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

Comparing ray/src/common/tonemap.c (file contents):
Revision 3.3 by greg, Wed Apr 16 20:28:03 1997 UTC vs.
Revision 3.38 by greg, Wed Jan 6 19:25:00 2021 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1997 Regents of the University of California */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ LBL";
2	>	static const char RCSid[] = "$Id$";
3		#endif
6	–
4		/*
5		* Tone mapping functions.
6		* See tonemap.h for detailed function descriptions.
7	+	* Added von Kries white-balance calculations 10/01 (GW).
8	+	*
9	+	* Externals declared in tonemap.h
10		*/
11
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
21		#define exp10(x) exp(M_LN10*(x))
22
23	<	struct tmStruct tmTop = NULL; / current tone mapping stack */
23	>	/* our list of conversion packages */
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	<	int
23	<	tmErrorReturn(func, err) /* error return (with message) */
24	<	char *func;
25	<	int err;
26	<	{
27	<	if (tmTop != NULL && tmTop->flags & TM_F_NOSTDERR)
28	<	return(err);
29	<	fputs(func, stderr);
30	<	fputs(": ", stderr);
31	<	fputs(tmErrorMessage[err], stderr);
32	<	fputs("!\n", stderr);
33	<	return(err);
34	<	}
30	>	#define tmCvLumLUfp(pf) tmFloat2BrtLUT[(int32 )(pf) >> 15]
31
32
33	<	struct tmStruct *
34	<	tmInit(flags, monpri, gamval) /* initialize new tone mapping */
35	<	int flags;
36	<	RGBPRIMP monpri;
37	<	double gamval;
33	>	TMstruct *
34	>	tmInit( /* initialize new tone mapping */
35	>	int flags,
36	>	RGBPRIMP monpri,
37	>	double gamval
38	>	)
39		{
43	–	static char funcName[] = "tmInit";
40		COLORMAT cmat;
41	<	register struct tmStruct *tmnew;
42	<	register int i;
41	>	TMstruct *tmnew;
42	>	int i;
43		/* allocate structure */
44	<	tmnew = (struct tmStruct *)malloc(sizeof(struct tmStruct));
44	>	tmnew = (TMstruct *)malloc(sizeof(TMstruct));
45		if (tmnew == NULL)
46		return(NULL);
47
48		tmnew->flags = flags & ~TM_F_UNIMPL;
49	+	if (tmnew->flags & TM_F_BW)
50	+	tmnew->flags &= ~TM_F_MESOPIC;
51		/* set monitor transform */
52		if (monpri == NULL \|\| monpri == stdprims \|\| tmnew->flags & TM_F_BW) {
53		tmnew->monpri = stdprims;
#	Line 62 \| Line 60 \| double gamval;
60		tmnew->clf[GRN] = cmat[1][1];
61		tmnew->clf[BLU] = cmat[1][2];
62		}
65	–	tmnew->clfb[RED] = 256.*tmnew->clf[RED] + .5;
66	–	tmnew->clfb[GRN] = 256.*tmnew->clf[GRN] + .5;
67	–	tmnew->clfb[BLU] = 256.*tmnew->clf[BLU] + .5;
68	–	tmnew->clfb[EXP] = COLXS;
63		/* set gamma value */
64		if (gamval < MINGAM)
65		tmnew->mongam = DEFGAM;
66		else
67		tmnew->mongam = gamval;
68	<	for (i = TM_GAMTSZ; i--; )
69	<	tmnew->gamb[i] = 256.*pow((i+.5)/TM_GAMTSZ, 1./tmnew->mongam);
68	>	/* set color divisors */
69	>	for (i = 0; i < 3; i++)
70	>	tmnew->cdiv[i] = 256.*pow(tmnew->clf[i], 1./tmnew->mongam);
71	>
72		/* set input transform */
73		tmnew->inppri = tmnew->monpri;
74		tmnew->cmat[0][0] = tmnew->cmat[1][1] = tmnew->cmat[2][2] =
75		tmnew->inpsf = WHTEFFICACY;
80	–	tmnew->inpsfb = TM_BRTSCALE*log(tmnew->inpsf) + .5;
76		tmnew->cmat[0][1] = tmnew->cmat[0][2] = tmnew->cmat[1][0] =
77		tmnew->cmat[1][2] = tmnew->cmat[2][0] = tmnew->cmat[2][1] = 0.;
78	<	tmnew->flags &= ~TM_F_NEEDMAT;
79	<	tmnew->brmin = tmnew->brmax = 0;
78	>	tmnew->inpdat = NULL;
79	>	tmnew->hbrmin = 10; tmnew->hbrmax = -10;
80		tmnew->histo = NULL;
81	+	tmnew->mbrmin = 10; tmnew->mbrmax = -10;
82		tmnew->lumap = NULL;
83	<	tmnew->tmprev = NULL;
84	<
85	<	tmnew->flags \|= TM_F_INITED;
86	<	/* make it current */
87	<	tmnew->tmprev = tmTop;
88	<	return(tmTop = tmnew);
83	>	/* zero private data */
84	>	for (i = TM_MAXPKG; i--; )
85	>	tmnew->pd[i] = NULL;
86	>	tmnew->lastError = TM_E_OK;
87	>	tmnew->lastFunc = "NoErr";
88	>	/* return new TMstruct */
89	>	return(tmnew);
90		}
91
92
93		int
94	<	tmSetSpace(pri, sf) /* set input color space for conversions */
95	<	RGBPRIMP pri;
96	<	double sf;
94	>	tmSetSpace( /* set input color space for conversions */
95	>	TMstruct *tms,
96	>	RGBPRIMP pri,
97	>	double sf,
98	>	MEM_PTR dat
99	>	)
100		{
101	<	static char funcName[] = "tmSetSpace";
102	<	register int i, j;
101	>	static const char funcName[] = "tmSetSpace";
102	>	int i, j;
103		/* error check */
104	<	if (tmTop == NULL)
104	>	if (tms == NULL)
105		returnErr(TM_E_TMINVAL);
106		if (sf <= 1e-12)
107		returnErr(TM_E_ILLEGAL);
108		/* check if no change */
109	<	if (pri == tmTop->inppri && FEQ(sf, tmTop->inpsf))
109	>	if (pri == tms->inppri && FEQ(sf, tms->inpsf) && dat == tms->inpdat)
110		returnOK;
111	<	tmTop->inppri = pri; /* let's set it */
112	<	tmTop->inpsf = sf;
113	<	tmTop->inpsfb = TM_BRTSCALE*log(sf) + (sf>=1. ? .5 : -.5);
111	>	tms->inppri = pri; /* let's set it */
112	>	tms->inpsf = sf;
113	>	tms->inpdat = dat;
114
115	<	if (tmTop->flags & TM_F_BW) { /* color doesn't matter */
116	<	tmTop->monpri = tmTop->inppri; /* eliminate xform */
117	<	if (tmTop->inppri == TM_XYZPRIM) {
118	<	tmTop->clf[CIEX] = tmTop->clf[CIEZ] = 0.;
119	<	tmTop->clf[CIEY] = 1.;
120	<	tmTop->clfb[CIEX] = tmTop->clfb[CIEZ] = 0;
121	<	tmTop->clfb[CIEY] = 255;
115	>	if (tms->flags & TM_F_BW) { /* color doesn't matter */
116	>	tms->monpri = tms->inppri; /* eliminate xform */
117	>	if (tms->inppri == TM_XYZPRIM) {
118	>	tms->clf[CIEX] = tms->clf[CIEZ] = 0.;
119	>	tms->clf[CIEY] = 1.;
120		} else {
121	<	comprgb2xyzmat(tmTop->cmat, tmTop->monpri);
122	<	tmTop->clf[RED] = tmTop->cmat[1][0];
123	<	tmTop->clf[GRN] = tmTop->cmat[1][1];
124	<	tmTop->clf[BLU] = tmTop->cmat[1][2];
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	<	tmTop->cmat[0][0] = tmTop->cmat[1][1] = tmTop->cmat[2][2] =
127	<	tmTop->inpsf;
128	<	tmTop->cmat[0][1] = tmTop->cmat[0][2] = tmTop->cmat[1][0] =
129	<	tmTop->cmat[1][2] = tmTop->cmat[2][0] = tmTop->cmat[2][1] = 0.;
126	>	tms->cmat[0][0] = tms->cmat[1][1] = tms->cmat[2][2] =
127	>	tms->inpsf;
128	>	tms->cmat[0][1] = tms->cmat[0][2] = tms->cmat[1][0] =
129	>	tms->cmat[1][2] = tms->cmat[2][0] = tms->cmat[2][1] = 0.;
130
131	<	} else if (tmTop->inppri == TM_XYZPRIM) /* input is XYZ */
132	<	compxyz2rgbmat(tmTop->cmat, tmTop->monpri);
131	>	} else if (tms->inppri == TM_XYZPRIM) /* input is XYZ */
132	>	compxyz2rgbWBmat(tms->cmat, tms->monpri);
133
134		else { /* input is RGB */
135	<	if (tmTop->inppri != tmTop->monpri &&
136	<	PRIMEQ(tmTop->inppri, tmTop->monpri))
137	<	tmTop->inppri = tmTop->monpri; /* no xform */
138	<	comprgb2rgbmat(tmTop->cmat, tmTop->inppri, tmTop->monpri);
135	>	if (tms->inppri != tms->monpri &&
136	>	PRIMEQ(tms->inppri, tms->monpri))
137	>	tms->inppri = tms->monpri; /* no xform */
138	>	if (!comprgb2rgbWBmat(tms->cmat, tms->inppri, tms->monpri))
139	>	returnErr(TM_E_ILLEGAL);
140		}
141		for (i = 0; i < 3; i++)
142		for (j = 0; j < 3; j++)
143	<	tmTop->cmat[i][j] *= tmTop->inpsf;
144	<	if (tmTop->inppri != tmTop->monpri)
145	<	tmTop->flags \|= TM_F_NEEDMAT;
146	<	else
147	<	tmTop->flags &= ~TM_F_NEEDMAT;
143	>	tms->cmat[i][j] *= tms->inpsf;
144	>	/* set color divisors */
145	>	for (i = 0; i < 3; i++)
146	>	tms->cdiv[i] = 256.*pow(tms->clf[i] < .001 ? .001 :
147	>	tms->clf[i], 1./tms->mongam);
148	>	/* notify packages */
149	>	for (i = tmNumPkgs; i--; )
150	>	if (tms->pd[i] != NULL && tmPkg[i]->NewSpace != NULL)
151	>	(*tmPkg[i]->NewSpace)(tms);
152		returnOK;
153		}
154
155
156		void
157	<	tmClearHisto() /* clear current histogram */
157	>	tmClearHisto( /* clear current histogram */
158	>	TMstruct *tms
159	>	)
160		{
161	<	if (tmTop == NULL \|\| tmTop->histo == NULL)
161	>	if (tms == NULL \|\| tms->histo == NULL)
162		return;
163	<	free((char *)tmTop->histo);
164	<	tmTop->histo = NULL;
163	>	free((MEM_PTR)tms->histo);
164	>	tms->histo = NULL;
165		}
166
167
168	+	TMbright
169	+	tmCvLuminance( /* convert a single luminance */
170	+	double lum
171	+	)
172	+	{
173	+	double d;
174	+
175	+	#ifdef isfinite
176	+	if (!isfinite(lum) \|\| lum <= TM_NOLUM)
177	+	#else
178	+	if (lum <= TM_NOLUM)
179	+	#endif
180	+	return(TM_NOBRT);
181	+	d = TM_BRTSCALE*log(lum);
182	+	return((TMbright)(d + .5 - (d < 0.)));
183	+	}
184	+
185	+
186		int
187	<	tmCvColors(ls, cs, scan, len) /* convert float colors */
188	<	TMbright *ls;
189	<	BYTE *cs;
190	<	COLOR *scan;
191	<	int len;
187	>	tmCvLums( /* convert luminances using lookup */
188	>	TMbright *ls,
189	>	float *scan,
190	>	int len
191	>	)
192		{
193	<	static char funcName[] = "tmCvColors";
193	>	if (tmFloat2BrtLUT == NULL) { /* initialize lookup table */
194	>	int32 i;
195	>	tmFloat2BrtLUT = (TMbright )malloc(sizeof(TMbright)0x10000);
196	>	if (tmFloat2BrtLUT == NULL)
197	>	return(TM_E_NOMEM);
198	>	for (i = 0; i < 0x10000; i++) {
199	>	int32 l = (i<<1 \| 1) << 14;
200	>	#ifndef isfinite
201	>	if ((l & 0x7f800000) == 0x7f800000)
202	>	tmFloat2BrtLUT[i] = TM_NOBRT;
203	>	else
204	>	#endif
205	>	tmFloat2BrtLUT[i] = tmCvLuminance((float )&l);
206	>	}
207	>	}
208	>	if (len <= 0)
209	>	return(TM_E_OK);
210	>	if ((ls == NULL) \| (scan == NULL))
211	>	return(TM_E_ILLEGAL);
212	>	while (len--) {
213	>	if (*scan <= TM_NOLUM) {
214	>	*ls++ = TM_NOBRT;
215	>	++scan;
216	>	continue;
217	>	}
218	>	*ls++ = tmCvLumLUfp(scan++);
219	>	}
220	>	return(TM_E_OK);
221	>	}
222	>
223	>
224	>	int
225	>	tmCvGrays( /* convert float gray values */
226	>	TMstruct *tms,
227	>	TMbright *ls,
228	>	float *scan,
229	>	int len
230	>	)
231	>	{
232	>	static const char funcName[] = "tmCvGrays";
233	>	int i;
234	>
235	>	if (tms == NULL)
236	>	returnErr(TM_E_TMINVAL);
237	>	if ((ls == NULL) \| (scan == NULL) \| (len < 0))
238	>	returnErr(TM_E_ILLEGAL);
239	>	if (tmFloat2BrtLUT == NULL) /* initialize */
240	>	tmCvLums(NULL, NULL, 0);
241	>	for (i = len; i--; ) {
242	>	float lum = tms->inpsf * scan[i];
243	>	if (lum <= TM_NOLUM)
244	>	ls[i] = TM_NOBRT;
245	>	else
246	>	ls[i] = tmCvLumLUfp(&lum);
247	>	}
248	>	returnOK;
249	>	}
250	>
251	>
252	>	int
253	>	tmCvColors( /* convert float colors */
254	>	TMstruct *tms,
255	>	TMbright *ls,
256	>	uby8 *cs,
257	>	COLOR *scan,
258	>	int len
259	>	)
260	>	{
261	>	static const char funcName[] = "tmCvColors";
262	>	static uby8 gamtab[1024];
263	>	static double curgam = .0;
264		COLOR cmon;
265	<	double lum, slum;
266	<	register double d;
174	<	register int i;
265	>	float lum, slum, d;
266	>	int i;
267
268	<	if (tmTop == NULL)
268	>	if (tms == NULL)
269		returnErr(TM_E_TMINVAL);
270	<	if (ls == NULL \| scan == NULL \| len <= 0)
270	>	if ((ls == NULL) \| (scan == NULL) \| (len < 0))
271		returnErr(TM_E_ILLEGAL);
272	+	if (tmFloat2BrtLUT == NULL) /* initialize */
273	+	tmCvLums(NULL, NULL, 0);
274	+	if (cs != TM_NOCHROM && fabs(tms->mongam - curgam) > .02) {
275	+	curgam = tms->mongam; /* (re)build table */
276	+	for (i = 1024; i--; )
277	+	gamtab[i] = (int)(256.*pow((i+.5)/1024., 1./curgam));
278	+	}
279		for (i = len; i--; ) {
280	<	if (tmTop->flags & TM_F_NEEDMAT) /* get monitor RGB */
281	<	colortrans(cmon, tmTop->cmat, scan[i]);
183	<	else {
184	<	cmon[RED] = tmTop->inpsf*scan[i][RED];
185	<	cmon[GRN] = tmTop->inpsf*scan[i][GRN];
186	<	cmon[BLU] = tmTop->inpsf*scan[i][BLU];
187	<	}
188	<	/* world luminance */
189	<	lum = tmTop->clf[RED]*cmon[RED] +
190	<	tmTop->clf[GRN]*cmon[GRN] +
191	<	tmTop->clf[BLU]*cmon[BLU] ;
192	<	/* check range */
193	<	if (clipgamut(cmon, lum, CGAMUT_LOWER, cblack, cwhite))
194	<	lum = tmTop->clf[RED]*cmon[RED] +
195	<	tmTop->clf[GRN]*cmon[GRN] +
196	<	tmTop->clf[BLU]*cmon[BLU] ;
197	<	if (lum < MINLUM) {
198	<	ls[i] = MINBRT-1; /* bogus value */
199	<	lum = MINLUM;
280	>	if (tmNeedMatrix(tms)) { /* get monitor RGB */
281	>	colortrans(cmon, tms->cmat, scan[i]);
282		} else {
283	<	d = TM_BRTSCALElog(lum); / encode it */
284	<	ls[i] = d>0. ? (int)(d+.5) : (int)(d-.5);
283	>	cmon[RED] = tms->inpsf*scan[i][RED];
284	>	cmon[GRN] = tms->inpsf*scan[i][GRN];
285	>	cmon[BLU] = tms->inpsf*scan[i][BLU];
286		}
287	+	#ifdef isfinite
288	+	if (!isfinite(cmon[RED]) \|\| cmon[RED] < .0f) cmon[RED] = .0f;
289	+	if (!isfinite(cmon[GRN]) \|\| cmon[GRN] < .0f) cmon[GRN] = .0f;
290	+	if (!isfinite(cmon[BLU]) \|\| cmon[BLU] < .0f) cmon[BLU] = .0f;
291	+	#else
292	+	if (cmon[RED] < .0f) cmon[RED] = .0f;
293	+	if (cmon[GRN] < .0f) cmon[GRN] = .0f;
294	+	if (cmon[BLU] < .0f) cmon[BLU] = .0f;
295	+	#endif
296	+	/* world luminance */
297	+	lum = tms->clf[RED]*cmon[RED] +
298	+	tms->clf[GRN]*cmon[GRN] +
299	+	tms->clf[BLU]*cmon[BLU] ;
300	+	if (lum <= TM_NOLUM) { /* convert brightness */
301	+	lum = cmon[RED] = cmon[GRN] = cmon[BLU] = TM_NOLUM;
302	+	ls[i] = TM_NOBRT;
303	+	} else
304	+	ls[i] = tmCvLumLUfp(&lum);
305		if (cs == TM_NOCHROM) /* no color? */
306		continue;
307	<	if (tmTop->flags & TM_F_MESOPIC && lum < LMESUPPER) {
307	>	if (tms->flags & TM_F_MESOPIC && lum < LMESUPPER) {
308		slum = scotlum(cmon); /* mesopic adj. */
309	<	if (lum < LMESLOWER)
309	>	if (lum < LMESLOWER) {
310		cmon[RED] = cmon[GRN] = cmon[BLU] = slum;
311	<	else {
311	>	} else {
312		d = (lum - LMESLOWER)/(LMESUPPER - LMESLOWER);
313	<	if (tmTop->flags & TM_F_BW)
313	>	if (tms->flags & TM_F_BW)
314		cmon[RED] = cmon[GRN] =
315		cmon[BLU] = d*lum;
316		else
317		scalecolor(cmon, d);
318	<	d = (1.-d)*slum;
318	>	d = (1.f-d)*slum;
319		cmon[RED] += d;
320		cmon[GRN] += d;
321		cmon[BLU] += d;
322		}
323	<	} else if (tmTop->flags & TM_F_BW) {
323	>	} else if (tms->flags & TM_F_BW) {
324		cmon[RED] = cmon[GRN] = cmon[BLU] = lum;
325		}
326	<	d = tmTop->clf[RED]*cmon[RED]/lum;
327	<	/* cs[3i ] = d>.999 ? 255 : 256.pow(d, 1./tmTop->mongam); */
328	<	cs[3i ] = d>.999 ? 255 : tmTop->gamb[(int)(dTM_GAMTSZ)];
329	<	d = tmTop->clf[GRN]*cmon[GRN]/lum;
330	<	/* cs[3i+1] = d>.999 ? 255 : 256.pow(d, 1./tmTop->mongam); */
331	<	cs[3i+1] = d>.999 ? 255 : tmTop->gamb[(int)(dTM_GAMTSZ)];
231	<	d = tmTop->clf[BLU]*cmon[BLU]/lum;
232	<	/* cs[3i+2] = d>.999 ? 255 : 256.pow(d, 1./tmTop->mongam); */
233	<	cs[3i+2] = d>.999 ? 255 : tmTop->gamb[(int)(dTM_GAMTSZ)];
326	>	d = tms->clf[RED]*cmon[RED]/lum;
327	>	cs[3i ] = d>=.999f ? 255 : gamtab[(int)(1024.fd)];
328	>	d = tms->clf[GRN]*cmon[GRN]/lum;
329	>	cs[3i+1] = d>=.999f ? 255 : gamtab[(int)(1024.fd)];
330	>	d = tms->clf[BLU]*cmon[BLU]/lum;
331	>	cs[3i+2] = d>=.999f ? 255 : gamtab[(int)(1024.fd)];
332		}
333		returnOK;
334		}
335
336
337		int
338	<	tmAddHisto(ls, len, wt) /* add values to histogram */
339	<	register TMbright *ls;
340	<	int len;
341	<	int wt;
338	>	tmAddHisto( /* add values to histogram */
339	>	TMstruct *tms,
340	>	TMbright *ls,
341	>	int len,
342	>	int wt
343	>	)
344		{
345	<	static char funcName[] = "tmAddHisto";
346	<	int sum, oldorig, oldlen, horig, hlen;
347	<	register int i, j;
345	>	static const char funcName[] = "tmAddHisto";
346	>	int oldorig=0, oldlen, horig, hlen;
347	>	int i, j;
348
349	<	if (len <= 0)
250	<	returnErr(TM_E_ILLEGAL);
251	<	if (tmTop == NULL)
349	>	if (tms == NULL)
350		returnErr(TM_E_TMINVAL);
351	+	if (len < 0)
352	+	returnErr(TM_E_ILLEGAL);
353	+	if (len == 0)
354	+	returnOK;
355		/* first, grow limits */
356	<	if (tmTop->histo == NULL) {
356	>	if (tms->histo == NULL) {
357		for (i = len; i-- && ls[i] < MINBRT; )
358		;
359		if (i < 0)
360		returnOK;
361	<	tmTop->brmin = tmTop->brmax = ls[i];
361	>	tms->hbrmin = tms->hbrmax = ls[i];
362		oldlen = 0;
363		} else {
364	<	oldorig = (tmTop->brmin-MINBRT)/HISTEP;
365	<	oldlen = (tmTop->brmax-MINBRT)/HISTEP + 1 - oldorig;
364	>	oldorig = HISTI(tms->hbrmin);
365	>	oldlen = HISTI(tms->hbrmax) + 1 - oldorig;
366		}
367		for (i = len; i--; ) {
368		if ((j = ls[i]) < MINBRT)
369		continue;
370	<	if (j < tmTop->brmin)
371	<	tmTop->brmin = j;
372	<	else if (j > tmTop->brmax)
373	<	tmTop->brmax = j;
370	>	if (j < tms->hbrmin)
371	>	tms->hbrmin = j;
372	>	else if (j > tms->hbrmax)
373	>	tms->hbrmax = j;
374		}
375	<	horig = (tmTop->brmin-MINBRT)/HISTEP;
376	<	hlen = (tmTop->brmax-MINBRT)/HISTEP + 1 - horig;
375	>	horig = HISTI(tms->hbrmin);
376	>	hlen = HISTI(tms->hbrmax) + 1 - horig;
377		if (hlen > oldlen) { /* (re)allocate histogram */
378	<	register int newhist = (int )calloc(hlen, sizeof(int));
378	>	HIST_TYP newhist = (HIST_TYP )calloc(hlen, sizeof(HIST_TYP));
379		if (newhist == NULL)
380		returnErr(TM_E_NOMEM);
381		if (oldlen) { /* copy and free old */
382	<	for (i = oldlen, j = i+oldorig-horig; i; )
383	<	newhist[--j] = tmTop->histo[--i];
384	<	free((char *)tmTop->histo);
382	>	memcpy((MEM_PTR)newhist+(oldorig-horig),
383	>	(MEM_PTR)tms->histo, oldlen*sizeof(HIST_TYP));
384	>	free((MEM_PTR)tms->histo);
385		}
386	<	tmTop->histo = newhist;
285	<	if (tmTop->lumap != NULL) { /* invalid tone map */
286	<	free((char *)tmTop->lumap);
287	<	tmTop->lumap = NULL;
288	<	}
386	>	tms->histo = newhist;
387		}
388		if (wt == 0)
389		returnOK;
390		for (i = len; i--; ) /* add in new counts */
391		if (ls[i] >= MINBRT)
392	<	tmTop->histo[ (ls[i]-MINBRT)/HISTEP - horig ] += wt;
392	>	tms->histo[ HISTI(ls[i]) - horig ] += wt;
393		returnOK;
394		}
395
396
397		static double
398	<	htcontrs(La) /* human threshold contrast sensitivity, dL(La) */
399	<	double La;
398	>	htcontrs( /* human threshold contrast sensitivity, dL(La) */
399	>	double La
400	>	)
401		{
402		double l10La, l10dL;
403		/* formula taken from Ferwerda et al. [SG96] */
#	Line 319 \| Line 418 \| double La;
418
419
420		int
421	<	tmComputeMapping(gamval, Lddyn, Ldmax)
422	<	double gamval;
423	<	double Lddyn;
424	<	double Ldmax;
421	>	tmFixedMapping( /* compute fixed, linear tone-mapping */
422	>	TMstruct *tms,
423	>	double expmult,
424	>	double gamval
425	>	)
426		{
427	<	static char funcName[] = "tmComputeMapping";
428	<	int *histo;
427	>	static const char funcName[] = "tmFixedMapping";
428	>	double d;
429	>	int i;
430	>
431	>	if (!tmNewMap(tms))
432	>	returnErr(TM_E_NOMEM);
433	>	if (expmult <= .0)
434	>	expmult = 1.;
435	>	if (gamval < MINGAM)
436	>	gamval = tms->mongam;
437	>	d = log(expmult/tms->inpsf);
438	>	for (i = tms->mbrmax-tms->mbrmin+1; i--; ) {
439	>	double val = 256. * exp(
440	>	( d + (tms->mbrmin+i)*(1./TM_BRTSCALE) )
441	>	/ gamval);
442	>	tms->lumap[i] = val >= (double)0xffff ? 0xffff : (int)val;
443	>	}
444	>	returnOK;
445	>	}
446	>
447	>
448	>	int
449	>	tmComputeMapping( /* compute histogram tone-mapping */
450	>	TMstruct *tms,
451	>	double gamval,
452	>	double Lddyn,
453	>	double Ldmax
454	>	)
455	>	{
456	>	static const char funcName[] = "tmComputeMapping";
457	>	HIST_TYP *histo;
458		float *cumf;
459	<	int brt0, histlen, histot, threshold, ceiling, trimmings;
459	>	int brt0, histlen;
460	>	HIST_TYP threshold, ceiling, trimmings;
461		double logLddyn, Ldmin, Ldavg, Lwavg, Tr, Lw, Ld;
462	<	int4 sum;
463	<	register double d;
464	<	register int i, j;
462	>	HIST_TYP histot;
463	>	double sum;
464	>	double d;
465	>	int i, j;
466
467	<	if (tmTop == NULL \|\| tmTop->histo == NULL)
467	>	if (tms == NULL \|\| tms->histo == NULL)
468		returnErr(TM_E_TMINVAL);
469		/* check arguments */
470		if (Lddyn < MINLDDYN) Lddyn = DEFLDDYN;
471		if (Ldmax < MINLDMAX) Ldmax = DEFLDMAX;
472	<	if (gamval < MINGAM) gamval = tmTop->mongam;
472	>	if (gamval < MINGAM) gamval = tms->mongam;
473		/* compute handy values */
474		Ldmin = Ldmax/Lddyn;
475		logLddyn = log(Lddyn);
476		Ldavg = sqrt(Ldmax*Ldmin);
477	<	i = (tmTop->brmin-MINBRT)/HISTEP;
478	<	brt0 = MINBRT + HISTEP/2 + i*HISTEP;
479	<	histlen = (tmTop->brmax-MINBRT)/HISTEP + 1 - i;
477	>	i = HISTI(tms->hbrmin);
478	>	brt0 = HISTV(i);
479	>	histlen = HISTI(tms->hbrmax) + 1 - i;
480		/* histogram total and mean */
481		histot = 0; sum = 0;
482		j = brt0 + histlen*HISTEP;
483		for (i = histlen; i--; ) {
484	<	histot += tmTop->histo[i];
485	<	sum += (j -= HISTEP) * tmTop->histo[i];
484	>	histot += tms->histo[i];
485	>	sum += (double)(j -= HISTEP) * tms->histo[i];
486		}
487	<	threshold = histot*.025 + .5;
488	<	if (threshold < 4)
487	>	threshold = histot*0.005 + .5;
488	>	if (!histot)
489		returnErr(TM_E_TMFAIL);
490		Lwavg = tmLuminance( (double)sum / histot );
491	<	if (!(tmTop->flags & TM_F_LINEAR)) { /* clamp histogram */
492	<	histo = (int )malloc(histlensizeof(int));
493	<	cumf = (float )malloc((histlen+1)sizeof(float));
494	<	if (histo == NULL \| cumf == NULL)
495	<	returnErr(TM_E_NOMEM);
496	<	for (i = histlen; i--; ) /* make malleable copy */
497	<	histo[i] = tmTop->histo[i];
498	<	do { /* iterate to solution */
499	<	sum = 0; /* cumulative probability */
500	<	for (i = 0; i < histlen; i++) {
501	<	cumf[i] = (double)sum/histot;
502	<	sum += histo[i];
491	>	/* use linear tone mapping? */
492	>	if (tms->flags & TM_F_LINEAR \|\| threshold < 4 \|\|
493	>	tms->hbrmax - tms->hbrmin < TM_BRTSCALE*logLddyn)
494	>	goto linearmap;
495	>	/* clamp histogram */
496	>	histo = (HIST_TYP )malloc(histlensizeof(HIST_TYP));
497	>	cumf = (float )malloc((histlen+2)sizeof(float));
498	>	if ((histo == NULL) \| (cumf == NULL))
499	>	returnErr(TM_E_NOMEM);
500	>	cumf[histlen+1] = 1.; /* guard for assignment code */
501	>	for (i = histlen; i--; ) /* make malleable copy */
502	>	histo[i] = tms->histo[i];
503	>	do { /* iterate to solution */
504	>	sum = 0; /* cumulative probability */
505	>	for (i = 0; i < histlen; i++) {
506	>	cumf[i] = (double)sum/histot;
507	>	sum += histo[i];
508	>	}
509	>	cumf[histlen] = 1.;
510	>	Tr = histot * (double)(tms->hbrmax - tms->hbrmin) /
511	>	((double)histlen*TM_BRTSCALE) / logLddyn;
512	>	ceiling = Tr + 1.;
513	>	trimmings = 0; /* clip to envelope */
514	>	for (i = histlen; i--; ) {
515	>	if (tms->flags & TM_F_HCONTR) {
516	>	Lw = tmLuminance(brt0 + i*HISTEP);
517	>	Ld = Ldmin * exp( logLddyn *
518	>	.5*(cumf[i]+cumf[i+1]) );
519	>	ceiling = Tr * (htcontrs(Ld) * Lw) /
520	>	(htcontrs(Lw) * Ld) + 1.;
521		}
522	<	cumf[i] = 1.;
523	<	Tr = histot * (double)(tmTop->brmax - tmTop->brmin) /
524	<	((double)histlen*TM_BRTSCALE) / logLddyn;
376	<	ceiling = Tr + 1.;
377	<	trimmings = 0; /* clip to envelope */
378	<	for (i = histlen; i--; ) {
379	<	if (tmTop->flags & TM_F_HCONTR) {
380	<	Lw = tmLuminance(brt0 + i*HISTEP);
381	<	Ld = Ldmin * exp( logLddyn *
382	<	.5*(cumf[i]+cumf[i+1]) );
383	<	ceiling = Tr * (htcontrs(Ld) * Lw) /
384	<	(htcontrs(Lw) * Ld) + 1.;
385	<	}
386	<	if (histo[i] > ceiling) {
387	<	trimmings += histo[i] - ceiling;
388	<	histo[i] = ceiling;
389	<	}
522	>	if (histo[i] > ceiling) {
523	>	trimmings += histo[i] - ceiling;
524	>	histo[i] = ceiling;
525		}
391	–	} while ((histot -= trimmings) > threshold &&
392	–	trimmings > threshold);
393	–	}
394	–	/* allocate luminance map */
395	–	if (tmTop->lumap == NULL) {
396	–	tmTop->lumap = (unsigned short *)malloc(
397	–	(tmTop->brmax-tmTop->brmin+1)*sizeof(unsigned short) );
398	–	if (tmTop->lumap == NULL)
399	–	returnErr(TM_E_NOMEM);
400	–	}
401	–	if (tmTop->flags & TM_F_LINEAR \|\| histot <= threshold) {
402	–	/* linear tone mapping */
403	–	if (tmTop->flags & TM_F_HCONTR)
404	–	d = htcontrs(Ldavg) / htcontrs(Lwavg);
405	–	else
406	–	d = Ldavg / Lwavg;
407	–	d = log(d/Ldmax);
408	–	for (i = tmTop->brmax-tmTop->brmin+1; i--; )
409	–	tmTop->lumap[i] = 256. * exp(
410	–	( d + (tmTop->brmin+i)/(double)TM_BRTSCALE )
411	–	/ gamval );
412	–	} else {
413	–	/* histogram adjustment */
414	–	for (i = tmTop->brmax-tmTop->brmin+1; i--; ) {
415	–	j = d = (double)i/(tmTop->brmax-tmTop->brmin)*histlen;
416	–	d -= (double)j;
417	–	Ld = Ldminexp(logLddyn((1.-d)cumf[j]+dcumf[j+1]));
418	–	d = (Ld - Ldmin)/(Ldmax - Ldmin);
419	–	tmTop->lumap[i] = 256.*pow(d, 1./gamval);
526		}
527	+	/* check if we're out of data */
528	+	if ((histot -= trimmings) <= threshold) {
529	+	free((MEM_PTR)histo);
530	+	free((MEM_PTR)cumf);
531	+	goto linearmap;
532	+	}
533	+	} while (trimmings > threshold);
534	+	/* allocate space for mapping */
535	+	if (!tmNewMap(tms))
536	+	returnErr(TM_E_NOMEM);
537	+	/* assign tone-mapping */
538	+	for (i = tms->mbrmax-tms->mbrmin+1; i--; ) {
539	+	j = d = (double)i/(tms->mbrmax-tms->mbrmin)*histlen;
540	+	d -= (double)j;
541	+	Ld = Ldminexp(logLddyn((1.-d)cumf[j]+dcumf[j+1]));
542	+	d = (Ld - Ldmin)/(Ldmax - Ldmin);
543	+	tms->lumap[i] = 256.*pow(d, 1./gamval);
544		}
545	<	if (!(tmTop->flags & TM_F_LINEAR)) {
546	<	free((char *)histo);
424	<	free((char *)cumf);
425	<	}
545	>	free((MEM_PTR)histo); /* clean up and return */
546	>	free((MEM_PTR)cumf);
547		returnOK;
548	+	linearmap: /* linear tone-mapping */
549	+	if (tms->flags & TM_F_HCONTR)
550	+	d = htcontrs(Ldavg) / htcontrs(Lwavg);
551	+	else
552	+	d = Ldavg / Lwavg;
553	+	return(tmFixedMapping(tms, tms->inpsf*d/Ldmax, gamval));
554		}
555
556
557		int
558	<	tmMapPixels(ps, ls, cs, len)
559	<	register BYTE *ps;
560	<	TMbright *ls;
561	<	register BYTE *cs;
562	<	int len;
558	>	tmMapPixels( /* apply tone-mapping to pixel(s) */
559	>	TMstruct *tms,
560	>	uby8 *ps,
561	>	TMbright *ls,
562	>	uby8 *cs,
563	>	int len
564	>	)
565		{
566	<	static char funcName[] = "tmMapPixels";
567	<	int rdiv, gdiv, bdiv;
439	<	register int li, pv;
566	>	static const char funcName[] = "tmMapPixels";
567	>	int32 li, pv;
568
569	<	if (tmTop == NULL \|\| tmTop->lumap == NULL)
569	>	if (tms == NULL \|\| tms->lumap == NULL)
570		returnErr(TM_E_TMINVAL);
571	<	if (ps == NULL \| ls == NULL \| len <= 0)
571	>	if ((ps == NULL) \| (ls == NULL) \| (len < 0))
572		returnErr(TM_E_ILLEGAL);
445	–	rdiv = tmTop->gamb[((int4)TM_GAMTSZ*tmTop->clfb[RED])>>8];
446	–	gdiv = tmTop->gamb[((int4)TM_GAMTSZ*tmTop->clfb[GRN])>>8];
447	–	bdiv = tmTop->gamb[((int4)TM_GAMTSZ*tmTop->clfb[BLU])>>8];
573		while (len--) {
574	<	if ((li = *ls++) < tmTop->brmin)
575	<	li = tmTop->brmin;
576	<	else if (li > tmTop->brmax)
577	<	li = tmTop->brmax;
578	<	li = tmTop->lumap[li - tmTop->brmin];
574	>	if ((li = *ls++) < tms->mbrmin) {
575	>	li = 0;
576	>	} else {
577	>	if (li > tms->mbrmax)
578	>	li = tms->mbrmax;
579	>	li = tms->lumap[li - tms->mbrmin];
580	>	}
581		if (cs == TM_NOCHROM)
582		*ps++ = li>255 ? 255 : li;
583		else {
584	<	pv = cs++ li / rdiv;
584	>	pv = cs++ li / tms->cdiv[RED];
585		*ps++ = pv>255 ? 255 : pv;
586	<	pv = cs++ li / gdiv;
586	>	pv = cs++ li / tms->cdiv[GRN];
587		*ps++ = pv>255 ? 255 : pv;
588	<	pv = cs++ li / bdiv;
588	>	pv = cs++ li / tms->cdiv[BLU];
589		*ps++ = pv>255 ? 255 : pv;
590		}
591		}
#	Line 466 \| Line 593 \| int len;
593		}
594
595
596	<	struct tmStruct *
597	<	tmPop() /* pop top tone mapping off stack */
596	>	TMstruct *
597	>	tmDup( /* duplicate top tone mapping */
598	>	TMstruct *tms
599	>	)
600		{
472	–	register struct tmStruct *tms;
473	–
474	–	if ((tms = tmTop) != NULL)
475	–	tmTop = tms->tmprev;
476	–	return(tms);
477	–	}
478	–
479	–
480	–	int
481	–	tmPull(tms) /* pull a tone mapping from stack */
482	–	register struct tmStruct *tms;
483	–	{
484	–	register struct tmStruct *tms2;
485	–	/* special cases first */
486	–	if (tms == NULL \| tmTop == NULL)
487	–	return(0);
488	–	if (tms == tmTop) {
489	–	tmTop = tms->tmprev;
490	–	tms->tmprev = NULL;
491	–	return(1);
492	–	}
493	–	for (tms2 = tmTop; tms2->tmprev != NULL; tms2 = tms2->tmprev)
494	–	if (tms == tms2->tmprev) { /* remove it */
495	–	tms2->tmprev = tms->tmprev;
496	–	tms->tmprev = NULL;
497	–	return(1);
498	–	}
499	–	return(0); /* not found on stack */
500	–	}
501	–
502	–
503	–	struct tmStruct *
504	–	tmDup() /* duplicate top tone mapping */
505	–	{
601		int len;
602	<	register int i;
603	<	register struct tmStruct *tmnew;
602	>	int i;
603	>	TMstruct *tmnew;
604
605	<	if (tmTop == NULL) /* anything to duplicate? */
605	>	if (tms == NULL) /* anything to duplicate? */
606		return(NULL);
607	<	tmnew = (struct tmStruct *)malloc(sizeof(struct tmStruct));
607	>	tmnew = (TMstruct *)malloc(sizeof(TMstruct));
608		if (tmnew == NULL)
609		return(NULL);
610	<	tmnew = tmTop; /* copy everything */
610	>	tmnew = tms; /* copy everything */
611		if (tmnew->histo != NULL) { /* duplicate histogram */
612	<	len = (tmnew->brmax-MINBRT)/HISTEP + 1 -
613	<	(tmnew->brmin-MINBRT)/HISTEP;
519	<	tmnew->histo = (int )malloc(lensizeof(int));
612	>	len = HISTI(tmnew->hbrmax) + 1 - HISTI(tmnew->hbrmin);
613	>	tmnew->histo = (HIST_TYP )malloc(lensizeof(HIST_TYP));
614		if (tmnew->histo != NULL)
615	<	for (i = len; i--; )
616	<	tmnew->histo[i] = tmTop->histo[i];
615	>	memcpy((MEM_PTR)tmnew->histo, (MEM_PTR)tms->histo,
616	>	len*sizeof(HIST_TYP));
617		}
618		if (tmnew->lumap != NULL) { /* duplicate luminance mapping */
619	<	len = tmnew->brmax-tmnew->brmin+1;
620	<	tmnew->lumap = (unsigned short *)malloc(
527	<	len*sizeof(unsigned short) );
619	>	len = tmnew->mbrmax-tmnew->mbrmin+1;
620	>	tmnew->lumap = (TMAP_TYP )malloc(lensizeof(TMAP_TYP));
621		if (tmnew->lumap != NULL)
622	<	for (i = len; i--; )
623	<	tmnew->lumap[i] = tmTop->lumap[i];
622	>	memcpy((MEM_PTR)tmnew->lumap, (MEM_PTR)tms->lumap,
623	>	len*sizeof(TMAP_TYP));
624		}
625	<	tmnew->tmprev = tmTop; /* make copy current */
626	<	return(tmTop = tmnew);
625	>	/* clear package data */
626	>	for (i = tmNumPkgs; i--; )
627	>	tmnew->pd[i] = NULL;
628	>	/* return copy */
629	>	return(tmnew);
630		}
631
632
537	–	int
538	–	tmPush(tms) /* push tone mapping on top of stack */
539	–	register struct tmStruct *tms;
540	–	{
541	–	static char funcName[] = "tmPush";
542	–	/* check validity */
543	–	if (tms == NULL \|\| !(tms->flags & TM_F_INITED))
544	–	returnErr(TM_E_ILLEGAL);
545	–	if (tms == tmTop) /* check necessity */
546	–	returnOK;
547	–	/* pull if already in stack */
548	–	(void)tmPull(tms);
549	–	/* push it on top */
550	–	tms->tmprev = tmTop;
551	–	tmTop = tms;
552	–	returnOK;
553	–	}
554	–
555	–
633		void
634		tmDone(tms) /* done with tone mapping -- destroy it */
635	<	register struct tmStruct *tms;
635	>	TMstruct *tms;
636		{
637	<	/* NULL arg. is equiv. to tmTop */
638	<	if (tms == NULL && (tms = tmTop) == NULL)
637	>	int i;
638	>	/* NULL arg. is equiv. to tms */
639	>	if (tms == NULL)
640		return;
563	–	/* take out of stack if present */
564	–	(void)tmPull(tms);
641		/* free tables */
642		if (tms->histo != NULL)
643	<	free((char *)tms->histo);
643	>	free((MEM_PTR)tms->histo);
644		if (tms->lumap != NULL)
645	<	free((char *)tms->lumap);
646	<	tms->flags = 0;
647	<	free((char )tms); / free basic structure */
645	>	free((MEM_PTR)tms->lumap);
646	>	/* free private data */
647	>	for (i = tmNumPkgs; i--; )
648	>	if (tms->pd[i] != NULL)
649	>	(*tmPkg[i]->Free)(tms->pd[i]);
650	>	free((MEM_PTR)tms); /* free basic structure */
651	>	}
652	>
653	>	/****************** Shared but Private library routines *******************/
654	>
655	>	uby8 tmMesofact[BMESUPPER-BMESLOWER];
656	>
657	>	void
658	>	tmMkMesofact() /* build mesopic lookup factor table */
659	>	{
660	>	int i;
661	>
662	>	if (tmMesofact[BMESUPPER-BMESLOWER-1])
663	>	return;
664	>
665	>	for (i = BMESLOWER; i < BMESUPPER; i++)
666	>	tmMesofact[i-BMESLOWER] = 256. *
667	>	(tmLuminance(i) - LMESLOWER) /
668	>	(LMESUPPER - LMESLOWER);
669	>	}
670	>
671	>
672	>	int
673	>	tmNewMap( /* allocate new tone-mapping array */
674	>	TMstruct *tms
675	>	)
676	>	{
677	>	if (tms->lumap != NULL && (tms->mbrmax - tms->mbrmin) !=
678	>	(tms->hbrmax - tms->hbrmin)) {
679	>	free((MEM_PTR)tms->lumap);
680	>	tms->lumap = NULL;
681	>	}
682	>	tms->mbrmin = tms->hbrmin;
683	>	tms->mbrmax = tms->hbrmax;
684	>	if (tms->mbrmin > tms->mbrmax)
685	>	return 0;
686	>	if (tms->lumap == NULL)
687	>	tms->lumap = (TMAP_TYP )malloc(sizeof(TMAP_TYP)
688	>	(tms->mbrmax-tms->mbrmin+1));
689	>	return(tms->lumap != NULL);
690	>	}
691	>
692	>
693	>	int
694	>	tmErrorReturn( /* error return (with message) */
695	>	const char *func,
696	>	TMstruct *tms,
697	>	int err
698	>	)
699	>	{
700	>	if (tms != NULL) {
701	>	tms->lastFunc = func;
702	>	tms->lastError = err;
703	>	if (tms->flags & TM_F_NOSTDERR)
704	>	return(err);
705	>	}
706	>	fputs(func, stderr);
707	>	fputs(": ", stderr);
708	>	fputs(tmErrorMessage[err], stderr);
709	>	fputs("!\n", stderr);
710	>	return(err);
711		}

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Comparing ray/src/common/tonemap.c (file contents): Revision 3.3 by greg, Wed Apr 16 20:28:03 1997 UTC vs. Revision 3.38 by greg, Wed Jan 6 19:25:00 2021 UTC

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Comparing ray/src/common/tonemap.c (file contents):
Revision 3.3 by greg, Wed Apr 16 20:28:03 1997 UTC vs.
Revision 3.38 by greg, Wed Jan 6 19:25:00 2021 UTC