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

Comparing ray/src/common/calexpr.c (file contents):
Revision 1.2 by greg, Mon Apr 10 22:06:37 1989 UTC vs.
Revision 2.32 by greg, Thu May 1 16:42:05 2008 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1986 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		* Compute data values using expression parser
6		*
#	Line 16 \| Line 13 \| static char SCCSid[] = "$SunId$ LBL";
13		* 1/29/87 Made variables conditional (VARIABLE)
14		*
15		* 5/19/88 Added constant subexpression elimination (RCONST)
16	+	*
17	+	* 2/19/03 Eliminated conditional compiles in favor of esupport extern.
18		*/
19
20	<	#include <stdio.h>
20	>	#include "copyright.h"
21
22	+	#include <stdio.h>
23	+	#include <string.h>
24		#include <ctype.h>
24	–
25		#include <errno.h>
26	+	#include <math.h>
27	+	#include <stdlib.h>
28
29	+	#include "rtmisc.h"
30	+	#include "rtio.h"
31	+	#include "rterror.h"
32		#include "calcomp.h"
33
34	<	#define MAXLINE 256 /* maximum line length */
30	<	#define MAXWORD 64 /* maximum word length */
34	>	#define MAXLINE 256 /* maximum line length */
35
36	<	#define newnode() (EPNODE *)ecalloc(1, sizeof(EPNODE))
36	>	#define newnode() (EPNODE *)ecalloc(1, sizeof(EPNODE))
37
38	<	#define isid(c) (isalnum(c) \|\| (c) == '_' \|\| (c) == '.')
38	>	#define isdecimal(c) (isdigit(c) \|\| (c) == '.')
39
40	<	#define isdecimal(c) (isdigit(c) \|\| (c) == '.')
40	>	static double euminus(EPNODE ), eargument(EPNODE ), enumber(EPNODE *);
41	>	static double echannel(EPNODE *);
42	>	static double eadd(EPNODE ), esubtr(EPNODE ),
43	>	emult(EPNODE ), edivi(EPNODE ),
44	>	epow(EPNODE *);
45	>	static double ebotch(EPNODE *);
46
47	<	extern double atof(), pow();
48	<	extern char fgets(), savestr();
40	<	extern char emalloc(), ecalloc();
41	<	extern EPNODE *curfunc;
42	<	extern double efunc(), evariable(), enumber(), euminus(), echannel();
43	<	extern double eargument(), eadd(), esubtr(), emult(), edivi(), epow();
44	<	extern double ebotch();
45	<	extern int errno;
47	>	unsigned int esupport = /* what to support */
48	>	E_VARIABLE \| E_FUNCTION ;
49
50	+	int eofc = 0; /* optional end-of-file character */
51		int nextc; /* lookahead character */
52
53	<	double (eoper[])() = { / expression operations */
53	>	double (eoper[])(EPNODE ) = { /* expression operations */
54		ebotch,
51	–	#ifdef VARIABLE
55		evariable,
53	–	#else
54	–	ebotch,
55	–	#endif
56		enumber,
57		euminus,
58	–	#ifdef INCHAN
58		echannel,
60	–	#else
61	–	ebotch,
62	–	#endif
63	–	#ifdef FUNCTION
59		efunc,
60		eargument,
66	–	#else
61		ebotch,
62		ebotch,
69	–	#endif
70	–	ebotch,
71	–	ebotch,
63		0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
64		0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
65		emult,
#	Line 77 \| Line 68 \| *double (eoper[])() = { /* expression operations /*
68		esubtr,
69		0,
70		edivi,
71	<	0,0,0,0,0,0,0,0,0,0,0,0,0,
71	>	0,0,0,0,0,0,0,0,0,0,
72		ebotch,
73	+	0,0,
74	+	ebotch,
75		0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
76		0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
77		epow,
78		};
79
87	–	static char infile; / input file name */
80		static FILE infp; / input file pointer */
81		static char linbuf; / line buffer */
82	+	static char infile; / input file name */
83	+	static int lineno; /* input line number */
84		static int linepos; /* position in buffer */
85
86
87		EPNODE *
88	<	eparse(expr) /* parse an expression string */
89	<	char *expr;
88	>	eparse( /* parse an expression string */
89	>	char *expr
90	>	)
91		{
92		EPNODE *ep;
93
94	<	initstr(NULL, expr);
100	<	#if defined(VARIABLE) && defined(FUNCTION)
94	>	initstr(expr, NULL, 0);
95		curfunc = NULL;
102	–	#endif
96		ep = getE1();
97		if (nextc != EOF)
98		syntax("unexpected character");
#	Line 108 \| Line 101 \| *char expr;**
101
102
103		double
104	<	eval(expr) /* evaluate an expression string */
105	<	char *expr;
104	>	eval( /* evaluate an expression string */
105	>	char *expr
106	>	)
107		{
108		register EPNODE *ep;
109		double rval;
#	Line 121 \| Line 115 \| *char expr;**
115		}
116
117
118	<	epfree(epar) /* free a parse tree */
119	<	register EPNODE *epar;
118	>	int
119	>	epcmp( /* compare two expressions for equivalence */
120	>	register EPNODE *ep1,
121	>	register EPNODE *ep2
122	>	)
123		{
124	+	double d;
125	+
126	+	if (ep1->type != ep2->type)
127	+	return(1);
128	+
129	+	switch (ep1->type) {
130	+
131	+	case VAR:
132	+	return(ep1->v.ln != ep2->v.ln);
133	+
134	+	case NUM:
135	+	if (ep2->v.num == 0)
136	+	return(ep1->v.num != 0);
137	+	d = ep1->v.num / ep2->v.num;
138	+	return((d > 1.000000000001) \| (d < 0.999999999999));
139	+
140	+	case CHAN:
141	+	case ARG:
142	+	return(ep1->v.chan != ep2->v.chan);
143	+
144	+	case '=':
145	+	case ':':
146	+	return(epcmp(ep1->v.kid->sibling, ep2->v.kid->sibling));
147	+
148	+	case CLKT:
149	+	case SYM: /* should never get this one */
150	+	return(0);
151	+
152	+	default:
153	+	ep1 = ep1->v.kid;
154	+	ep2 = ep2->v.kid;
155	+	while (ep1 != NULL) {
156	+	if (ep2 == NULL)
157	+	return(1);
158	+	if (epcmp(ep1, ep2))
159	+	return(1);
160	+	ep1 = ep1->sibling;
161	+	ep2 = ep2->sibling;
162	+	}
163	+	return(ep2 != NULL);
164	+	}
165	+	}
166	+
167	+
168	+	void
169	+	epfree( /* free a parse tree */
170	+	register EPNODE *epar
171	+	)
172	+	{
173		register EPNODE *ep;
174
175		switch (epar->type) {
176
131	–	#if defined(VARIABLE) \|\| defined(FUNCTION)
177		case VAR:
178		varfree(epar->v.ln);
179		break;
135	–	#endif
180
181		case SYM:
182		freestr(epar->v.name);
#	Line 141 \| Line 185 \| *register EPNODE epar;**
185		case NUM:
186		case CHAN:
187		case ARG:
188	<	case TICK:
188	>	case CLKT:
189		break;
190
191		default:
192	<	for (ep = epar->v.kid; ep != NULL; ep = ep->sibling)
192	>	while ((ep = epar->v.kid) != NULL) {
193	>	epar->v.kid = ep->sibling;
194		epfree(ep);
195	+	}
196		break;
197
198		}
#	Line 155 \| Line 201 \| *register EPNODE epar;**
201		}
202
203		/* the following used to be a switch */
158	–	#ifdef FUNCTION
204		static double
205	<	eargument(ep)
206	<	EPNODE *ep;
205	>	eargument(
206	>	EPNODE *ep
207	>	)
208		{
209		return(argument(ep->v.chan));
210		}
165	–	#endif
211
212		static double
213	<	enumber(ep)
214	<	EPNODE *ep;
213	>	enumber(
214	>	EPNODE *ep
215	>	)
216		{
217		return(ep->v.num);
218		}
219
220		static double
221	<	euminus(ep)
222	<	EPNODE *ep;
221	>	euminus(
222	>	EPNODE *ep
223	>	)
224		{
225		register EPNODE *ep1 = ep->v.kid;
226
227		return(-evalue(ep1));
228		}
229
183	–	#ifdef INCHAN
230		static double
231	<	echannel(ep)
232	<	EPNODE *ep;
231	>	echannel(
232	>	EPNODE *ep
233	>	)
234		{
235		return(chanvalue(ep->v.chan));
236		}
190	–	#endif
237
238		static double
239	<	eadd(ep)
240	<	EPNODE *ep;
239	>	eadd(
240	>	EPNODE *ep
241	>	)
242		{
243		register EPNODE *ep1 = ep->v.kid;
244
#	Line 199 \| Line 246 \| *EPNODE ep;**
246		}
247
248		static double
249	<	esubtr(ep)
250	<	EPNODE *ep;
249	>	esubtr(
250	>	EPNODE *ep
251	>	)
252		{
253		register EPNODE *ep1 = ep->v.kid;
254
#	Line 208 \| Line 256 \| *EPNODE ep;**
256		}
257
258		static double
259	<	emult(ep)
260	<	EPNODE *ep;
259	>	emult(
260	>	EPNODE *ep
261	>	)
262		{
263		register EPNODE *ep1 = ep->v.kid;
264
#	Line 217 \| Line 266 \| *EPNODE ep;**
266		}
267
268		static double
269	<	edivi(ep)
270	<	EPNODE *ep;
269	>	edivi(
270	>	EPNODE *ep
271	>	)
272		{
273		register EPNODE *ep1 = ep->v.kid;
274		double d;
#	Line 233 \| Line 283 \| *EPNODE ep;**
283		}
284
285		static double
286	<	epow(ep)
287	<	EPNODE *ep;
286	>	epow(
287	>	EPNODE *ep
288	>	)
289		{
290		register EPNODE *ep1 = ep->v.kid;
291		double d;
292	<	int lasterrno;
292	>	int lasterrno;
293
294		lasterrno = errno;
295		errno = 0;
296		d = pow(evalue(ep1), evalue(ep1->sibling));
297	<	#ifdef IEEE
298	<	if (!finite(d))
299	<	errno = EDOM;
297	>	#ifdef isnan
298	>	if (errno == 0)
299	>	if (isnan(d))
300	>	errno = EDOM;
301	>	else if (isinf(d))
302	>	errno = ERANGE;
303		#endif
304	<	if (errno) {
304	>	if (errno == EDOM \|\| errno == ERANGE) {
305		wputs("Illegal power\n");
306		return(0.0);
307		}
#	Line 256 \| Line 310 \| *EPNODE ep;**
310		}
311
312		static double
313	<	ebotch(ep)
314	<	EPNODE *ep;
313	>	ebotch(
314	>	EPNODE *ep
315	>	)
316		{
317		eputs("Bad expression!\n");
318		quit(1);
319	+	return 0.0; /* pro forma return */
320		}
321
322
323		EPNODE *
324	<	ekid(ep, n) /* return pointer to a node's nth kid */
325	<	register EPNODE *ep;
326	<	register int n;
324	>	ekid( /* return pointer to a node's nth kid */
325	>	register EPNODE *ep,
326	>	register int n
327	>	)
328		{
329
330		for (ep = ep->v.kid; ep != NULL; ep = ep->sibling)
#	Line 279 \| Line 336 \| register int n;
336
337
338		int
339	<	nekids(ep) /* return # of kids for node ep */
340	<	register EPNODE *ep;
339	>	nekids( /* return # of kids for node ep */
340	>	register EPNODE *ep
341	>	)
342		{
343		register int n = 0;
344
#	Line 291 \| Line 349 \| *register EPNODE ep;**
349		}
350
351
352	<	initfile(file, fp) /* prepare input file */
353	<	char *file;
354	<	FILE *fp;
352	>	void
353	>	initfile( /* prepare input file */
354	>	FILE *fp,
355	>	char *fn,
356	>	int ln
357	>	)
358		{
359	<	static char inpbuf[MAXLINE];
359	>	static char inpbuf[MAXLINE];
360
300	–	infile = file;
361		infp = fp;
362		linbuf = inpbuf;
363	+	infile = fn;
364	+	lineno = ln;
365		linepos = 0;
366		inpbuf[0] = '\0';
367		scan();
368		}
369
370
371	<	initstr(file, s) /* prepare input string */
372	<	char *file;
373	<	char *s;
371	>	void
372	>	initstr( /* prepare input string */
373	>	char *s,
374	>	char *fn,
375	>	int ln
376	>	)
377		{
313	–	infile = file;
378		infp = NULL;
379	+	infile = fn;
380	+	lineno = ln;
381		linbuf = s;
382		linepos = 0;
383		scan();
384		}
385
386
387	<	scan() /* scan next character */
387	>	void
388	>	getscanpos( /* return current scan position */
389	>	char **fnp,
390	>	int *lnp,
391	>	char **spp,
392	>	FILE **fpp
393	>	)
394		{
395	+	if (fnp != NULL) *fnp = infile;
396	+	if (lnp != NULL) *lnp = lineno;
397	+	if (spp != NULL) *spp = linbuf+linepos;
398	+	if (fpp != NULL) *fpp = infp;
399	+	}
400	+
401	+
402	+	int
403	+	scan(void) /* scan next character, return literal next */
404	+	{
405	+	register int lnext = 0;
406	+
407		do {
408		if (linbuf[linepos] == '\0')
409		if (infp == NULL \|\| fgets(linbuf, MAXLINE, infp) == NULL)
410		nextc = EOF;
411		else {
412		nextc = linbuf[0];
413	+	lineno++;
414		linepos = 1;
415		}
416		else
417		nextc = linbuf[linepos++];
418	+	if (!lnext)
419	+	lnext = nextc;
420	+	if (nextc == eofc) {
421	+	nextc = EOF;
422	+	break;
423	+	}
424		if (nextc == '{') {
425		scan();
426		while (nextc != '}')
#	Line 340 \| Line 431 \| *scan() / scan next character /*
431		scan();
432		}
433		} while (isspace(nextc));
434	+	return(lnext);
435		}
436
437
438	<	syntax(err) /* report syntax error and quit */
439	<	char *err;
438	>	char *
439	>	long2ascii( /* convert long to ascii */
440	>	long l
441	>	)
442		{
443	+	static char buf[16];
444	+	register char *cp;
445	+	int neg = 0;
446	+
447	+	if (l == 0)
448	+	return("0");
449	+	if (l < 0) {
450	+	l = -l;
451	+	neg++;
452	+	}
453	+	cp = buf + sizeof(buf);
454	+	*--cp = '\0';
455	+	while (l) {
456	+	*--cp = l % 10 + '0';
457	+	l /= 10;
458	+	}
459	+	if (neg)
460	+	*--cp = '-';
461	+	return(cp);
462	+	}
463	+
464	+
465	+	void
466	+	syntax( /* report syntax error and quit */
467	+	char *err
468	+	)
469	+	{
470		register int i;
471
472	+	if (infile != NULL \|\| lineno != 0) {
473	+	if (infile != NULL) eputs(infile);
474	+	if (lineno != 0) {
475	+	eputs(infile != NULL ? ", line " : "line ");
476	+	eputs(long2ascii((long)lineno));
477	+	}
478	+	eputs(":\n");
479	+	}
480		eputs(linbuf);
481	<	if (linbuf[0] == '\0' \|\| linbuf[strlen(linbuf)-1] != '\n')
481	>	if (linbuf[strlen(linbuf)-1] != '\n')
482		eputs("\n");
483		for (i = 0; i < linepos-1; i++)
484		eputs(linbuf[i] == '\t' ? "\t" : " ");
485		eputs("^ ");
357	–	if (infile != NULL) {
358	–	eputs(infile);
359	–	eputs(": ");
360	–	}
486		eputs(err);
487		eputs("\n");
488		quit(1);
489		}
490
491
492	<	addekid(ep, ekid) /* add a child to ep */
493	<	register EPNODE *ep;
494	<	EPNODE *ekid;
492	>	void
493	>	addekid( /* add a child to ep */
494	>	register EPNODE *ep,
495	>	EPNODE *ekid
496	>	)
497		{
498		if (ep->v.kid == NULL)
499		ep->v.kid = ekid;
#	Line 380 \| Line 507 \| *EPNODE ekid;**
507
508
509		char *
510	<	getname() /* scan an identifier */
510	>	getname(void) /* scan an identifier */
511		{
512	<	static char str[MAXWORD+1];
513	<	register int i;
512	>	static char str[RMAXWORD+1];
513	>	register int i, lnext;
514
515	<	for (i = 0; i < MAXWORD && isid(nextc); i++, scan())
516	<	str[i] = nextc;
515	>	lnext = nextc;
516	>	for (i = 0; i < RMAXWORD && isid(lnext); i++, lnext = scan())
517	>	str[i] = lnext;
518		str[i] = '\0';
519	+	while (isid(lnext)) /* skip rest of name */
520	+	lnext = scan();
521
522		return(str);
523		}
524
525
526		int
527	<	getinum() /* scan a positive integer */
527	>	getinum(void) /* scan a positive integer */
528		{
529	<	register int n;
529	>	register int n, lnext;
530
531		n = 0;
532	<	while (isdigit(nextc)) {
533	<	n = n * 10 + nextc - '0';
534	<	scan();
532	>	lnext = nextc;
533	>	while (isdigit(lnext)) {
534	>	n = n * 10 + lnext - '0';
535	>	lnext = scan();
536		}
537		return(n);
538		}
539
540
541		double
542	<	getnum() /* scan a positive float */
542	>	getnum(void) /* scan a positive float */
543		{
544	<	register int i;
545	<	char str[MAXWORD+1];
544	>	register int i, lnext;
545	>	char str[RMAXWORD+1];
546
547		i = 0;
548	<	while (isdigit(nextc) && i < MAXWORD) {
549	<	str[i++] = nextc;
550	<	scan();
548	>	lnext = nextc;
549	>	while (isdigit(lnext) && i < RMAXWORD) {
550	>	str[i++] = lnext;
551	>	lnext = scan();
552		}
553	<	if (nextc == '.' && i < MAXWORD) {
554	<	str[i++] = nextc;
555	<	scan();
556	<	while (isdigit(nextc) && i < MAXWORD) {
557	<	str[i++] = nextc;
558	<	scan();
553	>	if (lnext == '.' && i < RMAXWORD) {
554	>	str[i++] = lnext;
555	>	lnext = scan();
556	>	if (i == 1 && !isdigit(lnext))
557	>	syntax("badly formed number");
558	>	while (isdigit(lnext) && i < RMAXWORD) {
559	>	str[i++] = lnext;
560	>	lnext = scan();
561		}
562		}
563	<	if ((nextc == 'e' \|\| nextc == 'E') && i < MAXWORD) {
564	<	str[i++] = nextc;
565	<	scan();
566	<	if ((nextc == '-' \|\| nextc == '+') && i < MAXWORD) {
567	<	str[i++] = nextc;
568	<	scan();
563	>	if ((lnext == 'e') \| (lnext == 'E') && i < RMAXWORD) {
564	>	str[i++] = lnext;
565	>	lnext = scan();
566	>	if ((lnext == '-') \| (lnext == '+') && i < RMAXWORD) {
567	>	str[i++] = lnext;
568	>	lnext = scan();
569		}
570	<	while (isdigit(nextc) && i < MAXWORD) {
571	<	str[i++] = nextc;
572	<	scan();
570	>	if (!isdigit(lnext))
571	>	syntax("missing exponent");
572	>	while (isdigit(lnext) && i < RMAXWORD) {
573	>	str[i++] = lnext;
574	>	lnext = scan();
575		}
576		}
577		str[i] = '\0';
#	Line 445 \| Line 581 \| *getnum() / scan a positive float /*
581
582
583		EPNODE *
584	<	getE1() /* E1 -> E1 ADDOP E2 */
585	<	/* E2 */
584	>	getE1(void) /* E1 -> E1 ADDOP E2 */
585	>	/* E2 */
586		{
587		register EPNODE ep1, ep2;
588
#	Line 457 \| Line 593 \| *getE1() / E1 -> E1 ADDOP E2 /*
593		scan();
594		addekid(ep2, ep1);
595		addekid(ep2, getE2());
596	<	#ifdef RCONST
597	<	if (ep1->type == NUM && ep1->sibling->type == NUM)
596	>	if (esupport&E_RCONST &&
597	>	ep1->type == NUM && ep1->sibling->type == NUM)
598		ep2 = rconst(ep2);
463	–	#endif
599		ep1 = ep2;
600		}
601		return(ep1);
#	Line 468 \| Line 603 \| *getE1() / E1 -> E1 ADDOP E2 /*
603
604
605		EPNODE *
606	<	getE2() /* E2 -> E2 MULOP E3 */
607	<	/* E3 */
606	>	getE2(void) /* E2 -> E2 MULOP E3 */
607	>	/* E3 */
608		{
609		register EPNODE ep1, ep2;
610
#	Line 480 \| Line 615 \| *getE2() / E2 -> E2 MULOP E3 /*
615		scan();
616		addekid(ep2, ep1);
617		addekid(ep2, getE3());
618	<	#ifdef RCONST
619	<	if (ep1->type == NUM && ep1->sibling->type == NUM)
618	>	if (esupport&E_RCONST &&
619	>	ep1->type == NUM && ep1->sibling->type == NUM)
620		ep2 = rconst(ep2);
486	–	#endif
621		ep1 = ep2;
622		}
623		return(ep1);
#	Line 491 \| Line 625 \| *getE2() / E2 -> E2 MULOP E3 /*
625
626
627		EPNODE *
628	<	getE3() /* E3 -> E3 ^ E4 */
629	<	/* E4 */
628	>	getE3(void) /* E3 -> E4 ^ E3 */
629	>	/* E4 */
630		{
631		register EPNODE ep1, ep2;
632
633		ep1 = getE4();
634	<	while (nextc == '^') {
634	>	if (nextc == '^') {
635		ep2 = newnode();
636		ep2->type = nextc;
637		scan();
638		addekid(ep2, ep1);
639	<	addekid(ep2, getE4());
640	<	#ifdef RCONST
641	<	if (ep1->type == NUM && ep1->sibling->type == NUM)
639	>	addekid(ep2, getE3());
640	>	if (esupport&E_RCONST &&
641	>	ep1->type == NUM && ep1->sibling->type == NUM)
642		ep2 = rconst(ep2);
643	<	#endif
510	<	ep1 = ep2;
643	>	return(ep2);
644		}
645		return(ep1);
646		}
647
648
649		EPNODE *
650	<	getE4() /* E4 -> ADDOP E5 */
651	<	/* E5 */
650	>	getE4(void) /* E4 -> ADDOP E5 */
651	>	/* E5 */
652		{
653	<	register EPNODE *ep1;
653	>	register EPNODE ep1, ep2;
654
655		if (nextc == '-') {
656		scan();
657	<	ep1 = newnode();
658	<	#ifndef RCONST
659	<	if (isdecimal(nextc)) {
660	<	ep1->type = NUM;
528	<	ep1->v.num = -getnum();
529	<	return(ep1);
657	>	ep2 = getE5();
658	>	if (ep2->type == NUM) {
659	>	ep2->v.num = -ep2->v.num;
660	>	return(ep2);
661		}
662	<	#endif
662	>	if (ep2->type == UMINUS) { /* don't generate -(-E5) */
663	>	efree((char *)ep2);
664	>	return(ep2->v.kid);
665	>	}
666	>	ep1 = newnode();
667		ep1->type = UMINUS;
668	<	addekid(ep1, getE5());
534	<	#ifdef RCONST
535	<	if (ep1->v.kid->type == NUM)
536	<	ep1 = rconst(ep1);
537	<	#endif
668	>	addekid(ep1, ep2);
669		return(ep1);
670		}
671		if (nextc == '+')
#	Line 544 \| Line 675 \| *getE4() / E4 -> ADDOP E5 /*
675
676
677		EPNODE *
678	<	getE5() /* E5 -> (E1) */
679	<	/* VAR */
680	<	/* NUM */
681	<	/* $N */
682	<	/* FUNC(E1,..) */
683	<	/* ARG */
678	>	getE5(void) /* E5 -> (E1) */
679	>	/* VAR */
680	>	/* NUM */
681	>	/* $N */
682	>	/* FUNC(E1,..) */
683	>	/* ARG */
684		{
685	<	int i;
686	<	register EPNODE ep1, ep2;
685	>	int i;
686	>	char *nam;
687	>	register EPNODE ep1, ep2;
688
689	<	if (nextc == '(') {
690	<	scan();
691	<	ep1 = getE1();
692	<	if (nextc != ')')
693	<	syntax("')' expected");
694	<	scan();
695	<	return(ep1);
696	<	}
689	>	if (nextc == '(') {
690	>	scan();
691	>	ep1 = getE1();
692	>	if (nextc != ')')
693	>	syntax("')' expected");
694	>	scan();
695	>	return(ep1);
696	>	}
697
698	<	#ifdef INCHAN
699	<	if (nextc == '$') {
700	<	scan();
701	<	ep1 = newnode();
702	<	ep1->type = CHAN;
703	<	ep1->v.chan = getinum();
704	<	return(ep1);
573	<	}
574	<	#endif
698	>	if (esupport&E_INCHAN && nextc == '$') {
699	>	scan();
700	>	ep1 = newnode();
701	>	ep1->type = CHAN;
702	>	ep1->v.chan = getinum();
703	>	return(ep1);
704	>	}
705
706	<	#if defined(VARIABLE) \|\| defined(FUNCTION)
707	<	if (isalpha(nextc)) {
708	<	ep1 = newnode();
709	<	ep1->type = VAR;
710	<	ep1->v.ln = varinsert(getname());
711	<
712	<	#if defined(VARIABLE) && defined(FUNCTION)
713	<	if (curfunc != NULL)
714	<	for (i = 1, ep2 = curfunc->v.kid->sibling;
715	<	ep2 != NULL; i++, ep2 = ep2->sibling)
716	<	if (!strcmp(ep2->v.name, ep1->v.ln->name)) {
717	<	epfree(ep1);
718	<	ep1 = newnode();
719	<	ep1->type = ARG;
720	<	ep1->v.chan = i;
721	<	break;
706	>	if (esupport&(E_VARIABLE\|E_FUNCTION) &&
707	>	(isalpha(nextc) \|\| nextc == CNTXMARK)) {
708	>	nam = getname();
709	>	ep1 = NULL;
710	>	if ((esupport&(E_VARIABLE\|E_FUNCTION)) == (E_VARIABLE\|E_FUNCTION)
711	>	&& curfunc != NULL)
712	>	for (i = 1, ep2 = curfunc->v.kid->sibling;
713	>	ep2 != NULL; i++, ep2 = ep2->sibling)
714	>	if (!strcmp(ep2->v.name, nam)) {
715	>	ep1 = newnode();
716	>	ep1->type = ARG;
717	>	ep1->v.chan = i;
718	>	break;
719	>	}
720	>	if (ep1 == NULL) {
721	>	ep1 = newnode();
722	>	ep1->type = VAR;
723	>	ep1->v.ln = varinsert(nam);
724		}
725	<	#endif
726	<	#ifdef FUNCTION
727	<	if (nextc == '(') {
728	<	ep2 = newnode();
729	<	ep2->type = FUNC;
730	<	addekid(ep2, ep1);
731	<	ep1 = ep2;
732	<	do {
733	<	scan();
734	<	addekid(ep1, getE1());
735	<	} while (nextc == ',');
736	<	if (nextc != ')')
737	<	syntax("')' expected");
738	<	scan();
725	>	if (esupport&E_FUNCTION && nextc == '(') {
726	>	ep2 = newnode();
727	>	ep2->type = FUNC;
728	>	addekid(ep2, ep1);
729	>	ep1 = ep2;
730	>	do {
731	>	scan();
732	>	addekid(ep1, getE1());
733	>	} while (nextc == ',');
734	>	if (nextc != ')')
735	>	syntax("')' expected");
736	>	scan();
737	>	} else if (!(esupport&E_VARIABLE))
738	>	syntax("'(' expected");
739	>	if (esupport&E_RCONST && isconstvar(ep1))
740	>	ep1 = rconst(ep1);
741	>	return(ep1);
742		}
608	–	#ifndef VARIABLE
609	–	else
610	–	syntax("'(' expected");
611	–	#endif
612	–	#endif
613	–	return(ep1);
614	–	}
615	–	#endif
743
744	<	if (isdecimal(nextc)) {
745	<	ep1 = newnode();
746	<	ep1->type = NUM;
747	<	ep1->v.num = getnum();
748	<	return(ep1);
749	<	}
750	<	syntax("unexpected character");
744	>	if (isdecimal(nextc)) {
745	>	ep1 = newnode();
746	>	ep1->type = NUM;
747	>	ep1->v.num = getnum();
748	>	return(ep1);
749	>	}
750	>	syntax("unexpected character");
751	>	return NULL; /* pro forma return */
752		}
753
754
627	–	#ifdef RCONST
755		EPNODE *
756	<	rconst(epar) /* reduce a constant expression */
757	<	register EPNODE *epar;
756	>	rconst( /* reduce a constant expression */
757	>	register EPNODE *epar
758	>	)
759		{
760		register EPNODE *ep;
761
#	Line 635 \| Line 763 \| *register EPNODE epar;**
763		ep->type = NUM;
764		errno = 0;
765		ep->v.num = evalue(epar);
766	<	if (errno)
767	<	syntax("bad constant expression");
766	>	if (errno == EDOM \|\| errno == ERANGE)
767	>	syntax("bad constant expression");
768		epfree(epar);
769
770		return(ep);
771		}
772	<	#endif
772	>
773	>
774	>	int
775	>	isconstvar( /* is ep linked to a constant expression? */
776	>	register EPNODE *ep
777	>	)
778	>	{
779	>	register EPNODE *ep1;
780	>
781	>	if (esupport&E_FUNCTION && ep->type == FUNC) {
782	>	if (!isconstfun(ep->v.kid))
783	>	return(0);
784	>	for (ep1 = ep->v.kid->sibling; ep1 != NULL; ep1 = ep1->sibling)
785	>	if (ep1->type != NUM && !isconstfun(ep1))
786	>	return(0);
787	>	return(1);
788	>	}
789	>	if (ep->type != VAR)
790	>	return(0);
791	>	ep1 = ep->v.ln->def;
792	>	if (ep1 == NULL \|\| ep1->type != ':')
793	>	return(0);
794	>	if (esupport&E_FUNCTION && ep1->v.kid->type != SYM)
795	>	return(0);
796	>	return(1);
797	>	}
798	>
799	>
800	>	int
801	>	isconstfun( /* is ep linked to a constant function? */
802	>	register EPNODE *ep
803	>	)
804	>	{
805	>	register EPNODE *dp;
806	>	register LIBR *lp;
807	>
808	>	if (ep->type != VAR)
809	>	return(0);
810	>	if ((dp = ep->v.ln->def) != NULL) {
811	>	if (dp->v.kid->type == FUNC)
812	>	return(dp->type == ':');
813	>	else
814	>	return(0); /* don't identify masked library functions */
815	>	}
816	>	if ((lp = ep->v.ln->lib) != NULL)
817	>	return(lp->atyp == ':');
818	>	return(0);
819	>	}

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Comparing ray/src/common/calexpr.c (file contents): Revision 1.2 by greg, Mon Apr 10 22:06:37 1989 UTC vs. Revision 2.32 by greg, Thu May 1 16:42:05 2008 UTC

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Comparing ray/src/common/calexpr.c (file contents):
Revision 1.2 by greg, Mon Apr 10 22:06:37 1989 UTC vs.
Revision 2.32 by greg, Thu May 1 16:42:05 2008 UTC