	rval += *s++;
650	–
651	–	return(rval % NHASH);
737		}

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Comparing ray/src/common/caldefn.c (file contents): Revision 1.13 by greg, Thu Aug 8 11:22:06 1991 UTC vs. Revision 2.30 by greg, Sat Mar 12 15:50:13 2022 UTC

Diff Legend

Comparing ray/src/common/caldefn.c (file contents):
Revision 1.13 by greg, Thu Aug 8 11:22:06 1991 UTC vs.
Revision 2.30 by greg, Sat Mar 12 15:50:13 2022 UTC