[ViewVC] Diff of: radiance/ray/src/cal/rcalc.c

Comparing ray/src/cal/rcalc.c (file contents):
Revision 1.4 by greg, Sun May 25 05:27:16 2003 UTC vs.
Revision 1.21 by greg, Sun Jun 14 00:33:16 2009 UTC

#	Line 7 \| Line 7 \| static const char RCSid[] = "$Id$";
7		* 9/11/87
8		*/
9
10	–	#include <stdio.h>
11	–
10		#include <stdlib.h>
11	<
11	>	#include <fcntl.h>
12	>	#include <stdio.h>
13	>	#include <string.h>
14		#include <math.h>
15	–
15		#include <ctype.h>
16
17	+	#include "platform.h"
18	+	#include "rterror.h"
19	+	#include "rtmisc.h"
20	+	#include "rtio.h"
21		#include "calcomp.h"
22
20	–	#ifdef CPM
21	–	#define getc agetc /* text files only, right? */
22	–	#endif
23	–
23		#define isnum(c) (isdigit(c) \|\| (c)=='-' \|\| (c)=='.' \
24		\|\| (c)=='+' \|\| (c)=='e' \|\| (c)=='E')
25
26		#define isblnk(c) (igneol ? isspace(c) : (c)==' '\|\|(c)=='\t')
27
28	<	#define INBSIZ 4096 /* longest record */
28	>	#define INBSIZ 16384 /* longest record */
29		#define MAXCOL 32 /* number of columns recorded */
30
31		/* field type specifications */
#	Line 58 \| Line 57 \| *struct field { / record format struc**
57		#define savqstr(s) strcpy(emalloc(strlen(s)+1),s)
58		#define freqstr(s) efree(s)
59
60	<	extern char strcpy(), emalloc(), *savestr();
61	<	struct strvar *getsvar();
60	>	static int getinputrec(FILE *fp);
61	>	static void scaninp(void), advinp(void), resetinp(void);
62	>	static void putrec(void), putout(void), nbsynch(void);
63	>	static int getrec(void);
64	>	static void execute(char *file);
65	>	static void initinp(FILE *fp);
66	>	static void svpreset(char *eqn);
67	>	static void readfmt(char *spec, int output);
68	>	static int readfield(char **pp);
69	>	static int getfield(struct field *f);
70	>	static void chanset(int n, double v);
71	>	static void bchanset(int n, double v);
72	>	static struct strvar* getsvar(char *svname);
73	>	static double l_in(char *);
74
75		struct field inpfmt = NULL; / input record format */
76		struct field outfmt = NULL; / output record structure */
#	Line 67 \| Line 78 \| *struct strvar svhead = NULL; /* string variables /*
78
79		int blnkeq = 1; /* blanks compare equal? */
80		int igneol = 0; /* ignore end of line? */
81	+	int passive = 0; /* passive mode (transmit unmatched input) */
82		char sepchar = '\t'; /* input/output separator */
83		int noinput = 0; /* no input records? */
84	+	int itype = 'a'; /* input type (a/f/F/d/D) */
85		int nbicols = 0; /* number of binary input columns */
86	<	int bocols = 0; /* produce binary output columns */
86	>	int otype = 'a'; /* output format (a/f/F/d/D) */
87		char inpbuf[INBSIZ]; /* input buffer */
88		double colval[MAXCOL]; /* input column values */
89		unsigned long colflg = 0; /* column retrieved flags */
#	Line 88 \| Line 101 \| struct {
101		} ipb; /* circular lookahead buffer */
102
103
104	<	main(argc, argv)
105	<	int argc;
106	<	char *argv[];
104	>	int
105	>	main(
106	>	int argc,
107	>	char *argv[]
108	>	)
109		{
110		int i;
111
#	Line 101 \| Line 116 \| *char argv[];**
116		biggerlib();
117		#endif
118		varset("PI", ':', 3.14159265358979323846);
119	+	funset("in", 1, '=', &l_in);
120
121		for (i = 1; i < argc && argv[i][0] == '-'; i++)
122		switch (argv[i][1]) {
#	Line 110 \| Line 126 \| *char argv[];**
126		case 'l':
127		igneol = !igneol;
128		break;
129	+	case 'p':
130	+	passive = !passive;
131	+	break;
132		case 't':
133		sepchar = argv[i][2];
134		break;
#	Line 128 \| Line 147 \| *char argv[];**
147		case 'i':
148		switch (argv[i][2]) {
149		case '\0':
150	+	itype = 'a';
151		nbicols = 0;
152		readfmt(argv[++i], 0);
153		break;
154		case 'a':
155	+	itype = 'a';
156		nbicols = 0;
157		break;
158		case 'd':
159	+	case 'D':
160	+	itype = argv[i][2];
161		if (isdigit(argv[i][3]))
162		nbicols = atoi(argv[i]+3);
163		else
164		nbicols = 1;
165	+	if (nbicols*sizeof(double) > INBSIZ) {
166	+	eputs(argv[0]);
167	+	eputs(": too many input columns\n");
168	+	quit(1);
169	+	}
170		break;
171		case 'f':
172	+	case 'F':
173	+	itype = argv[i][2];
174		if (isdigit(argv[i][3]))
175	<	nbicols = -atoi(argv[i]+3);
175	>	nbicols = atoi(argv[i]+3);
176		else
177	<	nbicols = -1;
177	>	nbicols = 1;
178	>	if (nbicols*sizeof(float) > INBSIZ) {
179	>	eputs(argv[0]);
180	>	eputs(": too many input columns\n");
181	>	quit(1);
182	>	}
183		break;
184		default:
185		goto userr;
#	Line 153 \| Line 188 \| *char argv[];**
188		case 'o':
189		switch (argv[i][2]) {
190		case '\0':
191	<	bocols = 0;
191	>	otype = 'a';
192		readfmt(argv[++i], 1);
193		break;
194		case 'a':
195	<	bocols = 0;
195	>	otype = 'a';
196		break;
197		case 'd':
198	<	bocols = 1;
164	<	break;
198	>	case 'D':
199		case 'f':
200	<	bocols = -1;
200	>	case 'F':
201	>	otype = argv[i][2];
202		break;
203	+	default:
204	+	goto userr;
205		}
206		break;
207		case 'w':
#	Line 177 \| Line 214 \| *char argv[];**
214		userr:
215		eputs("Usage: ");
216		eputs(argv[0]);
217	<	eputs(" [-b][-l][-n][-w][-u][-tS][-s svar=sval][-e expr][-f source][-i infmt][-o outfmt] [file]\n");
217	>	eputs(" [-b][-l][-n][-p][-w][-u][-tS][-s svar=sval][-e expr][-f source][-i infmt][-o outfmt] [file]\n");
218		quit(1);
219		}
220	<
220	>	if (otype != 'a')
221	>	SET_FILE_BINARY(stdout);
222		if (noinput) { /* produce a single output record */
223	+	if (i < argc) {
224	+	eputs(argv[0]);
225	+	eputs(": file argument(s) incompatible with -n\n");
226	+	quit(1);
227	+	}
228		eclock++;
229		putout();
230		quit(0);
231		}
232	+	if (itype != 'a')
233	+	SET_FILE_BINARY(stdin);
234
235		if (blnkeq) /* for efficiency */
236		nbsynch();
#	Line 197 \| Line 242 \| eputs(" [-b][-l][-n][-w][-u][-tS][-s svar=sval][-e exp
242		execute(argv[i]);
243
244		quit(0);
245	+	return 0; /* pro forma return */
246		}
247
248
249	<	nbsynch() /* non-blank starting synch character */
249	>	static void
250	>	nbsynch(void) /* non-blank starting synch character */
251		{
252		if (inpfmt == NULL \|\| (inpfmt->type & F_TYP) != T_LIT)
253		return;
#	Line 211 \| Line 258 \| *nbsynch() / non-blank starting synch ch**
258		}
259
260
261	<	int
262	<	getinputrec(fp) /* get next input record */
263	<	FILE *fp;
261	>	static int
262	>	getinputrec( /* get next input record */
263	>	FILE *fp
264	>	)
265		{
266		if (inpfmt != NULL)
267		return(getrec());
268	<	if (nbicols > 0)
269	<	return(fread(inpbuf, sizeof(double),
270	<	nbicols, fp) == nbicols);
271	<	if (nbicols < 0)
272	<	return(fread(inpbuf, sizeof(float),
273	<	-nbicols, fp) == -nbicols);
268	>	if (tolower(itype) == 'd') {
269	>	if (fread(inpbuf, sizeof(double), nbicols, fp) != nbicols)
270	>	return(0);
271	>	if (itype == 'D')
272	>	swap64(inpbuf, nbicols);
273	>	return(1);
274	>	}
275	>	if (tolower(itype) == 'f') {
276	>	if (fread(inpbuf, sizeof(float), nbicols, fp) != nbicols)
277	>	return(0);
278	>	if (itype == 'F')
279	>	swap32(inpbuf, nbicols);
280	>	return(1);
281	>	}
282		return(fgets(inpbuf, INBSIZ, fp) != NULL);
283		}
284
285
286	<	execute(file) /* process a file */
287	<	char *file;
286	>	static void
287	>	execute( /* process a file */
288	>	char *file
289	>	)
290		{
291		int conditional = vardefined("cond");
292		long nrecs = 0;
#	Line 247 \| Line 305 \| *char file;**
305
306		while (getinputrec(fp)) {
307		varset("recno", '=', (double)++nrecs);
308	+	varset("outno", '=', (double)(nout+1));
309		colflg = 0;
310		eclock++;
311		if (!conditional \|\| varvalue("cond") > 0.0) {
253	–	varset("outno", '=', (double)++nout);
312		putout();
313	+	++nout;
314		}
315		}
316		fclose(fp);
317		}
318
319
320	<	putout() /* produce an output record */
320	>	static void
321	>	putout(void) /* produce an output record */
322		{
263	–	extern void chanset(), bchanset();
323
324		colpos = 0;
325		if (outfmt != NULL)
326		putrec();
327	<	else if (bocols)
269	<	chanout(bchanset);
270	<	else
327	>	else if (otype == 'a')
328		chanout(chanset);
329	<	if (colpos && !bocols)
329	>	else
330	>	chanout(bchanset);
331	>	if (colpos && otype == 'a')
332		putchar('\n');
333		if (unbuff)
334		fflush(stdout);
335		}
336
337
338	+	static double
339	+	l_in(char funame) / function call for $channel */
340	+	{
341	+	int n;
342	+	register char *cp;
343	+	/* get argument as integer */
344	+	n = (int)(argument(1) + .5);
345	+	if (n != 0) /* return channel value */
346	+	return(chanvalue(n));
347	+	/* determine number of channels */
348	+	if (noinput \|\| inpfmt != NULL)
349	+	return(0);
350	+	if (nbicols)
351	+	return(nbicols);
352	+	cp = inpbuf; /* need to count */
353	+	for (n = 0; *cp; )
354	+	if (blnkeq && isspace(sepchar)) {
355	+	while (isspace(*cp))
356	+	cp++;
357	+	n += *cp != '\0';
358	+	while (cp && !isspace(cp))
359	+	cp++;
360	+	} else {
361	+	n += *cp != '\n';
362	+	while (cp && cp++ != sepchar)
363	+	;
364	+	}
365	+	return(n);
366	+	}
367	+
368		double
369	<	chanvalue(n) /* return value for column n */
370	<	int n;
369	>	chanvalue( /* return value for column n */
370	>	int n
371	>	)
372		{
373		int i;
374		register char *cp;
#	Line 291 \| Line 381 \| int n;
381		eputs("illegal channel number\n");
382		quit(1);
383		}
384	<	if (nbicols > 0) {
384	>	if (nbicols) {
385		if (n > nbicols)
386		return(0.0);
387	<	cp = inpbuf + (n-1)*sizeof(double);
388	<	return((double )cp);
389	<	}
390	<	if (nbicols < 0) {
301	<	if (n > -nbicols)
302	<	return(0.0);
387	>	if (tolower(itype) == 'd') {
388	>	cp = inpbuf + (n-1)*sizeof(double);
389	>	return((double )cp);
390	>	}
391		cp = inpbuf + (n-1)*sizeof(float);
392		return((float )cp);
393		}
#	Line 329 \| Line 417 \| int n;
417
418
419		void
420	<	chanset(n, v) /* output column n */
421	<	int n;
422	<	double v;
420	>	chanset( /* output column n */
421	>	int n,
422	>	double v
423	>	)
424		{
425		if (colpos == 0) /* no leading separator */
426		colpos = 1;
#	Line 344 \| Line 433 \| double v;
433
434
435		void
436	<	bchanset(n, v) /* output binary channel n */
437	<	int n;
438	<	double v;
436	>	bchanset( /* output binary channel n */
437	>	int n,
438	>	double v
439	>	)
440		{
441		static char zerobuf[sizeof(double)];
442	+	float fval = v;
443
444		while (++colpos < n)
445		fwrite(zerobuf,
446	<	bocols>0 ? sizeof(double) : sizeof(float),
446	>	tolower(otype)=='d' ? sizeof(double) : sizeof(float),
447		1, stdout);
448	<	if (bocols > 0)
448	>	switch (otype) {
449	>	case 'D':
450	>	swap64((char *)&v, 1);
451	>	/* fall through */
452	>	case 'd':
453		fwrite(&v, sizeof(double), 1, stdout);
454	<	else {
455	<	float fval = v;
454	>	break;
455	>	case 'F':
456	>	swap32((char *)&fval, 1);
457	>	/* fall through */
458	>	case 'f':
459		fwrite(&fval, sizeof(float), 1, stdout);
460	+	break;
461		}
462		}
463
464
465	<	readfmt(spec, output) /* read record format */
466	<	char *spec;
467	<	int output;
465	>	static void
466	>	readfmt( /* read record format */
467	>	char *spec,
468	>	int output
469	>	)
470		{
471		int fd;
472		char *inptr;
#	Line 384 \| Line 485 \| int output;
485		eputs(": cannot open\n");
486		quit(1);
487		}
488	<	res = read(fd, inpbuf+1, INBSIZ-1);
488	>	res = read(fd, inpbuf+2, INBSIZ-2);
489		if (res <= 0 \|\| res >= INBSIZ-1) {
490		eputs(spec);
491		if (res < 0)
#	Line 396 \| Line 497 \| int output;
497		quit(1);
498		}
499		close(fd);
500	<	(inptr=inpbuf+1)[res] = '\0';
500	>	(inptr=inpbuf+2)[res] = '\0';
501		}
502		f = &fmt; /* get fields */
503		while ((res = readfield(&inptr)) != F_NUL) {
#	Line 429 \| Line 530 \| int output;
530		}
531
532
533	<	int
534	<	readfield(pp) /* get next field in format */
535	<	register char **pp;
533	>	static int
534	>	readfield( /* get next field in format */
535	>	register char **pp
536	>	)
537		{
538		int type = F_NUL;
539		int width = 0;
#	Line 496 \| Line 598 \| register char pp;**
598
599
600		struct strvar *
601	<	getsvar(svname) /* get string variable */
602	<	char *svname;
601	>	getsvar( /* get string variable */
602	>	char *svname
603	>	)
604		{
605		register struct strvar *sv;
606
#	Line 513 \| Line 616 \| *char svname;**
616		}
617
618
619	<	svpreset(eqn) /* preset a string variable */
620	<	char *eqn;
619	>	static void
620	>	svpreset( /* preset a string variable */
621	>	char *eqn
622	>	)
623		{
624		register struct strvar *sv;
625		register char *val;
#	Line 533 \| Line 638 \| *char eqn;**
638		}
639
640
641	<	clearrec() /* clear input record variables */
641	>	static void
642	>	clearrec(void) /* clear input record variables */
643		{
644		register struct field *f;
645
#	Line 552 \| Line 658 \| *clearrec() / clear input record variables /*
658		}
659
660
661	<	getrec() /* get next record from file */
661	>	static int
662	>	getrec(void) /* get next record from file */
663		{
664		int eatline;
665		register struct field *f;
666	<
666	>
667		while (ipb.chr != EOF) {
668	<	eatline = !igneol && ipb.chr != '\n';
562	<	if (blnkeq) /* beware of nbsynch() */
668	>	if (blnkeq) { /* beware of nbsynch() */
669		while (isblnk(ipb.chr))
670	<	scaninp();
670	>	resetinp();
671	>	if (ipb.chr == EOF)
672	>	return(0);
673	>	}
674	>	eatline = (!igneol && ipb.chr != '\n');
675		clearrec(); /* start with fresh record */
676		for (f = inpfmt; f != NULL; f = f->next)
677		if (getfield(f) == -1)
678		break;
679		if (f == NULL) {
680	<	advinp();
680	>	advinp(); /* got one! */
681		return(1);
682		}
683	<	resetinp();
683	>	resetinp(); /* eat false start */
684		if (eatline) { /* eat rest of line */
685		while (ipb.chr != '\n') {
686		if (ipb.chr == EOF)
687		return(0);
688	<	scaninp();
688	>	resetinp();
689		}
690	<	scaninp();
581	<	advinp();
690	>	resetinp();
691		}
692		}
693		return(0);
694		}
695
696
697	<	getfield(f) /* get next field */
698	<	register struct field *f;
697	>	static int
698	>	getfield( /* get next field */
699	>	register struct field *f
700	>	)
701		{
702	<	static char buf[MAXWORD+1]; /* no recursion! */
702	>	static char buf[RMAXWORD+1]; /* no recursion! */
703		int delim, inword;
704		double d;
705		char *np;
#	Line 621 \| Line 732 \| *register struct field f;**
732		delim = f->next->f.sl[0];
733		cp = buf;
734		do {
735	<	if (ipb.chr == EOF)
735	>	if (ipb.chr == EOF \|\| ipb.chr == '\n')
736		inword = 0;
737		else if (blnkeq && delim != EOF)
738		inword = isblnk(delim) ?
#	Line 633 \| Line 744 \| *register struct field f;**
744		*cp++ = ipb.chr;
745		scaninp();
746		}
747	<	} while (inword && cp < &buf[MAXWORD]);
747	>	} while (inword && cp < &buf[RMAXWORD]);
748		*cp = '\0';
749		if (f->f.sv->val == NULL)
750		f->f.sv->val = savqstr(buf); /* first setting */
#	Line 662 \| Line 773 \| *register struct field f;**
773		*cp++ = ipb.chr;
774		scaninp();
775		}
776	<	} while (inword && cp < &buf[MAXWORD]);
776	>	} while (inword && cp < &buf[RMAXWORD]);
777		*cp = '\0';
778		d = np==NULL ? 0. : atof(np);
779		if (!vardefined(f->f.nv))
#	Line 672 \| Line 783 \| *register struct field f;**
783		return(-1); /* doesn't match! */
784		return(0);
785		}
786	+	return -1; /* pro forma return */
787		}
788
789
790	<	putrec() /* output a record */
790	>	static void
791	>	putrec(void) /* output a record */
792		{
793		char fmt[32];
794		register int n;
#	Line 725 \| Line 838 \| *putrec() / output a re**
838		}
839
840
841	<	initinp(fp) /* prepare lookahead buffer */
842	<	FILE *fp;
841	>	static void
842	>	initinp(FILE fp) / prepare lookahead buffer */
843	>
844		{
845		ipb.fin = fp;
846		ipb.beg = ipb.end = inpbuf;
#	Line 736 \| Line 850 \| *FILE fp;**
850		}
851
852
853	<	scaninp() /* scan next character */
853	>	static void
854	>	scaninp(void) /* scan next character */
855		{
856		if (ipb.chr == EOF)
857		return;
#	Line 755 \| Line 870 \| *scaninp() / scan next character**
870		}
871
872
873	<	advinp() /* move home to current position */
873	>	static void
874	>	advinp(void) /* move home to current position */
875		{
876		ipb.beg = ipb.pos;
877		}
878
879
880	<	resetinp() /* rewind position and advance 1 */
880	>	static void
881	>	resetinp(void) /* rewind position and advance 1 */
882		{
883		if (ipb.beg == NULL) /* full */
884		ipb.beg = ipb.end;
885		ipb.pos = ipb.beg;
886		ipb.chr = *ipb.pos;
887	+	if (passive) /* transmit unmatched character? */
888	+	fputc(ipb.chr, stdout);
889		if (++ipb.beg >= &inpbuf[INBSIZ])
890		ipb.beg = inpbuf;
891		scaninp();
#	Line 774 \| Line 893 \| *resetinp() / rewind position and**
893
894
895		void
896	<	eputs(msg)
778	<	char *msg;
896	>	eputs(char *msg)
897		{
898		fputs(msg, stderr);
899		}
900
901
902		void
903	<	wputs(msg)
786	<	char *msg;
903	>	wputs(char *msg)
904		{
905		if (!nowarn)
906		eputs(msg);
#	Line 791 \| Line 908 \| *char msg;**
908
909
910		void
911	<	quit(code)
795	<	int code;
911	>	quit(int code)
912		{
913		exit(code);
914		}

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Comparing ray/src/cal/rcalc.c (file contents): Revision 1.4 by greg, Sun May 25 05:27:16 2003 UTC vs. Revision 1.21 by greg, Sun Jun 14 00:33:16 2009 UTC

Diff Legend

Comparing ray/src/cal/rcalc.c (file contents):
Revision 1.4 by greg, Sun May 25 05:27:16 2003 UTC vs.
Revision 1.21 by greg, Sun Jun 14 00:33:16 2009 UTC