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root/radiance/ray/src/px/ra_tiff.c
Revision: 2.23
Committed: Mon Jul 14 04:56:54 2003 UTC (20 years, 9 months ago) by greg
Content type: text/plain
Branch: MAIN
Changes since 2.22: +5 -1 lines
Log Message: 
Added tone-mapping support for 16-bit/sample int and IEEE float TIFF images

File Contents

# User Rev Content
1 greg 1.1 #ifndef lint
2 greg 2.23 static const char RCSid[] = "$Id: ra_tiff.c,v 2.22 2003/07/01 22:44:02 greg Exp $";
3 greg 1.1 #endif
4     /*
5 gregl 2.9 * Program to convert between RADIANCE and TIFF files.
6 greg 2.20 * Added LogLuv encodings 7/97 (GWL).
7     * Added white-balance adjustment 10/01 (GW).
8 greg 1.1 */
9    
10     #include <stdio.h>
11 greg 2.3 #include <math.h>
12 greg 2.22 #include <ctype.h>
13 greg 1.1 #include "tiffio.h"
14     #include "color.h"
15 greg 1.6 #include "resolu.h"
16    
17 greg 2.8 #define GAMCOR 2.2 /* default gamma */
18    
19 gregl 2.9 /* conversion flags */
20     #define C_CXFM 0x1 /* needs color transformation */
21     #define C_GAMUT 0x2 /* needs gamut mapping */
22     #define C_GAMMA 0x4 /* needs gamma correction */
23     #define C_GRY 0x8 /* TIFF is greyscale */
24     #define C_XYZE 0x10 /* Radiance is XYZE */
25     #define C_RFLT 0x20 /* Radiance data is float */
26     #define C_TFLT 0x40 /* TIFF data is float */
27 gwlarson 2.19 #define C_TWRD 0x80 /* TIFF data is 16-bit */
28     #define C_PRIM 0x100 /* has assigned primaries */
29 greg 1.1
30 gregl 2.9 struct {
31     uint16 flags; /* conversion flags (defined above) */
32 greg 2.22 char capdate[20]; /* capture date/time */
33     char owner[256]; /* content owner */
34 gregl 2.9 uint16 comp; /* TIFF compression type */
35 gregl 2.10 uint16 phot; /* TIFF photometric type */
36 gregl 2.9 uint16 pconf; /* TIFF planar configuration */
37     float gamcor; /* gamma correction value */
38     short bradj; /* Radiance exposure adjustment (stops) */
39     uint16 orient; /* visual orientation (TIFF spec.) */
40 gregl 2.11 double stonits; /* input conversion to nits */
41 gregl 2.9 float pixrat; /* pixel aspect ratio */
42     FILE *rfp; /* Radiance stream pointer */
43     TIFF *tif; /* TIFF pointer */
44     uint32 xmax, ymax; /* image dimensions */
45     COLORMAT cmat; /* color transformation matrix */
46     RGBPRIMS prims; /* RGB primaries */
47     union {
48     COLR *colrs; /* 4-byte ???E pointer */
49     COLOR *colors; /* float array pointer */
50     char *p; /* generic pointer */
51     } r; /* Radiance scanline */
52     union {
53     uint8 *bp; /* byte pointer */
54 gwlarson 2.18 uint16 *wp; /* word pointer */
55 gregl 2.9 float *fp; /* float pointer */
56     char *p; /* generic pointer */
57     } t; /* TIFF scanline */
58 greg 2.21 void (*tf)(); /* translation procedure */
59 gregl 2.9 } cvts = { /* conversion structure */
60 greg 2.22 0, "", "", COMPRESSION_NONE, PHOTOMETRIC_RGB,
61 gregl 2.10 PLANARCONFIG_CONTIG, GAMCOR, 0, 1, 1., 1.,
62 gregl 2.9 };
63 greg 1.4
64 gregl 2.9 #define CHK(f) (cvts.flags & (f))
65     #define SET(f) (cvts.flags |= (f))
66     #define CLR(f) (cvts.flags &= ~(f))
67     #define TGL(f) (cvts.flags ^= (f))
68 greg 1.5
69 greg 2.21 void Luv2Color(), L2Color(), RGB2Colr(), Gry2Colr();
70     void Color2Luv(), Color2L(), Colr2RGB(), Colr2Gry();
71     void RRGGBB2Color(), GGry2Color(), Color2RRGGBB(), Color2GGry();
72    
73     #define RfGfBf2Color Luv2Color
74     #define Gryf2Color L2Color
75     #define Color2Gryf Color2L
76     #define Color2RfGfBf Color2Luv
77 greg 1.1
78 gregl 2.9 short ortab[8] = { /* orientation conversion table */
79     YMAJOR|YDECR,
80     YMAJOR|YDECR|XDECR,
81     YMAJOR|XDECR,
82     YMAJOR,
83     YDECR,
84     XDECR|YDECR,
85     XDECR,
86     0
87     };
88 greg 1.1
89 gregl 2.9 #define pixorder() ortab[cvts.orient-1]
90    
91 greg 2.22 extern char TMSTR[]; /* "CAPDATE=" from header.c */
92     char OWNSTR[] = "OWNER=";
93    
94 greg 1.1 char *progname;
95    
96    
97     main(argc, argv)
98     int argc;
99     char *argv[];
100     {
101     int reverse = 0;
102     int i;
103    
104     progname = argv[0];
105    
106     for (i = 1; i < argc; i++)
107     if (argv[i][0] == '-')
108     switch (argv[i][1]) {
109 gregl 2.9 case 'g': /* gamma correction */
110     cvts.gamcor = atof(argv[++i]);
111 greg 1.1 break;
112 gregl 2.9 case 'x': /* XYZE Radiance output */
113     TGL(C_XYZE);
114 greg 1.4 break;
115 gregl 2.9 case 'z': /* LZW compressed output */
116     cvts.comp = COMPRESSION_LZW;
117 greg 1.5 break;
118 gregl 2.9 case 'L': /* LogLuv 32-bit output */
119 gregl 2.10 cvts.comp = COMPRESSION_SGILOG;
120     cvts.phot = PHOTOMETRIC_LOGLUV;
121 gregl 2.9 break;
122     case 'l': /* LogLuv 24-bit output */
123 gregl 2.10 cvts.comp = COMPRESSION_SGILOG24;
124     cvts.phot = PHOTOMETRIC_LOGLUV;
125 gregl 2.9 break;
126 greg 2.21 case 'w': /* 16-bit/primary output? */
127     TGL(C_TWRD);
128     break;
129     case 'f': /* IEEE float output? */
130     TGL(C_TFLT);
131     break;
132 gregl 2.9 case 'b': /* greyscale output? */
133     TGL(C_GRY);
134     break;
135     case 'e': /* exposure adjustment */
136 greg 1.1 if (argv[i+1][0] != '+' && argv[i+1][0] != '-')
137     goto userr;
138 gregl 2.9 cvts.bradj = atoi(argv[++i]);
139 greg 1.1 break;
140 gregl 2.9 case 'r': /* reverse conversion? */
141 greg 1.1 reverse = !reverse;
142     break;
143     case '\0':
144     goto doneopts;
145     default:
146     goto userr;
147     }
148     else
149     break;
150     doneopts:
151 gregl 2.9 if (reverse) {
152 greg 1.1
153     if (i != argc-2 && i != argc-1)
154     goto userr;
155 gregl 2.9
156     tiff2ra(i, argv);
157    
158     } else {
159    
160 greg 1.1 if (i != argc-2)
161     goto userr;
162 greg 2.21 /* consistency checks */
163     if (CHK(C_GRY))
164 gregl 2.10 if (cvts.phot == PHOTOMETRIC_RGB)
165     cvts.phot = PHOTOMETRIC_MINISBLACK;
166     else {
167     cvts.phot = PHOTOMETRIC_LOGL;
168     cvts.comp = COMPRESSION_SGILOG;
169     }
170 greg 2.21 if (CHK(C_TWRD|C_TFLT) == (C_TWRD|C_TFLT))
171     goto userr;
172 gregl 2.9
173     ra2tiff(i, argv);
174     }
175    
176 greg 1.1 exit(0);
177     userr:
178 greg 1.4 fprintf(stderr,
179 greg 2.21 "Usage: %s [-z|-L|-l|-f|-w][-b][-e +/-stops][-g gamma] {in.pic|-} out.tif\n",
180 greg 1.1 progname);
181 gregl 2.9 fprintf(stderr,
182     " Or: %s -r [-x][-e +/-stops][-g gamma] in.tif [out.pic|-]\n",
183     progname);
184 greg 1.1 exit(1);
185     }
186    
187    
188     quiterr(err) /* print message and exit */
189     char *err;
190     {
191     if (err != NULL) {
192     fprintf(stderr, "%s: %s\n", progname, err);
193     exit(1);
194     }
195     exit(0);
196     }
197    
198    
199 gregl 2.9 allocbufs() /* allocate scanline buffers */
200 greg 1.1 {
201 gregl 2.9 int rsiz, tsiz;
202    
203     rsiz = CHK(C_RFLT) ? sizeof(COLOR) : sizeof(COLR);
204 gwlarson 2.19 tsiz = (CHK(C_TFLT) ? sizeof(float) :
205     CHK(C_TWRD) ? sizeof(uint16) : sizeof(uint8)) *
206 gregl 2.9 (CHK(C_GRY) ? 1 : 3);
207     cvts.r.p = (char *)malloc(rsiz*cvts.xmax);
208     cvts.t.p = (char *)malloc(tsiz*cvts.xmax);
209     if (cvts.r.p == NULL | cvts.t.p == NULL)
210     quiterr("no memory to allocate scanline buffers");
211     }
212    
213    
214     initfromtif() /* initialize conversion from TIFF input */
215     {
216     uint16 hi;
217 greg 2.22 char *cp;
218 gregl 2.9 float *fa, f1, f2;
219    
220 greg 2.21 CLR(C_GRY|C_GAMMA|C_PRIM|C_RFLT|C_TFLT|C_TWRD|C_CXFM);
221 gregl 2.9
222     TIFFGetFieldDefaulted(cvts.tif, TIFFTAG_PLANARCONFIG, &cvts.pconf);
223    
224     if (TIFFGetField(cvts.tif, TIFFTAG_PRIMARYCHROMATICITIES, &fa)) {
225     cvts.prims[RED][CIEX] = fa[0];
226     cvts.prims[RED][CIEY] = fa[1];
227     cvts.prims[GRN][CIEX] = fa[2];
228     cvts.prims[GRN][CIEY] = fa[3];
229     cvts.prims[BLU][CIEX] = fa[4];
230     cvts.prims[BLU][CIEY] = fa[5];
231     cvts.prims[WHT][CIEX] = 1./3.;
232     cvts.prims[WHT][CIEY] = 1./3.;
233     if (TIFFGetField(cvts.tif, TIFFTAG_WHITEPOINT, &fa)) {
234     cvts.prims[WHT][CIEX] = fa[0];
235     cvts.prims[WHT][CIEY] = fa[1];
236     }
237     SET(C_PRIM);
238     }
239    
240     if (!TIFFGetField(cvts.tif, TIFFTAG_COMPRESSION, &cvts.comp))
241     cvts.comp = COMPRESSION_NONE;
242    
243     if (TIFFGetField(cvts.tif, TIFFTAG_XRESOLUTION, &f1) &&
244     TIFFGetField(cvts.tif, TIFFTAG_YRESOLUTION, &f2))
245     cvts.pixrat = f1/f2;
246    
247 gregl 2.10 TIFFGetFieldDefaulted(cvts.tif, TIFFTAG_ORIENTATION, &cvts.orient);
248 gregl 2.9
249 gregl 2.10 if (!TIFFGetFieldDefaulted(cvts.tif, TIFFTAG_PHOTOMETRIC, &cvts.phot))
250     quiterr("TIFF has unspecified photometric type");
251    
252     switch (cvts.phot) {
253     case PHOTOMETRIC_LOGLUV:
254 gregl 2.9 SET(C_RFLT|C_TFLT);
255     if (!CHK(C_XYZE)) {
256     cpcolormat(cvts.cmat, xyz2rgbmat);
257     SET(C_CXFM|C_GAMUT);
258 gregl 2.10 } else if (cvts.comp == COMPRESSION_SGILOG)
259 gregl 2.9 SET(C_GAMUT);
260     if (cvts.pconf != PLANARCONFIG_CONTIG)
261     quiterr("cannot handle separate Luv planes");
262 gregl 2.10 TIFFSetField(cvts.tif, TIFFTAG_SGILOGDATAFMT,
263 gregl 2.12 SGILOGDATAFMT_FLOAT);
264 gregl 2.9 cvts.tf = Luv2Color;
265     break;
266 gregl 2.10 case PHOTOMETRIC_LOGL:
267     SET(C_GRY|C_RFLT|C_TFLT|C_GAMUT);
268     cvts.pconf = PLANARCONFIG_CONTIG;
269     TIFFSetField(cvts.tif, TIFFTAG_SGILOGDATAFMT,
270 gregl 2.12 SGILOGDATAFMT_FLOAT);
271 gregl 2.10 cvts.tf = L2Color;
272     break;
273 gregl 2.11 case PHOTOMETRIC_YCBCR:
274     if (cvts.comp == COMPRESSION_JPEG &&
275     cvts.pconf == PLANARCONFIG_CONTIG) {
276     TIFFSetField(cvts.tif, TIFFTAG_JPEGCOLORMODE,
277     JPEGCOLORMODE_RGB);
278     cvts.phot = PHOTOMETRIC_RGB;
279     } else
280     quiterr("unsupported photometric type");
281     /* fall through */
282 gregl 2.10 case PHOTOMETRIC_RGB:
283 gwlarson 2.18 SET(C_GAMMA);
284 gregl 2.9 setcolrgam(cvts.gamcor);
285     if (CHK(C_XYZE)) {
286 greg 2.20 comprgb2xyzWBmat(cvts.cmat,
287 gregl 2.9 CHK(C_PRIM) ? cvts.prims : stdprims);
288     SET(C_CXFM);
289     }
290     if (!TIFFGetField(cvts.tif, TIFFTAG_SAMPLESPERPIXEL, &hi) ||
291 gregl 2.10 hi != 3)
292     quiterr("unsupported samples per pixel for RGB");
293 greg 2.21 if (!TIFFGetField(cvts.tif, TIFFTAG_BITSPERSAMPLE, &hi))
294     hi = -1;
295     switch (hi) {
296     case 8:
297 gwlarson 2.18 cvts.tf = RGB2Colr;
298 greg 2.21 break;
299     case 16:
300 gwlarson 2.18 cvts.tf = RRGGBB2Color;
301 gwlarson 2.19 SET(C_RFLT|C_TWRD);
302 greg 2.21 break;
303     case 32:
304     cvts.tf = RfGfBf2Color;
305     SET(C_RFLT|C_TFLT);
306     break;
307     default:
308     quiterr("unsupported bits per sample for RGB");
309 gwlarson 2.18 }
310 gregl 2.9 break;
311 gregl 2.10 case PHOTOMETRIC_MINISBLACK:
312 gwlarson 2.18 SET(C_GRY|C_GAMMA);
313 gregl 2.15 setcolrgam(cvts.gamcor);
314 gregl 2.10 cvts.pconf = PLANARCONFIG_CONTIG;
315     if (!TIFFGetField(cvts.tif, TIFFTAG_SAMPLESPERPIXEL, &hi) ||
316     hi != 1)
317     quiterr("unsupported samples per pixel for greyscale");
318 greg 2.21 if (!TIFFGetField(cvts.tif, TIFFTAG_BITSPERSAMPLE, &hi))
319     hi = -1;
320     switch (hi) {
321     case 8:
322 gwlarson 2.18 cvts.tf = Gry2Colr;
323 greg 2.21 break;
324     case 16:
325 gwlarson 2.18 cvts.tf = GGry2Color;
326 gwlarson 2.19 SET(C_RFLT|C_TWRD);
327 greg 2.21 break;
328     case 32:
329     cvts.tf = Gryf2Color;
330     SET(C_RFLT|C_TFLT);
331     break;
332     default:
333     quiterr("unsupported bits per sample for Gray");
334 gwlarson 2.18 }
335 gregl 2.10 break;
336     default:
337     quiterr("unsupported photometric type");
338     break;
339 gregl 2.9 }
340    
341     if (!TIFFGetField(cvts.tif, TIFFTAG_IMAGEWIDTH, &cvts.xmax) ||
342     !TIFFGetField(cvts.tif, TIFFTAG_IMAGELENGTH, &cvts.ymax))
343 greg 1.1 quiterr("unknown input image resolution");
344 gregl 2.9
345     if (!TIFFGetField(cvts.tif, TIFFTAG_STONITS, &cvts.stonits))
346     cvts.stonits = 1.;
347 greg 2.22
348     if (!TIFFGetField(cvts.tif, TIFFTAG_DATETIME, &cp))
349     cvts.capdate[0] = '\0';
350     else {
351     strncpy(cvts.capdate, cp, 19);
352     cvts.capdate[19] = '\0';
353     }
354     if (!TIFFGetField(cvts.tif, TIFFTAG_ARTIST, &cp))
355     cvts.owner[0] = '\0';
356     else {
357     strncpy(cvts.owner, cp, sizeof(cvts.owner));
358     cvts.owner[sizeof(cvts.owner)-1] = '\0';
359     }
360 gregl 2.9 /* add to Radiance header */
361     if (cvts.pixrat < .99 || cvts.pixrat > 1.01)
362     fputaspect(cvts.pixrat, cvts.rfp);
363     if (CHK(C_XYZE)) {
364     fputexpos(pow(2.,(double)cvts.bradj)/cvts.stonits, cvts.rfp);
365     fputformat(CIEFMT, cvts.rfp);
366     } else {
367     if (CHK(C_PRIM))
368     fputprims(cvts.prims, cvts.rfp);
369     fputexpos(WHTEFFICACY*pow(2.,(double)cvts.bradj)/cvts.stonits,
370     cvts.rfp);
371     fputformat(COLRFMT, cvts.rfp);
372     }
373 greg 2.22 if (cvts.capdate[0])
374     fprintf(cvts.rfp, "%s %s\n", TMSTR, cvts.capdate);
375     if (cvts.owner[0])
376     fprintf(cvts.rfp, "%s %s\n", OWNSTR, cvts.owner);
377 gregl 2.9
378     allocbufs(); /* allocate scanline buffers */
379     }
380    
381    
382     tiff2ra(ac, av) /* convert TIFF image to Radiance picture */
383     int ac;
384     char *av[];
385     {
386     int32 y;
387     /* open TIFF input */
388     if ((cvts.tif = TIFFOpen(av[ac], "r")) == NULL)
389     quiterr("cannot open TIFF input");
390     /* open Radiance output */
391     if (av[ac+1] == NULL || !strcmp(av[ac+1], "-"))
392     cvts.rfp = stdout;
393     else if ((cvts.rfp = fopen(av[ac+1], "w")) == NULL)
394     quiterr("cannot open Radiance output picture");
395     /* start output header */
396     newheader("RADIANCE", cvts.rfp);
397     printargs(ac, av, cvts.rfp);
398    
399     initfromtif(); /* initialize conversion */
400    
401     fputc('\n', cvts.rfp); /* finish Radiance header */
402     fputresolu(pixorder(), (int)cvts.xmax, (int)cvts.ymax, cvts.rfp);
403    
404     for (y = 0; y < cvts.ymax; y++) /* convert image */
405     (*cvts.tf)(y);
406     /* clean up */
407     fclose(cvts.rfp);
408     TIFFClose(cvts.tif);
409     }
410    
411    
412     int
413     headline(s) /* process Radiance input header line */
414     char *s;
415     {
416 greg 2.22 static int tmstrlen = 0;
417     static int ownstrlen = 0;
418 gregl 2.9 char fmt[32];
419    
420 greg 2.22 if (!tmstrlen)
421     tmstrlen = strlen(TMSTR);
422     if (!ownstrlen)
423     ownstrlen = strlen(OWNSTR);
424 gregl 2.9 if (formatval(fmt, s)) {
425     if (!strcmp(fmt, COLRFMT))
426     CLR(C_XYZE);
427     else if (!strcmp(fmt, CIEFMT))
428     SET(C_XYZE);
429     else
430     quiterr("unrecognized input picture format");
431 gwlarson 2.17 return(1);
432 gregl 2.9 }
433     if (isexpos(s)) {
434     cvts.stonits /= exposval(s);
435 gwlarson 2.17 return(1);
436 gregl 2.9 }
437     if (isaspect(s)) {
438     cvts.pixrat *= aspectval(s);
439 gwlarson 2.17 return(1);
440 gregl 2.9 }
441     if (isprims(s)) {
442     primsval(cvts.prims, s);
443     SET(C_PRIM);
444 gwlarson 2.17 return(1);
445 gregl 2.9 }
446 greg 2.22 if (isdate(s)) {
447     if (s[tmstrlen] == ' ')
448     strncpy(cvts.capdate, s+tmstrlen+1, 19);
449     else
450     strncpy(cvts.capdate, s+tmstrlen, 19);
451     cvts.capdate[19] = '\0';
452     return(1);
453     }
454     if (!strncmp(s, OWNSTR, ownstrlen)) {
455     register char *cp = s + ownstrlen;
456    
457     while (isspace(*cp))
458     ++cp;
459     strncpy(cvts.owner, cp, sizeof(cvts.owner));
460     cvts.owner[sizeof(cvts.owner)-1] = '\0';
461     for (cp = cvts.owner; *cp; cp++)
462     ;
463     while (cp > cvts.owner && isspace(cp[-1]))
464     *--cp = '\0';
465     return(1);
466     }
467 gwlarson 2.17 return(0);
468 gregl 2.9 }
469    
470    
471     initfromrad() /* initialize input from a Radiance picture */
472     {
473     int i1, i2, po;
474     /* read Radiance header */
475 greg 2.21 CLR(C_RFLT|C_XYZE|C_PRIM|C_GAMMA|C_CXFM);
476 greg 2.22 cvts.capdate[0] = '\0';
477     cvts.owner[0] = '\0';
478 gregl 2.9 cvts.stonits = 1.;
479     cvts.pixrat = 1.;
480     cvts.pconf = PLANARCONFIG_CONTIG;
481     getheader(cvts.rfp, headline, NULL);
482     if ((po = fgetresolu(&i1, &i2, cvts.rfp)) < 0)
483     quiterr("bad Radiance picture");
484     cvts.xmax = i1; cvts.ymax = i2;
485     for (i1 = 0; i1 < 8; i1++) /* interpret orientation */
486     if (ortab[i1] == po) {
487     cvts.orient = i1 + 1;
488     break;
489 greg 1.1 }
490 gregl 2.9 if (i1 >= 8)
491     quiterr("internal error 1 in initfromrad");
492     if (!(po & YMAJOR))
493     cvts.pixrat = 1./cvts.pixrat;
494     if (!CHK(C_XYZE))
495     cvts.stonits *= WHTEFFICACY;
496     /* set up conversion */
497     TIFFSetField(cvts.tif, TIFFTAG_COMPRESSION, cvts.comp);
498 gregl 2.10 TIFFSetField(cvts.tif, TIFFTAG_PHOTOMETRIC, cvts.phot);
499 gregl 2.9
500 gregl 2.10 switch (cvts.phot) {
501     case PHOTOMETRIC_LOGLUV:
502 gregl 2.9 SET(C_RFLT|C_TFLT);
503 greg 2.21 CLR(C_GRY|C_TWRD);
504 gregl 2.9 if (!CHK(C_XYZE)) {
505 greg 2.20 comprgb2xyzWBmat(cvts.cmat,
506     CHK(C_PRIM) ? cvts.prims : stdprims);
507 gregl 2.9 SET(C_CXFM);
508     }
509 gregl 2.10 if (cvts.comp != COMPRESSION_SGILOG &&
510     cvts.comp != COMPRESSION_SGILOG24)
511     quiterr("internal error 2 in initfromrad");
512     TIFFSetField(cvts.tif, TIFFTAG_SGILOGDATAFMT,
513 gregl 2.12 SGILOGDATAFMT_FLOAT);
514 gregl 2.9 cvts.tf = Color2Luv;
515     break;
516 gregl 2.10 case PHOTOMETRIC_LOGL:
517     SET(C_GRY|C_RFLT|C_TFLT);
518 greg 2.21 CLR(C_TWRD);
519 gregl 2.10 if (cvts.comp != COMPRESSION_SGILOG)
520     quiterr("internal error 3 in initfromrad");
521     TIFFSetField(cvts.tif, TIFFTAG_SGILOGDATAFMT,
522 gregl 2.12 SGILOGDATAFMT_FLOAT);
523 gregl 2.10 cvts.tf = Color2L;
524     break;
525     case PHOTOMETRIC_RGB:
526 gregl 2.9 SET(C_GAMMA|C_GAMUT);
527 gregl 2.10 CLR(C_GRY);
528 gregl 2.9 setcolrgam(cvts.gamcor);
529     if (CHK(C_XYZE)) {
530 greg 2.20 compxyz2rgbWBmat(cvts.cmat,
531 gregl 2.9 CHK(C_PRIM) ? cvts.prims : stdprims);
532     SET(C_CXFM);
533     }
534     if (CHK(C_PRIM)) {
535     TIFFSetField(cvts.tif, TIFFTAG_PRIMARYCHROMATICITIES,
536     (float *)cvts.prims);
537     TIFFSetField(cvts.tif, TIFFTAG_WHITEPOINT,
538     (float *)cvts.prims[WHT]);
539     }
540 greg 2.21 if (CHK(C_TWRD)) {
541     cvts.tf = Color2RRGGBB;
542     SET(C_RFLT);
543     } else if (CHK(C_TFLT)) {
544 greg 2.23 TIFFSetField(cvts.tif, TIFFTAG_SAMPLEFORMAT,
545     SAMPLEFORMAT_IEEEFP);
546 greg 2.21 cvts.tf = Color2RfGfBf;
547     SET(C_RFLT);
548     } else
549     cvts.tf = Colr2RGB;
550 gregl 2.9 break;
551 gregl 2.10 case PHOTOMETRIC_MINISBLACK:
552     SET(C_GRY|C_GAMMA|C_GAMUT);
553     setcolrgam(cvts.gamcor);
554 greg 2.21 if (CHK(C_TWRD)) {
555     cvts.tf = Color2GGry;
556     SET(C_RFLT);
557     } else if (CHK(C_TFLT)) {
558 greg 2.23 TIFFSetField(cvts.tif, TIFFTAG_SAMPLEFORMAT,
559     SAMPLEFORMAT_IEEEFP);
560 greg 2.21 cvts.tf = Color2Gryf;
561     SET(C_RFLT);
562     } else
563     cvts.tf = Colr2Gry;
564 gregl 2.10 break;
565     default:
566     quiterr("internal error 4 in initfromrad");
567     break;
568 greg 1.1 }
569 gregl 2.9 /* set other TIFF fields */
570     TIFFSetField(cvts.tif, TIFFTAG_IMAGEWIDTH, cvts.xmax);
571     TIFFSetField(cvts.tif, TIFFTAG_IMAGELENGTH, cvts.ymax);
572     TIFFSetField(cvts.tif, TIFFTAG_SAMPLESPERPIXEL, CHK(C_GRY) ? 1 : 3);
573 greg 2.21 TIFFSetField(cvts.tif, TIFFTAG_BITSPERSAMPLE,
574     CHK(C_TFLT) ? 32 : CHK(C_TWRD) ? 16 : 8);
575 gregl 2.9 TIFFSetField(cvts.tif, TIFFTAG_XRESOLUTION, 72.);
576     TIFFSetField(cvts.tif, TIFFTAG_YRESOLUTION, 72./cvts.pixrat);
577     TIFFSetField(cvts.tif, TIFFTAG_ORIENTATION, cvts.orient);
578     TIFFSetField(cvts.tif, TIFFTAG_RESOLUTIONUNIT, 2);
579     TIFFSetField(cvts.tif, TIFFTAG_PLANARCONFIG, cvts.pconf);
580     TIFFSetField(cvts.tif, TIFFTAG_STONITS,
581     cvts.stonits/pow(2.,(double)cvts.bradj));
582 greg 2.22 if (cvts.capdate[0])
583     TIFFSetField(cvts.tif, TIFFTAG_DATETIME, cvts.capdate);
584     if (cvts.owner[0])
585     TIFFSetField(cvts.tif, TIFFTAG_ARTIST, cvts.owner);
586 gregl 2.10 if (cvts.comp == COMPRESSION_NONE)
587     i1 = TIFFScanlineSize(cvts.tif);
588     else
589     i1 = 3*cvts.xmax; /* conservative guess */
590 gregl 2.9 i2 = 8192/i1; /* compute good strip size */
591     if (i2 < 1) i2 = 1;
592     TIFFSetField(cvts.tif, TIFFTAG_ROWSPERSTRIP, (uint32)i2);
593    
594     allocbufs(); /* allocate scanline buffers */
595     }
596    
597    
598     ra2tiff(ac, av) /* convert Radiance picture to TIFF image */
599     int ac;
600     char *av[];
601     {
602     uint32 y;
603     /* open Radiance file */
604     if (!strcmp(av[ac], "-"))
605     cvts.rfp = stdin;
606     else if ((cvts.rfp = fopen(av[ac], "r")) == NULL)
607     quiterr("cannot open Radiance input picture");
608     /* open TIFF file */
609     if ((cvts.tif = TIFFOpen(av[ac+1], "w")) == NULL)
610     quiterr("cannot open TIFF output");
611    
612     initfromrad(); /* initialize conversion */
613    
614     for (y = 0; y < cvts.ymax; y++) /* convert image */
615     (*cvts.tf)(y);
616 greg 1.1 /* clean up */
617 gregl 2.9 TIFFClose(cvts.tif);
618     fclose(cvts.rfp);
619     }
620    
621    
622 greg 2.21 void
623 gregl 2.9 Luv2Color(y) /* read/convert/write Luv->COLOR scanline */
624     uint32 y;
625     {
626     register int x;
627    
628 gwlarson 2.19 if (CHK(C_RFLT|C_TWRD|C_TFLT|C_GRY) != (C_RFLT|C_TFLT))
629 gregl 2.9 quiterr("internal error 1 in Luv2Color");
630    
631     if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
632     quiterr("error reading TIFF input");
633 greg 2.21 /* also works for float RGB */
634 gregl 2.9 for (x = cvts.xmax; x--; ) {
635 greg 2.21 setcolor(cvts.r.colors[x],
636     cvts.t.fp[3*x],
637     cvts.t.fp[3*x + 1],
638     cvts.t.fp[3*x + 2]);
639 gregl 2.9 if (CHK(C_CXFM))
640     colortrans(cvts.r.colors[x], cvts.cmat,
641     cvts.r.colors[x]);
642     if (CHK(C_GAMUT))
643     clipgamut(cvts.r.colors[x], cvts.t.fp[3*x + 1],
644     CGAMUT_LOWER, cblack, cwhite);
645     }
646     if (cvts.bradj) {
647     double m = pow(2.,(double)cvts.bradj);
648     for (x = cvts.xmax; x--; )
649     scalecolor(cvts.r.colors[x], m);
650     }
651    
652     if (fwritescan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
653     quiterr("error writing Radiance picture");
654     }
655    
656    
657 greg 2.21 void
658 gwlarson 2.18 RRGGBB2Color(y) /* read/convert/write RGB16->COLOR scanline */
659     uint32 y;
660     {
661     int dogamma = cvts.gamcor < 0.99 | cvts.gamcor > 1.01;
662     register double d;
663     register int x;
664    
665 gwlarson 2.19 if (CHK(C_RFLT|C_TWRD|C_TFLT|C_GRY) != (C_TWRD|C_RFLT))
666 gwlarson 2.18 quiterr("internal error 1 in RRGGBB2Color");
667    
668     if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
669     quiterr("error reading TIFF input");
670    
671     for (x = cvts.xmax; x--; ) {
672     d = (cvts.t.wp[3*x] + 0.5)*(1./(1L<<16));
673     if (dogamma) d = pow(d, cvts.gamcor);
674     colval(cvts.r.colors[x],RED) = d;
675     d = (cvts.t.wp[3*x + 1] + 0.5)*(1./(1L<<16));
676     if (dogamma) d = pow(d, cvts.gamcor);
677     colval(cvts.r.colors[x],GRN) = d;
678     d = (cvts.t.wp[3*x + 2] + 0.5)*(1./(1L<<16));
679     if (dogamma) d = pow(d, cvts.gamcor);
680     colval(cvts.r.colors[x],BLU) = d;
681     if (CHK(C_CXFM))
682     colortrans(cvts.r.colors[x], cvts.cmat,
683     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);
687     }
688     if (cvts.bradj) {
689     d = pow(2.,(double)cvts.bradj);
690     for (x = cvts.xmax; x--; )
691     scalecolor(cvts.r.colors[x], d);
692     }
693    
694     if (fwritescan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
695     quiterr("error writing Radiance picture");
696     }
697    
698    
699 greg 2.21 void
700     L2Color(y) /* read/convert/write Lfloat->COLOR scanline */
701 gregl 2.9 uint32 y;
702     {
703 greg 2.21 float m = pow(2., (double)cvts.bradj);
704 gregl 2.9 register int x;
705    
706 gwlarson 2.19 if (CHK(C_RFLT|C_TWRD|C_TFLT|C_GRY) != (C_RFLT|C_TFLT|C_GRY))
707 gregl 2.9 quiterr("internal error 1 in L2Color");
708    
709     if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
710     quiterr("error reading TIFF input");
711 greg 2.21 /* also works for float greyscale */
712     for (x = cvts.xmax; x--; ) {
713     register float f = cvts.t.fp[x];
714     if (cvts.bradj) f *= m;
715     setcolor(cvts.r.colors[x], f, f, f);
716     }
717 gregl 2.9 if (fwritescan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
718     quiterr("error writing Radiance picture");
719     }
720    
721    
722 greg 2.21 void
723 gregl 2.9 RGB2Colr(y) /* read/convert/write RGB->COLR scanline */
724     uint32 y;
725     {
726     COLOR ctmp;
727     register int x;
728    
729 gwlarson 2.19 if (CHK(C_RFLT|C_TWRD|C_TFLT|C_GRY))
730 gregl 2.9 quiterr("internal error 1 in RGB2Colr");
731    
732     if (cvts.pconf == PLANARCONFIG_CONTIG) {
733     if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
734     goto readerr;
735     for (x = cvts.xmax; x--; ) {
736     cvts.r.colrs[x][RED] = cvts.t.bp[3*x];
737     cvts.r.colrs[x][GRN] = cvts.t.bp[3*x + 1];
738     cvts.r.colrs[x][BLU] = cvts.t.bp[3*x + 2];
739     }
740     } else {
741     if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
742     goto readerr;
743     if (TIFFReadScanline(cvts.tif,
744 gregl 2.14 (tdata_t)(cvts.t.bp + cvts.xmax), y, 1) < 0)
745 gregl 2.9 goto readerr;
746     if (TIFFReadScanline(cvts.tif,
747 gregl 2.14 (tdata_t)(cvts.t.bp + 2*cvts.xmax), y, 2) < 0)
748 gregl 2.9 goto readerr;
749     for (x = cvts.xmax; x--; ) {
750     cvts.r.colrs[x][RED] = cvts.t.bp[x];
751     cvts.r.colrs[x][GRN] = cvts.t.bp[cvts.xmax + x];
752     cvts.r.colrs[x][BLU] = cvts.t.bp[2*cvts.xmax + x];
753     }
754     }
755    
756     gambs_colrs(cvts.r.colrs, cvts.xmax);
757     if (CHK(C_CXFM))
758     for (x = cvts.xmax; x--; ) {
759     colr_color(ctmp, cvts.r.colrs[x]);
760     colortrans(ctmp, cvts.cmat, ctmp);
761     if (CHK(C_GAMUT)) /* !CHK(C_XYZE) */
762     clipgamut(ctmp, bright(ctmp), CGAMUT_LOWER,
763     cblack, cwhite);
764     setcolr(cvts.r.colrs[x], colval(ctmp,RED),
765     colval(ctmp,GRN), colval(ctmp,BLU));
766     }
767     if (cvts.bradj)
768     shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);
769    
770     if (fwritecolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
771     quiterr("error writing Radiance picture");
772 greg 1.1 return;
773     readerr:
774     quiterr("error reading TIFF input");
775     }
776    
777    
778 greg 2.21 void
779 gregl 2.9 Gry2Colr(y) /* read/convert/write G8->COLR scanline */
780     uint32 y;
781 greg 1.1 {
782     register int x;
783 gregl 2.9
784 gwlarson 2.19 if (CHK(C_RFLT|C_TWRD|C_TFLT|C_GRY) != C_GRY)
785 gregl 2.9 quiterr("internal error 1 in Gry2Colr");
786    
787     if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
788     quiterr("error reading TIFF input");
789    
790     for (x = cvts.xmax; x--; )
791     cvts.r.colrs[x][RED] =
792     cvts.r.colrs[x][GRN] =
793     cvts.r.colrs[x][BLU] = cvts.t.bp[x];
794    
795     gambs_colrs(cvts.r.colrs, cvts.xmax);
796     if (cvts.bradj)
797     shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);
798    
799     if (fwritecolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
800     quiterr("error writing Radiance picture");
801     }
802    
803    
804 greg 2.21 void
805 gwlarson 2.18 GGry2Color(y) /* read/convert/write G16->COLOR scanline */
806     uint32 y;
807     {
808     int dogamma = cvts.gamcor < 0.99 | cvts.gamcor > 1.01;
809     double m;
810     register double d;
811     register int x;
812    
813 gwlarson 2.19 if (CHK(C_TFLT|C_TWRD|C_GRY|C_RFLT) != (C_GRY|C_RFLT|C_TWRD))
814 gwlarson 2.18 quiterr("internal error 1 in GGry2Color");
815    
816     if (TIFFReadScanline(cvts.tif, cvts.t.p, y, 0) < 0)
817     quiterr("error reading TIFF input");
818    
819     if (cvts.bradj)
820     m = pow(2., (double)cvts.bradj);
821     for (x = cvts.xmax; x--; ) {
822     d = (cvts.t.wp[x] + 0.5)*(1./(1L<<16));
823     if (dogamma) d = pow(d, cvts.gamcor);
824     if (cvts.bradj) d *= m;
825     colval(cvts.r.colors[x],RED) =
826     colval(cvts.r.colors[x],GRN) =
827     colval(cvts.r.colors[x],BLU) = d;
828     }
829     if (fwritescan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
830     quiterr("error writing Radiance picture");
831     }
832    
833    
834 greg 2.21 void
835     Color2GGry(y) /* read/convert/write COLOR->G16 scanline */
836     uint32 y;
837     {
838     int dogamma = cvts.gamcor < 0.99 | cvts.gamcor > 1.01;
839     float m = pow(2.,(double)cvts.bradj);
840     register int x;
841    
842     if (CHK(C_RFLT|C_TFLT|C_TWRD|C_GRY) != (C_RFLT|C_TWRD|C_GRY))
843     quiterr("internal error 1 in Color2GGry");
844    
845     if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
846     quiterr("error reading Radiance picture");
847    
848     for (x = cvts.xmax; x--; ) {
849     register float f = m*( CHK(C_XYZE) ?
850     colval(cvts.r.colors[x],CIEY)
851     : bright(cvts.r.colors[x]) );
852     if (f <= 0)
853     cvts.t.wp[x] = 0;
854     else if (f >= 1)
855     cvts.t.wp[x] = 0xffff;
856     else if (dogamma)
857     cvts.t.wp[x] = (int)((float)(1L<<16) *
858     pow(f, 1./cvts.gamcor));
859     else
860     cvts.t.wp[x] = (int)((float)(1L<<16) * f);
861     }
862    
863     if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
864     quiterr("error writing TIFF output");
865     }
866    
867    
868     void
869     Color2L(y) /* read/convert/write COLOR->Lfloat scanline */
870 gregl 2.9 uint32 y;
871     {
872 greg 2.21 float m = pow(2.,(double)cvts.bradj);
873 gregl 2.9 register int x;
874    
875 gwlarson 2.19 if (CHK(C_RFLT|C_TFLT|C_TWRD|C_GRY) != (C_RFLT|C_TFLT|C_GRY))
876 gregl 2.9 quiterr("internal error 1 in Color2L");
877    
878     if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
879     quiterr("error reading Radiance picture");
880    
881     for (x = cvts.xmax; x--; )
882     cvts.t.fp[x] = m*( CHK(C_XYZE) ? colval(cvts.r.colors[x],CIEY)
883     : bright(cvts.r.colors[x]) );
884    
885     if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
886     quiterr("error writing TIFF output");
887     }
888    
889    
890 greg 2.21 void
891 gregl 2.9 Color2Luv(y) /* read/convert/write COLOR->Luv scanline */
892     uint32 y;
893     {
894     register int x;
895    
896 gwlarson 2.19 if (CHK(C_RFLT|C_TWRD|C_TFLT|C_GRY) != (C_RFLT|C_TFLT))
897 gregl 2.9 quiterr("internal error 1 in Color2Luv");
898    
899     if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
900     quiterr("error reading Radiance picture");
901    
902     if (CHK(C_CXFM))
903     for (x = cvts.xmax; x--; )
904     colortrans(cvts.r.colors[x], cvts.cmat,
905     cvts.r.colors[x]);
906     if (cvts.bradj) {
907     double m = pow(2.,(double)cvts.bradj);
908     for (x = cvts.xmax; x--; )
909     scalecolor(cvts.r.colors[x], m);
910     }
911 greg 2.21 /* also works for float RGB */
912 gregl 2.9 for (x = cvts.xmax; x--; ) {
913 gwlarson 2.16 cvts.t.fp[3*x] = colval(cvts.r.colors[x],CIEX);
914     cvts.t.fp[3*x+1] = colval(cvts.r.colors[x],CIEY);
915     cvts.t.fp[3*x+2] = colval(cvts.r.colors[x],CIEZ);
916 gregl 2.9 }
917    
918     if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
919     quiterr("error writing TIFF output");
920     }
921    
922    
923 greg 2.21 void
924     Color2RRGGBB(y) /* read/convert/write COLOR->RGB16 scanline */
925     uint32 y;
926     {
927     int dogamma = cvts.gamcor < 0.99 | cvts.gamcor > 1.01;
928     float m = pow(2.,(double)cvts.bradj);
929     register int x, i;
930    
931     if (CHK(C_RFLT|C_TFLT|C_TWRD|C_GRY) != (C_RFLT|C_TWRD))
932     quiterr("internal error 1 in Color2RRGGBB");
933    
934     if (freadscan(cvts.r.colors, cvts.xmax, cvts.rfp) < 0)
935     quiterr("error reading Radiance picture");
936    
937     for (x = cvts.xmax; x--; )
938     for (i = 3; i--; ) {
939     register float f = m*colval(cvts.r.colors[x],i);
940     if (f <= 0)
941     cvts.t.wp[3*x + i] = 0;
942     else if (f >= 1)
943     cvts.t.wp[3*x + i] = 0xffff;
944     else if (dogamma)
945     cvts.t.wp[3*x + i] = (int)((float)(1L<<16) *
946     pow(f, 1./cvts.gamcor));
947     else
948     cvts.t.wp[3*x + i] = (int)((float)(1L<<16)*f);
949     }
950    
951     if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
952     quiterr("error writing TIFF output");
953     }
954    
955    
956     void
957 gregl 2.9 Colr2Gry(y) /* read/convert/write COLR->RGB scanline */
958     uint32 y;
959     {
960     register int x;
961    
962 gwlarson 2.19 if (CHK(C_RFLT|C_TWRD|C_TFLT|C_GRY) != C_GRY)
963 gregl 2.9 quiterr("internal error 1 in Colr2Gry");
964    
965     if (freadcolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
966     quiterr("error reading Radiance picture");
967    
968     if (cvts.bradj)
969     shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);
970     for (x = cvts.xmax; x--; )
971     colval(cvts.r.colrs[x],CIEY) = normbright(cvts.r.colrs[x]);
972     colrs_gambs(cvts.r.colrs, cvts.xmax);
973    
974     for (x = cvts.xmax; x--; )
975     cvts.t.bp[x] = colval(cvts.r.colrs[x],CIEY);
976    
977     if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
978     quiterr("error writing TIFF output");
979     }
980    
981    
982 greg 2.21 void
983 gregl 2.9 Colr2RGB(y) /* read/convert/write COLR->RGB scanline */
984     uint32 y;
985     {
986     COLOR ctmp;
987     register int x;
988    
989 gwlarson 2.19 if (CHK(C_RFLT|C_TFLT|C_TWRD|C_GRY))
990 gregl 2.9 quiterr("internal error 1 in Colr2RGB");
991    
992     if (freadcolrs(cvts.r.colrs, cvts.xmax, cvts.rfp) < 0)
993     quiterr("error reading Radiance picture");
994    
995     if (cvts.bradj)
996     shiftcolrs(cvts.r.colrs, cvts.xmax, cvts.bradj);
997     if (CHK(C_CXFM))
998     for (x = cvts.xmax; x--; ) {
999     colr_color(ctmp, cvts.r.colrs[x]);
1000     colortrans(ctmp, cvts.cmat, ctmp);
1001     if (CHK(C_GAMUT))
1002     clipgamut(ctmp, bright(ctmp), CGAMUT,
1003     cblack, cwhite);
1004     setcolr(cvts.r.colrs[x], colval(ctmp,RED),
1005     colval(ctmp,GRN), colval(ctmp,BLU));
1006 greg 1.1 }
1007 gregl 2.9 colrs_gambs(cvts.r.colrs, cvts.xmax);
1008    
1009     for (x = cvts.xmax; x--; ) {
1010     cvts.t.bp[3*x] = cvts.r.colrs[x][RED];
1011     cvts.t.bp[3*x+1] = cvts.r.colrs[x][GRN];
1012     cvts.t.bp[3*x+2] = cvts.r.colrs[x][BLU];
1013 greg 1.1 }
1014 gregl 2.9
1015     if (TIFFWriteScanline(cvts.tif, cvts.t.p, y, 0) < 0)
1016     quiterr("error writing TIFF output");
1017 greg 1.1 }