src/px/pcond2.c

#ifndef lint
static const char       RCSid[] = "$Id: pcond2.c,v 3.11 2003/07/27 22:12:03 schorsch Exp $";
#endif
/*
 * Input and output conditioning routines for pcond.
 *  Added white-balance adjustment 10/01 (GW).
 */

#include "pcond.h"
#include "warp3d.h"


RGBPRIMP        inprims = stdprims;     /* input primaries */
COLORMAT        inrgb2xyz;              /* convert input RGB to XYZ */
RGBPRIMP        outprims = stdprims;    /* output primaries */

double  (*lumf)() = rgblum;             /* input luminance function */
double  inpexp = 1.0;                   /* input exposure value */

char    *mbcalfile = NULL;              /* macbethcal mapping file */
char    *cwarpfile = NULL;              /* color space warping file */

static struct mbc {
        COLORMAT        cmat;
        float   xa[3][6], ya[3][6];
        COLOR   cmin, cmax;
}       mbcond;                         /* macbethcal conditioning struct */

static WARP3D   *cwarp;                 /* color warping structure */

static COLOR    *scanbuf;               /* scanline processing buffer */
static int      nread;                  /* number of scanlines processed */

static void sfscan(COLOR *sl, int len, double sf);
static void matscan(COLOR *sl, int len, COLORMAT mat);
static void mbscan(COLOR *sl, int len, struct mbc *mb);
static void cwscan(COLOR *sl, int len, WARP3D *wp);
static void getmbcalfile(char *fn, struct mbc *mb);


extern double
rgblum(         /* compute (scotopic) luminance of RGB color */
        COLOR   clr,
        int     scotopic
)
{
        if (scotopic)           /* approximate */
                return( WHTSEFFICACY * (colval(clr,RED)*.062 +
                        colval(clr,GRN)*.608 + colval(clr,BLU)*.330) );
        return( WHTEFFICACY * (colval(clr,RED)*inrgb2xyz[1][0] +
                        colval(clr,GRN)*inrgb2xyz[1][1] +
                        colval(clr,BLU)*inrgb2xyz[1][2]) );
}


extern double
cielum(         /* compute (scotopic) luminance of CIE color */
        COLOR   xyz,
        int     scotopic
)
{
        if (scotopic)           /* approximate */
                return(colval(xyz,CIEY) *
                        (1.33*(1. + (colval(xyz,CIEY)+colval(xyz,CIEZ))/
                        colval(xyz,CIEX)) - 1.68));
        return(colval(xyz,CIEY));
}


extern COLOR *
nextscan(void)                          /* read and condition next scanline */
{
        if (nread >= numscans(&inpres)) {
                if (cwarpfile != NULL)
                        free3dw(cwarp);
                free((void *)scanbuf);
                return(scanbuf = NULL);
        }
        if (what2do&DO_ACUITY)
                acuscan(scanbuf, nread);
        else if (freadscan(scanbuf, scanlen(&inpres), infp) < 0) {
                fprintf(stderr, "%s: %s: scanline read error\n",
                                progname, infn);
                exit(1);
        }
        if (what2do&DO_VEIL)                    /* add veiling */
                addveil(scanbuf, nread);
        if (what2do&DO_COLOR)                   /* scotopic color loss */
                scotscan(scanbuf, scanlen(&inpres));
        if (what2do&DO_LINEAR)                  /* map luminances */
                sfscan(scanbuf, scanlen(&inpres), scalef);
        else
                mapscan(scanbuf, scanlen(&inpres));
        if (mbcalfile != NULL)                  /* device color correction */
                mbscan(scanbuf, scanlen(&inpres), &mbcond);
        else if (cwarpfile != NULL)             /* device color space warp */
                cwscan(scanbuf, scanlen(&inpres), cwarp);
        else if ((lumf == cielum) | (inprims != outprims))
                matscan(scanbuf, scanlen(&inpres), mbcond.cmat);
        nread++;
        return(scanbuf);
}


extern COLOR *
firstscan(void)                         /* return first processed scanline */
{
        if (mbcalfile != NULL)          /* load macbethcal file */
                getmbcalfile(mbcalfile, &mbcond);
        else if (cwarpfile != NULL) {
                if ((cwarp = load3dw(cwarpfile, NULL)) == NULL)
                        syserror(cwarpfile);
        } else
                if (lumf == rgblum)
                        comprgb2rgbWBmat(mbcond.cmat, inprims, outprims);
                else
                        compxyz2rgbWBmat(mbcond.cmat, outprims);
        if (what2do&DO_ACUITY)
                initacuity();
        scanbuf = (COLOR *)malloc(scanlen(&inpres)*sizeof(COLOR));
        if (scanbuf == NULL)
                syserror("malloc");
        nread = 0;
        return(nextscan());
}


static void
sfscan(                 /* apply scalefactor to scanline */
        register COLOR  *sl,
        int     len,
        double  sf
)
{
        while (len--) {
                scalecolor(sl[0], sf);
                sl++;
        }
}


static void
matscan(                        /* apply color matrix to scaline */
        register COLOR  *sl,
        int     len,
        COLORMAT        mat
)
{
        while (len--) {
                colortrans(sl[0], mat, sl[0]);
                clipgamut(sl[0], bright(sl[0]), CGAMUT, cblack, cwhite);
                sl++;
        }
}


static void
mbscan(                 /* apply macbethcal adj. to scaline */
        COLOR   *sl,
        int     len,
        register struct mbc     *mb
)
{
        double  d;
        register int    i, j;

        while (len--) {
                colortrans(sl[0], mb->cmat, sl[0]);
                clipgamut(sl[0], bright(sl[0]), CGAMUT, mb->cmin, mb->cmax);
                for (i = 0; i < 3; i++) {
                        d = colval(sl[0],i);
                        for (j = 0; j < 4 && mb->xa[i][j+1] <= d; j++)
                                ;
                        colval(sl[0],i) = ( (mb->xa[i][j+1] - d)*mb->ya[i][j] +
                                        (d - mb->xa[i][j])*mb->ya[i][j+1] ) /
                                        (mb->xa[i][j+1] - mb->xa[i][j]);
                }
                sl++;
        }
}


static void
cwscan(                 /* apply color space warp to scaline */
        COLOR   *sl,
        int     len,
        WARP3D  *wp
)
{
        int     rval;

        while (len--) {
                rval = warp3d(sl[0], sl[0], wp);
                if (rval & W3ERROR)
                        syserror("warp3d");
                if (rval & W3BADMAP) {
                        fprintf(stderr, "%s: %s: bad color space map\n",
                                        progname, cwarpfile);
                        exit(1);
                }
                clipgamut(sl[0], bright(sl[0]), CGAMUT, cblack, cwhite);
                sl++;
        }
}


static void
getmbcalfile(                   /* load macbethcal file */
        char    *fn,
        register struct mbc     *mb
)
{
        char    buf[128];
        FILE    *fp;
        int     inpflags = 0;
        register int    i;

        if ((fp = fopen(fn, "r")) == NULL)
                syserror(fn);
        while (fgets(buf, sizeof(buf), fp) != NULL) {
                if (!(inpflags & 01) &&
                                sscanf(buf,
                                "rxa(i) : select(i,%f,%f,%f,%f,%f,%f)",
                                &mb->xa[0][0], &mb->xa[0][1],
                                &mb->xa[0][2], &mb->xa[0][3],
                                &mb->xa[0][4], &mb->xa[0][5]
                                ) == 6)
                        inpflags |= 01;
                else if (!(inpflags & 02) &&
                                sscanf(buf,
                                "rya(i) : select(i,%f,%f,%f,%f,%f,%f)",
                                &mb->ya[0][0], &mb->ya[0][1],
                                &mb->ya[0][2], &mb->ya[0][3],
                                &mb->ya[0][4], &mb->ya[0][5]
                                ) == 6)
                        inpflags |= 02;
                else if (!(inpflags & 04) &&
                                sscanf(buf,
                                "gxa(i) : select(i,%f,%f,%f,%f,%f,%f)",
                                &mb->xa[1][0], &mb->xa[1][1],
                                &mb->xa[1][2], &mb->xa[1][3],
                                &mb->xa[1][4], &mb->xa[1][5]
                                ) == 6)
                        inpflags |= 04;
                else if (!(inpflags & 010) &&
                                sscanf(buf,
                                "gya(i) : select(i,%f,%f,%f,%f,%f,%f)",
                                &mb->ya[1][0], &mb->ya[1][1],
                                &mb->ya[1][2], &mb->ya[1][3],
                                &mb->ya[1][4], &mb->ya[1][5]
                                ) == 6)
                        inpflags |= 010;
                else if (!(inpflags & 020) &&
                                sscanf(buf,
                                "bxa(i) : select(i,%f,%f,%f,%f,%f,%f)",
                                &mb->xa[2][0], &mb->xa[2][1],
                                &mb->xa[2][2], &mb->xa[2][3],
                                &mb->xa[2][4], &mb->xa[2][5]
                                ) == 6)
                        inpflags |= 020;
                else if (!(inpflags & 040) &&
                                sscanf(buf,
                                "bya(i) : select(i,%f,%f,%f,%f,%f,%f)",
                                &mb->ya[2][0], &mb->ya[2][1],
                                &mb->ya[2][2], &mb->ya[2][3],
                                &mb->ya[2][4], &mb->ya[2][5]
                                ) == 6)
                        inpflags |= 040;
                else if (!(inpflags & 0100) &&
                                sscanf(buf,
                                "ro = %f*rn + %f*gn + %f*bn",
                                &mb->cmat[0][0], &mb->cmat[0][1],
                                &mb->cmat[0][2]) == 3)
                        inpflags |= 0100;
                else if (!(inpflags & 0200) &&
                                sscanf(buf,
                                "go = %f*rn + %f*gn + %f*bn",
                                &mb->cmat[1][0], &mb->cmat[1][1],
                                &mb->cmat[1][2]) == 3)
                        inpflags |= 0200;
                else if (!(inpflags & 0400) &&
                                sscanf(buf,
                                "bo = %f*rn + %f*gn + %f*bn",
                                &mb->cmat[2][0], &mb->cmat[2][1],
                                &mb->cmat[2][2]) == 3)
                        inpflags |= 0400;
        }
        if (inpflags != 0777) {
                fprintf(stderr,
                "%s: cannot grok macbethcal file \"%s\" (inpflags==0%o)\n",
                        progname, fn, inpflags);
                exit(1);
        }
        fclose(fp);
                                        /* compute gamut */
        for (i = 0; i < 3; i++) {
                colval(mb->cmin,i) = mb->xa[i][0] -
                                mb->ya[i][0] *
                                (mb->xa[i][1]-mb->xa[i][0]) /
                                (mb->ya[i][1]-mb->ya[i][0]);
                colval(mb->cmax,i) = mb->xa[i][4] +
                                (1.-mb->ya[i][4]) *
                                (mb->xa[i][5] - mb->xa[i][4]) /
                                (mb->ya[i][5] - mb->ya[i][4]);
        }
}
Revision:	3.12
Committed:	Sun Mar 28 20:33:14 2004 UTC (20 years ago) by schorsch
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad3R6, rad3R6P1
Changes since 3.11:	+50 -33 lines
Log Message:	Continued ANSIfication, and other fixes and clarifications.
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: pcond2.c,v 3.11 2003/07/27 22:12:03 schorsch Exp $";
3	#endif
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 */
14	COLORMAT inrgb2xyz; /* convert input RGB to XYZ */
15	RGBPRIMP outprims = stdprims; /* output primaries */
16
17	double (lumf)() = rgblum; / input luminance function */
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	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
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 +
49	colval(clr,GRN).608 + colval(clr,BLU).330) );
50	return( WHTEFFICACY * (colval(clr,RED)*inrgb2xyz[1][0] +
51	colval(clr,GRN)*inrgb2xyz[1][1] +
52	colval(clr,BLU)*inrgb2xyz[1][2]) );
53	}
54
55
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) *
64	(1.33*(1. + (colval(xyz,CIEY)+colval(xyz,CIEZ))/
65	colval(xyz,CIEX)) - 1.68));
66	return(colval(xyz,CIEY));
67	}
68
69
70	extern COLOR *
71	nextscan(void) /* read and condition next scanline */
72	{
73	if (nread >= numscans(&inpres)) {
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);
81	else if (freadscan(scanbuf, scanlen(&inpres), infp) < 0) {
82	fprintf(stderr, "%s: %s: scanline read error\n",
83	progname, infn);
84	exit(1);
85	}
86	if (what2do&DO_VEIL) /* add veiling */
87	addveil(scanbuf, nread);
88	if (what2do&DO_COLOR) /* scotopic color loss */
89	scotscan(scanbuf, scanlen(&inpres));
90	if (what2do&DO_LINEAR) /* map luminances */
91	sfscan(scanbuf, scanlen(&inpres), scalef);
92	else
93	mapscan(scanbuf, scanlen(&inpres));
94	if (mbcalfile != NULL) /* device color correction */
95	mbscan(scanbuf, scanlen(&inpres), &mbcond);
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	extern COLOR *
106	firstscan(void) /* return first processed scanline */
107	{
108	if (mbcalfile != NULL) /* load macbethcal file */
109	getmbcalfile(mbcalfile, &mbcond);
110	else if (cwarpfile != NULL) {
111	if ((cwarp = load3dw(cwarpfile, NULL)) == NULL)
112	syserror(cwarpfile);
113	} else
114	if (lumf == rgblum)
115	comprgb2rgbWBmat(mbcond.cmat, inprims, outprims);
116	else
117	compxyz2rgbWBmat(mbcond.cmat, outprims);
118	if (what2do&DO_ACUITY)
119	initacuity();
120	scanbuf = (COLOR )malloc(scanlen(&inpres)sizeof(COLOR));
121	if (scanbuf == NULL)
122	syserror("malloc");
123	nread = 0;
124	return(nextscan());
125	}
126
127
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);
137	sl++;
138	}
139	}
140
141
142	static void
143	matscan( /* apply color matrix to scaline */
144	register COLOR *sl,
145	int len,
146	COLORMAT mat
147	)
148	{
149	while (len--) {
150	colortrans(sl[0], mat, sl[0]);
151	clipgamut(sl[0], bright(sl[0]), CGAMUT, cblack, cwhite);
152	sl++;
153	}
154	}
155
156
157	static void
158	mbscan( /* apply macbethcal adj. to scaline */
159	COLOR *sl,
160	int len,
161	register struct mbc *mb
162	)
163	{
164	double d;
165	register int i, j;
166
167	while (len--) {
168	colortrans(sl[0], mb->cmat, sl[0]);
169	clipgamut(sl[0], bright(sl[0]), CGAMUT, mb->cmin, mb->cmax);
170	for (i = 0; i < 3; i++) {
171	d = colval(sl[0],i);
172	for (j = 0; j < 4 && mb->xa[i][j+1] <= d; j++)
173	;
174	colval(sl[0],i) = ( (mb->xa[i][j+1] - d)*mb->ya[i][j] +
175	(d - mb->xa[i][j])*mb->ya[i][j+1] ) /
176	(mb->xa[i][j+1] - mb->xa[i][j]);
177	}
178	sl++;
179	}
180	}
181
182
183	static void
184	cwscan( /* apply color space warp to scaline */
185	COLOR *sl,
186	int len,
187	WARP3D *wp
188	)
189	{
190	int rval;
191
192	while (len--) {
193	rval = warp3d(sl[0], sl[0], wp);
194	if (rval & W3ERROR)
195	syserror("warp3d");
196	if (rval & W3BADMAP) {
197	fprintf(stderr, "%s: %s: bad color space map\n",
198	progname, cwarpfile);
199	exit(1);
200	}
201	clipgamut(sl[0], bright(sl[0]), CGAMUT, cblack, cwhite);
202	sl++;
203	}
204	}
205
206
207	static void
208	getmbcalfile( /* load macbethcal file */
209	char *fn,
210	register struct mbc *mb
211	)
212	{
213	char buf[128];
214	FILE *fp;
215	int inpflags = 0;
216	register int i;
217
218	if ((fp = fopen(fn, "r")) == NULL)
219	syserror(fn);
220	while (fgets(buf, sizeof(buf), fp) != NULL) {
221	if (!(inpflags & 01) &&
222	sscanf(buf,
223	"rxa(i) : select(i,%f,%f,%f,%f,%f,%f)",
224	&mb->xa[0][0], &mb->xa[0][1],
225	&mb->xa[0][2], &mb->xa[0][3],
226	&mb->xa[0][4], &mb->xa[0][5]
227	) == 6)
228	inpflags \|= 01;
229	else if (!(inpflags & 02) &&
230	sscanf(buf,
231	"rya(i) : select(i,%f,%f,%f,%f,%f,%f)",
232	&mb->ya[0][0], &mb->ya[0][1],
233	&mb->ya[0][2], &mb->ya[0][3],
234	&mb->ya[0][4], &mb->ya[0][5]
235	) == 6)
236	inpflags \|= 02;
237	else if (!(inpflags & 04) &&
238	sscanf(buf,
239	"gxa(i) : select(i,%f,%f,%f,%f,%f,%f)",
240	&mb->xa[1][0], &mb->xa[1][1],
241	&mb->xa[1][2], &mb->xa[1][3],
242	&mb->xa[1][4], &mb->xa[1][5]
243	) == 6)
244	inpflags \|= 04;
245	else if (!(inpflags & 010) &&
246	sscanf(buf,
247	"gya(i) : select(i,%f,%f,%f,%f,%f,%f)",
248	&mb->ya[1][0], &mb->ya[1][1],
249	&mb->ya[1][2], &mb->ya[1][3],
250	&mb->ya[1][4], &mb->ya[1][5]
251	) == 6)
252	inpflags \|= 010;
253	else if (!(inpflags & 020) &&
254	sscanf(buf,
255	"bxa(i) : select(i,%f,%f,%f,%f,%f,%f)",
256	&mb->xa[2][0], &mb->xa[2][1],
257	&mb->xa[2][2], &mb->xa[2][3],
258	&mb->xa[2][4], &mb->xa[2][5]
259	) == 6)
260	inpflags \|= 020;
261	else if (!(inpflags & 040) &&
262	sscanf(buf,
263	"bya(i) : select(i,%f,%f,%f,%f,%f,%f)",
264	&mb->ya[2][0], &mb->ya[2][1],
265	&mb->ya[2][2], &mb->ya[2][3],
266	&mb->ya[2][4], &mb->ya[2][5]
267	) == 6)
268	inpflags \|= 040;
269	else if (!(inpflags & 0100) &&
270	sscanf(buf,
271	"ro = %frn + %fgn + %f*bn",
272	&mb->cmat[0][0], &mb->cmat[0][1],
273	&mb->cmat[0][2]) == 3)
274	inpflags \|= 0100;
275	else if (!(inpflags & 0200) &&
276	sscanf(buf,
277	"go = %frn + %fgn + %f*bn",
278	&mb->cmat[1][0], &mb->cmat[1][1],
279	&mb->cmat[1][2]) == 3)
280	inpflags \|= 0200;
281	else if (!(inpflags & 0400) &&
282	sscanf(buf,
283	"bo = %frn + %fgn + %f*bn",
284	&mb->cmat[2][0], &mb->cmat[2][1],
285	&mb->cmat[2][2]) == 3)
286	inpflags \|= 0400;
287	}
288	if (inpflags != 0777) {
289	fprintf(stderr,
290	"%s: cannot grok macbethcal file \"%s\" (inpflags==0%o)\n",
291	progname, fn, inpflags);
292	exit(1);
293	}
294	fclose(fp);
295	/* compute gamut */
296	for (i = 0; i < 3; i++) {
297	colval(mb->cmin,i) = mb->xa[i][0] -
298	mb->ya[i][0] *
299	(mb->xa[i][1]-mb->xa[i][0]) /
300	(mb->ya[i][1]-mb->ya[i][0]);
301	colval(mb->cmax,i) = mb->xa[i][4] +
302	(1.-mb->ya[i][4]) *
303	(mb->xa[i][5] - mb->xa[i][4]) /
304	(mb->ya[i][5] - mb->ya[i][4]);
305	}
306	}