[ViewVC] Diff of: radiance/ray/src/px/pcond2.c

Comparing ray/src/px/pcond2.c (file contents):
Revision 3.3 by greg, Fri Oct 4 18:34:57 1996 UTC vs.
Revision 3.17 by greg, Thu Sep 8 22:29:47 2005 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1996 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		* Input and output conditioning routines for pcond.
6	+	* Added white-balance adjustment 10/01 (GW).
7		*/
8
9		#include "pcond.h"
10	+	#include "warp3d.h"
11
12
13		RGBPRIMP inprims = stdprims; /* input primaries */
#	Line 19 \| Line 18 \| *double (lumf)() = rgblum; /* input luminance functio**
18		double inpexp = 1.0; /* input exposure value */
19
20		char mbcalfile = NULL; / macbethcal mapping file */
21	+	char cwarpfile = NULL; / color space warping file */
22
23		static struct mbc {
24	–	float xa[3][6], ya[3][6];
24		COLORMAT cmat;
25	+	float xa[3][6], ya[3][6];
26	+	COLOR cmin, cmax;
27		} mbcond; /* macbethcal conditioning struct */
28
29	+	static WARP3D cwarp; / color warping structure */
30	+
31		static COLOR scanbuf; / scanline processing buffer */
32		static int nread; /* number of scanlines processed */
33
34	+	static void sfscan(COLOR *sl, int len, double sf);
35	+	static void matscan(COLOR *sl, int len, COLORMAT mat);
36	+	static void mbscan(COLOR sl, int len, struct mbc mb);
37	+	static void cwscan(COLOR sl, int len, WARP3D wp);
38	+	static void getmbcalfile(char fn, struct mbc mb);
39
40	<	double
41	<	rgblum(clr, scotopic) /* compute (scotopic) luminance of RGB color */
42	<	COLOR clr;
43	<	int scotopic;
40	>
41	>	extern double
42	>	rgblum( /* compute (scotopic) luminance of RGB color */
43	>	COLOR clr,
44	>	int scotopic
45	>	)
46		{
47		if (scotopic) /* approximate */
48		return( WHTSEFFICACY * (colval(clr,RED)*.062 +
#	Line 43 \| Line 53 \| int scotopic;
53		}
54
55
56	<	double
57	<	cielum(xyz, scotopic) /* compute (scotopic) luminance of CIE color */
58	<	COLOR xyz;
59	<	int scotopic;
56	>	extern double
57	>	cielum( /* compute (scotopic) luminance of CIE color */
58	>	COLOR xyz,
59	>	int scotopic
60	>	)
61		{
62		if (scotopic) /* approximate */
63		return(colval(xyz,CIEY) *
#	Line 56 \| Line 67 \| int scotopic;
67		}
68
69
70	<	COLOR *
71	<	nextscan() /* read and condition next scanline */
70	>	extern COLOR *
71	>	nextscan(void) /* read and condition next scanline */
72		{
73		if (nread >= numscans(&inpres)) {
74	<	#ifdef DEBUG
75	<	fputs("done\n", stderr);
76	<	#endif
77	<	return(NULL);
74	>	if (cwarpfile != NULL)
75	>	free3dw(cwarp);
76	>	free((void *)scanbuf);
77	>	return(scanbuf = NULL);
78		}
79		if (what2do&DO_ACUITY)
80		acuscan(scanbuf, nread);
#	Line 82 \| Line 93 \| *nextscan() / read and condition next scanline /*
93		mapscan(scanbuf, scanlen(&inpres));
94		if (mbcalfile != NULL) /* device color correction */
95		mbscan(scanbuf, scanlen(&inpres), &mbcond);
96	<	else if (lumf == cielum \| inprims != outprims)
96	>	else if (cwarpfile != NULL) /* device color space warp */
97	>	cwscan(scanbuf, scanlen(&inpres), cwarp);
98	>	else if ((lumf == cielum) \| (inprims != outprims))
99		matscan(scanbuf, scanlen(&inpres), mbcond.cmat);
100		nread++;
101		return(scanbuf);
102		}
103
104
105	<	COLOR *
106	<	firstscan() /* return first processed scanline */
105	>	extern COLOR *
106	>	firstscan(void) /* return first processed scanline */
107		{
108		if (mbcalfile != NULL) /* load macbethcal file */
109		getmbcalfile(mbcalfile, &mbcond);
110	<	else
110	>	else if (cwarpfile != NULL) {
111	>	if ((cwarp = load3dw(cwarpfile, NULL)) == NULL)
112	>	syserror(cwarpfile);
113	>	} else
114		if (lumf == rgblum)
115	<	comprgb2rgbmat(mbcond.cmat, inprims, outprims);
115	>	comprgb2rgbWBmat(mbcond.cmat, inprims, outprims);
116		else
117	<	compxyz2rgbmat(mbcond.cmat, outprims);
118	<	if (what2do&DO_ACUITY) {
103	<	#ifdef DEBUG
104	<	fprintf(stderr, "%s: initializing acuity sampling...",
105	<	progname);
106	<	#endif
117	>	compxyz2rgbWBmat(mbcond.cmat, outprims);
118	>	if (what2do&DO_ACUITY)
119		initacuity();
108	–	#ifdef DEBUG
109	–	fprintf(stderr, "done\n");
110	–	#endif
111	–	}
120		scanbuf = (COLOR )malloc(scanlen(&inpres)sizeof(COLOR));
121		if (scanbuf == NULL)
122		syserror("malloc");
123		nread = 0;
116	–	#ifdef DEBUG
117	–	fprintf(stderr, "%s: processing image...", progname);
118	–	#endif
124		return(nextscan());
125		}
126
127
128	<	sfscan(sl, len, sf) /* apply scalefactor to scanline */
129	<	register COLOR *sl;
130	<	int len;
131	<	double sf;
128	>	static void
129	>	sfscan( /* apply scalefactor to scanline */
130	>	register COLOR *sl,
131	>	int len,
132	>	double sf
133	>	)
134		{
135		while (len--) {
136		scalecolor(sl[0], sf);
#	Line 132 \| Line 139 \| double sf;
139		}
140
141
142	<	matscan(sl, len, mat) /* apply color matrix to scaline */
143	<	register COLOR *sl;
144	<	int len;
145	<	COLORMAT mat;
142	>	static double
143	>	greypoint( /* compute gamut mapping grey target */
144	>	COLOR col
145	>	)
146		{
147	+	COLOR gryc;
148	+	int i;
149	+	/* improves saturated color rendering */
150	+	copycolor(gryc, col);
151	+	for (i = 3; i--; )
152	+	if (gryc[i] > 1)
153	+	gryc[i] = 1;
154	+	else if (gryc[i] < 0)
155	+	gryc[i] = 0;
156	+	return(bright(gryc));
157	+	}
158	+
159	+
160	+	static void
161	+	matscan( /* apply color matrix to scaline */
162	+	register COLOR *sl,
163	+	int len,
164	+	COLORMAT mat
165	+	)
166	+	{
167		while (len--) {
168		colortrans(sl[0], mat, sl[0]);
169	+	clipgamut(sl[0], greypoint(sl[0]), CGAMUT, cblack, cwhite);
170		sl++;
171		}
172		}
173
174
175	<	mbscan(sl, len, mb) /* apply macbethcal adj. to scaline */
176	<	COLOR *sl;
177	<	int len;
178	<	register struct mbc *mb;
175	>	static void
176	>	mbscan( /* apply macbethcal adj. to scaline */
177	>	COLOR *sl,
178	>	int len,
179	>	register struct mbc *mb
180	>	)
181		{
182		double d;
183		register int i, j;
184
185		while (len--) {
186	+	colortrans(sl[0], mb->cmat, sl[0]);
187	+	clipgamut(sl[0], greypoint(sl[0]), CGAMUT, mb->cmin, mb->cmax);
188		for (i = 0; i < 3; i++) {
189		d = colval(sl[0],i);
190		for (j = 0; j < 4 && mb->xa[i][j+1] <= d; j++)
#	Line 161 \| Line 193 \| *register struct mbc mb;**
193		(d - mb->xa[i][j])*mb->ya[i][j+1] ) /
194		(mb->xa[i][j+1] - mb->xa[i][j]);
195		}
164	–	colortrans(sl[0], mb->cmat, sl[0]);
196		sl++;
197		}
198		}
199
200
201	<	getmbcalfile(fn, mb) /* load macbethcal file */
202	<	char *fn;
203	<	register struct mbc *mb;
201	>	static void
202	>	cwscan( /* apply color space warp to scaline */
203	>	COLOR *sl,
204	>	int len,
205	>	WARP3D *wp
206	>	)
207		{
208	<	extern char *fgets();
208	>	int rval;
209	>
210	>	while (len--) {
211	>	rval = warp3d(sl[0], sl[0], wp);
212	>	if (rval & W3ERROR)
213	>	syserror("warp3d");
214	>	if (rval & W3BADMAP) {
215	>	fprintf(stderr, "%s: %s: bad color space map\n",
216	>	progname, cwarpfile);
217	>	exit(1);
218	>	}
219	>	clipgamut(sl[0], greypoint(sl[0]), CGAMUT, cblack, cwhite);
220	>	sl++;
221	>	}
222	>	}
223	>
224	>
225	>	static void
226	>	getmbcalfile( /* load macbethcal file */
227	>	char *fn,
228	>	register struct mbc *mb
229	>	)
230	>	{
231		char buf[128];
232		FILE *fp;
233		int inpflags = 0;
234	+	register int i;
235
236		if ((fp = fopen(fn, "r")) == NULL)
237		syserror(fn);
#	Line 253 \| Line 310 \| *register struct mbc mb;**
310		exit(1);
311		}
312		fclose(fp);
313	+	/* compute gamut */
314	+	for (i = 0; i < 3; i++) {
315	+	colval(mb->cmin,i) = mb->xa[i][0] -
316	+	mb->ya[i][0] *
317	+	(mb->xa[i][1]-mb->xa[i][0]) /
318	+	(mb->ya[i][1]-mb->ya[i][0]);
319	+	colval(mb->cmax,i) = mb->xa[i][4] +
320	+	(1.-mb->ya[i][4]) *
321	+	(mb->xa[i][5] - mb->xa[i][4]) /
322	+	(mb->ya[i][5] - mb->ya[i][4]);
323	+	}
324		}

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Comparing ray/src/px/pcond2.c (file contents): Revision 3.3 by greg, Fri Oct 4 18:34:57 1996 UTC vs. Revision 3.17 by greg, Thu Sep 8 22:29:47 2005 UTC

Diff Legend

Comparing ray/src/px/pcond2.c (file contents):
Revision 3.3 by greg, Fri Oct 4 18:34:57 1996 UTC vs.
Revision 3.17 by greg, Thu Sep 8 22:29:47 2005 UTC