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

Comparing ray/src/px/ra_tiff.c (file contents):
Revision 2.23 by greg, Mon Jul 14 04:56:54 2003 UTC vs.
Revision 2.29 by greg, Tue Mar 22 04:51:56 2005 UTC

#	Line 10 \| Line 10 \| static const char RCSid[] = "$Id$";
10		#include <stdio.h>
11		#include <math.h>
12		#include <ctype.h>
13	+	#include <time.h>
14	+	#include <string.h>
15	+
16		#include "tiffio.h"
17		#include "color.h"
18		#include "resolu.h"
#	Line 27 \| Line 30 \| static const char RCSid[] = "$Id$";
30		#define C_TWRD 0x80 /* TIFF data is 16-bit */
31		#define C_PRIM 0x100 /* has assigned primaries */
32
33	+	typedef void colcvf_t(uint32 y);
34	+
35		struct {
36		uint16 flags; /* conversion flags (defined above) */
37		char capdate[20]; /* capture date/time */
#	Line 55 \| Line 60 \| struct {
60		float fp; / float pointer */
61		char p; / generic pointer */
62		} t; /* TIFF scanline */
63	<	void (tf)(); / translation procedure */
63	>	colcvf_t tf; / translation procedure */
64		} cvts = { /* conversion structure */
65		0, "", "", COMPRESSION_NONE, PHOTOMETRIC_RGB,
66		PLANARCONFIG_CONTIG, GAMCOR, 0, 1, 1., 1.,
#	Line 66 \| Line 71 \| struct {
71		#define CLR(f) (cvts.flags &= ~(f))
72		#define TGL(f) (cvts.flags ^= (f))
73
74	<	void Luv2Color(), L2Color(), RGB2Colr(), Gry2Colr();
75	<	void Color2Luv(), Color2L(), Colr2RGB(), Colr2Gry();
76	<	void RRGGBB2Color(), GGry2Color(), Color2RRGGBB(), Color2GGry();
74	>	static colcvf_t Luv2Color, L2Color, RGB2Colr, Gry2Colr;
75	>	static colcvf_t Color2Luv, Color2L, Colr2RGB, Colr2Gry;
76	>	static colcvf_t RRGGBB2Color, GGry2Color, Color2RRGGBB, Color2GGry;
77
78	+	static gethfunc headline;
79	+	static void quiterr(char *err);
80	+	static void allocbufs(void);
81	+	static void initfromtif(void);
82	+	static void tiff2ra(int ac, char *av[]);
83	+	static void initfromrad(void);
84	+	static void ra2tiff(int ac, char *av[]);
85	+
86	+
87	+
88		#define RfGfBf2Color Luv2Color
89		#define Gryf2Color L2Color
90		#define Color2Gryf Color2L
#	Line 94 \| Line 109 \| char OWNSTR[] = "OWNER=";
109		char *progname;
110
111
112	<	main(argc, argv)
113	<	int argc;
99	<	char *argv[];
112	>	int
113	>	main(int argc, char *argv[])
114		{
115		int reverse = 0;
116		int i;
#	Line 160 \| Line 174 \| doneopts:
174		if (i != argc-2)
175		goto userr;
176		/* consistency checks */
177	<	if (CHK(C_GRY))
177	>	if (CHK(C_GRY)) {
178		if (cvts.phot == PHOTOMETRIC_RGB)
179		cvts.phot = PHOTOMETRIC_MINISBLACK;
180		else {
181		cvts.phot = PHOTOMETRIC_LOGL;
182		cvts.comp = COMPRESSION_SGILOG;
183		}
184	+	}
185		if (CHK(C_TWRD\|C_TFLT) == (C_TWRD\|C_TFLT))
186		goto userr;
187
#	Line 185 \| Line 200 \| userr:
200		}
201
202
203	<	quiterr(err) /* print message and exit */
204	<	char *err;
203	>	static void
204	>	quiterr( /* print message and exit */
205	>	char *err
206	>	)
207		{
208		if (err != NULL) {
209		fprintf(stderr, "%s: %s\n", progname, err);
#	Line 196 \| Line 213 \| *char err;**
213		}
214
215
216	<	allocbufs() /* allocate scanline buffers */
216	>	static void
217	>	allocbufs(void) /* allocate scanline buffers */
218		{
219		int rsiz, tsiz;
220
#	Line 206 \| Line 224 \| *allocbufs() / allocate scanline buffers /*
224		(CHK(C_GRY) ? 1 : 3);
225		cvts.r.p = (char )malloc(rsizcvts.xmax);
226		cvts.t.p = (char )malloc(tsizcvts.xmax);
227	<	if (cvts.r.p == NULL \| cvts.t.p == NULL)
227	>	if ((cvts.r.p == NULL) \| (cvts.t.p == NULL))
228		quiterr("no memory to allocate scanline buffers");
229		}
230
231
232	<	initfromtif() /* initialize conversion from TIFF input */
232	>	static void
233	>	initfromtif(void) /* initialize conversion from TIFF input */
234		{
235		uint16 hi;
236		char *cp;
#	Line 256 \| 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 379 \| Line 398 \| *initfromtif() / initialize conversion from TIFF inpu**
398		}
399
400
401	<	tiff2ra(ac, av) /* convert TIFF image to Radiance picture */
402	<	int ac;
403	<	char *av[];
401	>	static void
402	>	tiff2ra( /* convert TIFF image to Radiance picture */
403	>	int ac,
404	>	char *av[]
405	>	)
406		{
407		int32 y;
408		/* open TIFF input */
#	Line 409 \| Line 430 \| *char av[];**
430		}
431
432
433	<	int
434	<	headline(s) /* process Radiance input header line */
435	<	char *s;
433	>	static int
434	>	headline( /* process Radiance input header line */
435	>	char *s,
436	>	void *p
437	>	)
438		{
439		static int tmstrlen = 0;
440		static int ownstrlen = 0;
#	Line 468 \| Line 491 \| *char s;**
491		}
492
493
494	<	initfromrad() /* initialize input from a Radiance picture */
494	>	static void
495	>	initfromrad(void) /* initialize input from a Radiance picture */
496		{
497		int i1, i2, po;
498		/* read Radiance header */
#	Line 545 \| Line 569 \| *initfromrad() / initialize input from a Radiance pi**
569		SAMPLEFORMAT_IEEEFP);
570		cvts.tf = Color2RfGfBf;
571		SET(C_RFLT);
572	+	CLR(C_GAMUT);
573		} else
574		cvts.tf = Colr2RGB;
575		break;
#	Line 595 \| Line 620 \| *initfromrad() / initialize input from a Radiance pi**
620		}
621
622
623	<	ra2tiff(ac, av) /* convert Radiance picture to TIFF image */
624	<	int ac;
625	<	char *av[];
623	>	static void
624	>	ra2tiff( /* convert Radiance picture to TIFF image */
625	>	int ac,
626	>	char *av[]
627	>	)
628		{
629		uint32 y;
630		/* open Radiance file */
#	Line 619 \| Line 646 \| *char av[];**
646		}
647
648
649	<	void
650	<	Luv2Color(y) /* read/convert/write Luv->COLOR scanline */
651	<	uint32 y;
649	>	static void
650	>	Luv2Color( /* read/convert/write Luv->COLOR scanline */
651	>	uint32 y
652	>	)
653		{
654		register int x;
655
#	Line 654 \| Line 682 \| uint32 y;
682		}
683
684
685	<	void
686	<	RRGGBB2Color(y) /* read/convert/write RGB16->COLOR scanline */
687	<	uint32 y;
685	>	static void
686	>	RRGGBB2Color( /* read/convert/write RGB16->COLOR scanline */
687	>	uint32 y
688	>	)
689		{
690	<	int dogamma = cvts.gamcor < 0.99 \| cvts.gamcor > 1.01;
690	>	int dogamma = (cvts.gamcor < 0.99) \| (cvts.gamcor > 1.01);
691		register double d;
692		register int x;
693
#	Line 681 \| Line 710 \| uint32 y;
710		if (CHK(C_CXFM))
711		colortrans(cvts.r.colors[x], cvts.cmat,
712		cvts.r.colors[x]);
684	–	if (CHK(C_GAMUT))
685	–	clipgamut(cvts.r.colors[x], cvts.t.fp[3*x + 1],
686	–	CGAMUT_LOWER, cblack, cwhite);
713		}
714		if (cvts.bradj) {
715		d = pow(2.,(double)cvts.bradj);
#	Line 696 \| Line 722 \| uint32 y;
722		}
723
724
725	<	void
726	<	L2Color(y) /* read/convert/write Lfloat->COLOR scanline */
727	<	uint32 y;
725	>	static void
726	>	L2Color( /* read/convert/write Lfloat->COLOR scanline */
727	>	uint32 y
728	>	)
729		{
730		float m = pow(2., (double)cvts.bradj);
731		register int x;
#	Line 719 \| Line 746 \| uint32 y;
746		}
747
748
749	<	void
750	<	RGB2Colr(y) /* read/convert/write RGB->COLR scanline */
751	<	uint32 y;
749	>	static void
750	>	RGB2Colr( /* read/convert/write RGB->COLR scanline */
751	>	uint32 y
752	>	)
753		{
754		COLOR ctmp;
755		register int x;
#	Line 775 \| Line 803 \| readerr:
803		}
804
805
806	<	void
807	<	Gry2Colr(y) /* read/convert/write G8->COLR scanline */
808	<	uint32 y;
806	>	static void
807	>	Gry2Colr( /* read/convert/write G8->COLR scanline */
808	>	uint32 y
809	>	)
810		{
811		register int x;
812
#	Line 801 \| Line 830 \| uint32 y;
830		}
831
832
833	<	void
834	<	GGry2Color(y) /* read/convert/write G16->COLOR scanline */
835	<	uint32 y;
833	>	static void
834	>	GGry2Color( /* read/convert/write G16->COLOR scanline */
835	>	uint32 y
836	>	)
837		{
838	<	int dogamma = cvts.gamcor < 0.99 \| cvts.gamcor > 1.01;
838	>	int dogamma = (cvts.gamcor < 0.99) \| (cvts.gamcor > 1.01);
839		double m;
840		register double d;
841		register int x;
#	Line 831 \| Line 861 \| uint32 y;
861		}
862
863
864	<	void
865	<	Color2GGry(y) /* read/convert/write COLOR->G16 scanline */
866	<	uint32 y;
864	>	static void
865	>	Color2GGry( /* read/convert/write COLOR->G16 scanline */
866	>	uint32 y
867	>	)
868		{
869	<	int dogamma = cvts.gamcor < 0.99 \| cvts.gamcor > 1.01;
869	>	int dogamma = (cvts.gamcor < 0.99) \| (cvts.gamcor > 1.01);
870		float m = pow(2.,(double)cvts.bradj);
871		register int x;
872
#	Line 865 \| Line 896 \| uint32 y;
896		}
897
898
899	<	void
900	<	Color2L(y) /* read/convert/write COLOR->Lfloat scanline */
901	<	uint32 y;
899	>	static void
900	>	Color2L( /* read/convert/write COLOR->Lfloat scanline */
901	>	uint32 y
902	>	)
903		{
904		float m = pow(2.,(double)cvts.bradj);
905		register int x;
#	Line 887 \| Line 919 \| uint32 y;
919		}
920
921
922	<	void
923	<	Color2Luv(y) /* read/convert/write COLOR->Luv scanline */
924	<	uint32 y;
922	>	static void
923	>	Color2Luv( /* read/convert/write COLOR->Luv scanline */
924	>	uint32 y
925	>	)
926		{
927		register int x;
928
#	Line 920 \| Line 953 \| uint32 y;
953		}
954
955
956	<	void
957	<	Color2RRGGBB(y) /* read/convert/write COLOR->RGB16 scanline */
958	<	uint32 y;
956	>	static void
957	>	Color2RRGGBB( /* read/convert/write COLOR->RGB16 scanline */
958	>	uint32 y
959	>	)
960		{
961	<	int dogamma = cvts.gamcor < 0.99 \| cvts.gamcor > 1.01;
961	>	int dogamma = (cvts.gamcor < 0.99) \| (cvts.gamcor > 1.01);
962		float m = pow(2.,(double)cvts.bradj);
963		register int x, i;
964
#	Line 934 \| Line 968 \| uint32 y;
968		if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
969		quiterr("error reading Radiance picture");
970
971	<	for (x = cvts.xmax; x--; )
971	>	for (x = cvts.xmax; x--; ) {
972	>	if (CHK(C_CXFM)) {
973	>	colortrans(cvts.r.colors[x], cvts.cmat,
974	>	cvts.r.colors[x]);
975	>	if (CHK(C_GAMUT))
976	>	clipgamut(cvts.r.colors[x], cvts.t.fp[3*x + 1],
977	>	CGAMUT_LOWER, cblack, cwhite);
978	>	}
979		for (i = 3; i--; ) {
980		register float f = m*colval(cvts.r.colors[x],i);
981		if (f <= 0)
#	Line 947 \| Line 988 \| uint32 y;
988		else
989		cvts.t.wp[3x + i] = (int)((float)(1L<<16)f);
990		}
991	+	}
992
993		if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
994		quiterr("error writing TIFF output");
995		}
996
997
998	<	void
999	<	Colr2Gry(y) /* read/convert/write COLR->RGB scanline */
1000	<	uint32 y;
998	>	static void
999	>	Colr2Gry( /* read/convert/write COLR->RGB scanline */
1000	>	uint32 y
1001	>	)
1002		{
1003		register int x;
1004
#	Line 979 \| Line 1022 \| uint32 y;
1022		}
1023
1024
1025	<	void
1026	<	Colr2RGB(y) /* read/convert/write COLR->RGB scanline */
1027	<	uint32 y;
1025	>	static void
1026	>	Colr2RGB( /* read/convert/write COLR->RGB scanline */
1027	>	uint32 y
1028	>	)
1029		{
1030		COLOR ctmp;
1031		register int x;

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Comparing ray/src/px/ra_tiff.c (file contents): Revision 2.23 by greg, Mon Jul 14 04:56:54 2003 UTC vs. Revision 2.29 by greg, Tue Mar 22 04:51:56 2005 UTC

Diff Legend

Comparing ray/src/px/ra_tiff.c (file contents):
Revision 2.23 by greg, Mon Jul 14 04:56:54 2003 UTC vs.
Revision 2.29 by greg, Tue Mar 22 04:51:56 2005 UTC