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

Comparing ray/src/common/tonemap.c (file contents):
Revision 3.20 by greg, Sat Jan 14 20:25:51 2006 UTC vs.
Revision 3.47 by greg, Wed Apr 7 21:13:52 2021 UTC

#	Line 12 \| Line 12 \| static const char RCSid[] = "$Id$";
12		#include "copyright.h"
13
14		#include <stdio.h>
15	+	#include <stdlib.h>
16		#include <math.h>
17	+	#include <string.h>
18		#include "tmprivat.h"
19		#include "tmerrmsg.h"
20
#	Line 22 \| Line 24 \| static const char RCSid[] = "$Id$";
24		struct tmPackage *tmPkg[TM_MAXPKG];
25		int tmNumPkgs = 0; /* number of registered packages */
26
27	+	/* luminance->brightness lookup */
28	+	static TMbright *tmFloat2BrtLUT = NULL;
29
30	+	#define tmCvLumLUfp(pf) tmFloat2BrtLUT[(int32 )(pf) >> 15]
31	+
32	+
33		TMstruct *
34		tmInit( /* initialize new tone mapping */
35		int flags,
#	Line 48 \| Line 55 \| double gamval
55		tmnew->clf[GRN] = rgb2xyzmat[1][1];
56		tmnew->clf[BLU] = rgb2xyzmat[1][2];
57		} else {
58	<	comprgb2xyzWBmat(cmat, tmnew->monpri=monpri);
58	>	comprgb2xyzmat(cmat, tmnew->monpri=monpri);
59		tmnew->clf[RED] = cmat[1][0];
60		tmnew->clf[GRN] = cmat[1][1];
61		tmnew->clf[BLU] = cmat[1][2];
#	Line 60 \| Line 67 \| double gamval
67		tmnew->mongam = gamval;
68		/* set color divisors */
69		for (i = 0; i < 3; i++)
70	<	tmnew->cdiv[i] = 256.*pow(tmnew->clf[i], 1./tmnew->mongam);
70	>	tmnew->cdiv[i] = TM_BRES*pow(tmnew->clf[i], 1./tmnew->mongam);
71
72		/* set input transform */
73		tmnew->inppri = tmnew->monpri;
#	Line 111 \| Line 118 \| MEM_PTR dat
118		tms->clf[CIEX] = tms->clf[CIEZ] = 0.;
119		tms->clf[CIEY] = 1.;
120		} else {
121	<	comprgb2xyzWBmat(tms->cmat, tms->monpri);
121	>	comprgb2xyzmat(tms->cmat, tms->monpri);
122		tms->clf[RED] = tms->cmat[1][0];
123		tms->clf[GRN] = tms->cmat[1][1];
124		tms->clf[BLU] = tms->cmat[1][2];
125		}
126	<	tms->cmat[0][0] = tms->cmat[1][1] = tms->cmat[2][2] =
120	<	tms->inpsf;
126	>	tms->cmat[0][0] = tms->cmat[1][1] = tms->cmat[2][2] = 1.;
127		tms->cmat[0][1] = tms->cmat[0][2] = tms->cmat[1][0] =
128		tms->cmat[1][2] = tms->cmat[2][0] = tms->cmat[2][1] = 0.;
129
130	<	} else if (tms->inppri == TM_XYZPRIM) /* input is XYZ */
130	>	} else if (tms->inppri == TM_XYZPRIM) { /* input is XYZ */
131		compxyz2rgbWBmat(tms->cmat, tms->monpri);
132
133	<	else { /* input is RGB */
133	>	} else { /* input is RGB */
134		if (tms->inppri != tms->monpri &&
135		PRIMEQ(tms->inppri, tms->monpri))
136		tms->inppri = tms->monpri; /* no xform */
137	<	comprgb2rgbWBmat(tms->cmat, tms->inppri, tms->monpri);
137	>	if (!comprgb2rgbWBmat(tms->cmat, tms->inppri, tms->monpri))
138	>	returnErr(TM_E_ILLEGAL);
139		}
140		for (i = 0; i < 3; i++)
141		for (j = 0; j < 3; j++)
142		tms->cmat[i][j] *= tms->inpsf;
143		/* set color divisors */
144		for (i = 0; i < 3; i++)
145	<	if (tms->clf[i] > .001)
146	<	tms->cdiv[i] =
140	<	256.*pow(tms->clf[i], 1./tms->mongam);
141	<	else
142	<	tms->cdiv[i] = 1;
145	>	tms->cdiv[i] = TM_BRES*pow(tms->clf[i] < .001 ? .001 :
146	>	tms->clf[i], 1./tms->mongam);
147		/* notify packages */
148		for (i = tmNumPkgs; i--; )
149		if (tms->pd[i] != NULL && tmPkg[i]->NewSpace != NULL)
#	Line 149 \| Line 153 \| MEM_PTR dat
153
154
155		void
156	<	tmClearHisto( /* clear current histogram */
156	>	tmClearHisto( /* clear current histogram */
157		TMstruct *tms
158		)
159		{
160		if (tms == NULL \|\| tms->histo == NULL)
161		return;
162	<	free((MEM_PTR)tms->histo);
162	>	free(tms->histo);
163		tms->histo = NULL;
164		}
165
166
167	+	TMbright
168	+	tmCvLuminance( /* convert a single luminance */
169	+	double lum
170	+	)
171	+	{
172	+	double d;
173	+
174	+	#ifdef isfinite
175	+	if (!isfinite(lum) \|\| lum <= TM_NOLUM)
176	+	#else
177	+	if (lum <= TM_NOLUM)
178	+	#endif
179	+	return(TM_NOBRT);
180	+	d = TM_BRTSCALE*log(lum);
181	+	return((TMbright)(d + .5 - (d < 0.)));
182	+	}
183	+
184	+
185		int
186	+	tmCvLums( /* convert luminances using lookup */
187	+	TMbright *ls,
188	+	float *scan,
189	+	int len
190	+	)
191	+	{
192	+	if (tmFloat2BrtLUT == NULL) { /* initialize lookup table */
193	+	int32 i;
194	+	tmFloat2BrtLUT = (TMbright )malloc(sizeof(TMbright)0x10000);
195	+	if (tmFloat2BrtLUT == NULL)
196	+	return(TM_E_NOMEM);
197	+	for (i = 0; i < 0x10000; i++) {
198	+	int32 l = (i<<1 \| 1) << 14;
199	+	#ifndef isfinite
200	+	if ((l & 0x7f800000) == 0x7f800000)
201	+	tmFloat2BrtLUT[i] = TM_NOBRT;
202	+	else
203	+	#endif
204	+	tmFloat2BrtLUT[i] = tmCvLuminance((float )&l);
205	+	}
206	+	}
207	+	if (len <= 0)
208	+	return(TM_E_OK);
209	+	if ((ls == NULL) \| (scan == NULL))
210	+	return(TM_E_ILLEGAL);
211	+	while (len--) {
212	+	if (*scan <= TM_NOLUM) {
213	+	*ls++ = TM_NOBRT;
214	+	++scan;
215	+	continue;
216	+	}
217	+	*ls++ = tmCvLumLUfp(scan++);
218	+	}
219	+	return(TM_E_OK);
220	+	}
221	+
222	+
223	+	int
224	+	tmCvGrays( /* convert float gray values */
225	+	TMstruct *tms,
226	+	TMbright *ls,
227	+	float *scan,
228	+	int len
229	+	)
230	+	{
231	+	static const char funcName[] = "tmCvGrays";
232	+	int i;
233	+
234	+	if (tms == NULL)
235	+	returnErr(TM_E_TMINVAL);
236	+	if ((ls == NULL) \| (scan == NULL) \| (len < 0))
237	+	returnErr(TM_E_ILLEGAL);
238	+	if (tmFloat2BrtLUT == NULL) /* initialize */
239	+	tmCvLums(NULL, NULL, 0);
240	+	for (i = len; i--; ) {
241	+	float lum = tms->inpsf * scan[i];
242	+	if (lum <= TM_NOLUM)
243	+	ls[i] = TM_NOBRT;
244	+	else
245	+	ls[i] = tmCvLumLUfp(&lum);
246	+	}
247	+	returnOK;
248	+	}
249	+
250	+
251	+	int
252		tmCvColors( /* convert float colors */
253		TMstruct *tms,
254		TMbright *ls,
255	<	BYTE *cs,
255	>	uby8 *cs,
256		COLOR *scan,
257		int len
258		)
259		{
260		static const char funcName[] = "tmCvColors";
261	<	static COLOR csmall = {.5MINLUM, .5MINLUM, .5*MINLUM};
174	<	static BYTE gamtab[1024];
261	>	static uby8 gamtab[1024];
262		static double curgam = .0;
263		COLOR cmon;
264	<	double lum, slum;
178	<	double d;
264	>	float lum, slum, d;
265		int i;
266
267		if (tms == NULL)
268		returnErr(TM_E_TMINVAL);
269		if ((ls == NULL) \| (scan == NULL) \| (len < 0))
270		returnErr(TM_E_ILLEGAL);
271	<	if (cs != TM_NOCHROM && fabs(curgam - tms->mongam) < .02) {
271	>	if (tmFloat2BrtLUT == NULL) /* initialize */
272	>	tmCvLums(NULL, NULL, 0);
273	>	if (cs != TM_NOCHROM && fabs(tms->mongam - curgam) > .02) {
274		curgam = tms->mongam; /* (re)build table */
275		for (i = 1024; i--; )
276		gamtab[i] = (int)(256.*pow((i+.5)/1024., 1./curgam));
#	Line 195 \| Line 283 \| int len
283		cmon[GRN] = tms->inpsf*scan[i][GRN];
284		cmon[BLU] = tms->inpsf*scan[i][BLU];
285		}
286	+	#ifdef isfinite
287	+	if (!isfinite(cmon[RED]) \|\| cmon[RED] < .0f) cmon[RED] = .0f;
288	+	if (!isfinite(cmon[GRN]) \|\| cmon[GRN] < .0f) cmon[GRN] = .0f;
289	+	if (!isfinite(cmon[BLU]) \|\| cmon[BLU] < .0f) cmon[BLU] = .0f;
290	+	#else
291	+	if (cmon[RED] < .0f) cmon[RED] = .0f;
292	+	if (cmon[GRN] < .0f) cmon[GRN] = .0f;
293	+	if (cmon[BLU] < .0f) cmon[BLU] = .0f;
294	+	#endif
295		/* world luminance */
296		lum = tms->clf[RED]*cmon[RED] +
297		tms->clf[GRN]*cmon[GRN] +
298		tms->clf[BLU]*cmon[BLU] ;
299	<	/* check range */
300	<	if (clipgamut(cmon, lum, CGAMUT_LOWER, csmall, cwhite))
301	<	lum = tms->clf[RED]*cmon[RED] +
302	<	tms->clf[GRN]*cmon[GRN] +
303	<	tms->clf[BLU]*cmon[BLU] ;
207	<	if (lum < MINLUM) {
208	<	ls[i] = MINBRT-1; /* bogus value */
209	<	lum = MINLUM;
210	<	} else {
211	<	d = TM_BRTSCALElog(lum); / encode it */
212	<	ls[i] = d>0. ? (int)(d+.5) : (int)(d-.5);
213	<	}
299	>	if (lum <= TM_NOLUM) { /* convert brightness */
300	>	lum = cmon[RED] = cmon[GRN] = cmon[BLU] = TM_NOLUM;
301	>	ls[i] = TM_NOBRT;
302	>	} else
303	>	ls[i] = tmCvLumLUfp(&lum);
304		if (cs == TM_NOCHROM) /* no color? */
305		continue;
306		if (tms->flags & TM_F_MESOPIC && lum < LMESUPPER) {
307		slum = scotlum(cmon); /* mesopic adj. */
308	<	if (lum < LMESLOWER)
308	>	if (lum < LMESLOWER) {
309		cmon[RED] = cmon[GRN] = cmon[BLU] = slum;
310	<	else {
310	>	} else {
311		d = (lum - LMESLOWER)/(LMESUPPER - LMESLOWER);
312		if (tms->flags & TM_F_BW)
313		cmon[RED] = cmon[GRN] =
314		cmon[BLU] = d*lum;
315		else
316		scalecolor(cmon, d);
317	<	d = (1.-d)*slum;
317	>	d = (1.f-d)*slum;
318		cmon[RED] += d;
319		cmon[GRN] += d;
320		cmon[BLU] += d;
#	Line 233 \| Line 323 \| int len
323		cmon[RED] = cmon[GRN] = cmon[BLU] = lum;
324		}
325		d = tms->clf[RED]*cmon[RED]/lum;
326	<	cs[3i ] = d>=.999 ? 255 : gamtab[(int)(1024.d)];
326	>	cs[3i ] = d>=.999f ? 255 : gamtab[(int)(1024.fd)];
327		d = tms->clf[GRN]*cmon[GRN]/lum;
328	<	cs[3i+1] = d>=.999 ? 255 : gamtab[(int)(1024.d)];
328	>	cs[3i+1] = d>=.999f ? 255 : gamtab[(int)(1024.fd)];
329		d = tms->clf[BLU]*cmon[BLU]/lum;
330	<	cs[3i+2] = d>=.999 ? 255 : gamtab[(int)(1024.d)];
330	>	cs[3i+2] = d>=.999f ? 255 : gamtab[(int)(1024.fd)];
331		}
332		returnOK;
333		}
334
335
246	–	TMbright
247	–	tmCvLuminance( /* convert a single luminance */
248	–	double lum
249	–	)
250	–	{
251	–	double d;
252	–
253	–	if (lum <= TM_NOLUM)
254	–	return(TM_NOBRT);
255	–	d = TM_BRTSCALE*log(lum);
256	–	if (d > 0.)
257	–	return((TMbright)(d+.5));
258	–	return((TMbright)(d-.5));
259	–	}
260	–
261	–
336		int
263	–	tmCvGrays( /* convert float gray values */
264	–	TMstruct *tms,
265	–	TMbright *ls,
266	–	float *scan,
267	–	int len
268	–	)
269	–	{
270	–	static const char funcName[] = "tmCvGrays";
271	–	double d;
272	–	int i;
273	–
274	–	if (tms == NULL)
275	–	returnErr(TM_E_TMINVAL);
276	–	if ((ls == NULL) \| (scan == NULL) \| (len < 0))
277	–	returnErr(TM_E_ILLEGAL);
278	–	for (i = len; i--; )
279	–	if (scan[i] <= TM_NOLUM) {
280	–	ls[i] = TM_NOBRT; /* bogus value */
281	–	} else {
282	–	d = TM_BRTSCALElog(scan[i]); / encode it */
283	–	ls[i] = d>0. ? (int)(d+.5) : (int)(d-.5);
284	–	}
285	–	returnOK;
286	–	}
287	–
288	–
289	–	int
337		tmAddHisto( /* add values to histogram */
338		TMstruct *tms,
339		TMbright *ls,
#	Line 313 \| Line 360 \| int wt
360		tms->hbrmin = tms->hbrmax = ls[i];
361		oldlen = 0;
362		} else {
363	<	oldorig = (tms->hbrmin-MINBRT)/HISTEP;
364	<	oldlen = (tms->hbrmax-MINBRT)/HISTEP + 1 - oldorig;
363	>	oldorig = HISTI(tms->hbrmin);
364	>	oldlen = HISTI(tms->hbrmax) + 1 - oldorig;
365		}
366		for (i = len; i--; ) {
367		if ((j = ls[i]) < MINBRT)
#	Line 324 \| Line 371 \| int wt
371		else if (j > tms->hbrmax)
372		tms->hbrmax = j;
373		}
374	<	horig = (tms->hbrmin-MINBRT)/HISTEP;
375	<	hlen = (tms->hbrmax-MINBRT)/HISTEP + 1 - horig;
374	>	horig = HISTI(tms->hbrmin);
375	>	hlen = HISTI(tms->hbrmax) + 1 - horig;
376		if (hlen > oldlen) { /* (re)allocate histogram */
377	<	int newhist = (int )calloc(hlen, sizeof(int));
377	>	HIST_TYP newhist = (HIST_TYP )calloc(hlen, sizeof(HIST_TYP));
378		if (newhist == NULL)
379		returnErr(TM_E_NOMEM);
380		if (oldlen) { /* copy and free old */
381	<	for (i = oldlen, j = i+oldorig-horig; i; )
382	<	newhist[--j] = tms->histo[--i];
383	<	free((MEM_PTR)tms->histo);
381	>	memcpy(newhist+(oldorig-horig),
382	>	tms->histo, oldlen*sizeof(HIST_TYP));
383	>	free(tms->histo);
384		}
385		tms->histo = newhist;
386		}
#	Line 341 \| Line 388 \| int wt
388		returnOK;
389		for (i = len; i--; ) /* add in new counts */
390		if (ls[i] >= MINBRT)
391	<	tms->histo[ (ls[i]-MINBRT)/HISTEP - horig ] += wt;
391	>	tms->histo[ HISTI(ls[i]) - horig ] += wt;
392		returnOK;
393		}
394
#	Line 369 \| Line 416 \| double La
416		}
417
418
372	–	static int
373	–	tmNewMap( /* allocate new tone-mapping array */
374	–	TMstruct *tms
375	–	)
376	–	{
377	–	if (tms->lumap != NULL && (tms->mbrmax - tms->mbrmin) !=
378	–	(tms->hbrmax - tms->hbrmin)) {
379	–	free((MEM_PTR)tms->lumap);
380	–	tms->lumap = NULL;
381	–	}
382	–	tms->mbrmin = tms->hbrmin;
383	–	tms->mbrmax = tms->hbrmax;
384	–	if (tms->mbrmin > tms->mbrmax)
385	–	return 0;
386	–	if (tms->lumap == NULL)
387	–	tms->lumap = (unsigned short )malloc(sizeof(unsigned short)
388	–	(tms->mbrmax-tms->mbrmin+1));
389	–	return(tms->lumap != NULL);
390	–	}
391	–
392	–
419		int
420		tmFixedMapping( /* compute fixed, linear tone-mapping */
421		TMstruct *tms,
422		double expmult,
423	<	double gamval
423	>	double gamval,
424	>	double Lddyn
425		)
426		{
427		static const char funcName[] = "tmFixedMapping";
428	<	double d;
429	<	int i;
428	>	const int maxV = (1L<<(8*sizeof(TMAP_TYP))) - 1;
429	>	double minD;
430	>	int i;
431
432		if (!tmNewMap(tms))
433		returnErr(TM_E_NOMEM);
434	<	if (expmult <= .0)
435	<	expmult = 1.;
436	<	if (gamval < MINGAM)
437	<	gamval = tms->mongam;
438	<	d = log(expmult/tms->inpsf);
439	<	for (i = tms->mbrmax-tms->mbrmin+1; i--; )
440	<	tms->lumap[i] = 256. * exp(
441	<	( d + (tms->mbrmin+i)*(1./TM_BRTSCALE) )
442	<	/ gamval );
434	>	/* check arguments */
435	>	if (expmult <= .0) expmult = 1.;
436	>	if (gamval < MINGAM) gamval = tms->mongam;
437	>	if (Lddyn < MINLDDYN) Lddyn = DEFLDDYN;
438	>	minD = 1./Lddyn;
439	>	for (i = tms->mbrmax-tms->mbrmin+1; i--; ) {
440	>	double d;
441	>	d = expmult/tms->inpsf * tmLuminance(tms->mbrmin + i);
442	>	if (d <= minD)
443	>	break; /* map initialized to zeroes */
444	>	d = (d - minD)/(1. - minD);
445	>	d = TM_BRES*pow(d, 1./gamval);
446	>	tms->lumap[i] = (d > maxV) ? maxV : (int)d;
447	>	}
448		returnOK;
449		}
450
#	Line 425 \| Line 458 \| double Ldmax
458		)
459		{
460		static const char funcName[] = "tmComputeMapping";
461	<	int *histo;
461	>	HIST_TYP *histo;
462		float *cumf;
463	<	int brt0, histlen, threshold, ceiling, trimmings;
464	<	double logLddyn, Ldmin, Ldavg, Lwavg, Tr, Lw, Ld;
465	<	int32 histot;
463	>	int brt0, histlen;
464	>	HIST_TYP threshold, ceiling, trimmings, histot;
465	>	double logLddyn, Ldmin, Lwavg, Tr, Lw, Ld;
466		double sum;
467		double d;
468		int i, j;
#	Line 443 \| Line 476 \| double Ldmax
476		/* compute handy values */
477		Ldmin = Ldmax/Lddyn;
478		logLddyn = log(Lddyn);
479	<	Ldavg = sqrt(Ldmax*Ldmin);
480	<	i = (tms->hbrmin-MINBRT)/HISTEP;
481	<	brt0 = MINBRT + HISTEP/2 + i*HISTEP;
449	<	histlen = (tms->hbrmax-MINBRT)/HISTEP + 1 - i;
479	>	i = HISTI(tms->hbrmin);
480	>	brt0 = HISTV(i);
481	>	histlen = HISTI(tms->hbrmax) + 1 - i;
482		/* histogram total and mean */
483		histot = 0; sum = 0;
484		j = brt0 + histlen*HISTEP;
485		for (i = histlen; i--; ) {
486		histot += tms->histo[i];
487	<	sum += (j -= HISTEP) * tms->histo[i];
487	>	sum += (double)(j -= HISTEP) * tms->histo[i];
488		}
489	<	threshold = histot*0.005 + .5;
490	<	if (threshold < 4)
489	>	threshold = histot*0.002 + .5;
490	>	if (!histot)
491		returnErr(TM_E_TMFAIL);
492		Lwavg = tmLuminance( (double)sum / histot );
461	–	/* allocate space for mapping */
462	–	if (!tmNewMap(tms))
463	–	returnErr(TM_E_NOMEM);
493		/* use linear tone mapping? */
494	<	if (tms->flags & TM_F_LINEAR)
494	>	if (tms->flags & TM_F_LINEAR \|\| threshold < 4 \|\|
495	>	tms->hbrmax - tms->hbrmin < TM_BRTSCALE*logLddyn)
496		goto linearmap;
497		/* clamp histogram */
498	<	histo = (int )malloc(histlensizeof(int));
498	>	histo = (HIST_TYP )malloc(histlensizeof(HIST_TYP));
499		cumf = (float )malloc((histlen+2)sizeof(float));
500		if ((histo == NULL) \| (cumf == NULL))
501		returnErr(TM_E_NOMEM);
502		cumf[histlen+1] = 1.; /* guard for assignment code */
503	<	for (i = histlen; i--; ) /* make malleable copy */
504	<	histo[i] = tms->histo[i];
503	>	/* make malleable copy */
504	>	memcpy(histo, tms->histo, histlen*sizeof(HIST_TYP));
505		do { /* iterate to solution */
506		sum = 0; /* cumulative probability */
507		for (i = 0; i < histlen; i++) {
508	<	cumf[i] = (double)sum/histot;
509	<	sum += histo[i];
508	>	cumf[i] = sum/histot;
509	>	sum += (double)histo[i];
510		}
511		cumf[histlen] = 1.;
512		Tr = histot * (double)(tms->hbrmax - tms->hbrmin) /
513	<	((double)histlen*TM_BRTSCALE) / logLddyn;
513	>	((double)TM_BRTSCALEhistlenlogLddyn);
514		ceiling = Tr + 1.;
515		trimmings = 0; /* clip to envelope */
516		for (i = histlen; i--; ) {
#	Line 498 \| Line 528 \| double Ldmax
528		}
529		/* check if we're out of data */
530		if ((histot -= trimmings) <= threshold) {
531	<	free((MEM_PTR)histo);
532	<	free((MEM_PTR)cumf);
531	>	free(histo);
532	>	free(cumf);
533		goto linearmap;
534		}
535		} while (trimmings > threshold);
536	+	/* allocate space for mapping */
537	+	if (!tmNewMap(tms))
538	+	returnErr(TM_E_NOMEM);
539		/* assign tone-mapping */
540		for (i = tms->mbrmax-tms->mbrmin+1; i--; ) {
541		j = d = (double)i/(tms->mbrmax-tms->mbrmin)*histlen;
542		d -= (double)j;
543		Ld = Ldminexp(logLddyn((1.-d)cumf[j]+dcumf[j+1]));
544		d = (Ld - Ldmin)/(Ldmax - Ldmin);
545	<	tms->lumap[i] = 256.*pow(d, 1./gamval);
545	>	tms->lumap[i] = TM_BRES*pow(d, 1./gamval);
546		}
547	<	free((MEM_PTR)histo); /* clean up and return */
548	<	free((MEM_PTR)cumf);
547	>	free(histo); /* clean up and return */
548	>	free(cumf);
549		returnOK;
550		linearmap: /* linear tone-mapping */
551		if (tms->flags & TM_F_HCONTR)
552	<	d = htcontrs(Ldavg) / htcontrs(Lwavg);
552	>	d = htcontrs(sqrt(Ldmax*Ldmin)) / htcontrs(Lwavg);
553		else
554	<	d = Ldavg / Lwavg;
555	<	return(tmFixedMapping(tms, tms->inpsf*d/Ldmax, gamval));
554	>	d = Ldmax / tmLuminance(tms->hbrmax);
555	>	return(tmFixedMapping(tms, tms->inpsf*d/Ldmax, gamval, Lddyn));
556		}
557
558
559		int
560		tmMapPixels( /* apply tone-mapping to pixel(s) */
561		TMstruct *tms,
562	<	BYTE *ps,
562	>	uby8 *ps,
563		TMbright *ls,
564	<	BYTE *cs,
564	>	uby8 *cs,
565		int len
566		)
567		{
568		static const char funcName[] = "tmMapPixels";
569	<	int32 li, pv;
569	>	TMbright lv;
570	>	TMAP_TYP li;
571	>	int pv;
572
573		if (tms == NULL \|\| tms->lumap == NULL)
574		returnErr(TM_E_TMINVAL);
575		if ((ps == NULL) \| (ls == NULL) \| (len < 0))
576		returnErr(TM_E_ILLEGAL);
577		while (len--) {
578	<	if ((li = *ls++) < tms->mbrmin) {
578	>	if ((lv = *ls++) < tms->mbrmin) {
579		li = 0;
580		} else {
581	<	if (li > tms->mbrmax)
582	<	li = tms->mbrmax;
583	<	li = tms->lumap[li - tms->mbrmin];
581	>	if (lv > tms->mbrmax)
582	>	lv = tms->mbrmax;
583	>	li = tms->lumap[lv - tms->mbrmin];
584		}
585	<	if (cs == TM_NOCHROM)
586	<	*ps++ = li>255 ? 255 : li;
587	<	else {
585	>	if (cs == TM_NOCHROM) {
586	>	#if !(TM_BRES & 0xff)
587	>	*ps++ = li>=TM_BRES ? 255 : li/(TM_BRES>>8);
588	>	#else
589	>	*ps++ = li>=TM_BRES ? 255 : (li<<8)/TM_BRES;
590	>	#endif
591	>	} else {
592		pv = cs++ li / tms->cdiv[RED];
593		*ps++ = pv>255 ? 255 : pv;
594		pv = cs++ li / tms->cdiv[GRN];
#	Line 562 \| Line 601 \| int len
601		}
602
603
565	–
566	–
604		TMstruct *
605	<	tmDup( /* duplicate top tone mapping */
605	>	tmDup( /* duplicate tone mapping */
606		TMstruct *tms
607		)
608		{
#	Line 580 \| Line 617 \| *TMstruct tms**
617		return(NULL);
618		tmnew = tms; /* copy everything */
619		if (tmnew->histo != NULL) { /* duplicate histogram */
620	<	len = (tmnew->hbrmax-MINBRT)/HISTEP + 1 -
621	<	(tmnew->hbrmin-MINBRT)/HISTEP;
585	<	tmnew->histo = (int )malloc(lensizeof(int));
620	>	len = HISTI(tmnew->hbrmax) + 1 - HISTI(tmnew->hbrmin);
621	>	tmnew->histo = (HIST_TYP )malloc(lensizeof(HIST_TYP));
622		if (tmnew->histo != NULL)
623	<	for (i = len; i--; )
588	<	tmnew->histo[i] = tms->histo[i];
623	>	memcpy(tmnew->histo, tms->histo, len*sizeof(HIST_TYP));
624		}
625		if (tmnew->lumap != NULL) { /* duplicate luminance mapping */
626		len = tmnew->mbrmax-tmnew->mbrmin+1;
627	<	tmnew->lumap = (unsigned short *)malloc(
593	<	len*sizeof(unsigned short) );
627	>	tmnew->lumap = (TMAP_TYP )malloc(lensizeof(TMAP_TYP));
628		if (tmnew->lumap != NULL)
629	<	for (i = len; i--; )
596	<	tmnew->lumap[i] = tms->lumap[i];
629	>	memcpy(tmnew->lumap, tms->lumap, len*sizeof(TMAP_TYP));
630		}
631		/* clear package data */
632		for (i = tmNumPkgs; i--; )
#	Line 613 \| Line 646 \| *TMstruct tms;**
646		return;
647		/* free tables */
648		if (tms->histo != NULL)
649	<	free((MEM_PTR)tms->histo);
649	>	free(tms->histo);
650		if (tms->lumap != NULL)
651	<	free((MEM_PTR)tms->lumap);
651	>	free(tms->lumap);
652		/* free private data */
653		for (i = tmNumPkgs; i--; )
654		if (tms->pd[i] != NULL)
655		(*tmPkg[i]->Free)(tms->pd[i]);
656	<	free((MEM_PTR)tms); /* free basic structure */
656	>	free(tms); /* free basic structure */
657		}
658
659		/****************** Shared but Private library routines *******************/
660
661	<	BYTE tmMesofact[BMESUPPER-BMESLOWER];
661	>	uby8 tmMesofact[BMESUPPER-BMESLOWER];
662
663		void
664		tmMkMesofact() /* build mesopic lookup factor table */
#	Line 639 \| Line 672 \| *tmMkMesofact() / build mesopic lookup factor table**
672		tmMesofact[i-BMESLOWER] = 256. *
673		(tmLuminance(i) - LMESLOWER) /
674		(LMESUPPER - LMESLOWER);
675	+	}
676	+
677	+
678	+	int
679	+	tmNewMap( /* allocate new tone-mapping array */
680	+	TMstruct *tms
681	+	)
682	+	{
683	+	if (tms->lumap != NULL && (tms->mbrmax - tms->mbrmin) !=
684	+	(tms->hbrmax - tms->hbrmin)) {
685	+	free(tms->lumap);
686	+	tms->lumap = NULL;
687	+	}
688	+	tms->mbrmin = tms->hbrmin;
689	+	tms->mbrmax = tms->hbrmax;
690	+	if (tms->mbrmin > tms->mbrmax)
691	+	return(0);
692	+	if (tms->lumap == NULL)
693	+	tms->lumap = (TMAP_TYP *)calloc(tms->mbrmax-tms->mbrmin+1,
694	+	sizeof(TMAP_TYP));
695	+	else
696	+	memset(tms->lumap, 0, (tms->mbrmax-tms->mbrmin+1)*sizeof(TMAP_TYP));
697	+
698	+	return(tms->lumap != NULL);
699		}
700
701

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Comparing ray/src/common/tonemap.c (file contents): Revision 3.20 by greg, Sat Jan 14 20:25:51 2006 UTC vs. Revision 3.47 by greg, Wed Apr 7 21:13:52 2021 UTC

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Comparing ray/src/common/tonemap.c (file contents):
Revision 3.20 by greg, Sat Jan 14 20:25:51 2006 UTC vs.
Revision 3.47 by greg, Wed Apr 7 21:13:52 2021 UTC