[ViewVC] Diff of: radiance/ray/src/common/tmapcolrs.c

Comparing ray/src/common/tmapcolrs.c (file contents):
Revision 3.20 by greg, Wed Feb 23 00:08:08 2005 UTC vs.
Revision 3.39 by greg, Thu Nov 21 17:15:54 2024 UTC

#	Line 9 \| Line 9 \| static const char RCSid[] = "$Id$";
9
10		#include "copyright.h"
11
12	<	#include <stdio.h>
13	<	#include <string.h>
12	>	#include <stdlib.h>
13		#include <math.h>
15	–	#include <time.h>
14
15	+	#ifdef PCOND
16	+	#include "paths.h"
17	+	#endif
18		#include "tmprivat.h"
19	+	#include "rtio.h"
20		#include "resolu.h"
19	–	#include "rtprocess.h"
21
22	<	#ifndef TM_PIC_CTRANS
22	<	#define TM_PIC_CTRANS 1 /* transform colors? (expensive) */
23	<	#endif
22	>	#define GAMTSZ 4096
23
25	–	#define GAMTSZ 1024
26	–
24		typedef struct {
25	<	BYTE gamb[GAMTSZ]; /* gamma lookup table */
26	<	COLR clfb; /* encoded tm->clf */
25	>	uby8 gamb[GAMTSZ]; /* gamma lookup table */
26	>	int clfb[3]; /* encoded tm->clf */
27	>	int32 cmatb[3][3]; /* encoded color transform */
28		TMbright inpsfb; /* encoded tm->inpsf */
29		} COLRDATA;
30
31	<	static MEM_PTR colrInit(TMstruct *);
31	>	static void * colrInit(TMstruct *);
32		static void colrNewSpace(TMstruct *);
33		static gethfunc headline;
34
#	Line 39 \| Line 37 \| *static struct tmPackage colrPkg = { / our package fun**
37		};
38		static int colrReg = -1; /* our package registration number */
39
40	<	#define LOGISZ 260
43	<	static TMbright logi[LOGISZ];
40	>	static TMbright logi[256];
41
42
43		int
44		tmCvColrs( /* convert RGBE/XYZE colors */
45		TMstruct *tms,
46		TMbright *ls,
47	<	BYTE *cs,
47	>	uby8 *cs,
48		COLR *scan,
49		int len
50		)
51		{
52		static const char funcName[] = "tmCvColrs";
53	<	COLR cmon;
54	<	register COLRDATA *cd;
55	<	register int i, bi, li;
53	>	int cmon[4];
54	>	COLRDATA *cd;
55	>	int i, j, bi;
56	>	int32 li, vl;
57
58		if (tms == NULL)
59		returnErr(TM_E_TMINVAL);
60		if ((ls == NULL) \| (scan == NULL) \| (len < 0))
61		returnErr(TM_E_ILLEGAL);
64	–	#if TM_PIC_CTRANS
65	–	if (tmNeedMatrix(tms)) { /* need floating point */
66	–	#else
67	–	if (tms->inppri == TM_XYZPRIM) { /* no way around this */
68	–	#endif
69	–	register COLOR *newscan;
70	–	newscan = (COLOR )tempbuffer(lensizeof(COLOR));
71	–	if (newscan == NULL)
72	–	returnErr(TM_E_NOMEM);
73	–	for (i = len; i--; )
74	–	colr_color(newscan[i], scan[i]);
75	–	return(tmCvColors(tms, ls, cs, newscan, len));
76	–	}
62		if (colrReg < 0) { /* build tables if necessary */
63		colrReg = tmRegPkg(&colrPkg);
64		if (colrReg < 0)
65		returnErr(TM_E_CODERR1);
66		for (i = 256; i--; )
67		logi[i] = TM_BRTSCALE*log((i+.5)/256.) - .5;
83	–	for (i = 256; i < LOGISZ; i++)
84	–	logi[i] = 0;
68		tmMkMesofact();
69		}
70		if ((cd = (COLRDATA *)tmPkgData(tms,colrReg)) == NULL)
71		returnErr(TM_E_NOMEM);
72		for (i = len; i--; ) {
73	<	copycolr(cmon, scan[i]);
73	>	if (tmNeedMatrix(tms)) { /* apply color xform */
74	>	bi = 0;
75	>	for (j = 3; j--; ) {
76	>	vl = cd->cmatb[j][RED]*(int32)scan[i][RED] +
77	>	cd->cmatb[j][GRN]*(int32)scan[i][GRN] +
78	>	cd->cmatb[j][BLU]*(int32)scan[i][BLU] ;
79	>	if (vl < 0)
80	>	cmon[j] = vl/(int32)0x10000;
81	>	else if ((cmon[j] = vl>>16) > bi)
82	>	bi = cmon[j];
83	>	}
84	>	cmon[EXP] = scan[i][EXP];
85	>	while (bi >= 256) { /* handle overflow */
86	>	cmon[EXP]++;
87	>	for (j = 3; j--; ) cmon[j] >>= 1;
88	>	bi >>= 1;
89	>	}
90	>	} else
91	>	copycolr(cmon, scan[i]);
92		/* world luminance */
93	<	li = ( cd->clfb[RED]*cmon[RED] +
94	<	cd->clfb[GRN]*cmon[GRN] +
95	<	cd->clfb[BLU]*cmon[BLU] ) >> 8;
96	<	bi = BRT2SCALE(cmon[EXP]-COLXS) +
97	<	logi[li] + cd->inpsfb;
98	<	if (li <= 0) {
99	<	bi = TM_NOBRT; /* bogus value */
100	<	li = 1; /* avoid li==0 */
93	>	li = cd->clfb[RED]*(int32)cmon[RED] +
94	>	cd->clfb[GRN]*(int32)cmon[GRN] +
95	>	cd->clfb[BLU]*(int32)cmon[BLU] ;
96	>	if (li >= 1L<<(12+8)) li = 255;
97	>	else li >>= 12;
98	>	bi = BRT2SCALE(cmon[EXP]-COLXS) + cd->inpsfb;
99	>	if (li > 0)
100	>	bi += logi[li];
101	>	else {
102	>	bi += logi[0];
103	>	li = 1; /* avoid /0 */
104		}
105		ls[i] = bi;
106		if (cs == TM_NOCHROM) /* no color? */
107		continue;
108		/* mesopic adj. */
109		if (tms->flags & TM_F_MESOPIC && bi < BMESUPPER) {
110	<	register int pf, sli = normscot(cmon);
111	<	if (bi < BMESLOWER)
110	>	int pf, sli = normscot(cmon);
111	>	if (bi < BMESLOWER) {
112		cmon[RED] = cmon[GRN] = cmon[BLU] = sli;
113	<	else {
113	>	} else {
114		if (tms->flags & TM_F_BW)
115		cmon[RED] = cmon[GRN] = cmon[BLU] = li;
116		pf = tmMesofact[bi-BMESLOWER];
117		sli *= 256 - pf;
118	<	cmon[RED] = ( sli + pf*cmon[RED] ) >> 8;
119	<	cmon[GRN] = ( sli + pf*cmon[GRN] ) >> 8;
120	<	cmon[BLU] = ( sli + pf*cmon[BLU] ) >> 8;
118	>	for (j = 3; j--; ) {
119	>	cmon[j] = sli + pf*cmon[j];
120	>	if (cmon[j] <= 0) cmon[j] = 0;
121	>	else cmon[j] >>= 8;
122	>	}
123		}
124		} else if (tms->flags & TM_F_BW) {
125	<	cmon[RED] = cmon[GRN] = cmon[BLU] = li;
125	>	for (j = 3; j--; )
126	>	cs[3*i+j] = tms->cdiv[j]/(TM_BRES>>8);
127	>	continue;
128	>	} else {
129	>	for (j = 3; j--; )
130	>	cmon[j] *= (cmon[j] > 0);
131		}
132	<	bi = ( (int32)GAMTSZcd->clfb[RED]cmon[RED]/li ) >> 8;
132	>	bi = ( (uint32)GAMTSZcd->clfb[RED]cmon[RED]/li ) >> 12;
133		cs[3*i ] = bi>=GAMTSZ ? 255 : cd->gamb[bi];
134	<	bi = ( (int32)GAMTSZcd->clfb[GRN]cmon[GRN]/li ) >> 8;
134	>	bi = ( (uint32)GAMTSZcd->clfb[GRN]cmon[GRN]/li ) >> 12;
135		cs[3*i+1] = bi>=GAMTSZ ? 255 : cd->gamb[bi];
136	<	bi = ( (int32)GAMTSZcd->clfb[BLU]cmon[BLU]/li ) >> 8;
136	>	bi = ( (uint32)GAMTSZcd->clfb[BLU]cmon[BLU]/li ) >> 12;
137		cs[3*i+2] = bi>=GAMTSZ ? 255 : cd->gamb[bi];
138		}
139		returnOK;
#	Line 131 \| Line 142 \| int len
142
143		#define FMTRGB 1 /* Input is RGBE */
144		#define FMTCIE 2 /* Input is CIE XYZE */
145	<	#define FMTUNK 3 /* Input format is unspecified */
146	<	#define FMTBAD 4 /* Input is not a recognized format */
145	>	#define FMTSPEC 3 /* Input is N-component spectral data */
146	>	#define FMTUNK 0 /* Input format is unspecified */
147	>	#define FMTBAD (-1) /* Input is not a recognized format */
148
149		static struct radhead {
150		int format; /* FMTRGB, FMTCIE, FMTUNK, FMTBAD */
151		double expos; /* input exposure value */
152		RGBPRIMP primp; /* input primaries */
153		RGBPRIMS mypri; /* custom primaries */
154	<	} rhdefault = {FMTUNK, 1., stdprims, STDPRIMS};
154	>	int ncs; /* number of color samples */
155	>	float wpt[4]; /* spectral partition */
156	>	} rhdefault = {FMTUNK, 1., stdprims, STDPRIMS, 3, {0,0,0,0}};
157
158
159		static int
160		headline( /* grok a header line */
161	<	register char *s,
161	>	char *s,
162		void *vrh
163		)
164		{
165	<	char fmt[32];
166	<	register struct radhead *rh = vrh;
165	>	char fmt[MAXFMTLEN];
166	>	struct radhead *rh = vrh;
167
168		if (formatval(fmt, s)) {
169		if (!strcmp(fmt, COLRFMT))
170		rh->format = FMTRGB;
171		else if (!strcmp(fmt, CIEFMT))
172		rh->format = FMTCIE;
173	+	else if (!strcmp(fmt, SPECFMT))
174	+	rh->format = FMTSPEC;
175		else
176		rh->format = FMTBAD;
177		return(0);
#	Line 169 \| Line 185 \| *headline( / grok a header line /*
185		rh->primp = rh->mypri;
186		return(0);
187		}
188	+	if (isncomp(s)) {
189	+	rh->ncs = ncompval(s);
190	+	return(0);
191	+	}
192	+	if (iswlsplit(s)) {
193	+	wlsplitval(rh->wpt, s);
194	+	return(0);
195	+	}
196		return(0);
197		}
198
#	Line 177 \| Line 201 \| int
201		tmLoadPicture( /* convert Radiance picture */
202		TMstruct *tms,
203		TMbright **lpp,
204	<	BYTE **cpp,
204	>	uby8 **cpp,
205		int *xp,
206		int *yp,
207		char *fname,
#	Line 207 \| Line 231 \| *FILE fp**
231		fgetresolu(xp, yp, inpf) < 0) {
232		err = TM_E_BADFILE; goto done;
233		}
234	<	if (info.format == FMTUNK) /* assume RGBE format */
234	>	if (info.format == FMTSPEC) { /* valid spectrum? */
235	>	if (info.ncs <= 3) {
236	>	err = TM_E_BADFILE; goto done;
237	>	}
238	>	if (info.wpt[0] == 0)
239	>	memcpy(info.wpt, WLPART, sizeof(info.wpt));
240	>	} else if (info.format == FMTUNK) /* assume RGBE format? */
241		info.format = FMTRGB;
242	<	if (info.format == FMTRGB)
243	<	info.expos /= WHTEFFICACY;
214	<	else if (info.format == FMTCIE)
242	>
243	>	if (info.format == FMTCIE)
244		info.primp = TM_XYZPRIM;
245	+	else
246	+	info.expos /= WHTEFFICACY;
247		/* prepare library */
248	<	if ((err = tmSetSpace(tms, info.primp, 1./info.expos, NULL)) != TM_E_OK)
248	>	if ((err = tmSetSpace(tms, info.primp, 1./info.expos)) != TM_E_OK)
249		goto done;
250		err = TM_E_NOMEM; /* allocate arrays */
251		lpp = (TMbright )malloc(sizeof(TMbright) * xp *yp);
252		if (*lpp == NULL)
253		goto done;
254		if (cpp != TM_NOCHROMP) {
255	<	cpp = (BYTE )malloc(3sizeof(BYTE) xp *yp);
255	>	cpp = (uby8 )malloc(3sizeof(uby8) xp *yp);
256		if (*cpp == NULL)
257		goto done;
258		}
#	Line 230 \| Line 261 \| *FILE fp**
261		goto done;
262		err = TM_E_BADFILE; /* read & convert scanlines */
263		for (i = 0; i < *yp; i++) {
264	<	if (freadcolrs(scanin, *xp, inpf) < 0) {
264	>	if (fread2colrs(scanin, *xp, inpf, info.ncs, info.wpt) < 0) {
265		err = TM_E_BADFILE; break;
266		}
267		err = tmCvColrs(tms, lpp + (i *xp),
#	Line 243 \| Line 274 \| *done: / clean up /*
274		if (fp == NULL)
275		fclose(inpf);
276		if (scanin != NULL)
277	<	free((MEM_PTR)scanin);
277	>	free(scanin);
278		if (err != TM_E_OK) {
279		if (*lpp != NULL)
280	<	free((MEM_PTR)*lpp);
280	>	free(*lpp);
281		if (cpp != TM_NOCHROMP && *cpp != NULL)
282	<	free((MEM_PTR)*cpp);
282	>	free(*cpp);
283		returnErr(err);
284		}
285		returnOK;
#	Line 258 \| Line 289 \| *done: / clean up /*
289		#ifdef PCOND
290		static int /* run pcond to map picture */
291		dopcond(psp, xp, yp, flags, monpri, gamval, Lddyn, Ldmax, fname)
292	<	BYTE **psp;
292	>	uby8 **psp;
293		int xp, yp;
294		int flags;
295		RGBPRIMP monpri;
#	Line 269 \| Line 300 \| *char fname;**
300		TMstruct *tms = NULL;
301		char cmdbuf[1024];
302		FILE *infp;
303	<	register COLR *scan;
304	<	register BYTE *rp;
303	>	COLR *scan;
304	>	uby8 *rp;
305		int y;
306	<	register int x;
306	>	int x;
307		/* set up gamma correction */
308		if (setcolrcor(pow, 1./gamval) < 0)
309		returnErr(TM_E_NOMEM);
#	Line 309 \| Line 340 \| *char fname;**
340		/* allocate arrays */
341		scan = (COLR )malloc(sizeof(COLR) *xp);
342		if (flags & TM_F_BW)
343	<	rp = (BYTE )malloc(sizeof(BYTE) xp *yp);
343	>	rp = (uby8 )malloc(sizeof(uby8) xp *yp);
344		else
345	<	rp = (BYTE )malloc(3sizeof(BYTE) * xp *yp);
345	>	rp = (uby8 )malloc(3sizeof(uby8) * xp *yp);
346		if (((*psp = rp) == NULL) \| (scan == NULL)) {
347		pclose(infp);
348		returnErr(TM_E_NOMEM);
#	Line 320 \| Line 351 \| *char fname;**
351		for (y = 0; y < *yp; y++) {
352		if (freadcolrs(scan, *xp, infp) < 0) {
353		pclose(infp);
354	<	free((MEM_PTR)scan);
355	<	free((MEM_PTR)*psp);
354	>	free(scan);
355	>	free(*psp);
356		*psp = NULL;
357		returnErr(TM_E_BADFILE);
358		}
#	Line 336 \| Line 367 \| *char fname;**
367		*rp++ = scan[x][BLU];
368		}
369		}
370	<	free((MEM_PTR)scan);
370	>	free(scan);
371		pclose(infp);
372		returnOK;
373		}
#	Line 345 \| Line 376 \| *char fname;**
376
377		int /* map a Radiance picture */
378		tmMapPicture(psp, xp, yp, flags, monpri, gamval, Lddyn, Ldmax, fname, fp)
379	<	BYTE **psp;
379	>	uby8 **psp;
380		int xp, yp;
381		int flags;
382		RGBPRIMP monpri;
#	Line 354 \| Line 385 \| *char fname;**
385		FILE *fp;
386		{
387		char *funcName = fname==NULL ? "tmMapPicture" : fname;
388	<	TMstruct *tms;
389	<	BYTE *cp;
388	>	TMstruct *tms = NULL;
389	>	uby8 *cp;
390		TMbright *lp;
391		int err;
392		/* check arguments */
#	Line 385 \| Line 416 \| *FILE fp;**
416		}
417		/* allocate space for result */
418		if (flags & TM_F_BW) {
419	<	psp = (BYTE )malloc(sizeof(BYTE) * xp *yp);
419	>	psp = (uby8 )malloc(sizeof(uby8) * xp *yp);
420		if (*psp == NULL) {
421	<	free((MEM_PTR)lp);
421	>	free(lp);
422		tmDone(tms);
423		returnErr(TM_E_NOMEM);
424		}
#	Line 405 \| Line 436 \| *FILE fp;**
436		err = tmMapPixels(tms, psp, lp, cp, xp * *yp);
437
438		done: /* clean up */
439	<	free((MEM_PTR)lp);
439	>	free(lp);
440		tmDone(tms);
441		if (err != TM_E_OK) { /* free memory on error */
442	<	free((MEM_PTR)*psp);
442	>	free(*psp);
443		*psp = NULL;
444		returnErr(err);
445		}
#	Line 418 \| Line 449 \| *done: / clean up /*
449
450		static void
451		colrNewSpace(tms) /* color space changed for tone mapping */
452	<	register TMstruct *tms;
452	>	TMstruct *tms;
453		{
454	<	register COLRDATA *cd;
454	>	COLRDATA *cd;
455		double d;
456	+	int i, j;
457
458		cd = (COLRDATA *)tms->pd[colrReg];
459	<	cd->clfb[RED] = 256.*tms->clf[RED] + .5;
460	<	cd->clfb[GRN] = 256.*tms->clf[GRN] + .5;
461	<	cd->clfb[BLU] = 256.*tms->clf[BLU] + .5;
462	<	cd->clfb[EXP] = COLXS;
463	<	d = TM_BRTSCALE*log(tms->inpsf);
464	<	cd->inpsfb = d<0. ? d-.5 : d+.5;
459	>	for (i = 3; i--; )
460	>	cd->clfb[i] = 0x1000*tms->clf[i] + .5;
461	>	cd->inpsfb = tmCvLuminance(tms->inpsf);
462	>	for (i = 3; i--; )
463	>	for (j = 3; j--; ) {
464	>	d = tms->cmat[i][j] / tms->inpsf;
465	>	cd->cmatb[i][j] = 0x10000*d + (d<0. ? -.5 : .5);
466	>	}
467		}
468
469
470	<	static MEM_PTR
470	>	static void *
471		colrInit(tms) /* initialize private data for tone mapping */
472	<	register TMstruct *tms;
472	>	TMstruct *tms;
473		{
474	<	register COLRDATA *cd;
475	<	register int i;
474	>	COLRDATA *cd;
475	>	int i;
476		/* allocate our data */
477		cd = (COLRDATA *)malloc(sizeof(COLRDATA));
478		if (cd == NULL)
479		return(NULL);
480	<	tms->pd[colrReg] = (MEM_PTR)cd;
480	>	tms->pd[colrReg] = (void *)cd;
481		/* compute gamma table */
482		for (i = GAMTSZ; i--; )
483		cd->gamb[i] = 256.*pow((i+.5)/GAMTSZ, 1./tms->mongam);
484		/* compute color and scale factors */
485		colrNewSpace(tms);
486	<	return((MEM_PTR)cd);
486	>	return((void *)cd);
487		}

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Comparing ray/src/common/tmapcolrs.c (file contents): Revision 3.20 by greg, Wed Feb 23 00:08:08 2005 UTC vs. Revision 3.39 by greg, Thu Nov 21 17:15:54 2024 UTC

Diff Legend

Comparing ray/src/common/tmapcolrs.c (file contents):
Revision 3.20 by greg, Wed Feb 23 00:08:08 2005 UTC vs.
Revision 3.39 by greg, Thu Nov 21 17:15:54 2024 UTC