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

Comparing ray/src/common/calexpr.c (file contents):
Revision 2.38 by greg, Sat Dec 7 16:38:08 2019 UTC vs.
Revision 2.47 by greg, Sun Feb 25 04:11:10 2024 UTC

#	Line 19 \| Line 19 \| static const char RCSid[] = "$Id$";
19
20		#include "copyright.h"
21
22	–	#include <stdio.h>
23	–	#include <string.h>
22		#include <ctype.h>
23		#include <errno.h>
24		#include <math.h>
#	Line 35 \| Line 33 \| static const char RCSid[] = "$Id$";
33
34		#define newnode() (EPNODE *)ecalloc(1, sizeof(EPNODE))
35
36	<	#define isdecimal(c) (isdigit(c) \|\| (c) == '.')
36	>	#define isdecimal(c) (isdigit(c) \| ((c) == '.'))
37
38	+	#define envalue(ep) ((ep)->type==NUM ? (ep)->v.num : evalue(ep))
39	+
40		static double euminus(EPNODE ), eargument(EPNODE ), enumber(EPNODE *);
41		static double echannel(EPNODE *);
42		static double eadd(EPNODE ), esubtr(EPNODE ),
#	Line 113 \| Line 113 \| *eval( / evaluate an expression string /*
113		ep = eparse(expr);
114		esupport = prev_support; /* as you were */
115		rval = evalue(ep);
116	<	epfree(ep);
116	>	epfree(ep,1);
117		return(rval);
118		}
119
#	Line 170 \| Line 170 \| *epcmp( / compare two expressions for equivalence /*
170
171		void
172		epfree( /* free a parse tree */
173	<	EPNODE *epar
173	>	EPNODE *epar,
174	>	int frep
175		)
176		{
177	<	EPNODE *ep;
177	>	EPNODE *ep;
178
179		switch (epar->type) {
180
#	Line 192 \| Line 193 \| *epfree( / free a parse tree /*
193		break;
194
195		default:
196	<	while ((ep = epar->v.kid) != NULL) {
197	<	epar->v.kid = ep->sibling;
198	<	epfree(ep);
199	<	}
196	>	if (epar->nkids < 0) {
197	>	ep = epar->v.kid - epar->nkids;
198	>	while (ep > epar->v.kid)
199	>	epfree(--ep, 0);
200	>	efree(ep); /* free array space */
201	>	} else
202	>	while ((ep = epar->v.kid) != NULL) {
203	>	epar->v.kid = ep->sibling;
204	>	epfree(ep, 1);
205	>	}
206		break;
207
208		}
209	+	if (frep)
210	+	efree(epar);
211	+	}
212
213	<	efree((char *)epar);
213	>
214	>	static void
215	>	epflatten( /* flatten hierarchies for '+', '' /
216	>	EPNODE *epar
217	>	)
218	>	{
219	>	EPNODE *ep;
220	>
221	>	if (epar->nkids < 0) {
222	>	eputs("Cannot flatten EPNODE array\n");
223	>	quit(1);
224	>	}
225	>	for (ep = epar->v.kid; ep != NULL; ep = ep->sibling)
226	>	while (ep->type == epar->type) {
227	>	EPNODE *ep1 = ep->v.kid;
228	>	while (ep1->sibling != NULL)
229	>	ep1 = ep1->sibling;
230	>	ep1->sibling = ep->sibling;
231	>	epar->nkids += nekids(ep) - 1;
232	>	ep1 = ep->v.kid;
233	>	ep = ep1;
234	>	efree(ep1); /* not epfree()! */
235	>	}
236		}
237
238	+
239	+	void
240	+	epoptimize( /* flatten operations, lists -> arrays */
241	+	EPNODE *epar
242	+	)
243	+	{
244	+	EPNODE *ep;
245	+
246	+	if ((epar->type == '+') \| (epar->type == '*'))
247	+	epflatten(epar); /* flatten associative operations */
248	+
249	+	if (epar->nkids) /* do children if any */
250	+	for (ep = epar->v.kid; ep != NULL; ep = ep->sibling)
251	+	epoptimize(ep);
252	+
253	+	if (epar->nkids > 4) { /* make list into array if > 4 kids */
254	+	int n = 1;
255	+	epar->v.kid = (EPNODE *)erealloc(epar->v.kid,
256	+	sizeof(EPNODE)*epar->nkids);
257	+	while (n < epar->nkids) {
258	+	ep = epar->v.kid[n-1].sibling;
259	+	epar->v.kid[n] = *ep;
260	+	efree(ep); /* not epfree()! */
261	+	epar->v.kid[n-1].sibling = epar->v.kid + n;
262	+	n++;
263	+	}
264	+	epar->nkids = -n;
265	+	}
266	+	}
267	+
268		/* the following used to be a switch */
269		static double
270		eargument(
#	Line 243 \| Line 305 \| eadd(
305		EPNODE *ep
306		)
307		{
308	+	double sum = 0;
309		EPNODE *ep1 = ep->v.kid;
310
311	<	return(evalue(ep1) + evalue(ep1->sibling));
311	>	do
312	>	sum += envalue(ep1);
313	>	while ((ep1 = ep1->sibling) != NULL);
314	>
315	>	return(sum);
316		}
317
318		static double
#	Line 254 \| Line 321 \| esubtr(
321		)
322		{
323		EPNODE *ep1 = ep->v.kid;
324	+	EPNODE *ep2 = ep1->sibling;
325
326	<	return(evalue(ep1) - evalue(ep1->sibling));
326	>	return(envalue(ep1) - envalue(ep2));
327		}
328
329		static double
#	Line 263 \| Line 331 \| emult(
331		EPNODE *ep
332		)
333		{
334	+	double prod = 1;
335		EPNODE *ep1 = ep->v.kid;
336
337	<	return(evalue(ep1) * evalue(ep1->sibling));
337	>	do
338	>	prod *= envalue(ep1);
339	>	while ((ep1 = ep1->sibling) != NULL);
340	>
341	>	return(prod);
342		}
343
344		static double
#	Line 274 \| Line 347 \| edivi(
347		)
348		{
349		EPNODE *ep1 = ep->v.kid;
350	+	EPNODE *ep2 = ep1->sibling;
351		double d;
352
353	<	d = evalue(ep1->sibling);
353	>	d = evalue(ep2);
354		if (d == 0.0) {
355		wputs("Division by zero\n");
356		errno = ERANGE;
357		return(0.0);
358		}
359	<	return(evalue(ep1) / d);
359	>	return(envalue(ep1) / d);
360		}
361
362		static double
#	Line 305 \| Line 379 \| epow(
379		errno = ERANGE;
380		}
381		#endif
382	<	if (errno == EDOM \|\| errno == ERANGE) {
382	>	if ((errno == EDOM) \| (errno == ERANGE)) {
383		wputs("Illegal power\n");
384		return(0.0);
385		}
#	Line 330 \| Line 404 \| *ekid( / return pointer to a node's nth kid /*
404		int n
405		)
406		{
407	<
408	<	for (ep = ep->v.kid; ep != NULL; ep = ep->sibling)
409	<	if (--n < 0)
410	<	break;
411	<
407	>	if (ep->nkids < 0) { /* allocated array? */
408	>	if (n >= -ep->nkids)
409	>	return(NULL);
410	>	return(ep->v.kid + n);
411	>	}
412	>	ep = ep->v.kid; /* else get from list */
413	>	while (n-- > 0)
414	>	if ((ep = ep->sibling) == NULL)
415	>	break;
416		return(ep);
417		}
418
419
342	–	int
343	–	nekids( /* return # of kids for node ep */
344	–	EPNODE *ep
345	–	)
346	–	{
347	–	int n = 0;
348	–
349	–	for (ep = ep->v.kid; ep != NULL; ep = ep->sibling)
350	–	n++;
351	–
352	–	return(n);
353	–	}
354	–
355	–
420		void
421		initfile( /* prepare input file */
422		FILE *fp,
#	Line 473 \| Line 537 \| *syntax( / report syntax error and quit /*
537		{
538		int i;
539
540	<	if (infile != NULL \|\| lineno != 0) {
540	>	if ((infile != NULL) \| (lineno != 0)) {
541		if (infile != NULL) eputs(infile);
542		if (lineno != 0) {
543		eputs(infile != NULL ? ", line " : "line ");
#	Line 496 \| Line 560 \| *syntax( / report syntax error and quit /*
560		void
561		addekid( /* add a child to ep */
562		EPNODE *ep,
563	<	EPNODE *ekid
563	>	EPNODE *ek
564		)
565		{
566	+	if (ep->nkids < 0) {
567	+	eputs("Cannot add kid to EPNODE array\n");
568	+	quit(1);
569	+	}
570	+	ep->nkids++;
571		if (ep->v.kid == NULL)
572	<	ep->v.kid = ekid;
572	>	ep->v.kid = ek;
573		else {
574		for (ep = ep->v.kid; ep->sibling != NULL; ep = ep->sibling)
575		;
576	<	ep->sibling = ekid;
576	>	ep->sibling = ek;
577		}
578	<	ekid->sibling = NULL;
578	>	ek->sibling = NULL; /* shouldn't be necessary */
579		}
580
581
#	Line 554 \| Line 623 \| *getnum(void) / scan a positive float /*
623		str[i++] = lnext;
624		lnext = scan();
625		}
626	<	if (lnext == '.' && i < RMAXWORD) {
626	>	if ((lnext == '.') & (i < RMAXWORD)) {
627		str[i++] = lnext;
628		lnext = scan();
629		if (i == 1 && !isdigit(lnext))
#	Line 591 \| Line 660 \| *getE1(void) / E1 -> E1 ADDOP E2 /*
660		EPNODE ep1, ep2;
661
662		ep1 = getE2();
663	<	while (nextc == '+' \|\| nextc == '-') {
663	>	while ((nextc == '+') \| (nextc == '-')) {
664		ep2 = newnode();
665		ep2->type = nextc;
666		scan();
667		addekid(ep2, ep1);
668		addekid(ep2, getE2());
669		if (esupport&E_RCONST &&
670	<	ep1->type == NUM && ep1->sibling->type == NUM)
670	>	(ep1->type == NUM) & (ep1->sibling->type == NUM))
671		ep2 = rconst(ep2);
672		ep1 = ep2;
673		}
#	Line 613 \| Line 682 \| *getE2(void) / E2 -> E2 MULOP E3 /*
682		EPNODE ep1, ep2;
683
684		ep1 = getE3();
685	<	while (nextc == '*' \|\| nextc == '/') {
685	>	while ((nextc == '*') \| (nextc == '/')) {
686		ep2 = newnode();
687		ep2->type = nextc;
688		scan();
#	Line 621 \| Line 690 \| *getE2(void) / E2 -> E2 MULOP E3 /*
690		addekid(ep2, getE3());
691		if (esupport&E_RCONST) {
692		EPNODE *ep3 = ep1->sibling;
693	<	if (ep1->type == NUM && ep3->type == NUM) {
693	>	if ((ep1->type == NUM) & (ep3->type == NUM)) {
694		ep2 = rconst(ep2);
695		} else if (ep3->type == NUM) {
696		if (ep2->type == '/') {
#	Line 631 \| Line 700 \| *getE2(void) / E2 -> E2 MULOP E3 /*
700		ep3->v.num = 1./ep3->v.num;
701		} else if (ep3->v.num == 0) {
702		ep1->sibling = NULL; /* (E2 * 0) */
703	<	epfree(ep2);
703	>	epfree(ep2,1);
704		ep2 = ep3;
705		}
706		} else if (ep1->type == NUM && ep1->v.num == 0) {
707	<	epfree(ep3); /* (0 * E3) or (0 / E3) */
707	>	epfree(ep3,1); /* (0 * E3) or (0 / E3) */
708		ep1->sibling = NULL;
709	<	efree((char *)ep2);
709	>	efree(ep2);
710		ep2 = ep1;
711		}
712		}
#	Line 663 \| Line 732 \| *getE3(void) / E3 -> E4 ^ E3 /*
732		addekid(ep2, getE3());
733		if (esupport&E_RCONST) {
734		EPNODE *ep3 = ep1->sibling;
735	<	if (ep1->type == NUM && ep3->type == NUM) {
735	>	if ((ep1->type == NUM) & (ep3->type == NUM)) {
736		ep2 = rconst(ep2);
737		} else if (ep1->type == NUM && ep1->v.num == 0) {
738	<	epfree(ep3); /* (0 ^ E3) */
738	>	epfree(ep3,1); /* (0 ^ E3) */
739		ep1->sibling = NULL;
740	<	efree((char *)ep2);
740	>	efree(ep2);
741		ep2 = ep1;
742	<	} else if ((ep3->type == NUM && ep3->v.num == 0) \|\|
742	>	} else if ((ep3->type == NUM && ep3->v.num == 0) \|
743		(ep1->type == NUM && ep1->v.num == 1)) {
744	<	epfree(ep2); /* (E4 ^ 0) or (1 ^ E3) */
744	>	epfree(ep2,1); /* (E4 ^ 0) or (1 ^ E3) */
745		ep2 = newnode();
746		ep2->type = NUM;
747		ep2->v.num = 1;
748	+	} else if (ep3->type == NUM && ep3->v.num == 1) {
749	+	efree(ep3); /* (E4 ^ 1) */
750	+	ep1->sibling = NULL;
751	+	efree(ep2);
752	+	ep2 = ep1;
753		}
754		}
755		return(ep2);
#	Line 697 \| Line 771 \| *getE4(void) / E4 -> ADDOP E5 /*
771		}
772		if (ep2->type == UMINUS) { /* don't generate -(-E5) */
773		ep1 = ep2->v.kid;
774	<	efree((char *)ep2);
774	>	efree(ep2);
775		return(ep1);
776		}
777		ep1 = newnode();
#	Line 731 \| Line 805 \| *getE5(void) / E5 -> (E1) /*
805		scan();
806		return(ep1);
807		}
734	–
808		if (esupport&E_INCHAN && nextc == '$') {
809		scan();
810		ep1 = newnode();
#	Line 739 \| Line 812 \| *getE5(void) / E5 -> (E1) /*
812		ep1->v.chan = getinum();
813		return(ep1);
814		}
742	–
815		if (esupport&(E_VARIABLE\|E_FUNCTION) &&
816	<	(isalpha(nextc) \|\| nextc == CNTXMARK)) {
816	>	(isalpha(nextc) \| (nextc == CNTXMARK))) {
817		nam = getname();
818		ep1 = NULL;
819		if ((esupport&(E_VARIABLE\|E_FUNCTION)) == (E_VARIABLE\|E_FUNCTION)
#	Line 777 \| Line 849 \| *getE5(void) / E5 -> (E1) /*
849		ep1 = rconst(ep1);
850		return(ep1);
851		}
780	–
852		if (isdecimal(nextc)) {
853		ep1 = newnode();
854		ep1->type = NUM;
#	Line 800 \| Line 871 \| *rconst( / reduce a constant expression /*
871		ep->type = NUM;
872		errno = 0;
873		ep->v.num = evalue(epar);
874	<	if (errno == EDOM \|\| errno == ERANGE)
874	>	if ((errno == EDOM) \| (errno == ERANGE))
875		syntax("bad constant expression");
876	<	epfree(epar);
876	>	epfree(epar,1);
877
878		return(ep);
879		}

Diff Legend

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Comparing ray/src/common/calexpr.c (file contents): Revision 2.38 by greg, Sat Dec 7 16:38:08 2019 UTC vs. Revision 2.47 by greg, Sun Feb 25 04:11:10 2024 UTC

Diff Legend

Comparing ray/src/common/calexpr.c (file contents):
Revision 2.38 by greg, Sat Dec 7 16:38:08 2019 UTC vs.
Revision 2.47 by greg, Sun Feb 25 04:11:10 2024 UTC