[ViewVC] Diff of: radiance/ray/src/px/pvalue.c

Comparing ray/src/px/pvalue.c (file contents):
Revision 2.18 by schorsch, Thu Jun 5 19:29:34 2003 UTC vs.
Revision 2.41 by greg, Fri Feb 4 20:11:49 2022 UTC

#	Line 7 \| Line 7 \| static const char RCSid[] = "$Id$";
7		* 4/23/86
8		*/
9
10	<	#include <time.h>
11	<
10	>	#include "platform.h"
11		#include "standard.h"
12		#include "color.h"
13		#include "resolu.h"
14	+	#include "view.h"
15
16	–	typedef unsigned short uint16; /* sizeof (uint16) must == 2 */
17	–
16		#define min(a,b) ((a)<(b)?(a):(b))
17
18		/* what to put out (also RED, GRN, BLU) */
#	Line 22 \| Line 20 \| *typedef unsigned short uint16; / sizeof (uint16) must**
20		#define BRIGHT 4
21
22		RESOLU picres; /* resolution of picture */
25	–
23		int uniq = 0; /* print only unique values? */
27	–
24		int doexposure = 0; /* exposure change? (>100 to print) */
29	–
25		int dataonly = 0; /* data only format? */
31	–
26		int putprim = ALL; /* what to put out */
33	–
27		int reverse = 0; /* reverse conversion? */
35	–
28		int format = 'a'; /* input/output format */
29		char fmtid = "ascii"; / format identifier for header */
38	–
30		int header = 1; /* do header? */
40	–
31		long skipbytes = 0; /* skip bytes in input? */
32	<
43	<	int swapbytes = 0; /* swap bytes in 16-bit words? */
44	<
32	>	int swapbytes = 0; /* swap bytes? */
33		int interleave = 1; /* file is interleaved? */
46	–
34		int resolution = 1; /* put/get resolution string? */
48	–
35		int original = 0; /* convert to original values? */
50	–
36		int wrongformat = 0; /* wrong input format? */
52	–
37		double gamcor = 1.0; /* gamma correction */
38
39	+	RGBPRIMP outprims = stdprims; /* output primaries for reverse conversion */
40	+	RGBPRIMS myprims;
41	+
42		int ord[3] = {RED, GRN, BLU}; /* RGB ordering */
43		int rord[4]; /* reverse ordering */
44
#	Line 62 \| Line 49 \| *char progname;**
49		FILE *fin;
50		FILE fin2 = NULL, fin3 = NULL; /* for other color channels */
51
65	–	int (getval)(), (putval)();
52
53	<	double
54	<	rgb_bright(clr)
55	<	COLOR clr;
53	>	typedef int getfunc_t(COLOR col);
54	>	typedef int putfunc_t(COLOR col);
55	>	typedef double brightfunc_t(COLOR col);
56	>
57	>	getfunc_t *getval;
58	>	putfunc_t *putval;
59	>	brightfunc_t *mybright;
60	>
61	>	static gethfunc checkhead;
62	>	static brightfunc_t rgb_bright, xyz_bright;
63	>	static getfunc_t getbascii, getbint, getbdouble, getbfloat, getbbyte, getbword;
64	>	static getfunc_t getcascii, getcint, getcdouble, getcfloat, getcbyte, getcword;
65	>	static putfunc_t putbascii, putbint, putbdouble, putbfloat, putbbyte, putbword;
66	>	static putfunc_t putcascii, putcint, putcdouble, putcfloat, putcbyte, putcword;
67	>	static putfunc_t putpascii, putpint, putpdouble, putpfloat, putpbyte, putpword;
68	>
69	>	static void set_io(void);
70	>	static void pixtoval(void);
71	>	static void valtopix(void);
72	>
73	>
74	>	static double
75	>	rgb_bright(
76	>	COLOR clr
77	>	)
78		{
79		return(bright(clr));
80		}
81
82	<	double
83	<	xyz_bright(clr)
84	<	COLOR clr;
82	>	static double
83	>	xyz_bright(
84	>	COLOR clr
85	>	)
86		{
87		return(clr[CIEY]);
88		}
89
90	<	double (*mybright)() = &rgb_bright;
91	<
92	<
93	<	main(argc, argv)
94	<	int argc;
86	<	char **argv;
90	>	int
91	>	main(
92	>	int argc,
93	>	char **argv
94	>	)
95		{
96	<	extern int checkhead();
97	<	extern long atol();
98	<	double d, expval = 1.0;
91	<	int i;
96	>	const char *inpmode = "r";
97	>	double d, expval = 1.0;
98	>	int i;
99
100		progname = argv[0];
101	+	mybright = &rgb_bright; /* default */
102
103		for (i = 1; i < argc; i++)
104		if (argv[i][0] == '-' \|\| argv[i][0] == '+')
#	Line 110 \| Line 118 \| char argv;**
118		case 'o': /* original values */
119		original = argv[i][0] == '-';
120		break;
121	+	case 'O': /* original watts/sr/m^2 */
122	+	original = -(argv[i][0] == '-');
123	+	break;
124		case 'g': /* gamma correction */
125		gamcor = atof(argv[i+1]);
126		if (argv[i][0] == '+')
#	Line 142 \| Line 153 \| char argv;**
153		case 'b': /* brightness values */
154		putprim = argv[i][0] == '-' ? BRIGHT : ALL;
155		break;
156	<	case 'p': /* put primary */
156	>	case 'p': /* primary controls */
157		switch (argv[i][2]) {
158	+	/* these two options affect -r conversion */
159	+	case '\0':
160	+	myprims[RED][CIEX] = atof(argv[++i]);
161	+	myprims[RED][CIEY] = atof(argv[++i]);
162	+	myprims[GRN][CIEX] = atof(argv[++i]);
163	+	myprims[GRN][CIEY] = atof(argv[++i]);
164	+	myprims[BLU][CIEX] = atof(argv[++i]);
165	+	myprims[BLU][CIEY] = atof(argv[++i]);
166	+	myprims[WHT][CIEX] = atof(argv[++i]);
167	+	myprims[WHT][CIEY] = atof(argv[++i]);
168	+	outprims = myprims;
169	+	break;
170	+	case 'x': case 'X': outprims = NULL; break;
171	+	/* the following options affect +r only */
172		case 'r': case 'R': putprim = RED; break;
173		case 'g': case 'G': putprim = GRN; break;
174		case 'b': case 'B': putprim = BLU; break;
#	Line 151 \| Line 176 \| char argv;**
176		}
177		break;
178		case 'd': /* data only (no indices) */
179	<	dataonly = argv[i][0] == '-';
179	>	dataonly = (argv[i][0] == '-');
180		switch (argv[i][2]) {
181		case '\0':
182		case 'a': /* ascii */
#	Line 174 \| Line 199 \| char argv;**
199		format = 'w';
200		fmtid = "16-bit";
201		break;
202	+	case 'F': /* swapped floats */
203	+	swapbytes = 1;
204		case 'f': /* float */
205		dataonly = 1;
206		format = 'f';
207		fmtid = "float";
208		break;
209	+	case 'D': /* swapped doubles */
210	+	swapbytes = 1;
211		case 'd': /* double */
212		dataonly = 1;
213		format = 'd';
#	Line 214 \| Line 243 \| unkopt:
243		else
244		break;
245		/* recognize special formats */
246	<	if (dataonly && format == 'b')
246	>	if (dataonly && format == 'b') {
247		if (putprim == ALL)
248		fmtid = "24-bit_rgb";
249		else
250		fmtid = "8-bit_grey";
251	<	if (dataonly && format == 'w')
251	>	}
252	>	if (dataonly && format == 'w') {
253		if (putprim == ALL)
254		fmtid = "48-bit_rgb";
255		else
256		fmtid = "16-bit_grey";
257	+	}
258	+	if (!reverse \|\| (format != 'a') & (format != 'i'))
259	+	inpmode = "rb";
260		/* assign reverse ordering */
261		rord[ord[0]] = 0;
262		rord[ord[1]] = 1;
263		rord[ord[2]] = 2;
264		/* get input */
265		if (i == argc) {
266	+	long n = skipbytes;
267	+	if (inpmode[1] == 'b')
268	+	SET_FILE_BINARY(stdin);
269	+	while (n-- > 0)
270	+	if (getchar() == EOF) {
271	+	fprintf(stderr,
272	+	"%s: cannot skip %ld bytes on standard input\n",
273	+	progname, skipbytes);
274	+	quit(1);
275	+	}
276		fin = stdin;
277		} else if (i < argc) {
278	<	if ((fin = fopen(argv[i], "r")) == NULL) {
278	>	if ((fin = fopen(argv[i], inpmode)) == NULL) {
279		fprintf(stderr, "%s: can't open file \"%s\"\n",
280		progname, argv[i]);
281		quit(1);
282		}
283		if (reverse && putprim != BRIGHT && i == argc-3) {
284	<	if ((fin2 = fopen(argv[i+1], "r")) == NULL) {
284	>	if ((fin2 = fopen(argv[i+1], inpmode)) == NULL) {
285		fprintf(stderr, "%s: can't open file \"%s\"\n",
286		progname, argv[i+1]);
287		quit(1);
288		}
289	<	if ((fin3 = fopen(argv[i+2], "r")) == NULL) {
289	>	if ((fin3 = fopen(argv[i+2], inpmode)) == NULL) {
290		fprintf(stderr, "%s: can't open file \"%s\"\n",
291		progname, argv[i+2]);
292		quit(1);
#	Line 252 \| Line 295 \| unkopt:
295		} else if (i != argc-1)
296		fin = NULL;
297		if (reverse && putprim != BRIGHT && !interleave) {
298	<	fin2 = fopen(argv[i], "r");
299	<	fin3 = fopen(argv[i], "r");
298	>	fin2 = fopen(argv[i], inpmode);
299	>	fin3 = fopen(argv[i], inpmode);
300		}
301	<	if (skipbytes && (fseek(fin, skipbytes, 0) \|\| (fin2 != NULL &&
302	<	(fseek(fin2, skipbytes, 0) \|\|
303	<	fseek(fin3, skipbytes, 0))))) {
301	>	if (skipbytes && (fseek(fin, skipbytes, SEEK_SET) \|\| (fin2 != NULL &&
302	>	fseek(fin2, skipbytes, SEEK_SET) \|
303	>	fseek(fin3, skipbytes, SEEK_SET)))) {
304		fprintf(stderr, "%s: cannot skip %ld bytes on input\n",
305		progname, skipbytes);
306		quit(1);
#	Line 269 \| Line 312 \| unkopt:
312		}
313
314		if (reverse) {
272	–	#ifdef _WIN32
315		SET_FILE_BINARY(stdout);
274	–	if (format != 'a' && format != 'i')
275	–	SET_FILE_BINARY(fin);
276	–	#endif
316		/* get header */
317		if (header) {
318	<	if (checkheader(fin, fmtid, stdout) < 0) {
319	<	fprintf(stderr, "%s: wrong input format\n",
320	<	progname);
318	>	getheader(fin, checkhead, stdout);
319	>	if (wrongformat) {
320	>	fprintf(stderr, "%s: wrong input format (expected %s)\n",
321	>	progname, fmtid);
322		quit(1);
323		}
324		if (fin2 != NULL) {
#	Line 312 \| Line 352 \| unkopt:
352		printargs(i, argv, stdout);
353		if (expval < .99 \|\| expval > 1.01)
354		fputexpos(expval, stdout);
355	<	fputformat(COLRFMT, stdout);
355	>	if (outprims != NULL) {
356	>	if (outprims != stdprims)
357	>	fputprims(outprims, stdout);
358	>	fputformat(COLRFMT, stdout);
359	>	} else { /* XYZ data */
360	>	if (original < 0) {
361	>	scalecolor(exposure, WHTEFFICACY);
362	>	doexposure++;
363	>	}
364	>	fputformat(CIEFMT, stdout);
365	>	}
366		putchar('\n');
367		fputsresolu(&picres, stdout); /* always put resolution */
368		valtopix();
369		} else {
370	<	#ifdef _WIN32
321	<	SET_FILE_BINARY(fin);
322	<	if (format != 'a' && format != 'i')
370	>	if ((format != 'a') & (format != 'i'))
371		SET_FILE_BINARY(stdout);
324	–	#endif
372		/* get header */
373	<	getheader(fin, checkhead, NULL);
373	>	getheader(fin, checkhead, header ? stdout : (FILE *)NULL);
374		if (wrongformat) {
375		fprintf(stderr,
376		"%s: input not a Radiance RGBE picture\n",
#	Line 334 \| Line 381 \| unkopt:
381		fprintf(stderr, "%s: missing resolution\n", progname);
382		quit(1);
383		}
384	+	if (original < 0 && mybright == &xyz_bright) {
385	+	scalecolor(exposure, 1./WHTEFFICACY);
386	+	doexposure++;
387	+	}
388		if (header) {
389		printargs(i, argv, stdout);
390	+	printf("NCOMP=%d\n", putprim==ALL ? 3 : 1);
391	+	if (!resolution && dataonly && !uniq)
392	+	printf("NCOLS=%d\nNROWS=%d\n", scanlen(&picres),
393	+	numscans(&picres));
394		if (expval < .99 \|\| expval > 1.01)
395		fputexpos(expval, stdout);
396	+	if (swapbytes) {
397	+	if (nativebigendian())
398	+	puts("BigEndian=0");
399	+	else
400	+	puts("BigEndian=1");
401	+	} else if ((format != 'a') & (format != 'i') &
402	+	(format != 'b'))
403	+	fputendian(stdout);
404		fputformat(fmtid, stdout);
405		putchar('\n');
406		}
#	Line 347 \| Line 410 \| unkopt:
410		}
411
412		quit(0);
413	+	return 0; /* pro forma return */
414		}
415
416
417	<	int
418	<	checkhead(line) /* deal with line from header */
419	<	char *line;
417	>	static int
418	>	checkhead( /* deal with line from header */
419	>	char *line,
420	>	void *p
421	>	)
422		{
423	<	char fmt[32];
423	>	FILE fout = (FILE )p;
424	>	char fmt[MAXFMTLEN];
425		double d;
426		COLOR ctmp;
427	+	int rv;
428
429		if (formatval(fmt, line)) {
430	<	if (!strcmp(fmt, CIEFMT)) {
430	>	if (reverse)
431	>	wrongformat = strcmp(fmt, fmtid);
432	>	else if (!strcmp(fmt, CIEFMT))
433		mybright = &xyz_bright;
434	<	if (original) {
365	<	scalecolor(exposure, 1./WHTEFFICACY);
366	<	doexposure++;
367	<	}
368	<	} else if (!strcmp(fmt, COLRFMT))
434	>	else if (!strcmp(fmt, COLRFMT))
435		mybright = &rgb_bright;
436		else
437		wrongformat++;
438	<	} else if (original && isexpos(line)) {
438	>	return(1);
439	>	}
440	>	if (original && isexpos(line)) {
441		d = 1.0/exposval(line);
442		scalecolor(exposure, d);
443		doexposure++;
444	<	} else if (original && iscolcor(line)) {
444	>	return(1);
445	>	}
446	>	if (original && iscolcor(line)) {
447		colcorval(ctmp, line);
448		setcolor(exposure, colval(exposure,RED)/colval(ctmp,RED),
449		colval(exposure,GRN)/colval(ctmp,GRN),
450		colval(exposure,BLU)/colval(ctmp,BLU));
451		doexposure++;
452	<	} else if (header)
453	<	fputs(line, stdout);
452	>	return(1);
453	>	}
454	>	if ((rv = isbigendian(line)) >= 0) {
455	>	if (reverse)
456	>	swapbytes = (nativebigendian() != rv);
457	>	return(1);
458	>	}
459	>	if (fout != NULL)
460	>	fputs(line, fout);
461		return(0);
462		}
463
464
465	<	pixtoval() /* convert picture to values */
465	>	static void
466	>	pixtoval(void) /* convert picture to values */
467		{
468	<	register COLOR *scanln;
468	>	COLOR *scanln;
469		int dogamma;
470		COLOR lastc;
471	<	FLOAT hv[2];
471	>	RREAL hv[2];
472		int startprim, endprim;
473		long startpos;
474	<	int y;
397	<	register int x;
474	>	int x, y;
475
476		scanln = (COLOR )malloc(scanlen(&picres)sizeof(COLOR));
477		if (scanln == NULL) {
#	Line 402 \| Line 479 \| *pixtoval() / convert picture to values /*
479		quit(1);
480		}
481		dogamma = gamcor < .95 \|\| gamcor > 1.05;
482	<	if (putprim == ALL && !interleave) {
482	>	if ((putprim == ALL) & !interleave) {
483		startprim = RED; endprim = BLU;
484		startpos = ftell(fin);
485		} else {
486		startprim = putprim; endprim = putprim;
487		}
488		for (putprim = startprim; putprim <= endprim; putprim++) {
489	<	if (putprim != startprim && fseek(fin, startpos, 0)) {
489	>	if (putprim != startprim && fseek(fin, startpos, SEEK_SET)) {
490		fprintf(stderr, "%s: seek error on input file\n",
491		progname);
492		quit(1);
#	Line 422 \| Line 499 \| *pixtoval() / convert picture to values /*
499		quit(1);
500		}
501		for (x = 0; x < scanlen(&picres); x++) {
502	<	if (uniq)
502	>	if (uniq) {
503		if ( colval(scanln[x],RED) ==
504		colval(lastc,RED) &&
505		colval(scanln[x],GRN) ==
#	Line 432 \| Line 509 \| *pixtoval() / convert picture to values /*
509		continue;
510		else
511		copycolor(lastc, scanln[x]);
512	+	}
513		if (doexposure)
514		multcolor(scanln[x], exposure);
515		if (dogamma)
#	Line 457 \| Line 535 \| *pixtoval() / convert picture to values /*
535		}
536
537
538	<	valtopix() /* convert values to a pixel file */
538	>	static void
539	>	valtopix(void) /* convert values to a pixel file */
540		{
541	<	int dogamma;
542	<	register COLOR *scanln;
543	<	int y;
544	<	register int x;
541	>	int dogamma;
542	>	COLOR *scanln;
543	>	COLR rgbe;
544	>	int x, y;
545
546		scanln = (COLOR )malloc(scanlen(&picres)sizeof(COLOR));
547		if (scanln == NULL) {
#	Line 491 \| Line 570 \| *valtopix() / convert values to a pixel file /*
570		pow(colval(scanln[x],BLU), gamcor));
571		if (doexposure)
572		multcolor(scanln[x], exposure);
573	+	if (uniq) { /* uncompressed? */
574	+	setcolr(rgbe, scanln[x][RED],
575	+	scanln[x][GRN],
576	+	scanln[x][BLU]);
577	+	if (putbinary(rgbe, sizeof(COLR), 1, stdout) != 1)
578	+	goto writerr;
579	+	}
580		}
581	<	if (fwritescan(scanln, scanlen(&picres), stdout) < 0) {
582	<	fprintf(stderr, "%s: write error\n", progname);
583	<	quit(1);
498	<	}
581	>	/* write scan if compressed */
582	>	if (!uniq && fwritescan(scanln, scanlen(&picres), stdout) < 0)
583	>	goto writerr;
584		}
585		free((void *)scanln);
586	+	return;
587	+	writerr:
588	+	fprintf(stderr, "%s: write error\n", progname);
589	+	quit(1);
590		}
591
592
#	Line 509 \| Line 598 \| int code;
598		}
599
600
601	<	swap16(wp, n) /* swap n 16-bit words */
602	<	register uint16 *wp;
603	<	int n;
601	>	static int
602	>	getcascii( /* get an ascii color value from stream(s) */
603	>	COLOR col
604	>	)
605		{
516	–	while (n-- > 0) {
517	–	wp = wp << 8 \| ((*wp >> 8) & 0xff);
518	–	wp++;
519	–	}
520	–	}
521	–
522	–	getcascii(col) /* get an ascii color value from stream(s) */
523	–	COLOR col;
524	–	{
606		double vd[3];
607
608		if (fin2 == NULL) {
#	Line 538 \| Line 619 \| COLOR col;
619		}
620
621
622	<	getcdouble(col) /* get a double color value from stream(s) */
623	<	COLOR col;
622	>	static int
623	>	getcdouble( /* get a double color value from stream(s) */
624	>	COLOR col
625	>	)
626		{
627		double vd[3];
628
629		if (fin2 == NULL) {
630	<	if (fread((char *)vd, sizeof(double), 3, fin) != 3)
630	>	if (getbinary(vd, sizeof(double), 3, fin) != 3)
631		return(-1);
632		} else {
633	<	if (fread((char *)vd, sizeof(double), 1, fin) != 1 \|\|
634	<	fread((char *)(vd+1), sizeof(double), 1, fin2) != 1 \|\|
635	<	fread((char *)(vd+2), sizeof(double), 1, fin3) != 1)
633	>	if (getbinary(vd, sizeof(double), 1, fin) != 1 \|\|
634	>	getbinary(vd+1, sizeof(double), 1, fin2) != 1 \|\|
635	>	getbinary(vd+2, sizeof(double), 1, fin3) != 1)
636		return(-1);
637		}
638	+	if (swapbytes)
639	+	swap64((char *)vd, 3);
640		setcolor(col, vd[rord[RED]], vd[rord[GRN]], vd[rord[BLU]]);
641		return(0);
642		}
643
644
645	<	getcfloat(col) /* get a float color value from stream(s) */
646	<	COLOR col;
645	>	static int
646	>	getcfloat( /* get a float color value from stream(s) */
647	>	COLOR col
648	>	)
649		{
650		float vf[3];
651
652		if (fin2 == NULL) {
653	<	if (fread((char *)vf, sizeof(float), 3, fin) != 3)
653	>	if (getbinary(vf, sizeof(float), 3, fin) != 3)
654		return(-1);
655		} else {
656	<	if (fread((char *)vf, sizeof(float), 1, fin) != 1 \|\|
657	<	fread((char *)(vf+1), sizeof(float), 1, fin2) != 1 \|\|
658	<	fread((char *)(vf+2), sizeof(float), 1, fin3) != 1)
656	>	if (getbinary(vf, sizeof(float), 1, fin) != 1 \|\|
657	>	getbinary(vf+1, sizeof(float), 1, fin2) != 1 \|\|
658	>	getbinary(vf+2, sizeof(float), 1, fin3) != 1)
659		return(-1);
660		}
661	+	if (swapbytes)
662	+	swap32((char *)vf, 3);
663		setcolor(col, vf[rord[RED]], vf[rord[GRN]], vf[rord[BLU]]);
664		return(0);
665		}
666
667
668	<	getcint(col) /* get an int color value from stream(s) */
669	<	COLOR col;
668	>	static int
669	>	getcint( /* get an int color value from stream(s) */
670	>	COLOR col
671	>	)
672		{
673		int vi[3];
674
#	Line 596 \| Line 687 \| COLOR col;
687		}
688
689
690	<	getcbyte(col) /* get a byte color value from stream(s) */
691	<	COLOR col;
690	>	static int
691	>	getcbyte( /* get a byte color value from stream(s) */
692	>	COLOR col
693	>	)
694		{
695	<	BYTE vb[3];
695	>	uby8 vb[3];
696
697		if (fin2 == NULL) {
698	<	if (fread((char *)vb, sizeof(BYTE), 3, fin) != 3)
698	>	if (getbinary(vb, sizeof(uby8), 3, fin) != 3)
699		return(-1);
700		} else {
701	<	if (fread((char *)vb, sizeof(BYTE), 1, fin) != 1 \|\|
702	<	fread((char *)(vb+1), sizeof(BYTE), 1, fin2) != 1 \|\|
703	<	fread((char *)(vb+2), sizeof(BYTE), 1, fin3) != 1)
701	>	if (getbinary(vb, sizeof(uby8), 1, fin) != 1 \|\|
702	>	getbinary(vb+1, sizeof(uby8), 1, fin2) != 1 \|\|
703	>	getbinary(vb+2, sizeof(uby8), 1, fin3) != 1)
704		return(-1);
705		}
706		setcolor(col, (vb[rord[RED]]+.5)/256.,
#	Line 616 \| Line 709 \| COLOR col;
709		}
710
711
712	<	getcword(col) /* get a 16-bit color value from stream(s) */
713	<	COLOR col;
712	>	static int
713	>	getcword( /* get a 16-bit color value from stream(s) */
714	>	COLOR col
715	>	)
716		{
717		uint16 vw[3];
718
719		if (fin2 == NULL) {
720	<	if (fread((char *)vw, sizeof(uint16), 3, fin) != 3)
720	>	if (getbinary(vw, sizeof(uint16), 3, fin) != 3)
721		return(-1);
722		} else {
723	<	if (fread((char *)vw, sizeof(uint16), 1, fin) != 1 \|\|
724	<	fread((char *)(vw+1), sizeof(uint16), 1, fin2) != 1 \|\|
725	<	fread((char *)(vw+2), sizeof(uint16), 1, fin3) != 1)
723	>	if (getbinary(vw, sizeof(uint16), 1, fin) != 1 \|\|
724	>	getbinary(vw+1, sizeof(uint16), 1, fin2) != 1 \|\|
725	>	getbinary(vw+2, sizeof(uint16), 1, fin3) != 1)
726		return(-1);
727		}
728		if (swapbytes)
729	<	swap16(vw, 3);
729	>	swap16((char *)vw, 3);
730		setcolor(col, (vw[rord[RED]]+.5)/65536.,
731		(vw[rord[GRN]]+.5)/65536., (vw[rord[BLU]]+.5)/65536.);
732		return(0);
733		}
734
735
736	<	getbascii(col) /* get an ascii brightness value from fin */
737	<	COLOR col;
736	>	static int
737	>	getbascii( /* get an ascii brightness value from fin */
738	>	COLOR col
739	>	)
740		{
741		double vd;
742
#	Line 650 \| Line 747 \| COLOR col;
747		}
748
749
750	<	getbdouble(col) /* get a double brightness value from fin */
751	<	COLOR col;
750	>	static int
751	>	getbdouble( /* get a double brightness value from fin */
752	>	COLOR col
753	>	)
754		{
755		double vd;
756
757	<	if (fread((char *)&vd, sizeof(double), 1, fin) != 1)
757	>	if (getbinary(&vd, sizeof(double), 1, fin) != 1)
758		return(-1);
759	+	if (swapbytes)
760	+	swap64((char *)&vd, 1);
761		setcolor(col, vd, vd, vd);
762		return(0);
763		}
764
765
766	<	getbfloat(col) /* get a float brightness value from fin */
767	<	COLOR col;
766	>	static int
767	>	getbfloat( /* get a float brightness value from fin */
768	>	COLOR col
769	>	)
770		{
771		float vf;
772
773	<	if (fread((char *)&vf, sizeof(float), 1, fin) != 1)
773	>	if (getbinary(&vf, sizeof(float), 1, fin) != 1)
774		return(-1);
775	+	if (swapbytes)
776	+	swap32((char *)&vf, 1);
777		setcolor(col, vf, vf, vf);
778		return(0);
779		}
780
781
782	<	getbint(col) /* get an int brightness value from fin */
783	<	COLOR col;
782	>	static int
783	>	getbint( /* get an int brightness value from fin */
784	>	COLOR col
785	>	)
786		{
787		int vi;
788		double d;
#	Line 688 \| Line 795 \| COLOR col;
795		}
796
797
798	<	getbbyte(col) /* get a byte brightness value from fin */
799	<	COLOR col;
798	>	static int
799	>	getbbyte( /* get a byte brightness value from fin */
800	>	COLOR col
801	>	)
802		{
803	<	BYTE vb;
803	>	uby8 vb;
804		double d;
805
806	<	if (fread((char *)&vb, sizeof(BYTE), 1, fin) != 1)
806	>	if (getbinary(&vb, sizeof(uby8), 1, fin) != 1)
807		return(-1);
808		d = (vb+.5)/256.;
809		setcolor(col, d, d, d);
#	Line 702 \| Line 811 \| COLOR col;
811		}
812
813
814	<	getbword(col) /* get a 16-bit brightness value from fin */
815	<	COLOR col;
814	>	static int
815	>	getbword( /* get a 16-bit brightness value from fin */
816	>	COLOR col
817	>	)
818		{
819		uint16 vw;
820		double d;
821
822	<	if (fread((char *)&vw, sizeof(uint16), 1, fin) != 1)
822	>	if (getbinary(&vw, sizeof(uint16), 1, fin) != 1)
823		return(-1);
824		if (swapbytes)
825	<	swap16(&vw, 1);
825	>	swap16((char *)&vw, 1);
826		d = (vw+.5)/65536.;
827		setcolor(col, d, d, d);
828		return(0);
829		}
830
831
832	<	putcascii(col) /* put an ascii color to stdout */
833	<	COLOR col;
832	>	static int
833	>	putcascii( /* put an ascii color to stdout */
834	>	COLOR col
835	>	)
836		{
837		fprintf(stdout, "%15.3e %15.3e %15.3e\n",
838		colval(col,ord[0]),
#	Line 730 \| Line 843 \| COLOR col;
843		}
844
845
846	<	putcfloat(col) /* put a float color to stdout */
847	<	COLOR col;
846	>	static int
847	>	putcfloat( /* put a float color to stdout */
848	>	COLOR col
849	>	)
850		{
851		float vf[3];
852
853		vf[0] = colval(col,ord[0]);
854		vf[1] = colval(col,ord[1]);
855		vf[2] = colval(col,ord[2]);
856	<	fwrite((char *)vf, sizeof(float), 3, stdout);
856	>	if (swapbytes)
857	>	swap32((char *)vf, 3);
858	>	putbinary(vf, sizeof(float), 3, stdout);
859
860		return(ferror(stdout) ? -1 : 0);
861		}
862
863
864	<	putcdouble(col) /* put a double color to stdout */
865	<	COLOR col;
864	>	static int
865	>	putcdouble( /* put a double color to stdout */
866	>	COLOR col
867	>	)
868		{
869		double vd[3];
870
871		vd[0] = colval(col,ord[0]);
872		vd[1] = colval(col,ord[1]);
873		vd[2] = colval(col,ord[2]);
874	<	fwrite((char *)vd, sizeof(double), 3, stdout);
874	>	if (swapbytes)
875	>	swap64((char *)vd, 3);
876	>	putbinary(vd, sizeof(double), 3, stdout);
877
878		return(ferror(stdout) ? -1 : 0);
879		}
880
881
882	<	putcint(col) /* put an int color to stdout */
883	<	COLOR col;
882	>	static int
883	>	putcint( /* put an int color to stdout */
884	>	COLOR col
885	>	)
886		{
887		fprintf(stdout, "%d %d %d\n",
888		(int)(colval(col,ord[0])*256.),
#	Line 770 \| Line 893 \| COLOR col;
893		}
894
895
896	<	putcbyte(col) /* put a byte color to stdout */
897	<	COLOR col;
896	>	static int
897	>	putcbyte( /* put a byte color to stdout */
898	>	COLOR col
899	>	)
900		{
901		long i;
902	<	BYTE vb[3];
902	>	uby8 vb[3];
903
904		i = colval(col,ord[0])*256.;
905		vb[0] = min(i,255);
#	Line 782 \| Line 907 \| COLOR col;
907		vb[1] = min(i,255);
908		i = colval(col,ord[2])*256.;
909		vb[2] = min(i,255);
910	<	fwrite((char *)vb, sizeof(BYTE), 3, stdout);
910	>	putbinary(vb, sizeof(uby8), 3, stdout);
911
912		return(ferror(stdout) ? -1 : 0);
913		}
914
915
916	<	putcword(col) /* put a 16-bit color to stdout */
917	<	COLOR col;
916	>	static int
917	>	putcword( /* put a 16-bit color to stdout */
918	>	COLOR col
919	>	)
920		{
921		long i;
922		uint16 vw[3];
#	Line 801 \| Line 928 \| COLOR col;
928		i = colval(col,ord[2])*65536.;
929		vw[2] = min(i,65535);
930		if (swapbytes)
931	<	swap16(vw, 3);
932	<	fwrite((char *)vw, sizeof(uint16), 3, stdout);
931	>	swap16((char *)vw, 3);
932	>	putbinary(vw, sizeof(uint16), 3, stdout);
933
934		return(ferror(stdout) ? -1 : 0);
935		}
936
937
938	<	putbascii(col) /* put an ascii brightness to stdout */
939	<	COLOR col;
938	>	static int
939	>	putbascii( /* put an ascii brightness to stdout */
940	>	COLOR col
941	>	)
942		{
943		fprintf(stdout, "%15.3e\n", (*mybright)(col));
944
#	Line 817 \| Line 946 \| COLOR col;
946		}
947
948
949	<	putbfloat(col) /* put a float brightness to stdout */
950	<	COLOR col;
949	>	static int
950	>	putbfloat( /* put a float brightness to stdout */
951	>	COLOR col
952	>	)
953		{
954		float vf;
955
956		vf = (*mybright)(col);
957	<	fwrite((char *)&vf, sizeof(float), 1, stdout);
957	>	if (swapbytes)
958	>	swap32((char *)&vf, 1);
959	>	putbinary(&vf, sizeof(float), 1, stdout);
960
961		return(ferror(stdout) ? -1 : 0);
962		}
963
964
965	<	putbdouble(col) /* put a double brightness to stdout */
966	<	COLOR col;
965	>	static int
966	>	putbdouble( /* put a double brightness to stdout */
967	>	COLOR col
968	>	)
969		{
970		double vd;
971
972		vd = (*mybright)(col);
973	<	fwrite((char *)&vd, sizeof(double), 1, stdout);
973	>	if (swapbytes)
974	>	swap64((char *)&vd, 1);
975	>	putbinary(&vd, sizeof(double), 1, stdout);
976
977		return(ferror(stdout) ? -1 : 0);
978		}
979
980
981	<	putbint(col) /* put an int brightness to stdout */
982	<	COLOR col;
981	>	static int
982	>	putbint( /* put an int brightness to stdout */
983	>	COLOR col
984	>	)
985		{
986		fprintf(stdout, "%d\n", (int)((mybright)(col)256.));
987
#	Line 850 \| Line 989 \| COLOR col;
989		}
990
991
992	<	putbbyte(col) /* put a byte brightness to stdout */
993	<	COLOR col;
992	>	static int
993	>	putbbyte( /* put a byte brightness to stdout */
994	>	COLOR col
995	>	)
996		{
997	<	register int i;
998	<	BYTE vb;
997	>	int i;
998	>	uby8 vb;
999
1000		i = (mybright)(col)256.;
1001		vb = min(i,255);
1002	<	fwrite((char *)&vb, sizeof(BYTE), 1, stdout);
1002	>	putbinary(&vb, sizeof(uby8), 1, stdout);
1003
1004		return(ferror(stdout) ? -1 : 0);
1005		}
1006
1007
1008	<	putbword(col) /* put a 16-bit brightness to stdout */
1009	<	COLOR col;
1008	>	static int
1009	>	putbword( /* put a 16-bit brightness to stdout */
1010	>	COLOR col
1011	>	)
1012		{
1013		long i;
1014		uint16 vw;
#	Line 873 \| Line 1016 \| COLOR col;
1016		i = (mybright)(col)65536.;
1017		vw = min(i,65535);
1018		if (swapbytes)
1019	<	swap16(&vw, 1);
1020	<	fwrite((char *)&vw, sizeof(uint16), 1, stdout);
1019	>	swap16((char *)&vw, 1);
1020	>	putbinary(&vw, sizeof(uint16), 1, stdout);
1021
1022		return(ferror(stdout) ? -1 : 0);
1023		}
1024
1025
1026	<	putpascii(col) /* put an ascii primary to stdout */
1027	<	COLOR col;
1026	>	static int
1027	>	putpascii( /* put an ascii primary to stdout */
1028	>	COLOR col
1029	>	)
1030		{
1031		fprintf(stdout, "%15.3e\n", colval(col,putprim));
1032
#	Line 889 \| Line 1034 \| COLOR col;
1034		}
1035
1036
1037	<	putpfloat(col) /* put a float primary to stdout */
1038	<	COLOR col;
1037	>	static int
1038	>	putpfloat( /* put a float primary to stdout */
1039	>	COLOR col
1040	>	)
1041		{
1042		float vf;
1043
1044		vf = colval(col,putprim);
1045	<	fwrite((char *)&vf, sizeof(float), 1, stdout);
1045	>	if (swapbytes)
1046	>	swap32((char *)&vf, 1);
1047	>	putbinary(&vf, sizeof(float), 1, stdout);
1048
1049		return(ferror(stdout) ? -1 : 0);
1050		}
1051
1052
1053	<	putpdouble(col) /* put a double primary to stdout */
1054	<	COLOR col;
1053	>	static int
1054	>	putpdouble( /* put a double primary to stdout */
1055	>	COLOR col
1056	>	)
1057		{
1058		double vd;
1059
1060		vd = colval(col,putprim);
1061	<	fwrite((char *)&vd, sizeof(double), 1, stdout);
1061	>	if (swapbytes)
1062	>	swap64((char *)&vd, 1);
1063	>	putbinary(&vd, sizeof(double), 1, stdout);
1064
1065		return(ferror(stdout) ? -1 : 0);
1066		}
1067
1068
1069	<	putpint(col) /* put an int primary to stdout */
1070	<	COLOR col;
1069	>	static int
1070	>	putpint( /* put an int primary to stdout */
1071	>	COLOR col
1072	>	)
1073		{
1074		fprintf(stdout, "%d\n", (int)(colval(col,putprim)*256.));
1075
#	Line 922 \| Line 1077 \| COLOR col;
1077		}
1078
1079
1080	<	putpbyte(col) /* put a byte primary to stdout */
1081	<	COLOR col;
1080	>	static int
1081	>	putpbyte( /* put a byte primary to stdout */
1082	>	COLOR col
1083	>	)
1084		{
1085		long i;
1086	<	BYTE vb;
1086	>	uby8 vb;
1087
1088		i = colval(col,putprim)*256.;
1089		vb = min(i,255);
1090	<	fwrite((char *)&vb, sizeof(BYTE), 1, stdout);
1090	>	putbinary(&vb, sizeof(uby8), 1, stdout);
1091
1092		return(ferror(stdout) ? -1 : 0);
1093		}
1094
1095
1096	<	putpword(col) /* put a 16-bit primary to stdout */
1097	<	COLOR col;
1096	>	static int
1097	>	putpword( /* put a 16-bit primary to stdout */
1098	>	COLOR col
1099	>	)
1100		{
1101		long i;
1102		uint16 vw;
#	Line 945 \| Line 1104 \| COLOR col;
1104		i = colval(col,putprim)*65536.;
1105		vw = min(i,65535);
1106		if (swapbytes)
1107	<	swap16(&vw, 1);
1108	<	fwrite((char *)&vw, sizeof(uint16), 1, stdout);
1107	>	swap16((char *)&vw, 1);
1108	>	putbinary(&vw, sizeof(uint16), 1, stdout);
1109
1110		return(ferror(stdout) ? -1 : 0);
1111		}
1112
1113
1114	<	set_io() /* set put and get functions */
1114	>	static void
1115	>	set_io(void) /* set put and get functions */
1116		{
1117		switch (format) {
1118		case 'a': /* ascii */
#	Line 987 \| Line 1147 \| *set_io() / set put and get functions /*
1147		if (fin2 == NULL)
1148		goto namerr;
1149		if (fseek(fin2,
1150	<	(long)sizeof(float)picres.xrpicres.yr, 1))
1150	>	(long)sizeof(float)picres.xrpicres.yr, SEEK_CUR))
1151		goto seekerr;
1152		if (fseek(fin3,
1153	<	(long)sizeof(float)2picres.xr*picres.yr, 1))
1153	>	(long)sizeof(float)2picres.xr*picres.yr, SEEK_CUR))
1154		goto seekerr;
1155		}
1156		}
#	Line 1009 \| Line 1169 \| *set_io() / set put and get functions /*
1169		if (fin2 == NULL)
1170		goto namerr;
1171		if (fseek(fin2,
1172	<	(long)sizeof(double)picres.xrpicres.yr, 1))
1172	>	(long)sizeof(double)picres.xrpicres.yr, SEEK_CUR))
1173		goto seekerr;
1174		if (fseek(fin3,
1175	<	(long)sizeof(double)2picres.xr*picres.yr, 1))
1175	>	(long)sizeof(double)2picres.xr*picres.yr, SEEK_CUR))
1176		goto seekerr;
1177		}
1178		}
#	Line 1049 \| Line 1209 \| *set_io() / set put and get functions /*
1209		if (fin2 == NULL)
1210		goto namerr;
1211		if (fseek(fin2,
1212	<	(long)sizeof(BYTE)picres.xrpicres.yr, 1))
1212	>	(long)sizeof(uby8)picres.xrpicres.yr, SEEK_CUR))
1213		goto seekerr;
1214		if (fseek(fin3,
1215	<	(long)sizeof(BYTE)2picres.xr*picres.yr, 1))
1215	>	(long)sizeof(uby8)2picres.xr*picres.yr, SEEK_CUR))
1216		goto seekerr;
1217		}
1218		}
#	Line 1071 \| Line 1231 \| *set_io() / set put and get functions /*
1231		if (fin2 == NULL)
1232		goto namerr;
1233		if (fseek(fin2,
1234	<	(long)sizeof(uint16)picres.xrpicres.yr, 1))
1234	>	(long)sizeof(uint16)picres.xrpicres.yr, SEEK_CUR))
1235		goto seekerr;
1236		if (fseek(fin3,
1237	<	(long)sizeof(uint16)2picres.xr*picres.yr, 1))
1237	>	(long)sizeof(uint16)2picres.xr*picres.yr, SEEK_CUR))
1238		goto seekerr;
1239		}
1240		}
1241		return;
1242		}
1243	<	badopt:
1243	>	/* badopt: / / label not used */
1244		fprintf(stderr, "%s: botched file type\n", progname);
1245		quit(1);
1246		namerr:

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Comparing ray/src/px/pvalue.c (file contents): Revision 2.18 by schorsch, Thu Jun 5 19:29:34 2003 UTC vs. Revision 2.41 by greg, Fri Feb 4 20:11:49 2022 UTC

Diff Legend

Comparing ray/src/px/pvalue.c (file contents):
Revision 2.18 by schorsch, Thu Jun 5 19:29:34 2003 UTC vs.
Revision 2.41 by greg, Fri Feb 4 20:11:49 2022 UTC