[ViewVC] Diff of: radiance/ray/src/px/ra

Comparing ray/src/px/ra_tiff.c (file contents):
Revision 2.27 by schorsch, Fri Jan 2 12:47:01 2004 UTC vs.
Revision 2.38 by greg, Fri Oct 4 19:15:19 2024 UTC

#	Line 7 \| Line 7 \| static const char RCSid[] = "$Id$";
7		* Added white-balance adjustment 10/01 (GW).
8		*/
9
10	–	#include <stdio.h>
10		#include <math.h>
11		#include <ctype.h>
13	–	#include <time.h>
14	–	#include <string.h>
12
13	+	#include "rtio.h"
14	+	#include "platform.h"
15		#include "tiffio.h"
16		#include "color.h"
17		#include "resolu.h"
#	Line 25 \| Line 24 \| static const char RCSid[] = "$Id$";
24		#define C_GAMMA 0x4 /* needs gamma correction */
25		#define C_GRY 0x8 /* TIFF is greyscale */
26		#define C_XYZE 0x10 /* Radiance is XYZE */
27	<	#define C_RFLT 0x20 /* Radiance data is float */
28	<	#define C_TFLT 0x40 /* TIFF data is float */
29	<	#define C_TWRD 0x80 /* TIFF data is 16-bit */
30	<	#define C_PRIM 0x100 /* has assigned primaries */
27	>	#define C_SPEC 0x20 /* Radiance is spectral */
28	>	#define C_RFLT 0x40 /* Radiance data is float */
29	>	#define C_TFLT 0x80 /* TIFF data is float */
30	>	#define C_TWRD 0x100 /* TIFF data is 16-bit */
31	>	#define C_PRIM 0x200 /* has assigned primaries */
32
33	<	struct {
33	>	typedef void colcvf_t(uint32 y);
34	>
35	>	struct CONVST {
36		uint16 flags; /* conversion flags (defined above) */
37		char capdate[20]; /* capture date/time */
38		char owner[256]; /* content owner */
#	Line 42 \| Line 44 \| struct {
44		uint16 orient; /* visual orientation (TIFF spec.) */
45		double stonits; /* input conversion to nits */
46		float pixrat; /* pixel aspect ratio */
47	+	int ncc; /* # color components for spectral */
48	+	float wpt[4]; /* wavelength partitions */
49		FILE rfp; / Radiance stream pointer */
50		TIFF tif; / TIFF pointer */
51		uint32 xmax, ymax; /* image dimensions */
#	Line 50 \| Line 54 \| struct {
54		union {
55		COLR colrs; / 4-byte ???E pointer */
56		COLOR colors; / float array pointer */
57	<	char p; / generic pointer */
57	>	void p; / generic pointer */
58		} r; /* Radiance scanline */
59		union {
60		uint8 bp; / byte pointer */
61		uint16 wp; / word pointer */
62		float fp; / float pointer */
63	<	char p; / generic pointer */
63	>	void p; / generic pointer */
64		} t; /* TIFF scanline */
65	<	void (tf)(); / translation procedure */
65	>	colcvf_t tf; / translation procedure */
66		} cvts = { /* conversion structure */
67		0, "", "", COMPRESSION_NONE, PHOTOMETRIC_RGB,
68	<	PLANARCONFIG_CONTIG, GAMCOR, 0, 1, 1., 1.,
68	>	PLANARCONFIG_CONTIG, GAMCOR, 0, 1, 1., 1., 3,
69		};
70
71		#define CHK(f) (cvts.flags & (f))
#	Line 69 \| Line 73 \| struct {
73		#define CLR(f) (cvts.flags &= ~(f))
74		#define TGL(f) (cvts.flags ^= (f))
75
76	<	void Luv2Color(), L2Color(), RGB2Colr(), Gry2Colr();
77	<	void Color2Luv(), Color2L(), Colr2RGB(), Colr2Gry();
78	<	void RRGGBB2Color(), GGry2Color(), Color2RRGGBB(), Color2GGry();
76	>	static colcvf_t Luv2Color, L2Color, RGB2Colr, Gry2Colr;
77	>	static colcvf_t Color2Luv, Color2L, Colr2RGB, Colr2Gry;
78	>	static colcvf_t RRGGBB2Color, GGry2Color, Color2RRGGBB, Color2GGry;
79
80	+	static gethfunc headline;
81	+	static void quiterr(char *err);
82	+	static void allocbufs(void);
83	+	static void initfromtif(void);
84	+	static void tiff2ra(int ac, char *av[]);
85	+	static void initfromrad(void);
86	+	static void ra2tiff(int ac, char *av[]);
87	+	static void ReadRadScan(struct CONVST *cvp);
88	+
89	+
90		#define RfGfBf2Color Luv2Color
91		#define Gryf2Color L2Color
92		#define Color2Gryf Color2L
#	Line 96 \| Line 110 \| char OWNSTR[] = "OWNER=";
110
111		char *progname;
112
99	–	static gethfunc headline;
113
114	<
115	<	main(argc, argv)
103	<	int argc;
104	<	char *argv[];
114	>	int
115	>	main(int argc, char *argv[])
116		{
117		int reverse = 0;
118		int i;
#	Line 182 \| Line 193 \| doneopts:
193		exit(0);
194		userr:
195		fprintf(stderr,
196	<	"Usage: %s [-z\|-L\|-l\|-f\|-w][-b][-e +/-stops][-g gamma] {in.pic\|-} out.tif\n",
196	>	"Usage: %s [-z\|-L\|-l\|-f\|-w][-b][-e +/-stops][-g gamma] {in.hdr\|-} out.tif\n",
197		progname);
198		fprintf(stderr,
199	<	" Or: %s -r [-x][-e +/-stops][-g gamma] in.tif [out.pic\|-]\n",
199	>	" Or: %s -r [-x][-e +/-stops][-g gamma] in.tif [out.hdr\|-]\n",
200		progname);
201		exit(1);
202		}
203
204
205	<	quiterr(err) /* print message and exit */
206	<	char *err;
205	>	static void
206	>	quiterr( /* print message and exit */
207	>	char *err
208	>	)
209		{
210		if (err != NULL) {
211		fprintf(stderr, "%s: %s\n", progname, err);
#	Line 202 \| Line 215 \| *char err;**
215		}
216
217
218	<	allocbufs() /* allocate scanline buffers */
218	>	static void
219	>	allocbufs(void) /* allocate scanline buffers */
220		{
221		int rsiz, tsiz;
222
#	Line 210 \| Line 224 \| *allocbufs() / allocate scanline buffers /*
224		tsiz = (CHK(C_TFLT) ? sizeof(float) :
225		CHK(C_TWRD) ? sizeof(uint16) : sizeof(uint8)) *
226		(CHK(C_GRY) ? 1 : 3);
227	<	cvts.r.p = (char )malloc(rsizcvts.xmax);
228	<	cvts.t.p = (char )malloc(tsizcvts.xmax);
227	>	cvts.r.p = malloc(rsiz*cvts.xmax);
228	>	cvts.t.p = malloc(tsiz*cvts.xmax);
229		if ((cvts.r.p == NULL) \| (cvts.t.p == NULL))
230		quiterr("no memory to allocate scanline buffers");
231		}
232
233
234	<	initfromtif() /* initialize conversion from TIFF input */
234	>	static void
235	>	initfromtif(void) /* initialize conversion from TIFF input */
236		{
237		uint16 hi;
238		char *cp;
239		float *fa, f1, f2;
240
226	–	CLR(C_GRY\|C_GAMMA\|C_PRIM\|C_RFLT\|C_TFLT\|C_TWRD\|C_CXFM);
227	–
241		TIFFGetFieldDefaulted(cvts.tif, TIFFTAG_PLANARCONFIG, &cvts.pconf);
242
243		if (TIFFGetField(cvts.tif, TIFFTAG_PRIMARYCHROMATICITIES, &fa)) {
#	Line 262 \| Line 275 \| *initfromtif() / initialize conversion from TIFF inpu**
275		cpcolormat(cvts.cmat, xyz2rgbmat);
276		SET(C_CXFM\|C_GAMUT);
277		} else if (cvts.comp == COMPRESSION_SGILOG)
278	<	SET(C_GAMUT);
278	>	SET(C_GAMUT); /* may be outside XYZ gamut */
279		if (cvts.pconf != PLANARCONFIG_CONTIG)
280		quiterr("cannot handle separate Luv planes");
281		TIFFSetField(cvts.tif, TIFFTAG_SGILOGDATAFMT,
#	Line 349 \| Line 362 \| *initfromtif() / initialize conversion from TIFF inpu**
362		quiterr("unknown input image resolution");
363
364		if (!TIFFGetField(cvts.tif, TIFFTAG_STONITS, &cvts.stonits))
365	<	cvts.stonits = 1.;
365	>	cvts.stonits = -1.;
366
367		if (!TIFFGetField(cvts.tif, TIFFTAG_DATETIME, &cp))
368		cvts.capdate[0] = '\0';
#	Line 367 \| Line 380 \| *initfromtif() / initialize conversion from TIFF inpu**
380		if (cvts.pixrat < .99 \|\| cvts.pixrat > 1.01)
381		fputaspect(cvts.pixrat, cvts.rfp);
382		if (CHK(C_XYZE)) {
383	<	fputexpos(pow(2.,(double)cvts.bradj)/cvts.stonits, cvts.rfp);
383	>	if (cvts.stonits > .0)
384	>	fputexpos(pow(2.,(double)cvts.bradj)/cvts.stonits, cvts.rfp);
385		fputformat(CIEFMT, cvts.rfp);
386		} else {
387		if (CHK(C_PRIM))
388		fputprims(cvts.prims, cvts.rfp);
389	<	fputexpos(WHTEFFICACY*pow(2.,(double)cvts.bradj)/cvts.stonits,
390	<	cvts.rfp);
389	>	if (cvts.stonits > .0)
390	>	fputexpos(WHTEFFICACY*pow(2.,(double)cvts.bradj)/cvts.stonits,
391	>	cvts.rfp);
392		fputformat(COLRFMT, cvts.rfp);
393		}
394		if (cvts.capdate[0])
#	Line 385 \| Line 400 \| *initfromtif() / initialize conversion from TIFF inpu**
400		}
401
402
403	<	tiff2ra(ac, av) /* convert TIFF image to Radiance picture */
404	<	int ac;
405	<	char *av[];
403	>	static void
404	>	tiff2ra( /* convert TIFF image to Radiance picture */
405	>	int ac,
406	>	char *av[]
407	>	)
408		{
409		int32 y;
410		/* open TIFF input */
#	Line 398 \| Line 415 \| *char av[];**
415		cvts.rfp = stdout;
416		else if ((cvts.rfp = fopen(av[ac+1], "w")) == NULL)
417		quiterr("cannot open Radiance output picture");
418	+	SET_FILE_BINARY(cvts.rfp);
419		/* start output header */
420		newheader("RADIANCE", cvts.rfp);
421		printargs(ac, av, cvts.rfp);
#	Line 423 \| Line 441 \| *headline( / process Radiance input header line /*
441		{
442		static int tmstrlen = 0;
443		static int ownstrlen = 0;
444	<	char fmt[32];
444	>	struct CONVST cvp = (struct CONVST )p;
445	>	char fmt[MAXFMTLEN];
446
447	<	if (!tmstrlen)
447	>	if (!tmstrlen) {
448		tmstrlen = strlen(TMSTR);
430	–	if (!ownstrlen)
449		ownstrlen = strlen(OWNSTR);
450	+	}
451		if (formatval(fmt, s)) {
452	<	if (!strcmp(fmt, COLRFMT))
453	<	CLR(C_XYZE);
435	<	else if (!strcmp(fmt, CIEFMT))
452	>	CLR(C_XYZE\|C_SPEC);
453	>	if (!strcmp(fmt, CIEFMT))
454		SET(C_XYZE);
455	<	else
456	<	quiterr("unrecognized input picture format");
455	>	else if (!strcmp(fmt, SPECFMT))
456	>	SET(C_SPEC);
457	>	else if (strcmp(fmt, COLRFMT))
458	>	return(-1);
459		return(1);
460		}
461		if (isexpos(s)) {
462	<	cvts.stonits /= exposval(s);
462	>	cvp->stonits /= exposval(s);
463		return(1);
464		}
465		if (isaspect(s)) {
466	<	cvts.pixrat *= aspectval(s);
466	>	cvp->pixrat *= aspectval(s);
467		return(1);
468		}
469		if (isprims(s)) {
470	<	primsval(cvts.prims, s);
470	>	primsval(cvp->prims, s);
471		SET(C_PRIM);
472		return(1);
473		}
474		if (isdate(s)) {
475		if (s[tmstrlen] == ' ')
476	<	strncpy(cvts.capdate, s+tmstrlen+1, 19);
476	>	strncpy(cvp->capdate, s+tmstrlen+1, 19);
477		else
478	<	strncpy(cvts.capdate, s+tmstrlen, 19);
479	<	cvts.capdate[19] = '\0';
478	>	strncpy(cvp->capdate, s+tmstrlen, 19);
479	>	cvp->capdate[19] = '\0';
480		return(1);
481		}
482		if (!strncmp(s, OWNSTR, ownstrlen)) {
483	<	register char *cp = s + ownstrlen;
483	>	char *cp = s + ownstrlen;
484
485		while (isspace(*cp))
486		++cp;
487	<	strncpy(cvts.owner, cp, sizeof(cvts.owner));
488	<	cvts.owner[sizeof(cvts.owner)-1] = '\0';
489	<	for (cp = cvts.owner; *cp; cp++)
487	>	strncpy(cvp->owner, cp, sizeof(cvp->owner));
488	>	cvp->owner[sizeof(cvp->owner)-1] = '\0';
489	>	for (cp = cvp->owner; *cp; cp++)
490		;
491	<	while (cp > cvts.owner && isspace(cp[-1]))
491	>	while (cp > cvp->owner && isspace(cp[-1]))
492		*--cp = '\0';
493		return(1);
494		}
495	+	if (isncomp(s)) {
496	+	cvp->ncc = ncompval(s);
497	+	return((3 <= cvp->ncc) & (cvp->ncc < MAXCSAMP) ? 1 : -1);
498	+	}
499	+	if (iswlsplit(s))
500	+	return(wlsplitval(cvp->wpt, s) ? 1 : -1);
501		return(0);
502		}
503
504
505	<	initfromrad() /* initialize input from a Radiance picture */
505	>	static void
506	>	initfromrad(void) /* initialize input from a Radiance picture */
507		{
508		int i1, i2, po;
509		/* read Radiance header */
510	<	CLR(C_RFLT\|C_XYZE\|C_PRIM\|C_GAMMA\|C_CXFM);
511	<	cvts.capdate[0] = '\0';
512	<	cvts.owner[0] = '\0';
486	<	cvts.stonits = 1.;
487	<	cvts.pixrat = 1.;
488	<	cvts.pconf = PLANARCONFIG_CONTIG;
489	<	getheader(cvts.rfp, headline, NULL);
490	<	if ((po = fgetresolu(&i1, &i2, cvts.rfp)) < 0)
510	>	memcpy(cvts.wpt, WLPART, sizeof(cvts.wpt));
511	>	if (getheader(cvts.rfp, headline, &cvts) < 0 \|\|
512	>	(po = fgetresolu(&i1, &i2, cvts.rfp)) < 0)
513		quiterr("bad Radiance picture");
514		cvts.xmax = i1; cvts.ymax = i2;
515		for (i1 = 0; i1 < 8; i1++) /* interpret orientation */
#	Line 509 \| Line 531 \| *initfromrad() / initialize input from a Radiance pi**
531		case PHOTOMETRIC_LOGLUV:
532		SET(C_RFLT\|C_TFLT);
533		CLR(C_GRY\|C_TWRD);
534	<	if (!CHK(C_XYZE)) {
534	>	if (!CHK(C_XYZE\|C_SPEC)) {
535		comprgb2xyzWBmat(cvts.cmat,
536		CHK(C_PRIM) ? cvts.prims : stdprims);
537		SET(C_CXFM);
#	Line 534 \| Line 556 \| *initfromrad() / initialize input from a Radiance pi**
556		SET(C_GAMMA\|C_GAMUT);
557		CLR(C_GRY);
558		setcolrgam(cvts.gamcor);
559	<	if (CHK(C_XYZE)) {
559	>	if (CHK(C_TWRD\|C_TFLT) ? CHK(C_XYZE\|C_SPEC) : CHK(C_XYZE)) {
560		compxyz2rgbWBmat(cvts.cmat,
561		CHK(C_PRIM) ? cvts.prims : stdprims);
562		SET(C_CXFM);
#	Line 553 \| Line 575 \| *initfromrad() / initialize input from a Radiance pi**
575		SAMPLEFORMAT_IEEEFP);
576		cvts.tf = Color2RfGfBf;
577		SET(C_RFLT);
578	+	CLR(C_GAMUT);
579		} else
580		cvts.tf = Colr2RGB;
581		break;
#	Line 603 \| Line 626 \| *initfromrad() / initialize input from a Radiance pi**
626		}
627
628
629	<	ra2tiff(ac, av) /* convert Radiance picture to TIFF image */
630	<	int ac;
631	<	char *av[];
629	>	static void
630	>	ra2tiff( /* convert Radiance picture to TIFF image */
631	>	int ac,
632	>	char *av[]
633	>	)
634		{
635		uint32 y;
636		/* open Radiance file */
#	Line 613 \| Line 638 \| *char av[];**
638		cvts.rfp = stdin;
639		else if ((cvts.rfp = fopen(av[ac], "r")) == NULL)
640		quiterr("cannot open Radiance input picture");
641	+	SET_FILE_BINARY(cvts.rfp);
642		/* open TIFF file */
643		if ((cvts.tif = TIFFOpen(av[ac+1], "w")) == NULL)
644		quiterr("cannot open TIFF output");
#	Line 627 \| Line 653 \| *char av[];**
653		}
654
655
656	<	void
657	<	Luv2Color(y) /* read/convert/write Luv->COLOR scanline */
632	<	uint32 y;
656	>	static void
657	>	ReadRadScan(struct CONVST *cvp)
658		{
659	<	register int x;
659	>	static struct CONVST *lastcvp = NULL;
660	>	static COLOR scomp[MAXCSAMP];
661
662	+	if (cvp->ncc > 3) { /* convert spectral pixels */
663	+	SCOLR sclr;
664	+	SCOLOR scol;
665	+	COLOR xyz;
666	+	int x, n;
667	+	if (lastcvp != cvp) {
668	+	for (n = cvp->ncc; n--; )
669	+	spec_cie(scomp[n],
670	+	cvp->wpt[0] + (cvp->wpt[3] - cvp->wpt[0])*(n+1)/cvp->ncc,
671	+	cvp->wpt[0] + (cvp->wpt[3] - cvp->wpt[0])*n/cvp->ncc);
672	+	lastcvp = cvp;
673	+	}
674	+	for (x = 0; x < cvp->xmax; x++) {
675	+	if (getbinary(sclr, cvp->ncc+1, 1, cvp->rfp) != 1)
676	+	goto readerr;
677	+	scolr2scolor(scol, sclr, cvp->ncc);
678	+	setcolor(cvp->r.colors[x], 0, 0, 0);
679	+	for (n = cvp->ncc; n--; ) {
680	+	copycolor(xyz, scomp[n]);
681	+	scalecolor(xyz, scol[n]);
682	+	addcolor(cvp->r.colors[x], xyz);
683	+	}
684	+	}
685	+	return;
686	+	}
687	+	if (freadscan(cvp->r.colors, cvp->xmax, cvp->rfp) >= 0)
688	+	return;
689	+	readerr:
690	+	quiterr("error reading Radiance picture");
691	+	}
692	+
693	+
694	+	static void
695	+	Luv2Color( /* read/convert/write Luv->COLOR scanline */
696	+	uint32 y
697	+	)
698	+	{
699	+	int x;
700	+
701		if (CHK(C_RFLT\|C_TWRD\|C_TFLT\|C_GRY) != (C_RFLT\|C_TFLT))
702		quiterr("internal error 1 in Luv2Color");
703
704	+	if (cvts.pconf != PLANARCONFIG_CONTIG)
705	+	quiterr("cannot handle separate 32-bit color planes");
706	+
707		if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
708		quiterr("error reading TIFF input");
709		/* also works for float RGB */
#	Line 662 \| Line 730 \| uint32 y;
730		}
731
732
733	<	void
734	<	RRGGBB2Color(y) /* read/convert/write RGB16->COLOR scanline */
735	<	uint32 y;
733	>	static void
734	>	RRGGBB2Color( /* read/convert/write RGB16->COLOR scanline */
735	>	uint32 y
736	>	)
737		{
738		int dogamma = (cvts.gamcor < 0.99) \| (cvts.gamcor > 1.01);
739	<	register double d;
740	<	register int x;
739	>	double d;
740	>	int x;
741
742		if (CHK(C_RFLT\|C_TWRD\|C_TFLT\|C_GRY) != (C_TWRD\|C_RFLT))
743		quiterr("internal error 1 in RRGGBB2Color");
744
745	+	if (cvts.pconf != PLANARCONFIG_CONTIG)
746	+	quiterr("cannot handle separate 16-bit color planes");
747	+
748		if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
749		quiterr("error reading TIFF input");
750
#	Line 689 \| Line 761 \| uint32 y;
761		if (CHK(C_CXFM))
762		colortrans(cvts.r.colors[x], cvts.cmat,
763		cvts.r.colors[x]);
692	–	if (CHK(C_GAMUT))
693	–	clipgamut(cvts.r.colors[x], cvts.t.fp[3*x + 1],
694	–	CGAMUT_LOWER, cblack, cwhite);
764		}
765		if (cvts.bradj) {
766		d = pow(2.,(double)cvts.bradj);
#	Line 704 \| Line 773 \| uint32 y;
773		}
774
775
776	<	void
777	<	L2Color(y) /* read/convert/write Lfloat->COLOR scanline */
778	<	uint32 y;
776	>	static void
777	>	L2Color( /* read/convert/write Lfloat->COLOR scanline */
778	>	uint32 y
779	>	)
780		{
781		float m = pow(2., (double)cvts.bradj);
782	<	register int x;
782	>	int x;
783
784		if (CHK(C_RFLT\|C_TWRD\|C_TFLT\|C_GRY) != (C_RFLT\|C_TFLT\|C_GRY))
785		quiterr("internal error 1 in L2Color");
#	Line 718 \| Line 788 \| uint32 y;
788		quiterr("error reading TIFF input");
789		/* also works for float greyscale */
790		for (x = cvts.xmax; x--; ) {
791	<	register float f = cvts.t.fp[x];
791	>	float f = cvts.t.fp[x];
792		if (cvts.bradj) f *= m;
793		setcolor(cvts.r.colors[x], f, f, f);
794		}
#	Line 727 \| Line 797 \| uint32 y;
797		}
798
799
800	<	void
801	<	RGB2Colr(y) /* read/convert/write RGB->COLR scanline */
802	<	uint32 y;
800	>	static void
801	>	RGB2Colr( /* read/convert/write RGB->COLR scanline */
802	>	uint32 y
803	>	)
804		{
805		COLOR ctmp;
806	<	register int x;
806	>	int x;
807
808		if (CHK(C_RFLT\|C_TWRD\|C_TFLT\|C_GRY))
809		quiterr("internal error 1 in RGB2Colr");
#	Line 783 \| Line 854 \| readerr:
854		}
855
856
857	<	void
858	<	Gry2Colr(y) /* read/convert/write G8->COLR scanline */
859	<	uint32 y;
857	>	static void
858	>	Gry2Colr( /* read/convert/write G8->COLR scanline */
859	>	uint32 y
860	>	)
861		{
862	<	register int x;
862	>	int x;
863
864		if (CHK(C_RFLT\|C_TWRD\|C_TFLT\|C_GRY) != C_GRY)
865		quiterr("internal error 1 in Gry2Colr");
#	Line 809 \| Line 881 \| uint32 y;
881		}
882
883
884	<	void
885	<	GGry2Color(y) /* read/convert/write G16->COLOR scanline */
886	<	uint32 y;
884	>	static void
885	>	GGry2Color( /* read/convert/write G16->COLOR scanline */
886	>	uint32 y
887	>	)
888		{
889		int dogamma = (cvts.gamcor < 0.99) \| (cvts.gamcor > 1.01);
890		double m;
891	<	register double d;
892	<	register int x;
891	>	double d;
892	>	int x;
893
894		if (CHK(C_TFLT\|C_TWRD\|C_GRY\|C_RFLT) != (C_GRY\|C_RFLT\|C_TWRD))
895		quiterr("internal error 1 in GGry2Color");
#	Line 839 \| Line 912 \| uint32 y;
912		}
913
914
915	<	void
916	<	Color2GGry(y) /* read/convert/write COLOR->G16 scanline */
917	<	uint32 y;
915	>	static void
916	>	Color2GGry( /* read/convert/write COLOR->G16 scanline */
917	>	uint32 y
918	>	)
919		{
920		int dogamma = (cvts.gamcor < 0.99) \| (cvts.gamcor > 1.01);
921		float m = pow(2.,(double)cvts.bradj);
922	<	register int x;
922	>	int x;
923
924		if (CHK(C_RFLT\|C_TFLT\|C_TWRD\|C_GRY) != (C_RFLT\|C_TWRD\|C_GRY))
925		quiterr("internal error 1 in Color2GGry");
926
927	<	if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
854	<	quiterr("error reading Radiance picture");
927	>	ReadRadScan(&cvts);
928
929		for (x = cvts.xmax; x--; ) {
930	<	register float f = m*( CHK(C_XYZE) ?
930	>	float f = m*( CHK(C_XYZE) ?
931		colval(cvts.r.colors[x],CIEY)
932		: bright(cvts.r.colors[x]) );
933		if (f <= 0)
#	Line 873 \| Line 946 \| uint32 y;
946		}
947
948
949	<	void
950	<	Color2L(y) /* read/convert/write COLOR->Lfloat scanline */
951	<	uint32 y;
949	>	static void
950	>	Color2L( /* read/convert/write COLOR->Lfloat scanline */
951	>	uint32 y
952	>	)
953		{
954		float m = pow(2.,(double)cvts.bradj);
955	<	register int x;
955	>	int x;
956
957		if (CHK(C_RFLT\|C_TFLT\|C_TWRD\|C_GRY) != (C_RFLT\|C_TFLT\|C_GRY))
958		quiterr("internal error 1 in Color2L");
959
960	<	if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
887	<	quiterr("error reading Radiance picture");
960	>	ReadRadScan(&cvts);
961
962		for (x = cvts.xmax; x--; )
963		cvts.t.fp[x] = m*( CHK(C_XYZE) ? colval(cvts.r.colors[x],CIEY)
#	Line 895 \| Line 968 \| uint32 y;
968		}
969
970
971	<	void
972	<	Color2Luv(y) /* read/convert/write COLOR->Luv scanline */
973	<	uint32 y;
971	>	static void
972	>	Color2Luv( /* read/convert/write COLOR->Luv scanline */
973	>	uint32 y
974	>	)
975		{
976	<	register int x;
976	>	int x;
977
978		if (CHK(C_RFLT\|C_TWRD\|C_TFLT\|C_GRY) != (C_RFLT\|C_TFLT))
979		quiterr("internal error 1 in Color2Luv");
980
981	<	if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
908	<	quiterr("error reading Radiance picture");
981	>	ReadRadScan(&cvts);
982
983		if (CHK(C_CXFM))
984		for (x = cvts.xmax; x--; )
#	Line 928 \| Line 1001 \| uint32 y;
1001		}
1002
1003
1004	<	void
1005	<	Color2RRGGBB(y) /* read/convert/write COLOR->RGB16 scanline */
1006	<	uint32 y;
1004	>	static void
1005	>	Color2RRGGBB( /* read/convert/write COLOR->RGB16 scanline */
1006	>	uint32 y
1007	>	)
1008		{
1009		int dogamma = (cvts.gamcor < 0.99) \| (cvts.gamcor > 1.01);
1010		float m = pow(2.,(double)cvts.bradj);
1011	<	register int x, i;
1011	>	int x, i;
1012
1013		if (CHK(C_RFLT\|C_TFLT\|C_TWRD\|C_GRY) != (C_RFLT\|C_TWRD))
1014		quiterr("internal error 1 in Color2RRGGBB");
1015
1016	<	if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
943	<	quiterr("error reading Radiance picture");
1016	>	ReadRadScan(&cvts);
1017
1018	<	for (x = cvts.xmax; x--; )
1018	>	for (x = cvts.xmax; x--; ) {
1019	>	if (CHK(C_CXFM)) {
1020	>	colortrans(cvts.r.colors[x], cvts.cmat,
1021	>	cvts.r.colors[x]);
1022	>	if (CHK(C_GAMUT))
1023	>	clipgamut(cvts.r.colors[x], bright(cvts.r.colors[x]),
1024	>	CGAMUT_LOWER, cblack, cwhite);
1025	>	}
1026		for (i = 3; i--; ) {
1027	<	register float f = m*colval(cvts.r.colors[x],i);
1027	>	float f = m*colval(cvts.r.colors[x],i);
1028		if (f <= 0)
1029		cvts.t.wp[3*x + i] = 0;
1030		else if (f >= 1)
#	Line 955 \| Line 1035 \| uint32 y;
1035		else
1036		cvts.t.wp[3x + i] = (int)((float)(1L<<16)f);
1037		}
1038	+	}
1039
1040		if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
1041		quiterr("error writing TIFF output");
1042		}
1043
1044
1045	<	void
1046	<	Colr2Gry(y) /* read/convert/write COLR->RGB scanline */
1047	<	uint32 y;
1045	>	static void
1046	>	Colr2Gry( /* read/convert/write COLR->RGB scanline */
1047	>	uint32 y
1048	>	)
1049		{
1050	<	register int x;
1050	>	int x;
1051
1052		if (CHK(C_RFLT\|C_TWRD\|C_TFLT\|C_GRY) != C_GRY)
1053		quiterr("internal error 1 in Colr2Gry");
1054
1055	<	if (freadcolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
1055	>	if (fread2colrs(cvts.r.colrs, cvts.xmax, cvts.rfp,
1056	>	cvts.ncc, cvts.wpt) < 0)
1057		quiterr("error reading Radiance picture");
1058
1059		if (cvts.bradj)
#	Line 987 \| Line 1070 \| uint32 y;
1070		}
1071
1072
1073	<	void
1074	<	Colr2RGB(y) /* read/convert/write COLR->RGB scanline */
1075	<	uint32 y;
1073	>	static void
1074	>	Colr2RGB( /* read/convert/write COLR->RGB scanline */
1075	>	uint32 y
1076	>	)
1077		{
1078		COLOR ctmp;
1079	<	register int x;
1079	>	int x;
1080
1081		if (CHK(C_RFLT\|C_TFLT\|C_TWRD\|C_GRY))
1082		quiterr("internal error 1 in Colr2RGB");
1083
1084	<	if (freadcolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
1084	>	if (fread2colrs(cvts.r.colrs, cvts.xmax, cvts.rfp,
1085	>	cvts.ncc, cvts.wpt) < 0)
1086		quiterr("error reading Radiance picture");
1087
1088		if (cvts.bradj)

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing ray/src/px/ra_tiff.c (file contents): Revision 2.27 by schorsch, Fri Jan 2 12:47:01 2004 UTC vs. Revision 2.38 by greg, Fri Oct 4 19:15:19 2024 UTC

Diff Legend

Comparing ray/src/px/ra_tiff.c (file contents):
Revision 2.27 by schorsch, Fri Jan 2 12:47:01 2004 UTC vs.
Revision 2.38 by greg, Fri Oct 4 19:15:19 2024 UTC